%!PS %% $Id: pst-barcode.pro 588 2022-08-23 16:49:51Z herbert $ % Barcode Writer in Pure PostScript - Version 2022-08-21 % https://bwipp.terryburton.co.uk % % Copyright (c) 2004-2022 Terry Burton % % Permission is hereby granted, free of charge, to any % person obtaining a copy of this software and associated % documentation files (the "Software"), to deal in the % Software without restriction, including without % limitation the rights to use, copy, modify, merge, % publish, distribute, sublicense, and/or sell copies of % the Software, and to permit persons to whom the Software % is furnished to do so, subject to the following % conditions: % % The above copyright notice and this permission notice % shall be included in all copies or substantial portions % of the Software. % % THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY % KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO % THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A % PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL % THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, % DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF % CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN % CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS % IN THE SOFTWARE. % --BEGIN TEMPLATE-- % --BEGIN RESOURCE preamble-- %%BeginResource: Category uk.co.terryburton.bwipp 0.0 2022082100 29733 32838 %%BeginData: 6 ASCII Lines currentglobal true setglobal /Generic /Category findresource dup length 1 add dict copy dup /InstanceType /setpacking where {pop /packedarraytype} {/arraytype} ifelse put /uk.co.terryburton.bwipp exch /Category defineresource pop setglobal %%EndData %%EndResource % --END RESOURCE preamble-- % --BEGIN RESOURCE loadctx-- % --REQUIRES preamble-- %%BeginResource: uk.co.terryburton.bwipp loadctx 0.0 2022082100 40205 39999 %%BeginData: 25 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 1 dict begin /loadctx { % Place a context dictionary just below the current dictionary, which can % be populated with static data on the first run and then carried between % invocations of the encoder /ctxname exch def ctx null ne { ctx ctxname known not { ctx ctxname 10 dict put /ctxdef {ctx ctxname get begin exec end} def } { /ctxdef {pop} def % No need to redefine within the existing context } ifelse currentdict ctx ctxname get end begin begin } { /ctxdef {exec} def % No context provided, so define ephemerally } ifelse } [/barcode] {null def} forall bind def /loadctx dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END RESOURCE loadctx-- % --BEGIN RESOURCE unloadctx-- % --REQUIRES preamble-- %%BeginResource: uk.co.terryburton.bwipp unloadctx 0.0 2022082100 38856 38677 %%BeginData: 14 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 1 dict begin /unloadctx { % Remove the context which is expected to be just underneath currentdict ctx null ne { currentdict end end begin } if } [/barcode] {null def} forall bind def /unloadctx dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END RESOURCE unloadctx-- % --BEGIN RESOURCE raiseerror-- % --REQUIRES preamble-- %%BeginResource: uk.co.terryburton.bwipp raiseerror 0.0 2022082100 39029 38860 %%BeginData: 15 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict begin /raiseerror { $error exch /errorinfo exch put $error exch /errorname exch put $error /command null put $error /newerror true put stop } [/barcode] {null def} forall bind def /raiseerror dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END RESOURCE raiseerror-- % --BEGIN RESOURCE parseinput-- % --REQUIRES preamble loadctx unloadctx raiseerror-- %%BeginResource: uk.co.terryburton.bwipp parseinput 0.0 2022082100 73377 69190 %%BeginData: 174 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put begin /parseinput { 20 dict begin /parseinput //loadctx exec /fncvals exch def /barcode exch def /parse dup dup fncvals exch get def fncvals exch undef /parsefnc dup dup fncvals exch get def fncvals exch undef /parseonly dup dup fncvals exch known def fncvals exch undef /eci dup dup fncvals exch known def fncvals exch undef % Control character names to ordinals { << [ /NUL /SOH /STX /ETX /EOT /ENQ /ACK /BEL /BS /TAB /LF /VT /FF /CR () () % SO and SI prefix clash with SOH /DLE /DC1 /DC2 /DC3 /DC4 /NAK /SYN /ETB /CAN /EM /SUB /ESC /FS /GS /RS /US ] 0 exch { 1 index 1 add 3 1 roll exch 3 -1 roll } forall pop >> /ctrl exch def } ctxdef /msg barcode length array def /j 0 def barcode { % loop (^) search exch % Copy characters up to a "^" dup length exch msg exch j exch [ exch {} forall ] putinterval j add /j exch def { % Found a "^" escape character pop 1 { % common exit parse not parsefnc not and { % "^" as is msg j 94 put /j j 1 add def exit } if % Encode "^" to start with msg j 94 put /j j 1 add def % parse parse { dup length 3 ge { % "^XXX" byte dup 0 3 getinterval ctrl exch 2 copy known { /j j 1 sub def % Replace "^" with ordinal get msg exch j exch put /j j 1 add def dup length 3 sub 3 exch getinterval exit } { pop pop } ifelse } if dup length 2 ge { % "^XX" to byte dup 0 2 getinterval ctrl exch 2 copy known { /j j 1 sub def % Replace "^" with ordinal get msg exch j exch put /j j 1 add def dup length 2 sub 2 exch getinterval exit } { pop pop } ifelse } if dup length 3 ge { % "^NNN" to byte dup 0 3 getinterval true exch { dup 48 lt exch 57 gt or { pop false } if } forall { dup 0 3 getinterval cvi dup 255 gt { pop pop /bwipp.invalidOrdinal (Ordinal must be 000 to 255) //raiseerror exec } if /j j 1 sub def % Replace "^" with ordinal msg exch j exch put /j j 1 add def dup length 3 sub 3 exch getinterval } if } if } if parseonly parsefnc not or msg j 1 sub get 94 ne % Carat was substituted away or {exit} if % parsefnc /j j 1 sub def dup length 3 lt { pop /bwipp.truncatedFNC (Function character truncated) //raiseerror exec } if dup 0 get 94 eq { % "^^" -> "^" msg j 94 put /j j 1 add def dup length 1 sub 1 exch getinterval exit } if dup 0 3 getinterval (ECI) eq eci and { % "^ECInnnnnn" -> -1nnnnnn dup length 9 lt { pop /bwipp.truncatedECI (ECI truncated) //raiseerror exec } if dup 3 6 getinterval dup { dup 48 lt exch 57 gt or { pop pop /bwipp.invalidECI (ECI must be 000000 to 999999) //raiseerror exec } if } forall 0 exch {48 sub sub 10 mul} forall 10 idiv 1000000 sub msg exch j exch put /j j 1 add def dup length 9 sub 9 exch getinterval exit } if dup length 4 lt { % "^FNCx" -> fncvals{FNCx} pop /bwipp.truncatedFNC (Function character truncated) //raiseerror exec } if dup 0 4 getinterval dup fncvals exch known not { dup length 28 add string dup 28 4 -1 roll putinterval dup 0 (Unknown function character: ) putinterval exch pop /bwipp.unknownFNC exch //raiseerror exec } if fncvals exch get msg exch j exch put /j j 1 add def dup length 4 sub 4 exch getinterval exit } repeat } { % No more "^" characters exit } ifelse } loop parseonly not { msg 0 j getinterval } { j string 0 1 j 1 sub { 1 index exch dup msg exch get put } for } ifelse //unloadctx exec end } [/barcode] {null def} forall bind def /parseinput dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END RESOURCE parseinput-- % --BEGIN RESOURCE gs1process-- % --REQUIRES preamble loadctx unloadctx parseinput raiseerror-- %%BeginResource: uk.co.terryburton.bwipp gs1process 0.0 2022082100 526019 593612 %%BeginData: 2909 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put begin /gs1process { 20 dict begin /gs1process //loadctx exec { % Extracted from the GS1 Syntax Dictionary /gs1syntax << << /parts [ << /cset /N /min 18 /max 18 /opt false /linters [ /lintcsum /lintkey ] >> ] /dlpkey [ ] >> (00) exch dup pop << /parts [ << /cset /N /min 14 /max 14 /opt false /linters [ /lintcsum /lintkey ] >> ] /ex [ (02) (255) (37) ] /dlpkey [ [ (22) (10) (21) ] [ (235) ] ] >> (01) exch dup pop << /parts [ << /cset /N /min 14 /max 14 /opt false /linters [ /lintcsum /lintkey ] >> ] /req [ [ (37) ] ] >> (02) exch dup pop << /parts [ << /cset /X /min 1 /max 20 /opt false /linters [] >> ] /req [ [ (01) (02) (8006) (8026) ] ] >> (10) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [ /lintyymmd0 ] >> ] /req [ [ (01) (02) (8006) (8026) ] ] >> (11) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [ /lintyymmd0 ] >> ] /req [ [ (8020) ] ] >> (12) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [ /lintyymmd0 ] >> ] /req [ [ (01) (02) (8006) (8026) ] ] >> (13) exch dup (15) exch dup (16) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [ /lintyymmd0 ] >> ] /req [ [ (01) (02) (255) (8006) (8026) ] ] >> (17) exch dup pop << /parts [ << /cset /N /min 2 /max 2 /opt false /linters [] >> ] /req [ [ (01) (02) (8006) (8026) ] ] >> (20) exch dup pop << /parts [ << /cset /X /min 1 /max 20 /opt false /linters [] >> ] /ex [ (235) ] /req [ [ (01) (8006) ] ] >> (21) exch dup pop << /parts [ << /cset /X /min 1 /max 20 /opt false /linters [] >> ] /req [ [ (01) ] ] >> (22) exch dup pop << /parts [ << /cset /X /min 1 /max 28 /opt false /linters [] >> ] /req [ [ (01) ] ] >> (235) exch dup pop << /parts [ << /cset /X /min 1 /max 30 /opt false /linters [] >> ] /req [ [ (01) (02) (8006) (8026) ] ] >> (240) exch dup (241) exch dup pop << /parts [ << /cset /N /min 1 /max 6 /opt false /linters [] >> ] /req [ [ (01) (02) (8006) (8026) ] ] >> (242) exch dup pop << /parts [ << /cset /X /min 1 /max 20 /opt false /linters [] >> ] /req [ [ (01) ] ] >> (243) exch dup pop << /parts [ << /cset /X /min 1 /max 30 /opt false /linters [] >> ] /req [ [ (01) (8006) ] [ (21) ] ] >> (250) exch dup pop << /parts [ << /cset /X /min 1 /max 30 /opt false /linters [] >> ] /req [ [ (01) (8006) ] ] >> (251) exch dup pop << /parts [ << /cset /N /min 13 /max 13 /opt false /linters [ /lintcsum /lintkey ] >> << /cset /X /min 1 /max 17 /opt true /linters [] >> ] /dlpkey [ ] >> (253) exch dup pop << /parts [ << /cset /X /min 1 /max 20 /opt false /linters [] >> ] /req [ [ (414) ] ] >> (254) exch dup pop << /parts [ << /cset /N /min 13 /max 13 /opt false /linters [ /lintcsum /lintkey ] >> << /cset /N /min 1 /max 12 /opt true /linters [] >> ] /ex [ (01) (02) (415) (8006) (8020) (8026) ] /dlpkey [ ] >> (255) exch dup pop << /parts [ << /cset /N /min 1 /max 8 /opt false /linters [] >> ] /req [ [ (01) (02) ] ] >> (30) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (310n) ] /req [ [ (01) (02) ] ] >> (3100) exch dup (3101) exch dup (3102) exch dup (3103) exch dup (3104) exch dup (3105) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (311n) ] /req [ [ (01) (02) ] ] >> (3110) exch dup (3111) exch dup (3112) exch dup (3113) exch dup (3114) exch dup (3115) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (312n) ] /req [ [ (01) (02) ] ] >> (3120) exch dup (3121) exch dup (3122) exch dup (3123) exch dup (3124) exch dup (3125) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (313n) ] /req [ [ (01) (02) ] ] >> (3130) exch dup (3131) exch dup (3132) exch dup (3133) exch dup (3134) exch dup (3135) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (314n) ] /req [ [ (01) (02) ] ] >> (3140) exch dup (3141) exch dup (3142) exch dup (3143) exch dup (3144) exch dup (3145) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (315n) ] /req [ [ (01) (02) ] ] >> (3150) exch dup (3151) exch dup (3152) exch dup (3153) exch dup (3154) exch dup (3155) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (316n) ] /req [ [ (01) (02) ] ] >> (3160) exch dup (3161) exch dup (3162) exch dup (3163) exch dup (3164) exch dup (3165) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (320n) ] /req [ [ (01) (02) ] ] >> (3200) exch dup (3201) exch dup (3202) exch dup (3203) exch dup (3204) exch dup (3205) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (321n) ] /req [ [ (01) (02) ] ] >> (3210) exch dup (3211) exch dup (3212) exch dup (3213) exch dup (3214) exch dup (3215) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (322n) ] /req [ [ (01) (02) ] ] >> (3220) exch dup (3221) exch dup (3222) exch dup (3223) exch dup (3224) exch dup (3225) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (323n) ] /req [ [ (01) (02) ] ] >> (3230) exch dup (3231) exch dup (3232) exch dup (3233) exch dup (3234) exch dup (3235) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (324n) ] /req [ [ (01) (02) ] ] >> (3240) exch dup (3241) exch dup (3242) exch dup (3243) exch dup (3244) exch dup (3245) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (325n) ] /req [ [ (01) (02) ] ] >> (3250) exch dup (3251) exch dup (3252) exch dup (3253) exch dup (3254) exch dup (3255) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (326n) ] /req [ [ (01) (02) ] ] >> (3260) exch dup (3261) exch dup (3262) exch dup (3263) exch dup (3264) exch dup (3265) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (327n) ] /req [ [ (01) (02) ] ] >> (3270) exch dup (3271) exch dup (3272) exch dup (3273) exch dup (3274) exch dup (3275) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (328n) ] /req [ [ (01) (02) ] ] >> (3280) exch dup (3281) exch dup (3282) exch dup (3283) exch dup (3284) exch dup (3285) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (329n) ] /req [ [ (01) (02) ] ] >> (3290) exch dup (3291) exch dup (3292) exch dup (3293) exch dup (3294) exch dup (3295) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (330n) ] /req [ [ (00) (01) ] ] >> (3300) exch dup (3301) exch dup (3302) exch dup (3303) exch dup (3304) exch dup (3305) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (331n) ] /req [ [ (00) (01) ] ] >> (3310) exch dup (3311) exch dup (3312) exch dup (3313) exch dup (3314) exch dup (3315) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (332n) ] /req [ [ (00) (01) ] ] >> (3320) exch dup (3321) exch dup (3322) exch dup (3323) exch dup (3324) exch dup (3325) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (333n) ] /req [ [ (00) (01) ] ] >> (3330) exch dup (3331) exch dup (3332) exch dup (3333) exch dup (3334) exch dup (3335) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (334n) ] /req [ [ (00) (01) ] ] >> (3340) exch dup (3341) exch dup (3342) exch dup (3343) exch dup (3344) exch dup (3345) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (335n) ] /req [ [ (00) (01) ] ] >> (3350) exch dup (3351) exch dup (3352) exch dup (3353) exch dup (3354) exch dup (3355) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (336n) ] /req [ [ (00) (01) ] ] >> (3360) exch dup (3361) exch dup (3362) exch dup (3363) exch dup (3364) exch dup (3365) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (337n) ] /req [ [ (01) ] ] >> (3370) exch dup (3371) exch dup (3372) exch dup (3373) exch dup (3374) exch dup (3375) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (340n) ] /req [ [ (00) (01) ] ] >> (3400) exch dup (3401) exch dup (3402) exch dup (3403) exch dup (3404) exch dup (3405) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (341n) ] /req [ [ (00) (01) ] ] >> (3410) exch dup (3411) exch dup (3412) exch dup (3413) exch dup (3414) exch dup (3415) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (342n) ] /req [ [ (00) (01) ] ] >> (3420) exch dup (3421) exch dup (3422) exch dup (3423) exch dup (3424) exch dup (3425) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (343n) ] /req [ [ (00) (01) ] ] >> (3430) exch dup (3431) exch dup (3432) exch dup (3433) exch dup (3434) exch dup (3435) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (344n) ] /req [ [ (00) (01) ] ] >> (3440) exch dup (3441) exch dup (3442) exch dup (3443) exch dup (3444) exch dup (3445) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (345n) ] /req [ [ (00) (01) ] ] >> (3450) exch dup (3451) exch dup (3452) exch dup (3453) exch dup (3454) exch dup (3455) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (346n) ] /req [ [ (00) (01) ] ] >> (3460) exch dup (3461) exch dup (3462) exch dup (3463) exch dup (3464) exch dup (3465) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (347n) ] /req [ [ (00) (01) ] ] >> (3470) exch dup (3471) exch dup (3472) exch dup (3473) exch dup (3474) exch dup (3475) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (348n) ] /req [ [ (00) (01) ] ] >> (3480) exch dup (3481) exch dup (3482) exch dup (3483) exch dup (3484) exch dup (3485) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (349n) ] /req [ [ (00) (01) ] ] >> (3490) exch dup (3491) exch dup (3492) exch dup (3493) exch dup (3494) exch dup (3495) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (350n) ] /req [ [ (01) (02) ] ] >> (3500) exch dup (3501) exch dup (3502) exch dup (3503) exch dup (3504) exch dup (3505) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (351n) ] /req [ [ (01) (02) ] ] >> (3510) exch dup (3511) exch dup (3512) exch dup (3513) exch dup (3514) exch dup (3515) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (352n) ] /req [ [ (01) (02) ] ] >> (3520) exch dup (3521) exch dup (3522) exch dup (3523) exch dup (3524) exch dup (3525) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (353n) ] /req [ [ (00) (01) ] ] >> (3530) exch dup (3531) exch dup (3532) exch dup (3533) exch dup (3534) exch dup (3535) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (354n) ] /req [ [ (00) (01) ] ] >> (3540) exch dup (3541) exch dup (3542) exch dup (3543) exch dup (3544) exch dup (3545) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (355n) ] /req [ [ (00) (01) ] ] >> (3550) exch dup (3551) exch dup (3552) exch dup (3553) exch dup (3554) exch dup (3555) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (356n) ] /req [ [ (01) (02) ] ] >> (3560) exch dup (3561) exch dup (3562) exch dup (3563) exch dup (3564) exch dup (3565) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (357n) ] /req [ [ (01) (02) ] ] >> (3570) exch dup (3571) exch dup (3572) exch dup (3573) exch dup (3574) exch dup (3575) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (360n) ] /req [ [ (01) (02) ] ] >> (3600) exch dup (3601) exch dup (3602) exch dup (3603) exch dup (3604) exch dup (3605) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (361n) ] /req [ [ (01) (02) ] ] >> (3610) exch dup (3611) exch dup (3612) exch dup (3613) exch dup (3614) exch dup (3615) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (362n) ] /req [ [ (00) (01) ] ] >> (3620) exch dup (3621) exch dup (3622) exch dup (3623) exch dup (3624) exch dup (3625) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (363n) ] /req [ [ (00) (01) ] ] >> (3630) exch dup (3631) exch dup (3632) exch dup (3633) exch dup (3634) exch dup (3635) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (364n) ] /req [ [ (01) (02) ] ] >> (3640) exch dup (3641) exch dup (3642) exch dup (3643) exch dup (3644) exch dup (3645) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (365n) ] /req [ [ (01) (02) ] ] >> (3650) exch dup (3651) exch dup (3652) exch dup (3653) exch dup (3654) exch dup (3655) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (366n) ] /req [ [ (01) (02) ] ] >> (3660) exch dup (3661) exch dup (3662) exch dup (3663) exch dup (3664) exch dup (3665) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (367n) ] /req [ [ (00) (01) ] ] >> (3670) exch dup (3671) exch dup (3672) exch dup (3673) exch dup (3674) exch dup (3675) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (368n) ] /req [ [ (00) (01) ] ] >> (3680) exch dup (3681) exch dup (3682) exch dup (3683) exch dup (3684) exch dup (3685) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (369n) ] /req [ [ (00) (01) ] ] >> (3690) exch dup (3691) exch dup (3692) exch dup (3693) exch dup (3694) exch dup (3695) exch dup pop << /parts [ << /cset /N /min 1 /max 8 /opt false /linters [] >> ] /req [ [ (00) ] [ (02) (8026) ] ] >> (37) exch dup pop << /parts [ << /cset /N /min 1 /max 15 /opt false /linters [] >> ] /ex [ (390n) (391n) (394n) (8111) ] /req [ [ (255) (8020) ] ] >> (3900) exch dup (3901) exch dup (3902) exch dup (3903) exch dup (3904) exch dup (3905) exch dup (3906) exch dup (3907) exch dup (3908) exch dup (3909) exch dup pop << /parts [ << /cset /N /min 3 /max 3 /opt false /linters [ /lintiso4217 ] >> << /cset /N /min 1 /max 15 /opt false /linters [] >> ] /ex [ (391n) ] /req [ [ (8020) ] ] >> (3910) exch dup (3911) exch dup (3912) exch dup (3913) exch dup (3914) exch dup (3915) exch dup (3916) exch dup (3917) exch dup (3918) exch dup (3919) exch dup pop << /parts [ << /cset /N /min 1 /max 15 /opt false /linters [] >> ] /ex [ (392n) (393n) ] /req [ [ (01) ] [ (30) (31nn) (32nn) (35nn) (36nn) ] ] >> (3920) exch dup (3921) exch dup (3922) exch dup (3923) exch dup (3924) exch dup (3925) exch dup (3926) exch dup (3927) exch dup (3928) exch dup (3929) exch dup pop << /parts [ << /cset /N /min 3 /max 3 /opt false /linters [ /lintiso4217 ] >> << /cset /N /min 1 /max 15 /opt false /linters [] >> ] /ex [ (393n) ] /req [ [ (30) (31nn) (32nn) (35nn) (36nn) ] ] >> (3930) exch dup (3931) exch dup (3932) exch dup (3933) exch dup (3934) exch dup (3935) exch dup (3936) exch dup (3937) exch dup (3938) exch dup (3939) exch dup pop << /parts [ << /cset /N /min 4 /max 4 /opt false /linters [] >> ] /ex [ (394n) (8111) ] /req [ [ (255) ] ] >> (3940) exch dup (3941) exch dup (3942) exch dup (3943) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /ex [ (392n) (393n) (395n) (8005) ] /req [ [ (30) (31nn) (32nn) (35nn) (36nn) ] ] >> (3950) exch dup (3951) exch dup (3952) exch dup (3953) exch dup (3954) exch dup (3955) exch dup pop << /parts [ << /cset /X /min 1 /max 30 /opt false /linters [] >> ] >> (400) exch dup pop << /parts [ << /cset /X /min 1 /max 30 /opt false /linters [ /lintkey ] >> ] /dlpkey [ ] >> (401) exch dup pop << /parts [ << /cset /N /min 17 /max 17 /opt false /linters [ /lintcsum /lintkey ] >> ] /dlpkey [ ] >> (402) exch dup pop << /parts [ << /cset /X /min 1 /max 30 /opt false /linters [] >> ] /req [ [ (00) ] ] >> (403) exch dup pop << /parts [ << /cset /N /min 13 /max 13 /opt false /linters [ /lintcsum /lintkey ] >> ] >> (410) exch dup (411) exch dup (412) exch dup (413) exch dup pop << /parts [ << /cset /N /min 13 /max 13 /opt false /linters [ /lintcsum /lintkey ] >> ] /dlpkey [ [ (254) ] [ (7040) ] ] >> (414) exch dup pop << /parts [ << /cset /N /min 13 /max 13 /opt false /linters [ /lintcsum /lintkey ] >> ] /req [ [ (8020) ] ] >> (415) exch dup pop << /parts [ << /cset /N /min 13 /max 13 /opt false /linters [ /lintcsum /lintkey ] >> ] >> (416) exch dup pop << /parts [ << /cset /N /min 13 /max 13 /opt false /linters [ /lintcsum /lintkey ] >> ] /dlpkey [ [ (7040) ] ] >> (417) exch dup pop << /parts [ << /cset /X /min 1 /max 20 /opt false /linters [] >> ] /ex [ (421) ] >> (420) exch dup pop << /parts [ << /cset /N /min 3 /max 3 /opt false /linters [ /lintiso3166 ] >> << /cset /X /min 1 /max 9 /opt false /linters [] >> ] /ex [ (4307) ] >> (421) exch dup pop << /parts [ << /cset /N /min 3 /max 3 /opt false /linters [ /lintiso3166 ] >> ] /ex [ (426) ] /req [ [ (01) (02) (8006) (8026) ] ] >> (422) exch dup pop << /parts [ << /cset /N /min 1 /max 15 /opt false /linters [ /lintiso3166list ] >> ] /ex [ (426) ] /req [ [ (01) (02) ] ] >> (423) exch dup pop << /parts [ << /cset /N /min 3 /max 3 /opt false /linters [ /lintiso3166 ] >> ] /ex [ (426) ] /req [ [ (01) (02) ] ] >> (424) exch dup pop << /parts [ << /cset /N /min 1 /max 15 /opt false /linters [ /lintiso3166list ] >> ] /ex [ (426) ] /req [ [ (01) (02) ] ] >> (425) exch dup pop << /parts [ << /cset /N /min 3 /max 3 /opt false /linters [ /lintiso3166 ] >> ] /req [ [ (01) (02) ] ] >> (426) exch dup pop << /parts [ << /cset /X /min 1 /max 3 /opt false /linters [] >> ] /req [ [ (01) (02) ] [ (422) ] ] >> (427) exch dup pop << /parts [ << /cset /X /min 1 /max 35 /opt false /linters [ /lintpcenc ] >> ] /req [ [ (00) ] ] >> (4300) exch dup (4301) exch dup pop << /parts [ << /cset /X /min 1 /max 70 /opt false /linters [ /lintpcenc ] >> ] /req [ [ (00) ] ] >> (4302) exch dup pop << /parts [ << /cset /X /min 1 /max 70 /opt false /linters [ /lintpcenc ] >> ] /req [ [ (4302) ] ] >> (4303) exch dup pop << /parts [ << /cset /X /min 1 /max 70 /opt false /linters [ /lintpcenc ] >> ] /req [ [ (00) ] ] >> (4304) exch dup (4305) exch dup (4306) exch dup pop << /parts [ << /cset /X /min 2 /max 2 /opt false /linters [ /lintiso3166alpha2 ] >> ] /req [ [ (00) ] ] >> (4307) exch dup pop << /parts [ << /cset /X /min 1 /max 30 /opt false /linters [] >> ] /req [ [ (00) ] ] >> (4308) exch dup pop << /parts [ << /cset /N /min 20 /max 20 /opt false /linters [ /lintlatlong ] >> ] /req [ [ (00) ] ] >> (4309) exch dup pop << /parts [ << /cset /X /min 1 /max 35 /opt false /linters [ /lintpcenc ] >> ] /req [ [ (00) ] ] >> (4310) exch dup (4311) exch dup pop << /parts [ << /cset /X /min 1 /max 70 /opt false /linters [ /lintpcenc ] >> ] /req [ [ (00) ] ] >> (4312) exch dup pop << /parts [ << /cset /X /min 1 /max 70 /opt false /linters [ /lintpcenc ] >> ] /req [ [ (4312) ] ] >> (4313) exch dup pop << /parts [ << /cset /X /min 1 /max 70 /opt false /linters [ /lintpcenc ] >> ] /req [ [ (00) ] ] >> (4314) exch dup (4315) exch dup (4316) exch dup pop << /parts [ << /cset /X /min 2 /max 2 /opt false /linters [ /lintiso3166alpha2 ] >> ] /req [ [ (00) ] ] >> (4317) exch dup pop << /parts [ << /cset /X /min 1 /max 20 /opt false /linters [] >> ] /req [ [ (00) ] ] >> (4318) exch dup pop << /parts [ << /cset /X /min 1 /max 30 /opt false /linters [] >> ] /req [ [ (00) ] ] >> (4319) exch dup pop << /parts [ << /cset /X /min 1 /max 35 /opt false /linters [ /lintpcenc ] >> ] /req [ [ (00) ] ] >> (4320) exch dup pop << /parts [ << /cset /N /min 1 /max 1 /opt false /linters [ /lintyesno ] >> ] /req [ [ (00) ] ] >> (4321) exch dup (4322) exch dup (4323) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [ /lintyymmd0 ] >> << /cset /N /min 4 /max 4 /opt false /linters [ /linthhmm ] >> ] /req [ [ (00) ] ] >> (4324) exch dup (4325) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [ /lintyymmdd ] >> ] /req [ [ (00) ] ] >> (4326) exch dup pop << /parts [ << /cset /N /min 13 /max 13 /opt false /linters [] >> ] /req [ [ (01) (02) (8006) (8026) ] ] >> (7001) exch dup pop << /parts [ << /cset /X /min 1 /max 30 /opt false /linters [] >> ] /req [ [ (01) (02) ] ] >> (7002) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [ /lintyymmdd ] >> << /cset /N /min 4 /max 4 /opt false /linters [ /linthhmm ] >> ] /req [ [ (01) (02) ] ] >> (7003) exch dup pop << /parts [ << /cset /N /min 1 /max 4 /opt false /linters [] >> ] /req [ [ (01) ] [ (10) ] ] >> (7004) exch dup pop << /parts [ << /cset /X /min 1 /max 12 /opt false /linters [] >> ] /req [ [ (01) (02) ] ] >> (7005) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [ /lintyymmdd ] >> ] /req [ [ (01) (02) ] ] >> (7006) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [ /lintyymmdd ] >> << /cset /N /min 6 /max 6 /opt true /linters [ /lintyymmdd ] >> ] /req [ [ (01) (02) ] ] >> (7007) exch dup pop << /parts [ << /cset /X /min 1 /max 3 /opt false /linters [] >> ] /req [ [ (01) (02) ] ] >> (7008) exch dup pop << /parts [ << /cset /X /min 1 /max 10 /opt false /linters [] >> ] /req [ [ (01) (02) ] ] >> (7009) exch dup pop << /parts [ << /cset /X /min 1 /max 2 /opt false /linters [] >> ] /req [ [ (01) (02) ] ] >> (7010) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [ /lintyymmdd ] >> << /cset /N /min 4 /max 4 /opt true /linters [ /linthhmm ] >> ] /req [ [ (01) (02) ] ] >> (7011) exch dup pop << /parts [ << /cset /X /min 1 /max 20 /opt false /linters [] >> ] /req [ [ (01) (8006) ] [ (416) ] ] >> (7020) exch dup pop << /parts [ << /cset /X /min 1 /max 20 /opt false /linters [] >> ] /req [ [ (01) (8006) ] ] >> (7021) exch dup pop << /parts [ << /cset /X /min 1 /max 20 /opt false /linters [] >> ] /req [ [ (7021) ] ] >> (7022) exch dup pop << /parts [ << /cset /X /min 1 /max 30 /opt false /linters [ /lintkey ] >> ] >> (7023) exch dup pop << /parts [ << /cset /N /min 3 /max 3 /opt false /linters [ /lintiso3166999 ] >> << /cset /X /min 1 /max 27 /opt false /linters [] >> ] /req [ [ (01) (02) ] ] >> (7030) exch dup (7031) exch dup (7032) exch dup (7033) exch dup (7034) exch dup (7035) exch dup (7036) exch dup (7037) exch dup (7038) exch dup (7039) exch dup pop << /parts [ << /cset /N /min 1 /max 1 /opt false /linters [] >> << /cset /X /min 1 /max 1 /opt false /linters [] >> << /cset /X /min 1 /max 1 /opt false /linters [] >> << /cset /X /min 1 /max 1 /opt false /linters [ /lintimporteridx ] >> ] >> (7040) exch dup pop << /parts [ << /cset /X /min 1 /max 20 /opt false /linters [] >> ] /req [ [ (01) ] ] >> (710) exch dup (711) exch dup (712) exch dup (713) exch dup (714) exch dup (715) exch dup pop << /parts [ << /cset /X /min 2 /max 2 /opt false /linters [] >> << /cset /X /min 1 /max 28 /opt false /linters [] >> ] /req [ [ (01) (8004) ] ] >> (7230) exch dup (7231) exch dup (7232) exch dup (7233) exch dup (7234) exch dup (7235) exch dup (7236) exch dup (7237) exch dup (7238) exch dup (7239) exch dup pop << /parts [ << /cset /X /min 1 /max 20 /opt false /linters [] >> ] /req [ [ (01) (8006) ] ] >> (7240) exch dup pop << /parts [ << /cset /N /min 4 /max 4 /opt false /linters [ /lintnonzero ] >> << /cset /N /min 5 /max 5 /opt false /linters [ /lintnonzero ] >> << /cset /N /min 3 /max 3 /opt false /linters [ /lintnonzero ] >> << /cset /N /min 1 /max 1 /opt false /linters [ /lintwinding ] >> << /cset /N /min 1 /max 1 /opt false /linters [] >> ] /req [ [ (01) ] ] >> (8001) exch dup pop << /parts [ << /cset /X /min 1 /max 20 /opt false /linters [] >> ] >> (8002) exch dup pop << /parts [ << /cset /N /min 1 /max 1 /opt false /linters [ /lintzero ] >> << /cset /N /min 13 /max 13 /opt false /linters [ /lintcsum /lintkey ] >> << /cset /X /min 1 /max 16 /opt true /linters [] >> ] /dlpkey [ ] >> (8003) exch dup pop << /parts [ << /cset /X /min 1 /max 30 /opt false /linters [ /lintkey ] >> ] /dlpkey [ [ (7040) ] ] >> (8004) exch dup pop << /parts [ << /cset /N /min 6 /max 6 /opt false /linters [] >> ] /req [ [ (01) (02) ] ] >> (8005) exch dup pop << /parts [ << /cset /N /min 14 /max 14 /opt false /linters [ /lintcsum ] >> << /cset /N /min 4 /max 4 /opt false /linters [ /lintpieceoftotal ] >> ] /ex [ (01) (37) ] /dlpkey [ [ (22) (10) (21) ] ] >> (8006) exch dup pop << /parts [ << /cset /X /min 1 /max 34 /opt false /linters [ /lintiban ] >> ] /req [ [ (415) ] ] >> (8007) exch dup pop << /parts [ << /cset /N /min 8 /max 8 /opt false /linters [ /lintyymmddhh ] >> << /cset /N /min 1 /max 4 /opt true /linters [ /lintmmoptss ] >> ] /req [ [ (01) (02) ] ] >> (8008) exch dup pop << /parts [ << /cset /X /min 1 /max 50 /opt false /linters [] >> ] /req [ [ (00) (01) ] ] >> (8009) exch dup pop << /parts [ << /cset /Y /min 1 /max 30 /opt false /linters [ /lintkey ] >> ] /dlpkey [ [ (8011) ] ] >> (8010) exch dup pop << /parts [ << /cset /N /min 1 /max 12 /opt false /linters [ /lintnozeroprefix ] >> ] /req [ [ (8010) ] ] >> (8011) exch dup pop << /parts [ << /cset /X /min 1 /max 20 /opt false /linters [] >> ] /req [ [ (01) (8006) ] ] >> (8012) exch dup pop << /parts [ << /cset /X /min 1 /max 25 /opt false /linters [ /lintcsumalpha /lintkey ] >> ] /dlpkey [ ] >> (8013) exch dup pop << /parts [ << /cset /N /min 18 /max 18 /opt false /linters [ /lintcsum ] >> ] /dlpkey [ [ (8019) ] ] >> (8017) exch dup pop << /parts [ << /cset /N /min 18 /max 18 /opt false /linters [ /lintcsum ] >> ] /ex [ (8017) ] /dlpkey [ [ (8019) ] ] >> (8018) exch dup pop << /parts [ << /cset /N /min 1 /max 10 /opt false /linters [] >> ] /req [ [ (8017) (8018) ] ] >> (8019) exch dup pop << /parts [ << /cset /X /min 1 /max 25 /opt false /linters [] >> ] /req [ [ (415) ] ] >> (8020) exch dup pop << /parts [ << /cset /N /min 14 /max 14 /opt false /linters [ /lintcsum ] >> << /cset /N /min 4 /max 4 /opt false /linters [ /lintpieceoftotal ] >> ] /ex [ (02) (8006) ] /req [ [ (37) ] ] >> (8026) exch dup pop << /parts [ << /cset /X /min 1 /max 70 /opt false /linters [ /lintcouponcode ] >> ] >> (8110) exch dup pop << /parts [ << /cset /N /min 4 /max 4 /opt false /linters [] >> ] /req [ [ (255) ] ] >> (8111) exch dup pop << /parts [ << /cset /X /min 1 /max 70 /opt false /linters [ /lintcouponposoffer ] >> ] >> (8112) exch dup pop << /parts [ << /cset /X /min 1 /max 70 /opt false /linters [] >> ] /req [ [ (01) ] ] >> (8200) exch dup pop << /parts [ << /cset /X /min 1 /max 30 /opt false /linters [] >> ] >> (90) exch dup pop << /parts [ << /cset /X /min 1 /max 90 /opt false /linters [] >> ] >> (91) exch dup (92) exch dup (93) exch dup (94) exch dup (95) exch dup (96) exch dup (97) exch dup (98) exch dup (99) exch dup pop >> def } ctxdef % Extract AIs and vals from provided GS1 data in the indicated format /ai eq { % Bracketed AI element string % Parse out AIs and values (\() anchorsearch not { pop /bwipp.GS1aiMissingOpenParen (AIs must start with '\(') //raiseerror exec } if pop mark exch { % loop dup () eq {pop exit} if (\)) search not { cleartomark /bwipp.GS1aiMissingCloseParen (AIs must end with '\)') //raiseerror exec } if exch pop exch (\() search { exch pop exch } { () } ifelse } loop counttomark dup 0 gt {dup 2 idiv 1 add -1 exch {-1 roll} for} {pop} ifelse counttomark 2 idiv array astore /ais exch def counttomark array astore [ exch { % Expand ordinals of the form ^NNN to ASCII << /parse parse /parseonly true /parsefnc false >> //parseinput exec } forall ] /vals exch def pop } { % Digital Link URI % Validate and strip the scheme (http://) anchorsearch not { (https://) anchorsearch not { pop /bwipp.GS1dlURIbadScheme (Scheme must be http:// or https://) //raiseerror exec } if} if pop % Strip the domain (/) search not { pop /bwipp.GS1dlMissingDomainOrPathInfo (URI must contain a domain and path info) //raiseerror exec } if pop pop % Fragment delimits end of data (#) search { exch pop exch pop } if % Query parameter marker splits path info and query parameters (?) search not { () exch null exch } if /pp exch def pop /qp exch def % Find positions of character immediately following "/" in the path info mark 0 0 pp { (/) search not {pop exit} if length 1 add exch pop 2 index add exch } loop counttomark 1 sub array astore /pipos exch def pop pop pipos length 1 le { /bwipp.GS1dlNoAIinfo (The path was too short to contain AI info) //raiseerror exec } if % Walk backwards to find the right-most path element that is a valid dlpkey false pipos length 2 sub -2 0 { dup dup pipos exch get exch pipos exch 1 add get 1 index sub 1 sub pp 3 1 roll getinterval dup gs1syntax exch known { gs1syntax exch get /dlpkey known { exch pop true exit } if } { pop } ifelse pop } for not { /bwipp.GS1dlNoAIinfo (The path does not contain a valid primary key) //raiseerror exec } if pipos exch get dup pp length exch sub pp 3 1 roll getinterval /pp exch def /uriunescape { /in exch def /out in length string def 0 0 { 1 index in length ge {exit} if in 2 index get dup 43 eq { % "+" -> " " pop out 1 index 32 put 1 add exch 1 add exch } { dup 37 eq 3 index in length 2 sub lt and { % "%nn" -> ord pop (< >) 4 string copy dup 1 in 5 index 1 add 2 getinterval putinterval cvx stopped { pop pop /bwipp.GS1dlBadHexCharacter (Invalid hex character) //raiseerror exec } if 0 get out exch 2 index exch put 1 add exch 3 add exch } { out exch 2 index exch put 1 add exch 1 add exch } ifelse } ifelse } loop out exch 0 exch getinterval /out exch def pop out } def /ais 99 array def /vals 99 array def 0 % Extract AIs from the path components pp { (/) search { ais exch 4 index exch put pop (/) search {exch pop} {() exch} ifelse vals exch 3 index exch uriunescape put } { pop exit } ifelse exch 1 add exch } loop % Validate the key-qualifiers in the path info sequence dup 1 gt { false gs1syntax ais 0 get get /dlpkey get { /seq exch def /i 1 def /j 0 def { i ais length ge {exit} if j seq length ge {exit} if ais i get seq j get eq { /i i 1 add def } if /j j 1 add def } loop i 2 index eq {pop true exit} if } forall not { pop /bwipp.GS1dlBadPathInfo (The AIs in the path are not a valid key-qualifier sequence for the key) //raiseerror exec } if } if % Extract AIs from the query parameters qp { dup () eq {pop exit} if (&) search {exch pop} {() exch} ifelse (=) search { true 1 index {dup 48 ge exch 57 le and and} forall { ais exch 5 index exch put pop vals exch 3 index exch uriunescape put exch 1 add exch } { % Ignore non-numeric parameters pop pop pop } ifelse } { % Ignore singletons and empty parameters pop } ifelse } loop /ais ais 0 3 index getinterval def /vals vals 0 3 index getinterval def pop % Expand any extracted GTINs 0 1 ais length 1 sub { dup ais exch get (01) eq { dup vals exch get dup length dup 8 eq exch dup 12 eq exch 13 eq or or { (00000000000000) 14 string copy dup 3 -1 roll dup length 14 exch sub exch putinterval vals exch 2 index exch put } { pop } ifelse } if pop } for } ifelse % AIs not requiring FNC1 separation { /aifixed << [ (00) (01) (02) (03) (04) (11) (12) (13) (14) (15) (16) (17) (18) (19) (20) % (23) % Reassigned to variable-length AI (235)! (31) (32) (33) (34) (35) (36) (41) ] {dup} forall >> def } ctxdef /fncs [ ais { true exch dup length 2 ge { 0 2 getinterval aifixed exch known {pop false} if } { pop } ifelse } forall ] def % Linter routines for validating AI components /lintnumeric { true exch { dup 48 lt exch 57 gt or { pop false exit } if } forall not { pop /bwipp.GS1notNumeric (Not numeric) false exit } if } def /lintcset82 { true exch { 1 string dup 0 4 -1 roll put (!"%&'()*+,-./0123456789:;<=>?ABCDEFGHIJKLMNOPQRSTUVWXYZ_abcdefghijklmnopqrstuvwxyz) exch search not { pop pop false exit } if pop pop pop } forall not { pop /bwipp.GS1badCSET82character (Invalid CSET 82 character) false exit } if } def /lintcset39 { true exch { 1 string dup 0 4 -1 roll put (#-/0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ) exch search not { pop pop false exit } if pop pop pop } forall not { pop /bwipp.GS1badCSET39character (Invalid CSET 39 character) false exit } if } def /lintkey { dup length 2 lt { pop pop /bwipp.GS1keyTooShort (Key is too short) false exit } if dup 0 get dup 48 lt exch 57 gt or exch 1 get dup 48 lt exch 57 gt or or { pop /bwipp.GS1badGCP (Non-numeric company prefix) false exit } if } def /lintimporteridx { (-0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ_abcdefghijklmnopqrstuvwxyz) exch search not {pop pop /bwipp.GS1badImporterIndex (Invalid importer index) false exit} if pop pop pop } def /lintcsum { mark exch dup length 2 mod 0 eq {3} {1} ifelse exch { 48 sub 1 index mul exch 4 exch sub } forall pop 0 counttomark 1 sub {add} repeat exch pop 10 mod 0 ne { pop /bwipp.GS1badChecksum (Bad checksum) false exit } if } def { /cset82 << 0 (!"%&'\(\)*+,-./0123456789:;<=>?ABCDEFGHIJKLMNOPQRSTUVWXYZ_abcdefghijklmnopqrstuvwxyz) { exch dup 1 add } forall pop >> def /cset32 << 0 (23456789ABCDEFGHJKLMNPQRSTUVWXYZ) { exch dup 1 add } forall pop >> def } ctxdef /lintcsumalpha { dup length 2 lt { pop pop /bwipp.GS1alphaTooShort (Alphanumeric string is too short to check) false exit} if dup length 2 sub 2 copy 0 exch getinterval mark exch { dup cset82 exch known { cset82 exch get } { -1 exit } ifelse } forall dup -1 eq { cleartomark pop pop pop /bwipp.GS1UnknownCSET82Character (Unknown CSET 82 character) false exit} if counttomark array astore exch pop 3 1 roll 2 getinterval mark exch { dup cset32 exch known { cset32 exch get } { -1 exit } ifelse } forall dup -1 eq { cleartomark pop pop /bwipp.GS1UnknownCSET32Character (Unknown CSET 32 character) false exit} if counttomark array astore exch pop dup 0 get 5 bitshift exch 1 get add exch [ 2 3 5 7 11 13 17 19 23 29 31 37 41 43 47 53 59 61 67 71 73 79 83 ] 1 index length dup 2 index length gt { pop pop pop pop pop /bwipp.GS1alphaTooLong (Alphanumeric string is too long to check) false exit} if 0 exch getinterval {exch} forall 0 exch { 3 -1 roll exch mul add } forall 1021 mod ne { pop /bwipp.GS1badAlphaCheckCharacters (Bad alphanumeric check characters) false exit} if } def { /iso3166 << [ /004 /008 /010 /012 /016 /020 /024 /028 /031 /032 /036 /040 /044 /048 /050 /051 /052 /056 /060 /064 /068 /070 /072 /074 /076 /084 /086 /090 /092 /096 /100 /104 /108 /112 /116 /120 /124 /132 /136 /140 /144 /148 /152 /156 /158 /162 /166 /170 /174 /175 /178 /180 /184 /188 /191 /192 /196 /203 /204 /208 /212 /214 /218 /222 /226 /231 /232 /233 /234 /238 /239 /242 /246 /248 /250 /254 /258 /260 /262 /266 /268 /270 /275 /276 /288 /292 /296 /300 /304 /308 /312 /316 /320 /324 /328 /332 /334 /336 /340 /344 /348 /352 /356 /360 /364 /368 /372 /376 /380 /384 /388 /392 /398 /400 /404 /408 /410 /414 /417 /418 /422 /426 /428 /430 /434 /438 /440 /442 /446 /450 /454 /458 /462 /466 /470 /474 /478 /480 /484 /492 /496 /498 /499 /500 /504 /508 /512 /516 /520 /524 /528 /531 /533 /534 /535 /540 /548 /554 /558 /562 /566 /570 /574 /578 /580 /581 /583 /584 /585 /586 /591 /598 /600 /604 /608 /612 /616 /620 /624 /626 /630 /634 /638 /642 /643 /646 /652 /654 /659 /660 /662 /663 /666 /670 /674 /678 /682 /686 /688 /690 /694 /702 /703 /704 /705 /706 /710 /716 /724 /728 /729 /732 /740 /744 /748 /752 /756 /760 /762 /764 /768 /772 /776 /780 /784 /788 /792 /795 /796 /798 /800 /804 /807 /818 /826 /831 /832 /833 /834 /840 /850 /854 /858 /860 /862 /876 /882 /887 /894 ] {dup} forall >> def } ctxdef /lintiso3166 { iso3166 exch known not { pop /bwipp.GS1UnknownCountry (Unknown country code) false exit } if } def /lintiso3166999 { dup /999 ne { iso3166 exch known not { pop /bwipp.GS1UnknownCountryOr999 (Unknown country code or not 999) false exit } if } { pop } ifelse } def /lintiso3166list { dup length 3 mod 0 ne { pop pop /bwipp.GS1BadCountryListLength (Not a group of three-digit country codes) false exit } if true 0 3 3 index length 1 sub { 2 index exch 3 getinterval iso3166 exch known not { pop pop false exit } if } for not { pop /bwipp.GS1UnknownCountry (Unknown country code) false exit } if pop } def { /iso3166alpha2 << [ /AD /AE /AF /AG /AI /AL /AM /AO /AQ /AR /AS /AT /AU /AW /AX /AZ /BA /BB /BD /BE /BF /BG /BH /BI /BJ /BL /BM /BN /BO /BQ /BR /BS /BT /BV /BW /BY /BZ /CA /CC /CD /CF /CG /CH /CI /CK /CL /CM /CN /CO /CR /CU /CV /CW /CX /CY /CZ /DE /DJ /DK /DM /DO /DZ /EC /EE /EG /EH /ER /ES /ET /FI /FJ /FK /FM /FO /FR /GA /GB /GD /GE /GF /GG /GH /GI /GL /GM /GN /GP /GQ /GR /GS /GT /GU /GW /GY /HK /HM /HN /HR /HT /HU /ID /IE /IL /IM /IN /IO /IQ /IR /IS /IT /JE /JM /JO /JP /KE /KG /KH /KI /KM /KN /KP /KR /KW /KY /KZ /LA /LB /LC /LI /LK /LR /LS /LT /LU /LV /LY /MA /MC /MD /ME /MF /MG /MH /MK /ML /MM /MN /MO /MP /MQ /MR /MS /MT /MU /MV /MW /MX /MY /MZ /NA /NC /NE /NF /NG /NI /NL /NO /NP /NR /NU /NZ /OM /PA /PE /PF /PG /PH /PK /PL /PM /PN /PR /PS /PT /PW /PY /QA /RE /RO /RS /RU /RW /SA /SB /SC /SD /SE /SG /SH /SI /SJ /SK /SL /SM /SN /SO /SR /SS /ST /SV /SX /SY /SZ /TC /TD /TF /TG /TH /TJ /TK /TL /TM /TN /TO /TR /TT /TV /TW /TZ /UA /UG /UM /US /UY /UZ /VA /VC /VE /VG /VI /VN /VU /WF /WS /YE /YT /ZA /ZM /ZW ] {dup} forall >> def } ctxdef /lintiso3166alpha2 { iso3166alpha2 exch known not { pop /bwipp.GS1UnknownCountryAlpha (Unknown country alpha code) false exit } if } def { /iso4217 << [ /008 /012 /032 /036 /044 /048 /050 /051 /052 /060 /064 /068 /072 /084 /090 /096 /104 /108 /116 /124 /132 /136 /144 /152 /156 /170 /174 /188 /191 /192 /203 /208 /214 /222 /230 /232 /238 /242 /262 /270 /292 /320 /324 /328 /332 /340 /344 /348 /352 /356 /360 /364 /368 /376 /388 /392 /398 /400 /404 /408 /410 /414 /417 /418 /422 /426 /430 /434 /446 /454 /458 /462 /480 /484 /496 /498 /504 /512 /516 /524 /532 /533 /548 /554 /558 /566 /578 /586 /590 /598 /600 /604 /608 /634 /643 /646 /654 /682 /690 /694 /702 /704 /706 /710 /728 /748 /752 /756 /760 /764 /776 /780 /784 /788 /800 /807 /818 /826 /834 /840 /858 /860 /882 /886 /901 /925 /927 /928 /929 /930 /931 /932 /933 /934 /936 /938 /940 /941 /943 /944 /946 /947 /948 /949 /950 /951 /952 /953 /955 /956 /957 /958 /959 /960 /961 /962 /963 /964 /965 /967 /968 /969 /970 /971 /972 /973 /975 /976 /977 /978 /979 /980 /981 /984 /985 /986 /990 /994 /997 /999 ] {dup} forall >> def } ctxdef /lintiso4217 { iso4217 exch known not { pop /bwipp.GS1UnknownCurrency (Unknown currency code) false exit } if } def /lintiban { dup length 4 le { pop pop /bwipp.GS1tooShort (IBAN too short) false exit } if dup true exch { 1 string dup 0 4 -1 roll put (0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ) exch search not { pop pop false exit } if pop pop pop } forall not { pop /bwipp.GS1badIBANcharacter (Invalid IBAN character) false exit } if dup mark exch mark exch {} forall counttomark -4 roll counttomark array astore exch pop { 48 sub dup 9 gt {7 sub dup 10 idiv exch 10 mod} if } forall counttomark array astore exch pop 0 exch {exch 10 mul add 97 mod} forall 1 ne { pop pop /bwipp.GS1badIBANchecksum (IBAN checksum incorrect) false exit } if 0 2 getinterval lintiso3166alpha2 } def /lintzero { (0) ne { pop /bwipp.GS1zeroRequired (Zero is required) false exit } if } def /lintnonzero { false exch { 48 ne {pop true} if } forall not { pop /bwipp.GS1zeroNotPermitted (Zero not permitted) false exit } if } def /lintnozeroprefix { dup length 1 gt exch 0 get 48 eq and { pop /bwipp.GS1badZeroPrefix (Zero prefix is not permitted) false exit } if } def /lintyymmd0 { dup 2 2 getinterval cvi dup 1 lt exch 12 gt or { pop /bwipp.GS1badMonth (Invalid month) false exit } if dup 0 2 getinterval cvi dup 21 sub % Update 20YY periodically for century calculation dup 51 ge {pop 1900 add} { -50 le {2100 add} {2000 add} ifelse} ifelse % YYYY dup 400 mod 0 eq exch dup 4 mod 0 eq exch 100 mod 0 ne and or % Leap year? [ 31 3 -1 roll {29} {28} ifelse 31 30 31 30 31 31 30 31 30 31 ] 1 index 2 2 getinterval cvi 1 sub get exch 4 2 getinterval cvi lt { pop /bwipp.GS1badDay (Invalid day of month) false exit } if } def /lintyymmdd { dup length 6 ne { pop /bwipp.GS1badDateLength (Invalid length for date) false exit } if dup 4 2 getinterval cvi 1 lt { pop /bwipp.GS1badDay (Invalid day of month) false exit } if lintyymmd0 } def /lintyymmddhh { dup length 8 ne { pop /bwipp.GS1badYYMMDDHHLength (Invalid length for date with hour) false exit } if dup 6 2 getinterval cvi 23 gt { pop pop /bwipp.GS1badHour (Invalid hour of day) false exit } if 0 6 getinterval lintyymmdd } def /linthhmm { dup 0 2 getinterval cvi 23 gt { pop pop /bwipp.GS1badHour (Invalid hour of day) false exit } if 2 2 getinterval cvi 59 gt { pop /bwipp.GS1badMinute (Invalid minute in the hour) false exit } if } def /lintmmoptss { dup length dup 2 ne exch 4 ne and { pop /bwipp.GS1badTimeLength (Invalid length for optional minutes and seconds) false exit } if dup 0 2 getinterval cvi 59 gt { pop pop /bwipp.GS1badMinute (Invalid minute in the hour) false exit } if dup length 4 ge { dup 2 2 getinterval cvi 59 gt { pop pop /bwipp.GS1badSecond (Invalid second in the minute) false exit } if } if pop } def /lintyesno { dup (0) ne exch (1) ne and { pop /bwipp.GS1badBoolean (Neither 0 nor 1 for yes or no) false exit } if } def /lintwinding { dup (0) ne exch dup (1) ne exch (9) ne and and { pop /bwipp.GS1badWinding (Invalid winding direction) false exit } if } def /lintpieceoftotal { dup length 2 mod 0 ne { pop pop /bwipp.GS1badPieceTotalLength (Invalid piece/total length) false exit } if dup dup length 2 idiv 0 exch getinterval cvi dup 0 eq { pop pop pop /bwipp.GS1badPieceNumber (Invalid piece number) false exit } if exch dup length 2 idiv dup getinterval cvi dup 0 eq { pop pop pop /bwipp.GS1badPieceTotal (Invalid total number) false exit } if gt { pop /bwipp.GS1pieceExceedsTotal (Piece number exceeds total) false exit } if } def /lintpcenc { { (%) search not {pop exit} if pop pop dup length 2 lt { pop pop /bwipp.GS1badPercentEscape (Invalid % escape) false exit } if dup 0 2 getinterval true exch { 1 string dup 0 4 -1 roll put (0123456789ABCDEFabcdef) exch search not { pop pop false exit } if pop pop pop } forall not { pop pop /bwipp.GS1badPercentChars (Invalid characters for percent encoding) false exit } if } loop } def /lintcouponcode { dup true exch { dup 48 lt exch 57 gt or { pop false exit } if } forall not { pop pop /bwipp.GS1couponNotNumeric (Coupon not numeric) false exit } if % GCP VLI and value dup length 1 lt { pop pop /bwipp.GS1couponTooShortGCPVLI (Coupon too short: Missing GCP VLI) false exit } if dup 0 1 getinterval cvi dup 6 gt { pop pop /bwipp.GS1couponBadGCPVLI (Coupon GCP length indicator must be 0-6) false exit } if 6 add 1 add 2 copy exch length gt { pop pop pop /bwipp.GS1couponTooShortGCP (Coupon too short: GCP truncated) false exit } if dup 2 index length exch sub getinterval % Offer Code dup length 6 lt { pop pop /bwipp.GS1couponTooShortOfferCode (Coupon too short: Offer Code truncated) false exit } if dup length 6 sub 6 exch getinterval % Save Value VLI and value dup length 1 lt { pop pop /bwipp.GS1couponTooShortSaveValueVLI (Coupon too short: Missing Save Value VLI) false exit } if dup 0 1 getinterval cvi dup dup 1 lt exch 5 gt or { pop pop /bwipp.GS1couponBadSaveValueVLI (Coupon Save Value length indicator must be 1-5) false exit } if 1 add 2 copy exch length gt { pop pop pop /bwipp.GS1couponTooShortSaveValue (Coupon too short: Save Value truncated) false exit } if dup 2 index length exch sub getinterval % 1st Purchase Requirement VLI and value dup length 1 lt { pop pop /bwipp.GS1couponTooShort1stPurchaseRequirementVLI (Coupon too short: Missing 1st Purchase Requirement VLI) false exit } if dup 0 1 getinterval cvi dup dup 1 lt exch 5 gt or { pop pop /bwipp.GS1couponBad1stPurchaseRequirementVLI (Coupon 1st Purchase Requirement length indicator must be 1-5) false exit } if 1 add 2 copy exch length gt { pop pop pop /bwipp.GS1couponTooShort1stPurchaseRequirement (Coupon too short: 1st Purchase Requirement truncated) false exit } if dup 2 index length exch sub getinterval % 1st Purchase Requirement Code dup length 1 lt { pop pop /bwipp.GS1couponTooShort1stPurchaseRequirementCode (Coupon too short: Missing 1st Purchase Requirement Code) false exit } if dup 0 1 getinterval cvi dup 4 gt exch 9 ne and { pop pop /bwipp.GS1couponBad1stPurchaseRequirementCode (Coupon 1st Purchase Requirement Code must be 0-4 or 9) false exit } if dup length 1 sub 1 exch getinterval % 1st Purchase Family Code dup length 3 lt { pop pop /bwipp.GS1couponTooShort1stPurchaseFamilyCode (Coupon too short: 1st Purchase Family Code truncated) false exit } if dup length 3 sub 3 exch getinterval % Optional field 1 dup length 1 ge { dup 0 1 getinterval cvi 1 eq { 1 dup 2 index length exch sub getinterval % Additional Purchase Rules Code dup length 1 lt { pop pop /bwipp.GS1couponTooShortAdditionalPurchaseRulesCode (Coupon too short: Missing Additional Purchase Rules Code) false exit } if dup 0 1 getinterval cvi 3 gt { pop pop /bwipp.GS1couponBadAdditionalPurchaseRulesCode (Coupon Additional Purchase Rules Code must be 0-3) false exit } if dup length 1 sub 1 exch getinterval % 2nd Purchase RequirementVLI and value dup length 1 lt { pop pop /bwipp.GS1couponTooShort2ndPurchaseRequirementVLI (Coupon too short: Missing 2nd Purchase Requirement VLI) false exit } if dup 0 1 getinterval cvi dup dup 1 lt exch 5 gt or { pop pop /bwipp.GS1couponBad2ndPurchaseRequirementVLI (Coupon 2nd Purchase Requirement length indicator must be 1-5) false exit } if 1 add 2 copy exch length gt { pop pop pop /bwipp.GS1couponTooShort2ndPurchaseRequirement (Coupon too short: 2nd Purchase Requirement truncated) false exit } if dup 2 index length exch sub getinterval % 2nd Purchase Requirement Code dup length 1 lt { pop pop /bwipp.GS1couponTooShort2ndPurchaseRequirementCode (Coupon too short: Missing 2nd Purchase Requirement Code) false exit } if dup 0 1 getinterval cvi dup 4 gt exch 9 ne and { pop pop /bwipp.GS1couponBad2ndPurchaseRequirementCode (Coupon 2nd Purchase Requirement Code must be 0-4 or 9) false exit } if dup length 1 sub 1 exch getinterval % 2nd Purchase Family Code dup length 3 lt { pop pop /bwipp.GS1couponTooShort2ndPurchaseFamilyCode (Coupon too short: 2nd Purchase Family Code truncated) false exit } if dup length 3 sub 3 exch getinterval % 2nd Purchase GCP VLI and value dup length 1 lt { pop pop /bwipp.GS1couponTooShort2ndPurchaseGCPVLI (Coupon too short: Missing 2nd Purchase GCP VLI) false exit } if dup 0 1 getinterval cvi dup dup 6 gt exch 9 ne and { pop pop /bwipp.GS1couponBad2ndPurchaseGCPVLI (Coupon 2nd Purchase GCP length indicator must be 0-6 or 9) false exit } if dup 9 ne {6 add} {pop 0} ifelse 1 add 2 copy exch length gt { pop pop pop /bwipp.GS1couponTooShort2ndPurchaseGCP (Coupon too short: 2nd Purchase GCP truncated) false exit } if dup 2 index length exch sub getinterval } if } if % Optional field 2 dup length 1 ge { dup 0 1 getinterval cvi 2 eq { 1 dup 2 index length exch sub getinterval % 3rd Purchase RequirementVLI and value dup length 1 lt { pop pop /bwipp.GS1couponTooShort3rdPurchaseRequirementVLI (Coupon too short: Missing 3rd Purchase Requirement VLI) false exit } if dup 0 1 getinterval cvi dup dup 1 lt exch 5 gt or { pop pop /bwipp.GS1couponBad3rdPurchaseRequirementVLI (Coupon 3rd Purchase Requirement length indicator must be 1-5) false exit } if 1 add 2 copy exch length gt { pop pop pop /bwipp.GS1couponTooShort3rdPurchaseRequirement (Coupon too short: 3rd Purchase Requirement truncated) false exit } if dup 2 index length exch sub getinterval % 3rd Purchase Requirement Code dup length 1 lt { pop pop /bwipp.GS1couponTooShort3rdPurchaseRequirementCode (Coupon too short: Missing 3rd Purchase Requirement Code) false exit } if dup 0 1 getinterval cvi dup 4 gt exch 9 ne and { pop pop /bwipp.GS1couponBad3rdPurchaseRequirementCode (Coupon 3rd Purchase Requirement Code must be 0-4 or 9) false exit } if dup length 1 sub 1 exch getinterval % 3rd Purchase Family Code dup length 3 lt { pop pop /bwipp.GS1couponTooShort3rdPurchaseFamilyCode (Coupon too short: 3rd Purchase Family Code truncated) false exit } if dup length 3 sub 3 exch getinterval % 3rd Purchase GCP VLI and value dup length 1 lt { pop pop /bwipp.GS1couponTooShort3rdPurchaseGCPVLI (Coupon too short: Missing 3rd Purchase GCP VLI) false exit } if dup 0 1 getinterval cvi dup dup 6 gt exch 9 ne and { pop pop /bwipp.GS1couponBad3rdPurchaseGCPVLI (Coupon 3rd Purchase GCP length indicator must be 0-6 or 9) false exit } if dup 9 ne {6 add} {pop 0} ifelse 1 add 2 copy exch length gt { pop pop pop /bwipp.GS1couponTooShort3rdPurchaseGCP (Coupon too short: 3rd Purchase GCP truncated) false exit } if dup 2 index length exch sub getinterval } if } if % Optional field 3 /couponexpire -1 def dup length 1 ge { dup 0 1 getinterval cvi 3 eq { 1 dup 2 index length exch sub getinterval % Expiration date dup length 6 lt { pop pop /bwipp.GS1couponTooShortExpirationDate (Coupon too short: Expiration date) false exit } if dup 2 2 getinterval cvi dup 1 lt exch 12 gt or { pop pop /bwipp.GS1couponExpirationDateBadMonth (Invalid month in expiration date) false exit } if dup 0 2 getinterval cvi dup 21 sub % Update 20YY periodically for century calculation dup 51 ge {pop 1900 add} { -50 le {2100 add} {2000 add} ifelse} ifelse % YYYY dup 400 mod 0 eq exch dup 4 mod 0 eq exch 100 mod 0 ne and or % Leap year? [ 31 3 -1 roll {29} {28} ifelse 31 30 31 30 31 31 30 31 30 31 ] 1 index 2 2 getinterval cvi 1 sub get 1 index 4 2 getinterval cvi dup 3 1 roll lt exch 1 lt or { pop pop /bwipp.GS1couponExpirationDateBadDay (Invalid day of month in expiration date) false exit } if dup 0 6 getinterval cvi /couponexpire exch def dup length 6 sub 6 exch getinterval } if } if % Optional field 4 dup length 1 ge { dup 0 1 getinterval cvi 4 eq { 1 dup 2 index length exch sub getinterval % Start date dup length 6 lt { pop pop /bwipp.GS1couponTooShortStartDate (Coupon too short: Start date) false exit } if dup 2 2 getinterval cvi dup 1 lt exch 12 gt or { pop pop /bwipp.GS1couponStartDateBadMonth (Invalid month in start date) false exit } if dup 0 2 getinterval cvi dup 21 sub % Update 20YY periodically for century calculation dup 51 ge {pop 1900 add} { -50 le {2100 add} {2000 add} ifelse} ifelse % YYYY dup 400 mod 0 eq exch dup 4 mod 0 eq exch 100 mod 0 ne and or % Leap year? [ 31 3 -1 roll {29} {28} ifelse 31 30 31 30 31 31 30 31 30 31 ] 1 index 2 2 getinterval cvi 1 sub get 1 index 4 2 getinterval cvi dup 3 1 roll lt exch 1 lt or { pop pop /bwipp.GS1couponStartDateBadDay (Invalid day of month in start date) false exit } if dup 0 6 getinterval cvi /couponstart exch def couponexpire -1 ne couponexpire couponstart lt and { pop pop /bwipp.GS1couponExpireDateBeforeStartDate (Coupon expires before it starts) false exit } if dup length 6 sub 6 exch getinterval } if } if % Optional field 5 dup length 1 ge { dup 0 1 getinterval cvi 5 eq { 1 dup 2 index length exch sub getinterval % Serial Number VLI and value dup length 1 lt { pop pop /bwipp.GS1couponTooShortSerialNumberVLI (Coupon too short: Missing Serial Number VLI) false exit } if dup 0 1 getinterval cvi 6 add 1 add 2 copy exch length gt { pop pop pop /bwipp.GS1couponTooShortSerialNumber (Coupon too short: Serial Number truncated) false exit } if dup 2 index length exch sub getinterval } if } if % Optional field 6 dup length 1 ge { dup 0 1 getinterval cvi 6 eq { 1 dup 2 index length exch sub getinterval % Retailer GCP/GLN VLI and value dup length 1 lt { pop pop /bwipp.GS1couponTooShortRetailerGCPGLNVLI (Coupon too short: Missing Retailer GCP/GLN VLI) false exit } if dup 0 1 getinterval cvi dup dup 1 lt exch 7 gt or { pop pop /bwipp.GS1couponBadRetailerGCPGLNVLI (Coupon Retailer GCP/GLN length indicator must be 1-7) false exit } if 6 add 1 add 2 copy exch length gt { pop pop pop /bwipp.GS1couponTooShortRetailerGCPGLN (Coupon too short: Retailer GCP/GLN truncated) false exit } if dup 2 index length exch sub getinterval } if } if % Optional field 9 dup length 1 ge { dup 0 1 getinterval cvi 9 eq { 1 dup 2 index length exch sub getinterval % Save Value Code dup length 1 lt { pop pop /bwipp.GS1couponTooShortSaveValueCode (Coupon too short: Missing Save Value Code) false exit } if dup 0 1 getinterval cvi dup 6 gt exch dup 3 eq exch 4 eq or or { pop pop /bwipp.GS1couponBadSaveValueCode (Coupon Save Value Code must be 0,1,2,5 or 6) false exit } if dup length 1 sub 1 exch getinterval % Save Value Applies to Item dup length 1 lt { pop pop /bwipp.GS1couponTooShortSaveValueAppliesToItem (Coupon too short: Missing Save Value Applies to Item) false exit } if dup 0 1 getinterval cvi 2 gt { pop pop /bwipp.GS1couponBadSaveValueAppliesToItem (Coupon Save Value Applies to Item must be 0-2) false exit } if dup length 1 sub 1 exch getinterval % Store Coupon Flag dup length 1 lt { pop pop /bwipp.GS1couponTooShortStoreCouponFlag (Coupon too short: Missing Store Coupon Flag) false exit } if dup length 1 sub 1 exch getinterval % Don't Multiply Flag dup length 1 lt { pop pop /bwipp.GS1couponTooShortDontMultiplyFlag (Coupon too short: Missing Don't Multiply Flag) false exit } if dup 0 1 getinterval cvi 1 gt { pop pop /bwipp.GS1couponBadDontMultiplyFlag (Don't Multiply Flag must be 0 or 1) false exit } if dup length 1 sub 1 exch getinterval } if } if dup length 0 ne { pop pop /bwipp.GS1couponUnrecognisedOptionalField (Coupon fields must be 1,2,3,4,5,6 or 9, increasing order) false exit } if pop } def /lintcouponposoffer { dup true exch { dup 48 lt exch 57 gt or { pop false exit } if } forall not { pop pop /bwipp.GS1couponNotNumeric (Coupon not numeric) false exit } if % Format Code dup length 1 lt { pop pop /bwipp.GS1couponTooShortFormatCode (Coupon too short: Missing Format Code) false exit } if dup 0 1 getinterval dup (0) ne exch (1) ne and { pop pop /bwipp.GS1couponBadFormatCode (Coupon format must be 0 or 1) false exit } if dup length 1 sub 1 exch getinterval % Funder ID VLI and Funder ID dup length 1 lt { pop pop /bwipp.GS1couponTooShortFunderVLI (Coupon too short: Missing Funder VLI) false exit } if dup 0 1 getinterval cvi dup 6 gt { pop pop pop /bwipp.GS1couponBadFunderVLI (Coupon Funder length indicator must be 0-6) false exit } if 6 add 1 add 2 copy exch length gt { pop pop pop /bwipp.GS1couponTooShortFunder (Coupon too short: Truncated Funder ID) false exit } if dup 2 index length exch sub getinterval % Offer Code dup length 6 lt { pop pop /bwipp.GS1couponTooShortOfferCode (Coupon too short: Truncated Offer Code) false exit } if dup length 6 sub 6 exch getinterval % Serial Number VLI and Serial Number dup length 1 lt { pop pop /bwipp.GS1couponTooShortSnVLI (Coupon too short: Missing SN VLI) false exit } if dup 0 1 getinterval cvi 6 add 1 add 2 copy exch length gt { pop pop pop /bwipp.GS1couponTooShortSn (Coupon too short: Truncated SN) false exit } if dup 2 index length exch sub getinterval dup length 0 ne { pop pop /bwipp.GS1couponTooLong (Coupon too long) false exit } if pop } def /lintlatlong { dup length 20 ne { pop /bwipp.GS1badGeoLength (Invalid length for a geo-location) false exit } if dup 0 10 getinterval cvi 1800000000 gt { pop /bwipp.GS1badLatitude (Invalid value for latitude) false exit } if dup 10 10 getinterval cvi 3600000000 gt { pop /bwipp.GS1badLongitude (Invalid value for longitude) false exit } if pop } def dontlint not { % Validate AI contents true 0 1 vals length 1 sub { dup ais exch get /ai exch def vals exch get /val exch def gs1syntax ai known { gs1syntax ai get /parts get % Overall length checks, e.g. to report "too long", not "checksum failure" dup 0 exch {dup /opt get {pop 0} {/min get} ifelse add} forall val length gt { pop /bwipp.GS1valueTooShort (Too short) false exit } if dup 0 exch {/max get add} forall val length lt { pop /bwipp.GS1valueTooLong (Too long) false exit } if { % Checks for each component of the AI /props exch def props /max get val length 2 copy gt {exch} if pop val exch 0 exch getinterval /eval exch def /val val eval length dup val length exch sub getinterval def eval length 0 eq { props /opt get not { pop /bwipp.GS1valueTooShort (Too short) false exit } if } { eval length props /min get lt { pop /bwipp.GS1valueTooShort (Too short) false exit } if << /N /lintnumeric /X /lintcset82 /Y /lintcset39 >> props /cset get get eval exch load exec props /linters get { eval exch load exec } forall } ifelse } forall dup not {exit} if val length 0 ne { % Not all data consumed by components pop /bwipp.GS1valueTooLong (Too long) false exit } if } { pop /bwipp.GS1unknownAI (Unrecognised AI) false exit } ifelse } for not { dup length ai length add 5 add string dup 0 (AI ) putinterval dup 3 ai putinterval dup 3 ai length add (: ) putinterval dup 5 ai length add 4 -1 roll putinterval //raiseerror exec } if % Search for "patt" matching an AIs, excluding "this" AI /aiexists { /this exch def /patt exch def 1 { % common exit aivals patt known {true exit} if % Fast path patt length 4 eq { patt 3 1 getinterval (n) eq { /pfxlen patt 2 1 getinterval (n) eq {2} {3} ifelse def false ais { dup dup this ne exch length 4 eq and { 0 pfxlen getinterval patt 0 pfxlen getinterval eq { pop true } if } { pop } ifelse } forall exit } if false exit } if false exit } repeat } def % Build AI dict and validate repeats /aivals vals length dict def 0 1 vals length 1 sub { dup ais exch get /ai exch def vals exch get /val exch def aivals ai known { aivals ai get val ne { ai length 40 add string dup 0 (Repeated AIs \() putinterval dup 14 ai putinterval dup 14 ai length add (\) must have the same value) putinterval /bwipp.GS1repeatedDifferingAIs exch //raiseerror exec } if } { aivals ai val put } ifelse } for % Validate ex and req pairings 0 1 vals length 1 sub { ais exch get /ai exch def gs1syntax ai get /ex 2 copy known { get { /patt exch def patt ai aiexists { ai length patt length add 36 add string dup 0 (AIs \() putinterval dup 5 ai putinterval dup 5 ai length add (\) and \() putinterval dup 12 ai length add patt putinterval dup 12 ai length add patt length add (\) are mutually exclusive) putinterval /bwipp.GS1exclusiveAIs exch //raiseerror exec } if } forall } { pop pop } ifelse lintreqs { gs1syntax ai get /req 2 copy known { get { % For each req attribute group false exch { % Any req AI in the group is fine ai aiexists {pop true} if } forall not { ai length 47 add string dup 0 (One of more requisite AIs for AI \() putinterval dup 34 ai putinterval dup 34 ai length add (\) are missing) putinterval /bwipp.GS1missingAIs exch //raiseerror exec } if } forall } { pop pop } ifelse } if } for } if % dontlint ais vals fncs //unloadctx exec end } [/barcode] {null def} forall bind def /gs1process dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END RESOURCE gs1process-- % --BEGIN RENDERER renlinear-- % --REQUIRES preamble raiseerror-- %%BeginResource: uk.co.terryburton.bwipp renlinear 0.0 2022082100 75512 74718 %%BeginData: 246 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put begin /renlinear { 20 dict begin % Confine variables to local scope /args exch def % We are given some arguments % Default options /sbs [] def /bhs [] def /bbs [] def /txt [] def /barcolor (unset) def /includetext false def /textcolor (unset) def /textxalign (unset) def /textyalign (unset) def /textfont (Courier) def /textsize 10 def /textxoffset 0 def /textyoffset 0 def /textgaps 0 def /alttext () def /bordercolor (unset) def /backgroundcolor (unset) def /inkspread 0.15 def /width 0 def /barratio 1 def /spaceratio 1 def /showborder false def /borderleft 10 def /borderright 10 def /bordertop 1 def /borderbottom 1 def /borderwidth 0.5 def /guardwhitespace false def /guardleftpos 0 def /guardleftypos 0 def /guardrightpos 0 def /guardrightypos 0 def /guardwidth 6 def /guardheight 7 def % Apply the renderer options and the user options args {def} forall opt {def} forall /barcolor barcolor cvlit def /textcolor textcolor cvlit def /textxalign textxalign cvlit def /textyalign textyalign cvlit def /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /textgaps textgaps cvr def /alttext alttext cvlit def /bordercolor bordercolor cvlit def /backgroundcolor backgroundcolor cvlit def /inkspread inkspread cvr def /width width cvr def /barratio barratio cvr def /spaceratio spaceratio cvr def /borderleft borderleft cvr def /borderright borderright cvr def /bordertop bordertop cvr def /borderbottom borderbottom cvr def /borderwidth borderwidth cvr def /guardleftpos guardleftpos cvr def /guardleftypos guardleftypos cvr def /guardrightpos guardrightpos cvr def /guardrightypos guardrightypos cvr def /guardwidth guardwidth cvr def /guardheight guardheight cvr def % Create bar elements and put them into the bars array /bars sbs length 1 add 2 idiv array def /pixx 0 def /pixy 0 def 0 1 sbs length 1 add 2 idiv 2 mul 2 sub { /i exch def i 2 mod 0 eq { % i is even /d sbs i get barratio mul barratio sub 1 add def % d = digit*r-r+1 sbs i get 0 ne { /h bhs i 2 idiv get 72 mul def % Height from bhs /c d 2 div pixx add def % Centre of the bar = pixx + d/2 /y bbs i 2 idiv get 72 mul def % Baseline from bbs /w d inkspread sub def % bar width = digit - inkspread bars i 2 idiv [h c y w] put % Add the bar entry h y add pixy gt {/pixy h y add def} if } { bars i 2 idiv -1 put % Dummy entry } ifelse } { /d sbs i get spaceratio mul spaceratio sub 1 add def % d = digit*r-r+1 } ifelse /pixx pixx d add def % pixx += d } for gsave currentpoint translate % Force symbol to given width width 0 ne { width 72 mul pixx div 1 scale } if % Set RGB or CMYK color depending on length of given hex string /setanycolor { /anycolor exch def anycolor length 6 eq { (< >) 8 string copy dup 1 anycolor putinterval cvx exec {255 div} forall setrgbcolor } if anycolor length 8 eq { (< >) 10 string copy dup 1 anycolor putinterval cvx exec {255 div} forall setcmykcolor } if } def % Display the border and background newpath borderleft neg borderbottom neg moveto pixx borderleft add borderright add 0 rlineto 0 pixy borderbottom add bordertop add rlineto pixx borderleft add borderright add neg 0 rlineto 0 pixy borderbottom add bordertop add neg rlineto closepath backgroundcolor (unset) ne { gsave backgroundcolor setanycolor fill grestore } if showborder { gsave bordercolor (unset) ne { bordercolor setanycolor } if borderwidth setlinewidth stroke grestore } if % Display the bars for elements in the bars array gsave barcolor (unset) ne { barcolor setanycolor } if newpath bars { dup -1 ne { aload pop % h x y w 2 index 1 index 2 div sub 2 index moveto 0 4 index rlineto dup 0 rlineto 0 4 index neg rlineto closepath pop pop pop pop } { pop } ifelse } forall fill grestore % Display the text for elements in the text array textcolor (unset) ne { textcolor setanycolor } if includetext { textxalign (unset) eq textyalign (unset) eq and alttext () eq and { /s 0 def /fn () def txt { {} forall 2 copy s ne exch fn ne or { 2 copy /s exch def /fn exch def selectfont } { pop pop } ifelse moveto show } forall } { textfont textsize selectfont alttext () eq { /txt [ txt { 0 get {} forall } forall ] def /tstr txt length string def 0 1 txt length 1 sub { dup txt exch get tstr 3 1 roll put } for } { /tstr alttext def } ifelse % Find true ascent of font tstr length 0 eq { 0 } { gsave newpath 0 0 moveto (0) false charpath pathbbox 4 1 roll pop pop pop grestore currentfont /PaintType known {currentfont /PaintType get 2 eq} {false} ifelse currentfont /StrokeWidth known and { currentfont /StrokeWidth get 2 div 0 exch currentfont /FontMatrix get dtransform dup mul exch dup mul add sqrt add } if } ifelse /textascent exch def /textwidth tstr stringwidth pop tstr length 1 sub textgaps mul add def /textxpos textxoffset pixx textwidth sub 2 div add def textxalign (left) eq { /textxpos textxoffset def } if textxalign (right) eq { /textxpos pixx textxoffset sub textwidth sub def } if textxalign (offleft) eq { /textxpos textwidth textxoffset add neg def } if textxalign (offright) eq { /textxpos pixx textxoffset add def } if textxalign (justify) eq textwidth pixx lt and { /textxpos 0 def /textgaps pixx textwidth sub tstr length 1 sub div def } if /textypos textyoffset textascent add 1 add neg def textyalign (above) eq { /textypos textyoffset pixy add 1 add def } if textyalign (center) eq { /textypos textyoffset pixy textascent sub 2 div add def } if textxpos textypos moveto textgaps 0 tstr ashow } ifelse } if % Display the guard elements guardwhitespace { 0.75 setlinewidth guardleftpos 0 ne { newpath guardleftpos neg guardwidth add guardleftypos guardwidth 2 div add moveto guardwidth neg guardheight -2 div rlineto guardwidth guardheight -2 div rlineto stroke } if guardrightpos 0 ne { newpath guardrightpos pixx add guardwidth sub guardrightypos guardheight 2 div add moveto guardwidth guardheight -2 div rlineto guardwidth neg guardheight -2 div rlineto stroke } if } if grestore end } [/barcode] {null def} forall bind def /renlinear dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END RENDERER renlinear-- % --BEGIN RENDERER renmatrix-- % --REQUIRES preamble raiseerror-- %%BeginResource: uk.co.terryburton.bwipp renmatrix 0.0 2022082100 89491 88705 %%BeginData: 306 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put begin /renmatrix { 20 dict begin /args exch def % Default options /width 1 def /height 1 def /barcolor (unset) def /backgroundcolor (unset) def /colormap (unset) def /dotty false def /inkspread 0 def /inkspreadh 0 def /inkspreadv 0 def /includetext false def /txt [] def /textcolor (unset) def /textxalign (unset) def /textyalign (unset) def /textfont (Courier) def /textsize 10 def /textxoffset 0 def /textyoffset 0 def /textgaps 0 def /alttext () def % Apply the renderer options and the user options args {def} forall opt {def} forall /width width cvr def /height height cvr def /barcolor barcolor cvlit def /backgroundcolor backgroundcolor cvlit def /inkspread inkspread cvr def /inkspreadh inkspreadh cvr def /inkspreadv inkspreadv cvr def /textcolor textcolor cvlit def /textxalign textxalign cvlit def /textyalign textyalign cvlit def /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /textgaps textgaps cvr def /alttext alttext cvlit def inkspread 0 ne {/inkspreadh inkspread def} if inkspread 0 ne {/inkspreadv inkspread def} if /xyget { pixx mul add pixs exch get} def /cget { pixx mul add cache exch get and} def /cput { % Optimise by only storing "stem" corners dup 4 mod 0 eq { % dir is up or left 3 1 roll pixx mul add cache exch 2 copy get 4 -1 roll or put } { pop pop pop } ifelse } def /abcd { 4 string 0 [ 5 -2 roll pixx mul add dup pixs exch 2 getinterval aload pop 3 -1 roll % A B pixs exch pixx add 2 getinterval aload pop % C D ] {3 copy 48 add put pop 1 add} forall pop } def /right {dir 1 ne {x y dir cput [x y]} if /x x 1 add def /dir 1 def} def /down {dir 2 ne {x y dir cput [x y]} if /y y 1 add def /dir 2 def} def /left {dir 4 ne {x y dir cput [x y]} if /x x 1 sub def /dir 4 def} def /up {dir 8 ne {x y dir cput [x y]} if /y y 1 sub def /dir 8 def} def /trace { % Walk the outline of a region emitting edge coordinates of the path /y exch def /x exch def % dir 1:right 2:down 4:left 8:up /dir x 1 add y 1 add xyget 1 eq {8} {4} ifelse def /sx x def /sy y def /sdir dir def % A B % C D mark { x y abcd 1 { % Common exit dup dup (0001) eq exch dup (0011) eq exch (1011) eq or or {pop right exit} if dup dup (0010) eq exch dup (1010) eq exch (1110) eq or or {pop down exit} if dup dup (1000) eq exch dup (1100) eq exch (1101) eq or or {pop left exit} if dup dup (0100) eq exch dup (0101) eq exch (0111) eq or or {pop up exit} if dup (1001) eq { dir 2 eq {pop left exit} {pop right exit} ifelse } { % 0110 dir 1 eq {pop down exit} {pop up exit} ifelse } ifelse } repeat x sx eq y sy eq and dir sdir eq and {exit} if } loop counttomark array astore exch pop } def % Set RGB or CMYK color depending on length of given hex string /setanycolor { /anycolor exch def anycolor length 6 eq { (< >) 8 string copy dup 1 anycolor putinterval cvx exec {255 div} forall setrgbcolor } if anycolor length 8 eq { (< >) 10 string copy dup 1 anycolor putinterval cvx exec {255 div} forall setcmykcolor } if } def % Plot a layer of single colour /drawlayer { /pixsorig pixs def /pixs exch def % Pad the bitmap on all sides /pixs [ pixx 2 add {0} repeat 0 pixx pixs length 1 sub { 0 exch pixs exch pixx getinterval aload pop 0 } for pixx 2 add {0} repeat ] def /pixx pixx 2 add def /pixy pixy 2 add def % Cache of visited corners for each direction /cache [ pixs length {0} repeat ] def % Construct paths by tracing regions avoiding duplication by using the cache /paths [ 0 1 pixy 2 sub { /j exch def 0 1 pixx 2 sub { /i exch def /k i j abcd def k (0001) eq k (1001) eq or { % Black region stem corners 8 i j cget 0 eq { i j trace } if } if k (1110) eq { % White region stem corner 4 i j cget 0 eq { i j trace } if } if } for } for ] def % Revert the bitmap size /pixx pixx 2 sub def /pixy pixy 2 sub def % Draw the image newpath paths { /p exch def /len p length def p len 1 sub get aload pop p 0 get aload pop 0 1 len 1 sub { % x1 y1 x2 y2 /i exch def p i 1 add len mod get aload pop 6 -2 roll % x3 y3 x1 y1 x2 y2 5 index inkspreadh 4 index 4 -1 roll lt {add} {sub} ifelse % y3x1 ? y2+i : y2-i 4 -1 roll exch pixy exch sub i 0 eq {moveto} {lineto} ifelse } for % x2 y2 x3 y3 closepath pop pop pop pop } forall fill /pixs pixsorig def } def /drawlayerdots { /pixsorig pixs def /pixs exch def newpath 0 1 pixs length 1 sub { dup pixx mod /x exch def pixx idiv /y exch def x y xyget 1 eq { x 0.5 add pixy y sub 0.5 sub moveto x 0.5 add pixy y sub 0.5 sub 0.5 inkspread sub 0 360 arc } if } for fill /pixs pixsorig def } def gsave % Draw the image /inkspread inkspread 2 div def /inkspreadh inkspreadh 2 div def /inkspreadv inkspreadv 2 div def currentpoint translate width pixx div 72 mul height pixy div 72 mul scale 0 0 moveto pixx 0 lineto pixx pixy lineto 0 pixy lineto closepath backgroundcolor (unset) ne { gsave backgroundcolor setanycolor fill grestore } if colormap (unset) eq { /colormap << 1 barcolor >> def } if colormap { setanycolor /key exch def [ pixs { key eq {1} {0} ifelse } forall ] dotty {drawlayerdots} {drawlayer} ifelse } forall % Display the text for elements in the text array textcolor (unset) ne { textcolor setanycolor } if includetext { textxalign (unset) eq textyalign (unset) eq and alttext () eq and { /s 0 def /fn () def txt { {} forall 2 copy s ne exch fn ne or { 2 copy /s exch def /fn exch def selectfont } { pop pop } ifelse moveto show } forall } { textfont textsize selectfont alttext () eq { /txt [ txt { 0 get {} forall } forall ] def /tstr txt length string def 0 1 txt length 1 sub { dup txt exch get tstr 3 1 roll put } for } { /tstr alttext def } ifelse % Find true ascent of font tstr length 0 eq { 0 } { gsave newpath 0 0 moveto (0) false charpath pathbbox 4 1 roll pop pop pop grestore currentfont /PaintType known {currentfont /PaintType get 2 eq} {false} ifelse currentfont /StrokeWidth known and { currentfont /StrokeWidth get 2 div 0 exch currentfont /FontMatrix get dtransform dup mul exch dup mul add sqrt add } if } ifelse /textascent exch def /textwidth tstr stringwidth pop tstr length 1 sub textgaps mul add def /textxpos textxoffset pixx textwidth sub 2 div add def textxalign (left) eq { /textxpos textxoffset def } if textxalign (right) eq { /textxpos pixx textxoffset sub textwidth sub def } if textxalign (offleft) eq { /textxpos textwidth textxoffset add neg def } if textxalign (offright) eq { /textxpos pixx textxoffset add def } if textxalign (justify) eq textwidth pixx lt and { /textxpos 0 def /textgaps pixx textwidth sub tstr length 1 sub div def } if /textypos textyoffset textascent add 1 add neg def textyalign (above) eq { /textypos textyoffset pixy add 1 add def } if textyalign (center) eq { /textypos textyoffset pixy textascent sub 2 div add def } if textxpos textypos moveto textgaps 0 tstr ashow } ifelse } if grestore end } [/barcode] {null def} forall bind def /renmatrix dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END RENDERER renmatrix-- % --BEGIN RENDERER renmaximatrix-- % --REQUIRES preamble raiseerror-- %%BeginResource: uk.co.terryburton.bwipp renmaximatrix 0.0 2022082100 50058 49824 %%BeginData: 81 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put begin /renmaximatrix { 20 dict begin /args exch def % We are given some arguments % Default options /barcolor (unset) def /backgroundcolor (unset) def % Apply the renderer options and the user options args {def} forall opt {def} forall /barcolor barcolor cvlit def /backgroundcolor backgroundcolor cvlit def % Set RGB or CMYK color depending on length of given hex string /setanycolor { /anycolor exch def anycolor length 6 eq { (< >) 8 string copy dup 1 anycolor putinterval cvx exec {255 div} forall setrgbcolor } if anycolor length 8 eq { (< >) 10 string copy dup 1 anycolor putinterval cvx exec {255 div} forall setcmykcolor } if } def gsave currentpoint translate 2.4945 dup scale % from 1pt to 0.88mm 0 0 moveto 30 0 lineto 30 29 lineto 0 29 lineto closepath backgroundcolor (unset) ne { gsave backgroundcolor setanycolor fill grestore } if barcolor (unset) ne { barcolor setanycolor } if 0.5 0.5774 translate newpath pixs { dup /x exch 30 mod def /y exch 30 idiv def y 2 mod 0 eq {x} {x 0.5 add} ifelse 32 y sub 0.8661 mul moveto 0 0.5774 rmoveto -0.5 -0.2887 rlineto 0 -0.5774 rlineto 0.5 -0.2887 rlineto 0.5 0.2887 rlineto 0 0.5774 rlineto -0.5 0.2887 rlineto closepath } forall fill % Plot the locator symbol newpath 14 13.8576 0.5774 0 360 arc closepath 14 13.8576 1.3359 360 0 arcn closepath fill newpath 14 13.8576 2.1058 0 360 arc closepath 14 13.8576 2.8644 360 0 arcn closepath fill newpath 14 13.8576 3.6229 0 360 arc closepath 14 13.8576 4.3814 360 0 arcn closepath fill grestore end } [/barcode] {null def} forall bind def /renmaximatrix dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END RENDERER renmaximatrix-- % --BEGIN ENCODER ean5-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: EAN-5 (5 digit addon) % --EXAM: 90200 % --EXOP: includetext guardwhitespace % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp ean5 0.0 2022082100 67660 63946 %%BeginData: 147 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /ean5 { 20 dict begin /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Helvetica def /textsize 12 def /textxoffset 0 def /textyoffset (unset) def /height 0.7 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /height height cvr def /textxoffset textxoffset cvr def textyoffset (unset) eq { /textyoffset height 72 mul 1 add def } { /textyoffset textyoffset cvr def } ifelse /ean5 //loadctx exec % Validate input barcode length 5 ne { /bwipp.ean5badLength (EAN-5 add-on must be 5 digits) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.ean5badCharacter (EAN-5 add-on must contain only digits) //raiseerror exec } if } forall { % Create an array containing the character mappings /encs [ (3211) (2221) (2122) (1411) (1132) (1231) (1114) (1312) (1213) (3112) (112) (11) ] def % Create a string of the available characters /barchars (0123456789) def % Determine the mirror map based on mod 10 checksum /mirrormaps [ (11000) (10100) (10010) (10001) (01100) (00110) (00011) (01010) (01001) (00101) ] def } ctxdef /checksum 0 def 0 1 4 { /i exch def /barchar barcode i get 48 sub def i 2 mod 0 eq { /checksum barchar 3 mul checksum add def } { /checksum barchar 9 mul checksum add def } ifelse } for /checksum checksum 10 mod def /mirrormap mirrormaps checksum get def /sbs 31 string def /txt 5 array def 0 1 4 { /i exch def % Prefix with either a start character or separator character i 0 eq { sbs 0 encs 10 get putinterval } { sbs i 1 sub 6 mul 7 add encs 11 get putinterval } ifelse % Lookup the encoding for the barcode character barcode i 1 getinterval barchars exch search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard seek and post /enc encs indx get def % Get the indxth encoding mirrormap i get 49 eq { % Reverse enc if 1 in this position in mirrormap /enclen enc length def /revenc enclen string def 0 1 enclen 1 sub { /j exch def /char enc j get def revenc enclen j sub 1 sub char put } for /enc revenc def } if sbs i 6 mul 3 add enc putinterval % Put encoded digit into sbs txt i [barcode i 1 getinterval i 1 sub 9 mul 13 add textxoffset add textyoffset textfont textsize] put } for % Return the arguments << /ren //renlinear /sbs [sbs {48 sub} forall] /bhs [16{height}repeat] /bbs [16{0}repeat] includetext { /txt txt } if /opt options /guardrightpos 10 /guardrightypos textyoffset 4 add /bordertop 10 >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /ean5 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER ean5-- % --BEGIN ENCODER ean2-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: EAN-2 (2 digit addon) % --EXAM: 05 % --EXOP: includetext guardwhitespace % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp ean2 0.0 2022082100 66307 62648 %%BeginData: 133 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /ean2 { 20 dict begin /options exch def % We are given an options string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Helvetica def /textsize 12 def /textxoffset 0 def /textyoffset (unset) def /height 0.7 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /height height cvr def /textxoffset textxoffset cvr def textyoffset (unset) eq { /textyoffset height 72 mul 1 add def } { /textyoffset textyoffset cvr def } ifelse /ean2 //loadctx exec % Validate input barcode length 2 ne { /bwipp.ean2badLength (EAN-2 add-on must be 2 digits) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.ean2badCharacter (EAN-2 add-on must contain only digits) //raiseerror exec } if } forall { % Create an array containing the character mappings /encs [ (3211) (2221) (2122) (1411) (1132) (1231) (1114) (1312) (1213) (3112) (112) (11) ] def % Create a string of the available characters /barchars (0123456789) def % Determine the mirror map based on mod 4 checksum /mirrormaps [(00) (01) (10) (11)] def } ctxdef /mirrormap mirrormaps barcode 0 2 getinterval cvi 4 mod get def /sbs 13 string def /txt 2 array def 0 1 1 { /i exch def % Prefix with either a start character or separator character i 0 eq { sbs 0 encs 10 get putinterval } { sbs i 1 sub 6 mul 7 add encs 11 get putinterval } ifelse % Lookup the encoding for the barcode character barcode i 1 getinterval barchars exch search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard seek and post /enc encs indx get def % Get the indxth encoding mirrormap i get 49 eq { % Reverse enc if 1 in this position in mirrormap /enclen enc length def /revenc enclen string def 0 1 enclen 1 sub { /j exch def /char enc j get def revenc enclen j sub 1 sub char put } for /enc revenc def } if sbs i 6 mul 3 add enc putinterval % Put encoded digit into sbs txt i [barcode i 1 getinterval i 1 sub 9 mul 13 add textxoffset add textyoffset textfont textsize] put } for % Return the arguments << /ren //renlinear /sbs [sbs {48 sub} forall] /bhs [12{height}repeat] /bbs [12{0}repeat] includetext { /txt txt } if /opt options /guardrightpos 10 /guardrightypos textyoffset 4 add /bordertop 10 >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /ean2 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER ean2-- % --BEGIN ENCODER ean13-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear ean5 ean2-- % --DESC: EAN-13 % --EXAM: 2112345678900 % --EXOP: includetext guardwhitespace % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp ean13 0.0 2022082100 87150 86773 %%BeginData: 226 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /ean2 dup /uk.co.terryburton.bwipp findresource put dup /ean5 dup /uk.co.terryburton.bwipp findresource put begin /ean13 { 20 dict begin /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Helvetica def /textsize 12 def /textxoffset -10 def /textyoffset -4 def /height 1 def /addongap 12 def /addontextfont (unset) def /addontextsize (unset) def /addontextxoffset (unset) def /addontextyoffset (unset) def % Parse the input options, either a string or a dict options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def /addongap addongap cvr def addontextfont (unset) ne {/addontextfont addontextfont cvlit def} if addontextsize (unset) ne {/addontextsize addontextsize cvr def} if addontextxoffset (unset) ne {/addontextxoffset addontextxoffset cvr def} if addontextyoffset (unset) ne {/addontextyoffset addontextyoffset cvr def} if /ean13 //loadctx exec % Split off the addon barcode ( ) search { /barcode exch def pop /addon exch def } { pop /addon () def } ifelse % Validate the input barcode length 12 ne barcode length 13 ne and { /bwipp.ean13badLength (EAN-13 must be 12 or 13 digits) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.ean13badCharacter (EAN-13 must contain only digits) //raiseerror exec } if } forall addon length 0 ne addon length 2 ne and addon length 5 ne and { /bwipp.ean13badAddOnLength (Add-on for EAN-13 must be 2 or 5 digits) //raiseerror exec } if % Add checksum digit /pad 13 string def /checksum 0 def 0 1 11 { /i exch def /barchar barcode i get 48 sub def i 2 mod 0 eq { /checksum barchar checksum add def } { /checksum barchar 3 mul checksum add def } ifelse } for /checksum 10 checksum 10 mod sub 10 mod def barcode length 13 eq { barcode 12 get checksum 48 add ne { /bwipp.ean13badCheckDigit (Incorrect EAN-13 check digit provided) //raiseerror exec } if } if pad 0 barcode putinterval % Add barcode to the start of the pad pad 12 checksum 48 add put % Put ascii for checksum at end of pad /barcode pad def { % Create an array containing the character mappings /encs [ (3211) (2221) (2122) (1411) (1132) (1231) (1114) (1312) (1213) (3112) (111) (11111) (111) ] def % Create a string of the available characters /barchars (0123456789) def % Digits to mirror on left side /mirrormaps [ (000000) (001011) (001101) (001110) (010011) (011001) (011100) (010101) (010110) (011010) ] def } ctxdef /sbs 59 string def /txt 13 array def % Put the start character sbs 0 encs 10 get putinterval % First digit - determine mirrormap by this and show before guard bars /mirrormap mirrormaps barcode 0 get 48 sub get def txt 0 [barcode 0 1 getinterval textxoffset textyoffset textfont textsize] put % Left side - performs mirroring 1 1 6 { % Lookup the encoding for the each barcode character /i exch def barcode i 1 getinterval barchars exch search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard seek and post /enc encs indx get def % Get the indxth encoding mirrormap i 1 sub get 49 eq { % Reverse enc if 1 in this position in mirrormap /enclen enc length def /revenc enclen string def 0 1 enclen 1 sub { /j exch def /char enc j get def revenc enclen j sub 1 sub char put } for /enc revenc def } if sbs i 1 sub 4 mul 3 add enc putinterval % Put encoded digit into sbs txt i [barcode i 1 getinterval i 1 sub 7 mul 14 add textxoffset add textyoffset textfont textsize] put } for % Put the middle character sbs 7 1 sub 4 mul 3 add encs 11 get putinterval % Right side 7 1 12 { % Lookup the encoding for the each barcode character /i exch def barcode i 1 getinterval barchars exch search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard seek and post /enc encs indx get def % Get the indxth encoding sbs i 1 sub 4 mul 8 add enc putinterval % Put encoded digit into sbs txt i [barcode i 1 getinterval i 1 sub 7 mul 18 add textxoffset add textyoffset textfont textsize] put } for % Put the end character sbs 56 encs 12 get putinterval /sbs [sbs {48 sub} forall] def includetext { /bhs [height height 12{height .075 sub}repeat height height 12{height .075 sub}repeat height height] def /bbs [0 0 12{.075}repeat 0 0 12{.075}repeat 0 0] def } { /bhs [30{height}repeat] def /bbs [30{0}repeat] def /txt [] def } ifelse /guardrightypos 0 def % Append the addon addon () ne { /addopts << /dontdraw true /includetext true /height height 0.15 sub /textxoffset addontextxoffset (unset) ne {addontextxoffset} {95 addongap add} ifelse addontextyoffset (unset) ne {/textyoffset addontextyoffset} if /textsize addontextsize (unset) ne {addontextsize} {textsize} ifelse /textfont addontextfont (unset) ne {addontextfont} {textfont} ifelse >> def addon length 2 eq {addon addopts //ean2 exec} if addon length 5 eq {addon addopts //ean5 exec} if /addcode exch def /sbs [sbs aload pop addongap addcode (sbs) get aload pop] def /bhs [bhs aload pop addcode (bhs) get {.075 sub} forall] def /bbs [bbs aload pop addcode (bbs) get {.075 add} forall] def /txt [txt aload pop addcode (txt) get aload pop] def /guardrightypos height 72 mul 6 sub def } if % Return the arguments << /ren //renlinear /sbs sbs /bhs bhs /bbs bbs /txt txt /opt options /guardrightpos 10 /guardrightypos guardrightypos /borderbottom 5 >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /ean13 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER ean13-- % --BEGIN ENCODER ean8-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear ean5 ean2-- % --DESC: EAN-8 % --EXAM: 02345673 % --EXOP: includetext guardwhitespace % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp ean8 0.0 2022082100 84180 83888 %%BeginData: 207 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /ean2 dup /uk.co.terryburton.bwipp findresource put dup /ean5 dup /uk.co.terryburton.bwipp findresource put begin /ean8 { 20 dict begin /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Helvetica def /textsize 12 def /textxoffset 4 def /textyoffset -4 def /height 1 def /addongap 12 def /addontextfont (unset) def /addontextsize (unset) def /addontextxoffset (unset) def /addontextyoffset (unset) def % Parse the input options, either a string or a dict options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def /addongap addongap cvr def addontextfont (unset) ne {/addontextfont addontextfont cvlit def} if addontextsize (unset) ne {/addontextsize addontextsize cvr def} if addontextxoffset (unset) ne {/addontextxoffset addontextxoffset cvr def} if addontextyoffset (unset) ne {/addontextyoffset addontextyoffset cvr def} if /ean8 //loadctx exec % Split off the addon barcode ( ) search { /barcode exch def pop /addon exch def } { pop /addon () def } ifelse % Validate the input barcode length 7 ne barcode length 8 ne and { /bwipp.ean8badLength (EAN-8 must be 7 or 8 digits) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.ean8badCharacter (EAN-8 must contain only digits) //raiseerror exec } if } forall addon length 0 ne addon length 2 ne and addon length 5 ne and { /bwipp.ean8badAddOnLength (Add-on for EAN-8 must be 2 or 5 digits) //raiseerror exec } if % Add checksum digit /pad 8 string def /checksum 0 def 0 1 6 { /i exch def /barchar barcode i get 48 sub def i 2 mod 0 ne { /checksum barchar checksum add def } { /checksum barchar 3 mul checksum add def } ifelse } for /checksum 10 checksum 10 mod sub 10 mod def barcode length 8 eq { barcode 7 get checksum 48 add ne { /bwipp.ean8badCheckDigit (Incorrect EAN-8 check digit provided) //raiseerror exec } if } if pad 0 barcode putinterval % Add barcode to the start of the pad pad 7 checksum 48 add put % Put ascii for checksum at end of pad /barcode pad def % Create an array containing the character mappings { /encs [ (3211) (2221) (2122) (1411) (1132) (1231) (1114) (1312) (1213) (3112) (111) (11111) (111) ] def % Create a string of the available characters /barchars (0123456789) def } ctxdef /sbs 43 string def /txt 8 array def % Put the start character sbs 0 encs 10 get putinterval % Left side 0 1 3 { % Lookup the encoding for the each barcode character /i exch def barcode i 1 getinterval barchars exch search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard seek and post /enc encs indx get def % Get the indxth encoding sbs i 4 mul 3 add enc putinterval % Put encoded digit into sbs txt i [barcode i 1 getinterval i 7 mul textxoffset add textyoffset textfont textsize] put } for % Put the middle character sbs 4 4 mul 3 add encs 11 get putinterval % Right side 4 1 7 { % Lookup the encoding for the each barcode character /i exch def barcode i 1 getinterval barchars exch search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard seek and post /enc encs indx get def % Get the indxth encoding sbs i 4 mul 8 add enc putinterval % Put encoded digit into sbs txt i [barcode i 1 getinterval i 7 mul textxoffset add 4 add textyoffset textfont textsize] put } for % Put the end character sbs 40 encs 12 get putinterval /sbs [sbs {48 sub} forall] def includetext { /bhs [height height 8{height .075 sub}repeat height height 8{height .075 sub}repeat height height] def /bbs [0 0 8{.075}repeat 0 0 8{.075}repeat 0 0] def } { /bhs [22{height}repeat] def /bbs [22{0}repeat] def /txt [] def } ifelse /guardrightypos 0 def % Append the addon addon () ne { /addopts << /dontdraw true /includetext true /height height 0.15 sub /textxoffset addontextxoffset (unset) ne {addontextxoffset} {67 addongap add} ifelse addontextyoffset (unset) ne {/textyoffset addontextyoffset} if /textsize addontextsize (unset) ne {addontextsize} {textsize} ifelse /textfont addontextfont (unset) ne {addontextfont} {textfont} ifelse >> def addon length 2 eq {addon addopts //ean2 exec} if addon length 5 eq {addon addopts //ean5 exec} if /addcode exch def /sbs [sbs aload pop addongap addcode (sbs) get aload pop] def /bhs [bhs aload pop addcode (bhs) get {.075 sub} forall] def /bbs [bbs aload pop addcode (bbs) get {.075 add} forall] def /txt [txt aload pop addcode (txt) get aload pop] def /guardrightypos height 72 mul 6 sub def } if % Return the arguments << /ren //renlinear /sbs sbs /bhs bhs /bbs bbs /txt txt /opt options /guardleftpos 10 /guardrightpos 10 /guardrightypos guardrightypos /borderbottom 5 >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /ean8 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER ean8-- % --BEGIN ENCODER upca-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear ean5 ean2-- % --DESC: UPC-A % --EXAM: 416000336108 % --EXOP: includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp upca 0.0 2022082100 92023 91540 %%BeginData: 259 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /ean2 dup /uk.co.terryburton.bwipp findresource put dup /ean5 dup /uk.co.terryburton.bwipp findresource put begin /upca { 20 dict begin /options exch def /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Helvetica def /textsize 12 def /textxoffset -7 def /textyoffset -4 def /height 1 def /addongap 12 def /addontextfont (unset) def /addontextsize (unset) def /addontextxoffset (unset) def /addontextyoffset (unset) def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def /addongap addongap cvr def addontextfont (unset) ne {/addontextfont addontextfont cvlit def} if addontextsize (unset) ne {/addontextsize addontextsize cvr def} if addontextxoffset (unset) ne {/addontextxoffset addontextxoffset cvr def} if addontextyoffset (unset) ne {/addontextyoffset addontextyoffset cvr def} if /upca //loadctx exec % Split off the addon barcode ( ) search { /barcode exch def pop /addon exch def } { pop /addon () def } ifelse % Expand a given UPC-E barcode length 7 eq barcode length 8 eq or { % Validate the input barcode { dup 48 lt exch 57 gt or { /bwipp.upcAupcEbadCharacter (UPC-E must contain only digits) //raiseerror exec } if } forall barcode 0 get dup 48 ne exch 49 ne and { /bwipp.upcAupcEbadNumberSystem (UPC-E must have number system 0 or 1) //raiseerror exec } if 1 { % Common exit /upcacode barcode length 8 eq {12} {11} ifelse string def barcode 6 get 48 sub 2 le { upcacode 0 barcode 0 3 getinterval putinterval upcacode 3 barcode 6 1 getinterval putinterval upcacode 4 (0000) putinterval upcacode 8 barcode 3 3 getinterval putinterval exit } if barcode 6 get 48 sub 3 eq { upcacode 0 barcode 0 4 getinterval putinterval upcacode 4 (00000) putinterval upcacode 9 barcode 4 2 getinterval putinterval exit } if barcode 6 get 48 sub 4 eq { upcacode 0 barcode 0 5 getinterval putinterval upcacode 5 (00000) putinterval upcacode 10 barcode 5 1 getinterval putinterval exit } if barcode 6 get 48 sub 5 ge { upcacode 0 barcode 0 6 getinterval putinterval upcacode 6 (0000) putinterval upcacode 10 barcode 6 1 getinterval putinterval exit } if } repeat barcode length 8 eq { upcacode 11 barcode 7 1 getinterval putinterval } if /barcode upcacode def } if % Validate the input barcode length 11 ne barcode length 12 ne and { /bwipp.upcAbadLength (UPC-A must be 11 or 12 digits) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.upcAbadCharacter (UPC-A must contain only digits) //raiseerror exec } if } forall addon length 0 ne addon length 2 ne and addon length 5 ne and { /bwipp.upcAbadAddOnLength (Add-on for UPC-A must be 2 or 5 digits) //raiseerror exec } if % Add checksum digit to barcode /pad 12 string def % Create pad one bigger than barcode /checksum 0 def 0 1 10 { /i exch def /barchar barcode i get 48 sub def i 2 mod 0 ne { /checksum checksum barchar add def } { /checksum checksum barchar 3 mul add def } ifelse } for /checksum 10 checksum 10 mod sub 10 mod def barcode length 12 eq { barcode 11 get checksum 48 add ne { /bwipp.upcAbadCheckDigit (Incorrect UPC check digit provided) //raiseerror exec } if } if pad 0 barcode putinterval % Add barcode to the start of the pad pad 11 checksum 48 add put % Put ascii for checksum at end of pad /barcode pad def % Create an array containing the character mappings { /encs [ (3211) (2221) (2122) (1411) (1132) (1231) (1114) (1312) (1213) (3112) (111) (11111) (111) ] def % Create a string of the available characters /barchars (0123456789) def } ctxdef /sbs 59 string def /txt 12 array def % Put the start character sbs 0 encs 10 get putinterval % Left side 0 1 5 { % Lookup the encoding for the each barcode character /i exch def barcode i 1 getinterval barchars exch search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard seek and post /enc encs indx get def % Get the indxth encoding sbs i 4 mul 3 add enc putinterval % Put encoded digit into sbs i 0 eq { % First digit is before the guard bars txt 0 [barcode 0 1 getinterval textxoffset textyoffset textfont textsize 2 sub] put } { txt i [barcode i 1 getinterval i 7 mul 11 add textxoffset add textyoffset textfont textsize] put } ifelse } for % Put the middle character sbs 6 4 mul 3 add encs 11 get putinterval % Right side 6 1 11 { % Lookup the encoding for the each barcode character /i exch def barcode i 1 getinterval barchars exch search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard seek and post /enc encs indx get def % Get the indxth encoding sbs i 4 mul 8 add enc putinterval % Put encoded digit into sbs i 11 eq { % Last digit is after guard bars txt 11 [barcode 11 1 getinterval textxoffset 103 add textyoffset textfont textsize 2 sub] put } { txt i [barcode i 1 getinterval i 7 mul textxoffset add 15 add textyoffset textfont textsize] put } ifelse } for % Put the end character sbs 56 encs 12 get putinterval /sbs [sbs {48 sub} forall] def includetext { /bhs [4{height}repeat 10{height .075 sub}repeat height height 10{height .075 sub}repeat 4{height}repeat] def /bbs [0 0 0 0 10{.075}repeat 0 0 10{.075}repeat 0 0 0 0] def } { /bhs [30{height}repeat] def /bbs [30{0}repeat] def /txt [] def } ifelse /guardrightypos 0 def % Append the addon addon () ne { /addopts << /dontdraw true /includetext true /height height 0.15 sub /textxoffset addontextxoffset (unset) ne {addontextxoffset} {95 addongap add} ifelse addontextyoffset (unset) ne {/textyoffset addontextyoffset} if /textsize addontextsize (unset) ne {addontextsize} {textsize} ifelse /textfont addontextfont (unset) ne {addontextfont} {textfont} ifelse >> def addon length 2 eq {addon addopts //ean2 exec} if addon length 5 eq {addon addopts //ean5 exec} if /addcode exch def /sbs [sbs aload pop addongap addcode (sbs) get aload pop] def /bhs [bhs aload pop addcode (bhs) get {.075 sub} forall] def /bbs [bbs aload pop addcode (bbs) get {.075 add} forall] def /txt [txt aload pop addcode (txt) get aload pop] def /guardrightypos height 72 mul 6 sub def } if % Return the arguments << /ren //renlinear /sbs sbs /bhs bhs /bbs bbs /txt txt /opt options /guardrightpos 10 /guardrightypos guardrightypos /borderbottom 5 >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /upca dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER upca-- % --BEGIN ENCODER upce-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear ean5 ean2-- % --DESC: UPC-E % --EXAM: 00123457 % --EXOP: includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp upce 0.0 2022082100 96548 96108 %%BeginData: 298 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /ean2 dup /uk.co.terryburton.bwipp findresource put dup /ean5 dup /uk.co.terryburton.bwipp findresource put begin /upce { 20 dict begin /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Helvetica def /textsize 12 def /textxoffset -7 def /textyoffset -4 def /height 1 def /addongap 12 def /addontextfont (unset) def /addontextsize (unset) def /addontextxoffset (unset) def /addontextyoffset (unset) def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def /addongap addongap cvr def addontextfont (unset) ne {/addontextfont addontextfont cvlit def} if addontextsize (unset) ne {/addontextsize addontextsize cvr def} if addontextxoffset (unset) ne {/addontextxoffset addontextxoffset cvr def} if addontextyoffset (unset) ne {/addontextyoffset addontextyoffset cvr def} if /upce //loadctx exec % Split off the addon barcode ( ) search { /barcode exch def pop /addon exch def } { pop /addon () def } ifelse % Compress a given UPC-A barcode length 11 eq barcode length 12 eq or { % Validate the input barcode { dup 48 lt exch 57 gt or { /bwipp.upcEupcAbadCharacter (UPC-A must contain only digits) //raiseerror exec } if } forall 1 { % Common exit /upcecode barcode length 12 eq {8} {7} ifelse string def barcode 3 get 48 sub 2 le barcode 4 4 getinterval (0000) eq and { upcecode 0 barcode 0 3 getinterval putinterval upcecode 3 barcode 8 3 getinterval putinterval upcecode 6 barcode 3 1 getinterval putinterval exit } if barcode 4 5 getinterval (00000) eq { upcecode 0 barcode 0 4 getinterval putinterval upcecode 4 barcode 9 2 getinterval putinterval upcecode 6 (3) putinterval exit } if barcode 5 5 getinterval (00000) eq { upcecode 0 barcode 0 5 getinterval putinterval upcecode 5 barcode 10 1 getinterval putinterval upcecode 6 (4) putinterval exit } if barcode 10 get 48 sub 5 ge barcode 6 4 getinterval (0000) eq and { upcecode 0 barcode 0 6 getinterval putinterval upcecode 6 barcode 10 1 getinterval putinterval exit } if /bwipp.upcEupcAnotCompressible (UPC-A cannot be converted to a UPC-E) //raiseerror exec } repeat barcode length 12 eq { upcecode 7 barcode 11 1 getinterval putinterval } if /barcode upcecode def } if % Validate the input barcode length 7 ne barcode length 8 ne and { /bwipp.upcEbadLength (UPC-E must be 7 or 8 digits) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.upcEbadCharacter (UPC-E must contain only digits) //raiseerror exec } if } forall addon length 0 ne addon length 2 ne and addon length 5 ne and { /bwipp.upcEbadAddOnLength (Add-on for UPC-E must be 2 or 5 digits) //raiseerror exec } if % Ensure 0 or 1 number systems barcode 0 get dup 48 ne exch 49 ne and { /bwipp.upcEbadNumberSystem (UPC-E must have number system 0 or 1) //raiseerror exec } if { % Create an array containing the character mappings /encs [ (3211) (2221) (2122) (1411) (1132) (1231) (1114) (1312) (1213) (3112) (111) (111111) ] def % Create a string of the available characters /barchars (0123456789) def /mirrormaps [ (000111) (001011) (001101) (001110) (010011) (011001) (011100) (010101) (010110) (011010) ] def } ctxdef % Derive the equivalent UPC-A for its checksum 1 { % Common exit /upcacode 11 string def barcode 6 get 48 sub 2 le { upcacode 0 barcode 0 3 getinterval putinterval upcacode 3 barcode 6 1 getinterval putinterval upcacode 4 (0000) putinterval upcacode 8 barcode 3 3 getinterval putinterval exit } if barcode 6 get 48 sub 3 eq { upcacode 0 barcode 0 4 getinterval putinterval upcacode 4 (00000) putinterval upcacode 9 barcode 4 2 getinterval putinterval exit } if barcode 6 get 48 sub 4 eq { upcacode 0 barcode 0 5 getinterval putinterval upcacode 5 (00000) putinterval upcacode 10 barcode 5 1 getinterval putinterval exit } if barcode 6 get 48 sub 5 ge { upcacode 0 barcode 0 6 getinterval putinterval upcacode 6 (0000) putinterval upcacode 10 barcode 6 1 getinterval putinterval exit } if } repeat /checksum 0 def 0 1 10 { /i exch def /barchar upcacode i get 48 sub def i 2 mod 0 ne { /checksum checksum barchar add def } { /checksum checksum barchar 3 mul add def } ifelse } for /checksum 10 checksum 10 mod sub 10 mod def barcode length 8 eq { barcode 7 get checksum 48 add ne { /bwipp.upcEbadCheckDigit (Incorrect UPC check digit provided) //raiseerror exec } if } if /pad 8 string def pad 0 barcode putinterval % Add barcode to the start of the pad pad 7 checksum 48 add put % Put ascii for checksum at end of pad /barcode pad def /txt 8 array def txt 0 [barcode 0 1 getinterval textxoffset textyoffset textfont textsize 2 sub] put % Determine the mirror map based on checksum /mirrormap mirrormaps checksum get def % Invert the mirrormap if we are using a non-zero number system barcode 0 get 48 eq { /invt mirrormap length string def 0 1 mirrormap length 1 sub { /i exch def mirrormap i get 48 eq { invt i 49 put } { invt i 48 put } ifelse } for /mirrormap invt def } if /sbs 33 string def % Put the start character sbs 0 encs 10 get putinterval 1 1 6 { /i exch def % Lookup the encoding for the each barcode character barcode i 1 getinterval barchars exch search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard seek and post /enc encs indx get def % Get the indxth encoding mirrormap i 1 sub get 49 eq { % Reverse enc if 1 in this position in mirrormap /enclen enc length def /revenc enclen string def 0 1 enclen 1 sub { /j exch def /char enc j get def revenc enclen j sub 1 sub char put } for /enc revenc def } if sbs i 1 sub 4 mul 3 add enc putinterval % Put encoded digit into sbs txt i [barcode i 1 getinterval i 1 sub 7 mul 11 add textxoffset add textyoffset textfont textsize] put } for txt 7 [barcode 7 1 getinterval 6 7 mul 18 add textxoffset add textyoffset textfont textsize 2 sub] put % Put the end character sbs 27 encs 11 get putinterval /sbs [sbs {48 sub} forall] def includetext { /bhs [height height 12{height .075 sub}repeat height height height] def /bbs [0 0 12{.075}repeat 0 0 0] def } { /bhs [17{height}repeat] def /bbs [17{0}repeat] def /txt [] def } ifelse /guardrightypos 0 def % Append the addon addon () ne { /addopts << /dontdraw true /includetext true /height height 0.15 sub /textxoffset addontextxoffset (unset) ne {addontextxoffset} {51 addongap add} ifelse addontextyoffset (unset) ne {/textyoffset addontextyoffset} if /textsize addontextsize (unset) ne {addontextsize} {textsize} ifelse /textfont addontextfont (unset) ne {addontextfont} {textfont} ifelse >> def addon length 2 eq {addon addopts //ean2 exec} if addon length 5 eq {addon addopts //ean5 exec} if /addcode exch def /sbs [sbs aload pop addongap addcode (sbs) get aload pop] def /bhs [bhs aload pop addcode (bhs) get {.075 sub} forall] def /bbs [bbs aload pop addcode (bbs) get {.075 add} forall] def /txt [txt aload pop addcode (txt) get aload pop] def /guardrightypos height 72 mul 6 sub def } if % Return the arguments << /ren //renlinear /sbs sbs /bhs bhs /bbs bbs /txt txt /opt options /guardrightpos 10 /guardrightypos guardrightypos /borderbottom 5 >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /upce dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER upce-- % --BEGIN ENCODER isbn-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear ean5 ean2 ean13-- % --DESC: ISBN % --EXAM: 978-1-56581-231-4 90000 % --EXOP: includetext guardwhitespace % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp isbn 0.0 2022082100 95230 94623 %%BeginData: 255 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /ean13 dup /uk.co.terryburton.bwipp findresource put begin /isbn { 20 dict begin /options exch def % We are given an options string /barcode exch def % We are given the isbn text with dashes /ctx null def /dontdraw false def /includetext false def % Enable/disable ISBN text /isbntextfont /Courier def /isbntextsize 9 def /isbntextxoffset (unset) def /isbntextyoffset (unset) def /height 1 def /addongap 12 def /legacy false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /isbntextfont isbntextfont cvlit def /isbntextsize isbntextsize cvr def isbntextxoffset (unset) ne {/isbntextxoffset isbntextxoffset cvr def} if isbntextyoffset (unset) ne {/isbntextyoffset isbntextyoffset cvr def} if /height height cvr def /addongap addongap cvr def % Split off the addon barcode ( ) search { /barcode exch def pop /addon exch def } { pop /addon () def } ifelse % Validate the input barcode length 15 ne barcode length 17 ne and barcode length 11 ne barcode length 13 ne and and { /bwipp.isbnBadLength (ISBN-13 must be 15 or 17 characters including dashes. ISBN-10 must be 11 or 13 characters including dashes) //raiseerror exec } if addon length 0 ne addon length 2 ne and addon length 5 ne and { /bwipp.isbnBadAddOnLength (Add-on for ISBN must be 2 or 5 digits) //raiseerror exec } if barcode length 15 ge { % ISBN-13 barcode 0 4 getinterval dup (978-) ne exch (979-) ne and { /bwipp.isbn13badPrefix (ISBN-13 prefix must be 978- or 979-) //raiseerror exec } if /wasdash false def /numdash 0 def /numdigit 0 def barcode 5 9 getinterval { dup 45 eq { wasdash { /bwipp.isbn13adjacentDashes (ISBN-13 does not permit adjacent dashes) //raiseerror exec } if /wasdash true def /numdash numdash 1 add def } if dup 48 ge exch 57 le and { /wasdash false def /numdigit numdigit 1 add def } if } forall numdash 2 ne numdigit 7 ne or { /bwipp.isbn13numDashesDigits (Incorrect number of dashes and digits for ISBN-13) //raiseerror exec } if barcode 14 get dup 48 lt exch 57 gt or { /bwipp.isbn13character15 (ISBN-13 character 15 must be a digit) //raiseerror exec } if barcode length 17 eq { barcode 15 1 getinterval (-) ne { /bwipp.isbn13character16 (ISBN-13 penultimate character must be a dash) //raiseerror exec } if barcode 16 get dup 48 lt exch 57 gt or { /bwipp.isbn13character17 (ISBN-13 final character must be a digit) //raiseerror exec } if } if } { % ISBN-10 barcode 0 get dup 48 lt exch 57 gt or { /bwipp.isbn10FirstDigit (ISBN-10 first character must be a digit) //raiseerror exec } if /wasdash false def /numdash 0 def /numdigit 0 def barcode 1 9 getinterval { dup 45 eq { wasdash { /bwipp.isbn10adjacentDashes (ISBN-10 does not permit adjacent dashes) //raiseerror exec } if /wasdash true def /numdash numdash 1 add def } if dup 48 ge exch 57 le and { /wasdash false def /numdigit numdigit 1 add def } if } forall numdash 2 ne numdigit 7 ne or { /bwipp.isbn10numDashesDigits (Incorrect number of dashes and digits for ISBN-10) //raiseerror exec } if barcode 10 get dup 48 lt exch 57 gt or { /bwipp.isbn10character11 (ISBN-10 character 11 must be a digit) //raiseerror exec } if barcode length 13 eq { barcode 11 1 getinterval (-) ne { /bwipp.isbn10character12 (ISBN-10 penultimate character must be a dash) //raiseerror exec } if barcode 12 get dup dup 48 lt exch 57 gt or exch 88 ne and { /bwipp.isbn10character13 (ISBN-10 final character must be a digit or X) //raiseerror exec } if } if } ifelse /isbntxt barcode def % Read the digits from isbntxt and validate checksum for ISBN-10 isbntxt length 13 le { /isbn 10 string def /checksum 0 def /i 0 def /n 0 def { % loop /isbnchar isbntxt i get 48 sub def isbnchar -3 ne { % Ignore dashes isbn n isbnchar 48 add put n 9 lt { /checksum checksum 10 n sub isbnchar mul add def } if /n n 1 add def } if /i i 1 add def i isbntxt length eq {exit} if } loop /checksum 11 checksum 11 mod sub 11 mod dup 10 eq {pop 40} if 48 add def /isbn isbn 0 9 getinterval def isbntxt length 13 eq { isbntxt 12 get checksum ne { /bwipp.isbn10badCheckDigit (Incorrect ISBN-10 check digit provided) //raiseerror exec } if } if } if legacy not isbntxt length 15 ge or { % Convert ISBN-10 to ISBN-13 isbntxt length 13 le { /pad 15 string def pad 0 (978-) putinterval pad 4 isbntxt 0 11 getinterval putinterval /isbntxt pad def } if % Read the digits from isbntxt and validate checksum for ISBN-13 /isbn 13 string def /checksum 0 def /i 0 def /n 0 def { % loop /isbnchar isbntxt i get 48 sub def isbnchar -3 ne { % Ignore dashes isbn n isbnchar 48 add put n 12 lt { /checksum isbnchar n 2 mod 0 ne {3 mul} if checksum add def } if /n n 1 add def } if /i i 1 add def i isbntxt length eq {exit} if } loop /checksum 10 checksum 10 mod sub 10 mod 48 add def /isbn isbn 0 12 getinterval def isbntxt length 17 eq { isbntxt 16 get checksum ne { /bwipp.isbn13badCheckDigit (Incorrect ISBN-13 check digit provided) //raiseerror exec } if } if } if % Add the ISBN header to the isbntxt /pad isbn length 12 eq {22} {18} ifelse string def pad 0 (ISBN ) putinterval pad 5 isbntxt putinterval pad pad length 2 sub 45 put pad pad length 1 sub checksum put /isbntxt pad def % Convert ISBN digits to EAN-13 /barcode 12 string def isbn length 9 eq { barcode 0 (978) putinterval barcode 3 isbn putinterval } { barcode 0 isbn putinterval } ifelse % Append the addon addon () ne { 12 addon length add 1 add string dup 0 barcode putinterval dup 12 ( ) putinterval dup 13 addon putinterval /barcode exch def } if % Get the result of encoding with ean13 options (dontdraw) true put options (addongap) addongap put /args barcode options //ean13 exec def % Add the ISBN text includetext { isbntextxoffset (unset) eq { /isbntextxoffset isbn length 9 eq {-1} {-12} ifelse def } if isbntextyoffset (unset) eq { /isbntextyoffset height 72 mul 3 add def } if args (txt) known { /txt args (txt) get def /newtxt txt length 1 add array def newtxt 0 txt putinterval newtxt newtxt length 1 sub [isbntxt isbntextxoffset isbntextyoffset isbntextfont isbntextsize] put args (txt) newtxt put } { args (txt) [ [isbntxt isbntextxoffset isbntextyoffset isbntextfont isbntextsize] ] put } ifelse } if args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /isbn dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER isbn-- % --BEGIN ENCODER ismn-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear ean5 ean2 ean13-- % --DESC: ISMN % --EXAM: 979-0-2605-3211-3 % --EXOP: includetext guardwhitespace % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp ismn 0.0 2022082100 91802 91288 %%BeginData: 234 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /ean13 dup /uk.co.terryburton.bwipp findresource put begin /ismn { 20 dict begin /options exch def % We are given an options string /barcode exch def % We are given the ismn text with dashes /ctx null def /dontdraw false def /includetext false def % Enable/disable ISMN text /ismntextfont /Courier def /ismntextsize 9 def /ismntextxoffset (unset) def /ismntextyoffset (unset) def /height 1 def /addongap 12 def /legacy false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /ismntextfont ismntextfont cvlit def /ismntextsize ismntextsize cvr def ismntextxoffset (unset) ne {/ismntextxoffset ismntextxoffset cvr def} if ismntextyoffset (unset) ne {/ismntextyoffset ismntextyoffset cvr def} if /height height cvr def /addongap addongap cvr def % Split off the addon barcode ( ) search { /barcode exch def pop /addon exch def } { pop /addon () def } ifelse % Validate the input barcode length 15 ne barcode length 17 ne and barcode length 11 ne barcode length 13 ne and and { /bwipp.ismnBadLength (ISMN-13 must be 15 or 17 characters including dashes. ISMN-10 must be 11 or 13 characters including dashes) //raiseerror exec } if addon length 0 ne addon length 2 ne and addon length 5 ne and { /bwipp.ismnBadAddOnLength (Add-on for ISMN must be 2 or 5 digits) //raiseerror exec } if barcode length 15 ge { % ISMN-13 barcode 0 4 getinterval (979-) ne { /bwipp.ismn13badPrefix (ISMN-13 prefix must be 979-) //raiseerror exec } if /wasdash false def /numdash 0 def /numdigit 0 def barcode 5 9 getinterval { dup 45 eq { wasdash { /bwipp.ismn13adjacentDashes (ISMN-13 does not permit adjacent dashes) //raiseerror exec } if /wasdash true def /numdash numdash 1 add def } if dup 48 ge exch 57 le and { /wasdash false def /numdigit numdigit 1 add def } if } forall numdash 2 ne numdigit 7 ne or { /bwipp.ismn13numDashesDigits (Incorrect number of dashes and digits for ISMN-13) //raiseerror exec } if barcode 14 get dup 48 lt exch 57 gt or { /bwipp.ismn13character15 (ISMN-13 character 15 must be a digit) //raiseerror exec } if barcode length 17 eq { barcode 15 1 getinterval (-) ne { /bwipp.ismn13character16 (ISMN-13 penultimate character must be a dash) //raiseerror exec } if barcode 16 get dup 48 lt exch 57 gt or { /bwipp.ismn13character17 (ISMN-13 final character must be a digit) //raiseerror exec } if } if } { % ISMN-10 barcode 0 2 getinterval (M-) ne { /bwipp.ismn10badPrefix (ISMN-10 prefix must be M-) //raiseerror exec } if barcode 2 get dup 48 lt exch 57 gt or { /bwipp.ismn10character3 (ISMN-10 character 3 must be a digit) //raiseerror exec } if /wasdash false def /numdash 0 def /numdigit 0 def barcode 3 7 getinterval { dup 45 eq { wasdash { /bwipp.ismn10adjacentDashes (ISMN-10 does not permit adjacent dashes) //raiseerror exec } if /wasdash true def /numdash numdash 1 add def } if dup 48 ge exch 57 le and { /wasdash false def /numdigit numdigit 1 add def } if } forall numdash 1 ne numdigit 6 ne or { /bwipp.ismn10numDashesDigits (Incorrect number of dashes and digits for ISMN-10) //raiseerror exec } if barcode 10 get dup 48 lt exch 57 gt or { /bwipp.ismn10character11 (ISMN-10 character 11 must be a digit) //raiseerror exec } if barcode length 13 eq { barcode 11 1 getinterval (-) ne { /bwipp.ismn10character12 (ISMN-10 penultimate character must be a dash) //raiseerror exec } if barcode 12 get dup dup 48 lt exch 57 gt or exch 88 ne and { /bwipp.ismn10character13 (ISMN-10 final character must be a digit or X) //raiseerror exec } if } if } ifelse /ismntxt barcode def % Convert old ISMN to ISMN-13 /legacytxt () def ismntxt length 13 le { /legacytxt ismntxt def /pad ismntxt length 4 add string def pad 0 (979-0-) putinterval pad 6 ismntxt 2 ismntxt length 2 sub getinterval putinterval /ismntxt pad def } if % Read the digits from ismntxt and calculate checksums /ismn 13 string def /checksum 0 def /i 0 def /n 0 def { % loop /ismnchar ismntxt i get 48 sub def ismnchar -3 ne { % Ignore dashes ismn n ismnchar 48 add put n 12 lt { n 2 mod 0 eq { /checksum ismnchar checksum add def } { /checksum ismnchar 3 mul checksum add def } ifelse } if /n n 1 add def } if /i i 1 add def i ismntxt length eq {exit} if } loop /checksum 10 checksum 10 mod sub 10 mod 48 add def % Validate the checksum barcode length 13 eq barcode length 17 eq or { barcode dup length 1 sub get checksum ne { /bwipp.ismnBadCheckDigit (Incorrect ISMN check digit provided) //raiseerror exec } if } if % Add the ISMN header and checksum to the ismntxt legacy legacytxt () ne and { /ismntxt legacytxt def /pad 18 string def } { /pad 22 string def } ifelse pad 0 (ISMN ) putinterval pad 5 ismntxt putinterval pad pad length 2 sub 45 put pad pad length 1 sub checksum put /ismntxt pad def % Convert ISMN digits to EAN-13 /barcode ismn 0 12 getinterval def % Append the addon addon () ne { 12 addon length add 1 add string dup 0 barcode putinterval dup 12 ( ) putinterval dup 13 addon putinterval /barcode exch def } if % Get the result of encoding with ean13 options (dontdraw) true put options (addongap) addongap put /args barcode options //ean13 exec def % Add the ISMN text includetext { ismntextxoffset (unset) eq { /ismntextxoffset ismntxt length 18 eq {-1} {-12} ifelse def } if ismntextyoffset (unset) eq { /ismntextyoffset height 72 mul 3 add def } if args (txt) known { /txt args (txt) get def /newtxt txt length 1 add array def newtxt 0 txt putinterval newtxt newtxt length 1 sub [ismntxt ismntextxoffset ismntextyoffset ismntextfont ismntextsize] put args (txt) newtxt put } { args (txt) [ [ismntxt ismntextxoffset ismntextyoffset ismntextfont ismntextsize] ] put } ifelse } if args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /ismn dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER ismn-- % --BEGIN ENCODER issn-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear ean2 ean5 ean13-- % --DESC: ISSN % --EXAM: 0311-175X 00 17 % --EXOP: includetext guardwhitespace % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp issn 0.0 2022082100 83234 82612 %%BeginData: 179 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /ean13 dup /uk.co.terryburton.bwipp findresource put begin /issn { 20 dict begin /options exch def % We are given an options string /issntxt exch def % We are given the issn text with dashes /ctx null def /dontdraw false def /includetext false def % Enable/disable ISSN text /issntextfont /Courier def /issntextsize 9 def /issntextxoffset (unset) def /issntextyoffset (unset) def /height 1 def /addongap 12 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /issntextfont issntextfont cvlit def /issntextsize issntextsize cvr def issntextxoffset (unset) ne {/issntextxoffset issntextxoffset cvr def} if issntextyoffset (unset) ne {/issntextyoffset issntextyoffset cvr def} if /height height cvr def /addongap addongap cvr def % Split off the ISSN issntxt ( ) search { /issntxt exch def pop /seqvar exch def } { pop /seqvar (00) def } ifelse % Split off the sequence variant and addon seqvar ( ) search { /seqvar exch def pop /addon exch def } { pop /addon () def } ifelse % Validate the input issntxt length 8 ne issntxt length 9 ne and { /bwipp.issnBadLength (ISSN must be 8 or 9 characters including dash, in the format XXXX-XXXX) //raiseerror exec } if issntxt 0 4 getinterval { dup 48 lt exch 57 gt or { /bwipp.issnFirstThroughFourthNotNumeric (ISSN first four characters must be numeral characters) //raiseerror exec } if } forall issntxt 4 1 getinterval (-) ne { /bwipp.issnNeedsDash (ISSN fifth character must be a dash) //raiseerror exec } if issntxt 5 3 getinterval { dup 48 lt exch 57 gt or { /bwipp.issnSixthThroughEighthNotNumeric (ISSN sixth through eighth characters must be numerals) //raiseerror exec } if } forall issntxt length 9 eq { issntxt 8 get dup dup 48 lt exch 57 gt or exch 88 ne and { % Digits or X /bwipp.issnNinthCharacterBadFormat (ISSN ninth character must be a number or the character X) //raiseerror exec } if } if seqvar length 2 ne { /bwipp.issnBadSequenceVariantLength (Sequence variant for ISSN must be 2 digits) //raiseerror exec } if seqvar { dup 48 lt exch 57 gt or { /bwipp.issnSequenceVariantBadCharacter (Sequence variant for ISSN must contain only digits) //raiseerror exec } if } forall addon length 0 ne addon length 2 ne and addon length 5 ne and { /bwipp.issnBadAddOnLength (Add-on for ISSN must be 2 or 5 digits) //raiseerror exec } if % Read the digits from issntxt and calculate checksums /issn 8 string def /checksum 0 def /i 0 def /n 0 def { % loop /issnchar issntxt i get 48 sub def issnchar -3 ne { % Ignore dashes issn n issnchar 48 add put n 7 lt { /checksum checksum issnchar 8 n sub mul add def } if /n n 1 add def } if /i i 1 add def i issntxt length eq {exit} if } loop /checksum 11 checksum 11 mod sub 11 mod def /checksum checksum 48 add dup 58 eq {pop 88} if def issntxt length 9 eq { issntxt 8 get checksum ne { /bwipp.issnBadCheckDigit (Incorrect ISSN check digit provided) //raiseerror exec } if } if % Add the ISSN header and checksum to the issntxt /pad 14 string def pad 0 (ISSN ) putinterval pad 5 issntxt putinterval % Add issntxt to the pad pad 13 checksum put /issntxt pad def % Convert ISSN digits to EAN-13 /barcode issn 0 7 getinterval def % Append the sequence variant /barcode 12 string def barcode 0 (977) putinterval barcode 3 issn putinterval barcode 10 seqvar putinterval % Append the addon addon () ne { 12 addon length add 1 add string dup 0 barcode putinterval dup 12 ( ) putinterval dup 13 addon putinterval /barcode exch def } if % Get the result of encoding with ean13 options (dontdraw) true put options (addongap) addongap put /args barcode options //ean13 exec def % Add the ISSN text includetext { issntextxoffset (unset) eq {/issntextxoffset 10 def} if issntextyoffset (unset) eq { /issntextyoffset height 72 mul 3 add def } if args (txt) known { /txt args (txt) get def /newtxt txt length 1 add array def newtxt 0 txt putinterval newtxt newtxt length 1 sub [issntxt issntextxoffset issntextyoffset issntextfont issntextsize] put args (txt) newtxt put } { args (txt) [ [issntxt issntextxoffset issntextyoffset issntextfont issntextsize] ] put } ifelse } if args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /issn dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER issn-- % --BEGIN ENCODER mands-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear ean2 ean5 ean8-- % --DESC: Marks & Spencer % --EXAM: 0642118 % --EXOP: includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp mands 0.0 2022082100 71641 71714 %%BeginData: 83 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /ean8 dup /uk.co.terryburton.bwipp findresource put begin /mands { 20 dict begin /options exch def /barcode exch def /ctx null def /dontdraw false def /includetext false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /barlen barcode length def % Validate the input barlen 7 ne barlen 8 ne and { /bwipp.MandSbadLength (M&S barcode must be 7 or 8 characters) //raiseerror exec } if barlen 7 eq { /barcode (00000000) 8 string copy dup 1 barcode putinterval def } if % Get the result of encoding with ean8 options (dontdraw) true put /args barcode options //ean8 exec def % Remove the centre guard args (bbs) get dup dup 2 get 10 exch put dup 2 get 11 exch put args (bhs) get dup dup 2 get 10 exch put dup 2 get 11 exch put % Fix up the text for 7-digit inputs /txt args (txt) get def barlen 7 eq { 0 1 6 { txt exch 2 copy 1 add get 0 get 3 1 roll get 0 get exch 0 exch putinterval } for txt 7 get 0 get 0 ( ) putinterval } if % Add the M and S guards 10 array dup 0 txt putinterval /txt exch def txt 0 get dup length array copy txt exch 8 exch put txt 0 get dup length array copy txt exch 9 exch put txt 8 get 0 (M) put txt 8 get 1 -12 put txt 9 get 0 (S) put txt 9 get 1 69 put args (txt) txt put args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /mands dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER mands-- % --BEGIN ENCODER code128-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renlinear-- % --DESC: Code 128 % --EXAM: Count01234567! % --EXOP: includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp code128 0.0 2022082100 125925 128825 %%BeginData: 438 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /code128 { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textxoffset 0 def /textyoffset -7 def /height 1 def /encoding (auto) def /raw false def /parse false def /parsefnc false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def /code128 //loadctx exec % Special function characters { /sta -1 def /stb -2 def /stc -3 def /swa -4 def /swb -5 def /swc -6 def /fn1 -7 def /fn2 -8 def /fn3 -9 def /fn4 -10 def /sft -11 def /stp -12 def /lka -13 def /lkc -14 def % CC-A/B and CC-C linkage } ctxdef % Parse the input /fncvals << /parse parse /parsefnc parsefnc (FNC1) fn1 (FNC1) fn1 (FNC2) fn2 (FNC3) fn3 % (FNC4) fn4 Not user accessible as encoded automatically (LNKA) lka (LNKC) lkc >> def /msg barcode fncvals //parseinput exec def /msglen msg length def % Character maps for each state { /charmaps [ % A B C A B C A B C [ 32 32 (00) ] [ (!) (!) (01) ] [ (") (") (02) ] % 0-2 [ (#) (#) (03) ] [ ($) ($) (04) ] [ (%) (%) (05) ] % 3-5 [ (&) (&) (06) ] [ (') (') (07) ] [ 40 40 (08) ] % 6-8 [ 41 41 (09) ] [ (*) (*) (10) ] [ (+) (+) (11) ] % 9-11 [ (,) (,) (12) ] [ (-) (-) (13) ] [ (.) (.) (14) ] % 12-14 [ (/) (/) (15) ] [ (0) (0) (16) ] [ (1) (1) (17) ] % 15-17 [ (2) (2) (18) ] [ (3) (3) (19) ] [ (4) (4) (20) ] % 18-20 [ (5) (5) (21) ] [ (6) (6) (22) ] [ (7) (7) (23) ] % 21-23 [ (8) (8) (24) ] [ (9) (9) (25) ] [ (:) (:) (26) ] % 24-26 [ (;) (;) (27) ] [ (<) (<) (28) ] [ (=) (=) (29) ] % 27-29 [ (>) (>) (30) ] [ (?) (?) (31) ] [ (@) (@) (32) ] % 30-32 [ (A) (A) (33) ] [ (B) (B) (34) ] [ (C) (C) (35) ] % 33-35 [ (D) (D) (36) ] [ (E) (E) (37) ] [ (F) (F) (38) ] % 36-38 [ (G) (G) (39) ] [ (H) (H) (40) ] [ (I) (I) (41) ] % 39-41 [ (J) (J) (42) ] [ (K) (K) (43) ] [ (L) (L) (44) ] % 42-44 [ (M) (M) (45) ] [ (N) (N) (46) ] [ (O) (O) (47) ] % 45-47 [ (P) (P) (48) ] [ (Q) (Q) (49) ] [ (R) (R) (50) ] % 48-50 [ (S) (S) (51) ] [ (T) (T) (52) ] [ (U) (U) (53) ] % 51-53 [ (V) (V) (54) ] [ (W) (W) (55) ] [ (X) (X) (56) ] % 54-56 [ (Y) (Y) (57) ] [ (Z) (Z) (58) ] [ ([) ([) (59) ] % 57-59 [ 92 92 (60) ] [ (]) (]) (61) ] [ (^) (^) (62) ] % 60-62 [ (_) (_) (63) ] [ 0 (`) (64) ] [ 1 (a) (65) ] % 63-65 [ 2 (b) (66) ] [ 3 (c) (67) ] [ 4 (d) (68) ] % 66-68 [ 5 (e) (69) ] [ 6 (f) (70) ] [ 7 (g) (71) ] % 69-71 [ 8 (h) (72) ] [ 9 (i) (73) ] [ 10 (j) (74) ] % 72-74 [ 11 (k) (75) ] [ 12 (l) (76) ] [ 13 (m) (77) ] % 75-77 [ 14 (n) (78) ] [ 15 (o) (79) ] [ 16 (p) (80) ] % 78-80 [ 17 (q) (81) ] [ 18 (r) (82) ] [ 19 (s) (83) ] % 81-83 [ 20 (t) (84) ] [ 21 (u) (85) ] [ 22 (v) (86) ] % 84-86 [ 23 (w) (87) ] [ 24 (x) (88) ] [ 25 (y) (89) ] % 87-89 [ 26 (z) (90) ] [ 27 ({) (91) ] [ 28 (|) (92) ] % 90-92 [ 29 (}) (93) ] [ 30 (~) (94) ] [ 31 127 (95) ] % 93-95 [ fn3 fn3 (96) ] [ fn2 fn2 (97) ] [ sft sft (98) ] % 96-98 [ swc swc (99) ] [ swb fn4 swb ] [ fn4 swa swa ] % 99-101 [ fn1 fn1 fn1 ] [ sta sta sta ] [ stb stb stb ] % 102-104 [ stc stc stc ] [ stp stp stp ] % 105-106 ] def % Invert charmaps to give character to value maps for each state /charvals [ 109 dict 109 dict 109 dict ] def 0 1 charmaps length 1 sub { /i exch def /encs charmaps i get def 0 1 2 { /j exch def encs j get dup type /stringtype eq {0 get} if % convert string to ASCII if required charvals j get exch i put } for } for /seta charvals 0 get def /setb charvals 1 get def /setc charvals 2 get def } ctxdef % Include pseudo characters for GS1-128 Composite linkage identifiers seta lka seta swb get put seta lkc seta swc get put setb lka setb swc get put setb lkc setb swa get put setc lka setc swa get put setc lkc setc swb get put raw {/encoding (raw) def} if encoding (raw) eq { /cws barcode length array def /i 0 def /j 0 def { % loop i barcode length eq {exit} if /cw barcode i 1 add 3 getinterval cvi def cws j cw put /i i 4 add def /j j 1 add def } loop /cws cws 0 j getinterval def /text () def } if encoding (auto) eq { /text msglen string def 0 1 msglen 1 sub { /i exch def text i msg i get dup 0 lt { pop 32 } if put } for % Standard and extended ASCII runlength at position /numSA [ msglen {0} repeat 0 ] def /numEA [ msglen {0} repeat 0 ] def msglen 1 sub -1 0 { /i exch def msg i get 0 ge { msg i get 128 ge { numEA i numEA i 1 add get 1 add put } { numSA i numSA i 1 add get 1 add put } ifelse } if } for % FNC4 codeword insertion for extended ASCII /ea false def /msgtmp [] def 0 1 msglen 1 sub { /i exch def /c msg i get def ea c 128 lt xor not c 0 ge and { % Other mode required ea {numSA} {numEA} ifelse i get dup % Runlength of other mode i add msglen eq {3} {5} ifelse % Does run terminate symbol lt { % Shift /msgtmp [ msgtmp aload pop fn4 ] def } { % Latch /msgtmp [ msgtmp aload pop fn4 fn4 ] def /ea ea not def } ifelse } if /msgtmp [ msgtmp aload pop c 0 ge {c 127 and} {c} ifelse ] def } for /msg msgtmp def /msglen msg length def % Determine digit runlength and characters from given position /numsscr { /n 0 def /s 0 def /p exch def { p msglen ge {exit} if msg p get dup setc exch known not {pop exit} if dup -1 le { % FNC1 in odd position of run like two digits fn1 eq s 2 mod 0 eq and {/s s 1 add def} {exit} ifelse } { pop } ifelse /n n 1 add def /s s 1 add def /p p 1 add def } loop n s } def % Encoding for each alphabet /enca { seta exch get cws exch j exch put /j j 1 add def } def /encb { setb exch get cws exch j exch put /j j 1 add def } def /encc { dup type /arraytype ne { setc exch get } { aload pop 48 sub exch 48 sub 10 mul add } ifelse cws exch j exch put /j j 1 add def } def % Character exclusively in either alphabet A or B /anotb {dup seta exch known exch setb exch known not and} def /bnota {dup setb exch known exch seta exch known not and} def % Pre-compute relative position of next anotb and next bnota characters /nextanotb [ msg length {0} repeat 9999 ] def /nextbnota [ msg length {0} repeat 9999 ] def msg length 1 sub -1 0 { /i exch def msg i get anotb { nextanotb i 0 put } { nextanotb i nextanotb i 1 add get 1 add put } ifelse msg i get bnota { nextbnota i 0 put } { nextbnota i nextbnota i 1 add get 1 add put } ifelse } for % Does a-only come before b-only after given position and vice versa /abeforeb {dup nextanotb exch get exch nextbnota exch get lt} def /bbeforea {dup nextbnota exch get exch nextanotb exch get lt} def /cws barcode length 2 mul 3 add array def % Select start character /j 0 def msglen 0 gt {0 numsscr} {-1 -1} ifelse /nums exch def /nchars exch def { % common exit msglen 0 eq { stb enca /cset (setb) def exit } if msglen 2 eq nums 2 eq and { stc enca /cset (setc) def exit } if nums 4 ge { stc enca /cset (setc) def exit } if 0 abeforeb { sta enca /cset (seta) def exit } if stb enca /cset (setb) def exit } loop % Main encoding loop /i 0 def { i msglen eq {exit} if i numsscr /nums exch def /nchars exch def % Determine switches and shifts { % common exit cset (seta) eq cset (setb) eq or nums 4 ge and msg i get fn1 ne and { nums 2 mod 0 eq { swc cset (seta) eq {enca} {encb} ifelse /cset (setc) def exit } { msg i get cset (seta) eq {enca} {encb} ifelse /i i 1 add def swc cset (seta) eq {enca} {encb} ifelse /cset (setc) def exit } ifelse } if cset (setb) eq msg i get anotb and { i msglen 1 sub lt { i 1 add bbeforea { sft encb msg i get enca /i i 1 add def exit } if } if swa encb /cset (seta) def exit } if cset (seta) eq msg i get bnota and { i msglen 1 sub lt { i 1 add abeforeb { sft enca msg i get encb /i i 1 add def exit } if } if swb enca /cset (setb) def exit } if cset (setc) eq nums 2 lt and msg i get -1 gt and { i abeforeb { swa encc /cset (seta) def exit } if swb encc /cset (setb) def exit } if % No switches or latches so encode cset (seta) eq { msg i get enca /i i 1 add def exit } if cset (setb) eq { msg i get encb /i i 1 add def exit } if cset (setc) eq { msg i get -1 le { msg i get encc /i i 1 add def } { msg i 2 getinterval encc /i i 2 add def } ifelse exit } if exit } loop } loop /cws cws 0 j getinterval def } if % auto encoding % Derive checksum and place stop character /cws j 2 add array dup 0 cws putinterval def /csum cws 0 get def 1 1 j 1 sub { /i exch def /csum csum cws i get i mul add def } for /csum csum 103 mod def cws j csum put cws j 1 add seta stp get put % Create an array containing the character mappings { /encs [ (212222) (222122) (222221) (121223) (121322) (131222) (122213) (122312) (132212) (221213) (221312) (231212) (112232) (122132) (122231) (113222) (123122) (123221) (223211) (221132) (221231) (213212) (223112) (312131) (311222) (321122) (321221) (312212) (322112) (322211) (212123) (212321) (232121) (111323) (131123) (131321) (112313) (132113) (132311) (211313) (231113) (231311) (112133) (112331) (132131) (113123) (113321) (133121) (313121) (211331) (231131) (213113) (213311) (213131) (311123) (311321) (331121) (312113) (312311) (332111) (314111) (221411) (431111) (111224) (111422) (121124) (121421) (141122) (141221) (112214) (112412) (122114) (122411) (142112) (142211) (241211) (221114) (413111) (241112) (134111) (111242) (121142) (121241) (114212) (124112) (124211) (411212) (421112) (421211) (212141) (214121) (412121) (111143) (111341) (131141) (114113) (114311) (411113) (411311) (113141) (114131) (311141) (411131) (211412) (211214) (211232) (2331112) ] def } ctxdef % Derive space bar succession /sbs cws length 6 mul 1 add string def 0 1 cws length 1 sub { /i exch def sbs i 6 mul encs cws i get get putinterval } for % Return the arguments << /ren //renlinear /sbs [sbs {48 sub} forall] /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] /txt [ [text textxoffset textyoffset textfont textsize] ] /textxalign (center) /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /code128 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER code128-- % --BEGIN ENCODER gs1-128-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear code128-- % --DESC: GS1-128 % --EXAM: (01)95012345678903(3103)000123 % --EXOP: includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp gs1-128 0.0 2022082100 80068 76461 %%BeginData: 114 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /code128 dup /uk.co.terryburton.bwipp findresource put begin /gs1-128 { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textxoffset 0 def /textyoffset -7 def /height 0.5 def /linkagea false def /linkagec false def /parse false def /dontlint false def /lintreqs false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def /text barcode def barcode /ai //gs1process exec /fncs exch def /vals exch def /ais exch def % Create the code128 data /fnc1 -1 def /c128 [ fnc1 ] def 0 1 ais length 1 sub { /i exch def /ai ais i get def /val vals i get def c128 length ai length add val length add array dup 0 c128 putinterval dup c128 length ai [ exch {} forall ] putinterval dup c128 length ai length add val [ exch {} forall ] putinterval /c128 exch def i ais length 1 sub ne fncs i get and { % Append FNC1 c128 length 1 add array dup 0 c128 putinterval dup c128 length fnc1 put /c128 exch def } if } for % Compose input to code128 /barcode c128 length 1 add 5 mul string def /i 0 def /j 0 def { i c128 length eq {exit} if c128 i get dup fnc1 eq { pop barcode j (^FNC1) putinterval /j j 4 add def } { barcode exch j exch put } ifelse /i i 1 add def /j j 1 add def } loop linkagea linkagec or { barcode j linkagea {(^LNKA)} {(^LNKC)} ifelse putinterval /j j 5 add def } if /barcode barcode 0 j getinterval def % Get the result of encoding with code128 options (parse) undef options (height) height put options (dontdraw) true put options (parsefnc) true put /args barcode options //code128 exec def args (txt) [ [text textxoffset textyoffset textfont textsize] ] put args (textxalign) (center) put args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /gs1-128 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER gs1-128-- % --BEGIN ENCODER ean14-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renlinear code128-- % --DESC: GS1-14 % --EXAM: (01) 0 46 01234 56789 3 % --EXOP: includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp ean14 0.0 2022082100 72494 72450 %%BeginData: 108 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /code128 dup /uk.co.terryburton.bwipp findresource put begin /ean14 { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textxoffset 0 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def % Strip spaces from the given data /text barcode def barcode dup length string exch 0 exch {dup 32 ne {3 copy put pop 1 add} {pop} ifelse} forall 0 exch getinterval /barcode exch def /hasspace text length barcode length ne def % Validate the input barcode 0 4 getinterval (\(01\)) ne { /bwipp.ean14badAI (GS1-14 must begin with (01) application identifier) //raiseerror exec } if barcode length 17 ne barcode length 18 ne and { /bwipp.ean14badLength (GS1-14 must be 13 or 14 digits) //raiseerror exec } if barcode 4 barcode length 4 sub getinterval { dup 48 lt exch 57 gt or { /bwipp.ean14badCharacter (GS1-14 must contain only digits) //raiseerror exec } if } forall % Calculate checksum and add to end of barcode /checksum 0 def 0 1 12 { /i exch def /checksum checksum barcode i 4 add get 48 sub i 2 mod 0 eq {3 mul} if add def } for /checksum 10 checksum 10 mod sub 10 mod def barcode length 18 eq { barcode 17 get checksum 48 add ne { /bwipp.ean14badCheckDigit (Incorrect GS1-14 check digit provided) //raiseerror exec } if } { 18 string dup 0 barcode putinterval dup 17 checksum 48 add put /barcode exch def text length hasspace {2} {1} ifelse add string dup dup length 2 sub ( ) putinterval dup dup length 1 sub checksum 48 add put dup 0 text putinterval /text exch def } ifelse /gtin barcode 4 14 getinterval def % Compose input to code128 /barcode 21 string def barcode 0 (^FNC101) putinterval barcode 7 gtin putinterval % Get the result of encoding with code128 options (dontdraw) true put options (parsefnc) true put /args barcode options //code128 exec def args (txt) [ [text textxoffset textyoffset textfont textsize] ] put args (textxalign) (center) put args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /ean14 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER ean14-- % --BEGIN ENCODER sscc18-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renlinear code128-- % --DESC: SSCC-18 % --EXAM: (00) 0 0614141 123456789 0 % --EXOP: includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp sscc18 0.0 2022082100 72506 72457 %%BeginData: 108 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /code128 dup /uk.co.terryburton.bwipp findresource put begin /sscc18 { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textxoffset 0 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def % Strip spaces from the given data /text barcode def barcode dup length string exch 0 exch {dup 32 ne {3 copy put pop 1 add} {pop} ifelse} forall 0 exch getinterval /barcode exch def /hasspace text length barcode length ne def % Validate the input barcode 0 4 getinterval (\(00\)) ne { /bwipp.sscc18badAI (SSCC-18 must begin with (00) application identifier) //raiseerror exec } if barcode length 21 ne barcode length 22 ne and { /bwipp.sscc18badLength (SSCC-18 must be 17 or 18 digits) //raiseerror exec } if barcode 4 barcode length 4 sub getinterval { dup 48 lt exch 57 gt or { /bwipp.sscc18badCharacter (SSCC-18 must contain only digits) //raiseerror exec } if } forall % Calculate checksum and add to end of barcode /checksum 0 def 0 1 16 { /i exch def /checksum checksum barcode i 4 add get 48 sub i 2 mod 0 eq {3 mul} if add def } for /checksum 10 checksum 10 mod sub 10 mod def barcode length 22 eq { barcode 21 get checksum 48 add ne { /bwipp.sscc18badCheckDigit (Incorrect SSCC-18 check digit provided) //raiseerror exec } if } { 22 string dup 0 barcode putinterval dup 21 checksum 48 add put /barcode exch def text length hasspace {2} {1} ifelse add string dup dup length 2 sub ( ) putinterval dup dup length 1 sub checksum 48 add put dup 0 text putinterval /text exch def } ifelse /sscc barcode 4 18 getinterval def % Compose input to code128 /barcode 25 string def barcode 0 (^FNC100) putinterval barcode 7 sscc putinterval % Get the result of encoding with code128 options (dontdraw) true put options (parsefnc) true put /args barcode options //code128 exec def args (txt) [ [text textxoffset textyoffset textfont textsize] ] put args (textxalign) (center) put args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /sscc18 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER sscc18-- % --BEGIN ENCODER code39-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: Code 39 % --EXAM: THIS IS CODE 39 % --EXOP: includetext includecheck includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp code39 0.0 2022082100 72416 68679 %%BeginData: 154 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /code39 { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includecheck false def /validatecheck false def /includetext false def /includecheckintext false def /hidestars false def /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /code39 //loadctx exec % Create a string of the available characters { /barchars (0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ-. $/+%) def /charvals 43 dict def 0 1 42 {charvals exch dup barchars exch 1 getinterval exch put} for } ctxdef % Validate the input 0 1 barcode length 1 sub { barcode exch 1 getinterval charvals exch known not { /bwipp.code39badCharacter (Code 39 must contain only digits, capital letters, spaces and the symbols -.$/+%) //raiseerror exec } if } for /barlen barcode length validatecheck {1 sub} if def /checksum 0 def 0 1 barlen 1 sub { barcode exch 1 getinterval charvals exch get checksum add /checksum exch def } for /checksum checksum 43 mod def validatecheck { barcode barlen get barchars checksum get ne { /bwipp.code39badCheckDigit (Incorrect Code 39 check digit provided) //raiseerror exec } if /barcode barcode 0 barlen getinterval def /includecheck true def } if % Create an array containing the character mappings { /encs [ (1113313111) (3113111131) (1133111131) (3133111111) (1113311131) (3113311111) (1133311111) (1113113131) (3113113111) (1133113111) (3111131131) (1131131131) (3131131111) (1111331131) (3111331111) (1131331111) (1111133131) (3111133111) (1131133111) (1111333111) (3111111331) (1131111331) (3131111311) (1111311331) (3111311311) (1131311311) (1111113331) (3111113311) (1131113311) (1111313311) (3311111131) (1331111131) (3331111111) (1311311131) (3311311111) (1331311111) (1311113131) (3311113111) (1331113111) (1313131111) (1313111311) (1311131311) (1113131311) (1311313111) ] def } ctxdef /sbs barlen includecheck {3} {2} ifelse add 10 mul string def /txt barlen includecheck {3} {2} ifelse add array def % Put the start character sbs 0 encs 43 get putinterval hidestars not { txt 0 [(*) 0 textyoffset textfont textsize] put } { txt 0 [() 0 textyoffset textfont textsize] put } ifelse 0 1 barlen 1 sub { /i exch def /indx charvals barcode i 1 getinterval get def sbs i 10 mul 10 add encs indx get putinterval txt i 1 add [barcode i 1 getinterval i 1 add 16 mul textyoffset textfont textsize] put } for % Put the checksum and end characters includecheck { sbs barlen 10 mul 10 add encs checksum get putinterval includecheckintext { txt barlen 1 add [barchars checksum 1 getinterval barlen 1 add 16 mul textyoffset textfont textsize] put } { txt barlen 1 add [() barlen 1 add 16 mul textyoffset textfont textsize] put } ifelse sbs barlen 10 mul 20 add encs 43 get putinterval hidestars not { txt barlen 2 add [(*) barlen 2 add 16 mul textyoffset textfont textsize] put } { txt barlen 2 add [() barlen 2 add 16 mul textyoffset textfont textsize] put } ifelse } { sbs barlen 10 mul 10 add encs 43 get putinterval hidestars not { txt barlen 1 add [(*) barlen 1 add 16 mul textyoffset textfont textsize] put } { txt barlen 1 add [() barlen 1 add 16 mul textyoffset textfont textsize] put } ifelse } ifelse % Return the arguments << /ren //renlinear /sbs [sbs {48 sub} forall] /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] includetext { /txt txt } if /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /code39 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER code39-- % --BEGIN ENCODER code39ext-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renlinear code39-- % --DESC: Code 39 Extended % --EXAM: Code39 Ext! % --EXOP: includetext includecheck includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp code39ext 0.0 2022082100 71249 70993 %%BeginData: 109 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /code39 dup /uk.co.terryburton.bwipp findresource put begin /code39ext { 20 dict begin /options exch def % We are given an options string /barcode exch def % We are given the code39extended text /ctx null def /dontdraw false def /includetext false def /parse false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /code39ext //loadctx exec % Parse ordinals of the form ^NNN to ASCII /fncvals << /parse parse /parseonly true /parsefnc false >> def /barcode barcode fncvals //parseinput exec def /barlen barcode length def options (parse) undef % Validate the input barcode { 128 ge { /bwipp.code39extBadCharacter (Code 39 Extended must contain only ASCII characters) //raiseerror exec } if } forall % Extended alphabet to non-extended alphabet { /extencs [ (%U) ($A) ($B) ($C) ($D) ($E) ($F) ($G) ($H) ($I) ($J) ($K) ($L) ($M) ($N) ($O) ($P) ($Q) ($R) ($S) ($T) ($U) ($V) ($W) ($X) ($Y) ($Z) (%A) (%B) (%C) (%D) (%E) ( ) (/A) (/B) (/C) (/D) (/E) (/F) (/G) (/H) (/I) (/J) (/K) (/L) (-) (.) (/O) (0) (1) (2) (3) (4) (5) (6) (7) (8) (9) (/Z) (%F) (%G) (%H) (%I) (%J) (%V) (A) (B) (C) (D) (E) (F) (G) (H) (I) (J) (K) (L) (M) (N) (O) (P) (Q) (R) (S) (T) (U) (V) (W) (X) (Y) (Z) (%K) (%L) (%M) (%N) (%O) (%W) (+A) (+B) (+C) (+D) (+E) (+F) (+G) (+H) (+I) (+J) (+K) (+L) (+M) (+N) (+O) (+P) (+Q) (+R) (+S) (+T) (+U) (+V) (+W) (+X) (+Y) (+Z) (%P) (%Q) (%R) (%S) (%T) ] def } ctxdef /newcode barlen 2 mul string def /newtext barlen 2 mul string def /j 0 def 0 1 barlen 1 sub { /i exch def /extchar extencs barcode i get get def newcode j extchar putinterval newtext j barcode i get put extchar length 1 ne {newtext j 1 add ( ) putinterval} if /j j extchar length add def } for /newcode newcode 0 j getinterval def /newtext newtext 0 j getinterval def % Get the result of encoding with code39 options (dontdraw) true put /args newcode options //code39 exec def % Replace chars in /txt with chars in newtext includetext { /txt args (txt) get def 0 1 newtext length 1 sub { /i exch def /txtentry txt i 1 add get def txtentry 0 newtext i 1 getinterval put txt i 1 add txtentry put } for args (txt) txt put } if args (opt) options put args dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /code39ext dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER code39ext-- % --BEGIN ENCODER code32-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear code39-- % --DESC: Italian Pharmacode % --EXAM: 01234567 % --EXOP: includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp code32 0.0 2022082100 63967 67382 %%BeginData: 102 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /code39 dup /uk.co.terryburton.bwipp findresource put begin /code32 { 20 dict begin /options exch def % We are given an options string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable code32 text /textfont /Courier def /textsize 10 def /textyoffset -7 def /textxoffset 0 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def % Validate the input barcode length 8 ne barcode length 9 ne and { /bwipp.code32badLength (Italian Pharmacode must be 8 or 9 digits) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.code32badCharacter (Italian Pharmacode must contain only digits) //raiseerror exec } if } forall % Calculate check digit /checksum 0 def 0 1 7 { /i exch def barcode i get 48 sub i 2 mod 0 ne {2 mul} if dup 9 gt {9 sub} if checksum add /checksum exch def } for /checksum checksum 10 mod def barcode length 9 eq { barcode 8 get checksum 48 add ne { /bwipp.code32badCheckDigit (Incorrect Italian Pharmacode check digit provided) //raiseerror exec } if } if 10 string dup 0 barcode putinterval dup 8 checksum 48 add put /text exch def % convert number from base10 to base32 /val text cvi 32 6 string cvrs def /barcode 6 string def 0 1 5 {barcode exch 48 put} for barcode 6 val length sub val putinterval % convert base32 number to specified character set 0 1 5 { dup barcode exch get dup (AEIO) {ge {1 add} if dup} forall pop barcode 3 1 roll put } for % format HRI text 1 text 0 9 getinterval putinterval text 0 65 put % Get the result of encoding with code39 options (dontdraw) true put /args barcode options //code39 exec def args (txt) [ [text textxoffset textyoffset textfont textsize] ] put args (textxalign) (center) put args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /code32 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER code32-- % --BEGIN ENCODER pzn-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear code39-- % --DESC: Pharmazentralnummer (PZN) % --EXAM: 123456 % --EXOP: includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp pzn 0.0 2022082100 64062 67298 %%BeginData: 103 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /code39 dup /uk.co.terryburton.bwipp findresource put begin /pzn { 20 dict begin /options exch def % We are given an options string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable code32 text /textfont /Courier def /textsize 10 def /textyoffset -7 def /textxoffset 0 def /height 1 def /pzn8 false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /textxoffset textxoffset cvr def /height height cvr def % Validate the input pzn8 { barcode length 7 ne barcode length 8 ne and { /bwipp.pzn8badLength (PZN8 must be 7 or 8 digits) //raiseerror exec } if } { barcode length 6 ne barcode length 7 ne and { /bwipp.pzn7badLength (PZN7 must be 6 or 7 digits) //raiseerror exec } if } ifelse barcode { dup 48 lt exch 57 gt or { /bwipp.pznBadCharacter (PZN must contain only digits) //raiseerror exec } if } forall % Calculate check digit /msglen pzn8 {9} {8} ifelse def /checksum 0 def 0 1 msglen 3 sub { /i exch def barcode i get 48 sub i pzn8 {1} {2} ifelse add mul checksum add /checksum exch def } for /checksum checksum 11 mod def checksum 10 eq { /bwipp.pznBadInputSequence (Incorrect PZN input sequence provided) //raiseerror exec } if barcode length msglen 1 sub eq { barcode msglen 2 sub get checksum 48 add ne { /bwipp.pznBadCheckDigit (Incorrect PZN check digit provided) //raiseerror exec } if } if msglen string dup 0 45 put dup 1 barcode putinterval dup msglen 1 sub checksum 48 add put /msg exch def % Get the result of encoding with code39 options (dontdraw) true put /args msg options //code39 exec def % format HRI /text msglen 5 add string def text 0 (PZN - ) putinterval text 6 msg 1 msglen 1 sub getinterval putinterval args (txt) [ [text textxoffset textyoffset textfont textsize] ] put args (textxalign) (center) put args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /pzn dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER pzn-- % --BEGIN ENCODER code93-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renlinear-- % --DESC: Code 93 % --EXAM: THIS IS CODE 93 % --EXOP: includetext includecheck % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp code93 0.0 2022082100 68234 71403 %%BeginData: 144 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /code93 { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includecheck false def % Enable/disable checkdigit /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 1 def /parse false def /parsefnc false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /code93 //loadctx exec { /encs [ (131112) (111213) (111312) (111411) (121113) (121212) (121311) (111114) (131211) (141111) (211113) (211212) (211311) (221112) (221211) (231111) (112113) (112212) (112311) (122112) (132111) (111123) (111222) (111321) (121122) (131121) (212112) (212211) (211122) (211221) (221121) (222111) (112122) (112221) (122121) (123111) (121131) (311112) (311211) (321111) (112131) (113121) (211131) (121221) (312111) (311121) (122211) (111141) (1111411) ] def % Create a string of the available characters /barchars (0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ-. $/+%) def /sft1 -1 def /sft2 -2 def /sft3 -3 def /sft4 -4 def } ctxdef % Special function characters /fncvals << /parse parse /parsefnc parsefnc (SFT$) sft1 (SFT%) sft2 (SFT/) sft3 (SFT+) sft4 >> def /msg barcode fncvals //parseinput exec def /msglen msg length def includecheck { /sbs msglen 6 mul 25 add string def } { /sbs msglen 6 mul 13 add string def } ifelse /txt msglen array def % Put the start character sbs 0 encs 47 get putinterval /checksum1 0 def /checksum2 0 def 0 1 msglen 1 sub { /i exch def % Lookup the encoding for the each barcode character msg i get dup 0 lt { 42 exch sub /indx exch def /char ( ) def } { 1 string dup 0 4 -1 roll put /char exch def barchars char search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard seek and post } ifelse /enc encs indx get def % Get the indxth encoding sbs i 6 mul 6 add enc putinterval % Put encoded digit into sbs txt i [char i 9 mul 9 add textyoffset textfont textsize] put /checksum1 checksum1 msglen i sub 1 sub 20 mod 1 add indx mul add def /checksum2 checksum2 msglen i sub 15 mod 1 add indx mul add def } for includecheck { % Put the first checksum character /checksum1 checksum1 47 mod def /checksum2 checksum2 checksum1 add 47 mod def sbs msglen 6 mul 6 add encs checksum1 get putinterval sbs msglen 6 mul 12 add encs checksum2 get putinterval % Put the end character sbs msglen 6 mul 18 add encs 48 get putinterval } { % Put the end character sbs msglen 6 mul 6 add encs 48 get putinterval } ifelse % Return the arguments << /ren //renlinear /sbs [sbs {48 sub} forall] /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] includetext { /txt txt } if /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /code93 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER code93-- % --BEGIN ENCODER code93ext-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renlinear code93-- % --DESC: Code 93 Extended % --EXAM: Code93 Ext! % --EXOP: includetext includecheck % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp code93ext 0.0 2022082100 71471 71350 %%BeginData: 113 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /code93 dup /uk.co.terryburton.bwipp findresource put begin /code93ext { 20 dict begin /options exch def % We are given an options string /barcode exch def % We are given the code39extended text /ctx null def /dontdraw false def /includetext false def /parse false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /code93ext //loadctx exec % Parse ordinals of the form ^NNN to ASCII /fncvals << /parse parse /parseonly true /parsefnc false >> def /barcode barcode fncvals //parseinput exec def /barlen barcode length def options (parse) undef % Extended alphabet to non-extended alphabet { /extencs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def } ctxdef /newcode barlen 6 mul string def /newtext barlen 6 mul string def /j 0 def /k 0 def 0 1 barlen 1 sub { /i exch def /extchar extencs barcode i get get def /extlen extchar length def newcode j extchar putinterval newtext k barcode i get put extlen 1 ne {newtext k 1 add ( ) putinterval} if /j j extlen add def /k k extlen 1 eq {1} {2} ifelse add def } for /newcode newcode 0 j getinterval def /newtext newtext 0 k getinterval def % Get the result of encoding with code93 options (dontdraw) true put options (parsefnc) true put /args newcode options //code93 exec def % Replace chars in /txt with chars in newtext includetext { /txt args (txt) get def 0 1 newtext length 1 sub { /i exch def /txtentry txt i get def txtentry 0 newtext i 1 getinterval put txt i txtentry put } for args (txt) txt put } if args (opt) options put args dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /code93ext dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER code93ext-- % --BEGIN ENCODER interleaved2of5-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: Interleaved 2 of 5 (ITF) % --EXAM: 2401234567 % --EXOP: height=0.5 includecheck includetext includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp interleaved2of5 0.0 2022082100 70795 67054 %%BeginData: 162 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /interleaved2of5 { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includecheck false def % Enable/disable checkdigit /includetext false def % Enable/disable text /includecheckintext false def /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /interleaved2of5 //loadctx exec % Validate the input barcode { dup 48 lt exch 57 gt or { /bwipp.interleaved2of5badCharacter (Interleaved 2 of 5 must contain only digits) //raiseerror exec } if } forall /barlen barcode length def % Length of the code % Prefix 0 to barcode if length is even and including checkdigit % or length is odd and not including checkdigit barlen 2 mod 0 eq includecheck and % even & includecheck barlen 2 mod 0 ne includecheck not and or { % odd & !includecheck /pad barlen 1 add string def % Create pad one bigger than barcode pad 0 48 put % Put ascii 0 at start of pad pad 1 barcode putinterval % Add barcode to the end of pad /barcode pad def % barcode=pad /barlen barlen 1 add def % barlen++ } if % Add checksum to end of barcode includecheck { /checksum 0 def 0 1 barlen 1 sub { /i exch def i 2 mod 0 eq { /checksum checksum barcode i get 48 sub 3 mul add def } { /checksum checksum barcode i get 48 sub add def } ifelse } for /checksum 10 checksum 10 mod sub 10 mod def /pad barlen 1 add string def % Create pad one bigger than barcode pad 0 barcode putinterval % Add barcode to the start of pad pad barlen checksum 48 add put % Add checksum to end of pad /barcode pad def % barcode=pad /barlen barlen 1 add def % barlen++ } if % Create an array containing the character mappings { /encs [ (11221) (21112) (12112) (22111) (11212) (21211) (12211) (11122) (21121) (12121) (1111) (2111) ] def % Create a string of the available characters /barchars (0123456789) def } ctxdef /sbs barlen 5 mul 8 add string def /txt barlen array def % Put the start character sbs 0 encs 10 get putinterval 0 2 barlen 1 sub { /i exch def % Lookup the encodings for two consecutive barcode characters barcode i 1 getinterval barchars exch search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard seek and post /enca encs indx get def % Get the indxth encoding barcode i 1 add 1 getinterval barchars exch search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard seek and post /encb encs indx get def % Get the indxth encoding % Interleave the two character encodings /intl enca length 2 mul string def 0 1 enca length 1 sub { /j exch def /achar enca j get def /bchar encb j get def intl j 2 mul achar put intl j 2 mul 1 add bchar put } for sbs i 5 mul 4 add intl putinterval % Put encoded digit into sbs txt i [barcode i 1 getinterval i 9 mul 4 add textyoffset textfont textsize] put includecheck includecheckintext not and barlen 2 sub i eq and { txt i 1 add [( ) i 1 add 9 mul 4 add textyoffset textfont textsize] put } { txt i 1 add [barcode i 1 add 1 getinterval i 1 add 9 mul 4 add textyoffset textfont textsize] put } ifelse } for % Put the end character sbs barlen 5 mul 4 add encs 11 get putinterval % Return the arguments << /ren //renlinear /sbs [sbs {48 sub} forall] /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] includetext { /txt txt } if /barratio 2 /spaceratio 2 /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /interleaved2of5 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER interleaved2of5-- % --BEGIN ENCODER itf14-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear interleaved2of5-- % --DESC: ITF-14 % --EXAM: 0 46 01234 56789 3 % --EXOP: includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp itf14 0.0 2022082100 66573 69883 %%BeginData: 112 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /interleaved2of5 dup /uk.co.terryburton.bwipp findresource put begin /itf14 { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def /includecheckintext true def /textfont /Courier def /textsize 10 def /textxoffset 0 def /textyoffset 3 def /height 0.5 def /showborder true def /borderwidth 4 def /borderleft 15 def /borderright 15 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def /borderwidth borderwidth cvr def /borderleft borderleft cvr def /borderright borderright cvr def % Strip spaces from the given data /text barcode def barcode dup length string exch 0 exch {dup 32 ne {3 copy put pop 1 add} {pop} ifelse} forall 0 exch getinterval /barcode exch def /hasspace text length barcode length ne def % Validate the input barcode length 13 ne barcode length 14 ne and { /bwipp.itf14badLength (ITF-14 must be 13 or 14 digits) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.itf14badCharacter (ITF-14 must contain only digits) //raiseerror exec } if } forall % Calculate ITF checksum and add to end of barcode /checksum 0 def 0 1 12 { /i exch def /checksum checksum barcode i get 48 sub i 2 mod 0 eq {3 mul} if add def } for /checksum 10 checksum 10 mod sub 10 mod def barcode length 14 eq { barcode 13 get checksum 48 add ne { /bwipp.itf14badCheckDigit (Incorrect ITF-14 check digit provided) //raiseerror exec } if } { 14 string dup 0 barcode putinterval dup 13 checksum 48 add put /barcode exch def text length hasspace {2} {1} ifelse add string dup dup length 2 sub ( ) putinterval dup dup length 1 sub checksum 48 add put dup 0 text putinterval /text exch def } ifelse % Get the result of encoding with interleaved2of5 options (dontdraw) true put options (showborder) showborder put options (borderwidth) borderwidth put options (borderleft) borderleft put options (borderright) borderright put options (height) height put options (textyoffset) textyoffset put /args barcode options //interleaved2of5 exec def args (txt) [ [text textxoffset textyoffset textfont textsize] ] put args (textxalign) (center) put args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /itf14 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER itf14-- % --BEGIN ENCODER identcode-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear interleaved2of5-- % --DESC: Deutsche Post Identcode % --EXAM: 563102430313 % --EXOP: includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp identcode 0.0 2022082100 62988 66378 %%BeginData: 94 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /interleaved2of5 dup /uk.co.terryburton.bwipp findresource put begin /identcode { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textxoffset 0 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def % Validate the input barcode length 11 ne barcode length 12 ne and { /bwipp.identcodeBadLength (Deutsche Post Identcode must be 11 or 12 digits) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.identcodeBadCharacter (Deutsche Post Identcode must contain only digits) //raiseerror exec } if } forall % Calculate checksum and add to end of barcode /checksum 0 def 0 1 10 { /i exch def /checksum checksum barcode i get 48 sub i 2 mod 0 eq {4 mul} {9 mul} ifelse add def } for /checksum 10 checksum 10 mod sub 10 mod def barcode length 12 eq { barcode 11 get checksum 48 add ne { /bwipp.identcodeBadCheckDigit (Incorrect Deutsche Post Identcode check digit provided) //raiseerror exec } if } if 12 string dup 0 barcode putinterval dup 11 checksum 48 add put /barcode exch def % Compose the human readable text /text ( . . ) 16 string copy def text 0 barcode 0 2 getinterval putinterval text 3 barcode 2 3 getinterval putinterval text 7 barcode 5 3 getinterval putinterval text 11 barcode 8 3 getinterval putinterval text 15 barcode 11 1 getinterval putinterval % Get the result of encoding with interleaved2of5 options (dontdraw) true put options (includecheck) false put /args barcode options //interleaved2of5 exec def args (txt) [ [text textxoffset textyoffset textfont textsize] ] put args (textxalign) (center) put args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /identcode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER identcode-- % --BEGIN ENCODER leitcode-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear interleaved2of5-- % --DESC: Deutsche Post Leitcode % --EXAM: 21348075016401 % --EXOP: includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp leitcode 0.0 2022082100 62980 66374 %%BeginData: 94 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /interleaved2of5 dup /uk.co.terryburton.bwipp findresource put begin /leitcode { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textxoffset 0 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def % Validate the input barcode length 13 ne barcode length 14 ne and { /bwipp.leitcodeBadLength (Deutsche Post Leitcode must be 13 or 14 digits) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.leitcodeBadCharacter (Deutsche Post Leitcode must contain only digits) //raiseerror exec } if } forall % Calculate checksum and add to end of barcode /checksum 0 def 0 1 12 { /i exch def /checksum checksum barcode i get 48 sub i 2 mod 0 eq {4 mul} {9 mul} ifelse add def } for /checksum 10 checksum 10 mod sub 10 mod def barcode length 14 eq { barcode 13 get checksum 48 add ne { /bwipp.leitcodeBadCheckDigit (Incorrect Deutsche Post Leitcode check digit provided) //raiseerror exec } if } if 14 string dup 0 barcode putinterval dup 13 checksum 48 add put /barcode exch def % Compose the human readable text /text ( . . . ) 18 string copy def text 0 barcode 0 5 getinterval putinterval text 6 barcode 5 3 getinterval putinterval text 10 barcode 8 3 getinterval putinterval text 14 barcode 11 2 getinterval putinterval text 17 barcode 13 1 getinterval putinterval % Get the result of encoding with interleaved2of5 options (dontdraw) true put options (includecheck) false put /args barcode options //interleaved2of5 exec def args (txt) [ [text textxoffset textyoffset textfont textsize] ] put args (textxalign) (center) put args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /leitcode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER leitcode-- % --BEGIN ENCODER databaromni-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear renmatrix-- % --DESC: GS1 DataBar Omnidirectional % --EXAM: (01)24012345678905 % --EXOP: % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp databaromni 0.0 2022082100 115183 110835 %%BeginData: 436 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 20 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /databaromni { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /height 33 72 div def /linkage false def /format (omni) def /barxmult 33 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall format (truncated) eq {/height 13 72 div def} if /height height cvr def /barxmult barxmult cvi def /databaromni //loadctx exec % Validate the input barcode 0 4 getinterval (\(01\)) ne { /bwipp.databaromniBadAI (GS1 DataBar Omnidirectional must begin with (01) application identifier) //raiseerror exec } if barcode length 17 ne barcode length 18 ne and { /bwipp.databaromniBadLength (GS1 DataBar Omnidirectional must be 13 or 14 digits) //raiseerror exec } if barcode 4 barcode length 4 sub getinterval { dup 48 lt exch 57 gt or { /bwipp.databaromniBadCharacter (GS1 DataBar Omnidirectional must contain only digits) //raiseerror exec } if } forall % Calculate checksum and add to end of barcode /checksum 0 def 0 1 12 { /i exch def /checksum checksum barcode i 4 add get 48 sub i 2 mod 0 eq {3 mul} if add def } for /checksum 10 checksum 10 mod sub 10 mod def barcode length 18 eq { barcode 17 