\setKVdefault[Nono]{Largeur=10pt,Taille=5,Unite=1cm,Solution=false,Enonce=true}

\newtoks\toklistenonoa%
\newtoks\toklistenonob%
\def\UpdatetoksNonoa#1\nil{\addtotok\toklistenonoa{#1,}}%
\def\UpdatetoksNonob#1\nil{\addtotok\toklistenonob{#1,}}%

\def\UpdatetoksNonoA#1\nil{\addtotok\toklistenonoa{"#1",}}%
\def\UpdatetoksNonoB#1\nil{\addtotok\toklistenonob{"#1",}}%

\NewDocumentCommand\Nonogrammeold{o m m}{%
  \useKVdefault[Nono]%
  \setKV[Nono]{#1}%
  \setsepchar{,}%
  \readlist*\PfCListeNonoa{#2}%
  \readlist*\PfCListeNonob{#3}%
  \toklistenonoa{}%
  \foreachitem\compteur\in\PfCListeNonoa{\expandafter\UpdatetoksNonoa\compteur\nil}%
  \toklistenonob{}%
  \foreachitem\compteur\in\PfCListeNonob{\expandafter\UpdatetoksNonob\compteur\nil}%
  \BuildNono{\the\toklistenonoa}{\the\toklistenonob}%
}%

\NewDocumentCommand\Nonogramme{o m}{%
  \useKVdefault[Nono]%
  \setKV[Nono]{#1}%
  \setsepchar{,}%
  \readlist*\PfCListeNonoa{#2}%
  \toklistenonoa{}%
  \toklistenonob{}%
  \foreachitem\compteur\in\PfCListeNonoa{\expandafter\UpdatetoksNonoA\compteur\nil}%
  \xintFor* ##2 in{\xintSeq{1}{\useKV[Nono]{Taille}}}\do{%
    \xdef\PfCNonoFoo{}%
    \xintFor* ##1 in{\xintSeq{1}{\PfCListeNonoalen}}\do{%
      \StrChar{\PfCListeNonoa[##1]}{##2}[\PfCNonoRetiens]
      \xdef\PfCNonoFoo{\PfCNonoFoo\PfCNonoRetiens}
    }%
    \expandafter\UpdatetoksNonoB\PfCNonoFoo\nil%
  }%
  \BuildNono{\the\toklistenonoa}{\the\toklistenonob}%
 }%

\NewDocumentCommand\BuildNono{m m}{%
  \ifluatex
  \mplibforcehmode
  \begin{mplibcode}
    Taille:=\useKV[Nono]{Taille};
    u:=\useKV[Nono]{Unite};
    Unite=\useKV[Nono]{Unite};
    %
    if u<7mm:
    nu:=7mm;
    else:
    nu:=u;
    fi;
    %
    boolean Solution,Enonce;
    Solution:=\useKV[Nono]{Solution};
    Enonce:=\useKV[Nono]{Enonce};
    
    color NonoFill;
    NonoFill=white;
    
    numeric nbretenir[][];
    numeric nbretenircol[][];
    
    vardef NombreLigne(text t)=
    retiens:=0;
    nblignes:=0;
    for p_=t:
    nblignes:=nblignes+1;
    endfor;
    enddef;

    path Square;
    Square=unitsquare scaled u;
    
    vardef Nonoa(text t)=
    cptretiensnblignes:=1;
    for p_=t:
    for k=0 upto Taille-1:
    if substring(k,k+1) of p_="o":
    elseif substring(k,k+1) of p_="X":
    if Solution: fill ((Square scaled 0.95) shifted(u*((k,-cptretiensnblignes)+(0.025,0.025)))) fi;
    fi;
    trace (Square shifted(u*(k,-cptretiensnblignes)));
    endfor;
    cptretiensnblignes:=cptretiensnblignes+1;
    endfor;
    enddef;

    string Sequence[][];
    string SequenceCol[][];
    
