function _M.new(tag, attr) if type(tag) ~= "string" then error("expected 'tag' to be a string value, got: " .. type(tag), 2) end attr = attr or {} if type(attr) ~= "table" then error("expected 'attr' to be a table value, got: " .. type(attr), 2) end local doc = { tag = tag, attr = attr, last_add = {}}; return setmetatable(doc, Doc); end --- parse an XML document. By default, this uses lxp.lom.parse, but -- falls back to basic_parse, or if `use_basic` is truthy -- @param text_or_filename file or string representation -- @param is_file whether text_or_file is a file name or not -- @param use_basic do a basic parse -- @return a parsed LOM document with the document metatatables set -- @return nil, error the error can either be a file error or a parse error function _M.parse(text_or_filename, is_file, use_basic) local parser,status,lom if use_basic then parser = _M.basic_parse else status,lom = pcall(require,'lxp.lom') if not status then parser = _M.basic_parse else parser = lom.parse end end if is_file then local text, err = utils.readfile(text_or_filename) if not text then return nil, err end text_or_filename = text end local doc, err = parser(text_or_filename) if not doc then return nil, err end if lom then _M.walk(doc, false, function(_, d) setmetatable(d, Doc) end) end return doc end --- Create a Node with a set of children (text or Nodes) and attributes. -- @tparam string tag a tag name -- @tparam table|string items either a single child (text or Node), or a table where the hash -- part is the attributes and the list part is the children (text or Nodes). -- @return the new Node -- @see xml.new -- @see xml.tags -- @usage -- local doc = xml.elem("top", "hello world") -- hello world -- local doc = xml.elem("main", xml.new("child")) --

-- local doc = xml.elem("main", { "this ", "is ", "nice" }) --

this is nice

-- local doc = xml.elem("main", { xml.new "this", -- xml.new "is", -- xml.new "nice" }) --

-- local doc = xml.elem("main", { hello = "world" }) --

-- local doc = xml.elem("main", { -- "prefix", -- xml.elem("child", { "this ", "is ", "nice"}), -- "postfix", -- attrib = "value" -- }) --

prefixthis is nicepostfix

" function _M.elem(tag, items) local s = _M.new(tag) if is_text(items) then items = {items} end if is_tag(items) then t_insert(s,items) elseif type(items) == 'table' then for k,v in pairs(items) do if is_text(k) then s.attr[k] = v t_insert(s.attr,k) else s[k] = v end end end return s end --- given a list of names, return a number of element constructors. -- If passing a comma-separated string, then whitespace surrounding the values -- will be stripped. -- -- The returned constructor functions are a shortcut to `xml.elem` where you -- no longer provide the tag-name, but only the `items` table. -- @tparam string|table list a list of names, or a comma-separated string. -- @return (multiple) constructor functions; `function(items)`. For the `items` -- parameter see `xml.elem`. -- @see xml.elem -- @usage -- local new_parent, new_child = xml.tags 'mom, kid' -- doc = new_parent {new_child 'Bob', new_child 'Annie'} -- -- BobAnnie function _M.tags(list) local ctors = {} if is_text(list) then list = split(list:match("^%s*(.-)%s*$"),'%s*,%s*') end for i,tag in ipairs(list) do local function ctor(items) return _M.elem(tag,items) end ctors[i] = ctor end return unpack(ctors) end --- Adds a document Node, at current position. -- This updates the last inserted position to the new Node. -- @tparam string tag the tag name -- @tparam[opt={}] table attrs attributes (table of name-value pairs) -- @return the current node (`self`) -- @usage -- local doc = xml.new("main") -- doc:addtag("penlight", { hello = "world"}) -- doc:addtag("expat") -- added to 'penlight' since position moved -- print(doc) -->

function Doc:addtag(tag, attrs) local s = _M.new(tag, attrs) self:add_child(s) t_insert(self.last_add, s) return self end --- Adds a text node, at current position. -- @tparam string text a string -- @return the current node (`self`) -- @usage -- local doc = xml.new("main") -- doc:text("penlight") -- doc:text("expat") -- print(doc) -->

function Doc:text(text) self:add_child(text) return self end --- Moves current position up one level. -- @return the current node (`self`) function Doc:up() t_remove(self.last_add) return self end --- Resets current position to top level. -- Resets to the `self` node. -- @return the current node (`self`) function Doc:reset() local last_add = self.last_add for i = 1,#last_add do last_add[i] = nil end return self end --- Append a child to the currrent Node (ignoring current position). -- @param child a child node (either text or a document) -- @return the current node (`self`) -- @usage -- local doc = xml.new("main") -- doc:add_direct_child("dog") -- doc:add_direct_child(xml.new("child")) -- doc:add_direct_child("cat") -- print(doc) -->

dogcat

function Doc:add_direct_child(child) t_insert(self, child) return self end --- Append a child at the current position (without changing position). -- @param child a child node (either text or a document) -- @return the current node (`self`) -- @usage -- local doc = xml.new("main") -- doc:addtag("one") -- doc:add_child(xml.new("item1")) -- doc:add_child(xml.new("item2")) -- doc:add_child(xml.new("item3")) -- print(doc) -->

function Doc:add_child(child) (self.last_add[#self.last_add] or self):add_direct_child(child) return self end --accessing attributes: useful not to have to expose implementation (attr) --but also can allow attr to be nil in any future optimizations --- Set attributes of a document node. -- Will add/overwite values, but will not remove existing ones. -- Operates on the Node itself, will not take position into account. -- @tparam table t a table containing attribute/value pairs -- @return the current node (`self`) function Doc:set_attribs(t) -- TODO: keep array part in sync for k,v in pairs(t) do self.attr[k] = v end return self end --- Set a single attribute of a document node. -- Operates on the Node itself, will not take position into account. -- @param a attribute -- @param v its value, pass in `nil` to delete the attribute -- @return the current node (`self`) function Doc:set_attrib(a,v) -- TODO: keep array part in sync self.attr[a] = v return self end --- Gets the attributes of a document node. -- Operates on the Node itself, will not take position into account. -- @return table with attributes (attribute/value pairs) function Doc:get_attribs() return self.attr end local template_cache do local templ_cache = {} -- @param templ a template, a string being valid xml to be parsed, or a Node object function template_cache(templ) if is_text(templ) then if templ_cache[templ] then -- cache hit return templ_cache[templ] else -- parse and cache local ptempl, err = _M.parse(templ,false,true) if not ptempl then return nil, err end templ_cache[templ] = ptempl return ptempl end end if is_tag(templ) then return templ end return nil, "template is not a document" end end do local function is_data(data) return #data == 0 or type(data[1]) ~= 'table' end local function prepare_data(data) -- a hack for ensuring that $1 maps to first element of data, etc. -- Either this or could change the gsub call just below. for i,v in ipairs(data) do data[tostring(i)] = v end end --- create a substituted copy of a document, -- @param template may be a document or a string representation which will be parsed and cached -- @param data a table of name-value pairs or a list of such tables -- @return an XML document function Doc.subst(template, data) if type(data) ~= 'table' or not next(data) then return nil, "data must be a non-empty table" end if is_data(data) then prepare_data(data) end local templ, err = template_cache(template) if err then return nil, err end local function _subst(item) return _M.clone(templ, function(s) return s:gsub('%$(%w+)', item) end) end if is_data(data) then return _subst(data) end local list = {} for _, item in ipairs(data) do prepare_data(item) t_insert(list, _subst(item)) end if data.tag then list = _M.elem(data.tag,list) end return list end end --- Return the first child with a given tag name (non-recursive). -- @param tag the tag name -- @return the child Node found or `nil` if not found function Doc:child_with_name(tag) for _, child in ipairs(self) do if child.tag == tag then return child end end end do -- @param self document node to traverse -- @param tag tag-name to look for -- @param list array table to add the matching ones to -- @param recurse if truthy, recursivly search the node local function _children_with_name(self, tag, list, recurse) -- TODO: protect against recursion for _, child in ipairs(self) do if type(child) == 'table' then if child.tag == tag then t_insert(list, child) end if recurse then _children_with_name(child, tag, list, recurse) end end end end --- Returns all elements in a document that have a given tag. -- @tparam string tag a tag name -- @tparam[opt=false] boolean dont_recurse optionally only return the immediate children with this tag name -- @return a list of elements found, list will be empty if none was found. function Doc:get_elements_with_name(tag, dont_recurse) local res = {} _children_with_name(self, tag, res, not dont_recurse) return res end end --- Iterator over all children of a document node, including text nodes. -- This function is not recursive, so returns only direct child nodes. -- @return iterator that returns a single Node per iteration. function Doc:children() local i = 0; return function (a) i = i + 1 return a[i]; end, self, i; end --- Return the first child element of a node, if it exists. -- This will skip text nodes. -- @return first child Node or `nil` if there is none. function Doc:first_childtag() if #self == 0 then return end for _, t in ipairs(self) do if is_tag(t) then return t end end end --- Iterator that matches tag names, and a namespace (non-recursive). -- @tparam[opt=nil] string tag tag names to return. Returns all tags if not provided. -- @tparam[opt=nil] string xmlns the namespace value ('xmlns' attribute) to return. If not -- provided will match all namespaces. -- @return iterator that returns a single Node per iteration. function Doc:matching_tags(tag, xmlns) -- TODO: this doesn't make sense??? namespaces are not "xmnls", as matched below -- but "xmlns:name"... so should be a string-prefix match if anything... xmlns = xmlns or self.attr.xmlns; local tags = self local next_i = 1 local max_i = #tags local node return function () for i = next_i, max_i do node = tags[i]; if (not tag or node.tag == tag) and (not xmlns or xmlns == node.attr.xmlns) then next_i = i + 1 return node end end end, tags, next_i end --- Iterator over all child tags of a document node. This will skip over -- text nodes. -- @return iterator that returns a single Node per iteration. function Doc:childtags() local i = 0; return function (a) local v repeat i = i + 1 v = self[i] if v and type(v) == 'table' then return v end until not v end, self[1], i; end --- Visit child Nodes of a node and call a function, possibly modifying the document. -- Text elements will be skipped. -- This is not recursive, so only direct children will be passed. -- @tparam function callback a function with signature `function(node)`, passed the node. -- The element will be updated with the returned value, or deleted if it returns `nil`. function Doc:maptags(callback) local i = 1; while i <= #self do if is_tag(self[i]) then local ret = callback(self[i]); if ret == nil then -- remove it t_remove(self, i); else -- update it self[i] = ret; i = i + 1; end else i = i + 1 end end return self; end do local escape_table = { ["'"] = "'", ['"'] = """, ["<"] = "<", [">"] = ">", ["&"] = "&", } --- Escapes a string for safe use in xml. -- Handles quotes(single+double), less-than, greater-than, and ampersand. -- @tparam string str string value to escape -- @return escaped string -- @usage -- local esc = xml.xml_escape([["'<>&]]) --> ""'<>&" function _M.xml_escape(str) return (s_gsub(str, "['&<>\"]", escape_table)) end end local xml_escape = _M.xml_escape do local escape_table = { quot = '"', apos = "'", lt = "<", gt = ">", amp = "&", } --- Unescapes a string from xml. -- Handles quotes(single+double), less-than, greater-than, and ampersand. -- @tparam string str string value to unescape -- @return unescaped string -- @usage -- local unesc = xml.xml_escape(""'<>&") --> [["'<>&]] function _M.xml_unescape(str) return (str:gsub( "&(%a+);", escape_table)) end end local xml_unescape = _M.xml_unescape -- pretty printing -- if indent, then put each new tag on its own line -- if attr_indent, put each new attribute on its own line local function _dostring(t, buf, parentns, block_indent, tag_indent, attr_indent) local nsid = 0 local tag = t.tag local lf = "" if tag_indent then lf = '\n'..block_indent end local alf = " " if attr_indent then alf = '\n'..block_indent..attr_indent end t_insert(buf, lf.."<"..tag) local function write_attr(k,v) if s_find(k, "\1", 1, true) then nsid = nsid + 1 local ns, attrk = s_match(k, "^([^\1]*)\1?(.*)$") t_insert(buf, " xmlns:ns"..nsid.."='"..xml_escape(ns).."' ".."ns"..nsid..":"..attrk.."='"..xml_escape(v).."'") elseif not (k == "xmlns" and v == parentns) then t_insert(buf, alf..k.."='"..xml_escape(v).."'"); end end -- it's useful for testing to have predictable attribute ordering, if available if #t.attr > 0 then -- TODO: the key-value list is leading, what if they are not in-sync for _,k in ipairs(t.attr) do write_attr(k,t.attr[k]) end else for k, v in pairs(t.attr) do write_attr(k,v) end end local len = #t local has_children if len == 0 then t_insert(buf, attr_indent and '\n'..block_indent.."/>" or "/>") else t_insert(buf, ">"); for n = 1, len do local child = t[n] if child.tag then has_children = true _dostring(child, buf, t.attr.xmlns, block_indent and block_indent..tag_indent, tag_indent, attr_indent) else -- text element t_insert(buf, xml_escape(child)) end end t_insert(buf, (has_children and lf or '')..""); end end --- Function to pretty-print an XML document. -- @param doc an XML document -- @tparam[opt] string|int b_ind an initial block-indent (required when `t_ind` is set) -- @tparam[opt] string|int t_ind an tag-indent for each level (required when `a_ind` is set) -- @tparam[opt] string|int a_ind if given, indent each attribute pair and put on a separate line -- @tparam[opt] string|bool xml_preface force prefacing with default or custom , if truthy then `<?xml version='1.0'?>` will be used as default. -- @return a string representation -- @see Doc:tostring function _M.tostring(doc, b_ind, t_ind, a_ind, xml_preface) local buf = {} if type(b_ind) == "number" then b_ind = (" "):rep(b_ind) end if type(t_ind) == "number" then t_ind = (" "):rep(t_ind) end if type(a_ind) == "number" then a_ind = (" "):rep(a_ind) end if xml_preface then if type(xml_preface) == "string" then buf[1] = xml_preface else buf[1] = "" end end _dostring(doc, buf, nil, b_ind, t_ind, a_ind, xml_preface) return t_concat(buf) end Doc.__tostring = _M.tostring --- Method to pretty-print an XML document. -- Invokes `xml.tostring`. -- @tparam[opt] string|int b_ind an initial indent (required when `t_ind` is set) -- @tparam[opt] string|int t_ind an indent for each level (required when `a_ind` is set) -- @tparam[opt] string|int a_ind if given, indent each attribute pair and put on a separate line -- @tparam[opt="<?xml version='1.0'?>"] string xml_preface force prefacing with default or custom -- @return a string representation -- @see xml.tostring function Doc:tostring(b_ind, t_ind, a_ind, xml_preface) return _M.tostring(self, b_ind, t_ind, a_ind, xml_preface) end --- get the full text value of an element. -- @return a single string with all text elements concatenated -- @usage -- local doc = xml.new("main") -- doc:text("one") -- doc:add_child(xml.elem "two") -- doc:text("three") -- -- local t = doc:get_text() --> "onethree" function Doc:get_text() local res = {} for i,el in ipairs(self) do if is_text(el) then t_insert(res,el) end end return t_concat(res); end do local function _copy(object, kind, parent, strsubst, lookup_table) if type(object) ~= "table" then if strsubst and is_text(object) then return strsubst(object, kind, parent) else return object end end if lookup_table[object] then error("recursion detected") end lookup_table[object] = true local new_table = {} lookup_table[object] = new_table local tag = object.tag new_table.tag = _copy(tag, '*TAG', parent, strsubst, lookup_table) if object.attr then local res = {} for attr, value in pairs(object.attr) do if type(attr) == "string" then res[attr] = _copy(value, attr, object, strsubst, lookup_table) end end new_table.attr = res end for index = 1, #object do local v = _copy(object[index], '*TEXT', object, strsubst, lookup_table) t_insert(new_table,v) end return setmetatable(new_table, getmetatable(object)) end --- Returns a copy of a document. -- The `strsubst` parameter is a callback with signature `function(object, kind, parent)`. -- -- Param `kind` has the following values, and parameters: -- -- - `"*TAG"`: `object` is the tag-name, `parent` is the Node object. Returns the new tag name. -- -- - `"*TEXT"`: `object` is the text-element, `parent` is the Node object. Returns the new text value. -- -- - other strings not prefixed with `*`: `kind` is the attribute name, `object` is the -- attribute value, `parent` is the Node object. Returns the new attribute value. -- -- @tparam Node|string doc a Node object or string (text node) -- @tparam[opt] function strsubst an optional function for handling string copying -- which could do substitution, etc. -- @return copy of the document -- @see Doc:filter function _M.clone(doc, strsubst) return _copy(doc, nil, nil, strsubst, {}) end end --- Returns a copy of a document. -- This is the method version of `xml.clone`. -- @see xml.clone -- @name Doc:filter -- @tparam[opt] function strsubst an optional function for handling string copying Doc.filter = _M.clone -- also available as method do local function _compare(t1, t2, recurse_check) local ty1 = type(t1) local ty2 = type(t2) if ty1 ~= ty2 then return false, 'type mismatch' end if ty1 == 'string' then if t1 == t2 then return true else return false, 'text '..t1..' ~= text '..t2 end end if ty1 ~= 'table' or ty2 ~= 'table' then return false, 'not a document' end if recurse_check[t1] then return false, "recursive document" end recurse_check[t1] = true if t1.tag ~= t2.tag then return false, 'tag '..t1.tag..' ~= tag '..t2.tag end if #t1 ~= #t2 then return false, 'size '..#t1..' ~= size '..#t2..' for tag '..t1.tag end -- compare attributes for k,v in pairs(t1.attr) do local t2_value = t2.attr[k] if type(k) == "string" then if t2_value ~= v then return false, 'mismatch attrib' end else if t2_value ~= nil and t2_value ~= v then return false, "mismatch attrib order" end end end for k,v in pairs(t2.attr) do local t1_value = t1.attr[k] if type(k) == "string" then if t1_value ~= v then return false, 'mismatch attrib' end else if t1_value ~= nil and t1_value ~= v then return false, "mismatch attrib order" end end end -- compare children for i = 1, #t1 do local ok, err = _compare(t1[i], t2[i], recurse_check) if not ok then return ok, err end end return true end --- Compare two documents or elements. -- Equality is based on tag, child nodes (text and tags), attributes and order -- of those (order only fails if both are given, and not equal). -- @tparam Node|string t1 a Node object or string (text node) -- @tparam Node|string t2 a Node object or string (text node) -- @treturn boolean `true` when the Nodes are equal. function _M.compare(t1,t2) return _compare(t1, t2, {}) end end --- is this value a document element? -- @param d any value -- @treturn boolean `true` if it is a `table` with property `tag` being a string value. -- @name is_tag _M.is_tag = is_tag do local function _walk(doc, depth_first, operation, recurse_check) if not depth_first then operation(doc.tag, doc) end for _,d in ipairs(doc) do if is_tag(d) then assert(not recurse_check[d], "recursion detected") recurse_check[d] = true _walk(d, depth_first, operation, recurse_check) end end if depth_first then operation(doc.tag, doc) end end --- Calls a function recursively over Nodes in the document. -- Will only call on tags, it will skip text nodes. -- The function signature for `operation` is `function(tag_name, Node)`. -- @tparam Node|string doc a Node object or string (text node) -- @tparam boolean depth_first visit child nodes first, then the current node -- @tparam function operation a function which will receive the current tag name and current node. function _M.walk(doc, depth_first, operation) return _walk(doc, depth_first, operation, {}) end end local html_empty_elements = { --lists all HTML empty (void) elements br = true, img = true, meta = true, frame = true, area = true, hr = true, base = true, col = true, link = true, input = true, option = true, param = true, isindex = true, embed = true, } --- Parse a well-formed HTML file as a string. -- Tags are case-insenstive, DOCTYPE is ignored, and empty elements can be .. empty. -- @param s the HTML function _M.parsehtml(s) return _M.basic_parse(s,false,true) end --- Parse a simple XML document using a pure Lua parser based on Robero Ierusalimschy's original version. -- @param s the XML document to be parsed. -- @param all_text if true, preserves all whitespace. Otherwise only text containing non-whitespace is included. -- @param html if true, uses relaxed HTML rules for parsing function _M.basic_parse(s, all_text, html) local stack = {} local top = {} local function parseargs(s) local arg = {} s:gsub("([%w:%-_]+)%s*=%s*([\"'])(.-)%2", function (w, _, a) if html then w = w:lower() end arg[w] = xml_unescape(a) end) if html then s:gsub("([%w:%-_]+)%s*=%s*([^\"']+)%s*", function (w, a) w = w:lower() arg[w] = xml_unescape(a) end) end return arg end t_insert(stack, top) local ni,c,label,xarg, empty, _, istart local i = 1 local j -- we're not interested in _,istart = s_find(s,'^%s*<%?[^%?]+%?>%s*') if not istart then -- or _,istart = s_find(s,'^%s*%s*') end if istart then i = istart+1 end while true do ni,j,c,label,xarg, empty = s_find(s, "<([%/!]?)([%w:%-_]+)(.-)(%/?)>", i) if not ni then break end if c == "!" then -- comment -- case where there's no space inside comment if not (label:match '%-%-$' and xarg == '') then if xarg:match '%-%-$' then -- we've grabbed it all j = j - 2 end -- match end of comment _,j = s_find(s, "-->", j, true) end else local text = s_sub(s, i, ni-1) if html then label = label:lower() if html_empty_elements[label] then empty = "/" end end if all_text or not s_find(text, "^%s*$") then t_insert(top, xml_unescape(text)) end if empty == "/" then -- empty element tag t_insert(top, setmetatable({tag=label, attr=parseargs(xarg), empty=1},Doc)) elseif c == "" then -- start tag top = setmetatable({tag=label, attr=parseargs(xarg)},Doc) t_insert(stack, top) -- new level else -- end tag local toclose = t_remove(stack) -- remove top top = stack[#stack] if #stack < 1 then error("nothing to close with "..label..':'..text) end if toclose.tag ~= label then error("trying to close "..toclose.tag.." with "..label.." "..text) end t_insert(top, toclose) end end i = j+1 end local text = s_sub(s, i) if all_text or not s_find(text, "^%s*$") then t_insert(stack[#stack], xml_unescape(text)) end if #stack > 1 then error("unclosed "..stack[#stack].tag) end local res = stack[1] return is_text(res[1]) and res[2] or res[1] end do local match do local function empty(attr) return not attr or not next(attr) end local append_capture do -- returns the key,value pair from a table if it has exactly one entry local function has_one_element(t) local key,value = next(t) if next(t,key) ~= nil then return false end return key,value end function append_capture(res,tbl) if not empty(tbl) then -- no point in capturing empty tables... local key if tbl._ then -- if $_ was set then it is meant as the top-level key for the captured table key = tbl._ tbl._ = nil if empty(tbl) then return end end -- a table with only one pair {[0]=value} shall be reduced to that value local numkey,val = has_one_element(tbl) if numkey == 0 then tbl = val end if key then res[key] = tbl else -- otherwise, we append the captured table t_insert(res,tbl) end end end end local function make_number(pat) if pat:find '^%d+$' then -- $1 etc means use this as an array location pat = tonumber(pat) end return pat end local function capture_attrib(res,pat,value) pat = make_number(pat:sub(2)) res[pat] = value return true end function match(d,pat,res,keep_going) local ret = true if d == nil then d = '' end --return false end -- attribute string matching is straight equality, except if the pattern is a $ capture, -- which always succeeds. if is_text(d) then if not is_text(pat) then return false end if _M.debug then print(d,pat) end if pat:find '^%$' then return capture_attrib(res,pat,d) else return d == pat end else if _M.debug then print(d.tag,pat.tag) end -- this is an element node. For a match to succeed, the attributes must -- match as well. -- a tagname in the pattern ending with '-' is a wildcard and matches like an attribute local tagpat = pat.tag:match '^(.-)%-$' if tagpat then tagpat = make_number(tagpat) res[tagpat] = d.tag end if d.tag == pat.tag or tagpat then if not empty(pat.attr) then if empty(d.attr) then ret = false else for prop,pval in pairs(pat.attr) do local dval = d.attr[prop] if not match(dval,pval,res) then ret = false; break end end end end -- the pattern may have child nodes. We match partially, so that {P1,P2} shall match {X,P1,X,X,P2,..} if ret and #pat > 0 then local i,j = 1,1 local function next_elem() j = j + 1 -- next child element of data if is_text(d[j]) then j = j + 1 end return j <= #d end repeat local p = pat[i] -- repeated {{<...>}} patterns shall match one or more elements -- so e.g. {P+} will match {X,X,P,P,X,P,X,X,X} if is_tag(p) and p.repeated then local found repeat local tbl = {} ret = match(d[j],p,tbl,false) if ret then found = false --true append_capture(res,tbl) end until not next_elem() or (found and not ret) i = i + 1 else ret = match(d[j],p,res,false) if ret then i = i + 1 end end until not next_elem() or i > #pat -- run out of elements or patterns to match -- if every element in our pattern matched ok, then it's been a successful match if i > #pat then return true end end if ret then return true end else ret = false end -- keep going anyway - look at the children! if keep_going then for child in d:childtags() do ret = match(child,pat,res,keep_going) if ret then break end end end end return ret end end --- does something... function Doc:match(pat) local err pat,err = template_cache(pat) if not pat then return nil, err end _M.walk(pat,false,function(_,d) if is_text(d[1]) and is_tag(d[2]) and is_text(d[3]) and d[1]:find '%s*{{' and d[3]:find '}}%s*' then t_remove(d,1) t_remove(d,2) d[1].repeated = true end end) local res = {} local ret = match(self,pat,res,true) return res,ret end end return _M end, ["pl.app"] = function() -------------------- -- Module: 'pl.app' -------------------- --- Application support functions. -- See @{01-introduction.md.Application_Support|the Guide} -- -- Dependencies: `pl.utils`, `pl.path` -- @module pl.app local io,package,require = _G.io, _G.package, _G.require local utils = require 'pl.utils' local path = require 'pl.path' local app = {} --- return the name of the current script running. -- The name will be the name as passed on the command line -- @return string filename function app.script_name() if _G.arg and _G.arg[0] then return _G.arg[0] end return utils.raise("No script name found") end --- prefixes the current script's path to the Lua module path. -- Applies to both the source and the binary module paths. It makes it easy for -- the main file of a multi-file program to access its modules in the same directory. -- `base` allows these modules to be put in a specified subdirectory, to allow for -- cleaner deployment and resolve potential conflicts between a script name and its -- library directory. -- -- Note: the path is prefixed, so it is searched first when requiring modules. -- @string base optional base directory (absolute, or relative path). -- @bool nofollow always use the invocation's directory, even if the invoked file is a symlink -- @treturn string the current script's path with a trailing slash function app.require_here (base, nofollow) local p = app.script_name() if not path.isabs(p) then p = path.join(path.currentdir(),p) end if not nofollow then local t = path.link_attrib(p) if t and t.mode == 'link' then t = t.target if not path.isabs(t) then t = path.join(path.dirname(p), t) end p = t end end p = path.normpath(path.dirname(p)) if p:sub(-1,-1) ~= path.sep then p = p..path.sep end if base then if path.is_windows then base = base:gsub('/','\\') end if path.isabs(base) then p = base .. path.sep else p = p..base..path.sep end end local so_ext = path.is_windows and 'dll' or 'so' local lsep = package.path:find '^;' and '' or ';' local csep = package.cpath:find '^;' and '' or ';' package.path = ('%s?.lua;%s?%sinit.lua%s%s'):format(p,p,path.sep,lsep,package.path) package.cpath = ('%s?.%s%s%s'):format(p,so_ext,csep,package.cpath) return p end --- return a suitable path for files private to this application. -- These will look like '~/.SNAME/file', with '~' as with expanduser and -- SNAME is the name of the script without .lua extension. -- If the directory does not exist, it will be created. -- @string file a filename (w/out path) -- @return a full pathname, or nil -- @return cannot create directory error -- @usage -- -- when run from a script called 'testapp' (on Windows): -- local app = require 'pl.app' -- print(app.appfile 'test.txt') -- -- C:\Documents and Settings\steve\.testapp\test.txt function app.appfile(file) local sfullname, err = app.script_name() if not sfullname then return utils.raise(err) end local sname = path.basename(sfullname) local name = path.splitext(sname) local dir = path.join(path.expanduser('~'),'.'..name) if not path.isdir(dir) then local ret = path.mkdir(dir) if not ret then return utils.raise('cannot create '..dir) end end return path.join(dir,file) end --- return string indicating operating system. -- @return 'Windows','OSX' or whatever uname returns (e.g. 'Linux') function app.platform() if path.is_windows then return 'Windows' else local f = io.popen('uname') local res = f:read() if res == 'Darwin' then res = 'OSX' end f:close() return res end end --- return the full command-line used to invoke this script. -- It will not include the scriptname itself, see `app.script_name`. -- @return command-line -- @return name of Lua program used -- @usage -- -- execute: lua -lluacov -e 'print(_VERSION)' myscript.lua -- -- -- myscript.lua -- print(require("pl.app").lua()) --> "lua -lluacov -e 'print(_VERSION)'", "lua" function app.lua() local args = _G.arg if not args then return utils.raise "not in a main program" end local cmd = {} local i = -1 while true do table.insert(cmd, 1, args[i]) if not args[i-1] then return utils.quote_arg(cmd), args[i] end i = i - 1 end end --- parse command-line arguments into flags and parameters. -- Understands GNU-style command-line flags; short (`-f`) and long (`--flag`). -- -- These may be given a value with either '=' or ':' (`-k:2`,`--alpha=3.2`,`-n2`), -- a number value can be given without a space. If the flag is marked -- as having a value, then a space-separated value is also accepted (`-i hello`), -- see the `flags_with_values` argument). -- -- Multiple short args can be combined like so: ( `-abcd`). -- -- When specifying the `flags_valid` parameter, its contents can also contain -- aliasses, to convert short/long flags to the same output name. See the -- example below. -- -- Note: if a flag is repeated, the last value wins. -- @tparam {string} args an array of strings (default is the global `arg`) -- @tab flags_with_values any flags that take values, either list or hash -- table e.g. `{ out=true }` or `{ "out" }`. -- @tab flags_valid (optional) flags that are valid, either list or hashtable. -- If not given, everything -- will be accepted(everything in `flags_with_values` will automatically be allowed) -- @return a table of flags (flag=value pairs) -- @return an array of parameters -- @raise if args is nil, then the global `args` must be available! -- @usage -- -- Simple form: -- local flags, params = app.parse_args(nil, -- { "hello", "world" }, -- list of flags taking values -- { "l", "a", "b"}) -- list of allowed flags (value ones will be added) -- -- -- More complex example using aliasses: -- local valid = { -- long = "l", -- if 'l' is specified, it is reported as 'long' -- new = { "n", "old" }, -- here both 'n' and 'old' will go into 'new' -- } -- local values = { -- "value", -- will automatically be added to the allowed set of flags -- "new", -- will mark 'n' and 'old' as requiring a value as well -- } -- local flags, params = app.parse_args(nil, values, valid) -- -- -- command: myapp.lua -l --old:hello --value world param1 param2 -- -- will yield: -- flags = { -- long = true, -- input from 'l' -- new = "hello", -- input from 'old' -- value = "world", -- allowed because it was in 'values', note: space separated! -- } -- params = { -- [1] = "param1" -- [2] = "param2" -- } function app.parse_args (args,flags_with_values, flags_valid) if not args then args = _G.arg if not args then utils.raise "Not in a main program: 'arg' not found" end end local with_values = {} for k,v in pairs(flags_with_values or {}) do if type(k) == "number" then k = v end with_values[k] = true end local valid if not flags_valid then -- if no allowed flags provided, we create a table that always returns -- the keyname, no matter what you look up valid = setmetatable({},{ __index = function(_, key) return key end }) else valid = {} for k,aliasses in pairs(flags_valid) do if type(k) == "number" then -- array/list entry k = aliasses end if type(aliasses) == "string" then -- single alias aliasses = { aliasses } end if type(aliasses) == "table" then -- list of aliasses -- it's the alternate name, so add the proper mappings for i, alias in ipairs(aliasses) do valid[alias] = k end end valid[k] = k end do local new_with_values = {} -- needed to prevent "invalid key to 'next'" error for k,v in pairs(with_values) do if not valid[k] then valid[k] = k -- add the with_value entry as a valid one new_with_values[k] = true else new_with_values[valid[k]] = true --set, but by its alias end end with_values = new_with_values end end -- now check that all flags with values are reported as such under all -- of their aliasses for k, main_alias in pairs(valid) do if with_values[main_alias] then with_values[k] = true end end local _args = {} local flags = {} local i = 1 while i <= #args do local a = args[i] local v = a:match('^-(.+)') local is_long if not v then -- we have a parameter _args[#_args+1] = a else -- it's a flag if v:find '^-' then is_long = true v = v:sub(2) end if with_values[v] then if i == #args or args[i+1]:find '^-' then return utils.raise ("no value for '"..v.."'") end flags[valid[v]] = args[i+1] i = i + 1 else -- a value can also be indicated with = or : local var,val = utils.splitv (v,'[=:]', false, 2) var = var or v val = val or true if not is_long then if #var > 1 then if var:find '.%d+' then -- short flag, number value val = var:sub(2) var = var:sub(1,1) else -- multiple short flags for i = 1,#var do local f = var:sub(i,i) if not valid[f] then return utils.raise("unknown flag '"..f.."'") else f = valid[f] end flags[f] = true end val = nil -- prevents use of var as a flag below end else -- single short flag (can have value, defaults to true) val = val or true end end if val then if not valid[var] then return utils.raise("unknown flag '"..var.."'") else var = valid[var] end flags[var] = val end end end i = i + 1 end return flags,_args end return app end, ["pl.array2d"] = function() -------------------- -- Module: 'pl.array2d' -------------------- --- Operations on two-dimensional arrays. -- See @{02-arrays.md.Operations_on_two_dimensional_tables|The Guide} -- -- The size of the arrays is determined by using the length operator `#` hence -- the module is not `nil` safe, and the usual precautions apply. -- -- Note: all functions taking `i1,j1,i2,j2` as arguments will normalize the -- arguments using `default_range`. -- -- Dependencies: `pl.utils`, `pl.tablex`, `pl.types` -- @module pl.array2d local tonumber,tostring,io,ipairs,string,table = _G.tonumber,_G.tostring,_G.io,_G.ipairs,_G.string,_G.table local setmetatable,getmetatable = setmetatable,getmetatable local tablex = require 'pl.tablex' local utils = require 'pl.utils' local types = require 'pl.types' local imap,tmap,reduce,keys,tmap2,tset,index_by = tablex.imap,tablex.map,tablex.reduce,tablex.keys,tablex.map2,tablex.set,tablex.index_by local remove = table.remove local splitv,fprintf,assert_arg = utils.splitv,utils.fprintf,utils.assert_arg local byte = string.byte local stdout = io.stdout local min = math.min local array2d = {} local function obj (int,out) local mt = getmetatable(int) if mt then setmetatable(out,mt) end return out end local function makelist (res) return setmetatable(res, require('pl.List')) end --- return the row and column size. -- Size is calculated using the Lua length operator #, so usual precautions -- regarding `nil` values apply. -- @array2d a a 2d array -- @treturn int number of rows (`#a`) -- @treturn int number of cols (`#a[1]`) function array2d.size (a) assert_arg(1,a,'table') return #a,#a[1] end do local function index (t,k) return t[k] end --- extract a column from the 2D array. -- @array2d a 2d array -- @param j column index -- @return 1d array function array2d.column (a,j) assert_arg(1,a,'table') return makelist(imap(index,a,j)) end end local column = array2d.column --- extract a row from the 2D array. -- Added in line with `column`, for read-only purposes directly -- accessing a[i] is more performant. -- @array2d a 2d array -- @param i row index -- @return 1d array (copy of the row) function array2d.row(a,i) assert_arg(1,a,'table') local row = a[i] local r = {} for n,v in ipairs(row) do r[n] = v end return makelist(r) end --- map a function over a 2D array -- @func f a function of at least one argument -- @array2d a 2d array -- @param arg an optional extra argument to be passed to the function. -- @return 2d array function array2d.map (f,a,arg) assert_arg(2,a,'table') f = utils.function_arg(1,f) return obj(a,imap(function(row) return imap(f,row,arg) end, a)) end --- reduce the rows using a function. -- @func f a binary function -- @array2d a 2d array -- @return 1d array -- @see pl.tablex.reduce function array2d.reduce_rows (f,a) assert_arg(1,a,'table') return tmap(function(row) return reduce(f,row) end, a) end --- reduce the columns using a function. -- @func f a binary function -- @array2d a 2d array -- @return 1d array -- @see pl.tablex.reduce function array2d.reduce_cols (f,a) assert_arg(1,a,'table') return tmap(function(c) return reduce(f,column(a,c)) end, keys(a[1])) end --- reduce a 2D array into a scalar, using two operations. -- @func opc operation to reduce the final result -- @func opr operation to reduce the rows -- @param a 2D array function array2d.reduce2 (opc,opr,a) assert_arg(3,a,'table') local tmp = array2d.reduce_rows(opr,a) return reduce(opc,tmp) end --- map a function over two arrays. -- They can be both or either 2D arrays -- @func f function of at least two arguments -- @int ad order of first array (`1` if `a` is a list/array, `2` if it is a 2d array) -- @int bd order of second array (`1` if `b` is a list/array, `2` if it is a 2d array) -- @tab a 1d or 2d array -- @tab b 1d or 2d array -- @param arg optional extra argument to pass to function -- @return 2D array, unless both arrays are 1D function array2d.map2 (f,ad,bd,a,b,arg) assert_arg(1,a,'table') assert_arg(2,b,'table') f = utils.function_arg(1,f) if ad == 1 and bd == 2 then return imap(function(row) return tmap2(f,a,row,arg) end, b) elseif ad == 2 and bd == 1 then return imap(function(row) return tmap2(f,row,b,arg) end, a) elseif ad == 1 and bd == 1 then return tmap2(f,a,b) elseif ad == 2 and bd == 2 then return tmap2(function(rowa,rowb) return tmap2(f,rowa,rowb,arg) end, a,b) end end --- cartesian product of two 1d arrays. -- @func f a function of 2 arguments -- @array t1 a 1d table -- @array t2 a 1d table -- @return 2d table -- @usage product('..',{1,2},{'a','b'}) == {{'1a','2a'},{'1b','2b'}} function array2d.product (f,t1,t2) f = utils.function_arg(1,f) assert_arg(2,t1,'table') assert_arg(3,t2,'table') local res = {} for i,v in ipairs(t2) do res[i] = tmap(f,t1,v) end return res end --- flatten a 2D array. -- (this goes over columns first.) -- @array2d t 2d table -- @return a 1d table -- @usage flatten {{1,2},{3,4},{5,6}} == {1,2,3,4,5,6} function array2d.flatten (t) local res = {} local k = 1 local rows, cols = array2d.size(t) for r = 1, rows do local row = t[r] for c = 1, cols do res[k] = row[c] k = k + 1 end end return makelist(res) end --- reshape a 2D array. Reshape the aray by specifying a new nr of rows. -- @array2d t 2d array -- @int nrows new number of rows -- @bool co use column-order (Fortran-style) (default false) -- @return a new 2d array function array2d.reshape (t,nrows,co) local nr,nc = array2d.size(t) local ncols = nr*nc / nrows local res = {} local ir,ic = 1,1 for i = 1,nrows do local row = {} for j = 1,ncols do row[j] = t[ir][ic] if not co then ic = ic + 1 if ic > nc then ir = ir + 1 ic = 1 end else ir = ir + 1 if ir > nr then ic = ic + 1 ir = 1 end end end res[i] = row end return obj(t,res) end --- transpose a 2D array. -- @array2d t 2d array -- @return a new 2d array function array2d.transpose(t) assert_arg(1,t,'table') local _, c = array2d.size(t) return array2d.reshape(t,c,true) end --- swap two rows of an array. -- @array2d t a 2d array -- @int i1 a row index -- @int i2 a row index -- @return t (same, modified 2d array) function array2d.swap_rows (t,i1,i2) assert_arg(1,t,'table') t[i1],t[i2] = t[i2],t[i1] return t end --- swap two columns of an array. -- @array2d t a 2d array -- @int j1 a column index -- @int j2 a column index -- @return t (same, modified 2d array) function array2d.swap_cols (t,j1,j2) assert_arg(1,t,'table') for _, row in ipairs(t) do row[j1],row[j2] = row[j2],row[j1] end return t end --- extract the specified rows. -- @array2d t 2d array -- @tparam {int} ridx a table of row indices -- @return a new 2d array with the extracted rows function array2d.extract_rows (t,ridx) return obj(t,index_by(t,ridx)) end --- extract the specified columns. -- @array2d t 2d array -- @tparam {int} cidx a table of column indices -- @return a new 2d array with the extracted colums function array2d.extract_cols (t,cidx) assert_arg(1,t,'table') local res = {} for i = 1,#t do res[i] = index_by(t[i],cidx) end return obj(t,res) end --- remove a row from an array. -- @function array2d.remove_row -- @array2d t a 2d array -- @int i a row index array2d.remove_row = remove --- remove a column from an array. -- @array2d t a 2d array -- @int j a column index function array2d.remove_col (t,j) assert_arg(1,t,'table') for i = 1,#t do remove(t[i],j) end end do local function _parse (s) local r, c = s:match 'R(%d+)C(%d+)' if r then r,c = tonumber(r),tonumber(c) return r,c end c,r = s:match '(%a+)(%d+)' if c then local cv = 0 for i = 1, #c do cv = cv * 26 + byte(c:sub(i,i)) - byte 'A' + 1 end return tonumber(r), cv end error('bad cell specifier: '..s) end --- parse a spreadsheet range or cell. -- The range/cell can be specified either as 'A1:B2' or 'R1C1:R2C2' or for -- single cells as 'A1' or 'R1C1'. -- @string s a range (case insensitive). -- @treturn int start row -- @treturn int start col -- @treturn int end row (or `nil` if the range was a single cell) -- @treturn int end col (or `nil` if the range was a single cell) function array2d.parse_range (s) assert_arg(1,s,'string') s = s:upper() if s:find ':' then local start,finish = splitv(s,':') local i1,j1 = _parse(start) local i2,j2 = _parse(finish) return i1,j1,i2,j2 else -- single value local i,j = _parse(s) return i,j end end end --- get a slice of a 2D array. -- Same as `slice`. -- @see slice function array2d.range (...) return array2d.slice(...) end local default_range do local function norm_value(v, max) if not v then return v end if v < 0 then v = max + v + 1 end if v < 1 then v = 1 end if v > max then v = max end return v end --- normalizes coordinates to valid positive entries and defaults. -- Negative indices will be counted from the end, too low, or too high -- will be limited by the array sizes. -- @array2d t a 2D array -- @tparam[opt=1] int|string i1 start row or spreadsheet range passed to `parse_range` -- @tparam[opt=1] int j1 start col -- @tparam[opt=N] int i2 end row -- @tparam[opt=M] int j2 end col -- @see parse_range -- @return i1, j1, i2, j2 function array2d.default_range (t,i1,j1,i2,j2) if (type(i1) == 'string') and not (j1 or i2 or j2) then i1, j1, i2, j2 = array2d.parse_range(i1) end