get checksum 48 add ne { /bwipp.databaromniBadCheckDigit (Incorrect GS1 DataBar Omnidirectional check digit provided) //raiseerror exec } if } if 18 string dup 0 barcode putinterval dup 17 checksum 48 add put /barcode exch def % Create the human readable text /txt barcode length array def 0 1 barcode length 1 sub { /i exch def txt i [barcode i 1 getinterval 0 0 () 0] put } for /ncr { % n r 2 copy sub 2 copy lt {exch} if % n r maxd mind 1 1 5 3 roll % mind j=1 v=1 n maxd 1 add -1 exch { % mind j v n -1 maxd+1 mul % mind j v*i 1 index 3 index le { 1 index idiv exch 1 add exch } if } for { % mind j v 1 index 3 index gt {exit} if 1 index idiv exch 1 add exch } loop exch pop exch pop } def /getRSSwidths { /oe exch def /el exch def /mw exch def /nm exch def /val exch def /out el array def /mask 0 def 0 1 el 2 sub { /bar exch def /ew 1 def /mask mask 1 bar bitshift or def { /sval nm ew sub 1 sub el bar sub 2 sub ncr def oe mask 0 eq and nm ew sub el 2 mul sub bar 2 mul add -2 ge and { /sval sval nm ew sub el sub bar add el bar sub 2 sub ncr sub def } if el bar sub 2 gt { /lval 0 def nm ew sub el sub bar add 2 add -1 mw 1 add { nm exch sub ew sub 1 sub el bar sub 3 sub ncr /lval exch lval add def } for /sval sval lval el bar sub 1 sub mul sub def } { nm ew sub mw gt {/sval sval 1 sub def} if } ifelse /val val sval sub def val 0 lt {exit} if /ew ew 1 add def /mask mask 1 bar bitshift not and def } loop /val val sval add def /nm nm ew sub def out bar ew put } for out el 1 sub nm put out } def /binval [ linkage {1} {0} ifelse barcode 4 13 getinterval {48 sub} forall ] def 0 1 12 { /i exch def binval i 1 add 2 copy get binval i get 4537077 mod 10 mul add put binval i binval i get 4537077 idiv put } for /right binval 13 get 4537077 mod def binval 13 2 copy get 4537077 idiv put /left 0 def /i true def 0 1 13 { /j exch def binval j get dup 0 eq i and { pop } { /i false def /left left 3 -1 roll 10 13 j sub exp cvi mul add def } ifelse } for /d1 left 1597 idiv def /d2 left 1597 mod def /d3 right 1597 idiv def /d4 right 1597 mod def { /tab164 [ 160 0 12 4 8 1 161 1 960 161 10 6 6 3 80 10 2014 961 8 8 4 5 31 34 2714 2015 6 10 3 6 10 70 2840 2715 4 12 1 8 1 126 ] def /tab154 [ 335 0 5 10 2 7 4 84 1035 336 7 8 4 5 20 35 1515 1036 9 6 6 3 48 10 1596 1516 11 4 8 1 81 1 ] def } ctxdef /i 0 def { d1 tab164 i get le { tab164 i 1 add 7 getinterval {} forall /d1te exch def /d1to exch def /d1mwe exch def /d1mwo exch def /d1ele exch def /d1elo exch def /d1gs exch def exit } if /i i 8 add def } loop /i 0 def { d2 tab154 i get le { tab154 i 1 add 7 getinterval {} forall /d2te exch def /d2to exch def /d2mwe exch def /d2mwo exch def /d2ele exch def /d2elo exch def /d2gs exch def exit } if /i i 8 add def } loop /i 0 def { d3 tab164 i get le { tab164 i 1 add 7 getinterval {} forall /d3te exch def /d3to exch def /d3mwe exch def /d3mwo exch def /d3ele exch def /d3elo exch def /d3gs exch def exit } if /i i 8 add def } loop /i 0 def { d4 tab154 i get le { tab154 i 1 add 7 getinterval {} forall /d4te exch def /d4to exch def /d4mwe exch def /d4mwo exch def /d4ele exch def /d4elo exch def /d4gs exch def exit } if /i i 8 add def } loop /d1wo d1 d1gs sub d1te idiv d1elo d1mwo 4 false getRSSwidths def /d1we d1 d1gs sub d1te mod d1ele d1mwe 4 true getRSSwidths def /d2wo d2 d2gs sub d2to mod d2elo d2mwo 4 true getRSSwidths def /d2we d2 d2gs sub d2to idiv d2ele d2mwe 4 false getRSSwidths def /d3wo d3 d3gs sub d3te idiv d3elo d3mwo 4 false getRSSwidths def /d3we d3 d3gs sub d3te mod d3ele d3mwe 4 true getRSSwidths def /d4wo d4 d4gs sub d4to mod d4elo d4mwo 4 true getRSSwidths def /d4we d4 d4gs sub d4to idiv d4ele d4mwe 4 false getRSSwidths def /d1w 8 array def 0 1 3 { /i exch def d1w i 2 mul d1wo i get put d1w i 2 mul 1 add d1we i get put } for /d2w 8 array def 0 1 3 { /i exch def d2w 7 i 2 mul sub d2wo i get put d2w 6 i 2 mul sub d2we i get put } for /d3w 8 array def 0 1 3 { /i exch def d3w 7 i 2 mul sub d3wo i get put d3w 6 i 2 mul sub d3we i get put } for /d4w 8 array def 0 1 3 { /i exch def d4w i 2 mul d4wo i get put d4w i 2 mul 1 add d4we i get put } for /widths [ d1w {} forall d2w {} forall d3w {} forall d4w {} forall ] def { /checkweights [ 1 3 9 27 2 6 18 54 58 72 24 8 29 36 12 4 74 51 17 32 37 65 48 16 64 34 23 69 49 68 46 59 ] def /checkwidths [ 3 8 2 1 1 3 5 5 1 1 3 3 7 1 1 3 1 9 1 1 2 7 4 1 1 2 5 6 1 1 2 3 8 1 1 1 5 7 1 1 1 3 9 1 1 ] def } ctxdef /checksum 0 def 0 1 31 { /i exch def /checksum checksum widths i get checkweights i get mul add def } for /checksum checksum 79 mod def checksum 8 ge {/checksum checksum 1 add def} if checksum 72 ge {/checksum checksum 1 add def} if /checklt checkwidths checksum 9 idiv 5 mul 5 getinterval def /checkrtrev checkwidths checksum 9 mod 5 mul 5 getinterval def /checkrt 5 array def 0 1 4 { /i exch def checkrt i checkrtrev 4 i sub get put } for % Stacked format format (omni) eq format (truncated) eq or { % linear /sbs [ 1 d1w {} forall checklt {} forall d2w {} forall d4w {} forall checkrt {} forall d3w {} forall 1 1 ] def << /ren //renlinear /sbs sbs /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] /txt txt /textxalign (center) /opt options >> dontdraw not //renlinear if } { % 2D - stacked or stackedomni /top [ 1 1 d1w {} forall checklt {} forall d2w {} forall 1 1 0 ] def /bot [ 1 1 d4w {} forall checkrt {} forall d3w {} forall 1 1 0 ] def 0 2 24 { /i exch def top i get {0} repeat top i 1 add get {1} repeat } for 50 array astore /top exch def 0 2 24 { /i exch def bot i get {1} repeat bot i 1 add get {0} repeat } for 50 array astore /bot exch def % Stacked format (stacked) eq { /sep 50 array def sep 0 0 put 1 1 49 { /i exch def top i get bot i get eq { sep i 1 top i get sub put } { sep i 1 sep i 1 sub get sub put } ifelse } for sep 0 [ 0 0 0 0 ] putinterval sep 46 [ 0 0 0 0 ] putinterval /pixs [ 5 {top aload pop} repeat sep aload pop 7 {bot aload pop} repeat ] def /pixy pixs length 50 idiv def } if % Stacked omnidirectional format (stackedomni) eq { /sep1 [ top {1 exch sub} forall ] def sep1 0 [ 0 0 0 0 ] putinterval sep1 46 [ 0 0 0 0 ] putinterval 18 1 30 { /i exch def top i get 0 eq { top i 1 sub get 1 eq { 1 } { sep1 i 1 sub get 0 eq {1} {0} ifelse } ifelse } { 0 } ifelse sep1 exch i exch put } for /sep2 [ 0 0 0 0 21 { 0 1 } repeat 0 0 0 0 ] def /sep3 [ bot {1 exch sub} forall ] def sep3 0 [ 0 0 0 0 ] putinterval sep3 46 [ 0 0 0 0 ] putinterval 19 1 31 { /i exch def bot i get 0 eq { bot i 1 sub get 1 eq { 1 } { sep3 i 1 sub get 0 eq {1} {0} ifelse } ifelse } { 0 } ifelse sep3 exch i exch put } for /f3 [1 1 1 1 1 1 1 1 1 0 1 1 1] def true 0 1 12 {dup bot exch 19 add get exch f3 exch get eq and} for { % Right shifted module for value 3 finder sep3 19 [ 0 0 0 0 0 0 0 0 0 0 1 0 0 ] putinterval } if /pixs [ barxmult {top aload pop} repeat sep1 aload pop sep2 aload pop sep3 aload pop barxmult {bot aload pop} repeat ] def /pixy pixs length 50 idiv def } if % Return the arguments << /ren //renmatrix /pixs pixs /pixx 50 /pixy pixy /height pixy 72 div /width 50 72 div /opt options >> dontdraw not //renmatrix if } ifelse //unloadctx exec end } [/barcode] {null def} forall bind def /databaromni dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER databaromni-- % --BEGIN ENCODER databarstacked-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear renmatrix databaromni-- % --DESC: GS1 DataBar Stacked % --EXAM: (01)24012345678905 % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp databarstacked 0.0 2022082100 67310 63705 %%BeginData: 76 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /databaromni dup /uk.co.terryburton.bwipp findresource put begin /databarstacked { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Validate the input barcode 0 4 getinterval (\(01\)) ne { /bwipp.databarstackedBadAI (GS1 DataBar Stacked must begin with (01) application identifier) //raiseerror exec } if barcode length 17 ne barcode length 18 ne and { /bwipp.databarstackedBadLength (GS1 DataBar Stacked must be 13 or 14 digits) //raiseerror exec } if barcode 4 barcode length 4 sub getinterval { dup 48 lt exch 57 gt or { /bwipp.databarstackedBadCharacter (GS1 DataBar Stacked must contain only digits) //raiseerror exec } if } forall % Calculate checksum and add to end of barcode /checksum 0 def 0 1 12 { /i exch def /checksum checksum barcode i 4 add get 48 sub i 2 mod 0 eq {3 mul} if add def } for /checksum 10 checksum 10 mod sub 10 mod def barcode length 18 eq { barcode 17 get checksum 48 add ne { /bwipp.databarstackedBadCheckDigit (Incorrect GS1 DataBar Stacked check digit provided) //raiseerror exec } if } if 18 string dup 0 barcode putinterval dup 17 checksum 48 add put /barcode exch def % Get the result of encoding with databaromni with format=stacked options (dontdraw) true put options (format) (stacked) put /args barcode options //databaromni exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /databarstacked dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER databarstacked-- % --BEGIN ENCODER databarstackedomni-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear renmatrix databaromni-- % --DESC: GS1 DataBar Stacked Omnidirectional % --EXAM: (01)24012345678905 % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp databarstackedomni 0.0 2022082100 67410 63785 %%BeginData: 76 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /databaromni dup /uk.co.terryburton.bwipp findresource put begin /databarstackedomni { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Validate the input barcode 0 4 getinterval (\(01\)) ne { /bwipp.databarstackedomniBadAI (GS1 DataBar Stacked Omnidirectional must begin with (01) application identifier) //raiseerror exec } if barcode length 17 ne barcode length 18 ne and { /bwipp.databarstackedomniBadLength (GS1 DataBar Stacked Omnidirectional must be 13 or 14 digits) //raiseerror exec } if barcode 4 barcode length 4 sub getinterval { dup 48 lt exch 57 gt or { /bwipp.databarstackedomniBadCharacter (GS1 DataBar Stacked Omnidirectional must contain only digits) //raiseerror exec } if } forall % Calculate checksum and add to end of barcode /checksum 0 def 0 1 12 { /i exch def /checksum checksum barcode i 4 add get 48 sub i 2 mod 0 eq {3 mul} if add def } for /checksum 10 checksum 10 mod sub 10 mod def barcode length 18 eq { barcode 17 get checksum 48 add ne { /bwipp.databarstackedomniBadCheckDigit (Incorrect GS1 DataBar Stacked Omnidirectional check digit provided) //raiseerror exec } if } if 18 string dup 0 barcode putinterval dup 17 checksum 48 add put /barcode exch def % Get the result of encoding with databaromni with format=stackedomni options (dontdraw) true put options (format) (stackedomni) put /args barcode options //databaromni exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /databarstackedomni dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER databarstackedomni-- % --BEGIN ENCODER databartruncated-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear renmatrix databaromni-- % --DESC: GS1 DataBar Truncated % --EXAM: (01)24012345678905 % --EXOP: % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp databartruncated 0.0 2022082100 67336 63721 %%BeginData: 76 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /databaromni dup /uk.co.terryburton.bwipp findresource put begin /databartruncated { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Validate the input barcode 0 4 getinterval (\(01\)) ne { /bwipp.databartruncatedBadAI (GS1 DataBar Truncated must begin with (01) application identifier) //raiseerror exec } if barcode length 17 ne barcode length 18 ne and { /bwipp.databartruncatedBadLength (GS1 DataBar Truncated must be 13 or 14 digits) //raiseerror exec } if barcode 4 barcode length 4 sub getinterval { dup 48 lt exch 57 gt or { /bwipp.databartruncatedBadCharacter (GS1 DataBar Truncated must contain only digits) //raiseerror exec } if } forall % Calculate checksum and add to end of barcode /checksum 0 def 0 1 12 { /i exch def /checksum checksum barcode i 4 add get 48 sub i 2 mod 0 eq {3 mul} if add def } for /checksum 10 checksum 10 mod sub 10 mod def barcode length 18 eq { barcode 17 get checksum 48 add ne { /bwipp.databartruncatedBadCheckDigit (Incorrect GS1 DataBar Truncated check digit provided) //raiseerror exec } if } if 18 string dup 0 barcode putinterval dup 17 checksum 48 add put /barcode exch def % Get the result of encoding with databaromni with format=truncated options (dontdraw) true put options (format) (truncated) put /args barcode options //databaromni exec def args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /databartruncated dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER databartruncated-- % --BEGIN ENCODER databarlimited-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: GS1 DataBar Limited % --EXAM: (01)15012345678907 % --EXOP: % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp databarlimited 0.0 2022082100 90886 86535 %%BeginData: 291 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 20 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /databarlimited { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /height 10 72 div def /linkage false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /height height cvr def /databarlimited //loadctx exec % Validate the input barcode 0 4 getinterval (\(01\)) ne { /bwipp.databarlimitedBadAI (GS1 DataBar Limited must begin with (01) application identifier) //raiseerror exec } if barcode length 17 ne barcode length 18 ne and { /bwipp.databarlimitedBadLength (GS1 DataBar Limited must be 13 or 14 digits) //raiseerror exec } if barcode 4 get dup 48 lt exch 49 gt or { /bwipp.databarlimitedBadStartDigit (GS1 DataBar Limited must begin with 0 or 1) //raiseerror exec } if barcode 5 barcode length 5 sub getinterval { dup 48 lt exch 57 gt or { /bwipp.databarlimitedBadCharacter (GS1 DataBar Limited must contain only digits) //raiseerror exec } if } forall % Calculate checksum and add to end of barcode /checksum 0 def 0 1 12 { /i exch def /checksum checksum barcode i 4 add get 48 sub i 2 mod 0 eq {3 mul} if add def } for /checksum 10 checksum 10 mod sub 10 mod def barcode length 18 eq { barcode 17 get checksum 48 add ne { /bwipp.databarlimitedBadCheckDigit (Incorrect GS1 DataBar Limited check digit provided) //raiseerror exec } if } if 18 string dup 0 barcode putinterval dup 17 checksum 48 add put /barcode exch def % Strip the AI and optional check digit { /linkval [ 2 0 1 5 1 3 3 5 3 1 0 9 6 ] def } ctxdef /binval [ barcode 4 13 getinterval {48 sub} forall ] def linkage { 0 1 binval length 1 sub { /i exch def binval i binval i get linkval i get add put } for } if % Create the human readable text /txt barcode length array def 0 1 barcode length 1 sub { /i exch def txt i [barcode i 1 getinterval 0 0 () 0] put } for /ncr { % n r 2 copy sub 2 copy lt {exch} if % n r maxd mind 1 1 5 3 roll % mind j=1 v=1 n maxd 1 add -1 exch { % mind j v n -1 maxd+1 mul % mind j v*i 1 index 3 index le { 1 index idiv exch 1 add exch } if } for { % mind j v 1 index 3 index gt {exit} if 1 index idiv exch 1 add exch } loop exch pop exch pop } def /getRSSwidths { /oe exch def /el exch def /mw exch def /nm exch def /val exch def /out el array def /mask 0 def 0 1 el 2 sub { /bar exch def /ew 1 def /mask mask 1 bar bitshift or def { /sval nm ew sub 1 sub el bar sub 2 sub ncr def oe mask 0 eq and nm ew sub el 2 mul sub bar 2 mul add -2 ge and { /sval sval nm ew sub el sub bar add el bar sub 2 sub ncr sub def } if el bar sub 2 gt { /lval 0 def nm ew sub el sub bar add 2 add -1 mw 1 add { nm exch sub ew sub 1 sub el bar sub 3 sub ncr /lval exch lval add def } for /sval sval lval el bar sub 1 sub mul sub def } { nm ew sub mw gt {/sval sval 1 sub def} if } ifelse /val val sval sub def val 0 lt {exit} if /ew ew 1 add def /mask mask 1 bar bitshift not and def } loop /val val sval add def /nm nm ew sub def out bar ew put } for out el 1 sub nm put out } def 0 1 11 { /i exch def binval i 1 add 2 copy get binval i get 2013571 mod 10 mul add put binval i binval i get 2013571 idiv put } for /d2 binval 12 get 2013571 mod def binval 12 2 copy get 2013571 idiv put /d1 0 def /i true def 0 1 12 { /j exch def binval j get dup 0 eq i and { pop } { /i false def /d1 d1 3 -1 roll 10 12 j sub exp cvi mul add def } ifelse } for { /tab267 [ 183063 0 17 9 6 3 6538 28 820063 183064 13 13 5 4 875 728 1000775 820064 9 17 3 6 28 6454 1491020 1000776 15 11 5 4 2415 203 1979844 1491021 11 15 4 5 203 2408 1996938 1979845 19 7 8 1 17094 1 2013570 1996939 7 19 1 8 1 16632 ] def } ctxdef /i 0 def { d1 tab267 i get le { tab267 i 1 add 7 getinterval {} forall /d1te exch def /d1to exch def /d1mwe exch def /d1mwo exch def /d1ele exch def /d1elo exch def /d1gs exch def exit } if /i i 8 add def } loop /i 0 def { d2 tab267 i get le { tab267 i 1 add 7 getinterval {} forall /d2te exch def /d2to exch def /d2mwe exch def /d2mwo exch def /d2ele exch def /d2elo exch def /d2gs exch def exit } if /i i 8 add def } loop /d1wo d1 d1gs sub d1te idiv d1elo d1mwo 7 false getRSSwidths def /d1we d1 d1gs sub d1te mod d1ele d1mwe 7 true getRSSwidths def /d2wo d2 d2gs sub d2te idiv d2elo d2mwo 7 false getRSSwidths def /d2we d2 d2gs sub d2te mod d2ele d2mwe 7 true getRSSwidths def /d1w 14 array def 0 1 6 { /i exch def d1w i 2 mul d1wo i get put d1w i 2 mul 1 add d1we i get put } for /d2w 14 array def 0 1 6 { /i exch def d2w i 2 mul d2wo i get put d2w i 2 mul 1 add d2we i get put } for /widths [ d1w {} forall d2w {} forall ] def { /checkweights [ 1 3 9 27 81 65 17 51 64 14 42 37 22 66 20 60 2 6 18 54 73 41 34 13 39 28 84 74 ] def /checkseq [ 0 1 43 {} for 45 52 57 63 1 66 {} for 73 1 79 {} for 82 126 1 130 {} for 132 141 1 146 {} for 210 1 217 {} for 220 316 1 320 {} for 322 323 326 337 ] def } ctxdef /checksum 0 def 0 1 27 { /i exch def /checksum checksum widths i get checkweights i get mul add def } for /checksum checksum 89 mod def /seq checkseq checksum get def /swidths seq 21 idiv 8 3 6 false getRSSwidths def /bwidths seq 21 mod 8 3 6 false getRSSwidths def /checkwidths [0 0 0 0 0 0 0 0 0 0 0 0 1 1] def 0 1 5 { /i exch def checkwidths i 2 mul swidths i get put checkwidths i 2 mul 1 add bwidths i get put } for /sbs [ 1 d1w {} forall checkwidths {} forall d2w {} forall 1 1 5 ] def % Return the arguments << /ren //renlinear /sbs sbs /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] /txt txt /textxalign (center) /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /databarlimited dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER databarlimited-- % --BEGIN ENCODER databarexpanded-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear renmatrix-- % --DESC: GS1 DataBar Expanded % --EXAM: (01)95012345678903(3103)000123 % --EXOP: % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp databarexpanded 0.0 2022082100 246206 245007 %%BeginData: 863 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /databarexpanded { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /parse false def /dontlint false def /lintreqs true def /dontdraw false def /height 34 72 div def /format (expanded) def /segments -1 def /linkage false def /barxmult 34 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /height height cvr def /segments segments cvi def /barxmult barxmult cvi def /databarexpanded //loadctx exec segments -1 eq { /segments format (expandedstacked) eq {4} {22} ifelse def } { segments 2 lt segments 22 gt or segments 2 mod 0 ne or { /bwipp.gs1databarexpandedBadSegments (The number of segments must be even from 2 to 22) //raiseerror exec } if } ifelse barcode /ai //gs1process exec /fncs exch def /vals exch def /ais exch def % Method selection { % common exit % (01)9...(3103)... ais length 2 eq { ais 0 get (01) eq ais 1 get (3103) eq and { vals 0 get 0 1 getinterval (9) eq vals 1 get cvi 32767 le and { (0100) false exit } if } if } if % (01)9...(3202)... ais length 2 eq { ais 0 get (01) eq ais 1 get (3202) eq and { vals 0 get 0 1 getinterval (9) eq vals 1 get cvi 9999 le and { (0101) false exit } if } if } if % (01)9...(3203)... ais length 2 eq { ais 0 get (01) eq ais 1 get (3203) eq and { vals 0 get 0 1 getinterval (9) eq vals 1 get cvi 22767 le and { (0101) false exit } if } if } if % (01)9...(310x/320x)...[(11/13/15/17)...] ais length dup 2 eq exch 3 eq or { /ai310x false 3100 1 3109 {10 4 string cvrs ais 1 get eq or} for def /ai320x false 3200 1 3209 {10 4 string cvrs ais 1 get eq or} for def ais length 3 eq { /aibad true [ (11) (13) (15) (17) ] {ais 2 get ne and} forall def } { /aibad false def } ifelse ais 0 get (01) eq ai310x ai320x or and aibad not and { ais length 3 eq { vals 0 get 0 1 getinterval (9) eq vals 1 get cvi 99999 le and vals 2 get 2 2 getinterval cvi dup 1 ge exch 12 le and and % Month 1-12 vals 2 get 4 2 getinterval cvi dup 0 ge exch 31 le and and { % Day 0-31 ai310x ais 2 get (11) eq and { (0111000) false exit } if ai320x ais 2 get (11) eq and { (0111001) false exit } if ai310x ais 2 get (13) eq and { (0111010) false exit } if ai320x ais 2 get (13) eq and { (0111011) false exit } if ai310x ais 2 get (15) eq and { (0111100) false exit } if ai320x ais 2 get (15) eq and { (0111101) false exit } if ai310x ais 2 get (17) eq and { (0111110) false exit } if ai320x ais 2 get (17) eq and { (0111111) false exit } if } if } { vals 0 get 0 1 getinterval (9) eq vals 1 get cvi 99999 le and { ai310x { (0111000) false exit } if ai320x { (0111001) false exit } if } if } ifelse } if } if % (01)9...(392x)... ais length 2 ge { /ai392x false 3920 1 3923 {10 4 string cvrs ais 1 get eq or} for def ais 0 get (01) eq ai392x and { vals 0 get 0 1 getinterval (9) eq { (01100) true exit } if } if } if % (01)9...(393x)... ais length 2 ge { /ai393x false 3930 1 3933 {10 4 string cvrs ais 1 get eq or} for def ais 0 get (01) eq ai393x and { vals 0 get 0 1 getinterval (9) eq { (01101) true exit } if } if } if % (01)... ais 0 get (01) eq { (1) true exit } if % Freeform (00) true exit } loop /gpfallow exch def /method exch def /conv12to40 { (0000000000000000000000000000000000000000) 40 string copy 2 copy 0 10 getinterval exch 0 3 getinterval cvi 2 10 string cvrs dup length 10 exch sub exch putinterval 2 copy 10 10 getinterval exch 3 3 getinterval cvi 2 10 string cvrs dup length 10 exch sub exch putinterval 2 copy 20 10 getinterval exch 6 3 getinterval cvi 2 10 string cvrs dup length 10 exch sub exch putinterval 2 copy 30 10 getinterval exch 9 3 getinterval cvi 2 10 string cvrs dup length 10 exch sub exch putinterval exch pop } def /conv13to44 { (00000000000000000000000000000000000000000000) 44 string copy 2 copy 0 4 getinterval exch 0 1 getinterval cvi 2 4 string cvrs dup length 4 exch sub exch putinterval dup 3 -1 roll 1 12 getinterval conv12to40 4 exch putinterval } def /tobin { string dup length 1 sub 0 exch 1 exch {1 index exch 48 put} for dup 3 -1 roll 2 2 index length string cvrs dup length 2 index length exch sub exch putinterval } def /fnc1 -1 def /lnumeric -2 def /lalphanumeric -3 def /liso646 -4 def method (00) eq { /cdf [] def /gpf [] def } if method (1) eq { /cdf vals 0 get 0 13 getinterval conv13to44 def /cdf [ cdf {48 sub} forall ] def /gpf [] def /ais ais 1 ais length 1 sub getinterval def /vals vals 1 vals length 1 sub getinterval def /fncs fncs 1 fncs length 1 sub getinterval def } if method (0100) eq { /cdf 55 string def cdf 0 vals 0 get 1 12 getinterval conv12to40 putinterval cdf 40 vals 1 get cvi 15 tobin putinterval /cdf [ cdf {48 sub} forall ] def /gpf [] def /ais [] def /vals [] def /fncs [] def } if method (0101) eq { /cdf 55 string def cdf 0 vals 0 get 1 12 getinterval conv12to40 putinterval ais 1 get (3202) eq { vals 1 get cvi 15 tobin } { vals 1 get cvi 10000 add 15 tobin } ifelse cdf exch 40 exch putinterval /cdf [ cdf {48 sub} forall ] def /gpf [] def /ais [] def /vals [] def /fncs [] def } if method length 7 eq { /cdf 76 string def cdf 0 vals 0 get 1 12 getinterval conv12to40 putinterval 6 string dup 0 ais 1 get 3 1 getinterval putinterval dup vals 1 get 1 5 getinterval 1 exch putinterval cvi 20 tobin cdf exch 40 exch putinterval ais length 3 eq { vals 2 get dup 0 2 getinterval cvi 384 mul exch dup 2 2 getinterval cvi 1 sub 32 mul exch 4 2 getinterval cvi add add } { 38400 } ifelse 16 tobin cdf exch 60 exch putinterval /cdf [ cdf {48 sub} forall ] def /gpf [] def /ais [] def /vals [] def /fncs [] def } if method (01100) eq { /cdf 42 string def cdf 0 vals 0 get 1 12 getinterval conv12to40 putinterval cdf 40 ais 1 get 3 1 getinterval cvi 2 tobin putinterval /cdf [ cdf {48 sub} forall ] def /gpf [ vals 1 get {} forall ais length 2 gt { fnc1 } if ] def /ais ais 2 ais length 2 sub getinterval def /vals vals 2 vals length 2 sub getinterval def /fncs fncs 2 fncs length 2 sub getinterval def } if method (01101) eq { /cdf 52 string def cdf 0 vals 0 get 1 12 getinterval conv12to40 putinterval cdf 40 ais 1 get 3 1 getinterval cvi 2 tobin putinterval cdf 42 vals 1 get 0 3 getinterval cvi 10 tobin putinterval /cdf [ cdf {48 sub} forall ] def /gpf [ vals 1 get dup length 3 sub 3 exch getinterval {} forall ais length 2 gt { fnc1 } if ] def /ais ais 2 ais length 2 sub getinterval def /vals vals 2 vals length 2 sub getinterval def /fncs fncs 2 fncs length 2 sub getinterval def } if % Variable length symbol field gpfallow { /vlf 2 array def } { /vlf [] def } ifelse { /numeric << 0 1 119 { dup (00) 2 string copy dup 3 -1 roll 11 2 string cvrs dup length 2 exch sub exch putinterval dup 0 get 65 eq {dup 0 94 put} if dup 1 get 65 eq {dup 1 94 put} if exch 8 add (0000000) 7 string copy dup 3 -1 roll 2 7 string cvrs dup length 7 exch sub exch putinterval } for lalphanumeric (0000) >> def /alphanumeric << 48 1 57 {dup 43 sub 5 tobin} for fnc1 (01111) 65 1 90 {dup 33 sub 6 tobin} for 42 (111010) 44 1 47 {dup 15 add 6 tobin} for lnumeric (000) liso646 (00100) >> def /iso646 << 48 1 57 {dup 43 sub 5 tobin} for fnc1 (01111) 65 1 90 {dup 1 sub 7 tobin} for 97 1 122 {dup 7 sub 7 tobin} for 33 (11101000) 34 (11101001) 37 1 47 {dup 197 add 8 tobin} for 58 1 63 {dup 187 add 8 tobin} for 95 (11111011) 32 (11111100) lnumeric (000) lalphanumeric (00100) >> def } ctxdef % Append the remaining AI data 0 1 ais length 1 sub { /i exch def /ai ais i get def /val vals i get def gpf length ai length add val length add array dup 0 gpf putinterval dup gpf length ai [ exch {} forall ] putinterval dup gpf length ai length add val [ exch {} forall ] putinterval /gpf exch def i ais length 1 sub ne fncs i get and { % Append FNC1 gpf length 1 add array dup 0 gpf putinterval dup gpf length fnc1 put /gpf exch def } if } for % Calculate the number of bits remaining to the next valid symbol size /rembits { dup 12 div ceiling cvi 12 mul % Round up to multiple of 12 48 2 copy lt {exch} if pop % At least 4 symbols dup 12 idiv dup segments mod 1 eq { % At least 2 symbols on last row of stacked symbol 1 add 12 mul exch pop } { pop } ifelse exch sub } def /encode { dup /raw ne {exch get} {pop} ifelse [ exch {48 sub} forall ] dup length exch gpfenc exch j exch putinterval /j exch j add def } def % Pre-compute alphanumeric and numeric runlengths and position of next ISO646-only characters /numericruns [ gpf length {0} repeat 0 -1 ] def /alphanumericruns [ gpf length {0} repeat 0 ] def /nextiso646only [ gpf length {0} repeat 9999 ] def gpf length 1 sub -1 0 { /i exch def gpf i get (00) 2 string copy dup 0 gpf i get dup fnc1 eq {pop 94} if put i gpf length 1 sub lt {dup 1 gpf i 1 add get dup fnc1 eq {pop 94} if put} if numeric exch known { numericruns i numericruns i 2 add get 2 add put } { numericruns i 0 put } ifelse dup alphanumeric exch known { alphanumericruns i alphanumericruns i 1 add get 1 add put } { alphanumericruns i 0 put } ifelse dup iso646 exch known exch alphanumeric exch known not and { nextiso646only i 0 put } { nextiso646only i nextiso646only i 1 add get 1 add put } ifelse } for % Encode the general purpose field /gpfenc 252 array def /i 0 def /j 0 def /mode (numeric) def { % loop i gpf length eq {exit} if { % not a loop but common exit point mode (numeric) eq { i gpf length 2 sub le { 2 string dup 0 gpf i get dup fnc1 eq {pop 94} if put dup 1 gpf i 1 add get dup fnc1 eq {pop 94} if put dup numeric exch known { numeric encode /i i 2 add def exit } if pop lalphanumeric numeric encode /mode (alphanumeric) def exit } { gpf i get dup 48 lt exch 57 gt or { lalphanumeric numeric encode /mode (alphanumeric) def exit } if /rem 12 1 add method length add vlf length add cdf length add j add rembits def rem 4 ge rem 6 le and { % C1 + 1 into 4 to 6 bits (000000) 6 string copy 0 rem getinterval dup gpf i get 47 sub 2 4 string cvrs dup length 4 exch sub exch putinterval /raw encode /i i 1 add def exit } { % C1.FNC1 2 string dup 0 gpf i get put dup 1 94 put numeric encode /i i 1 add def exit } ifelse } ifelse } if mode (alphanumeric) eq { gpf i get fnc1 eq { fnc1 alphanumeric encode /mode (numeric) def /i i 1 add def exit } if gpf i get dup iso646 exch known exch alphanumeric exch known not and { liso646 alphanumeric encode /mode (iso646) def exit } if numericruns i get 6 ge { lnumeric alphanumeric encode /mode (numeric) def exit } if numericruns i get dup 4 ge exch i add gpf length eq and { lnumeric alphanumeric encode /mode (numeric) def exit } if gpf i get alphanumeric encode /i i 1 add def exit } if mode (iso646) eq { gpf i get fnc1 eq { fnc1 iso646 encode /mode (numeric) def /i i 1 add def exit } if numericruns i get 4 ge nextiso646only i get 10 ge and { lnumeric iso646 encode /mode (numeric) def exit } if alphanumericruns i get 5 ge nextiso646only i get 10 ge and { lalphanumeric iso646 encode /mode (alphanumeric) def exit } if gpf i get iso646 encode /i i 1 add def exit } if } loop } loop /gpf gpfenc 0 j getinterval def % Complete the variable length field and create pad 1 12 add method length add vlf length add cdf length add gpf length add dup rembits dup array /pad exch def vlf length 0 ne { add 12 idiv dup 2 mod vlf exch 0 exch put 14 le {0} {1} ifelse vlf exch 1 exch put } { pop pop } ifelse pad length 0 gt { 0 5 pad length 1 sub { % Fill with 00100 /i exch def pad i [ 0 0 1 0 0 ] 0 pad length i sub 5 2 copy gt {exch} if pop getinterval putinterval } for mode (numeric) eq { % Prefix shift from numeric to ASCII /pad [ 0 0 0 0 pad aload pop ] 0 pad length getinterval def } if } if % Concatenate fields /binval [ linkage {1} {0} ifelse method {48 sub} forall vlf aload pop cdf aload pop gpf aload pop pad aload pop ] def /datalen binval length 12 idiv def /ncr { % n r 2 copy sub 2 copy lt {exch} if % n r maxd mind 1 1 5 3 roll % mind j=1 v=1 n maxd 1 add -1 exch { % mind j v n -1 maxd+1 mul % mind j v*i 1 index 3 index le { 1 index idiv exch 1 add exch } if } for { % mind j v 1 index 3 index gt {exit} if 1 index idiv exch 1 add exch } loop exch pop exch pop } def /getRSSwidths { /oe exch def /el exch def /mw exch def /nm exch def /val exch def /out el array def /mask 0 def 0 1 el 2 sub { /bar exch def /ew 1 def /mask mask 1 bar bitshift or def { /sval nm ew sub 1 sub el bar sub 2 sub ncr def oe mask 0 eq and nm ew sub el 2 mul sub bar 2 mul add -2 ge and { /sval sval nm ew sub el sub bar add el bar sub 2 sub ncr sub def } if el bar sub 2 gt { /lval 0 def nm ew sub el sub bar add 2 add -1 mw 1 add { nm exch sub ew sub 1 sub el bar sub 3 sub ncr /lval exch lval add def } for /sval sval lval el bar sub 1 sub mul sub def } { nm ew sub mw gt {/sval sval 1 sub def} if } ifelse /val val sval sub def val 0 lt {exit} if /ew ew 1 add def /mask mask 1 bar bitshift not and def } loop /val val sval add def /nm nm ew sub def out bar ew put } for out el 1 sub nm put out } def { /tab174 [ 347 0 12 5 7 2 87 4 1387 348 10 7 5 4 52 20 2947 1388 8 9 4 5 30 52 3987 2948 6 11 3 6 10 104 4191 3988 4 13 1 8 1 204 ] def } ctxdef /dxw datalen array def 0 1 datalen 1 sub { /x exch def /d binval x 12 mul 12 getinterval def /d 0 0 1 11 {/j exch def 2 11 j sub exp cvi d j get mul add} for def /j 0 def { d tab174 j get le { tab174 j 1 add 7 getinterval {} forall /dte exch def /dto exch def /dmwe exch def /dmwo exch def /dele exch def /delo exch def /dgs exch def exit } if /j j 8 add def } loop /dwo d dgs sub dte idiv delo dmwo 4 true getRSSwidths def /dwe d dgs sub dte mod dele dmwe 4 false getRSSwidths def /dw 8 array def x 2 mod 0 eq { 0 1 3 { /j exch def dw 7 j 2 mul sub dwo j get put dw 6 j 2 mul sub dwe j get put } for } { 0 1 3 { /j exch def dw j 2 mul dwo j get put dw j 2 mul 1 add dwe j get put } for } ifelse dxw x dw put } for { /finderwidths [ 1 8 4 1 1 1 1 4 8 1 3 6 4 1 1 1 1 4 6 3 3 4 6 1 1 1 1 6 4 3 3 2 8 1 1 1 1 8 2 3 2 6 5 1 1 1 1 5 6 2 2 2 9 1 1 1 1 9 2 2 ] def /finderseq [ [0 1] [0 3 2] [0 5 2 7] [0 9 2 7 4] [0 9 2 7 6 11] [0 9 2 7 8 11 10] [0 1 2 3 4 5 6 7] [0 1 2 3 4 5 6 9 8] [0 1 2 3 4 5 6 9 10 11] [0 1 2 3 4 7 6 9 8 11 10] ] def } ctxdef /seq finderseq datalen 2 sub 2 idiv get def /fxw seq length array def 0 1 seq length 1 sub { /x exch def fxw x finderwidths seq x get 5 mul 5 getinterval put } for { /checkweights [ -1 -1 -1 -1 -1 -1 -1 -1 % A1L 77 96 32 81 27 9 3 1 % A1R 20 60 180 118 143 7 21 63 % A2L 205 209 140 117 39 13 145 189 % A2R 193 157 49 147 19 57 171 91 % B1L 132 44 85 169 197 136 186 62 % B1R 185 133 188 142 4 12 36 108 % B2L 50 87 29 80 97 173 128 113 % B2R 150 28 84 41 123 158 52 156 % C1L 166 196 206 139 187 203 138 46 % C1R 76 17 51 153 37 111 122 155 % C2L 146 119 110 107 106 176 129 43 % C2R 16 48 144 10 30 90 59 177 % D1L 164 125 112 178 200 137 116 109 % D1R 70 210 208 202 184 130 179 115 % D2L 190 204 68 93 31 151 191 134 % D2R 148 22 66 198 172 94 71 2 % E1L 40 154 192 64 162 54 18 6 % E1R 120 149 25 75 14 42 126 167 % E2L 175 199 207 69 23 78 26 79 % E2R 103 98 83 38 114 131 182 124 % F1L 159 53 88 170 127 183 61 161 % F1R 55 165 73 8 24 72 5 15 % F2L 89 100 174 58 160 194 135 45 % F2R ] def } ctxdef /checkweightseq [ seq {16 mul checkweights exch 16 getinterval aload pop} forall ] dup length 8 sub 8 exch getinterval def /widths [ dxw {{} forall} forall ] def /checksum 0 def 0 1 widths length 1 sub { /i exch def /checksum checksum widths i get checkweightseq i get mul add def } for /checksum checksum 211 mod datalen 3 sub 211 mul add def /i 0 def { checksum tab174 i get le { tab174 i 1 add 7 getinterval {} forall /cte exch def /cto exch def /cmwe exch def /cmwo exch def /cele exch def /celo exch def /cgs exch def exit } if /i i 8 add def } loop /cwo checksum cgs sub cte idiv celo cmwo 4 true getRSSwidths def /cwe checksum cgs sub cte mod cele cmwe 4 false getRSSwidths def /cw 8 array def 0 1 3 { /i exch def cw i 2 mul cwo i get put cw i 2 mul 1 add cwe i get put } for 22 array dup dup 0 cw put 1 dxw putinterval 0 datalen 1 add getinterval /dxw exch def /datalen dxw length def % Encode row runlengths /rows datalen segments div ceiling cvi array def /numrows rows length def 0 1 numrows 1 sub { /r exch def mark segments 4 mod 0 ne r 2 mod 1 eq and {0} if 1 1 0 1 segments 1 sub { /pos exch r segments mul add def pos datalen lt { dxw pos get {} forall pos 2 mod 0 eq {fxw pos 2 idiv get {} forall} if } if } for 1 1 counttomark array astore rows exch r exch put pop } for format (expandedstacked) ne { % Linear % Remove leading space /sbs rows 0 get dup length 1 sub 1 exch getinterval def /sbs [ 1 0 1 datalen 1 sub { /i exch def dxw i get {} forall i 2 mod 0 eq {fxw i 2 idiv get {} forall} if } for 1 1 ] def options (parse) undef << /ren //renlinear /sbs sbs /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] /opt options >> dontdraw not //renlinear if } { % expandedstacked /seps numrows array def 0 1 numrows 1 sub { /r exch def /row rows r get def % Sample runlengths into bitmap mark 0 2 row length 1 sub { /i exch def row i get {0} repeat i row length 1 sub lt {row i 1 add get {1} repeat} if } for counttomark array astore /row exch def pop % Derive the separator pattern /sep [ row {1 exch sub} forall ] def /finderpos [ % Finder pattern module positions 19 98 row length 13 sub {} for 68 98 row length 13 sub {} for ] def finderpos { dup 14 add 1 exch { /i exch def row i get 0 eq { row i 1 sub get 1 eq { 1 } { sep i 1 sub get 0 eq {1} {0} ifelse } ifelse } { 0 } ifelse sep exch i exch put } for } forall sep 0 [ 0 0 0 0 ] putinterval sep row length 4 sub [ 0 0 0 0 ] putinterval % For even segment-pair symbols reverse alternate rows segments 4 mod 0 eq r 2 mod 1 eq and { rows r get length rows 0 get length ne % Except partial width last row finderpos length 2 mod 1 eq and { % with odd finders /row [ 0 row aload pop ] def /sep [ 0 sep aload pop ] def } { row length 1 sub -1 0 {row exch get} for row astore pop sep length 1 sub -1 0 {sep exch get} for sep astore pop } ifelse } if rows r row put seps r sep put } for % Extend last row and separator to fill width of symbol /pixx rows 0 get length def [ pixx {0} repeat ] dup 0 rows numrows 1 sub get putinterval rows exch numrows 1 sub exch put [ pixx {0} repeat ] dup 0 seps numrows 1 sub get putinterval seps exch numrows 1 sub exch put % Middle separator pattern /sep [ pixx 2 idiv 1 add { 0 1 } repeat ] 0 pixx getinterval def sep 0 [0 0 0 0] putinterval sep pixx 4 sub [0 0 0 0] putinterval % Compose the symbol /pixs [ 0 1 numrows 1 sub { /r exch def r 0 ne { seps r get aload pop } if barxmult {rows r get aload pop} repeat r numrows 1 sub ne { seps r get aload pop sep aload pop } if } for ] def options (parse) undef << /ren //renmatrix /pixs pixs /pixx pixx /pixy pixs length pixx idiv /height pixs length pixx idiv 72 div /width pixx 72 div /opt options >> dontdraw not //renmatrix if } ifelse //unloadctx exec end } [/barcode] {null def} forall bind def /databarexpanded dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER databarexpanded-- % --BEGIN ENCODER databarexpandedstacked-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear renmatrix databarexpanded-- % --DESC: GS1 DataBar Expanded Stacked % --EXAM: (01)95012345678903(3103)000123 % --EXOP: segments=4 % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp databarexpandedstacked 0.0 2022082100 72659 72245 %%BeginData: 46 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /databarexpanded dup /uk.co.terryburton.bwipp findresource put begin /databarexpandedstacked { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Get the result of encoding with databarexpanded with format=expandedstacked options (dontdraw) true put options (format) (expandedstacked) put /args barcode options //databarexpanded exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /databarexpandedstacked dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER databarexpandedstacked-- % --BEGIN ENCODER gs1northamericancoupon-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear renmatrix databarexpanded databarexpandedstacked-- % --DESC: GS1 North American Coupon % --EXAM: (8110)106141416543213500110000310123196000 % --EXOP: includetext segments=8 % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp gs1northamericancoupon 0.0 2022082100 84394 87545 %%BeginData: 105 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /databarexpandedstacked dup /uk.co.terryburton.bwipp findresource put begin /gs1northamericancoupon { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable coupon text /coupontextfont /Helvetica def /coupontextsize 9 def /coupontextxoffset (unset) def /coupontextyoffset (unset) def /parse false def /dontlint false def /lintreqs true def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /coupontextfont coupontextfont cvlit def /coupontextsize coupontextsize cvr def coupontextxoffset (unset) ne {/coupontextxoffset coupontextxoffset cvr def} if coupontextyoffset (unset) ne {/coupontextyoffset coupontextyoffset cvr def} if barcode /ai //gs1process exec pop /vals exch def /ais exch def % Validate the AI structure ais length 1 ne { /bwipp.gs1northamericancouponBadAIStructure (A GS1 North American Coupon should consist of a single AI (8110)) //raiseerror exec } if ais 0 get (8110) ne { /bwipp.gs1northamericancouponBadAIStructure (A GS1 North American Coupon should consist of a single AI (8110)) //raiseerror exec } if % Parse out the Company Prefix and Offer Code /val vals 0 get def /vli val 0 get 48 sub def vli 0 lt vli 6 gt or { /bwipp.gs1northamericancouponBadVLI (The AI (8110) data should start with a Company Prefix length indicator in the range 0 to 6) //raiseerror exec } if /gcp val 1 vli 6 add getinterval def /cod val vli 7 add 6 getinterval def /coupontext gcp length 7 add string def coupontext 0 gcp putinterval coupontext gcp length (-) putinterval coupontext gcp length 1 add cod putinterval % Get the result of encoding with databarexpandedstacked options (parse) undef options (dontdraw) true put /args barcode options //databarexpandedstacked exec def % Add the coupon text includetext { coupontextxoffset (unset) eq { /coupontextxoffset 0 def } if coupontextyoffset (unset) eq { /coupontextyoffset args (height) get 72 mul 3 add def } if args (txt) known { /txt args (txt) get def /newtxt txt length 1 add array def newtxt 0 txt putinterval newtxt newtxt length 1 sub [coupontext coupontextxoffset coupontextyoffset coupontextfont coupontextsize] put args (txt) newtxt put } { args (txt) [ [coupontext coupontextxoffset coupontextyoffset coupontextfont coupontextsize] ] put } ifelse } if args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /gs1northamericancoupon dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER gs1northamericancoupon-- % --BEGIN ENCODER pharmacode-- % --REQUIRES preamble raiseerror renlinear-- % --DESC: Pharmaceutical Binary Code % --EXAM: 117480 % --EXOP: showborder % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp pharmacode 0.0 2022082100 55057 54908 %%BeginData: 94 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /pharmacode { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /height 8 2.835 mul 72 div def /nwidth 0.5 2.835 mul def /wwidth 1.5 2.835 mul def /swidth 1.0 2.835 mul def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /height height cvr def /nwidth nwidth cvr def /wwidth wwidth cvr def /swidth swidth cvr def % Validate the input barcode length 1 lt barcode length 6 gt or { /bwipp.pharmacodeBadLength (Pharmacode must be 1 to 6 digits) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.pharmacodeBadCharacter (Pharmacode must contain only digits) //raiseerror exec } if } forall barcode cvi dup 3 lt exch 131070 gt or { /bwipp.pharmacodeBadValue (Pharmacode value must be between 3 and 131070) //raiseerror exec } if % Create the human readable text /txt barcode length array def 0 1 barcode length 1 sub { /i exch def txt i [barcode i 1 getinterval 0 0 () 0] put } for % Convert the integer into the paramacode string /barcode barcode cvi 1 add 2 17 string cvrs def /barcode barcode 1 barcode length 1 sub getinterval def /barlen barcode length def % Length of the code /sbs barlen 2 mul array def 0 1 barlen 1 sub { /i exch def /enc barcode i 1 getinterval def enc (0) eq { sbs i 2 mul nwidth put } { sbs i 2 mul wwidth put } ifelse sbs i 2 mul 1 add swidth put } for % Return the arguments << /ren //renlinear /sbs sbs /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] /txt txt /textxalign (center) /opt options >> dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /pharmacode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER pharmacode-- % --BEGIN ENCODER pharmacode2-- % --REQUIRES preamble raiseerror renlinear-- % --DESC: Two-track Pharmacode % --EXAM: 117480 % --EXOP: includetext showborder % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp pharmacode2 0.0 2022082100 55888 55662 %%BeginData: 99 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /pharmacode2 { 20 dict begin /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /height 4 def % Height of short bars in millimetres % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /height height cvr def % Validate the input barcode length 1 lt barcode length 8 gt or { /bwipp.pharmacode2BadLength (Two-track Pharmacode must be 1 to 6 digits) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.pharmacode2badCharacter (Two-track Pharmacode must contain only digits) //raiseerror exec } if } forall barcode cvi dup 4 lt exch 64570080 gt or { /bwipp.pharmacode2badValue (Two-track Pharmacode value must be between 4 and 64570080) //raiseerror exec } if % Create the human readable text /txt barcode length array def 0 1 barcode length 1 sub { /i exch def txt i [barcode i 1 getinterval 0 0 () 0] put } for /encstr 16 string def /sbs 32 array def /bar 1 25.4 div height mul def % bar height (mm) /spc 1 25.4 div 72 mul def % bar width & spacing (1mm) % Convert number into a base3 representation /i 15 def /val barcode cvi def { % loop val 0 eq {exit} if val 3 mod dup [3 1 2] exch get val exch sub 3 idiv /val exch def encstr i [2 0 1] 4 -1 roll get put /i i 1 sub def } loop /encstr encstr i 1 add 15 i sub getinterval def % Generate the bar pattern /bhs encstr length array def /bbs encstr length array def 0 1 encstr length 1 sub { /i exch def encstr i get dup bhs i bar [1 1 2] 5 -1 roll get mul put bbs i [0 bar 0] 4 -1 roll get put } for % Return the arguments << /ren //renlinear /bhs bhs /bbs bbs /sbs [encstr length 2 mul {spc} repeat] /txt txt /textxalign (center) /textyoffset 4 /opt options >> dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /pharmacode2 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER pharmacode2-- % --BEGIN ENCODER code2of5-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: Code 25 % --EXAM: 01234567 % --EXOP: includetext includecheck includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp code2of5 0.0 2022082100 73003 69031 %%BeginData: 165 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /code2of5 { 20 dict begin % Confine variable to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includecheck false def /validatecheck false def /includetext false def % Enable/disable text /includecheckintext false def /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 1 def /version (industrial) def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /code2of5 //loadctx exec % Validate input barcode { dup 48 lt exch 57 gt or { /bwipp.code2of5badCharacter (Code 25 must contain only digits) //raiseerror exec } if } forall /barlen barcode length validatecheck {1 sub} if def /checksum 0 def 0 1 barlen 1 sub { /i exch def /checksum checksum barcode i get 48 sub barlen i sub 2 mod 0 ne {3 mul} if add def } for /checksum 10 checksum 10 mod sub 10 mod def validatecheck { barcode barlen get checksum 48 add ne { /bwipp.code2of5badCheckDigit (Incorrect Code 25 check digit provided) //raiseerror exec } if /barcode barcode 0 barlen getinterval def /includecheck true def } if % Create an array containing the character mappings { /versions << /industrial [ (1111313111) (3111111131) (1131111131) (3131111111) (1111311131) (3111311111) (1131311111) (1111113131) (3111113111) (1131113111) (313111) (31113) ] /iata [ (1111313111) (3111111131) (1131111131) (3131111111) (1111311131) (3111311111) (1131311111) (1111113131) (3111113111) (1131113111) (1111) (311) ] /matrix [ (113311) (311131) (131131) (331111) (113131) (313111) (133111) (111331) (311311) (131311) (311111) (31111) ] /coop [ (331111) (111331) (113131) (113311) (131131) (131311) (133111) (311131) (311311) (313111) (3131) (133) ] /datalogic [ (113311) (311131) (131131) (331111) (113131) (313111) (133111) (111331) (311311) (131311) (1111) (311) ] >> def } ctxdef versions version known not { /bwipp.code2of5badVersion (Unrecognised Code 25 version) //raiseerror exec } if /encs versions version get def /cs encs 0 get length def /cw 0 encs 0 get {48 sub add} forall def /ss encs 10 get length def /sw 0 encs 10 get {48 sub add} forall def /es encs 11 get length def % Create a string of the available characters { /barchars (0123456789) def } ctxdef /sbs barlen includecheck {1 add} if cs mul ss add es add string def /txt barlen includecheck {1 add} if array def % Put the start character sbs 0 encs 10 get putinterval 0 1 barlen 1 sub { /i exch def % Lookup the encoding for the each barcode character barcode i 1 getinterval barchars exch search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard seek and post /enc encs indx get def % Get the indxth encoding sbs i cs mul ss add enc putinterval % Put encoded digit into sbs txt i [barcode i 1 getinterval i cw mul sw add textyoffset textfont textsize] put } for % Put the checksum and end characters includecheck { sbs barlen cs mul ss add encs checksum get putinterval sbs barlen cs mul cs add ss add encs 11 get putinterval includecheckintext { txt barlen [barchars checksum 1 getinterval barlen cw mul sw add textyoffset textfont textsize] put } { txt barlen [( ) barlen cw mul sw add textyoffset textfont textsize] put } ifelse } { sbs barlen cs mul ss add encs 11 get putinterval } ifelse % Return the arguments << /ren //renlinear /sbs [sbs {48 sub} forall] /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] includetext { /txt txt } if /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /code2of5 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER code2of5-- % --BEGIN ENCODER industrial2of5-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear code2of5-- % --DESC: Industrial 2 of 5 % --EXAM: 01234567 % --EXOP: includetext includecheck includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp industrial2of5 0.0 2022082100 57292 60792 %%BeginData: 58 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /code2of5 dup /uk.co.terryburton.bwipp findresource put begin /industrial2of5 { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textxoffset 0 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def % Get the result of encoding with code2of5 with version=industrial options (dontdraw) true put options (version) (industrial) put /args barcode options //code2of5 exec def args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /industrial2of5 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER industrial2of5-- % --BEGIN ENCODER iata2of5-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear code2of5-- % --DESC: IATA 2 of 5 % --EXAM: 01234567 % --EXOP: includetext includecheck includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp iata2of5 0.0 2022082100 57262 60768 %%BeginData: 58 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /code2of5 dup /uk.co.terryburton.bwipp findresource put begin /iata2of5 { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textxoffset 0 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def % Get the result of encoding with code2of5 with version=iata options (dontdraw) true put options (version) (iata) put /args barcode options //code2of5 exec def args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /iata2of5 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER iata2of5-- % --BEGIN ENCODER matrix2of5-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear code2of5-- % --DESC: Matrix 2 of 5 % --EXAM: 01234567 % --EXOP: includetext includecheck includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp matrix2of5 0.0 2022082100 57272 60776 %%BeginData: 58 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /code2of5 dup /uk.co.terryburton.bwipp findresource put begin /matrix2of5 { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textxoffset 0 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def % Get the result of encoding with code2of5 with version=matrix options (dontdraw) true put options (version) (matrix) put /args barcode options //code2of5 exec def args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /matrix2of5 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER matrix2of5-- % --BEGIN ENCODER coop2of5-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear code2of5-- % --DESC: COOP 2 of 5 % --EXAM: 01234567 % --EXOP: includetext includecheck includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp coop2of5 0.0 2022082100 57262 60768 %%BeginData: 58 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /code2of5 dup /uk.co.terryburton.bwipp findresource put begin /coop2of5 { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textxoffset 0 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def % Get the result of encoding with code2of5 with version=coop options (dontdraw) true put options (version) (coop) put /args barcode options //code2of5 exec def args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /coop2of5 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER coop2of5-- % --BEGIN ENCODER datalogic2of5-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear code2of5-- % --DESC: Datalogic 2 of 5 % --EXAM: 01234567 % --EXOP: includetext includecheck includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp datalogic2of5 0.0 2022082100 57287 60788 %%BeginData: 58 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /code2of5 dup /uk.co.terryburton.bwipp findresource put begin /datalogic2of5 { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textxoffset 0 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def % Get the result of encoding with code2of5 with version=datalogic options (dontdraw) true put options (version) (datalogic) put /args barcode options //code2of5 exec def args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /datalogic2of5 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER datalogic2of5-- % --BEGIN ENCODER code11-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: Code 11 % --EXAM: 0123456789 % --EXOP: includetext includecheck includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp code11 0.0 2022082100 74329 70384 %%BeginData: 169 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /code11 { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includecheck false def /validatecheck false def /includetext false def /includecheckintext false def /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /code11 //loadctx exec % Create an array containing the character mappings { /encs [ (111131) (311131) (131131) (331111) (113131) (313111) (133111) (111331) (311311) (311111) (113111) (113311) ] def % Create a string of the available characters /barchars (0123456789-) def /charvals 11 dict def 0 1 10 {charvals exch dup barchars exch 1 getinterval exch put} for } ctxdef % Validate the input 0 1 barcode length 1 sub { barcode exch 1 getinterval charvals exch known not { /bwipp.code11badCharacter (Code 11 must contain only digits and dashes) //raiseerror exec } if } for /barlen barcode length def validatecheck { barlen 11 eq { /bwipp.code11badLength (Code 11 cannot be 11 characters using check digits) //raiseerror exec } if /barlen barlen barlen 10 le {1} {2} ifelse sub def } if /numchecks includecheck validatecheck or {barlen 10 ge {2} {1} ifelse} {0} ifelse def /checksum1 0 def /checksum2 0 def 0 1 barlen 1 sub { /i exch def /indx charvals barcode i 1 getinterval get def /checksum1 checksum1 barlen i sub 1 sub 10 mod 1 add indx mul add def /checksum2 checksum2 barlen i sub 9 mod 1 add indx mul add def } for /checksum1 checksum1 11 mod def /checksum2 checksum2 checksum1 add 11 mod def validatecheck { numchecks 1 eq { barcode barlen get barchars checksum1 get ne { /bwipp.code11badCheckDigit (Incorrect Code 11 check digit provided) //raiseerror exec } if } { barcode barlen get barchars checksum1 get ne barcode barlen 1 add get barchars checksum2 get ne or { /bwipp.code11badCheckDigits (Incorrect Code 11 check digits provided) //raiseerror exec } if } ifelse /barcode barcode 0 barlen getinterval def /includecheck true def } if /sbs barlen numchecks add 6 mul 12 add string def /txt barlen numchecks add array def % Put the start character sbs 0 encs 11 get putinterval /xpos 8 def 0 1 barlen 1 sub { /i exch def /indx charvals barcode i 1 getinterval get def /enc encs indx get def sbs i 6 mul 6 add enc putinterval txt i [barcode i 1 getinterval xpos textyoffset textfont textsize] put 0 1 5 { % xpos+=width of the character /xpos exch enc exch get 48 sub xpos add def } for } for % Put the checksum and end characters includecheck { barlen 10 ge { sbs barlen 6 mul 6 add encs checksum1 get putinterval sbs barlen 6 mul 12 add encs checksum2 get putinterval includecheckintext { txt barlen [barchars checksum1 1 getinterval xpos textyoffset textfont textsize] put /enc encs checksum1 get def 0 1 5 { % xpos+=width of the character /xpos exch enc exch get 48 sub xpos add def } for txt barlen 1 add [barchars checksum2 1 getinterval xpos textyoffset textfont textsize] put } { txt barlen [() xpos textyoffset textfont textsize] put txt barlen 1 add [() xpos textyoffset textfont textsize] put } ifelse sbs barlen 6 mul 18 add encs 11 get putinterval } { sbs barlen 6 mul 6 add encs checksum1 get putinterval includecheckintext { txt barlen [barchars checksum1 1 getinterval xpos textyoffset textfont textsize] put } { txt barlen [() xpos textyoffset textfont textsize] put } ifelse sbs barlen 6 mul 12 add encs 11 get putinterval } ifelse } { sbs barlen 6 mul 6 add encs 11 get putinterval } ifelse % Return the arguments << /ren //renlinear /sbs [sbs {48 sub} forall] /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] includetext { /txt txt } if /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /code11 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER code11-- % --BEGIN ENCODER bc412-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: BC412 % --EXAM: BC412 % --EXOP: semi includetext includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp bc412 0.0 2022082100 75365 71341 %%BeginData: 203 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /bc412 { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includecheck false def /validatecheck false def /includetext false def /includecheckintext false def /includestartstop false def /semi false def /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def semi { % Implies includecheck and includecheckintext also /includestartstop true def } if /bc412 //loadctx exec % Create a string of the available characters { /barchars (0R9GLVHA8EZ4NTS1J2Q6C7DYKBUIX3FWP5M) def /charvals 35 dict def 0 1 34 {charvals exch dup barchars exch 1 getinterval exch put} for } ctxdef % Validate the input 0 1 barcode length 1 sub { barcode exch 1 getinterval charvals exch known not { /bwipp.bc412badCharacter (BC412 must contain only digits and capital letters except O) //raiseerror exec } if } for semi { % Validate length validatecheck { barcode length 8 lt barcode length 19 gt or { /bwipp.bc412semivalidateBadLength (BC412 semi with check digit must be 8 to 19 characters long) //raiseerror exec } if } { barcode length 7 lt barcode length 18 gt or { /bwipp.bc412semiBadLength (BC412 semi must be 7 to 18 characters long) //raiseerror exec } if } ifelse /barlen barcode length def validatecheck not { % Place dummy (0) in checksum position (1-based 2nd) /barlen barlen 1 add def /sbarcode barlen string def sbarcode 0 barcode 0 get put sbarcode 1 48 put % (0) sbarcode 2 barcode 1 barlen 2 sub getinterval putinterval /barcode sbarcode def } if /sumodd 0 def /sumeven 0 def 0 1 barlen 1 sub { /i exch def barcode i 1 getinterval charvals exch get i 2 mod 0 eq { % 1-based odd sumodd add /sumodd exch def } { sumeven add /sumeven exch def } ifelse } for /checksum sumodd 35 mod sumeven 35 mod 2 mul add 35 mod def % F = Mod35( Mod35( Fodd ) + 2 * Mod35( Feven ) ) validatecheck { checksum 0 ne { /bwipp.bc412semiBadCheckDigit (Incorrect BC412 semi check digit provided) //raiseerror exec } if } { /checksum checksum 17 mul 35 mod def % CD = Mod35( 17 * F ) barcode 1 barchars checksum get put } ifelse } { /barlen barcode length validatecheck {1 sub} if def /checksum 0 def 0 1 barlen 1 sub { barcode exch 1 getinterval charvals exch get checksum add /checksum exch def } for /checksum checksum 35 mod def validatecheck { barcode barlen get barchars checksum get ne { /bwipp.bc412badCheckDigit (Incorrect BC412 check digit provided) //raiseerror exec } if /barcode barcode 0 barlen getinterval def /includecheck true def } if } ifelse % Create an array containing the character mappings { /encs [ (11111115) (13111212) (11131113) (12111213) (12121311) % 0R9GL (13131111) (12111312) (11131212) (11121411) (11151111) % VHA8E (15111111) (11111511) (12131211) (13121112) (13111311) % Z4NTS (11111214) (12121113) (11111313) (13111113) (11121213) % 1J2Q6 (11141112) (11121312) (11141211) (14121111) (12121212) % C7DYK (11131311) (13121211) (12111411) (14111211) (11111412) % BUIX3 (12111114) (14111112) (12141111) (11121114) (12131112) % FWP5M (12) (111) % Start Stop ] def } ctxdef /sbs barlen 1 add 8 mul 5 add string def includecheck { /txt barlen 1 add array def } { /txt barlen array def } ifelse % Put the start character includestartstop { sbs 0 encs 35 get putinterval /pos 2 def /txtpos 3 def } { /pos 0 def /txtpos 0 def } ifelse 0 1 barlen 1 sub { /i exch def /indx charvals barcode i 1 getinterval get def sbs pos encs indx get putinterval txt i [barcode i 1 getinterval i 12 mul txtpos add textyoffset textfont textsize] put /pos pos 8 add def } for % Put the checksum includecheck { sbs pos encs checksum get putinterval includecheckintext { txt barlen [barchars checksum 1 getinterval barlen 12 mul txtpos add textyoffset textfont textsize] put } { txt barlen [() barlen 12 mul txtpos add textyoffset textfont textsize] put } ifelse /pos pos 8 add def } if % Put the stop character includestartstop { sbs pos encs 36 get putinterval /pos pos 3 add def } if % Return the arguments /sbs sbs 0 pos getinterval def << /ren //renlinear /sbs [sbs {48 sub} forall] /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] includetext { /txt txt } if /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /bc412 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER bc412-- % --BEGIN ENCODER rationalizedCodabar-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: Codabar % --EXAM: A0123456789B % --EXOP: includetext includecheck includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp rationalizedCodabar 0.0 2022082100 75010 71044 %%BeginData: 167 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /rationalizedCodabar { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /altstartstop false def /includecheck false def % Enable/disable checkdigit /validatecheck false def /includetext false def % Enable/disable text /includecheckintext false def /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /rationalizedCodabar //loadctx exec { % Create an array containing the character mappings /encs [ (11111331) (11113311) (11131131) (33111111) (11311311) (31111311) (13111131) (13113111) (13311111) (31131111) (11133111) (11331111) (31113131) (31311131) (31313111) (11313131) (11331311) (13131131) (11131331) (11133311) ] def % Create a string of the available characters /barcharsnormal (0123456789-$:/.+ABCD) def /barcharsalt (0123456789-$:/.+TN*E) def } ctxdef /barchars altstartstop {barcharsalt} {barcharsnormal} ifelse def /charvals 20 dict def 0 1 19 {charvals exch dup barchars exch 1 getinterval exch put} for /bodyvals 16 dict def 0 1 15 {bodyvals exch dup barchars exch 1 getinterval exch put} for /ssvals 4 dict def 16 1 19 {ssvals exch dup barchars exch 1 getinterval exch put} for % Validate the input barcode 0 1 getinterval ssvals exch known not barcode barcode length 1 sub 1 getinterval ssvals exch known not or { altstartstop { /bwipp.rationalizedCodabarBadAltStartStop (Codabar start and stop characters must be one of E N T or *) //raiseerror exec } { /bwipp.rationalizedCodabarBadStartStop (Codabar start and stop characters must be one of A B C or D) //raiseerror exec } ifelse } if 1 1 barcode length 2 sub { barcode exch 1 getinterval bodyvals exch known not { /bwipp.rationalizedCodabarBadCharacter (Codabar body must contain only digits and symbols - $ : / . +) //raiseerror exec } if } for /barlen barcode length validatecheck {1 sub} if def /checksum 0 def 0 1 barlen 2 sub { barcode exch 1 getinterval charvals exch get checksum add /checksum exch def } for barcode barcode length 1 sub 1 getinterval charvals exch get checksum add /checksum exch def /checksum 16 checksum 16 mod sub 16 mod def validatecheck { barcode barlen 1 sub get barchars checksum get ne { /bwipp.rationalizedCodabarBadCheckDigit (Incorrect Codabar check digit provided) //raiseerror exec } if barlen string dup 0 barcode 0 barlen 1 sub getinterval putinterval dup barlen 1 sub barcode barlen 1 getinterval putinterval /barcode exch def /includecheck true def } if /sbs barlen includecheck {1 add} if 8 mul string def /txt barlen includecheck {1 add} if array def /xpos 0 def 0 1 barlen 2 sub { /i exch def /indx charvals barcode i 1 getinterval get def /enc encs indx get def sbs i 8 mul enc putinterval % Put encoded digit into sbs txt i [barcode i 1 getinterval xpos textyoffset textfont textsize] put 0 1 7 { % xpos+=width of the character /xpos exch enc exch get 48 sub xpos add def } for } for % Put the checksum character and stop character includecheck { % Put the checksum character sbs barlen 8 mul 8 sub encs checksum get putinterval includecheckintext { txt barlen 1 sub [barchars checksum 1 getinterval xpos textyoffset textfont textsize] put } { txt barlen 1 sub [( ) xpos textyoffset textfont textsize] put } ifelse 0 1 7 { % xpos+=width of the character /xpos exch encs checksum get exch get 48 sub xpos add def } for % Put the end character /indx charvals barcode barlen 1 sub 1 getinterval get def /enc encs indx get def % Get the indxth encoding sbs barlen 8 mul enc putinterval % Put encoded digit into sbs txt barlen [barcode barlen 1 sub 1 getinterval xpos textyoffset textfont textsize] put } { % Put the end character /indx charvals barcode barlen 1 sub 1 getinterval get def /enc encs indx get def % Get the indxth encoding sbs barlen 8 mul 8 sub enc putinterval % Put encoded digit into sbs txt barlen 1 sub [barcode barlen 1 sub 1 getinterval xpos textyoffset textfont textsize] put } ifelse % Return the arguments << /ren //renlinear /sbs [sbs {48 sub} forall] /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] includetext { /txt txt } if /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /rationalizedCodabar dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER rationalizedCodabar-- % --BEGIN ENCODER onecode-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: USPS Intelligent Mail % --EXAM: 0123456709498765432101234567891 % --EXOP: barcolor=FF0000 % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp onecode 0.0 2022082100 108651 104892 %%BeginData: 348 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /onecode { 20 dict begin /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /height 0.15 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /height height cvr def /onecode //loadctx exec /barlen barcode length def % Create the human readable text /txtdict << 2 dup 5 dup barcode 5 1 getinterval (9) eq {14} {11} ifelse dup 20 dup 25 dup 29 dup >> def /txt barlen 6 add array def /spacecnt 0 def 0 1 barlen 1 sub { /i exch def txtdict i known { txt i spacecnt add [( ) 0 0 () 0] put /spacecnt spacecnt 1 add def } if txt i spacecnt add [barcode i 1 getinterval 0 0 () 0] put } for /txt txt 0 barcode length spacecnt add getinterval def /normalize { /base exch def /num exch def num length 1 sub -1 1 { /i exch def num i 1 sub 2 copy get num i get base idiv add put num i num i get base mod put } for { %loop - extend input as necessary num 0 get base lt {exit} if /num [0 num {} forall] def num 0 num 0 get num 1 get base idiv add put num 1 num 1 get base mod put } loop % Trim leading zeros /num [/i true def num {dup 0 eq i and {pop} {/i false def} ifelse} forall] def num length 0 eq {/num [0] def} if num } def /bigadd { 2 copy length exch length 2 copy sub abs /offset exch def lt {exch} if /a exch def /b exch def 0 1 b length 1 sub { dup a exch offset add 2 copy get b 5 -1 roll get add put } for a } def % Conversion of data fields into binary data barlen 20 eq {[0]} if barlen 25 eq {[1]} if barlen 29 eq {[1 0 0 0 0 1]} if barlen 31 eq {[1 0 0 0 1 0 0 0 0 1]} if /binval exch [barcode 20 barlen 20 sub getinterval {48 sub} forall] bigadd def /binval [binval {} forall barcode 0 get 48 sub] def /binval [binval {5 mul} forall] [barcode 1 get 48 sub] bigadd 10 normalize def /binval [binval {} forall barcode 2 18 getinterval {48 sub} forall] def % Conversion of binary data into byte array /bytes 13 array def /bintmp [binval {} forall] def 12 -1 0 { /i exch def 0 1 bintmp length 2 sub { /j exch def bintmp j 1 add 2 copy get bintmp j get 256 mod 10 mul add put bintmp j bintmp j get 256 idiv put } for bytes i bintmp bintmp length 1 sub get 256 mod put bintmp bintmp length 1 sub 2 copy get 256 idiv put } for % Generation of 11-bit CRC on byte array /fcs 2047 def /dat bytes 0 get 5 bitshift def 6 { fcs dat xor 1024 and 0 ne { /fcs fcs 1 bitshift 3893 xor def } { /fcs fcs 1 bitshift def } ifelse /fcs fcs 2047 and def /dat dat 1 bitshift def } repeat 1 1 12 { bytes exch get 3 bitshift /dat exch def 8 { fcs dat xor 1024 and 0 ne { /fcs fcs 1 bitshift 3893 xor def } { /fcs fcs 1 bitshift def } ifelse /fcs fcs 2047 and def /dat dat 1 bitshift def } repeat } for % Conversion from binary data to codewords /codewords 10 array def 9 -1 0 { /i exch def i 9 eq { /b 636 def } { /b 1365 def } ifelse 0 1 binval length 2 sub { /j exch def binval j 1 add 2 copy get binval j get b mod 10 mul add put binval j binval j get b idiv put } for codewords i binval binval length 1 sub get b mod put binval binval length 1 sub 2 copy get b idiv put } for % Inserting additional information into codewords codewords 9 codewords 9 get 2 mul put fcs 1024 and 0 ne { codewords 0 codewords 0 get 659 add put } if % Conversion from codewords to characters { /tab513 [ 31 7936 47 7808 55 7552 59 7040 61 6016 62 3968 79 7744 87 7488 91 6976 93 5952 94 3904 103 7360 107 6848 109 5824 110 3776 115 6592 117 5568 118 3520 121 5056 122 3008 124 1984 143 7712 151 7456 155 6944 157 5920 158 3872 167 7328 171 6816 173 5792 174 3744 179 6560 181 5536 182 3488 185 5024 186 2976 188 1952 199 7264 203 6752 205 5728 206 3680 211 6496 213 5472 214 3424 217 4960 218 2912 220 1888 227 6368 229 5344 230 3296 233 4832 234 2784 236 1760 241 4576 242 2528 244 1504 248 992 271 7696 279 7440 283 6928 285 5904 286 3856 295 7312 299 6800 301 5776 302 3728 307 6544 309 5520 310 3472 313 5008 314 2960 316 1936 327 7248 331 6736 333 5712 334 3664 339 6480 341 5456 342 3408 345 4944 346 2896 348 1872 355 6352 357 5328 358 3280 361 4816 362 2768 364 1744 369 4560 370 2512 372 1488 376 976 391 7216 395 6704 397 5680 398 3632 403 6448 405 5424 406 3376 409 4912 410 2864 412 1840 419 6320 421 5296 422 3248 425 4784 426 2736 428 1712 433 4528 434 2480 436 1456 440 944 451 6256 453 5232 454 3184 457 4720 458 2672 460 1648 465 4464 466 2416 468 1392 472 880 481 4336 482 2288 484 1264 488 752 527 7688 535 7432 539 6920 541 5896 542 3848 551 7304 555 6792 557 5768 558 3720 563 6536 565 5512 566 3464 569 5000 570 2952 572 1928 583 7240 587 6728 589 5704 590 3656 595 6472 597 5448 598 3400 601 4936 602 2888 604 1864 611 6344 613 5320 614 3272 617 4808 618 2760 620 1736 625 4552 626 2504 628 1480 632 968 647 7208 651 6696 653 5672 654 3624 659 6440 661 5416 662 3368 665 4904 666 2856 668 1832 675 6312 677 5288 678 3240 681 4776 682 2728 684 1704 689 4520 690 2472 692 1448 696 936 707 6248 709 5224 710 3176 713 4712 714 2664 716 1640 721 4456 722 2408 724 1384 728 872 737 4328 738 2280 740 1256 775 7192 779 6680 781 5656 782 3608 787 6424 789 5400 790 3352 793 4888 794 2840 796 1816 803 6296 805 5272 806 3224 809 4760 810 2712 812 1688 817 4504 818 2456 820 1432 824 920 835 6232 837 5208 838 3160 841 4696 842 2648 844 1624 849 4440 850 2392 852 1368 865 4312 866 2264 868 1240 899 6200 901 5176 902 3128 905 4664 906 2616 908 1592 913 4408 914 2360 916 1336 929 4280 930 2232 932 1208 961 4216 962 2168 964 1144 1039 7684 1047 7428 1051 6916 1053 5892 1054 3844 1063 7300 1067 6788 1069 5764 1070 3716 1075 6532 1077 5508 1078 3460 1081 4996 1082 2948 1084 1924 1095 7236 1099 6724 1101 5700 1102 3652 1107 6468 1109 5444 1110 3396 1113 4932 1114 2884 1116 1860 1123 6340 1125 5316 1126 3268 1129 4804 1130 2756 1132 1732 1137 4548 1138 2500 1140 1476 1159 7204 1163 6692 1165 5668 1166 3620 1171 6436 1173 5412 1174 3364 1177 4900 1178 2852 1180 1828 1187 6308 1189 5284 1190 3236 1193 4772 1194 2724 1196 1700 1201 4516 1202 2468 1204 1444 1219 6244 1221 5220 1222 3172 1225 4708 1226 2660 1228 1636 1233 4452 1234 2404 1236 1380 1249 4324 1250 2276 1287 7188 1291 6676 1293 5652 1294 3604 1299 6420 1301 5396 1302 3348 1305 4884 1306 2836 1308 1812 1315 6292 1317 5268 1318 3220 1321 4756 1322 2708 1324 1684 1329 4500 1330 2452 1332 1428 1347 6228 1349 5204 1350 3156 1353 4692 1354 2644 1356 1620 1361 4436 1362 2388 1377 4308 1378 2260 1411 6196 1413 5172 1414 3124 1417 4660 1418 2612 1420 1588 1425 4404 1426 2356 1441 4276 1442 2228 1473 4212 1474 2164 1543 7180 1547 6668 1549 5644 1550 3596 1555 6412 1557 5388 1558 3340 1561 4876 1562 2828 1564 1804 1571 6284 1573 5260 1574 3212 1577 4748 1578 2700 1580 1676 1585 4492 1586 2444 1603 6220 1605 5196 1606 3148 1609 4684 1610 2636 1617 4428 1618 2380 1633 4300 1634 2252 1667 6188 1669 5164 1670 3116 1673 4652 1674 2604 1681 4396 1682 2348 1697 4268 1698 2220 1729 4204 1730 2156 1795 6172 1797 5148 1798 3100 1801 4636 1802 2588 1809 4380 1810 2332 1825 4252 1826 2204 1857 4188 1858 2140 1921 4156 1922 2108 2063 7682 2071 7426 2075 6914 2077 5890 2078 3842 2087 7298 2091 6786 2093 5762 2094 3714 2099 6530 2101 5506 2102 3458 2105 4994 2106 2946 2119 7234 2123 6722 2125 5698 2126 3650 2131 6466 2133 5442 2134 3394 2137 4930 2138 2882 2147 6338 2149 5314 2150 3266 2153 4802 2154 2754 2161 4546 2162 2498 2183 7202 2187 6690 2189 5666 2190 3618 2195 6434 2197 5410 2198 3362 2201 4898 2202 2850 2211 6306 2213 5282 2214 3234 2217 4770 2218 2722 2225 4514 2226 2466 2243 6242 2245 5218 2246 3170 2249 4706 2250 2658 2257 4450 2258 2402 2273 4322 2311 7186 2315 6674 2317 5650 2318 3602 2323 6418 2325 5394 2326 3346 2329 4882 2330 2834 2339 6290 2341 5266 2342 3218 2345 4754 2346 2706 2353 4498 2354 2450 2371 6226 2373 5202 2374 3154 2377 4690 2378 2642 2385 4434 2401 4306 2435 6194 2437 5170 2438 3122 2441 4658 2442 2610 2449 4402 2465 4274 2497 4210 2567 7178 2571 6666 2573 5642 2574 3594 2579 6410 2581 5386 2582 3338 2585 4874 2586 2826 2595 6282 2597 5258 2598 3210 2601 4746 2602 2698 2609 4490 2627 6218 2629 5194 2630 3146 2633 4682 2641 4426 2657 4298 2691 6186 2693 5162 2694 3114 2697 4650 2705 4394 2721 4266 2753 4202 2819 6170 2821 5146 2822 3098 2825 4634 2833 4378 2849 4250 2881 4186 2945 4154 3079 7174 3083 6662 3085 5638 3086 3590 3091 6406 3093 5382 3094 3334 3097 4870 3107 6278 3109 5254 3110 3206 3113 4742 3121 4486 3139 6214 3141 5190 3145 4678 3153 4422 3169 4294 3203 6182 3205 5158 3209 4646 3217 4390 3233 4262 3265 4198 3331 6166 3333 5142 3337 4630 3345 4374 3361 4246 3393 4182 3457 4150 3587 6158 3589 5134 3593 4622 3601 4366 3617 4238 3649 4174 3713 4142 3841 4126 4111 7681 4119 7425 4123 6913 4125 5889 4135 7297 4139 6785 4141 5761 4147 6529 4149 5505 4153 4993 4167 7233 4171 6721 4173 5697 4179 6465 4181 5441 4185 4929 4195 6337 4197 5313 4201 4801 4209 4545 4231 7201 4235 6689 4237 5665 4243 6433 4245 5409 4249 4897 4259 6305 4261 5281 4265 4769 4273 4513 4291 6241 4293 5217 4297 4705 4305 4449 4359 7185 4363 6673 4365 5649 4371 6417 4373 5393 4377 4881 4387 6289 4389 5265 4393 4753 4401 4497 4419 6225 4421 5201 4425 4689 4483 6193 4485 5169 4489 4657 4615 7177 4619 6665 4621 5641 4627 6409 4629 5385 4633 4873 4643 6281 4645 5257 4649 4745 4675 6217 4677 5193 4739 6185 4741 5161 4867 6169 4869 5145 5127 7173 5131 6661 5133 5637 5139 6405 5141 5381 5155 6277 5157 5253 5187 6213 5251 6181 5379 6165 5635 6157 6151 7171 6155 6659 6163 6403 6179 6275 6211 5189 4681 4433 4321 3142 2634 2386 2274 1612 1364 1252 856 744 496 ] def /tab213 [ 3 6144 5 5120 6 3072 9 4608 10 2560 12 1536 17 4352 18 2304 20 1280 24 768 33 4224 34 2176 36 1152 40 640 48 384 65 4160 66 2112 68 1088 72 576 80 320 96 192 129 4128 130 2080 132 1056 136 544 144 288 257 4112 258 2064 260 1040 264 528 513 4104 514 2056 516 1032 1025 4100 1026 2052 2049 4098 4097 2050 1028 520 272 160 ] def } ctxdef /chars 10 array def 0 1 9 { /i exch def codewords i get dup 1286 le { tab513 exch get } { tab213 exch 1287 sub get } ifelse chars i 3 -1 roll put } for 9 -1 0 { /i exch def 2 i exp cvi fcs and 0 ne { chars i chars i get 8191 xor put } if } for % Conversion from characters to the OneCode encoding { /barmap [ 7 2 4 3 1 10 0 0 9 12 2 8 5 5 6 11 8 9 3 1 0 1 5 12 2 5 1 8 4 4 9 11 6 3 8 10 3 9 7 6 5 11 1 4 8 5 2 12 9 10 0 2 7 1 6 7 3 6 4 9 0 3 8 6 6 4 2 7 1 1 9 9 7 10 5 2 4 0 3 8 6 2 0 4 8 11 1 0 9 8 3 12 2 6 7 7 5 1 4 10 1 12 6 9 7 3 8 0 5 8 9 7 4 6 2 10 3 4 0 5 8 4 5 7 7 11 1 9 6 0 9 6 0 6 4 8 2 1 3 2 5 9 8 12 4 11 6 1 9 5 7 4 3 3 1 2 0 7 2 0 1 3 4 1 6 10 3 5 8 7 9 4 2 11 5 6 0 8 7 12 4 2 8 1 5 10 3 0 9 3 0 9 6 5 2 4 7 8 1 7 5 0 4 5 2 3 0 10 6 12 9 2 3 11 1 6 8 8 7 9 5 4 0 11 1 5 2 2 9 1 4 12 8 3 6 6 7 0 3 7 4 7 7 5 0 12 1 11 2 9 9 0 6 8 5 3 3 10 8 2 ] def } ctxdef /bbs 65 array def /bhs 65 array def 0 1 64 { /i exch def /dec chars barmap i 4 mul get get 2 barmap i 4 mul 1 add get exp cvi and 0 ne def /asc chars barmap i 4 mul 2 add get get 2 barmap i 4 mul 3 add get exp cvi and 0 ne def dec not asc not and { bbs i 3 height mul 8 div put bhs i 2 height mul 8 div put } if dec not asc and { bbs i 3 height mul 8 div put bhs i 5 height mul 8 div put } if dec asc not and { bbs i 0 height mul 8 div put bhs i 5 height mul 8 div put } if dec asc and { bbs i 0 height mul 8 div put bhs i 8 height mul 8 div put } if } for % Return the arguments << /ren //renlinear /bbs bbs /bhs bhs /sbs [bhs length 1 sub {1.44 1.872} repeat 1.44] /txt txt /textxalign (left) /textfont /Helvetica /textyoffset 1 /textxoffset -0.3 /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /onecode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER onecode-- % --BEGIN ENCODER postnet-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: USPS POSTNET % --EXAM: 01234 % --EXOP: includetext includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp postnet 0.0 2022082100 70644 66913 %%BeginData: 151 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /postnet { 20 dict begin /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /validatecheck false def /includecheckintext false def /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 0.125 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /postnet //loadctx exec /barlen barcode length validatecheck {1 sub} if def % Validate the input barlen 5 ne barlen 9 ne and barlen 11 ne and { /bwipp.postnetBadLength (USPS POSTNET must be 5, 9 or 11 digits excluding check digit) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.postnetBadCharacter (USPS POSTNET must contain only digits) //raiseerror exec } if } forall { % Create a string of the available characters /barchars (0123456789) def % Create an array containing the character mappings /encs [ (55222) (22255) (22525) (22552) (25225) (25252) (25522) (52225) (52252) (52522) (5) (5) ] def } ctxdef /checksum 0 def 0 1 barlen 1 sub { /i exch def /checksum checksum barcode i get 48 sub add def } for /checksum 10 checksum 10 mod sub 10 mod def validatecheck { barcode barlen get barchars checksum get ne { /bwipp.postnetBadCheckDigit (Incorrect USPS POSTNET check digit provided) //raiseerror exec } if /barcode barcode 0 barlen getinterval def } if /bhs barlen 5 mul 7 add array def /txt barlen 1 add array def % Put start character /enc encs 10 get def /heights enc length array def 0 1 enc length 1 sub { /j exch def heights j enc j 1 getinterval cvi height mul 5 div put } for bhs 0 heights putinterval % Put encoded digit into sbs 0 1 barlen 1 sub { /i exch def /enc encs barcode i get 48 sub get def /heights enc length array def 0 1 enc length 1 sub { /j exch def heights j enc j 1 getinterval cvi height mul 5 div put } for bhs i 5 mul 1 add heights putinterval % Put encoded digit into sbs txt i [barcode i 1 getinterval i 5 mul 1 add 3.312 mul textyoffset textfont textsize] put } for % Put the checksum character /enc encs checksum get def /heights enc length array def 0 1 enc length 1 sub { /j exch def heights j enc j 1 getinterval cvi height mul 5 div put } for bhs barlen 5 mul 1 add heights putinterval includecheckintext { txt barlen [barchars checksum 1 getinterval barlen 5 mul 1 add 3.312 mul textyoffset textfont textsize] put } { txt barlen [( ) barlen 5 mul 1 add 72 mul 25 div textyoffset textfont textsize] put } ifelse % Put end character /enc encs 11 get def /heights enc length array def 0 1 enc length 1 sub { /j exch def heights j enc j 1 getinterval cvi height mul 5 div put } for bhs barlen 5 mul 6 add heights putinterval % Return the arguments << /ren //renlinear /bhs bhs /bbs [bhs length {0} repeat] /sbs [bhs length 1 sub {1.44 1.872} repeat 1.44] includetext { /txt txt } if /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /postnet dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER postnet-- % --BEGIN ENCODER planet-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: USPS PLANET % --EXAM: 01234567890 % --EXOP: includetext includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp planet 0.0 2022082100 70504 66777 %%BeginData: 152 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /planet { 20 dict begin /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /validatecheck false def /includecheckintext false def /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 0.125 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /planet //loadctx exec /barlen barcode length validatecheck {1 sub} if def % Validate the input barlen 11 ne barlen 13 ne and { /bwipp.planetBadLength (USPS PLANET must be 11 or 13 digits excluding check digit) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.planetBadCharacter (USPS PLANET must contain only digits) //raiseerror exec } if } forall { % Create a string of the available characters /barchars (0123456789) def % Create an array containing the character mappings /encs [ (22555) (55522) (55252) (55225) (52552) (52525) (52255) (25552) (25525) (25255) (5) (5) ] def } ctxdef % Calculate the checksum /checksum 0 def 0 1 barlen 1 sub { /i exch def /checksum checksum barcode i get 48 sub add def } for /checksum 10 checksum 10 mod sub 10 mod def validatecheck { barcode barlen get barchars checksum get ne { /bwipp.planetBadCheckDigit (Incorrect USPS PLANET check digit provided) //raiseerror exec } if /barcode barcode 0 barlen getinterval def } if /bhs barlen 5 mul 7 add array def /txt barlen 1 add array def % Put start character /enc encs 10 get def /heights enc length array def 0 1 enc length 1 sub { /j exch def heights j enc j 1 getinterval cvi height mul 5 div put } for bhs 0 heights putinterval % Put encoded digit into sbs 0 1 barlen 1 sub { /i exch def /enc encs barcode i get 48 sub get def /heights enc length array def 0 1 enc length 1 sub { /j exch def heights j enc j 1 getinterval cvi height mul 5 div put } for bhs i 5 mul 1 add heights putinterval % Put encoded digit into sbs txt i [barcode i 1 getinterval i 5 mul 1 add 3.312 mul textyoffset textfont textsize] put } for % Put the checksum character /enc encs checksum get def /heights enc length array def 0 1 enc length 1 sub { /j exch def heights j enc j 1 getinterval cvi height mul 5 div put } for bhs barlen 5 mul 1 add heights putinterval includecheckintext { txt barlen [barchars checksum 1 getinterval barlen 5 mul 1 add 3.312 mul textyoffset textfont textsize] put } { txt barlen [( ) barlen 5 mul 1 add 72 mul 25 div textyoffset textfont textsize] put } ifelse % Put end character /enc encs 11 get def /heights enc length array def 0 1 enc length 1 sub { /j exch def heights j enc j 1 getinterval cvi height mul 5 div put } for bhs barlen 5 mul 6 add heights putinterval % Return the arguments << /ren //renlinear /bhs bhs /bbs [bhs length {0} repeat] /sbs [bhs length 1 sub {1.44 1.872} repeat 1.44] includetext { /txt txt } if /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /planet dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER planet-- % --BEGIN ENCODER royalmail-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: Royal Mail 4 State Customer Code % --EXAM: LE28HS9Z % --EXOP: includetext barcolor=FF0000 % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp royalmail 0.0 2022082100 71475 67703 %%BeginData: 156 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /royalmail { 20 dict begin /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /validatecheck false def /includecheckintext false def /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 0.175 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /royalmail //loadctx exec { % Create a string of the available characters /barchars (ZUVWXY501234B6789AHCDEFGNIJKLMTOPQRS) def /charvals 36 dict def 0 1 35 {charvals exch dup barchars exch 1 getinterval exch put} for % Create an array containing the character mappings /encs [ (3300) (2211) (2301) (2310) (3201) (3210) (1122) (0033) (0123) (0132) (1023) (1032) (1302) (0213) (0303) (0312) (1203) (1212) (1320) (0231) (0321) (0330) (1221) (1230) (3102) (2013) (2103) (2112) (3003) (3012) (3120) (2031) (2121) (2130) (3021) (3030) (2) (3) ] def } ctxdef % Validate the input 0 1 barcode length 1 sub { barcode exch 1 getinterval charvals exch known not { /bwipp.royalmailBadCharacter (RM4SCC must contain only capital letters and digits) //raiseerror exec } if } for /barlen barcode length validatecheck {1 sub} if def /checksumrow 0 def /checksumcol 0 def 0 1 barlen 1 sub { /i exch def /indx charvals barcode i 1 getinterval get def /checksumrow checksumrow indx 6 idiv add def /checksumcol checksumcol indx 6 mod add def } for /checksum