    vardef AffichageL(text t)=
    cptnblignes:=0;
    for p_=t:
    pas:=0;
    cptnblignes:=cptnblignes+1;
    nbcoups:=0;
    for k=0 upto Taille-1:
    if substring(k,k+1) of p_="o":
    pas:=pas+1;
    nbcoups:=0;
    elseif substring(k,k+1) of p_="X":
    nbcoups:=nbcoups+1;
    Sequence[cptnblignes][pas]:=decimal(nbcoups);
    fi;
    endfor;
    nbpas:=0;
    for k=pas downto 0:
    if unknown Sequence[cptnblignes][k]:
    else:
    nbpas:=nbpas+1;
    label.lft(TEX(Sequence[cptnblignes][k]),(0,0) shifted (-(nbpas-1)*0.5*nu-0.25*nu,u*(-cptnblignes+0.5)));
    fi;
    endfor;
    endfor;
    enddef;

    vardef AffichageC(text t)=
    cptnbcolonnes:=0;
    for p_=t:
    pas:=0;
    cptnbcolonnes:=cptnbcolonnes+1;
    nbcoups:=0;
    for k=0 upto nblignes-1:
    if substring(k,k+1) of p_="o":
    pas:=pas+1;
    nbcoups:=0;
    elseif substring(k,k+1) of p_="X":
    nbcoups:=nbcoups+1;
    SequenceCol[cptnbcolonnes][pas]:=decimal(nbcoups);
    fi;
    endfor;
    nbpas:=0;
    for k=pas downto 0:
    if unknown SequenceCol[cptnbcolonnes][k]:
    else:
    nbpas:=nbpas+1;
    label.top(TEX(SequenceCol[cptnbcolonnes][k]),(0,0) shifted (u*(cptnbcolonnes-0.5),(nbpas-1)*0.5*nu+0.25*nu));
    fi;
    endfor;
    endfor;
    enddef;
    
    NombreLigne(#1);
    Nonoa(#1);
    if Enonce:
    AffichageL(#1);
    AffichageC(#2);
    fi;
  \end{mplibcode}
  \else
  \begin{mpost}[mpsettings={Taille:=\useKV[Nono]{Taille};u:=\useKV[Nono]{Unite};boolean Solution,Enonce;Solution:=\useKV[Nono]{Solution};Enonce:=\useKV[Nono]{Enonce};}]
    color NonoFill;
    NonoFill=white;
    
    numeric nbretenir[][];
    numeric nbretenircol[][];
    
    vardef NombreLigne(text t)=
    retiens:=0;
    nblignes:=0;
    for p_=t:
    nblignes:=nblignes+1;
    endfor;
    enddef;

    path Square;
    Square=unitsquare scaled u;
    
    vardef Nonoa(text t)=
    cptretiensnblignes:=1;
    for p_=t:
    for k=0 upto Taille-1:
    if substring(k,k+1) of p_="o":
    elseif substring(k,k+1) of p_="X":
    if Solution: fill ((Square scaled 0.95) shifted(u*((k,-cptretiensnblignes)+(0.025,0.025)))) fi;
    fi;
    trace (Square shifted(u*(k,-cptretiensnblignes)));
    endfor;
    cptretiensnblignes:=cptretiensnblignes+1;
    endfor;
    enddef;

    string Sequence[][];
    string SequenceCol[][];
    
    vardef AffichageL(text t)=
    cptnblignes:=0;
    for p_=t:
    pas:=0;
    cptnblignes:=cptnblignes+1;
    nbcoups:=0;
    for k=0 upto Taille-1:
    if substring(k,k+1) of p_="o":
    pas:=pas+1;
    nbcoups:=0;
    elseif substring(k,k+1) of p_="X":
    nbcoups:=nbcoups+1;
    Sequence[cptnblignes][pas]:=decimal(nbcoups);
    fi;
    endfor;
    nbpas:=0;
    for k=pas downto 0:
    if unknown Sequence[cptnblignes][k]:
    else:
    nbpas:=nbpas+1;
    label.lft(LATEX(Sequence[cptnblignes][k]),(0,0) shifted (-(nbpas-1)*5mm-2.5mm,u*(-cptnblignes+0.5)));
    fi;
    endfor;
    endfor;
    enddef;