local nr, nc = array2d.size(t) i1 = norm_value(i1 or 1, nr) j1 = norm_value(j1 or 1, nc) i2 = norm_value(i2 or nr, nr) j2 = norm_value(j2 or nc, nc) return i1,j1,i2,j2 end default_range = array2d.default_range end --- get a slice of a 2D array. Note that if the specified range has -- a 1D result, the rank of the result will be 1. -- @array2d t a 2D array -- @tparam[opt=1] int|string i1 start row or spreadsheet range passed to `parse_range` -- @tparam[opt=1] int j1 start col -- @tparam[opt=N] int i2 end row -- @tparam[opt=M] int j2 end col -- @see parse_range -- @return an array, 2D in general but 1D in special cases. function array2d.slice (t,i1,j1,i2,j2) assert_arg(1,t,'table') i1,j1,i2,j2 = default_range(t,i1,j1,i2,j2) local res = {} for i = i1,i2 do local val local row = t[i] if j1 == j2 then val = row[j1] else val = {} for j = j1,j2 do val[#val+1] = row[j] end end res[#res+1] = val end if i1 == i2 then res = res[1] end return obj(t,res) end --- set a specified range of an array to a value. -- @array2d t a 2D array -- @param value the value (may be a function, called as `val(i,j)`) -- @tparam[opt=1] int|string i1 start row or spreadsheet range passed to `parse_range` -- @tparam[opt=1] int j1 start col -- @tparam[opt=N] int i2 end row -- @tparam[opt=M] int j2 end col -- @see parse_range -- @see tablex.set function array2d.set (t,value,i1,j1,i2,j2) i1,j1,i2,j2 = default_range(t,i1,j1,i2,j2) local i = i1 if types.is_callable(value) then local old_f = value value = function(j) return old_f(i,j) end end while i <= i2 do tset(t[i],value,j1,j2) i = i + 1 end end --- write a 2D array to a file. -- @array2d t a 2D array -- @param f a file object (default stdout) -- @string fmt a format string (default is just to use tostring) -- @tparam[opt=1] int|string i1 start row or spreadsheet range passed to `parse_range` -- @tparam[opt=1] int j1 start col -- @tparam[opt=N] int i2 end row -- @tparam[opt=M] int j2 end col -- @see parse_range function array2d.write (t,f,fmt,i1,j1,i2,j2) assert_arg(1,t,'table') f = f or stdout local rowop if fmt then rowop = function(row,j) fprintf(f,fmt,row[j]) end else rowop = function(row,j) f:write(tostring(row[j]),' ') end end local function newline() f:write '\n' end array2d.forall(t,rowop,newline,i1,j1,i2,j2) end --- perform an operation for all values in a 2D array. -- @array2d t 2D array -- @func row_op function to call on each value; `row_op(row,j)` -- @func end_row_op function to call at end of each row; `end_row_op(i)` -- @tparam[opt=1] int|string i1 start row or spreadsheet range passed to `parse_range` -- @tparam[opt=1] int j1 start col -- @tparam[opt=N] int i2 end row -- @tparam[opt=M] int j2 end col -- @see parse_range function array2d.forall (t,row_op,end_row_op,i1,j1,i2,j2) assert_arg(1,t,'table') i1,j1,i2,j2 = default_range(t,i1,j1,i2,j2) for i = i1,i2 do local row = t[i] for j = j1,j2 do row_op(row,j) end if end_row_op then end_row_op(i) end end end ---- move a block from the destination to the source. -- @array2d dest a 2D array -- @int di start row in dest -- @int dj start col in dest -- @array2d src a 2D array -- @tparam[opt=1] int|string i1 start row or spreadsheet range passed to `parse_range` -- @tparam[opt=1] int j1 start col -- @tparam[opt=N] int i2 end row -- @tparam[opt=M] int j2 end col -- @see parse_range function array2d.move (dest,di,dj,src,i1,j1,i2,j2) assert_arg(1,dest,'table') assert_arg(4,src,'table') i1,j1,i2,j2 = default_range(src,i1,j1,i2,j2) local nr,nc = array2d.size(dest) i2, j2 = min(nr,i2), min(nc,j2) --i1, j1 = max(1,i1), max(1,j1) dj = dj - 1 for i = i1,i2 do local drow, srow = dest[i+di-1], src[i] for j = j1,j2 do drow[j+dj] = srow[j] end end end --- iterate over all elements in a 2D array, with optional indices. -- @array2d a 2D array -- @bool indices with indices (default false) -- @tparam[opt=1] int|string i1 start row or spreadsheet range passed to `parse_range` -- @tparam[opt=1] int j1 start col -- @tparam[opt=N] int i2 end row -- @tparam[opt=M] int j2 end col -- @see parse_range -- @return either `value` or `i,j,value` depending on the value of `indices` function array2d.iter(a,indices,i1,j1,i2,j2) assert_arg(1,a,'table') i1,j1,i2,j2 = default_range(a,i1,j1,i2,j2) local i,j = i1,j1-1 local row = a[i] return function() j = j + 1 if j > j2 then j = j1 i = i + 1 row = a[i] if i > i2 then return nil end end if indices then return i,j,row[j] else return row[j] end end end --- iterate over all columns. -- @array2d a a 2D array -- @return column, column-index function array2d.columns(a) assert_arg(1,a,'table') local n = #a[1] local i = 0 return function() i = i + 1 if i > n then return nil end return column(a,i), i end end --- iterate over all rows. -- Returns a copy of the row, for read-only purposes directly iterating -- is more performant; `ipairs(a)` -- @array2d a a 2D array -- @return row, row-index function array2d.rows(a) assert_arg(1,a,'table') local n = #a local i = 0 return function() i = i + 1 if i > n then return nil end return array2d.row(a,i), i end end --- new array of specified dimensions -- @int rows number of rows -- @int cols number of cols -- @param val initial value; if it's a function then use `val(i,j)` -- @return new 2d array function array2d.new(rows,cols,val) local res = {} local fun = types.is_callable(val) for i = 1,rows do local row = {} if fun then for j = 1,cols do row[j] = val(i,j) end else for j = 1,cols do row[j] = val end end res[i] = row end return res end return array2d end, ["pl.class"] = function() -------------------- -- Module: 'pl.class' -------------------- --- Provides a reuseable and convenient framework for creating classes in Lua. -- Two possible notations: -- -- B = class(A) -- class.B(A) -- -- The latter form creates a named class within the current environment. Note -- that this implicitly brings in `pl.utils` as a dependency. -- -- See the Guide for further @{01-introduction.md.Simplifying_Object_Oriented_Programming_in_Lua|discussion} -- @module pl.class local error, getmetatable, io, pairs, rawget, rawset, setmetatable, tostring, type = _G.error, _G.getmetatable, _G.io, _G.pairs, _G.rawget, _G.rawset, _G.setmetatable, _G.tostring, _G.type local compat -- this trickery is necessary to prevent the inheritance of 'super' and -- the resulting recursive call problems. local function call_ctor (c,obj,...) local init = rawget(c,'_init') local parent_with_init = rawget(c,'_parent_with_init') if parent_with_init then if not init then -- inheriting an init init = rawget(parent_with_init, '_init') parent_with_init = rawget(parent_with_init, '_parent_with_init') end if parent_with_init then -- super() points to one above whereever _init came from rawset(obj,'super',function(obj,...) call_ctor(parent_with_init,obj,...) end) end else -- Without this, calling super() where none exists will sometimes loop and stack overflow rawset(obj,'super',nil) end local res = init(obj,...) if parent_with_init then -- If this execution of call_ctor set a super, unset it rawset(obj,'super',nil) end return res end --- initializes an __instance__ upon creation. -- @function class:_init -- @param ... parameters passed to the constructor -- @usage local Cat = class() -- function Cat:_init(name) -- --self:super(name) -- call the ancestor initializer if needed -- self.name = name -- end -- -- local pussycat = Cat("pussycat") -- print(pussycat.name) --> pussycat --- checks whether an __instance__ is derived from some class. -- Works the other way around as `class_of`. It has two ways of using; -- 1) call with a class to check against, 2) call without params. -- @function instance:is_a -- @param some_class class to check against, or `nil` to return the class -- @return `true` if `instance` is derived from `some_class`, or if `some_class == nil` then -- it returns the class table of the instance -- @usage local pussycat = Lion() -- assuming Lion derives from Cat -- if pussycat:is_a(Cat) then -- -- it's true, it is a Lion, but also a Cat -- end -- -- if pussycat:is_a() == Lion then -- -- It's true -- end local function is_a(self,klass) if klass == nil then -- no class provided, so return the class this instance is derived from return getmetatable(self) end local m = getmetatable(self) if not m then return false end --*can't be an object! while m do if m == klass then return true end m = rawget(m,'_base') end return false end --- checks whether an __instance__ is derived from some class. -- Works the other way around as `is_a`. -- @function some_class:class_of -- @param some_instance instance to check against -- @return `true` if `some_instance` is derived from `some_class` -- @usage local pussycat = Lion() -- assuming Lion derives from Cat -- if Cat:class_of(pussycat) then -- -- it's true -- end local function class_of(klass,obj) if type(klass) ~= 'table' or not rawget(klass,'is_a') then return false end return klass.is_a(obj,klass) end --- cast an object to another class. -- It is not clever (or safe!) so use carefully. -- @param some_instance the object to be changed -- @function some_class:cast local function cast (klass, obj) return setmetatable(obj,klass) end local function _class_tostring (obj) local mt = obj._class local name = rawget(mt,'_name') setmetatable(obj,nil) local str = tostring(obj) setmetatable(obj,mt) if name then str = name ..str:gsub('table','') end return str end local function tupdate(td,ts,dont_override) for k,v in pairs(ts) do if not dont_override or td[k] == nil then td[k] = v end end end local function _class(base,c_arg,c) -- the class `c` will be the metatable for all its objects, -- and they will look up their methods in it. local mt = {} -- a metatable for the class to support __call and _handler -- can define class by passing it a plain table of methods local plain = type(base) == 'table' and not getmetatable(base) if plain then c = base base = c._base else c = c or {} end if type(base) == 'table' then -- our new class is a shallow copy of the base class! -- but be careful not to wipe out any methods we have been given at this point! tupdate(c,base,plain) c._base = base -- inherit the 'not found' handler, if present if rawget(c,'_handler') then mt.__index = c._handler end elseif base ~= nil then error("must derive from a table type",3) end c.__index = c setmetatable(c,mt) if not plain then if base and rawget(base,'_init') then c._parent_with_init = base end -- For super and inherited init c._init = nil end if base and rawget(base,'_class_init') then base._class_init(c,c_arg) end -- expose a ctor which can be called by () mt.__call = function(class_tbl,...) local obj if rawget(c,'_create') then obj = c._create(...) end if not obj then obj = {} end setmetatable(obj,c) if rawget(c,'_init') or rawget(c,'_parent_with_init') then -- constructor exists local res = call_ctor(c,obj,...) if res then -- _if_ a ctor returns a value, it becomes the object... obj = res setmetatable(obj,c) end end if base and rawget(base,'_post_init') then base._post_init(obj) end return obj end -- Call Class.catch to set a handler for methods/properties not found in the class! c.catch = function(self, handler) if type(self) == "function" then -- called using . instead of : handler = self end c._handler = handler mt.__index = handler end c.is_a = is_a c.class_of = class_of c.cast = cast c._class = c if not rawget(c,'__tostring') then c.__tostring = _class_tostring end return c end --- create a new class, derived from a given base class. -- Supporting two class creation syntaxes: -- either `Name = class(base)` or `class.Name(base)`. -- The first form returns the class directly and does not set its `_name`. -- The second form creates a variable `Name` in the current environment set -- to the class, and also sets `_name`. -- @function class -- @param base optional base class -- @param c_arg optional parameter to class constructor -- @param c optional table to be used as class local class class = setmetatable({},{ __call = function(fun,...) return _class(...) end, __index = function(tbl,key) if key == 'class' then io.stderr:write('require("pl.class").class is deprecated. Use require("pl.class")\n') return class end compat = compat or require 'pl.compat' local env = compat.getfenv(2) return function(...) local c = _class(...) c._name = key rawset(env,key,c) return c end end }) class.properties = class() function class.properties._class_init(klass) klass.__index = function(t,key) -- normal class lookup! local v = klass[key] if v then return v end -- is it a getter? v = rawget(klass,'get_'..key) if v then return v(t) end -- is it a field? return rawget(t,'_'..key) end klass.__newindex = function (t,key,value) -- if there's a setter, use that, otherwise directly set table local p = 'set_'..key local setter = klass[p] if setter then setter(t,value) else rawset(t,key,value) end end end return class end, ["pl.compat"] = function() -------------------- -- Module: 'pl.compat' -------------------- ---------------- --- Lua 5.1/5.2/5.3 compatibility. -- Injects `table.pack`, `table.unpack`, and `package.searchpath` in the global -- environment, to make sure they are available for Lua 5.1 and LuaJIT. -- -- All other functions are exported as usual in the returned module table. -- -- NOTE: everything in this module is also available in `pl.utils`. -- @module pl.compat local compat = {} --- boolean flag this is Lua 5.1 (or LuaJIT). -- @field lua51 compat.lua51 = _VERSION == 'Lua 5.1' --- boolean flag this is LuaJIT. -- @field jit compat.jit = (tostring(assert):match('builtin') ~= nil) --- boolean flag this is LuaJIT with 5.2 compatibility compiled in. -- @field jit52 if compat.jit then -- 'goto' is a keyword when 52 compatibility is enabled in LuaJit compat.jit52 = not loadstring("local goto = 1") end --- the directory separator character for the current platform. -- @field dir_separator compat.dir_separator = _G.package.config:sub(1,1) --- boolean flag this is a Windows platform. -- @field is_windows compat.is_windows = compat.dir_separator == '\\' --- execute a shell command, in a compatible and platform independent way. -- This is a compatibility function that returns the same for Lua 5.1 and -- Lua 5.2+. -- -- NOTE: Windows systems can use signed 32bit integer exitcodes. Posix systems -- only use exitcodes 0-255, anything else is undefined. -- -- NOTE2: In Lua 5.2 and 5.3 a Windows exitcode of -1 would not properly be -- returned, this function will return it properly for all versions. -- @param cmd a shell command -- @return true if successful -- @return actual return code function compat.execute(cmd) local res1,res2,res3 = os.execute(cmd) if res2 == "No error" and res3 == 0 and compat.is_windows then -- os.execute bug in Lua 5.2/5.3 not reporting -1 properly on Windows -- this was fixed in 5.4 res3 = -1 end if compat.lua51 and not compat.jit52 then if compat.is_windows then return res1==0,res1 else res1 = res1 > 255 and res1 / 256 or res1 return res1==0,res1 end else if compat.is_windows then return res3==0,res3 else return not not res1,res3 end end end ---------------- -- Load Lua code as a text or binary chunk (in a Lua 5.2 compatible way). -- @param ld code string or loader -- @param[opt] source name of chunk for errors -- @param[opt] mode 'b', 't' or 'bt' -- @param[opt] env environment to load the chunk in -- @function compat.load --------------- -- Get environment of a function (in a Lua 5.1 compatible way). -- Not 100% compatible, so with Lua 5.2 it may return nil for a function with no -- global references! -- Based on code by [Sergey Rozhenko](http://lua-users.org/lists/lua-l/2010-06/msg00313.html) -- @param f a function or a call stack reference -- @function compat.getfenv --------------- -- Set environment of a function (in a Lua 5.1 compatible way). -- @param f a function or a call stack reference -- @param env a table that becomes the new environment of `f` -- @function compat.setfenv if compat.lua51 then -- define Lua 5.2 style load() if not compat.jit then -- but LuaJIT's load _is_ compatible local lua51_load = load function compat.load(str,src,mode,env) local chunk,err if type(str) == 'string' then if str:byte(1) == 27 and not (mode or 'bt'):find 'b' then return nil,"attempt to load a binary chunk" end chunk,err = loadstring(str,src) else chunk,err = lua51_load(str,src) end if chunk and env then setfenv(chunk,env) end return chunk,err end else compat.load = load end compat.setfenv, compat.getfenv = setfenv, getfenv else compat.load = load -- setfenv/getfenv replacements for Lua 5.2 -- by Sergey Rozhenko -- http://lua-users.org/lists/lua-l/2010-06/msg00313.html -- Roberto Ierusalimschy notes that it is possible for getfenv to return nil -- in the case of a function with no globals: -- http://lua-users.org/lists/lua-l/2010-06/msg00315.html function compat.setfenv(f, t) f = (type(f) == 'function' and f or debug.getinfo(f + 1, 'f').func) local name local up = 0 repeat up = up + 1 name = debug.getupvalue(f, up) until name == '_ENV' or name == nil if name then debug.upvaluejoin(f, up, function() return name end, 1) -- use unique upvalue debug.setupvalue(f, up, t) end if f ~= 0 then return f end end function compat.getfenv(f) local f = f or 0 f = (type(f) == 'function' and f or debug.getinfo(f + 1, 'f').func) local name, val local up = 0 repeat up = up + 1 name, val = debug.getupvalue(f, up) until name == '_ENV' or name == nil return val end end --- Global exported functions (for Lua 5.1 & LuaJIT) -- @section lua52 --- pack an argument list into a table. -- @param ... any arguments -- @return a table with field n set to the length -- @function table.pack if not table.pack then function table.pack (...) -- luacheck: ignore return {n=select('#',...); ...} end end --- unpack a table and return the elements. -- -- NOTE: this version does NOT honor the n field, and hence it is not nil-safe. -- See `utils.unpack` for a version that is nil-safe. -- @param t table to unpack -- @param[opt] i index from which to start unpacking, defaults to 1 -- @param[opt] j index of the last element to unpack, defaults to #t -- @return multiple return values from the table -- @function table.unpack -- @see utils.unpack if not table.unpack then table.unpack = unpack -- luacheck: ignore end --- return the full path where a file name would be matched. -- This function was introduced in Lua 5.2, so this compatibility version -- will be injected in Lua 5.1 engines. -- @string name file name, possibly dotted -- @string path a path-template in the same form as package.path or package.cpath -- @string[opt] sep template separate character to be replaced by path separator. Default: "." -- @string[opt] rep the path separator to use, defaults to system separator. Default; "/" on Unixes, "\" on Windows. -- @see path.package_path -- @function package.searchpath -- @return on success: path of the file -- @return on failure: nil, error string listing paths tried if not package.searchpath then function package.searchpath (name,path,sep,rep) -- luacheck: ignore if type(name) ~= "string" then error(("bad argument #1 to 'searchpath' (string expected, got %s)"):format(type(path)), 2) end if type(path) ~= "string" then error(("bad argument #2 to 'searchpath' (string expected, got %s)"):format(type(path)), 2) end if sep ~= nil and type(sep) ~= "string" then error(("bad argument #3 to 'searchpath' (string expected, got %s)"):format(type(path)), 2) end if rep ~= nil and type(rep) ~= "string" then error(("bad argument #4 to 'searchpath' (string expected, got %s)"):format(type(path)), 2) end sep = sep or "." rep = rep or compat.dir_separator do local s, e = name:find(sep, nil, true) while s do name = name:sub(1, s-1) .. rep .. name:sub(e+1, -1) s, e = name:find(sep, s + #rep + 1, true) end end local tried = {} for m in path:gmatch('[^;]+') do local nm = m:gsub('?', name) tried[#tried+1] = nm local f = io.open(nm,'r') if f then f:close(); return nm end end return nil, "\tno file '" .. table.concat(tried, "'\n\tno file '") .. "'" end end --- Global exported functions (for Lua < 5.4) -- @section lua54 --- raise a warning message. -- This functions mimics the `warn` function added in Lua 5.4. -- @function warn -- @param ... any arguments if not rawget(_G, "warn") then local enabled = false local function warn(arg1, ...) if type(arg1) == "string" and arg1:sub(1, 1) == "@" then -- control message if arg1 == "@on" then enabled = true return end if arg1 == "@off" then enabled = false return end return -- ignore unknown control messages end if enabled then io.stderr:write("Lua warning: ", arg1, ...) io.stderr:write("\n") end end -- use rawset to bypass OpenResty's protection of global scope rawset(_G, "warn", warn) end return compat end, ["pl.comprehension"] = function() -------------------- -- Module: 'pl.comprehension' -------------------- --- List comprehensions implemented in Lua. -- -- See the [wiki page](http://lua-users.org/wiki/ListComprehensions) -- -- local C= require 'pl.comprehension' . new() -- -- C ('x for x=1,10') () -- ==> {1,2,3,4,5,6,7,8,9,10} -- C 'x^2 for x=1,4' () -- ==> {1,4,9,16} -- C '{x,x^2} for x=1,4' () -- ==> {{1,1},{2,4},{3,9},{4,16}} -- C '2*x for x' {1,2,3} -- ==> {2,4,6} -- dbl = C '2*x for x' -- dbl {10,20,30} -- ==> {20,40,60} -- C 'x for x if x % 2 == 0' {1,2,3,4,5} -- ==> {2,4} -- C '{x,y} for x = 1,2 for y = 1,2' () -- ==> {{1,1},{1,2},{2,1},{2,2}} -- C '{x,y} for x for y' ({1,2},{10,20}) -- ==> {{1,10},{1,20},{2,10},{2,20}} -- assert(C 'sum(x^2 for x)' {2,3,4} == 2^2+3^2+4^2) -- -- (c) 2008 David Manura. Licensed under the same terms as Lua (MIT license). -- -- Dependencies: `pl.utils`, `pl.luabalanced` -- -- See @{07-functional.md.List_Comprehensions|the Guide} -- @module pl.comprehension local utils = require 'pl.utils' local status,lb = pcall(require, "pl.luabalanced") if not status then lb = require 'luabalanced' end local math_max = math.max local table_concat = table.concat -- fold operations -- http://en.wikipedia.org/wiki/Fold_(higher-order_function) local ops = { list = {init=' {} ', accum=' __result[#__result+1] = (%s) '}, table = {init=' {} ', accum=' local __k, __v = %s __result[__k] = __v '}, sum = {init=' 0 ', accum=' __result = __result + (%s) '}, min = {init=' nil ', accum=' local __tmp = %s ' .. ' if __result then if __tmp < __result then ' .. '__result = __tmp end else __result = __tmp end '}, max = {init=' nil ', accum=' local __tmp = %s ' .. ' if __result then if __tmp > __result then ' .. '__result = __tmp end else __result = __tmp end '}, } -- Parses comprehension string expr. -- Returns output expression list string, array of for types -- ('=', 'in' or nil) , array of input variable name -- strings , array of input variable value strings -- , array of predicate expression strings , -- operation name string , and number of placeholder -- parameters . -- -- The is equivalent to the mathematical set-builder notation: -- -- { | in , } -- -- @usage "x^2 for x" -- array values -- @usage "x^2 for x=1,10,2" -- numeric for -- @usage "k^v for k,v in pairs(_1)" -- iterator for -- @usage "(x+y)^2 for x for y if x > y" -- nested -- local function parse_comprehension(expr) local pos = 1 -- extract opname (if exists) local opname local tok, post = expr:match('^%s*([%a_][%w_]*)%s*%(()', pos) local pose = #expr + 1 if tok then local tok2, posb = lb.match_bracketed(expr, post-1) assert(tok2, 'syntax error') if expr:match('^%s*$', posb) then opname = tok pose = posb - 1 pos = post end end opname = opname or "list" -- extract out expression list local out; out, pos = lb.match_explist(expr, pos) assert(out, "syntax error: missing expression list") out = table_concat(out, ', ') -- extract "for" clauses local fortypes = {} local invarlists = {} local invallists = {} while 1 do local post = expr:match('^%s*for%s+()', pos) if not post then break end pos = post -- extract input vars local iv; iv, pos = lb.match_namelist(expr, pos) assert(#iv > 0, 'syntax error: zero variables') for _,ident in ipairs(iv) do assert(not ident:match'^__', "identifier " .. ident .. " may not contain __ prefix") end invarlists[#invarlists+1] = iv -- extract '=' or 'in' (optional) local fortype, post = expr:match('^(=)%s*()', pos) if not fortype then fortype, post = expr:match('^(in)%s+()', pos) end if fortype then pos = post -- extract input value range local il; il, pos = lb.match_explist(expr, pos) assert(#il > 0, 'syntax error: zero expressions') assert(fortype ~= '=' or #il == 2 or #il == 3, 'syntax error: numeric for requires 2 or three expressions') fortypes[#invarlists] = fortype invallists[#invarlists] = il else fortypes[#invarlists] = false invallists[#invarlists] = false end end assert(#invarlists > 0, 'syntax error: missing "for" clause') -- extract "if" clauses local preds = {} while 1 do local post = expr:match('^%s*if%s+()', pos) if not post then break end pos = post local pred; pred, pos = lb.match_expression(expr, pos) assert(pred, 'syntax error: predicated expression not found') preds[#preds+1] = pred end -- extract number of parameter variables (name matching "_%d+") local stmp = ''; lb.gsub(expr, function(u, sin) -- strip comments/strings if u == 'e' then stmp = stmp .. ' ' .. sin .. ' ' end end) local max_param = 0; stmp:gsub('[%a_][%w_]*', function(s) local s = s:match('^_(%d+)$') if s then max_param = math_max(max_param, tonumber(s)) end end) if pos ~= pose then assert(false, "syntax error: unrecognized " .. expr:sub(pos)) end --DEBUG: --print('----\n', string.format("%q", expr), string.format("%q", out), opname) --for k,v in ipairs(invarlists) do print(k,v, invallists[k]) end --for k,v in ipairs(preds) do print(k,v) end return out, fortypes, invarlists, invallists, preds, opname, max_param end -- Create Lua code string representing comprehension. -- Arguments are in the form returned by parse_comprehension. local function code_comprehension( out, fortypes, invarlists, invallists, preds, opname, max_param ) local op = assert(ops[opname]) local code = op.accum:gsub('%%s', out) for i=#preds,1,-1 do local pred = preds[i] code = ' if ' .. pred .. ' then ' .. code .. ' end ' end for i=#invarlists,1,-1 do if not fortypes[i] then local arrayname = '__in' .. i local idx = '__idx' .. i code = ' for ' .. idx .. ' = 1, #' .. arrayname .. ' do ' .. ' local ' .. invarlists[i][1] .. ' = ' .. arrayname .. '['..idx..'] ' .. code .. ' end ' else code = ' for ' .. table_concat(invarlists[i], ', ') .. ' ' .. fortypes[i] .. ' ' .. table_concat(invallists[i], ', ') .. ' do ' .. code .. ' end ' end end code = ' local __result = ( ' .. op.init .. ' ) ' .. code return code end -- Convert code string represented by code_comprehension -- into Lua function. Also must pass ninputs = #invarlists, -- max_param, and invallists (from parse_comprehension). -- Uses environment env. local function wrap_comprehension(code, ninputs, max_param, invallists, env) assert(ninputs > 0) local ts = {} for i=1,max_param do ts[#ts+1] = '_' .. i end for i=1,ninputs do if not invallists[i] then local name = '__in' .. i ts[#ts+1] = name end end if #ts > 0 then code = ' local ' .. table_concat(ts, ', ') .. ' = ... ' .. code end code = code .. ' return __result ' --print('DEBUG:', code) local f, err = utils.load(code,'tmp','t',env) if not f then assert(false, err .. ' with generated code ' .. code) end return f end -- Build Lua function from comprehension string. -- Uses environment env. local function build_comprehension(expr, env) local out, fortypes, invarlists, invallists, preds, opname, max_param = parse_comprehension(expr) local code = code_comprehension( out, fortypes, invarlists, invallists, preds, opname, max_param) local f = wrap_comprehension(code, #invarlists, max_param, invallists, env) return f end -- Creates new comprehension cache. -- Any list comprehension function created are set to the environment -- env (defaults to caller of new). local function new(env) -- Note: using a single global comprehension cache would have had -- security implications (e.g. retrieving cached functions created -- in other environments). -- The cache lookup function could have instead been written to retrieve -- the caller's environment, lookup up the cache private to that -- environment, and then looked up the function in that cache. -- That would avoid the need for this call to -- explicitly manage caches; however, that might also have an undue -- performance penalty. if not env then env = utils.getfenv(2) end local mt = {} local cache = setmetatable({}, mt) -- Index operator builds, caches, and returns Lua function -- corresponding to comprehension expression string. -- -- Example: f = comprehension['x^2 for x'] -- function mt:__index(expr) local f = build_comprehension(expr, env) self[expr] = f -- cache return f end -- Convenience syntax. -- Allows comprehension 'x^2 for x' instead of comprehension['x^2 for x']. mt.__call = mt.__index cache.new = new return cache end local comprehension = {} comprehension.new = new return comprehension end, ["pl.config"] = function() -------------------- -- Module: 'pl.config' -------------------- --- Reads configuration files into a Lua table. -- Understands INI files, classic Unix config files, and simple -- delimited columns of values. See @{06-data.md.Reading_Configuration_Files|the Guide} -- -- # test.config -- # Read timeout in seconds -- read.timeout=10 -- # Write timeout in seconds -- write.timeout=5 -- #acceptable ports -- ports = 1002,1003,1004 -- -- -- readconfig.lua -- local config = require 'config' -- local t = config.read 'test.config' -- print(pretty.write(t)) -- -- ### output ##### -- { -- ports = { -- 1002, -- 1003, -- 1004 -- }, -- write_timeout = 5, -- read_timeout = 10 -- } -- -- @module pl.config local type,tonumber,ipairs,io, table = _G.type,_G.tonumber,_G.ipairs,_G.io,_G.table local function split(s,re) local res = {} local t_insert = table.insert re = '[^'..re..']+' for k in s:gmatch(re) do t_insert(res,k) end return res end local function strip(s) return s:gsub('^%s+',''):gsub('%s+$','') end local function strip_quotes (s) return s:gsub("['\"](.*)['\"]",'%1') end local config = {} --- like `io.lines`, but allows for lines to be continued with '`\`'. -- @param file a file-like object (anything where read() returns the next line) or a filename. -- Defaults to stardard input. -- @return an iterator over the lines, or nil -- @return error 'not a file-like object' or 'file is nil' function config.lines(file) local f,openf,err local line = '' if type(file) == 'string' then f,err = io.open(file,'r') if not f then return nil,err end openf = true else f = file or io.stdin if not file.read then return nil, 'not a file-like object' end end if not f then return nil, 'file is nil' end return function() local l = f:read() while l do -- only for non-blank lines that don't begin with either ';' or '#' if l:match '%S' and not l:match '^%s*[;#]' then -- does the line end with '\'? local i = l:find '\\%s*$' if i then -- if so, line = line..l:sub(1,i-1) elseif line == '' then return l else l = line..l line = '' return l end end l = f:read() end if openf then f:close() end end end --- read a configuration file into a table -- @param file either a file-like object or a string, which must be a filename -- @tab[opt] cnfg a configuration table that may contain these fields: -- -- * `smart` try to deduce what kind of config file we have (default false) -- * `variabilize` make names into valid Lua identifiers (default true) -- * `convert_numbers` try to convert values into numbers (default true) -- * `trim_space` ensure that there is no starting or trailing whitespace with values (default true) -- * `trim_quotes` remove quotes from strings (default false) -- * `list_delim` delimiter to use when separating columns (default ',') -- * `keysep` separator between key and value pairs (default '=') -- -- @return a table containing items, or `nil` -- @return error message (same as @{config.lines} function config.read(file,cnfg) local auto local iter,err = config.lines(file) if not iter then return nil,err end local line = iter() cnfg = cnfg or {} if cnfg.smart then auto = true if line:match '^[^=]+=' then cnfg.keysep = '=' elseif line:match '^[^:]+:' then cnfg.keysep = ':' cnfg.list_delim = ':' elseif line:match '^%S+%s+' then cnfg.keysep = ' ' -- more than two columns assume that it's a space-delimited list -- cf /etc/fstab with /etc/ssh/ssh_config if line:match '^%S+%s+%S+%s+%S+' then cnfg.list_delim = ' ' end cnfg.variabilize = false end end local function check_cnfg (var,def) local val = cnfg[var] if val == nil then return def else return val end end local initial_digits = '^[%d%+%-]' local t = {} local top_t = t local variabilize = check_cnfg ('variabilize',true) local list_delim = check_cnfg('list_delim',',') local convert_numbers = check_cnfg('convert_numbers',true) local convert_boolean = check_cnfg('convert_boolean',false) local trim_space = check_cnfg('trim_space',true) local trim_quotes = check_cnfg('trim_quotes',false) local ignore_assign = check_cnfg('ignore_assign',false) local keysep = check_cnfg('keysep','=') local keypat = keysep == ' ' and '%s+' or '%s*'..keysep..'%s*' if list_delim == ' ' then list_delim = '%s+' end local function process_name(key) if variabilize then key = key:gsub('[^%w]','_') end return key end local function process_value(value) if list_delim and value:find(list_delim) then value = split(value,list_delim) for i,v in ipairs(value) do value[i] = process_value(v) end elseif convert_numbers and value:find(initial_digits) then local val = tonumber(value) if not val and value:match ' kB$' then value = value:gsub(' kB','') val = tonumber(value) end if val then value = val end elseif convert_boolean and value == 'true' then return true elseif convert_boolean and value == 'false' then return false end if type(value) == 'string' then if trim_space then value = strip(value) end if not trim_quotes and auto and value:match '^"' then trim_quotes = true end if trim_quotes then value = strip_quotes(value) end end return value end while line do if line:find('^%[') then -- section! local section = process_name(line:match('%[([^%]]+)%]')) t = top_t t[section] = {} t = t[section] else line = line:gsub('^%s*','') local i1,i2 = line:find(keypat) if i1 and not ignore_assign then -- key,value assignment local key = process_name(line:sub(1,i1-1)) local value = process_value(line:sub(i2+1)) t[key] = value else -- a plain list of values... t[#t+1] = process_value(line) end end line = iter() end return top_t end return config end, ["pl.data"] = function() -------------------- -- Module: 'pl.data' -------------------- --- Reading and querying simple tabular data. -- -- data.read 'test.txt' -- ==> {{10,20},{2,5},{40,50},fieldnames={'x','y'},delim=','} -- -- Provides a way of creating basic SQL-like queries. -- -- require 'pl' -- local d = data.read('xyz.txt') -- local q = d:select('x,y,z where x > 3 and z < 2 sort by y') -- for x,y,z in q do -- print(x,y,z) -- end -- -- See @{06-data.md.Reading_Columnar_Data|the Guide} -- -- Dependencies: `pl.utils`, `pl.array2d` (fallback methods) -- @module pl.data local utils = require 'pl.utils' local _DEBUG = rawget(_G,'_DEBUG') local patterns,function_arg,usplit,array_tostring = utils.patterns,utils.function_arg,utils.split,utils.array_tostring local append,concat = table.insert,table.concat local gsub = string.gsub local io = io local _G,print,type,tonumber,ipairs,setmetatable = _G,print,type,tonumber,ipairs,setmetatable local data = {} local parse_select local function rstrip(s) return (s:gsub('%s+$','')) end local function strip (s) return (rstrip(s):gsub('^%s*','')) end -- This gives `l` the standard List metatable, -- pulling in the List module. local function makelist(l) return setmetatable(l, require('pl.List')) end local function map(fun,t) local res = {} for i = 1,#t do res[i] = fun(t[i]) end return res end local function split(line,delim,csv,n) local massage -- CSV fields may be double-quoted and may contain commas! if csv and line:match '"' then line = line:gsub('"([^"]+)"',function(str) local s,cnt = str:gsub(',','\001') if cnt > 0 then massage = true end return s end) if massage then massage = function(s) return (s:gsub('\001',',')) end end end local res = (usplit(line,delim,false,n)) if csv then -- restore CSV commas-in-fields if massage then res = map(massage,res) end -- in CSV mode trailiing commas are significant! if line:match ',$' then append(res,'') end end return makelist(res) end local function find(t,v) for i = 1,#t do if v == t[i] then return i end end end local DataMT = { column_by_name = function(self,name) if type(name) == 'number' then name = '$'..name end local arr = {} for res in data.query(self,name) do append(arr,res) end return makelist(arr) end, copy_select = function(self,condn) condn = parse_select(condn,self) local iter = data.query(self,condn) local res = {} local row = makelist{iter()} while #row > 0 do append(res,row) row = makelist{iter()} end res.delim = self.delim return data.new(res,split(condn.fields,',')) end, column_names = function(self) return self.fieldnames end, } local array2d DataMT.__index = function(self,name) local f = DataMT[name] if f then return f end if not array2d then array2d = require 'pl.array2d' end return array2d[name] end --- return a particular column as a list of values (method). -- @param name either name of column, or numerical index. -- @function Data.column_by_name --- return a query iterator on this data (method). -- @string condn the query expression -- @function Data.select -- @see data.query --- return a row iterator on this data (method). -- @string condn the query expression -- @function Data.select_row --- return a new data object based on this query (method). -- @string condn the query expression -- @function Data.copy_select --- return the field names of this data object (method). -- @function Data.column_names --- write out a row (method). -- @param f file-like object -- @function Data.write_row --- write data out to file (method). -- @param f file-like object -- @function Data.write -- [guessing delimiter] We check for comma, tab and spaces in that order. -- [issue] any other delimiters to be checked? local delims = {',', '\t', ' ', ';'} local function guess_delim (line) if line=='' then return ' ' end for _,delim in ipairs(delims) do if line:find(delim) then return delim == ' ' and '%s+' or delim end end return ' ' end -- [file parameter] If it's a string, we try open as a filename. If nil, then -- either stdin or stdout depending on the mode. Otherwise, check if this is -- a file-like object (implements read or write depending) local function open_file (f,mode) local opened, err local reading = mode == 'r' if type(f) == 'string' then if f == 'stdin' then f = io.stdin elseif f == 'stdout' then f = io.stdout else f,err = io.open(f,mode) if not f then return nil,err end opened = true end end if f and ((reading and not f.read) or (not reading and not f.write)) then return nil, "not a file-like object" end return f,nil,opened end --- read a delimited file in a Lua table. -- By default, attempts to treat first line as separated list of fieldnames. -- @param file a filename or a file-like object -- @tab cnfg parsing options -- @string cnfg.delim a string pattern to split fields -- @array cnfg.fieldnames (i.e. don't read from first line) -- @bool cnfg.no_convert (default is to try conversion on first data line) -- @tab cnfg.convert table of custom conversion functions with column keys -- @int cnfg.numfields indices of columns known to be numbers -- @bool cnfg.last_field_collect only split as many fields as fieldnames. -- @int cnfg.thousands_dot thousands separator in Excel CSV is '.' -- @bool cnfg.csv fields may be double-quoted and contain commas; -- Also, empty fields are considered to be equivalent to zero. -- @return `data` object, or `nil` -- @return error message. May be a file error, 'not a file-like object' -- or a conversion error function data.read(file,cnfg) local count,line local D = {} if not cnfg then cnfg = {} end local f,err,opened = open_file(file,'r') if not f then return nil, err end local thousands_dot = cnfg.thousands_dot local csv = cnfg.csv if csv then cnfg.delim = ',' end -- note that using dot as the thousands separator (@thousands_dot) -- requires a special conversion function! For CSV, _empty fields_ are -- considered to default to numerial zeroes. local tonumber = tonumber local function try_number(x) if thousands_dot then x = x:gsub('%.(...)','%1') end if csv and x == '' then x = '0' end local v = tonumber(x) if v == nil then return nil,"not a number" end return v end count = 1 line = f:read() if not line then return nil, "empty file" end -- first question: what is the delimiter? D.delim = cnfg.delim and cnfg.delim or guess_delim(line) local delim = D.delim local conversion local numfields = {} local function append_conversion (idx,conv) conversion = conversion or {} append(numfields,idx) append(conversion,conv) end if cnfg.numfields then for _,n in ipairs(cnfg.numfields) do append_conversion(n,try_number) end end -- some space-delimited data starts with a space. This should not be a column, -- although it certainly would be for comma-separated, etc. local stripper if delim == '%s+' and line:find(delim) == 1 then stripper = function(s) return s:gsub('^%s+','') end line = stripper(line) end -- first line will usually be field names. Unless fieldnames are specified, -- we check if it contains purely numerical values for the case of reading -- plain data files. if not cnfg.fieldnames then local fields,nums fields = split(line,delim,csv) if not cnfg.convert then nums = map(tonumber,fields) if #nums == #fields then -- they're ALL numbers! append(D,nums) -- add the first converted row -- and specify conversions for subsequent rows for i = 1,#nums do append_conversion(i,try_number) end else -- we'll try to check numbers just now.. nums = nil end else -- [explicit column conversions] (any deduced number conversions will be added) for idx,conv in pairs(cnfg.convert) do append_conversion(idx,conv) end end if nums == nil then cnfg.fieldnames = fields end line = f:read() count = count + 1 if stripper then line = stripper(line) end elseif type(cnfg.fieldnames) == 'string' then cnfg.fieldnames = split(cnfg.fieldnames,delim,csv) end local nfields -- at this point, the column headers have been read in. If the first -- row consisted of numbers, it has already been added to the dataset. if cnfg.fieldnames then D.fieldnames = cnfg.fieldnames -- [collecting end field] If @last_field_collect then we'll -- only split as many fields as there are fieldnames if cnfg.last_field_collect then nfields = #D.fieldnames end -- [implicit column conversion] unless @no_convert, we need the numerical field indices -- of the first data row. These can also be specified explicitly by @numfields. if not cnfg.no_convert then local fields = split(line,D.delim,csv,nfields) for i = 1,#fields do if not find(numfields,i) and try_number(fields[i]) then append_conversion(i,try_number) end end end end -- keep going until finished while line do if not line:find ('^%s*$') then -- [blank lines] ignore them! if stripper then line = stripper(line) end local fields = split(line,delim,csv,nfields) if conversion then -- there were field conversions... for k = 1,#numfields do local i,conv = numfields[k],conversion[k] local val,err = conv(fields[i]) if val == nil then return nil, err..": "..fields[i].." at line "..count else fields[i] = val end end end append(D,fields) end line = f:read() count = count + 1 end if opened then f:close() end if delim == '%s+' then D.delim = ' ' end if not D.fieldnames then D.fieldnames = {} end return data.new(D) end local function write_row (data,f,row,delim) data.temp = array_tostring(row,data.temp) f:write(concat(data.temp,delim),'\n') end function DataMT:write_row(f,row) write_row(self,f,row,self.delim) end --- write 2D data to a file. -- Does not assume that the data has actually been -- generated with `new` or `read`. -- @param data 2D array -- @param file filename or file-like object -- @tparam[opt] {string} fieldnames list of fields (optional) -- @string[opt='\t'] delim delimiter (default tab) -- @return true or nil, error function data.write (data,file,fieldnames,delim) local f,err,opened = open_file(file,'w') if not f then return nil, err end if not fieldnames then fieldnames = data.fieldnames end delim = delim or '\t' if fieldnames and #fieldnames > 0 then f:write(concat(fieldnames,delim),'\n') end for i = 1,#data do write_row(data,f,data[i],delim) end if opened then f:close() end return true end function DataMT:write(file) data.write(self,file,self.fieldnames,self.delim) end local function massage_fieldnames (fields,copy) -- fieldnames must be valid Lua identifiers; ignore any surrounding padding -- but keep the original fieldnames... for i = 1,#fields do local f = strip(fields[i]) copy[i] = f fields[i] = f:gsub('%W','_') end end --- create a new dataset from a table of rows. -- Can specify the fieldnames, else the table must have a field called -- 'fieldnames', which is either a string of delimiter-separated names, -- or a table of names.