checksumrow 6 mod 6 mul checksumcol 6 mod add def validatecheck { barcode barlen get barchars checksum get ne { /bwipp.royalmailBadCheckDigit (Incorrect RM4SCC check digit provided) //raiseerror exec } if /barcode barcode 0 barlen getinterval def } if /encstr barlen 4 mul 6 add string def /txt barlen 1 add array def % Put start character encstr 0 encs 36 get putinterval 0 1 barlen 1 sub { /i exch def /indx charvals barcode i 1 getinterval get def encstr i 4 mul 1 add encs indx get putinterval txt i [barcode i 1 getinterval i 4 mul 1 add 3.312 mul textyoffset textfont textsize] put } for % Put the checksum character encstr barlen 4 mul 1 add encs checksum get putinterval includecheckintext { txt barlen [barchars checksum 1 getinterval barlen 4 mul 1 add 3.312 mul textyoffset textfont textsize] put } { txt barlen [( ) barlen 4 mul 1 add 3.312 mul textyoffset textfont textsize] put } ifelse % Put end character encstr barlen 4 mul 5 add encs 37 get putinterval /bbs encstr length array def /bhs encstr length array def 0 1 encstr length 1 sub { /i exch def /enc encstr i 1 getinterval def enc (0) eq { bbs i 3 height mul 8 div put bhs i 2 height mul 8 div put } if enc (1) eq { bbs i 0 height mul 8 div put bhs i 5 height mul 8 div put } if enc (2) eq { bbs i 3 height mul 8 div put bhs i 5 height mul 8 div put } if enc (3) eq { bbs i 0 height mul 8 div put bhs i 8 height mul 8 div put } if } for % Return the arguments << /ren //renlinear /bbs bbs /bhs bhs /sbs [bhs length 1 sub {1.44 1.872} repeat 1.44] includetext { /txt txt } if /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /royalmail dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER royalmail-- % --BEGIN ENCODER auspost-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: AusPost 4 State Customer Code % --EXAM: 5956439111ABA 9 % --EXOP: includetext custinfoenc=character % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp auspost 0.0 2022082100 82406 78597 %%BeginData: 215 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /auspost { 20 dict begin /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 0.175 def /custinfoenc (character) def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /ausport //loadctx exec % Create an array containing the character mappings { /encs [ (000) (001) (002) (010) (011) (012) (020) (021) (022) (100) (101) (102) (110) (111) (112) (120) (121) (122) (200) (201) (202) (210) (211) (212) (220) (221) (222) (300) (301) (302) (310) (311) (312) (320) (321) (322) (023) (030) (031) (032) (033) (103) (113) (123) (130) (131) (132) (133) (203) (213) (223) (230) (231) (232) (233) (303) (313) (323) (330) (331) (332) (333) (003) (013) (00) (01) (02) (10) (11) (12) (20) (21) (22) (30) (13) (3) ] def % Create a string of the available characters /barchars (ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789abcdefghijklmnopqrstuvwxyz #) def } ctxdef /barlen barcode length def barcode 0 2 getinterval (11) eq {37} if barcode 0 2 getinterval (45) eq {37} if barcode 0 2 getinterval (59) eq {52} if barcode 0 2 getinterval (62) eq {67} if /encstr exch string def /txt barlen 2 sub array def % Put start character encstr 0 encs 74 get putinterval % Encode the FCC 0 1 1 { /i exch def encs barcode i 1 getinterval cvi 64 add get encstr i 2 mul 2 add 3 2 roll putinterval } for % Encode the DPID 2 1 9 { /i exch def encs barcode i 1 getinterval cvi 64 add get encstr i 2 mul 2 add 3 2 roll putinterval txt i 2 sub [barcode i 1 getinterval i 2 sub 2 mul 6 add 3.312 mul textyoffset textfont textsize] put } for % Encode the customer information custinfoenc (numeric) eq { 0 1 barlen 11 sub { /i exch def encs barcode i 10 add 1 getinterval cvi 64 add get encstr i 2 mul 22 add 3 2 roll putinterval txt i 8 add [barcode i 10 add 1 getinterval i 2 mul 22 add 3.312 mul textyoffset textfont textsize] put } for /ciflen barlen 10 sub 2 mul def } { 0 1 barlen 11 sub { /i exch def barcode i 10 add 1 getinterval barchars exch search pop length /indx exch def pop pop /enc encs indx get def encstr i 3 mul 22 add enc putinterval txt i 8 add [barcode i 10 add 1 getinterval i 3 mul 22 add 3.312 mul textyoffset textfont textsize] put } for /ciflen barlen 10 sub 3 mul def } ifelse % Add any filler characters 22 ciflen add 1 encstr length 14 sub { encstr exch encs 75 get putinterval } for % Create the 64x64 Reed-Solomon table { /rstable 64 64 mul array def rstable 0 [ 64 {0} repeat ] putinterval rstable 64 [ 0 1 63 {} for ] putinterval /prev 1 def 64 { /next prev 1 bitshift def next 64 and 0 ne { /next next 67 xor def } if 0 1 63 { /j exch def /nextcell {rstable 64 next mul j add} def nextcell rstable 64 prev mul j add get 1 bitshift put nextcell get 64 and 0 ne { nextcell nextcell get 67 xor put } if } for /prev next def } repeat } ctxdef % Calculate the Reed-Solomon codes for triples /rscodes encstr length 16 sub 3 idiv 4 add array def rscodes 0 [ 4 {0} repeat ] putinterval 2 3 encstr length 16 sub { /i exch def rscodes rscodes length i 2 sub 3 idiv sub 1 sub encstr i 1 getinterval cvi 16 mul encstr i 1 add 1 getinterval cvi 4 mul add encstr i 2 add 1 getinterval cvi add put } for rscodes length 5 sub -1 0 { /i exch def 0 1 4 { /j exch def rscodes i j add rscodes i j add get rstable 64 [48 17 29 30 1] j get mul rscodes i 4 add get add get xor put } for } for /checkcode (000000000000) 12 string copy def 0 1 3 { /i exch def /enc rscodes 3 i sub get 4 3 string cvrs def checkcode i 3 mul 3 enc length sub add enc putinterval } for % Put checkcode and end characters encstr encstr length 14 sub checkcode putinterval encstr encstr length 2 sub encs 74 get putinterval /bbs encstr length array def /bhs encstr length array def 0 1 encstr length 1 sub { /i exch def /enc encstr i 1 getinterval def enc (0) eq { bbs i 0 height mul 8 div put bhs i 8 height mul 8 div put } if enc (1) eq { bbs i 3 height mul 8 div put bhs i 5 height mul 8 div put } if enc (2) eq { bbs i 0 height mul 8 div put bhs i 5 height mul 8 div put } if enc (3) eq { bbs i 3 height mul 8 div put bhs i 2 height mul 8 div put } if } for % Return the arguments << /ren //renlinear /bbs bbs /bhs bhs /sbs [bhs length 1 sub {1.44 1.872} repeat 1.44] includetext { /txt txt } if /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /auspost dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER auspost-- % --BEGIN ENCODER kix-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: Royal Dutch TPG Post KIX % --EXAM: 1231FZ13XHS % --EXOP: includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp kix 0.0 2022082100 66705 63002 %%BeginData: 122 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /kix { 20 dict begin /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 0.175 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /kix //loadctx exec { % Create an array containing the character mappings /encs [ (0033) (0123) (0132) (1023) (1032) (1122) (0213) (0303) (0312) (1203) (1212) (1302) (0231) (0321) (0330) (1221) (1230) (1320) (2013) (2103) (2112) (3003) (3012) (3102) (2031) (2121) (2130) (3021) (3030) (3120) (2211) (2301) (2310) (3201) (3210) (3300) ] def % Create a string of the available characters /barchars (0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ) def /charvals 36 dict def 0 1 35 {charvals exch dup barchars exch 1 getinterval exch put} for } ctxdef % Validate the input 0 1 barcode length 1 sub { barcode exch 1 getinterval charvals exch known not { /bwipp.kixBadCharacter (KIX must contain only capital letters and digits) //raiseerror exec } if } for /barlen barcode length def /encstr barlen 4 mul string def /txt barlen array def 0 1 barlen 1 sub { /i exch def /indx charvals barcode i 1 getinterval get def encstr i 4 mul encs indx get putinterval txt i [barcode i 1 getinterval i 4 mul 3.312 mul textyoffset textfont textsize] put } for /bbs encstr length array def /bhs encstr length array def 0 1 encstr length 1 sub { /i exch def /enc encstr i 1 getinterval def enc (0) eq { bbs i 3 height mul 8 div put bhs i 2 height mul 8 div put } if enc (1) eq { bbs i 0 height mul 8 div put bhs i 5 height mul 8 div put } if enc (2) eq { bbs i 3 height mul 8 div put bhs i 5 height mul 8 div put } if enc (3) eq { bbs i 0 height mul 8 div put bhs i 8 height mul 8 div put } if } for % Return the arguments << /ren //renlinear /bbs bbs /bhs bhs /sbs [bhs length 1 sub {1.44 1.872} repeat 1.44] includetext { /txt txt } if /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /kix dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER kix-- % --BEGIN ENCODER japanpost-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: Japan Post 4 State Customer Code % --EXAM: 6540123789-A-K-Z % --EXOP: includetext includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp japanpost 0.0 2022082100 71516 67819 %%BeginData: 174 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /japanpost { 20 dict begin /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /includecheckintext false def /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 0.175 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /barlen barcode length def /japanpost //loadctx exec { % Create an array containing the character mappings % 0123456789- C1C2C3C4C5C6C7C8 ST EN /encs [ (300) (330) (312) (132) (321) (303) (123) (231) (213) (033) (030) (120) (102) (210) (012) (201) (021) (003) (333) (31) (13) ] def % Create a string of the available characters /barchars (0123456789-ABCDEFGHIJKLMNOPQRSTUVWXYZ) def } ctxdef /encstr 20 1 add 3 mul 4 add string def /digits 20 array def /txt barlen 1 add array def % Put start character encstr 0 encs 19 get putinterval /checksum 0 def /j 0 def /i 0 def 0 1 barlen 1 sub { /i exch def barcode i 1 getinterval barchars exch search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard match and post indx 11 ge indx 37 lt and { % Insert escape j 18 gt {exit} if % Should fit in 20 chars % 11-20: C1 (11) % 21-30: C2 (12) % 31-36: C3 (13) /digit indx 1 sub 10 idiv 10 add def encstr j 3 mul 2 add encs digit get putinterval /checksum checksum digit add def digits j digit put /j j 1 add def } if j 19 gt {exit} if % Should fit in 20 chars /digit 0 def indx 37 eq { /digit 14 def % space (C14) } if indx 11 ge indx 37 lt and { /digit indx 1 sub 10 mod def } if indx 11 lt { /digit indx def } if encstr j 3 mul 2 add encs digit get putinterval % space /checksum checksum digit add def digits j digit put txt i [barcode i 1 getinterval j 3 mul 2 add 3.312 mul textyoffset textfont textsize] put /j j 1 add def } for % Fill spaces (c14) at right end j 1 20 1 sub { /k exch def encstr k 3 mul 2 add encs 14 get putinterval /checksum checksum 14 add def digits k 14 put } for % Put the checksum character /checksum checksum 19 mod 19 exch sub def encstr 2 20 3 mul add encs checksum get putinterval % Put end character encstr 2 21 3 mul add encs 20 get putinterval /checkdigit ( ) def includecheckintext { /checkdigit barchars checksum 1 getinterval def } if txt i 1 add [ checkdigit 20 3 mul 2 add 3.312 mul textyoffset textfont textsize] put % Put end character encstr 20 1 add 3 mul 2 add encs 20 get putinterval /bbs 21 3 mul 4 add array def /bhs bbs length array def 0 1 bbs length 1 sub { /i exch def /enc encstr i 1 getinterval def /bunit 0 def /hunit 0 def enc (0) eq { /bunit 3 def /hunit 2 def } if enc (1) eq { /bunit 0 def /hunit 5 def } if enc (2) eq { /bunit 3 def /hunit 5 def } if enc (3) eq { /bunit 0 def /hunit 8 def } if bbs i bunit height mul 8 div put bhs i hunit height mul 8 div put } for % Return the arguments << /ren //renlinear /bbs bbs /bhs bhs /sbs [bhs length 1 sub {1.44 1.872} repeat 1.44] includetext { /txt txt } if /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /japanpost dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER japanpost-- % --BEGIN ENCODER msi-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: MSI Modified Plessey % --EXAM: 0123456789 % --EXOP: includetext includecheck includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp msi 0.0 2022082100 76335 72636 %%BeginData: 150 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /msi { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includecheck false def % Enable/disable checkdigit /includetext false def % Enable/disable text /includecheckintext false def /checktype (mod10) def /badmod11 false def /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /msi //loadctx exec { % Create an array containing the character mappings /encs [ (12121212) (12121221) (12122112) (12122121) (12211212) (12211221) (12212112) (12212121) (21121212) (21121221) (21) (121) ] def % Create a string of the available characters /barchars (0123456789) def } ctxdef /barlen barcode length def % Length of the code /txtlen barlen def /mod10 { /code exch def 0 0 code {48 sub exch 10 mul add exch} forall pop 2 mul 0 {1 index 10 mod add exch 10 idiv dup 0 eq {pop exit} if exch} loop 0 0 code {48 sub add exch} forall exch pop add 10 mod 10 exch sub 10 mod code length 1 add string dup 0 code putinterval dup code length 4 -1 roll 48 add put } def /mod11 { /code exch def code length 1 sub code {48 sub exch dup 1 sub exch 6 mod 2 add exch} forall pop 0 code length {3 1 roll mul add} repeat 11 mod 11 exch sub 11 mod dup 10 eq badmod11 and { pop code length 2 add string dup 0 code putinterval dup code length (10) putinterval } { code length 1 add string dup 0 code putinterval dup code length 4 -1 roll 48 add put } ifelse } def /ncrmod11 { /code exch def code length 1 sub code {48 sub exch dup 1 sub exch 8 mod 2 add exch} forall pop 0 code length {3 1 roll mul add} repeat 11 mod 11 exch sub 11 mod dup 10 eq badmod11 and { pop code length 2 add string dup 0 code putinterval dup code length (10) putinterval } { code length 1 add string dup 0 code putinterval dup code length 4 -1 roll 48 add put } ifelse } def % Calculate checksum includecheck { checktype (mod10) eq {barcode mod10} if checktype (mod1010) eq {barcode mod10 mod10} if checktype (mod11) eq {barcode mod11} if checktype (ncrmod11) eq {barcode ncrmod11} if checktype (mod1110) eq {barcode mod11 mod10} if checktype (ncrmod1110) eq {barcode ncrmod11 mod10} if /barcode exch def /barlen barcode length def includecheckintext {/txtlen barlen def} if } if /sbs barlen 8 mul 5 add string def /txt barlen array def % Put start character sbs 0 encs 10 get putinterval 0 1 barlen 1 sub { /i exch def % Lookup the encoding for the each barcode character barcode i 1 getinterval barchars exch search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard seek and post /enc encs indx get def % Get the indxth encoding sbs i 8 mul 2 add enc putinterval % Put encoded digit into sbs txt i [barcode i 1 getinterval i 12 mul 3 add textyoffset textfont textsize] put } for % Put the end character sbs barlen 8 mul 2 add encs 11 get putinterval % Return the arguments << /ren //renlinear /sbs [sbs {48 sub} forall] /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] includetext { /txt txt 0 txtlen getinterval } if /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /msi dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER msi-- % --BEGIN ENCODER plessey-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: Plessey UK % --EXAM: 01234ABCD % --EXOP: includetext includecheckintext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp plessey 0.0 2022082100 73069 69275 %%BeginData: 157 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /plessey { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /validatecheck false def /includecheckintext false def /unidirectional false def /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /plessey //loadctx exec % Create a string of the available characters { /barchars (0123456789ABCDEF) def /charvals 16 dict def 0 1 15 {charvals exch dup barchars exch 1 getinterval exch put} for % Create an array containing the character mappings /encs [ (14141414) (32141414) (14321414) (32321414) (14143214) (32143214) (14323214) (32323214) (14141432) (32141432) (14321432) (32321432) (14143232) (32143232) (14323232) (32323232) (32321432) (541412323) (323) ] def } ctxdef % Validate the input 0 1 barcode length 1 sub { barcode exch 1 getinterval charvals exch known not { /bwipp.plesseyBadCharacter (Plessey must contain only digits and letters A B C D E F) //raiseerror exec } if } for /barlen barcode length validatecheck {2 sub} if def % Calculate the checksums /checkbits barlen 4 mul 8 add array def checkbits barlen 4 mul [ 0 0 0 0 0 0 0 0 ] putinterval 0 1 barlen 1 sub { /i exch def /indx charvals barcode i 1 getinterval get def checkbits i 4 mul [ indx 1 and indx -1 bitshift 1 and indx -2 bitshift 1 and indx -3 bitshift ] putinterval } for /checksalt [ 1 1 1 1 0 1 0 0 1 ] def 0 1 barlen 4 mul 1 sub { /i exch def checkbits i get 1 eq { 0 1 8 { /j exch def checkbits i j add checkbits i j add get checksalt j get xor put } for } if } for /checkval 0 def 0 1 7 { /i exch def /checkval checkval 2 i exp cvi checkbits barlen 4 mul i add get mul add def } for /checksum1 checkval 15 and def /checksum2 checkval -4 bitshift def validatecheck { barcode barlen get barchars checksum1 get ne barcode barlen 1 add get barchars checksum2 get ne or { /bwipp.plesseyBadCheckDigits (Incorrect Plessey check digits provided) //raiseerror exec } if /barcode barcode 0 barlen getinterval def } if /sbs barlen 8 mul unidirectional {27} {33} ifelse add string def /txt barlen 2 add array def % Put start character sbs 0 encs 16 get putinterval 0 1 barlen 1 sub { /i exch def /indx charvals barcode i 1 getinterval get def sbs i 8 mul 8 add encs indx get putinterval txt i [barcode i 1 getinterval i 20 mul 20 add textyoffset textfont textsize] put } for % Put the checksum characters sbs barlen 8 mul 8 add encs checksum1 get putinterval sbs barlen 8 mul 16 add encs checksum2 get putinterval includecheckintext { txt barlen [barchars checksum1 1 getinterval barlen 20 mul 20 add textyoffset textfont textsize] put txt barlen 1 add [barchars checksum2 1 getinterval barlen 1 add 20 mul 20 add textyoffset textfont textsize] put } { txt barlen [( ) barlen 20 mul 20 add textyoffset textfont textsize] put txt barlen 1 add [( ) barlen 1 add 20 mul 20 add textyoffset textfont textsize] put } ifelse % Put end character sbs barlen 8 mul 24 add encs unidirectional {18} {17} ifelse get putinterval % Return the arguments << /ren //renlinear /sbs [sbs {48 sub} forall] /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] includetext { /txt txt } if /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /plessey dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER plessey-- % --BEGIN ENCODER telepen-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renlinear-- % --DESC: Telepen % --EXAM: ABCDEF % --EXOP: includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp telepen 0.0 2022082100 71738 74915 %%BeginData: 174 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /telepen { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /numeric false def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 1 def /parse false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /telepen //loadctx exec % Parse ordinals of the form ^NNN to ASCII /fncvals << /parse parse /parseonly true /parsefnc false >> def /barcode barcode fncvals //parseinput exec def /barlen barcode length def options (parse) undef % Create an array containing the character mappings { /encs [ (31313131) (1131313111) (33313111) (1111313131) (3111313111) (11333131) (13133131) (111111313111) (31333111) (1131113131) (33113131) (1111333111) (3111113131) (1113133111) (1311133111) (111111113131) (3131113111) (11313331) (333331) (111131113111) (31113331) (1133113111) (1313113111) (1111113331) (31131331) (113111113111) (3311113111) (1111131331) (311111113111) (1113111331) (1311111331) (11111111113111) (31313311) (1131311131) (33311131) (1111313311) (3111311131) (11333311) (13133311) (111111311131) (31331131) (1131113311) (33113311) (1111331131) (3111113311) (1113131131) (1311131131) (111111113311) (3131111131) (1131131311) (33131311) (111131111131) (3111131311) (1133111131) (1313111131) (111111131311) (3113111311) (113111111131) (3311111131) (111113111311) (311111111131) (111311111311) (131111111311) (11111111111131) (3131311111) (11313133) (333133) (111131311111) (31113133) (1133311111) (1313311111) (1111113133) (313333) (113111311111) (3311311111) (11113333) (311111311111) (11131333) (13111333) (11111111311111) (31311133) (1131331111) (33331111) (1111311133) (3111331111) (11331133) (13131133) (111111331111) (3113131111) (1131111133) (33111133) (111113131111) (3111111133) (111311131111) (131111131111) (111111111133) (31311313) (113131111111) (3331111111) (1111311313) (311131111111) (11331313) (13131313) (11111131111111) (3133111111) (1131111313) (33111313) (111133111111) (3111111313) (111313111111) (131113111111) (111111111313) (313111111111) (1131131113) (33131113) (11113111111111) (3111131113) (113311111111) (131311111111) (111111131113) (3113111113) (11311111111111) (331111111111) (111113111113) (31111111111111) (111311111113) (131111111113) (1111111111111111) ] def } ctxdef /barlen barcode length def % Length of the code /sbs barlen 16 mul 48 add string def /txt barlen array def % Put the start character ASCII 95 /enc encs 95 get def sbs 0 enc putinterval /l enc length def /checksum 0 def /i 0 def /j 0 def { % loop i barlen eq {exit} if numeric { % numeric mode: 00-99 & 0X-9X barcode i get 16 gt { /np barcode i 2 getinterval def np 1 1 getinterval (X) eq { % X in even position amongst digits /indx np 0 1 getinterval cvi 17 add def } { /indx np cvi 27 add def } ifelse txt j [np j 16 mul 16 add textyoffset textfont textsize] put /i i 2 add def } { /indx barcode i get def txt j [( ) j 16 mul 16 add textyoffset textfont textsize] put /i i 1 add def } ifelse } { % ASCII mode /indx barcode i get def indx 32 ge indx 126 le and { txt j [barcode i 1 getinterval j 16 mul 16 add textyoffset textfont textsize] put } { txt j [( ) j 16 mul 16 add textyoffset textfont textsize] put } ifelse /i i 1 add def } ifelse /checksum checksum indx add def /enc encs indx get def sbs l enc putinterval % Put encoded digit into sbs /l l enc length add def /j j 1 add def } loop % Put the checksum character /checksum 127 checksum 127 mod sub 127 mod def /enc encs checksum get def sbs l enc putinterval /l l enc length add def % Put the end character ASCII 122 /enc encs 122 get def sbs l enc putinterval /l l enc length add def % Shrink sbs and txt to fit exactly /sbs sbs 0 l getinterval def /txt txt 0 j getinterval def % Return the arguments << /ren //renlinear /sbs [sbs {48 sub} forall] /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] includetext { /txt txt } if /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /telepen dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER telepen-- % --BEGIN ENCODER telepennumeric-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renlinear telepen-- % --DESC: Telepen Numeric % --EXAM: 01234567 % --EXOP: includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp telepennumeric 0.0 2022082100 63671 63649 %%BeginData: 58 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /telepen dup /uk.co.terryburton.bwipp findresource put begin /telepennumeric { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textxoffset 0 def /textyoffset -7 def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /height height cvr def % Get the result of encoding with telepen with numeric=true options (dontdraw) true put options (numeric) true put /args barcode options //telepen exec def args (opt) options put args dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /telepennumeric dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER telepennumeric-- % --BEGIN ENCODER posicode-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renlinear-- % --DESC: PosiCode % --EXAM: ABC123 % --EXOP: version=b inkspread=-0.5 parsefnc includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp posicode 0.0 2022082100 113193 116240 %%BeginData: 399 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /posicode { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textxoffset 0 def /textyoffset -7 def /height 1 def /encoding (auto) def /version (a) def /checkoffset 0 def /raw false def /parse false def /parsefnc false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textxoffset textxoffset cvr def /textyoffset textyoffset cvr def /encoding encoding cvlit def /version version cvlit def /checkoffset checkoffset cvi def /height height cvr def /posicode //loadctx exec { % Special function characters /la0 -1 def /la1 -2 def /la2 -3 def /sf0 -4 def /sf1 -5 def /sf2 -6 def /fn1 -7 def /fn2 -8 def /fn3 -9 def /fn4 -10 def % Character maps for each state /charmapsnormal [ % 0 1 2 0 1 2 0 1 2 [ (0) (^) (') ] [ (1) (;) 27 ] [ (2) (<) 28 ] % 0-2 [ (3) (=) 29 ] [ (4) (>) 30 ] [ (5) (?) 31 ] % 3-5 [ (6) (@) (!) ] [ (7) ([) (") ] [ (8) 92 (#) ] % 6-8 [ (9) (]) (&) ] [ (A) (a) 1 ] [ (B) (b) 2 ] % 9-11 [ (C) (c) 3 ] [ (D) (d) 4 ] [ (E) (e) 5 ] % 12-14 [ (F) (f) 6 ] [ (G) (g) 7 ] [ (H) (h) 8 ] % 15-17 [ (I) (i) 9 ] [ (J) (j) 10 ] [ (K) (k) 11 ] % 18-20 [ (L) (l) 12 ] [ (M) (m) 13 ] [ (N) (n) 14 ] % 21-23 [ (O) (o) 15 ] [ (P) (p) 16 ] [ (Q) (q) 17 ] % 24-26 [ (R) (r) 18 ] [ (S) (s) 19 ] [ (T) (t) 20 ] % 27-29 [ (U) (u) 21 ] [ (V) (v) 22 ] [ (W) (w) 23 ] % 30-32 [ (X) (x) 24 ] [ (Y) (y) 25 ] [ (Z) (z) 26 ] % 33-35 [ (-) (_) 40 ] [ (.) (`) 41 ] [ ( ) 127 0 ] % 36-38 [ ($) ({) (*) ] [ (/) (|) (,) ] [ (+) (}) (:) ] % 39-41 [ (%) (~) fn1 ] [ la1 la0 fn2 ] [ sf1 sf0 fn3 ] % 42-44 [ sf2 sf2 fn4 ] % 45 ] def /chapmapslimited [ [ (0) -98 -98 ] [ (1) -98 -98 ] [ (2) -98 -98 ] % 0-2 [ (3) -98 -98 ] [ (4) -98 -98 ] [ (5) -98 -98 ] % 3-5 [ (6) -98 -98 ] [ (7) -98 -98 ] [ (8) -98 -98 ] % 6-8 [ (9) -98 -98 ] [ (A) -98 -98 ] [ (B) -98 -98 ] % 9-11 [ (C) -98 -98 ] [ (D) -98 -98 ] [ (E) -98 -98 ] % 12-14 [ (F) -98 -98 ] [ (G) -98 -98 ] [ (H) -98 -98 ] % 15-17 [ (I) -98 -98 ] [ (J) -98 -98 ] [ (K) -98 -98 ] % 18-20 [ (L) -98 -98 ] [ (M) -98 -98 ] [ (N) -98 -98 ] % 21-23 [ (O) -98 -98 ] [ (P) -98 -98 ] [ (Q) -98 -98 ] % 24-26 [ (R) -98 -98 ] [ (S) -98 -98 ] [ (T) -98 -98 ] % 27-29 [ (U) -98 -98 ] [ (V) -98 -98 ] [ (W) -98 -98 ] % 30-32 [ (X) -98 -98 ] [ (Y) -98 -98 ] [ (Z) -98 -98 ] % 33-35 [ (-) -98 -98 ] [ (.) -98 -98 ] % 36-37 ] def } ctxdef /charmaps version (a) eq version (b) eq or {charmapsnormal} {chapmapslimited} ifelse def % Invert charmaps to give character to value maps for each state /charvals [ charmaps length dict charmaps length dict charmaps length dict ] def 0 1 charmaps length 1 sub { /i exch def /encs charmaps i get def 0 1 2 { /j exch def encs j get dup type /stringtype eq {0 get} if % convert string to ASCII if required charvals j get exch i put } for } for /set0 charvals 0 get def /set1 charvals 1 get def /set2 charvals 2 get def raw {/encoding (raw) def} if encoding (raw) eq { /cws barcode length array def /i 0 def /j 0 def { % loop i barcode length eq {exit} if /cw barcode i 1 add 3 getinterval cvi def cws j cw put /i i 4 add def /j j 1 add def } loop /cws cws 0 j getinterval def /text () def } if encoding (auto) eq { % Parse the input /fncvals << /parse parse /parsefnc parsefnc (FNC1) fn1 (FNC2) fn2 (FNC3) fn3 % (FNC4) fn4 Not user accessible as encoded automatically >> def /msg barcode fncvals //parseinput exec def /msglen msg length def /text msglen string def 0 1 msglen 1 sub { /i exch def text i msg i get dup 0 lt { pop 32 } if put } for % Standard and extended ASCII runlength at position /numSA [ msglen {0} repeat 0 ] def /numEA [ msglen {0} repeat 0 ] def msglen 1 sub -1 0 { /i exch def msg i get 0 ge { msg i get 128 ge { numEA i numEA i 1 add get 1 add put } { numSA i numSA i 1 add get 1 add put } ifelse } if } for % FNC4 codeword insertion for extended ASCII /ea false def /msgtmp [] def 0 1 msglen 1 sub { /i exch def /c msg i get def ea c 128 lt xor not c 0 ge and { % Other mode required ea {numSA} {numEA} ifelse i get dup % Runlength of other mode i add msglen eq {3} {5} ifelse % Does run terminate symbol lt { % Shift /msgtmp [ msgtmp aload pop fn4 ] def } { % Latch /msgtmp [ msgtmp aload pop fn4 fn4 ] def /ea ea not def } ifelse } if /msgtmp [ msgtmp aload pop c 0 ge {c 127 and} {c} ifelse ] def } for /msg msgtmp def /msglen msg length def % Convert the input message to codewords /enc { exch get cws exch j exch put /j j 1 add def } def /cws msglen 2 mul array def /i 0 def /j 0 def /cset (set0) def { i msglen eq {exit} if { % common exit % Read next two characters /char1 msg i get def /char2 i 1 add msglen lt {msg i 1 add get} {-99} ifelse def % If current mode is sufficient then directly encode cset load char1 known { char1 cset load enc /i i 1 add def exit } if % If char1 is in set2 then shift encode set2 char1 known { sf2 cset load enc char1 set2 enc /i i 1 add def exit } if % If char2 is also not in this set then latch else shift encode cset load char2 known not { cset (set0) eq { la1 cset load enc /cset (set1) def } { la0 cset load enc /cset (set0) def } ifelse exit } { cset (set0) eq { sf1 cset load enc char1 set1 enc } { sf0 cset load enc char1 set0 enc } ifelse /i i 1 add def exit } ifelse exit } loop } loop /cws cws 0 j getinterval def } if % auto encoding % Create an array containing the character mappings { /encmaps << % ";"=11, "<"=12 /a [ (141112) (131212) (121312) (111412) (131113) (121213) (111313) (121114) (111214) (111115) (181111) (171211) (161311) (151411) (141511) (131611) (121711) (111811) (171112) (161212) (151312) (141412) (131512) (121612) (111712) (161113) (151213) (141313) (131413) (121513) (111613) (151114) (141214) (131314) (121414) (111514) (141115) (131215) (121315) (111415) (131116) (121216) (111316) (121117) (111217) (111118) (1<111112) (111111111;1) ] /b [ (151213) (141313) (131413) (121513) (141214) (131314) (121414) (131215) (121315) (121216) (191212) (181312) (171412) (161512) (151612) (141712) (131812) (121912) (181213) (171313) (161413) (151513) (141613) (131713) (121813) (171214) (161314) (151414) (141514) (131614) (121714) (161215) (151315) (141415) (131515) (121615) (151216) (141316) (131416) (121516) (141217) (131317) (121417) (131218) (121318) (121219) (1<121312) (121212121<1) ] /limiteda [ (111411) (111312) (111213) (111114) (121311) (121212) (121113) (141111) (131211) (131112) (171111) (161211) (151311) (141411) (131511) (121611) (111711) (161112) (151212) (141312) (131412) (121512) (111612) (151113) (141213) (131313) (121413) (111513) (141114) (131214) (121314) (111414) (131115) (121215) (111315) (121116) (111216) (111117) (151111) (1) ] /limitedb [ (121512) (121413) (121314) (121215) (131412) (131313) (131214) (151212) (141312) (141213) (181212) (171312) (161412) (151512) (141612) (131712) (121812) (171213) (161313) (151413) (141513) (131613) (121713) (161214) (151314) (141414) (131514) (121614) (151215) (141315) (131415) (121515) (141216) (131316) (121416) (131217) (121317) (121218) (141212) (1) ] >> def } ctxdef encmaps version get /encs exch def { /c2w [ [ 495 330 210 126 70 35 15 5 ] [ 165 120 84 56 35 20 10 4 ] [ 45 36 28 21 15 10 6 3 ] [ 9 8 7 6 5 4 3 2 ] [ 1 1 1 1 1 1 1 1 ] ] def } ctxdef /v 0 def cws { /cw exch def 6 { cw v xor 1 and 0 ne { /v v 7682 xor def } if /v v -1 bitshift def /cw cw -1 bitshift def } repeat } forall /v v checkoffset add def version (limiteda) eq version (limitedb) eq or { /v v 1023 and def v 824 gt v 853 lt and { /v v 292 add def } if } { /v v 1023 and 45 add def } ifelse /d [ 2 2 2 2 2 2 ] def /r 0 def /c 0 def /w 0 def /sum 0 def { sum v eq {exit} if /t sum c2w r get c get add def t v eq { /w w 1 add def d r w 2 add put /sum t def } if t v gt { d r w 2 add put /r r 1 add def /w 0 def } if t v lt { /c c 1 add def /w w 1 add def /sum t def } if } loop 20 0 1 4 {d exch get sub} for d exch 5 exch put version (b) eq version (limitedb) eq or { /d [ d {1 add} forall ] def } if /cbs (111111111111) 12 string copy def 5 -1 0 { /i exch def cbs 5 i sub 2 mul 1 add d i get 47 add put } for % Concatenate the space bar successions /sbs cws length 6 mul 31 add string def encs encs length 2 sub get dup sbs exch 0 exch putinterval length /j exch def 0 1 cws length 1 sub { /i exch def sbs j encs cws i get get putinterval /j j 6 add def } for sbs j cbs putinterval /j j 12 add def encs encs length 1 sub get dup sbs exch j exch putinterval length j add /j exch def /sbs sbs 0 j getinterval def % Return the arguments << /ren //renlinear /sbs [sbs {48 sub} forall] /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] /txt [ [text textxoffset textyoffset textfont textsize] ] /textxalign (center) /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /posicode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER posicode-- % --BEGIN ENCODER codablockf-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix-- % --DESC: Codablock F % --EXAM: CODABLOCK F 34567890123456789010040digit % --EXOP: columns=8 % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp codablockf 0.0 2022082100 134261 137478 %%BeginData: 501 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /codablockf { 20 dict begin /options exch def /barcode exch def /ctx null def /dontdraw false def /rows -1 def /columns 8 def /rowheight 10 def /sepheight 1 def /parse false def /parsefnc false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /rows rows cvi def /columns columns cvi def /rowheight rowheight cvi def /sepheight sepheight cvi def /c columns 4 ge columns 62 le and {columns} {8} ifelse def /rows rows 2 ge rows 44 le and {rows} {-1} ifelse def /codablockf //loadctx exec % Convert input into bytes accounting for FNC characters /swa -1 def /swb -2 def /swc -3 def /sft -4 def /fn1 -5 def /fn2 -6 def /fn3 -7 def /fn4 -8 def /sta -9 def /stp -10 def % Parse the input /fncvals << /parse parse /parsefnc parsefnc (FNC1) fn1 % (FNC2) fn2 Not permitted for Codablock F (FNC3) fn3 % (FNC4) fn4 Not user accessible as encoded automatically >> def /msg barcode fncvals //parseinput exec def /msglen msg length def % FNC4 codeword insertion for extended ASCII /msgtmp [] def msg { /char exch def /msgtmp [ msgtmp aload pop char 128 lt {char} {fn4 char 127 and} ifelse ] def } forall /msg msgtmp def /msglen msg length def % Character maps for each state { /charmaps [ % A B C A B C A B C [ 32 32 (00) ] [ (!) (!) (01) ] [ (") (") (02) ] % 0-2 [ (#) (#) (03) ] [ ($) ($) (04) ] [ (%) (%) (05) ] % 3-5 [ (&) (&) (06) ] [ (') (') (07) ] [ 40 40 (08) ] % 6-8 [ 41 41 (09) ] [ (*) (*) (10) ] [ (+) (+) (11) ] % 9-11 [ (,) (,) (12) ] [ (-) (-) (13) ] [ (.) (.) (14) ] % 12-14 [ (/) (/) (15) ] [ (0) (0) (16) ] [ (1) (1) (17) ] % 15-17 [ (2) (2) (18) ] [ (3) (3) (19) ] [ (4) (4) (20) ] % 18-20 [ (5) (5) (21) ] [ (6) (6) (22) ] [ (7) (7) (23) ] % 21-23 [ (8) (8) (24) ] [ (9) (9) (25) ] [ (:) (:) (26) ] % 24-26 [ (;) (;) (27) ] [ (<) (<) (28) ] [ (=) (=) (29) ] % 27-29 [ (>) (>) (30) ] [ (?) (?) (31) ] [ (@) (@) (32) ] % 30-32 [ (A) (A) (33) ] [ (B) (B) (34) ] [ (C) (C) (35) ] % 33-35 [ (D) (D) (36) ] [ (E) (E) (37) ] [ (F) (F) (38) ] % 36-38 [ (G) (G) (39) ] [ (H) (H) (40) ] [ (I) (I) (41) ] % 39-41 [ (J) (J) (42) ] [ (K) (K) (43) ] [ (L) (L) (44) ] % 42-44 [ (M) (M) (45) ] [ (N) (N) (46) ] [ (O) (O) (47) ] % 45-47 [ (P) (P) (48) ] [ (Q) (Q) (49) ] [ (R) (R) (50) ] % 48-50 [ (S) (S) (51) ] [ (T) (T) (52) ] [ (U) (U) (53) ] % 51-53 [ (V) (V) (54) ] [ (W) (W) (55) ] [ (X) (X) (56) ] % 54-56 [ (Y) (Y) (57) ] [ (Z) (Z) (58) ] [ ([) ([) (59) ] % 57-59 [ 92 92 (60) ] [ (]) (]) (61) ] [ (^) (^) (62) ] % 60-62 [ (_) (_) (63) ] [ 0 (`) (64) ] [ 1 (a) (65) ] % 63-65 [ 2 (b) (66) ] [ 3 (c) (67) ] [ 4 (d) (68) ] % 66-68 [ 5 (e) (69) ] [ 6 (f) (70) ] [ 7 (g) (71) ] % 69-71 [ 8 (h) (72) ] [ 9 (i) (73) ] [ 10 (j) (74) ] % 72-74 [ 11 (k) (75) ] [ 12 (l) (76) ] [ 13 (m) (77) ] % 75-77 [ 14 (n) (78) ] [ 15 (o) (79) ] [ 16 (p) (80) ] % 78-80 [ 17 (q) (81) ] [ 18 (r) (82) ] [ 19 (s) (83) ] % 81-83 [ 20 (t) (84) ] [ 21 (u) (85) ] [ 22 (v) (86) ] % 84-86 [ 23 (w) (87) ] [ 24 (x) (88) ] [ 25 (y) (89) ] % 87-89 [ 26 (z) (90) ] [ 27 ({) (91) ] [ 28 (|) (92) ] % 90-92 [ 29 (}) (93) ] [ 30 (~) (94) ] [ 31 127 (95) ] % 93-95 [ fn3 fn3 (96) ] [ fn2 fn2 (97) ] [ sft sft (98) ] % 96-98 [ swc swc (99) ] [ swb fn4 swb ] [ fn4 swa swa ] % 99-101 [ fn1 fn1 fn1 ] [ sta sta sta ] [ stp stp stp ] % 102-104 ] def % Invert charmaps to give character to value maps for each state /charvals [ 105 dict 105 dict 105 dict ] def 0 1 charmaps length 1 sub { /i exch def /encs charmaps i get def 0 1 2 { /j exch def encs j get dup type /stringtype eq {0 get} if % convert string to ASCII if required charvals j get exch i put } for } for /seta charvals 0 get def /setb charvals 1 get def /setc charvals 2 get def } ctxdef % Determine digit runlength and characters from given position /numsscr { /n 0 def /s 0 def /p exch def { p msglen ge {exit} if msg p get dup setc exch known not {pop exit} if fn1 eq { % FNC1 in odd position of run like two digits s 2 mod 0 eq {/s s 1 add def} {exit} ifelse } if /n n 1 add def /s s 1 add def /p p 1 add def } loop n s } def % Encoding for each alphabet /enca { seta exch get cws exch j exch put /j j 1 add def } def /encb { setb exch get cws exch j exch put /j j 1 add def } def /encc { dup type /arraytype ne { setc exch get } { aload pop 48 sub exch 48 sub 10 mul add } ifelse cws exch j exch put /j j 1 add def } def % Character exclusively in either alphabet A or B /anotb {dup seta exch known exch setb exch known not and} def /bnota {dup setb exch known exch seta exch known not and} def % Pre-compute relative position of next anotb and next bnota characters /nextanotb [ msg length {0} repeat 9999 ] def /nextbnota [ msg length {0} repeat 9999 ] def msg length 1 sub -1 0 { /i exch def msg i get anotb { nextanotb i 0 put } { nextanotb i nextanotb i 1 add get 1 add put } ifelse msg i get bnota { nextbnota i 0 put } { nextbnota i nextbnota i 1 add get 1 add put } ifelse } for % Does a-only come before b-only after given position and vice versa /abeforeb {dup nextanotb exch get exch nextbnota exch get lt} def /bbeforea {dup nextbnota exch get exch nextanotb exch get lt} def % Add padding to row /padrow { { { % common exit cset (seta) eq {swc enca /cset (setc) def exit} if cset (setb) eq {swc encb /cset (setc) def exit} if cset (setc) eq {swb encc /cset (setb) def exit} if } loop } repeat } def % Convert message to codewords /cws c 5 add 44 mul array def /i 0 def /j 0 def /r 1 def /lastrow false def { lastrow {exit} if % Add start character and code subset selector sta enca i msglen lt {i numsscr} {-1 -1} ifelse /nums exch def /nchars exch def { % common exit msglen 0 eq { swb enca /cset (setb) def exit } if nums 2 ge { swc enca /cset (setc) def exit } if i abeforeb { sft enca /cset (seta) def exit } if swb enca /cset (setb) def exit } loop /j j 1 add def % Skip row indicator position % Main encoding loop /endofrow false def { /rem c 3 add j c 5 add mod sub def % Codewords to end of row i msglen eq endofrow or {exit} if i numsscr /nums exch def /nchars exch def /remnums nums rem 2 mul gt {rem 2 mul} {nums} ifelse def % Determine switches and shifts { % common exit cset (seta) eq cset (setb) eq or remnums 4 ge and msg i get fn1 ne and { remnums 2 mod 0 eq rem 3 ge and { swc cset (seta) eq {enca} {encb} ifelse /cset (setc) def 2 { msg i get fn1 eq { fn1 encc /i i 1 add def } { msg i 2 getinterval encc /i i 2 add def } ifelse } repeat exit } if remnums 2 mod 0 ne rem 4 ge and { msg i get cset (seta) eq {enca} {encb} ifelse /i i 1 add def swc cset (seta) eq {enca} {encb} ifelse /cset (setc) def 2 { msg i get fn1 eq { fn1 encc /i i 1 add def } { msg i 2 getinterval encc /i i 2 add def } ifelse } repeat exit } if } if cset (setb) eq msg i get anotb and rem 2 ge and { i msglen 1 sub lt { i 1 add bbeforea { sft encb msg i get enca /i i 1 add def exit } if } if swa encb /cset (seta) def msg i get enca /i i 1 add def exit } if cset (seta) eq msg i get bnota and rem 2 ge and { i msglen 1 sub lt { i 1 add abeforeb { sft enca msg i get encb /i i 1 add def exit } if } if swb enca /cset (setb) def msg i get encb /i i 1 add def exit } if cset (setc) eq remnums 2 lt and rem 2 ge and { i abeforeb { swa encc /cset (seta) def msg i get enca /i i 1 add def exit } if swb encc /cset (setb) def msg i get encb /i i 1 add def exit } if % No switches or latches so try to encode cset (seta) eq seta msg i get known and rem 1 ge and { msg i get enca /i i 1 add def exit } if cset (setb) eq setb msg i get known and rem 1 ge and { msg i get encb /i i 1 add def exit } if cset (setc) eq remnums 2 ge and rem 1 ge and { msg i get fn1 eq { fn1 encc /i i 1 add def } { msg i 2 getinterval encc /i i 2 add def } ifelse exit } if % Encoding does not fit in the row /endofrow true def exit } loop % common exit } loop % Determine whether this is the final row r rows ge rows -1 eq or r 1 gt and i msglen eq and rem 2 ge and { rem 2 sub padrow /j j 3 add def % Skip symbol and row checksum character positions stp enca /lastrow true def } { rem padrow /j j 1 add def % Skip row checksum character positions stp enca /r r 1 add def } ifelse } loop /cws cws 0 j getinterval def % Maps for row indicators and symbol checksums { /abmap [ 64 1 95 {} for 0 1 15 {} for 26 1 63 {} for ] def /cmap [ 0 1 85 {} for ] def } ctxdef % Add symbol check characters to last row /chkmsg msglen array def /j 0 def 0 1 msglen 1 sub { /i exch def /char msg i get def char 0 ge {chkmsg j char put /j j 1 add def} if char fn1 eq i 0 ne and {chkmsg j 29 put /j j 1 add def} if } for /t1 0 def /t2 0 def /k1 0 def /k2 0 def 0 1 j 1 sub { /i exch def /t1 chkmsg i get i mul 86 mod def /t2 t1 chkmsg i get add 86 mod def /k1 k1 t2 add 86 mod def /k2 k2 t1 add 86 mod def } for cws cws length 4 sub cset (setc) ne {abmap} {cmap} ifelse k1 get put cws cws length 3 sub cset (setc) ne {abmap} {cmap} ifelse k2 get put % Populate row indicators cws 2 2 copy 1 sub get 99 ne {abmap} {cmap} ifelse r 2 sub get put 1 1 r 1 sub { /i exch def cws i c 5 add mul 2 add 2 copy 1 sub get 99 ne {abmap} {cmap} ifelse i 42 add get put } for % Calculate row check characters 0 1 r 1 sub { cws exch c 5 add mul c 4 add getinterval /rcws exch def /csum rcws 0 get def 1 1 rcws length 2 sub { /i exch def /csum csum rcws i get i mul add def } for rcws rcws length 1 sub csum 103 mod put } for % Create an array containing the character mappings { /encs [ (212222) (222122) (222221) (121223) (121322) (131222) (122213) (122312) (132212) (221213) (221312) (231212) (112232) (122132) (122231) (113222) (123122) (123221) (223211) (221132) (221231) (213212) (223112) (312131) (311222) (321122) (321221) (312212) (322112) (322211) (212123) (212321) (232121) (111323) (131123) (131321) (112313) (132113) (132311) (211313) (231113) (231311) (112133) (112331) (132131) (113123) (113321) (133121) (313121) (211331) (231131) (213113) (213311) (213131) (311123) (311321) (331121) (312113) (312311) (332111) (314111) (221411) (431111) (111224) (111422) (121124) (121421) (141122) (141221) (112214) (112412) (122114) (122411) (142112) (142211) (241211) (221114) (413111) (241112) (134111) (111242) (121142) (121241) (114212) (124112) (124211) (411212) (421112) (421211) (212141) (214121) (412121) (111143) (111341) (131141) (114113) (114311) (411113) (411311) (113141) (114131) (311141) (411131) (211412) (2331112) ] def } ctxdef % Derive the bits for each row /rowbits r array def 0 1 r 1 sub { /i exch def /sbs [ cws i c 5 add mul c 5 add getinterval { encs exch get {48 sub} forall } forall ] def mark 0 sbs {1 index 1 eq {{0}} {{1}} ifelse repeat} forall counttomark 1 sub array astore exch pop exch pop rowbits i 3 -1 roll put } for % Populate the bitmap /symwid c 11 mul 57 add def /pixs [ symwid sepheight mul {1} repeat 0 1 r 2 sub { /i exch def rowheight {rowbits i get aload pop} repeat sepheight { 1 1 0 1 0 0 0 0 1 0 0 symwid 24 sub {1} repeat 1 1 0 0 0 1 1 1 0 1 0 1 1 } repeat } for rowheight {rowbits r 1 sub get aload pop} repeat symwid sepheight mul {1} repeat ] def % Return the arguments << /ren //renmatrix /pixs pixs /pixx symwid /pixy pixs length symwid idiv /height pixs length symwid idiv 72 div /width symwid 72 div /opt options >> dontdraw not //renmatrix if //unloadctx exec end } [/barcode] {null def} forall bind def /codablockf dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER codablockf-- % --BEGIN ENCODER code16k-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix-- % --DESC: Code 16K % --EXAM: Abcd-1234567890-wxyZ % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp code16k 0.0 2022082100 158983 161726 %%BeginData: 725 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /code16k { 20 dict begin /options exch def /barcode exch def /ctx null def /dontdraw false def /mode -1 def /pos -1 def /rows 0 def /rowheight 8 def /sepheight 1 def /encoding (auto) def /raw false def /parse false def /parsefnc false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /mode mode cvi def /pos pos cvi def /rows rows cvi def /rowheight rowheight cvi def /sepheight sepheight cvi def /code16k //loadctx exec pos -1 ne {/rows 16 def} if % Convert input into bytes accounting for FNC characters { /swa -1 def /swb -2 def /swc -3 def /sa1 -4 def /sb1 -5 def /sc1 -6 def /sa2 -7 def /sb2 -8 def /sc2 -9 def /pad -10 def /sb3 -11 def /sc3 -12 def /fn1 -13 def /fn2 -14 def /fn3 -15 def /fn4 -16 def % Character maps for each state /charmaps [ % A B C A B C A B C [ 32 32 (00) ] [ (!) (!) (01) ] [ (") (") (02) ] % 0-2 [ (#) (#) (03) ] [ ($) ($) (04) ] [ (%) (%) (05) ] % 3-5 [ (&) (&) (06) ] [ (') (') (07) ] [ 40 40 (08) ] % 6-8 [ 41 41 (09) ] [ (*) (*) (10) ] [ (+) (+) (11) ] % 9-11 [ (,) (,) (12) ] [ (-) (-) (13) ] [ (.) (.) (14) ] % 12-14 [ (/) (/) (15) ] [ (0) (0) (16) ] [ (1) (1) (17) ] % 15-17 [ (2) (2) (18) ] [ (3) (3) (19) ] [ (4) (4) (20) ] % 18-20 [ (5) (5) (21) ] [ (6) (6) (22) ] [ (7) (7) (23) ] % 21-23 [ (8) (8) (24) ] [ (9) (9) (25) ] [ (:) (:) (26) ] % 24-26 [ (;) (;) (27) ] [ (<) (<) (28) ] [ (=) (=) (29) ] % 27-29 [ (>) (>) (30) ] [ (?) (?) (31) ] [ (@) (@) (32) ] % 30-32 [ (A) (A) (33) ] [ (B) (B) (34) ] [ (C) (C) (35) ] % 33-35 [ (D) (D) (36) ] [ (E) (E) (37) ] [ (F) (F) (38) ] % 36-38 [ (G) (G) (39) ] [ (H) (H) (40) ] [ (I) (I) (41) ] % 39-41 [ (J) (J) (42) ] [ (K) (K) (43) ] [ (L) (L) (44) ] % 42-44 [ (M) (M) (45) ] [ (N) (N) (46) ] [ (O) (O) (47) ] % 45-47 [ (P) (P) (48) ] [ (Q) (Q) (49) ] [ (R) (R) (50) ] % 48-50 [ (S) (S) (51) ] [ (T) (T) (52) ] [ (U) (U) (53) ] % 51-53 [ (V) (V) (54) ] [ (W) (W) (55) ] [ (X) (X) (56) ] % 54-56 [ (Y) (Y) (57) ] [ (Z) (Z) (58) ] [ ([) ([) (59) ] % 57-59 [ 92 92 (60) ] [ (]) (]) (61) ] [ (^) (^) (62) ] % 60-62 [ (_) (_) (63) ] [ 0 (`) (64) ] [ 1 (a) (65) ] % 63-65 [ 2 (b) (66) ] [ 3 (c) (67) ] [ 4 (d) (68) ] % 66-68 [ 5 (e) (69) ] [ 6 (f) (70) ] [ 7 (g) (71) ] % 69-71 [ 8 (h) (72) ] [ 9 (i) (73) ] [ 10 (j) (74) ] % 72-74 [ 11 (k) (75) ] [ 12 (l) (76) ] [ 13 (m) (77) ] % 75-77 [ 14 (n) (78) ] [ 15 (o) (79) ] [ 16 (p) (80) ] % 78-80 [ 17 (q) (81) ] [ 18 (r) (82) ] [ 19 (s) (83) ] % 81-83 [ 20 (t) (84) ] [ 21 (u) (85) ] [ 22 (v) (86) ] % 84-86 [ 23 (w) (87) ] [ 24 (x) (88) ] [ 25 (y) (89) ] % 87-89 [ 26 (z) (90) ] [ 27 ({) (91) ] [ 28 (|) (92) ] % 90-92 [ 29 (}) (93) ] [ 30 (~) (94) ] [ 31 127 (95) ] % 93-95 [ fn3 fn3 (96) ] [ fn2 fn2 (97) ] [ sb1 sa1 (98) ] % 96-98 [ swc swc (99) ] [ swb fn4 swb ] [ fn4 swa swa ] % 99-101 [ fn1 fn1 fn1 ] [ pad pad pad ] [ sb2 sa2 sb1 ] % 102-104 [ sc2 sc2 sb2 ] [ sc3 sc3 sb3 ] % 105-106 ] def % Invert charmaps to give character to value maps for each state /charvals [ 109 dict 109 dict 109 dict ] def 0 1 charmaps length 1 sub { /i exch def /encs charmaps i get def 0 1 2 { /j exch def encs j get dup type /stringtype eq {0 get} if % convert string to ASCII if required charvals j get exch i put } for } for /seta charvals 0 get def /setb charvals 1 get def /setc charvals 2 get def } ctxdef raw {/encoding (raw) def} if encoding (raw) eq { /cws barcode length array def /i 0 def /j 0 def { % loop i barcode length eq {exit} if /cw barcode i 1 add 3 getinterval cvi def cws j cw put /i i 4 add def /j j 1 add def } loop /cws cws 0 j getinterval def } if encoding (auto) eq { % Parse the input /fncvals << /parse parse /parsefnc parsefnc /eci true (FNC1) fn1 (FNC2) fn2 (FNC3) fn3 % (FNC4) fn4 Not user accessible as encoded automatically >> def /msg barcode fncvals //parseinput exec def /msglen msg length def % Standard and extended ASCII runlength at position /numSA [ msglen {0} repeat 0 ] def /numEA [ msglen {0} repeat 0 ] def msglen 1 sub -1 0 { /i exch def msg i get 0 ge { msg i get 128 ge { numEA i numEA i 1 add get 1 add put } { numSA i numSA i 1 add get 1 add put } ifelse } if } for % FNC4 codeword insertion for extended ASCII /ea false def /msgtmp [] def 0 1 msglen 1 sub { /i exch def /c msg i get def ea c 128 lt xor not c 0 ge and { % Other mode required ea {numSA} {numEA} ifelse i get dup % Runlength of other mode i add msglen eq {3} {5} ifelse % Does run terminate symbol lt { % Shift /msgtmp [ msgtmp aload pop fn4 ] def } { % Latch /msgtmp [ msgtmp aload pop fn4 fn4 ] def /ea ea not def } ifelse } if /msgtmp [ msgtmp aload pop c 0 ge {c 127 and} {c} ifelse ] def } for /msg msgtmp def /msglen msg length def % Determine digit runlength and characters from given position /numsscr { /n 0 def /s 0 def /p exch def { p msglen ge {exit} if msg p get dup setc exch known not {pop exit} if fn1 eq { % FNC1 in odd position of run like two digits s 2 mod 0 eq {/s s 1 add def} {exit} ifelse } if /n n 1 add def /s s 1 add def /p p 1 add def } loop n s } def % Encoding for each alphabet /enca { seta exch get cws exch j exch put /j j 1 add def } def /encb { setb exch get cws exch j exch put /j j 1 add def } def /encc { dup type /arraytype ne { setc exch get } { aload pop 48 sub exch 48 sub 10 mul add } ifelse cws exch j exch put /j j 1 add def } def % Character exclusively in either alphabet A or B /anotb {dup seta exch known exch setb exch known not and} def /bnota {dup setb exch known exch seta exch known not and} def % Pre-compute relative position of next anotb and next bnota characters /nextanotb [ msg length {0} repeat 9999 ] def /nextbnota [ msg length {0} repeat 9999 ] def msg length 1 sub -1 0 { /i exch def msg i get anotb { nextanotb i 0 put } { nextanotb i nextanotb i 1 add get 1 add put } ifelse msg i get bnota { nextbnota i 0 put } { nextbnota i nextbnota i 1 add get 1 add put } ifelse } for % Does a-only come before b-only after given position and vice versa /abeforeb {dup nextanotb exch get exch nextbnota exch get lt} def /bbeforea {dup nextbnota exch get exch nextanotb exch get lt} def /cws barcode length 2 mul 3 add array def % Select mode and encode first characters /i 0 def /j 0 def { % common exit % extended data length pos -1 ne { % encode one and two cws 0 pos 10 idiv 1 sub put cws 1 pos 10 mod 1 sub put /j 2 def /cset (setb) def /mode 7 def exit } if % empty => b msglen 0 eq { /cset (setb) def /mode 1 def exit } if % FNC1 . 2+ nums => c fnc1 msglen 2 ge { msg 0 get fn1 eq 1 numsscr exch pop 2 ge and { /cset (setc) def /mode 4 def /i 1 def exit } if } if % FNC1 => b fnc1 msg 0 get fn1 eq { /cset (setb) def /mode 3 def /i 1 def exit } if msglen 2 ge { % 2+ even nums => c 0 numsscr exch pop dup 2 ge exch 2 mod 0 eq and { /cset (setc) def /mode 2 def exit } if % 3+ odd nums => c sb1 encode 0 numsscr exch pop dup 3 ge exch 2 mod 1 eq and { msg 0 get encb /cset (setc) def /mode 5 def /i 1 def exit } if % b . 2+ even nums => c sb1 encode setb msg 0 get known 1 numsscr exch pop dup 2 ge exch 2 mod 0 eq and and { msg 0 get encb /cset (setc) def /mode 5 def /i 1 def exit } if % b . 3+ odd nums => c sb2 encode setb msg 0 get known 1 numsscr exch pop dup 3 ge exch 2 mod 1 eq and and { msg 0 get encb msg 1 get encb /cset (setc) def /mode 6 def /i 2 def exit } if % b . b . 2+ even nums => c sb2 encode setb msg 0 get known setb msg 1 get known and 2 numsscr exch pop dup 2 ge exch 2 mod 0 eq and and { msg 0 get encb msg 1 get encb /cset (setc) def /mode 6 def /i 2 def exit } if } if % anotb before bnota => a 0 abeforeb { /cset (seta) def /mode 0 def exit } if % otherwise => b /cset (setb) def /mode 1 def exit } loop { % Encode remainder i msglen eq {exit} if i numsscr /nums exch def /nchars exch def % Determine switches and shifts { % common exit cset (seta) eq { % bnota . anotb before bnota => sb1 encode i msglen 1 sub lt { msg i get bnota i 1 add abeforeb and { sb1 enca msg i get encb /i i 1 add def exit } if } if % bnota . bnota . anotb before bnota => sb2 encode i msglen 2 sub lt { msg i get bnota msg i 1 add get bnota and i 2 add abeforeb and { sb2 enca msg i get encb msg i 1 add get encb /i i 2 add def exit } if } if % bnota => swb msg i get bnota { swb enca /cset (setb) def exit } if % 4 nums . a => sc2 encode i msglen 4 sub lt { nums 4 eq seta msg i 4 add get known and { sc2 enca 2 { msg i get fn1 eq { fn1 encc /i i 1 add def } { msg i 2 getinterval encc /i i 2 add def } ifelse } repeat exit } if } if % 6 nums . a => sc3 encode i msglen 6 sub lt { nums 6 eq seta msg i 6 add get known and { sc3 enca 3 { msg i get fn1 eq { fn1 encc /i i 1 add def } { msg i 2 getinterval encc /i i 2 add def } ifelse } repeat exit } if } if % 4+ even nums => swc nums 4 ge nums 2 mod 0 eq and { swc enca /cset (setc) def exit } if % otherwise => encode msg i get enca /i i 1 add def exit } if cset (setb) eq { % anotb . bnota before anotb => sa1 encode i msglen 1 sub lt { msg i get anotb i 1 add bbeforea and { sa1 encb msg i get enca /i i 1 add def exit } if } if % anotb . anotb . bnota before anotb => sa2 encode i msglen 2 sub lt { msg i get anotb msg i 1 add get anotb and i 2 add bbeforea and { sa2 encb msg i get enca msg i 1 add get enca /i i 2 add def exit } if } if % anotb => swa msg i get anotb { swa encb /cset (seta) def exit } if % 4 nums . b => sc2 encode i msglen 4 sub lt { nums 4 eq setb msg i 4 add get known and { sc2 encb 2 { msg i get fn1 eq { fn1 encc /i i 1 add def } { msg i 2 getinterval encc /i i 2 add def } ifelse } repeat exit } if } if % 6 nums . b => sc3 encode i msglen 6 sub lt { nums 6 eq setb msg i 6 add get known and { sc3 encb 3 { msg i get fn1 eq { fn1 encc /i i 1 add def } { msg i 2 getinterval encc /i i 2 add def } ifelse } repeat exit } if } if % 4+ even nums => swc nums 4 ge nums 2 mod 0 eq and { swc encb /cset (setc) def exit } if % otherwise => encode msg i get encb /i i 1 add def exit } if cset (setc) eq { % 2+ nums => encode nums 2 ge { msg i get fn1 eq { fn1 encc /i i 1 add def } { msg i 2 getinterval encc /i i 2 add def } ifelse exit } if % b . 2+ even nums => sb1 encode i msglen 1 sub lt { setb msg i get known i 1 add numsscr exch pop dup 2 ge exch 2 mod 0 eq and and { sb1 encc msg i get encb /i i 1 add def exit } if } if % b . 3+ odd nums => sb2 encode i msglen 1 sub lt { setb msg i get known i 1 add numsscr exch pop dup 3 ge exch 2 mod 1 eq and and { sb2 encc msg i get encb msg i 1 add get encb /i i 2 add def exit } if } if % b . b . 2+ even nums => sb2 encode i msglen 2 sub lt { setb msg i get known setb msg i 1 add get known and i 2 add numsscr exch pop dup 2 ge exch 2 mod 0 eq and and { sb2 encc msg i get encb msg i 1 add get encb /i i 2 add def exit } if } if % b . b . 3+ odd nums => sb3 encode i msglen 3 sub lt { setb msg i get known setb msg i 1 add get known and i 2 add numsscr exch pop dup 3 ge exch 2 mod 1 eq and and { sb3 encc msg i get encb msg i 1 add get encb msg i 2 add get encb /i i 3 add def exit } if } if % b . b . b . 2+ even nums => sb3 encode i msglen 3 sub lt { setb msg i get known setb msg i 1 add get known and setb msg i 2 add get known and i 3 add numsscr exch pop dup 2 ge exch 2 mod 0 eq and and { sb3 encc msg i get encb msg i 1 add get encb msg i 2 add get encb /i i 3 add def exit } if } if % anotb before bnota => swa i abeforeb { swa encc /cset (seta) def exit } if % otherwise => swb swb encc /cset (setb) def exit } if exit } loop } loop /cws cws 0 j getinterval def } if % auto encoding % Basic metrics for the each symbol % r dcws { /metrics [ [ 2 7 ] [ 3 12 ] [ 4 17 ] [ 5 22 ] [ 6 27 ] [ 7 32 ] [ 8 37 ] [ 9 42 ] [ 10 47 ] [ 11 52 ] [ 12 57 ] [ 13 62 ] [ 14 67 ] [ 15 72 ] [ 16 77 ] ] def } ctxdef % Select metrics of an appropriate symbol /urows rows def /i 0 def { % loop /m metrics i get def /r m 0 get def % Columns in symbol /dcws m 1 get def % Data codewords in symbol /okay true def urows 0 ne urows r ne and {/okay false def} if cws length dcws gt {/okay false def} if okay {exit} if /i i 1 add def } loop % Extend cws to ncws codewords by addition of pad characters /cws [ cws aload pop dcws cws length sub {103} repeat ] def % Add the start character /cws [ r 2 sub 7 mul mode add cws aload pop ] def % Calculate the check characters 0 0 1 dcws {dup 2 add exch cws exch get mul add} for 107 mod /c1 exch def 0 0 1 dcws {dup 1 add exch cws exch get mul add} for c1 dcws 2 add mul add 107 mod /c2 exch def /cws [ cws aload pop c1 c2 ] def % Create an array containing the character mappings { /encs [ (212222) (222122) (222221) (121223) (121322) (131222) (122213) (122312) (132212) (221213) (221312) (231212) (112232) (122132) (122231) (113222) (123122) (123221) (223211) (221132) (221231) (213212) (223112) (312131) (311222) (321122) (321221) (312212) (322112) (322211) (212123) (212321) (232121) (111323) (131123) (131321) (112313) (132113) (132311) (211313) (231113) (231311) (112133) (112331) (132131) (113123) (113321) (133121) (313121) (211331) (231131) (213113) (213311) (213131) (311123) (311321) (331121) (312113) (312311) (332111) (314111) (221411) (431111) (111224) (111422) (121124) (121421) (141122) (141221) (112214) (112412) (122114) (122411) (142112) (142211) (241211) (221114) (413111) (241112) (134111) (111242) (121142) (121241) (114212) (124112) (124211) (411212) (421112) (421211) (212141) (214121) (412121) (111143) (111341) (131141) (114113) (114311) (411113) (411311) (113141) (114131) (311141) (411131) (211412) (211214) (211232) (211133) ] def % Start/stop character encodings /startencs [ (3211) (2221) (2122) (1411) (1132) (1231) (1114) (3112) (3211) (2221) (2122) (1411) (1132) (1231) (1114) (3112) ] def /stopencsodd [ (3211) (2221) (2122) (1411) (1132) (1231) (1114) (3112) (1132) (1231) (1114) (3112) (3211) (2221) (2122) (1411) ] def /stopencseven [ (2122) (1411) (1132) (1231) (1114) (3112) (1132) (1231) (1114) (3112) (3211) (2221) (2122) (1411) (3211) (2221) ] def } ctxdef pos -1 eq pos 10 idiv 2 mod 1 eq or { /stopencs stopencsodd def } { /stopencs stopencseven def } ifelse % Derive the bits for each row /rowbits r array def 0 1 r 1 sub { /i exch def /sbs [ 10 startencs i get {48 sub} forall 1 cws i 5 mul 5 getinterval { encs exch get {48 sub} forall } forall stopencs i get {48 sub} forall 1 ] def mark 1 sbs {1 index 0 eq {{1}} {{0}} ifelse repeat} forall counttomark 1 sub array astore exch pop exch pop rowbits i 3 -1 roll put } for % Populate the bitmap /pixs [ 81 sepheight mul {1} repeat 0 1 r 2 sub { /i exch def rowheight {rowbits i get aload pop} repeat sepheight {10 {0} repeat 70 {1} repeat 0} repeat } for rowheight {rowbits r 1 sub get aload pop} repeat 81 sepheight mul {1} repeat ] def % Return the arguments << /ren //renmatrix /pixs pixs /pixx 81 /pixy pixs length 81 idiv /height pixs length 81 idiv 72 div /width 81 72 div /opt options >> dontdraw not //renmatrix if //unloadctx exec end } [/barcode] {null def} forall bind def /code16k dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER code16k-- % --BEGIN ENCODER code49-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix-- % --DESC: Code 49 % --EXAM: MULTIPLE ROWS IN CODE 49 % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp code49 0.0 2022082100 261468 264326 %%BeginData: 1063 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /code49 { 20 dict begin /options exch def /barcode exch def /ctx null def /dontdraw false def /mode -1 def /pos -1 def /rows 0 def /rowheight 8 def /sepheight 1 def /parse false def /parsefnc false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /mode mode cvi def /pos pos cvi def /rows rows cvi def /rowheight rowheight cvi def /sepheight sepheight cvi def /code49 //loadctx exec { /s1 -1 def /s2 -2 def /fn1 -3 def /fn2 -4 def /fn3 -5 def /ns -6 def } ctxdef % Parse the input /fncvals << /parse parse /parsefnc parsefnc (FNC1) fn1 (FNC2) fn2 (FNC3) fn3 >> def /msg barcode fncvals //parseinput exec def /msglen msg length def { % Character encodings /charmap [ (0) (1) (2) (3) (4) (5) (6) (7) (8) (9) (A) (B) (C) (D) (E) (F) (G) (H) (I) (J) (K) (L) (M) (N) (O) (P) (Q) (R) (S) (T) (U) (V) (W) (X) (Y) (Z) (-) (.) ( ) ($) (/) (+) (%) s1 s2 fn1 fn2 fn3 ns ] def % Invert charmap to give character to value map /charvals 49 dict def 0 1 48 { /i exch def charmap i get dup type /stringtype eq {0 get} if % convert string to ASCII if required charvals exch i put } for % Shifted character encodings /combos [ (1 ) (1A) (1B) (1C) (1D) (1E) (1F) (1G) (1H) (1I) (1J) (1K) (1L) (1M) (1N) (1O) (1P) (1Q) (1R) (1S) (1T) (1U) (1V) (1W) (1X) (1Y) (1Z) (11) (12) (13) (14) (15) ( ) (16) (17) (18) ( $) ( %) (19) (10) (1-) (1.) (1$) ( +) (1/) ( -) ( .) ( /) ( 0) ( 1) ( 2) ( 3) ( 4) ( 5) ( 6) ( 7) ( 8) ( 9) (1+) (21) (22) (23) (24) (25) (26) ( A) ( B) ( C) ( D) ( E) ( F) ( G) ( H) ( I) ( J) ( K) ( L) ( M) ( N) ( O) ( P) ( Q) ( R) ( S) ( T) ( U) ( V) ( W) ( X) ( Y) ( Z) (27) (28) (29) (20) (2-) (2.) (2A) (2B) (2C) (2D) (2E) (2F) (2G) (2H) (2I) (2J) (2K) (2L) (2M) (2N) (2O) (2P) (2Q) (2R) (2S) (2T) (2U) (2V) (2W) (2X) (2Y) (2Z) (2$) (2/) (2+) (2%) (2 ) ] def 0 1 127 { /i exch def combos i get dup 0 get /c1 exch def 1 get /c2 exch def c1 49 eq { % s1 char charvals i [ charvals s1 get charvals c2 get ] put } if c1 50 eq { % s2 char charvals i [ charvals s2 get charvals c2 get ] put } if } for } ctxdef /encodealpha { charvals exch get dup type /arraytype ne {1 array astore} if dup cws exch j exch putinterval length j add /j exch def } def /base48 { 0 exch {48 sub exch 10 mul add} forall [ 3 1 roll exch 1 sub {dup 48 mod exch 48 idiv} repeat ] [ exch dup length 1 sub -1 0 {1 index exch get exch} for pop ] dup cws exch j exch putinterval length j add /j exch def } def /encodenumeric { /nums exch def /pre nums length dup 5 mod dup 2 ne {sub} {sub 5 sub} ifelse def 0 5 pre 1 sub {nums exch 5 getinterval 3 exch base48} for /nums nums pre nums length pre sub getinterval def nums length dup 1 eq {nums i get encodealpha} if dup 3 eq {2 nums base48} if dup 4 eq {3 [49 48 nums aload pop] base48} if 7 eq { 3 [49 48 nums 0 4 getinterval aload pop] base48 2 nums 4 3 getinterval base48 } if } def % Pre-compute alphanumeric and numeric runlengths /numericruns [ msglen {0} repeat 0 ] def msglen 1 sub -1 0 { /i exch def msg i get dup 48 ge exch 57 le and { numericruns i numericruns i 1 add get 1 add put } { numericruns i 0 put } ifelse } for % Autoselect mode mode -1 eq { { % common exit pos -1 ne {/mode 3 def exit} if numericruns 0 get 5 ge {/mode 2 def exit} if charvals msg 0 get get dup type /arraytype ne {pop /mode 0 def exit} if 0 get 43 eq {4} {5} ifelse /mode exch def exit } loop } if /cws msglen 2 mul 1 add array def /method (alpha) def /i -1 def /j -1 def { /posval [ 12 22 13 23 33 14 24 34 44 15 25 35 45 55 16 26 36 46 56 66 17 27 37 47 57 67 77 18 28 38 48 58 68 78 88 19 29 39 49 59 69 79 89 99 ] def } ctxdef % Handle start for each mode mode 0 eq mode 1 eq or {/method (alpha) def /i 0 def /j 0 def} if mode 2 eq {/method (numeric) def /i 0 def /j 0 def} if mode 3 eq { cws 0 0 1 43 {dup posval exch get pos ne {pop} if} for 1 add put /method (alpha) def /i 0 def /j 1 def } if mode 4 eq mode 5 eq or { cws 0 charvals msg 0 get get 1 get put /method (alpha) def /i 1 def /j 1 def } if % Encode remainder { i msglen eq {exit} if { % not a loop but common exit point method (alpha) eq { numericruns i get 5 ge { ns encodealpha /method (numeric) def exit } if msg i get encodealpha /i i 1 add def exit } if method (numeric) eq { numericruns i get 5 lt { ns encodealpha /method (alpha) def exit } if msg i numericruns i get getinterval encodenumeric /i i numericruns i get add def exit } if } loop } loop /cws cws 0 j getinterval def % Basic metrics for the each symbol % r dcws { /metrics [ [ 2 9 ] [ 3 16 ] [ 4 23 ] [ 5 30 ] [ 6 37 ] [ 7 42 ] [ 8 49 ] ] def } ctxdef % Select metrics of an appropriate symbol /urows rows def /i 0 def { % loop /m metrics i get def /r m 0 get def % Columns in symbol /dcws m 1 get def % Data codewords in symbol /okay true def urows 0 ne urows r ne and {/okay false def} if cws length dcws gt {/okay false def} if okay {exit} if /i i 1 add def } loop % Extend cws to ncws codewords by addition of pad characters /cws [ cws aload pop dcws cws length sub {48} repeat ] def % Populate code character array and add row check characters /ccs r 8 mul array def /j 0 def 0 1 r 2 sub { /i exch def /cc cws j 7 getinterval def ccs i 8 mul cc putinterval ccs i 8 mul 7 add 0 cc {add} forall 49 mod put /j j 7 add def } for j dcws lt { ccs ccs length 8 sub cws j dcws j sub getinterval putinterval } if % Place row count character /cr7 r 2 sub 7 mul mode add def ccs ccs length 2 sub cr7 put % Calculate the symbol check characters { [ 1 9 31 26 2 12 17 23 37 18 22 6 27 44 15 43 39 11 13 5 41 33 36 8 4 32 3 19 40 25 29 10 24 30 ] dup [ exch 20 exch 0 32 getinterval aload pop ] /weightx exch def dup [ exch 16 exch 1 32 getinterval aload pop ] /weighty exch def [ exch 38 exch 2 32 getinterval aload pop ] /weightz exch def } ctxdef /calccheck { /weights exch def /score 0 def 0 1 r 1 sub 8 mul 2 idiv 1 sub { /i exch def ccs i 2 mul get 49 mul ccs i 2 mul 1 add get add weights i 1 add get mul /score exch score add def } for score } def /lastrow ccs ccs length 8 sub 8 getinterval def % wr1 check character r 7 ge { cr7 weightz 0 get mul weightz calccheck add 2401 mod dup 49 idiv exch 49 mod 2 array astore lastrow 0 3 -1 roll putinterval } if /wr1 lastrow 0 get 49 mul lastrow 1 get add def % wr2 check character cr7 weighty 0 get mul weighty calccheck add wr1 weighty r 4 mul 3 sub get mul add 2401 mod dup /wr2 exch def dup 49 idiv exch 49 mod 2 array astore lastrow 2 3 -1 roll putinterval % wr3 check character cr7 weightx 0 get mul weightx calccheck add wr1 weightx r 4 mul 3 sub get mul add wr2 weightx r 4 mul 2 sub get mul add 2401 mod dup 49 idiv exch 49 mod 2 array astore lastrow 4 3 -1 roll putinterval % Place last row check character ccs ccs length 8 sub 7 getinterval 0 exch {add} forall 49 mod ccs ccs length 1 sub 3 -1 roll put { /patterns [ [ % Even parity (11521132) (25112131) (14212132) (25121221) (14221222) (12412132) (23321221) (12421222) (21521221) (15112222) (15121312) (13312222) (24221311) (13321312) (11512222) (22421311) (11521312) (25112311) (14212312) (23312311) (12412312) (21512311) (16121131) (14321131) (12521131) (15212131) (15221221) (13412131) (13421221) (11612131) (16112221) (16121311) (14312221) (14321311) (12512221) (12521311) (15212311) (13412311) (11612311) (11131135) (31131133) (51131131) (21122134) (41122132) (21131224) (41131222) (11113135) (31113133) (51113131) (11122225) (31122223) (51122221) (11131315) (31131313) (51131311) (21113224) (41113222) (21122314) (41122312) (11113315) (31113313) (51113311) (12131134) (32131132) (21231133) (41231131) (22122133) (42122131) (11222134) (22131223) (42131221) (11231224) (31231222) (12113134) (32113132) (12122224) (32122222) (12131314) 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(1111) (0000) ] def } ctxdef % Derive the bits for each row /rowbits r array def 0 1 r 1 sub { /i exch def /p i r 1 sub ne {parity i get} {(0000)} ifelse def /ccrow ccs i 8 mul 8 getinterval def /scrow [ 0 2 7 {ccrow exch 2 getinterval aload pop exch 49 mul add} for ] def /sbs [ 10 1 1 0 1 3 { /j exch def patterns p j get 48 sub get scrow j get get {48 sub} forall } for 4 1 ] def mark 1 sbs {1 index 0 eq {{1}} {{0}} ifelse repeat} forall counttomark 1 sub array astore exch pop exch pop rowbits i 3 -1 roll put } for % Populate the bitmap /pixs [ 81 sepheight mul {1} repeat 0 1 r 2 sub { /i exch def rowheight {rowbits i get aload pop} repeat sepheight {10 {0} repeat 70 {1} repeat 0} repeat } for rowheight {rowbits r 1 sub get aload pop} repeat 81 sepheight mul {1} repeat ] def % Return the arguments << /ren //renmatrix /pixs pixs /pixx 81 /pixy pixs length 81 idiv /height pixs length 81 idiv 72 div /width 81 72 div /opt options >> dontdraw not //renmatrix if //unloadctx exec end } [/barcode] {null def} forall bind def /code49 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER code49-- % --BEGIN ENCODER channelcode-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: Channel Code % --EXAM: 3493 % --EXOP: height=0.5 includetext % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp channelcode 0.0 2022082100 132918 128171 %%BeginData: 262 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /channelcode { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /shortfinder false def /includetext false def /includecheck false def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /height height cvr def /channelcode //loadctx exec % Validate the input barcode length 2 lt barcode length 7 gt or { /bwipp.channelcodeBadLength (Channel Code must be 2 to 7 digits) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.channelcodeBadCharacter (Channel Code must contain only digits) //raiseerror exec } if } forall barcode cvi [ 26 292 3493 44072 576688 7742862 ] barcode length 2 sub get gt { /bwipp.channelcodeTooBig (The Channel Code value is too big for the number of channels) //raiseerror exec } if % Tail-call optimisation FTW! /loops1 { /s2max s1max 1 add s1 sub def /b1 1 def s1 1 eq {nextb1} {loopb1} ifelse } def /loopb1 { /b2max b1max 1 add b1 sub def /s2 1 def loops2 } def /loops2 { /s3max s2max 1 add s2 sub def /b2 1 def s1 b1 add s2 add 3 eq {nextb2} {loopb2} ifelse } def /loopb2 { /b3max b2max 1 add b2 sub def /s3 1 def loops3 } def /loops3 { /s4max s3max 1 add s3 sub def /b3 1 def b1 s2 add b2 add s3 add 4 eq {nextb3} {loopb3} ifelse } def /loopb3 { /b4max b3max 1 add b3 sub def /s4 1 def loops4 } def /loops4 { /s5max s4max 1 add s4 sub def /b4 1 def b2 s3 add b3 add s4 add 4 eq {nextb4} {loopb4} ifelse } def /loopb4 { /b5max b4max 1 add b4 sub def /s5 1 def loops5 } def /loops5 { /s6max s5max 1 add s5 sub def /b5 1 def b3 s4 add b4 add s5 add 4 eq {nextb5} {loopb5} ifelse } def /loopb5 { /b6max b5max 1 add b5 sub def /s6 1 def loops6 } def /loops6 { /s7max s6max 1 add s6 sub def /b6 1 def b4 s5 add b5 add s6 add 4 eq {nextb6} {loopb6} ifelse } def /loopb6 { /b7max b6max 1 add b6 sub def /s7 1 def loops7 } def /loops7 { /s8 s7max 1 add s7 sub def /b7 1 def b5 s6 add b6 add s7 add 4 eq {nextb7} {loopb7} ifelse } def /loopb7 { /b8 b7max 1 add b7 sub def b6 s7 add b7 add s8 add b8 add 5 eq {nextb7} {chkchr} ifelse } def /chkchr { value target eq { [s1 b1 s2 b2 s3 b3 s4 b4 s5 b5 s6 b6 s7 b7 s8 b8] exit } if /value value 1 add def nextb7 } def /nextb7 { /b7 b7 1 add def b7 b7max le {loopb7} {nexts7} ifelse } def /nexts7 { /s7 s7 1 add def s7 s7max le {loops7} {nextb6} ifelse } def /nextb6 { /b6 b6 1 add def b6 b6max le {loopb6} {nexts6} ifelse } def /nexts6 { /s6 s6 1 add def s6 s6max le {loops6} {nextb5} ifelse } def /nextb5 { /b5 b5 1 add def b5 b5max le {loopb5} {nexts5} ifelse } def /nexts5 { /s5 s5 1 add def s5 s5max le {loops5} {nextb4} ifelse } def /nextb4 { /b4 b4 1 add def b4 b4max le {loopb4} {nexts4} ifelse } def /nexts4 { /s4 s4 1 add def s4 s4max le {loops4} {nextb3} ifelse } def /nextb3 { /b3 b3 1 add def b3 b3max le {loopb3} {nexts3} ifelse } def /nexts3 { /s3 s3 1 add def s3 s3max le {loops3} {nextb2} ifelse } def /nextb2 { /b2 b2 1 add def b2 b2max le {loopb2} {nexts2} ifelse } def /nexts2 { /s2 s2 1 add def s2 s2max le {loops2} {nextb1} ifelse } def /nextb1 { /b1 b1 1 add def b1 b1max le {loopb1} {nexts1} ifelse } def /nexts1 { /s1 s1 1 add def s1 s1max le {loops1} if } def { /memo [ % Accelerate generation of bar patterns [ % CH3 [ 0 [1 1 1 1 1 2 1 2] [1 1 1 1 1 1 1 3] [1 1 1 1 1 3 2] [1 1 1 1 1 3 3] ] ] [ % CH4 [ 0 [1 1 1 1 2 1 1 3] [1 1 1 1 1 1 1 4] [1 1 1 1 4 3 3] [1 1 1 1 4 4 4] ] ] [ % CH5 [ 0 [1 1 1 2 1 1 2 3] [1 1 1 1 1 1 1 5] [1 1 1 5 4 4 4] [1 1 1 5 5 5 5] ] ] [ % CH6 [ 0 [1 1 2 1 1 2 1 4] [1 1 1 1 1 1 1 6] [1 1 6 5 5 5 4] [1 1 6 6 6 6 6] ] ] [ % CH7 [ 0 [1 2 1 1 2 1 1 5] [1 1 1 1 1 1 1 7] [1 7 6 6 6 5 5] [1 7 7 7 7 7 7] ] [ 150000 [1 3 1 1 2 4 1 1] [1 1 3 1 2 3 2 1] [1 7 5 5 5 4 1] [1 7 7 5 5 4 2] ] [ 300000 [1 1 4 2 1 1 1 3] [1 2 4 1 1 1 2 2] [1 7 7 4 3 3 3] [1 7 6 3 3 3 3] ] [ 450000 [1 1 4 1 1 4 1 1] [1 3 2 1 2 1 2 2] [1 7 7 4 4 4 1] [1 7 5 4 4 3 3] ] ] [ % CH8 [ 0 [2 1 1 2 1 1 2 5] [1 1 1 1 1 1 1 8] [8 7 7 7 6 6 6] [8 8 8 8 8 8 8] ] [ 150000 [2 1 1 2 1 1 5 2] [1 1 2 1 5 2 1 2] [8 7 7 7 6 6 6] [8 8 8 7 7 3 2] ] [ 300000 [2 1 1 4 2 2 2 1] [1 1 4 2 1 2 1 3] [8 7 7 7 4 3 2] [8 8 8 5 4 4 3] ] [ 450000 [2 2 2 1 1 3 1 3] [1 1 2 1 1 2 4 3] [8 7 6 5 5 5 3] [8 8 8 7 7 7 6] ] [ 600000 [2 3 1 1 4 2 1 1] [1 1 3 1 3 1 2 3] [8 7 5 5 5 2 1] [8 8 8 6 6 4 4] ] [ 750000 [2 1 3 1 2 3 2 1] [1 2 1 1 3 4 1 2] [8 7 7 5 5 4 2] [8 8 7 7 7 5 2] ] [ 900000 [2 2 1 4 1 2 2 1] [1 2 1 2 1 5 1 2] [8 7 6 6 3 3 2] [8 8 7 7 6 6 2] ] [ 1050000 [2 4 1 1 1 2 2 2] [1 2 1 2 1 3 1 4] [8 7 4 4 4 4 3] [8 8 7 7 6 6 4] ] [ 1200000 [2 2 1 5 2 1 1 1] [1 3 1 3 2 1 1 3] [8 7 6 6 2 1 1] [8 8 6 6 4 3 3] ] [ 1350000 [2 2 1 3 3 1 1 2] [1 4 1 2 1 1 4 1] [8 7 6 6 4 2 2] [8 8 5 5 4 4 4] ] [ 1500000 [3 1 2 2 2 1 1 3] [1 1 1 1 2 2 4 3] [8 6 6 5 4 3 3] [8 8 8 8 8 7 6] ] [ 1650000 [3 2 1 2 3 1 2 1] [1 1 1 1 3 2 4 2] [8 6 5 5 4 2 2] [8 8 8 8 8 6 5] ] [ 1800000 [3 1 1 3 2 3 1 1] [1 2 1 1 3 4 2 1] [8 6 6 6 4 3 1] [8 8 7 7 7 5 2] ] [ 1950000 [3 2 1 2 1 2 2 2] [1 2 4 1 2 2 1 2] [8 6 5 5 4 4 3] [8 8 7 4 4 3 2] ] [ 2100000 [3 1 2 1 4 2 1 1] [1 4 1 2 1 1 2 3] [8 6 6 5 5 2 1] [8 8 5 5 4 4 4] ] [ 2250000 [4 1 1 4 1 1 2 1] [1 1 4 2 1 1 1 4] [8 5 5 5 2 2 2] [8 8 8 5 4 4 4] ] [ 2400000 [4 3 1 2 1 2 1 1] [1 2 4 2 2 2 1 1] [8 5 3 3 2 2 1] [8 8 7 4 3 2 1] ] [ 2550000 [5 1 1 1 1 1 3 2] [1 2 2 4 3 1 1 1] [8 4 4 4 4 4 4] [8 8 7 6 3 1 1] ] [ 2700000 [1 1 3 6 1 1 1 1] [2 1 1 2 1 1 6 1] [8 8 8 6 1 1 1] [8 7 7 7 6 6 6] ] [ 2850000 [1 1 1 2 2 3 2 3] [2 1 3 3 2 1 1 2] [8 8 8 8 7 6 4] [8 7 7 5 3 2 2] ] [ 3000000 [1 2 3 3 3 1 1 1] [2 1 1 1 5 1 2 2] [8 8 7 5 3 1 1] [8 7 7 7 7 3 3] ] [ 3150000 [1 3 1 2 2 2 3 1] [2 1 1 3 2 1 3 2] [8 8 6 6 5 4 3] [8 7 7 7 5 4 4] ] [ 3300000 [1 5 1 1 3 1 1 2] [2 1 1 4 3 2 1 1] [8 8 4 4 4 2 2] [8 7 7 7 4 2 1] ] [ 3450000 [1 1 2 2 2 5 1 1] [2 2 2 2 3 1 1 2] [8 8 8 7 6 5 1] [8 7 6 5 4 2 2] ] [ 3600000 [1 2 1 1 3 4 2 1] [2 2 3 1 1 1 2 3] [8 8 7 7 7 5 2] [8 7 6 4 4 4 4] ] [ 3750000 [1 1 2 1 1 5 3 1] [2 3 1 1 4 1 2 1] [8 8 8 7 7 7 3] [8 7 5 5 5 2 2] ] [ 3900000 [1 3 1 2 4 2 1 1] [2 3 3 1 1 1 2 2] [8 8 6 6 5 2 1] [8 7 5 3 3 3 3] ] [ 4050000 [1 3 1 2 3 1 2 2] [2 6 2 1 1 1 1 1] [8 8 6 6 5 3 3] [8 7 2 1 1 1 1] ] [ 4200000 [2 1 1 2 1 2 2 4] [2 1 3 1 3 3 1 1] [8 7 7 7 6 6 5] [8 7 7 5 5 3 1] ] [ 4350000 [2 2 1 4 1 2 2 1] [2 1 4 1 3 1 2 1] [8 7 6 6 3 3 2] [8 7 7 4 4 2 2] ] [ 4500000 [2 1 1 1 2 1 3 4] [2 2 2 1 2 1 3 2] [8 7 7 7 7 6 6] [8 7 6 5 5 4 4] ] [ 4650000 [2 4 2 1 2 2 1 1] [2 2 2 1 2 1 2 3] [8 7 4 3 3 2 1] [8 7 6 5 5 4 4] ] [ 4800000 [2 3 2 1 1 2 2 2] [2 4 1 2 1 1 3 1] [8 7 5 4 4 4 3] [8 7 4 4 3 3 3] ] [ 4950000 [3 2 2 1 2 1 1 3] [2 1 1 2 1 1 1 6] [8 6 5 4 4 3 3] [8 7 7 7 6 6 6] ] [ 5100000 [3 2 1 1 1 3 3 1] [2 2 3 2 1 1 3 1] [8 6 5 5 5 5 3] [8 7 6 4 3 3 3] ] [ 5250000 [4 1 2 1 2 2 1 2] [2 1 4 1 2 1 1 3] [8 5 5 4 4 3 2] [8 7 7 4 4 3 3] ] [ 5400000 [5 1 2 1 2 1 1 2] [2 2 1 1 4 1 3 1] [8 4 4 3 3 2 2] [8 7 6 6 6 3 3] ] [ 5550000 [1 1 4 4 1 2 1 1] [3 1 2 1 1 3 2 2] [8 8 8 5 2 2 1] [8 6 6 5 5 5 3] ] [ 5700000 [1 2 1 1 2 1 3 4] [3 1 4 1 2 2 1 1] [8 8 7 7 7 6 6] [8 6 6 3 3 2 1] ] [ 5850000 [1 1 3 3 2 2 2 1] [3 2 1 1 2 1 4 1] [8 8 8 6 4 3 2] [8 6 5 5 5 4 4] ] [ 6000000 [1 4 3 1 1 2 1 2] [3 2 2 1 2 2 1 2] [8 8 5 3 3 3 2] [8 6 5 4 4 3 2] ] [ 6150000 [2 1 1 4 1 2 1 3] [3 1 1 2 1 2 1 4] [8 7 7 7 4 4 3] [8 6 6 6 5 5 4] ] [ 6300000 [2 2 2 1 3 2 2 1] [3 1 4 1 3 1 1 1] [8 7 6 5 5 3 2] [8 6 6 3 3 1 1] ] [ 6450000 [2 5 1 3 1 1 1 1] [3 2 1 1 2 3 1 2] [8 7 3 3 1 1 1] [8 6 5 5 5 4 2] ] [ 6600000 [3 2 3 1 2 1 2 1] [3 1 3 2 2 1 1 2] [8 6 5 3 3 2 2] [8 6 6 4 3 2 2] ] [ 6750000 [4 1 2 2 1 1 3 1] [3 2 1 3 1 1 3 1] [8 5 5 4 3 3 3] [8 6 5 5 3 3 3] ] [ 6900000 [1 2 1 4 2 2 2 1] [4 1 1 2 2 2 2 1] [8 8 7 7 4 3 2] [8 5 5 5 4 3 2] ] [ 7050000 [1 2 5 2 1 2 1 1] [4 2 1 3 2 1 1 1] [8 8 7 3 2 2 1] [8 5 4 4 2 1 1] ] [ 7200000 [2 2 2 1 3 1 3 1] [4 1 3 1 3 1 1 1] [8 7 6 5 5 3 3] [8 5 5 3 3 1 1] ] [ 7350000 [3 1 4 2 1 1 1 2] [4 2 2 1 1 1 2 2] [8 6 6 3 2 2 2] [8 5 4 3 3 3 3] ] [ 7500000 [1 1 1 4 1 1 3 3] [5 2 1 2 2 1 1 1] [8 8 8 8 5 5 5] [8 4 3 3 2 1 1] ] [ 7650000 [5 2 1 2 1 2 1 1] [5 2 2 1 1 2 1 1] [8 4 3 3 2 2 1] [8 4 3 2 2 2 1] ] ] ] def } ctxdef /encode { /chan exch def /target exch def % Lookup memoized starting value close to the target memo chan 3 sub get { /m exch def m 0 get target gt {exit} if /mv m 0 get def /mb m 1 get def /ms m 2 get def /mbmax m 3 get def /msmax m 4 get def } forall /value mv def mb aload pop [/b8 /b7 /b6 /b5 /b4 /b3 /b2 /b1] {exch def} forall ms aload pop [/s8 /s7 /s6 /s5 /s4 /s3 /s2 /s1] {exch def} forall mbmax aload pop [/b7max /b6max /b5max /b4max /b3max /b2max /b1max] {exch def} forall msmax aload pop [/s7max /s6max /s5max /s4max /s3max /s2max /s1max] {exch def} forall 1 {chkchr} repeat 8 chan sub 2 mul dup 16 exch sub getinterval } def /barlen barcode length def % Determine finder /finder shortfinder { [ 1 1 1 1 1 ] } { [ 1 1 1 1 1 1 1 1 1 ] } ifelse def % Encode the main data /data barcode cvi barlen 1 add encode def % Determine check data { /mod23map [ [] [] [ 13 12 4 9 3 1 ] [ 8 2 12 3 18 16 4 1 ] [ 11 16 17 8 20 4 10 2 5 1 ] [ 1 4 16 18 3 12 2 8 9 13 6 1 ] [ 20 16 22 13 15 12 5 4 17 9 21 3 7 1 ] [ 2 6 18 8 1 3 9 4 12 13 16 2 6 18 8 1 ] ] def } ctxdef /check [] def includecheck { /mod23 mod23map barlen get def 0 0 1 data length 1 sub { dup data exch get 1 sub exch mod23 exch get mul add } for 23 mod 3 encode /check exch def } if % Construct the symbol /sbs [ finder aload pop data aload pop check aload pop ] def % Create the human readable text /txt barlen array def 0 1 barlen 1 sub { /i exch def txt i [barcode i 1 getinterval 0 0 () 0] put } for % Return the arguments << /ren //renlinear /sbs sbs /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] /txt txt /textxalign (center) /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /channelcode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER channelcode-- % --BEGIN ENCODER flattermarken-- % --REQUIRES preamble loadctx unloadctx raiseerror renlinear-- % --DESC: Flattermarken % --EXAM: 11099 % --EXOP: inkspread=-0.25 showborder borderleft=0 borderright=0 % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp flattermarken 0.0 2022082100 63195 59686 %%BeginData: 104 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /flattermarken { 20 dict begin % Confine variable to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /includetext false def % Enable/disable text /textfont /Courier def /textsize 10 def /textyoffset -7 def /height 0.3 def % Validate the input barcode { dup 48 lt exch 57 gt or { /bwipp.flattermarkenBadCharacter (Flattermarken must contain only digits) //raiseerror exec } if } forall % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /textfont textfont cvlit def /textsize textsize cvr def /textyoffset textyoffset cvr def /height height cvr def /flattermarken //loadctx exec % Validate the input barcode { dup 48 lt exch 57 gt or { /bwipp.flattermarkenBadCharacter (Flattermarken must contain only digits) //raiseerror exec } if } forall { % Create an array containing the character mappings /encs [ (0018) (0117) (0216) (0315) (0414) (0513) (0612) (0711) (0810) (0900) ] def % Create a string of the available characters /barchars (1234567890) def } ctxdef /barlen barcode length def % Length of the code /sbs barlen 4 mul string def /txt barlen array def 0 1 barlen 1 sub { /i exch def % Lookup the encoding for the each barcode character barcode i 1 getinterval barchars exch search pop % Discard true leaving pre length /indx exch def % indx is the length of pre pop pop % Discard seek and post /enc encs indx get def % Get the indxth encoding sbs i 4 mul enc putinterval % Put encoded digit into sbs txt i [barcode i 1 getinterval i 9 mul textyoffset textfont textsize] put } for % Return the arguments << /ren //renlinear /sbs [sbs {48 sub} forall] /bhs [sbs length 1 add 2 idiv {height} repeat] /bbs [sbs length 1 add 2 idiv {0} repeat] /txt txt /opt options >> dontdraw not //renlinear if //unloadctx exec end } [/barcode] {null def} forall bind def /flattermarken dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER flattermarken-- % --BEGIN ENCODER raw-- % --REQUIRES preamble raiseerror renlinear-- % --DESC: Custom 1D symbology % --EXAM: 331132131313411122131311333213114131131221323 % --EXOP: height=0.5 % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp raw 0.0 2022082100 49590 49483 %%BeginData: 55 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /raw { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /height 1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /height height cvr def % Validate input barcode { dup 49 lt exch 57 gt or { /bwipp.rawBadCharacter (Raw must contain only digits 1 to 9) //raiseerror exec } if } forall % Return the arguments << /ren //renlinear /sbs [barcode {48 sub} forall] /bhs [barcode length 1 add 2 idiv {height} repeat] /bbs [barcode length 1 add 2 idiv {0} repeat] /opt options >> dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /raw dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER raw-- % --BEGIN ENCODER daft-- % --REQUIRES preamble raiseerror renlinear-- % --DESC: Custom 4 state symbology % --EXAM: FATDAFTDAD % --EXOP: % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp daft 0.0 2022082100 52828 52694 %%BeginData: 79 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /daft { 20 dict begin /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /height 0.175 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /height height cvr def barcode { dup 68 ne exch dup 65 ne exch dup 70 ne exch 84 ne and and and { /bwipp.daftBadCharacter (DAFT must contain only characters D, A, F and T) //raiseerror exec } if } forall /barlen barcode length def /bbs barlen array def /bhs barlen array def 0 1 barlen 1 sub { /i exch def /enc barcode i 1 getinterval def enc (D) eq { bbs i 0 height mul 8 div put bhs i 5 height mul 8 div put } if enc (A) eq { bbs i 3 height mul 8 div put bhs i 5 height mul 8 div put } if enc (F) eq { bbs i 0 height mul 8 div put bhs i 8 height mul 8 div put } if enc (T) eq { bbs i 3 height mul 8 div put bhs i 2 height mul 8 div put } if } for % Return the arguments << /ren //renlinear /bbs bbs /bhs bhs /sbs [bhs length 1 sub {1.44 1.872} repeat 1.44] /opt options >> dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /daft dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER daft-- % --BEGIN ENCODER symbol-- % --REQUIRES preamble raiseerror renlinear-- % --DESC: Miscellaneous symbols % --EXAM: fima % --EXOP: backgroundcolor=DD000011 % --RNDR: renlinear %%BeginResource: uk.co.terryburton.bwipp symbol 0.0 2022082100 53420 53349 %%BeginData: 80 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put begin /symbol { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /symbols << /fima { /sbs [2.25 2.25 2.25 11.25 2.25 11.25 2.25 2.25 2.25] def /bhs [.625 .625 .625 .625 .625] def /bbs [0 0 0 0 0] def } bind /fimb { /sbs [2.25 6.75 2.25 2.25 2.25 6.25 2.25 2.25 2.25 6.75 2.25] def /bhs [.625 .625 .625 .625 .625 .625] def /bbs [0 0 0 0 0 0] def } bind /fimc { /sbs [2.25 2.25 2.25 6.75 2.25 6.75 2.25 6.75 2.25 2.25 2.25] def /bhs [.625 .625 .625 .625 .625 .625] def /bbs [0 0 0 0 0 0] def } bind /fimd { /sbs [2.25 2.25 2.25 2.25 2.25 6.75 2.25 6.75 2.25 2.25 2.25 2.25 2.25] def /bhs [.625 .625 .625 .625 .625 .625 .625] def /bbs [0 0 0 0 0 0 0] def } bind /fime { /sbs [2.25 6.75 2.25 15.75 2.25 6.75 2.25] def /bhs [.625 .625 .625 .625 .625 .625 .625] def /bbs [0 0 0 0 0 0 0] def } bind >> def % Valiate input symbols barcode known not { /bwipp.symbolUnknownSymbol (Unknown symbol name provided) //raiseerror exec } if symbols barcode get exec % Return the arguments << /ren //renlinear /sbs sbs /bhs bhs /bbs bbs /opt options >> dontdraw not //renlinear if end } [/barcode] {null def} forall bind def /symbol dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER symbol-- % --BEGIN ENCODER pdf417-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix-- % --DESC: PDF417 % --EXAM: This is PDF417 % --EXOP: columns=2 % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp pdf417 0.0 2022082100 202024 204168 %%BeginData: 911 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /pdf417 { 20 dict begin /options exch def /barcode exch def /ctx null def /dontdraw false def /compact false def /eclevel -1 def /columns 0 def /rows 0 def /rowmult 3 def /encoding (auto) def /ccc false def /raw false def /parse false def /parsefnc false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /eclevel eclevel cvi def /columns columns cvi def /rows rows cvi def /rowmult rowmult cvr def /pdf417 //loadctx exec { % Modes and text submodes /T 0 def /N 1 def /B 2 def /A 0 def /L 1 def /M 2 def /P 3 def % Special function characters for mode switching /tl -1 def /nl -2 def /bl -3 def /bl6 -4 def /bs -5 def % Special function characters for text mode /al -6 def /ll -7 def /ml -8 def /pl -9 def /as -10 def /ps -11 def % Character maps for each state /charmaps [ % A L M P [ (A) (a) (0) (;) ] % 0 [ (B) (b) (1) (<) ] % 1 [ (C) (c) (2) (>) ] % 2 [ (D) (d) (3) (@) ] % 3 [ (E) (e) (4) ([) ] % 4 [ (F) (f) (5) 92 ] % 5 [ (G) (g) (6) (]) ] % 6 [ (H) (h) (7) (_) ] % 