    vardef AffichageC(text t)=
    cptnbcolonnes:=0;
    for p_=t:
    pas:=0;
    cptnbcolonnes:=cptnbcolonnes+1;
    nbcoups:=0;
    for k=0 upto nblignes-1:
    if substring(k,k+1) of p_="o":
    pas:=pas+1;
    nbcoups:=0;
    elseif substring(k,k+1) of p_="X":
    nbcoups:=nbcoups+1;
    SequenceCol[cptnbcolonnes][pas]:=decimal(nbcoups);
    fi;
    endfor;
    nbpas:=0;
    for k=pas downto 0:
    if unknown SequenceCol[cptnbcolonnes][k]:
    else:
    nbpas:=nbpas+1;
    label.top(LATEX(SequenceCol[cptnbcolonnes][k]),(0,0) shifted (u*(cptnbcolonnes-0.5),(nbpas-1)*5mm+2.5mm));
    fi;
    endfor;
    endfor;
    enddef;
    
    NombreLigne(#1);
    Nonoa(#1);
    if Enonce:
    AffichageL(#1);
    AffichageC(#2);
    fi;
  \end{mpost}
  \fi
}
 
\NewDocumentCommand\BuildNonoold{m m}{%
  \ifluatex
  \mplibforcehmode
  \begin{mplibcode}
    Taille:=\useKV[Nono]{Taille};
    u:=\useKV[Nono]{Unite};
    boolean Solution,Enonce;
    Solution:=\useKV[Nono]{Solution};
    Enonce:=\useKV[Nono]{Enonce};

    color NonoFill;
    NonoFill=white;

    numeric nbretenir[][];
    numeric nbretenircol[][];
    
    vardef NombreLigne(text t)=
    retiens:=0;
    nblignes:=0;
    for p_=t:
    retiens:=retiens+p_;
    if retiens=Taille:
    nblignes:=nblignes+1;
    retiens:=0;
    fi;
    endfor;
    enddef;

    path Square;
    Square=unitsquare scaled u;
    
    vardef Nonoa(text t)=
    nbcoups:=0;
    nbcases:=0;
    nbcaseslignes:=0;
    cptretiensnb:=0;
    cptretiensnblignes:=1;
    for p_=t:
    if p_=0:
    cptretiensnb:=cptretiensnb+1;
    nbretenir[cptretiensnblignes][cptretiensnb]=p_;
    NonoFill:=black;
    else:
    nbcoups:=nbcoups+1;
    for l=0 upto p_-1:
        if Solution: fill ((Square scaled 0.95) shifted(u*((nbcases mod Taille)+l,-(nbcases div Taille))+u*(0.025,0.025))) withcolor NonoFill; fi;
    trace (Square shifted(u*((nbcases mod Taille)+l,-(nbcases div Taille))));
    endfor;
    nbcaseslignes:=nbcaseslignes+p_;
    nbcases:=nbcases+p_;
    if (nbcaseslignes mod Taille)=0:
    NonoFill:=white;
    cptretiensnb:=cptretiensnb+1;
    nbretenir[cptretiensnblignes][cptretiensnb]=p_;
    cptretiensnblignes:=cptretiensnblignes+1;
    cptretiensnb:=0;
    else:
    if NonoFill=white: NonoFill:=black else: NonoFill:=white fi;
    cptretiensnb:=cptretiensnb+1;
    nbretenir[cptretiensnblignes][cptretiensnb]=p_;
    fi;
    fi;
    endfor;
    enddef;

    string SequenceColo;
    
    vardef Nonob(text t)=
    nbcoups:=0;
    nbcases:=0;
    nbcasescolonnes:=0;
    cptretiensnb:=0;
    cptretiensnbcolonnes:=1;
    SequenceColo="";
    for p_=t:
    if p_=0:
    cptretiensnb:=cptretiensnb+1;
    nbretenircol[cptretiensnbcolonnes][cptretiensnb]=p_;
    NonoFill:=black;
    else:
    nbcoups:=nbcoups+1;
    nbcasescolonnes:=nbcasescolonnes+p_;
    nbcases:=nbcases+p_;
    if (nbcasescolonnes mod nblignes)=0:
    NonoFill:=white;
    cptretiensnb:=cptretiensnb+1;
    nbretenircol[cptretiensnbcolonnes][cptretiensnb]=p_;
    cptretiensnbcolonnes:=cptretiensnbcolonnes+1;
    cptretiensnb:=0;
    else:
    if NonoFill=white: NonoFill:=black else: NonoFill:=white fi;
    cptretiensnb:=cptretiensnb+1;
    nbretenircol[cptretiensnbcolonnes][cptretiensnb]=p_;
    fi;
    fi;
    endfor;
    enddef;
    