-- If the table does not have a field called 'delim', then an attempt will be -- made to guess it from the fieldnames string, defaults otherwise to tab. -- @param d the table. -- @tparam[opt] {string} fieldnames optional fieldnames -- @return the table. function data.new (d,fieldnames) d.fieldnames = d.fieldnames or fieldnames or '' if not d.delim and type(d.fieldnames) == 'string' then d.delim = guess_delim(d.fieldnames) d.fieldnames = split(d.fieldnames,d.delim) end d.fieldnames = makelist(d.fieldnames) d.original_fieldnames = {} massage_fieldnames(d.fieldnames,d.original_fieldnames) setmetatable(d,DataMT) -- a query with just the fieldname will return a sequence -- of values, which seq.copy turns into a table. return d end local sorted_query = [[ return function (t) local i = 0 local v local ls = {} for i,v in ipairs(t) do if CONDITION then ls[#ls+1] = v end end table.sort(ls,function(v1,v2) return SORT_EXPR end) local n = #ls return function() i = i + 1 v = ls[i] if i > n then return end return FIELDLIST end end ]] -- question: is this optimized case actually worth the extra code? local simple_query = [[ return function (t) local n = #t local i = 0 local v return function() repeat i = i + 1 v = t[i] until i > n or CONDITION if i > n then return end return FIELDLIST end end ]] local function is_string (s) return type(s) == 'string' end local field_error local function fieldnames_as_string (data) return concat(data.fieldnames,',') end local function massage_fields(data,f) local idx if f:find '^%d+$' then idx = tonumber(f) else idx = find(data.fieldnames,f) end if idx then return 'v['..idx..']' else field_error = f..' not found in '..fieldnames_as_string(data) return f end end local function process_select (data,parms) --- preparing fields ---- field_error = nil local fields = parms.fields local numfields = fields:find '%$' or #data.fieldnames == 0 if fields:find '^%s*%*%s*' then if not numfields then fields = fieldnames_as_string(data) else local ncol = #data[1] fields = {} for i = 1,ncol do append(fields,'$'..i) end fields = concat(fields,',') end end local idpat = patterns.IDEN if numfields then idpat = '%$(%d+)' else -- massage field names to replace non-identifier chars fields = rstrip(fields):gsub('[^,%w]','_') end local massage_fields = utils.bind1(massage_fields,data) local ret = gsub(fields,idpat,massage_fields) if field_error then return nil,field_error end parms.fields = fields parms.proc_fields = ret parms.where = parms.where or 'true' if is_string(parms.where) then parms.where = gsub(parms.where,idpat,massage_fields) field_error = nil end return true end parse_select = function(s,data) local endp local parms = {} local w1,w2 = s:find('where ') local s1,s2 = s:find('sort by ') if w1 then -- where clause! endp = (s1 or 0)-1 parms.where = s:sub(w2+1,endp) end if s1 then -- sort by clause (must be last!) parms.sort_by = s:sub(s2+1) end endp = (w1 or s1 or 0)-1 parms.fields = s:sub(1,endp) local status,err = process_select(data,parms) if not status then return nil,err else return parms end end --- create a query iterator from a select string. -- Select string has this format:
-- FIELDLIST [ where LUA-CONDN [ sort by FIELD] ]
-- FIELDLIST is a comma-separated list of valid fields, or '*'.

-- The condition can also be a table, with fields 'fields' (comma-sep string or -- table), 'sort_by' (string) and 'where' (Lua expression string or function) -- @param data table produced by read -- @param condn select string or table -- @param context a list of tables to be searched when resolving functions -- @param return_row if true, wrap the results in a row table -- @return an iterator over the specified fields, or nil -- @return an error message function data.query(data,condn,context,return_row) local err if is_string(condn) then condn,err = parse_select(condn,data) if not condn then return nil,err end elseif type(condn) == 'table' then if type(condn.fields) == 'table' then condn.fields = concat(condn.fields,',') end if not condn.proc_fields then local status,err = process_select(data,condn) if not status then return nil,err end end else return nil, "condition must be a string or a table" end local query if condn.sort_by then -- use sorted_query query = sorted_query else query = simple_query end local fields = condn.proc_fields or condn.fields if return_row then fields = '{'..fields..'}' end query = query:gsub('FIELDLIST',fields) if is_string(condn.where) then query = query:gsub('CONDITION',condn.where) condn.where = nil else query = query:gsub('CONDITION','_condn(v)') condn.where = function_arg(0,condn.where,'condition.where must be callable') end if condn.sort_by then local expr,sort_var,sort_dir local sort_by = condn.sort_by local i1,i2 = sort_by:find('%s+') if i1 then sort_var,sort_dir = sort_by:sub(1,i1-1),sort_by:sub(i2+1) else sort_var = sort_by sort_dir = 'asc' end if sort_var:match '^%$' then sort_var = sort_var:sub(2) end sort_var = massage_fields(data,sort_var) if field_error then return nil,field_error end if sort_dir == 'asc' then sort_dir = '<' else sort_dir = '>' end expr = ('%s %s %s'):format(sort_var:gsub('v','v1'),sort_dir,sort_var:gsub('v','v2')) query = query:gsub('SORT_EXPR',expr) end if condn.where then query = 'return function(_condn) '..query..' end' end if _DEBUG then print(query) end local fn,err = utils.load(query,'tmp') if not fn then return nil,err end fn = fn() -- get the function if condn.where then fn = fn(condn.where) end local qfun = fn(data) if context then -- [specifying context for condition] @context is a list of tables which are -- 'injected'into the condition's custom context append(context,_G) local lookup = {} utils.setfenv(qfun,lookup) setmetatable(lookup,{ __index = function(tbl,key) -- _G.print(tbl,key) for k,t in ipairs(context) do if t[key] then return t[key] end end end }) end return qfun end DataMT.select = data.query DataMT.select_row = function(d,condn,context) return data.query(d,condn,context,true) end --- Filter input using a query. -- @string Q a query string -- @param infile filename or file-like object -- @param outfile filename or file-like object -- @bool dont_fail true if you want to return an error, not just fail function data.filter (Q,infile,outfile,dont_fail) local d = data.read(infile or 'stdin') local out = open_file(outfile or 'stdout') local iter,err = d:select(Q) local delim = d.delim if not iter then err = 'error: '..err if dont_fail then return nil,err else utils.quit(1,err) end end while true do local res = {iter()} if #res == 0 then break end out:write(concat(res,delim),'\n') end end return data end, ["pl.Date"] = function() -------------------- -- Module: 'pl.Date' -------------------- --- Date and Date Format classes. -- See @{05-dates.md|the Guide}. -- -- NOTE: the date module is deprecated! see -- https://github.com/lunarmodules/Penlight/issues/285 -- -- Dependencies: `pl.class`, `pl.stringx`, `pl.utils` -- @classmod pl.Date -- @pragma nostrip local class = require 'pl.class' local os_time, os_date = os.time, os.date local stringx = require 'pl.stringx' local utils = require 'pl.utils' local assert_arg,assert_string = utils.assert_arg,utils.assert_string utils.raise_deprecation { source = "Penlight " .. utils._VERSION, message = "the 'Date' module is deprecated, see https://github.com/lunarmodules/Penlight/issues/285", version_removed = "2.0.0", version_deprecated = "1.9.2", } local Date = class() Date.Format = class() --- Date constructor. -- @param t this can be either -- -- * `nil` or empty - use current date and time -- * number - seconds since epoch (as returned by `os.time`). Resulting time is UTC -- * `Date` - make a copy of this date -- * table - table containing year, month, etc as for `os.time`. You may leave out year, month or day, -- in which case current values will be used. -- * year (will be followed by month, day etc) -- -- @param ... true if Universal Coordinated Time, or two to five numbers: month,day,hour,min,sec -- @function Date function Date:_init(t,...) local time local nargs = select('#',...) if nargs > 2 then local extra = {...} local year = t t = { year = year, month = extra[1], day = extra[2], hour = extra[3], min = extra[4], sec = extra[5] } end if nargs == 1 then self.utc = select(1,...) == true end if t == nil or t == 'utc' then time = os_time() self.utc = t == 'utc' elseif type(t) == 'number' then time = t if self.utc == nil then self.utc = true end elseif type(t) == 'table' then if getmetatable(t) == Date then -- copy ctor time = t.time self.utc = t.utc else if not (t.year and t.month) then local lt = os_date('*t') if not t.year and not t.month and not t.day then t.year = lt.year t.month = lt.month t.day = lt.day else t.year = t.year or lt.year t.month = t.month or (t.day and lt.month or 1) t.day = t.day or 1 end end t.day = t.day or 1 time = os_time(t) end else error("bad type for Date constructor: "..type(t),2) end self:set(time) end --- set the current time of this Date object. -- @int t seconds since epoch function Date:set(t) self.time = t if self.utc then self.tab = os_date('!*t',t) else self.tab = os_date('*t',t) end end --- get the time zone offset from UTC. -- @int ts seconds ahead of UTC function Date.tzone (ts) if ts == nil then ts = os_time() elseif type(ts) == "table" then if getmetatable(ts) == Date then ts = ts.time else ts = Date(ts).time end end local utc = os_date('!*t',ts) local lcl = os_date('*t',ts) lcl.isdst = false return os.difftime(os_time(lcl), os_time(utc)) end --- convert this date to UTC. function Date:toUTC () local ndate = Date(self) if not self.utc then ndate.utc = true ndate:set(ndate.time) end return ndate end --- convert this UTC date to local. function Date:toLocal () local ndate = Date(self) if self.utc then ndate.utc = false ndate:set(ndate.time) --~ ndate:add { sec = Date.tzone(self) } end return ndate end --- set the year. -- @int y Four-digit year -- @class function -- @name Date:year --- set the month. -- @int m month -- @class function -- @name Date:month --- set the day. -- @int d day -- @class function -- @name Date:day --- set the hour. -- @int h hour -- @class function -- @name Date:hour --- set the minutes. -- @int min minutes -- @class function -- @name Date:min --- set the seconds. -- @int sec seconds -- @class function -- @name Date:sec --- set the day of year. -- @class function -- @int yday day of year -- @name Date:yday --- get the year. -- @int y Four-digit year -- @class function -- @name Date:year --- get the month. -- @class function -- @name Date:month --- get the day. -- @class function -- @name Date:day --- get the hour. -- @class function -- @name Date:hour --- get the minutes. -- @class function -- @name Date:min --- get the seconds. -- @class function -- @name Date:sec --- get the day of year. -- @class function -- @name Date:yday for _,c in ipairs{'year','month','day','hour','min','sec','yday'} do Date[c] = function(self,val) if val then assert_arg(1,val,"number") self.tab[c] = val self:set(os_time(self.tab)) return self else return self.tab[c] end end end --- name of day of week. -- @bool full abbreviated if true, full otherwise. -- @ret string name function Date:weekday_name(full) return os_date(full and '%A' or '%a',self.time) end --- name of month. -- @int full abbreviated if true, full otherwise. -- @ret string name function Date:month_name(full) return os_date(full and '%B' or '%b',self.time) end --- is this day on a weekend?. function Date:is_weekend() return self.tab.wday == 1 or self.tab.wday == 7 end --- add to a date object. -- @param t a table containing one of the following keys and a value: -- one of `year`,`month`,`day`,`hour`,`min`,`sec` -- @return this date function Date:add(t) local old_dst = self.tab.isdst local key,val = next(t) self.tab[key] = self.tab[key] + val self:set(os_time(self.tab)) if old_dst ~= self.tab.isdst then self.tab.hour = self.tab.hour - (old_dst and 1 or -1) self:set(os_time(self.tab)) end return self end --- last day of the month. -- @return int day function Date:last_day() local d = 28 local m = self.tab.month while self.tab.month == m do d = d + 1 self:add{day=1} end self:add{day=-1} return self end --- difference between two Date objects. -- @tparam Date other Date object -- @treturn Date.Interval object function Date:diff(other) local dt = self.time - other.time if dt < 0 then error("date difference is negative!",2) end return Date.Interval(dt) end --- long numerical ISO data format version of this date. function Date:__tostring() local fmt = '%Y-%m-%dT%H:%M:%S' if self.utc then fmt = "!"..fmt end local t = os_date(fmt,self.time) if self.utc then return t .. 'Z' else local offs = self:tzone() if offs == 0 then return t .. 'Z' end local sign = offs > 0 and '+' or '-' local h = math.ceil(offs/3600) local m = (offs % 3600)/60 if m == 0 then return t .. ('%s%02d'):format(sign,h) else return t .. ('%s%02d:%02d'):format(sign,h,m) end end end --- equality between Date objects. function Date:__eq(other) return self.time == other.time end --- ordering between Date objects. function Date:__lt(other) return self.time < other.time end --- difference between Date objects. -- @function Date:__sub Date.__sub = Date.diff --- add a date and an interval. -- @param other either a `Date.Interval` object or a table such as -- passed to `Date:add` function Date:__add(other) local nd = Date(self) if Date.Interval:class_of(other) then other = {sec=other.time} end nd:add(other) return nd end Date.Interval = class(Date) ---- Date.Interval constructor -- @int t an interval in seconds -- @function Date.Interval function Date.Interval:_init(t) self:set(t) end function Date.Interval:set(t) self.time = t self.tab = os_date('!*t',self.time) end local function ess(n) if n > 1 then return 's ' else return ' ' end end --- If it's an interval then the format is '2 hours 29 sec' etc. function Date.Interval:__tostring() local t, res = self.tab, '' local y,m,d = t.year - 1970, t.month - 1, t.day - 1 if y > 0 then res = res .. y .. ' year'..ess(y) end if m > 0 then res = res .. m .. ' month'..ess(m) end if d > 0 then res = res .. d .. ' day'..ess(d) end if y == 0 and m == 0 then local h = t.hour if h > 0 then res = res .. h .. ' hour'..ess(h) end if t.min > 0 then res = res .. t.min .. ' min ' end if t.sec > 0 then res = res .. t.sec .. ' sec ' end end if res == '' then res = 'zero' end return res end ------------ Date.Format class: parsing and renderinig dates ------------ -- short field names, explicit os.date names, and a mask for allowed field repeats local formats = { d = {'day',{true,true}}, y = {'year',{false,true,false,true}}, m = {'month',{true,true}}, H = {'hour',{true,true}}, M = {'min',{true,true}}, S = {'sec',{true,true}}, } --- Date.Format constructor. -- @string fmt. A string where the following fields are significant: -- -- * d day (either d or dd) -- * y year (either yy or yyy) -- * m month (either m or mm) -- * H hour (either H or HH) -- * M minute (either M or MM) -- * S second (either S or SS) -- -- Alternatively, if fmt is nil then this returns a flexible date parser -- that tries various date/time schemes in turn: -- -- * [ISO 8601](http://en.wikipedia.org/wiki/ISO_8601), like `2010-05-10 12:35:23Z` or `2008-10-03T14:30+02` -- * times like 15:30 or 8.05pm (assumed to be today's date) -- * dates like 28/10/02 (European order!) or 5 Feb 2012 -- * month name like march or Mar (case-insensitive, first 3 letters); here the -- day will be 1 and the year this current year -- -- A date in format 3 can be optionally followed by a time in format 2. -- Please see test-date.lua in the tests folder for more examples. -- @usage df = Date.Format("yyyy-mm-dd HH:MM:SS") -- @class function -- @name Date.Format function Date.Format:_init(fmt) if not fmt then self.fmt = '%Y-%m-%d %H:%M:%S' self.outf = self.fmt self.plain = true return end local append = table.insert local D,PLUS,OPENP,CLOSEP = '\001','\002','\003','\004' local vars,used = {},{} local patt,outf = {},{} local i = 1 while i < #fmt do local ch = fmt:sub(i,i) local df = formats[ch] if df then if used[ch] then error("field appeared twice: "..ch,4) end used[ch] = true -- this field may be repeated local _,inext = fmt:find(ch..'+',i+1) local cnt = not _ and 1 or inext-i+1 if not df[2][cnt] then error("wrong number of fields: "..ch,4) end -- single chars mean 'accept more than one digit' local p = cnt==1 and (D..PLUS) or (D):rep(cnt) append(patt,OPENP..p..CLOSEP) append(vars,ch) if ch == 'y' then append(outf,cnt==2 and '%y' or '%Y') else append(outf,'%'..ch) end i = i + cnt else append(patt,ch) append(outf,ch) i = i + 1 end end -- escape any magic characters fmt = utils.escape(table.concat(patt)) -- fmt = table.concat(patt):gsub('[%-%.%+%[%]%(%)%$%^%%%?%*]','%%%1') -- replace markers with their magic equivalents fmt = fmt:gsub(D,'%%d'):gsub(PLUS,'+'):gsub(OPENP,'('):gsub(CLOSEP,')') self.fmt = fmt self.outf = table.concat(outf) self.vars = vars end local parse_date --- parse a string into a Date object. -- @string str a date string -- @return date object function Date.Format:parse(str) assert_string(1,str) if self.plain then return parse_date(str,self.us) end local res = {str:match(self.fmt)} if #res==0 then return nil, 'cannot parse '..str end local tab = {} for i,v in ipairs(self.vars) do local name = formats[v][1] -- e.g. 'y' becomes 'year' tab[name] = tonumber(res[i]) end -- os.date() requires these fields; if not present, we assume -- that the time set is for the current day. if not (tab.year and tab.month and tab.day) then local today = Date() tab.year = tab.year or today:year() tab.month = tab.month or today:month() tab.day = tab.day or today:day() end local Y = tab.year if Y < 100 then -- classic Y2K pivot tab.year = Y + (Y < 35 and 2000 or 1999) elseif not Y then tab.year = 1970 end return Date(tab) end --- convert a Date object into a string. -- @param d a date object, or a time value as returned by @{os.time} -- @return string function Date.Format:tostring(d) local tm local fmt = self.outf if type(d) == 'number' then tm = d else tm = d.time if d.utc then fmt = '!'..fmt end end return os_date(fmt,tm) end --- force US order in dates like 9/11/2001 function Date.Format:US_order(yesno) self.us = yesno end --local months = {jan=1,feb=2,mar=3,apr=4,may=5,jun=6,jul=7,aug=8,sep=9,oct=10,nov=11,dec=12} local months local parse_date_unsafe local function create_months() local ld, day1 = parse_date_unsafe '2000-12-31', {day=1} months = {} for i = 1,12 do ld = ld:last_day() ld:add(day1) local mon = ld:month_name():lower() months [mon] = i end end --[[ Allowed patterns: - [day] [monthname] [year] [time] - [day]/[month][/year] [time] ]] local function looks_like_a_month(w) return w:match '^%a+,*$' ~= nil end local is_number = stringx.isdigit local function tonum(s,l1,l2,kind) kind = kind or '' local n = tonumber(s) if not n then error(("%snot a number: '%s'"):format(kind,s)) end if n < l1 or n > l2 then error(("%s out of range: %s is not between %d and %d"):format(kind,s,l1,l2)) end return n end local function parse_iso_end(p,ns,sec) -- may be fractional part of seconds local _,nfrac,secfrac = p:find('^%.%d+',ns+1) if secfrac then sec = sec .. secfrac p = p:sub(nfrac+1) else p = p:sub(ns+1) end -- ISO 8601 dates may end in Z (for UTC) or [+-][isotime] -- (we're working with the date as lower case, hence 'z') if p:match 'z$' then -- we're UTC! return sec, {h=0,m=0} end p = p:gsub(':','') -- turn 00:30 to 0030 local _,_,sign,offs = p:find('^([%+%-])(%d+)') if not sign then return sec, nil end -- not UTC if #offs == 2 then offs = offs .. '00' end -- 01 to 0100 local tz = { h = tonumber(offs:sub(1,2)), m = tonumber(offs:sub(3,4)) } if sign == '-' then tz.h = -tz.h; tz.m = -tz.m end return sec, tz end function parse_date_unsafe (s,US) s = s:gsub('T',' ') -- ISO 8601 local parts = stringx.split(s:lower()) local i,p = 1,parts[1] local function nextp() i = i + 1; p = parts[i] end local year,min,hour,sec,apm local tz local _,nxt,day, month = p:find '^(%d+)/(%d+)' if day then -- swop for US case if US then day, month = month, day end _,_,year = p:find('^/(%d+)',nxt+1) nextp() else -- ISO year,month,day = p:match('^(%d+)%-(%d+)%-(%d+)') if year then nextp() end end if p and not year and is_number(p) then -- has to be date if #p < 4 then day = p nextp() else -- unless it looks like a 24-hour time year = true end end if p and looks_like_a_month(p) then -- date followed by month p = p:sub(1,3) if not months then create_months() end local mon = months[p] if mon then month = mon else error("not a month: " .. p) end nextp() end if p and not year and is_number(p) then year = p nextp() end if p then -- time is hh:mm[:ss], hhmm[ss] or H.M[am|pm] _,nxt,hour,min = p:find '^(%d+):(%d+)' local ns if nxt then -- are there seconds? _,ns,sec = p:find ('^:(%d+)',nxt+1) --if ns then sec,tz = parse_iso_end(p,ns or nxt,sec) --end else -- might be h.m _,ns,hour,min = p:find '^(%d+)%.(%d+)' if ns then apm = p:match '[ap]m$' else -- or hhmm[ss] local hourmin _,nxt,hourmin = p:find ('^(%d+)') if nxt then hour = hourmin:sub(1,2) min = hourmin:sub(3,4) sec = hourmin:sub(5,6) if #sec == 0 then sec = nil end sec,tz = parse_iso_end(p,nxt,sec) end end end end local today if year == true then year = nil end if not (year and month and day) then today = Date() end day = day and tonum(day,1,31,'day') or (month and 1 or today:day()) month = month and tonum(month,1,12,'month') or today:month() year = year and tonumber(year) or today:year() if year < 100 then -- two-digit year pivot around year < 2035 year = year + (year < 35 and 2000 or 1900) end hour = hour and tonum(hour,0,apm and 12 or 24,'hour') or 12 if apm == 'pm' then hour = hour + 12 end min = min and tonum(min,0,59) or 0 sec = sec and tonum(sec,0,60) or 0 --60 used to indicate leap second local res = Date {year = year, month = month, day = day, hour = hour, min = min, sec = sec} if tz then -- ISO 8601 UTC time local corrected = false if tz.h ~= 0 then res:add {hour = -tz.h}; corrected = true end if tz.m ~= 0 then res:add {min = -tz.m}; corrected = true end res.utc = true -- we're in UTC, so let's go local... if corrected then res = res:toLocal() end-- we're UTC! end return res end function parse_date (s) local ok, d = pcall(parse_date_unsafe,s) if not ok then -- error d = d:gsub('.-:%d+: ','') return nil, d else return d end end return Date end, ["pl.dir"] = function() -------------------- -- Module: 'pl.dir' -------------------- --- Listing files in directories and creating/removing directory paths. -- -- Dependencies: `pl.utils`, `pl.path` -- -- Soft Dependencies: `alien`, `ffi` (either are used on Windows for copying/moving files) -- @module pl.dir local utils = require 'pl.utils' local path = require 'pl.path' local is_windows = path.is_windows local ldir = path.dir local mkdir = path.mkdir local rmdir = path.rmdir local sub = string.sub local os,pcall,ipairs,pairs,require,setmetatable = os,pcall,ipairs,pairs,require,setmetatable local remove = os.remove local append = table.insert local assert_arg,assert_string,raise = utils.assert_arg,utils.assert_string,utils.raise local exists, isdir = path.exists, path.isdir local sep = path.sep local dir = {} local function makelist(l) return setmetatable(l, require('pl.List')) end local function assert_dir (n,val) assert_arg(n,val,'string',path.isdir,'not a directory',4) end local function filemask(mask) mask = utils.escape(path.normcase(mask)) return '^'..mask:gsub('%%%*','.*'):gsub('%%%?','.')..'$' end --- Test whether a file name matches a shell pattern. -- Both parameters are case-normalized if operating system is -- case-insensitive. -- @string filename A file name. -- @string pattern A shell pattern. The only special characters are -- `'*'` and `'?'`: `'*'` matches any sequence of characters and -- `'?'` matches any single character. -- @treturn bool -- @raise dir and mask must be strings function dir.fnmatch(filename,pattern) assert_string(1,filename) assert_string(2,pattern) return path.normcase(filename):find(filemask(pattern)) ~= nil end --- Return a list of all file names within an array which match a pattern. -- @tab filenames An array containing file names. -- @string pattern A shell pattern (see `fnmatch`). -- @treturn List(string) List of matching file names. -- @raise dir and mask must be strings function dir.filter(filenames,pattern) assert_arg(1,filenames,'table') assert_string(2,pattern) local res = {} local mask = filemask(pattern) for i,f in ipairs(filenames) do if path.normcase(f):find(mask) then append(res,f) end end return makelist(res) end local function _listfiles(dirname,filemode,match) local res = {} local check = utils.choose(filemode,path.isfile,path.isdir) if not dirname then dirname = '.' end for f in ldir(dirname) do if f ~= '.' and f ~= '..' then local p = path.join(dirname,f) if check(p) and (not match or match(f)) then append(res,p) end end end return makelist(res) end --- return a list of all files in a directory which match a shell pattern. -- @string[opt='.'] dirname A directory. -- @string[opt] mask A shell pattern (see `fnmatch`). If not given, all files are returned. -- @treturn {string} list of files -- @raise dirname and mask must be strings function dir.getfiles(dirname,mask) dirname = dirname or '.' assert_dir(1,dirname) if mask then assert_string(2,mask) end local match if mask then mask = filemask(mask) match = function(f) return path.normcase(f):find(mask) end end return _listfiles(dirname,true,match) end --- return a list of all subdirectories of the directory. -- @string[opt='.'] dirname A directory. -- @treturn {string} a list of directories -- @raise dir must be a valid directory function dir.getdirectories(dirname) dirname = dirname or '.' assert_dir(1,dirname) return _listfiles(dirname,false) end local alien,ffi,ffi_checked,CopyFile,MoveFile,GetLastError,win32_errors,cmd_tmpfile local function execute_command(cmd,parms) if not cmd_tmpfile then cmd_tmpfile = path.tmpname () end local err = path.is_windows and ' > ' or ' 2> ' cmd = cmd..' '..parms..err..utils.quote_arg(cmd_tmpfile) local ret = utils.execute(cmd) if not ret then local err = (utils.readfile(cmd_tmpfile):gsub('\n(.*)','')) remove(cmd_tmpfile) return false,err else remove(cmd_tmpfile) return true end end local function find_ffi_copyfile () if not ffi_checked then ffi_checked = true local res res,alien = pcall(require,'alien') if not res then alien = nil res, ffi = pcall(require,'ffi') end if not res then ffi = nil return end else return end if alien then -- register the Win32 CopyFile and MoveFile functions local kernel = alien.load('kernel32.dll') CopyFile = kernel.CopyFileA CopyFile:types{'string','string','int',ret='int',abi='stdcall'} MoveFile = kernel.MoveFileA MoveFile:types{'string','string',ret='int',abi='stdcall'} GetLastError = kernel.GetLastError GetLastError:types{ret ='int', abi='stdcall'} elseif ffi then ffi.cdef [[ int CopyFileA(const char *src, const char *dest, int iovr); int MoveFileA(const char *src, const char *dest); int GetLastError(); ]] CopyFile = ffi.C.CopyFileA MoveFile = ffi.C.MoveFileA GetLastError = ffi.C.GetLastError end win32_errors = { ERROR_FILE_NOT_FOUND = 2, ERROR_PATH_NOT_FOUND = 3, ERROR_ACCESS_DENIED = 5, ERROR_WRITE_PROTECT = 19, ERROR_BAD_UNIT = 20, ERROR_NOT_READY = 21, ERROR_WRITE_FAULT = 29, ERROR_READ_FAULT = 30, ERROR_SHARING_VIOLATION = 32, ERROR_LOCK_VIOLATION = 33, ERROR_HANDLE_DISK_FULL = 39, ERROR_BAD_NETPATH = 53, ERROR_NETWORK_BUSY = 54, ERROR_DEV_NOT_EXIST = 55, ERROR_FILE_EXISTS = 80, ERROR_OPEN_FAILED = 110, ERROR_INVALID_NAME = 123, ERROR_BAD_PATHNAME = 161, ERROR_ALREADY_EXISTS = 183, } end local function two_arguments (f1,f2) return utils.quote_arg(f1)..' '..utils.quote_arg(f2) end local function file_op (is_copy,src,dest,flag) if flag == 1 and path.exists(dest) then return false,"cannot overwrite destination" end if is_windows then -- if we haven't tried to load Alien/LuaJIT FFI before, then do so find_ffi_copyfile() -- fallback if there's no Alien, just use DOS commands *shudder* -- 'rename' involves a copy and then deleting the source. if not CopyFile then if path.is_windows then src = src:gsub("/","\\") dest = dest:gsub("/","\\") end local res, err = execute_command('copy',two_arguments(src,dest)) if not res then return false,err end if not is_copy then return execute_command('del',utils.quote_arg(src)) end return true else if path.isdir(dest) then dest = path.join(dest,path.basename(src)) end local ret if is_copy then ret = CopyFile(src,dest,flag) else ret = MoveFile(src,dest) end if ret == 0 then local err = GetLastError() for name,value in pairs(win32_errors) do if value == err then return false,name end end return false,"Error #"..err else return true end end else -- for Unix, just use cp for now return execute_command(is_copy and 'cp' or 'mv', two_arguments(src,dest)) end end --- copy a file. -- @string src source file -- @string dest destination file or directory -- @bool flag true if you want to force the copy (default) -- @treturn bool operation succeeded -- @raise src and dest must be strings function dir.copyfile (src,dest,flag) assert_string(1,src) assert_string(2,dest) flag = flag==nil or flag return file_op(true,src,dest,flag and 0 or 1) end --- move a file. -- @string src source file -- @string dest destination file or directory -- @treturn bool operation succeeded -- @raise src and dest must be strings function dir.movefile (src,dest) assert_string(1,src) assert_string(2,dest) return file_op(false,src,dest,0) end local function _dirfiles(dirname,attrib) local dirs = {} local files = {} for f in ldir(dirname) do if f ~= '.' and f ~= '..' then local p = path.join(dirname,f) local mode = attrib(p,'mode') if mode=='directory' then append(dirs,f) else append(files,f) end end end return makelist(dirs), makelist(files) end --- return an iterator which walks through a directory tree starting at root. -- The iterator returns (root,dirs,files) -- Note that dirs and files are lists of names (i.e. you must say path.join(root,d) -- to get the actual full path) -- If bottom_up is false (or not present), then the entries at the current level are returned -- before we go deeper. This means that you can modify the returned list of directories before -- continuing. -- This is a clone of os.walk from the Python libraries. -- @string root A starting directory -- @bool bottom_up False if we start listing entries immediately. -- @bool follow_links follow symbolic links -- @return an iterator returning root,dirs,files -- @raise root must be a directory function dir.walk(root,bottom_up,follow_links) assert_dir(1,root) local attrib if path.is_windows or not follow_links then attrib = path.attrib else attrib = path.link_attrib end local to_scan = { root } local to_return = {} local iter = function() while #to_scan > 0 do local current_root = table.remove(to_scan) local dirs,files = _dirfiles(current_root, attrib) for _, d in ipairs(dirs) do table.insert(to_scan, current_root..path.sep..d) end if not bottom_up then return current_root, dirs, files else table.insert(to_return, { current_root, dirs, files }) end end if #to_return > 0 then return utils.unpack(table.remove(to_return)) end end return iter end --- remove a whole directory tree. -- Symlinks in the tree will be deleted without following them. -- @string fullpath A directory path (must be an actual directory, not a symlink) -- @return true or nil -- @return error if failed -- @raise fullpath must be a string function dir.rmtree(fullpath) assert_dir(1,fullpath) if path.islink(fullpath) then return false,'will not follow symlink' end for root,dirs,files in dir.walk(fullpath,true) do if path.islink(root) then -- sub dir is a link, remove link, do not follow if is_windows then -- Windows requires using "rmdir". Deleting the link like a file -- will instead delete all files from the target directory!! local res, err = rmdir(root) if not res then return nil,err .. ": " .. root end else local res, err = remove(root) if not res then return nil,err .. ": " .. root end end else for i,f in ipairs(files) do local res, err = remove(path.join(root,f)) if not res then return nil,err .. ": " .. path.join(root,f) end end local res, err = rmdir(root) if not res then return nil,err .. ": " .. root end end end return true end do local dirpat if path.is_windows then dirpat = '(.+)\\[^\\]+$' else dirpat = '(.+)/[^/]+$' end local _makepath function _makepath(p) -- windows root drive case if p:find '^%a:[\\]*$' then return true end if not path.isdir(p) then local subp = p:match(dirpat) if subp then local ok, err = _makepath(subp) if not ok then return nil, err end end return mkdir(p) else return true end end --- create a directory path. -- This will create subdirectories as necessary! -- @string p A directory path -- @return true on success, nil + errormsg on failure -- @raise failure to create function dir.makepath (p) assert_string(1,p) if path.is_windows then p = p:gsub("/", "\\") end return _makepath(path.abspath(p)) end end --- clone a directory tree. Will always try to create a new directory structure -- if necessary. -- @string path1 the base path of the source tree -- @string path2 the new base path for the destination -- @func file_fun an optional function to apply on all files -- @bool verbose an optional boolean to control the verbosity of the output. -- It can also be a logging function that behaves like print() -- @return true, or nil -- @return error message, or list of failed directory creations -- @return list of failed file operations -- @raise path1 and path2 must be strings -- @usage clonetree('.','../backup',copyfile) function dir.clonetree (path1,path2,file_fun,verbose) assert_string(1,path1) assert_string(2,path2) if verbose == true then verbose = print end local abspath,normcase,isdir,join = path.abspath,path.normcase,path.isdir,path.join local faildirs,failfiles = {},{} if not isdir(path1) then return raise 'source is not a valid directory' end path1 = abspath(normcase(path1)) path2 = abspath(normcase(path2)) if verbose then verbose('normalized:',path1,path2) end -- particularly NB that the new path isn't fully contained in the old path if path1 == path2 then return raise "paths are the same" end local _,i2 = path2:find(path1,1,true) if i2 == #path1 and path2:sub(i2+1,i2+1) == path.sep then return raise 'destination is a subdirectory of the source' end local cp = path.common_prefix (path1,path2) local idx = #cp if idx == 0 then -- no common path, but watch out for Windows paths! if path1:sub(2,2) == ':' then idx = 3 end end for root,dirs,files in dir.walk(path1) do local opath = path2..root:sub(idx) if verbose then verbose('paths:',opath,root) end if not isdir(opath) then local ret = dir.makepath(opath) if not ret then append(faildirs,opath) end if verbose then verbose('creating:',opath,ret) end end if file_fun then for i,f in ipairs(files) do local p1 = join(root,f) local p2 = join(opath,f) local ret = file_fun(p1,p2) if not ret then append(failfiles,p2) end if verbose then verbose('files:',p1,p2,ret) end end end end return true,faildirs,failfiles end -- each entry of the stack is an array with three items: -- 1. the name of the directory -- 2. the lfs iterator function -- 3. the lfs iterator userdata local function treeiter(iterstack) local diriter = iterstack[#iterstack] if not diriter then return -- done end local dirname = diriter[1] local entry = diriter[2](diriter[3]) if not entry then table.remove(iterstack) return treeiter(iterstack) -- tail-call to try next end if entry ~= "." and entry ~= ".." then entry = dirname .. sep .. entry if exists(entry) then -- Just in case a symlink is broken. local is_dir = isdir(entry) if is_dir then table.insert(iterstack, { entry, ldir(entry) }) end return entry, is_dir end end return treeiter(iterstack) -- tail-call to try next end --- return an iterator over all entries in a directory tree -- @string d a directory -- @return an iterator giving pathname and mode (true for dir, false otherwise) -- @raise d must be a non-empty string function dir.dirtree( d ) assert( d and d ~= "", "directory parameter is missing or empty" ) local last = sub ( d, -1 ) if last == sep or last == '/' then d = sub( d, 1, -2 ) end local iterstack = { {d, ldir(d)} } return treeiter, iterstack end --- Recursively returns all the file starting at 'path'. It can optionally take a shell pattern and -- only returns files that match 'shell_pattern'. If a pattern is given it will do a case insensitive search. -- @string[opt='.'] start_path A directory. -- @string[opt='*'] shell_pattern A shell pattern (see `fnmatch`). -- @treturn List(string) containing all the files found recursively starting at 'path' and filtered by 'shell_pattern'. -- @raise start_path must be a directory function dir.getallfiles( start_path, shell_pattern ) start_path = start_path or '.' assert_dir(1,start_path) shell_pattern = shell_pattern or "*" local files = {} local normcase = path.normcase for filename, mode in dir.dirtree( start_path ) do if not mode then local mask = filemask( shell_pattern ) if normcase(filename):find( mask ) then files[#files + 1] = filename end end end return makelist(files) end return dir end, ["pl.file"] = function() -------------------- -- Module: 'pl.file' -------------------- --- File manipulation functions: reading, writing, moving and copying. -- -- This module wraps a number of functions from other modules into a -- file related module for convenience. -- -- Dependencies: `pl.utils`, `pl.dir`, `pl.path` -- @module pl.file local os = os local utils = require 'pl.utils' local dir = require 'pl.dir' local path = require 'pl.path' local file = {} --- return the contents of a file as a string. -- This function is a copy of `utils.readfile`. -- @function file.read file.read = utils.readfile --- write a string to a file. -- This function is a copy of `utils.writefile`. -- @function file.write file.write = utils.writefile --- copy a file. -- This function is a copy of `dir.copyfile`. -- @function file.copy file.copy = dir.copyfile --- move a file. -- This function is a copy of `dir.movefile`. -- @function file.move file.move = dir.movefile --- Return the time of last access as the number of seconds since the epoch. -- This function is a copy of `path.getatime`. -- @function file.access_time file.access_time = path.getatime ---Return when the file was created. -- This function is a copy of `path.getctime`. -- @function file.creation_time file.creation_time = path.getctime --- Return the time of last modification. -- This function is a copy of `path.getmtime`. -- @function file.modified_time file.modified_time = path.getmtime --- Delete a file. -- This function is a copy of `os.remove`. -- @function file.delete file.delete = os.remove return file end, ["pl.func"] = function() -------------------- -- Module: 'pl.func' -------------------- --- Functional helpers like composition, binding and placeholder expressions. -- Placeholder expressions are useful for short anonymous functions, and were -- inspired by the Boost Lambda library. -- -- > utils.import 'pl.func' -- > ls = List{10,20,30} -- > = ls:map(_1+1) -- {11,21,31} -- -- They can also be used to _bind_ particular arguments of a function. -- -- > p = bind(print,'start>',_0) -- > p(10,20,30) -- > start> 10 20 30 -- -- See @{07-functional.md.Creating_Functions_from_Functions|the Guide} -- -- Dependencies: `pl.utils`, `pl.tablex` -- @module pl.func local type,setmetatable,getmetatable,rawset = type,setmetatable,getmetatable,rawset local concat,append = table.concat,table.insert local tostring = tostring local utils = require 'pl.utils' local pairs,rawget,unpack,pack = pairs,rawget,utils.unpack,utils.pack local tablex = require 'pl.tablex' local map = tablex.map local _DEBUG = rawget(_G,'_DEBUG') local assert_arg = utils.assert_arg local func = {} -- metatable for Placeholder Expressions (PE) local _PEMT = {} local function P (t) setmetatable(t,_PEMT) return t end func.PE = P local function isPE (obj) return getmetatable(obj) == _PEMT end func.isPE = isPE -- construct a placeholder variable (e.g _1 and _2) local function PH (idx) return P {op='X',repr='_'..idx, index=idx} end -- construct a constant placeholder variable (e.g _C1 and _C2) local function CPH (idx) return P {op='X',repr='_C'..idx, index=idx} end func._1,func._2,func._3,func._4,func._5 = PH(1),PH(2),PH(3),PH(4),PH(5) func._0 = P{op='X',repr='...',index=0} function func.Var (name) local ls = utils.split(name,'[%s,]+') local res = {} for i = 1, #ls do append(res,P{op='X',repr=ls[i],index=0}) end return unpack(res) end function func._ (value) return P{op='X',repr=value,index='wrap'} end local repr func.Nil = func.Var 'nil' function _PEMT.__index(obj,key) return P{op='[]',obj,key} end function _PEMT.__call(fun,...) return P{op='()',fun,...} end function _PEMT.__tostring (e) return repr(e) end function _PEMT.__unm(arg) return P{op='unm',arg} end function func.Not (arg) return P{op='not',arg} end function func.Len (arg) return P{op='#',arg} end local function binreg(context,t) for name,op in pairs(t) do rawset(context,name,function(x,y) return P{op=op,x,y} end) end end local function import_name (name,fun,context) rawset(context,name,function(...) return P{op='()',fun,...} end) end local imported_functions = {} local function is_global_table (n) return type(_G[n]) == 'table' end --- wrap a table of functions. This makes them available for use in -- placeholder expressions. -- @string tname a table name -- @tab context context to put results, defaults to environment of caller function func.import(tname,context) assert_arg(1,tname,'string',is_global_table,'arg# 1: not a name of a global table') local t = _G[tname] context = context or _G for name,fun in pairs(t) do import_name(name,fun,context) imported_functions[fun] = name end end --- register a function for use in placeholder expressions. -- @func fun a function -- @string[opt] name an optional name -- @return a placeholder functiond function func.register (fun,name) assert_arg(1,fun,'function') if name then assert_arg(2,name,'string') imported_functions[fun] = name end return function(...) return P{op='()',fun,...} end end function func.lookup_imported_name (fun) return imported_functions[fun] end local function _arg(...) return ... end function func.Args (...) return P{op='()',_arg,...} end -- binary operators with their precedences (see Lua manual) -- precedences might be incremented by one before use depending on -- left- or right-associativity, space them out local binary_operators = { ['or'] = 0, ['and'] = 2, ['=='] = 4, ['~='] = 4, ['<'] = 4, ['>'] = 4, ['<='] = 4, ['>='] = 4, ['..'] = 6, ['+'] = 8, ['-'] = 8, ['*'] = 10, ['/'] = 10, ['%'] = 10, ['^'] = 14 } -- unary operators with their precedences local unary_operators = { ['not'] = 12, ['#'] = 12, ['unm'] = 12 } -- comparisons (as prefix functions) binreg (func,{And='and',Or='or',Eq='==',Lt='<',Gt='>',Le='<=',Ge='>='}) -- standard binary operators (as metamethods) binreg (_PEMT,{__add='+',__sub='-',__mul='*',__div='/',__mod='%',__pow='^',__concat='..'}) binreg (_PEMT,{__eq='=='}) --- all elements of a table except the first. -- @tab ls a list-like table. function func.tail (ls) assert_arg(1,ls,'table') local res = {} for i = 2,#ls do append(res,ls[i]) end return res end --- create a string representation of a placeholder expression. -- @param e a placeholder expression -- @param lastpred not used function repr (e,lastpred) local tail = func.tail if isPE(e) then local pred = binary_operators[e.op] or unary_operators[e.op] if pred then -- binary or unary operator local s if binary_operators[e.op] then local left_pred = pred local right_pred = pred if e.op == '..' or e.op == '^' then left_pred = left_pred + 1 else right_pred = right_pred + 1 end local left_arg = repr(e[1], left_pred) local right_arg = repr(e[2], right_pred) s = left_arg..' '..e.op..' '..right_arg else local op = e.op == 'unm' and '-' or e.op s = op..' '..repr(e[1], pred) end if lastpred and lastpred > pred then s = '('..s..')' end return s else -- either postfix, or a placeholder local ls = map(repr,e) if e.op == '[]' then return ls[1]..'['..ls[2]..']' elseif e.op == '()' then local fn if ls[1] ~= nil then -- was _args, undeclared! fn = ls[1] else fn = '' end return fn..'('..concat(tail(ls),',')..')' else return e.repr end end elseif type(e) == 'string' then return '"'..e..'"' elseif type(e) == 'function' then local name = func.lookup_imported_name(e) if name then return name else return tostring(e) end else return tostring(e) --should not really get here! end end func.repr = repr -- collect all the non-PE values in this PE into vlist, and replace each occurence -- with a constant PH (_C1, etc). Return the maximum placeholder index found. local collect_values function collect_values (e,vlist) if isPE(e) then if e.op ~= 'X' then local m = 0 for i = 1,#e do local subx = e[i] local pe = isPE(subx) if pe then if subx.op == 'X' and subx.index == 'wrap' then subx = subx.repr pe = false else m = math.max(m,collect_values(subx,vlist)) end end if not pe then append(vlist,subx) e[i] = CPH(#vlist) end end return m else -- was a placeholder, it has an index... return e.index end else -- plain value has no placeholder dependence return 0 end end func.collect_values = collect_values --- instantiate a PE into an actual function. First we find the largest placeholder used, -- e.g. _2; from this a list of the formal parameters can be build. Then we collect and replace -- any non-PE values from the PE, and build up a constant binding list. -- Finally, the expression can be compiled, and e.__PE_function is set. -- @param e a placeholder expression -- @return a function function func.instantiate (e) local consts,values,parms = {},{},{} local rep, err, fun local n = func.collect_values(e,values) for i = 1,#values do append(consts,'_C'..i) if _DEBUG then print(i,values[i]) end end for i =1,n do append(parms,'_'..i) end consts = concat(consts,',') parms = concat(parms,',') rep = repr(e) local fstr = ('return function(%s) return function(%s) return %s end end'):format(consts,parms,rep) if _DEBUG then print(fstr) end fun,err = utils.load(fstr,'fun') if not fun then return nil,err end fun = fun() -- get wrapper fun = fun(unpack(values)) -- call wrapper (values could be empty) e.