7 [ (I) (i) (8) (`) ] % 8 [ (J) (j) (9) (~) ] % 9 [ (K) (k) (&) (!) ] % 10 [ (L) (l) 13 13 ] % 11 [ (M) (m) 9 9 ] % 12 [ (N) (n) (,) (,) ] % 13 [ (O) (o) (:) (:) ] % 14 [ (P) (p) (#) 10 ] % 15 [ (Q) (q) (-) (-) ] % 16 [ (R) (r) (.) (.) ] % 17 [ (S) (s) ($) ($) ] % 18 [ (T) (t) (/) (/) ] % 19 [ (U) (u) (+) (") ] % 20 [ (V) (v) (%) (|) ] % 21 [ (W) (w) (*) (*) ] % 22 [ (X) (x) (=) 40 ] % 23 [ (Y) (y) (^) 41 ] % 24 [ (Z) (z) pl (?) ] % 25 [ ( ) ( ) ( ) ({) ] % 26 [ ll as ll (}) ] % 27 [ ml ml al (') ] % 28 [ ps ps ps al ] % 29 ] def % Invert charmaps to give character to value maps for each state /charvals [ 30 dict 30 dict 30 dict 30 dict ] def /alltext 104 dict def 0 1 charmaps length 1 sub { /i exch def /encs charmaps i get def 0 1 3 { /j exch def encs j get dup type /stringtype eq {0 get} if % convert string to ASCII if required dup charvals j get exch i put alltext exch -1 put } for } for /e 10000 def % "Empty" /latlen [ % Bit length of latch between submodes % To: A L M P From [ 0 1 1 2 ] % A [ 2 0 1 2 ] % L [ 1 1 0 1 ] % M [ 1 2 2 0 ] % P ] def /latseq [ % Latch sequences between submodes % To: A L M P From [ [] [ll] [ml] [ml pl] ] % A [ [ml al] [] [ml] [ml pl] ] % L [ [al] [ll] [] [pl] ] % M [ [al] [al ll] [al ml] [] ] % P ] def /shftlen [ % Bit length of shift to submode % To: A L M P From [ e e e 1 ] % A [ 1 e e 1 ] % L [ e e e 1 ] % M [ e e e e ] % P ] def /latchcws << tl 900 bl 901 bl6 924 nl 902 bs 913 >> def } ctxdef raw {/encoding (raw) def} if % Convert input into array of codewords encoding (raw) eq { /datcws barcode length array def /i 0 def /j 0 def { % loop i barcode length eq {exit} if /cw barcode i 1 add 3 getinterval cvi def datcws j cw put /i i 4 add def /j j 1 add def } loop /datcws datcws 0 j getinterval def } if ccc {/encoding (ccc) def} if /encb { /in exch def /inlen in length def /out inlen 6 idiv 5 mul inlen 6 mod add array def 0 1 inlen 6 idiv 1 sub { /k exch def /msbs [ in k 6 mul 3 getinterval aload pop ] def /mscs [ msbs aload pop exch 256 mul add exch 65536 mul add 3 {dup 900 mod exch 900 idiv} repeat ] def /lsbs [ in k 6 mul 3 add 3 getinterval aload pop ] def /lscs [ lsbs aload pop exch 256 mul add exch 65536 mul add 3 {dup 900 mod exch 900 idiv} repeat ] def lscs 0 get mscs 0 get 316 mul add out k 5 mul 4 add 2 index 900 mod put 900 idiv lscs 1 get add mscs 0 get 641 mul add mscs 1 get 316 mul add out k 5 mul 3 add 2 index 900 mod put 900 idiv lscs 2 get add mscs 0 get 20 mul add mscs 1 get 641 mul add mscs 2 get 316 mul add out k 5 mul 2 add 2 index 900 mod put 900 idiv lscs 3 get add mscs 1 get 20 mul add mscs 2 get 641 mul add out k 5 mul 1 add 2 index 900 mod put 900 idiv mscs 2 get 20 mul add out k 5 mul 3 -1 roll 900 mod put } for /rem inlen 6 mod def rem 0 ne { out out length rem sub [ in inlen rem sub rem getinterval aload pop ] putinterval } if out } def encoding (byte) eq encoding (ccc) eq or { /barlen barcode length def /datcws barlen 6 idiv 5 mul barlen 6 mod add 1 add array def datcws 0 barlen 6 mod 0 eq {924} {901} ifelse put datcws 1 [ barcode {} forall ] encb putinterval encoding (ccc) eq {/datcws [920 datcws aload pop] def} if } if encoding (auto) eq { % Parse the input /fncvals << /parse parse /parsefnc parsefnc /eci true % Predates FNC non-data codewords, but supports ECI >> def /msg barcode fncvals //parseinput exec def /msglen msg length def % Determine runlengths of digits /numdigits [ msglen {0} repeat 0 ] def /numtext [ msglen {0} repeat 0 ] def /numbytes [ msglen {0} repeat 0 ] def /iseci [ msglen {0} repeat 0 ] def msglen 1 sub -1 0 { /i exch def msg i get dup 48 ge exch 57 le and { numdigits i numdigits i 1 add get 1 add put } if alltext msg i get known numdigits i get 13 lt and { numtext i numtext i 1 add get 1 add put } if msg i get 0 ge numtext i get 5 lt and numdigits i get 13 lt and { numbytes i numbytes i 1 add get 1 add put } if iseci i msg i get -1000000 le put } for /numdigits numdigits 0 msglen getinterval def /numtext numtext 0 msglen getinterval def /numbytes numbytes 0 msglen getinterval def /seq [] def /seqlen 0 def /state T def /p 0 def { % loop p msglen eq {exit} if iseci p get { /eci msg p get def /seq [ seq aload pop [ eci ] ] def /p p 1 add def /seqlen seqlen eci -1810900 le {2} {eci -1000900 le {3} {2} ifelse} ifelse add def } { /n numdigits p get def n 13 ge { /seq [ seq aload pop nl [ msg p n getinterval aload pop ] ] def /state N def /p p n add def /seqlen seqlen 1 add n add def } { % next /t numtext p get def t 5 ge { /seq [ seq aload pop state T ne { tl } if [ msg p t getinterval aload pop ] ] def /state T def /p p t add def /seqlen seqlen 1 add t add def % ish } { % next /b numbytes p get def b 1 eq state T eq and { /seq [ seq aload pop bs [ msg p get ] ] def /p p b add def /seqlen seqlen 2 add def } { % next /seq [ seq aload pop b 6 mod 0 ne {bl} {bl6} ifelse [ msg p b getinterval aload pop ] ] def /state B def /p p b add def /seqlen seqlen 1 add b add def } ifelse } ifelse } ifelse } ifelse } loop % Submode encoding functions /enca {charvals A get exch get} def /encl {charvals L get exch get} def /encm {charvals M get exch get} def /encp {charvals P get exch get} def /textencfuncs [ /enca /encl /encm /encp ] def /addtotext { text exch l exch put /l l 1 add def } def /enct { /in exch def /curlen [ e e e e ] def curlen submode 0 put /curseq [ [] [] [] [] ] def % Derive the optimal sequences ending in each submode in { /char exch def % Check for optimisations in the current sequences by latching from x to y { % loop /imp false def [ A L M P ] { /x exch def [ A L M P ] { /y exch def /cost curlen x get latlen x get y get add def cost curlen y get lt { curlen y cost put curseq y [ curseq x get aload pop latseq x get y get aload pop ] put /imp true def } if } forall } forall imp not {exit} if % Repeat unless no improvement } loop % Determine optimal next sequences for each valid encoding /nxtlen [ e e e e ] def /nxtseq 4 array def [ A L M P ] { /x exch def { % loop for common exit charvals x get char known not {exit} if % Extend directly /cost curlen x get 1 add def cost nxtlen x get lt { nxtlen x cost put nxtseq x [ curseq x get aload pop char ] put } if % Optimise for direct shifts from y to x [ A L M P ] { /y exch def x y ne { /cost curlen y get shftlen y get x get add 1 add def cost nxtlen y get lt { nxtlen y cost put nxtseq y [ curseq y get aload pop x A eq {as} {ps} ifelse char ] put } if } if } forall exit } loop } forall /curlen nxtlen def /curseq nxtseq def } forall % Select the optimal sequence /minseq e def [ A L M P ] { /k exch def curlen k get minseq lt { /minseq curlen k get def /txtseq curseq k get def } if } forall % Encode the sequence /text minseq array def /k 0 def /l 0 def { k txtseq length ge {exit} if /char txtseq k get def % Encode character char textencfuncs submode get load exec addtotext /k k 1 add def % Encode shifted next character char as eq char ps eq or { txtseq k get char as eq {enca} {encp} ifelse addtotext /k k 1 add def } if % Latches to new submode char al eq {/submode A def} if char ll eq {/submode L def} if char ml eq {/submode M def} if char pl eq {/submode P def} if } loop text length 2 mod 1 eq { submode P eq { /pad al encp def /submode A def } { /pad ps textencfuncs submode get load exec def } ifelse /text [ text aload pop pad ] def } if /out text length 2 idiv array def 0 1 out length 1 sub { /k exch def out k text k 2 mul get 30 mul text k 2 mul 1 add get add put } for out } def /encn { /in exch def /out [] def 0 44 in length 1 sub { /k exch def /gmod [ 1 in k in length k sub dup 44 gt {pop 44} if getinterval {48 sub} forall ] def /cwn [] def { /dv 900 def /gmul [] def /val 0 def { gmod length 0 eq {exit} if /val val 10 mul gmod 0 get add def /gmod gmod 1 gmod length 1 sub getinterval def val dv lt { gmul length 0 ne { /gmul [ gmul aload pop 0 ] def } if } { /gmul [ gmul aload pop val dv idiv ] def } ifelse /val val dv mod def } loop /dv val def /cwn [ dv cwn aload pop ] def /gmod gmul def gmul length 0 eq {exit} if } loop /out [ out aload pop cwn aload pop ] def } for out } def /ence { 0 get neg 1000000 sub dup 000899 le { % ECI 000000 - 000899 927 exch 2 array astore } { dup 810899 le { % ECI 000900 - 810899 926 exch dup 900 idiv 1 sub exch 900 mod 3 array astore } { dup 811799 le { % ECI 810900 - 811799 925 exch 810900 sub 2 array astore } { /bwipp.pdf417badECI (PDF417 supports ECIs 000000 to 811799) //raiseerror exec } ifelse } ifelse } ifelse } def /encfuncs [ /enct /encn /encb ] def /addtocws { dup datcws j 3 -1 roll putinterval length j add /j exch def } def % Encode the sequence /state T def /submode A def /datcws seqlen array def /i 0 def /j 0 def { i seq length ge {exit} if /chars seq i get def chars type /arraytype eq { chars 0 get -1000000 le { % ECI chars ence addtocws } { % Encode data according to mode chars encfuncs state get load exec addtocws } ifelse } { % Encode the latch to new state or byte shift [ latchcws chars get ] addtocws chars tl eq {/state T def /submode A def} if chars nl eq {/state N def} if chars bl eq chars bl6 eq or {/state B def} if chars bs eq { /i i 1 add def seq i get encb addtocws } if } ifelse /i i 1 add def } loop /datcws datcws 0 j getinterval def } if % Determine the error correction level if unspecified /m datcws length def eclevel -1 eq { m 40 le {/eclevel 2 def} if m 41 ge m 160 le and {/eclevel 3 def} if m 161 ge m 320 le and {/eclevel 4 def} if m 321 ge {/eclevel 5 def} if } if % Reduce the error level so that it does not cause an excessive number of codewords /maxeclevel 928 1 sub m sub ln 2 ln div cvi 1 sub def eclevel maxeclevel gt {/eclevel maxeclevel def} if /k 2 eclevel 1 add exp cvi def % To determine size of matrix, number of columns if given by user... columns 0 eq {/columns m k add 3 div sqrt round cvi def} if /c columns 1 ge {columns} {1} ifelse def % ... and rows is greater of those required and that given by user within limits /r m k add 1 add columns div ceiling cvi def % Required r rows lt rows 90 le and {/r rows def} if r 3 lt {/r 3 def} if % Symbol cannot exceed 90 rows r 90 gt { /bwipp.pdf417insufficientCapacity (Insufficient capacity in the symbol) //raiseerror exec } if % Opportunistically raise the error level if a better fit to the matrix is possible /maxeclevel c r mul 1 sub m sub ln 2 ln div cvi 1 sub 8 2 copy gt {exch} if pop def maxeclevel eclevel gt { /eclevel maxeclevel def /k 2 eclevel 1 add exp cvi def } if % Create codewords array with one extra working space element and add padding /n c r mul k sub def /cws c r mul 1 add array def cws 0 n put cws 1 datcws putinterval cws m 1 add [ n m sub 1 sub {900} repeat ] putinterval cws n [ k {0} repeat 0 ] putinterval % Calculate the log and anti-log tables /rsalog [ 1 928 {dup 3 mul 929 mod} repeat ] def /rslog 929 array def 1 1 928 {dup rsalog exch get exch rslog 3 1 roll put} for % Function to calculate the product in the field /rsprod { 2 copy 0 ne exch 0 ne and { rslog exch get exch rslog exch get add 928 mod rsalog exch get } { pop pop 0 } ifelse } def % Generate the coefficients /coeffs [ 1 k {0} repeat ] def 1 1 k { /i exch def coeffs i coeffs i 1 sub get put i 1 sub -1 1 { /j exch def coeffs j coeffs j 1 sub get coeffs j get rsalog i get rsprod add 929 mod put } for coeffs 0 coeffs 0 get rsalog i get rsprod put } for /coeffs coeffs 0 coeffs length 1 sub getinterval def coeffs length 1 sub -2 0 {coeffs exch 2 copy get 929 exch sub put} for % Derive the error codewords 0 1 n 1 sub { /t exch cws exch get cws n get add 929 mod def 0 1 k 1 sub { /j exch def cws n j add cws n j add 1 add get 929 t coeffs k j sub 1 sub get mul 929 mod sub add 929 mod put } for } for n 1 n k add { dup cws exch 929 cws 5 -1 roll get sub 929 mod put } for % Trim the working space from the end of the codewords /cws cws 0 cws length 1 sub getinterval def options /debugcws known { /bwipp.debugcws cws //raiseerror exec } if % Base 10 encoding of the bar space successions for the codewords in each cluster { /clusters [ [ 120256 125680 128380 120032 125560 128318 108736 119920 108640 86080 108592 86048 110016 120560 125820 109792 120440 125758 88256 109680 88160 89536 110320 120700 89312 110200 120638 89200 110140 89840 110460 89720 110398 89980 128506 119520 125304 128190 107712 119408 125244 107616 119352 84032 107568 119324 84000 107544 83984 108256 119672 125374 85184 108144 119612 85088 108088 119582 85040 108060 85728 108408 119742 85616 108348 85560 108318 85880 108478 85820 85790 107200 119152 125116 107104 119096 125086 83008 107056 119068 82976 107032 82960 82952 83648 107376 119228 83552 107320 119198 83504 107292 83480 83468 83824 107452 83768 107422 83740 83900 106848 118968 125022 82496 106800 118940 82464 106776 118926 82448 106764 82440 106758 82784 106936 119006 82736 106908 82712 106894 82700 82694 106974 82830 82240 106672 118876 82208 106648 118862 82192 106636 82184 106630 82180 82352 82328 82316 82080 118830 106572 106566 82050 117472 124280 127678 103616 117360 124220 103520 117304 124190 75840 103472 75808 104160 117624 124350 76992 104048 117564 76896 103992 76848 76824 77536 104312 117694 77424 104252 77368 77340 77688 104382 77628 77758 121536 126320 128700 121440 126264 128670 111680 121392 126236 111648 121368 126222 111632 121356 103104 117104 124092 112320 103008 117048 124062 112224 121656 126366 93248 74784 102936 117006 93216 112152 93200 75456 103280 117180 93888 75360 103224 117150 93792 112440 121758 93744 75288 93720 75632 103356 94064 75576 103326 94008 112542 93980 75708 94140 75678 94110 121184 126136 128606 111168 121136 126108 111136 121112 126094 111120 121100 111112 111108 102752 116920 123998 111456 102704 116892 91712 74272 121244 116878 91680 74256 102668 91664 111372 102662 74244 74592 102840 116958 92000 74544 102812 91952 111516 102798 91928 74508 74502 74680 102878 92088 74652 92060 74638 92046 92126 110912 121008 126044 110880 120984 126030 110864 120972 110856 120966 110852 110850 74048 102576 116828 90944 74016 102552 116814 90912 111000 121038 90896 73992 102534 90888 110982 90884 74160 102620 91056 74136 102606 91032 111054 91020 74118 91014 91100 91086 110752 120920 125998 110736 120908 110728 120902 110724 110722 73888 102488 116782 90528 73872 102476 90512 110796 102470 90504 73860 90500 73858 73944 90584 90572 90566 120876 120870 110658 102444 73800 90312 90308 90306 101056 116080 123580 100960 116024 70720 100912 115996 70688 100888 70672 70664 71360 101232 116156 71264 101176 116126 71216 101148 71192 71180 71536 101308 71480 101278 71452 71612 71582 118112 124600 127838 105024 118064 124572 104992 118040 124558 104976 118028 104968 118022 100704 115896 123486 105312 100656 115868 79424 70176 118172 115854 79392 105240 100620 79376 70152 79368 70496 100792 115934 79712 70448 118238 79664 105372 100750 79640 70412 79628 70584 100830 79800 70556 79772 70542 70622 79838 122176 126640 128860 122144 126616 128846 122128 126604 122120 126598 122116 104768 117936 124508 113472 104736 126684 124494 113440 122264 126670 113424 104712 117894 113416 122246 104706 69952 100528 115804 78656 69920 100504 115790 96064 78624 104856 117966 96032 113560 122318 100486 96016 78600 104838 96008 69890 70064 100572 78768 70040 100558 96176 78744 104910 96152 113614 70022 78726 70108 78812 70094 96220 78798 122016 126552 128814 122000 126540 121992 126534 121988 121986 104608 117848 124462 113056 104592 126574 113040 122060 117830 113032 104580 113028 104578 113026 69792 100440 115758 78240 69776 100428 95136 78224 104652 100422 95120 113100 69764 95112 78212 69762 78210 69848 100462 78296 69836 95192 78284 69830 95180 78278 69870 95214 121936 126508 121928 126502 121924 121922 104528 117804 112848 104520 117798 112840 121958 112836 104514 112834 69712 100396 78032 69704 100390 94672 78024 104550 94664 112870 69698 94660 78018 94658 78060 94700 94694 126486 121890 117782 104484 104482 69672 77928 94440 69666 77922 99680 68160 99632 68128 99608 115342 68112 99596 68104 99590 68448 99768 115422 68400 99740 68376 99726 68364 68358 68536 99806 68508 68494 68574 101696 116400 123740 101664 116376 101648 116364 101640 116358 101636 67904 99504 115292 72512 67872 116444 115278 72480 101784 116430 72464 67848 99462 72456 101766 67842 68016 99548 72624 67992 99534 72600 101838 72588 67974 68060 72668 68046 72654 118432 124760 127918 118416 124748 118408 124742 118404 118402 101536 116312 105888 101520 116300 105872 118476 116294 105864 101508 105860 101506 105858 67744 99416 72096 67728 116334 80800 72080 101580 99398 80784 105932 67716 80776 72068 67714 72066 67800 99438 72152 67788 80856 72140 67782 80844 72134 67822 72174 80878 126800 128940 126792 128934 126788 126786 118352 124716 122576 126828 124710 122568 126822 122564 118338 122562 101456 116268 105680 101448 116262 114128 105672 118374 114120 122598 101442 114116 105666 114114 67664 99372 71888 67656 99366 80336 71880 101478 97232 80328 105702 67650 97224 114150 71874 97220 67692 71916 67686 80364 71910 97260 80358 97254 126760 128918 126756 126754 118312 124694 122472 126774 122468 118306 122466 101416 116246 105576 101412 113896 105572 101410 113892 105570 113890 67624 99350 71784 101430 80104 71780 67618 96744 80100 71778 96740 80098 96738 71798 96758 126738 122420 122418 105524 113780 113778 71732 79988 96500 96498 66880 66848 98968 66832 66824 66820 66992 66968 66956 66950 67036 67022 100000 99984 115532 99976 115526 99972 99970 66720 98904 69024 100056 98892 69008 100044 69000 100038 68996 66690 68994 66776 98926 69080 100078 69068 66758 69062 66798 69102 116560 116552 116548 116546 99920 102096 116588 115494 102088 116582 102084 99906 102082 66640 68816 66632 98854 73168 68808 66628 73160 68804 66626 73156 68802 66668 68844 66662 73196 68838 73190 124840 124836 124834 116520 118632 124854 118628 116514 118626 99880 115478 101992 116534 106216 101988 99874 106212 101986 106210 66600 98838 68712 99894 72936 68708 66594 81384 72932 68706 81380 72930 66614 68726 72950 81398 128980 128978 124820 126900 124818 126898 116500 118580 116498 122740 118578 122738 99860 101940 99858 106100 101938 114420 ] [ 128352 129720 125504 128304 129692 125472 128280 129678 125456 128268 125448 128262 125444 125792 128440 129758 120384 125744 128412 120352 125720 128398 120336 125708 120328 125702 120324 120672 125880 128478 110144 120624 125852 110112 120600 125838 110096 120588 110088 120582 110084 110432 120760 125918 89664 110384 120732 89632 110360 120718 89616 110348 89608 110342 89952 110520 120798 89904 110492 89880 110478 89868 90040 110558 90012 89998 125248 128176 129628 125216 128152 129614 125200 128140 125192 128134 125188 125186 119616 125360 128220 119584 125336 128206 119568 125324 119560 125318 119556 119554 108352 119728 125404 108320 119704 125390 108304 119692 108296 119686 108292 108290 85824 108464 119772 85792 108440 119758 85776 108428 85768 108422 85764 85936 108508 85912 108494 85900 85894 85980 85966 125088 128088 129582 125072 128076 125064 128070 125060 125058 119200 125144 128110 119184 125132 119176 125126 119172 119170 107424 119256 125166 107408 119244 107400 119238 107396 107394 83872 107480 119278 83856 107468 83848 107462 83844 83842 83928 107502 83916 83910 83950 125008 128044 125000 128038 124996 124994 118992 125036 118984 125030 118980 118978 106960 119020 106952 119014 106948 106946 82896 106988 82888 106982 82884 82882 82924 82918 124968 128022 124964 124962 118888 124982 118884 118882 106728 118902 106724 106722 82408 106742 82404 82402 124948 124946 118836 118834 106612 106610 124224 127664 129372 124192 127640 129358 124176 127628 124168 127622 124164 124162 117568 124336 127708 117536 124312 127694 117520 124300 117512 124294 117508 117506 104256 117680 124380 104224 117656 124366 104208 117644 104200 117638 104196 104194 77632 104368 117724 77600 104344 117710 77584 104332 77576 104326 77572 77744 104412 77720 104398 77708 77702 77788 77774 128672 129880 93168 128656 129868 92664 128648 129862 92412 128644 128642 124064 127576 129326 126368 124048 129902 126352 128716 127558 126344 124036 126340 124034 126338 117152 124120 127598 121760 117136 124108 121744 126412 124102 121736 117124 121732 117122 121730 103328 117208 124142 112544 103312 117196 112528 121804 117190 112520 103300 112516 103298 112514 75680 103384 117230 94112 75664 103372 94096 112588 103366 94088 75652 94084 75650 75736 103406 94168 75724 94156 75718 94150 75758 128592 129836 91640 128584 129830 91388 128580 91262 128578 123984 127532 126160 123976 127526 126152 128614 126148 123970 126146 116944 124012 121296 116936 124006 121288 126182 121284 116930 121282 102864 116972 111568 102856 116966 111560 121318 111556 102850 111554 74704 102892 92112 74696 102886 92104 111590 92100 74690 92098 74732 92140 74726 92134 128552 129814 90876 128548 90750 128546 123944 127510 126056 128566 126052 123938 126050 116840 123958 121064 116836 121060 116834 121058 102632 116854 111080 121078 111076 102626 111074 74216 102646 91112 74212 91108 74210 91106 74230 91126 128532 90494 128530 123924 126004 123922 126002 116788 120948 116786 120946 102516 110836 102514 110834 73972 90612 73970 90610 128522 123914 125978 116762 120890 102458 110714 123552 127320 129198 123536 127308 123528 127302 123524 123522 116128 123608 127342 116112 123596 116104 123590 116100 116098 101280 116184 123630 101264 116172 101256 116166 101252 101250 71584 101336 116206 71568 101324 71560 101318 71556 71554 71640 101358 71628 71622 71662 127824 129452 79352 127816 129446 79100 127812 78974 127810 123472 127276 124624 123464 127270 124616 127846 124612 123458 124610 115920 123500 118224 115912 123494 118216 124646 118212 115906 118210 100816 115948 105424 100808 115942 105416 118246 105412 100802 105410 70608 100844 79824 70600 100838 79816 105446 79812 70594 79810 70636 79852 70630 79846 129960 95728 113404 129956 95480 113278 129954 95356 95294 127784 129430 78588 128872 129974 95996 78462 128868 127778 95870 128866 123432 127254 124520 123428 126696 128886 123426 126692 124514 126690 115816 123446 117992 115812 122344 117988 115810 122340 117986 122338 100584 115830 104936 100580 113640 104932 100578 113636 104930 113634 70120 100598 78824 70116 96232 78820 70114 96228 78818 96226 70134 78838 129940 94968 113022 129938 94844 94782 127764 78206 128820 127762 95102 128818 123412 124468 123410 126580 124466 126578 115764 117876 115762 122100 117874 122098 100468 104692 100466 113140 104690 113138 69876 78324 69874 95220 78322 95218 129930 94588 94526 127754 128794 123402 124442 126522 115738 117818 121978 100410 104570 112890 69754 78074 94714 94398 123216 127148 123208 127142 123204 123202 115408 123244 115400 123238 115396 115394 99792 115436 99784 115430 99780 99778 68560 99820 68552 99814 68548 68546 68588 68582 127400 129238 72444 127396 72318 127394 123176 127126 123752 123172 123748 123170 123746 115304 123190 116456 115300 116452 115298 116450 99560 115318 101864 99556 101860 99554 101858 68072 99574 72680 68068 72676 68066 72674 68086 72694 129492 80632 105854 129490 80508 80446 127380 72062 127924 127378 80766 127922 123156 123700 123154 124788 123698 124786 115252 116340 115250 118516 116338 118514 99444 101620 99442 105972 101618 105970 67828 72180 67826 80884 72178 80882 97008 114044 96888 113982 96828 96798 129482 80252 130010 97148 80190 97086 127370 127898 128954 123146 123674 124730 126842 115226 116282 118394 122618 99386 101498 105722 114170 67706 71930 80378 96632 113854 96572 96542 80062 96702 96444 96414 96350 123048 123044 123042 115048 123062 115044 115042 99048 115062 99044 99042 67048 99062 67044 67042 67062 127188 68990 127186 123028 123316 123026 123314 114996 115572 114994 115570 98932 100084 98930 100082 66804 69108 66802 69106 129258 73084 73022 127178 127450 123018 123290 123834 114970 115514 116602 98874 99962 102138 66682 68858 73210 81272 106174 81212 81182 72894 81342 97648 114364 97592 114334 97564 97550 81084 97724 81054 97694 97464 114270 97436 97422 80990 97502 97372 97358 97326 114868 114866 98676 98674 66292 66290 123098 114842 115130 98618 99194 66170 67322 69310 73404 73374 81592 106334 81564 81550 73310 81630 97968 114524 97944 114510 97932 97926 81500 98012 81486 97998 97880 114478 97868 97862 81454 97902 97836 97830 69470 73564 73550 81752 106414 81740 81734 73518 81774 81708 81702 ] [ 109536 120312 86976 109040 120060 86496 108792 119934 86256 108668 86136 129744 89056 110072 129736 88560 109820 129732 88312 109694 129730 88188 128464 129772 89592 128456 129766 89340 128452 89214 128450 125904 128492 125896 128486 125892 125890 120784 125932 120776 125926 120772 120770 110544 120812 110536 120806 110532 84928 108016 119548 84448 107768 119422 84208 107644 84088 107582 84028 129640 85488 108284 129636 85240 108158 129634 85116 85054 128232 129654 85756 128228 85630 128226 125416 128246 125412 125410 119784 125430 119780 119778 108520 119798 108516 108514 83424 107256 119166 83184 107132 83064 107070 83004 82974 129588 83704 107390 129586 83580 83518 128116 83838 128114 125172 125170 119284 119282 107508 107506 82672 106876 82552 106814 82492 82462 129562 82812 82750 128058 125050 119034 82296 106686 82236 82206 82366 82108 82078 76736 103920 117500 76256 103672 117374 76016 103548 75896 103486 75836 129384 77296 104188 129380 77048 104062 129378 76924 76862 127720 129398 77564 127716 77438 127714 124392 127734 124388 124386 117736 124406 117732 117730 104424 117750 104420 104418 112096 121592 126334 92608 111856 121468 92384 111736 121406 92272 111676 92216 111646 92188 75232 103160 117118 93664 74992 103036 93424 112252 102974 93304 74812 93244 74782 93214 129332 75512 103294 129908 129330 93944 75388 129906 93820 75326 93758 127604 75646 128756 127602 94078 128754 124148 126452 124146 126450 117236 121844 117234 121842 103412 103410 91584 111344 121212 91360 111224 121150 91248 111164 91192 111134 91164 91150 74480 102780 91888 74360 102718 91768 111422 91708 74270 91678 129306 74620 129850 92028 74558 91966 127546 128634 124026 126202 116986 121338 102906 90848 110968 121022 90736 110908 90680 110878 90652 90638 74104 102590 91000 74044 90940 74014 90910 74174 91070 90480 110780 90424 110750 90396 90382 73916 90556 73886 90526 90296 110686 90268 90254 73822 90334 90204 90190 71136 101112 116094 70896 100988 70776 100926 70716 70686 129204 71416 101246 129202 71292 71230 127348 71550 127346 123636 123634 116212 116210 101364 101362 79296 105200 118140 79072 105080 118078 78960 105020 78904 104990 78876 78862 70384 100732 79600 70264 100670 79480 105278 79420 70174 79390 129178 70524 129466 79740 70462 79678 127290 127866 123514 124666 115962 118266 100858 113376 122232 126654 95424 113264 122172 95328 113208 122142 95280 113180 95256 113166 95244 78560 104824 117950 95968 78448 104764 95856 113468 104734 95800 78364 95772 78350 95758 70008 100542 78712 69948 96120 78652 69918 96060 78622 96030 70078 78782 96190 94912 113008 122044 94816 112952 122014 94768 112924 94744 112910 94732 94726 78192 104636 95088 78136 104606 95032 113054 95004 78094 94990 69820 78268 69790 95164 78238 95134 94560 112824 121950 94512 112796 94488 112782 94476 94470 78008 104542 94648 77980 94620 77966 94606 69726 78046 94686 94384 112732 94360 112718 94348 94342 77916 94428 77902 94414 94296 112686 94284 94278 77870 94318 94252 94246 68336 99708 68216 99646 68156 68126 68476 68414 127162 123258 115450 99834 72416 101752 116414 72304 101692 72248 101662 72220 72206 67960 99518 72568 67900 72508 67870 72478 68030 72638 80576 105840 118460 80480 105784 118430 80432 105756 80408 105742 80396 80390 72048 101564 80752 71992 101534 80696 71964 80668 71950 80654 67772 72124 67742 80828 72094 80798 114016 122552 126814 96832 113968 122524 96800 113944 122510 96784 113932 96776 113926 96772 80224 105656 118366 97120 80176 105628 97072 114076 105614 97048 80140 97036 80134 97030 71864 101470 80312 71836 97208 80284 71822 97180 80270 97166 67678 71902 80350 97246 96576 113840 122460 96544 113816 122446 96528 113804 96520 113798 96516 96514 80048 105564 96688 80024 105550 96664 113870 96652 80006 96646 71772 80092 71758 96732 80078 96718 96416 113752 122414 96400 113740 96392 113734 96388 96386 79960 105518 96472 79948 96460 79942 96454 71726 79982 96494 96336 113708 96328 113702 96324 96322 79916 96364 79910 96358 96296 113686 96292 96290 79894 96310 66936 99006 66876 66846 67006 68976 100028 68920 99998 68892 68878 66748 69052 66718 69022 73056 102072 116574 73008 102044 72984 102030 72972 72966 68792 99934 73144 68764 73116 68750 73102 66654 68830 73182 81216 106160 118620 81184 106136 118606 81168 106124 81160 106118 81156 81154 72880 101980 81328 72856 101966 81304 106190 81292 72838 81286 68700 72924 68686 81372 72910 81358 114336 122712 126894 114320 122700 114312 122694 114308 114306 81056 106072 118574 97696 81040 106060 97680 114380 106054 97672 81028 97668 81026 97666 72792 101934 81112 72780 97752 81100 72774 97740 81094 97734 68654 72814 81134 97774 114256 122668 114248 122662 114244 114242 80976 106028 97488 80968 106022 97480 114278 97476 80962 97474 72748 81004 72742 97516 80998 97510 114216 122646 114212 114210 80936 106006 97384 80932 97380 80930 97378 72726 80950 97398 114196 114194 80916 97332 80914 97330 66236 66206 67256 99166 67228 67214 66142 67294 69296 100188 69272 100174 69260 69254 67164 69340 67150 69326 73376 102232 116654 73360 102220 73352 102214 73348 73346 69208 100142 73432 102254 73420 69190 73414 67118 69230 73454 106320 118700 106312 118694 106308 106306 73296 102188 81616 106348 102182 81608 73284 81604 73282 81602 69164 73324 69158 81644 73318 81638 122792 126934 122788 122786 106280 118678 114536 106276 114532 106274 114530 73256 102166 81512 73252 98024 81508 73250 98020 81506 98018 69142 73270 81526 98038 122772 122770 106260 114484 106258 114482 73236 81460 73234 97908 81458 97906 122762 106250 114458 73226 81434 97850 66396 66382 67416 99246 67404 67398 66350 67438 69456 100268 69448 100262 69444 69442 67372 69484 67366 69478 102312 116694 102308 102306 69416 100246 73576 102326 73572 69410 73570 67350 69430 73590 118740 118738 102292 106420 102290 106418 69396 73524 69394 81780 73522 81778 118730 102282 106394 69386 73498 81722 66476 66470 67496 99286 67492 67490 66454 67510 100308 100306 67476 69556 67474 69554 116714 ] ] def } ctxdef % Return the 17 bits for a codeword in a given cluster /cwtobits { clusters exch get exch get /v exch def [ 17 {0} repeat v 2 17 string cvrs {48 sub} forall ] dup length 17 sub 17 getinterval } def % Populate bitmap for the image compact { /rwid 17 c mul 17 add 17 add 1 add def } { /rwid 17 c mul 17 add 17 add 17 add 18 add def } ifelse /pixs rwid r mul array def 0 1 r 1 sub { /i exch def i 3 mod 0 eq { /lcw i 3 idiv 30 mul r 1 sub 3 idiv add def /rcw i 3 idiv 30 mul c add 1 sub def } if i 3 mod 1 eq { /lcw i 3 idiv 30 mul eclevel 3 mul add r 1 sub 3 mod add def /rcw i 3 idiv 30 mul r 1 sub 3 idiv add def } if i 3 mod 2 eq { /lcw i 3 idiv 30 mul c add 1 sub def /rcw i 3 idiv 30 mul eclevel 3 mul add r 1 sub 3 mod add def } if pixs rwid i mul [ 1 1 1 1 1 1 1 1 0 1 0 1 0 1 0 0 0 lcw i 3 mod cwtobits {} forall cws c i mul c getinterval { i 3 mod cwtobits {} forall } forall compact { 1 } { rcw i 3 mod cwtobits {} forall 1 1 1 1 1 1 1 0 1 0 0 0 1 0 1 0 0 1 } ifelse ] putinterval } for % Return the arguments << /ren //renmatrix /pixs pixs /pixx rwid /pixy r /height r 72 div rowmult mul /width rwid 72 div /opt options >> dontdraw not //renmatrix if //unloadctx exec end } [/barcode] {null def} forall bind def /pdf417 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER pdf417-- % --BEGIN ENCODER pdf417compact-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix pdf417-- % --DESC: Compact PDF417 % --EXAM: This is compact PDF417 % --EXOP: columns=2 % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp pdf417compact 0.0 2022082100 62537 62516 %%BeginData: 46 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /pdf417 dup /uk.co.terryburton.bwipp findresource put begin /pdf417compact { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Get the result of encoding with pdf417 with compact option options (dontdraw) true put options (compact) true put /args barcode options //pdf417 exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /pdf417compact dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER pdf417compact-- % --BEGIN ENCODER micropdf417-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix-- % --DESC: MicroPDF417 % --EXAM: MicroPDF417 % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp micropdf417 0.0 2022082100 212812 214997 %%BeginData: 998 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /micropdf417 { 20 dict begin /options exch def /barcode exch def /ctx null def /dontdraw false def /version (unset) def /columns 0 def /rows 0 def /rowmult 2 def /encoding (auto) def /cca false def /ccb false def /raw false def /parse false def /parsefnc false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall version (unset) ne { version (x) search pop /columns exch def pop /rows exch def } if /columns columns cvi def /rows rows cvi def /rowmult rowmult cvr def /micropdf417 //loadctx exec { % Modes and text submodes /T 0 def /N 1 def /B 2 def /A 0 def /L 1 def /M 2 def /P 3 def % Special function characters for mode switching /tl -1 def /nl -2 def /bl -3 def /bl6 -4 def /bs -5 def % Special function characters for text mode /al -6 def /ll -7 def /ml -8 def /pl -9 def /as -10 def /ps -11 def % Character maps for each state /charmaps [ % A L M P [ (A) (a) (0) (;) ] % 0 [ (B) (b) (1) (<) ] % 1 [ (C) (c) (2) (>) ] % 2 [ (D) (d) (3) (@) ] % 3 [ (E) (e) (4) ([) ] % 4 [ (F) (f) (5) 92 ] % 5 [ (G) (g) (6) (]) ] % 6 [ (H) (h) (7) (_) ] % 7 [ (I) (i) (8) (`) ] % 8 [ (J) (j) (9) (~) ] % 9 [ (K) (k) (&) (!) ] % 10 [ (L) (l) 13 13 ] % 11 [ (M) (m) 9 9 ] % 12 [ (N) (n) (,) (,) ] % 13 [ (O) (o) (:) (:) ] % 14 [ (P) (p) (#) 10 ] % 15 [ (Q) (q) (-) (-) ] % 16 [ (R) (r) (.) (.) ] % 17 [ (S) (s) ($) ($) ] % 18 [ (T) (t) (/) (/) ] % 19 [ (U) (u) (+) (") ] % 20 [ (V) (v) (%) (|) ] % 21 [ (W) (w) (*) (*) ] % 22 [ (X) (x) (=) 40 ] % 23 [ (Y) (y) (^) 41 ] % 24 [ (Z) (z) pl (?) ] % 25 [ ( ) ( ) ( ) ({) ] % 26 [ ll as ll (}) ] % 27 [ ml ml al (') ] % 28 [ ps ps ps al ] % 29 ] def % Invert charmaps to give character to value maps for each state /charvals [ 30 dict 30 dict 30 dict 30 dict ] def /alltext 104 dict def 0 1 charmaps length 1 sub { /i exch def /encs charmaps i get def 0 1 3 { /j exch def encs j get dup type /stringtype eq {0 get} if % convert string to ASCII if required dup charvals j get exch i put alltext exch -1 put } for } for /e 10000 def % "Empty" /latlen [ % Bit length of latch between submodes % To: A L M P From [ 0 1 1 2 ] % A [ 2 0 1 2 ] % L [ 1 1 0 1 ] % M [ 1 2 2 0 ] % P ] def /latseq [ % Latch sequences between submodes % To: A L M P From [ [] [ll] [ml] [ml pl] ] % A [ [ml al] [] [ml] [ml pl] ] % L [ [al] [ll] [] [pl] ] % M [ [al] [al ll] [al ml] [] ] % P ] def /shftlen [ % Bit length of shift to submode % To: A L M P From [ e e e 1 ] % A [ 1 e e 1 ] % L [ e e e 1 ] % M [ e e e e ] % P ] def } ctxdef raw {/encoding (raw) def} if cca {/encoding (cca) def} if % Convert input into array of codewords encoding (raw) eq encoding (cca) eq or { /datcws barcode length array def /i 0 def /j 0 def { % loop i barcode length eq {exit} if /cw barcode i 1 add 3 getinterval cvi def datcws j cw put /i i 4 add def /j j 1 add def } loop /datcws datcws 0 j getinterval def } if ccb {/encoding (ccb) def} if /encb { /in exch def /inlen in length def /out inlen 6 idiv 5 mul inlen 6 mod add array def 0 1 inlen 6 idiv 1 sub { /k exch def /msbs [ in k 6 mul 3 getinterval aload pop ] def /mscs [ msbs aload pop exch 256 mul add exch 65536 mul add 3 {dup 900 mod exch 900 idiv} repeat ] def /lsbs [ in k 6 mul 3 add 3 getinterval aload pop ] def /lscs [ lsbs aload pop exch 256 mul add exch 65536 mul add 3 {dup 900 mod exch 900 idiv} repeat ] def lscs 0 get mscs 0 get 316 mul add out k 5 mul 4 add 2 index 900 mod put 900 idiv lscs 1 get add mscs 0 get 641 mul add mscs 1 get 316 mul add out k 5 mul 3 add 2 index 900 mod put 900 idiv lscs 2 get add mscs 0 get 20 mul add mscs 1 get 641 mul add mscs 2 get 316 mul add out k 5 mul 2 add 2 index 900 mod put 900 idiv lscs 3 get add mscs 1 get 20 mul add mscs 2 get 641 mul add out k 5 mul 1 add 2 index 900 mod put 900 idiv mscs 2 get 20 mul add out k 5 mul 3 -1 roll 900 mod put } for /rem inlen 6 mod def rem 0 ne { out out length rem sub [ in inlen rem sub rem getinterval aload pop ] putinterval } if out } def encoding (byte) eq encoding (ccb) eq or { /barlen barcode length def /datcws barlen 6 idiv 5 mul barlen 6 mod add 1 add array def datcws 0 barlen 6 mod 0 eq {924} {901} ifelse put datcws 1 [ barcode {} forall ] encb putinterval encoding (ccb) eq {/datcws [920 datcws aload pop] def} if } if encoding (auto) eq { % Parse the input /fncvals << /parse parse /parsefnc parsefnc /eci true % Predates FNC non-data codewords, but supports ECI >> def /msg barcode fncvals //parseinput exec def /msglen msg length def % Determine runlengths of digits /numdigits [ msglen {0} repeat 0 ] def /numtext [ msglen {0} repeat 0 ] def /numbytes [ msglen {0} repeat 0 ] def /iseci [ msglen {0} repeat ] def msglen 1 sub -1 0 { /i exch def msg i get dup 48 ge exch 57 le and { numdigits i numdigits i 1 add get 1 add put } if alltext msg i get known numdigits i get 13 lt and { numtext i numtext i 1 add get 1 add put } if msg i get 0 ge numtext i get 5 lt and numdigits i get 13 lt and { numbytes i numbytes i 1 add get 1 add put } if iseci i msg i get -1000000 le put } for /numdigits numdigits 0 msglen getinterval def /numtext numtext 0 msglen getinterval def /numbytes numbytes 0 msglen getinterval def /seq [] def /seqlen 0 def /state B def /p 0 def { % loop p msglen eq {exit} if iseci p get { /eci msg p get def /seq [ seq aload pop [ eci ] ] def /p p 1 add def /seqlen seqlen eci -1810900 le {2} {eci -1000900 le {3} {2} ifelse} ifelse add def } { /n numdigits p get def n 13 ge { /seq [ seq aload pop nl [ msg p n getinterval aload pop ] ] def /state N def /p p n add def /seqlen seqlen 1 add n add def } { % next /t numtext p get def t 5 ge { /seq [ seq aload pop state T ne { tl } if [ msg p t getinterval aload pop ] ] def /state T def /p p t add def /seqlen seqlen 1 add t add def % ish } { % next /b numbytes p get def b 1 eq state T eq and { /seq [ seq aload pop bs [ msg p get ] ] def /p p b add def /seqlen seqlen 2 add def } { % next /seq [ seq aload pop b 6 mod 0 ne {bl} {bl6} ifelse [ msg p b getinterval aload pop ] ] def /state B def /p p b add def /seqlen seqlen 1 add b add def } ifelse } ifelse } ifelse } ifelse } loop /latchcws << tl 900 bl 901 bl6 924 nl 902 bs 913 >> def % Submode encoding functions /enca {charvals A get exch get} def /encl {charvals L get exch get} def /encm {charvals M get exch get} def /encp {charvals P get exch get} def /textencfuncs [ /enca /encl /encm /encp ] def /addtotext { text exch l exch put /l l 1 add def } def /enct { /in exch def /curlen [ e e e e ] def curlen submode 0 put /curseq [ [] [] [] [] ] def % Derive the optimal sequences ending in each submode in { /char exch def % Check for optimisations in the current sequences by latching from x to y { % loop /imp false def [ A L M P ] { /x exch def [ A L M P ] { /y exch def /cost curlen x get latlen x get y get add def cost curlen y get lt { curlen y cost put curseq y [ curseq x get aload pop latseq x get y get aload pop ] put /imp true def } if } forall } forall imp not {exit} if % Repeat unless no improvement } loop % Determine optimal next sequences for each valid encoding /nxtlen [ e e e e ] def /nxtseq 4 array def [ A L M P ] { /x exch def { % loop for common exit charvals x get char known not {exit} if % Extend directly /cost curlen x get 1 add def cost nxtlen x get lt { nxtlen x cost put nxtseq x [ curseq x get aload pop char ] put } if % Optimise for direct shifts from y to x [ A L M P ] { /y exch def x y ne { /cost curlen y get shftlen y get x get add 1 add def cost nxtlen y get lt { nxtlen y cost put nxtseq y [ curseq y get aload pop x A eq {as} {ps} ifelse char ] put } if } if } forall exit } loop } forall /curlen nxtlen def /curseq nxtseq def } forall % Select the optimal sequence /minseq e def [ A L M P ] { /k exch def curlen k get minseq lt { /minseq curlen k get def /txtseq curseq k get def } if } forall % Encode the sequence /text minseq array def /k 0 def /l 0 def { k txtseq length ge {exit} if /char txtseq k get def % Encode character char textencfuncs submode get load exec addtotext /k k 1 add def % Encode shifted next character char as eq char ps eq or { txtseq k get char as eq {enca} {encp} ifelse addtotext /k k 1 add def } if % Latches to new submode char al eq {/submode A def} if char ll eq {/submode L def} if char ml eq {/submode M def} if char pl eq {/submode P def} if } loop text length 2 mod 1 eq { submode P eq { /pad al encp def /submode A def } { /pad ps textencfuncs submode get load exec def } ifelse /text [ text aload pop pad ] def } if /out text length 2 idiv array def 0 1 out length 1 sub { /k exch def out k text k 2 mul get 30 mul text k 2 mul 1 add get add put } for out } def /encn { /in exch def /out [] def 0 44 in length 1 sub { /k exch def /gmod [ 1 in k in length k sub dup 44 gt {pop 44} if getinterval {48 sub} forall ] def /cwn [] def { /dv 900 def /gmul [] def /val 0 def { gmod length 0 eq {exit} if /val val 10 mul gmod 0 get add def /gmod gmod 1 gmod length 1 sub getinterval def val dv lt { gmul length 0 ne { /gmul [ gmul aload pop 0 ] def } if } { /gmul [ gmul aload pop val dv idiv ] def } ifelse /val val dv mod def } loop /dv val def /cwn [ dv cwn aload pop ] def /gmod gmul def gmul length 0 eq {exit} if } loop /out [ out aload pop cwn aload pop ] def } for out } def /ence { 0 get neg 1000000 sub dup 000899 le { % ECI 000000 - 000899 927 exch 2 array astore } { dup 810899 le { % ECI 000900 - 810899 926 exch dup 900 idiv 1 sub exch 900 mod 3 array astore } { dup 811799 le { % ECI 810900 - 811799 925 exch 810900 sub 2 array astore } { /bwipp.pdf417badECI (PDF417 supports ECIs 000000 to 811799) //raiseerror exec } ifelse } ifelse } ifelse } def /encfuncs [ /enct /encn /encb ] def /addtocws { dup datcws j 3 -1 roll putinterval length j add /j exch def } def % Encode the sequence % No need to set state as seq will always begin with a latch, unlike for pdf417 /datcws seqlen array def /i 0 def /j 0 def { i seq length ge {exit} if /chars seq i get def chars type /arraytype eq { % Encode data according to mode chars 0 get -1000000 le { % ECI chars ence addtocws } { % Encode data according to mode chars encfuncs state get load exec addtocws } ifelse } { % Encode the latch to new state or byte shift [ latchcws chars get ] addtocws chars tl eq {/state T def /submode A def} if chars nl eq {/state N def} if chars bl eq chars bl6 eq or {/state B def} if chars bs eq { /i i 1 add def seq i get encb addtocws } if } ifelse /i i 1 add def } loop /datcws datcws 0 j getinterval def } if { % Basic metrics for the each symbol % c r ecw rl rc rr /ccametrics [ [ 2 5 4 39 0 19 ] [ 2 6 4 1 0 33 ] [ 2 7 5 32 0 12 ] [ 2 8 5 8 0 40 ] [ 2 9 6 14 0 46 ] [ 2 10 6 43 0 23 ] [ 2 12 7 20 0 52 ] [ 3 4 4 11 43 23 ] [ 3 5 5 1 33 13 ] [ 3 6 6 5 37 17 ] [ 3 7 7 15 47 27 ] [ 3 8 7 21 1 33 ] [ 4 3 4 40 20 52 ] [ 4 4 5 43 23 3 ] [ 4 5 6 46 26 6 ] [ 4 6 7 34 14 46 ] [ 4 7 8 29 9 41 ] ] def % Basic metrics for the each symbol % c r ecw rl rc rr /nonccametrics [ [ 1 11 7 1 0 9 ] [ 1 14 7 8 0 8 ] [ 1 17 7 36 0 36 ] [ 1 20 8 19 0 19 ] [ 1 24 8 9 0 17 ] [ 1 28 8 25 0 33 ] [ 2 8 8 1 0 1 ] [ 2 11 9 1 0 9 ] [ 2 14 9 8 0 8 ] [ 2 17 10 36 0 36 ] [ 2 20 11 19 0 19 ] [ 2 23 13 9 0 17 ] [ 2 26 15 27 0 35 ] [ 3 6 12 1 1 1 ] [ 3 8 14 7 7 7 ] [ 3 10 16 15 15 15 ] [ 3 12 18 25 25 25 ] [ 3 15 21 37 37 37 ] [ 3 20 26 1 17 33 ] [ 3 26 32 1 9 17 ] [ 3 32 38 21 29 37 ] [ 3 38 44 15 31 47 ] [ 3 44 50 1 25 49 ] [ 4 4 8 47 19 43 ] [ 4 6 12 1 1 1 ] [ 4 8 14 7 7 7 ] [ 4 10 16 15 15 15 ] [ 4 12 18 25 25 25 ] [ 4 15 21 37 37 37 ] [ 4 20 26 1 17 33 ] [ 4 26 32 1 9 17 ] [ 4 32 38 21 29 37 ] [ 4 38 44 15 31 47 ] [ 4 44 50 1 25 49 ] ] def } ctxdef /metrics cca {ccametrics} {nonccametrics} ifelse def % Select metrics of an appropriate symbol /urows rows def /ucols columns def /i 0 def { % loop /m metrics i get def /c m 0 get def % Columns in symbol /r m 1 get def % Rows in symbol /k m 2 get def % Error correction codewords /rapl m 3 get def % Left row address pattern /rapc m 4 get def % Centre row address pattern /rapr m 5 get def % Right row address pattern /ncws r c mul k sub def % Data codewords /okay true def datcws length ncws gt {/okay false def} if urows 0 ne urows r ne and {/okay false def} if ucols 0 ne ucols c ne and {/okay false def} if okay {exit} if /i i 1 add def } loop /m datcws length def % Create codewords array with one extra working space element and add padding /n c r mul k sub def /cws c r mul 1 add array def cws 0 datcws putinterval cws m [ n m sub {900} repeat ] putinterval cws n [ k {0} repeat 0 ] putinterval % Calculate the log and anti-log tables { /rsalog [ 1 928 {dup 3 mul 929 mod} repeat ] def /rslog 929 array def 1 1 928 {dup rsalog exch get exch rslog 3 1 roll put} for } ctxdef % Function to calculate the product in the field /rsprod { 2 copy 0 ne exch 0 ne and { rslog exch get exch rslog exch get add 928 mod rsalog exch get } { pop pop 0 } ifelse } def % Generate the coefficients /coeffs [ 1 k {0} repeat ] def 1 1 k { /i exch def coeffs i coeffs i 1 sub get put i 1 sub -1 1 { /j exch def coeffs j coeffs j 1 sub get coeffs j get rsalog i get rsprod add 929 mod put } for coeffs 0 coeffs 0 get rsalog i get rsprod put } for /coeffs coeffs 0 coeffs length 1 sub getinterval def coeffs length 1 sub -2 0 {coeffs exch 2 copy get 929 exch sub put} for % Derive the error codewords 0 1 n 1 sub { /t exch cws exch get cws n get add 929 mod def 0 1 k 1 sub { /j exch def cws n j add cws n j add 1 add get 929 t coeffs k j sub 1 sub get mul 929 mod sub add 929 mod put } for } for n 1 n k add { dup cws exch 929 cws 5 -1 roll get sub 929 mod put } for % Trim the working space from the end of the codewords /cws cws 0 cws length 1 sub getinterval def options /debugcws known { /bwipp.debugcws cws //raiseerror exec } if { % Base 10 encoding of the bar space successions for the codewords in each cluster /clusters [ [ 120256 125680 128380 120032 125560 128318 108736 119920 108640 86080 108592 86048 110016 120560 125820 109792 120440 125758 88256 109680 88160 89536 110320 120700 89312 110200 120638 89200 110140 89840 110460 89720 110398 89980 128506 119520 125304 128190 107712 119408 125244 107616 119352 84032 107568 119324 84000 107544 83984 108256 119672 125374 85184 108144 119612 85088 108088 119582 85040 108060 85728 108408 119742 85616 108348 85560 108318 85880 108478 85820 85790 107200 119152 125116 107104 119096 125086 83008 107056 119068 82976 107032 82960 82952 83648 107376 119228 83552 107320 119198 83504 107292 83480 83468 83824 107452 83768 107422 83740 83900 106848 118968 125022 82496 106800 118940 82464 106776 118926 82448 106764 82440 106758 82784 106936 119006 82736 106908 82712 106894 82700 82694 106974 82830 82240 106672 118876 82208 106648 118862 82192 106636 82184 106630 82180 82352 82328 82316 82080 118830 106572 106566 82050 117472 124280 127678 103616 117360 124220 103520 117304 124190 75840 103472 75808 104160 117624 124350 76992 104048 117564 76896 103992 76848 76824 77536 104312 117694 77424 104252 77368 77340 77688 104382 77628 77758 121536 126320 128700 121440 126264 128670 111680 121392 126236 111648 121368 126222 111632 121356 103104 117104 124092 112320 103008 117048 124062 112224 121656 126366 93248 74784 102936 117006 93216 112152 93200 75456 103280 117180 93888 75360 103224 117150 93792 112440 121758 93744 75288 93720 75632 103356 94064 75576 103326 94008 112542 93980 75708 94140 75678 94110 121184 126136 128606 111168 121136 126108 111136 121112 126094 111120 121100 111112 111108 102752 116920 123998 111456 102704 116892 91712 74272 121244 116878 91680 74256 102668 91664 111372 102662 74244 74592 102840 116958 92000 74544 102812 91952 111516 102798 91928 74508 74502 74680 102878 92088 74652 92060 74638 92046 92126 110912 121008 126044 110880 120984 126030 110864 120972 110856 120966 110852 110850 74048 102576 116828 90944 74016 102552 116814 90912 111000 121038 90896 73992 102534 90888 110982 90884 74160 102620 91056 74136 102606 91032 111054 91020 74118 91014 91100 91086 110752 120920 125998 110736 120908 110728 120902 110724 110722 73888 102488 116782 90528 73872 102476 90512 110796 102470 90504 73860 90500 73858 73944 90584 90572 90566 120876 120870 110658 102444 73800 90312 90308 90306 101056 116080 123580 100960 116024 70720 100912 115996 70688 100888 70672 70664 71360 101232 116156 71264 101176 116126 71216 101148 71192 71180 71536 101308 71480 101278 71452 71612 71582 118112 124600 127838 105024 118064 124572 104992 118040 124558 104976 118028 104968 118022 100704 115896 123486 105312 100656 115868 79424 70176 118172 115854 79392 105240 100620 79376 70152 79368 70496 100792 115934 79712 70448 118238 79664 105372 100750 79640 70412 79628 70584 100830 79800 70556 79772 70542 70622 79838 122176 126640 128860 122144 126616 128846 122128 126604 122120 126598 122116 104768 117936 124508 113472 104736 126684 124494 113440 122264 126670 113424 104712 117894 113416 122246 104706 69952 100528 115804 78656 69920 100504 115790 96064 78624 104856 117966 96032 113560 122318 100486 96016 78600 104838 96008 69890 70064 100572 78768 70040 100558 96176 78744 104910 96152 113614 70022 78726 70108 78812 70094 96220 78798 122016 126552 128814 122000 126540 121992 126534 121988 121986 104608 117848 124462 113056 104592 126574 113040 122060 117830 113032 104580 113028 104578 113026 69792 100440 115758 78240 69776 100428 95136 78224 104652 100422 95120 113100 69764 95112 78212 69762 78210 69848 100462 78296 69836 95192 78284 69830 95180 78278 69870 95214 121936 126508 121928 126502 121924 121922 104528 117804 112848 104520 117798 112840 121958 112836 104514 112834 69712 100396 78032 69704 100390 94672 78024 104550 94664 112870 69698 94660 78018 94658 78060 94700 94694 126486 121890 117782 104484 104482 69672 77928 94440 69666 77922 99680 68160 99632 68128 99608 115342 68112 99596 68104 99590 68448 99768 115422 68400 99740 68376 99726 68364 68358 68536 99806 68508 68494 68574 101696 116400 123740 101664 116376 101648 116364 101640 116358 101636 67904 99504 115292 72512 67872 116444 115278 72480 101784 116430 72464 67848 99462 72456 101766 67842 68016 99548 72624 67992 99534 72600 101838 72588 67974 68060 72668 68046 72654 118432 124760 127918 118416 124748 118408 124742 118404 118402 101536 116312 105888 101520 116300 105872 118476 116294 105864 101508 105860 101506 105858 67744 99416 72096 67728 116334 80800 72080 101580 99398 80784 105932 67716 80776 72068 67714 72066 67800 99438 72152 67788 80856 72140 67782 80844 72134 67822 72174 80878 126800 128940 126792 128934 126788 126786 118352 124716 122576 126828 124710 122568 126822 122564 118338 122562 101456 116268 105680 101448 116262 114128 105672 118374 114120 122598 101442 114116 105666 114114 67664 99372 71888 67656 99366 80336 71880 101478 97232 80328 105702 67650 97224 114150 71874 97220 67692 71916 67686 80364 71910 97260 80358 97254 126760 128918 126756 126754 118312 124694 122472 126774 122468 118306 122466 101416 116246 105576 101412 113896 105572 101410 113892 105570 113890 67624 99350 71784 101430 80104 71780 67618 96744 80100 71778 96740 80098 96738 71798 96758 126738 122420 122418 105524 113780 113778 71732 79988 96500 96498 66880 66848 98968 66832 66824 66820 66992 66968 66956 66950 67036 67022 100000 99984 115532 99976 115526 99972 99970 66720 98904 69024 100056 98892 69008 100044 69000 100038 68996 66690 68994 66776 98926 69080 100078 69068 66758 69062 66798 69102 116560 116552 116548 116546 99920 102096 116588 115494 102088 116582 102084 99906 102082 66640 68816 66632 98854 73168 68808 66628 73160 68804 66626 73156 68802 66668 68844 66662 73196 68838 73190 124840 124836 124834 116520 118632 124854 118628 116514 118626 99880 115478 101992 116534 106216 101988 99874 106212 101986 106210 66600 98838 68712 99894 72936 68708 66594 81384 72932 68706 81380 72930 66614 68726 72950 81398 128980 128978 124820 126900 124818 126898 116500 118580 116498 122740 118578 122738 99860 101940 99858 106100 101938 114420 ] [ 128352 129720 125504 128304 129692 125472 128280 129678 125456 128268 125448 128262 125444 125792 128440 129758 120384 125744 128412 120352 125720 128398 120336 125708 120328 125702 120324 120672 125880 128478 110144 120624 125852 110112 120600 125838 110096 120588 110088 120582 110084 110432 120760 125918 89664 110384 120732 89632 110360 120718 89616 110348 89608 110342 89952 110520 120798 89904 110492 89880 110478 89868 90040 110558 90012 89998 125248 128176 129628 125216 128152 129614 125200 128140 125192 128134 125188 125186 119616 125360 128220 119584 125336 128206 119568 125324 119560 125318 119556 119554 108352 119728 125404 108320 119704 125390 108304 119692 108296 119686 108292 108290 85824 108464 119772 85792 108440 119758 85776 108428 85768 108422 85764 85936 108508 85912 108494 85900 85894 85980 85966 125088 128088 129582 125072 128076 125064 128070 125060 125058 119200 125144 128110 119184 125132 119176 125126 119172 119170 107424 119256 125166 107408 119244 107400 119238 107396 107394 83872 107480 119278 83856 107468 83848 107462 83844 83842 83928 107502 83916 83910 83950 125008 128044 125000 128038 124996 124994 118992 125036 118984 125030 118980 118978 106960 119020 106952 119014 106948 106946 82896 106988 82888 106982 82884 82882 82924 82918 124968 128022 124964 124962 118888 124982 118884 118882 106728 118902 106724 106722 82408 106742 82404 82402 124948 124946 118836 118834 106612 106610 124224 127664 129372 124192 127640 129358 124176 127628 124168 127622 124164 124162 117568 124336 127708 117536 124312 127694 117520 124300 117512 124294 117508 117506 104256 117680 124380 104224 117656 124366 104208 117644 104200 117638 104196 104194 77632 104368 117724 77600 104344 117710 77584 104332 77576 104326 77572 77744 104412 77720 104398 77708 77702 77788 77774 128672 129880 93168 128656 129868 92664 128648 129862 92412 128644 128642 124064 127576 129326 126368 124048 129902 126352 128716 127558 126344 124036 126340 124034 126338 117152 124120 127598 121760 117136 124108 121744 126412 124102 121736 117124 121732 117122 121730 103328 117208 124142 112544 103312 117196 112528 121804 117190 112520 103300 112516 103298 112514 75680 103384 117230 94112 75664 103372 94096 112588 103366 94088 75652 94084 75650 75736 103406 94168 75724 94156 75718 94150 75758 128592 129836 91640 128584 129830 91388 128580 91262 128578 123984 127532 126160 123976 127526 126152 128614 126148 123970 126146 116944 124012 121296 116936 124006 121288 126182 121284 116930 121282 102864 116972 111568 102856 116966 111560 121318 111556 102850 111554 74704 102892 92112 74696 102886 92104 111590 92100 74690 92098 74732 92140 74726 92134 128552 129814 90876 128548 90750 128546 123944 127510 126056 128566 126052 123938 126050 116840 123958 121064 116836 121060 116834 121058 102632 116854 111080 121078 111076 102626 111074 74216 102646 91112 74212 91108 74210 91106 74230 91126 128532 90494 128530 123924 126004 123922 126002 116788 120948 116786 120946 102516 110836 102514 110834 73972 90612 73970 90610 128522 123914 125978 116762 120890 102458 110714 123552 127320 129198 123536 127308 123528 127302 123524 123522 116128 123608 127342 116112 123596 116104 123590 116100 116098 101280 116184 123630 101264 116172 101256 116166 101252 101250 71584 101336 116206 71568 101324 71560 101318 71556 71554 71640 101358 71628 71622 71662 127824 129452 79352 127816 129446 79100 127812 78974 127810 123472 127276 124624 123464 127270 124616 127846 124612 123458 124610 115920 123500 118224 115912 123494 118216 124646 118212 115906 118210 100816 115948 105424 100808 115942 105416 118246 105412 100802 105410 70608 100844 79824 70600 100838 79816 105446 79812 70594 79810 70636 79852 70630 79846 129960 95728 113404 129956 95480 113278 129954 95356 95294 127784 129430 78588 128872 129974 95996 78462 128868 127778 95870 128866 123432 127254 124520 123428 126696 128886 123426 126692 124514 126690 115816 123446 117992 115812 122344 117988 115810 122340 117986 122338 100584 115830 104936 100580 113640 104932 100578 113636 104930 113634 70120 100598 78824 70116 96232 78820 70114 96228 78818 96226 70134 78838 129940 94968 113022 129938 94844 94782 127764 78206 128820 127762 95102 128818 123412 124468 123410 126580 124466 126578 115764 117876 115762 122100 117874 122098 100468 104692 100466 113140 104690 113138 69876 78324 69874 95220 78322 95218 129930 94588 94526 127754 128794 123402 124442 126522 115738 117818 121978 100410 104570 112890 69754 78074 94714 94398 123216 127148 123208 127142 123204 123202 115408 123244 115400 123238 115396 115394 99792 115436 99784 115430 99780 99778 68560 99820 68552 99814 68548 68546 68588 68582 127400 129238 72444 127396 72318 127394 123176 127126 123752 123172 123748 123170 123746 115304 123190 116456 115300 116452 115298 116450 99560 115318 101864 99556 101860 99554 101858 68072 99574 72680 68068 72676 68066 72674 68086 72694 129492 80632 105854 129490 80508 80446 127380 72062 127924 127378 80766 127922 123156 123700 123154 124788 123698 124786 115252 116340 115250 118516 116338 118514 99444 101620 99442 105972 101618 105970 67828 72180 67826 80884 72178 80882 97008 114044 96888 113982 96828 96798 129482 80252 130010 97148 80190 97086 127370 127898 128954 123146 123674 124730 126842 115226 116282 118394 122618 99386 101498 105722 114170 67706 71930 80378 96632 113854 96572 96542 80062 96702 96444 96414 96350 123048 123044 123042 115048 123062 115044 115042 99048 115062 99044 99042 67048 99062 67044 67042 67062 127188 68990 127186 123028 123316 123026 123314 114996 115572 114994 115570 98932 100084 98930 100082 66804 69108 66802 69106 129258 73084 73022 127178 127450 123018 123290 123834 114970 115514 116602 98874 99962 102138 66682 68858 73210 81272 106174 81212 81182 72894 81342 97648 114364 97592 114334 97564 97550 81084 97724 81054 97694 97464 114270 97436 97422 80990 97502 97372 97358 97326 114868 114866 98676 98674 66292 66290 123098 114842 115130 98618 99194 66170 67322 69310 73404 73374 81592 106334 81564 81550 73310 81630 97968 114524 97944 114510 97932 97926 81500 98012 81486 97998 97880 114478 97868 97862 81454 97902 97836 97830 69470 73564 73550 81752 106414 81740 81734 73518 81774 81708 81702 ] [ 109536 120312 86976 109040 120060 86496 108792 119934 86256 108668 86136 129744 89056 110072 129736 88560 109820 129732 88312 109694 129730 88188 128464 129772 89592 128456 129766 89340 128452 89214 128450 125904 128492 125896 128486 125892 125890 120784 125932 120776 125926 120772 120770 110544 120812 110536 120806 110532 84928 108016 119548 84448 107768 119422 84208 107644 84088 107582 84028 129640 85488 108284 129636 85240 108158 129634 85116 85054 128232 129654 85756 128228 85630 128226 125416 128246 125412 125410 119784 125430 119780 119778 108520 119798 108516 108514 83424 107256 119166 83184 107132 83064 107070 83004 82974 129588 83704 107390 129586 83580 83518 128116 83838 128114 125172 125170 119284 119282 107508 107506 82672 106876 82552 106814 82492 82462 129562 82812 82750 128058 125050 119034 82296 106686 82236 82206 82366 82108 82078 76736 103920 117500 76256 103672 117374 76016 103548 75896 103486 75836 129384 77296 104188 129380 77048 104062 129378 76924 76862 127720 129398 77564 127716 77438 127714 124392 127734 124388 124386 117736 124406 117732 117730 104424 117750 104420 104418 112096 121592 126334 92608 111856 121468 92384 111736 121406 92272 111676 92216 111646 92188 75232 103160 117118 93664 74992 103036 93424 112252 102974 93304 74812 93244 74782 93214 129332 75512 103294 129908 129330 93944 75388 129906 93820 75326 93758 127604 75646 128756 127602 94078 128754 124148 126452 124146 126450 117236 121844 117234 121842 103412 103410 91584 111344 121212 91360 111224 121150 91248 111164 91192 111134 91164 91150 74480 102780 91888 74360 102718 91768 111422 91708 74270 91678 129306 74620 129850 92028 74558 91966 127546 128634 124026 126202 116986 121338 102906 90848 110968 121022 90736 110908 90680 110878 90652 90638 74104 102590 91000 74044 90940 74014 90910 74174 91070 90480 110780 90424 110750 90396 90382 73916 90556 73886 90526 90296 110686 90268 90254 73822 90334 90204 90190 71136 101112 116094 70896 100988 70776 100926 70716 70686 129204 71416 101246 129202 71292 71230 127348 71550 127346 123636 123634 116212 116210 101364 101362 79296 105200 118140 79072 105080 118078 78960 105020 78904 104990 78876 78862 70384 100732 79600 70264 100670 79480 105278 79420 70174 79390 129178 70524 129466 79740 70462 79678 127290 127866 123514 124666 115962 118266 100858 113376 122232 126654 95424 113264 122172 95328 113208 122142 95280 113180 95256 113166 95244 78560 104824 117950 95968 78448 104764 95856 113468 104734 95800 78364 95772 78350 95758 70008 100542 78712 69948 96120 78652 69918 96060 78622 96030 70078 78782 96190 94912 113008 122044 94816 112952 122014 94768 112924 94744 112910 94732 94726 78192 104636 95088 78136 104606 95032 113054 95004 78094 94990 69820 78268 69790 95164 78238 95134 94560 112824 121950 94512 112796 94488 112782 94476 94470 78008 104542 94648 77980 94620 77966 94606 69726 78046 94686 94384 112732 94360 112718 94348 94342 77916 94428 77902 94414 94296 112686 94284 94278 77870 94318 94252 94246 68336 99708 68216 99646 68156 68126 68476 68414 127162 123258 115450 99834 72416 101752 116414 72304 101692 72248 101662 72220 72206 67960 99518 72568 67900 72508 67870 72478 68030 72638 80576 105840 118460 80480 105784 118430 80432 105756 80408 105742 80396 80390 72048 101564 80752 71992 101534 80696 71964 80668 71950 80654 67772 72124 67742 80828 72094 80798 114016 122552 126814 96832 113968 122524 96800 113944 122510 96784 113932 96776 113926 96772 80224 105656 118366 97120 80176 105628 97072 114076 105614 97048 80140 97036 80134 97030 71864 101470 80312 71836 97208 80284 71822 97180 80270 97166 67678 71902 80350 97246 96576 113840 122460 96544 113816 122446 96528 113804 96520 113798 96516 96514 80048 105564 96688 80024 105550 96664 113870 96652 80006 96646 71772 80092 71758 96732 80078 96718 96416 113752 122414 96400 113740 96392 113734 96388 96386 79960 105518 96472 79948 96460 79942 96454 71726 79982 96494 96336 113708 96328 113702 96324 96322 79916 96364 79910 96358 96296 113686 96292 96290 79894 96310 66936 99006 66876 66846 67006 68976 100028 68920 99998 68892 68878 66748 69052 66718 69022 73056 102072 116574 73008 102044 72984 102030 72972 72966 68792 99934 73144 68764 73116 68750 73102 66654 68830 73182 81216 106160 118620 81184 106136 118606 81168 106124 81160 106118 81156 81154 72880 101980 81328 72856 101966 81304 106190 81292 72838 81286 68700 72924 68686 81372 72910 81358 114336 122712 126894 114320 122700 114312 122694 114308 114306 81056 106072 118574 97696 81040 106060 97680 114380 106054 97672 81028 97668 81026 97666 72792 101934 81112 72780 97752 81100 72774 97740 81094 97734 68654 72814 81134 97774 114256 122668 114248 122662 114244 114242 80976 106028 97488 80968 106022 97480 114278 97476 80962 97474 72748 81004 72742 97516 80998 97510 114216 122646 114212 114210 80936 106006 97384 80932 97380 80930 97378 72726 80950 97398 114196 114194 80916 97332 80914 97330 66236 66206 67256 99166 67228 67214 66142 67294 69296 100188 69272 100174 69260 69254 67164 69340 67150 69326 73376 102232 116654 73360 102220 73352 102214 73348 73346 69208 100142 73432 102254 73420 69190 73414 67118 69230 73454 106320 118700 106312 118694 106308 106306 73296 102188 81616 106348 102182 81608 73284 81604 73282 81602 69164 73324 69158 81644 73318 81638 122792 126934 122788 122786 106280 118678 114536 106276 114532 106274 114530 73256 102166 81512 73252 98024 81508 73250 98020 81506 98018 69142 73270 81526 98038 122772 122770 106260 114484 106258 114482 73236 81460 73234 97908 81458 97906 122762 106250 114458 73226 81434 97850 66396 66382 67416 99246 67404 67398 66350 67438 69456 100268 69448 100262 69444 69442 67372 69484 67366 69478 102312 116694 102308 102306 69416 100246 73576 102326 73572 69410 73570 67350 69430 73590 118740 118738 102292 106420 102290 106418 69396 73524 69394 81780 73522 81778 118730 102282 106394 69386 73498 81722 66476 66470 67496 99286 67492 67490 66454 67510 100308 100306 67476 69556 67474 69554 116714 ] ] def % Row address patterns /raps [ [ % Left and right 802 930 946 818 882 890 826 954 922 986 970 906 778 794 786 914 978 982 980 916 948 932 934 942 940 936 808 812 814 806 822 950 918 790 788 820 884 868 870 878 876 872 840 856 860 862 846 844 836 838 834 866 ] [ % Centre 718 590 622 558 550 566 534 530 538 570 562 546 610 626 634 762 754 758 630 628 612 614 582 578 706 738 742 740 748 620 556 552 616 744 712 716 708 710 646 654 652 668 664 696 688 656 720 592 600 604 732 734 ] ] def } ctxdef % Return the 17 bits for a codeword in a given cluster /cwtobits { clusters exch get exch get /v exch def [ 17 {0} repeat v 2 17 string cvrs {48 sub} forall ] dup length 17 sub 17 getinterval } def % Return the 10 bits for a row address pattern /raptobits { raps exch get exch get /v exch def [ 10 {0} repeat v 2 10 string cvrs {48 sub} forall ] dup length 10 sub 10 getinterval } def % Populate bitmap for the image /rwid [38 55 82 99] c 1 sub get def c 3 eq cca and {/rwid 72 def} if /pixs rwid r mul array def 0 1 r 1 sub { /i exch def /clst i rapl add 1 sub 3 mod def pixs rwid i mul [ c 1 eq { i rapl add 1 sub 52 mod 0 raptobits aload pop cws i get clst cwtobits aload pop i rapr add 1 sub 52 mod 0 raptobits aload pop } if c 2 eq { i rapl add 1 sub 52 mod 0 raptobits aload pop cws i 2 mul get clst cwtobits aload pop cws i 2 mul 1 add get clst cwtobits aload pop i rapr add 1 sub 52 mod 0 raptobits aload pop } if c 3 eq { cca not { i rapl add 1 sub 52 mod 0 raptobits aload pop } if cws i 3 mul get clst cwtobits aload pop i rapc add 1 sub 52 mod 1 raptobits aload pop cws i 3 mul 1 add get clst cwtobits aload pop cws i 3 mul 2 add get clst cwtobits aload pop i rapr add 1 sub 52 mod 0 raptobits aload pop } if c 4 eq { i rapl add 1 sub 52 mod 0 raptobits aload pop cws i 4 mul get clst cwtobits aload pop cws i 4 mul 1 add get clst cwtobits aload pop i rapc add 1 sub 52 mod 1 raptobits aload pop cws i 4 mul 2 add get clst cwtobits aload pop cws i 4 mul 3 add get clst cwtobits aload pop i rapr add 1 sub 52 mod 0 raptobits aload pop } if 1 ] putinterval } for % Return the arguments << /ren //renmatrix /pixs pixs /pixx rwid /pixy r /height r 72 div rowmult mul /width rwid 72 div /opt options >> dontdraw not //renmatrix if //unloadctx exec end } [/barcode] {null def} forall bind def /micropdf417 dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER micropdf417-- % --BEGIN ENCODER datamatrix-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix-- % --DESC: Data Matrix % --EXAM: This is Data Matrix! % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp datamatrix 0.0 2022082100 213189 215115 %%BeginData: 934 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /datamatrix { 20 dict begin /options exch def /barcode exch def /ctx null def /dontdraw false def /columns 0 def /rows 0 def /format (square) def % square or rectangle /version (unset) def /parse false def /parsefnc false def /encoding (auto) def /mailmark false def /raw false def /dmre false def % Alias for isodmre /dindmre false def /isodmre false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall version (unset) ne { version (x) search pop /rows exch def pop /columns exch def } if /columns columns cvi def /rows rows cvi def /isodmre dmre def /datamatrix //loadctx exec % TODO make this "static" % Basic metrics for the each symbol % rows cols regh regv rscw rsbl /metrics [ % Standard square symbols [ 10 10 1 1 5 1 ] [ 12 12 1 1 7 1 ] [ 14 14 1 1 10 1 ] [ 16 16 1 1 12 1 ] [ 18 18 1 1 14 1 ] [ 20 20 1 1 18 1 ] [ 22 22 1 1 20 1 ] [ 24 24 1 1 24 1 ] [ 26 26 1 1 28 1 ] [ 32 32 2 2 36 1 ] [ 36 36 2 2 42 1 ] [ 40 40 2 2 48 1 ] [ 44 44 2 2 56 1 ] [ 48 48 2 2 68 1 ] [ 52 52 2 2 84 2 ] [ 64 64 4 4 112 2 ] [ 72 72 4 4 144 4 ] [ 80 80 4 4 192 4 ] [ 88 88 4 4 224 4 ] [ 96 96 4 4 272 4 ] [ 104 104 4 4 336 6 ] [ 120 120 6 6 408 6 ] [ 132 132 6 6 496 8 ] [ 144 144 6 6 620 10 ] % Optional rectangular symbols [ 8 18 1 1 7 1 ] [ 8 32 1 2 11 1 ] dindmre isodmre or { [ 8 48 1 2 15 1 ] } if dindmre isodmre or { [ 8 64 1 4 18 1 ] } if isodmre { [ 8 80 1 4 22 1 ] } if isodmre { [ 8 96 1 4 28 1 ] } if isodmre { [ 8 120 1 6 32 1 ] } if isodmre { [ 8 144 1 6 36 1 ] } if [ 12 26 1 1 14 1 ] [ 12 36 1 2 18 1 ] dindmre isodmre or { [ 12 64 1 4 27 1 ] } if isodmre { [ 12 88 1 4 36 1 ] } if [ 16 36 1 2 24 1 ] [ 16 48 1 2 28 1 ] dindmre isodmre or { [ 16 64 1 4 36 1 ] } if isodmre { [ 20 36 1 2 28 1 ] } if isodmre { [ 20 44 1 2 34 1 ] } if isodmre { [ 20 64 1 4 42 1 ] } if isodmre { [ 22 48 1 2 38 1 ] } if dindmre { [ 24 32 1 2 28 1 ] } if dindmre { [ 24 36 1 2 33 1 ] } if dindmre isodmre or { [ 24 48 1 2 41 1 ] } if dindmre isodmre or { [ 24 64 1 4 46 1 ] } if dindmre { [ 26 32 1 2 32 1 ] } if dindmre isodmre or { [ 26 40 1 2 38 1 ] } if dindmre isodmre or { [ 26 48 1 2 42 1 ] } if dindmre isodmre or { [ 26 64 1 4 50 1 ] } if ] def % Create array of codewords remaining to make a full symbol /urows rows def /ucols columns def /fullcws [] def metrics { /m exch def /rows m 0 get def % Rows in symbol /cols m 1 get def % Columns in symbol /regh m 2 get def % Horizontal regions /regv m 3 get def % Vertical regions /rscw m 4 get def % Error correction codewords /rsbl m 5 get def % Error correction blocks /mrows rows 2 regh mul sub def % Rows in the mapping matrix /mcols cols 2 regv mul sub def % Columns in the mapping matrix /ncws mrows mcols mul 8 idiv rscw sub def % Data codewords /okay true def urows 0 ne urows rows ne and {/okay false def} if ucols 0 ne ucols cols ne and {/okay false def} if format (square) eq rows cols ne and {/okay false def} if format (rectangle) eq rows cols eq and {/okay false def} if okay {/fullcws [ fullcws aload pop ncws ] def} if } forall /numremcws [ 1558 {10000} repeat ] def fullcws {numremcws exch 1 sub 1 put} forall 1556 -1 0 { /i exch def numremcws i get 1 ne { numremcws i numremcws i 1 add get 1 add put } if } for { % Special characters /fnc1 -1 def /prog -2 def /m05 -3 def /m06 -4 def /lC -5 def /lB -6 def /lX -7 def /lT -8 def /lE -9 def /unl -10 def /sapp -11 def /usft -12 def /sft1 -13 def /sft2 -14 def /sft3 -15 def /eci -16 def /pad -17 def /unlcw 254 def /Avals << 0 1 128 {dup 1 add} for pad 129 0 1 99 { % Double digits dup 10 2 string cvrs (00) 2 string copy dup 2 3 index length sub 4 -1 roll putinterval exch 130 add } for 229 [ lC lB fnc1 sapp prog usft m05 m06 lX lT lE eci ] {exch 1 add dup} forall pop >> def /Avals << Avals {[exch]} forall >> def /CNvals << sft1 0 sft2 1 sft3 2 32 3 48 1 57 {dup 44 sub} for % 0-9 65 1 90 {dup 51 sub} for % A-Z >> def /C1vals << 0 1 31 {dup} for >> def /C2vals << 33 1 47 {dup 33 sub} for 58 1 64 {dup 43 sub} for 91 1 95 {dup 69 sub} for fnc1 27 usft 30 >> def /C3vals << 96 1 127 {dup 96 sub} for >> def /Cvals << CNvals {[exch]} forall C1vals {[exch CNvals sft1 get exch]} forall C2vals {[exch CNvals sft2 get exch]} forall C3vals {[exch CNvals sft3 get exch]} forall >> def /TNvals << sft1 0 sft2 1 sft3 2 32 3 48 1 57 {dup 44 sub} for % 0-9 97 1 122 {dup 83 sub} for % a-z >> def /T1vals << 0 1 31 {dup} for >> def /T2vals << 33 1 47 {dup 33 sub} for 58 1 64 {dup 43 sub} for 91 1 95 {dup 69 sub} for fnc1 27 usft 30 >> def /T3vals << 96 0 65 1 90 {dup 64 sub} for 123 1 127 {dup 96 sub} for >> def /Tvals << TNvals {[exch]} forall T1vals {[exch TNvals sft1 get exch]} forall T2vals {[exch TNvals sft2 get exch]} forall T3vals {[exch TNvals sft3 get exch]} forall >> def % Extended ASCII mappings 128 1 255 { /i exch def Avals i [ Avals usft get aload pop Avals i 128 sub get aload pop ] put Cvals i [ Cvals usft get aload pop Cvals i 128 sub get aload pop ] put Tvals i [ Tvals usft get aload pop Tvals i 128 sub get aload pop ] put } for /Xvals << 13 0 42 1 62 2 32 3 48 1 57 {dup 44 sub} for 65 1 90 {dup 51 sub} for >> def /Xvals << Xvals {[exch]} forall >> def /Evals << 64 1 94 {dup 64 sub} for unl 31 32 1 63 {dup} for >> def /Evals << Evals {[exch]} forall >> def /Bvals << 0 1 255 {dup} for >> def /Bvals << Bvals {[exch]} forall >> def /encvals [ Avals Cvals Tvals Xvals Evals Bvals ] def /A 0 def /C 1 def /T 2 def /X 3 def /E 4 def /B 5 def } ctxdef raw {/encoding (raw) def} if encoding (raw) eq { /cws barcode length array def /i 0 def /j 0 def { % loop i barcode length eq {exit} if /cw barcode i 1 add 3 getinterval cvi def cws j cw put /i i 4 add def /j j 1 add def } loop /cws cws 0 j getinterval def } if % encoding=raw encoding (auto) eq { % Parse the input /fncvals << /parse parse /parsefnc parsefnc /eci true (FNC1) fnc1 (PROG) prog % (MAC5) m05 Encoded automatically % (MAC6) m06 Encoded automatically >> def /msg barcode fncvals //parseinput exec def /msglen msg length def % Macro 05/06 compression of [)>{RS}05/06{GS}...{RS}{EOT} structured data msglen 9 ge { msg 0 7 getinterval aload pop 29 eq exch pop exch 48 eq and exch % [)>{RS}0*{GS}... 30 eq and exch 62 eq and exch 41 eq and exch 91 eq and { msg msglen 2 sub 2 getinterval aload pop 4 eq exch 30 eq and { % ...