    string Sequence[][];
    string SequenceCol[][];
    
    boolean STOP;
    STOP:=false;
    
    vardef Affichage=
    for k=1 upto nblignes:
    Sequence[k][1]=if nbretenir[k][1]=0:decimal(nbretenir[k][2]) else:"" fi;
    if nbretenir[k][1]=0:
    n:=2;
    p:=1;
    else:
    n:=1;
    p:=0;
    fi;
    forever:
    n:=n+1;
    if unknown nbretenir[k][n]:
    STOP:=true;
    else:
    if nbretenir[k][n]>0:
    if (n mod 2)=0:
    p:=p+1;
    Sequence[k][p]:=decimal(nbretenir[k][n]);
    fi;
    fi;
    fi;
    exitif STOP;
    endfor;
    for r=p downto 1:
    label.lft(TEX(Sequence[k][r]),(0,0) shifted (-(r-1)*5mm,u*(-k+1+0.5)));
    endfor;
    STOP:=false;
    endfor;
    enddef;

    vardef Affichagecol=
    STOP:=false;
    for k=1 upto Taille:
    SequenceCol[k][1]=if nbretenircol[k][1]=0:decimal(nbretenircol[k][2]) else:"" fi;
    if nbretenircol[k][1]=0:
    n:=2;
    p:=1;
    else:
    n:=1;
    p:=0;
    fi;
    forever:
    n:=n+1;
    if unknown nbretenircol[k][n]:
    STOP:=true;
    else:
    if nbretenircol[k][n]>0:
    if (n mod 2)=0:
    p:=p+1;
    SequenceCol[k][p]:=decimal(nbretenircol[k][n]);
    fi;
    fi;
    fi;
    exitif STOP;
    endfor;
    for r=p downto 1:
    label.top(TEX(SequenceCol[k][r]),(0,0) shifted (k*u-0.5u,1u+(p-r)*5mm));
    endfor;
    STOP:=false;
    endfor;
    enddef;
    
    NombreLigne(#1);
    Nonoa(#1);
    Nonob(#2);
    if Enonce:
    Affichage;
    Affichagecol;
    fi;
  \end{mplibcode}
  \else
  \begin{mpost}[mpsettings={Taille:=\useKV[Nono]{Taille};u:=\useKV[Nono]{Unite};boolean Solution,Enonce;Solution:=\useKV[Nono]{Solution};Enonce:=\useKV[Nono]{Enonce};}]
    color NonoFill;
    NonoFill=white;

    numeric nbretenir[][];
    numeric nbretenircol[][];
    
    vardef NombreLigne(text t)=
    retiens:=0;
    nblignes:=0;
    for p_=t:
    retiens:=retiens+p_;
    if retiens=Taille:
    nblignes:=nblignes+1;
    retiens:=0;
    fi;
    endfor;
    enddef;

    path Square;
    Square=unitsquare scaled u;
    
    vardef Nonoa(text t)=
    nbcoups:=0;
    nbcases:=0;
    nbcaseslignes:=0;
    cptretiensnb:=0;
    cptretiensnblignes:=1;
    for p_=t:
    if p_=0:
    cptretiensnb:=cptretiensnb+1;
    nbretenir[cptretiensnblignes][cptretiensnb]=p_;
    NonoFill:=black;
    else:
    nbcoups:=nbcoups+1;
    for l=0 upto p_-1:
        if Solution: fill ((Square scaled 0.95) shifted(u*((nbcases mod Taille)+l,-(nbcases div Taille))+u*(0.025,0.025))) withcolor NonoFill; fi;
    trace (Square shifted(u*((nbcases mod Taille)+l,-(nbcases div Taille))));
    endfor;
    nbcaseslignes:=nbcaseslignes+p_;
    nbcases:=nbcases+p_;
    if (nbcaseslignes mod Taille)=0:
    NonoFill:=white;
    cptretiensnb:=cptretiensnb+1;
    nbretenir[cptretiensnblignes][cptretiensnb]=p_;
    cptretiensnblignes:=cptretiensnblignes+1;
    cptretiensnb:=0;
    else:
    if NonoFill=white: NonoFill:=black else: NonoFill:=white fi;
    cptretiensnb:=cptretiensnb+1;
    nbretenir[cptretiensnblignes][cptretiensnb]=p_;
    fi;
    fi;
    endfor;
    enddef;