__PE_function = fun return fun end --- instantiate a PE unless it has already been done. -- @param e a placeholder expression -- @return the function function func.I(e) if rawget(e,'__PE_function') then return e.__PE_function else return func.instantiate(e) end end utils.add_function_factory(_PEMT,func.I) --- bind the first parameter of the function to a value. -- @function func.bind1 -- @func fn a function of one or more arguments -- @param p a value -- @return a function of one less argument -- @usage (bind1(math.max,10))(20) == math.max(10,20) func.bind1 = utils.bind1 func.curry = func.bind1 --- create a function which chains two functions. -- @func f a function of at least one argument -- @func g a function of at least one argument -- @return a function -- @usage printf = compose(io.write,string.format) function func.compose (f,g) return function(...) return f(g(...)) end end --- bind the arguments of a function to given values. -- `bind(fn,v,_2)` is equivalent to `bind1(fn,v)`. -- @func fn a function of at least one argument -- @param ... values or placeholder variables -- @return a function -- @usage (bind(f,_1,a))(b) == f(a,b) -- @usage (bind(f,_2,_1))(a,b) == f(b,a) function func.bind(fn,...) local args = pack(...) local holders,parms,bvalues,values = {},{},{'fn'},{} local nv,maxplace,varargs = 1,0,false for i = 1,args.n do local a = args[i] if isPE(a) and a.op == 'X' then append(holders,a.repr) maxplace = math.max(maxplace,a.index) if a.index == 0 then varargs = true end else local v = '_v'..nv append(bvalues,v) append(holders,v) append(values,a) nv = nv + 1 end end for np = 1,maxplace do append(parms,'_'..np) end if varargs then append(parms,'...') end bvalues = concat(bvalues,',') parms = concat(parms,',') holders = concat(holders,',') local fstr = ([[ return function (%s) return function(%s) return fn(%s) end end ]]):format(bvalues,parms,holders) if _DEBUG then print(fstr) end local res = utils.load(fstr) res = res() return res(fn,unpack(values)) end return func end, ["pl.import_into"] = function() -------------------- -- Module: 'pl.import_into' -------------------- -------------- -- PL loader, for loading all PL libraries, only on demand. -- Whenever a module is implicitly accesssed, the table will have the module automatically injected. -- (e.g. `_ENV.tablex`) -- then that module is dynamically loaded. The submodules are all brought into -- the table that is provided as the argument, or returned in a new table. -- If a table is provided, that table's metatable is clobbered, but the values are not. -- This module returns a single function, which is passed the environment. -- If this is `true`, then return a 'shadow table' as the module -- See @{01-introduction.md.To_Inject_or_not_to_Inject_|the Guide} -- @module pl.import_into return function(env) local mod if env == true then mod = {} env = {} end local env = env or {} local modules = { utils = true,path=true,dir=true,tablex=true,stringio=true,sip=true, input=true,seq=true,lexer=true,stringx=true, config=true,pretty=true,data=true,func=true,text=true, operator=true,lapp=true,array2d=true, comprehension=true,xml=true,types=true, test = true, app = true, file = true, class = true, luabalanced = true, permute = true, template = true, url = true, compat = true, -- classes -- List = true, Map = true, Set = true, OrderedMap = true, MultiMap = true, Date = true, } rawset(env,'utils',require 'pl.utils') for name,klass in pairs(env.utils.stdmt) do klass.__index = function(t,key) return require ('pl.'..name)[key] end; end -- ensure that we play nice with libraries that also attach a metatable -- to the global table; always forward to a custom __index if we don't -- match local _hook,_prev_index local gmt = {} local prevenvmt = getmetatable(env) if prevenvmt then _prev_index = prevenvmt.__index if prevenvmt.__newindex then gmt.__newindex = prevenvmt.__newindex end end function gmt.hook(handler) _hook = handler end function gmt.__index(t,name) local found = modules[name] -- either true, or the name of the module containing this class. -- either way, we load the required module and make it globally available. if found then -- e..g pretty.dump causes pl.pretty to become available as 'pretty' rawset(env,name,require('pl.'..name)) return env[name] else local res if _hook then res = _hook(t,name) if res then return res end end if _prev_index then return _prev_index(t,name) end end end if mod then function gmt.__newindex(t,name,value) mod[name] = value rawset(t,name,value) end end setmetatable(env,gmt) return env,mod or env end end, ["pl.init"] = function() -------------------- -- Module: 'pl.init' -------------------- -------------- -- Entry point for loading all PL libraries only on demand, into the global space. -- Requiring 'pl' means that whenever a module is implicitly accesssed -- (e.g. `utils.split`) -- then that module is dynamically loaded. The submodules are all brought into -- the global space. --Updated to use @{pl.import_into} -- @module pl require'pl.import_into'(_G) if rawget(_G,'PENLIGHT_STRICT') then require 'pl.strict' end end, ["pl.input"] = function() -------------------- -- Module: 'pl.input' -------------------- --- Iterators for extracting words or numbers from an input source. -- -- require 'pl' -- local total,n = seq.sum(input.numbers()) -- print('average',total/n) -- -- _source_ is defined as a string or a file-like object (i.e. has a read() method which returns the next line) -- -- See @{06-data.md.Reading_Unstructured_Text_Data|here} -- -- Dependencies: `pl.utils` -- @module pl.input local strfind = string.find local strsub = string.sub local strmatch = string.match local utils = require 'pl.utils' local unpack = utils.unpack local pairs,type,tonumber = pairs,type,tonumber local patterns = utils.patterns local io = io local input = {} --- create an iterator over all tokens. -- based on allwords from PiL, 7.1 -- @func getter any function that returns a line of text -- @string pattern -- @string[opt] fn Optionally can pass a function to process each token as it's found. -- @return an iterator function input.alltokens (getter,pattern,fn) local line = getter() -- current line local pos = 1 -- current position in the line return function () -- iterator function while line do -- repeat while there are lines local s, e = strfind(line, pattern, pos) if s then -- found a word? pos = e + 1 -- next position is after this token local res = strsub(line, s, e) -- return the token if fn then res = fn(res) end return res else line = getter() -- token not found; try next line pos = 1 -- restart from first position end end return nil -- no more lines: end of traversal end end local alltokens = input.alltokens -- question: shd this _split_ a string containing line feeds? --- create a function which grabs the next value from a source. If the source is a string, then the getter -- will return the string and thereafter return nil. If not specified then the source is assumed to be stdin. -- @param f a string or a file-like object (i.e. has a read() method which returns the next line) -- @return a getter function function input.create_getter(f) if f then if type(f) == 'string' then local ls = utils.split(f,'\n') local i,n = 0,#ls return function() i = i + 1 if i > n then return nil end return ls[i] end else -- anything that supports the read() method! if not f.read then error('not a file-like object') end return function() return f:read() end end else return io.read -- i.e. just read from stdin end end --- generate a sequence of numbers from a source. -- @param f A source -- @return An iterator function input.numbers(f) return alltokens(input.create_getter(f), '('..patterns.FLOAT..')',tonumber) end --- generate a sequence of words from a source. -- @param f A source -- @return An iterator function input.words(f) return alltokens(input.create_getter(f),"%w+") end local function apply_tonumber (no_fail,...) local args = {...} for i = 1,#args do local n = tonumber(args[i]) if n == nil then if not no_fail then return nil,args[i] end else args[i] = n end end return args end --- parse an input source into fields. -- By default, will fail if it cannot convert a field to a number. -- @param ids a list of field indices, or a maximum field index -- @string delim delimiter to parse fields (default space) -- @param f a source @see create_getter -- @tab opts option table, `{no_fail=true}` -- @return an iterator with the field values -- @usage for x,y in fields {2,3} do print(x,y) end -- 2nd and 3rd fields from stdin function input.fields (ids,delim,f,opts) local sep local s local getter = input.create_getter(f) local no_fail = opts and opts.no_fail local no_convert = opts and opts.no_convert if not delim or delim == ' ' then delim = '%s' sep = '%s+' s = '%s*' else sep = delim s = '' end local max_id = 0 if type(ids) == 'table' then for i,id in pairs(ids) do if id > max_id then max_id = id end end else max_id = ids ids = {} for i = 1,max_id do ids[#ids+1] = i end end local pat = '[^'..delim..']*' local k = 1 for i = 1,max_id do if ids[k] == i then k = k + 1 s = s..'('..pat..')' else s = s..pat end if i < max_id then s = s..sep end end local linecount = 1 return function() local line,results,err repeat line = getter() linecount = linecount + 1 if not line then return nil end if no_convert then results = {strmatch(line,s)} else results,err = apply_tonumber(no_fail,strmatch(line,s)) if not results then utils.quit("line "..(linecount-1)..": cannot convert '"..err.."' to number") end end until #results > 0 return unpack(results) end end return input end, ["pl.lapp"] = function() -------------------- -- Module: 'pl.lapp' -------------------- --- Simple command-line parsing using human-readable specification. -- Supports GNU-style parameters. -- -- lapp = require 'pl.lapp' -- local args = lapp [[ -- Does some calculations -- -o,--offset (default 0.0) Offset to add to scaled number -- -s,--scale (number) Scaling factor -- (number) Number to be scaled -- ]] -- -- print(args.offset + args.scale * args.number) -- -- Lines beginning with `'-'` are flags; there may be a short and a long name; -- lines beginning with `''` are arguments. Anything in parens after -- the flag/argument is either a default, a type name or a range constraint. -- -- See @{08-additional.md.Command_line_Programs_with_Lapp|the Guide} -- -- Dependencies: `pl.sip` -- @module pl.lapp local status,sip = pcall(require,'pl.sip') if not status then sip = require 'sip' end local match = sip.match_at_start local append,tinsert = table.insert,table.insert sip.custom_pattern('X','(%a[%w_%-]*)') local function lines(s) return s:gmatch('([^\n]*)\n') end local function lstrip(str) return str:gsub('^%s+','') end local function strip(str) return lstrip(str):gsub('%s+$','') end local function at(s,k) return s:sub(k,k) end local lapp = {} local open_files,parms,aliases,parmlist,usage,script lapp.callback = false -- keep Strict happy local filetypes = { stdin = {io.stdin,'file-in'}, stdout = {io.stdout,'file-out'}, stderr = {io.stderr,'file-out'} } --- controls whether to dump usage on error. -- Defaults to true lapp.show_usage_error = true --- quit this script immediately. -- @string msg optional message -- @bool no_usage suppress 'usage' display function lapp.quit(msg,no_usage) if no_usage == 'throw' then error(msg) end if msg then io.stderr:write(msg..'\n\n') end if not no_usage then io.stderr:write(usage) end os.exit(1) end --- print an error to stderr and quit. -- @string msg a message -- @bool no_usage suppress 'usage' display function lapp.error(msg,no_usage) if not lapp.show_usage_error then no_usage = true elseif lapp.show_usage_error == 'throw' then no_usage = 'throw' end lapp.quit(script..': '..msg,no_usage) end --- open a file. -- This will quit on error, and keep a list of file objects for later cleanup. -- @string file filename -- @string[opt] opt same as second parameter of `io.open` function lapp.open (file,opt) local val,err = io.open(file,opt) if not val then lapp.error(err,true) end append(open_files,val) return val end --- quit if the condition is false. -- @bool condn a condition -- @string msg message text function lapp.assert(condn,msg) if not condn then lapp.error(msg) end end local function range_check(x,min,max,parm) lapp.assert(min <= x and max >= x,parm..' out of range') end local function xtonumber(s) local val = tonumber(s) if not val then lapp.error("unable to convert to number: "..s) end return val end local types = {} local builtin_types = {string=true,number=true,['file-in']='file',['file-out']='file',boolean=true} local function convert_parameter(ps,val) if ps.converter then val = ps.converter(val) end if ps.type == 'number' then val = xtonumber(val) elseif builtin_types[ps.type] == 'file' then val = lapp.open(val,(ps.type == 'file-in' and 'r') or 'w' ) elseif ps.type == 'boolean' then return val end if ps.constraint then ps.constraint(val) end return val end --- add a new type to Lapp. These appear in parens after the value like -- a range constraint, e.g. ' (integer) Process PID' -- @string name name of type -- @param converter either a function to convert values, or a Lua type name. -- @func[opt] constraint optional function to verify values, should use lapp.error -- if failed. function lapp.add_type (name,converter,constraint) types[name] = {converter=converter,constraint=constraint} end local function force_short(short) lapp.assert(#short==1,short..": short parameters should be one character") end -- deducing type of variable from default value; local function process_default (sval,vtype) local val, success if not vtype or vtype == 'number' then val = tonumber(sval) end if val then -- we have a number! return val,'number' elseif filetypes[sval] then local ft = filetypes[sval] return ft[1],ft[2] else if sval == 'true' and not vtype then return true, 'boolean' end if sval:match '^["\']' then sval = sval:sub(2,-2) end local ps = types[vtype] or {} ps.type = vtype local show_usage_error = lapp.show_usage_error lapp.show_usage_error = "throw" success, val = pcall(convert_parameter, ps, sval) lapp.show_usage_error = show_usage_error if success then return val, vtype or 'string' end return sval,vtype or 'string' end end --- process a Lapp options string. -- Usually called as `lapp()`. -- @string str the options text -- @tparam {string} args a table of arguments (default is `_G.arg`) -- @return a table with parameter-value pairs function lapp.process_options_string(str,args) local results = {} local varargs local arg = args or _G.arg open_files = {} parms = {} aliases = {} parmlist = {} local function check_varargs(s) local res,cnt = s:gsub('^%.%.%.%s*','') return res, (cnt > 0) end local function set_result(ps,parm,val) parm = type(parm) == "string" and parm:gsub("%W", "_") or parm -- so foo-bar becomes foo_bar in Lua if not ps.varargs then results[parm] = val else if not results[parm] then results[parm] = { val } else append(results[parm],val) end end end usage = str for _,a in ipairs(arg) do if a == "-h" or a == "--help" then return lapp.quit() end end for line in lines(str) do local res = {} local optparm,defval,vtype,constraint,rest line = lstrip(line) local function check(str) return match(str,line,res) end -- flags: either '-', '-,--' or '--' if check '-$v{short}, --$o{long} $' or check '-$v{short} $' or check '--$o{long} $' then if res.long then optparm = res.long:gsub('[^%w%-]','_') -- I'm not sure the $o pattern will let anything else through? if #res.rest == 1 then optparm = optparm .. res.rest end if res.short then aliases[res.short] = optparm end else optparm = res.short end if res.short and not lapp.slack then force_short(res.short) end res.rest, varargs = check_varargs(res.rest) elseif check '$<{name} $' then -- is it ? -- so becomes input_file ... optparm,rest = res.name:match '([^%.]+)(.*)' -- follow lua legal variable names optparm = optparm:sub(1,1):gsub('%A','_') .. optparm:sub(2):gsub('%W', '_') varargs = rest == '...' append(parmlist,optparm) end -- this is not a pure doc line and specifies the flag/parameter type if res.rest then line = res.rest res = {} local optional local defval_str -- do we have ([optional] [] [default ])? if match('$({def} $',line,res) or match('$({def}',line,res) then local typespec = strip(res.def) local ftype, rest = typespec:match('^(%S+)(.*)$') rest = strip(rest) if ftype == 'optional' then ftype, rest = rest:match('^(%S+)(.*)$') rest = strip(rest) optional = true end local default if ftype == 'default' then default = true if rest == '' then lapp.error("value must follow default") end else -- a type specification if match('$f{min}..$f{max}',ftype,res) then -- a numerical range like 1..10 local min,max = res.min,res.max vtype = 'number' constraint = function(x) range_check(x,min,max,optparm) end elseif not ftype:match '|' then -- plain type vtype = ftype else -- 'enum' type is a string which must belong to -- one of several distinct values local enums = ftype local enump = '|' .. enums .. '|' vtype = 'string' constraint = function(s) lapp.assert(enump:find('|'..s..'|', 1, true), "value '"..s.."' not in "..enums ) end end end res.rest = rest typespec = res.rest -- optional 'default value' clause. Type is inferred as -- 'string' or 'number' if there's no explicit type if default or match('default $r{rest}',typespec,res) then defval_str = res.rest defval,vtype = process_default(res.rest,vtype) end else -- must be a plain flag, no extra parameter required defval = false vtype = 'boolean' end local ps = { type = vtype, defval = defval, defval_str = defval_str, required = defval == nil and not optional, comment = res.rest or optparm, constraint = constraint, varargs = varargs } varargs = nil if types[vtype] then local converter = types[vtype].converter if type(converter) == 'string' then ps.type = converter else ps.converter = converter end ps.constraint = types[vtype].constraint elseif not builtin_types[vtype] and vtype then lapp.error(vtype.." is unknown type") end parms[optparm] = ps end end -- cool, we have our parms, let's parse the command line args local iparm = 1 local iextra = 1 local i = 1 local parm,ps,val local end_of_flags = false local function check_parm (parm) local eqi = parm:find '[=:]' if eqi then tinsert(arg,i+1,parm:sub(eqi+1)) parm = parm:sub(1,eqi-1) end return parm,eqi end local function is_flag (parm) return parms[aliases[parm] or parm] end while i <= #arg do local theArg = arg[i] local res = {} -- after '--' we don't parse args and they end up in -- the array part of the result (args[1] etc) if theArg == '--' then end_of_flags = true iparm = #parmlist + 1 i = i + 1 theArg = arg[i] if not theArg then break end end -- look for a flag, - or -- if not end_of_flags and (match('--$S{long}',theArg,res) or match('-$S{short}',theArg,res)) then if res.long then -- long option parm = check_parm(res.long) elseif #res.short == 1 or is_flag(res.short) then parm = res.short else local parmstr,eq = check_parm(res.short) if not eq then parm = at(parmstr,1) local flag = is_flag(parm) if flag and flag.type ~= 'boolean' then --if isdigit(at(parmstr,2)) then -- a short option followed by a digit is an exception (for AW;)) -- push ahead into the arg array tinsert(arg,i+1,parmstr:sub(2)) else -- push multiple flags into the arg array! for k = 2,#parmstr do tinsert(arg,i+k-1,'-'..at(parmstr,k)) end end else parm = parmstr end end if aliases[parm] then parm = aliases[parm] end if not parms[parm] and (parm == 'h' or parm == 'help') then lapp.quit() end else -- a parameter parm = parmlist[iparm] if not parm then -- extra unnamed parameters are indexed starting at 1 parm = iextra ps = { type = 'string' } parms[parm] = ps iextra = iextra + 1 else ps = parms[parm] end if not ps.varargs then iparm = iparm + 1 end val = theArg end ps = parms[parm] if not ps then lapp.error("unrecognized parameter: "..parm) end if ps.type ~= 'boolean' then -- we need a value! This should follow if not val then i = i + 1 val = arg[i] theArg = val end lapp.assert(val,parm.." was expecting a value") else -- toggle boolean flags (usually false -> true) val = not ps.defval end ps.used = true val = convert_parameter(ps,val) set_result(ps,parm,val) if builtin_types[ps.type] == 'file' then set_result(ps,parm..'_name',theArg) end if lapp.callback then lapp.callback(parm,theArg,res) end i = i + 1 val = nil end -- check unused parms, set defaults and check if any required parameters were missed for parm,ps in pairs(parms) do if not ps.used then if ps.required then lapp.error("missing required parameter: "..parm) end set_result(ps,parm,ps.defval) if builtin_types[ps.type] == "file" then set_result(ps, parm .. "_name", ps.defval_str) end end end return results end if arg then script = arg[0] script = script or rawget(_G,"LAPP_SCRIPT") or "unknown" -- strip dir and extension to get current script name script = script:gsub('.+[\\/]',''):gsub('%.%a+$','') else script = "inter" end setmetatable(lapp, { __call = function(tbl,str,args) return lapp.process_options_string(str,args) end, }) return lapp end, ["pl.lexer"] = function() -------------------- -- Module: 'pl.lexer' -------------------- --- Lexical scanner for creating a sequence of tokens from text. -- `lexer.scan(s)` returns an iterator over all tokens found in the -- string `s`. This iterator returns two values, a token type string -- (such as 'string' for quoted string, 'iden' for identifier) and the value of the -- token. -- -- Versions specialized for Lua and C are available; these also handle block comments -- and classify keywords as 'keyword' tokens. For example: -- -- > s = 'for i=1,n do' -- > for t,v in lexer.lua(s) do print(t,v) end -- keyword for -- iden i -- = = -- number 1 -- , , -- iden n -- keyword do -- -- See the Guide for further @{06-data.md.Lexical_Scanning|discussion} -- @module pl.lexer local strfind = string.find local strsub = string.sub local append = table.insert local function assert_arg(idx,val,tp) if type(val) ~= tp then error("argument "..idx.." must be "..tp, 2) end end local lexer = {} local NUMBER1 = '^[%+%-]?%d+%.?%d*[eE][%+%-]?%d+' local NUMBER1a = '^[%+%-]?%d*%.%d+[eE][%+%-]?%d+' local NUMBER2 = '^[%+%-]?%d+%.?%d*' local NUMBER2a = '^[%+%-]?%d*%.%d+' local NUMBER3 = '^0x[%da-fA-F]+' local NUMBER4 = '^%d+%.?%d*[eE][%+%-]?%d+' local NUMBER4a = '^%d*%.%d+[eE][%+%-]?%d+' local NUMBER5 = '^%d+%.?%d*' local NUMBER5a = '^%d*%.%d+' local IDEN = '^[%a_][%w_]*' local WSPACE = '^%s+' local STRING1 = "^(['\"])%1" -- empty string local STRING2 = [[^(['"])(\*)%2%1]] local STRING3 = [[^(['"]).-[^\](\*)%2%1]] local CHAR1 = "^''" local CHAR2 = [[^'(\*)%1']] local CHAR3 = [[^'.-[^\](\*)%1']] local PREPRO = '^#.-[^\\]\n' local plain_matches,lua_matches,cpp_matches,lua_keyword,cpp_keyword local function tdump(tok) return tok,tok end local function ndump(tok,options) if options and options.number then tok = tonumber(tok) end return "number",tok end -- regular strings, single or double quotes; usually we want them -- without the quotes local function sdump(tok,options) if options and options.string then tok = tok:sub(2,-2) end return "string",tok end -- long Lua strings need extra work to get rid of the quotes local function sdump_l(tok,options,findres) if options and options.string then local quotelen = 3 if findres[3] then quotelen = quotelen + findres[3]:len() end tok = tok:sub(quotelen, -quotelen) if tok:sub(1, 1) == "\n" then tok = tok:sub(2) end end return "string",tok end local function chdump(tok,options) if options and options.string then tok = tok:sub(2,-2) end return "char",tok end local function cdump(tok) return "comment",tok end local function wsdump (tok) return "space",tok end local function pdump (tok) return "prepro",tok end local function plain_vdump(tok) return "iden",tok end local function lua_vdump(tok) if lua_keyword[tok] then return "keyword",tok else return "iden",tok end end local function cpp_vdump(tok) if cpp_keyword[tok] then return "keyword",tok else return "iden",tok end end --- create a plain token iterator from a string or file-like object. -- @tparam string|file s a string or a file-like object with `:read()` method returning lines. -- @tab matches an optional match table - array of token descriptions. -- A token is described by a `{pattern, action}` pair, where `pattern` should match -- token body and `action` is a function called when a token of described type is found. -- @tab[opt] filter a table of token types to exclude, by default `{space=true}` -- @tab[opt] options a table of options; by default, `{number=true,string=true}`, -- which means convert numbers and strip string quotes. function lexer.scan(s,matches,filter,options) local file = type(s) ~= 'string' and s filter = filter or {space=true} options = options or {number=true,string=true} if filter then if filter.space then filter[wsdump] = true end if filter.comments then filter[cdump] = true end end if not matches then if not plain_matches then plain_matches = { {WSPACE,wsdump}, {NUMBER3,ndump}, {IDEN,plain_vdump}, {NUMBER1,ndump}, {NUMBER1a,ndump}, {NUMBER2,ndump}, {NUMBER2a,ndump}, {STRING1,sdump}, {STRING2,sdump}, {STRING3,sdump}, {'^.',tdump} } end matches = plain_matches end local line_nr = 0 local next_line = file and file:read() local sz = file and 0 or #s local idx = 1 local tlist_i local tlist local first_hit = true local function iter(res) local tp = type(res) if tlist then -- returning the inserted token list local cur = tlist[tlist_i] if cur then tlist_i = tlist_i + 1 return cur[1], cur[2] else tlist = nil end end if tp == 'string' then -- search up to some special pattern local i1,i2 = strfind(s,res,idx) if i1 then local tok = strsub(s,i1,i2) idx = i2 + 1 return '', tok else idx = sz + 1 return '', '' end elseif tp == 'table' then -- insert a token list tlist_i = 1 tlist = res return '', '' elseif tp ~= 'nil' then -- return position return line_nr, idx else -- look for next token if first_hit then if not file then line_nr = 1 end first_hit = false end if idx > sz then if file then if not next_line then return -- past the end of file, done end s = next_line line_nr = line_nr + 1 next_line = file:read() if next_line then s = s .. '\n' end idx, sz = 1, #s else return -- past the end of input, done end end for _,m in ipairs(matches) do local pat = m[1] local fun = m[2] local findres = {strfind(s,pat,idx)} local i1, i2 = findres[1], findres[2] if i1 then local tok = strsub(s,i1,i2) idx = i2 + 1 local ret1, ret2 if not (filter and filter[fun]) then lexer.finished = idx > sz ret1, ret2 = fun(tok, options, findres) end if not file and tok:find("\n") then -- Update line number. local _, newlines = tok:gsub("\n", {}) line_nr = line_nr + newlines end if ret1 then return ret1, ret2 -- found a match else return iter() -- tail-call to try again end end end end end return iter end local function isstring (s) return type(s) == 'string' end --- insert tokens into a stream. -- @param tok a token stream -- @param a1 a string is the type, a table is a token list and -- a function is assumed to be a token-like iterator (returns type & value) -- @string a2 a string is the value function lexer.insert (tok,a1,a2) if not a1 then return end local ts if isstring(a1) and isstring(a2) then ts = {{a1,a2}} elseif type(a1) == 'function' then ts = {} for t,v in a1() do append(ts,{t,v}) end else ts = a1 end tok(ts) end --- get everything in a stream upto a newline. -- @param tok a token stream -- @return a string function lexer.getline (tok) local _,v = tok('.-\n') return v end --- get current line number. -- @param tok a token stream -- @return the line number. -- if the input source is a file-like object, -- also return the column. function lexer.lineno (tok) return tok(0) end --- get the rest of the stream. -- @param tok a token stream -- @return a string function lexer.getrest (tok) local _,v = tok('.+') return v end --- get the Lua keywords as a set-like table. -- So `res["and"]` etc would be `true`. -- @return a table function lexer.get_keywords () if not lua_keyword then lua_keyword = { ["and"] = true, ["break"] = true, ["do"] = true, ["else"] = true, ["elseif"] = true, ["end"] = true, ["false"] = true, ["for"] = true, ["function"] = true, ["if"] = true, ["in"] = true, ["local"] = true, ["nil"] = true, ["not"] = true, ["or"] = true, ["repeat"] = true, ["return"] = true, ["then"] = true, ["true"] = true, ["until"] = true, ["while"] = true } end return lua_keyword end --- create a Lua token iterator from a string or file-like object. -- Will return the token type and value. -- @string s the string -- @tab[opt] filter a table of token types to exclude, by default `{space=true,comments=true}` -- @tab[opt] options a table of options; by default, `{number=true,string=true}`, -- which means convert numbers and strip string quotes. function lexer.lua(s,filter,options) filter = filter or {space=true,comments=true} lexer.get_keywords() if not lua_matches then lua_matches = { {WSPACE,wsdump}, {NUMBER3,ndump}, {IDEN,lua_vdump}, {NUMBER4,ndump}, {NUMBER4a,ndump}, {NUMBER5,ndump}, {NUMBER5a,ndump}, {STRING1,sdump}, {STRING2,sdump}, {STRING3,sdump}, {'^%-%-%[(=*)%[.-%]%1%]',cdump}, {'^%-%-.-\n',cdump}, {'^%[(=*)%[.-%]%1%]',sdump_l}, {'^==',tdump}, {'^~=',tdump}, {'^<=',tdump}, {'^>=',tdump}, {'^%.%.%.',tdump}, {'^%.%.',tdump}, {'^.',tdump} } end return lexer.scan(s,lua_matches,filter,options) end --- create a C/C++ token iterator from a string or file-like object. -- Will return the token type type and value. -- @string s the string -- @tab[opt] filter a table of token types to exclude, by default `{space=true,comments=true}` -- @tab[opt] options a table of options; by default, `{number=true,string=true}`, -- which means convert numbers and strip string quotes. function lexer.cpp(s,filter,options) filter = filter or {space=true,comments=true} if not cpp_keyword then cpp_keyword = { ["class"] = true, ["break"] = true, ["do"] = true, ["sizeof"] = true, ["else"] = true, ["continue"] = true, ["struct"] = true, ["false"] = true, ["for"] = true, ["public"] = true, ["void"] = true, ["private"] = true, ["protected"] = true, ["goto"] = true, ["if"] = true, ["static"] = true, ["const"] = true, ["typedef"] = true, ["enum"] = true, ["char"] = true, ["int"] = true, ["bool"] = true, ["long"] = true, ["float"] = true, ["true"] = true, ["delete"] = true, ["double"] = true, ["while"] = true, ["new"] = true, ["namespace"] = true, ["try"] = true, ["catch"] = true, ["switch"] = true, ["case"] = true, ["extern"] = true, ["return"] = true,["default"] = true,['unsigned'] = true,['signed'] = true, ["union"] = true, ["volatile"] = true, ["register"] = true,["short"] = true, } end if not cpp_matches then cpp_matches = { {WSPACE,wsdump}, {PREPRO,pdump}, {NUMBER3,ndump}, {IDEN,cpp_vdump}, {NUMBER4,ndump}, {NUMBER4a,ndump}, {NUMBER5,ndump}, {NUMBER5a,ndump}, {CHAR1,chdump}, {CHAR2,chdump}, {CHAR3,chdump}, {STRING1,sdump}, {STRING2,sdump}, {STRING3,sdump}, {'^//.-\n',cdump}, {'^/%*.-%*/',cdump}, {'^==',tdump}, {'^!=',tdump}, {'^<=',tdump}, {'^>=',tdump}, {'^->',tdump}, {'^&&',tdump}, {'^||',tdump}, {'^%+%+',tdump}, {'^%-%-',tdump}, {'^%+=',tdump}, {'^%-=',tdump}, {'^%*=',tdump}, {'^/=',tdump}, {'^|=',tdump}, {'^%^=',tdump}, {'^::',tdump}, {'^.',tdump} } end return lexer.scan(s,cpp_matches,filter,options) end --- get a list of parameters separated by a delimiter from a stream. -- @param tok the token stream -- @string[opt=')'] endtoken end of list. Can be '\n' -- @string[opt=','] delim separator -- @return a list of token lists. function lexer.get_separated_list(tok,endtoken,delim) endtoken = endtoken or ')' delim = delim or ',' local parm_values = {} local level = 1 -- used to count ( and ) local tl = {} local function tappend (tl,t,val) val = val or t append(tl,{t,val}) end local is_end if endtoken == '\n' then is_end = function(t,val) return t == 'space' and val:find '\n' end else is_end = function (t) return t == endtoken end end local token,value while true do token,value=tok() if not token then return nil,'EOS' end -- end of stream is an error! if is_end(token,value) and level == 1 then append(parm_values,tl) break elseif token == '(' then level = level + 1 tappend(tl,'(') elseif token == ')' then level = level - 1 if level == 0 then -- finished with parm list append(parm_values,tl) break else tappend(tl,')') end elseif token == delim and level == 1 then append(parm_values,tl) -- a new parm tl = {} else tappend(tl,token,value) end end return parm_values,{token,value} end --- get the next non-space token from the stream. -- @param tok the token stream. function lexer.skipws (tok) local t,v = tok() while t == 'space' do t,v = tok() end return t,v end local skipws = lexer.skipws --- get the next token, which must be of the expected type. -- Throws an error if this type does not match! -- @param tok the token stream -- @string expected_type the token type -- @bool no_skip_ws whether we should skip whitespace function lexer.expecting (tok,expected_type,no_skip_ws) assert_arg(1,tok,'function') assert_arg(2,expected_type,'string') local t,v if no_skip_ws then t,v = tok() else t,v = skipws(tok) end if t ~= expected_type then error ("expecting "..expected_type,2) end return v end return lexer end, ["pl.List"] = function() -------------------- -- Module: 'pl.List' -------------------- --- Python-style list class. -- -- **Please Note**: methods that change the list will return the list. -- This is to allow for method chaining, but please note that `ls = ls:sort()` -- does not mean that a new copy of the list is made. In-place (mutable) methods -- are marked as returning 'the list' in this documentation. -- -- See the Guide for further @{02-arrays.md.Python_style_Lists|discussion} -- -- See http://www.python.org/doc/current/tut/tut.html, section 5.1 -- -- **Note**: The comments before some of the functions are from the Python docs -- and contain Python code. -- -- Written for Lua version Nick Trout 4.0; Redone for Lua 5.1, Steve Donovan. -- -- Dependencies: `pl.utils`, `pl.tablex`, `pl.class` -- @classmod pl.List -- @pragma nostrip local tinsert,tremove,concat,tsort = table.insert,table.remove,table.concat,table.sort local setmetatable, getmetatable,type,tostring,string = setmetatable,getmetatable,type,tostring,string local tablex = require 'pl.tablex' local filter,imap,imap2,reduce,transform,tremovevalues = tablex.filter,tablex.imap,tablex.imap2,tablex.reduce,tablex.transform,tablex.removevalues local tsub = tablex.sub local utils = require 'pl.utils' local class = require 'pl.class' local array_tostring,split,assert_arg,function_arg = utils.array_tostring,utils.split,utils.assert_arg,utils.function_arg local normalize_slice = tablex._normalize_slice -- metatable for our list and map objects has already been defined.. local Multimap = utils.stdmt.MultiMap local List = utils.stdmt.List local iter class(nil,nil,List) -- we want the result to be _covariant_, i.e. t must have type of obj if possible local function makelist (t,obj) local klass = List if obj then klass = getmetatable(obj) end return setmetatable(t,klass) end local function simple_table(t) return type(t) == 'table' and not getmetatable(t) and #t > 0 end function List._create (src) if simple_table(src) then return src end end function List:_init (src) if self == src then return end -- existing table used as self! if src then for v in iter(src) do tinsert(self,v) end end end --- Create a new list. Can optionally pass a table; -- passing another instance of List will cause a copy to be created; -- this will return a plain table with an appropriate metatable. -- we pass anything which isn't a simple table to iterate() to work out -- an appropriate iterator -- @see List.iterate -- @param[opt] t An optional list-like table -- @return a new List -- @usage ls = List(); ls = List {1,2,3,4} -- @function List.new List.new = List --- Make a copy of an existing list. -- The difference from a plain 'copy constructor' is that this returns -- the actual List subtype. function List:clone() local ls = makelist({},self) ls:extend(self) return ls end --- Add an item to the end of the list. -- @param i An item -- @return the list function List:append(i) tinsert(self,i) return self end List.push = tinsert --- Extend the list by appending all the items in the given list. -- equivalent to 'a[len(a):] = L'. -- @tparam List L Another List -- @return the list function List:extend(L) assert_arg(1,L,'table') for i = 1,#L do tinsert(self,L[i]) end return self end --- Insert an item at a given position. i is the index of the -- element before which to insert. -- @int i index of element before whichh to insert -- @param x A data item -- @return the list function List:insert(i, x) assert_arg(1,i,'number') tinsert(self,i,x) return self end --- Insert an item at the begining of the list. -- @param x a data item -- @return the list function List:put (x) return self:insert(1,x) end --- Remove an element given its index. -- (equivalent of Python's del s[i]) -- @int i the index -- @return the list function List:remove (i) assert_arg(1,i,'number') tremove(self,i) return self end --- Remove the first item from the list whose value is given. -- (This is called 'remove' in Python; renamed to avoid confusion -- with table.remove) -- Return nil if there is no such item. -- @param x A data value -- @return the list function List:remove_value(x) for i=1,#self do if self[i]==x then tremove(self,i) return self end end return self end --- Remove the item at the given position in the list, and return it. -- If no index is specified, a:pop() returns the last item in the list. -- The item is also removed from the list. -- @int[opt] i An index -- @return the item function List:pop(i) if not i then i = #self end assert_arg(1,i,'number') return tremove(self,i) end List.get = List.pop --- Return the index in the list of the first item whose value is given. -- Return nil if there is no such item. -- @function List:index -- @param x A data value -- @int[opt=1] idx where to start search -- @return the index, or nil if not found. local tfind = tablex.find List.index = tfind --- Does this list contain the value? -- @param x A data value -- @return true or false function List:contains(x) return tfind(self,x) and true or false end --- Return the number of times value appears in the list. -- @param x A data value -- @return number of times x appears function List:count(x) local cnt=0 for i=1,#self do if self[i]==x then cnt=cnt+1 end end return cnt end --- Sort the items of the list, in place. -- @func[opt='<'] cmp an optional comparison function -- @return the list function List:sort(cmp) if cmp then cmp = function_arg(1,cmp) end tsort(self,cmp) return self end --- Return a sorted copy of this list. -- @func[opt='<'] cmp an optional comparison function -- @return a new list function List:sorted(cmp) return List(self):sort(cmp) end --- Reverse the elements of the list, in place. -- @return the list function List:reverse() local t = self local n = #t for i = 1,n/2 do t[i],t[n] = t[n],t[i] n = n - 1 end return self end --- Return the minimum and the maximum value of the list. -- @return minimum value -- @return maximum value function List:minmax() local vmin,vmax = 1e70,-1e70 for i = 1,#self do local v = self[i] if v < vmin then vmin = v end if v > vmax then vmax = v end end return vmin,vmax end --- Emulate list slicing. like 'list[first:last]' in Python. -- If first or last are negative then they are relative to the end of the list -- eg. slice(-2) gives last 2 entries in a list, and -- slice(-4,-2) gives from -4th to -2nd -- @param first An index -- @param last An index -- @return a new List function List:slice(first,last) return tsub(self,first,last) end --- Empty the list. -- @return the list function List:clear() for i=1,#self do tremove(self) end return self end local eps = 1.0e-10 --- Emulate Python's range(x) function. -- Include it in List table for tidiness -- @int start A number -- @int[opt] finish A number greater than start; if absent, -- then start is 1 and finish is start -- @int[opt=1] incr an increment (may be less than 1) -- @return a List from start .. finish -- @usage List.range(0,3) == List{0,1,2,3} -- @usage List.range(4) = List{1,2,3,4} -- @usage List.range(5,1,-1) == List{5,4,3,2,1} function List.range(start,finish,incr) if not finish then finish = start start = 1 end if incr then assert_arg(3,incr,'number') if math.ceil(incr) ~= incr then finish = finish + eps end else incr = 1 end assert_arg(1,start,'number') assert_arg(2,finish,'number') local t = List() for i=start,finish,incr do tinsert(t,i) end return t end --- list:len() is the same as #list. function List:len() return #self end -- Extended operations -- --- Remove a subrange of elements. -- equivalent to 'del s[i1:i2]' in Python. -- @int i1 start of range -- @int i2 end of range -- @return the list function List:chop(i1,i2) return tremovevalues(self,i1,i2) end --- Insert a sublist into a list -- equivalent to 's[idx:idx] = list' in Python -- @int idx index -- @tparam List list list to insert -- @return the list -- @usage l = List{10,20}; l:splice(2,{21,22}); assert(l == List{10,21,22,20}) function List:splice(idx,list) assert_arg(1,idx,'number') idx = idx - 1 local i = 1 for v in iter(list) do tinsert(self,i+idx,v) i = i + 1 end return self end --- General slice assignment s[i1:i2] = seq. -- @int i1 start index -- @int i2 end index -- @tparam List seq a list -- @return the list function List:slice_assign(i1,i2,seq) assert_arg(1,i1,'number') assert_arg(1,i2,'number') i1,i2 = normalize_slice(self,i1,i2) if i2 >= i1 then self:chop(i1,i2) end self:splice(i1,seq) return self end --- Concatenation operator. -- @within metamethods -- @tparam List L another List -- @return a new list consisting of the list with the elements of the new list appended function List:__concat(L) assert_arg(1,L,'table') local ls = self:clone() ls:extend(L) return ls end --- Equality operator ==. True iff all elements of two lists are equal. -- @within metamethods -- @tparam List L another List -- @return true or false function List:__eq(L) if #self ~= #L then return false end for i = 1,#self do if self[i] ~= L[i] then return false end end return true end --- Join the elements of a list using a delimiter. -- This method uses tostring on all elements. -- @string[opt=''] delim a delimiter string, can be empty. -- @return a string function List:join (delim) delim = delim or '' assert_arg(1,delim,'string') return concat(array_tostring(self),delim) end --- Join a list of strings. -- Uses `table.concat` directly. -- @function List:concat -- @string[opt=''] delim a delimiter -- @return a string List.concat = concat local function tostring_q(val) local s = tostring(val) if type(val) == 'string' then s = '"'..s..'"' end return s end --- How our list should be rendered as a string. Uses join(). -- @within metamethods -- @see List:join function List:__tostring() return '{'..self:join(',',tostring_q)..'