{RS}{EOT} msg 5 get 53 eq { % ...5... /msg [ m05 msg 7 msg length 9 sub getinterval aload pop ] def } { msg 5 get 54 eq { % ...6... /msg [ m06 msg 7 msg length 9 sub getinterval aload pop ] def } if } ifelse } if } if } if /msglen msg length def /numD [ msglen {0} repeat 0 ] def /nextXterm [ msglen {0} repeat 9999 ] def /nextNonX [ msglen {0} repeat 9999 ] def /isECI [ msglen {false} repeat false ] def msglen 1 sub -1 0 { /i exch def /barchar msg i get def barchar 48 ge barchar 57 le and { numD i numD i 1 add get 1 add put } if barchar 13 eq barchar 42 eq or barchar 62 eq or { nextXterm i 0 put } { nextXterm i nextXterm i 1 add get 1 add put } ifelse Xvals barchar known not { nextNonX i 0 put } { nextNonX i nextNonX i 1 add get 1 add put } ifelse isECI i barchar -1000000 le put } for /nextXterm [nextXterm {dup 10000 gt {pop 10000} if} forall] def /nextNonX [nextNonX {dup 10000 gt {pop 10000} if} forall] def /isD {char 48 ge char 57 le and} def /isC {CNvals char known} def /isT {TNvals char known} def /isX {Xvals char known} def /isE {Evals char known} def /isEA {char 127 gt} def /isFN {char 0 lt} def /XtermFirst {dup nextXterm exch get exch nextNonX exch get lt} def /lookup { /ac 1 def /cc 2 def /tc 2 def /xc 2 def /ec 2 def /bc 2.25 def mode A eq {/ac 0 def /cc 1 def /tc 1 def /xc 1 def /ec 1 def /bc 1.25 def} if mode C eq {/cc 0 def} if mode T eq {/tc 0 def} if mode X eq {/xc 0 def} if mode E eq {/ec 0 def} if mode B eq {/bc 0 def} if 1 { % common exit isECI i get {A exit} if % ECI only in ASCII mailmark i 45 lt and {C exit} if % Mailmark is C40 only for 45 characters /k 0 def { % loop i k add msglen eq { [/ac /cc /tc /xc /ec /bc] {dup load ceiling def} forall true [ cc tc xc ec bc] {ac exch le and} forall {A exit} if true [ac cc tc xc ec ] {bc exch lt and} forall {B exit} if true [ac cc tc xc bc] {ec exch lt and} forall {E exit} if true [ac cc xc ec bc] {tc exch lt and} forall {T exit} if true [ac cc tc ec bc] {xc exch lt and} forall {X exit} if C exit } if /char msg i k add get def /ac ac isD {1 2 div add} {isEA {ceiling 2 add} {ceiling 1 add} ifelse} ifelse def /cc cc isC {2 3 div add} {isEA { 8 3 div add } { 4 3 div add } ifelse} ifelse def /tc tc isT {2 3 div add} {isEA { 8 3 div add } { 4 3 div add } ifelse} ifelse def /xc xc isX {2 3 div add} {isEA {13 3 div add } {10 3 div add } ifelse} ifelse def /ec ec isE {3 4 div add} {isEA {17 4 div add } {13 4 div add } ifelse} ifelse def /bc bc isFN {4 add} {1 add} ifelse def k 4 ge { true [ cc tc xc ec bc] {ac 1 add exch le and} forall {A exit} if bc 1 add ac le {B exit} if true [ cc tc xc ec ] {bc 1 add exch lt and} forall {B exit} if true [ac cc tc xc bc] {ec 1 add exch lt and} forall {E exit} if true [ac cc xc ec bc] {tc 1 add exch lt and} forall {T exit} if true [ac cc tc ec bc] {xc 1 add exch lt and} forall {X exit} if true [ac tc ec bc] {cc 1 add exch lt and} forall { cc xc lt {C exit} if cc xc eq {i k add 1 add XtermFirst {X exit} {C exit} ifelse} if } if } if /k k 1 add def } loop } repeat } def /addtocws { dup cws exch j exch putinterval /j exch length j add def } def /ECItocws { neg 1000000 sub dup 000126 le { % ECI 000000 - 000126 1 add 1 array astore } { dup 016382 le { % ECI 000127 - 016382 127 sub dup 254 idiv 128 add exch 254 mod 1 add 2 array astore } { % ECI 016383 - 999999 16383 sub dup 64516 idiv 192 add exch dup 254 idiv 254 mod 1 add exch 254 mod 1 add 3 array astore } ifelse } ifelse } def /encA { 1 { % Common exit isECI i get { Avals eci get addtocws msg i get ECItocws addtocws /i i 1 add def exit } if numD i get 2 ge { 2 string dup 0 msg i get put dup 1 msg i 1 add get put Avals exch get addtocws /i i 2 add def exit } if /newmode lookup def newmode mode ne { Avals [-1 lC lT lX lE lB] newmode get get addtocws /mode newmode def exit } if Avals msg i get get addtocws /i i 1 add def exit } repeat } def /CTXvalstocws { /in exch def mark 0 3 in length 1 sub { in exch 3 getinterval 0 exch {add 40 mul} forall 40 idiv 1 add dup 256 idiv exch 256 mod } for counttomark array astore exch pop } def /encCTX { /p 0 def /ctxvals 2500 array def /done false def % Lookup the values for each character { i msglen eq {exit} if encvals mode get msg i get known not {exit} if p 3 mod 0 eq { p 0 gt { /newmode lookup def newmode mode ne { ctxvals 0 p getinterval CTXvalstocws addtocws [unlcw] addtocws newmode A ne { Avals [-1 lC lT lX lE lB] newmode get get addtocws } if /mode newmode def /done true def exit } if } if msglen i sub 3 le { % Check end of data conditions /remcws numremcws j p 3 idiv 2 mul add get def /remvals [ msg i msglen i sub getinterval { dup encvals mode get exch known { encvals mode get exch get aload pop } { % Unencodable X12 characters pop -1 -1 -1 -1 } ifelse } forall ] def remcws 2 eq remvals length 3 eq and { % Encode and omit unlatch [ ctxvals 0 p getinterval aload pop remvals aload pop ] CTXvalstocws addtocws /mode A def /i msglen def /done true def exit } if remcws 2 eq remvals length 2 eq and mode X ne and { % Encode with sft1 as third value, omit unlatch [ ctxvals 0 p getinterval aload pop remvals aload pop encvals mode get sft1 get aload pop ] CTXvalstocws addtocws /mode A def /i msglen def /done true def exit } if remcws 2 eq remvals length 1 eq and { % Unlatch to ASCII ctxvals 0 p getinterval CTXvalstocws addtocws [unlcw] addtocws Avals msg i get get addtocws /mode A def /i msglen def /done true def exit } if remcws 1 eq remvals length 1 eq and { % Implied unlatch to ASCII ctxvals 0 p getinterval CTXvalstocws addtocws Avals msg i get get addtocws /mode A def /i msglen def /done true def exit } if } if } if encvals mode get msg i get get dup ctxvals exch p exch putinterval /p exch length p add def /i i 1 add def } loop % Backtrack to a boundary and return to ASCII done not { { p 3 mod 0 eq {exit} if /i i 1 sub def /p p encvals mode get msg i get get length sub def } loop [ ctxvals 0 p getinterval aload pop ] CTXvalstocws addtocws [unlcw] addtocws /mode A def % Encode something to avoid latching immediately back i msglen ne isECI i get not and { numD i get 2 ge { 2 string dup 0 msg i get put dup 1 msg i 1 add get put Avals exch get addtocws /i i 2 add def } { Avals msg i get get addtocws /i i 1 add def } ifelse } if } if } def /Evalstocws { /in exch def /inlen in length def /outlen in length 4 div 3 mul ceiling cvi def /in [ in aload pop 0 0 0 ] def mark 0 4 inlen 1 sub { in exch 4 getinterval 0 exch {or 6 bitshift} forall -6 bitshift dup -16 bitshift 255 and exch dup -8 bitshift 255 and exch 255 and } for counttomark array astore exch pop 0 outlen getinterval } def /encE { /p 0 def /edifactvals 2100 array def % Lookup the values for each character { i msglen eq {exit} if Evals msg i get known not {exit} if p 4 mod 0 eq { msglen i sub 2 le { % Check end of data condition /remcws numremcws j p 4 idiv 3 mul add get def /remvals [ msg i msglen i sub getinterval { Avals exch get aload pop } forall ] def remcws 1 eq remcws 2 eq or remvals length remcws le and { % Implied unlatch to ASCII edifactvals 0 p getinterval Evalstocws addtocws remvals addtocws /mode A def /i msglen def exit } if } if lookup mode ne {exit} if } if Evals msg i get get dup edifactvals exch p exch putinterval /p exch length p add def /i i 1 add def } loop % Unlatch and pad with zeros until boundary mode A ne { /remcws numremcws j p 4 idiv 3 mul add 1 sub get 1 sub def p 4 mod 0 ne i msglen ne or remcws 3 ge or { % Unlatch unless less than 3 codewords remain Evals unl get dup edifactvals exch p exch putinterval /p exch length p add def } if edifactvals 0 p getinterval Evalstocws addtocws /mode A def % Encode something to avoid latching immediately back i msglen ne isECI i get not and { numD i get 2 ge { 2 string dup 0 msg i get put dup 1 msg i 1 add get put Avals exch get addtocws /i i 2 add def } { Avals msg i get get addtocws /i i 1 add def } ifelse } if } if } def /encB { /p 0 def /bvals 1558 array def { i msglen eq {exit} if lookup mode ne {exit} if bvals p msg i get put /p p 1 add def /i i 1 add def } loop /remcws numremcws j p add get 1 sub def /bvals [ remcws 0 eq i msglen eq and { % Terminates symbol 0 } { p 250 lt {p} {p 250 idiv 249 add p 250 mod} ifelse } ifelse bvals 0 p getinterval aload pop ] def 0 1 bvals length 1 sub { % Pseudo-randomise based on codeword position /p exch def j p add 1 add 149 mul 255 mod 1 add bvals p get add dup 256 ge {256 sub} if bvals exch p exch put } for bvals addtocws /mode A def } def % Derive the codewords /cws 1558 array def /mode A def /i 0 def /j 0 def { i msglen ge {exit} if [ /encA /encCTX /encCTX /encCTX /encE /encB ] mode get load exec } loop /cws cws 0 j getinterval def } if % encoding=auto % Extend codewords to fill symbol with pseudo-randomised pad characters /datlen cws length def /remcws numremcws j 1 sub get 1 sub def remcws 0 gt { /cws [ cws aload pop remcws {129} repeat ] def datlen 1 add 1 datlen remcws add 1 sub { /i exch def i 1 add 149 mul 253 mod 1 add 129 add dup 254 gt {254 sub} if cws exch i exch put } for } if options /debugcws known { /bwipp.debugcws cws //raiseerror exec } if % Lookup symbol metrics based on number of codewords and user specification /i 0 def { % loop /m metrics i get def /rows m 0 get def % Rows in symbol /cols m 1 get def % Columns in symbol /regh m 2 get def % Horizontal regions /regv m 3 get def % Vertical regions /rscw m 4 get def % Error correction codewords /rsbl m 5 get def % Error correction blocks /mrows rows 2 regh mul sub def % Rows in the mapping matrix /mcols cols 2 regv mul sub def % Columns in the mapping matrix /rrows mrows regh idiv def % Rows per region /rcols mcols regv idiv def % Columns per region /ncws mrows mcols mul 8 idiv rscw sub def % Data codewords /okay true def cws length ncws ne {/okay false def} if urows 0 ne urows rows ne and {/okay false def} if ucols 0 ne ucols cols ne and {/okay false def} if format (square) eq rows cols ne and {/okay false def} if format (rectangle) eq rows cols eq and {/okay false def} if okay {exit} if /i i 1 add def } loop % De-interleave the codewords into blocks /cwbs rsbl array def % Array of data codeword blocks /ecbs rsbl array def % Array of error correction blocks 0 1 rsbl 1 sub { /i exch def cws length 1558 ne { /cwbsize cws length rsbl idiv def } { i 7 le {/cwbsize 156 def} {/cwbsize 155 def} ifelse } ifelse /cwb cwbsize array def 0 1 cwbsize 1 sub { /j exch def cwb j cws j rsbl mul i add get put } for cwbs i cwb put ecbs i [ rscw rsbl idiv {0} repeat ] put } for % Calculate the log and anti-log tables { /rsalog [ 1 255 { dup 2 mul dup 256 ge {301 xor} if } repeat ] def /rslog 256 array def 1 1 255 {dup rsalog exch get exch rslog 3 1 roll put} for } ctxdef % Function to calculate the product in the field /rsprod { 2 copy 0 ne exch 0 ne and { rslog exch get exch rslog exch get add 255 mod rsalog exch get } { pop pop 0 } ifelse } def % Generate the coefficients /coeffs [ 1 rscw rsbl idiv {0} repeat ] def 1 1 rscw rsbl idiv { /i exch def coeffs i coeffs i 1 sub get put i 1 sub -1 1 { /j exch def coeffs j coeffs j 1 sub get coeffs j get rsalog i get rsprod xor put } for coeffs 0 coeffs 0 get rsalog i get rsprod put } for /coeffs coeffs 0 coeffs length 1 sub getinterval def % Calculate the error correction codewords for each block 0 1 cwbs length 1 sub { /i exch def /cwb cwbs i get def /ecb ecbs i get def 0 1 cwb length 1 sub { /t exch cwb exch get ecb 0 get xor def ecb length 1 sub -1 0 { /j exch def /p ecb length j sub 1 sub def ecb p t coeffs j get rsprod put j 0 gt { ecb p ecb p 1 add get ecb p get xor put } if } for } for } for % Strange fixup for 144x144 symbols ncws 1558 eq { /ecbs [ ecbs 8 2 getinterval {} forall ecbs 0 8 getinterval {} forall ] def } if % Extend codewords with the interleaved error correction codes /cws [ cws {} forall rscw {0} repeat ] def 0 1 rscw 1 sub { /i exch def cws ncws i add ecbs i rsbl mod get i rsbl idiv get put } for % Place the codewords into the matrix /module { % cw row col shape 4 -1 roll (00000000) 8 string copy dup 3 -1 roll 2 8 string cvrs dup length 8 exch sub exch putinterval 7 -1 0 {1 index exch get 48 sub exch} for pop 11 -3 roll % 1 2 4 8 16 32 64 128 row col shape { % Place each bit of the codeword in the shape, MSB first exec 1 index 0 lt { exch mrows add exch 4 mrows 4 add 8 mod sub add } if dup 0 lt { mcols add exch 4 mcols 4 add 8 mod sub add exch } if 1 index mrows ge { exch mrows sub exch } if exch mcols mul add mmat exch 5 -1 roll put } forall } def % Placement patterns /dmn [ { 2 copy 2 sub exch 2 sub exch } bind { 2 copy 1 sub exch 2 sub exch } bind { 2 copy 2 sub exch 1 sub exch } bind { 2 copy 1 sub exch 1 sub exch } bind { 2 copy exch 1 sub exch } bind { 2 copy 2 sub } bind { 2 copy 1 sub } bind { 2 copy } bind ] def /dmc1 [ { mrows 1 sub 0 } bind { mrows 1 sub 1 } bind { mrows 1 sub 2 } bind { 0 mcols 2 sub } bind { 0 mcols 1 sub } bind { 1 mcols 1 sub } bind { 2 mcols 1 sub } bind { 3 mcols 1 sub } bind ] def /dmc2 [ { mrows 3 sub 0 } bind { mrows 2 sub 0 } bind { mrows 1 sub 0 } bind { 0 mcols 4 sub } bind { 0 mcols 3 sub } bind { 0 mcols 2 sub } bind { 0 mcols 1 sub } bind { 1 mcols 1 sub } bind ] def /dmc3 [ { mrows 3 sub 0 } bind { mrows 2 sub 0 } bind { mrows 1 sub 0 } bind { 0 mcols 2 sub } bind { 0 mcols 1 sub } bind { 1 mcols 1 sub } bind { 2 mcols 1 sub } bind { 3 mcols 1 sub } bind ] def /dmc4 [ { mrows 1 sub 0 } bind { mrows 1 sub mcols 1 sub } bind { 0 mcols 3 sub } bind { 0 mcols 2 sub } bind { 0 mcols 1 sub } bind { 1 mcols 3 sub } bind { 1 mcols 2 sub } bind { 1 mcols 1 sub } bind ] def /mmat [ mrows mcols mul {-1} repeat ] def cws length 1 sub -1 0 {cws exch get} for % Reverse cws onto stack 4 0 % Starting row and column { % loop 2 copy 0 eq exch mrows eq and { dmc1 module } if 2 copy 0 eq exch mrows 2 sub eq and mcols 4 mod 0 ne and { dmc2 module } if 2 copy 0 eq exch mrows 2 sub eq and mcols 8 mod 4 eq and { dmc3 module } if 2 copy 2 eq exch mrows 4 add eq and mcols 8 mod 0 eq and { dmc4 module } if { % loop for sweeping upwards 2 copy 0 ge exch mrows lt and { 2 copy exch mcols mul add mmat exch get -1 eq { dmn module } if } if 2 add exch 2 sub exch 2 copy mcols lt exch 0 ge and not {exit} if } loop 3 add exch 1 add exch { % loop for sweeping downwards 2 copy mcols lt exch 0 ge and { 2 copy exch mcols mul add mmat exch get -1 eq { dmn module } if } if 2 sub exch 2 add exch 2 copy 0 ge exch mrows lt and not {exit} if } loop 1 add exch 3 add exch 2 copy mcols lt exch mrows lt or not {pop pop exit} if } loop % Set checker pattern if required mmat mrows mcols mul 1 sub get -1 eq { mmat mrows mcols 1 sub mul 2 sub [1 0] putinterval mmat mrows mcols mul 2 sub [0 1] putinterval } if % Place the modules onto a pixel map between alignment patterns /pixs rows cols mul array def /cwpos 0 def 0 1 rows 1 sub { /i exch def i rrows 2 add mod 0 eq { pixs i cols mul [ cols 2 idiv {1 0} repeat ] putinterval } if i rrows 2 add mod rrows 1 add eq { pixs i cols mul [ cols {1} repeat ] putinterval } if i rrows 2 add mod 0 ne i rrows 2 add mod rrows 1 add ne and { 0 1 cols 1 sub { /j exch def j rcols 2 add mod 0 eq { pixs i cols mul j add 1 put } if j rcols 2 add mod rcols 1 add eq { pixs i cols mul j add i 2 mod put } if j rcols 2 add mod 0 ne j rcols 2 add mod rcols 1 add ne and { pixs i cols mul j add mmat cwpos get put /cwpos cwpos 1 add def } if } for } if } for % Return the arguments << /ren //renmatrix /pixs pixs /pixx cols /pixy rows /height rows 2 mul 72 div /width cols 2 mul 72 div /opt options >> dontdraw not //renmatrix if //unloadctx exec end } [/barcode] {null def} forall bind def /datamatrix dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER datamatrix-- % --BEGIN ENCODER datamatrixrectangular-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix datamatrix-- % --DESC: Data Matrix Rectangular % --EXAM: 1234 % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp datamatrixrectangular 0.0 2022082100 62617 62460 %%BeginData: 46 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /datamatrix dup /uk.co.terryburton.bwipp findresource put begin /datamatrixrectangular { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Get the result of encoding with datamatrix with format=rectangle options (dontdraw) true put options (format) (rectangle) put /args barcode options //datamatrix exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /datamatrixrectangular dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER datamatrixrectangular-- % --BEGIN ENCODER datamatrixrectangularextension-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix datamatrix-- % --DESC: Data Matrix Rectangular Extension % --EXAM: 1234 % --EXOP: version=8x96 % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp datamatrixrectangularextension 0.0 2022082100 63804 63742 %%BeginData: 56 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 20 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /datamatrix dup /uk.co.terryburton.bwipp findresource put begin /datamatrixrectangularextension { 20 dict begin /options exch def /barcode exch def /ctx null def /dontdraw false def /dmre false def /dindmre false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Get the result of encoding with datamatrix options (dontdraw) true put options (format) (rectangle) put dindmre dmre or not { % Default is (ISO) DMRE options (dmre) true put } { % Otherwise enable formats as given options (dmre) dmre put % ISO options (dindmre) dindmre put % DIN } ifelse /args barcode options //datamatrix exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /datamatrixrectangularextension dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER datamatrixrectangularextension-- % --BEGIN ENCODER mailmark-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix datamatrix-- % --DESC: Royal Mail Mailmark % --EXAM: JGB 012100123412345678AB19XY1A 0 www.xyz.com % --EXOP: type=29 % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp mailmark 0.0 2022082100 66101 65894 %%BeginData: 81 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /datamatrix dup /uk.co.terryburton.bwipp findresource put begin /mailmark { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /type (unset) def % 7, 9 or 29 /parse false def /dontdraw false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Parse ordinals of the form ^NNN to ASCII /fncvals << /parse parse /parseonly true /parsefnc false >> def /barcode barcode fncvals //parseinput exec def /barlen barcode length def options (parse) undef % Map the given type to a format and version of Data Matrix << (7) (24x24) (9) (32x32) (29) (16x48) >> /type load get /version exch def << (7) (square) (9) (square) (29) (rectangle) >> /type load get /format exch def % Validate the input barcode length 45 lt { /bwipp.mailmarkBadLength (Royal Mail Mailmark must contain at least 45 characters of Mailmark formatted data, including any required space padding) //raiseerror exec } if barcode 0 4 getinterval (JGB ) ne { /bwipp.mailmarkBadIndicator (Royal Mail Mailmark must begin with JGB identifier) //raiseerror exec } if % Get the result of encoding with datamatrix options (dontdraw) true put options (version) version put options (format) format put options (mailmark) true put /args barcode options //datamatrix exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /mailmark dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER mailmark-- % --BEGIN ENCODER qrcode-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix-- % --DESC: QR Code % --EXAM: http://goo.gl/0bis % --EXOP: eclevel=M % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp qrcode 0.0 2022082100 320507 354887 %%BeginData: 1369 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /qrcode { 20 dict begin /options exch def /barcode exch def /ctx null def /dontdraw false def /format (unset) def % full or micro. rMQR symbols are specified using version /version (unset) def % 1-40 or M1-M4 or R7x43, etc /eclevel (unset) def % full: L, M, Q, H; micro: L, M, Q; rmqr: M, H /parse false def /parsefnc false def /mask -1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /mask mask cvi def /qrcode //loadctx exec % If version is supplied and format is not given then set format to correspond version (unset) ne { format (unset) eq { (full) version 0 1 getinterval (M) eq { pop (micro) } if version 0 1 getinterval (R) eq { pop (rmqr) } if /format exch def } if } { format (unset) eq { /format (full) def } if % Default to full } ifelse % Default error correction level eclevel (unset) eq {/eclevel format (micro) ne {(M)} {(L)} ifelse def} if % Parse the input /fn1 -1 def /fncvals << /parse parse /parsefnc parsefnc /eci true (FNC1) fn1 >> def /msg barcode fncvals //parseinput exec def /msglen msg length def % If FNC1 in first position then escape % as %% /fnc1first false def msglen 0 gt { msg 0 get fn1 eq { /fnc1first true def /msg [ msg 1 msglen 1 sub getinterval { dup 37 eq {dup} if } forall ] def /msglen msg length def } if } if { % context % Enumerate vergrps [ /v1to9 /v10to26 /v27to40 /vM1 /vM2 /vM3 /vM4 /vR7x43 /vR7x59 /vR7x77 /vR7x99 /vR7x139 /vR9x43 /vR9x59 /vR9x77 /vR9x99 /vR9x139 /vR11x27 /vR11x43 /vR11x59 /vR11x77 /vR11x99 /vR11x139 /vR13x27 /vR13x43 /vR13x59 /vR13x77 /vR13x99 /vR13x139 /vR15x43 /vR15x59 /vR15x77 /vR15x99 /vR15x139 /vR17x43 /vR17x59 /vR17x77 /vR17x99 /vR17x139 ] 0 exch {1 index def 1 add} forall pop % Convert from input into message bitstream % % Modes: (N)umeric, (A)lphanumeric, (B)yte, (K)anji, (E)CI % /N 0 def /A 1 def /B 2 def /K 3 def /E 4 def /Nexcl << [ 16#30 1 16#39 {} for ] {-1} forall >> def /Aexcl << [ 16#20 16#24 16#25 16#2A 16#2B 16#2D 16#2E 16#2F 16#3A 16#41 1 16#5A {} for fn1 ] {-1} forall >> def % Binary exclusives calculated from "not others" /Kexcl << [ 16#81 1 16#9F {} for 16#E0 1 16#EB {} for ] {-1} forall >> def /mids [ % N A B K E [ (0001) (0010) (0100) (1000) (0111) ] % v1to9 [ (0001) (0010) (0100) (1000) (0111) ] % v10to26 [ (0001) (0010) (0100) (1000) (0111) ] % v27to40 [ () -1 -1 -1 -1 ] % vM1 [ (0) (1) -1 -1 -1 ] % vM2 [ (00) (01) (10) (11) -1 ] % vM3 [ (000) (001) (010) (011) -1 ] % vM4 32 { [ (001) (010) (011) (100) (111) ] % rMQR } repeat ] def /cclens [ % N A B K [ 10 9 8 8 ] % v1to9 [ 12 11 16 10 ] % v10to26 [ 14 13 16 12 ] % v27to40 [ 3 -1 -1 -1 ] % vM1 [ 4 3 -1 -1 ] % vM2 [ 5 4 4 3 ] % vM3 [ 6 5 5 4 ] % vM4 [ 4 3 3 2 ] % vR7x43 [ 5 5 4 3 ] % vR7x59 [ 6 5 5 4 ] % vR7x77 [ 7 6 5 5 ] % vR7x99 [ 7 6 6 5 ] % vR7x139 [ 5 5 4 3 ] % vR9x43 [ 6 5 5 4 ] % vR9x59 [ 7 6 5 5 ] % vR9x77 [ 7 6 6 5 ] % vR9x99 [ 8 7 6 6 ] % vR9x139 [ 4 4 3 2 ] % vR11x27 [ 6 5 5 4 ] % vR11x43 [ 7 6 5 5 ] % vR11x59 [ 7 6 6 5 ] % vR11x77 [ 8 7 6 6 ] % vR11x99 [ 8 7 7 6 ] % vR11x139 [ 5 5 4 3 ] % vR13x27 [ 6 6 5 5 ] % vR13x43 [ 7 6 6 5 ] % vR13x59 [ 7 7 6 6 ] % vR13x77 [ 8 7 7 6 ] % vR13x99 [ 8 8 7 7 ] % vR13x139 [ 7 6 6 5 ] % vR15x43 [ 7 7 6 5 ] % vR15x59 [ 8 7 7 6 ] % vR15x77 [ 8 7 7 6 ] % vR15x99 [ 9 8 7 7 ] % vR15x139 [ 7 6 6 5 ] % vR17x43 [ 8 7 6 6 ] % vR17x59 [ 8 7 7 6 ] % vR17x77 [ 8 8 7 6 ] % vR17x99 [ 9 8 8 7 ] % vR17x139 ] def /termlens [ 3 { 4 % Full } repeat 3 % vM1 5 % vM2 7 % vM3 9 % vM4 32 { 3 % rMQR } repeat ] def /padstrs [ (11101100) (00010001) ] def % Alphanumeric character to value map /charmap (0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ $%*+-./:) def /charvals 44 dict def 0 1 44 {dup charmap exch get exch charvals 3 1 roll put} for } ctxdef % Encoding functions /tobin { string dup length 1 sub 0 exch 1 exch {1 index exch 48 put} for dup 3 -1 roll 2 2 index length string cvrs dup length 2 index length exch sub exch putinterval } def /encA { /in exch def fnc1first { % FNC1 as % /in [ in { dup fn1 eq {pop 37} if } forall ] def } if /out in length 11 mul 2 idiv 1 add string def /k 0 def /m 0 def { k in length eq {exit} if k in length 1 sub lt { charvals in k get get 45 mul charvals in k 1 add get get add 11 tobin /k k 2 add def } { % Final character charvals in k get get 6 tobin /k k 1 add def } ifelse dup out exch m exch putinterval length m add /m exch def } loop out 0 m getinterval } def /encN { /in exch def /out in length 10 mul 3 idiv 1 add string def /k 0 def /m 0 def { k in length eq {exit} if k in length 2 sub lt { in k 3 getinterval 0 exch {exch 10 mul 48 sub add} forall 10 tobin /k k 3 add def } { k in length 2 sub eq { % Two final digits in k 2 getinterval 0 exch {exch 10 mul 48 sub add} forall 7 tobin /k k 2 add def } { % One final digit in k 1 getinterval 0 exch {exch 10 mul 48 sub add} forall 4 tobin /k k 1 add def } ifelse } ifelse dup out exch m exch putinterval length m add /m exch def } loop out 0 m getinterval } def /encB { /in exch def fnc1first { % FNC1 as GS /in [ in { dup fn1 eq {pop 29} if } forall ] def } if /out in length 8 mul string def 0 1 in length 1 sub { /k exch def in k get cvi 8 tobin out k 8 mul 3 -1 roll putinterval } for out } def /encK { /in exch def /out in length 2 idiv 13 mul string def /k 0 def /m 0 def { k in length eq {exit} if in k get 256 mul in k 1 add get add dup 16#E040 lt {16#8140} {16#C140} ifelse sub dup -8 bitshift 16#C0 mul exch 16#00FF and add 13 tobin dup out exch m exch putinterval length m add /m exch def /k k 2 add def } loop out } def /encE { 0 get neg 1000000 sub dup 000127 le { % ECI 000000 - 000127 8 tobin } { dup 016383 le { % ECI 000128 - 016383 2#1000000000000000 add 16 tobin } { % ECI 016384 - 999999 2#110000000000000000000000 add 24 tobin } ifelse } ifelse } def /encfuncs [ /encN /encA /encB /encK /encE ] def /addtobits { dup bits j 3 -1 roll putinterval length j add /j exch def } def /numNs [ msglen {0} repeat 0 ] def /numAs [ msglen {0} repeat 0 ] def /numAorNs [ msglen {0} repeat 0 ] def /numBs [ msglen {0} repeat 0 ] def /numKs [ msglen {0} repeat 0 ] def /nextNs [ msglen {0} repeat 9999 ] def /nextBs [ msglen {0} repeat 9999 ] def /nextAs [ msglen {0} repeat 9999 ] def /nextKs [ msglen {0} repeat 9999 ] def /isECI msglen array def msglen 1 sub -1 0 { /i exch def /barchar msg i get def Kexcl barchar known { /sjis i 1 add msglen lt { barchar 256 mul msg i 1 add get add } {0} ifelse def % Zero if last char sjis 16#8140 ge sjis 16#9FFC le and sjis 16#E040 ge sjis 16#EBBF le and or { nextKs i 0 put numKs i numKs i 2 add get 1 add put } { nextKs i nextKs i 1 add get 1 add put } ifelse } { nextKs i nextKs i 1 add get 1 add put } ifelse Nexcl barchar known { nextNs i 0 put numNs i numNs i 1 add get 1 add put numAorNs i numAorNs i 1 add get 1 add put } { nextNs i nextNs i 1 add get 1 add put } ifelse Aexcl barchar known { nextAs i 0 put numAs i numAs i 1 add get 1 add put numAorNs i numAorNs i 1 add get 1 add put } { nextAs i nextAs i 1 add get 1 add put } ifelse isECI i barchar -1000000 le put } for 0 1 msglen 1 sub { % Scan forward to set any "2nd byte 1st byte" Kanji matches to zero /i exch def numKs i get 0 gt { numKs i 1 add 0 put nextKs i 1 add nextKs i 1 add get 1 add put } if } for msglen 1 sub -1 0 { % Finally scan backwards again to set numBs/nextBs from "not others" /i exch def numNs i get numAs i get numKs i get add add 0 eq isECI i get not and { nextBs i 0 put numBs i numBs i 1 add get 1 add put } { nextBs i nextBs i 1 add get 1 add put } ifelse } for /KbeforeB {numK exch ver get ge nextBs numK 2 mul i add get 0 eq and} def /KbeforeA {numK exch ver get ge nextAs numK 2 mul i add get 0 eq and} def /KbeforeN {numK exch ver get ge nextNs numK 2 mul i add get 0 eq and} def /KbeforeE {numK exch ver get ge numK 2 mul i add msglen eq and} def /AbeforeK {numA exch ver get ge nextKs numA i add get 0 eq and} def /AbeforeB {numA exch ver get ge nextBs numA i add get 0 eq and} def /AbeforeN {numA exch ver get ge nextNs numA i add get 0 eq and} def /AbeforeE {numA exch ver get ge numA i add msglen eq and} def /NbeforeK {numN exch ver get ge nextKs numN i add get 0 eq and} def /NbeforeB {numN exch ver get ge nextBs numN i add get 0 eq and} def /NbeforeA {numN exch ver get ge nextAs numN i add get 0 eq and} def /NbeforeE {numN exch ver get ge numN i add msglen eq and} def /AorNbeforeB {numAorN exch ver get ge nextBs numAorN i add get 0 eq and} def /AorNbeforeE {numAorN exch ver get ge numAorN i add msglen eq and} def /nextNslt { nextNs i get msglen ge { pop true } { numNs nextNs i get i add get exch ver get lt } ifelse } def % Elements of the encoded message have differing lengths based on the % resulting symbol size. The symbol sizes with different element lengths % are batched into vergrps. To pick the smallest symbol that holds our % content we encode the message according to each available vergrp, based % on the format of symbol. % Determine which groups we need to encode { /versetmap << % Full 0 1 9 { 10 2 string cvrs v1to9 } for 10 1 26 { 10 2 string cvrs v10to26 } for 27 1 40 { 10 2 string cvrs v27to40 } for % Micro (M1) vM1 (M2) vM2 (M3) vM3 (M4) vM4 % rMQR (R7x43) vR7x43 (R7x59) vR7x59 (R7x77) vR7x77 (R7x99) vR7x99 (R7x139) vR7x139 (R9x43) vR9x43 (R9x59) vR9x59 (R9x77) vR9x77 (R9x99) vR9x99 (R9x139) vR9x139 (R11x27) vR11x27 (R11x43) vR11x43 (R11x59) vR11x59 (R11x77) vR11x77 (R11x99) vR11x99 (R11x139) vR11x139 (R13x27) vR13x27 (R13x43) vR13x43 (R13x59) vR13x59 (R13x77) vR13x77 (R13x99) vR13x99 (R13x139) vR13x139 (R15x43) vR15x43 (R15x59) vR15x59 (R15x77) vR15x77 (R15x99) vR15x99 (R15x139) vR15x139 (R17x43) vR17x43 (R17x59) vR17x59 (R17x77) vR17x77 (R17x99) vR17x99 (R17x139) vR17x139 >> def /versetfull [v1to9 v10to26 v27to40] def /versetmicro [vM1 vM2 vM3 vM4] def } ctxdef version (unset) ne { % A specific version of symbol is given so encode in just the corresponding vergrp /verset versetmap version get [ exch ] def } { % Just the format is specified so encode in each vergrp for the type of symbol format (full) eq { /verset versetfull def } if format (micro) eq { /verset versetmicro def } if % rMQR symbols are accessed with an explicit version } ifelse % Encode unterminated bitstream for each compatible vergrp separately /msgbits [ 39 {-1} repeat ] def /e 10000 def % Number of before characters per vergrp, depending on current mode, for optimising modes % Generated by contrib/development/build-qr-mode-optim-arrs.php % Full Micro R7 R9 R11 R13 R15 R17 { /mode0forceKB [ 1 1 1 e e 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1] def /mode0forceA [ 1 1 1 e 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1] def /mode0forceN [ 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1] def /mode0NbeforeB [ 4 4 5 e e 2 3 2 2 3 3 3 2 3 3 3 3 2 3 3 3 3 3 2 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3] def /modeBKbeforeB [ 9 12 13 e e 4 6 4 5 6 6 6 5 6 6 6 7 4 6 6 6 7 7 5 6 6 7 7 7 6 6 7 7 7 6 7 7 7 8] def /modeBKbeforeA [ 8 10 11 e e 4 5 4 5 5 6 6 5 5 6 6 6 4 5 6 6 6 6 5 6 6 6 6 7 6 6 6 6 7 6 6 6 7 7] def /modeBKbeforeN [ 8 9 11 e e 3 5 3 4 5 5 5 4 5 5 5 6 3 5 5 5 6 6 4 5 5 6 6 6 5 5 6 6 7 5 6 6 6 7] def /modeBKbeforeE [ 5 5 6 e e 2 3 2 3 3 3 3 3 3 3 3 4 2 3 3 3 4 4 3 3 3 4 4 4 3 3 4 4 4 3 4 4 4 4] def /modeBAbeforeK [11 12 14 e e 5 7 5 6 7 8 8 6 7 8 8 8 6 7 8 8 8 8 6 8 8 8 8 9 8 8 8 8 9 8 8 8 9 9] def /modeBAbeforeB [11 15 16 e e 6 7 6 7 7 8 8 7 7 8 8 8 6 7 8 8 8 9 7 8 8 8 9 9 8 8 9 9 9 8 8 9 9 10] def /modeBAbeforeN [12 13 15 e e 6 8 6 7 8 8 8 7 8 8 8 9 6 8 8 8 9 9 7 8 8 9 9 10 8 9 9 9 10 8 9 9 10 10] def /modeBAbeforeE [ 6 7 8 e e 3 4 3 4 4 4 4 4 4 4 4 5 4 4 4 4 5 5 4 4 4 5 5 5 4 5 5 5 5 4 5 5 5 5] def /modeBNbeforeK [ 6 7 8 e e 3 4 3 4 4 5 5 4 4 5 5 5 3 4 5 5 5 5 4 4 5 5 5 5 5 5 5 5 5 5 5 5 5 5] def /modeBNbeforeB [ 6 8 9 e e 3 4 3 4 4 5 5 4 4 5 5 5 3 4 5 5 5 5 4 4 5 5 5 5 5 5 5 5 5 5 5 5 5 6] def /modeBNbeforeA [ 6 7 8 e e 3 4 3 4 4 5 5 4 4 5 5 5 4 4 5 5 5 5 4 5 5 5 5 5 5 5 5 5 6 5 5 5 5 6] def /modeBNbeforeE [ 3 4 4 e e 2 3 2 2 3 3 3 2 3 3 3 3 2 3 3 3 3 3 2 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3] def /modeANbeforeA [13 15 17 e 5 7 9 7 8 9 9 9 8 9 9 9 11 7 9 9 9 11 11 8 9 9 10 11 11 9 10 11 11 11 9 11 11 11 11] def /modeANbeforeB [13 17 18 e e 7 9 7 8 9 9 9 8 9 9 9 10 7 9 9 9 10 11 8 9 9 9 11 11 9 9 11 11 11 9 10 11 11 11] def /modeANbeforeE [ 7 8 9 e 3 4 5 4 5 5 5 5 5 5 5 5 6 4 5 5 5 6 6 5 5 5 5 6 6 5 5 6 6 6 5 6 6 6 6] def } ctxdef verset { /ver exch def % Derive optimal sequence /mode -1 def /seq [] def /i 0 def { i msglen ge {exit} if /numK numKs i get def /numB numBs i get def /numA numAs i get def /numN numNs i get def /numAorN numAorNs i get def /eci isECI i get def ver vM1 eq numA 1 ge and {/seq -1 def exit} if ver vM1 eq numB 1 ge and {/seq -1 def exit} if ver vM1 eq numK 1 ge and {/seq -1 def exit} if ver vM1 eq eci and {/seq -1 def exit} if ver vM2 eq numB 1 ge and {/seq -1 def exit} if ver vM2 eq numK 1 ge and {/seq -1 def exit} if ver vM2 eq eci and {/seq -1 def exit} if ver vM3 eq eci and {/seq -1 def exit} if ver vM4 eq eci and {/seq -1 def exit} if { % common exit eci { E exit } if mode -1 eq { % Set initial mode (or mode after ECI) mode0forceKB KbeforeA {K exit} if mode0forceKB KbeforeN {K exit} if modeBKbeforeE KbeforeB {K exit} if % Re-using modeB KbeforeE array mode0forceKB KbeforeE {K exit} if numK 1 ge {B exit} if mode0NbeforeB NbeforeB {N exit} if mode0forceKB NbeforeB {B exit} if modeANbeforeE NbeforeA {N exit} if % Re-using modeA NbeforeE array mode0forceN NbeforeE {N exit} if modeBAbeforeE AbeforeK {A exit} if % Re-using modeB AbeforeE array modeBAbeforeE AorNbeforeB {A exit} if % Re-using modeB AbeforeE array mode0forceA AorNbeforeE {A exit} if B exit } if mode B eq { modeBKbeforeB KbeforeB {K exit} if modeBKbeforeA KbeforeA {K exit} if modeBKbeforeN KbeforeN {K exit} if modeBKbeforeE KbeforeE {K exit} if modeBAbeforeK AbeforeK {A exit} if modeBAbeforeB AbeforeB {A exit} if modeBAbeforeN AbeforeN {A exit} if modeBAbeforeE AbeforeE {A exit} if modeBNbeforeK NbeforeK {N exit} if modeBNbeforeB NbeforeB {N exit} if modeBNbeforeA NbeforeA {N exit} if modeBNbeforeE NbeforeE {N exit} if modeBAbeforeE AorNbeforeE numAorN modeBAbeforeN ver get le and { % If A/N sequence at end and short modeBNbeforeA nextNslt {A exit} if % And next N sequence shorter than NbeforeA } if B exit } if mode A eq { numK 1 ge {K exit} if numB 1 ge {B exit} if modeANbeforeA NbeforeA {N exit} if modeANbeforeB NbeforeB {N exit} if modeANbeforeE NbeforeE {N exit} if numA 1 ge numN 1 ge or {A exit} if B exit } if mode N eq { numK 1 ge {K exit} if numB 1 ge {B exit} if numA 1 ge {A exit} if numN 1 ge {N exit} if B exit } if mode K eq { numB 1 ge {B exit} if numA 1 ge {A exit} if numN 1 ge {N exit} if numK 1 ge {K exit} if B exit } if } loop dup K eq fnc1first and {pop B} if % No kanji with fnc1first dup mode eq { % Same mode encode directly pop /dat msg i mode K eq {2} {1} ifelse getinterval def /seq [ seq aload pop [ exch aload pop dat aload pop ] ] def } { % Change mode /mode exch def mode K eq {K msg i numK 2 mul getinterval} if mode B eq {B msg i numB getinterval} if mode A eq {A msg i numA getinterval} if mode N eq {N msg i numN getinterval} if mode E eq {E msg i 1 getinterval /mode -1 def} if /dat exch def /sw exch def /seq [ seq aload pop sw dat ] def } ifelse /i i dat length add def } loop % Encode the sequence { % common exit seq -1 eq {exit} if % Sequence not available /bits 23648 string def /j 0 def fnc1first { ver vR7x43 lt { (0101) } { (101) } ifelse addtobits } if /abort false def 0 2 seq length 1 sub { /i exch def /mode seq i get def mids ver get mode get addtobits /chars seq i 1 add get def /charslen chars length mode K eq {2 idiv} if def mode E ne { /cclen cclens ver get mode get def charslen 2 cclen exp cvi ge { % Too many characters for cc indicator /abort true def exit } if charslen cclen tobin addtobits } if chars encfuncs mode get load exec addtobits } for abort {exit} if /bits bits 0 j getinterval def msgbits ver bits put exit } loop } forall % Lookup the most appropriate symbol specification { /metrics [ % format vers vergrp rows cols align modules error codewords error correction blocks % L M Q H L1 L2 M1 M2 Q1 Q2 H1 H2 [ (micro) (M1) vM1 11 11 98 99 36 [ 2 99 99 99 ] [ 1 0 -1 -1 -1 -1 -1 -1 ] ] [ (micro) (M2) vM2 13 13 98 99 80 [ 5 6 99 99 ] [ 1 0 1 0 -1 -1 -1 -1 ] ] [ (micro) (M3) vM3 15 15 98 99 132 [ 6 8 99 99 ] [ 1 0 1 0 -1 -1 -1 -1 ] ] [ (micro) (M4) vM4 17 17 98 99 192 [ 8 10 14 99 ] [ 1 0 1 0 1 0 -1 -1 ] ] [ (full) (1) v1to9 21 21 98 99 208 [ 7 10 13 17 ] [ 1 0 1 0 1 0 1 0 ] ] [ (full) (2) v1to9 25 25 18 99 359 [ 10 16 22 28 ] [ 1 0 1 0 1 0 1 0 ] ] [ (full) (3) v1to9 29 29 22 99 567 [ 15 26 36 44 ] [ 1 0 1 0 2 0 2 0 ] ] [ (full) (4) v1to9 33 33 26 99 807 [ 20 36 52 64 ] [ 1 0 2 0 2 0 4 0 ] ] [ (full) (5) v1to9 37 37 30 99 1079 [ 26 48 72 88 ] [ 1 0 2 0 2 2 2 2 ] ] [ (full) (6) v1to9 41 41 34 99 1383 [ 36 64 96 112 ] [ 2 0 4 0 4 0 4 0 ] ] [ (full) (7) v1to9 45 45 22 38 1568 [ 40 72 108 130 ] [ 2 0 4 0 2 4 4 1 ] ] [ (full) (8) v1to9 49 49 24 42 1936 [ 48 88 132 156 ] [ 2 0 2 2 4 2 4 2 ] ] [ (full) (9) v1to9 53 53 26 46 2336 [ 60 110 160 192 ] [ 2 0 3 2 4 4 4 4 ] ] [ (full) (10) v10to26 57 57 28 50 2768 [ 72 130 192 224 ] [ 2 2 4 1 6 2 6 2 ] ] [ (full) (11) v10to26 61 61 30 54 3232 [ 80 150 224 264 ] [ 4 0 1 4 4 4 3 8 ] ] [ (full) (12) v10to26 65 65 32 58 3728 [ 96 176 260 308 ] [ 2 2 6 2 4 6 7 4 ] ] [ (full) (13) v10to26 69 69 34 62 4256 [ 104 198 288 352 ] [ 4 0 8 1 8 4 12 4 ] ] [ (full) (14) v10to26 73 73 26 46 4651 [ 120 216 320 384 ] [ 3 1 4 5 11 5 11 5 ] ] [ (full) (15) v10to26 77 77 26 48 5243 [ 132 240 360 432 ] [ 5 1 5 5 5 7 11 7 ] ] [ (full) (16) v10to26 81 81 26 50 5867 [ 144 280 408 480 ] [ 5 1 7 3 15 2 3 13 ] ] [ (full) (17) v10to26 85 85 30 54 6523 [ 168 308 448 532 ] [ 1 5 10 1 1 15 2 17 ] ] [ (full) (18) v10to26 89 89 30 56 7211 [ 180 338 504 588 ] [ 5 1 9 4 17 1 2 19 ] ] [ (full) (19) v10to26 93 93 30 58 7931 [ 196 364 546 650 ] [ 3 4 3 11 17 4 9 16 ] ] [ (full) (20) v10to26 97 97 34 62 8683 [ 224 416 600 700 ] [ 3 5 3 13 15 5 15 10 ] ] [ (full) (21) v10to26 101 101 28 50 9252 [ 224 442 644 750 ] [ 4 4 17 0 17 6 19 6 ] ] [ (full) (22) v10to26 105 105 26 50 10068 [ 252 476 690 816 ] [ 2 7 17 0 7 16 34 0 ] ] [ (full) (23) v10to26 109 109 30 54 10916 [ 270 504 750 900 ] [ 4 5 4 14 11 14 16 14 ] ] [ (full) (24) v10to26 113 113 28 54 11796 [ 300 560 810 960 ] [ 6 4 6 14 11 16 30 2 ] ] [ (full) (25) v10to26 117 117 32 58 12708 [ 312 588 870 1050 ] [ 8 4 8 13 7 22 22 13 ] ] [ (full) (26) v10to26 121 121 30 58 13652 [ 336 644 952 1110 ] [ 10 2 19 4 28 6 33 4 ] ] [ (full) (27) v27to40 125 125 34 62 14628 [ 360 700 1020 1200 ] [ 8 4 22 3 8 26 12 28 ] ] [ (full) (28) v27to40 129 129 26 50 15371 [ 390 728 1050 1260 ] [ 3 10 3 23 4 31 11 31 ] ] [ (full) (29) v27to40 133 133 30 54 16411 [ 420 784 1140 1350 ] [ 7 7 21 7 1 37 19 26 ] ] [ (full) (30) v27to40 137 137 26 52 17483 [ 450 812 1200 1440 ] [ 5 10 19 10 15 25 23 25 ] ] [ (full) (31) v27to40 141 141 30 56 18587 [ 480 868 1290 1530 ] [ 13 3 2 29 42 1 23 28 ] ] [ (full) (32) v27to40 145 145 34 60 19723 [ 510 924 1350 1620 ] [ 17 0 10 23 10 35 19 35 ] ] [ (full) (33) v27to40 149 149 30 58 20891 [ 540 980 1440 1710 ] [ 17 1 14 21 29 19 11 46 ] ] [ (full) (34) v27to40 153 153 34 62 22091 [ 570 1036 1530 1800 ] [ 13 6 14 23 44 7 59 1 ] ] [ (full) (35) v27to40 157 157 30 54 23008 [ 570 1064 1590 1890 ] [ 12 7 12 26 39 14 22 41 ] ] [ (full) (36) v27to40 161 161 24 50 24272 [ 600 1120 1680 1980 ] [ 6 14 6 34 46 10 2 64 ] ] [ (full) (37) v27to40 165 165 28 54 25568 [ 630 1204 1770 2100 ] [ 17 4 29 14 49 10 24 46 ] ] [ (full) (38) v27to40 169 169 32 58 26896 [ 660 1260 1860 2220 ] [ 4 18 13 32 48 14 42 32 ] ] [ (full) (39) v27to40 173 173 26 54 28256 [ 720 1316 1950 2310 ] [ 20 4 40 7 43 22 10 67 ] ] [ (full) (40) v27to40 177 177 30 58 29648 [ 750 1372 2040 2430 ] [ 19 6 18 31 34 34 20 61 ] ] [ (rmqr) (R7x43) vR7x43 7 43 22 99 104 [ 99 7 99 10 ] [ -1 -1 1 0 -1 -1 1 0 ] ] [ (rmqr) (R7x59) vR7x59 7 59 20 40 171 [ 99 9 99 14 ] [ -1 -1 1 0 -1 -1 1 0 ] ] [ (rmqr) (R7x77) vR7x77 7 77 26 52 261 [ 99 12 99 22 ] [ -1 -1 1 0 -1 -1 1 0 ] ] [ (rmqr) (R7x99) vR7x99 7 99 24 50 358 [ 99 16 99 30 ] [ -1 -1 1 0 -1 -1 1 0 ] ] [ (rmqr) (R7x139) vR7x139 7 139 28 56 545 [ 99 24 99 44 ] [ -1 -1 1 0 -1 -1 2 0 ] ] [ (rmqr) (R9x43) vR9x43 9 43 22 99 170 [ 99 9 99 14 ] [ -1 -1 1 0 -1 -1 1 0 ] ] [ (rmqr) (R9x59) vR9x59 9 59 20 40 267 [ 99 12 99 22 ] [ -1 -1 1 0 -1 -1 1 0 ] ] [ (rmqr) (R9x77) vR9x77 9 77 26 52 393 [ 99 18 99 32 ] [ -1 -1 1 0 -1 -1 1 1 ] ] [ (rmqr) (R9x99) vR9x99 9 99 24 50 532 [ 99 24 99 44 ] [ -1 -1 1 0 -1 -1 2 0 ] ] [ (rmqr) (R9x139) vR9x139 9 139 28 56 797 [ 99 36 99 66 ] [ -1 -1 1 1 -1 -1 3 0 ] ] [ (rmqr) (R11x27) vR11x27 11 27 98 99 122 [ 99 8 99 10 ] [ -1 -1 1 0 -1 -1 1 0 ] ] [ (rmqr) (R11x43) vR11x43 11 43 22 99 249 [ 99 12 99 20 ] [ -1 -1 1 0 -1 -1 1 0 ] ] [ (rmqr) (R11x59) vR11x59 11 59 20 40 376 [ 99 16 99 32 ] [ -1 -1 1 0 -1 -1 1 1 ] ] [ (rmqr) (R11x77) vR11x77 11 77 26 52 538 [ 99 24 99 44 ] [ -1 -1 1 0 -1 -1 1 1 ] ] [ (rmqr) (R11x99) vR11x99 11 99 24 50 719 [ 99 32 99 60 ] [ -1 -1 1 1 -1 -1 1 1 ] ] [ (rmqr) (R11x139) vR11x139 11 139 28 56 1062 [ 99 48 99 90 ] [ -1 -1 2 0 -1 -1 3 0 ] ] [ (rmqr) (R13x27) vR13x27 13 27 98 99 172 [ 99 9 99 14 ] [ -1 -1 1 0 -1 -1 1 0 ] ] [ (rmqr) (R13x43) vR13x43 13 43 22 99 329 [ 99 14 99 28 ] [ -1 -1 1 0 -1 -1 1 0 ] ] [ (rmqr) (R13x59) vR13x59 13 59 20 40 486 [ 99 22 99 40 ] [ -1 -1 1 0 -1 -1 2 0 ] ] [ (rmqr) (R13x77) vR13x77 13 77 26 52 684 [ 99 32 99 56 ] [ -1 -1 1 1 -1 -1 1 1 ] ] [ (rmqr) (R13x99) vR13x99 13 99 24 50 907 [ 99 40 99 78 ] [ -1 -1 1 1 -1 -1 1 2 ] ] [ (rmqr) (R13x139) vR13x139 13 139 28 56 1328 [ 99 60 99 112 ] [ -1 -1 2 1 -1 -1 2 2 ] ] [ (rmqr) (R15x43) vR15x43 15 43 22 99 409 [ 99 18 99 36 ] [ -1 -1 1 0 -1 -1 1 1 ] ] [ (rmqr) (R15x59) vR15x59 15 59 20 40 596 [ 99 26 99 48 ] [ -1 -1 1 0 -1 -1 2 0 ] ] [ (rmqr) (R15x77) vR15x77 15 77 26 52 830 [ 99 36 99 72 ] [ -1 -1 1 1 -1 -1 2 1 ] ] [ (rmqr) (R15x99) vR15x99 15 99 24 50 1095 [ 99 48 99 88 ] [ -1 -1 2 0 -1 -1 4 0 ] ] [ (rmqr) (R15x139) vR15x139 15 139 28 56 1594 [ 99 72 99 130 ] [ -1 -1 2 1 -1 -1 1 4 ] ] [ (rmqr) (R17x43) vR17x43 17 43 22 99 489 [ 99 22 99 40 ] [ -1 -1 1 0 -1 -1 1 1 ] ] [ (rmqr) (R17x59) vR17x59 17 59 20 40 706 [ 99 32 99 60 ] [ -1 -1 2 0 -1 -1 2 0 ] ] [ (rmqr) (R17x77) vR17x77 17 77 26 52 976 [ 99 44 99 84 ] [ -1 -1 2 0 -1 -1 1 2 ] ] [ (rmqr) (R17x99) vR17x99 17 99 24 50 1283 [ 99 60 99 104 ] [ -1 -1 2 1 -1 -1 4 0 ] ] [ (rmqr) (R17x139) vR17x139 17 139 28 56 1860 [ 99 80 99 156 ] [ -1 -1 4 0 -1 -1 2 4 ] ] ] def } ctxdef /eclval (LMQH) eclevel search pop length exch pop exch pop def 0 1 metrics length 1 sub { /i exch def /m metrics i get def /frmt m 0 get def % Format of the symbol /vers m 1 get def % Version of symbol /vergrp m 2 get def % Version group /verind i 44 sub def % Version indicator for rMQR format info /rows m 3 get def % Length of side /cols m 4 get def % Length of side /asp2 m 5 get def % Position of second alignment symbol /asp3 m 6 get def % Position of third alignment symbol /nmod m 7 get def % Number of modules /ncws nmod 8 idiv def % Total number of codewords /rbit nmod 8 mod def % Number of remainder bits /lc4b false def % Last data codeword is 4 bits long vers (M1) eq vers (M3) eq or { % Adjustments for M1 and M3 symbols /ncws ncws 1 add def /rbit 0 def /lc4b true def } if /ecws m 8 get eclval get def % Number of error correction codewords /dcws ncws ecws sub def % Number of data codewords /dmod dcws 8 mul lc4b {4} {0} ifelse sub def % Number of data modules /ecb1 m 9 get eclval 2 mul get def % First error correction blocks /ecb2 m 9 get eclval 2 mul 1 add get def % Second error correction blocks /okay true def format frmt ne {/okay false def} if % The format must match that supplied frmt (micro) eq fnc1first and {/okay false def} if % FNC1 mode is only available in full and rmqr version (unset) ne version vers ne and {/okay false def} if % The version must match that supplied ecb1 -1 eq ecb2 -1 eq or {/okay false def} if % Error correction level must be valid /verbits msgbits vergrp get def verbits -1 eq { % Bitstream must be available /okay false def } { verbits length dmod gt {/okay false def} if % and fit into data modules } ifelse /term (000000000) 0 termlens vergrp get getinterval def okay {exit} if } for okay not { /bwipp.qrcodeNoValidSymbol (Maximum length exceeded or invalid content) //raiseerror exec } if /format frmt def /version vers def /msgbits verbits def /dcpb dcws ecb1 ecb2 add idiv def % Base data codewords per block /ecpb ncws ecb1 ecb2 add idiv dcpb sub def % Error correction codewords per block % Complete the message bits by adding the terminator, truncated if necessary /term term 0 dmod msgbits length sub term length 2 copy gt {exch} if pop getinterval def msgbits length term length add string dup 0 msgbits putinterval dup msgbits length term putinterval /msgbits exch def % Expand the message bits by adding padding as necessary /pad dmod string def 0 1 pad length 1 sub {pad exch 48 put} for pad 0 msgbits putinterval /padnum 0 def msgbits length 8 div ceiling 8 mul cvi 8 dmod lc4b {5} {1} ifelse sub { pad exch padstrs padnum get putinterval /padnum padnum 1 add 2 mod def } for % Evaluate the padded message into codewords /cws dcws array def 0 1 cws length 1 sub { /c exch def /bpcw 8 def lc4b c cws length 1 sub eq and {/bpcw 4 def} if /cwb pad c 8 mul bpcw getinterval def /cw 0 def 0 1 bpcw 1 sub { /i exch def /cw cw 2 bpcw i sub 1 sub exp cvi cwb i get 48 sub mul add def } for cws c cw put } for % Short final data byte in M1 and M3 symbols has high-order value lc4b {cws cws length 1 sub 2 copy get 4 bitshift put} if options /debugcws known { /bwipp.debugcws cws //raiseerror exec } if % Calculate the log and anti-log tables { /rsalog [ 1 255 { dup 2 mul dup 256 ge {285 xor} if } repeat ] def /rslog 256 array def 1 1 255 {dup rsalog exch get exch rslog 3 1 roll put} for } ctxdef % Function to calculate the product in the field /rsprod { 2 copy 0 ne exch 0 ne and { rslog exch get exch rslog exch get add 255 mod rsalog exch get } { pop pop 0 } ifelse } def % Generate the coefficients for the Reed-Solomon algorithm /coeffs [ 1 ecpb {0} repeat ] def 0 1 ecpb 1 sub { /i exch def coeffs i 1 add coeffs i get put i -1 1 { /j exch def coeffs j coeffs j 1 sub get coeffs j get rsalog i get rsprod xor put } for coeffs 0 coeffs 0 get rsalog i get rsprod put } for /coeffs coeffs 0 coeffs length 1 sub getinterval def % Reed-Solomon algorithm to derive the error correction codewords /rscodes { /rscws exch def /rsnd rscws length def /rscws [ rscws {} forall ecpb {0} repeat ] def 0 1 rsnd 1 sub { /m exch def /k rscws m get def 0 1 ecpb 1 sub { /j exch def rscws m j add 1 add coeffs ecpb j sub 1 sub get k rsprod rscws m j add 1 add get xor put } for } for rscws rsnd ecpb getinterval } def % Divide codewords into two groups of blocks and calculate the error correction codewords /dcwsb ecb1 ecb2 add array def /ecwsb ecb1 ecb2 add array def 0 1 ecb1 1 sub { % First group of blocks has smaller number of data codewords /i exch def dcwsb i cws i dcpb mul dcpb getinterval put ecwsb i dcwsb i get rscodes put } for 0 1 ecb2 1 sub { % Second group of blocks has larger number of data codewords /i exch def dcwsb ecb1 i add cws ecb1 dcpb mul i dcpb 1 add mul add dcpb 1 add getinterval put ecwsb ecb1 i add dcwsb ecb1 i add get rscodes put } for % Reassemble the codewords /cws ncws array def /cw 0 def 0 1 dcpb { % Interleave the data codeword blocks /i exch def 0 1 ecb1 ecb2 add 1 sub { /j exch def i dcwsb j get length lt { % Ignore the end of short blocks cws cw dcwsb j get i get put /cw cw 1 add def } if } for } for 0 1 ecpb 1 sub { % Interleave the error codeword blocks /i exch def 0 1 ecb1 ecb2 add 1 sub { /j exch def cws cw ecwsb j get i get put /cw cw 1 add def } for } for % Extend codewords by one if there are remainder bits rbit 0 gt { /pad cws length 1 add array def pad 0 cws putinterval pad pad length 1 sub 0 put /cws pad def } if % Fixups for the short final data byte in M1 and M3 symbols lc4b { cws dcws 1 sub 2 copy get -4 bitshift put dcws 1 sub 1 ncws 2 sub { /i exch def cws i cws i get 15 and 4 bitshift put cws i cws i 1 add get -4 bitshift 15 and cws i get or put } for cws ncws 1 sub cws ncws 1 sub get 15 and 4 bitshift put } if options /debugecc known { /bwipp.debugecc cws //raiseerror exec } if % Create the bitmap /pixs [ rows cols mul {-1} repeat ] def /qmv {cols mul add} def % Timing patterns format (full) eq { 8 1 cols 9 sub { /i exch def pixs i 6 qmv i 1 add 2 mod put pixs 6 i qmv i 1 add 2 mod put } for } if format (micro) eq { 8 1 cols 1 sub { /i exch def pixs i 0 qmv i 1 add 2 mod put pixs 0 i qmv i 1 add 2 mod put } for } if format (rmqr) eq { 3 1 cols 4 sub { % Along top and bottom /i exch def pixs i 0 qmv i 1 add 2 mod put pixs i rows 1 sub qmv i 1 add 2 mod put } for 3 1 rows 4 sub { % Along left and right /i exch def pixs 0 i qmv i 1 add 2 mod put pixs cols 1 sub i qmv i 1 add 2 mod put } for asp2 1 sub asp3 asp2 sub cols 13 sub { % Down interior /i exch def 3 1 rows 4 sub { /j exch def pixs i j qmv j 1 add 2 mod put } for } for } if % Finder patterns { /fpat [ [ 1 1 1 1 1 1 1 0 ] [ 1 0 0 0 0 0 1 0 ] [ 1 0 1 1 1 0 1 0 ] [ 1 0 1 1 1 0 1 0 ] [ 1 0 1 1 1 0 1 0 ] [ 1 0 0 0 0 0 1 0 ] [ 1 1 1 1 1 1 1 0 ] [ 0 0 0 0 0 0 0 0 ] ] def /fsubpat [ [ 1 1 1 1 1 9 9 9 ] [ 1 0 0 0 1 9 9 9 ] [ 1 0 1 0 1 9 9 9 ] [ 1 0 0 0 1 9 9 9 ] [ 1 1 1 1 1 9 9 9 ] [ 9 9 9 9 9 9 9 9 ] [ 9 9 9 9 9 9 9 9 ] [ 9 9 9 9 9 9 9 9 ] ] def /fcorpat [ [ 1 1 1 9 9 9 9 9 ] [ 1 0 9 9 9 9 9 9 ] [ 1 9 9 9 9 9 9 9 ] [ 9 9 9 9 9 9 9 9 ] [ 9 9 9 9 9 9 9 9 ] [ 9 9 9 9 9 9 9 9 ] [ 9 9 9 9 9 9 9 9 ] [ 9 9 9 9 9 9 9 9 ] ] def /fnullpat [ [ 9 9 9 9 9 9 9 9 ] [ 9 9 9 9 9 9 9 9 ] [ 9 9 9 9 9 9 9 9 ] [ 9 9 9 9 9 9 9 9 ] [ 9 9 9 9 9 9 9 9 ] [ 9 9 9 9 9 9 9 9 ] [ 9 9 9 9 9 9 9 9 ] [ 9 9 9 9 9 9 9 9 ] ] def /fpatmap << % TL TR BL BR (full) [ fpat fpat fpat fnullpat ] (micro) [ fpat fnullpat fnullpat fnullpat ] (rmqr) [ fpat fcorpat fcorpat fsubpat ] >> def } ctxdef /fpats fpatmap format get def 0 1 7 { /y exch def 0 1 7 { /x exch def /fpb0 fpats 0 get y get x get def /fpb1 fpats 1 get y get x get def /fpb2 fpats 2 get y get x get def /fpb3 fpats 3 get y get x get def fpb0 9 ne y rows lt and {pixs x y qmv fpb0 put} if fpb1 9 ne {pixs cols x sub 1 sub y qmv fpb1 put} if fpb2 9 ne {pixs x rows y sub 1 sub qmv fpb2 put} if fpb3 9 ne {pixs cols x sub 1 sub rows y sub 1 sub qmv fpb3 put} if } for } for % Alignment patterns { /algnpatfull [ [ 1 1 1 1 1 ] [ 1 0 0 0 1 ] [ 1 0 1 0 1 ] [ 1 0 0 0 1 ] [ 1 1 1 1 1 ] ] def /algnpatrmqr [ [ 1 1 1 9 9 ] [ 1 0 1 9 9 ] [ 1 1 1 9 9 ] [ 9 9 9 9 9 ] [ 9 9 9 9 9 ] ] def } ctxdef /putalgnpat { /py exch def /px exch def 0 1 4 { /pb exch def 0 1 4 { /pa exch def /algnb algnpat pb get pa get def algnb 9 ne { pixs px pa add py pb add qmv algnb put } if } for } for } def format (full) eq { /algnpat algnpatfull def asp2 2 sub asp3 asp2 sub cols 13 sub { /i exch def i 4 putalgnpat 4 i putalgnpat } for asp2 2 sub asp3 asp2 sub cols 9 sub { /x exch def asp2 2 sub asp3 asp2 sub rows 9 sub { /y exch def x y putalgnpat } for } for } if format (rmqr) eq { /algnpat algnpatrmqr def asp2 2 sub asp3 asp2 sub cols 13 sub { /i exch def i 0 putalgnpat i rows 3 sub putalgnpat } for } if % Format information modules { /formatmapmicro [ [ [ 1 8 ] ] [ [ 2 8 ] ] [ [ 3 8 ] ] [ [ 4 8 ] ] [ [ 5 8 ] ] [ [ 6 8 ] ] [ [ 7 8 ] ] [ [ 8 8 ] ] [ [ 8 7 ] ] [ [ 8 6 ] ] [ [ 8 5 ] ] [ [ 8 4 ] ] [ [ 8 3 ] ] [ [ 8 2 ] ] [ [ 8 1 ] ] ] def } ctxdef /formatmap << (full) [ [ [ 0 8 ] [ 8 cols 1 sub ] ] [ [ 1 8 ] [ 8 cols 2 sub ] ] [ [ 2 8 ] [ 8 cols 3 sub ] ] [ [ 3 8 ] [ 8 cols 4 sub ] ] [ [ 4 8 ] [ 8 cols 5 sub ] ] [ [ 5 8 ] [ 8 cols 6 sub ] ] [ [ 7 8 ] [ 8 cols 7 sub ] ] [ [ 8 8 ] [ cols 8 sub 8 ] ] [ [ 8 7 ] [ cols 7 sub 8 ] ] [ [ 8 5 ] [ cols 6 sub 8 ] ] [ [ 8 4 ] [ cols 5 sub 8 ] ] [ [ 8 3 ] [ cols 4 sub 8 ] ] [ [ 8 2 ] [ cols 3 sub 8 ] ] [ [ 8 1 ] [ cols 2 sub 8 ] ] [ [ 8 0 ] [ cols 1 sub 8 ] ] ] (micro) formatmapmicro (rmqr) [ [ [ 11 3 ] [ cols 3 sub rows 6 sub ] ] [ [ 11 2 ] [ cols 4 sub rows 6 sub ] ] [ [ 11 1 ] [ cols 5 sub rows 6 sub ] ] [ [ 10 5 ] [ cols 6 sub rows 2 sub ] ] [ [ 10 4 ] [ cols 6 sub rows 3 sub ] ] [ [ 10 3 ] [ cols 6 sub rows 4 sub ] ] [ [ 10 2 ] [ cols 6 sub rows 5 sub ] ] [ [ 10 1 ] [ cols 6 sub rows 6 sub ] ] [ [ 9 5 ] [ cols 7 sub rows 2 sub ] ] [ [ 9 4 ] [ cols 7 sub rows 3 sub ] ] [ [ 9 3 ] [ cols 7 sub rows 4 sub ] ] [ [ 9 2 ] [ cols 7 sub rows 5 sub ] ] [ [ 9 1 ] [ cols 7 sub rows 6 sub ] ] [ [ 8 5 ] [ cols 8 sub rows 2 sub ] ] [ [ 8 4 ] [ cols 8 sub rows 3 sub ] ] [ [ 8 3 ] [ cols 8 sub rows 4 sub ] ] [ [ 8 2 ] [ cols 8 sub rows 5 sub ] ] [ [ 8 1 ] [ cols 8 sub rows 6 sub ] ] ] >> format get def formatmap { { {} forall qmv pixs exch 1 put } forall } forall % Version information modules format (full) eq cols 45 ge and { /versionmap [ [ [ cols 9 sub 5 ] [ 5 cols 9 sub ] ] [ [ cols 10 sub 5 ] [ 5 cols 10 sub ] ] [ [ cols 11 sub 5 ] [ 5 cols 11 sub ] ] [ [ cols 9 sub 4 ] [ 4 cols 9 sub ] ] [ [ cols 10 sub 4 ] [ 4 cols 10 sub ] ] [ [ cols 11 sub 4 ] [ 4 cols 11 sub ] ] [ [ cols 9 sub 3 ] [ 3 cols 9 sub ] ] [ [ cols 10 sub 3 ] [ 3 cols 10 sub ] ] [ [ cols 11 sub 3 ] [ 3 cols 11 sub ] ] [ [ cols 9 sub 2 ] [ 2 cols 9 sub ] ] [ [ cols 10 sub 2 ] [ 2 cols 10 sub ] ] [ [ cols 11 sub 2 ] [ 2 cols 11 sub ] ] [ [ cols 9 sub 1 ] [ 1 cols 9 sub ] ] [ [ cols 10 sub 1 ] [ 1 cols 10 sub ] ] [ [ cols 11 sub 1 ] [ 1 cols 11 sub ] ] [ [ cols 9 sub 0 ] [ 0 cols 9 sub ] ] [ [ cols 10 sub 0 ] [ 0 cols 10 sub ] ] [ [ cols 11 sub 0 ] [ 0 cols 11 sub ] ] ] def } { /versionmap [] def } ifelse versionmap { { {} forall qmv pixs exch 0 put } forall } forall % Reserve the solitary dark module in full symbols format (full) eq { pixs 8 rows 8 sub qmv 0 put } if % Calculate the mask patterns /maskfuncs << (full) [ {add 2 mod} {exch pop 2 mod} {pop 3 mod} {add 3 mod} {2 idiv exch 3 idiv add 2 mod} {mul dup 2 mod exch 3 mod add} {mul dup 2 mod exch 3 mod add 2 mod} {2 copy mul 3 mod 3 1 roll add 2 mod add 2 mod} ] (micro) [ {exch pop 2 mod} {2 idiv exch 3 idiv add 2 mod} {mul dup 2 mod exch 3 mod add 2 mod} {2 copy mul 3 mod 3 1 roll add 2 mod add 2 mod} ] (rmqr) [ {2 idiv exch 3 idiv add 2 mod} ] >> format get def mask -1 ne { % User specifies a mask /maskfuncs [maskfuncs mask 1 sub get] def /bestmaskval mask 1 sub def } if /masks maskfuncs length array def 0 1 masks length 1 sub { /m exch def /mask rows cols mul array def 0 1 rows 1 sub { /j exch def 0 1 cols 1 sub { /i exch def i j maskfuncs m get exec 0 eq pixs i j qmv get -1 eq and {1} {0} ifelse mask i j qmv 3 -1 roll put } for } for masks m mask put } for % Walk the symbol placing the bitstream /posx cols format (rmqr) ne {1} {2} ifelse sub def /posy rows 1 sub def /dir -1 def % -1 is upwards, 1 is downwards /col 1 def % 0 is left bit, 1 is right bit /num 0 def { % loop posx 0 lt {exit} if pixs posx posy qmv get -1 eq { cws num 8 idiv get 7 num 8 mod sub neg bitshift 1 and pixs posx posy qmv 3 -1 roll put /num num 1 add def } if col 1 eq { /col 0 def /posx posx 1 sub def } { /col 1 def /posx posx 1 add def /posy posy dir add def posy 0 lt posy rows ge or { % Turn around at top and bottom /dir dir -1 mul def /posy posy dir add def /posx posx 2 sub def % Hop over the timing pattern in full size symbols format (full) eq posx 6 eq and {/posx posx 1 sub def} if } if } ifelse } loop % Evaluate runlength encoded rows or columns in full symbols /evalfulln1n3 { /scrle exch def % Detect runs of 5 or more like modules /scr1 0 scrle { dup 5 ge {add 2 sub dup} if pop } forall def % Detect 1:1:3:1:1 ratio next to 4 modules of whitespace /scr3 0 def 3 2 scrle length 3 sub { % Scan odd (dark) runs within bounds /j exch def scrle j get 3 mod 0 eq { % Multiple of 3 black modules /fact scrle j get 3 idiv def scrle j 2 sub 5 getinterval {fact eq} forall and exch pop and and { j 3 eq j 4 add scrle length ge or { % At either extent of run /scr3 scr3 40 add def } { % Bounded by dark modules scrle j 3 sub get 4 ge scrle j 3 add get 4 ge or { /scr3 scr3 40 add def } if } ifelse } if } if } for scr1 scr3 } def % Evaluation algorithm for full symbols /evalfull { /sym exch def /n1 0 def /n2 0 def /n3 0 def /rle cols 1 add array def /lastpairs cols array def /thispairs cols array def /colsadd1 cols 1 add def 0 1 cols 1 sub { /i exch def % Runlength encode (light, dark, light, ...) and evaluate each column mark 0 0 i cols dup dup mul 1 sub { sym exch get exch 1 index eq {exch 1 add exch} {1 exch} ifelse } for pop rle 0 counttomark 2 sub getinterval astore evalfulln1n3 n3 add /n3 exch def n1 add /n1 exch def pop % Runlength encode (light, dark, light, ...) and evaluate each row /symrow sym i cols mul cols getinterval def mark 0 0 symrow { exch 1 index eq {exch 1 add exch} {1 exch} ifelse } forall pop rle 0 counttomark 2 sub getinterval astore evalfulln1n3 n3 add /n3 exch def n1 add /n1 exch def pop % Count and score same coloured blocks /lastpairs thispairs /thispairs lastpairs def def symrow 0 get 1 eq {0} {1} ifelse symrow {exch 1 index add exch} forall pop thispairs astore pop i 0 gt { mark lastpairs aload pop thispairs aload pop n2 cols { exch colsadd1 index add 3 and 0 eq {3 add} if } repeat /n2 exch def cleartomark } if } for % Score dark/light imbalance /dark 0 sym {add} forall def /n4 dark 100 mul cols dup mul div 50 sub abs 5 div cvi 10 mul def n1 n2 add n3 add n4 add } def % Evaluation algorithm for micro symbols /evalmicro { /sym exch def /dkrhs 0 def /dkbot 0 def 1 1 cols 1 sub { /i exch def /dkrhs dkrhs sym cols 1 sub i qmv get add def /dkbot dkbot sym i cols 1 sub qmv get add def } for dkrhs dkbot le { dkrhs 16 mul dkbot add neg } { dkbot 16 mul dkrhs add neg } ifelse } def % Evaluate the masked symbols to find the most suitable /bestscore 999999999 def 0 1 masks length 1 sub { /m exch def /masksym rows cols mul array def 0 1 rows cols mul 1 sub { /i exch def masksym i pixs i get masks m get i get xor put } for masks length 1 ne { % Not rMQR nor user-specified mask format (full) eq { masksym evalfull /score exch def } { masksym evalmicro /score exch def } ifelse score bestscore lt { /bestsym masksym def /bestmaskval m def /bestscore score def } if } { /bestsym masksym def } ifelse } for /pixs bestsym def % Set the solitary dark module in full symbols format (full) eq { pixs 8 cols 8 sub qmv 1 put } if % Add the format information { /fmtvalsfull [ 16#5412 16#5125 16#5e7c 16#5b4b 16#45f9 16#40ce 16#4f97 16#4aa0 16#77c4 16#72f3 16#7daa 16#789d 16#662f 16#6318 16#6c41 16#6976 16#1689 16#13be 16#1ce7 16#19d0 16#0762 16#0255 16#0d0c 16#083b 16#355f 16#3068 16#3f31 16#3a06 16#24b4 16#2183 16#2eda 16#2bed ] def /fmtvalsmicro [ 16#4445 16#4172 16#4e2b 16#4b1c 16#55ae 16#5099 16#5fc0 16#5af7 16#6793 16#62a4 16#6dfd 16#68ca 16#7678 16#734f 16#7c16 16#7921 16#06de 16#03e9 16#0cb0 16#0987 16#1735 16#1202 16#1d5b 16#186c 16#2508 16#203f 16#2f66 16#2a51 16#34e3 16#31d4 16#3e8d 16#3bba ] def /fmtvalsrmqr1 [ 16#1fab2 16#1e597 16#1dbdd 16#1c4f8 16#1b86c 16#1a749 16#19903 16#18626 16#17f0e 16#1602b 16#15e61 16#14144 16#13dd0 16#122f5 16#11cbf 16#1039a 16#0f1ca 16#0eeef 16#0d0a5 16#0cf80 16#0b314 16#0ac31 16#0927b 16#08d5e 16#07476 16#06b53 16#05519 16#04a3c 16#036a8 16#0298d 16#017c7 16#008e2 16#3f367 16#3ec42 16#3d208 16#3cd2d 16#3b1b9 16#3ae9c 16#390d6 16#38ff3 16#376db 16#369fe 16#357b4 16#34891 16#33405 16#32b20 16#3156a 16#30a4f 16#2f81f 16#2e73a 16#2d970 16#2c655 16#2bac1 16#2a5e4 16#29bae 16#2848b 16#27da3 16#26286 16#25ccc 16#243e9 16#23f7d 16#22058 16#21e12 16#20137 ] def /fmtvalsrmqr2 [ 16#20a7b 16#2155e 16#22b14 16#23431 16#248a5 16#25780 16#269ca 16#276ef 16#28fc7 16#290e2 16#2aea8 16#2b18d 16#2cd19 16#2d23c 16#2ec76 16#2f353 16#30103 16#31e26 16#3206c 16#33f49 16#343dd 16#35cf8 16#362b2 16#37d97 16#384bf 16#39b9a 16#3a5d0 16#3baf5 16#3c661 16#3d944 16#3e70e 16#3f82b 16#003ae 16#01c8b 16#022c1 16#03de4 16#04170 16#05e55 16#0601f 16#07f3a 16#08612 16#09937 16#0a77d 16#0b858 16#0c4cc 16#0dbe9 16#0e5a3 16#0fa86 16#108d6 16#117f3 16#129b9 16#1369c 16#14a08 16#1552d 16#16b67 16#17442 16#18d6a 16#1924f 16#1ac05 16#1b320 16#1cfb4 16#1d091 16#1eedb 16#1f1fe ] def } ctxdef format (full) eq { /ecid (MLHQ) eclevel search pop length exch pop exch pop def /fmtval fmtvalsfull ecid 3 bitshift bestmaskval add get def 0 1 formatmap length 1 sub { /i exch def formatmap i get { pixs exch aload pop qmv fmtval 14 i sub neg bitshift 1 and put } forall } for } if format (micro) eq { /symid [ [0] [1 2] [3 4] [5 6 7] ] cols 11 sub 2 idiv get eclval get def /fmtval fmtvalsmicro symid 2 bitshift bestmaskval add get def 0 1 formatmap length 1 sub { /i exch def pixs formatmap i get 0 get aload pop qmv fmtval 14 i sub neg bitshift 1 and put } for } if format (rmqr) eq { /fmtvalu (MH) eclevel search pop length exch pop exch pop 5 bitshift verind add def /fmtval1 fmtvalsrmqr1 fmtvalu get def /fmtval2 fmtvalsrmqr2 fmtvalu get def 0 1 formatmap length 1 sub { /i exch def pixs formatmap i get 0 get aload pop qmv fmtval1 17 i sub neg bitshift 1 and put pixs formatmap i get 1 get aload pop qmv fmtval2 17 i sub neg bitshift 1 and put } for } if % Add the version information { /vervals [ 16#07c94 16#085bc 16#09a99 16#0a4d3 16#0bbf6 16#0c762 16#0d847 16#0e60d 16#0f928 16#10b78 16#1145d 16#12a17 16#13532 16#149a6 16#15683 16#168c9 16#177ec 16#18ec4 16#191e1 16#1afab 16#1b08e 16#1cc1a 16#1d33f 16#1ed75 16#1f250 16#209d5 16#216fd 16#228ba 16#2379f 16#24b0b 16#2542e 16#26a64 16#27541 16#28c69 ] def } ctxdef format (full) eq cols 45 ge and { /verval vervals cols 17 sub 4 idiv 7 sub get def 0 1 versionmap length 1 sub { /i exch def versionmap i get { pixs exch {} forall qmv verval 17 i sub neg bitshift 1 and put } forall } for } if % Return the arguments << /ren //renmatrix /pixs pixs /pixx cols /pixy rows /height rows 2 mul 72 div /width cols 2 mul 72 div /opt options >> dontdraw not //renmatrix if //unloadctx exec end } [/barcode] {null def} forall bind def /qrcode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER qrcode-- % --BEGIN ENCODER swissqrcode-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix qrcode-- % --DESC: Swiss QR Code % --EXAM: % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp swissqrcode 0.0 2022082100 68213 68020 %%BeginData: 128 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /qrcode dup /uk.co.terryburton.bwipp findresource put begin /swissqrcode { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /parse false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Parse ordinals of the form ^NNN to ASCII /fncvals << /parse parse /parseonly true /parsefnc false >> def /barcode barcode fncvals //parseinput exec def /barlen barcode length def options (parse) undef % Validate the input length barcode length 997 gt { /bwipp.swissqrcodeBadLength (Swiss QR Code input must not exceed 997 digits) //raiseerror exec } if % Get the result of encoding with qrcode options (dontdraw) true put /args barcode options //qrcode exec def args (opt) options put args % The 7mm-wide Swiss Cross is defined by the specification as being an % overlaid image, i.e. not made out of "modules", so very likely a % different pitch. It cannot therefore be represented by our standard image % dictionary and would be a nightmare to gridfit. The application assumes a % sufficient high-resolution print process that such issues do not matter. % % So for now we simply do as we're told and paint over the top of the % barcode image that has been scaled to 46mm, user be damned! % dontdraw not { gsave currentpoint translate 72 25.4 div dup scale % pt to mm % Clipping path with 7mm hole for the Swiss Cross gsave newpath 0 0 moveto 46 0 lineto 46 46 lineto 0 46 lineto closepath 19.5 19.5 moveto 19.5 26.5 lineto 26.5 26.5 lineto 26.5 19.5 lineto closepath clip % Scale the QR Code to fit within 46mm gsave 0 0 moveto 46 args (pixx) get div 2 div dup scale //renmatrix exec grestore grestore % Clipping % Draw Swiss Cross 19.5 dup translate 7 83 div dup scale newpath 6 6 moveto 6 77 lineto 77 77 lineto 77 6 lineto closepath 49 18 moveto 49 34 lineto 65 34 lineto 65 49 lineto 49 49 lineto 49 65 lineto 34 65 lineto 34 49 lineto 18 49 lineto 18 34 lineto 34 34 lineto 34 18 lineto closepath 0 0 0 setrgbcolor fill grestore } if end } [/barcode] {null def} forall bind def /swissqrcode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER swissqrcode-- % --BEGIN ENCODER microqrcode-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix qrcode-- % --DESC: Micro QR Code % --EXAM: 1234 % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp microqrcode 0.0 2022082100 62905 62760 %%BeginData: 46 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /qrcode dup /uk.co.terryburton.bwipp findresource put begin /microqrcode { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Get the result of encoding with qrcode with format=micro options (dontdraw) true put options (format) (micro) put /args barcode options //qrcode exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /microqrcode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER microqrcode-- % --BEGIN ENCODER rectangularmicroqrcode-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix qrcode-- % --DESC: Rectangular Micro QR Code % --EXAM: 1234 % --EXOP: version=R17x139 % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp rectangularmicroqrcode 0.0 2022082100 62948 62792 %%BeginData: 46 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /qrcode dup /uk.co.terryburton.bwipp findresource put begin /rectangularmicroqrcode { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Get the result of encoding with qrcode with format=micro options (dontdraw) true put options (format) (rmqr) put /args barcode options //qrcode exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /rectangularmicroqrcode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER rectangularmicroqrcode-- % --BEGIN ENCODER maxicode-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmaximatrix-- % --DESC: MaxiCode % --EXAM: [)>^03001^02996152382802^029840^029001^0291Z00004951^029UPSN^02906X610^029159^0291234567^0291/1^029^029Y^029634 ALPHA DR^029PITTSBURGH^029PA^029^004 % --EXOP: mode=2 parse % --RNDR: renmaximatrix %%BeginResource: uk.co.terryburton.bwipp maxicode 0.0 2022082100 132737 135002 %%BeginData: 607 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmaximatrix dup /uk.co.terryburton.bwipp findresource put begin /maxicode { 20 dict begin /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /mode -1 def /sam -1 def /parse false def /parsefnc false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /mode mode cvi def /sam sam cvi def /maxicode //loadctx exec % Parse the input /fncvals << /parse parse /parsefnc parsefnc /eci true % ECIs only >> def /msg barcode fncvals //parseinput exec def /msglen msg length def % Special message handling for modes 2 and 3 mode 2 eq mode 3 eq or { % Convert to a string for extracting the structured data /barcode msglen string def 0 1 msglen 1 sub { /i exch def msg i get 0 gt { barcode i msg i get put } if } for /barlen barcode length def % Normalise messages that begin with a field identifier [)>{RS}01{GS}yy barcode 0 7 getinterval <5b293e1e30311d> eq { /fid barcode 0 9 getinterval def /barcode barcode 9 barlen 9 sub getinterval def } { /fid () def } ifelse % Read the postcode, country code and service code fields separated by GS barcode <1d> search pop /pcode exch def pop <1d> search pop /ccode exch def pop <1d> search pop /scode exch def pop /barcode exch def % Prepend the field identifier barcode length fid length add string dup 0 fid putinterval dup fid length barcode putinterval /barcode exch def /barlen barcode length def /msg [ barcode {} forall ] def /msglen msg length def } if { % Special function characters /eci -1 def /pad -2 def /ns -3 def /la -4 def /lb -5 def /sa -6 def /sb -7 def /sc -8 def /sd -9 def /se -10 def /sa2 -11 def /sa3 -12 def /lkc -13 def /lkd -14 def /lke -15 def /pd2 -16 def /pd3 -17 def % Character maps for each state /charmaps [ % A B C D E [ 13 (`) 192 224 0 ] % 0 [ (A) (a) 193 225 1 ] % 1 [ (B) (b) 194 226 2 ] % 2 [ (C) (c) 195 227 3 ] % 3 [ (D) (d) 196 228 4 ] % 4 [ (E) (e) 197 229 5 ] % 5 [ (F) (f) 198 230 6 ] % 6 [ (G) (g) 199 231 7 ] % 7 [ (H) (h) 200 232 8 ] % 8 [ (I) (i) 201 233 9 ] % 9 [ (J) (j) 202 234 10 ] % 10 [ (K) (k) 203 235 11 ] % 11 [ (L) (l) 204 236 12 ] % 12 [ (M) (m) 205 237 13 ] % 13 [ (N) (n) 206 238 14 ] % 14 [ (O) (o) 207 239 15 ] % 15 [ (P) (p) 208 240 16 ] % 16 [ (Q) (q) 209 241 17 ] % 17 [ (R) (r) 210 242 18 ] % 18 [ (S) (s) 211 243 19 ] % 19 [ (T) (t) 212 244 20 ] % 20 [ (U) (u) 213 245 21 ] % 21 [ (V) (v) 214 246 22 ] % 22 [ (W) (w) 215 247 23 ] % 23 [ (X) (x) 216 248 24 ] % 24 [ (Y) (y) 217 249 25 ] % 25 [ (Z) (z) 218 250 26 ] % 26 [ eci eci eci eci eci ] % 27 [ 28 28 28 28 pad ] % 28 [ 29 29 29 29 pad ] % 29 [ 30 30 30 30 27 ] % 30 [ ns ns ns ns ns ] % 31 [ ( ) ({) 219 251 28 ] % 32 [ pad pad 220 252 29 ] % 33 [ (") (}) 221 253 30 ] % 34 [ (#) (~) 222 254 31 ] % 35 [ ($) 127 223 255 159 ] % 36 [ (%) (;) 170 161 160 ] % 37 [ (&) (<) 172 168 162 ] % 38 [ (') (=) 177 171 163 ] % 39 [ 40 (>) 178 175 164 ] % 40 [ 41 (?) 179 176 165 ] % 41 [ (*) ([) 181 180 166 ] % 42 [ (+) 92 185 183 167 ] % 43 [ (,) (]) 186 184 169 ] % 44 [ (-) (^) 188 187 173 ] % 45 [ (.) (_) 189 191 174 ] % 46 [ (/) ( ) 190 138 182 ] % 47 [ (0) (,) 128 139 149 ] % 48 [ (1) (.) 129 140 150 ] % 49 [ (2) (/) 130 141 151 ] % 50 [ (3) (:) 131 142 152 ] % 51 [ (4) (@) 132 143 153 ] % 52 [ (5) (!) 133 144 154 ] % 53 [ (6) (|) 134 145 155 ] % 54 [ (7) pd2 135 146 156 ] % 55 [ (8) sa2 136 147 157 ] % 56 [ (9) sa3 137 148 158 ] % 57 [ (:) pd3 la la la ] % 58 [ sb sa ( ) ( ) ( ) ] % 59 [ sc sc lkc sc sc ] % 60 [ sd sd sd lkd sd ] % 61 [ se se se se lke ] % 62 [ lb la lb lb lb ] % 63 ] def % Invert charmaps to give character to value maps for each state /charvals [ 64 dict 64 dict 64 dict 64 dict 64 dict ] def 0 1 charmaps length 1 sub { /i exch def /encs charmaps i get def 0 1 4 { /j exch def encs j get dup type /stringtype eq {0 get} if % convert string to ASCII if required charvals j get exch i put } for } for /seta charvals 0 get def /setb charvals 1 get def /setc charvals 2 get def /setd charvals 3 get def /sete charvals 4 get def } ctxdef % Compute numeric runlengths /nseq [ msglen 1 add {0} repeat ] def msglen 1 sub -1 0 { /i exch def msg i get dup 48 ge exch 57 le and { nseq i nseq i 1 add get 1 add put } { nseq i 0 put } ifelse } for /nseq nseq 0 msglen getinterval def % Encode the message from ASCII to codewords /prefixinset { 0 { 2 copy exch length ge {exit} if 2 copy get 3 index exch known {1 add} {exit} ifelse } loop exch pop exch pop } def /enc { exch get out exch j exch put /j j 1 add def } def /out 144 array def /i 0 def /j 0 def /cset (seta) def { % loop % Exit when no characters remain latching back to A if necessary i msglen eq { cset (seta) ne cset (setb) ne and { la cset load enc /cset (seta) def } if exit } if { % not a loop but common exit point % Immediately encode an ECI msg i get -1000000 le { eci cset load enc msg i get neg 1000000 sub dup 000031 le { % ECI 000000 - 000031 63 and 1 array astore } { dup 001023 le { % ECI 000032 - 001023 dup -6 bitshift 31 and 32 or exch 63 and 2 array astore } { dup 032767 le { % ECI 001024 - 032767 dup -12 bitshift 47 and 48 or exch dup -6 bitshift 63 and exch 63 and 3 array astore } { % ECI 032768 - 999999 dup -18 bitshift 55 and 56 or exch dup -12 bitshift 63 and exch dup -6 bitshift 63 and exch 63 and 4 array astore } ifelse } ifelse } ifelse dup out exch j exch putinterval length j add /j exch def /i i 1 add def exit } if % If 9 numerals available then use NS nseq i get 9 ge { msg i 9 getinterval 0 exch {48 sub add 10 mul} forall 10 idiv 4 { dup 63 and exch -6 bitshift } repeat cset load ns get 0 2 10 {index} for 6 array astore 7 1 roll 6 {pop} repeat out exch j exch putinterval /i i 9 add def /j j 6 add def exit } if % Read next three characters /char1 msg i get def /char2 i 1 add msglen lt {msg i 1 add get} {-99} ifelse def /char3 i 2 add msglen lt {msg i 2 add get} {-99} ifelse def % If current mode is sufficient then directly encode cset load char1 known { char1 cset load enc /i i 1 add def exit } if % For switching from A to B cset (seta) eq setb char1 known and { setb char2 known { lb seta enc /cset (setb) def } { sb seta enc char1 setb enc /i i 1 add def } ifelse exit } if % For switching from B to A encode according to length of prefix cset (setb) eq seta char1 known and { /p seta msg i 4 msglen i sub 2 copy gt {exch} if pop getinterval prefixinset def p 1 eq { sa setb enc char1 seta enc /i i 1 add def } if p 2 eq { sa2 setb enc char1 seta enc char2 seta enc /i i 2 add def } if p 3 eq { sa3 setb enc char1 seta enc char2 seta enc char3 seta enc /i i 3 add def } if p 4 ge { la setb enc /cset (seta) def } if exit } if % If character is in A or B then directly latch seta char1 known { la cset load enc /cset (seta) def exit } if setb char1 known { lb cset load enc /cset (setb) def exit } if % Determine which one of sets C, D or E the character is in setc char1 known {/setx (setc) def /sx sc def /lkx lkc def} if setd char1 known {/setx (setd) def /sx sd def /lkx lkd def} if sete char1 known {/setx (sete) def /sx se def /lkx lke def} if % Encode according to the length of the prefix /p setx load msg i 4 msglen i sub 2 copy gt {exch} if pop getinterval prefixinset def p 1 eq { sx cset load enc char1 setx load enc /i i 1 add def } if p 2 eq { sx cset load enc char1 setx load enc sx cset load enc char2 setx load enc /i i 2 add def } if p 3 eq { sx cset load enc char1 setx load enc sx cset load enc char2 setx load enc sx cset load enc char3 setx load enc /i i 3 add def } if p 4 ge { sx cset load enc lkx setx load enc /cset setx def } if exit } loop % out } loop /encmsg out 0 j getinterval def /padval cset load pad get def % Prefix the encoded message with the structured append insert /sami [] def sam -1 ne { /sami 2 array def sami 0 seta pad get put sami 1 sam 10 idiv 1 sub 8 mul sam 10 mod 1 sub add put } if /encmsg [ sami aload pop encmsg aload pop ] def % Derive the primary and secondary codewords for modes 2 and 3 mode 2 eq mode 3 eq or { % Calculate the fixed-width binary values for the mode, postcode, country code and service /mdb (0000) 4 string copy dup mode cvi 2 4 string cvrs dup length 4 exch sub exch putinterval def /ccb (0000000000) 10 string copy dup ccode cvi 2 10 string cvrs dup length 10 exch sub exch putinterval def /scb (0000000000) 10 string copy dup scode cvi 2 10 string cvrs dup length 10 exch sub exch putinterval def /pcb (000000000000000000000000000000000000) 36 string copy def mode 2 eq { % For numeric postcode, first six bits represent length and remaining 30 bits the value pcb pcode length 2 6 string cvrs dup length 6 exch sub exch putinterval pcb pcode cvi 2 30 string cvrs dup length 36 exch sub exch putinterval } { % mode=3 % For alphanumeric postcode, trim or pad with spaces to 6 chars and encode to binary /pccw [ ( ) 6 string copy dup 0 pcode length 6 gt {pcode 0 6 getinterval} {pcode} ifelse putinterval {seta exch get} forall ] def 0 1 5 { /i exch def pcb pccw i get 2 6 string cvrs dup length 6 i mul 6 add exch sub exch putinterval } for } ifelse % Convolute the binary values into the structured carrier message /scm 60 string def scm 2 mdb putinterval scm 38 pcb 0 4 getinterval putinterval scm 30 pcb 4 6 getinterval putinterval scm 24 pcb 10 6 getinterval putinterval scm 18 pcb 16 6 getinterval putinterval scm 12 pcb 22 6 getinterval putinterval scm 6 pcb 28 6 getinterval putinterval scm 0 pcb 34 2 getinterval putinterval scm 52 ccb 0 2 getinterval putinterval scm 42 ccb 2 6 getinterval putinterval scm 36 ccb 8 2 getinterval putinterval scm 54 scb 0 6 getinterval putinterval scm 48 scb 6 4 getinterval putinterval % Evaluate the structured carrier message as codewords /pri [ 0 0 0 0 0 0 0 0 0 0 ] def 0 1 59 { /i exch def /ps i 6 idiv def /ep 2 5 i 6 mod sub exp cvi scm i get 48 sub mul def pri ps pri ps get ep add put } for % Pad the encoded message into the secondary component /sec [ 84 {padval} repeat ] def sec 0 encmsg putinterval } if % Derive the primary and secondary codewords for modes 4, 5 and 6 mode 4 eq mode 5 eq or mode 6 eq or mode -1 eq or { % If mode isn't specified then use EEC if message fits, otherwise SEC mode -1 eq { /mode encmsg length 77 le {5} {4} ifelse def } if % First symbol is the mode and the remainder are the padded message /cws [ mode 5 eq {78} {94} ifelse {padval} repeat ] def cws 0 mode put cws 1 encmsg putinterval % Fit the message into the primary and secondary components /pri cws 0 10 getinterval def /sec cws 10 cws length 10 sub getinterval def } if % Calculate the log and anti-log tables /rsalog [ 1 63 { dup 2 mul dup 64 ge {67 xor} if } repeat ] def /rslog 64 array def 1 1 63 {dup rsalog exch get exch rslog 3 1 roll put} for % Function to calculate the product in the field /rsprod { 2 copy 0 ne exch 0 ne and { rslog exch get exch rslog exch get add 63 mod rsalog exch get } { pop pop 0 } ifelse } def % Generate error correction codewords /rscodes { /rsnum exch def /cwb exch def % Generate the coefficients /coeffs [ 1 rsnum {0} repeat ] def 1 1 rsnum { /i exch def coeffs i coeffs i 1 sub get put i 1 sub -1 1 { /j exch def coeffs j coeffs j 1 sub get coeffs j get rsalog i get rsprod xor put } for coeffs 0 coeffs 0 get rsalog i get rsprod put } for /coeffs coeffs 0 coeffs length 1 sub getinterval def % Calculate the error correction codewords /ecb [ rsnum {0} repeat ] def 0 1 cwb length 1 sub { /t exch cwb exch get ecb 0 get xor def ecb length 1 sub -1 0 { /i exch def /p ecb length i sub 1 sub def ecb p t coeffs i get rsprod put i 0 gt { ecb p ecb p 1 add get ecb p get xor put } if } for } for ecb } def % Split secondary codeword into odd and even elements /seco [ 0 2 sec length 1 sub { sec exch get } for ] def /sece [ 1 2 sec length 1 sub { sec exch get } for ] def % Calculate the parity codewords for secondary codeword parts based on mode /scodes sec length 84 eq {20} {28} ifelse def % SEC/EEC mode /secochk seco scodes rscodes def /secechk sece scodes rscodes def % Recompose the secondary parity codewords /secchk [ 0 1 scodes 1 sub { dup secochk exch get exch secechk exch get } for ] def % Concatenate the data into final codewords /codewords [ pri aload pop pri 10 rscodes aload pop sec aload pop secchk aload pop ] def % Convert the codewords into module bits /mods [ 864 {0} repeat ] def 0 1 143 { /i exch def /cw [ codewords i get 2 6 string cvrs {48 sub} forall ] def mods 6 i mul 6 cw length sub add cw putinterval } for % Maps modules to pixels in the grid { /modmap [ 469 529 286 316 347 346 673 672 703 702 647 676 283 282 313 312 370 610 618 379 378 409 408 439 705 704 559 589 588 619 458 518 640 701 675 674 285 284 315 314 310 340 531 289 288 319 349 348 456 486 517 516 471 470 369 368 399 398 429 428 549 548 579 578 609 608 649 648 679 678 709 708 639 638 669 668 699 698 279 278 309 308 339 338 381 380 411 410 441 440 561 560 591 590 621 620 547 546 577 576 607 606 367 366 397 396 427 426 291 290 321 320 351 350 651 650 681 680 711 710 1 0 31 30 61 60 3 2 33 32 63 62 5 4 35 34 65 64 7 6 37 36 67 66 9 8 39 38 69 68 11 10 41 40 71 70 13 12 43 42 73 72 15 14 45 44 75 74 17 16 47 46 77 76 19 18 49 48 79 78 21 20 51 50 81 80 23 22 53 52 83 82 25 24 55 54 85 84 27 26 57 56 87 86 117 116 147 146 177 176 115 114 145 144 175 174 113 112 143 142 173 172 111 110 141 140 171 170 109 108 139 138 169 168 107 106 137 136 167 166 105 104 135 134 165 164 103 102 133 132 163 162 101 100 131 130 161 160 99 98 129 128 159 158 97 96 127 126 157 156 95 94 125 124 155 154 93 92 123 122 153 152 91 90 121 120 151 150 181 180 211 210 241 240 183 182 213 212 243 242 185 184 215 214 245 244 187 186 217 216 247 246 189 188 219 218 249 248 191 190 221 220 251 250 193 192 223 222 253 252 195 194 225 224 255 254 197 196 227 226 257 256 199 198 229 228 259 258 201 200 231 230 261 260 203 202 233 232 263 262 205 204 235 234 265 264 207 206 237 236 267 266 297 296 327 326 357 356 295 294 325 324 355 354 293 292 323 322 353 352 277 276 307 306 337 336 275 274 305 304 335 334 273 272 303 302 333 332 271 270 301 300 331 330 361 360 391 390 421 420 363 362 393 392 423 422 365 364 395 394 425 424 383 382 413 412 443 442 385 384 415 414 445 444 387 386 417 416 447 446 477 476 507 506 537 536 475 474 505 504 535 534 473 472 503 502 533 532 455 454 485 484 515 514 453 452 483 482 513 512 451 450 481 480 511 510 541 540 571 570 601 600 543 542 573 572 603 602 545 544 575 574 605 604 563 562 593 592 623 622 565 564 595 594 625 624 567 566 597 596 627 626 657 656 687 686 717 716 655 654 685 684 715 714 653 652 683 682 713 712 637 636 667 666 697 696 635 634 665 664 695 694 633 632 663 662 693 692 631 630 661 660 691 690 721 720 751 750 781 780 723 722 753 752 783 782 725 724 755 754 785 784 727 726 757 756 787 786 729 728 759 758 789 788 731 730 761 760 791 790 733 732 763 762 793 792 735 734 765 764 795 794 737 736 767 766 797 796 739 738 769 768 799 798 741 740 771 770 801 800 743 742 773 772 803 802 745 744 775 774 805 804 747 746 777 776 807 806 837 836 867 866 897 896 835 834 865 864 895 894 833 832 863 862 893 892 831 830 861 860 891 890 829 828 859 858 889 888 827 826 857 856 887 886 825 824 855 854 885 884 823 822 853 852 883 882 821 820 851 850 881 880 819 818 849 848 879 878 817 816 847 846 877 876 815 814 845 844 875 874 813 812 843 842 873 872 811 810 841 840 871 870 901 900 931 930 961 960 903 902 933 932 963 962 905 904 935 934 965 964 907 906 937 936 967 966 909 908 939 938 969 968 911 910 941 940 971 970 913 912 943 942 973 972 915 914 945 944 975 974 917 916 947 946 977 976 919 918 949 948 979 978 921 920 951 950 981 980 923 922 953 952 983 982 925 924 955 954 985 984 927 926 957 956 987 986 58 89 88 118 149 148 178 209 208 238 269 268 298 329 328 358 389 388 418 449 448 478 509 508 538 569 568 598 629 628 658 689 688 718 749 748 778 809 808 838 869 868 898 929 928 958 989 988 ] def } ctxdef % Lookup pixels for enabled modules from modmap /pixs 864 array def /j 0 def 0 1 mods length 1 sub { /i exch def mods i get 1 eq { pixs j modmap i get put /j j 1 add def } if } for /pixs [ pixs 0 j getinterval {} forall 28 29 280 281 311 457 488 500 530 670 700 677 707 ] def % Return the arguments << /ren //renmaximatrix /pixs pixs /opt options >> dontdraw not //renmaximatrix if //unloadctx exec end } [/barcode] {null def} forall bind def /maxicode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER maxicode-- % --BEGIN ENCODER azteccode-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix-- % --DESC: Aztec Code % --EXAM: This is Aztec Code % --EXOP: format=full % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp azteccode 0.0 2022082100 189159 191319 %%BeginData: 794 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /azteccode { 20 dict begin /options exch def /barcode exch def /ctx null def /dontdraw false def /format (unset) def % full, compact or rune /readerinit false def /layers -1 def /eclevel 23 def /ecaddchars 3 def /raw false def /parse false def /parsefnc false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /layers layers cvi def /eclevel eclevel cvr def /ecaddchars ecaddchars cvi def /azteccode //loadctx exec format (rune) eq { barcode length 0 eq { /bwipp.aztecRuneNotNumeric (Aztec runes must be numeric) //raiseerror exec } if barcode { dup 48 lt exch 57 gt or { /bwipp.aztecRuneNotNumeric (Aztec runes must be numeric) //raiseerror exec } if } forall barcode cvi dup 0 lt exch 255 gt or { /bwipp.aztecRuneInvalid (Aztec runes must be 0 to 255) //raiseerror exec } if } if % Parse the input /fn1 -1 def /fncvals << /parse parse /parsefnc parsefnc /eci true (FNC1) fn1 >> def /msg barcode fncvals //parseinput exec def /msglen msg length def { % State key: "U"pper, "L"ower, "M"ixed, "P"unctuation, "D"igit, "B"inary /U 0 def /L 1 def /M 2 def /P 3 def /D 4 def /B 5 def % Special function characters /lu -2 def /ll -3 def /lm -4 def /lp -5 def /ld -6 def /su -7 def /sp -8 def /sb -9 def /fl -10 def /p2 -11 def /p3 -12 def /p4 -13 def /p5 -14 def % Character maps for each state /charmaps [ % U L M P D [ sp sp sp fl sp ] % 0 [ 32 32 32 13 32 ] % 1 [ (A) (a) 1 p2 (0) ] % 2 p2 = CR LF [ (B) (b) 2 p3 (1) ] % 3 p3 = ". " [ (C) (c) 3 p4 (2) ] % 4 p4 = ", " [ (D) (d) 4 p5 (3) ] % 5 p5 = ": " [ (E) (e) 5 (!) (4) ] % 6 [ (F) (f) 6 (") (5) ] % 7 [ (G) (g) 7 (#) (6) ] % 8 [ (H) (h) 8 ($) (7) ] % 9 [ (I) (i) 9 (%) (8) ] % 10 [ (J) (j) 10 (&) (9) ] % 11 [ (K) (k) 11 (') (,) ] % 12 [ (L) (l) 12 40 (.) ] % 13 [ (M) (m) 13 41 lu ] % 14 [ (N) (n) 27 (*) su ] % 15 [ (O) (o) 28 (+) -99 ] % 16 [ (P) (p) 29 (,) -99 ] % 17 [ (Q) (q) 30 (-) -99 ] % 18 [ (R) (r) 31 (.) -99 ] % 19 [ (S) (s) (@) (/) -99 ] % 20 [ (T) (t) 92 (:) -99 ] % 21 [ (U) (u) (^) (;) -99 ] % 22 [ (V) (v) (_) (<) -99 ] % 23 [ (W) (w) (`) (=) -99 ] % 24 [ (X) (x) (|) (>) -99 ] % 25 [ (Y) (y) (~) (?) -99 ] % 26 [ (Z) (z) 127 ([) -99 ] % 27 [ ll su ll (]) -99 ] % 28 [ lm lm lu ({) -99 ] % 29 [ ld ld lp (}) -99 ] % 30 [ sb sb sb lu -99 ] % 31 ] def % Invert charmaps to give character to value maps for each state /charvals [ 32 dict 32 dict 32 dict 32 dict 16 dict ] def 0 1 charmaps length 1 sub { /i exch def /encs charmaps i get def 0 1 4 { /j exch def encs j get dup type /stringtype eq {0 get} if % convert string to ASCII if required charvals j get exch i put } for } for % Punctuation compression /pcomp << <0d0a> p2 % CR LF (. ) p3 (, ) p4 (: ) p5 >> def /e 10000 def % "Empty" /latlen [ % Bit length of latch between states % To: U L M P D B From [ 0 5 5 10 5 10 ] % U [ 9 0 5 10 5 10 ] % L [ 5 5 0 5 10 10 ] % M [ 5 10 10 0 10 15 ] % P [ 4 9 9 14 0 14 ] % D [ 0 0 0 0 0 0 ] % B ] def /latseq [ % Latch sequences between states % To: U L M P D B From [ [] [ll] [lm] [lm lp] [ld] [sb] ] % U [ [ld lu] [] [lm] [lm lp] [ld] [sb] ] % L [ [lu] [ll] [] [lp] [lu ld] [sb] ] % M [ [lu] [lu ll] [lu lm] [] [lu ld] [lu sb] ] % P [ [lu] [lu ll] [lu lm] [lu lm lp] [] [lu sb] ] % D [ [lu] [ll] [lm] [] [] [] ] % B ] def /shftlen [ % Bit length of shift to state % To: U L M P D From [ e e e 5 e ] % U [ 5 e e 5 e ] % L [ e e e 5 e ] % M [ e e e e e ] % P [ 4 e e 4 e ] % D ] def } ctxdef % Convert from input into message bitstream /msgbits () def format (rune) ne raw and {/msgbits barcode def} if format (rune) ne raw not and { /charsize { dup 0 ge { % U L M P D B pop [ 5 5 5 5 4 8 ] exch get } { % FNC or ECI in P exch pop dup fn1 eq { % FNC1: PS{Flg(0)} + 3 pop 8 } { % ECI: PS{Flg(n)} + 3 + 4n neg 1000000 sub dup 0 eq {pop 1} if ln 10 ln div cvi 1 add 4 mul 8 add } ifelse } ifelse } def % U L M P D B /curlen [ 0 e e e e e ] def /curseq [ [] [] [] [] [] [] ] def /backto U def % U /lastchar () def % Derive the optimal sequences ending in each state msg { /char exch def % Check for optimisations in the current sequences by latching from x to y { % loop /imp false def [ U L M P D B ] { /x exch def [ U L M P D B ] { /y exch def x B ne y backto eq or { % Only B -> backto /cost curlen x get latlen x get y get add def cost curlen y get lt { curlen y cost put curseq y [ curseq x get aload pop latseq x get y get aload pop ] put y B eq { % Set backto to previous state /backto x P eq x D eq or {U} {x} ifelse def } if /imp true def } if } if } forall } forall imp not {exit} if % Repeat unless no improvement } loop % Determine optimal next sequences for each valid encoding /nxtlen [ e e e e e e ] def /nxtseq 6 array def [ U L M P D B ] { /x exch def { % loop for common exit % Skip states that cannot encode character char 0 ge { x B ne {charvals x get char known not {exit} if} if } { x P ne {exit} if % Only P can encode FNC1 and ECI } ifelse % Extend directly /cost curlen x get x char charsize add def cost nxtlen x get lt { nxtlen x cost put nxtseq x [ curseq x get aload pop char ] put } if % Optimise for direct shifts from y to x x B eq {exit} if % B is treated as a latch [ U L M P D ] { /y exch def x y ne { /cost curlen y get shftlen y get x get add x char charsize add def cost nxtlen y get lt { nxtlen y cost put nxtseq y [ curseq y get aload pop x U eq {su} {sp} ifelse char ] put } if } if } forall exit } loop } forall % Optimise using P compression lastchar () ne char 0 ge and { /pchars 2 string dup 0 lastchar put dup 1 char put def pcomp pchars known { [ U L M P D ] { /i exch def /inP true def % U and L can't encode CR, comma, dot or colon i M eq { % M can encode CR lastchar 13 eq { /inP false def } if } { i D eq { % D can encode comma and dot lastchar 44 eq lastchar 46 eq or { /inP false def } if } if } ifelse inP curlen i get nxtlen i get lt and { /curseqi curseq i get def /lastld false def /lastsp false def /lastidx -1 def curseqi length 1 sub -1 0 { % Search backwards for lastchar /idx exch def /ch curseqi idx get def lastidx -1 eq { ch lastchar eq { /lastidx idx def idx 0 gt { curseqi idx 1 sub get sp eq { /lastsp true def } if % Preceded by P/S } if } if } { % Found lastchar, check latch ch 0 lt ch ld ge and { % If have latch i P eq { ch ld eq { /lastld true def } if % Set flag if D/L for adjustment below } { ch lp ne { /inP lastsp def } if % If not P/L only in P if have P/S } ifelse exit } if } ifelse } for inP lastidx 0 ge and { nxtlen i curlen i get put lastidx curseqi length 1 sub lt { % If lastchar not at end of sequence i P eq { lastld { nxtlen i nxtlen i get 1 add put } if % Adjust count if D/L % Move lastchar to end and replace nxtseq i [ curseqi aload pop curseqi length lastidx sub -1 roll pop pcomp pchars get ] put } { % Replace lastchar in situ nxtseq i [ curseqi aload pop ] put nxtseq i get lastidx pcomp pchars get put } ifelse } { nxtseq i [ curseqi aload pop pop pcomp pchars get ] put } ifelse } if } if } forall } if } if % Account for binary extension for 32 or more bytes nxtseq B get null ne { /numbytes 0 def nxtseq B get { sb eq {0} {numbytes 1 add} ifelse /numbytes exch def } forall numbytes 32 eq {nxtlen B nxtlen B get 11 add put} if } if /curlen nxtlen def /curseq nxtseq def /lastchar char 0 ge {char} {()} ifelse def } forall % Select the optimal sequence /minseq e def [ U L M P D B ] { /i exch def curlen i get minseq lt { /minseq curlen i get def /seq curseq i get def } if } forall % Encoding functions /tobin { string dup length 1 sub 0 exch 1 exch {1 index exch 48 put} for dup 3 -1 roll 2 2 index length string cvrs dup length 2 index length exch sub exch putinterval } def /encu {charvals U get exch get 5 tobin} def /encl {charvals L get exch get 5 tobin} def /encm {charvals M get exch get 5 tobin} def /encd {charvals D get exch get 4 tobin} def /encp { dup fn1 eq { % FNC1: Flg(0) pop (00000000) } { dup -1000000 le { % ECI: Flg(n) + n-Digits neg 1000000 sub dup dup 0 eq {pop 1} if ln 10 ln div cvi dup 1 add 4 mul 8 add string dup 0 (00000) putinterval % Flg(n) dup 2 index 1 add 3 tobin 5 exch putinterval % len 3 1 roll -1 0 { % ECI digits in "Digit" encoding 4 mul 8 add exch dup 10 idiv 3 index 4 2 roll 10 mod 2 add 4 tobin putinterval } for pop } { charvals P get exch get 5 tobin } ifelse } ifelse } def /encfuncs [ /encu /encl /encm /encp /encd ] def /addtomsgbits { /v exch def msgbits j v putinterval /j j v length add def } def % Encode the sequence /state U def /msgbits minseq string def /i 0 def /j 0 def { i seq length ge {exit} if state B ne { /char seq i get def % Encode character char encfuncs state get load exec addtomsgbits /i i 1 add def % Encode shifted next character char su eq char sp eq or { seq i get char su eq {encu} {encp} ifelse addtomsgbits /i i 1 add def } if % Latches to new state char lu eq {/state U def} if char ll eq {/state L def} if char lm eq {/state M def} if char lp eq {/state P def} if char ld eq {/state D def} if char sb eq {/state B def} if } { % Binary % Find number of bytes before latch or end /numbytes 0 def { i numbytes add seq length ge {exit} if seq i numbytes add get 0 lt {exit} if /numbytes numbytes 1 add def } loop % Encode length numbytes 31 le { numbytes 5 tobin addtomsgbits } { 0 5 tobin addtomsgbits numbytes 31 sub 11 tobin addtomsgbits } ifelse % Encode bytes numbytes { seq i get 8 tobin addtomsgbits /i i 1 add def } repeat % Return to previous state as indicated i seq length lt { /char seq i get def /i i 1 add def char lu eq {/state U def} if char ll eq {/state L def} if char lm eq {/state M def} if } if } ifelse } loop } if % Lookup the most appropriate symbol specification { /metrics [ [ (rune) 0 0 0 6 ] % Special metric for rune symbols [ (compact) 1 1 17 6 ] [ (full) 1 1 21 6 ] [ (compact) 2 0 40 6 ] [ (full) 2 1 48 6 ] [ (compact) 3 0 51 8 ] [ (full) 3 1 60 8 ] [ (compact) 4 0 76 8 ] [ (full) 4 1 88 8 ] [ (full) 5 1 120 8 ] [ (full) 6 1 156 8 ] [ (full) 7 1 196 8 ] [ (full) 8 1 240 8 ] [ (full) 9 1 230 10 ] [ (full) 10 1 272 10 ] [ (full) 11 1 316 10 ] [ (full) 12 1 364 10 ] [ (full) 13 1 416 10 ] [ (full) 14 1 470 10 ] [ (full) 15 1 528 10 ] [ (full) 16 1 588 10 ] [ (full) 17 1 652 10 ] [ (full) 18 1 720 10 ] [ (full) 19 1 790 10 ] [ (full) 20 1 864 10 ] [ (full) 21 1 940 10 ] [ (full) 22 1 1020 10 ] [ (full) 23 0 920 12 ] [ (full) 24 0 992 12 ] [ (full) 25 0 1066 12 ] [ (full) 26 0 1144 12 ] [ (full) 27 0 1224 12 ] [ (full) 28 0 1306 12 ] [ (full) 29 0 1392 12 ] [ (full) 30 0 1480 12 ] [ (full) 31 0 1570 12 ] [ (full) 32 0 1664 12 ] ] def } ctxdef /i 0 def { % loop /m metrics i get def /frmt m 0 get def % Format of the symbol /mlyr m 1 get def % Data layers /icap m 2 get def % Reader initialisation capable /ncws m 3 get def % Total of codewords /bpcw m 4 get def % Bits per codeword /numecw ncws eclevel mul 100 div ecaddchars add ceiling cvi def msgbits length 0 eq {/numecw 0 def} if % Error correction codewords /numdcw ncws numecw sub def % Data codewords /okay true def format (unset) ne format frmt ne and {/okay false def} if readerinit icap 1 ne and {/okay false def} if layers -1 ne layers mlyr ne and {/okay false def} if msgbits length bpcw div ceiling cvi numdcw gt {/okay false def} if okay {exit} if /i i 1 add def } loop /layers mlyr def /format frmt def % Expand message bits into codewords avoiding codewords with all zeros or all ones /allzero {dup length (000000000000) 0 3 -1 roll getinterval eq} def /allones {dup length (111111111111) 0 3 -1 roll getinterval eq} def /cws ncws array def /m 0 def /c 0 def { msgbits length m le {exit} if msgbits length m sub bpcw ge { /cwb msgbits m bpcw 1 sub getinterval def % All but last bit /cwf msgbits m bpcw add 1 sub 1 getinterval def % Last bit cwb allzero {/cwf (1) def /m m 1 sub def} if % Flip last bit to avoid zeros cwb allones {/cwf (0) def /m m 1 sub def} if % Flip last bit to avoid ones % Concatenate the bits 12 string dup 0 cwb putinterval dup bpcw 1 sub cwf putinterval 0 bpcw getinterval /cwb exch def } { % Final codeword /cwb msgbits m msgbits length m sub getinterval def /cwb (111111111111) 12 string copy dup 0 cwb putinterval 0 bpcw getinterval def cwb allones {cwb cwb length 1 sub (0) putinterval} if % Prevent all ones } ifelse % Conversion of binary data into byte array /cw 0 def 0 1 bpcw 1 sub { /i exch def /cw cw 2 bpcw i sub 1 sub exp cvi cwb i get 48 sub mul add def } for cws c cw put /m m bpcw add def /c c 1 add def } loop /cws cws 0 c getinterval def options /debugcws known { /bwipp.debugcws cws //raiseerror exec } if % Reed-Solomon algorithm /rscodes { /rspm exch def /rsgf exch def /rsnc exch def /rscws exch def % Calculate the log and anti-log tables /rsalog [ 1 rsgf 1 sub { dup 2 mul dup rsgf ge {rspm xor} if } repeat ] def /rslog rsgf array def 1 1 rsgf 1 sub {dup rsalog exch get exch rslog 3 1 roll put} for % Function to calculate the product in the field /rsprod { 2 copy 0 ne exch 0 ne and { rslog exch get exch rslog exch get add rsgf 1 sub mod rsalog exch get } { pop pop 0 } ifelse } def % Generate the coefficients /coeffs [ 1 rsnc {0} repeat ] def 1 1 rsnc { /i exch def coeffs i coeffs i 1 sub get put i 1 sub -1 1 { /j exch def coeffs j coeffs j 1 sub get coeffs j get rsalog i get rsprod xor put } for coeffs 0 coeffs 0 get rsalog i get rsprod put } for % Extend the input with the error correction values /nd rscws length def /rscws [ rscws {} forall rsnc {0} repeat 0 ] def 0 1 nd 1 sub { /k exch rscws exch get rscws nd get xor def 0 1 rsnc 1 sub { /j exch def rscws nd j add rscws nd j add 1 add get k coeffs rsnc j sub 1 sub get rsprod xor put } for } for % Return all but the last codeword rscws 0 rscws length 1 sub getinterval } def % Create the codewords and bit string for the mode format (full) eq { /mode layers 1 sub 11 bitshift cws length 1 sub add def readerinit {/mode mode 2#0000010000000000 or def} if /mode [ mode 2#1111000000000000 and -12 bitshift mode 2#0000111100000000 and -8 bitshift mode 2#0000000011110000 and -4 bitshift mode 2#0000000000001111 and ] def /mode mode 6 16 19 rscodes def } if format (compact) eq { /mode layers 1 sub 6 bitshift cws length 1 sub add def readerinit {/mode mode 2#00100000 or def} if /mode [ mode 2#11110000 and -4 bitshift mode 2#00001111 and ] def /mode mode 5 16 19 rscodes def } if format (rune) eq { /mode barcode cvi def /mode [ mode 2#11110000 and -4 bitshift mode 2#00001111 and ] def /mode mode 5 16 19 rscodes def /mode [mode {2#1010 xor} forall] def % Invert alternate bits } if /modebits mode length 4 mul string def 0 1 modebits length 1 sub {modebits exch (0) putinterval} for 0 1 mode length 1 sub { /i exch def modebits mode i get 2 4 string cvrs dup length 4 exch sub 4 i mul add exch putinterval } for % Extend the data codewords with error correction codewords to create the bit string for the data { /rsparams [ [] [] [] [] [] [] [ 64 67 ] % 6-bit codewords [] [ 256 301 ] % 8-bit codewords [] [ 1024 1033 ] % 10-bit codewords [] [ 4096 4201 ] % 12-bit codewords ] def } ctxdef /cws cws ncws cws length sub rsparams bpcw get {} forall rscodes def format (full) eq { /databits layers layers mul 16 mul layers 112 mul add string def } { /databits layers layers mul 16 mul layers 88 mul add string def } ifelse 0 1 databits length 1 sub {databits exch (0) putinterval} for 0 1 ncws 1 sub { /i exch def databits cws i get 2 bpcw string cvrs dup length bpcw exch sub bpcw i mul add databits length ncws bpcw mul sub add exch putinterval } for % Move to a point in the cartesian plane centered on the bullseye /cmv {size