    string SequenceColo;
    
    vardef Nonob(text t)=
    nbcoups:=0;
    nbcases:=0;
    nbcasescolonnes:=0;
    cptretiensnb:=0;
    cptretiensnbcolonnes:=1;
    SequenceColo="";
    for p_=t:
    if p_=0:
    cptretiensnb:=cptretiensnb+1;
    nbretenircol[cptretiensnbcolonnes][cptretiensnb]=p_;
    NonoFill:=black;
    else:
    nbcoups:=nbcoups+1;
    nbcasescolonnes:=nbcasescolonnes+p_;
    nbcases:=nbcases+p_;
    if (nbcasescolonnes mod nblignes)=0:
    NonoFill:=white;
    cptretiensnb:=cptretiensnb+1;
    nbretenircol[cptretiensnbcolonnes][cptretiensnb]=p_;
    cptretiensnbcolonnes:=cptretiensnbcolonnes+1;
    cptretiensnb:=0;
    else:
    if NonoFill=white: NonoFill:=black else: NonoFill:=white fi;
    cptretiensnb:=cptretiensnb+1;
    nbretenircol[cptretiensnbcolonnes][cptretiensnb]=p_;
    fi;
    fi;
    endfor;
    enddef;
    
    string Sequence[][];
    string SequenceCol[][];
    
    boolean STOP;
    STOP:=false;
    
    vardef Affichage=
    for k=1 upto nblignes:
    Sequence[k][1]=if nbretenir[k][1]=0:decimal(nbretenir[k][2]) else:"" fi;
    if nbretenir[k][1]=0:
    n:=2;
    p:=1;
    else:
    n:=1;
    p:=0;
    fi;
    forever:
    n:=n+1;
    if unknown nbretenir[k][n]:
    STOP:=true;
    else:
    if nbretenir[k][n]>0:
    if (n mod 2)=0:
    p:=p+1;
    Sequence[k][p]:=decimal(nbretenir[k][n]);
    fi;
    fi;
    fi;
    exitif STOP;
    endfor;
    for r=p downto 1:
    label.lft(LATEX(Sequence[k][r]),(0,0) shifted (-(r-1)*5mm,u*(-k+1+0.5)));
    endfor;
    STOP:=false;
    endfor;
    enddef;

    vardef Affichagecol=
    STOP:=false;
    for k=1 upto Taille:
    SequenceCol[k][1]=if nbretenircol[k][1]=0:decimal(nbretenircol[k][2]) else:"" fi;
    if nbretenircol[k][1]=0:
    n:=2;
    p:=1;
    else:
    n:=1;
    p:=0;
    fi;
    forever:
    n:=n+1;
    if unknown nbretenircol[k][n]:
    STOP:=true;
    else:
    if nbretenircol[k][n]>0:
    if (n mod 2)=0:
    p:=p+1;
    SequenceCol[k][p]:=decimal(nbretenircol[k][n]);
    fi;
    fi;
    fi;
    exitif STOP;
    endfor;
    for r=p downto 1:
    label.top(LATEX(SequenceCol[k][r]),(0,0) shifted (k*u-0.5u,1u+(p-r)*5mm));
    endfor;
    STOP:=false;
    endfor;
    enddef;
    
    NombreLigne(#1);
    Nonoa(#1);
    Nonob(#2);
    if Enonce:
    Affichage;
    Affichagecol;
    fi;    
  \end{mpost}
  \fi
}