}' end --- Call the function on each element of the list. -- @func fun a function or callable object -- @param ... optional values to pass to function function List:foreach (fun,...) fun = function_arg(1,fun) for i = 1,#self do fun(self[i],...) end end local function lookup_fun (obj,name) local f = obj[name] if not f then error(type(obj).." does not have method "..name,3) end return f end --- Call the named method on each element of the list. -- @string name the method name -- @param ... optional values to pass to function function List:foreachm (name,...) for i = 1,#self do local obj = self[i] local f = lookup_fun(obj,name) f(obj,...) end end --- Create a list of all elements which match a function. -- @func fun a boolean function -- @param[opt] arg optional argument to be passed as second argument of the predicate -- @return a new filtered list. function List:filter (fun,arg) return makelist(filter(self,fun,arg),self) end --- Split a string using a delimiter. -- @string s the string -- @string[opt] delim the delimiter (default spaces) -- @return a List of strings -- @see pl.utils.split function List.split (s,delim) assert_arg(1,s,'string') return makelist(split(s,delim)) end --- Apply a function to all elements. -- Any extra arguments will be passed to the function. -- @func fun a function of at least one argument -- @param ... arbitrary extra arguments. -- @return a new list: {f(x) for x in self} -- @usage List{'one','two'}:map(string.upper) == {'ONE','TWO'} -- @see pl.tablex.imap function List:map (fun,...) return makelist(imap(fun,self,...),self) end --- Apply a function to all elements, in-place. -- Any extra arguments are passed to the function. -- @func fun A function that takes at least one argument -- @param ... arbitrary extra arguments. -- @return the list. function List:transform (fun,...) transform(fun,self,...) return self end --- Apply a function to elements of two lists. -- Any extra arguments will be passed to the function -- @func fun a function of at least two arguments -- @tparam List ls another list -- @param ... arbitrary extra arguments. -- @return a new list: {f(x,y) for x in self, for x in arg1} -- @see pl.tablex.imap2 function List:map2 (fun,ls,...) return makelist(imap2(fun,self,ls,...),self) end --- apply a named method to all elements. -- Any extra arguments will be passed to the method. -- @string name name of method -- @param ... extra arguments -- @return a new list of the results -- @see pl.seq.mapmethod function List:mapm (name,...) local res = {} for i = 1,#self do local val = self[i] local fn = lookup_fun(val,name) res[i] = fn(val,...) end return makelist(res,self) end local function composite_call (method,f) return function(self,...) return self[method](self,f,...) end end function List.default_map_with(T) return function(self,name) local m if T then local f = lookup_fun(T,name) m = composite_call('map',f) else m = composite_call('mapn',name) end getmetatable(self)[name] = m -- and cache.. return m end end List.default_map = List.default_map_with --- 'reduce' a list using a binary function. -- @func fun a function of two arguments -- @return result of the function -- @see pl.tablex.reduce function List:reduce (fun) return reduce(fun,self) end --- Partition a list using a classifier function. -- The function may return nil, but this will be converted to the string key ''. -- @func fun a function of at least one argument -- @param ... will also be passed to the function -- @treturn MultiMap a table where the keys are the returned values, and the values are Lists -- of values where the function returned that key. -- @see pl.MultiMap function List:partition (fun,...) fun = function_arg(1,fun) local res = {} for i = 1,#self do local val = self[i] local klass = fun(val,...) if klass == nil then klass = '' end if not res[klass] then res[klass] = List() end res[klass]:append(val) end return setmetatable(res,Multimap) end --- return an iterator over all values. function List:iter () return iter(self) end --- Create an iterator over a seqence. -- This captures the Python concept of 'sequence'. -- For tables, iterates over all values with integer indices. -- @param seq a sequence; a string (over characters), a table, a file object (over lines) or an iterator function -- @usage for x in iterate {1,10,22,55} do io.write(x,',') end ==> 1,10,22,55 -- @usage for ch in iterate 'help' do do io.write(ch,' ') end ==> h e l p function List.iterate(seq) if type(seq) == 'string' then local idx = 0 local n = #seq local sub = string.sub return function () idx = idx + 1 if idx > n then return nil else return sub(seq,idx,idx) end end elseif type(seq) == 'table' then local idx = 0 local n = #seq return function() idx = idx + 1 if idx > n then return nil else return seq[idx] end end elseif type(seq) == 'function' then return seq elseif type(seq) == 'userdata' and io.type(seq) == 'file' then return seq:lines() end end iter = List.iterate return List end, ["pl.luabalanced"] = function() -------------------- -- Module: 'pl.luabalanced' -------------------- --- Extract delimited Lua sequences from strings. -- Inspired by Damian Conway's Text::Balanced in Perl. -- -- [1] Lua Wiki Page -- [2] http://search.cpan.org/dist/Text-Balanced/lib/Text/Balanced.pm -- -- -- local lb = require "pl.luabalanced" -- --Extract Lua expression starting at position 4. -- print(lb.match_expression("if x^2 + x > 5 then print(x) end", 4)) -- --> x^2 + x > 5 16 -- --Extract Lua string starting at (default) position 1. -- print(lb.match_string([["test\"123" .. "more"]])) -- --> "test\"123" 12 -- -- (c) 2008, David Manura, Licensed under the same terms as Lua (MIT license). -- @class module -- @name pl.luabalanced local M = {} local assert = assert -- map opening brace <-> closing brace. local ends = { ['('] = ')', ['{'] = '}', ['['] = ']' } local begins = {}; for k,v in pairs(ends) do begins[v] = k end -- Match Lua string in string starting at position . -- Returns , , where is the matched -- string (or nil on no match) and is the character -- following the match (or on no match). -- Supports all Lua string syntax: "...", '...', [[...]], [=[...]=], etc. local function match_string(s, pos) pos = pos or 1 local posa = pos local c = s:sub(pos,pos) if c == '"' or c == "'" then pos = pos + 1 while 1 do pos = assert(s:find("[" .. c .. "\\]", pos), 'syntax error') if s:sub(pos,pos) == c then local part = s:sub(posa, pos) return part, pos + 1 else pos = pos + 2 end end else local sc = s:match("^%[(=*)%[", pos) if sc then local _; _, pos = s:find("%]" .. sc .. "%]", pos) assert(pos) local part = s:sub(posa, pos) return part, pos + 1 else return nil, pos end end end M.match_string = match_string -- Match bracketed Lua expression, e.g. "(...)", "{...}", "[...]", "[[...]]", -- [=[...]=], etc. -- Function interface is similar to match_string. local function match_bracketed(s, pos) pos = pos or 1 local posa = pos local ca = s:sub(pos,pos) if not ends[ca] then return nil, pos end local stack = {} while 1 do pos = s:find('[%(%{%[%)%}%]\"\']', pos) assert(pos, 'syntax error: unbalanced') local c = s:sub(pos,pos) if c == '"' or c == "'" then local part; part, pos = match_string(s, pos) assert(part) elseif ends[c] then -- open local mid, posb if c == '[' then mid, posb = s:match('^%[(=*)%[()', pos) end if mid then pos = s:match('%]' .. mid .. '%]()', posb) assert(pos, 'syntax error: long string not terminated') if #stack == 0 then local part = s:sub(posa, pos-1) return part, pos end else stack[#stack+1] = c pos = pos + 1 end else -- close assert(stack[#stack] == assert(begins[c]), 'syntax error: unbalanced') stack[#stack] = nil if #stack == 0 then local part = s:sub(posa, pos) return part, pos+1 end pos = pos + 1 end end end M.match_bracketed = match_bracketed -- Match Lua comment, e.g. "--...\n", "--[[...]]", "--[=[...]=]", etc. -- Function interface is similar to match_string. local function match_comment(s, pos) pos = pos or 1 if s:sub(pos, pos+1) ~= '--' then return nil, pos end pos = pos + 2 local partt, post = match_string(s, pos) if partt then return '--' .. partt, post end local part; part, pos = s:match('^([^\n]*\n?)()', pos) return '--' .. part, pos end -- Match Lua expression, e.g. "a + b * c[e]". -- Function interface is similar to match_string. local wordop = {['and']=true, ['or']=true, ['not']=true} local is_compare = {['>']=true, ['<']=true, ['~']=true} local function match_expression(s, pos) pos = pos or 1 local _ local posa = pos local lastident local poscs, posce while pos do local c = s:sub(pos,pos) if c == '"' or c == "'" or c == '[' and s:find('^[=%[]', pos+1) then local part; part, pos = match_string(s, pos) assert(part, 'syntax error') elseif c == '-' and s:sub(pos+1,pos+1) == '-' then -- note: handle adjacent comments in loop to properly support -- backtracing (poscs/posce). poscs = pos while s:sub(pos,pos+1) == '--' do local part; part, pos = match_comment(s, pos) assert(part) pos = s:match('^%s*()', pos) posce = pos end elseif c == '(' or c == '{' or c == '[' then _, pos = match_bracketed(s, pos) elseif c == '=' and s:sub(pos+1,pos+1) == '=' then pos = pos + 2 -- skip over two-char op containing '=' elseif c == '=' and is_compare[s:sub(pos-1,pos-1)] then pos = pos + 1 -- skip over two-char op containing '=' elseif c:match'^[%)%}%];,=]' then local part = s:sub(posa, pos-1) return part, pos elseif c:match'^[%w_]' then local newident,newpos = s:match('^([%w_]+)()', pos) if pos ~= posa and not wordop[newident] then -- non-first ident local pose = ((posce == pos) and poscs or pos) - 1 while s:match('^%s', pose) do pose = pose - 1 end local ce = s:sub(pose,pose) if ce:match'[%)%}\'\"%]]' or ce:match'[%w_]' and not wordop[lastident] then local part = s:sub(posa, pos-1) return part, pos end end lastident, pos = newident, newpos else pos = pos + 1 end pos = s:find('[%(%{%[%)%}%]\"\';,=%w_%-]', pos) end local part = s:sub(posa, #s) return part, #s+1 end M.match_expression = match_expression -- Match name list (zero or more names). E.g. "a,b,c" -- Function interface is similar to match_string, -- but returns array as match. local function match_namelist(s, pos) pos = pos or 1 local list = {} while 1 do local c = #list == 0 and '^' or '^%s*,%s*' local item, post = s:match(c .. '([%a_][%w_]*)%s*()', pos) if item then pos = post else break end list[#list+1] = item end return list, pos end M.match_namelist = match_namelist -- Match expression list (zero or more expressions). E.g. "a+b,b*c". -- Function interface is similar to match_string, -- but returns array as match. local function match_explist(s, pos) pos = pos or 1 local list = {} while 1 do if #list ~= 0 then local post = s:match('^%s*,%s*()', pos) if post then pos = post else break end end local item; item, pos = match_expression(s, pos) assert(item, 'syntax error') list[#list+1] = item end return list, pos end M.match_explist = match_explist -- Replace snippets of code in Lua code string -- using replacement function f(u,sin) --> sout. -- is the type of snippet ('c' = comment, 's' = string, -- 'e' = any other code). -- Snippet is replaced with (unless is nil or false, in -- which case the original snippet is kept) -- This is somewhat analogous to string.gsub . local function gsub(s, f) local pos = 1 local posa = 1 local sret = '' while 1 do pos = s:find('[%-\'\"%[]', pos) if not pos then break end if s:match('^%-%-', pos) then local exp = s:sub(posa, pos-1) if #exp > 0 then sret = sret .. (f('e', exp) or exp) end local comment; comment, pos = match_comment(s, pos) sret = sret .. (f('c', assert(comment)) or comment) posa = pos else local posb = s:find('^[\'\"%[]', pos) local str if posb then str, pos = match_string(s, posb) end if str then local exp = s:sub(posa, posb-1) if #exp > 0 then sret = sret .. (f('e', exp) or exp) end sret = sret .. (f('s', str) or str) posa = pos else pos = pos + 1 end end end local exp = s:sub(posa) if #exp > 0 then sret = sret .. (f('e', exp) or exp) end return sret end M.gsub = gsub return M end, ["pl.Map"] = function() -------------------- -- Module: 'pl.Map' -------------------- --- A Map class. -- -- > Map = require 'pl.Map' -- > m = Map{one=1,two=2} -- > m:update {three=3,four=4,two=20} -- > = m == M{one=1,two=20,three=3,four=4} -- true -- -- Dependencies: `pl.utils`, `pl.class`, `pl.tablex`, `pl.pretty` -- @classmod pl.Map local tablex = require 'pl.tablex' local utils = require 'pl.utils' local stdmt = utils.stdmt local deepcompare = tablex.deepcompare local pretty_write = require 'pl.pretty' . write local Map = stdmt.Map local Set = stdmt.Set local class = require 'pl.class' -- the Map class --------------------- class(nil,nil,Map) function Map:_init (t) local mt = getmetatable(t) if mt == Set or mt == Map then self:update(t) else return t -- otherwise assumed to be a map-like table end end local function makelist(t) return setmetatable(t, require('pl.List')) end --- list of keys. Map.keys = tablex.keys --- list of values. Map.values = tablex.values --- return an iterator over all key-value pairs. function Map:iter () return pairs(self) end --- return a List of all key-value pairs, sorted by the keys. function Map:items() local ls = makelist(tablex.pairmap (function (k,v) return makelist {k,v} end, self)) ls:sort(function(t1,t2) return t1[1] < t2[1] end) return ls end --- set a value in the map if it doesn't exist yet. -- @param key the key -- @param default value to set -- @return the value stored in the map (existing value, or the new value) function Map:setdefault(key, default) local val = self[key] if val ~= nil then return val end self:set(key,default) return default end --- size of map. -- note: this is a relatively expensive operation! -- @class function -- @name Map:len Map.len = tablex.size --- put a value into the map. -- This will remove the key if the value is `nil` -- @param key the key -- @param val the value function Map:set (key,val) self[key] = val end --- get a value from the map. -- @param key the key -- @return the value, or nil if not found. function Map:get (key) return rawget(self,key) end local index_by = tablex.index_by --- get a list of values indexed by a list of keys. -- @param keys a list-like table of keys -- @return a new list function Map:getvalues (keys) return makelist(index_by(self,keys)) end --- update the map using key/value pairs from another table. -- @tab table -- @function Map:update Map.update = tablex.update --- equality between maps. -- @within metamethods -- @tparam Map m another map. function Map:__eq (m) -- note we explicitly ask deepcompare _not_ to use __eq! return deepcompare(self,m,true) end --- string representation of a map. -- @within metamethods function Map:__tostring () return pretty_write(self,'') end return Map end, ["pl.MultiMap"] = function() -------------------- -- Module: 'pl.MultiMap' -------------------- --- MultiMap, a Map which has multiple values per key. -- -- Dependencies: `pl.utils`, `pl.class`, `pl.List`, `pl.Map` -- @classmod pl.MultiMap local utils = require 'pl.utils' local class = require 'pl.class' local List = require 'pl.List' local Map = require 'pl.Map' -- MultiMap is a standard MT local MultiMap = utils.stdmt.MultiMap class(Map,nil,MultiMap) MultiMap._name = 'MultiMap' function MultiMap:_init (t) if not t then return end self:update(t) end --- update a MultiMap using a table. -- @param t either a Multimap or a map-like table. -- @return the map function MultiMap:update (t) utils.assert_arg(1,t,'table') if Map:class_of(t) then for k,v in pairs(t) do self[k] = List() self[k]:append(v) end else for k,v in pairs(t) do self[k] = List(v) end end end --- add a new value to a key. Setting a nil value removes the key. -- @param key the key -- @param val the value -- @return the map function MultiMap:set (key,val) if val == nil then self[key] = nil else if not self[key] then self[key] = List() end self[key]:append(val) end end return MultiMap end, ["pl.operator"] = function() -------------------- -- Module: 'pl.operator' -------------------- --- Lua operators available as functions. -- -- (similar to the Python module of the same name) -- -- There is a module field `optable` which maps the operator strings -- onto these functions, e.g. `operator.optable['()']==operator.call` -- -- Operator strings like '>' and '{}' can be passed to most Penlight functions -- expecting a function argument. -- -- @module pl.operator local strfind = string.find local operator = {} --- apply function to some arguments **()** -- @param fn a function or callable object -- @param ... arguments function operator.call(fn,...) return fn(...) end --- get the indexed value from a table **[]** -- @param t a table or any indexable object -- @param k the key function operator.index(t,k) return t[k] end --- returns true if arguments are equal **==** -- @param a value -- @param b value function operator.eq(a,b) return a==b end --- returns true if arguments are not equal **~=** -- @param a value -- @param b value function operator.neq(a,b) return a~=b end --- returns true if a is less than b **<** -- @param a value -- @param b value function operator.lt(a,b) return a < b end --- returns true if a is less or equal to b **<=** -- @param a value -- @param b value function operator.le(a,b) return a <= b end --- returns true if a is greater than b **>** -- @param a value -- @param b value function operator.gt(a,b) return a > b end --- returns true if a is greater or equal to b **>=** -- @param a value -- @param b value function operator.ge(a,b) return a >= b end --- returns length of string or table **#** -- @param a a string or a table function operator.len(a) return #a end --- add two values **+** -- @param a value -- @param b value function operator.add(a,b) return a+b end --- subtract b from a **-** -- @param a value -- @param b value function operator.sub(a,b) return a-b end --- multiply two values __*__ -- @param a value -- @param b value function operator.mul(a,b) return a*b end --- divide first value by second **/** -- @param a value -- @param b value function operator.div(a,b) return a/b end --- raise first to the power of second **^** -- @param a value -- @param b value function operator.pow(a,b) return a^b end --- modulo; remainder of a divided by b **%** -- @param a value -- @param b value function operator.mod(a,b) return a%b end --- concatenate two values (either strings or `__concat` defined) **..** -- @param a value -- @param b value function operator.concat(a,b) return a..b end --- return the negative of a value **-** -- @param a value function operator.unm(a) return -a end --- false if value evaluates as true **not** -- @param a value function operator.lnot(a) return not a end --- true if both values evaluate as true **and** -- @param a value -- @param b value function operator.land(a,b) return a and b end --- true if either value evaluate as true **or** -- @param a value -- @param b value function operator.lor(a,b) return a or b end --- make a table from the arguments **{}** -- @param ... non-nil arguments -- @return a table function operator.table (...) return {...} end --- match two strings **~**. -- uses @{string.find} function operator.match (a,b) return strfind(a,b)~=nil end --- the null operation. -- @param ... arguments -- @return the arguments function operator.nop (...) return ... end ---- Map from operator symbol to function. -- Most of these map directly from operators; -- But note these extras -- -- * __'()'__ `call` -- * __'[]'__ `index` -- * __'{}'__ `table` -- * __'~'__ `match` -- -- @table optable -- @field operator operator.optable = { ['+']=operator.add, ['-']=operator.sub, ['*']=operator.mul, ['/']=operator.div, ['%']=operator.mod, ['^']=operator.pow, ['..']=operator.concat, ['()']=operator.call, ['[]']=operator.index, ['<']=operator.lt, ['<=']=operator.le, ['>']=operator.gt, ['>=']=operator.ge, ['==']=operator.eq, ['~=']=operator.neq, ['#']=operator.len, ['and']=operator.land, ['or']=operator.lor, ['{}']=operator.table, ['~']=operator.match, ['']=operator.nop, } return operator end, ["pl.OrderedMap"] = function() -------------------- -- Module: 'pl.OrderedMap' -------------------- --- OrderedMap, a map which preserves ordering. -- -- Derived from `pl.Map`. -- -- Dependencies: `pl.utils`, `pl.tablex`, `pl.class`, `pl.List`, `pl.Map` -- @classmod pl.OrderedMap local tablex = require 'pl.tablex' local utils = require 'pl.utils' local List = require 'pl.List' local index_by,tsort,concat = tablex.index_by,table.sort,table.concat local class = require 'pl.class' local Map = require 'pl.Map' local OrderedMap = class(Map) OrderedMap._name = 'OrderedMap' local rawset = rawset --- construct an OrderedMap. -- Will throw an error if the argument is bad. -- @param t optional initialization table, same as for @{OrderedMap:update} function OrderedMap:_init (t) rawset(self,'_keys',List()) if t then local map,err = self:update(t) if not map then error(err,2) end end end local assert_arg,raise = utils.assert_arg,utils.raise --- update an OrderedMap using a table. -- If the table is itself an OrderedMap, then its entries will be appended. -- if it s a table of the form `{{key1=val1},{key2=val2},...}` these will be appended. -- -- Otherwise, it is assumed to be a map-like table, and order of extra entries is arbitrary. -- @tab t a table. -- @return the map, or nil in case of error -- @return the error message function OrderedMap:update (t) assert_arg(1,t,'table') if OrderedMap:class_of(t) then for k,v in t:iter() do self:set(k,v) end elseif #t > 0 then -- an array must contain {key=val} tables if type(t[1]) == 'table' then for _,pair in ipairs(t) do local key,value = next(pair) if not key then return raise 'empty pair initialization table' end self:set(key,value) end else return raise 'cannot use an array to initialize an OrderedMap' end else for k,v in pairs(t) do self:set(k,v) end end return self end --- set the key's value. This key will be appended at the end of the map. -- -- If the value is nil, then the key is removed. -- @param key the key -- @param val the value -- @return the map function OrderedMap:set (key,val) if rawget(self, key) == nil and val ~= nil then -- new key self._keys:append(key) -- we keep in order rawset(self,key,val) -- don't want to provoke __newindex! else -- existing key-value pair if val == nil then self._keys:remove_value(key) rawset(self,key,nil) else self[key] = val end end return self end OrderedMap.__newindex = OrderedMap.set --- insert a key/value pair before a given position. -- Note: if the map already contains the key, then this effectively -- moves the item to the new position by first removing at the old position. -- Has no effect if the key does not exist and val is nil -- @int pos a position starting at 1 -- @param key the key -- @param val the value; if nil use the old value function OrderedMap:insert (pos,key,val) local oldval = self[key] val = val or oldval if oldval then self._keys:remove_value(key) end if val then self._keys:insert(pos,key) rawset(self,key,val) end return self end --- return the keys in order. -- (Not a copy!) -- @return List function OrderedMap:keys () return self._keys end --- return the values in order. -- this is relatively expensive. -- @return List function OrderedMap:values () return List(index_by(self,self._keys)) end --- sort the keys. -- @func cmp a comparison function as for @{table.sort} -- @return the map function OrderedMap:sort (cmp) tsort(self._keys,cmp) return self end --- iterate over key-value pairs in order. function OrderedMap:iter () local i = 0 local keys = self._keys local idx return function() i = i + 1 if i > #keys then return nil end idx = keys[i] return idx,self[idx] end end --- iterate over an ordered map (5.2). -- @within metamethods -- @function OrderedMap:__pairs OrderedMap.__pairs = OrderedMap.iter --- string representation of an ordered map. -- @within metamethods function OrderedMap:__tostring () local res = {} for i,v in ipairs(self._keys) do local val = self[v] local vs = tostring(val) if type(val) ~= 'number' then vs = '"'..vs..'"' end res[i] = tostring(v)..'='..vs end return '{'..concat(res,',')..'}' end return OrderedMap end, ["pl.path"] = function() -------------------- -- Module: 'pl.path' -------------------- --- Path manipulation and file queries. -- -- This is modelled after Python's os.path library (10.1); see @{04-paths.md|the Guide}. -- -- NOTE: the functions assume the paths being dealt with to originate -- from the OS the application is running on. Windows drive letters are not -- to be used when running on a Unix system for example. The one exception -- is Windows paths to allow both forward and backward slashes (since Lua -- also accepts those) -- -- Dependencies: `pl.utils`, `lfs` -- @module pl.path -- imports and locals local _G = _G local sub = string.sub local getenv = os.getenv local tmpnam = os.tmpname local package = package local append, concat, remove = table.insert, table.concat, table.remove local utils = require 'pl.utils' local assert_string,raise = utils.assert_string,utils.raise local res,lfs = _G.pcall(_G.require,'lfs') if not res then error("pl.path requires LuaFileSystem") end local attrib = lfs.attributes local currentdir = lfs.currentdir local link_attrib = lfs.symlinkattributes local path = {} local function err_func(name, param, err, code) local ret = ("%s failed"):format(tostring(name)) if param ~= nil then ret = ret .. (" for '%s'"):format(tostring(param)) end ret = ret .. (": %s"):format(tostring(err)) if code ~= nil then ret = ret .. (" (code %s)"):format(tostring(code)) end return ret end --- Lua iterator over the entries of a given directory. -- Implicit link to [`luafilesystem.dir`](https://keplerproject.github.io/luafilesystem/manual.html#reference) -- @function dir path.dir = lfs.dir --- Creates a directory. -- Implicit link to [`luafilesystem.mkdir`](https://keplerproject.github.io/luafilesystem/manual.html#reference) -- @function mkdir path.mkdir = function(d) local ok, err, code = lfs.mkdir(d) if not ok then return ok, err_func("mkdir", d, err, code), code end return ok, err, code end --- Removes a directory. -- Implicit link to [`luafilesystem.rmdir`](https://keplerproject.github.io/luafilesystem/manual.html#reference) -- @function rmdir path.rmdir = function(d) local ok, err, code = lfs.rmdir(d) if not ok then return ok, err_func("rmdir", d, err, code), code end return ok, err, code end --- Gets attributes. -- Implicit link to [`luafilesystem.attributes`](https://keplerproject.github.io/luafilesystem/manual.html#reference) -- @function attrib path.attrib = function(d, r) local ok, err, code = attrib(d, r) if not ok then return ok, err_func("attrib", d, err, code), code end return ok, err, code end --- Get the working directory. -- Implicit link to [`luafilesystem.currentdir`](https://keplerproject.github.io/luafilesystem/manual.html#reference) -- @function currentdir path.currentdir = function() local ok, err, code = currentdir() if not ok then return ok, err_func("currentdir", nil, err, code), code end return ok, err, code end --- Gets symlink attributes. -- Implicit link to [`luafilesystem.symlinkattributes`](https://keplerproject.github.io/luafilesystem/manual.html#reference) -- @function link_attrib path.link_attrib = function(d, r) local ok, err, code = link_attrib(d, r) if not ok then return ok, err_func("link_attrib", d, err, code), code end return ok, err, code end --- Changes the working directory. -- On Windows, if a drive is specified, it also changes the current drive. If -- only specifying the drive, it will only switch drive, but not modify the path. -- Implicit link to [`luafilesystem.chdir`](https://keplerproject.github.io/luafilesystem/manual.html#reference) -- @function chdir path.chdir = function(d) local ok, err, code = lfs.chdir(d) if not ok then return ok, err_func("chdir", d, err, code), code end return ok, err, code end --- is this a directory? -- @string P A file path function path.isdir(P) assert_string(1,P) return attrib(P,'mode') == 'directory' end --- is this a file? -- @string P A file path function path.isfile(P) assert_string(1,P) return attrib(P,'mode') == 'file' end -- is this a symbolic link? -- @string P A file path function path.islink(P) assert_string(1,P) if link_attrib then return link_attrib(P,'mode')=='link' else return false end end --- return size of a file. -- @string P A file path function path.getsize(P) assert_string(1,P) return attrib(P,'size') end --- does a path exist? -- @string P A file path -- @return the file path if it exists (either as file, directory, socket, etc), nil otherwise function path.exists(P) assert_string(1,P) return attrib(P,'mode') ~= nil and P end --- Return the time of last access as the number of seconds since the epoch. -- @string P A file path function path.getatime(P) assert_string(1,P) return attrib(P,'access') end --- Return the time of last modification as the number of seconds since the epoch. -- @string P A file path function path.getmtime(P) assert_string(1,P) return attrib(P,'modification') end ---Return the system's ctime as the number of seconds since the epoch. -- @string P A file path function path.getctime(P) assert_string(1,P) return path.attrib(P,'change') end local function at(s,i) return sub(s,i,i) end path.is_windows = utils.is_windows local sep, other_sep, seps -- constant sep is the directory separator for this platform. -- constant dirsep is the separator in the PATH environment variable if path.is_windows then path.sep = '\\'; other_sep = '/' path.dirsep = ';' seps = { ['/'] = true, ['\\'] = true } else path.sep = '/' path.dirsep = ':' seps = { ['/'] = true } end sep = path.sep --- are we running Windows? -- @class field -- @name path.is_windows --- path separator for this platform. -- @class field -- @name path.sep --- separator for PATH for this platform -- @class field -- @name path.dirsep --- given a path, return the directory part and a file part. -- if there's no directory part, the first value will be empty -- @string P A file path -- @return directory part -- @return file part -- @usage -- local dir, file = path.splitpath("some/dir/myfile.txt") -- assert(dir == "some/dir") -- assert(file == "myfile.txt") -- -- local dir, file = path.splitpath("some/dir/") -- assert(dir == "some/dir") -- assert(file == "") -- -- local dir, file = path.splitpath("some_dir") -- assert(dir == "") -- assert(file == "some_dir") function path.splitpath(P) assert_string(1,P) local i = #P local ch = at(P,i) while i > 0 and ch ~= sep and ch ~= other_sep do i = i - 1 ch = at(P,i) end if i == 0 then return '',P else return sub(P,1,i-1), sub(P,i+1) end end --- return an absolute path. -- @string P A file path -- @string[opt] pwd optional start path to use (default is current dir) function path.abspath(P,pwd) assert_string(1,P) if pwd then assert_string(2,pwd) end local use_pwd = pwd ~= nil if not use_pwd and not currentdir() then return P end P = P:gsub('[\\/]$','') pwd = pwd or currentdir() if not path.isabs(P) then P = path.join(pwd,P) elseif path.is_windows and not use_pwd and at(P,2) ~= ':' and at(P,2) ~= '\\' then P = pwd:sub(1,2)..P -- attach current drive to path like '\\fred.txt' end return path.normpath(P) end --- given a path, return the root part and the extension part. -- if there's no extension part, the second value will be empty -- @string P A file path -- @treturn string root part (everything upto the "."", maybe empty) -- @treturn string extension part (including the ".", maybe empty) -- @usage -- local file_path, ext = path.splitext("/bonzo/dog_stuff/cat.txt") -- assert(file_path == "/bonzo/dog_stuff/cat") -- assert(ext == ".txt") -- -- local file_path, ext = path.splitext("") -- assert(file_path == "") -- assert(ext == "") function path.splitext(P) assert_string(1,P) local i = #P local ch = at(P,i) while i > 0 and ch ~= '.' do if seps[ch] then return P,'' end i = i - 1 ch = at(P,i) end if i == 0 then return P,'' else return sub(P,1,i-1),sub(P,i) end end --- return the directory part of a path -- @string P A file path -- @treturn string everything before the last dir-separator -- @see splitpath -- @usage -- path.dirname("/some/path/file.txt") -- "/some/path" -- path.dirname("file.txt") -- "" (empty string) function path.dirname(P) assert_string(1,P) local p1 = path.splitpath(P) return p1 end --- return the file part of a path -- @string P A file path -- @treturn string -- @see splitpath -- @usage -- path.basename("/some/path/file.txt") -- "file.txt" -- path.basename("/some/path/file/") -- "" (empty string) function path.basename(P) assert_string(1,P) local _,p2 = path.splitpath(P) return p2 end --- get the extension part of a path. -- @string P A file path -- @treturn string -- @see splitext -- @usage -- path.extension("/some/path/file.txt") -- ".txt" -- path.extension("/some/path/file_txt") -- "" (empty string) function path.extension(P) assert_string(1,P) local _,p2 = path.splitext(P) return p2 end --- is this an absolute path? -- @string P A file path -- @usage -- path.isabs("hello/path") -- false -- path.isabs("/hello/path") -- true -- -- Windows; -- path.isabs("hello\path") -- false -- path.isabs("\hello\path") -- true -- path.isabs("C:\hello\path") -- true -- path.isabs("C:hello\path") -- false function path.isabs(P) assert_string(1,P) if path.is_windows and at(P,2) == ":" then return seps[at(P,3)] ~= nil end return seps[at(P,1)] ~= nil end --- return the path resulting from combining the individual paths. -- if the second (or later) path is absolute, we return the last absolute path (joined with any non-absolute paths following). -- empty elements (except the last) will be ignored. -- @string p1 A file path -- @string p2 A file path -- @string ... more file paths -- @treturn string the combined path -- @usage -- path.join("/first","second","third") -- "/first/second/third" -- path.join("first","second/third") -- "first/second/third" -- path.join("/first","/second","third") -- "/second/third" function path.join(p1,p2,...) assert_string(1,p1) assert_string(2,p2) if select('#',...) > 0 then local p = path.join(p1,p2) local args = {...} for i = 1,#args do assert_string(i,args[i]) p = path.join(p,args[i]) end return p end if path.isabs(p2) then return p2 end local endc = at(p1,#p1) if endc ~= path.sep and endc ~= other_sep and endc ~= "" then p1 = p1..path.sep end return p1..p2 end --- normalize the case of a pathname. On Unix, this returns the path unchanged, -- for Windows it converts; -- -- * the path to lowercase -- * forward slashes to backward slashes -- @string P A file path -- @usage path.normcase("/Some/Path/File.txt") -- -- Windows: "\some\path\file.txt" -- -- Others : "/Some/Path/File.txt" function path.normcase(P) assert_string(1,P) if path.is_windows then return P:gsub('/','\\'):lower() else return P end end --- normalize a path name. -- `A//B`, `A/./B`, and `A/foo/../B` all become `A/B`. -- -- An empty path results in '.'. -- @string P a file path function path.normpath(P) assert_string(1,P) -- Split path into anchor and relative path. local anchor = '' if path.is_windows then if P:match '^\\\\' then -- UNC anchor = '\\\\' P = P:sub(3) elseif seps[at(P, 1)] then anchor = '\\' P = P:sub(2) elseif at(P, 2) == ':' then anchor = P:sub(1, 2) P = P:sub(3) if seps[at(P, 1)] then anchor = anchor..'\\' P = P:sub(2) end end P = P:gsub('/','\\') else -- According to POSIX, in path start '//' and '/' are distinct, -- but '///+' is equivalent to '/'. if P:match '^//' and at(P, 3) ~= '/' then anchor = '//' P = P:sub(3) elseif at(P, 1) == '/' then anchor = '/' P = P:match '^/*(.*)$' end end local parts = {} for part in P:gmatch('[^'..sep..']+') do if part == '..' then if #parts ~= 0 and parts[#parts] ~= '..' then remove(parts) else append(parts, part) end elseif part ~= '.' then append(parts, part) end end P = anchor..concat(parts, sep) if P == '' then P = '.' end return P end --- relative path from current directory or optional start point -- @string P a path -- @string[opt] start optional start point (default current directory) function path.relpath (P,start) assert_string(1,P) if start then assert_string(2,start) end local split,min,append = utils.split, math.min, table.insert P = path.abspath(P,start) start = start or currentdir() local compare if path.is_windows then P = P:gsub("/","\\") start = start:gsub("/","\\") compare = function(v) return v:lower() end else compare = function(v) return v end end local startl, Pl = split(start,sep), split(P,sep) local n = min(#startl,#Pl) if path.is_windows and n > 0 and at(Pl[1],2) == ':' and Pl[1] ~= startl[1] then return P end local k = n+1 -- default value if this loop doesn't bail out! for i = 1,n do if compare(startl[i]) ~= compare(Pl[i]) then k = i break end end local rell = {} for i = 1, #startl-k+1 do rell[i] = '..' end if k <= #Pl then for i = k,#Pl do append(rell,Pl[i]) end end return table.concat(rell,sep) end --- Replace a starting '~' with the user's home directory. -- In windows, if HOME isn't set, then USERPROFILE is used in preference to -- HOMEDRIVE HOMEPATH. This is guaranteed to be writeable on all versions of Windows. -- @string P A file path function path.expanduser(P) assert_string(1,P) if at(P,1) == '~' then local home = getenv('HOME') if not home then -- has to be Windows home = getenv 'USERPROFILE' or (getenv 'HOMEDRIVE' .. getenv 'HOMEPATH') end return home..sub(P,2) else return P end end ---Return a suitable full path to a new temporary file name. -- unlike os.tmpname(), it always gives you a writeable path (uses TEMP environment variable on Windows) function path.tmpname () local res = tmpnam() -- On Windows if Lua is compiled using MSVC14 os.tmpname -- already returns an absolute path within TEMP env variable directory, -- no need to prepend it. if path.is_windows and not res:find(':') then res = getenv('TEMP')..res end return res end --- return the largest common prefix path of two paths. -- @string path1 a file path -- @string path2 a file path -- @return the common prefix (Windows: separators will be normalized, casing will be original) function path.common_prefix (path1,path2) assert_string(1,path1) assert_string(2,path2) -- get them in order! if #path1 > #path2 then path2,path1 = path1,path2 end local compare if path.is_windows then path1 = path1:gsub("/", "\\") path2 = path2:gsub("/", "\\") compare = function(v) return v:lower() end else compare = function(v) return v end end for i = 1,#path1 do if compare(at(path1,i)) ~= compare(at(path2,i)) then local cp = path1:sub(1,i-1) if at(path1,i-1) ~= sep then cp = path.dirname(cp) end return cp end end if at(path2,#path1+1) ~= sep then path1 = path.dirname(path1) end return path1 --return '' end --- return the full path where a particular Lua module would be found. -- Both package.path and package.cpath is searched, so the result may -- either be a Lua file or a shared library. -- @string mod name of the module -- @return on success: path of module, lua or binary -- @return on error: nil, error string listing paths tried function path.package_path(mod) assert_string(1,mod) local res, err1, err2 res, err1 = package.searchpath(mod,package.path) if res then return res,true end res, err2 = package.searchpath(mod,package.cpath) if res then return res,false end return raise ('cannot find module on path\n' .. err1 .. "\n" .. err2) end ---- finis ----- return path end, ["pl.permute"] = function() -------------------- -- Module: 'pl.permute' -------------------- --- Permutation operations. -- -- Dependencies: `pl.utils`, `pl.tablex` -- @module pl.permute local tablex = require 'pl.tablex' local utils = require 'pl.utils' local copy = tablex.deepcopy local append = table.insert local assert_arg = utils.assert_arg local permute = {} --- an iterator over all order-permutations of the elements of a list. -- Please note that the same list is returned each time, so do not keep references! -- @param a list-like table -- @return an iterator which provides the next permutation as a list function permute.order_iter(a) assert_arg(1,a,'table') local t = #a local stack = { 1 } local function iter() local h = #stack local n = t - h + 1 local i = stack[h] if i > t then return end if n == 0 then table.remove(stack) h = h - 1 stack[h] = stack[h] + 1 return a elseif i <= n then -- put i-th element as the last one a[n], a[i] = a[i], a[n] -- generate all permutations of the other elements table.insert(stack, 1) else table.remove(stack) h = h - 1 n = n + 1 i = stack[h] -- restore i-th element a[n], a[i] = a[i], a[n] stack[h] = stack[h] + 1 end return iter() -- tail-call end return iter end --- construct a table containing all the order-permutations of a list. -- @param a list-like table -- @return a table of tables -- @usage permute.order_table {1,2,3} --> {{2,3,1},{3,2,1},{3,1,2},{1,3,2},{2,1,3},{1,2,3}} function permute.order_table (a) assert_arg(1,a,'table') local res = {} for t in permute.iter(a) do append(res,copy(t)) end return res end --- an iterator over all permutations of the elements of the given lists. -- @param ... list-like tables, they are nil-safe if a length-field `n` is provided (see `utils.pack`) -- @return an iterator which provides the next permutation as return values in the same order as the provided lists, preceeded by an index -- @usage -- local strs = utils.pack("one", nil, "three") -- adds an 'n' field for nil-safety -- local bools = utils.pack(true, false) -- local iter = permute.list_iter(strs, bools) -- -- print(iter()) --> 1, one, true -- print(iter()) --> 2, nil, true -- print(iter()) --> 3, three, true -- print(iter()) --> 4, one, false -- print(iter()) --> 5, nil, false -- print(iter()) --> 6, three, false function permute.list_iter(...) local elements = {...} local pointers = {} local sizes = {} local size = #elements for i, list in ipairs(elements) do assert_arg(i,list,'table') pointers[i] = 1 sizes[i] = list.n or #list end local count = 0 return function() if pointers[size] > sizes[size] then return end -- we're done count = count + 1 local r = { n = #elements } local cascade_up = true for i = 1, size do r[i] = elements[i][pointers[i]] if cascade_up then pointers[i] = pointers[i] + 1 if pointers[i] <= sizes[i] then -- this list is not done yet, stop cascade cascade_up = false else -- this list is done if i ~= size then -- reset pointer pointers[i] = 1 end end end end return count, utils.unpack(r) end end --- construct a table containing all the permutations of a set of lists. -- @param ... list-like tables, they are nil-safe if a length-field `n` is provided -- @return a list of lists, the sub-lists have an 'n' field for nil-safety -- @usage -- local strs = utils.pack("one", nil, "three") -- adds an 'n' field for nil-safety -- local bools = utils.pack(true, false) -- local results = permute.list_table(strs, bools) -- -- results = { -- -- { "one, true, n = 2 } -- -- { nil, true, n = 2 }, -- -- { "three, true, n = 2 }, -- -- { "one, false, n = 2 }, -- -- { nil, false, n = 2 }, -- -- { "three", false, n = 2 }, -- -- } function permute.list_table(...) local iter = permute.list_iter(...) local results = {} local i = 1 while true do local values = utils.pack(iter()) if values[1] == nil then return results end for i = 1, values.n do values[i] = values[i+1] end values.n = values.n - 1 results[i] = values i = i + 1 end end -- backward compat, to be deprecated --- deprecated. -- @param ... -- @see permute.order_iter function permute.iter(...) utils.raise_deprecation { source = "Penlight " .. utils._VERSION, message = "function 'iter' was renamed to 'order_iter'", version_removed = "2.0.0", deprecated_after = "1.9.2", } return permute.order_iter(...) end --- deprecated. -- @param ... -- @see permute.order_iter function permute.table(...) utils.raise_deprecation { source = "Penlight " .. utils._VERSION, message = "function 'table' was renamed to 'order_table'", version_removed = "2.0.0", deprecated_after = "1.9.2", } return permute.order_table(...) end return permute end, ["pl.pretty"] = function() -------------------- -- Module: 'pl.pretty' -------------------- --- Pretty-printing Lua tables. -- Also provides a sandboxed Lua table reader and -- a function to present large numbers in human-friendly format. -- -- Dependencies: `pl.utils`, `pl.lexer`, `pl.stringx`, `debug` -- @module pl.pretty local append = table.insert local concat = table.concat local mfloor, mhuge = math.floor, math.huge local mtype = math.type local utils = require 'pl.utils' local lexer = require 'pl.lexer' local debug = require 'debug' local quote_string = require'pl.stringx'.quote_string local assert_arg = utils.assert_arg local original_tostring = tostring -- Patch tostring to format numbers with better precision -- and to produce cross-platform results for -- infinite values and NaN. local function tostring(value) if type(value) ~= "number" then return original_tostring(value) elseif value ~= value then return "NaN" elseif value == mhuge then return "Inf" elseif value == -mhuge then return "-Inf" elseif (_VERSION ~= "Lua 5.3" or mtype(value) == "integer") and mfloor(value) == value then return ("%d"):format(value) else local res = ("%.14g"):format(value) if _VERSION == "Lua 5.3" and mtype(value) == "float" and not res:find("%.") then -- Number is internally a float but looks like an integer. -- Insert ".0" after first run of digits. res = res:gsub("%d+", "%0.0", 1) end return res end end local pretty = {} local function save_global_env() local env = {} env.hook, env.mask, env.count = debug.gethook() -- env.hook is "external hook" if is a C hook function if env.hook~="external hook" then debug.sethook() end env.string_mt = getmetatable("") debug.setmetatable("", nil) return env end local function restore_global_env(env) if env then debug.setmetatable("", env.string_mt) if env.hook~="external hook" then debug.sethook(env.hook, env.mask, env.count) end end end --- Read a string representation of a Lua table. -- This function loads and runs the string as Lua code, but bails out -- if it contains a function definition. -- Loaded string is executed in an empty environment. -- @string s string to read in `{...}` format, possibly with some whitespace -- before or after the curly braces. A single line comment may be present -- at the beginning. -- @return a table in case of success. -- If loading the string failed, return `nil` and error message. -- If executing loaded string failed, return `nil` and the error it raised. function pretty.read(s) assert_arg(1,s,'string') if s:find '^%s*%-%-' then -- may start with a comment.. s = s:gsub('%-%-.