mul sub mid add} def % Move to a bit position within a layer /lmv { /lbit exch def /llyr exch def /lwid fw llyr 4 mul add def /ldir lbit 2 idiv lwid idiv def ldir 0 eq { % Top lwid 1 sub 2 idiv neg 1 add lbit 2 idiv lwid mod add fw 1 sub 2 idiv llyr 2 mul add lbit 2 mod add cmv } if ldir 1 eq { % Right fw 2 idiv llyr 2 mul add lbit 2 mod add lwid 1 sub 2 idiv 1 sub lbit 2 idiv lwid mod sub cmv } if ldir 2 eq { % Bottom lwid 2 idiv neg 1 add lbit 2 idiv lwid mod add neg fw 2 idiv llyr 2 mul add lbit 2 mod add neg cmv } if ldir 3 eq { % Left fw 1 sub 2 idiv llyr 2 mul add lbit 2 mod add neg lwid 2 idiv 1 sub lbit 2 idiv lwid mod sub neg cmv } if } def % Create the pixel map % For full symbols we disregard the reference grid at this stage format (full) eq {/fw 12 def} {/fw 9 def} ifelse /size fw layers 4 mul add 2 add def /pixs [size size mul {-1} repeat] def /mid size 1 sub 2 idiv size mul size 1 sub 2 idiv add def % Data layers /i 0 def 1 1 layers { /layer exch def 0 1 fw layer 4 mul add 8 mul 1 sub { /pos exch def pixs layer pos lmv databits databits length i sub 1 sub get 48 sub put /i i 1 add def } for } for % For full symbols expand the pixel map by inserting the reference grid format (full) eq { /fw 13 def /size fw layers 4 mul add 2 add layers 10.5 add 7.5 div 1 sub cvi 2 mul add def /mid size size mul 2 idiv def /npixs [size size mul {-2} repeat] def 0 16 size 2 idiv { /i exch def 0 1 size 1 sub { /j exch def npixs size 2 idiv neg j add i cmv [size 2 idiv j add i add 1 add 2 mod] putinterval npixs size 2 idiv neg j add i neg cmv [size 2 idiv j add i add 1 add 2 mod] putinterval npixs i size 2 idiv neg j add cmv [size 2 idiv j add i add 1 add 2 mod] putinterval npixs i neg size 2 idiv neg j add cmv [size 2 idiv j add i add 1 add 2 mod] putinterval } for } for /j 0 def 0 1 npixs length 1 sub { /i exch def npixs i get -2 eq { npixs i pixs j get put /j j 1 add def } if } for /pixs npixs def } if % Finder pattern /fw fw 2 idiv def fw neg 1 fw { /i exch def fw neg 1 fw { /j exch def pixs i j cmv i abs j abs gt {i abs} {j abs} ifelse 1 add 2 mod put } for } for % Orientation bits [ [ fw 1 add neg fw 1 ] [ fw 1 add neg fw 1 add 1 ] [ fw neg fw 1 add 1 ] [ fw 1 add fw 1 add 1 ] [ fw 1 add fw 1 ] [ fw 1 add fw neg 1 ] [ fw fw 1 add 0 ] [ fw 1 add fw 1 add neg 0 ] [ fw fw 1 add neg 0 ] [ fw neg fw 1 add neg 0 ] [ fw 1 add neg fw 1 add neg 0 ] [ fw 1 add neg fw neg 0 ] ] {pixs exch {} forall 3 1 roll cmv exch put} forall % Mode ring { /modemapfull [ [-5 7] [-4 7] [-3 7] [-2 7] [-1 7] [ 1 7] [ 2 7] [ 3 7] [ 4 7] [ 5 7] [ 7 5] [ 7 4] [ 7 3] [ 7 2] [ 7 1] [ 7 -1] [ 7 -2] [ 7 -3] [ 7 -4] [ 7 -5] [ 5 -7] [ 4 -7] [ 3 -7] [ 2 -7] [ 1 -7] [-1 -7] [-2 -7] [-3 -7] [-4 -7] [-5 -7] [-7 -5] [-7 -4] [-7 -3] [-7 -2] [-7 -1] [-7 1] [-7 2] [-7 3] [-7 4] [-7 5] ] def /modemapcompact [ [-3 5] [-2 5] [-1 5] [ 0 5] [ 1 5] [ 2 5] [ 3 5] [ 5 3] [ 5 2] [ 5 1] [ 5 0] [ 5 -1] [ 5 -2] [ 5 -3] [ 3 -5] [ 2 -5] [ 1 -5] [ 0 -5] [-1 -5] [-2 -5] [-3 -5] [-5 -3] [-5 -2] [-5 -1] [-5 0] [-5 1] [-5 2] [-5 3] ] def } ctxdef /modemap format (full) eq {modemapfull} {modemapcompact} ifelse def 0 1 modemap length 1 sub { /i exch def pixs modemap i get {} forall cmv modebits i get 48 sub put } for << /ren //renmatrix /pixs pixs /pixx size /pixy size /height size 2 mul 72 div /width size 2 mul 72 div /opt options >> dontdraw not //renmatrix if //unloadctx exec end } [/barcode] {null def} forall bind def /azteccode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER azteccode-- % --BEGIN ENCODER azteccodecompact-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix azteccode-- % --DESC: Compact Aztec Code % --EXAM: 1234 % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp azteccodecompact 0.0 2022082100 62569 62441 %%BeginData: 46 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /azteccode dup /uk.co.terryburton.bwipp findresource put begin /azteccodecompact { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Get the result of encoding with azteccode with format=compact options (dontdraw) true put options (format) (compact) put /args barcode options //azteccode exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /azteccodecompact dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER azteccodecompact-- % --BEGIN ENCODER aztecrune-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix azteccode-- % --DESC: Aztec Runes % --EXAM: 1 % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp aztecrune 0.0 2022082100 62538 62417 %%BeginData: 46 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /azteccode dup /uk.co.terryburton.bwipp findresource put begin /aztecrune { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Get the result of encoding with azteccode with format=rune options (dontdraw) true put options (format) (rune) put /args barcode options //azteccode exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /aztecrune dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER aztecrune-- % --BEGIN ENCODER codeone-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix-- % --DESC: Code One % --EXAM: Code One % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp codeone 0.0 2022082100 201282 203168 %%BeginData: 903 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /codeone { 20 dict begin /options exch def /barcode exch def /ctx null def /dontdraw false def /version (unset) def /parse false def /parsefnc false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /codeone //loadctx exec /stype version 0 1 getinterval (S) eq def { /stypevals [ (1) (1010) (1100100) (1111101000) (10011100010000) (11000011010100000) (11110100001001000000) (100110001001011010000000) (101111101011110000100000000) (111011100110101100101000000000) (1001010100000010111110010000000000) (1011101001000011101101110100000000000) (1110100011010100101001010001000000000000) (10010001100001001110011100101010000000000000) (10110101111001100010000011110100100000000000000) (11100011010111111010100100110001101000000000000000) (100011100001101111001001101111110000010000000000000000) (101100011010001010111100001011101100010100000000000000000) ] def % Basic metrics for the each symbol % ver row col dcol dcws rscw rsbl ro ri rl /stypemetrics [ [ (S-10) 8 11 10 4 4 1 99 99 99 ] [ (S-20) 8 21 20 8 8 1 99 99 99 ] [ (S-30) 8 31 30 12 12 1 99 99 99 ] ] def % Basic metrics for the each symbol % ver row col dcol dcws rscw rsbl ro ri rl /nonstypemetrics [ [ (A) 16 18 16 10 10 1 4 99 6 ] [ (B) 22 22 20 19 16 1 4 99 8 ] [ (C) 28 32 28 44 26 1 4 22 11 ] [ (D) 40 42 36 91 44 1 4 16 16 ] [ (E) 52 54 48 182 70 1 4 22 22 ] [ (F) 70 76 68 370 140 2 4 22 31 ] [ (G) 104 98 88 732 280 4 6 21 47 ] [ (H) 148 134 120 1480 560 8 6 20 69 ] [ (T-16) 16 17 16 10 10 1 99 99 99 ] [ (T-32) 16 33 32 24 16 1 99 99 99 ] [ (T-48) 16 49 48 38 22 1 99 99 99 ] ] def % Special characters /fnc1 -1 def /fnc3 -2 def /lC -5 def /lB -6 def /lX -7 def /lT -8 def /lD -9 def /unl -10 def /fnc2 -11 def /fnc4 -12 def /sft1 -13 def /sft2 -14 def /sft3 -15 def /eci -16 def /pad -17 def /fnc1lD -18 def /unlcw 255 def /Avals << 0 1 128 {dup 1 add} for pad 129 0 1 99 { % Double digits dup 10 2 string cvrs (00) 2 string copy dup 2 3 index length sub 4 -1 roll putinterval exch 130 add } for 229 [ lC lB fnc1 fnc2 fnc3 fnc4 fnc1lD ] {exch 1 add dup} forall pop lX 238 lT 239 % 240-255 lD + 4 bits >> def /Avals << Avals {[exch]} forall >> def /CNvals << sft1 0 sft2 1 sft3 2 32 3 48 1 57 {dup 44 sub} for % 0-9 65 1 90 {dup 51 sub} for % A-Z >> def /C1vals << 0 1 31 {dup} for >> def /C2vals << 33 1 47 {dup 33 sub} for 58 1 64 {dup 43 sub} for 91 1 95 {dup 69 sub} for fnc1 27 fnc2 28 fnc3 29 fnc4 30 pad 31 >> def /C3vals << 96 1 127 {dup 96 sub} for >> def /Cvals << CNvals {[exch]} forall C1vals {[exch CNvals sft1 get exch]} forall C2vals {[exch CNvals sft2 get exch]} forall C3vals {[exch CNvals sft3 get exch]} forall >> def /TNvals << sft1 0 sft2 1 sft3 2 32 3 48 1 57 {dup 44 sub} for % 0-9 97 1 122 {dup 83 sub} for % a-z >> def /T1vals << 0 1 31 {dup} for >> def /T2vals << 33 1 47 {dup 33 sub} for 58 1 64 {dup 43 sub} for 91 1 95 {dup 69 sub} for fnc1 27 fnc2 28 fnc3 29 fnc4 30 pad 31 >> def /T3vals << 96 0 65 1 90 {dup 64 sub} for 123 1 127 {dup 96 sub} for >> def /Tvals << TNvals {[exch]} forall T1vals {[exch TNvals sft1 get exch]} forall T2vals {[exch TNvals sft2 get exch]} forall T3vals {[exch TNvals sft3 get exch]} forall >> def % Extended ASCII mappings 128 1 255 { /i exch def Avals i [ Avals fnc4 get aload pop Avals i 128 sub get aload pop ] put Cvals i [ Cvals fnc4 get aload pop Cvals i 128 sub get aload pop ] put Tvals i [ Tvals fnc4 get aload pop Tvals i 128 sub get aload pop ] put } for /Xvals << 13 0 42 1 62 2 32 3 48 1 57 {dup 44 sub} for 65 1 90 {dup 51 sub} for >> def /Xvals << Xvals {[exch]} forall >> def /Bvals << 0 1 255 {dup} for >> def /Bvals << Bvals {[exch]} forall >> def /encvals [ Avals Cvals Tvals Xvals -1 Bvals ] def /A 0 def /C 1 def /T 2 def /X 3 def /D 4 def /B 5 def } ctxdef stype { /normalize { /base exch def /num exch def num length 1 sub -1 1 { /i exch def num i 1 sub 2 copy get num i get base idiv add put num i num i get base mod put } for { %loop - extend input as necessary num 0 get base lt {exit} if /num [0 num {} forall] def num 0 num 0 get num 1 get base idiv add put num 1 num 1 get base mod put } loop % Trim leading zeros /num [/i true def num {dup 0 eq i and {pop} {/i false def} ifelse} forall] def num length 0 eq {/num [0] def} if num } def /bigadd { 2 copy length exch length 2 copy sub abs /offset exch def lt {exch} if /a exch def /b exch def 0 1 b length 1 sub { dup a exch offset add 2 copy get b 5 -1 roll get add put } for a } def /barlen barcode length def % Convert value plus one to binary /v [ 1 ] def 0 1 barlen 1 sub { /i exch def [ stypevals i get {48 sub barcode barlen i sub 1 sub get 48 sub mul} forall ] v bigadd /v exch def } for /v v 2 normalize def % Split into 5-bit codewords /v [ 5 v length 5 mod sub 5 mod {0} repeat v aload pop ] def /cws v length 5 idiv array def 0 1 cws length 1 sub { /i exch def v i 5 mul 5 getinterval 0 exch {add 2 mul} forall 2 idiv cws exch i exch put } for /metrics stypemetrics def } { % Standard and type-T % Convert input into bytes accounting for FNC characters /fncvals << /parse parse /parsefnc parsefnc /eci true (FNC1) fnc1 (FNC3) fnc3 >> def /msg barcode fncvals //parseinput exec def /msglen msg length def % Code One stores ECIs in data /eciesc 16#5c def % We choose \ as a typical default /numecis 0 msg { -1000000 le {1 add} if } forall def numecis 0 gt { /msgtmp msg length 2 mul numecis 6 mul add 2 add array def msgtmp 0 pad put msgtmp 1 eciesc put /j 2 def 0 1 msg length 1 sub { msg exch get dup -1000000 le { neg 10 7 string cvrs 1 6 getinterval {} forall 6 array astore msgtmp exch j 1 add exch putinterval msgtmp j eciesc put /j j 7 add def } { dup eciesc ne { msgtmp exch j exch put /j j 1 add def } { pop msgtmp j eciesc put msgtmp j 1 add eciesc put /j j 2 add def } ifelse } ifelse } for /msg msgtmp 0 j getinterval def /msglen msg length def } if /metrics nonstypemetrics def % Select metrics of an appropriate symbol /fullcws [] def metrics { /m exch def /vers m 0 get def % Version of symbol /dcws m 4 get def % Data codewords in symbol /okay true def version (unset) eq { vers length 1 ne {/okay false def} if } { version vers ne {/okay false def} if } ifelse okay {/fullcws [ fullcws aload pop dcws ] def} if } forall /numremcws [ 1480 {10000} repeat ] def fullcws {numremcws exch 1 sub 1 put} forall 1478 -1 0 { /i exch def numremcws i get 1 ne { numremcws i numremcws i 1 add get 1 add put } if } for /numD [ msglen {0} repeat 0 ] def /nextXterm [ msglen {0} repeat 9999 ] def /nextNonX [ msglen {0} repeat 9999 ] def msglen 1 sub -1 0 { /i exch def /barchar msg i get def barchar 48 ge barchar 57 le and { numD i numD i 1 add get 1 add put } if barchar 13 eq barchar 42 eq or barchar 62 eq or { nextXterm i 0 put } { nextXterm i nextXterm i 1 add get 1 add put } ifelse Xvals barchar known not { nextNonX i 0 put } { nextNonX i nextNonX i 1 add get 1 add put } ifelse } for /nextXterm [nextXterm {dup 10000 gt {pop 10000} if} forall] def /nextNonX [nextNonX {dup 10000 gt {pop 10000} if} forall] def /isD {char 48 ge char 57 le and} def /isC {CNvals char known} def /isT {TNvals char known} def /isX {Xvals char known} def /isEA {char 127 gt} def /isFN {char 0 lt} def /XtermFirst {dup nextXterm exch get exch nextNonX exch get lt} def /lookup { /ac 1 def /cc 2 def /tc 2 def /xc 2 def /bc 3 def mode A eq {/ac 0 def /cc 1 def /tc 1 def /xc 1 def /bc 2 def} if mode C eq {/cc 0 def} if mode T eq {/tc 0 def} if mode X eq {/xc 0 def} if % Assume mistake in spec mode B eq {/bc 0 def} if 1 { % common exit /k 0 def { % loop i k add msglen eq { true [ac cc tc xc ] {bc exch ceiling le and} forall {B exit} if true [ cc tc xc bc] {ac exch ceiling le and} forall {A exit} if true [ tc xc ] {cc ceiling exch ceiling le and} forall {C exit} if true [ xc ] {tc ceiling exch ceiling le and} forall {T exit} if X exit } if /char msg i k add get def /ac ac isD {1 2 div add} {isEA {ceiling 2 add} {ceiling 1 add} ifelse} ifelse def /cc cc isC {2 3 div add} {isEA { 8 3 div add } { 4 3 div add } ifelse} ifelse def /tc tc isT {2 3 div add} {isEA { 8 3 div add } { 4 3 div add } ifelse} ifelse def /xc xc isX {2 3 div add} {isEA {13 3 div add } {10 3 div add } ifelse} ifelse def /bc bc isFN {3 add} {1 add} ifelse def k 3 ge { % Checking after at least 4 characters (cf. Data Matrix), not 3 as in spec Step Q true [ac cc tc xc ] {bc 1 add exch ceiling le and} forall {B exit} if true [ cc tc xc bc] {ac 1 add exch ceiling le and} forall {A exit} if true [ac cc xc bc] {tc ceiling 1 add exch ceiling le and} forall {T exit} if true [ac tc ] {cc ceiling 1 add exch ceiling le and} forall { cc ceiling xc ceiling lt {C exit} if cc xc eq {i k add 1 add XtermFirst {X exit} {C exit} ifelse} if } if true [ac cc tc bc] {xc ceiling 1 add exch ceiling le and} forall {X exit} if } if /k k 1 add def } loop } repeat } def /addtocws { dup cws exch j exch putinterval /j exch length j add def } def /tobin { string dup length 1 sub 0 exch 1 exch {1 index exch 48 put} for dup 3 -1 roll 2 2 index length string cvrs dup length 2 index length exch sub exch putinterval [ exch {48 sub} forall ] } def /encA { 1 { % Common exit numD i get 21 ge { /Dbits [ 1 1 1 1 ] def /mode D def exit } if numD i get dup 13 ge exch i add msglen eq and { /Dbits [ 1 1 1 1 ] def /mode D def exit } if numD i get 2 ge { 2 string dup 0 msg i get put dup 1 msg i 1 add get put Avals exch get addtocws /i i 2 add def exit } if msg i get fnc1 eq { numD i 1 add get 15 ge { Avals fnc1lD get addtocws /i i 1 add def /Dbits [] def /mode D def exit } if numD i 1 add get dup 7 ge exch i add 1 add msglen eq and { Avals fnc1lD get addtocws /i i 1 add def /Dbits [] def /mode D def exit } if } if /newmode lookup def newmode mode ne { Avals [-1 lC lT lX lD lB] newmode get get addtocws /mode newmode def exit } if Avals msg i get get addtocws /i i 1 add def exit } repeat } def /CTXvalstocws { /in exch def mark 0 3 in length 1 sub { in exch 3 getinterval 0 exch {add 40 mul} forall 40 idiv 1 add dup 256 idiv exch 256 mod } for counttomark array astore exch pop } def /encCTX { /p 0 def /ctxvals 2220 array def % Lookup the values for each character { i msglen eq {exit} if p 3 mod 0 eq { numD i get 12 ge { ctxvals 0 p getinterval CTXvalstocws addtocws [unlcw] addtocws /mode A def exit } if numD i get dup 8 ge exch i add msglen eq and { ctxvals 0 p getinterval CTXvalstocws addtocws [unlcw] addtocws /mode A def exit } if mode X eq { % Steps E1c, E2 Xvals msg i get known not { ctxvals 0 p getinterval CTXvalstocws addtocws % Unlatch to ASCII unless one codeword left and single ASCII to encode numremcws j get 1 ne msg i get 127 gt or { [unlcw] addtocws } if /mode A def exit } if i 1 add msglen lt { Xvals msg i 1 add get known not {exit} if i 2 add msglen lt { Xvals msg i 2 add get known not {exit} if } if } if } { lookup mode ne { ctxvals 0 p getinterval CTXvalstocws addtocws [unlcw] addtocws /mode A def exit } if } ifelse msglen i sub 3 le { % Check end of data conditions /remcws numremcws j p 3 idiv 2 mul add get def /remvals [ msg i msglen i sub getinterval { dup encvals mode get exch known { encvals mode get exch get aload pop } { % Unencodable X12 characters pop -1 -1 -1 -1 } ifelse } forall ] def remcws 2 eq remvals length 3 eq and { % Encode and omit unlatch [ ctxvals 0 p getinterval aload pop remvals aload pop ] CTXvalstocws addtocws /mode A def /i msglen def exit } if remcws 2 eq remvals length 2 eq and mode X ne and { % Encode with sft1 as third value, omit unlatch [ ctxvals 0 p getinterval aload pop remvals aload pop encvals mode get sft1 get aload pop ] CTXvalstocws addtocws /mode A def /i msglen def exit } if remcws 2 eq remvals length 1 eq and { % Unlatch to ASCII ctxvals 0 p getinterval CTXvalstocws addtocws [unlcw] addtocws Avals msg i get get addtocws /mode A def /i msglen def exit } if remcws 1 eq remvals length 1 eq and { % Implied unlatch to ASCII ctxvals 0 p getinterval CTXvalstocws addtocws Avals msg i get get addtocws /mode A def /i msglen def exit } if } if } if encvals mode get msg i get get dup ctxvals exch p exch putinterval /p exch length p add def /i i 1 add def } loop % Backtrack to a boundary and return to ASCII mode A ne { { p 3 mod 0 eq {exit} if /i i 1 sub def /p p encvals mode get msg i get get length sub def } loop [ ctxvals 0 p getinterval aload pop ] CTXvalstocws addtocws [unlcw] addtocws /mode A def % Encode something to avoid latching immediately back i msglen ne { numD i get 2 ge { 2 string dup 0 msg i get put dup 1 msg i 1 add get put Avals exch get addtocws /i i 2 add def } { Avals msg i get get addtocws /i i 1 add def } ifelse } if } if } def /encD { { % loop numD i get 3 lt { /Drem 8 Dbits length 8 mod sub 8 mod def /remcws numremcws j Dbits length 8 idiv add get def % Final codeword with no data numremcws j Dbits length 8 idiv add 1 sub get 1 sub 0 eq Drem 0 eq and % No remaining codewords and no bits remcws 1 eq Drem 0 ne and or % Or 1 remaining codeword and some bits i msglen eq and { Drem 4 eq Drem 6 eq or { /Dbits [ Dbits aload pop 1 1 1 1 ] def } if Drem 2 eq Drem 6 eq or { /Dbits [ Dbits aload pop 0 1 ] def } if exit } if % Final digit or double-digit into final codeword as ASCII i msglen 1 sub eq numD i get 1 eq and i msglen 2 sub eq numD i get 2 eq and or remcws 1 eq and Drem 0 eq and {exit} if % Latch to ASCII unless 4 or 6 bits remain in final codeword i msglen 1 sub eq numD i get 1 eq and remcws 1 eq and Drem 4 eq Drem 6 eq or and not { /Dbits [ Dbits aload pop 1 1 1 1 1 1 ] def /Drem 8 Dbits length 8 mod sub 8 mod def } if % Try to encode a digit in remaining bits Drem 4 eq Drem 6 eq or { numD i get 1 ge { /Dbits [ Dbits aload pop msg i get 48 sub 1 add 4 tobin aload pop ] def /i i 1 add def } { /Dbits [ Dbits aload pop 1 1 1 1 ] def } ifelse /Drem Drem 4 sub def } if Drem 2 eq { /Dbits [ Dbits aload pop 0 1 ] def /Drem 0 def } if exit } if % Three digit value plus one to ten bits /Dbits [ Dbits aload pop 0 msg i 3 getinterval {48 sub add 10 mul} forall 10 idiv 1 add 10 tobin aload pop ] def /i i 3 add def } loop mark 0 8 Dbits length 1 sub { Dbits exch 8 getinterval 0 exch {add 2 mul} forall 2 idiv } for counttomark array astore exch pop addtocws /mode A def } def /encB { /p 0 def /bvals 1480 array def { i msglen eq {exit} if msg i get 0 lt {exit} if % Function character lookup mode ne {exit} if bvals p msg i get put /p p 1 add def /i i 1 add def } loop /remcws numremcws j p add get 1 sub def /bvals [ remcws 0 eq i msglen eq and { % Terminates symbol 0 } { p 250 lt {p} {p 250 idiv 249 add p 250 mod} ifelse } ifelse bvals 0 p getinterval aload pop ] def bvals addtocws /mode A def } def % Derive the codewords /cws 1480 array def /mode A def /i 0 def /j 0 def { i msglen ge {exit} if [ /encA /encCTX /encCTX /encCTX /encD /encB ] mode get load exec } loop /cws cws 0 j getinterval def } ifelse % Select metrics of an appropriate symbol /i 0 def { % loop /m metrics i get def /vers m 0 get def % Version of symbol /rows m 1 get def % Rows in symbol /cols m 2 get def % Columns in symbol /dcol m 3 get def % Data columns in symbol /dcws m 4 get def % Data codewords in symbol /rscw m 5 get def % Error correction codewords /rsbl m 6 get def % Error correction blocks /riso m 7 get def % Riser offset /risi m 8 get def % Riser interval /risl m 9 get def % Riser length /dcpb dcws rsbl idiv def % Data codewords per block /ecpb rscw rsbl idiv def % Error codewords per block /okay true def version (unset) ne version vers ne and {/okay false def} if % The version must match that supplied cws length dcws gt {/okay false def} if okay {exit} if /i i 1 add def } loop % Extend cws to ncws codewords by addition of pad characters stype not { /cws [ cws aload pop dcws cws length sub {129} repeat ] def } { /cws [ dcws cws length sub {0} repeat cws aload pop ] def } ifelse options /debugcws known { /bwipp.debugcws cws //raiseerror exec } if % De-interleave the codewords into blocks /cwbs rsbl array def % Array of data codeword blocks /ecbs rsbl array def % Array of error correction blocks 0 1 rsbl 1 sub { /i exch def /cwb dcpb array def 0 1 dcpb 1 sub { /j exch def cwb j cws j rsbl mul i add get put } for cwbs i cwb put } for % Log and anti-log tables and function to calculate product in the field /gf stype {32} {256} ifelse def /gf-1 gf 1 sub def /pm stype {37} {301} ifelse def /rsalog [ 1 gf-1 { dup 2 mul dup gf ge {pm xor} if } repeat ] def /rslog gf array def 1 1 gf-1 {dup rsalog exch get exch rslog 3 1 roll put} for /rsprod { 2 copy 0 ne exch 0 ne and { rslog exch get exch rslog exch get add gf-1 mod rsalog exch get } { pop pop 0 } ifelse } def % Generate the coefficients for the Reed-Solomon algorithm /coeffs [ 1 ecpb {0} repeat ] def 0 1 ecpb 1 sub { /i exch def coeffs i 1 add coeffs i get put i -1 1 { /j exch def coeffs j coeffs j 1 sub get coeffs j get rsalog i get rsprod xor put } for coeffs 0 coeffs 0 get rsalog i get rsprod put } for /coeffs coeffs 0 coeffs length 1 sub getinterval def % Reed-Solomon algorithm to derive the error correction codewords 0 1 cwbs length 1 sub { /i exch def /rscws [ cwbs i get aload pop ecpb {0} repeat ] def 0 1 dcpb 1 sub { /m exch def /k rscws m get def 0 1 ecpb 1 sub { /j exch def rscws m j add 1 add coeffs ecpb j sub 1 sub get k rsprod rscws m j add 1 add get xor put } for } for ecbs i rscws dcpb ecpb getinterval put } for % Extend codewords with the interleaved error correction codes /cws [ cws aload pop rscw {0} repeat ] def 0 1 rscw 1 sub { /i exch def cws dcws i add ecbs i rsbl mod get i rsbl idiv get put } for % Module matrix for layout of the codewords /mmat dcws rscw add stype {5} {8} ifelse mul array def /r 0 def /c 0 def 0 stype {2} {1} ifelse cws length 1 sub { /i exch def stype not { (00000000) 8 string copy dup cws i get 2 8 string cvrs dup length 8 exch sub exch putinterval [ exch {48 sub} forall ] dup 0 4 getinterval /top exch def 4 4 getinterval /bot exch def } { (00000) 5 string copy dup cws i get 2 5 string cvrs dup length 5 exch sub exch putinterval [ exch {48 sub} forall ] /c1 exch def (00000) 5 string copy dup cws i 1 add get 2 5 string cvrs dup length 5 exch sub exch putinterval [ exch {48 sub} forall ] /c2 exch def /top [ c1 0 3 getinterval aload pop c2 0 2 getinterval aload pop ] def /bot [ c1 3 2 getinterval aload pop c2 2 3 getinterval aload pop ] def } ifelse mmat r dcol mul c add top putinterval mmat r 1 add dcol mul c add bot putinterval /c c top length add def c dcol eq {/c 0 def /r r 2 add def} if } for % Create bitmap and add finder patterns /mmv {cols mul add} def /pixs [ rows cols mul {-1} repeat ] def % Centre pattern /artifact [ {cols {0} repeat} bind {cols {1} repeat} bind {0 cols 2 sub {1} repeat 0} bind {0 1 cols 4 sub {0} repeat 1 0} bind {cols 1 sub 2 idiv {-1} repeat 1 cols 1 sub 2 idiv {-1} repeat} bind {cols 1 sub 2 idiv {-1} repeat 0 cols 1 sub 2 idiv {-1} repeat} bind {1 cols 2 sub {0} repeat 1} bind {1 0 cols 4 sub {1} repeat 0 1} bind ] def { /cpatmap << /A (121343) /B (12134343) /C (12121343) /D (1213434343) /E (1212134343) /F (1212121343) /G (121213434343) /H (121212134343) /S (56661278) /T (5666666666127878) >> def } ctxdef /cpat cpatmap vers 0 1 getinterval get def pixs 0 rows cpat length sub 2 idiv mmv [ cpat {artifact exch 49 sub get exec} forall ] putinterval % Risers 0 1 risl 1 sub { /i exch def riso risi cols 1 sub { /j exch def [ 1 i 12 mod 0 eq {1} {0} ifelse ] dup pixs j i mmv 3 -1 roll putinterval i risl 1 sub ne { pixs cols j sub 2 sub rows i sub 1 sub mmv 3 -1 roll putinterval } {pop} ifelse } for } for % Black dots { /blackdotmap << /A [ [12 5] ] /B [ [16 7] ] /C [ [26 12] ] /D [] /E [ [26 23] ] /F [ [26 32] [70 32] [26 34] [70 34] ] /G [ [27 48] [69 48] ] /H [ [26 70] [66 70] [106 70] [26 72] [66 72] [106 72] ] /S-10 [] /S-20 [ [10 4] ] /S-30 [ [15 4] [15 6] ] /T-16 [ [8 10] ] /T-32 [ [16 10] [16 12] ] /T-48 [ [24 10] [24 12] [24 14] ] >> def } ctxdef blackdotmap vers get {pixs exch aload pop mmv 1 put} forall % Place the modules onto a pixel map between alignment patterns /j 0 def 0 1 pixs length 1 sub { /i exch def pixs i get -1 eq { pixs i mmat j get put /j j 1 add def } if } for % Return the arguments << /ren //renmatrix /pixs pixs /pixx cols /pixy rows /height rows 72 div 2 mul /width cols 72 div 2 mul /opt options >> dontdraw not //renmatrix if //unloadctx exec end } [/barcode] {null def} forall bind def /codeone dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER codeone-- % --BEGIN ENCODER hanxin-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix-- % --DESC: Han Xin Code % --EXAM: This is Han Xin % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp hanxin 0.0 2022082100 304477 334267 %%BeginData: 863 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /hanxin { 20 dict begin /options exch def /barcode exch def /ctx null def /dontdraw false def /version (unset) def % 1-84 /eclevel (unset) def % L1, L2, L3 or L4 /parse false def /parsefnc false def /mask -1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /mask mask cvi def /hanxin //loadctx exec % Parse the input /fncvals << /parse parse /parsefnc parsefnc % No FNC characters defined >> def /msg barcode fncvals //parseinput exec def /msglen msg length def % Default error correction level eclevel (unset) eq {/eclevel (L2) def} if /tobin { string dup length 1 sub 0 exch 1 exch {1 index exch 48 put} for dup 3 -1 roll 2 2 index length string cvrs dup length 2 index length exch sub exch putinterval } def % Encode the data using byte mode encoding /bits 4 13 add msglen 8 mul add string def bits 0 (0011) putinterval bits 4 msglen 13 tobin putinterval 0 1 msglen 1 sub { /i exch def bits 17 i 8 mul add msg i get 8 tobin putinterval } for % Lookup the most appropriate symbol specification { /metrics [ % vers size align modules error correction blocks [ (1) 23 -1 0 205 [ 1 21 4 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 17 8 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 13 12 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 9 16 ] [ 0 -1 -1 ] [ 0 -1 -1 ] ] [ (2) 25 -1 0 301 [ 1 31 6 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 25 12 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 19 18 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 15 22 ] [ 0 -1 -1 ] [ 0 -1 -1 ] ] [ (3) 27 -1 0 405 [ 1 42 8 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 34 16 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 26 24 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 20 30 ] [ 0 -1 -1 ] [ 0 -1 -1 ] ] [ (4) 29 14 1 439 [ 1 46 8 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 38 16 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 30 24 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 22 32 ] [ 0 -1 -1 ] [ 0 -1 -1 ] ] [ (5) 31 16 1 555 [ 1 57 12 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 49 20 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 37 32 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 14 20 ] [ 1 13 22 ] [ 0 -1 -1 ] ] [ (6) 33 16 1 675 [ 1 70 14 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 58 26 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 24 20 ] [ 1 22 18 ] [ 0 -1 -1 ] [ 1 16 24 ] [ 1 18 26 ] [ 0 -1 -1 ] ] [ (7) 35 17 1 805 [ 1 84 16 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 70 30 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 26 22 ] [ 1 28 24 ] [ 0 -1 -1 ] [ 2 14 20 ] [ 1 12 20 ] [ 0 -1 -1 ] ] [ (8) 37 18 1 943 [ 1 99 18 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 40 18 ] [ 1 41 18 ] [ 0 -1 -1 ] [ 1 31 26 ] [ 1 32 28 ] [ 0 -1 -1 ] [ 2 16 24 ] [ 1 15 22 ] [ 0 -1 -1 ] ] [ (9) 39 19 1 1089 [ 1 114 22 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 2 48 20 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 2 24 20 ] [ 1 26 22 ] [ 0 -1 -1 ] [ 2 18 28 ] [ 1 18 26 ] [ 0 -1 -1 ] ] [ (10) 41 20 1 1243 [ 1 131 24 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 52 22 ] [ 1 57 24 ] [ 0 -1 -1 ] [ 2 27 24 ] [ 1 29 24 ] [ 0 -1 -1 ] [ 2 21 32 ] [ 1 19 30 ] [ 0 -1 -1 ] ] [ (11) 43 14 2 1289 [ 1 135 26 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 56 24 ] [ 1 57 24 ] [ 0 -1 -1 ] [ 2 28 24 ] [ 1 31 26 ] [ 0 -1 -1 ] [ 2 22 32 ] [ 1 21 32 ] [ 0 -1 -1 ] ] [ (12) 45 15 2 1455 [ 1 153 28 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 1 62 26 ] [ 1 65 28 ] [ 0 -1 -1 ] [ 2 32 28 ] [ 1 33 28 ] [ 0 -1 -1 ] [ 3 17 26 ] [ 1 22 30 ] [ 0 -1 -1 ] ] [ (13) 47 16 2 1629 [ 1 86 16 ] [ 1 85 16 ] [ 0 -1 -1 ] [ 1 71 30 ] [ 1 72 30 ] [ 0 -1 -1 ] [ 2 37 32 ] [ 1 35 30 ] [ 0 -1 -1 ] [ 3 20 30 ] [ 1 21 32 ] [ 0 -1 -1 ] ] [ (14) 49 16 2 1805 [ 1 94 18 ] [ 1 95 18 ] [ 0 -1 -1 ] [ 2 51 22 ] [ 1 55 24 ] [ 0 -1 -1 ] [ 3 30 26 ] [ 1 31 26 ] [ 0 -1 -1 ] [ 4 18 28 ] [ 1 17 24 ] [ 0 -1 -1 ] ] [ (15) 51 17 2 1995 [ 1 104 20 ] [ 1 105 20 ] [ 0 -1 -1 ] [ 2 57 24 ] [ 1 61 26 ] [ 0 -1 -1 ] [ 3 33 28 ] [ 1 36 30 ] [ 0 -1 -1 ] [ 4 20 30 ] [ 1 19 30 ] [ 0 -1 -1 ] ] [ (16) 53 17 2 2187 [ 1 115 22 ] [ 1 114 22 ] [ 0 -1 -1 ] [ 2 65 28 ] [ 1 61 26 ] [ 0 -1 -1 ] [ 3 38 32 ] [ 1 33 30 ] [ 0 -1 -1 ] [ 5 19 28 ] [ 1 14 24 ] [ 0 -1 -1 ] ] [ (17) 55 18 2 2393 [ 1 126 24 ] [ 1 125 24 ] [ 0 -1 -1 ] [ 2 70 30 ] [ 1 69 30 ] [ 0 -1 -1 ] [ 4 33 28 ] [ 1 29 26 ] [ 0 -1 -1 ] [ 5 20 30 ] [ 1 19 30 ] [ 0 -1 -1 ] ] [ (18) 57 19 2 2607 [ 1 136 26 ] [ 1 137 26 ] [ 0 -1 -1 ] [ 3 56 24 ] [ 1 59 26 ] [ 0 -1 -1 ] [ 5 35 30 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 6 18 28 ] [ 1 21 28 ] [ 0 -1 -1 ] ] [ (19) 59 20 2 2829 [ 1 148 28 ] [ 1 149 28 ] [ 0 -1 -1 ] [ 3 61 26 ] [ 1 64 28 ] [ 0 -1 -1 ] [ 7 24 20 ] [ 1 23 22 ] [ 0 -1 -1 ] [ 6 20 30 ] [ 1 21 32 ] [ 0 -1 -1 ] ] [ (20) 61 20 2 3053 [ 3 107 20 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 3 65 28 ] [ 1 72 30 ] [ 0 -1 -1 ] [ 7 26 22 ] [ 1 23 22 ] [ 0 -1 -1 ] [ 7 19 28 ] [ 1 20 32 ] [ 0 -1 -1 ] ] [ (21) 63 21 2 3291 [ 3 115 22 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 4 56 24 ] [ 1 63 28 ] [ 0 -1 -1 ] [ 7 28 24 ] [ 1 25 22 ] [ 0 -1 -1 ] [ 8 18 28 ] [ 1 21 22 ] [ 0 -1 -1 ] ] [ (22) 65 16 3 3383 [ 2 116 22 ] [ 1 122 24 ] [ 0 -1 -1 ] [ 4 56 24 ] [ 1 72 30 ] [ 0 -1 -1 ] [ 7 28 24 ] [ 1 32 26 ] [ 0 -1 -1 ] [ 8 18 28 ] [ 1 24 30 ] [ 0 -1 -1 ] ] [ (23) 67 17 3 3631 [ 3 127 24 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 5 51 22 ] [ 1 62 26 ] [ 0 -1 -1 ] [ 7 30 26 ] [ 1 35 26 ] [ 0 -1 -1 ] [ 8 20 30 ] [ 1 21 32 ] [ 0 -1 -1 ] ] [ (24) 69 17 3 3887 [ 2 135 26 ] [ 1 137 26 ] [ 0 -1 -1 ] [ 5 56 24 ] [ 1 59 26 ] [ 0 -1 -1 ] [ 7 33 28 ] [ 1 30 28 ] [ 0 -1 -1 ] [ 11 16 24 ] [ 1 19 26 ] [ 0 -1 -1 ] ] [ (25) 71 18 3 4151 [ 3 105 20 ] [ 1 121 22 ] [ 0 -1 -1 ] [ 5 61 26 ] [ 1 57 26 ] [ 0 -1 -1 ] [ 9 28 24 ] [ 1 28 22 ] [ 0 -1 -1 ] [ 10 19 28 ] [ 1 18 30 ] [ 0 -1 -1 ] ] [ (26) 73 18 3 4423 [ 2 157 30 ] [ 1 150 28 ] [ 0 -1 -1 ] [ 5 65 28 ] [ 1 61 26 ] [ 0 -1 -1 ] [ 8 33 28 ] [ 1 34 30 ] [ 0 -1 -1 ] [ 10 19 28 ] [ 2 15 26 ] [ 0 -1 -1 ] ] [ (27) 75 19 3 4703 [ 3 126 24 ] [ 1 115 22 ] [ 0 -1 -1 ] [ 7 51 22 ] [ 1 54 22 ] [ 0 -1 -1 ] [ 8 35 30 ] [ 1 37 30 ] [ 0 -1 -1 ] [ 15 15 22 ] [ 1 10 22 ] [ 0 -1 -1 ] ] [ (28) 77 19 3 4991 [ 4 105 20 ] [ 1 103 20 ] [ 0 -1 -1 ] [ 7 56 24 ] [ 1 45 18 ] [ 0 -1 -1 ] [ 10 31 26 ] [ 1 27 26 ] [ 0 -1 -1 ] [ 10 17 26 ] [ 3 20 28 ] [ 1 21 28 ] ] [ (29) 79 20 3 5287 [ 3 139 26 ] [ 1 137 28 ] [ 0 -1 -1 ] [ 6 66 28 ] [ 1 66 30 ] [ 0 -1 -1 ] [ 9 36 30 ] [ 1 34 32 ] [ 0 -1 -1 ] [ 13 19 28 ] [ 1 17 32 ] [ 0 -1 -1 ] ] [ (30) 81 20 3 5591 [ 6 84 16 ] [ 1 82 16 ] [ 0 -1 -1 ] [ 6 70 30 ] [ 1 68 30 ] [ 0 -1 -1 ] [ 7 35 30 ] [ 3 33 28 ] [ 1 32 28 ] [ 13 20 30 ] [ 1 20 28 ] [ 0 -1 -1 ] ] [ (31) 83 21 3 5903 [ 5 105 20 ] [ 1 94 18 ] [ 0 -1 -1 ] [ 6 74 32 ] [ 1 71 30 ] [ 0 -1 -1 ] [ 11 33 28 ] [ 1 34 32 ] [ 0 -1 -1 ] [ 13 19 28 ] [ 3 16 26 ] [ 0 -1 -1 ] ] [ (32) 85 17 4 6033 [ 4 127 24 ] [ 1 126 24 ] [ 0 -1 -1 ] [ 7 66 28 ] [ 1 66 30 ] [ 0 -1 -1 ] [ 12 30 24 ] [ 1 24 28 ] [ 1 24 30 ] [ 15 19 28 ] [ 1 17 32 ] [ 0 -1 -1 ] ] [ (33) 87 17 4 6353 [ 7 84 16 ] [ 1 78 16 ] [ 0 -1 -1 ] [ 7 70 30 ] [ 1 66 28 ] [ 0 -1 -1 ] [ 12 33 28 ] [ 1 32 30 ] [ 0 -1 -1 ] [ 14 21 32 ] [ 1 24 28 ] [ 0 -1 -1 ] ] [ (34) 89 18 4 6689 [ 5 117 22 ] [ 1 117 24 ] [ 0 -1 -1 ] [ 8 66 28 ] [ 1 58 26 ] [ 0 -1 -1 ] [ 11 38 32 ] [ 1 34 32 ] [ 0 -1 -1 ] [ 15 20 30 ] [ 2 17 26 ] [ 0 -1 -1 ] ] [ (35) 91 18 4 7025 [ 4 148 28 ] [ 1 146 28 ] [ 0 -1 -1 ] [ 8 68 30 ] [ 1 70 24 ] [ 0 -1 -1 ] [ 10 36 32 ] [ 3 38 28 ] [ 0 -1 -1 ] [ 16 19 28 ] [ 3 16 26 ] [ 0 -1 -1 ] ] [ (36) 93 19 4 7377 [ 4 126 24 ] [ 2 135 26 ] [ 0 -1 -1 ] [ 8 70 28 ] [ 2 43 26 ] [ 0 -1 -1 ] [ 13 32 28 ] [ 2 41 30 ] [ 0 -1 -1 ] [ 17 19 28 ] [ 3 15 26 ] [ 0 -1 -1 ] ] [ (37) 95 19 4 7729 [ 5 136 26 ] [ 1 132 24 ] [ 0 -1 -1 ] [ 5 67 30 ] [ 4 68 28 ] [ 1 69 28 ] [ 14 35 30 ] [ 1 32 24 ] [ 0 -1 -1 ] [ 18 18 26 ] [ 3 16 28 ] [ 1 14 28 ] ] [ (38) 97 19 4 8089 [ 3 142 26 ] [ 3 141 28 ] [ 0 -1 -1 ] [ 8 70 30 ] [ 1 73 32 ] [ 1 74 32 ] [ 12 34 30 ] [ 3 34 26 ] [ 1 35 28 ] [ 18 21 32 ] [ 1 27 30 ] [ 0 -1 -1 ] ] [ (39) 99 20 4 8465 [ 5 116 22 ] [ 2 103 20 ] [ 1 102 20 ] [ 9 74 32 ] [ 1 74 30 ] [ 0 -1 -1 ] [ 14 34 28 ] [ 2 32 32 ] [ 1 32 30 ] [ 19 21 32 ] [ 1 25 26 ] [ 0 -1 -1 ] ] [ (40) 101 20 4 8841 [ 7 116 22 ] [ 1 117 22 ] [ 0 -1 -1 ] [ 11 65 28 ] [ 1 58 24 ] [ 0 -1 -1 ] [ 15 38 32 ] [ 1 27 28 ] [ 0 -1 -1 ] [ 20 20 30 ] [ 1 20 32 ] [ 1 21 32 ] ] [ (41) 103 17 5 9009 [ 6 136 26 ] [ 1 130 24 ] [ 0 -1 -1 ] [ 11 66 28 ] [ 1 62 30 ] [ 0 -1 -1 ] [ 14 34 28 ] [ 3 34 32 ] [ 1 30 30 ] [ 18 20 30 ] [ 3 20 28 ] [ 2 15 26 ] ] [ (42) 105 17 5 9401 [ 5 105 20 ] [ 2 115 22 ] [ 2 116 22 ] [ 10 75 32 ] [ 1 73 32 ] [ 0 -1 -1 ] [ 16 38 32 ] [ 1 27 28 ] [ 0 -1 -1 ] [ 22 19 28 ] [ 2 16 30 ] [ 1 19 30 ] ] [ (43) 107 18 5 9799 [ 6 147 28 ] [ 1 146 28 ] [ 0 -1 -1 ] [ 11 66 28 ] [ 2 65 30 ] [ 0 -1 -1 ] [ 18 33 28 ] [ 2 33 30 ] [ 0 -1 -1 ] [ 22 21 32 ] [ 1 28 30 ] [ 0 -1 -1 ] ] [ (44) 109 18 5 10207 [ 6 116 22 ] [ 3 125 24 ] [ 0 -1 -1 ] [ 11 75 32 ] [ 1 68 30 ] [ 0 -1 -1 ] [ 13 35 28 ] [ 6 34 32 ] [ 1 30 30 ] [ 23 21 32 ] [ 1 26 30 ] [ 0 -1 -1 ] ] [ (45) 111 18 5 10623 [ 7 105 20 ] [ 4 95 18 ] [ 0 -1 -1 ] [ 12 67 28 ] [ 1 63 30 ] [ 1 62 32 ] [ 21 31 26 ] [ 2 33 32 ] [ 0 -1 -1 ] [ 23 21 32 ] [ 2 24 30 ] [ 0 -1 -1 ] ] [ (46) 113 19 5 11045 [ 10 116 22 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 12 74 32 ] [ 1 78 30 ] [ 0 -1 -1 ] [ 18 37 32 ] [ 1 39 30 ] [ 1 41 28 ] [ 25 21 32 ] [ 1 27 28 ] [ 0 -1 -1 ] ] [ (47) 115 19 5 11477 [ 5 126 24 ] [ 4 115 22 ] [ 1 114 22 ] [ 12 67 28 ] [ 2 66 32 ] [ 1 68 30 ] [ 21 35 30 ] [ 1 39 30 ] [ 0 -1 -1 ] [ 26 21 32 ] [ 1 28 28 ] [ 0 -1 -1 ] ] [ (48) 117 19 5 11917 [ 9 126 24 ] [ 1 117 22 ] [ 0 -1 -1 ] [ 13 75 32 ] [ 1 68 30 ] [ 0 -1 -1 ] [ 20 35 30 ] [ 3 35 28 ] [ 0 -1 -1 ] [ 27 21 32 ] [ 1 28 30 ] [ 0 -1 -1 ] ] [ (49) 119 17 6 12111 [ 9 126 24 ] [ 1 137 26 ] [ 0 -1 -1 ] [ 13 71 30 ] [ 2 68 32 ] [ 0 -1 -1 ] [ 20 37 32 ] [ 1 39 28 ] [ 1 38 28 ] [ 24 20 32 ] [ 5 25 28 ] [ 0 -1 -1 ] ] [ (50) 121 17 6 12559 [ 8 147 28 ] [ 1 141 28 ] [ 0 -1 -1 ] [ 10 73 32 ] [ 4 74 30 ] [ 1 73 30 ] [ 16 36 32 ] [ 6 39 30 ] [ 1 37 30 ] [ 27 21 32 ] [ 3 20 26 ] [ 0 -1 -1 ] ] [ (51) 123 18 6 13025 [ 9 137 26 ] [ 1 135 26 ] [ 0 -1 -1 ] [ 12 70 30 ] [ 4 75 32 ] [ 0 -1 -1 ] [ 24 35 30 ] [ 1 40 28 ] [ 0 -1 -1 ] [ 23 20 32 ] [ 8 24 30 ] [ 0 -1 -1 ] ] [ (52) 125 18 6 13489 [ 14 95 18 ] [ 1 86 18 ] [ 0 -1 -1 ] [ 13 73 32 ] [ 3 77 30 ] [ 0 -1 -1 ] [ 24 35 30 ] [ 2 35 28 ] [ 0 -1 -1 ] [ 26 21 32 ] [ 5 21 30 ] [ 1 23 30 ] ] [ (53) 127 18 6 13961 [ 9 147 28 ] [ 1 142 28 ] [ 0 -1 -1 ] [ 10 73 30 ] [ 6 70 32 ] [ 1 71 32 ] [ 25 35 30 ] [ 2 34 26 ] [ 0 -1 -1 ] [ 29 21 32 ] [ 4 22 30 ] [ 0 -1 -1 ] ] [ (54) 129 18 6 14441 [ 11 126 24 ] [ 1 131 24 ] [ 0 -1 -1 ] [ 16 74 32 ] [ 1 79 30 ] [ 0 -1 -1 ] [ 25 38 32 ] [ 1 25 30 ] [ 0 -1 -1 ] [ 33 21 32 ] [ 1 28 28 ] [ 0 -1 -1 ] ] [ (55) 131 19 6 14939 [ 14 105 20 ] [ 1 99 18 ] [ 0 -1 -1 ] [ 19 65 28 ] [ 1 72 28 ] [ 0 -1 -1 ] [ 24 37 32 ] [ 2 40 30 ] [ 1 41 30 ] [ 31 21 32 ] [ 4 24 32 ] [ 0 -1 -1 ] ] [ (56) 133 19 6 15435 [ 10 147 28 ] [ 1 151 28 ] [ 0 -1 -1 ] [ 15 71 30 ] [ 3 71 32 ] [ 1 73 32 ] [ 24 37 32 ] [ 3 38 30 ] [ 1 39 30 ] [ 36 19 30 ] [ 3 29 26 ] [ 0 -1 -1 ] ] [ (57) 135 19 6 15939 [ 15 105 20 ] [ 1 99 18 ] [ 0 -1 -1 ] [ 19 70 30 ] [ 1 64 28 ] [ 0 -1 -1 ] [ 27 38 32 ] [ 2 25 26 ] [ 0 -1 -1 ] [ 38 20 30 ] [ 2 18 28 ] [ 0 -1 -1 ] ] [ (58) 137 17 7 16171 [ 14 105 20 ] [ 1 113 22 ] [ 1 114 22 ] [ 17 67 30 ] [ 3 92 32 ] [ 0 -1 -1 ] [ 30 35 30 ] [ 1 41 30 ] [ 0 -1 -1 ] [ 36 21 32 ] [ 1 26 30 ] [ 1 27 30 ] ] [ (59) 139 17 7 16691 [ 11 146 28 ] [ 1 146 26 ] [ 0 -1 -1 ] [ 20 70 30 ] [ 1 60 26 ] [ 0 -1 -1 ] [ 29 38 32 ] [ 1 24 32 ] [ 0 -1 -1 ] [ 40 20 30 ] [ 2 17 26 ] [ 0 -1 -1 ] ] [ (60) 141 18 7 17215 [ 3 137 26 ] [ 1 136 26 ] [ 10 126 24 ] [ 22 65 28 ] [ 1 75 30 ] [ 0 -1 -1 ] [ 30 37 32 ] [ 1 51 30 ] [ 0 -1 -1 ] [ 42 20 30 ] [ 1 21 30 ] [ 0 -1 -1 ] ] [ (61) 143 18 7 17751 [ 12 126 24 ] [ 2 118 22 ] [ 1 116 22 ] [ 19 74 32 ] [ 1 74 30 ] [ 1 72 28 ] [ 30 38 32 ] [ 2 29 30 ] [ 0 -1 -1 ] [ 39 20 32 ] [ 2 37 26 ] [ 1 38 26 ] ] [ (62) 145 18 7 18295 [ 12 126 24 ] [ 3 136 26 ] [ 0 -1 -1 ] [ 21 70 30 ] [ 2 65 28 ] [ 0 -1 -1 ] [ 34 35 30 ] [ 1 44 32 ] [ 0 -1 -1 ] [ 42 20 30 ] [ 2 19 28 ] [ 2 18 28 ] ] [ (63) 147 18 7 18847 [ 12 126 24 ] [ 3 117 22 ] [ 1 116 22 ] [ 25 61 26 ] [ 2 62 28 ] [ 0 -1 -1 ] [ 34 35 30 ] [ 1 40 32 ] [ 1 41 32 ] [ 45 20 30 ] [ 1 20 32 ] [ 1 21 32 ] ] [ (64) 149 19 7 19403 [ 15 105 20 ] [ 2 115 22 ] [ 2 116 22 ] [ 25 65 28 ] [ 1 72 28 ] [ 0 -1 -1 ] [ 18 35 30 ] [ 17 37 32 ] [ 1 50 32 ] [ 42 20 30 ] [ 6 19 28 ] [ 1 15 28 ] ] [ (65) 151 19 7 19971 [ 19 105 20 ] [ 1 101 20 ] [ 0 -1 -1 ] [ 33 51 22 ] [ 1 65 22 ] [ 0 -1 -1 ] [ 40 33 28 ] [ 1 28 28 ] [ 0 -1 -1 ] [ 49 20 30 ] [ 1 18 28 ] [ 0 -1 -1 ] ] [ (66) 153 17 8 20229 [ 18 105 20 ] [ 2 117 22 ] [ 0 -1 -1 ] [ 26 65 28 ] [ 1 80 30 ] [ 0 -1 -1 ] [ 35 35 30 ] [ 3 35 28 ] [ 1 36 28 ] [ 52 18 28 ] [ 2 38 30 ] [ 0 -1 -1 ] ] [ (67) 155 17 8 20805 [ 26 84 16 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 26 70 30 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 45 31 26 ] [ 1 9 26 ] [ 0 -1 -1 ] [ 52 20 30 ] [ 0 -1 -1 ] [ 0 -1 -1 ] ] [ (68) 157 17 8 21389 [ 16 126 24 ] [ 1 114 22 ] [ 1 115 22 ] [ 23 70 30 ] [ 3 65 28 ] [ 1 66 28 ] [ 40 35 30 ] [ 1 43 30 ] [ 0 -1 -1 ] [ 46 20 30 ] [ 7 19 28 ] [ 1 16 28 ] ] [ (69) 159 18 8 21993 [ 19 116 22 ] [ 1 105 22 ] [ 0 -1 -1 ] [ 20 70 30 ] [ 7 66 28 ] [ 1 63 28 ] [ 40 35 30 ] [ 1 42 32 ] [ 1 43 32 ] [ 54 20 30 ] [ 1 19 30 ] [ 0 -1 -1 ] ] [ (70) 161 18 8 22593 [ 17 126 24 ] [ 2 115 22 ] [ 0 -1 -1 ] [ 24 70 30 ] [ 4 74 32 ] [ 0 -1 -1 ] [ 48 31 26 ] [ 2 18 26 ] [ 0 -1 -1 ] [ 54 19 28 ] [ 6 15 26 ] [ 1 14 26 ] ] [ (71) 163 18 8 23201 [ 29 84 16 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 29 70 30 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 6 34 30 ] [ 3 36 30 ] [ 38 33 28 ] [ 58 20 30 ] [ 0 -1 -1 ] [ 0 -1 -1 ] ] [ (72) 165 18 8 23817 [ 16 147 28 ] [ 1 149 28 ] [ 0 -1 -1 ] [ 31 66 28 ] [ 1 37 26 ] [ 0 -1 -1 ] [ 48 33 28 ] [ 1 23 26 ] [ 0 -1 -1 ] [ 53 20 30 ] [ 6 19 28 ] [ 1 17 28 ] ] [ (73) 167 19 8 24453 [ 20 115 22 ] [ 2 134 24 ] [ 0 -1 -1 ] [ 29 66 28 ] [ 2 56 26 ] [ 2 57 26 ] [ 45 36 30 ] [ 2 15 28 ] [ 0 -1 -1 ] [ 59 20 30 ] [ 2 21 32 ] [ 0 -1 -1 ] ] [ (74) 169 19 8 25085 [ 17 147 28 ] [ 1 134 26 ] [ 0 -1 -1 ] [ 26 70 30 ] [ 5 75 32 ] [ 0 -1 -1 ] [ 47 35 30 ] [ 1 48 32 ] [ 0 -1 -1 ] [ 64 18 28 ] [ 2 33 30 ] [ 1 35 30 ] ] [ (75) 171 17 9 25373 [ 22 115 22 ] [ 1 133 24 ] [ 0 -1 -1 ] [ 33 65 28 ] [ 1 74 28 ] [ 0 -1 -1 ] [ 43 36 30 ] [ 5 27 28 ] [ 1 30 28 ] [ 57 20 30 ] [ 5 21 32 ] [ 1 24 32 ] ] [ (76) 173 17 9 26021 [ 18 136 26 ] [ 2 142 26 ] [ 0 -1 -1 ] [ 33 66 28 ] [ 2 49 26 ] [ 0 -1 -1 ] [ 48 35 30 ] [ 2 38 28 ] [ 0 -1 -1 ] [ 64 20 30 ] [ 1 20 32 ] [ 0 -1 -1 ] ] [ (77) 175 17 9 26677 [ 19 126 24 ] [ 2 135 26 ] [ 1 136 26 ] [ 32 66 28 ] [ 2 55 26 ] [ 2 56 26 ] [ 49 36 30 ] [ 2 18 32 ] [ 0 -1 -1 ] [ 65 18 28 ] [ 5 27 30 ] [ 1 29 30 ] ] [ (78) 177 18 9 27335 [ 20 137 26 ] [ 1 130 26 ] [ 0 -1 -1 ] [ 30 75 32 ] [ 2 71 32 ] [ 0 -1 -1 ] [ 46 35 30 ] [ 6 39 32 ] [ 0 -1 -1 ] [ 3 12 30 ] [ 70 19 28 ] [ 0 -1 -1 ] ] [ (79) 179 18 9 28007 [ 20 147 28 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 35 70 30 ] [ 0 -1 -1 ] [ 0 -1 -1 ] [ 49 35 30 ] [ 5 35 28 ] [ 0 -1 -1 ] [ 70 20 30 ] [ 0 -1 -1 ] [ 0 -1 -1 ] ] [ (80) 181 18 9 28687 [ 21 136 26 ] [ 1 155 28 ] [ 0 -1 -1 ] [ 34 70 30 ] [ 1 64 28 ] [ 1 65 28 ] [ 54 35 30 ] [ 1 45 30 ] [ 0 -1 -1 ] [ 68 20 30 ] [ 3 18 28 ] [ 1 19 28 ] ] [ (81) 183 18 9 29375 [ 19 126 24 ] [ 5 115 22 ] [ 1 114 22 ] [ 33 70 30 ] [ 3 65 28 ] [ 1 64 28 ] [ 52 35 30 ] [ 3 41 32 ] [ 1 40 32 ] [ 67 20 30 ] [ 5 21 32 ] [ 1 24 32 ] ] [ (82) 185 18 9 30071 [ 2 150 28 ] [ 21 136 26 ] [ 0 -1 -1 ] [ 32 70 30 ] [ 6 65 28 ] [ 0 -1 -1 ] [ 52 38 32 ] [ 2 27 32 ] [ 0 -1 -1 ] [ 73 20 30 ] [ 2 22 32 ] [ 0 -1 -1 ] ] [ (83) 187 17 10 30387 [ 21 126 24 ] [ 4 136 26 ] [ 0 -1 -1 ] [ 30 74 32 ] [ 6 73 30 ] [ 0 -1 -1 ] [ 54 35 30 ] [ 4 40 32 ] [ 0 -1 -1 ] [ 75 20 30 ] [ 1 20 28 ] [ 0 -1 -1 ] ] [ (84) 189 17 10 31091 [ 30 105 20 ] [ 1 114 22 ] [ 0 -1 -1 ] [ 3 45 22 ] [ 55 47 20 ] [ 0 -1 -1 ] [ 2 26 26 ] [ 62 33 28 ] [ 0 -1 -1 ] [ 79 18 28 ] [ 4 33 30 ] [ 0 -1 -1 ] ] ] def } ctxdef /eclval eclevel 1 get 49 sub def 0 1 83 { /i exch def /m metrics i get def /vers m 0 get def % Version of symbol /size m 1 get def % Length of side /alnk m 2 get def % Regular alignment pattern length /alnn m 3 get def % Number of alignment patterns /alnr size alnk alnn mul sub def % Remainder alignment pattern length /nmod m 4 get def % Number of modules /ncws nmod 8 idiv def % Total number of codewords /rbit nmod 8 mod def % Number of remainder bits /ecbs m 5 eclval 3 mul add 3 getinterval def % Error correction blocks /ecws 0 ecbs {dup 0 get exch 2 get mul add} forall def % Number of error correction codewords /dcws ncws ecws sub def % Number of data codewords /dmod dcws 8 mul def % Number of data modules /okay true def version (unset) ne version vers ne and {/okay false def} if % The version must match that supplied bits length dmod gt {/okay false def} if % Bitstream must fit into data modules okay {exit} if } for okay not { /bwipp.hanxinNoValidSymbol (Maximum length exceeded or invalid content) //raiseerror exec } if /version vers def /msgbits bits def /e1nb ecbs 0 get 0 get def /e2nb ecbs 1 get 0 get def /e3nb ecbs 2 get 0 get def /e1dcws ecbs 0 get 1 get def /e2dcws ecbs 1 get 1 get def /e3dcws ecbs 2 get 1 get def /e1ecws ecbs 0 get 2 get def /e2ecws ecbs 1 get 2 get def /e3ecws ecbs 2 get 2 get def % Expand the message bits by adding padding as necessary /pad dmod string def 0 1 pad length 1 sub {pad exch 48 put} for pad 0 msgbits putinterval % Evaluate the padded message into codewords /cws dcws array def 0 1 cws length 1 sub { /c exch def /cwb pad c 8 mul 8 getinterval def /cw 0 def 0 1 7 { /i exch def /cw cw 2 8 i sub 1 sub exp cvi cwb i get 48 sub mul add def } for cws c cw put } for /rscodes { /rspm exch def /rsgf exch def /rsnc exch def /rscws exch def % Calculate the log and anti-log tables /rsalog [ 1 rsgf 1 sub { dup 2 mul dup rsgf ge {rspm xor} if } repeat ] def /rslog rsgf array def 1 1 rsgf 1 sub {dup rsalog exch get exch rslog 3 1 roll put} for % Function to calculate the product in the field /rsprod { 2 copy 0 ne exch 0 ne and { rslog exch get exch rslog exch get add rsgf 1 sub mod rsalog exch get } { pop pop 0 } ifelse } def % Generate the coefficients /coeffs [ 1 rsnc {0} repeat ] def 1 1 rsnc { /i exch def coeffs i coeffs i 1 sub get put i 1 sub -1 1 { /j exch def coeffs j coeffs j 1 sub get coeffs j get rsalog i get rsprod xor put } for coeffs 0 coeffs 0 get rsalog i get rsprod put } for % Extend the input with the error correction values /nd rscws length def /rscws [ rscws {} forall rsnc {0} repeat 0 ] def 0 1 nd 1 sub { /k exch rscws exch get rscws nd get xor def 0 1 rsnc 1 sub { /j exch def rscws nd j add rscws nd j add 1 add get k coeffs rsnc j sub 1 sub get rsprod xor put } for } for % Return all but the last codeword rscws 0 rscws length 1 sub getinterval } def % Divide codewords into two groups of blocks and calculate the error correction codewords /dcwsb e1nb e2nb add e3nb add array def /ecwsb dcwsb length array def /in 0 def /out 0 def e1nb { cws in e1dcws getinterval e1ecws 256 355 rscodes dup 0 e1dcws getinterval dcwsb exch out exch put e1dcws e1ecws getinterval ecwsb exch out exch put /in in e1dcws add def /out out 1 add def } repeat e2nb { cws in e2dcws getinterval e2ecws 256 355 rscodes dup 0 e2dcws getinterval dcwsb exch out exch put e2dcws e2ecws getinterval ecwsb exch out exch put /in in e2dcws add def /out out 1 add def } repeat e3nb { cws in e3dcws getinterval e3ecws 256 355 rscodes dup 0 e3dcws getinterval dcwsb exch out exch put e3dcws e3ecws getinterval ecwsb exch out exch put /in in e3dcws add def /out out 1 add def } repeat % Reassemble the codewords /cws ncws array def /cw 0 def 0 1 dcwsb length 1 sub { /i exch def dcwsb i get dup cws exch cw exch putinterval length cw add /cw exch def ecwsb i get dup cws exch cw exch putinterval length cw add /cw exch def } for % Split codewords into groups of 13 and concatenate /cws [ 0 1 ncws 1 sub 12 2 copy gt {exch} if pop { 13 ncws 1 sub { dup ncws lt {cws exch get} {pop} ifelse } for } for ] def % Extend codewords by one if there are remainder bits rbit 0 gt { /pad cws length 1 add array def pad 0 cws putinterval pad pad length 1 sub 0 put /cws pad def } if % Create the bitmap /pixs [ size size mul {-1} repeat ] def /qmv {size mul add} def % Alignment patterns alnn 0 ne { /trmv {size mul size add 1 sub exch sub} def /aplot { 3 1 roll 3 copy exch trmv pixs exch 3 -1 roll put trmv pixs exch 3 -1 roll put } def /i 0 def /stag 0 def { i size ge {exit} if 0 1 size 1 sub { /j exch def j alnr add size lt { j alnk idiv stag add 2 mod 0 eq % Staggered groups of k modules i 0 eq j alnk lt and not and % Keep clear at top right j alnk mod 0 eq or % Complete regular-spaced grid } { alnn stag add 2 mod 0 eq % Bottom right remainder } ifelse { j i 1 aplot j 1 add i 1 add 2 copy size lt exch size lt and {0 aplot} {pop pop} ifelse } if } for i alnr add size eq { /i i alnr add 1 sub def } { /i i alnk add def } ifelse /stag 1 stag sub def } loop alnk alnk size 2 sub { /i exch def i alnk idiv 2 mod 0 ne { pixs 0 i 1 sub trmv 0 put pixs 0 i 1 add trmv 0 put pixs 1 i 1 sub trmv 0 put pixs 1 i trmv 0 put pixs 1 i 1 add trmv 0 put pixs i 1 sub 0 trmv 0 put pixs i 1 add 0 trmv 0 put pixs i 1 sub 1 trmv 0 put pixs i 1 trmv 0 put pixs i 1 add 1 trmv 0 put } if pixs size 1 sub i 1 sub trmv get 1 ne { pixs size 1 sub i 1 sub trmv 0 put pixs size 2 sub i 1 sub trmv 0 put pixs size 2 sub i trmv 0 put pixs size 2 sub i 1 add trmv 0 put pixs size 1 sub i 1 add trmv 0 put pixs i 1 sub size 1 sub trmv 0 put pixs i 1 sub size 2 sub trmv 0 put pixs i size 2 sub trmv 0 put pixs i 1 add size 2 sub trmv 0 put pixs i 1 add size 1 sub trmv 0 put } if } for } if % Finder patterns { /fpat [ [ 1 1 1 1 1 1 1 0 ] [ 1 0 0 0 0 0 0 0 ] [ 1 0 1 1 1 1 1 0 ] [ 1 0 1 0 0 0 0 0 ] [ 1 0 1 0 1 1 1 0 ] [ 1 0 1 0 1 1 1 0 ] [ 1 0 1 0 1 1 1 0 ] [ 0 0 0 0 0 0 0 0 ] ] def /fpat2 [ [ 1 1 1 0 1 0 1 0 ] [ 1 1 1 0 1 0 1 0 ] [ 1 1 1 0 1 0 1 0 ] [ 0 0 0 0 1 0 1 0 ] [ 1 1 1 1 1 0 1 0 ] [ 0 0 0 0 0 0 1 0 ] [ 1 1 1 1 1 1 1 0 ] [ 0 0 0 0 0 0 0 0 ] ] def } ctxdef 0 1 fpat length 1 sub { /y exch def 0 1 fpat 0 get length 1 sub { /x exch def /fpb fpat y get x get def /fpb2 fpat2 y get x get def pixs x y qmv fpb put pixs size x sub 1 sub y qmv fpb put pixs size x sub 1 sub size y sub 1 sub qmv fpb put pixs x size y sub 1 sub qmv fpb2 put } for } for % Format information modules /functionmap [ [ [ 0 8 ] [ size 1 sub size 9 sub ] ] [ [ 1 8 ] [ size 2 sub size 9 sub ] ] [ [ 2 8 ] [ size 3 sub size 9 sub ] ] [ [ 3 8 ] [ size 4 sub size 9 sub ] ] [ [ 4 8 ] [ size 5 sub size 9 sub ] ] [ [ 5 8 ] [ size 6 sub size 9 sub ] ] [ [ 6 8 ] [ size 7 sub size 9 sub ] ] [ [ 7 8 ] [ size 8 sub size 9 sub ] ] [ [ 8 8 ] [ size 9 sub size 9 sub ] ] [ [ 8 7 ] [ size 9 sub size 8 sub ] ] [ [ 8 6 ] [ size 9 sub size 7 sub ] ] [ [ 8 5 ] [ size 9 sub size 6 sub ] ] [ [ 8 4 ] [ size 9 sub size 5 sub ] ] [ [ 8 3 ] [ size 9 sub size 4 sub ] ] [ [ 8 2 ] [ size 9 sub size 3 sub ] ] [ [ 8 1 ] [ size 9 sub size 2 sub ] ] [ [ 8 0 ] [ size 9 sub size 1 sub ] ] [ [ size 9 sub 0 ] [ 8 size 1 sub ] ] [ [ size 9 sub 1 ] [ 8 size 2 sub ] ] [ [ size 9 sub 2 ] [ 8 size 3 sub ] ] [ [ size 9 sub 3 ] [ 8 size 4 sub ] ] [ [ size 9 sub 4 ] [ 8 size 5 sub ] ] [ [ size 9 sub 5 ] [ 8 size 6 sub ] ] [ [ size 9 sub 6 ] [ 8 size 7 sub ] ] [ [ size 9 sub 7 ] [ 8 size 8 sub ] ] [ [ size 9 sub 8 ] [ 8 size 9 sub ] ] [ [ size 8 sub 8 ] [ 7 size 9 sub ] ] [ [ size 7 sub 8 ] [ 6 size 9 sub ] ] [ [ size 6 sub 8 ] [ 5 size 9 sub ] ] [ [ size 5 sub 8 ] [ 4 size 9 sub ] ] [ [ size 4 sub 8 ] [ 3 size 9 sub ] ] [ [ size 3 sub 8 ] [ 2 size 9 sub ] ] [ [ size 2 sub 8 ] [ 1 size 9 sub ] ] [ [ size 1 sub 8 ] [ 0 size 9 sub ] ] ] def functionmap { { {} forall qmv pixs exch 0 put } forall } forall /maskfuncs [ {pop pop 1} bind {add 2 mod} bind {1 index add 3 mod exch 3 mod add 2 mod} bind {2 copy mod 3 1 roll 2 copy exch mod 3 1 roll 3 mod exch 3 mod add add add 2 mod} bind ] def mask -1 ne { % User specifies a mask /maskfuncs [maskfuncs mask 1 sub get] def /bestmaskval mask 1 sub def } if /masks maskfuncs length array def 0 1 masks length 1 sub { /m exch def /mask size size mul array def 0 1 size 1 sub { /j exch def 0 1 size 1 sub { /i exch def i 1 add j 1 add maskfuncs m get exec 0 eq pixs i j qmv get -1 eq and {1} {0} ifelse mask i j qmv 3 -1 roll put } for } for masks m mask put } for % Walk the symbol placing the bitstream /posx 0 def /posy 0 def /num 0 def { % loop posy size eq {exit} if pixs posx posy qmv get -1 eq { cws num 8 idiv get 7 num 8 mod sub neg bitshift 1 and pixs posx posy qmv 3 -1 roll put /num num 1 add def } if /posx posx 1 add def posx size eq {/posx 0 def /posy posy 1 add def} if } loop % Evaluate runlength encoded rows or columns in full symbols /evalfulln1n3 { /scrle exch def % Detect runs of 3 or more like modules /scr1 0 scrle { dup 3 ge {4 mul add dup} if pop } forall def /scr3 0 def % Detect 1:1:1:1:3 ratio next to 3 modules of whitespace 5 2 scrle length 1 sub { % Scan odd (dark) runs within bounds /j exch def scrle j get 3 mod 0 eq { % Multiple of 3 black modules /fact scrle j get 3 idiv def scrle j 4 sub 4 getinterval {fact eq} forall and and and { j 5 eq j 2 add scrle length ge or { % At either extent of run /scr3 scr3 50 add def } { % Bounded by dark modules scrle j 5 sub get 3 ge scrle j 1 add get 3 ge or { /scr3 scr3 50 add def } if } ifelse } if } if } for % Detect 3:1:1:1:1 ratio next to 3 modules of whitespace 1 2 scrle length 5 sub { % Scan odd (dark) runs within bounds /j exch def scrle j get 3 mod 0 eq { % Multiple of 3 black modules /fact scrle j get 3 idiv def scrle j 1 add 4 getinterval {fact eq} forall and and and { j 1 eq j 6 add scrle length ge or { % At either extent of run /scr3 scr3 50 add def } { % Bounded by dark modules scrle j 1 sub get 3 ge scrle j 5 add get 3 ge or { /scr3 scr3 50 add def } if } ifelse } if } if } for scr1 scr3 } def % Evaluation algorithm /evalfull { /sym exch def /n1 0 def /n3 0 def /rle size 1 add array def /lastpairs size array def /thispairs size array def /sizeadd1 size 1 add def 0 1 size 1 sub { /i exch def % Runlength encode (light, dark, light, ...) and evaluate each column mark 0 0 i size dup dup mul 1 sub { sym exch get exch 1 index eq {exch 1 add exch} {1 exch} ifelse } for pop rle 0 counttomark 2 sub getinterval astore evalfulln1n3 n3 add /n3 exch def n1 add /n1 exch def pop % Runlength encode (light, dark, light, ...) and evaluate each row /symrow sym i size mul size getinterval def mark 0 0 symrow { exch 1 index eq {exch 1 add exch} {1 exch} ifelse } forall pop rle 0 counttomark 2 sub getinterval astore evalfulln1n3 n3 add /n3 exch def n1 add /n1 exch def pop } for n1 n3 add } def % Evaluate the masked symbols to find the most suitable /bestscore 999999999 def 0 1 masks length 1 sub { /m exch def /masksym size size mul array def 0 1 size size mul 1 sub { /i exch def masksym i pixs i get masks m get i get xor put } for masks length 1 ne { masksym evalfull /score exch def score bestscore lt { /bestsym masksym def /bestmaskval m def /bestscore score def } if } { /bestsym masksym def } ifelse } for /pixs bestsym def % Add the function information /funval size 21 sub 2 idiv 20 add 4 mul eclval add 4 mul bestmaskval add def [ funval 16#0F00 and -8 bitshift funval 16#00F0 and -4 bitshift funval 16#000F and ] 4 16 19 rscodes /funvals exch def /funbits [ funvals { 4 tobin {48 sub} forall } forall 0 1 0 1 0 1 ] def 0 1 functionmap length 1 sub { /i exch def functionmap i get { pixs exch aload pop qmv funbits i get put } forall } for % Return the arguments << /ren //renmatrix /pixs pixs /pixx size /pixy size /height size 2 mul 72 div /width size 2 mul 72 div /opt options >> dontdraw not //renmatrix if //unloadctx exec end } [/barcode] {null def} forall bind def /hanxin dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER hanxin-- % --BEGIN ENCODER dotcode-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix-- % --DESC: DotCode % --EXAM: This is DotCode % --EXOP: inkspread=0.16 % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp dotcode 0.0 2022082100 238866 247484 %%BeginData: 1067 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /dotcode { 20 dict begin /options exch def /barcode exch def /ctx null def /dontdraw false def /rows -1 def /columns -1 def /ratio -1 def /parse false def /parsefnc false def /raw false def /fast false def /mask -1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /rows rows cvi def /columns columns cvi def /ratio ratio cvr def /mask mask cvi def /dotcode //loadctx exec % Set the ratio to 3:2 if no size is specified ratio -1 eq rows -1 eq and columns -1 eq and { /ratio 3 2 div def } if % Convert input into bytes accounting for FNC characters { /laa -1 def /lab -2 def /lac -3 def /bin -4 def /sfa -5 def /sfb -6 def /sb2 -7 def /sb3 -8 def /sb4 -9 def /sb5 -10 def /sb6 -11 def /sfc -12 def /sc2 -13 def /sc3 -14 def /sc4 -15 def /sc5 -16 def /sc6 -17 def /sc7 -18 def /bsa -19 def /bsb -20 def /tma -21 def /tmb -22 def /tmc -23 def /tms -24 def /fn1 -25 def /fn2 -26 def /fn3 -27 def /crl -28 def /aim -29 def /m05 -30 def /m06 -31 def /m12 -32 def /mac -33 def } ctxdef % Parse the input /fncvals << /parse parse /parsefnc parsefnc /eci true (FNC1) fn1 % (FNC2) fn2 % Use ^ECInnnnnn for ECI; Structured append not supported (FNC3) fn3 >> def /msg barcode fncvals //parseinput exec def /msglen msg length def % Special FNC2 semantics: Expand ECI characters into ^FNC2nnnnnn /numecis 0 msg { -1000000 le {1 add} if } forall def /msgtmp msg length numecis 6 mul add array def /j 0 def 0 1 msg length 1 sub { msg exch get dup -1000000 le { neg 10 7 string cvrs 1 6 getinterval {} forall 6 array astore msgtmp exch j 1 add exch putinterval msgtmp j fn2 put /j j 7 add def } { msgtmp exch j exch put /j j 1 add def } ifelse } for /msg msgtmp def /msglen msg length def % Character maps for each state { /charmaps [ % A B C A B C A B C [ 32 32 (00) ] [ (!) (!) (01) ] [ (") (") (02) ] % 0-2 [ (#) (#) (03) ] [ ($) ($) (04) ] [ (%) (%) (05) ] % 3-5 [ (&) (&) (06) ] [ (') (') (07) ] [ 40 40 (08) ] % 6-8 [ 41 41 (09) ] [ (*) (*) (10) ] [ (+) (+) (11) ] % 9-11 [ (,) (,) (12) ] [ (-) (-) (13) ] [ (.) (.) (14) ] % 12-14 [ (/) (/) (15) ] [ (0) (0) (16) ] [ (1) (1) (17) ] % 15-17 [ (2) (2) (18) ] [ (3) (3) (19) ] [ (4) (4) (20) ] % 18-20 [ (5) (5) (21) ] [ (6) (6) (22) ] [ (7) (7) (23) ] % 21-23 [ (8) (8) (24) ] [ (9) (9) (25) ] [ (:) (:) (26) ] % 24-26 [ (;) (;) (27) ] [ (<) (<) (28) ] [ (=) (=) (29) ] % 27-29 [ (>) (>) (30) ] [ (?) (?) (31) ] [ (@) (@) (32) ] % 30-32 [ (A) (A) (33) ] [ (B) (B) (34) ] [ (C) (C) (35) ] % 33-35 [ (D) (D) (36) ] [ (E) (E) (37) ] [ (F) (F) (38) ] % 36-38 [ (G) (G) (39) ] [ (H) (H) (40) ] [ (I) (I) (41) ] % 39-41 [ (J) (J) (42) ] [ (K) (K) (43) ] [ (L) (L) (44) ] % 42-44 [ (M) (M) (45) ] [ (N) (N) (46) ] [ (O) (O) (47) ] % 45-47 [ (P) (P) (48) ] [ (Q) (Q) (49) ] [ (R) (R) (50) ] % 48-50 [ (S) (S) (51) ] [ (T) (T) (52) ] [ (U) (U) (53) ] % 51-53 [ (V) (V) (54) ] [ (W) (W) (55) ] [ (X) (X) (56) ] % 54-56 [ (Y) (Y) (57) ] [ (Z) (Z) (58) ] [ ([) ([) (59) ] % 57-59 [ 92 92 (60) ] [ (]) (]) (61) ] [ (^) (^) (62) ] % 60-62 [ (_) (_) (63) ] [ 0 (`) (64) ] [ 1 (a) (65) ] % 63-65 [ 2 (b) (66) ] [ 3 (c) (67) ] [ 4 (d) (68) ] % 66-68 [ 5 (e) (69) ] [ 6 (f) (70) ] [ 7 (g) (71) ] % 69-71 [ 8 (h) (72) ] [ 9 (i) (73) ] [ 10 (j) (74) ] % 72-74 [ 11 (k) (75) ] [ 12 (l) (76) ] [ 13 (m) (77) ] % 75-77 [ 14 (n) (78) ] [ 15 (o) (79) ] [ 16 (p) (80) ] % 78-80 [ 17 (q) (81) ] [ 18 (r) (82) ] [ 19 (s) (83) ] % 81-83 [ 20 (t) (84) ] [ 21 (u) (85) ] [ 22 (v) (86) ] % 84-86 [ 23 (w) (87) ] [ 24 (x) (88) ] [ 25 (y) (89) ] % 87-89 [ 26 (z) (90) ] [ 27 ({) (91) ] [ 28 (|) (92) ] % 90-92 [ 29 (}) (93) ] [ 30 (~) (94) ] [ 31 127 (95) ] % 93-95 [ sfb crl (96) ] [ sb2 9 (97) ] [ sb3 28 (98) ] % 96-98 [ sb4 29 (99) ] [ sb5 30 aim ] [ sb6 sfa laa ] % 99-101 [ lab laa sfb ] [ sc2 sc2 sb2 ] [ sc3 sc3 sb3 ] % 102-104 [ sc4 sc4 sb4 ] [ lac lac lab ] [ fn1 fn1 fn1 ] % 105-107 [ fn2 fn2 fn2 ] [ fn3 fn3 fn3 ] [ bsa bsa bsa ] % 108-110 [ bsb bsb bsb ] [ bin bin bin ] % 111-112 ] def % Invert charmaps to give character to value maps for each state /charvals [ 113 dict 117 dict 113 dict ] def 0 1 charmaps length 1 sub { /i exch def /encs charmaps i get def 0 1 2 { /j exch def encs j get dup type /stringtype eq {0 get} if % convert string to ASCII if required charvals j get exch i put } for } for /Avals charvals 0 get def /Bvals charvals 1 get def Bvals m05 97 put Bvals m06 98 put Bvals m12 99 put Bvals mac 100 put /Cvals charvals 2 get def /BINvals << 102 [ sc2 sc3 sc4 sc5 sc6 sc7 tma tmb tmc tms ] {exch 1 add dup} forall pop >> def /A 0 def /B 1 def /C 2 def /BIN 3 def } ctxdef % Pre-compute properties of the input at each point /nDigits [ msglen 1 add {0} repeat ] def /SeventeenTen [ msglen 1 add {false} repeat ] def /ECI [ msglen 1 add {false} repeat ] def /DatumA [ msglen 1 add {false} repeat ] def /DatumB [ msglen 1 add {false} repeat ] def /DatumC [ msglen 1 add {false} repeat ] def /Binary [ msglen 8 add {false} repeat ] def /AheadC [ msglen 1 add {0} repeat ] def /TryC [ msglen 1 add {0} repeat ] def /AheadA [ msglen 1 add {0} repeat ] def /AheadB [ msglen 1 add {0} repeat ] def /UntilEndSeg [ msglen 1 add {0} repeat ] def msglen 1 sub -1 0 { /i exch def /barchar msg i get def barchar 48 ge barchar 57 le and { nDigits i nDigits i 1 add get 1 add put } if Avals barchar known {DatumA i true put} if Bvals barchar known {DatumB i true put} if /CRLF false def barchar 13 eq i msglen 1 sub lt and { msg i 1 add get 10 eq {/CRLF true def} if } if CRLF {DatumB i true put} if nDigits i get 2 ge {DatumC i true put} if barchar 0 lt {DatumC i true put} if % FNCx barchar 128 ge {Binary i true put} if nDigits i get 10 ge { % 17xxxxxx10 mark msg i 10 getinterval aload pop 1 { % common exit 48 ne {false exit} if 49 ne {false exit} if pop pop pop pop pop pop 55 ne {false exit} if 49 ne {false exit} if true } repeat SeventeenTen i 3 -1 roll put cleartomark } if nDigits i 1 add get 6 ge msg i get fn2 eq and { % ^FNC2xxxxxx ECI i true put } if barchar 0 lt barchar fn3 ne and { % FNCx, except FNC3 AheadC i AheadC i 1 add get 1 add put } { nDigits i get 1 le { AheadC i 0 put } { AheadC i AheadC i 2 add get 1 add put } ifelse } ifelse nDigits i get 0 gt AheadC i get AheadC i 1 add get gt and { TryC i AheadC i get put } if DatumA i get TryC i get 2 lt and barchar fn3 ne and { AheadA i AheadA i 1 add get 1 add put } if DatumB i get TryC i get 2 lt and barchar fn3 ne and { AheadB i AheadB i 1 add CRLF {1 add} if get 1 add put } if barchar fn3 ne { UntilEndSeg i UntilEndSeg i 1 add get 1 add put } if } for /addtocws { dup cws exch j exch putinterval /j exch length j add def } def % Base 259 to one more in base 103 /base259to103 { /in exch def /inlen in length def /in [ 5 inlen sub {0} repeat in aload pop ] def /out 6 array def /msbs [ in 0 2 getinterval aload pop ] def /mscs [ msbs aload pop exch 259 mul add 2 {dup 103 mod exch 103 idiv} repeat ] def /lsbs [ in 2 3 getinterval aload pop ] def /lscs [ lsbs aload pop exch 259 mul add exch 67081 mul add 3 {dup 103 mod exch 103 idiv} repeat ] def lscs 0 get mscs 0 get 42 mul add out 5 2 index 103 mod put 103 idiv lscs 1 get add mscs 0 get 68 mul add mscs 1 get 42 mul add out 4 2 index 103 mod put 103 idiv lscs 2 get add mscs 0 get 92 mul add mscs 1 get 68 mul add mscs 2 get 42 mul add out 3 2 index 103 mod put 103 idiv lscs 3 get add mscs 0 get 15 mul add mscs 1 get 92 mul add mscs 2 get 68 mul add out 2 2 index 103 mod put 103 idiv mscs 1 get 15 mul add mscs 2 get 92 mul add out 1 2 index 103 mod put 103 idiv mscs 2 get 15 mul add out 0 3 -1 roll 103 mod put out 6 inlen sub 1 sub inlen 1 add getinterval } def /finaliseBIN { bpos 0 ne { bvals 0 bpos getinterval base259to103 aload pop /bpos 0 def } if } def /addtobin { bvals exch bpos exch put /bpos bpos 1 add def bpos 5 eq { finaliseBIN } if } def /ECIabc { % ECI encoding for modes A, B and C msg i 1 add 6 getinterval 0 exch {48 sub add 10 mul} forall 10 idiv dup 40 ge { 40 sub dup 12769 idiv 40 add exch 12769 mod dup 113 idiv exch 113 mod } if } def /ECIbin { % ECI encoding for binary mode [ msg i 1 add 6 getinterval 0 exch {48 sub add 10 mul} forall 10 idiv dup 65536 ge { 258 exch dup 65536 idiv exch 65536 mod dup 256 idiv exch 256 mod } { dup 256 ge { 257 exch dup 256 idiv exch 256 mod } { 256 exch } ifelse } ifelse ] { addtobin } forall } def /encC { 1 { % Common exit i segstart eq { % Structured data macros 1 { % common exit i segend 7 sub gt {0 exit} if msg segstart get 91 ne {0 exit} if % [ msg segstart 1 add get 41 ne {0 exit} if % ) msg segstart 2 add get 62 ne {0 exit} if % > msg segstart 3 add get 30 ne {0 exit} if % {RS} msg segstart 4 add get dup 48 lt exch 57 gt or {0 exit} if % digit msg segstart 5 add get dup 48 lt exch 57 gt or {0 exit} if % digit msg segend 1 sub get 4 ne {0 exit} if % End: {EOT} msg segstart 4 add get 48 sub 10 mul msg segstart 5 add get 48 sub add dup dup 05 ne exch dup 06 ne exch 12 ne and and {pop mac exit} if msg segstart 6 add get 29 ne {pop 0 exit} if % {GS} msg segend 2 sub get 30 ne {pop 0 exit} if % End: {RS} dup 05 eq {pop m05 exit} if 06 eq { m06 exit} if m12 exit } repeat /inmac exch def inmac 0 ne { [ Cvals lab get ] addtocws /mode B def [ Bvals inmac get ] addtocws inmac mac eq { [ Bvals msg segstart 4 add get get ] addtocws [ Bvals msg segstart 5 add get get ] addtocws /i i 6 add def } { /i i 7 add def } ifelse exit } if } if % Special treatment of FNC1 in First for Dotcode i segstart eq { % Encode an FNC1 if two digits start a segment nDigits i get 2 ge { [ Cvals fn1 get ] addtocws } if % Skip an FNC1 if followed by two digits at start of segment msg i get fn1 eq nDigits i 1 add get 2 ge and { /i i 1 add def } if } if SeventeenTen i get { [ % 17xxxxxx10 macro Cvals aim get msg i 2 add get 48 sub 10 mul msg i 3 add get 48 sub add msg i 4 add get 48 sub 10 mul msg i 5 add get 48 sub add msg i 6 add get 48 sub 10 mul msg i 7 add get 48 sub add ] addtocws /i i 10 add def exit } if DatumC i get { msg i get dup fn1 eq exch dup fn2 eq exch fn3 eq or or { % FNCx [ Cvals msg i get get ] addtocws ECI i get { % FNC2 then 6 digits [ ECIabc ] addtocws /i i 7 add def exit } if msg i get fn3 eq segstart i ne and { % FNC3 /i i 1 add def /inmac 0 def /segstart i def /segend i UntilEndSeg i get add def exit } if /i i 1 add def exit } if [ msg i get 48 sub 10 mul msg i 1 add get 48 sub add ] addtocws /i i 2 add def exit } if Binary i get { % Binary nDigits i 1 add get 0 gt { msg i get 160 lt { [ Cvals bsa get Avals msg i get 128 sub get ] addtocws } { [ Cvals bsb get Bvals msg i get 128 sub get ] addtocws } ifelse /i i 1 add def exit } if [ Cvals bin get ] addtocws /mode BIN def exit } if /m AheadA i get def /n AheadB i get def m n gt { [ Cvals laa get ] addtocws /mode A def exit } if i segstart eq { msg i get dup 9 eq exch dup 28 eq exch dup 29 eq exch 30 eq or or or { [ Cvals laa get ] addtocws /mode A def exit } if } if n 4 gt { [ Cvals lab get ] addtocws /mode B def exit } if [ Cvals [ sfb sb2 sb3 sb4 ] n 1 sub get get ] addtocws n { msg i get 13 eq { [ Bvals crl get ] addtocws /i i 2 add def } { [ Bvals msg i get get ] addtocws /i i 1 add def } ifelse } repeat exit } repeat } def % encC /encB { 1 { % Common exit /n TryC i get def n 2 ge { n 4 gt { [ Bvals lac get ] addtocws /mode C def exit } if [ Bvals [ sfc sc2 sc3 sc4 ] n 1 sub get get ] addtocws n { msg i get 0 lt { [ Cvals msg i get get ] addtocws /i i 1 add def } { [ msg i get 48 sub 10 mul msg i 1 add get 48 sub add ] addtocws /i i 2 add def } ifelse } repeat exit } if DatumB i get { msg i get dup fn1 eq exch dup fn2 eq exch fn3 eq or or { % FNCx [ Bvals msg i get get ] addtocws ECI i get { % FNC2 then 6 digits [ ECIabc ] addtocws /i i 7 add def exit } if msg i get fn3 eq i segstart ne and { % FNC3 /i i 1 add def /mode C def /inmac 0 def /segstart i def /segend i UntilEndSeg i get add def exit } if /i i 1 add def exit } if msg i get 13 eq i msglen 1 sub lt and { msg i 1 add get 10 eq { % CRLF [ Bvals crl get ] addtocws /i i 2 add def exit } if } if [ Bvals msg i get get ] addtocws /i i 1 add def exit } if Binary i get { % Binary DatumB i 1 add get { msg i get 160 lt { [ Bvals bsa get Avals msg i get 128 sub get ] addtocws } { [ Bvals bsb get Bvals msg i get 128 sub get ] addtocws } ifelse /i i 1 add def exit } if [ Bvals bin get ] addtocws /mode BIN def exit } if AheadA i get 1 eq { [ Bvals sfa get Avals msg i get get ] addtocws /i i 1 add def exit } if [ Bvals laa get ] addtocws /mode A def exit } repeat } def /encA { 1 { % Common exit /n TryC i get def n 2 ge { n 4 gt { [ Avals lac get ] addtocws /mode C def exit } if [ Avals [ sfc sc2 sc3 sc4 ] n 1 sub get get ] addtocws n { msg i get 0 lt { [ Cvals msg i get get ] addtocws /i i 1 add def } { [ msg i get 48 sub 10 mul msg i 1 add get 48 sub add ] addtocws /i i 2 add def } ifelse } repeat exit } if DatumA i get { msg i get dup fn1 eq exch dup fn2 eq exch fn3 eq or or { % FNCx [ Avals msg i get get ] addtocws ECI i get { % FNC2 then 6 digits [ ECIabc ] addtocws /i i 7 add def exit } if msg i get fn3 eq i segstart ne and { % FNC3 /i i 1 add def /mode C def /inmac 0 def /segstart i def /segend i UntilEndSeg i get add def exit } if /i i 1 add def exit } if [ Avals msg i get get ] addtocws /i i 1 add def exit } if Binary i get { % Binary DatumA i 1 add get { msg i get 160 lt { [ Avals bsa get Avals msg i get 128 sub get ] addtocws } { [ Avals bsb get Bvals msg i get 128 sub get ] addtocws } ifelse /i i 1 add def exit } if [ Avals bin get ] addtocws /mode BIN def exit } if /n AheadB i get def n 6 gt { [ Avals lab get ] addtocws /mode B def exit } if [ Avals [ sfb sb2 sb3 sb4 sb5 sb6 ] n 1 sub get get ] addtocws n { msg i get 13 eq { [ Bvals crl get ] addtocws /i i 2 add def } { [ Bvals msg i get get ] addtocws /i i 1 add def } ifelse } repeat exit } repeat } def /encBIN { 1 { % Common exit /n TryC i get def n 2 ge { [ finaliseBIN ] addtocws n 7 gt { % Terminate to C [ BINvals tmc get ] addtocws /mode C def exit } if [ BINvals [ sc2 sc3 sc4 sc5 sc6 sc7 ] n 2 sub get get ] addtocws n { msg i get 0 lt { [ Cvals msg i get get ] addtocws /i i 1 add def } { [ msg i get 48 sub 10 mul msg i 1 add get 48 sub add ] addtocws /i i 2 add def } ifelse } repeat exit } if ECI i get Binary i 7 add get and { % ECI then binary [ ECIbin ] addtocws /i i 7 add def i msglen eq { [ finaliseBIN ] addtocws } if exit } if msg i get 0 ge { % Not FNCx Binary i get Binary i 1 add get or Binary i 2 add get or Binary i 3 add get or ECI i 1 add get Binary i 8 add get and or { [ msg i get addtobin ] addtocws /i i 1 add def i msglen eq { [ finaliseBIN ] addtocws } if exit } if } if [ finaliseBIN ] addtocws i msglen 1 sub ne { % Not last character msg i get fn3 eq i segstart ne and { % FNC3 [ BINvals tms get ] addtocws /i i 1 add def /mode C def /inmac 0 def /segstart i def /segend i UntilEndSeg i get add def exit } if AheadA i get AheadB i get gt { [ BINvals tma get ] addtocws /mode A def } { [ BINvals tmb get ] addtocws /mode B def } ifelse exit } if exit } repeat } def /cws msglen 2 mul 1 add array def /mode C def /bvals 5 array def /bpos 0 def /inmac 0 def /segstart 0 def /segend UntilEndSeg 0 get def /i 0 def /j 0 def { i msglen ge {exit} if inmac 0 ne { % Jump over macro trailers inmac mac ne i segend 2 sub eq and { % {RS}{EOT} /i i 2 add def i msglen ge {exit} if } if inmac mac eq i segend 1 sub eq and { % {EOT} /i i 1 add def i msglen ge {exit} if } if } if [ /encA /encB /encC /encBIN ] mode get load exec } loop /cws cws 0 j getinterval def % Determine the symbol size /nd cws length def /minarea nd 3 add nd 2 idiv add 9 mul 2 add 2 mul def ratio -1 ne { % Fixed ratio /hgt minarea ratio div sqrt def /wid minarea ratio mul sqrt def /h hgt cvi def /w wid cvi def h w add 2 mod 1 eq { h w mul minarea lt {/h h 1 add def /w w 1 add def} if } { hgt w mul wid h mul lt { /w w 1 add def h w mul minarea lt { /w w 1 sub def /h h 1 add def h w mul minarea lt {/w w 2 add def} if } if } { /h h 1 add def h w mul minarea lt { /h h 1 sub def /w w 1 add def h w mul minarea lt {/h h 2 add def} if } if } ifelse } ifelse /rows h def /columns w def } { columns -1 eq { % Fixed height /columns minarea rows add 1 sub rows idiv dup rows add 2 mod 0 eq {1 add} if def } if rows -1 eq { % Fixed width /rows minarea columns add 1 sub columns idiv dup columns add 2 mod 0 eq {1 add} if def } if } ifelse % Extend the codewords with padding /ndots rows columns mul 2 idiv def { nd 1 add dup 2 idiv 3 add add 9 mul 2 add ndots gt {exit} if /nd nd 1 add def } loop /nc nd 2 idiv 3 add def /nw nd nc add def /rembits ndots nw 9 mul 2 add sub def nd cws length gt { /cws [ cws aload pop mode BIN eq {109} {106} ifelse nd cws length sub 1 sub {106} repeat ] def } if options /debugcws known { /bwipp.debugcws cws //raiseerror exec } if % Create an array containing the character mappings { /encs [ (101010101) (010101011) (010101101) (010110101) (011010101) (101010110) (101011010) (101101010) (110101010) (010101110) (010110110) (010111010) (011010110) (011011010) (011101010) (100101011) (100101101) (100110101) (101001011) (101001101) (101010011) (101011001) (101100101) (101101001) (110010101) (110100101) (110101001) (001010111) (001011011) (001011101) (001101011) (001101101) (001110101) (010010111) (010011011) (010011101) (010100111) (010110011) (010111001) (011001011) (011001101) (011010011) (011011001) (011100101) (011101001) (100101110) (100110110) (100111010) (101001110) (101011100) (101100110) (101101100) (101110010) (101110100) (110010110) (110011010) (110100110) (110101100) (110110010) (110110100) (111001010) (111010010) (111010100) (001011110) (001101110) (001110110) (001111010) (010011110) (010111100) (011001110) (011011100) (011100110) (011101100) (011110010) (011110100) (100010111) (100011011) (100011101) (100100111) (100110011) (100111001) (101000111) (101100011) (101110001) (110001011) (110001101) (110010011) (110011001) (110100011) (110110001) (111000101) (111001001) (111010001) (000101111) (000110111) (000111011) (000111101) (001001111) (001100111) (001110011) (001111001) (010001111) (011000111) (011100011) (011110001) (100011110) (100111100) (101111000) (110001110) (110011100) (110111000) (111000110) (111001100) ] def } ctxdef % Final six dots arranged at edges rows 2 mod 0 eq { /sixedges [ [ columns 1 sub rows 2 sub ] [ 0 rows 2 sub ] [ columns 2 sub rows 1 sub ] [ 1 rows 1 sub ] [ columns 1 sub 0 ] [ 0 0 ] ] def } { /sixedges [ [ columns 2 sub 0 ] [ columns 2 sub rows 1 sub ] [ columns 1 sub 1 ] [ columns 1 sub rows 2 sub ] [ 0 0 ] [ 0 rows 1 sub ] ] def } ifelse /dmv {columns mul add} def % Construct the template /outline rows columns mul array def 0 1 rows 1 sub { /y exch def 0 1 columns 1 sub { /x exch def outline x y dmv x y add 2 mod 1 sub put } for } for sixedges { outline exch aload pop dmv 1 put } forall /clearcol { /x exch def true x 1 and 2 rows 1 sub { x exch dmv sym exch get 1 eq {pop false exit} if } for } def /clearrow { /y exch def true y 1 and 2 columns 1 sub { y dmv sym exch get 1 eq {pop false exit} if } for } def % Evaluate the symbol /evalsymbol { /sym exch def % Identify the worst side /worst 9999999 def [ [ /x 0 ] [ /x 1 ] [ /y 0 ] [ /y 1 ] ] { % Top Bottom Left Right aload pop /fl exch def /dir exch def /sum 0 def /first -1 def /last -1 def 0 1 dir /x eq {columns} {rows} ifelse 1 sub { dir exch def sym dir load dir /x eq {rows} {columns} ifelse 1 sub fl mul dir /y eq {exch} if dmv get 1 eq { first -1 eq {/first dir load def} if /last dir load def /sum sum 1 add def } if } for sum last add first sub dir /x eq {rows} {columns} ifelse mul dup worst lt {/worst exch def} {pop} ifelse } forall /pen 0 def % Check for groups of blank columns unless data is encoded vertically % in a symbol of sufficient height to overcome up to six consecutive 0s % in two neighbouring 5 of 9 dot patterns rows 2 mod 1 eq rows 12 le or { /sum 0 def /p 0 def 1 1 columns 2 sub { clearcol { /sum sum 1 add def /p sum 1 eq {rows} {p rows mul} ifelse def } { /sum 0 def /pen pen p add def /p 0 def } ifelse } for /pen pen p add def } if % Check for groups of blank rows unless data is encoded horizontally % in a symbol of sufficient width to overcome up to six consecutive 0s % in two neighbouring 5 of 9 dot patterns rows 2 mod 0 eq columns 12 le or { /sum 0 def /p 0 def 1 1 rows 2 sub { clearrow { /sum sum 1 add def /p sum 1 eq {columns} {p columns mul} ifelse def } { /sum 0 def /pen pen p add def /p 0 def } ifelse } for /pen pen p add def } if % Pad twice on all sides /symp [ columns 4 add 2 mul {0} repeat 0 columns sym length 1 sub { 0 exch 0 exch sym exch columns getinterval aload pop 0 0 } for columns 4 add 2 mul {0} repeat ] def % Count voids and isolated dots /columns columns 4 add def /rows rows 4 add def /sum 0 def 2 1 rows 3 sub { /y exch def y 1 and 2 add 2 columns 3 sub { /x exch def 1 { % Common exit symp x 1 sub y 1 sub dmv get 1 eq {exit} if symp x 1 add y 1 sub dmv get 1 eq {exit} if symp x 1 sub y 1 add dmv get 1 eq {exit} if symp x 1 add y 1 add dmv get 1 eq {exit} if symp x y dmv get 0 eq {/sum sum 1 add def exit} if symp x 2 sub y dmv get 1 eq {exit} if symp x y 2 sub dmv get 1 eq {exit} if symp x 2 add y dmv get 1 eq {exit} if symp x y 2 add dmv get 1 eq {exit} if /sum sum 1 add def } repeat } for } for /columns columns 4 sub def /rows rows 4 sub def worst 0 eq { % Fixed penalty to disqualify a symbol with an unlit edge -99999 } { worst sum sum mul sub pen sub } ifelse } def % Reed Solomon antilog table /rsalog [ 1 112 { dup 3 mul 113 mod } repeat ] def /step nw 112 idiv 1 add def /offset {step mul start add} def % Evaluate the symbols in the following order: % fast mode: m3 -> m3' -> m2 -> m2' -> m1 -> m1' -> m0 -> m0' % dflt mode: (m0 m1 m2 m3) -> (m0' m1' m2' m3') % -> : Test if we have met the HxW/2 threshold % m' : Symbols with six edge dots forcibly lit % () : Best of /bestscore -99999999 def /masks mask -1 ne { [ mask ] } { fast { [ 2#11 2#10 2#01 2#00 ] } { [ 2#00 2#01 2#10 2#11 ] } ifelse } ifelse def /litmasks 4 array def masks { % For each mask pattern /mask exch def % Calculate the error correction codewords for each block /rscws [ mask [ 0 3 7 17 ] mask get 0 cws {1 index add 113 mod exch 2 index add exch 3 1 roll} forall pop pop nc {0} repeat ] def 0 1 step 1 sub { /start exch def /ND nd 1 add start sub step add 1 sub step idiv def /NW nw 1 add start sub step add 1 sub step idiv def /NC NW ND sub def /coeffs [ 1 NC {0} repeat ] def 1 1 NC { /i exch def NC -1 1 { /j exch def coeffs j coeffs j get 113 add rsalog i get coeffs j 1 sub get mul 113 mod sub 113 mod put } for } for 0 1 ND 1 sub { /t exch rscws exch offset get rscws ND offset get add 113 mod def 0 1 NC 2 sub { /j exch def rscws ND j add offset rscws ND j add 1 add offset get 113 add t coeffs j 1 add get mul 113 mod sub 113 mod put } for rscws ND NC add 1 sub offset 113 t coeffs NC get mul 113 mod sub 113 mod put } for ND 1 NW 1 sub { dup rscws exch offset 113 rscws 5 -1 roll offset get sub 113 mod put } for } for % Create the bitstream /bits ndots string def bits 0 [ (00) (01) (10) (11) ] mask get putinterval 1 1 nw { /i exch def bits i 1 sub 9 mul 2 add encs rscws i get get putinterval } for rembits 0 gt { bits nw 9 mul 2 add (11111111111111111) 0 rembits getinterval putinterval } if % Walk the symbol placing the bitstream /pixs outline dup length array copy def /posx 0 def /posy rows 2 mod 0 eq {0} {rows 1 sub} ifelse def bits 0 bits length 6 sub getinterval { { % Move to next vacant position pixs posx posy dmv get -1 eq {exit} if rows 2 mod 0 eq { /posy posy 1 add def posy rows eq { /posy 0 def /posx posx 1 add def } if } { /posx posx 1 add def posx columns eq { /posx 0 def /posy posy 1 sub def } if } ifelse } loop pixs posx posy dmv 3 -1 roll 48 sub put } forall 0 1 5 { % Last six edge dots /i exch def pixs sixedges i get aload pop dmv bits bits length 6 sub i add get 48 sub put } for % Evaluate the symbol to find the most suitable mask /score pixs evalsymbol def score bestscore gt { /bestsym pixs def /bestscore score def fast bestscore rows columns mul 2 idiv gt and {exit} if } if % Make a copy with lit edges for possible later evaluation /litmask pixs dup length array copy def 0 1 5 { % Light last six edge dots /i exch def litmask sixedges i get aload pop dmv 1 put } for litmasks mask litmask put % In fast mode immediately score the lit symbol fast { /score litmask evalsymbol def score bestscore gt { /bestsym litmask def /bestscore score def bestscore rows columns mul 2 idiv gt {exit} if } if } if } forall /pixs bestsym def % For default mode, if best mask fails threshold then recalculate with lit corners and pick best fast not bestscore rows columns mul 2 idiv le and { /bestscore -99999999 def masks { litmasks exch get /litmask exch def /score litmask evalsymbol def score bestscore gt { /bestsym litmask def /bestscore score def } if } forall /pixs bestsym def } if % Return the arguments << /ren //renmatrix /dotty true /pixs pixs /pixx columns /pixy rows /height rows 2 mul 72 div /width columns 2 mul 72 div /opt options >> dontdraw not //renmatrix if //unloadctx exec end } [/barcode] {null def} forall bind def /dotcode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER dotcode-- % --BEGIN ENCODER ultracode-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix-- % --DESC: Ultracode % --EXAM: Awesome colours! % --EXOP: eclevel=EC2 % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp ultracode 0.0 2022082100 96235 99035 %%BeginData: 361 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /ultracode { 20 dict begin /options exch def /barcode exch def /ctx null def /dontdraw false def /eclevel (EC2) def % EC0-EC5 /encoding (auto) def /parse false def /parsefnc false def /start 257 def % 8-bit ISO-8859-1, until we write high-level encoders /link1 0 def /raw false def /rev 1 def % Ultracode specification revision % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /start start cvi def /link1 link1 cvi def /rev rev cvi def rev dup 1 ne exch 2 ne and { /bwipp.ultracodeInvalidRevision (Valid revisions are 1 and 2) //raiseerror exec } if /ultracode //loadctx exec raw {/encoding (raw) def} if encoding (raw) eq { /dcws barcode length array def /i 0 def /j 0 def { % loop i barcode length eq {exit} if /cw barcode i 1 add 3 getinterval cvi def dcws j cw put /i i 4 add def /j j 1 add def } loop /dcws dcws 0 j getinterval def } if % Basic high level encoding encoding (auto) eq { % Parse the input /fn1 -1 def /fn3 -2 def /fncvals << /parse parse /parsefnc parsefnc (FNC1) fn1 (FNC3) fn3 >> def /msg barcode fncvals //parseinput exec def /msglen msg length def /scr [] def % Empty symbol control region /scp [] def % Empty start sequence parameters /dcws [ scr aload pop scp aload pop msg { dup fn1 eq {pop 268} if dup fn3 eq {pop 269} if } forall ] def } if options /debugcws known { /bwipp.debugcws dcws //raiseerror exec } if /mcc dcws length 3 add def % Message codewords: start mcc acc [dcws ...] /eclval eclevel 2 get 48 sub def eclval 0 ne { /qcc [0 1 2 4 6 8] eclval get mcc 25 idiv mcc 25 mod 0 ne {1 add} if mul 5 add def } { /qcc 3 def } ifelse /acc qcc 3 sub 78 link1 mul add def /tcc mcc qcc add def % Lookup the most appropriate symbol specification { /metrics [ % rows minc maxc mcol [ 2 7 37 5 ] [ 3 36 84 13 ] [ 4 85 161 22 ] [ 5 142 282 29 ] ] def } ctxdef 0 1 3 { /i exch def /m metrics i get def /rows m 0 get def /minc m 1 get def % Minimum permissible codewords /maxc m 2 get def % Maximum permissible codewords /mcol m 3 get def % Minimum tile columns /okay true def tcc minc lt tcc maxc gt or {/okay false def} if okay {exit} if } for okay not { /bwipp.ultracodeNoValidSymbol (Maximum length exceeded or invalid content) //raiseerror exec } if % Determine required number of columns and pads mcol 1 61 { /columns exch def columns columns 15 ge {1 sub} if columns 31 ge {1 sub} if columns 47 ge {1 sub} if rows mul 3 sub tcc sub dup 0 ge { /pads exch def exit } if pop } for /dcc columns mcol sub def % Reed-Solomon error correction /rsseq [ start mcc acc dcws aload pop qcc {0} repeat 0 % Working space ] def % Calculate the log and anti-log tables /rsalog [ 1 282 {dup 3 mul 283 mod} repeat ] def /rslog 283 array def 1 1 282 {dup rsalog exch get exch rslog 3 1 roll put} for % Function to calculate the product in the field /rsprod { 2 copy 0 ne exch 0 ne and { rslog exch get exch rslog exch get add 282 mod rsalog exch get } { pop pop 0 } ifelse } def % Generate the coefficients /n mcc def /k qcc def /coeffs [ 1 k {0} repeat ] def 1 1 k { /i exch def coeffs i coeffs i 1 sub get put i 1 sub -1 1 { /j exch def coeffs j coeffs j 1 sub get coeffs j get rsalog i get rsprod add 283 mod put } for coeffs 0 coeffs 0 get rsalog i get rsprod put } for /coeffs coeffs 0 coeffs length 1 sub getinterval def coeffs length 1 sub -2 0 {coeffs exch 2 copy get 283 exch sub put} for % Derive the error codewords 0 1 n 1 sub { /t exch rsseq exch get rsseq n get add 283 mod def 0 1 k 1 sub { /j exch def rsseq n j add rsseq n j add 1 add get 283 t coeffs k j sub 1 sub get mul 283 mod sub add 283 mod put } for } for n 1 n k add { dup rsseq exch 283 rsseq 5 -1 roll get sub 283 mod put } for /ecws rsseq n k getinterval def options /debugecc known { /bwipp.debugecc ecws //raiseerror exec } if { /tiles [ 13135 13136 13153 13156 13163 13165 13513 13515 13516 13531 % 0-9 13535 13536 13561 13563 13565 13613 13615 13616 13631 13635 % 10-19 13636 13651 13653 13656 15135 15136 15153 15163 15165 15313 % 20-29 15315 15316 15351 15353 15356 15361 15363 15365 15613 15615 % 30-39 15616 15631 15635 15636 15651 15653 15656 16135 16136 16153 % 40-49 16156 16165 16313 16315 16316 16351 16353 16356 16361 16363 % 50-59 16365 16513 16515 16516 16531 16535 16536 16561 16563 16565 % 60-69 31315 31316 31351 31356 31361 31365 31513 31515 31516 31531 % 70-79 31535 31536 31561 31563 31565 31613 31615 31631 31635 31636 % 80-89 31651 31653 31656 35131 35135 35136 35151 35153 35156 35161 % 90-99 35163 35165 35315 35316 35351 35356 35361 35365 35613 35615 % 100-109 35616 35631 35635 35636 35651 35653 35656 36131 36135 36136 % 110-119 36151 36153 36156 36163 36165 36315 36316 36351 36356 36361 % 120-129 36365 36513 36515 36516 36531 36535 36536 36561 36563 36565 % 130-139 51313 51315 51316 51351 51353 51356 51361 51363 51365 51513 % 140-149 51516 51531 51536 51561 51563 51613 51615 51616 51631 51635 % 150-159 51636 51651 51653 51656 53131 53135 53136 53151 53153 53156 % 160-169 53161 53163 53165 53513 53516 53531 53536 53561 53563 53613 % 170-179 53615 53616 53631 53635 53636 53651 53653 53656 56131 56135 % 180-189 56136 56151 56153 56156 56161 56163 56165 56313 56315 56316 % 190-199 56351 56353 56356 56361 56363 56365 56513 56516 56531 56536 % 200-209 56561 56563 61313 61315 61316 61351 61353 61356 61361 61363 % 210-219 61365 61513 61515 61516 61531 61535 61536 61561 61563 61565 % 220-229 61615 61631 61635 61651 61653 63131 63135 63136 63151 63153 % 230-239 63156 63161 63163 63165 63513 63515 63516 63531 63535 63536 % 240-249 63561 63563 63565 63613 63615 63631 63635 63651 63653 65131 % 250-259 65135 65136 65151 65153 65156 65161 65163 65165 65313 65315 % 260-269 65316 65351 65353 65356 65361 65363 65365 65613 65615 65631 % 270-279 65635 65651 65653 56565 51515 % 280-284 ] def /dccurev1 [ 51363 51563 51653 53153 53163 53513 53563 53613 % 0-7 53653 56153 56163 56313 56353 56363 56513 56563 % 8-15 51316 51356 51536 51616 53156 53516 53536 53616 % 16-23 53636 53656 56136 56156 56316 56356 56516 56536 % 24-31 ] def /dcclrev1 [ 61351 61361 61531 61561 61631 61651 63131 63151 % 0-7 63161 63531 63561 63631 65131 65161 65351 65631 % 8-15 31351 31361 31531 31561 31631 31651 35131 35151 % 16-23 35161 35361 35631 35651 36131 36151 36351 36531 % 24-31 ] def /dccurev2 [ 15316 16316 13516 16516 13616 15616 13136 15136 % 0-7 16136 13536 16536 13636 13156 16156 15356 13656 % 8-15 15313 16313 13513 16513 13613 15613 13153 15153 % 16-23 16153 16353 13653 15653 13163 15163 15363 13563 % 24-31 ] def /dcclrev2 [ 36315 36515 35615 35135 36135 31535 36535 31635 % 0-7 35635 35165 36165 31365 35365 36365 31565 36565 % 8-15 61315 65315 63515 61615 65135 61535 63535 61635 % 16-23 63635 65635 63165 65165 61365 65365 61565 63565 % 24-31 ] def } ctxdef /dccu rev 1 eq {dccurev1} {dccurev2} ifelse def /dccl rev 1 eq {dcclrev1} {dcclrev2} ifelse def % Create the bitmap /rows rows 6 mul 1 add def /columns columns 6 add def /pixs [ rows columns mul {-1} repeat ] def /qmv {columns mul add} def 0 1 columns 1 sub { /i exch def 0 6 rows 1 sub { /j exch def i 5 ge {pixs i j qmv i 2 mod 9 mul put} if } for pixs i 0 qmv 9 put pixs i rows 1 sub qmv 9 put } for 1 1 rows 2 sub { /i exch def 3 16 columns 1 sub { /j exch def pixs j i qmv 1 i 2 mod sub 9 mul put } for pixs 0 i qmv 9 put pixs 1 i qmv 1 i 2 mod sub 9 mul put pixs 2 i qmv 0 put pixs 3 i qmv 9 put pixs 4 i qmv 0 put pixs columns 1 sub i qmv 9 put } for % DCCU and DCCL tiles /i rows 2 idiv 5 sub def [ dccu dcc get 10 5 string cvrs {48 sub} forall 0 dccl dcc get 10 5 string cvrs {48 sub} forall ] { pixs 2 i qmv 3 -1 roll put /i i 1 add def } forall % Data tiles /tileseq [ start mcc ecws aload pop tcc 283 % SEP acc dcws aload pop pads {284} repeat qcc ] def /x 5 def /y 1 def tileseq { tiles exch get 10 5 string cvrs { pixs x y qmv 3 -1 roll 48 sub put /y y 1 add def } forall y rows 1 sub ne { /y y 1 add def % Jump horizontal timing pattern } { /x x 1 add def /y 1 def pixs x y qmv get -1 ne { /x x 1 add def % Jump vertical timing pattern } if } ifelse } forall { /colormap << 0 (FFFFFF) % W 9 (000000) % K 1 (00FFFF) % C 3 (FF00FF) % M 5 (FFFF00) % Y 6 (00FF00) % G >> def } ctxdef % Return the arguments << /ren //renmatrix /pixs pixs /pixx columns /pixy rows /height rows 72 div 2 mul /width columns 72 div 2 mul /colormap colormap /opt options >> dontdraw not //renmatrix if //unloadctx exec end } [/barcode] {null def} forall bind def /ultracode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER ultracode-- % --BEGIN ENCODER jabcode-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput renmatrix-- % --DESC: JAB Code (Beta) % --EXAM: This is JAB Code % --EXOP: eclevel=6 % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp jabcode 0.0 2022082100 244344 255738 %%BeginData: 1133 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /jabcode { 20 dict begin /options exch def /barcode exch def /ctx null def /dontdraw false def /rows -1 def /columns -1 def /slave false def /colors 16 def /eclevel 6 def % 0-10 /raw false def /parse false def /parsefnc false def /mask -1 def % 0-7 % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /rows rows cvi def /columns columns cvi def /colors colors cvi def /eclevel eclevel cvi def /mask mask cvi def /databpm colors ln 2 ln div round cvi def /metabpm colors dup 8 gt {pop 8} if ln 2 ln div round cvi def % Parse the input /fn1 -1 def /fncvals << /parse parse /parsefnc parsefnc (FNC1) fn1 >> def /msg barcode fncvals //parseinput exec def /msglen msg length def % Wide array support, as needed {65536 array} stopped { pop /arrayw { dup 65535 idiv 1 add dup array exch 0 exch 1 sub {2 copy 65535 array put 1 add} repeat 1 index 4 1 roll 3 -1 roll 65535 mod array put } def /getw {exch 1 index 65535 idiv get exch 65535 mod get} def /putw {3 1 roll exch 1 index 65535 idiv get exch 65535 mod 3 -1 roll put} def /copyw {exch 0 exch {dup length array copy 3 copy put pop 1 add} forall pop} def } { pop /arrayw {array} def /getw {get} def /putw {put} def /copyw {copy} def } ifelse /addtobits { dup bits j 3 -1 roll putinterval length j add /j exch def } def /tofixedbits { % Zero padded base 2 string (0000000000000) 13 string copy dup 4 -1 roll 2 13 string cvrs dup length 4 index exch sub exch putinterval 0 3 -1 roll getinterval } def % Encode the data using byte mode encoding and terminate with EOM /bits 7 msglen 15 le {4} {17} ifelse add msglen 8 mul add 12 add string def /j 0 def 31 5 tofixedbits addtobits % MS (00) addtobits % S/B msglen 15 le { msglen 4 tofixedbits addtobits } { (0000) addtobits msglen 16 sub 13 tofixedbits addtobits } ifelse 0 1 msglen 1 sub { msg exch get 8 tofixedbits addtobits } for 28 5 tofixedbits addtobits % L/L 31 5 tofixedbits addtobits % MS (11) addtobits % EOM % TODO Cascade /diffside 21 def /sameshape false def /sameecc false def /hasslaves false def % Determine the metrics for a symbol of a given size /metrics { /mc exch def /mr exch def mc mr mul % All modules mc 25 sub 16 idiv 2 add mr 25 sub 16 idiv 2 add mul 4 sub 7 mul % Alignment modules 64 colors 2 copy gt {exch} if pop 2 mul % Palette modules slave {7} {17} ifelse 4 mul % Finder modules % Metadata bits and modules slave not { % Master /metass mr mc eq {0} {1} ifelse def mr mc 2 copy lt {exch} if pop 21 sub 16 idiv [ 0 1 2 2 3 3 3 3 ] exch get /metavf exch def /metavlen metass 0 eq {[2 2 3 4]} {[4 6 8 10]} ifelse metavf get def /metaelen metavf 2 mul 10 add def 7 % II: SS VF MSK SF metavlen add metaelen add % III: V E hasslaves {4 add} if % III: S 2 mul % LDPC metabpm div ceiling cvi dup metabpm mul 6 add /nummetabits exch def 6 add % I: Nc into 6 modules } { % Slave 3 % I: SS SE SF sameshape not {5 add} if % II: V hasslaves {3 add} if % II: S sameecc not { mr mc 2 copy lt {exch} if pop 21 sub 16 idiv [ 10 12 14 14 16 16 16 16 ] exch get add % III: E } if 2 mul % LDPC metabpm div ceiling cvi dup metabpm mul /nummetabits exch def } ifelse dup /nummetamodules exch def add add add sub /numdatamodules exch def /numdatabits numdatamodules databpm mul def } def % Select a symbol size sufficient to carry the message /coderate [ 0.67 0.63 0.57 0.55 0.50 0.43 0.34 0.25 0.20 0.17 0.14 ] eclevel get def /grosslen bits length coderate div ceiling cvi def /snapsize {ceiling cvi 18 sub dup 0 lt {pop 0} if 4 idiv 4 mul 21 add} def rows -1 eq columns -1 eq and { % Square if neither rows or columns fixed /size grosslen sqrt snapsize def { size size metrics grosslen numdatabits le {exit} if /size size 4 add def } loop /rows size def /columns size def } { columns -1 eq rows -1 ne and { % Fixed height /columns grosslen rows div snapsize def { rows columns metrics grosslen numdatabits le {exit} if /columns columns 4 add def } loop } if rows -1 eq columns -1 ne and { % Fixed width /rows grosslen columns div snapsize def { rows columns metrics grosslen numdatabits le {exit} if /rows rows 4 add def } loop } if rows -1 ne columns -1 ne and { % Fixed height and width rows columns metrics } if } ifelse /C numdatabits def /cols columns def % TODO Reject all invalid sizes rows 145 gt cols 145 gt or { /bwipp.jabcodeNoValidSymbol (Maximum length exceeded or invalid content) //raiseerror exec } if % Pick ECC params to maximally fill symbol /min C def 3 1 8 { /i exch def i 1 add 1 9 { /j exch def /dist C j idiv j mul C j idiv i mul sub bits length sub def dist min lt dist 0 ge and { /datawc i def /datawr j def /min dist def } if } for } for % Extend the encoded data to fill the required data length /tmpbits C datawr idiv datawr mul C datawr idiv datawc mul sub string def tmpbits 0 bits putinterval bits length 1 tmpbits length 1 sub { dup 1 sub tmpbits exch get dup 2 mod 0 eq {1 add} {1 sub} ifelse tmpbits 3 1 roll put } for /bits tmpbits def % Avoid 15-bit overflow when multiplying the digits by stealing from the second digit % m = 6364136223846793005 = 0x 5851 f42d 4c95 7f2d /m0 16#5851 16#1 add def /m1 16#f42d 16#10000 sub def /m2 16#4c95 def /m3 16#7f2d def /lcg64_temper { % Multiply seed by 6364136223846793005 then add 1 /p00 m0 s0 mul def /p01 m0 s1 mul def /p02 m0 s2 mul def /p03 m0 s3 mul def /p10 m1 s0 mul def /p11 m1 s1 mul def /p12 m1 s2 mul def /p13 m1 s3 mul def /p20 m2 s0 mul def /p21 m2 s1 mul def /p22 m2 s2 mul def /p23 m2 s3 mul def /p30 m3 s0 mul def /p31 m3 s1 mul def /p32 m3 s2 mul def /p33 m3 s3 mul def /s3 p33 16#10000 mod 1 add def % 1 added here /s2 p32 16#10000 mod p33 16#10000 idiv add p23 16#10000 mod add def /s1 p31 16#10000 mod p32 16#10000 idiv add p22 16#10000 mod p23 16#10000 idiv add add p13 16#10000 mod add def /s0 p30 16#10000 mod p31 16#10000 idiv add p21 16#10000 mod p22 16#10000 idiv add add p12 16#10000 mod p13 16#10000 idiv add add p03 16#10000 mod add def % Simplify carry by making each digit positive by borrowing from more significant digit /s3 s3 16#10000 add def /s2 s2 16#ffff add def /s1 s1 16#ffff add def /s0 s0 16#ffff add def % Carry /s2 s3 16#10000 idiv s2 add def /s3 s3 16#10000 mod def /s1 s2 16#10000 idiv s1 add def /s2 s2 16#10000 mod def /s0 s1 16#10000 idiv s0 add def /s1 s1 16#10000 mod def /s0 s0 16#10000 mod def % Temper most significant 32 bits s0 16#8000 sub 16#10000 mul s1 add 16#80000000 xor 16#ffffffff and dup -11 bitshift xor dup 7 bitshift 16#62d3a980 neg and xor % 0x9D2C5680 - 0x100000000 dup 15 bitshift 16#103a0000 neg and xor % 0xEFC60000 - 0x100000000 16#ffffffff and dup -18 bitshift xor } def /createMatrixA { /nb_pcb wr 4 lt {Pg_sub_block 2 idiv} {Pg_sub_block wr idiv wc mul} ifelse def /offset Pg_sub_block 32 div ceiling cvi def /effwidth offset 32 mul def /matrixA offset nb_pcb mul arrayw def 0 1 offset nb_pcb mul 1 sub {matrixA exch 0 putw} for /permutation Pg_sub_block array def 0 1 Pg_sub_block 1 sub {permutation exch dup put} for 0 1 Pg_sub_block wr idiv 1 sub { /i exch def 0 1 wr 1 sub { /j exch def matrixA i effwidth wr add mul j add 32 idiv 2 copy getw 1 31 i effwidth wr add mul j add 32 mod sub bitshift or putw } for } for % Pseudorandom permutation /s0 16#0000 def /s1 16#0000 def /s2 16#000B def /s3 16#FC39 def % s=785465 1 1 wc 1 sub { /i exch def /off_index Pg_sub_block wr idiv i mul def 0 1 Pg_sub_block 1 sub { /j exch def lcg64_temper dup 0 lt {16#80000000 xor 2147483648.0 add} if 4294967296.0 div Pg_sub_block j sub mul cvi % (float)UINT32_MAX = 65536.0 * 65536 /pos exch def 0 1 Pg_sub_block wr idiv 1 sub { /k exch def matrixA off_index k add offset mul j 32 idiv add 2 copy getw matrixA permutation pos get 32 idiv k offset mul add getw 31 permutation pos get 32 mod sub neg bitshift 1 and 31 j 32 mod sub bitshift or putw } for permutation pos permutation Pg_sub_block 1 sub j sub 2 copy get permutation pos get exch 4 1 roll % p b p a p[a] p[b] -> p b p[a] p a p[b] put put } for } for } def /createMetadataMatrixA { /nb_pcb Pg_sub_block 2 idiv def /offset Pg_sub_block 32 div ceiling cvi def /matrixA offset nb_pcb mul arrayw def 0 1 offset nb_pcb mul 1 sub {matrixA exch 0 putw} for /permutation Pg_sub_block array def 0 1 Pg_sub_block 1 sub {permutation exch dup put} for % Pseudorandom permutation /s0 16#0000 def /s1 16#0000 def /s2 16#0000 def /s3 16#9691 def % s=38545 /nb_once nb_pcb wc div Pg_sub_block mul 3 add cvi nb_pcb idiv def 0 1 nb_pcb 1 sub { /i exch def 0 1 nb_once 1 sub { /j exch def lcg64_temper dup 0 lt {16#80000000 xor 2147483648.0 add} if 4294967296.0 div Pg_sub_block j sub mul cvi % (float)UINT32_MAX = 65536.0 * 65536 /pos exch def matrixA i offset mul permutation pos get 32 idiv add 2 copy getw 1 31 permutation pos get 32 mod sub bitshift or putw permutation pos permutation Pg_sub_block 1 sub j sub 2 copy get permutation pos get exch 4 1 roll % p b p a p[a] p[b] -> p b p[a] p a p[b] put put } for } for } def /GaussJordan { /nb_pcb wr 4 lt {Pg_sub_block 2 idiv} {Pg_sub_block wr idiv wc mul} ifelse def /offset Pg_sub_block 32 div ceiling cvi def /matrixH matrixA dup length array copyw def /column_arrangement [ Pg_sub_block {0} repeat ] def /processed_column [ Pg_sub_block {false} repeat ] def /zero_lines_nb [ nb_pcb {0} repeat ] def /swap_col [ Pg_sub_block 2 mul {0} repeat ] def /zero_lines 0 def /loop0 0 def 0 1 nb_pcb 1 sub { /i exch def /pivot_column Pg_sub_block 1 add def 0 1 Pg_sub_block 1 sub { /j exch def matrixH offset 32 mul i mul j add 32 idiv getw 31 offset 32 mul i mul j add 32 mod sub neg bitshift 1 and 1 eq { /pivot_column j def exit } if } for pivot_column Pg_sub_block lt { processed_column pivot_column true put column_arrangement pivot_column i put pivot_column nb_pcb ge { swap_col loop0 2 mul pivot_column put /loop0 loop0 1 add def } if /off_index pivot_column 32 idiv def /off_index1 pivot_column 32 mod def 0 1 nb_pcb 1 sub { /j exch def i j ne { matrixH off_index j offset mul add getw 31 off_index1 sub neg bitshift 1 and 1 eq { 0 1 offset 1 sub { /k exch def matrixH offset j mul k add 2 copy getw matrixH offset i mul k add getw xor putw } for } if } if } for } { zero_lines_nb zero_lines i put /zero_lines zero_lines 1 add def } ifelse } for /matrix_rank nb_pcb zero_lines sub def /loop2 0 def matrix_rank 1 nb_pcb 1 sub { /i exch def column_arrangement i get 0 gt { 0 1 nb_pcb 1 sub { /j exch def processed_column j get not { column_arrangement j column_arrangement i get put column_arrangement i 0 put processed_column j true put processed_column i false put swap_col loop0 2 mul i put swap_col loop0 2 mul 1 add j put column_arrangement i j put /loop0 loop0 1 add def /loop2 loop2 1 add def exit } if } for } if } for /loop1 0 def 0 1 nb_pcb 1 sub { /kl exch def processed_column kl get not loop1 loop0 loop2 sub lt and { column_arrangement kl column_arrangement swap_col loop1 2 mul get get put processed_column kl true put swap_col loop1 2 mul 1 add kl put /loop1 loop1 1 add def } if } for /loop1 0 def 0 1 nb_pcb 1 sub { /kl exch def processed_column kl get not { column_arrangement kl zero_lines_nb loop1 get put /loop1 loop1 1 add def } if } for 0 1 nb_pcb 1 sub { /i exch def 0 1 offset 1 sub { /j exch def matrixH column_arrangement i get offset mul j add getw matrixA exch i offset mul j add exch putw } for } for /tmp 0 def 0 1 loop0 1 sub { /i exch def 0 1 nb_pcb 1 sub { /j exch def matrixA swap_col i 2 mul get 32 idiv j offset mul add getw 31 swap_col i 2 mul get 32 mod sub neg bitshift 1 and neg tmp xor 1 and tmp xor /tmp exch def matrixA swap_col i 2 mul get 32 idiv j offset mul add 2 copy getw matrixA swap_col i 2 mul 1 add get 32 idiv j offset mul add getw 31 swap_col i 2 mul 1 add get 32 mod sub neg bitshift 1 and neg matrixA swap_col i 2 mul get 32 idiv j offset mul add getw xor 1 31 swap_col i 2 mul get 32 mod sub bitshift and xor putw matrixA swap_col i 2 mul 1 add get 32 idiv j offset mul add 2 copy getw tmp 1 and neg matrixA swap_col i 2 mul 1 add get 32 idiv j offset mul add getw xor 1 31 swap_col i 2 mul 1 add get 32 mod sub bitshift and xor putw } for } for } def /createGeneratorMatrix { /pn Pg_sub_block matrix_rank sub def /offset pn 32 div ceiling cvi def /effwidth offset 32 mul def /offset_cap Pg_sub_block 32 div ceiling cvi def /G offset Pg_sub_block mul arrayw def 0 1 offset Pg_sub_block mul 1 sub { G exch 0 putw } for 0 1 pn 1 sub { /i exch def G Pg_sub_block pn sub i add offset mul i 32 idiv add 2 copy getw 1 31 i 32 mod sub bitshift or putw } for /matrix_index Pg_sub_block pn sub def /loop0 0 def 0 1 Pg_sub_block pn sub effwidth mul 1 sub { /i exch def matrix_index Pg_sub_block ge { /loop0 loop0 1 add def /matrix_index Pg_sub_block pn sub def } if i effwidth mod pn lt { G i 32 idiv 2 copy getw matrixA matrix_index 32 idiv offset_cap loop0 mul add getw 31 matrix_index 32 mod sub neg bitshift 1 and neg G i 32 idiv getw xor 1 31 i 32 mod sub bitshift and xor putw /matrix_index matrix_index 1 add def } if } for } def /ldpc { /wr exch def /wc exch def [ exch {48 sub} forall ] /data exch def /Pn data length def wr -1 ne { % Message data /Pg Pn wr mul wr wc sub div ceiling wr div ceiling wr mul cvi def /nb_sub_blocks Pg 2700 idiv 1 add def /Pg_sub_block Pg nb_sub_blocks idiv wr idiv wr mul def /Pn_sub_block Pg_sub_block wr wc sub mul wr idiv def /nb_sub_blocks Pg Pg_sub_block idiv def /encoding_iterations Pg Pg_sub_block idiv Pn_sub_block nb_sub_blocks mul Pn lt {1 sub} if def createMatrixA } { % Metadata /Pg Pn 2 mul def /nb_sub_blocks 1 def /Pg_sub_block Pg def /Pn_sub_block Pn def /encoding_iterations 1 def createMetadataMatrixA } ifelse GaussJordan createGeneratorMatrix /ecc_encoded_data Pg array def /offset Pg_sub_block matrix_rank sub 32 div ceiling cvi def 0 1 encoding_iterations 1 sub { /iter exch def 0 1 Pg_sub_block 1 sub { /i exch def /temp 0 def /loop0 0 def /offset_index offset i mul def iter Pn_sub_block mul 1 iter 1 add Pn_sub_block mul 1 sub { data exch get G offset_index loop0 32 idiv add getw 31 loop0 32 mod sub neg bitshift 1 and and /temp exch temp xor def /loop0 loop0 1 add def } for ecc_encoded_data i iter Pg_sub_block mul add temp put } for } for encoding_iterations nb_sub_blocks ne { /start encoding_iterations Pn_sub_block mul def /last_index encoding_iterations Pg_sub_block mul def /Pg_sub_block Pg encoding_iterations Pg_sub_block mul sub def /Pn_sub_block Pg_sub_block wr wc sub mul wr idiv def createMatrixA GaussJordan createGeneratorMatrix /offset Pg_sub_block matrix_rank sub 32 div ceiling cvi def 0 1 Pg_sub_block 1 sub { /i exch def /temp 0 def /loop0 0 def /offset_index offset i mul def start 1 Pn 1 sub { data exch get G offset_index loop0 32 idiv add getw 31 loop0 32 mod sub neg bitshift 1 and and /temp exch temp xor def /loop0 loop0 1 add def } for ecc_encoded_data i last_index add temp put } for } if /out Pg string def 0 1 Pg 1 sub { dup ecc_encoded_data exch get out 3 1 roll 48 add put } for out } def % Replace data bitstream with LDPC error correction stream /bits bits datawc datawr ldpc def % Interleave via pseudorandom permutation /s0 16#0000 def /s1 16#0000 def /s2 16#0003 def /s3 16#75C7 def % s=226759 bits length 1 sub -1 1 { /l exch def lcg64_temper dup 0 lt {16#80000000 xor 2147483648.0 add} if 4294967296.0 div l 1 add mul cvi % (float)UINT32_MAX = 65536.0 * 65536 /r exch def bits l get bits r get bits exch l exch put bits exch r exch put } for % Append padding bits to the interleaved, ECC encoded data up to capacity /tmpbits C string def tmpbits 0 bits putinterval /j bits length def C j sub 1 add 2 idiv { tmpbits j 48 put j 1 add C lt {tmpbits j 1 add 49 put} if /j j 2 add def } repeat /bits tmpbits def % Define the color palette colors 4 eq { /bi 0 def /gi 1 def /mi 2 def /yi 3 def /ki 4 def /wi 5 def % Extended /palette << bi (0000FF) gi (00FF00) mi (FF00FF) yi (FFFF00) ki (000000) wi (FFFFFF) >> def /metacolorindex [bi gi mi yi] def /palettelayout [bi gi mi yi] def } { /rgbres << % r g b Graduations 8 [ 2 2 2 ] 16 [ 4 2 2 ] 32 [ 4 4 2 ] 64 [ 4 4 4 ] 128 [ 8 4 4 ] 256 [ 8 8 4 ] >> colors get def /rvals rgbres 0 get [ exch 1 sub dup 0 exch 1 exch {255 2 index div mul round cvi exch} for pop ] def /gvals rgbres 1 get [ exch 1 sub dup 0 exch 1 exch {255 2 index div mul round cvi exch} for pop ] def /bvals rgbres 2 get [ exch 1 sub dup 0 exch 1 exch {255 2 index div mul round cvi exch} for pop ] def /palette colors dict def /palettelayout 64 colors 2 copy gt {exch} if pop array def /i 0 def /j 8 def rvals { /r exch def gvals { /g exch def bvals { /b exch def r 16 bitshift g 8 bitshift or b or (000000) 6 string copy dup 3 -1 roll 16 6 string cvrs dup length 6 exch sub exch putinterval false 1 index (000000) eq {/ki i def pop true} if 1 index (0000FF) eq {/bi i def pop true} if 1 index (00FF00) eq {/gi i def pop true} if 1 index (00FFFF) eq {/ci i def pop true} if 1 index (FF0000) eq {/ri i def pop true} if 1 index (FF00FF) eq {/mi i def pop true} if 1 index (FFFF00) eq {/yi i def pop true} if 1 index (FFFFFF) eq {/wi i def pop true} if not { colors 64 le colors 128 eq r 0 eq r 73 eq or r 182 eq or r 255 eq or and colors 256 eq r 0 eq r 73 eq or r 182 eq or r 255 eq or and g 0 eq g 73 eq or g 182 eq or g 255 eq or and or or { % RGB space is sampled into 64 slots palettelayout j i put /j j 1 add def } if } if palette exch i exch put /i i 1 add def } forall } forall } forall palettelayout 0 [ki bi gi ci ri mi yi wi] putinterval /metacolorindex [ki bi gi ci ri mi yi wi] def } ifelse % Create the pixel map /pixs [rows cols mul {-1} repeat] def /jmv {cols mul add} def % Finder patterns slave not { % Master alignment pattern /fpat [ [ 1 1 1 0 0 ] [ 1 2 2 0 0 ] [ 1 2 1 2 1 ] [ 0 0 2 2 1 ] [ 0 0 1 1 1 ] ] def /fmap [ [ -1 bi yi ] % UL [ -1 yi bi ] % LL [ -1 gi mi ] % UR [ -1 mi gi ] % LR ] def } { % Slave alignment pattern /fpat [ [ 0 0 0 0 0 ] [ 0 2 2 0 0 ] [ 0 2 1 2 0 ] [ 0 0 2 2 0 ] [ 0 0 0 0 0 ] ] def /fmap [ [ -1 ki wi ] % UL [ -1 ki wi ] % LL [ -1 ki wi ] % UR [ -1 ki wi ] % LR ] def } ifelse 0 1 4 { /y exch def 0 1 4 { /x exch def /fpb fpat y get x get def pixs x 1 add y 1 add jmv fmap 0 get fpb get put pixs x 1 add rows y sub 2 sub jmv fmap 1 get fpb get put pixs x cols add 6 sub y 1 add jmv fmap 2 get fpb get put pixs x cols add 6 sub rows y sub 2 sub jmv fmap 3 get fpb get put } for } for % Alignment patterns /algnpat0 [ [ ki ki -1 ] [ ki wi ki ] [ -1 ki ki ] ] def /algnpat1 [ [ -1 ki ki ] [ ki wi ki ] [ ki ki -1 ] ] def /num cols 16 div round cvi 1 sub def /algnrpos [ 3 17 ] def num 0 gt { /algnrpos [ 0 1 num {cols 7 sub num div mul cvi 3 add} for ] def } if /num rows 16 div round cvi 1 sub def /algncpos [ 3 17 ] def num 0 gt { /algncpos [ 0 1 num {rows 7 sub num div mul cvi 3 add} for ] def } if /putalgnpat { /pp exch def /py exch def /px exch def 0 1 2 { /pb exch def 0 1 2 { /pa exch def pixs px pa add py pb add jmv pp pb get pa get put } for } for } def 0 1 algncpos length 1 sub { /j exch def /y algncpos j get def 0 1 algnrpos length 1 sub { /i exch def /x algnrpos i get def pixs x y jmv get -1 eq { x 1 sub y 1 sub i j add 2 mod 0 eq {algnpat0} {algnpat1} ifelse putalgnpat } if } for } for slave not { [ % Expanded to [ x y ] [ x -y ] [ -x -y ] [ x -y ] % Metadata and palette [ 6 1 ] [ 6 2 ] [ 6 3 ] [ 6 4 ] [ 6 5 ] [ 6 6 ] [ 5 6 ] [ 4 6 ] [ 3 6 ] [ 2 6 ] % 0-39 [ 1 6 ] [ 7 1 ] [ 7 2 ] [ 7 3 ] [ 7 4 ] [ 7 5 ] [ 7 6 ] [ 7 7 ] [ 6 7 ] [ 5 7 ] % 40-79 % Palette only [ 4 7 ] [ 3 7 ] [ 2 7 ] [ 1 7 ] [ 8 1 ] [ 8 2 ] [ 8 3 ] [ 8 4 ] % 16-31 [ 8 5 ] [ 8 6 ] [ 8 7 ] [ 8 8 ] [ 7 8 ] [ 6 8 ] [ 5 8 ] [ 4 8 ] % 32-47 [ 3 8 ] [ 2 8 ] [ 1 8 ] [ 9 1 ] [ 9 2 ] [ 9 3 ] [ 9 4 ] [ 9 5 ] % 48-63 ] { aload pop /y exch def /x exch def [ x y ] [ x neg y ] [ x neg y neg ] [ x y neg ] } forall 176 array astore /metadatamap exch def /palettemap1 [ [ 4 1 ] [ 4 2 ] [ 5 1 ] [ 5 2 ] [ 2 4 ] [ 2 5 ] [ 1 4 ] [ 1 5 ] % 0-7 [ -2 1 ] [ -2 2 ] [ -1 1 ] [ -1 2 ] [ -4 4 ] [ -4 5 ] [ -5 4 ] [ -5 5 ] % 8-15 ] def /palettemap2 [ [ -4 -5 ] [ -4 -4 ] [ -5 -5 ] [ -5 -4 ] [ -2 -2 ] [ -2 -1 ] [ -1 -2 ] [ -1 -1 ] % 0-7 [ 2 -5 ] [ 2 -4 ] [ 1 -5 ] [ 1 -4 ] [ 4 -2 ] [ 4 -1 ] [ 5 -2 ] [ 5 -1 ] % 8-15 ] def } { % Slave % TODO Cascade /metadatamap [ 1 1 19 { /i exch def [ 0 i ] [ 1 i ] } for 5 1 12 { /i exch def [ 2 i ] [ 3 i ] } for ] def /palettemap1 [ 5 1 12 { [ exch 4 exch ] } for 12 -1 5 { [ exch 5 exch ] } for 5 1 12 { [ exch 6 exch ] } for 12 -1 5 { [ exch 7 exch ] } for ] def /palettemap2 [ palettemap1 {[ exch aload pop neg exch neg exch]} forall ] def } ifelse % Normalise wrapping metadatamap { dup 0 get dup 0 lt {cols add 1 sub 1 index 0 3 -1 roll put} {pop} ifelse dup 1 get dup 0 lt {rows add 1 sub 1 index 1 3 -1 roll put} {pop} ifelse pop } forall palettemap1 { dup 0 get dup 0 lt {cols add 1 sub 1 index 0 3 -1 roll put} {pop} ifelse dup 1 get dup 0 lt {rows add 1 sub 1 index 1 3 -1 roll put} {pop} ifelse pop } forall palettemap2 { dup 0 get dup 0 lt {cols add 1 sub 1 index 0 3 -1 roll put} {pop} ifelse dup 1 get dup 0 lt {rows add 1 sub 1 index 1 3 -1 roll put} {pop} ifelse pop } forall % Reserve the metadata modules to be placed once mask is determined 0 1 nummetamodules 1 sub { pixs exch metadatamap exch get aload pop jmv 0 put } for % Place the color palette slave not { % Up to first 16 colors into finder slots 0 1 16 colors 2 copy gt {exch} if pop 1 sub { /i exch def palettelayout i get dup pixs exch palettemap1 i get aload pop jmv exch put pixs exch palettemap2 i get aload pop jmv exch put } for /i 16 def } { /i 0 def } ifelse % Continue palette placement after end of metadata modules /j nummetamodules def i 2 palettelayout length 1 sub { /i exch def palettelayout i get dup pixs exch metadatamap j get aload pop jmv exch put pixs exch metadatamap j 2 add get aload pop jmv exch put palettelayout i 1 add get dup pixs exch metadatamap j 1 add get aload pop jmv exch put pixs exch metadatamap j 3 add get aload pop jmv exch put /j j 4 add def } for % Calculate the mask patterns applied to data modules /maskfuncs [ {add colors mod} bind {pop colors mod} bind {exch pop colors mod} bind {3 idiv exch 2 idiv add colors mod} bind {2 idiv exch 3 idiv add colors mod} bind {add dup 2 idiv exch 3 idiv add colors mod} bind {2 copy exch dup mul mul 7 mod 3 1 roll exch dup mul add 2 mul 19 mod add colors mod} bind {2 copy dup mul mul 5 mod 3 1 roll dup mul exch 2 mul add 13 mod add colors mod} bind ] def mask -1 ne { % User specifies a mask /maskfuncs [maskfuncs mask get] def /bestmaskval mask def } if /masks maskfuncs length array def 0 1 masks length 1 sub { /m exch def /mask rows cols mul array def 0 1 rows 1 sub { /j exch def 0 1 cols 1 sub { /i exch def pixs i j jmv get -1 eq {i j maskfuncs m get exec} {0} ifelse mask i j jmv 3 -1 roll put } for } for masks m mask put } for % Walk the symbol placing the data bitstream /posx 0 def /posy 0 def /i 0 def { % loop posx cols eq {exit} if pixs posx posy jmv get -1 eq { bits i databpm getinterval 0 exch {48 sub add 2 mul} forall 2 idiv pixs posx posy jmv 3 -1 roll put /i i databpm add def } if /posy posy 1 add def posy rows eq {/posy 0 def /posx posx 1 add def} if } loop % Evaluate runlength encoded rows or columns in full symbols /evalrle { /scrle exch def /scr1 0 def /scr3 0 def 0 2 scrle length 2 sub { /j exch def scrle j 1 add get -1 ne { % Skip over voids % Detect runs of 5 or more like modules, except in voids scrle j get dup 5 ge {2 sub /scr1 exch scr1 add def} {pop} ifelse % Detect finder pattern j 4 ge j scrle length 5 sub le and { scrle j 4 sub 10 getinterval % n1 c1 ... n5 c5 dup {1 eq} forall pop 4 {exch pop and} repeat { % n{1-5}=1 mark exch aload pop 8 index dup 6 index eq exch 2 index eq and % c1=c3=c5 7 index 4 index eq and { % c2=c4 2 index /c4 exch def /c5 exch def c4 bi eq c5 yi eq and c4 yi eq c5 bi eq and c4 gi eq c5 mi eq and c4 mi eq c5 gi eq and or or or {/scr3 scr3 100 add def} if } if cleartomark } {pop} ifelse } if } if } for scr1 scr3 } def /evalmask { /sym exch def /n1 0 def /n2 0 def /n3 0 def /rle rows cols 2 copy lt {exch} if pop 2 mul 2 add array def /lastpairs cols array def /thispairs cols array def % Runlength encode and evaluate each column 0 1 cols 1 sub { /i exch def mark 0 -1 i cols rows cols mul 1 sub { sym exch get 2 copy eq {pop exch 1 add exch} {1 exch} ifelse } for rle 0 counttomark 2 sub getinterval astore evalrle n3 add /n3 exch def n1 add /n1 exch def pop } for 0 1 rows 1 sub { /i exch def % Runlength encode and evaluate each row /symrow sym i cols mul cols getinterval def mark 0 -1 symrow { 2 copy eq {pop exch 1 add exch} {1 exch} ifelse } forall rle 0 counttomark 2 sub getinterval astore evalrle n3 add /n3 exch def n1 add /n1 exch def pop % Count and score same coloured blocks /lastpairs thispairs /thispairs lastpairs def def -1 symrow {exch 2 copy ne {pop -1 exch} if} forall pop thispairs astore pop i 0 gt { mark lastpairs aload pop thispairs aload pop n2 cols { exch dup -1 ne { cols 1 add index eq {3 add} if } {pop} ifelse } repeat /n2 exch def cleartomark } if } for n1 n2 add n3 add } def % Evaluate the masked symbols to find the most suitable /bestscore 999999999 def 0 1 masks length 1 sub { /m exch def /masksym rows cols mul array def 0 1 rows cols mul 1 sub { /i exch def masksym i pixs i get masks m get i get xor put } for masks length 1 ne { masksym evalmask /score exch def score bestscore lt { /bestsym masksym def /bestmaskval m def /bestscore score def } if } { /bestsym masksym def } ifelse } for /pixs bestsym def /metamask bestmaskval def % Derive the metadata bitstream /addtometapart { dup metapart p 3 -1 roll putinterval length p add /p exch def } def /addtometabits { dup metabits q 3 -1 roll putinterval length q add /q exch def } def /metapart 40 string def /metabits nummetabits string def /p 0 def /q 0 def slave not { % Part I colors ln 2 ln div round cvi 1 sub 3 tofixedbits addtometapart % Nc metapart 0 p getinterval 2 -1 ldpc addtometabits /p 0 def % Part II metass 1 tofixedbits addtometapart % SS metavf 2 tofixedbits addtometapart % VF metamask 3 tofixedbits addtometapart % MSK hasslaves {(1)} {(0)} ifelse addtometapart % SF metapart 0 p getinterval 2 -1 ldpc addtometabits /p 0 def % Part III metass 0 eq { % Square cols 17 sub 4 idiv [ 0 4 8 16 ] metavf get sub 1 sub metavlen tofixedbits addtometapart % V } { % Rectangular cols 17 sub 4 idiv 1 sub metavlen 2 idiv tofixedbits addtometapart % V1 rows 17 sub 4 idiv 1 sub metavlen 2 idiv tofixedbits addtometapart % V2 } ifelse datawc 3 sub metaelen 2 idiv tofixedbits addtometapart % E1 datawr 4 sub metaelen 2 idiv tofixedbits addtometapart % E2 hasslaves { % TODO Cascading 0 4 tofixedbits addtometapart % S } if metapart 0 p getinterval 2 -1 ldpc addtometabits /p 0 def } { % slave % Part I sameshape {0} {1} ifelse 1 tofixedbits addtometapart % SS sameecc {0} {1} ifelse 1 tofixedbits addtometapart % SE hasslaves {1} {0} ifelse 1 tofixedbits addtometapart % SF metapart 0 p getinterval 2 -1 ldpc addtometabits /p 0 def % Part II sameshape not { diffside 17 sub 4 idiv 1 sub 5 tofixedbits addtometapart % V } if hasslaves { % TODO Cascading 0 3 tofixedbits addtometapart % S } if metapart 0 p getinterval 2 -1 ldpc addtometabits /p 0 def % Part III sameecc not { datawc 3 sub metaelen 2 idiv tofixedbits addtometapart % E1 datawr 4 sub metaelen 2 idiv tofixedbits addtometapart % E2 } if metapart 0 p getinterval 2 -1 ldpc addtometabits /p 0 def } ifelse q 1 nummetabits 1 sub { % Pad with 0s metabits exch 48 put } for % Place the metadata /i 0 def /j 0 def slave not { % Two-color encoding of Part I (Nc) in master symbols metabits i 6 getinterval { colors 4 eq {[bi yi]} {[ki wi]} ifelse exch 48 sub get pixs metadatamap j get aload pop jmv 3 -1 roll put /j j 1 add def } forall /i i 6 add def } if nummetabits i sub metabpm idiv { metabits i metabpm getinterval 0 exch {48 sub add 2 mul} forall 2 idiv metacolorindex exch get pixs metadatamap j get aload pop jmv 3 -1 roll put /i i metabpm add def /j j 1 add def } repeat << /ren //renmatrix /pixs pixs /pixx cols /pixy rows /colormap palette /height rows 2 mul 72 div /width cols 2 mul 72 div /opt options >> dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /jabcode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER jabcode-- % --BEGIN ENCODER gs1-cc-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renmatrix micropdf417 pdf417-- % --DESC: GS1 Composite 2D Component % --EXAM: (01)95012345678903(3103)000123 % --EXOP: ccversion=b cccolumns=4 % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp gs1-cc 0.0 2022082100 222469 205288 %%BeginData: 639 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /loadctx dup /uk.co.terryburton.bwipp findresource put dup /unloadctx dup /uk.co.terryburton.bwipp findresource put dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /pdf417 dup /uk.co.terryburton.bwipp findresource put dup /micropdf417 dup /uk.co.terryburton.bwipp findresource put begin /gs1-cc { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /parse false def /dontlint false def /lintreqs false def /dontdraw false def /ccversion (a) def /cccolumns -1 def /lintype () def /linwidth -1 def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall /cccolumns cccolumns cvi def /linwidth linwidth cvi def /gs1-cc //loadctx exec % Select columns based on linear type cccolumns -1 eq { << /ean13 4 /upca 4 /ean8 3 /upce 2 /gs1-128 ccversion (c) ne {4} {linwidth 52 sub 17 idiv} ifelse /databaromni 4 /databarstacked 2 /databarstackedomni 2 /databartruncated 4 /databarlimited 3 /databarexpanded 4 /databarexpandedstacked 4 >> lintype get /cccolumns exch def } if barcode /ai //gs1process exec /fncs exch def /vals exch def /ais exch def % Method selection /isupper {dup 65 ge exch 90 le and} def % A-Z /isnum0 {dup 48 ge exch 57 le and} def % 0-9 /isnum1 {dup 49 ge exch 57 le and} def % 1-9 { % common exit % (10/11/17)... ais length 1 ge { ais 0 get (10) eq ais 0 get (11) eq or ais 0 get (17) eq or { -1 (10) exit } if } if % (90){0-3 digits not starting 0}{upper alpha}... ais length 1 ge { ais 0 get (90) eq { /v vals 0 get def v length 1 ge { v 0 get isupper { 0 (11) exit } if } if v length 2 ge { v 0 get isnum1 v 1 get isupper and { 1 (11) exit } if } if v length 3 ge { v 0 get isnum1 v 1 get isnum0 and v 2 get isupper and { 2 (11) exit } if } if v length 4 ge { v 0 get isnum1 v 1 get isnum0 and v 2 get isnum0 and v 3 get isupper and { 3 (11) exit } if } if } if } if % Freeform -1 (0) exit } loop /method exch def /npre exch def /tobin { string dup length 1 sub 0 exch 1 exch {1 index exch 48 put} for dup 3 -1 roll 2 2 index length string cvrs dup length 2 index length exch sub exch putinterval } def { /fnc1 -1 def /lnumeric -2 def /lalphanumeric -3 def /liso646 -4 def /alpha << 65 1 90 {dup 65 sub 5 tobin} for 48 1 57 {dup 4 add 6 tobin} for fnc1 (11111) >> def /numeric << 0 1 119 { dup (00) 2 string copy dup 3 -1 roll 11 2 string cvrs dup length 2 exch sub exch putinterval dup 0 get 65 eq {dup 0 94 put} if dup 1 get 65 eq {dup 1 94 put} if exch 8 add (0000000) 7 string copy dup 3 -1 roll 2 7 string cvrs dup length 7 exch sub exch putinterval } for lalphanumeric (0000) >> def /alphanumeric << 48 1 57 {dup 43 sub 5 tobin} for fnc1 (01111) 65 1 90 {dup 33 sub 6 tobin} for 42 (111010) 44 1 47 {dup 15 add 6 tobin} for lnumeric (000) liso646 (00100) >> def /iso646 << 48 1 57 {dup 43 sub 5 tobin} for fnc1 (01111) 65 1 90 {dup 1 sub 7 tobin} for 97 1 122 {dup 7 sub 7 tobin} for 33 (11101000) 34 (11101001) 37 1 47 {dup 197 add 8 tobin} for 58 1 63 {dup 187 add 8 tobin} for 95 (11111011) 32 (11111100) lnumeric (000) lalphanumeric (00100) >> def } ctxdef method (10) eq { % TODO: fixme ais 0 get (11) eq ais 0 get (17) eq or { vals 0 get dup 0 2 getinterval cvi 384 mul exch dup 2 2 getinterval cvi 1 sub 32 mul exch 4 2 getinterval cvi add add (0000000000000000) 16 string copy dup 3 -1 roll 2 16 string cvrs dup length 16 exch sub exch putinterval [ 1 0 4 -1 roll {48 sub} forall ais 0 get (11) eq {0} {1} ifelse ] /cdf exch def /ais ais 1 ais length 1 sub getinterval def /vals vals 1 vals length 1 sub getinterval def /fncs fncs 1 fncs length 1 sub getinterval def } { /cdf [ 1 0 1 1 ] def } ifelse ais length 0 ne { ais 0 get (10) eq { /gpf [ vals 0 get {} forall ] def ais length 1 gt {/gpf [ gpf aload pop fnc1 ] def} if % TODO: check /ais ais 1 ais length 1 sub getinterval def /vals vals 1 vals length 1 sub getinterval def /fncs fncs 1 fncs length 1 sub getinterval def } { /gpf [fnc1] def % TODO: check } ifelse } { /cdf [ cdf aload pop 0 0 0 0 0 1 1 1 1 ] def /gpf [] def } ifelse /mode (numeric) def } if method (11) eq { /cdf [ 1 1 ] def /ai90 vals 0 get def npre 1 add ai90 length ne { ai90 npre 1 add ai90 length npre sub 1 sub getinterval } { () } ifelse /ai90rem exch def /nalpha 0 ai90rem {dup 65 ge exch 90 le and {1 add} if} forall def /nnums 0 ai90rem {dup 48 ge exch 57 le and {1 add} if} forall def /mode nalpha nnums gt {(alpha)} { nalpha 0 eq {(numeric)} {(alphanumeric)} ifelse } ifelse def nalpha nnums add ai90rem length ne {/mode (alphanumeric) def} if /cdf [ cdf aload pop mode (alphanumeric) eq {0} if mode (numeric) eq {1 0} if mode (alpha) eq {1 1} if ] def /ais1 ais length 1 gt {ais 1 get} {-1} ifelse def /vals1 vals length 1 gt {vals 1 get} {-1} ifelse def ais1 (21) eq ais1 (8004) eq or { /cdf [ cdf aload pop ais1 (21) eq {1 0} {1 1} ifelse ] def } { /cdf [ cdf aload pop 0 ] def } ifelse /nval npre 0 ne {ai90 0 npre getinterval cvi} {0} ifelse def (BDHIJKLNPQRSTVXZ) ai90 npre 1 getinterval search { length exch pop exch pop /aval exch def } { pop /aval -1 def } ifelse nval 31 lt aval -1 ne and { (00000) 5 string copy dup nval 2 5 string cvrs dup length 5 exch sub exch putinterval [ exch {48 sub} forall ] /nbits exch def (0000) 4 string copy dup aval 2 4 string cvrs dup length 4 exch sub exch putinterval [ exch {48 sub} forall ] /abits exch def /cdf [ cdf aload pop nbits aload pop abits aload pop ] def } { (0000000000) 10 string copy dup nval 2 10 string cvrs dup length 10 exch sub exch putinterval [ exch {48 sub} forall ] /nbits exch def (00000) 5 string copy dup ai90 npre get 65 sub 2 5 string cvrs dup length 5 exch sub exch putinterval [ exch {48 sub} forall ] /abits exch def /cdf [ cdf aload pop 1 1 1 1 1 nbits aload pop abits aload pop ] def } ifelse mode (alpha) ne { /gpf [ ai90rem {} forall ais length 1 gt {fnc1} if ] def } { /in [ ai90rem {} forall ais length 1 gt {fnc1} if ] def /out in length 6 mul array def /j 0 def 0 1 in length 1 sub { in exch get alpha exch get dup [ exch {48 sub} forall ] out exch j exch putinterval length j add /j exch def } for /cdf [ cdf aload pop out 0 j getinterval aload pop ] def /gpf [] def ais length 1 gt {/mode (numeric) def} if } ifelse /ais ais 1 ais length 1 sub getinterval def /vals vals 1 vals length 1 sub getinterval def /fncs fncs 1 fncs length 1 sub getinterval def ais length 0 ne { ais1 (21) eq ais1 (8004) eq or { /gpf [ gpf aload pop vals1 {} forall ] def /ais ais 1 ais length 1 sub getinterval def /vals vals 1 vals length 1 sub getinterval def /fncs fncs 1 fncs length 1 sub getinterval def ais length 0 ne {/gpf [gpf aload pop fnc1] def} if } if } if } if method (0) eq { /cdf [ 0 ] def /gpf [] def /mode (numeric) def } if % Append the remaining AI data 0 1 ais length 1 sub { /i exch def /ai ais i get def /val vals i get def gpf length ai length add val length add array dup 0 gpf putinterval dup gpf length ai [ exch {} forall ] putinterval dup gpf length ai length add val [ exch {} forall ] putinterval /gpf exch def i ais length 1 sub ne fncs i get and { % Append FNC1 gpf length 1 add array dup 0 gpf putinterval dup gpf length fnc1 put /gpf exch def } if } for % Calculate the number of bits remaining to the next valid symbol size { /bitcapsmaps << /a [ [167 138 118 108 88 78 59] [167 138 118 98 78] [197 167 138 108 78] ] /b [ [ 336 296 256 208 160 104 56] [ 768 648 536 416 304 208 152 112 72 32] [1184 1016 840 672 496 352 264 208 152 96 56] ] >> def } ctxdef /rembits { /used exch def ccversion (c) ne { % cc-a or cc-b /bitcaps bitcapsmaps ccversion get cccolumns 2 sub get def -1 bitcaps {dup used ge {exch} if pop} forall dup -1 ne {used sub} if } { << /c -1 >> ccversion get pop % Assert cc-c /m used 8 div ceiling cvi dup 6 idiv 5 mul exch 6 mod add def m 40 le {8 } if m 41 ge m 160 le and {16} if m 161 ge m 320 le and {32} if m 321 ge m 833 le and {64} if % 833 = 900 - 3 - 64, where 900 = 30 rows x 30 cols limit m 834 ge {32} if % Reduce to meet advertised "up to 2361 digits" (allows max 2372) within 900 limit /eccws exch def /m m eccws add 3 add def cccolumns 30 gt { /cccolumns 30 def } if { % Loop until rows <= 30 or columns >= 30 (GS1 General Specifications 5.11.2.3) m cccolumns div ceiling cvi 30 le cccolumns 30 ge or {exit} if /cccolumns cccolumns 1 add def } loop /r m cccolumns div ceiling cvi def r 3 lt { /r 3 def } if % GS1 General Specifications 5.11.2.3 "3 to 30 rows" /tgt cccolumns r mul eccws sub 3 sub dup 5 idiv 6 mul exch 5 mod add 8 mul def used 8304 le {tgt used sub} {-1} ifelse } ifelse dup -1 eq { % Upgrade CC-A to CC-B or CC-B to CC-C to fit pop ccversion (a) eq { /ccversion (b) def } { ccversion (b) eq lintype (gs1-128) eq and { /ccversion (c) def /cccolumns linwidth 52 sub 17 idiv def } { /ccversion -1 def } ifelse } ifelse used rembits } if } def /encode { dup /raw ne {exch get} {pop} ifelse [ exch {48 sub} forall ] dup length exch gpfenc exch j exch putinterval /j exch j add def } def % Pre-compute alphanumeric and numeric runlengths and position of next ISO646-only characters /numericruns [ gpf length {0} repeat 0 -1 ] def /alphanumericruns [ gpf length {0} repeat 0 ] def /nextiso646only [ gpf length {0} repeat 9999 ] def gpf length 1 sub -1 0 { /i exch def gpf i get (00) 2 string copy dup 0 gpf i get dup fnc1 eq {pop 94} if put i gpf length 1 sub lt {dup 1 gpf i 1 add get dup fnc1 eq {pop 94} if put} if numeric exch known { numericruns i numericruns i 2 add get 2 add put } { numericruns i 0 put } ifelse dup alphanumeric exch known { alphanumericruns i alphanumericruns i 1 add get 1 add put } { alphanumericruns i 0 put } ifelse dup iso646 exch known exch alphanumeric exch known not and { nextiso646only i 0 put } { nextiso646only i nextiso646only i 1 add get 1 add put } ifelse } for % Encode the general purpose field /gpfenc 8304 array def % 8304 = (865 / 5) * 6 * 8, where 865 = 900 - 3 - 32 /i 0 def /j 0 def { % loop i gpf length eq {exit} if { % not a loop but common exit point mode (numeric) eq { i gpf length 2 sub le { 2 string dup 0 gpf i get dup fnc1 eq {pop 94} if put dup 1 gpf i 1 add get dup fnc1 eq {pop 94} if put dup numeric exch known { numeric encode /i i 2 add def exit } if pop lalphanumeric numeric encode /mode (alphanumeric) def exit } { gpf i get dup 48 lt exch 57 gt or { lalphanumeric numeric encode /mode (alphanumeric) def exit } if /rem cdf length j add rembits def rem 4 ge rem 6 le and { % C1 + 1 into 4 to 6 bits (000000) 6 string copy 0 rem getinterval dup gpf i get 47 sub 2 4 string cvrs dup length 4 exch sub exch putinterval /raw encode /i i 1 add def exit } { % C1.FNC1 2 string dup 0 gpf i get put dup 1 94 put numeric encode /i i 1 add def exit } ifelse } ifelse } if mode (alphanumeric) eq { gpf i get fnc1 eq { fnc1 alphanumeric encode /mode (numeric) def /i i 1 add def exit } if gpf i get dup iso646 exch known exch alphanumeric exch known not and { liso646 alphanumeric encode /mode (iso646) def exit } if numericruns i get 6 ge { lnumeric alphanumeric encode /mode (numeric) def exit } if numericruns i get dup 4 ge exch i add gpf length eq and { lnumeric alphanumeric encode /mode (numeric) def exit } if gpf i get alphanumeric encode /i i 1 add def exit } if mode (iso646) eq { gpf i get fnc1 eq { fnc1 iso646 encode /mode (numeric) def /i i 1 add def exit } if numericruns i get 4 ge nextiso646only i get 10 ge and { lnumeric iso646 encode /mode (numeric) def exit } if alphanumericruns i get 5 ge nextiso646only i get 10 ge and { lalphanumeric iso646 encode /mode (alphanumeric) def exit } if gpf i get iso646 encode /i i 1 add def exit } if } loop } loop /gpf gpfenc 0 j getinterval def % Create pad /pad cdf length gpf length add rembits array def pad length 0 gt { 0 5 pad length 1 sub { % Fill with 00100 /i exch def pad i [ 0 0 1 0 0 ] 0 pad length i sub 5 2 copy gt {exch} if pop getinterval putinterval } for mode (numeric) eq { % Prefix shift from numeric to ASCII /pad [ 0 0 0 0 pad aload pop ] 0 pad length getinterval def } if mode (alpha) eq { % Prefix FNC1 + shift from numeric to ASCII /pad [ 1 1 1 1 1 0 0 0 0 pad aload pop ] 0 pad length getinterval def } if } if % Concatenate fields /bits [ cdf aload pop gpf aload pop pad aload pop ] def { /pwr928 [ [ 0 0 0 0 0 0 1 ] 68 {7 array} repeat ] def 1 1 68 { /j exch def /v 0 def 6 -1 1 { /i exch def /v pwr928 j 1 sub get i get 2 mul v 928 idiv add def pwr928 j get i v 928 mod put } for pwr928 j get 0 pwr928 j 1 sub get 0 get 2 mul v 928 idiv add put } for } ctxdef ccversion (a) eq { /cws [ 28 {0} repeat ] def /b 0 def /c 0 def { % loop b bits length eq {exit} if /bs bits b 69 bits length b sub 2 copy gt {exch} if pop getinterval def /bsl bs length def /cs cws c bsl 10 idiv 1 add getinterval def /csl cs length def 0 1 bsl 1 sub { /i exch def 0 1 csl 1 sub { /j exch def cs j 2 copy get pwr928 i get j 7 add csl sub get bs bsl i sub 1 sub get mul add put } for } for csl 1 sub -1 1 { /i exch def cs i 1 sub 2 copy get cs i get 928 idiv add put cs i 2 copy get 928 mod put } for /b b bsl add def /c c csl add def } loop /cws cws 0 c getinterval def /barcode cws length 4 mul string def 0 1 cws length 1 sub { /i exch def (^ ) 4 string copy dup cws i get 10 4 string cvrs dup length 4 exch sub exch putinterval barcode i 4 mul 3 -1 roll putinterval } for options (parse) undef options (dontdraw) true put options (cca) true put options (columns) cccolumns put /args barcode options //micropdf417 exec def } if ccversion (b) eq { /barcode bits length 8 idiv string def 0 1 barcode length 1 sub { /i exch def bits i 8 mul 8 getinterval 0 exch {add 2 mul} forall 2 idiv barcode exch i exch put } for options (parse) undef options (dontdraw) true put options (ccb) true put options (columns) cccolumns put /args barcode options //micropdf417 exec def } if ccversion (c) eq { /barcode bits length 8 idiv string def 0 1 barcode length 1 sub { /i exch def bits i 8 mul 8 getinterval 0 exch {add 2 mul} forall 2 idiv barcode exch i exch put } for options (parse) undef options (dontdraw) true put options (ccc) true put options (columns) cccolumns put options (eclevel) eccws ln 2 ln div cvi 1 sub put /args barcode options //pdf417 exec def } if args dontdraw not //renmatrix if //unloadctx exec end } [/barcode] {null def} forall bind def /gs1-cc dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER gs1-cc-- % --BEGIN ENCODER ean13composite-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear renmatrix ean5 ean2 ean13 micropdf417 pdf417 gs1-cc-- % --DESC: EAN-13 Composite % --EXAM: 2112345678900|(99)1234-abcd % --EXOP: includetext % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp ean13composite 0.0 2022082100 105183 107941 %%BeginData: 159 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /ean13 dup /uk.co.terryburton.bwipp findresource put dup /gs1-cc dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /ean13composite { 20 dict begin % Confine variables to local scope /options exch def /barcode exch def /ctx null def /dontdraw false def /usematrix false def /parse false def /dontlint false def /lintreqs true def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall dontdraw { /usematrix true def } if % Split the linear and composite parts barcode (|) search { /linear exch def pop /comp exch def } { pop } ifelse options (lintype) (ean13) put options (inkspread) (0) put options (dontdraw) true put options (dontlint) true put % Lint with a fake AI (01) comp length 18 add string dup 0 ((01)00000000000000) putinterval dup 18 comp putinterval /ai //gs1process exec pop pop pop % Plot the linear part linear options //ean13 exec usematrix not { gsave //renlinear exec % Plot the separator -1 72 rmoveto << /ren //renmatrix /pixs [ 0 1 93 {0} repeat 1 0 1 0 93 {0} repeat 0 1 0 1 93 {0} repeat 1 0 ] /pixx 97 /pixy 3 /height 6 72 div /width 97 72 div /opt options >> //renmatrix exec % Plot the 2D part -2 6 rmoveto comp options //gs1-cc exec //renmatrix exec grestore } { /linsym exch def /sbs linsym /sbs get def /bhs linsym /bhs get def /bbs linsym /bbs get def /linwidth 0 sbs {cvi add} forall def /compsym comp options //gs1-cc exec def /ccpixs compsym /pixs get def /ccpixx compsym /pixx get def /linpad [ ccpixx 97 sub {0} repeat ] def /diff linwidth linpad length add 2 add ccpixx sub def % An add-on can make linear wider than composite diff 0 gt { % Left align composite /ccrpad [ diff {0} repeat ] def /pixx ccpixx diff add def } { /ccrpad 0 array def /pixx ccpixx def } ifelse /pixs [ 0 ccpixx ccpixs length 1 sub { /i exch def 2 { ccpixs i ccpixx getinterval aload pop ccrpad aload pop } repeat } for 2 { linpad aload pop 0 1 93 {0} repeat 1 0 ccrpad aload pop } repeat 2 { linpad aload pop 1 0 93 {0} repeat 0 1 ccrpad aload pop } repeat 2 { linpad aload pop 0 1 93 {0} repeat 1 0 ccrpad aload pop } repeat 71 -1 0 { /y exch def linpad aload pop 0 0 1 sbs length 1 sub { /i exch def i 2 mod 0 eq { % Don't print when bbs > y || (bbs + bhs) < y (i.e. add-on or includetext offsets) bbs i 2 idiv get 72 mul dup y gt exch bhs i 2 idiv get 72 mul add y lt or { sbs i get cvi {0} repeat } { sbs i get cvi {1} repeat } ifelse } { sbs i get cvi {0} repeat } ifelse } for 0 } for ] def /pixy pixs length pixx idiv def << /ren //renmatrix /pixs pixs /pixx pixx /pixy pixy /height pixy 72 div /width pixx 72 div /opt options >> dontdraw not { gsave //renmatrix exec grestore } if } ifelse end } [/barcode] {null def} forall bind def /ean13composite dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER ean13composite-- % --BEGIN ENCODER ean8composite-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear renmatrix ean5 ean2 ean8 micropdf417 pdf417 gs1-cc-- % --DESC: EAN-8 Composite % --EXAM: 02345673|(21)A12345678 % --EXOP: includetext % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp ean8composite 0.0 2022082100 109084 108283 %%BeginData: 162 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /ean8 dup /uk.co.terryburton.bwipp findresource put dup /gs1-cc dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /ean8composite { 20 dict begin % Confine variables to local scope /options exch def /barcode exch def /ctx null def /dontdraw false def /usematrix false def /parse false def /dontlint false def /lintreqs true def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall dontdraw { /usematrix true def } if % Split the linear and composite parts barcode (|) search { /linear exch def pop /comp exch def } { pop } ifelse % Get the result of encoding with ean8 and gs1-cc options (lintype) (ean8) put options (inkspread) (0) put options (dontdraw) true put options (dontlint) true put % Lint with a fake AI (01) comp length 18 add string dup 0 ((01)00000000000000) putinterval dup 18 comp putinterval /ai //gs1process exec pop pop pop % Plot the linear part linear options //ean8 exec usematrix not { gsave //renlinear exec % Plot the separator -1 72 rmoveto << /ren //renmatrix /pixs [ 0 1 65 {0} repeat 1 0 1 0 65 {0} repeat 0 1 0 1 65 {0} repeat 1 0 ] /pixx 69 /pixy 3 /height 6 72 div /width 69 72 div /opt options >> //renmatrix exec % Plot the 2D part comp options //gs1-cc exec dup (pixx) get 69 exch sub 6 rmoveto //renmatrix exec grestore } { /linsym exch def /sbs linsym /sbs get def /bhs linsym /bhs get def /bbs linsym /bbs get def /linwidth 0 sbs {cvi add} forall def /compsym comp options //gs1-cc exec def /ccpixs compsym /pixs get def /ccpixx compsym /pixx get def /linpad [ ccpixx 69 sub {0} repeat ] def /diff linwidth linpad length add 2 add ccpixx sub def % An add-on can make linear wider than composite diff 0 gt { % Left align composite /ccrpad [ diff {0} repeat ] def /pixx ccpixx diff add def } { /ccrpad 0 array def /pixx ccpixx def } ifelse /pixs [ 0 ccpixx ccpixs length 1 sub { /i exch def 2 { ccpixs i ccpixx getinterval aload pop ccrpad aload pop } repeat } for 2 { linpad aload pop 0 1 65 {0} repeat 1 0 ccrpad aload pop } repeat 2 { linpad aload pop 1 0 65 {0} repeat 0 1 ccrpad aload pop } repeat 2 { linpad aload pop 0 1 65 {0} repeat 1 0 ccrpad aload pop } repeat 71 -1 0 { /y exch def linpad aload pop 0 0 1 sbs length 1 sub { /i exch def i 2 mod 0 eq { % Don't print when bbs > y || (bbs + bhs) < y (i.e. add-on or includetext offsets) bbs i 2 idiv get 72 mul dup y gt exch bhs i 2 idiv get 72 mul add y lt or { sbs i get cvi {0} repeat } { sbs i get cvi {1} repeat } ifelse } { sbs i get cvi {0} repeat } ifelse } for 0 } for ] def /pixy pixs length pixx idiv def << /ren //renmatrix /pixs pixs /pixx pixx /pixy pixy /height pixy 72 div /width pixx 72 div /opt options >> dontdraw not { gsave //renmatrix exec grestore } if } ifelse end } [/barcode] {null def} forall bind def /ean8composite dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER ean8composite-- % --BEGIN ENCODER upcacomposite-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear renmatrix ean5 ean2 upca micropdf417 pdf417 gs1-cc-- % --DESC: UPC-A Composite % --EXAM: 416000336108|(99)1234-abcd % --EXOP: includetext % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp upcacomposite 0.0 2022082100 105177 107936 %%BeginData: 159 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /upca dup /uk.co.terryburton.bwipp findresource put dup /gs1-cc dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /upcacomposite { 20 dict begin % Confine variables to local scope /options exch def /barcode exch def /ctx null def /dontdraw false def /usematrix false def /parse false def /dontlint false def /lintreqs true def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall dontdraw { /usematrix true def } if % Split the linear and composite parts barcode (|) search { /linear exch def pop /comp exch def } { pop } ifelse options (lintype) (ean13) put options (inkspread) (0) put options (dontdraw) true put options (dontlint) true put % Lint with a fake AI (01) comp length 18 add string dup 0 ((01)00000000000000) putinterval dup 18 comp putinterval /ai //gs1process exec pop pop pop % Plot the linear part linear options //upca exec usematrix not { gsave //renlinear exec % Plot the separator -1 72 rmoveto << /ren //renmatrix /pixs [ 0 1 93 {0} repeat 1 0 1 0 93 {0} repeat 0 1 0 1 93 {0} repeat 1 0 ] /pixx 97 /pixy 3 /height 6 72 div /width 97 72 div /opt options >> //renmatrix exec % Plot the 2D part -2 6 rmoveto comp options //gs1-cc exec //renmatrix exec grestore } { /linsym exch def /sbs linsym /sbs get def /bhs linsym /bhs get def /bbs linsym /bbs get def /linwidth 0 sbs {cvi add} forall def /compsym comp options //gs1-cc exec def /ccpixs compsym /pixs get def /ccpixx compsym /pixx get def /linpad [ ccpixx 97 sub {0} repeat ] def /diff linwidth linpad length add 2 add ccpixx sub def % An add-on can make linear wider than composite diff 0 gt { % Left align composite /ccrpad [ diff {0} repeat ] def /pixx ccpixx diff add def } { /ccrpad 0 array def /pixx ccpixx def } ifelse /pixs [ 0 ccpixx ccpixs length 1 sub { /i exch def 2 { ccpixs i ccpixx getinterval aload pop ccrpad aload pop } repeat } for 2 { linpad aload pop 0 1 93 {0} repeat 1 0 ccrpad aload pop } repeat 2 { linpad aload pop 1 0 93 {0} repeat 0 1 ccrpad aload pop } repeat 2 { linpad aload pop 0 1 93 {0} repeat 1 0 ccrpad aload pop } repeat 71 -1 0 { /y exch def linpad aload pop 0 0 1 sbs length 1 sub { /i exch def i 2 mod 0 eq { % Don't print when bbs > y || (bbs + bhs) < y (i.e. add-on or includetext offsets) bbs i 2 idiv get 72 mul dup y gt exch bhs i 2 idiv get 72 mul add y lt or { sbs i get cvi {0} repeat } { sbs i get cvi {1} repeat } ifelse } { sbs i get cvi {0} repeat } ifelse } for 0 } for ] def /pixy pixs length pixx idiv def << /ren //renmatrix /pixs pixs /pixx pixx /pixy pixy /height pixy 72 div /width pixx 72 div /opt options >> dontdraw not { gsave //renmatrix exec grestore } if } ifelse end } [/barcode] {null def} forall bind def /upcacomposite dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER upcacomposite-- % --BEGIN ENCODER upcecomposite-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear renmatrix ean5 ean2 upce micropdf417 pdf417 gs1-cc-- % --DESC: UPC-E Composite % --EXAM: 00123457|(15)021231 % --EXOP: includetext % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp upcecomposite 0.0 2022082100 108608 104503 %%BeginData: 159 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /upce dup /uk.co.terryburton.bwipp findresource put dup /gs1-cc dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /upcecomposite { 20 dict begin % Confine variables to local scope /options exch def /barcode exch def /ctx null def /dontdraw false def /usematrix false def /parse false def /dontlint false def /lintreqs true def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall dontdraw { /usematrix true def } if % Split the linear and composite parts barcode (|) search { /linear exch def pop /comp exch def } { pop } ifelse options (lintype) (upce) put options (inkspread) (0) put options (dontdraw) true put options (dontlint) true put % Lint with a fake AI (01) comp length 18 add string dup 0 ((01)00000000000000) putinterval dup 18 comp putinterval /ai //gs1process exec pop pop pop % Plot the linear part linear options //upce exec usematrix not { gsave //renlinear exec % Plot the separator -1 72 rmoveto << /ren //renmatrix /pixs [ 0 1 49 {0} repeat 1 0 1 0 49 {0} repeat 0 1 0 1 49 {0} repeat 1 0 ] /pixx 53 /pixy 3 /height 6 72 div /width 53 72 div /opt options >> //renmatrix exec % Plot the 2D part -2 6 rmoveto comp options //gs1-cc exec //renmatrix exec grestore } { /linsym exch def /sbs linsym /sbs get def /bhs linsym /bhs get def /bbs linsym /bbs get def /linwidth 0 sbs {cvi add} forall def /compsym comp options //gs1-cc exec def /ccpixs compsym /pixs get def /ccpixx compsym /pixx get def /linpad [ ccpixx 53 sub {0} repeat ] def /diff linwidth linpad length add 2 add ccpixx sub def % An add-on can make linear wider than composite diff 0 gt { % Left align composite /ccrpad [ diff {0} repeat ] def /pixx ccpixx diff add def } { /ccrpad 0 array def /pixx ccpixx def } ifelse /pixs [ 0 ccpixx ccpixs length 1 sub { /i exch def 2 { ccpixs i ccpixx getinterval aload pop ccrpad aload pop } repeat } for 2 { linpad aload pop 0 1 49 {0} repeat 1 0 ccrpad aload pop } repeat 2 { linpad aload pop 1 0 49 {0} repeat 0 1 ccrpad aload pop } repeat 2 { linpad aload pop 0 1 49 {0} repeat 1 0 ccrpad aload pop } repeat 71 -1 0 { /y exch def linpad aload pop 0 0 1 sbs length 1 sub { /i exch def i 2 mod 0 eq { % Don't print when bbs > y || (bbs + bhs) < y (i.e. add-on or includetext offsets) bbs i 2 idiv get 72 mul dup y gt exch bhs i 2 idiv get 72 mul add y lt or { sbs i get cvi {0} repeat } { sbs i get cvi {1} repeat } ifelse } { sbs i get cvi {0} repeat } ifelse } for 0 } for ] def /pixy pixs length pixx idiv def << /ren //renmatrix /pixs pixs /pixx pixx /pixy pixy /height pixy 72 div /width pixx 72 div /opt options >> dontdraw not { gsave //renmatrix exec grestore } if } ifelse end } [/barcode] {null def} forall bind def /upcecomposite dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER upcecomposite-- % --BEGIN ENCODER databaromnicomposite-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear renmatrix databaromni micropdf417 pdf417 gs1-cc-- % --DESC: GS1 DataBar Omnidirectional Composite % --EXAM: (01)03612345678904|(11)990102 % --EXOP: % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp databaromnicomposite 0.0 2022082100 94570 94434 %%BeginData: 114 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /databaromni dup /uk.co.terryburton.bwipp findresource put dup /gs1-cc dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /databaromnicomposite { 20 dict begin % Confine variables to local scope /options exch def /barcode exch def /ctx null def /dontdraw false def /parse false def /dontlint false def /lintreqs true def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Split the linear and composite parts barcode (|) search { /linear exch def pop /comp exch def } { pop } ifelse gsave options (lintype) (databaromni) put options (linkage) true put options (inkspread) (0) put options (dontdraw) true put options (dontlint) true put % Lint the combined AI element strings linear length comp length add string dup 0 linear putinterval dup linear length comp putinterval /ai //gs1process exec pop pop pop % Plot the linear part linear options //databaromni exec dup (sbs) get /linsbs exch def dup (bhs) get 0 get 72 mul /linheight exch def //renlinear exec % Plot the separator /sepfinder { /fp exch def fp 1 fp 12 add { /i exch def bot i get 0 eq { bot i 1 sub get 1 eq { 1 } { sep i 1 sub get 0 eq {1} {0} ifelse } ifelse } { 0 } ifelse sep exch i exch put } for /f3 [1 1 1 1 1 1 1 1 1 0 1 1 1] def true 0 1 12 {dup bot exch fp add get exch f3 exch get eq and} for { % Right shifted module for value 3 finder sep fp [ 0 0 0 0 0 0 0 0 0 0 1 0 0 ] putinterval } if } def mark 0 linsbs {1 index 1 eq {{0}} {{1}} ifelse repeat} forall counttomark 1 sub array astore /bot exch def pop pop /sep [ bot {1 exch sub} forall ] def sep 0 [0 0 0] putinterval sep sep length 4 sub [0 0 0 0] putinterval 18 sepfinder 64 sepfinder 0 linheight rmoveto << /ren //renmatrix /pixs sep /pixx sep length /pixy 1 /height 1 72 div /width sep length 72 div /opt options >> //renmatrix exec % Plot the 2D part -5 1 rmoveto comp options //gs1-cc exec //renmatrix exec grestore end } [/barcode] {null def} forall bind def /databaromnicomposite dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER databaromnicomposite-- % --BEGIN ENCODER databarstackedcomposite-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear renmatrix databaromni databarstacked micropdf417 pdf417 gs1-cc-- % --DESC: GS1 DataBar Stacked Composite % --EXAM: (01)03412345678900|(17)010200 % --EXOP: % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp databarstackedcomposite 0.0 2022082100 96302 96201 %%BeginData: 110 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /databarstacked dup /uk.co.terryburton.bwipp findresource put dup /gs1-cc dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /databarstackedcomposite { 20 dict begin % Confine variables to local scope /options exch def /barcode exch def /ctx null def /dontdraw false def /parse false def /dontlint false def /lintreqs true def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Split the linear and composite parts barcode (|) search { /linear exch def pop /comp exch def } { pop } ifelse gsave options (lintype) (databarstacked) put options (linkage) true put options (inkspread) (0) put options (dontdraw) true put options (dontlint) true put % Lint the combined AI element strings linear length comp length add string dup 0 linear putinterval dup linear length comp putinterval /ai //gs1process exec pop pop pop % Plot the linear part linear options //databarstacked exec dup (pixs) get 0 2 index (pixx) get getinterval /bot exch def dup (pixy) get /linheight exch def //renmatrix exec % Plot the separator /sepfinder { /fp exch def fp 1 fp 12 add { /i exch def bot i get 0 eq { bot i 1 sub get 1 eq { 1 } { sep i 1 sub get 0 eq {1} {0} ifelse } ifelse } { 0 } ifelse sep exch i exch put } for /f3 [1 1 1 1 1 1 1 1 1 0 1 1 1] def true 0 1 12 {dup bot exch fp add get exch f3 exch get eq and} for { % Right shifted module for value 3 finder sep fp [ 0 0 0 0 0 0 0 0 0 0 1 0 0 ] putinterval } if } def /sep [ bot {1 exch sub} forall ] def sep 0 [ 0 0 0 0 ] putinterval sep sep length 4 sub [ 0 0 0 0 ] putinterval 18 sepfinder 0 linheight rmoveto << /ren //renmatrix /pixs sep /pixx sep length /pixy 1 /height 1 72 div /width sep length 72 div /opt options >> //renmatrix exec % Plot the 2D part 1 1 rmoveto comp options //gs1-cc exec //renmatrix exec grestore end } [/barcode] {null def} forall bind def /databarstackedcomposite dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER databarstackedcomposite-- % --BEGIN ENCODER databarstackedomnicomposite-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear renmatrix databaromni databarstackedomni micropdf417 pdf417 gs1-cc-- % --DESC: GS1 DataBar Stacked Omnidirectional Composite % --EXAM: (01)03612345678904|(11)990102 % --EXOP: % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp databarstackedomnicomposite 0.0 2022082100 96354 96225 %%BeginData: 110 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /databarstackedomni dup /uk.co.terryburton.bwipp findresource put dup /gs1-cc dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /databarstackedomnicomposite { 20 dict begin % Confine variables to local scope /options exch def /barcode exch def /ctx null def /dontdraw false def /parse false def /dontlint false def /lintreqs true def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Split the linear and composite parts barcode (|) search { /linear exch def pop /comp exch def } { pop } ifelse gsave options (lintype) (databarstackedomni) put options (linkage) true put options (inkspread) (0) put options (dontdraw) true put options (dontlint) true put % Lint the combined AI element strings linear length comp length add string dup 0 linear putinterval dup linear length comp putinterval /ai //gs1process exec pop pop pop % Plot the linear part linear options //databarstackedomni exec dup (pixs) get 0 2 index (pixx) get getinterval /bot exch def dup (pixy) get /linheight exch def //renmatrix exec % Plot the separator /sepfinder { /fp exch def fp 1 fp 12 add { /i exch def bot i get 0 eq { bot i 1 sub get 1 eq { 1 } { sep i 1 sub get 0 eq {1} {0} ifelse } ifelse } { 0 } ifelse sep exch i exch put } for /f3 [1 1 1 1 1 1 1 1 1 0 1 1 1] def true 0 1 12 {dup bot exch fp add get exch f3 exch get eq and} for { % Right shifted module for value 3 finder sep fp [ 0 0 0 0 0 0 0 0 0 0 1 0 0 ] putinterval } if } def /sep [ bot {1 exch sub} forall ] def sep 0 [ 0 0 0 0 ] putinterval sep sep length 4 sub [ 0 0 0 0 ] putinterval 18 sepfinder 0 linheight rmoveto << /ren //renmatrix /pixs sep /pixx sep length /pixy 1 /height 1 72 div /width sep length 72 div /opt options >> //renmatrix exec % Plot the 2D part 1 1 rmoveto comp options //gs1-cc exec //renmatrix exec grestore end } [/barcode] {null def} forall bind def /databarstackedomnicomposite dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER databarstackedomnicomposite-- % --BEGIN ENCODER databartruncatedcomposite-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear renmatrix databaromni databartruncated micropdf417 pdf417 gs1-cc-- % --DESC: GS1 DataBar Truncated Composite % --EXAM: (01)03612345678904|(11)990102 % --EXOP: % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp databartruncatedcomposite 0.0 2022082100 97436 97319 %%BeginData: 114 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /databartruncated dup /uk.co.terryburton.bwipp findresource put dup /gs1-cc dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /databartruncatedcomposite { 20 dict begin % Confine variables to local scope /options exch def /barcode exch def /ctx null def /dontdraw false def /parse false def /dontlint false def /lintreqs true def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Split the linear and composite parts barcode (|) search { /linear exch def pop /comp exch def } { pop } ifelse gsave options (lintype) (databartruncated) put options (linkage) true put options (inkspread) (0) put options (dontdraw) true put options (dontlint) true put % Lint the combined AI element strings linear length comp length add string dup 0 linear putinterval dup linear length comp putinterval /ai //gs1process exec pop pop pop % Plot the linear part linear options //databartruncated exec dup (sbs) get /linsbs exch def dup (bhs) get 0 get 72 mul /linheight exch def //renlinear exec % Plot the separator /sepfinder { /fp exch def fp 1 fp 12 add { /i exch def bot i get 0 eq { bot i 1 sub get 1 eq { 1 } { sep i 1 sub get 0 eq {1} {0} ifelse } ifelse } { 0 } ifelse sep exch i exch put } for /f3 [1 1 1 1 1 1 1 1 1 0 1 1 1] def true 0 1 12 {dup bot exch fp add get exch f3 exch get eq and} for { % Right shifted module for value 3 finder sep fp [ 0 0 0 0 0 0 0 0 0 0 1 0 0 ] putinterval } if } def mark 0 linsbs {1 index 1 eq {{0}} {{1}} ifelse repeat} forall counttomark 1 sub array astore /bot exch def pop pop /sep [ bot {1 exch sub} forall ] def sep 0 [0 0 0] putinterval sep sep length 4 sub [0 0 0 0] putinterval 18 sepfinder 64 sepfinder 0 linheight rmoveto << /ren //renmatrix /pixs sep /pixx sep length /pixy 1 /height 1 72 div /width sep length 72 div /opt options >> //renmatrix exec % Plot the 2D part -5 1 rmoveto comp options //gs1-cc exec //renmatrix exec grestore end } [/barcode] {null def} forall bind def /databartruncatedcomposite dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER databartruncatedcomposite-- % --BEGIN ENCODER databarlimitedcomposite-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear renmatrix databarlimited micropdf417 pdf417 gs1-cc-- % --DESC: GS1 DataBar Limited Composite % --EXAM: (01)03512345678907|(21)abcdefghijklmnopqrst % --EXOP: % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp databarlimitedcomposite 0.0 2022082100 87443 90776 %%BeginData: 93 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /databarlimited dup /uk.co.terryburton.bwipp findresource put dup /gs1-cc dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /databarlimitedcomposite { 20 dict begin % Confine variables to local scope /options exch def /barcode exch def /ctx null def /dontdraw false def /parse false def /dontlint false def /lintreqs true def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Split the linear and composite parts barcode (|) search { /linear exch def pop /comp exch def } { pop } ifelse gsave options (lintype) (databarlimited) put options (linkage) true put options (inkspread) (0) put options (dontdraw) true put options (dontlint) true put % Lint the combined AI element strings linear length comp length add string dup 0 linear putinterval dup linear length comp putinterval /ai //gs1process exec pop pop pop % Plot the linear part linear options //databarlimited exec dup (sbs) get /linsbs exch def dup (bhs) get 0 get 72 mul /linheight exch def //renlinear exec % Plot the separator mark 1 linsbs {1 index 0 eq {{1}} {{0}} ifelse repeat} forall counttomark 1 sub array astore /sep exch def pop pop sep 0 [0 0 0] putinterval sep sep length 9 sub [0 0 0 0 0 0 0 0 0] putinterval % 4 + 5 right guard spaces 0 linheight rmoveto << /ren //renmatrix /pixs sep /pixx sep length /pixy 1 /height 1 72 div /width sep length 72 div /opt options >> //renmatrix exec % Plot the 2D part comp options //gs1-cc exec dup (pixx) get 72 exch sub 1 rmoveto //renmatrix exec grestore end } [/barcode] {null def} forall bind def /databarlimitedcomposite dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER databarlimitedcomposite-- % --BEGIN ENCODER databarexpandedcomposite-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear renmatrix databarexpanded micropdf417 pdf417 gs1-cc-- % --DESC: GS1 DataBar Expanded Composite % --EXAM: (01)93712345678904(3103)001234|(91)1A2B3C4D5E % --EXOP: % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp databarexpandedcomposite 0.0 2022082100 93873 93874 %%BeginData: 112 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /databarexpanded dup /uk.co.terryburton.bwipp findresource put dup /gs1-cc dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /databarexpandedcomposite { 20 dict begin % Confine variables to local scope /options exch def /barcode exch def /ctx null def /dontdraw false def /parse false def /dontlint false def /lintreqs true def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Split the linear and composite parts barcode (|) search { /linear exch def pop /comp exch def } { pop } ifelse gsave options (lintype) (databarexpanded) put options (linkage) true put options (inkspread) (0) put options (dontdraw) true put options (dontlint) true put % Lint the combined AI element strings linear length comp length add string dup 0 linear putinterval dup linear length comp putinterval /ai //gs1process exec pop pop pop % Plot the linear part linear options //databarexpanded exec dup (sbs) get /linsbs exch def dup (bhs) get 0 get 72 mul /linheight exch def //renlinear exec % Plot the separator /sepfinder { /fp exch def fp 1 fp 12 add { /i exch def bot i get 0 eq { bot i 1 sub get 1 eq { 1 } { sep i 1 sub get 0 eq {1} {0} ifelse } ifelse } { 0 } ifelse sep exch i exch put } for } def mark 0 linsbs {1 index 1 eq {{0}} {{1}} ifelse repeat} forall counttomark 1 sub array astore /bot exch def pop pop /sep [ bot {1 exch sub} forall ] def sep 0 [0 0 0] putinterval sep sep length 4 sub [0 0 0 0] putinterval [ % Finder pattern module positions 18 98 bot length 13 sub {} for 69 98 bot length 13 sub {} for ] {sepfinder} forall 0 linheight rmoveto << /ren //renmatrix /pixs sep /pixx sep length /pixy 1 /height 1 72 div /width sep length 72 div /opt options >> //renmatrix exec % Plot the 2D part 1 1 rmoveto comp options //gs1-cc exec //renmatrix exec grestore end } [/barcode] {null def} forall bind def /databarexpandedcomposite dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER databarexpandedcomposite-- % --BEGIN ENCODER databarexpandedstackedcomposite-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear renmatrix databarexpanded databarexpandedstacked micropdf417 pdf417 gs1-cc-- % --DESC: GS1 DataBar Expanded Stacked Composite % --EXAM: (01)00012345678905(10)ABCDEF|(21)12345678 % --EXOP: segments=4 % --RNDR: renmatrix renlinear %%BeginResource: uk.co.terryburton.bwipp databarexpandedstackedcomposite 0.0 2022082100 96049 95929 %%BeginData: 109 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /databarexpandedstacked dup /uk.co.terryburton.bwipp findresource put dup /gs1-cc dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /databarexpandedstackedcomposite { 20 dict begin % Confine variables to local scope /options exch def /barcode exch def /ctx null def /dontdraw false def /parse false def /dontlint false def /lintreqs true def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Split the linear and composite parts barcode (|) search { /linear exch def pop /comp exch def } { pop } ifelse gsave options (lintype) (databarexpandedstacked) put options (linkage) true put options (inkspread) (0) put options (dontdraw) true put options (dontlint) true put % Lint the combined AI element strings linear length comp length add string dup 0 linear putinterval dup linear length comp putinterval /ai //gs1process exec pop pop pop % Plot the linear part linear options //databarexpandedstacked exec dup (pixs) get 0 2 index (pixx) get getinterval /bot exch def dup (pixy) get /linheight exch def //renmatrix exec % Plot the separator /sepfinder { /fp exch def fp 1 fp 12 add { /i exch def bot i get 0 eq { bot i 1 sub get 1 eq { 1 } { sep i 1 sub get 0 eq {1} {0} ifelse } ifelse } { 0 } ifelse sep exch i exch put } for } def /sep [ bot {1 exch sub} forall ] def sep 0 [ 0 0 0 0 ] putinterval sep sep length 4 sub [ 0 0 0 0 ] putinterval [ % Finder pattern module positions 19 98 bot length 13 sub {} for 70 98 bot length 13 sub {} for ] {sepfinder} forall 0 linheight rmoveto << /ren //renmatrix /pixs sep /pixx sep length /pixy 1 /height 1 72 div /width sep length 72 div /opt options >> //renmatrix exec % Plot the 2D part bot 0 get 0 eq {2} {0} ifelse 1 rmoveto comp options //gs1-cc exec //renmatrix exec grestore end } [/barcode] {null def} forall bind def /databarexpandedstackedcomposite dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER databarexpandedstackedcomposite-- % --BEGIN ENCODER gs1-128composite-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renlinear renmatrix code128 gs1-128 micropdf417 pdf417 gs1-cc-- % --DESC: GS1-128 Composite % --EXAM: (00)030123456789012340|(02)13012345678909(37)24(10)1234567ABCDEFG % --EXOP: ccversion=c % --RNDR: renlinear renmatrix %%BeginResource: uk.co.terryburton.bwipp gs1-128composite 0.0 2022082100 97016 93461 %%BeginData: 114 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /gs1-128 dup /uk.co.terryburton.bwipp findresource put dup /gs1-cc dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renlinear dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put begin /gs1-128composite { 20 dict begin % Confine variables to local scope /options exch def /barcode exch def /ctx null def /dontdraw false def /parse false def /dontlint false def /lintreqs true def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Split the linear and composite parts barcode (|) search { /linear exch def pop /comp exch def } { pop } ifelse gsave options (inkspread) (0) put options (dontdraw) true put options (dontlint) true put % Lint the combined AI element strings linear length comp length add string dup 0 linear putinterval dup linear length comp putinterval /ai //gs1process exec pop pop pop % Dummy plot of linear part with CC-A to get width options (linkagea) true put linear << options {} forall >> //gs1-128 exec (sbs) get 0 exch {add} forall /linwidth exch def % Create 2D part and determine type options (lintype) (gs1-128) put options (linwidth) linwidth put comp options //gs1-cc exec /compsym exch def compsym (pixx) get 99 eq {(a)} {(c)} ifelse /linktype exch def % Plot linear part linktype (a) eq { options (linkagea) true put options (linkagec) false put } { options (linkagea) false put options (linkagec) true put } ifelse linear << options {} forall >> //gs1-128 exec dup (sbs) get /linsbs exch def dup (bhs) get 0 get 72 mul /linheight exch def //renlinear exec % Plot the separator mark 1 linsbs {1 index 0 eq {{1}} {{0}} ifelse repeat} forall counttomark 1 sub array astore /sep exch def pop pop 0 linheight rmoveto << /ren //renmatrix /pixs sep /pixx sep length /pixy 1 /height 1 72 div /width sep length 72 div /opt options >> //renmatrix exec % Plot the 2D part linktype (a) eq { /s linwidth 2 sub 11 idiv def /p s 9 sub 2 idiv def /x s p sub 1 sub 11 mul 10 add p 0 eq {2 add} if 99 sub def x 1 rmoveto } { -7 1 rmoveto } ifelse compsym //renmatrix exec grestore end } [/barcode] {null def} forall bind def /gs1-128composite dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER gs1-128composite-- % --BEGIN ENCODER gs1datamatrix-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renmatrix datamatrix-- % --DESC: GS1 Data Matrix % --EXAM: (01)03453120000011(17)120508(10)ABCD1234(410)9501101020917 % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp gs1datamatrix 0.0 2022082100 77432 73954 %%BeginData: 91 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /datamatrix dup /uk.co.terryburton.bwipp findresource put begin /gs1datamatrix { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /dontdraw false def /parse false def /dontlint false def /lintreqs true def /gssep false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall barcode /ai //gs1process exec /fncs exch def /vals exch def /ais exch def % Create the datamatrix data /fnc1 -1 def /dmtx [ fnc1 ] def 0 1 ais length 1 sub { /i exch def /ai ais i get def /val vals i get def dmtx length ai length add val length add array dup 0 dmtx putinterval dup dmtx length ai [ exch {} forall ] putinterval dup dmtx length ai length add val [ exch {} forall ] putinterval /dmtx exch def i ais length 1 sub ne fncs i get and { % Append FNC1 dmtx length 1 add array dup 0 dmtx putinterval dup dmtx length gssep {29} {fnc1} ifelse put /dmtx exch def } if } for % Compose input to datamatrix /barcode dmtx length 1 add 5 mul string def /i 0 def /j 0 def { i dmtx length eq {exit} if dmtx i get dup fnc1 eq { pop barcode j (^FNC1) putinterval /j j 4 add def } { barcode exch j exch put } ifelse /i i 1 add def /j j 1 add def } loop /barcode barcode 0 j getinterval def % Get the result of encoding with datamatrix options (parse) undef options (dontdraw) true put options (parsefnc) true put /args barcode options //datamatrix exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /gs1datamatrix dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER gs1datamatrix-- % --BEGIN ENCODER gs1datamatrixrectangular-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renmatrix datamatrix-- % --DESC: GS1 Data Matrix Rectangular % --EXAM: (01)03453120000011(17)120508(10)ABCD1234(410)9501101020917 % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp gs1datamatrixrectangular 0.0 2022082100 77747 74258 %%BeginData: 92 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /raiseerror dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /datamatrix dup /uk.co.terryburton.bwipp findresource put begin /gs1datamatrixrectangular { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /parse false def /dontlint false def /lintreqs true def /dontdraw false def /gssep false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall barcode /ai //gs1process exec /fncs exch def /vals exch def /ais exch def % Create the datamatrix data /fnc1 -1 def /dmtx [ fnc1 ] def 0 1 ais length 1 sub { /i exch def /ai ais i get def /val vals i get def dmtx length ai length add val length add array dup 0 dmtx putinterval dup dmtx length ai [ exch {} forall ] putinterval dup dmtx length ai length add val [ exch {} forall ] putinterval /dmtx exch def i ais length 1 sub ne fncs i get and { % Append FNC1 dmtx length 1 add array dup 0 dmtx putinterval dup dmtx length gssep {29} {fnc1} ifelse put /dmtx exch def } if } for % Compose input to datamatrix /barcode dmtx length 1 add 5 mul string def /i 0 def /j 0 def { i dmtx length eq {exit} if dmtx i get dup fnc1 eq { pop barcode j (^FNC1) putinterval /j j 4 add def } { barcode exch j exch put } ifelse /i i 1 add def /j j 1 add def } loop /barcode barcode 0 j getinterval def % Get the result of encoding with datamatrix options (parse) undef options (dontdraw) true put options (parsefnc) true put options (format) (rectangle) put /args barcode options //datamatrix exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /gs1datamatrixrectangular dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER gs1datamatrixrectangular-- % --BEGIN ENCODER gs1dldatamatrix-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renmatrix datamatrix-- % --DESC: GS1 Digital Link Data Matrix % --EXAM: https://id.gs1.org/01/12312312312333/22/ABC%2d123?99=XYZ%2f987#test % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp gs1dldatamatrix 0.0 2022082100 70572 63571 %%BeginData: 59 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /datamatrix dup /uk.co.terryburton.bwipp findresource put begin /gs1dldatamatrix { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /parse false def /dontlint false def /lintreqs true def /dontdraw false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Parse the input /fncvals << /parse parse /parseonly true /parsefnc false >> def /barcode barcode fncvals //parseinput exec def barcode /dl //gs1process exec pop pop pop % Get the result of encoding with datamatrix options (parse) undef options (dontdraw) true put /args barcode options //datamatrix exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /gs1dldatamatrix dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER gs1dldatamatrix-- % --BEGIN ENCODER gs1qrcode-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renmatrix qrcode-- % --DESC: GS1 QR Code % --EXAM: (01)03453120000011(8200)http://www.abc.net(10)ABCD1234(410)9501101020917 % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp gs1qrcode 0.0 2022082100 77214 73742 %%BeginData: 89 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /qrcode dup /uk.co.terryburton.bwipp findresource put begin /gs1qrcode { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /parse false def /dontlint false def /lintreqs true def /dontdraw false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall barcode /ai //gs1process exec /fncs exch def /vals exch def /ais exch def % Create the qrcode data /fnc1 -1 def /qrc [ fnc1 ] def 0 1 ais length 1 sub { /i exch def /ai ais i get def /val vals i get def qrc length ai length add val length add array dup 0 qrc putinterval dup qrc length ai [ exch {} forall ] putinterval dup qrc length ai length add val [ exch {} forall ] putinterval /qrc exch def i ais length 1 sub ne fncs i get and { % Append FNC1 qrc length 1 add array dup 0 qrc putinterval dup qrc length fnc1 put /qrc exch def } if } for % Compose input to qrcode /barcode qrc length 1 add 5 mul string def /i 0 def /j 0 def { i qrc length eq {exit} if qrc i get dup fnc1 eq { pop barcode j (^FNC1) putinterval /j j 4 add def } { barcode exch j exch put } ifelse /i i 1 add def /j j 1 add def } loop /barcode barcode 0 j getinterval def % Get the result of encoding with qrcode options (parse) undef options (dontdraw) true put options (parsefnc) true put /args barcode options //qrcode exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /gs1qrcode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER gs1qrcode-- % --BEGIN ENCODER gs1dlqrcode-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renmatrix qrcode-- % --DESC: GS1 Digital Link QR Code % --EXAM: https://id.gs1.org/01/12312312312333/22/ABC%2d123?99=XYZ%2f987#test % --EXOP: % --RNDR: renmatrix %%BeginResource: uk.co.terryburton.bwipp gs1dlqrcode 0.0 2022082100 67116 67111 %%BeginData: 59 ASCII Lines /setpacking where {pop currentpacking true setpacking} if 10 dict dup /parseinput dup /uk.co.terryburton.bwipp findresource put dup /gs1process dup /uk.co.terryburton.bwipp findresource put dup /renmatrix dup /uk.co.terryburton.bwipp findresource put dup /qrcode dup /uk.co.terryburton.bwipp findresource put begin /gs1dlqrcode { 20 dict begin % Confine variables to local scope /options exch def % We are given an option string /barcode exch def % We are given a barcode string /ctx null def /parse false def /dontlint false def /lintreqs true def /dontdraw false def % Parse the input options options type /stringtype eq { 1 dict begin options { token false eq {exit} if dup length string cvs (=) search true eq {cvlit exch pop exch def} {cvlit true def} ifelse } loop currentdict end /options exch def } if options {def} forall % Parse the input /fncvals << /parse parse /parseonly true /parsefnc false >> def /barcode barcode fncvals //parseinput exec def barcode /dl //gs1process exec pop pop pop % Get the result of encoding with qrcode options (parse) undef options (dontdraw) true put /args barcode options //qrcode exec def args (opt) options put args dontdraw not //renmatrix if end } [/barcode] {null def} forall bind def /gs1dlqrcode dup load /uk.co.terryburton.bwipp defineresource pop end /setpacking where {pop setpacking} if %%EndData %%EndResource % --END ENCODER gs1dlqrcode-- % --BEGIN ENCODER gs1dotcode-- % --REQUIRES preamble loadctx unloadctx raiseerror parseinput gs1process renmatrix dotcode-- % --DESC: GS1 DotCode % --EXAM: (235)5vBZIF%!