-\n','') end if not s:find '^%s*{' then return nil,"not a Lua table" end if s:find '[^\'"%w_]function[^\'"%w_]' then local tok = lexer.lua(s) for t,v in tok do if t == 'keyword' and v == 'function' then return nil,"cannot have functions in table definition" end end end s = 'return '..s local chunk,err = utils.load(s,'tbl','t',{}) if not chunk then return nil,err end local global_env = save_global_env() local ok,ret = pcall(chunk) restore_global_env(global_env) if ok then return ret else return nil,ret end end --- Read a Lua chunk. -- @string s Lua code. -- @tab[opt] env environment used to run the code, empty by default. -- @bool[opt] paranoid abort loading if any looping constructs a found in the code -- and disable string methods. -- @return the environment in case of success or `nil` and syntax or runtime error -- if something went wrong. function pretty.load (s, env, paranoid) env = env or {} if paranoid then local tok = lexer.lua(s) for t,v in tok do if t == 'keyword' and (v == 'for' or v == 'repeat' or v == 'function' or v == 'goto') then return nil,"looping not allowed" end end end local chunk,err = utils.load(s,'tbl','t',env) if not chunk then return nil,err end local global_env = paranoid and save_global_env() local ok,err = pcall(chunk) restore_global_env(global_env) if not ok then return nil,err end return env end local function quote_if_necessary (v) if not v then return '' else --AAS if v:find ' ' then v = quote_string(v) end end return v end local keywords local function is_identifier (s) return type(s) == 'string' and s:find('^[%a_][%w_]*$') and not keywords[s] end local function quote (s) if type(s) == 'table' then return pretty.write(s,'') else --AAS return quote_string(s)-- ('%q'):format(tostring(s)) end end local function index (numkey,key) --AAS if not numkey then key = quote(key) key = key:find("^%[") and (" " .. key .. " ") or key end return '['..key..']' end --- Create a string representation of a Lua table. -- This function never fails, but may complain by returning an -- extra value. Normally puts out one item per line, using -- the provided indent; set the second parameter to an empty string -- if you want output on one line. -- -- *NOTE:* this is NOT a serialization function, not a full blown -- debug function. Checkout out respectively the -- [serpent](https://github.com/pkulchenko/serpent) -- or [inspect](https://github.com/kikito/inspect.lua) -- Lua modules for that if you need them. -- @tab tbl Table to serialize to a string. -- @string[opt] space The indent to use. -- Defaults to two spaces; pass an empty string for no indentation. -- @bool[opt] not_clever Pass `true` for plain output, e.g `{['key']=1}`. -- Defaults to `false`. -- @return a string -- @return an optional error message function pretty.write (tbl,space,not_clever) if type(tbl) ~= 'table' then local res = tostring(tbl) if type(tbl) == 'string' then return quote(tbl) end return res, 'not a table' end if not keywords then keywords = lexer.get_keywords() end local set = ' = ' if space == '' then set = '=' end space = space or ' ' local lines = {} local line = '' local tables = {} local function put(s) if #s > 0 then line = line..s end end local function putln (s) if #line > 0 then line = line..s append(lines,line) line = '' else append(lines,s) end end local function eat_last_comma () local n = #lines local lastch = lines[n]:sub(-1,-1) if lastch == ',' then lines[n] = lines[n]:sub(1,-2) end end -- safe versions for iterators since 5.3+ honors metamethods that can throw -- errors local ipairs = function(t) local i = 0 local ok, v local getter = function() return t[i] end return function() i = i + 1 ok, v = pcall(getter) if v == nil or not ok then return end return i, t[i] end end local pairs = function(t) local k, v, ok local getter = function() return next(t, k) end return function() ok, k, v = pcall(getter) if not ok then return end return k, v end end local writeit writeit = function (t,oldindent,indent) local tp = type(t) if tp ~= 'string' and tp ~= 'table' then putln(quote_if_necessary(tostring(t))..',') elseif tp == 'string' then -- if t:find('\n') then -- putln('[[\n'..t..']],') -- else -- putln(quote(t)..',') -- end --AAS putln(quote_string(t) ..",") elseif tp == 'table' then if tables[t] then putln(',') return end tables[t] = true local newindent = indent..space putln('{') local used = {} if not not_clever then for i,val in ipairs(t) do put(indent) writeit(val,indent,newindent) used[i] = true end end local ordered_keys = {} for k,v in pairs(t) do if type(k) ~= 'number' then ordered_keys[#ordered_keys + 1] = k end end table.sort(ordered_keys, function (a, b) if type(a) == type(b) then return tostring(a) < tostring(b) else return type(a) < type(b) end end) local function write_entry (key, val) local tkey = type(key) local numkey = tkey == 'number' if not_clever then key = tostring(key) put(indent..index(numkey,key)..set) writeit(val,indent,newindent) else if not numkey or not used[key] then -- non-array indices if tkey ~= 'string' then key = tostring(key) end if numkey or not is_identifier(key) then key = index(numkey,key) end put(indent..key..set) writeit(val,indent,newindent) end end end for i = 1, #ordered_keys do local key = ordered_keys[i] local val = t[key] write_entry(key, val) end for key,val in pairs(t) do if type(key) == 'number' then write_entry(key, val) end end tables[t] = nil eat_last_comma() putln(oldindent..'},') else putln(tostring(t)..',') end end writeit(tbl,'',space) eat_last_comma() return concat(lines,#space > 0 and '\n' or '') end --- Dump a Lua table out to a file or stdout. -- @tab t The table to write to a file or stdout. -- @string[opt] filename File name to write too. Defaults to writing -- to stdout. function pretty.dump (t, filename) if not filename then print(pretty.write(t)) return true else return utils.writefile(filename, pretty.write(t)) end end --- Dump a series of arguments to stdout for debug purposes. -- This function is attached to the module table `__call` method, to make it -- extra easy to access. So the full: -- -- print(require("pl.pretty").write({...})) -- -- Can be shortened to: -- -- require"pl.pretty" (...) -- -- Any `nil` entries will be printed as `""` to make them explicit. -- @param ... the parameters to dump to stdout. -- @usage -- -- example debug output -- require"pl.pretty" ("hello", nil, "world", { bye = "world", true} ) -- -- -- output: -- { -- ["arg 1"] = "hello", -- ["arg 2"] = "", -- ["arg 3"] = "world", -- ["arg 4"] = { -- true, -- bye = "world" -- } -- } function pretty.debug(...) local n = select("#", ...) local t = { ... } for i = 1, n do local value = t[i] if value == nil then value = "" end t[i] = nil t["arg " .. i] = value end print(pretty.write(t)) return true end local memp,nump = {'B','KiB','MiB','GiB'},{'','K','M','B'} local function comma (val) local thou = math.floor(val/1000) if thou > 0 then return comma(thou)..','.. tostring(val % 1000) else return tostring(val) end end --- Format large numbers nicely for human consumption. -- @number num a number. -- @string[opt] kind one of `'M'` (memory in `KiB`, `MiB`, etc.), -- `'N'` (postfixes are `'K'`, `'M'` and `'B'`), -- or `'T'` (use commas as thousands separator), `'N'` by default. -- @int[opt] prec number of digits to use for `'M'` and `'N'`, `1` by default. function pretty.number (num,kind,prec) local fmt = '%.'..(prec or 1)..'f%s' if kind == 'T' then return comma(num) else local postfixes, fact if kind == 'M' then fact = 1024 postfixes = memp else fact = 1000 postfixes = nump end local div = fact local k = 1 while num >= div and k <= #postfixes do div = div * fact k = k + 1 end div = div / fact if k > #postfixes then k = k - 1; div = div/fact end if k > 1 then return fmt:format(num/div,postfixes[k] or 'duh') else return num..postfixes[1] end end end return setmetatable(pretty, { __call = function(self, ...) return self.debug(...) end }) end, ["pl.seq"] = function() -------------------- -- Module: 'pl.seq' -------------------- --- Manipulating iterators as sequences. -- See @{07-functional.md.Sequences|The Guide} -- -- Dependencies: `pl.utils`, `pl.types`, `debug` -- @module pl.seq local next,assert,pairs,tonumber,type,setmetatable = next,assert,pairs,tonumber,type,setmetatable local strfind,format = string.find,string.format local mrandom = math.random local tsort,tappend = table.sort,table.insert local io = io local utils = require 'pl.utils' local callable = require 'pl.types'.is_callable local function_arg = utils.function_arg local assert_arg = utils.assert_arg local debug = require 'debug' local seq = {} -- given a number, return a function(y) which returns true if y > x -- @param x a number function seq.greater_than(x) return function(v) return tonumber(v) > x end end -- given a number, returns a function(y) which returns true if y < x -- @param x a number function seq.less_than(x) return function(v) return tonumber(v) < x end end -- given any value, return a function(y) which returns true if y == x -- @param x a value function seq.equal_to(x) if type(x) == "number" then return function(v) return tonumber(v) == x end else return function(v) return v == x end end end --- given a string, return a function(y) which matches y against the string. -- @param s a string function seq.matching(s) return function(v) return strfind(v,s) end end local nexti --- sequence adaptor for a table. Note that if any generic function is -- passed a table, it will automatically use seq.list() -- @param t a list-like table -- @usage sum(list(t)) is the sum of all elements of t -- @usage for x in list(t) do...end function seq.list(t) assert_arg(1,t,'table') if not nexti then nexti = ipairs{} end local key,value = 0 return function() key,value = nexti(t,key) return value end end --- return the keys of the table. -- @param t an arbitrary table -- @return iterator over keys function seq.keys(t) assert_arg(1,t,'table') local key return function() key = next(t,key) return key end end local list = seq.list local function default_iter(iter) if type(iter) == 'table' then return list(iter) else return iter end end seq.iter = default_iter --- create an iterator over a numerical range. Like the standard Python function xrange. -- @param start a number -- @param finish a number greater than start function seq.range(start,finish) local i = start - 1 return function() i = i + 1 if i > finish then return nil else return i end end end -- count the number of elements in the sequence which satisfy the predicate -- @param iter a sequence -- @param condn a predicate function (must return either true or false) -- @param optional argument to be passed to predicate as second argument. -- @return count function seq.count(iter,condn,arg) local i = 0 seq.foreach(iter,function(val) if condn(val,arg) then i = i + 1 end end) return i end --- return the minimum and the maximum value of the sequence. -- @param iter a sequence -- @return minimum value -- @return maximum value function seq.minmax(iter) local vmin,vmax = 1e70,-1e70 for v in default_iter(iter) do v = tonumber(v) if v < vmin then vmin = v end if v > vmax then vmax = v end end return vmin,vmax end --- return the sum and element count of the sequence. -- @param iter a sequence -- @param fn an optional function to apply to the values function seq.sum(iter,fn) local s = 0 local i = 0 for v in default_iter(iter) do if fn then v = fn(v) end s = s + v i = i + 1 end return s,i end --- create a table from the sequence. (This will make the result a List.) -- @param iter a sequence -- @return a List -- @usage copy(list(ls)) is equal to ls -- @usage copy(list {1,2,3}) == List{1,2,3} function seq.copy(iter) local res,k = {},1 for v in default_iter(iter) do res[k] = v k = k + 1 end setmetatable(res, require('pl.List')) return res end --- create a table of pairs from the double-valued sequence. -- @param iter a double-valued sequence -- @param i1 used to capture extra iterator values -- @param i2 as with pairs & ipairs -- @usage copy2(ipairs{10,20,30}) == {{1,10},{2,20},{3,30}} -- @return a list-like table function seq.copy2 (iter,i1,i2) local res,k = {},1 for v1,v2 in iter,i1,i2 do res[k] = {v1,v2} k = k + 1 end return res end --- create a table of 'tuples' from a multi-valued sequence. -- A generalization of copy2 above -- @param iter a multiple-valued sequence -- @return a list-like table function seq.copy_tuples (iter) iter = default_iter(iter) local res = {} local row = {iter()} while #row > 0 do tappend(res,row) row = {iter()} end return res end --- return an iterator of random numbers. -- @param n the length of the sequence -- @param l same as the first optional argument to math.random -- @param u same as the second optional argument to math.random -- @return a sequence function seq.random(n,l,u) local rand assert(type(n) == 'number') if u then rand = function() return mrandom(l,u) end elseif l then rand = function() return mrandom(l) end else rand = mrandom end return function() if n == 0 then return nil else n = n - 1 return rand() end end end --- return an iterator to the sorted elements of a sequence. -- @param iter a sequence -- @param comp an optional comparison function (comp(x,y) is true if x < y) function seq.sort(iter,comp) local t = seq.copy(iter) tsort(t,comp) return list(t) end --- return an iterator which returns elements of two sequences. -- @param iter1 a sequence -- @param iter2 a sequence -- @usage for x,y in seq.zip(ls1,ls2) do....end function seq.zip(iter1,iter2) iter1 = default_iter(iter1) iter2 = default_iter(iter2) return function() return iter1(),iter2() end end --- Makes a table where the key/values are the values and value counts of the sequence. -- This version works with 'hashable' values like strings and numbers. -- `pl.tablex.count_map` is more general. -- @param iter a sequence -- @return a map-like table -- @return a table -- @see pl.tablex.count_map function seq.count_map(iter) local t = {} local v for s in default_iter(iter) do v = t[s] if v then t[s] = v + 1 else t[s] = 1 end end return setmetatable(t, require('pl.Map')) end -- given a sequence, return all the unique values in that sequence. -- @param iter a sequence -- @param returns_table true if we return a table, not a sequence -- @return a sequence or a table; defaults to a sequence. function seq.unique(iter,returns_table) local t = seq.count_map(iter) local res,k = {},1 for key in pairs(t) do res[k] = key; k = k + 1 end table.sort(res) if returns_table then return res else return list(res) end end --- print out a sequence iter with a separator. -- @param iter a sequence -- @param sep the separator (default space) -- @param nfields maximum number of values per line (default 7) -- @param fmt optional format function for each value function seq.printall(iter,sep,nfields,fmt) local write = io.write if not sep then sep = ' ' end if not nfields then if sep == '\n' then nfields = 1e30 else nfields = 7 end end if fmt then local fstr = fmt fmt = function(v) return format(fstr,v) end end local k = 1 for v in default_iter(iter) do if fmt then v = fmt(v) end if k < nfields then write(v,sep) k = k + 1 else write(v,'\n') k = 1 end end write '\n' end -- return an iterator running over every element of two sequences (concatenation). -- @param iter1 a sequence -- @param iter2 a sequence function seq.splice(iter1,iter2) iter1 = default_iter(iter1) iter2 = default_iter(iter2) local iter = iter1 return function() local ret = iter() if ret == nil then if iter == iter1 then iter = iter2 return iter() else return nil end else return ret end end end --- return a sequence where every element of a sequence has been transformed -- by a function. If you don't supply an argument, then the function will -- receive both values of a double-valued sequence, otherwise behaves rather like -- tablex.map. -- @param fn a function to apply to elements; may take two arguments -- @param iter a sequence of one or two values -- @param arg optional argument to pass to function. function seq.map(fn,iter,arg) fn = function_arg(1,fn) iter = default_iter(iter) return function() local v1,v2 = iter() if v1 == nil then return nil end return fn(v1,arg or v2) or false end end --- filter a sequence using a predicate function. -- @param iter a sequence of one or two values -- @param pred a boolean function; may take two arguments -- @param arg optional argument to pass to function. function seq.filter (iter,pred,arg) pred = function_arg(2,pred) return function () local v1,v2 while true do v1,v2 = iter() if v1 == nil then return nil end if pred(v1,arg or v2) then return v1,v2 end end end end --- 'reduce' a sequence using a binary function. -- @func fn a function of two arguments -- @param iter a sequence -- @param initval optional initial value -- @usage seq.reduce(operator.add,seq.list{1,2,3,4}) == 10 -- @usage seq.reduce('-',{1,2,3,4,5}) == -13 function seq.reduce (fn,iter,initval) fn = function_arg(1,fn) iter = default_iter(iter) local val = initval or iter() if val == nil then return nil end for v in iter do val = fn(val,v) end return val end --- take the first n values from the sequence. -- @param iter a sequence of one or two values -- @param n number of items to take -- @return a sequence of at most n items function seq.take (iter,n) iter = default_iter(iter) return function() if n < 1 then return end local val1,val2 = iter() if not val1 then return end n = n - 1 return val1,val2 end end --- skip the first n values of a sequence -- @param iter a sequence of one or more values -- @param n number of items to skip function seq.skip (iter,n) n = n or 1 for i = 1,n do if iter() == nil then return list{} end end return iter end --- a sequence with a sequence count and the original value. -- enum(copy(ls)) is a roundabout way of saying ipairs(ls). -- @param iter a single or double valued sequence -- @return sequence of (i,v), i = 1..n and v is from iter. function seq.enum (iter) local i = 0 iter = default_iter(iter) return function () local val1,val2 = iter() if not val1 then return end i = i + 1 return i,val1,val2 end end --- map using a named method over a sequence. -- @param iter a sequence -- @param name the method name -- @param arg1 optional first extra argument -- @param arg2 optional second extra argument function seq.mapmethod (iter,name,arg1,arg2) iter = default_iter(iter) return function() local val = iter() if not val then return end local fn = val[name] if not fn then error(type(val).." does not have method "..name) end return fn(val,arg1,arg2) end end --- a sequence of (last,current) values from another sequence. -- This will return S(i-1),S(i) if given S(i) -- @param iter a sequence function seq.last (iter) iter = default_iter(iter) local val, l = iter(), nil if val == nil then return list{} end return function () val,l = iter(),val if val == nil then return nil end return val,l end end --- call the function on each element of the sequence. -- @param iter a sequence with up to 3 values -- @param fn a function function seq.foreach(iter,fn) fn = function_arg(2,fn) for i1,i2,i3 in default_iter(iter) do fn(i1,i2,i3) end end ---------------------- Sequence Adapters --------------------- local SMT local function SW (iter,...) if callable(iter) then return setmetatable({iter=iter},SMT) else return iter,... end end -- can't directly look these up in seq because of the wrong argument order... local map,reduce,mapmethod = seq.map, seq.reduce, seq.mapmethod local overrides = { map = function(self,fun,arg) return map(fun,self,arg) end, reduce = function(self,fun,initval) return reduce(fun,self,initval) end } SMT = { __index = function (tbl,key) local fn = overrides[key] or seq[key] if fn then return function(sw,...) return SW(fn(sw.iter,...)) end else return function(sw,...) return SW(mapmethod(sw.iter,key,...)) end end end, __call = function (sw) return sw.iter() end, } setmetatable(seq,{ __call = function(tbl,iter,extra) if not callable(iter) then if type(iter) == 'table' then iter = seq.list(iter) else return iter end end if extra then return setmetatable({iter=function() return iter(extra) end},SMT) else return setmetatable({iter=iter},SMT) end end }) --- create a wrapped iterator over all lines in the file. -- @param f either a filename, file-like object, or 'STDIN' (for standard input) -- @param ... for Lua 5.2 only, optional format specifiers, as in `io.read`. -- @return a sequence wrapper function seq.lines (f,...) local iter,obj if f == 'STDIN' then f = io.stdin elseif type(f) == 'string' then iter,obj = io.lines(f,...) elseif not f.read then error("Pass either a string or a file-like object",2) end if not iter then iter,obj = f:lines(...) end if obj then -- LuaJIT version returns a function operating on a file local lines,file = iter,obj iter = function() return lines(file) end end return SW(iter) end function seq.import () debug.setmetatable(function() end,{ __index = function(tbl,key) local s = overrides[key] or seq[key] if s then return s else return function(s,...) return seq.mapmethod(s,key,...) end end end }) end return seq end, ["pl.Set"] = function() -------------------- -- Module: 'pl.Set' -------------------- --- A Set class. -- -- > Set = require 'pl.Set' -- > = Set{'one','two'} == Set{'two','one'} -- true -- > fruit = Set{'apple','banana','orange'} -- > = fruit['banana'] -- true -- > = fruit['hazelnut'] -- nil -- > colours = Set{'red','orange','green','blue'} -- > = fruit,colours -- [apple,orange,banana] [blue,green,orange,red] -- > = fruit+colours -- [blue,green,apple,red,orange,banana] -- [orange] -- > more_fruits = fruit + 'apricot' -- > = fruit*colours -- > = more_fruits, fruit -- [banana,apricot,apple,orange] [banana,apple,orange] -- -- Dependencies: `pl.utils`, `pl.tablex`, `pl.class`, `pl.Map`, (`pl.List` if __tostring is used) -- @classmod pl.Set local tablex = require 'pl.tablex' local utils = require 'pl.utils' local array_tostring, concat = utils.array_tostring, table.concat local merge,difference = tablex.merge,tablex.difference local Map = require 'pl.Map' local class = require 'pl.class' local stdmt = utils.stdmt local Set = stdmt.Set -- the Set class -------------------- class(Map,nil,Set) -- note: Set has _no_ methods! Set.__index = nil local function makeset (t) return setmetatable(t,Set) end --- create a set. -- @param t may be a Set, Map or list-like table. -- @class function -- @name Set function Set:_init (t) t = t or {} local mt = getmetatable(t) if mt == Set or mt == Map then for k in pairs(t) do self[k] = true end else for _,v in ipairs(t) do self[v] = true end end end --- string representation of a set. -- @within metamethods function Set:__tostring () return '['..concat(array_tostring(Set.values(self)),',')..']' end --- get a list of the values in a set. -- @param self a Set -- @function Set.values -- @return a list Set.values = Map.keys --- map a function over the values of a set. -- @param self a Set -- @param fn a function -- @param ... extra arguments to pass to the function. -- @return a new set function Set.map (self,fn,...) fn = utils.function_arg(1,fn) local res = {} for k in pairs(self) do res[fn(k,...)] = true end return makeset(res) end --- union of two sets (also +). -- @param self a Set -- @param set another set -- @return a new set function Set.union (self,set) return merge(self,set,true) end --- modifies '+' operator to allow addition of non-Set elements --- Preserves +/- semantics - does not modify first argument. local function setadd(self,other) local mt = getmetatable(other) if mt == Set or mt == Map then return Set.union(self,other) else local new = Set(self) new[other] = true return new end end --- union of sets. -- @within metamethods -- @function Set.__add Set.__add = setadd --- intersection of two sets (also *). -- @param self a Set -- @param set another set -- @return a new set -- @usage -- > s = Set{10,20,30} -- > t = Set{20,30,40} -- > = t -- [20,30,40] -- > = Set.intersection(s,t) -- [30,20] -- > = s*t -- [30,20] function Set.intersection (self,set) return merge(self,set,false) end --- intersection of sets. -- @within metamethods -- @function Set.__mul Set.__mul = Set.intersection --- new set with elements in the set that are not in the other (also -). -- @param self a Set -- @param set another set -- @return a new set function Set.difference (self,set) return difference(self,set,false) end --- modifies "-" operator to remove non-Set values from set. --- Preserves +/- semantics - does not modify first argument. local function setminus (self,other) local mt = getmetatable(other) if mt == Set or mt == Map then return Set.difference(self,other) else local new = Set(self) new[other] = nil return new end end --- difference of sets. -- @within metamethods -- @function Set.__sub Set.__sub = setminus -- a new set with elements in _either_ the set _or_ other but not both (also ^). -- @param self a Set -- @param set another set -- @return a new set function Set.symmetric_difference (self,set) return difference(self,set,true) end --- symmetric difference of sets. -- @within metamethods -- @function Set.__pow Set.__pow = Set.symmetric_difference --- is the first set a subset of the second (also <)?. -- @param self a Set -- @param set another set -- @return true or false function Set.issubset (self,set) for k in pairs(self) do if not set[k] then return false end end return true end --- first set subset of second? -- @within metamethods -- @function Set.__lt Set.__lt = Set.issubset --- is the set empty?. -- @param self a Set -- @return true or false function Set.isempty (self) return next(self) == nil end --- are the sets disjoint? (no elements in common). -- Uses naive definition, i.e. that intersection is empty -- @param s1 a Set -- @param s2 another set -- @return true or false function Set.isdisjoint (s1,s2) return Set.isempty(Set.intersection(s1,s2)) end --- size of this set (also # for 5.2). -- @param s a Set -- @return size -- @function Set.len Set.len = tablex.size --- cardinality of set (5.2). -- @within metamethods -- @function Set.__len Set.__len = Set.len --- equality between sets. -- @within metamethods function Set.__eq (s1,s2) return Set.issubset(s1,s2) and Set.issubset(s2,s1) end return Set end, ["pl.sip"] = function() -------------------- -- Module: 'pl.sip' -------------------- --- Simple Input Patterns (SIP). -- SIP patterns start with '$', then a -- one-letter type, and then an optional variable in curly braces. -- -- sip.match('$v=$q','name="dolly"',res) -- ==> res=={'name','dolly'} -- sip.match('($q{first},$q{second})','("john","smith")',res) -- ==> res=={second='smith',first='john'} -- -- Type names: -- -- v identifier -- i integer -- f floating-point -- q quoted string -- ([{< match up to closing bracket -- -- See @{08-additional.md.Simple_Input_Patterns|the Guide} -- -- @module pl.sip local loadstring = rawget(_G,'loadstring') or load local unpack = rawget(_G,'unpack') or rawget(table,'unpack') local append,concat = table.insert,table.concat local ipairs,type = ipairs,type local io,_G = io,_G local print,rawget = print,rawget local patterns = { FLOAT = '[%+%-%d]%d*%.?%d*[eE]?[%+%-]?%d*', INTEGER = '[+%-%d]%d*', IDEN = '[%a_][%w_]*', OPTION = '[%a_][%w_%-]*', } local function assert_arg(idx,val,tp) if type(val) ~= tp then error("argument "..idx.." must be "..tp, 2) end end local sip = {} local brackets = {['<'] = '>', ['('] = ')', ['{'] = '}', ['['] = ']' } local stdclasses = {a=1,c=0,d=1,l=1,p=0,u=1,w=1,x=1,s=0} local function group(s) return '('..s..')' end -- escape all magic characters except $, which has special meaning -- Also, un-escape any characters after $, so $( and $[ passes through as is. local function escape (spec) return (spec:gsub('[%-%.%+%[%]%(%)%^%%%?%*]','%%%0'):gsub('%$%%(%S)','$%1')) end -- Most spaces within patterns can match zero or more spaces. -- Spaces between alphanumeric characters or underscores or between -- patterns that can match these characters, however, must match at least -- one space. Otherwise '$v $v' would match 'abcd' as {'abc', 'd'}. -- This function replaces continuous spaces within a pattern with either -- '%s*' or '%s+' according to this rule. The pattern has already -- been stripped of pattern names by now. local function compress_spaces(patt) return (patt:gsub("()%s+()", function(i1, i2) local before = patt:sub(i1 - 2, i1 - 1) if before:match('%$[vifadxlu]') or before:match('^[^%$]?[%w_]$') then local after = patt:sub(i2, i2 + 1) if after:match('%$[vifadxlu]') or after:match('^[%w_]') then return '%s+' end end return '%s*' end)) end local pattern_map = { v = group(patterns.IDEN), i = group(patterns.INTEGER), f = group(patterns.FLOAT), o = group(patterns.OPTION), r = '(%S.*)', p = '([%a]?[:]?[\\/%.%w_]+)' } function sip.custom_pattern(flag,patt) pattern_map[flag] = patt end --- convert a SIP pattern into the equivalent Lua string pattern. -- @param spec a SIP pattern -- @param options a table; only the at_start field is -- currently meaningful and ensures that the pattern is anchored -- at the start of the string. -- @return a Lua string pattern. function sip.create_pattern (spec,options) assert_arg(1,spec,'string') local fieldnames,fieldtypes = {},{} if type(spec) == 'string' then spec = escape(spec) else local res = {} for i,s in ipairs(spec) do res[i] = escape(s) end spec = concat(res,'.-') end local kount = 1 local function addfield (name,type) name = name or kount append(fieldnames,name) fieldtypes[name] = type kount = kount + 1 end local named_vars = spec:find('{%a+}') if options and options.at_start then spec = '^'..spec end if spec:sub(-1,-1) == '$' then spec = spec:sub(1,-2)..'$r' if named_vars then spec = spec..'{rest}' end end local names if named_vars then names = {} spec = spec:gsub('{(%a+)}',function(name) append(names,name) return '' end) end spec = compress_spaces(spec) local k = 1 local err local r = (spec:gsub('%$%S',function(s) local type,name type = s:sub(2,2) if names then name = names[k]; k=k+1 end -- this kludge is necessary because %q generates two matches, and -- we want to ignore the first. Not a problem for named captures. if not names and type == 'q' then addfield(nil,'Q') else addfield(name,type) end local res if pattern_map[type] then res = pattern_map[type] elseif type == 'q' then -- some Lua pattern matching voodoo; we want to match '...' as -- well as "...", and can use the fact that %n will match a -- previous capture. Adding the extra field above comes from needing -- to accommodate the extra spurious match (which is either ' or ") addfield(name,type) res = '(["\'])(.-)%'..(kount-2) else local endbracket = brackets[type] if endbracket then res = '(%b'..type..endbracket..')' elseif stdclasses[type] or stdclasses[type:lower()] then res = '(%'..type..'+)' else err = "unknown format type or character class" end end return res end)) if err then return nil,err else return r,fieldnames,fieldtypes end end local function tnumber (s) return s == 'd' or s == 'i' or s == 'f' end function sip.create_spec_fun(spec,options) local fieldtypes,fieldnames local ls = {} spec,fieldnames,fieldtypes = sip.create_pattern(spec,options) if not spec then return spec,fieldnames end local named_vars = type(fieldnames[1]) == 'string' for i = 1,#fieldnames do append(ls,'mm'..i) end ls[1] = ls[1] or "mm1" -- behave correctly if there are no patterns local fun = ('return (function(s,res)\n\tlocal %s = s:match(%q)\n'):format(concat(ls,','),spec) fun = fun..'\tif not mm1 then return false end\n' local k=1 for i,f in ipairs(fieldnames) do if f ~= '_' then local var = 'mm'..i if tnumber(fieldtypes[f]) then var = 'tonumber('..var..')' elseif brackets[fieldtypes[f]] then var = var..':sub(2,-2)' end if named_vars then fun = ('%s\tres.%s = %s\n'):format(fun,f,var) else if fieldtypes[f] ~= 'Q' then -- we skip the string-delim capture fun = ('%s\tres[%d] = %s\n'):format(fun,k,var) k = k + 1 end end end end return fun..'\treturn true\nend)\n', named_vars end --- convert a SIP pattern into a matching function. -- The returned function takes two arguments, the line and an empty table. -- If the line matched the pattern, then this function returns true -- and the table is filled with field-value pairs. -- @param spec a SIP pattern -- @param options optional table; {at_start=true} ensures that the pattern -- is anchored at the start of the string. -- @return a function if successful, or nil,error function sip.compile(spec,options) assert_arg(1,spec,'string') local fun,names = sip.create_spec_fun(spec,options) if not fun then return nil,names end if rawget(_G,'_DEBUG') then print(fun) end local chunk,err = loadstring(fun,'tmp') if err then return nil,err end return chunk(),names end local cache = {} --- match a SIP pattern against a string. -- @param spec a SIP pattern -- @param line a string -- @param res a table to receive values -- @param options (optional) option table -- @return true or false function sip.match (spec,line,res,options) assert_arg(1,spec,'string') assert_arg(2,line,'string') assert_arg(3,res,'table') if not cache[spec] then cache[spec] = sip.compile(spec,options) end return cache[spec](line,res) end --- match a SIP pattern against the start of a string. -- @param spec a SIP pattern -- @param line a string -- @param res a table to receive values -- @return true or false function sip.match_at_start (spec,line,res) return sip.match(spec,line,res,{at_start=true}) end --- given a pattern and a file object, return an iterator over the results -- @param spec a SIP pattern -- @param f a file-like object. function sip.fields (spec,f) assert_arg(1,spec,'string') if not f then return nil,"no file object" end local fun,err = sip.compile(spec) if not fun then return nil,err end local res = {} return function() while true do local line = f:read() if not line then return end if fun(line,res) then local values = res res = {} return unpack(values) end end end end local read_patterns = {} --- register a match which will be used in the read function. -- @string spec a SIP pattern -- @func fun a function to be called with the results of the match -- @see read function sip.pattern (spec,fun) assert_arg(1,spec,'string') local pat,named = sip.compile(spec) append(read_patterns,{pat=pat,named=named,callback=fun}) end --- enter a loop which applies all registered matches to the input file. -- @param f a file-like object -- @array matches optional list of `{spec,fun}` pairs, as for `pattern` above. function sip.read (f,matches) local owned,err if not f then return nil,"no file object" end if type(f) == 'string' then f,err = io.open(f) if not f then return nil,err end owned = true end if matches then for _,p in ipairs(matches) do sip.pattern(p[1],p[2]) end end local res = {} for line in f:lines() do for _,item in ipairs(read_patterns) do if item.pat(line,res) then if item.callback then if item.named then item.callback(res) else item.callback(unpack(res)) end end res = {} break end end end if owned then f:close() end end return sip end, ["pl.strict"] = function() -------------------- -- Module: 'pl.strict' -------------------- --- Checks uses of undeclared global variables. -- All global variables must be 'declared' through a regular assignment -- (even assigning `nil` will do) in a main chunk before being used -- anywhere or assigned to inside a function. Existing metatables `__newindex` and `__index` -- metamethods are respected. -- -- You can set any table to have strict behaviour using `strict.module`. Creating a new -- module with `strict.closed_module` makes the module immune to monkey-patching, if -- you don't wish to encourage monkey business. -- -- If the global `PENLIGHT_NO_GLOBAL_STRICT` is defined, then this module won't make the -- global environment strict - if you just want to explicitly set table strictness. -- -- @module pl.strict require 'debug' -- for Lua 5.2 local getinfo, error, rawset, rawget = debug.getinfo, error, rawset, rawget local strict = {} local function what () local d = getinfo(3, "S") return d and d.what or "C" end --- make an existing table strict. -- @string[opt] name name of table -- @tab[opt] mod the table to protect - if `nil` then we'll return a new table -- @tab[opt] predeclared - table of variables that are to be considered predeclared. -- @return the given table, or a new table -- @usage -- local M = { hello = "world" } -- strict.module ("Awesome_Module", M, { -- Lua = true, -- defines allowed keys -- }) -- -- assert(M.hello == "world") -- assert(M.Lua == nil) -- access allowed, but has no value yet -- M.Lua = "Rocks" -- assert(M.Lua == "Rocks") -- M.not_allowed = "bad boy" -- throws an error function strict.module (name,mod,predeclared) local mt, old_newindex, old_index, old_index_type, global if predeclared then global = predeclared.__global end if type(mod) == 'table' then mt = getmetatable(mod) if mt and rawget(mt,'__declared') then return end -- already patched... else mod = {} end if mt == nil then mt = {} setmetatable(mod, mt) else old_newindex = mt.__newindex old_index = mt.__index old_index_type = type(old_index) end mt.__declared = predeclared or {} mt.__newindex = function(t, n, v) if old_newindex then old_newindex(t, n, v) if rawget(t,n)~=nil then return end end if not mt.__declared[n] then if global then local w = what() if w ~= "main" and w ~= "C" then error("assign to undeclared global '"..n.."'", 2) end end mt.__declared[n] = true end rawset(t, n, v) end mt.__index = function(t,n) if not mt.__declared[n] and what() ~= "C" then if old_index then if old_index_type == "table" then local fallback = old_index[n] if fallback ~= nil then return fallback end else local res = old_index(t, n) if res ~= nil then return res end end end local msg = "variable '"..n.."' is not declared" if name then msg = msg .. " in '"..tostring(name).."'" end error(msg, 2) end return rawget(t, n) end return mod end --- make all tables in a table strict. -- So `strict.make_all_strict(_G)` prevents monkey-patching -- of any global table -- @tab T the table containing the tables to protect. Table `T` itself will NOT be protected. function strict.make_all_strict (T) for k,v in pairs(T) do if type(v) == 'table' and v ~= T then strict.module(k,v) end end end --- make a new module table which is closed to further changes. -- @tab mod module table -- @string name module name function strict.closed_module (mod,name) -- No clue to what this is useful for? see tests -- Deprecate this and remove??? local M = {} mod = mod or {} local mt = getmetatable(mod) if not mt then mt = {} setmetatable(mod,mt) end mt.__newindex = function(t,k,v) M[k] = v end return strict.module(name,M) end if not rawget(_G,'PENLIGHT_NO_GLOBAL_STRICT') then strict.module(nil,_G,{_PROMPT=true,_PROMPT2=true,__global=true}) end return strict end, ["pl.stringio"] = function() -------------------- -- Module: 'pl.stringio' -------------------- --- Reading and writing strings using file-like objects. -- -- f = stringio.open(text) -- l1 = f:read() -- read first line -- n,m = f:read ('*n','*n') -- read two numbers -- for line in f:lines() do print(line) end -- iterate over all lines -- f = stringio.create() -- f:write('hello') -- f:write('dolly') -- assert(f:value(),'hellodolly') -- -- See @{03-strings.md.File_style_I_O_on_Strings|the Guide}. -- @module pl.stringio local unpack = rawget(_G,'unpack') or rawget(table,'unpack') local tonumber = tonumber local concat,append = table.concat,table.insert local stringio = {} -- Writer class local SW = {} SW.__index = SW local function xwrite(self,...) local args = {...} --arguments may not be nil! for i = 1, #args do append(self.tbl,args[i]) end end function SW:write(arg1,arg2,...) if arg2 then xwrite(self,arg1,arg2,...) else append(self.tbl,arg1) end end function SW:writef(fmt,...) self:write(fmt:format(...)) end function SW:value() return concat(self.tbl) end function SW:__tostring() return self:value() end function SW:close() -- for compatibility only end function SW:seek() end -- Reader class local SR = {} SR.__index = SR function SR:_read(fmt) local i,str = self.i,self.str local sz = #str if i > sz then return nil end local res if fmt == '*l' or fmt == '*L' then local idx = str:find('\n',i) or (sz+1) res = str:sub(i,fmt == '*l' and idx-1 or idx) self.i = idx+1 elseif fmt == '*a' then res = str:sub(i) self.i = sz elseif fmt == '*n' then local _,i2,idx _,idx = str:find ('%s*%d+',i) _,i2 = str:find ('^%.%d+',idx+1) if i2 then idx = i2 end _,i2 = str:find ('^[eE][%+%-]*%d+',idx+1) if i2 then idx = i2 end local val = str:sub(i,idx) res = tonumber(val) self.i = idx+1 elseif type(fmt) == 'number' then res = str:sub(i,i+fmt-1) self.i = i + fmt else error("bad read format",2) end return res end function SR:read(...) if select('#',...) == 0 then return self:_read('*l') else local res, fmts = {},{...} for i = 1, #fmts do res[i] = self:_read(fmts[i]) end return unpack(res) end end function SR:seek(whence,offset) local base whence = whence or 'cur' offset = offset or 0 if whence == 'set' then base = 1 elseif whence == 'cur' then base = self.i elseif whence == 'end' then base = #self.str end self.i = base + offset return self.i end function SR:lines(...) local n, args = select('#',...) if n > 0 then args = {...} end return function() if n == 0 then return self:_read '*l' else return self:read(unpack(args)) end end end function SR:close() -- for compatibility only end --- create a file-like object which can be used to construct a string. -- The resulting object has an extra `value()` method for -- retrieving the string value. Implements `file:write`, `file:seek`, `file:lines`, -- plus an extra `writef` method which works like `utils.printf`. -- @usage f = create(); f:write('hello, dolly\n'); print(f:value()) function stringio.create() return setmetatable({tbl={}},SW) end --- create a file-like object for reading from a given string. -- Implements `file:read`. -- @string s The input string. -- @usage fs = open '20 10'; x,y = f:read ('*n','*n'); assert(x == 20 and y == 10) function stringio.open(s) return setmetatable({str=s,i=1},SR) end function stringio.lines(s,...) return stringio.open(s):lines(...) end return stringio end, ["pl.stringx"] = function() -------------------- -- Module: 'pl.stringx' -------------------- --- Python-style extended string library. -- -- see 3.6.1 of the Python reference. -- If you want to make these available as string methods, then say -- `stringx.import()` to bring them into the standard `string` table. -- -- See @{03-strings.md|the Guide} -- -- Dependencies: `pl.utils`, `pl.types` -- @module pl.stringx local utils = require 'pl.utils' local is_callable = require 'pl.types'.is_callable local string = string local find = string.find local type,setmetatable,ipairs = type,setmetatable,ipairs local error = error local gsub = string.gsub local rep = string.rep local sub = string.sub local reverse = string.reverse local concat = table.concat local append = table.insert local remove = table.remove local escape = utils.escape local ceil, max = math.ceil, math.max local assert_arg,usplit = utils.assert_arg,utils.split local lstrip local unpack = utils.unpack local pack = utils.pack local function assert_string (n,s) assert_arg(n,s,'string') end local function non_empty(s) return #s > 0 end local function assert_nonempty_string(n,s) assert_arg(n,s,'string',non_empty,'must be a non-empty string') end local function makelist(l) return setmetatable(l, require('pl.List')) end local stringx = {} ------------------ -- String Predicates -- @section predicates --- does s only contain alphabetic characters? -- @string s a string function stringx.isalpha(s) assert_string(1,s) return find(s,'^%a+$') == 1 end --- does s only contain digits? -- @string s a string function stringx.isdigit(s) assert_string(1,s) return find(s,'^%d+$') == 1 end --- does s only contain alphanumeric characters? -- @string s a string function stringx.isalnum(s) assert_string(1,s) return find(s,'^%w+$') == 1 end --- does s only contain whitespace? -- Matches on pattern '%s' so matches space, newline, tabs, etc. -- @string s a string function stringx.isspace(s) assert_string(1,s) return find(s,'^%s+$') == 1 end --- does s only contain lower case characters? -- @string s a string function stringx.islower(s) assert_string(1,s) return find(s,'^[%l%s]+$') == 1 end --- does s only contain upper case characters? -- @string s a string function stringx.isupper(s) assert_string(1,s) return find(s,'^[%u%s]+$') == 1 end local function raw_startswith(s, prefix) return find(s,prefix,1,true) == 1 end local function raw_endswith(s, suffix) return #s >= #suffix and find(s, suffix, #s-#suffix+1, true) and true or false end local function test_affixes(s, affixes, fn) if type(affixes) == 'string' then return fn(s,affixes) elseif type(affixes) == 'table' then for _,affix in ipairs(affixes) do if fn(s,affix) then return true end end return false else error(("argument #2 expected a 'string' or a 'table', got a '%s'"):format(type(affixes))) end end --- does s start with prefix or one of prefixes? -- @string s a string -- @param prefix a string or an array of strings function stringx.startswith(s,prefix) assert_string(1,s) return test_affixes(s,prefix,raw_startswith) end --- does s end with suffix or one of suffixes? -- @string s a string -- @param suffix a string or an array of strings function stringx.endswith(s,suffix) assert_string(1,s) return test_affixes(s,suffix,raw_endswith) end --- Strings and Lists -- @section lists --- concatenate the strings using this string as a delimiter. -- Note that the arguments are reversed from `string.concat`. -- @string s the string -- @param seq a table of strings or numbers -- @usage stringx.join(' ', {1,2,3}) == '1 2 3' function stringx.join(s,seq) assert_string(1,s) return concat(seq,s) end --- Split a string into a list of lines. -- `"\r"`, `"\n"`, and `"\r\n"` are considered line ends. -- They are not included in the lines unless `keepends` is passed. -- Terminal line end does not produce an extra line. -- Splitting an empty string results in an empty list. -- @string s the string. -- @bool[opt] keep_ends include line ends. -- @return List of lines function stringx.splitlines(s, keep_ends) assert_string(1, s) local res = {} local pos = 1 while true do local line_end_pos = find(s, '[\r\n]', pos) if not line_end_pos then break end local line_end = sub(s, line_end_pos, line_end_pos) if line_end == '\r' and sub(s, line_end_pos + 1, line_end_pos + 1) == '\n' then line_end = '\r\n' end local line = sub(s, pos, line_end_pos - 1) if keep_ends then line = line .. line_end end append(res, line) pos = line_end_pos + #line_end end if pos <= #s then append(res, sub(s, pos)) end return makelist(res) end --- split a string into a list of strings using a delimiter. -- @function split -- @string s the string -- @string[opt] re a delimiter (defaults to whitespace) -- @int[opt] n maximum number of results -- @return List -- @usage #(stringx.split('one two')) == 2 -- @usage stringx.split('one,two,three', ',') == List{'one','two','three'} -- @usage stringx.split('one,two,three', ',', 2) == List{'one','two,three'} function stringx.split(s,re,n) assert_string(1,s) local plain = true if not re then -- default spaces s = lstrip(s) plain = false end local res = usplit(s,re,plain,n) if re and re ~= '' and find(s,re,-#re,true) and (n or math.huge) > #res then res[#res+1] = "" end return makelist(res) end --- replace all tabs in s with tabsize spaces. If not specified, tabsize defaults to 8. -- Tab stops will be honored. -- @string s the string -- @int tabsize[opt=8] number of spaces to expand each tab -- @return expanded string -- @usage stringx.expandtabs('\tone,two,three', 4) == ' one,two,three' -- @usage stringx.expandtabs(' \tone,two,three', 4) == ' one,two,three' function stringx.expandtabs(s,tabsize) assert_string(1,s) tabsize = tabsize or 8 return (s:gsub("([^\t\r\n]*)\t", function(before_tab) if tabsize == 0 then return before_tab else return before_tab .. (" "):rep(tabsize - #before_tab % tabsize) end end)) end --- Finding and Replacing -- @section find local function _find_all(s,sub,first,last,allow_overlap) first = first or 1 last = last or #s if sub == '' then return last+1,last-first+1 end local i1,i2 = find(s,sub,first,true) local res local k = 0 while i1 do if last and i2 > last then break end res = i1 k = k + 1 if allow_overlap then i1,i2 = find(s,sub,i1+1,true) else i1,i2 = find(s,sub,i2+1,true) end end return res,k end --- find index of first instance of sub in s from the left. -- @string s the string -- @string sub substring -- @int[opt] first first index -- @int[opt] last last index -- @return start index, or nil if not found function stringx.lfind(s,sub,first,last) assert_string(1,s) assert_string(2,sub) local i1, i2 = find(s,sub,first,true) if i1 and (not last or i2 <= last) then return i1 else return nil end end --- find index of first instance of sub in s from the right. -- @string s the string -- @string sub substring -- @int[opt] first first index -- @int[opt] last last index -- @return start index, or nil if not found function stringx.rfind(s,sub,first,last) assert_string(1,s) assert_string(2,sub) return (_find_all(s,sub,first,last,true)) end --- replace up to n instances of old by new in the string s. -- If n is not present, replace all instances. -- @string s the string -- @string old the target substring -- @string new the substitution -- @int[opt] n optional maximum number of substitutions -- @return result string function stringx.replace(s,old,new,n) assert_string(1,s) assert_string(2,old) assert_string(3,new) return (gsub(s,escape(old),new:gsub('%%','%%%%'),n)) end --- count all instances of substring in string. -- @string s the string -- @string sub substring -- @bool[opt] allow_overlap allow matches to overlap -- @usage -- assert(stringx.count('banana', 'ana') == 1) -- assert(stringx.count('banana', 'ana', true) == 2) function stringx.count(s,sub,allow_overlap) assert_string(1,s) local _,k = _find_all(s,sub,1,false,allow_overlap) return k end --- Stripping and Justifying -- @section strip local function _just(s,w,ch,left,right) local n = #s if w > n then if not ch then ch = ' ' end local f1,f2 if left and right then local rn = ceil((w-n)/2) local ln = w - n - rn f1 = rep(ch,ln) f2 = rep(ch,rn) elseif right then f1 = rep(ch,w-n) f2 = '' else f2 = rep(ch,w-n) f1 = '' end return f1..s..f2 else return s end end --- left-justify s with width w. -- @string s the string -- @int w width of justification -- @string[opt=' '] ch padding character -- @usage stringx.ljust('hello', 10, '*') == '*****hello' function stringx.ljust(s,w,ch) assert_string(1,s) assert_arg(2,w,'number') return _just(s,w,ch,true,false) end --- right-justify s with width w. -- @string s the string -- @int w width of justification -- @string[opt=' '] ch padding character -- @usage stringx.rjust('hello', 10, '*') == 'hello*****' function stringx.rjust(s,w,ch) assert_string(1,s) assert_arg(2,w,'number') return _just(s,w,ch,false,true) end --- center-justify s with width w. -- @string s the string -- @int w width of justification -- @string[opt=' '] ch padding character -- @usage stringx.center('hello', 10, '*') == '**hello***' function stringx.center(s,w,ch) assert_string(1,s) assert_arg(2,w,'number') return _just(s,w,ch,true,true) end local function _strip(s,left,right,chrs) if not chrs then chrs = '%s' else chrs = '['..escape(chrs)..']' end local f = 1 local t if left then local i1,i2 = find(s,'^'..chrs..'*') if i2 >= i1 then f = i2+1 end end if right then if #s < 200 then local i1,i2 = find(s,chrs..'*$',f) if i2 >= i1 then t = i1-1 end else local rs = reverse(s) local i1,i2 = find(rs, '^'..chrs..'*') if i2 >= i1 then t = -i2-1 end end end return sub(s,f,t) end --- trim any characters on the left of s. -- @string s the string -- @string[opt='%s'] chrs default any whitespace character, -- but can be a string of characters to be trimmed function stringx.lstrip(s,chrs) assert_string(1,s) return _strip(s,true,false,chrs) end lstrip = stringx.lstrip --- trim any characters on the right of s. -- @string s the string -- @string[opt='%s'] chrs default any whitespace character, -- but can be a string of characters to be trimmed function stringx.rstrip(s,chrs) assert_string(1,s) return _strip(s,false,true,chrs) end --- trim any characters on both left and right of s. -- @string s the string -- @string[opt='%s'] chrs default any whitespace character, -- but can be a string of characters to be trimmed -- @usage stringx.strip(' --== Hello ==-- ', "- =") --> 'Hello' function stringx.strip(s,chrs) assert_string(1,s) return _strip(s,true,true,chrs) end --- Partitioning Strings -- @section partitioning --- split a string using a pattern. Note that at least one value will be returned! -- @string s the string -- @string[opt='%s'] re a Lua string pattern (defaults to whitespace) -- @return the parts of the string -- @usage a,b = line:splitv('=') -- @see utils.splitv function stringx.splitv(s,re) assert_string(1,s) return utils.splitv(s,re) end -- The partition functions split a string using a delimiter into three parts: -- the part before, the delimiter itself, and the part afterwards local function _partition(p,delim,fn) local i1,i2 = fn(p,delim) if not i1 or i1 == -1 then return p,'','' else if not i2 then i2 = i1 end return sub(p,1,i1-1),sub(p,i1,i2),sub(p,i2+1) end end --- partition the string using first occurance of a delimiter -- @string s the string -- @string ch delimiter (match as plain string, no patterns) -- @return part before ch -- @return ch -- @return part after ch -- @usage {stringx.partition('a,b,c', ','))} == {'a', ',', 'b,c'} -- @usage {stringx.partition('abc', 'x'))} == {'abc', '', ''} function stringx.partition(s,ch) assert_string(1,s) assert_nonempty_string(2,ch) return _partition(s,ch,stringx.lfind) end --- partition the string p using last occurance of a delimiter -- @string s the string -- @string ch delimiter (match as plain string, no patterns) -- @return part before ch -- @return ch -- @return part after ch -- @usage {stringx.rpartition('a,b,c', ','))} == {'a,b', ',', 'c'} -- @usage {stringx.rpartition('abc', 'x'))} == {'', '', 'abc'} function stringx.rpartition(s,ch) assert_string(1,s) assert_nonempty_string(2,ch) local a,b,c = _partition(s,ch,stringx.rfind) if a == s then -- no match found return c,b,a end return a,b,c end --- return the 'character' at the index. -- @string s the string -- @int idx an index (can be negative) -- @return a substring of length 1 if successful, empty string otherwise. function stringx.at(s,idx) assert_string(1,s) assert_arg(2,idx,'number') return sub(s,idx,idx) end --- Text handling -- @section text --- indent a multiline string. -- @tparam string s the (multiline) string -- @tparam integer n the size of the indent -- @tparam[opt=' '] string ch the character to use when indenting -- @return indented string function stringx.indent (s,n,ch) assert_arg(1,s,'string') assert_arg(2,n,'number') local lines = usplit(s ,'\n') local prefix = string.rep(ch or ' ',n) for i, line in ipairs(lines) do lines[i] = prefix..line end return concat(lines,'\n')..'\n' end --- dedent a multiline string by removing any initial indent. -- useful when working with [[..]] strings. -- Empty lines are ignored. -- @tparam string s the (multiline) string -- @return a string with initial indent zero. -- @usage -- local s = dedent [[ -- One -- -- Two -- -- Three -- ]] -- assert(s == [[ -- One -- -- Two -- -- Three -- ]]) function stringx.dedent (s) assert_arg(1,s,'string') local lst = usplit(s,'\n') if #lst>0 then local ind_size = math.huge for i, line in ipairs(lst) do local i1, i2 = lst[i]:find('^%s*[^%s]') if i1 and i2 < ind_size then ind_size = i2 end end for i, line in ipairs(lst) do lst[i] = lst[i]:sub(ind_size, -1) end end return concat(lst,'\n')..'\n' end do local buildline = function(words, size, breaklong) -- if overflow is set, a word longer than size, will overflow the size -- otherwise it will be chopped in line-length pieces local line = {} if #words[1] > size then -- word longer than line if not breaklong then line[1] = words[1] remove(words, 1) else line[1] = words[1]:sub(1, size) words[1] = words[1]:sub(size + 1, -1) end else local len = 0 while words[1] and (len + #words[1] <= size) or (len == 0 and #words[1] == size) do if words[1] ~= "" then line[#line+1] = words[1] len = len + #words[1] + 1 end remove(words, 1) end end return stringx.strip(concat(line, " ")), words end --- format a paragraph into lines so that they fit into a line width. -- It will not break long words by default, so lines can be over the length -- to that extent. -- @tparam string s the string to format -- @tparam[opt=70] integer width the margin width -- @tparam[opt=false] boolean breaklong if truthy, words longer than the width given will be forced split. -- @return a list of lines (List object), use `fill` to return a string instead of a `List`. -- @see pl.List -- @see fill stringx.wrap = function(s, width, breaklong) s = s:gsub('\n',' ') -- remove line breaks s = stringx.strip(s) -- remove leading/trailing whitespace if s == "" then return { "" } end width = width or 70 local out = {} local words = usplit(s, "%s") while words[1] do out[#out+1], words = buildline(words, width, breaklong) end return makelist(out) end end --- format a paragraph so that it fits into a line width. -- @tparam string s the string to format -- @tparam[opt=70] integer width the margin width -- @tparam[opt=false] boolean breaklong if truthy, words longer than the width given will be forced split. -- @return a string, use `wrap` to return a list of lines instead of a string. -- @see wrap function stringx.fill (s,width,breaklong) return concat(stringx.wrap(s,width,breaklong),'\n') .. '\n' end --- Template -- @section Template local function _substitute(s,tbl,safe) local subst if is_callable(tbl) then subst = tbl else function subst(f) local s = tbl[f] if not s then if safe then return f else error("not present in table "..f) end else return s end end end local res = gsub(s,'%${([%w_]+)}',subst) return (gsub(res,'%$([%w_]+)',subst)) end local Template = {} stringx.Template = Template Template.__index = Template setmetatable(Template, { __call = function(obj,tmpl) return Template.new(tmpl) end }) --- Creates a new Template class. -- This is a shortcut to `Template.new(tmpl)`. -- @tparam string tmpl the template string -- @function Template -- @treturn Template function Template.new(tmpl) assert_arg(1,tmpl,'string') local res = {} res.tmpl = tmpl setmetatable(res,Template) return res end --- substitute values into a template, throwing an error. -- This will throw an error if no name is found. -- @tparam table tbl a table of name-value pairs. -- @return string with place holders substituted function Template:substitute(tbl) assert_arg(1,tbl,'table') return _substitute(self.tmpl,tbl,false) end --- substitute values into a template. -- This version just passes unknown names through. -- @tparam table tbl a table of name-value pairs. -- @return string with place holders substituted function Template:safe_substitute(tbl) assert_arg(1,tbl,'table') return _substitute(self.tmpl,tbl,true) end --- substitute values into a template, preserving indentation. -- If the value is a multiline string _or_ a template, it will insert -- the lines at the correct indentation. -- Furthermore, if a template, then that template will be substituted -- using the same table. -- @tparam table tbl a table of name-value pairs. -- @return string with place holders substituted function Template:indent_substitute(tbl) assert_arg(1,tbl,'table') if not self.strings then self.strings = usplit(self.tmpl,'\n') end -- the idea is to substitute line by line, grabbing any spaces as -- well as the $var. If the value to be substituted contains newlines, -- then we split that into lines and adjust the indent before inserting. local function subst(line) return line:gsub('(%s*)%$([%w_]+)',function(sp,f) local subtmpl local s = tbl[f] if not s then error("not present in table "..f) end if getmetatable(s) == Template then subtmpl = s s = s.tmpl else s = tostring(s) end if s:find '\n' then local lines = usplit(s, '\n') for i, line in ipairs(lines) do lines[i] = sp..line end s = concat(lines, '\n') .. '\n' end if subtmpl then return _substitute(s, tbl) else return s end end) end local lines = {} for i, line in ipairs(self.strings) do lines[i] = subst(line) end return concat(lines,'\n')..'\n' end --- Miscelaneous -- @section misc --- return an iterator over all lines in a string -- @string s the string -- @return an iterator -- @usage -- local line_no = 1 -- for line in stringx.lines(some_text) do -- print(line_no, line) -- line_no = line_no + 1 -- end function stringx.lines(s) assert_string(1,s) if not s:find '\n$' then s = s..'\n' end return s:gmatch('([^\n]*)\n') end --- inital word letters uppercase ('title case'). -- Here 'words' mean chunks of non-space characters. -- @string s the string -- @return a string with each word's first letter uppercase -- @usage stringx.title("hello world") == "Hello World") function stringx.title(s) assert_string(1,s) return (s:gsub('(%S)(%S*)',function(f,r) return f:upper()..r:lower() end)) end stringx.capitalize = stringx.title do local ellipsis = '...' local n_ellipsis = #ellipsis --- Return a shortened version of a string. -- Fits string within w characters. Removed characters are marked with ellipsis. -- @string s the string -- @int w the maxinum size allowed -- @bool tail true if we want to show the end of the string (head otherwise) -- @usage ('1234567890'):shorten(8) == '12345...' -- @usage ('1234567890'):shorten(8, true) == '...67890' -- @usage ('1234567890'):shorten(20) == '1234567890' function stringx.shorten(s,w,tail) assert_string(1,s) if #s > w then if w < n_ellipsis then return ellipsis:sub(1,w) end if tail then local i = #s - w + 1 + n_ellipsis return ellipsis .. s:sub(i) else return s:sub(1,w-n_ellipsis) .. ellipsis end end return s end end do -- Utility function that finds any patterns that match a long string's an open or close. -- Note that having this function use the least number of equal signs that is possible is a harder algorithm to come up with. -- Right now, it simply returns the greatest number of them found. -- @param s The string -- @return 'nil' if not found. If found, the maximum number of equal signs found within all matches. local function has_lquote(s) local lstring_pat = '([%[%]])(=*)%1' local equals, new_equals, _ local finish = 1 repeat _, finish, _, new_equals = s:find(lstring_pat, finish) if new_equals then equals = max(equals or 0, #new_equals) end until not new_equals return equals end --- Quote the given string and preserve any control or escape characters, such that reloading the string in Lua returns the same result. -- @param s The string to be quoted. -- @return The quoted string. function stringx.quote_string(s) assert_string(1,s) -- Find out if there are any embedded long-quote sequences that may cause issues. -- This is important when strings are embedded within strings, like when serializing. -- Append a closing bracket to catch unfinished long-quote sequences at the end of the string. local equal_signs = has_lquote(s .. "]") -- Note that strings containing "\r" can't be quoted using long brackets -- as Lua lexer converts all newlines to "\n" within long strings. if (s:find("\n") or equal_signs) and not s:find("\r") then -- If there is an embedded sequence that matches a long quote, then -- find the one with the maximum number of = signs and add one to that number. equal_signs = ("="):rep((equal_signs or -1) + 1) -- Long strings strip out leading newline. We want to retain that, when quoting. if s:find("^\n") then s = "\n" .. s end local lbracket, rbracket = "[" .. equal_signs .. "[", "]" .. equal_signs .. "]" s = lbracket .. s .. rbracket else -- Escape funny stuff. Lua 5.1 does not handle "\r" correctly. s = ("%q"):format(s):gsub("\r", "\\r") end return s end end --- Python-style formatting operator. -- Calling `text.format_operator()` overloads the % operator for strings to give -- Python/Ruby style formated output. -- This is extended to also do template-like substitution for map-like data. -- -- Note this goes further than the original, and will allow these cases: -- -- 1. a single value -- 2. a list of values -- 3. a map of var=value pairs -- 4. a function, as in gsub -- -- For the second two cases, it uses $-variable substituion. -- -- When called, this function will monkey-patch the global `string` metatable by -- adding a `__mod` method. -- -- See the lua-users wiki -- -- @usage -- require 'pl.text'.format_operator() -- local out1 = '%s = %5.3f' % {'PI',math.pi} --> 'PI = 3.142' -- local out2 = '$name = $value' % {name='dog',value='Pluto'} --> 'dog = Pluto' function stringx.format_operator() local format = string.format -- a more forgiving version of string.format, which applies -- tostring() to any value with a %s format. local function formatx (fmt,...) local args = pack(...) local i = 1 for p in fmt:gmatch('%%.') do if p == '%s' and type(args[i]) ~= 'string' then args[i] = tostring(args[i]) end i = i + 1 end return format(fmt,unpack(args)) end local function basic_subst(s,t) return (s:gsub('%$([%w_]+)',t)) end getmetatable("").__mod = function(a, b) if b == nil then return a elseif type(b) == "table" and getmetatable(b) == nil then if #b == 0 then -- assume a map-like table return _substitute(a,b,true) else return formatx(a,unpack(b)) end elseif type(b) == 'function' then return basic_subst(a,b) else return formatx(a,b) end end end --- import the stringx functions into the global string (meta)table function stringx.import() utils.import(stringx,string) end return stringx end, ["pl.tablex"] = function() -------------------- -- Module: 'pl.tablex' -------------------- --- Extended operations on Lua tables. -- -- See @{02-arrays.md.Useful_Operations_on_Tables|the Guide} -- -- Dependencies: `pl.utils`, `pl.types` -- @module pl.tablex local utils = require ('pl.utils') local types = require ('pl.types') local getmetatable,setmetatable,require = getmetatable,setmetatable,require local tsort,append,remove = table.sort,table.insert,table.remove local min = math.min local pairs,type,unpack,select,tostring = pairs,type,utils.unpack,select,tostring local function_arg = utils.function_arg local assert_arg = utils.assert_arg local tablex = {} -- generally, functions that make copies of tables try to preserve the metatable. -- However, when the source has no obvious type, then we attach appropriate metatables -- like List, Map, etc to the result. local function setmeta (res,tbl,pl_class) local mt = getmetatable(tbl) or pl_class and require('pl.' .. pl_class) return mt and setmetatable(res, mt) or res end local function makelist(l) return setmetatable(l, require('pl.List')) end local function makemap(m) return setmetatable(m, require('pl.Map')) end local function complain (idx,msg) error(('argument %d is not %s'):format(idx,msg),3) end local function assert_arg_indexable (idx,val) if not types.is_indexable(val) then complain(idx,"indexable") end end local function assert_arg_iterable (idx,val) if not types.is_iterable(val) then complain(idx,"iterable") end end local function assert_arg_writeable (idx,val) if not types.is_writeable(val) then complain(idx,"writeable") end end --- copy a table into another, in-place. -- @within Copying -- @tab t1 destination table -- @tab t2 source (actually any iterable object) -- @return first table function tablex.update (t1,t2) assert_arg_writeable(1,t1) assert_arg_iterable(2,t2) for k,v in pairs(t2) do t1[k] = v end return t1 end --- total number of elements in this table. -- Note that this is distinct from `#t`, which is the number -- of values in the array part; this value will always -- be greater or equal. The difference gives the size of -- the hash part, for practical purposes. Works for any -- object with a __pairs metamethod. -- @tab t a table -- @return the size function tablex.size (t) assert_arg_iterable(1,t) local i = 0 for k in pairs(t) do i = i + 1 end return i end --- make a shallow copy of a table -- @within Copying -- @tab t an iterable source -- @return new table function tablex.copy (t) assert_arg_iterable(1,t) local res = {} for k,v in pairs(t) do res[k] = v end return res end local function cycle_aware_copy(t, cache) if type(t) ~= 'table' then return t end if cache[t] then return cache[t] end assert_arg_iterable(1,t) local res = {} cache[t] = res local mt = getmetatable(t) for k,v in pairs(t) do k = cycle_aware_copy(k, cache) v = cycle_aware_copy(v, cache) res[k] = v end setmetatable(res,mt) return res end --- make a deep copy of a table, recursively copying all the keys and fields. -- This supports cycles in tables; cycles will be reproduced in the copy. -- This will also set the copied table's metatable to that of the original. -- @within Copying -- @tab t A table -- @return new table function tablex.deepcopy(t) return cycle_aware_copy(t,{}) end local abs = math.abs local function cycle_aware_compare(t1,t2,ignore_mt,eps,cache) if cache[t1] and cache[t1][t2] then return true end local ty1 = type(t1) local ty2 = type(t2) if ty1 ~= ty2 then return false end -- non-table types can be directly compared if ty1 ~= 'table' then if ty1 == 'number' and eps then return abs(t1-t2) < eps end return t1 == t2 end -- as well as tables which have the metamethod __eq local mt = getmetatable(t1) if not ignore_mt and mt and mt.__eq then return t1 == t2 end for k1 in pairs(t1) do if t2[k1]==nil then return false end end for k2 in pairs(t2) do if t1[k2]==nil then return false end end cache[t1] = cache[t1] or {} cache[t1][t2] = true for k1,v1 in pairs(t1) do local v2 = t2[k1] if not cycle_aware_compare(v1,v2,ignore_mt,eps,cache) then return false end end return true end --- compare two values. -- if they are tables, then compare their keys and fields recursively. -- @within Comparing -- @param t1 A value -- @param t2 A value -- @bool[opt] ignore_mt if true, ignore __eq metamethod (default false) -- @number[opt] eps if defined, then used for any number comparisons -- @return true or false function tablex.deepcompare(t1,t2,ignore_mt,eps) return cycle_aware_compare(t1,t2,ignore_mt,eps,{}) end --- compare two arrays using a predicate. -- @within Comparing -- @array t1 an array -- @array t2 an array -- @func cmp A comparison function; `bool = cmp(t1_value, t2_value)` -- @return true or false -- @usage -- assert(tablex.compare({ 1, 2, 3 }, { 1, 2, 3 }, "==")) -- -- assert(tablex.compare( -- {1,2,3, hello = "world"}, -- fields are not compared! -- {1,2,3}, function(v1, v2) return v1 == v2 end) function tablex.compare (t1,t2,cmp) assert_arg_indexable(1,t1) assert_arg_indexable(2,t2) if #t1 ~= #t2 then return false end cmp = function_arg(3,cmp) for k = 1,#t1 do if not cmp(t1[k],t2[k]) then return false end end return true end --- compare two list-like tables using an optional predicate, without regard for element order. -- @within Comparing -- @array t1 a list-like table -- @array t2 a list-like table -- @param cmp A comparison function (may be nil) function tablex.compare_no_order (t1,t2,cmp) assert_arg_indexable(1,t1) assert_arg_indexable(2,t2) if cmp then cmp = function_arg(3,cmp) end if #t1 ~= #t2 then return false end local visited = {} for i = 1,#t1 do local val = t1[i] local gotcha for j = 1,#t2 do if not visited[j] then local match if cmp then match = cmp(val,t2[j]) else match = val == t2[j] end if match then gotcha = j break end end end if not gotcha then return false end visited[gotcha] = true end return true end --- return the index of a value in a list. -- Like string.find, there is an optional index to start searching, -- which can be negative. -- @within Finding -- @array t A list-like table -- @param val A value -- @int idx index to start; -1 means last element,etc (default 1) -- @return index of value or nil if not found -- @usage find({10,20,30},20) == 2 -- @usage find({'a','b','a','c'},'a',2) == 3 function tablex.find(t,val,idx) assert_arg_indexable(1,t) idx = idx or 1 if idx < 0 then idx = #t + idx + 1 end for i = idx,#t do if t[i] == val then return i end end return nil end --- return the index of a value in a list, searching from the end. -- Like string.find, there is an optional index to start searching, -- which can be negative. -- @within Finding -- @array t A list-like table -- @param val A value -- @param idx index to start; -1 means last element,etc (default `#t`) -- @return index of value or nil if not found -- @usage rfind({10,10,10},10) == 3 function tablex.rfind(t,val,idx) assert_arg_indexable(1,t) idx = idx or #t if idx < 0 then idx = #t + idx + 1 end for i = idx,1,-1 do if t[i] == val then return i end end return nil end --- return the index (or key) of a value in a table using a comparison function. -- -- *NOTE*: the 2nd return value of this function, the value returned -- by the comparison function, has a limitation that it cannot be `false`. -- Because if it is, then it indicates the comparison failed, and the -- function will continue the search. See examples. -- @within Finding -- @tab t A table -- @func cmp A comparison function -- @param arg an optional second argument to the function -- @return index of value, or nil if not found -- @return value returned by comparison function (cannot be `false`!) -- @usage -- -- using an operator -- local lst = { "Rudolph", true, false, 15 } -- local idx, cmp_result = tablex.rfind(lst, "==", "Rudolph") -- assert(idx == 1) -- assert(cmp_result == true) -- -- local idx, cmp_result = tablex.rfind(lst, "==", false) -- assert(idx == 3) -- assert(cmp_result == true) -- looking up 'false' works! -- -- -- using a function returning the value looked up -- local cmp = function(v1, v2) return v1 == v2 and v2 end -- local idx, cmp_result = tablex.rfind(lst, cmp, "Rudolph") -- assert(idx == 1) -- assert(cmp_result == "Rudolph") -- the value is returned -- -- -- NOTE: this fails, since 'false' cannot be returned! -- local idx, cmp_result = tablex.rfind(lst, cmp, false) -- assert(idx == nil) -- looking up 'false' failed! -- assert(cmp_result == nil) function tablex.find_if(t,cmp,arg) assert_arg_iterable(1,t) cmp = function_arg(2,cmp) for k,v in pairs(t) do local c = cmp(v,arg) if c then return k,c end end return nil end --- return a list of all values in a table indexed by another list. -- @tab tbl a table -- @array idx an index table (a list of keys) -- @return a list-like table -- @usage index_by({10,20,30,40},{2,4}) == {20,40} -- @usage index_by({one=1,two=2,three=3},{'one','three'}) == {1,3} function tablex.index_by(tbl,idx) assert_arg_indexable(1,tbl) assert_arg_indexable(2,idx) local res = {} for i = 1,#idx do res[i] = tbl[idx[i]] end return setmeta(res,tbl,'List') end --- apply a function to all values of a table. -- This returns a table of the results. -- Any extra arguments are passed to the function. -- @within MappingAndFiltering -- @func fun A function that takes at least one argument -- @tab t A table -- @param ... optional arguments -- @usage map(function(v) return v*v end, {10,20,30,fred=2}) is {100,400,900,fred=4} function tablex.map(fun,t,...) assert_arg_iterable(1,t) fun = function_arg(1,fun) local res = {} for k,v in pairs(t) do res[k] = fun(v,...) end return setmeta(res,t) end --- apply a function to all values of a list. -- This returns a table of the results. -- Any extra arguments are passed to the function. -- @within MappingAndFiltering -- @func fun A function that takes at least one argument -- @array t a table (applies to array part) -- @param ... optional arguments -- @return a list-like table -- @usage imap(function(v) return v*v end, {10,20,30,fred=2}) is {100,400,900} function tablex.imap(fun,t,...) assert_arg_indexable(1,t) fun = function_arg(1,fun) local res = {} for i = 1,#t do res[i] = fun(t[i],...) or false end return setmeta(res,t,'List') end --- apply a named method to values from a table. -- @within MappingAndFiltering -- @string name the method name -- @array t a list-like table -- @param ... any extra arguments to the method -- @return a `List` with the results of the method (1st result only) -- @usage -- local Car = {} -- Car.__index = Car -- function Car.new(car) -- return setmetatable(car or {}, Car) -- end -- Car.speed = 0 -- function Car:faster(increase) -- self.speed = self.speed + increase -- return self.speed -- end -- -- local ferrari = Car.new{ name = "Ferrari" } -- local lamborghini = Car.new{ name = "Lamborghini", speed = 50 } -- local cars = { ferrari, lamborghini } -- -- assert(ferrari.speed == 0) -- assert(lamborghini.speed == 50) -- tablex.map_named_method("faster", cars, 10) -- assert(ferrari.speed == 10) -- assert(lamborghini.speed == 60) function tablex.map_named_method (name,t,...) utils.assert_string(1,name) assert_arg_indexable(2,t) local res = {} for i = 1,#t do local val = t[i] local fun = val[name] res[i] = fun(val,...) end return setmeta(res,t,'List') end --- apply a function to all values of a table, in-place. -- Any extra arguments are passed to the function. -- @func fun A function that takes at least one argument -- @tab t a table -- @param ... extra arguments passed to `fun` -- @see tablex.foreach function tablex.transform (fun,t,...) assert_arg_iterable(1,t) fun = function_arg(1,fun) for k,v in pairs(t) do t[k] = fun(v,...) end end --- generate a table of all numbers in a range. -- This is consistent with a numerical for loop. -- @int start number -- @int finish number -- @int[opt=1] step make this negative for start < finish function tablex.range (start,finish,step) local res step = step or 1 if start == finish then res = {start} elseif (start > finish and step > 0) or (finish > start and step < 0) then res = {} else local k = 1 res = {} for i=start,finish,step do res[k]=i; k=k+1 end end return makelist(res) end --- apply a function to values from two tables. -- @within MappingAndFiltering -- @func fun a function of at least two arguments -- @tab t1 a table -- @tab t2 a table -- @param ... extra arguments -- @return a table -- @usage map2('+',{1,2,3,m=4},{10,20,30,m=40}) is {11,22,23,m=44} function tablex.map2 (fun,t1,t2,...) assert_arg_iterable(1,t1) assert_arg_iterable(2,t2) fun = function_arg(1,fun) local res = {} for k,v in pairs(t1) do res[k] = fun(v,t2[k],...) end return setmeta(res,t1,'List') end --- apply a function to values from two arrays. -- The result will be the length of the shortest array. -- @within MappingAndFiltering -- @func fun a function of at least two arguments -- @array t1 a list-like table -- @array t2 a list-like table -- @param ... extra arguments -- @usage imap2('+',{1,2,3,m=4},{10,20,30,m=40}) is {11,22,23} function tablex.imap2 (fun,t1,t2,...) assert_arg_indexable(2,t1) assert_arg_indexable(3,t2) fun = function_arg(1,fun) local res,n = {},math.min(#t1,#t2) for i = 1,n do res[i] = fun(t1[i],t2[i],...) end return res end --- 'reduce' a list using a binary function. -- @func fun a function of two arguments -- @array t a list-like table -- @array memo optional initial memo value. Defaults to first value in table. -- @return the result of the function -- @usage reduce('+',{1,2,3,4}) == 10 function tablex.reduce (fun,t,memo) assert_arg_indexable(2,t) fun = function_arg(1,fun) local n = #t if n == 0 then return memo end local res = memo and fun(memo, t[1]) or t[1] for i = 2,n do res = fun(res,t[i]) end return res end --- apply a function to all elements of a table. -- The arguments to the function will be the value, -- the key and _finally_ any extra arguments passed to this function. -- Note that the Lua 5.0 function table.foreach passed the _key_ first. -- @within Iterating -- @tab t a table -- @func fun a function on the elements; `function(value, key, ...)` -- @param ... extra arguments passed to `fun` -- @see tablex.transform function tablex.foreach(t,fun,...) assert_arg_iterable(1,t) fun = function_arg(2,fun) for k,v in pairs(t) do fun(v,k,...) end end --- apply a function to all elements of a list-like table in order. -- The arguments to the function will be the value, -- the index and _finally_ any extra arguments passed to this function -- @within Iterating -- @array t a table -- @func fun a function with at least one argument -- @param ... optional arguments function tablex.foreachi(t,fun,...) assert_arg_indexable(1,t) fun = function_arg(2,fun) for i = 1,#t do fun(t[i],i,...) end end --- Apply a function to a number of tables. -- A more general version of map -- The result is a table containing the result of applying that function to the -- ith value of each table. Length of output list is the minimum length of all the lists -- @within MappingAndFiltering -- @func fun a function of n arguments -- @tab ... n tables -- @usage mapn(function(x,y,z) return x+y+z end, {1,2,3},{10,20,30},{100,200,300}) is {111,222,333} -- @usage mapn(math.max, {1,20,300},{10,2,3},{100,200,100}) is {100,200,300} -- @param fun A function that takes as many arguments as there are tables function tablex.mapn(fun,...) fun = function_arg(1,fun) local res = {} local lists = {...} local minn = 1e40 for i = 1,#lists do minn = min(minn,#(lists[i])) end for i = 1,minn do local args,k = {},1 for j = 1,#lists do args[k] = lists[j][i] k = k + 1 end res[#res+1] = fun(unpack(args)) end return res end --- call the function with the key and value pairs from a table. -- The function can return a value and a key (note the order!). If both -- are not nil, then this pair is inserted into the result: if the key already exists, we convert the value for that -- key into a table and append into it. If only value is not nil, then it is appended to the result. -- @within MappingAndFiltering -- @func fun A function which will be passed each key and value as arguments, plus any extra arguments to pairmap. -- @tab t A table -- @param ... optional arguments -- @usage pairmap(function(k,v) return v end,{fred=10,bonzo=20}) is {10,20} _or_ {20,10} -- @usage pairmap(function(k,v) return {k,v},k end,{one=1,two=2}) is {one={'one',1},two={'two',2}} function tablex.pairmap(fun,t,...) assert_arg_iterable(1,t) fun = function_arg(1,fun) local res = {} for k,v in pairs(t) do local rv,rk = fun(k,v,...) if rk then if res[rk] then if type(res[rk]) == 'table' then table.insert(res[rk],rv) else res[rk] = {res[rk], rv} end else res[rk] = rv end else res[#res+1] = rv end end return res end local function keys_op(i,v) return i end --- return all the keys of a table in arbitrary order. -- @within Extraction -- @tab t A list-like table where the values are the keys of the input table function tablex.keys(t) assert_arg_iterable(1,t) return makelist(tablex.pairmap(keys_op,t)) end local function values_op(i,v) return v end --- return all the values of the table in arbitrary order -- @within Extraction -- @tab t A list-like table where the values are the values of the input table function tablex.values(t) assert_arg_iterable(1,t) return makelist(tablex.pairmap(values_op,t)) end local function index_map_op (i,v) return i,v end --- create an index map from a list-like table. The original values become keys, -- and the associated values are the indices into the original list. -- @array t a list-like table -- @return a map-like table function tablex.index_map (t) assert_arg_indexable(1,t) return makemap(tablex.pairmap(index_map_op,t)) end local function set_op(i,v) return true,v end --- create a set from a list-like table. A set is a table where the original values -- become keys, and the associated values are all true. -- @array t a list-like table -- @return a set (a map-like table) function tablex.makeset (t) assert_arg_indexable(1,t) return setmetatable(tablex.pairmap(set_op,t),require('pl.Set')) end --- combine two tables, either as union or intersection. Corresponds to -- set operations for sets () but more general. Not particularly -- useful for list-like tables. -- @within Merging -- @tab t1 a table -- @tab t2 a table -- @bool dup true for a union, false for an intersection. -- @usage merge({alice=23,fred=34},{bob=25,fred=34}) is {fred=34} -- @usage merge({alice=23,fred=34},{bob=25,fred=34},true) is {bob=25,fred=34,alice=23} -- @see tablex.index_map function tablex.merge (t1,t2,dup) assert_arg_iterable(1,t1) assert_arg_iterable(2,t2) local res = {} for k,v in pairs(t1) do if dup or t2[k] then res[k] = v end end if dup then for k,v in pairs(t2) do res[k] = v end end return setmeta(res,t1,'Map') end --- the union of two map-like tables. -- If there are duplicate keys, the second table wins. -- @tab t1 a table -- @tab t2 a table -- @treturn tab -- @see tablex.merge function tablex.union(t1, t2) return tablex.merge(t1, t2, true) end --- the intersection of two map-like tables. -- @tab t1 a table -- @tab t2 a table -- @treturn tab -- @see tablex.merge function tablex.intersection(t1, t2) return tablex.merge(t1, t2, false) end --- a new table which is the difference of two tables. -- With sets (where the values are all true) this is set difference and -- symmetric difference depending on the third parameter. -- @within Merging -- @tab s1 a map-like table or set -- @tab s2 a map-like table or set -- @bool symm symmetric difference (default false) -- @return a map-like table or set function tablex.difference (s1,s2,symm) assert_arg_iterable(1,s1) assert_arg_iterable(2,s2) local res = {} for k,v in pairs(s1) do if s2[k] == nil then res[k] = v end end if symm then for k,v in pairs(s2) do if s1[k] == nil then res[k] = v end end end return setmeta(res,s1,'Map') end --- A table where the key/values are the values and value counts of the table. -- @array t a list-like table -- @func cmp a function that defines equality (otherwise uses ==) -- @return a map-like table -- @see seq.count_map function tablex.count_map (t,cmp) assert_arg_indexable(1,t) local res,mask = {},{} cmp = function_arg(2,cmp or '==') local n = #t for i = 1,#t do local v = t[i] if not mask[v] then mask[v] = true -- check this value against all other values res[v] = 1 -- there's at least one instance for j = i+1,n do local w = t[j] local ok = cmp(v,w) if ok then res[v] = res[v] + 1 mask[w] = true end end end end return makemap(res) end --- filter an array's values using a predicate function -- @within MappingAndFiltering -- @array t a list-like table -- @func pred a boolean function -- @param arg optional argument to be passed as second argument of the predicate function tablex.filter (t,pred,arg) assert_arg_indexable(1,t) pred = function_arg(2,pred) local res,k = {},1 for i = 1,#t do local v = t[i] if pred(v,arg) then res[k] = v k = k + 1 end end return setmeta(res,t,'List') end --- return a table where each element is a table of the ith values of an arbitrary -- number of tables. It is equivalent to a matrix transpose. -- @within Merging -- @usage zip({10,20,30},{100,200,300}) is {{10,100},{20,200},{30,300}} -- @array ... arrays to be zipped function tablex.zip(...) return tablex.mapn(function(...) return {...} end,...) end local _copy function _copy (dest,src,idest,isrc,nsrc,clean_tail) idest = idest or 1 isrc = isrc or 1 local iend if not nsrc then nsrc = #src iend = #src else iend = isrc + min(nsrc-1,#src-isrc) end if dest == src then -- special case if idest > isrc and iend >= idest then -- overlapping ranges src = tablex.sub(src,isrc,nsrc) isrc = 1; iend = #src end end for i = isrc,iend do dest[idest] = src[i] idest = idest + 1 end if clean_tail then tablex.clear(dest,idest) end return dest end --- copy an array into another one, clearing `dest` after `idest+nsrc`, if necessary. -- @within Copying -- @array dest a list-like table -- @array src a list-like table -- @int[opt=1] idest where to start copying values into destination -- @int[opt=1] isrc where to start copying values from source -- @int[opt=#src] nsrc number of elements to copy from source function tablex.icopy (dest,src,idest,isrc,nsrc) assert_arg_indexable(1,dest) assert_arg_indexable(2,src) return _copy(dest,src,idest,isrc,nsrc,true) end --- copy an array into another one. -- @within Copying -- @array dest a list-like table -- @array src a list-like table -- @int[opt=1] idest where to start copying values into destination -- @int[opt=1] isrc where to start copying values from source -- @int[opt=#src] nsrc number of elements to copy from source function tablex.move (dest,src,idest,isrc,nsrc) assert_arg_indexable(1,dest) assert_arg_indexable(2,src) return _copy(dest,src,idest,isrc,nsrc,false) end function tablex._normalize_slice(self,first,last) local sz = #self if not first then first=1 end if first<0 then first=sz+first+1 end -- make the range _inclusive_! if not last then last=sz end if last < 0 then last=sz+1+last end return first,last end --- Extract a range from a table, like 'string.sub'. -- If first or last are negative then they are relative to the end of the list -- eg. sub(t,-2) gives last 2 entries in a list, and -- sub(t,-4,-2) gives from -4th to -2nd -- @within Extraction -- @array t a list-like table -- @int first An index -- @int last An index -- @return a new List function tablex.sub(t,first,last) assert_arg_indexable(1,t) first,last = tablex._normalize_slice(t,first,last) local res={} for i=first,last do append(res,t[i]) end return setmeta(res,t,'List') end --- set an array range to a value. If it's a function we use the result -- of applying it to the indices. -- @array t a list-like table -- @param val a value -- @int[opt=1] i1 start range -- @int[opt=#t] i2 end range function tablex.set (t,val,i1,i2) assert_arg_indexable(1,t) i1,i2 = i1 or 1,i2 or #t if types.is_callable(val) then for i = i1,i2 do t[i] = val(i) end else for i = i1,i2 do t[i] = val end end end --- create a new array of specified size with initial value. -- @int n size -- @param val initial value (can be `nil`, but don't expect `#` to work!) -- @return the table function tablex.new (n,val) local res = {} tablex.set(res,val,1,n) return res end --- clear out the contents of a table. -- @array t a list -- @param istart optional start position function tablex.clear(t,istart) istart = istart or 1 for i = istart,#t do remove(t) end end --- insert values into a table. -- similar to `table.insert` but inserts values from given table `values`, -- not the object itself, into table `t` at position `pos`. -- @within Copying -- @array t the list -- @int[opt] position (default is at end) -- @array values function tablex.insertvalues(t, ...) assert_arg(1,t,'table') local pos, values if select('#', ...) == 1 then pos,values = #t+1, ... else pos,values = ... end if #values > 0 then for i=#t,pos,-1 do t[i+#values] = t[i] end local offset = 1 - pos for i=pos,pos+#values-1 do t[i] = values[i + offset] end end return t end --- remove a range of values from a table. -- End of range may be negative. -- @array t a list-like table -- @int i1 start index -- @int i2 end index -- @return the table function tablex.removevalues (t,i1,i2) assert_arg(1,t,'table') i1,i2 = tablex._normalize_slice(t,i1,i2) for i = i1,i2 do remove(t,i1) end return t end local _find _find = function (t,value,tables) for k,v in pairs(t) do if v == value then return k end end for k,v in pairs(t) do if not tables[v] and type(v) == 'table' then tables[v] = true local res = _find(v,value,tables) if res then res = tostring(res) if type(k) ~= 'string' then return '['..k..']'..res else return k..'.'..res end end end end end --- find a value in a table by recursive search. -- @within Finding -- @tab t the table -- @param value the value -- @array[opt] exclude any tables to avoid searching -- @return a fieldspec, e.g. 'a.b' or 'math.sin' -- @usage search(_G,math.sin,{package.path}) == 'math.sin' function tablex.search (t,value,exclude) assert_arg_iterable(1,t) local tables = {[t]=true} if exclude then for _,v in pairs(exclude) do tables[v] = true end end return _find(t,value,tables) end --- return an iterator to a table sorted by its keys -- @within Iterating -- @tab t the table -- @func f an optional comparison function (f(x,y) is true if x < y) -- @usage for k,v in tablex.sort(t) do print(k,v) end -- @return an iterator to traverse elements sorted by the keys function tablex.sort(t,f) local keys = {} for k in pairs(t) do keys[#keys + 1] = k end tsort(keys,f) local i = 0 return function() i = i + 1 return keys[i], t[keys[i]] end end --- return an iterator to a table sorted by its values -- @within Iterating -- @tab t the table -- @func f an optional comparison function (f(x,y) is true if x < y) -- @usage for k,v in tablex.sortv(t) do print(k,v) end -- @return an iterator to traverse elements sorted by the values function tablex.sortv(t,f) f = function_arg(2, f or '<') local keys = {} for k in pairs(t) do keys[#keys + 1] = k end tsort(keys,function(x, y) return f(t[x], t[y]) end) local i = 0 return function() i = i + 1 return keys[i], t[keys[i]] end end --- modifies a table to be read only. -- This only offers weak protection. Tables can still be modified with -- `table.insert` and `rawset`. -- -- *NOTE*: for Lua 5.1 length, pairs and ipairs will not work, since the -- equivalent metamethods are only available in Lua 5.2 and newer. -- @tab t the table -- @return the table read only (a proxy). function tablex.readonly(t) local mt = { __index=t, __newindex=function(t, k, v) error("Attempt to modify read-only table", 2) end, __pairs=function() return pairs(t) end, __ipairs=function() return ipairs(t) end, __len=function() return #t end, __metatable=false } return setmetatable({}, mt) end return tablex end, ["pl.template"] = function() -------------------- -- Module: 'pl.template' -------------------- --- A template preprocessor. -- Originally by [Ricki Lake](http://lua-users.org/wiki/SlightlyLessSimpleLuaPreprocessor) -- -- There are two rules: -- -- * lines starting with # are Lua -- * otherwise, `$(expr)` is the result of evaluating `expr` -- -- Example: -- -- # for i = 1,3 do -- $(i) Hello, Word! -- # end -- ===> -- 1 Hello, Word! -- 2 Hello, Word! -- 3 Hello, Word! -- -- Other escape characters can be used, when the defaults conflict -- with the output language. -- -- > for _,n in pairs{'one','two','three'} do -- static int l_${n} (luaState *state); -- > end -- -- See @{03-strings.md.Another_Style_of_Template|the Guide}. -- -- Dependencies: `pl.utils` -- @module pl.template local utils = require 'pl.utils' local append,format,strsub,strfind,strgsub = table.insert,string.format,string.sub,string.find,string.gsub local APPENDER = "\n__R_size = __R_size + 1; __R_table[__R_size] = " local function parseDollarParen(pieces, chunk, exec_pat, newline) local s = 1 for term, executed, e in chunk:gmatch(exec_pat) do executed = '('..strsub(executed,2,-2)..')' append(pieces, APPENDER..format("%q", strsub(chunk,s, term - 1))) append(pieces, APPENDER..format("__tostring(%s or '')", executed)) s = e end local r if newline then r = format("%q", strgsub(strsub(chunk,s),"\n","")) else r = format("%q", strsub(chunk,s)) end if r ~= '""' then append(pieces, APPENDER..r) end end local function parseHashLines(chunk,inline_escape,brackets,esc,newline) local exec_pat = "()"..inline_escape.."(%b"..brackets..")()" local esc_pat = esc.."+([^\n]*\n?)" local esc_pat1, esc_pat2 = "^"..esc_pat, "\n"..esc_pat local pieces, s = {"return function()\nlocal __R_size, __R_table, __tostring = 0, {}, __tostring", n = 1}, 1 while true do local _, e, lua = strfind(chunk,esc_pat1, s) if not e then local ss ss, e, lua = strfind(chunk,esc_pat2, s) parseDollarParen(pieces, strsub(chunk,s, ss), exec_pat, newline) if not e then break end end if strsub(lua, -1, -1) == "\n" then lua = strsub(lua, 1, -2) end append(pieces, "\n"..lua) s = e + 1 end append(pieces, "\nreturn __R_table\nend") -- let's check for a special case where there is nothing to template, but it's -- just a single static string local short = false if (#pieces == 3) and (pieces[2]:find(APPENDER, 1, true) == 1) then pieces = { "return " .. pieces[2]:sub(#APPENDER+1,-1) } short = true end -- if short == true, the generated function will not return a table of strings, -- but a single string return table.concat(pieces), short end local template = {} --- expand the template using the specified environment. -- This function will compile and render the template. For more performant -- recurring usage use the two step approach by using `compile` and `ct:render`. -- There are six special fields in the environment table `env` -- -- * `_parent`: continue looking up in this table (e.g. `_parent=_G`). -- * `_brackets`: bracket pair that wraps inline Lua expressions, default is '()'. -- * `_escape`: character marking Lua lines, default is '#' -- * `_inline_escape`: character marking inline Lua expression, default is '$'. -- * `_chunk_name`: chunk name for loaded templates, used if there -- is an error in Lua code. Default is 'TMP'. -- * `_debug`: if truthy, the generated code will be printed upon a render error -- -- @string str the template string -- @tab[opt] env the environment -- @return `rendered template + nil + source_code`, or `nil + error + source_code`. The last -- return value (`source_code`) is only returned if the debug option is used. function template.substitute(str,env) env = env or {} local t, err = template.compile(str, { chunk_name = rawget(env,"_chunk_name"), escape = rawget(env,"_escape"), inline_escape = rawget(env,"_inline_escape"), inline_brackets = rawget(env,"_brackets"), newline = nil, debug = rawget(env,"_debug") }) if not t then return t, err end return t:render(env, rawget(env,"_parent"), rawget(env,"_debug")) end --- executes the previously compiled template and renders it. -- @function ct:render -- @tab[opt] env the environment. -- @tab[opt] parent continue looking up in this table (e.g. `parent=_G`). -- @bool[opt] db if thruthy, it will print the code upon a render error -- (provided the template was compiled with the debug option). -- @return `rendered template + nil + source_code`, or `nil + error + source_code`. The last return value -- (`source_code`) is only returned if the template was compiled with the debug option. -- @usage -- local ct, err = template.compile(my_template) -- local rendered , err = ct:render(my_env, parent) local render = function(self, env, parent, db) env = env or {} if parent then -- parent is a bit silly, but for backward compatibility retained setmetatable(env, {__index = parent}) end setmetatable(self.env, {__index = env}) local res, out = xpcall(self.fn, debug.traceback) if not res then if self.code and db then print(self.code) end return nil, out, self.code end return table.concat(out), nil, self.code end --- compiles the template. -- Returns an object that can repeatedly be rendered without parsing/compiling -- the template again. -- The options passed in the `opts` table support the following options: -- -- * `chunk_name`: chunk name for loaded templates, used if there -- is an error in Lua code. Default is 'TMP'. -- * `escape`: character marking Lua lines, default is '#' -- * `inline_escape`: character marking inline Lua expression, default is '$'. -- * `inline_brackets`: bracket pair that wraps inline Lua expressions, default is '()'. -- * `newline`: string to replace newline characters, default is `nil` (not replacing newlines). -- * `debug`: if truthy, the generated source code will be retained within the compiled template object, default is `nil`. -- -- @string str the template string -- @tab[opt] opts the compilation options to use -- @return template object, or `nil + error + source_code` -- @usage -- local ct, err = template.compile(my_template) -- local rendered , err = ct:render(my_env, parent) function template.compile(str, opts) opts = opts or {} local chunk_name = opts.chunk_name or 'TMP' local escape = opts.escape or '#' local inline_escape = opts.inline_escape or '$' local inline_brackets = opts.inline_brackets or '()' local code, short = parseHashLines(str,inline_escape,inline_brackets,escape,opts.newline) local env = { __tostring = tostring } local fn, err = utils.load(code, chunk_name,'t',env) if not fn then return nil, err, code end if short then -- the template returns a single constant string, let's optimize for that local constant_string = fn() return { fn = fn(), env = env, render = function(self) -- additional params can be ignored -- skip the metatable magic and error handling in the render -- function above for this special case return constant_string, nil, self.code end, code = opts.debug and code or nil, } end return { fn = fn(), env = env, render = render, code = opts.debug and code or nil, } end return template end, ["pl.test"] = function() -------------------- -- Module: 'pl.test' -------------------- --- Useful test utilities. -- -- test.asserteq({1,2},{1,2}) -- can compare tables -- test.asserteq(1.2,1.19,0.02) -- compare FP numbers within precision -- T = test.tuple -- used for comparing multiple results -- test.asserteq(T(string.find(" me","me")),T(2,3)) -- -- Dependencies: `pl.utils`, `pl.tablex`, `pl.pretty`, `pl.path`, `debug` -- @module pl.test local tablex = require 'pl.tablex' local utils = require 'pl.utils' local pretty = require 'pl.pretty' local path = require 'pl.path' local type,unpack,pack = type,utils.unpack,utils.pack local clock = os.clock local debug = require 'debug' local io = io local function dump(x) if type(x) == 'table' and not (getmetatable(x) and getmetatable(x).__tostring) then return pretty.write(x,' ',true) elseif type(x) == 'string' then return '"'..x..'"' else return tostring(x) end end local test = {} ---- error handling for test results. -- By default, this writes to stderr and exits the program. -- Re-define this function to raise an error and/or redirect output function test.error_handler(file,line,got_text, needed_text,msg) local err = io.stderr err:write(path.basename(file)..':'..line..': assertion failed\n') err:write("got:\t",got_text,'\n') err:write("needed:\t",needed_text,'\n') utils.quit(1,msg or "these values were not equal") end local function complain (x,y,msg,where) local i = debug.getinfo(3 + (where or 0)) test.error_handler(i.short_src,i.currentline,dump(x),dump(y),msg) end --- general test complain message. -- Useful for composing new test functions (see tests/tablex.lua for an example) -- @param x a value -- @param y value to compare first value against -- @param msg message -- @param where extra level offset for errors -- @function complain test.complain = complain --- like assert, except takes two arguments that must be equal and can be tables. -- If they are plain tables, it will use tablex.deepcompare. -- @param x any value -- @param y a value equal to x -- @param eps an optional tolerance for numerical comparisons -- @param where extra level offset function test.asserteq (x,y,eps,where) local res = x == y if not res then res = tablex.deepcompare(x,y,true,eps) end if not res then complain(x,y,nil,where) end end --- assert that the first string matches the second. -- @param s1 a string -- @param s2 a string -- @param where extra level offset function test.assertmatch (s1,s2,where) if not s1:match(s2) then complain (s1,s2,"these strings did not match",where) end end --- assert that the function raises a particular error. -- @param fn a function or a table of the form {function,arg1,...} -- @param e a string to match the error against -- @param where extra level offset function test.assertraise(fn,e,where) local ok, err if type(fn) == 'table' then ok, err = pcall(unpack(fn)) else ok, err = pcall(fn) end if ok or err:match(e)==nil then complain (err,e,"these errors did not match",where) end end --- a version of asserteq that takes two pairs of values. -- x1==y1 and x2==y2 must be true. Useful for functions that naturally -- return two values. -- @param x1 any value -- @param x2 any value -- @param y1 any value -- @param y2 any value -- @param where extra level offset function test.asserteq2 (x1,x2,y1,y2,where) if x1 ~= y1 then complain(x1,y1,nil,where) end if x2 ~= y2 then complain(x2,y2,nil,where) end end -- tuple type -- local tuple_mt = { unpack = unpack } tuple_mt.__index = tuple_mt function tuple_mt.__tostring(self) local ts = {} for i=1, self.n do local s = self[i] ts[i] = type(s) == 'string' and ('%q'):format(s) or tostring(s) end return 'tuple(' .. table.concat(ts, ', ') .. ')' end function tuple_mt.__eq(a, b) if a.n ~= b.n then return false end for i=1, a.n do if a[i] ~= b[i] then return false end end return true end function tuple_mt.__len(self) return self.n end --- encode an arbitrary argument list as a tuple. -- This can be used to compare to other argument lists, which is -- very useful for testing functions which return a number of values. -- Unlike regular array-like tables ('sequences') they may contain nils. -- Tuples understand equality and know how to print themselves out. -- The # operator is defined to be the size, irrespecive of any nils, -- and there is an `unpack` method. -- @usage asserteq(tuple( ('ab'):find 'a'), tuple(1,1)) function test.tuple(...) return setmetatable(pack(...), tuple_mt) end --- Time a function. Call the function a given number of times, and report the number of seconds taken, -- together with a message. Any extra arguments will be passed to the function. -- @string msg a descriptive message -- @int n number of times to call the function -- @func fun the function -- @param ... optional arguments to fun function test.timer(msg,n,fun,...) local start = clock() for i = 1,n do fun(...) end utils.printf("%s: took %7.2f sec\n",msg,clock()-start) end return test end, ["pl.text"] = function() -------------------- -- Module: 'pl.text' -------------------- --- Text processing utilities. -- -- This provides a Template class (modeled after the same from the Python -- libraries, see string.Template). It also provides similar functions to those -- found in the textwrap module. -- -- IMPORTANT: this module has been deprecated and will be removed in a future -- version (2.0). The contents of this module have moved to the `pl.stringx` -- module. -- -- See @{03-strings.md.String_Templates|the Guide}. -- -- Dependencies: `pl.stringx`, `pl.utils` -- @module pl.text local utils = require("pl.utils") utils.raise_deprecation { source = "Penlight " .. utils._VERSION, message = "the contents of module 'pl.text' has moved into 'pl.stringx'", version_removed = "2.0.0", deprecated_after = "1.11.0", no_trace = true, } return require "pl.stringx" end, ["pl.types"] = function() -------------------- -- Module: 'pl.types' -------------------- ---- Dealing with Detailed Type Information -- Dependencies `pl.utils` -- @module pl.types local utils = require 'pl.utils' local math_ceil = math.ceil local assert_arg = utils.assert_arg local types = {} --- is the object either a function or a callable object?. -- @param obj Object to check. function types.is_callable (obj) return type(obj) == 'function' or getmetatable(obj) and getmetatable(obj).__call and true end --- is the object of the specified type?. -- If the type is a string, then use type, otherwise compare with metatable. -- -- NOTE: this function is imported from `utils.is_type`. -- @param obj An object to check -- @param tp The expected type -- @function is_type -- @see utils.is_type types.is_type = utils.is_type local fileMT = getmetatable(io.stdout) --- a string representation of a type. -- For tables and userdata with metatables, we assume that the metatable has a `_name` -- field. If the field is not present it will return 'unknown table' or -- 'unknown userdata'. -- Lua file objects return the type 'file'. -- @param obj an object -- @return a string like 'number', 'table', 'file' or 'List' function types.type (obj) local t = type(obj) if t == 'table' or t == 'userdata' then local mt = getmetatable(obj) if mt == fileMT then return 'file' elseif mt == nil then return t else -- TODO: the "unknown" is weird, it should just return the type return mt._name or "unknown "..t end else return t end end --- is this number an integer? -- @param x a number -- @raise error if x is not a number -- @return boolean function types.is_integer (x) return math_ceil(x)==x end --- Check if the object is "empty". -- An object is considered empty if it is: -- -- - `nil` -- - a table without any items (key-value pairs or indexes) -- - a string with no content ("") -- - not a nil/table/string -- @param o The object to check if it is empty. -- @param ignore_spaces If the object is a string and this is true the string is -- considered empty if it only contains spaces. -- @return `true` if the object is empty, otherwise a falsy value. function types.is_empty(o, ignore_spaces) if o == nil then return true elseif type(o) == "table" then return next(o) == nil elseif type(o) == "string" then return o == "" or (not not ignore_spaces and (not not o:find("^%s+$"))) else return true end end local function check_meta (val) if type(val) == 'table' then return true end return getmetatable(val) end --- is an object 'array-like'? -- An object is array like if: -- -- - it is a table, or -- - it has a metatable with `__len` and `__index` methods -- -- NOTE: since `__len` is 5.2+, on 5.1 is usually returns `false` for userdata -- @param val any value. -- @return `true` if the object is array-like, otherwise a falsy value. function types.is_indexable (val) local mt = check_meta(val) if mt == true then return true end return mt and mt.__len and mt.__index and true end --- can an object be iterated over with `pairs`? -- An object is iterable if: -- -- - it is a table, or -- - it has a metatable with a `__pairs` meta method -- -- NOTE: since `__pairs` is 5.2+, on 5.1 is usually returns `false` for userdata -- @param val any value. -- @return `true` if the object is iterable, otherwise a falsy value. function types.is_iterable (val) local mt = check_meta(val) if mt == true then return true end return mt and mt.__pairs and true end --- can an object accept new key/pair values? -- An object is iterable if: -- -- - it is a table, or -- - it has a metatable with a `__newindex` meta method -- -- @param val any value. -- @return `true` if the object is writeable, otherwise a falsy value. function types.is_writeable (val) local mt = check_meta(val) if mt == true then return true end return mt and mt.__newindex and true end -- Strings that should evaluate to true. -- TODO: add on/off ??? local trues = { yes=true, y=true, ["true"]=true, t=true, ["1"]=true } -- Conditions types should evaluate to true. local true_types = { boolean=function(o, true_strs, check_objs) return o end, string=function(o, true_strs, check_objs) o = o:lower() if trues[o] then return true end -- Check alternative user provided strings. for _,v in ipairs(true_strs or {}) do if type(v) == "string" and o == v:lower() then return true end end return false end, number=function(o, true_strs, check_objs) return o ~= 0 end, table=function(o, true_strs, check_objs) if check_objs and next(o) ~= nil then return true end return false end } --- Convert to a boolean value. -- True values are: -- -- * boolean: true. -- * string: 'yes', 'y', 'true', 't', '1' or additional strings specified by `true_strs`. -- * number: Any non-zero value. -- * table: Is not empty and `check_objs` is true. -- * everything else: Is not `nil` and `check_objs` is true. -- -- @param o The object to evaluate. -- @param[opt] true_strs optional Additional strings that when matched should evaluate to true. Comparison is case insensitive. -- This should be a List of strings. E.g. "ja" to support German. -- @param[opt] check_objs True if objects should be evaluated. -- @return true if the input evaluates to true, otherwise false. function types.to_bool(o, true_strs, check_objs) local true_func if true_strs then assert_arg(2, true_strs, "table") end true_func = true_types[type(o)] if true_func then return true_func(o, true_strs, check_objs) elseif check_objs and o ~= nil then return true end return false end return types end, ["pl.url"] = function() -------------------- -- Module: 'pl.url' -------------------- --- Python-style URL quoting library. -- -- @module pl.url local url = {} local function quote_char(c) return string.format("%%%02X", string.byte(c)) end --- Quote the url, replacing special characters using the '%xx' escape. -- @string s the string -- @bool quote_plus Also escape slashes and replace spaces by plus signs. -- @return The quoted string, or if `s` wasn't a string, just plain unaltered `s`. function url.quote(s, quote_plus) if type(s) ~= "string" then return s end s = s:gsub("\n", "\r\n") s = s:gsub("([^A-Za-z0-9 %-_%./])", quote_char) if quote_plus then s = s:gsub(" ", "+") s = s:gsub("/", quote_char) else s = s:gsub(" ", "%%20") end return s end local function unquote_char(h) return string.char(tonumber(h, 16)) end --- Unquote the url, replacing '%xx' escapes and plus signs. -- @string s the string -- @return The unquoted string, or if `s` wasn't a string, just plain unaltered `s`. function url.unquote(s) if type(s) ~= "string" then return s end s = s:gsub("+", " ") s = s:gsub("%%(%x%x)", unquote_char) s = s:gsub("\r\n", "\n") return s end return url end, ["pl.utils"] = function() -------------------- -- Module: 'pl.utils' -------------------- --- Generally useful routines. -- See @{01-introduction.md.Generally_useful_functions|the Guide}. -- -- Dependencies: `pl.compat`, all exported fields and functions from -- `pl.compat` are also available in this module. -- -- @module pl.utils local format = string.format local compat = require 'pl.compat' local stdout = io.stdout local append = table.insert local concat = table.concat local _unpack = table.unpack -- always injected by 'compat' local find = string.find local sub = string.sub local next = next local floor = math.floor local is_windows = compat.is_windows local err_mode = 'default' local raise local operators local _function_factories = {} local utils = { _VERSION = "1.13.1" } for k, v in pairs(compat) do utils[k] = v end --- Some standard patterns -- @table patterns utils.patterns = { FLOAT = '[%+%-%d]%d*%.?%d*[eE]?[%+%-]?%d*', -- floating point number INTEGER = '[+%-%d]%d*', -- integer number IDEN = '[%a_][%w_]*', -- identifier FILE = '[%a%.\\][:%][%w%._%-\\]*', -- file } --- Standard meta-tables as used by other Penlight modules -- @table stdmt -- @field List the List metatable -- @field Map the Map metatable -- @field Set the Set metatable -- @field MultiMap the MultiMap metatable utils.stdmt = { List = {_name='List'}, Map = {_name='Map'}, Set = {_name='Set'}, MultiMap = {_name='MultiMap'}, } --- pack an argument list into a table. -- @param ... any arguments -- @return a table with field `n` set to the length -- @function utils.pack -- @see compat.pack -- @see utils.npairs -- @see utils.unpack utils.pack = table.pack -- added here to be symmetrical with unpack --- unpack a table and return its contents. -- -- NOTE: this implementation differs from the Lua implementation in the way -- that this one DOES honor the `n` field in the table `t`, such that it is 'nil-safe'. -- @param t table to unpack -- @param[opt] i index from which to start unpacking, defaults to 1 -- @param[opt] j index of the last element to unpack, defaults to `t.n` or else `#t` -- @return multiple return values from the table -- @function utils.unpack -- @see compat.unpack -- @see utils.pack -- @see utils.npairs -- @usage -- local t = table.pack(nil, nil, nil, 4) -- local a, b, c, d = table.unpack(t) -- this `unpack` is NOT nil-safe, so d == nil -- -- local a, b, c, d = utils.unpack(t) -- this is nil-safe, so d == 4 function utils.unpack(t, i, j) return _unpack(t, i or 1, j or t.n or #t) end --- print an arbitrary number of arguments using a format. -- Output will be sent to `stdout`. -- @param fmt The format (see `string.format`) -- @param ... Extra arguments for format function utils.printf(fmt, ...) utils.assert_string(1, fmt) utils.fprintf(stdout, fmt, ...) end --- write an arbitrary number of arguments to a file using a format. -- @param f File handle to write to. -- @param fmt The format (see `string.format`). -- @param ... Extra arguments for format function utils.fprintf(f,fmt,...) utils.assert_string(2,fmt) f:write(format(fmt,...)) end do local function import_symbol(T,k,v,libname) local key = rawget(T,k) -- warn about collisions! if key and k ~= '_M' and k ~= '_NAME' and k ~= '_PACKAGE' and k ~= '_VERSION' then utils.fprintf(io.stderr,"warning: '%s.%s' will not override existing symbol\n",libname,k) return end rawset(T,k,v) end local function lookup_lib(T,t) for k,v in pairs(T) do if v == t then return k end end return '?' end local already_imported = {} --- take a table and 'inject' it into the local namespace. -- @param t The table (table), or module name (string), defaults to this `utils` module table -- @param T An optional destination table (defaults to callers environment) function utils.import(t,T) T = T or _G t = t or utils if type(t) == 'string' then t = require (t) end local libname = lookup_lib(T,t) if already_imported[t] then return end already_imported[t] = libname for k,v in pairs(t) do import_symbol(T,k,v,libname) end end end --- return either of two values, depending on a condition. -- @param cond A condition -- @param value1 Value returned if cond is truthy -- @param value2 Value returned if cond is falsy function utils.choose(cond, value1, value2) return cond and value1 or value2 end --- convert an array of values to strings. -- @param t a list-like table -- @param[opt] temp (table) buffer to use, otherwise allocate -- @param[opt] tostr custom tostring function, called with (value,index). Defaults to `tostring`. -- @return the converted buffer function utils.array_tostring (t,temp,tostr) temp, tostr = temp or {}, tostr or tostring for i = 1,#t do temp[i] = tostr(t[i],i) end return temp end --- is the object of the specified type? -- If the type is a string, then use type, otherwise compare with metatable -- @param obj An object to check -- @param tp String of what type it should be -- @return boolean -- @usage utils.is_type("hello world", "string") --> true -- -- or check metatable -- local my_mt = {} -- local my_obj = setmetatable(my_obj, my_mt) -- utils.is_type(my_obj, my_mt) --> true function utils.is_type (obj,tp) if type(tp) == 'string' then return type(obj) == tp end local mt = getmetatable(obj) return tp == mt end --- an iterator with indices, similar to `ipairs`, but with a range. -- This is a nil-safe index based iterator that will return `nil` when there -- is a hole in a list. To be safe ensure that table `t.n` contains the length. -- @tparam table t the table to iterate over -- @tparam[opt=1] integer i_start start index -- @tparam[opt=t.n or #t] integer i_end end index -- @tparam[opt=1] integer step step size -- @treturn integer index -- @treturn any value at index (which can be `nil`!) -- @see utils.pack -- @see utils.unpack -- @usage -- local t = utils.pack(nil, 123, nil) -- adds an `n` field when packing -- -- for i, v in utils.npairs(t, 2) do -- start at index 2 -- t[i] = tostring(t[i]) -- end -- -- -- t = { n = 3, [2] = "123", [3] = "nil" } function utils.npairs(t, i_start, i_end, step) step = step or 1 if step == 0 then error("iterator step-size cannot be 0", 2) end local i = (i_start or 1) - step i_end = i_end or t.n or #t if step < 0 then return function() i = i + step if i < i_end then return nil end return i, t[i] end else return function() i = i + step if i > i_end then return nil end return i, t[i] end end end --- an iterator over all non-integer keys (inverse of `ipairs`). -- It will skip any key that is an integer number, so negative indices or an -- array with holes will not return those either (so it returns slightly less than -- 'the inverse of `ipairs`'). -- -- This uses `pairs` under the hood, so any value that is iterable using `pairs` -- will work with this function. -- @tparam table t the table to iterate over -- @treturn key -- @treturn value -- @usage -- local t = { -- "hello", -- "world", -- hello = "hallo", -- world = "Welt", -- } -- -- for k, v in utils.kpairs(t) do -- print("German: ", v) -- end -- -- -- output; -- -- German: hallo -- -- German: Welt function utils.kpairs(t) local index return function() local value while true do index, value = next(t, index) if type(index) ~= "number" or floor(index) ~= index then break end end return index, value end end --- Error handling -- @section Error-handling --- assert that the given argument is in fact of the correct type. -- @param n argument index -- @param val the value -- @param tp the type -- @param verify an optional verification function -- @param msg an optional custom message -- @param lev optional stack position for trace, default 2 -- @return the validated value -- @raise if `val` is not the correct type -- @usage -- local param1 = assert_arg(1,"hello",'table') --> error: argument 1 expected a 'table', got a 'string' -- local param4 = assert_arg(4,'!@#$%^&*','string',path.isdir,'not a directory') -- --> error: argument 4: '!@#$%^&*' not a directory function utils.assert_arg (n,val,tp,verify,msg,lev) if type(val) ~= tp then error(("argument %d expected a '%s', got a '%s'"):format(n,tp,type(val)),lev or 2) end if verify and not verify(val) then error(("argument %d: '%s' %s"):format(n,val,msg),lev or 2) end return val end --- creates an Enum or constants lookup table for improved error handling. -- This helps prevent magic strings in code by throwing errors for accessing -- non-existing values, and/or converting strings/identifiers to other values. -- -- Calling on the object does the same, but returns a soft error; `nil + err`, if -- the call is succesful (the key exists), it will return the value. -- -- When calling with varargs or an array the values will be equal to the keys. -- The enum object is read-only. -- @tparam table|vararg ... the input for the Enum. If varargs or an array then the -- values in the Enum will be equal to the names (must be strings), if a hash-table -- then values remain (any type), and the keys must be strings. -- @return Enum object (read-only table/object) -- @usage -- Enum access at runtime -- local obj = {} -- obj.MOVEMENT = utils.enum("FORWARD", "REVERSE", "LEFT", "RIGHT") -- -- if current_movement == obj.MOVEMENT.FORWARD then -- -- do something -- -- elseif current_movement == obj.MOVEMENT.REVERES then -- -- throws error due to typo 'REVERES', so a silent mistake becomes a hard error -- -- "'REVERES' is not a valid value (expected one of: 'FORWARD', 'REVERSE', 'LEFT', 'RIGHT')" -- -- end -- @usage -- standardized error codes -- local obj = { -- ERR = utils.enum { -- NOT_FOUND = "the item was not found", -- OUT_OF_BOUNDS = "the index is outside the allowed range" -- }, -- -- some_method = function(self) -- return self.ERR.OUT_OF_BOUNDS -- end, -- } -- -- local result, err = obj:some_method() -- if not result then -- if err == obj.ERR.NOT_FOUND then -- -- check on error code, not magic strings -- -- else -- -- return the error description, contained in the constant -- return nil, "error: "..err -- "error: the index is outside the allowed range" -- end -- end -- @usage -- validating/converting user-input -- local color = "purple" -- local ansi_colors = utils.enum { -- black = 30, -- red = 31, -- green = 32, -- } -- local color_code, err = ansi_colors(color) -- calling on the object, returns the value from the enum -- if not color_code then -- print("bad 'color', " .. err) -- -- "bad 'color', 'purple' is not a valid value (expected one of: 'black', 'red', 'green')" -- os.exit(1) -- end function utils.enum(...) local first = select(1, ...) local enum = {} local lst if type(first) ~= "table" then -- vararg with strings lst = utils.pack(...) for i, value in utils.npairs(lst) do utils.assert_arg(i, value, "string") enum[value] = value end else -- table/array with values utils.assert_arg(1, first, "table") lst = {} -- first add array part for i, value in ipairs(first) do if type(value) ~= "string" then error(("expected 'string' but got '%s' at index %d"):format(type(value), i), 2) end lst[i] = value enum[value] = value end -- add key-ed part for key, value in utils.kpairs(first) do if type(key) ~= "string" then error(("expected key to be 'string' but got '%s'"):format(type(key)), 2) end if enum[key] then error(("duplicate entry in array and hash part: '%s'"):format(key), 2) end enum[key] = value lst[#lst+1] = key end end if not lst[1] then error("expected at least 1 entry", 2) end local valid = "(expected one of: '" .. concat(lst, "', '") .. "')" setmetatable(enum, { __index = function(self, key) error(("'%s' is not a valid value %s"):format(tostring(key), valid), 2) end, __newindex = function(self, key, value) error("the Enum object is read-only", 2) end, __call = function(self, key) if type(key) == "string" then local v = rawget(self, key) if v ~= nil then return v end end return nil, ("'%s' is not a valid value %s"):format(tostring(key), valid) end }) return enum end --- process a function argument. -- This is used throughout Penlight and defines what is meant by a function: -- Something that is callable, or an operator string as defined by pl.operator, -- such as '>' or '#'. If a function factory has been registered for the type, it will -- be called to get the function. -- @param idx argument index -- @param f a function, operator string, or callable object -- @param msg optional error message -- @return a callable -- @raise if idx is not a number or if f is not callable function utils.function_arg (idx,f,msg) utils.assert_arg(1,idx,'number') local tp = type(f) if tp == 'function' then return f end -- no worries! -- ok, a string can correspond to an operator (like '==') if tp == 'string' then if not operators then operators = require 'pl.operator'.optable end local fn = operators[f] if fn then return fn end local fn, err = utils.string_lambda(f) if not fn then error(err..': '..f) end return fn elseif tp == 'table' or tp == 'userdata' then local mt = getmetatable(f) if not mt then error('not a callable object',2) end local ff = _function_factories[mt] if not ff then if not mt.__call then error('not a callable object',2) end return f else return ff(f) -- we have a function factory for this type! end end if not msg then msg = " must be callable" end if idx > 0 then error("argument "..idx..": "..msg,2) else error(msg,2) end end --- assert the common case that the argument is a string. -- @param n argument index -- @param val a value that must be a string -- @return the validated value -- @raise val must be a string -- @usage -- local val = 42 -- local param2 = utils.assert_string(2, val) --> error: argument 2 expected a 'string', got a 'number' function utils.assert_string (n, val) return utils.assert_arg(n,val,'string',nil,nil,3) end --- control the error strategy used by Penlight. -- This is a global setting that controls how `utils.raise` behaves: -- -- - 'default': return `nil + error` (this is the default) -- - 'error': throw a Lua error -- - 'quit': exit the program -- -- @param mode either 'default', 'quit' or 'error' -- @see utils.raise function utils.on_error (mode) mode = tostring(mode) if ({['default'] = 1, ['quit'] = 2, ['error'] = 3})[mode] then err_mode = mode else -- fail loudly local err = "Bad argument expected string; 'default', 'quit', or 'error'. Got '"..tostring(mode).."'" if err_mode == 'default' then error(err, 2) -- even in 'default' mode fail loud in this case end raise(err) end end --- used by Penlight functions to return errors. Its global behaviour is controlled -- by `utils.on_error`. -- To use this function you MUST use it in conjunction with `return`, since it might -- return `nil + error`. -- @param err the error string. -- @see utils.on_error -- @usage -- if some_condition then -- return utils.raise("some condition was not met") -- MUST use 'return'! -- end function utils.raise (err) if err_mode == 'default' then return nil, err elseif err_mode == 'quit' then return utils.quit(err) else error(err, 2) end end raise = utils.raise --- File handling -- @section files --- return the contents of a file as a string -- @param filename The file path -- @param is_bin open in binary mode -- @return file contents function utils.readfile(filename,is_bin) local mode = is_bin and 'b' or '' utils.assert_string(1,filename) local f,open_err = io.open(filename,'r'..mode) if not f then return raise (open_err) end local res,read_err = f:read('*a') f:close() if not res then -- Errors in io.open have "filename: " prefix, -- error in file:read don't, add it. return raise (filename..": "..read_err) end return res end --- write a string to a file -- @param filename The file path -- @param str The string -- @param is_bin open in binary mode -- @return true or nil -- @return error message -- @raise error if filename or str aren't strings function utils.writefile(filename,str,is_bin) local mode = is_bin and 'b' or '' utils.assert_string(1,filename) utils.assert_string(2,str) local f,err = io.open(filename,'w'..mode) if not f then return raise(err) end local ok, write_err = f:write(str) f:close() if not ok then -- Errors in io.open have "filename: " prefix, -- error in file:write don't, add it. return raise (filename..": "..write_err) end return true end --- return the contents of a file as a list of lines -- @param filename The file path -- @return file contents as a table -- @raise error if filename is not a string function utils.readlines(filename) utils.assert_string(1,filename) local f,err = io.open(filename,'r') if not f then return raise(err) end local res = {} for line in f:lines() do append(res,line) end f:close() return res end --- OS functions -- @section OS-functions --- execute a shell command and return the output. -- This function redirects the output to tempfiles and returns the content of those files. -- @param cmd a shell command -- @param bin boolean, if true, read output as binary file -- @return true if successful -- @return actual return code -- @return stdout output (string) -- @return errout output (string) function utils.executeex(cmd, bin) local outfile = os.tmpname() local errfile = os.tmpname() if is_windows and not outfile:find(':') then outfile = os.getenv('TEMP')..outfile errfile = os.getenv('TEMP')..errfile end cmd = cmd .. " > " .. utils.quote_arg(outfile) .. " 2> " .. utils.quote_arg(errfile) local success, retcode = utils.execute(cmd) local outcontent = utils.readfile(outfile, bin) local errcontent = utils.readfile(errfile, bin) os.remove(outfile) os.remove(errfile) return success, retcode, (outcontent or ""), (errcontent or "") end --- Quote and escape an argument of a command. -- Quotes a single (or list of) argument(s) of a command to be passed -- to `os.execute`, `pl.utils.execute` or `pl.utils.executeex`. -- @param argument (string or table/list) the argument to quote. If a list then -- all arguments in the list will be returned as a single string quoted. -- @return quoted and escaped argument. -- @usage -- local options = utils.quote_arg { -- "-lluacov", -- "-e", -- "utils = print(require('pl.utils')._VERSION", -- } -- -- returns: -lluacov -e 'utils = print(require('\''pl.utils'\'')._VERSION' function utils.quote_arg(argument) if type(argument) == "table" then -- encode an entire table local r = {} for i, arg in ipairs(argument) do r[i] = utils.quote_arg(arg) end return concat(r, " ") end -- only a single argument if is_windows then if argument == "" or argument:find('[ \f\t\v]') then -- Need to quote the argument. -- Quotes need to be escaped with backslashes; -- additionally, backslashes before a quote, escaped or not, -- need to be doubled. -- See documentation for CommandLineToArgvW Windows function. argument = '"' .. argument:gsub([[(\*)"]], [[%1%1\"]]):gsub([[\+$]], "%0%0") .. '"' end -- os.execute() uses system() C function, which on Windows passes command -- to cmd.exe. Escape its special characters. return (argument:gsub('["^<>!|&%%]', "^%0")) else if argument == "" or argument:find('[^a-zA-Z0-9_@%+=:,./-]') then -- To quote arguments on posix-like systems use single quotes. -- To represent an embedded single quote close quoted string ('), -- add escaped quote (\'), open quoted string again ('). argument = "'" .. argument:gsub("'", [['\'']]) .. "'" end return argument end end --- error out of this program gracefully. -- @param[opt] code The exit code, defaults to -`1` if omitted -- @param msg The exit message will be sent to `stderr` (will be formatted with the extra parameters) -- @param ... extra arguments for message's format' -- @see utils.fprintf -- @usage utils.quit(-1, "Error '%s' happened", "42") -- -- is equivalent to -- utils.quit("Error '%s' happened", "42") --> Error '42' happened function utils.quit(code, msg, ...) if type(code) == 'string' then utils.fprintf(io.stderr, code, msg, ...) io.stderr:write('\n') code = -1 -- TODO: this is odd, see the test. Which returns 255 as exit code elseif msg then utils.fprintf(io.stderr, msg, ...) io.stderr:write('\n') end os.exit(code, true) end --- String functions -- @section string-functions --- escape any Lua 'magic' characters in a string -- @param s The input string function utils.escape(s) utils.assert_string(1,s) return (s:gsub('[%-%.%+%[%]%(%)%$%^%%%?%*]','%%%1')) end --- split a string into a list of strings separated by a delimiter. -- @param s The input string -- @param re optional A Lua string pattern; defaults to '%s+' -- @param plain optional If truthy don't use Lua patterns -- @param n optional maximum number of elements (if there are more, the last will remian un-split) -- @return a list-like table -- @raise error if s is not a string -- @see splitv function utils.split(s,re,plain,n) utils.assert_string(1,s) local i1,ls = 1,{} if not re then re = '%s+' end if re == '' then return {s} end while true do local i2,i3 = find(s,re,i1,plain) if not i2 then local last = sub(s,i1) if last ~= '' then append(ls,last) end if #ls == 1 and ls[1] == '' then return {} else return ls end end append(ls,sub(s,i1,i2-1)) if n and #ls == n then ls[#ls] = sub(s,i1) return ls end i1 = i3+1 end end --- split a string into a number of return values. -- Identical to `split` but returns multiple sub-strings instead of -- a single list of sub-strings. -- @param s the string -- @param re A Lua string pattern; defaults to '%s+' -- @param plain don't use Lua patterns -- @param n optional maximum number of splits -- @return n values -- @usage first,next = splitv('user=jane=doe','=', false, 2) -- assert(first == "user") -- assert(next == "jane=doe") -- @see split function utils.splitv (s,re, plain, n) return _unpack(utils.split(s,re, plain, n)) end --- Functional -- @section functional --- 'memoize' a function (cache returned value for next call). -- This is useful if you have a function which is relatively expensive, -- but you don't know in advance what values will be required, so -- building a table upfront is wasteful/impossible. -- @param func a function of at least one argument -- @return a function with at least one argument, which is used as the key. function utils.memoize(func) local cache = {} return function(k) local res = cache[k] if res == nil then res = func(k) cache[k] = res end return res end end --- associate a function factory with a type. -- A function factory takes an object of the given type and -- returns a function for evaluating it -- @tab mt metatable -- @func fun a callable that returns a function function utils.add_function_factory (mt,fun) _function_factories[mt] = fun end local function _string_lambda(f) if f:find '^|' or f:find '_' then local args,body = f:match '|([^|]*)|(.+)' if f:find '_' then args = '_' body = f else if not args then return raise 'bad string lambda' end end local fstr = 'return function('..args..') return '..body..' end' local fn,err = utils.load(fstr) if not fn then return raise(err) end fn = fn() return fn else return raise 'not a string lambda' end end --- an anonymous function as a string. This string is either of the form -- '|args| expression' or is a function of one argument, '_' -- @param lf function as a string -- @return a function -- @function utils.string_lambda -- @usage -- string_lambda '|x|x+1' (2) == 3 -- string_lambda '_+1' (2) == 3 utils.string_lambda = utils.memoize(_string_lambda) --- bind the first argument of the function to a value. -- @param fn a function of at least two values (may be an operator string) -- @param p a value -- @return a function such that f(x) is fn(p,x) -- @raise same as @{function_arg} -- @see func.bind1 -- @usage local function f(msg, name) -- print(msg .. " " .. name) -- end -- -- local hello = utils.bind1(f, "Hello") -- -- print(hello("world")) --> "Hello world" -- print(hello("sunshine")) --> "Hello sunshine" function utils.bind1 (fn,p) fn = utils.function_arg(1,fn) return function(...) return fn(p,...) end end --- bind the second argument of the function to a value. -- @param fn a function of at least two values (may be an operator string) -- @param p a value -- @return a function such that f(x) is fn(x,p) -- @raise same as @{function_arg} -- @usage local function f(a, b, c) -- print(a .. " " .. b .. " " .. c) -- end -- -- local hello = utils.bind1(f, "world") -- -- print(hello("Hello", "!")) --> "Hello world !" -- print(hello("Bye", "?")) --> "Bye world ?" function utils.bind2 (fn,p) fn = utils.function_arg(1,fn) return function(x,...) return fn(x,p,...) end end --- Deprecation -- @section deprecation do -- the default implementation local deprecation_func = function(msg, trace) if trace then warn(msg, "\n", trace) -- luacheck: ignore else warn(msg) -- luacheck: ignore end end --- Sets a deprecation warning function. -- An application can override this function to support proper output of -- deprecation warnings. The warnings can be generated from libraries or -- functions by calling `utils.raise_deprecation`. The default function -- will write to the 'warn' system (introduced in Lua 5.4, or the compatibility -- function from the `compat` module for earlier versions). -- -- Note: only applications should set/change this function, libraries should not. -- @param func a callback with signature: `function(msg, trace)` both arguments are strings, the latter being optional. -- @see utils.raise_deprecation -- @usage -- -- write to the Nginx logs with OpenResty -- utils.set_deprecation_func(function(msg, trace) -- ngx.log(ngx.WARN, msg, (trace and (" " .. trace) or nil)) -- end) -- -- -- disable deprecation warnings -- utils.set_deprecation_func() function utils.set_deprecation_func(func) if func == nil then deprecation_func = function() end else utils.assert_arg(1, func, "function") deprecation_func = func end end --- raises a deprecation warning. -- For options see the usage example below. -- -- Note: the `opts.deprecated_after` field is the last version in which -- a feature or option was NOT YET deprecated! Because when writing the code it -- is quite often not known in what version the code will land. But the last -- released version is usually known. -- @param opts options table -- @see utils.set_deprecation_func -- @usage -- warn("@on") -- enable Lua warnings, they are usually off by default -- -- function stringx.islower(str) -- raise_deprecation { -- source = "Penlight " .. utils._VERSION, -- optional -- message = "function 'islower' was renamed to 'is_lower'", -- required -- version_removed = "2.0.0", -- optional -- deprecated_after = "1.2.3", -- optional -- no_trace = true, -- optional -- } -- return stringx.is_lower(str) -- end -- -- output: "[Penlight 1.9.2] function 'islower' was renamed to 'is_lower' (deprecated after 1.2.3, scheduled for removal in 2.0.0)" function utils.raise_deprecation(opts) utils.assert_arg(1, opts, "table") if type(opts.message) ~= "string" then error("field 'message' of the options table must be a string", 2) end local trace if not opts.no_trace then trace = debug.traceback("", 2):match("[\n%s]*(.-)$") end local msg if opts.deprecated_after and opts.version_removed then msg = (" (deprecated after %s, scheduled for removal in %s)"):format( tostring(opts.deprecated_after), tostring(opts.version_removed)) elseif opts.deprecated_after then msg = (" (deprecated after %s)"):format(tostring(opts.deprecated_after)) elseif opts.version_removed then msg = (" (scheduled for removal in %s)"):format(tostring(opts.version_removed)) else msg = "" end msg = opts.message .. msg if opts.source then msg = "[" .. opts.source .."] " .. msg else if msg:sub(1,1) == "@" then -- in Lua 5.4 "@" prefixed messages are control messages to the warn system error("message cannot start with '@'", 2) end end deprecation_func(msg, trace) end end return utils end, ---------------------- -- Modules part end -- ---------------------- } if files[path] then return files[path] else return origin_seacher(path) end end end --------------------------------------------------------- ----------------Auto generated code block---------------- --------------------------------------------------------- return require('pl.import_into')()