%%% % Diff\'erentes représentations graphiques %%% \setKVdefault[TraceG]{Millimetre=false,Grille=false,Graduations=false,PasGradX=1,PasGradY=1,PasGrilleX=1,PasGrilleY=1,Xmin=-5.5,Xmax=5.5,Xstep=1,Ymin=-5.5,Ymax=5.5,Ystep=1,Bornea=-5.5,Borneb=5.5,LabelX={},LabelY={},LegendeX=false,LegendeY=false,LabelC=0.5,NomCourbe={},Origine={(5.5,5.5)},Fonction=false,Points=false,Invisible=false,CouleurPoint=red,CouleurTrace=black,Epaisseur=1,Relie=false,RelieSegment=false,Marque=dot,Code=false,Vide=false,NbPointsCourbe=100,Tiret=false}% \defKV[TraceG]{Traces=\setKV[TraceG]{Code}}% \defKV[TraceG]{LabelX=\setKV[TraceG]{LegendeX}}% \defKV[TraceG]{LabelY=\setKV[TraceG]{LegendeY}}% \newcommand\TraceGraphique[2][]{% \useKVdefault[TraceG]% \setKV[TraceG]{#1}% \ifboolKV[TraceG]{Fonction}{% \MPTraceFonction[#1]{#2}% }{% \setKV[TraceG]{Xmin=0,Ymin=0} \setKV[TraceG]{#1}% \readlist*\ListePointsPlaces{#2}% \newtoks\toklistepoint% \foreachitem\compteur\in\ListePointsPlaces{\expandafter\Updatetoks\compteur\nil}% \MPPlacePoint[#1]{\the\toklistepoint} }% }% \newcommand\MPPlacePoint[2][]{% \ifluatex \mplibforcehmode \begin{mplibcode} xmin=\useKV[TraceG]{Xmin}; xmax=\useKV[TraceG]{Xmax}; ymin=\useKV[TraceG]{Ymin}; ymax=\useKV[TraceG]{Ymax}; pasx=\useKV[TraceG]{Xstep}; pasy=\useKV[TraceG]{Ystep}; x.u=1cm/\useKV[TraceG]{Xstep}; y.u=1cm/\useKV[TraceG]{Ystep}; grillex=\useKV[TraceG]{PasGrilleX}; grilley=\useKV[TraceG]{PasGrilleY}; pos=\useKV[TraceG]{LabelC}; marque_p:=str \useKV[TraceG]{Marque}; m_c:=m_c*2; color colorpoint,colortrace; colorpoint=\useKV[TraceG]{CouleurPoint}; colortrace=\useKV[TraceG]{CouleurTrace}; boolean Grille,Graduations,LegendeX,LegendeY; Grille=\useKV[TraceG]{Grille}; Graduations=\useKV[TraceG]{Graduations}; LegendeX:=\useKV[TraceG]{LegendeX}; LegendeY:=\useKV[TraceG]{LegendeY}; boolean Relie; Relie=\useKV[TraceG]{Relie}; boolean RelieSegment; RelieSegment=\useKV[TraceG]{RelieSegment}; boolean Invisible; Invisible=\useKV[TraceG]{Invisible}; pair Origine; Origine=(0,0); if Grille: drawoptions(withcolor 0.75white); for k=0 step grillex until (xmax-xmin): trace (k*x.u,ypart(Origine))--(x.u*k,y.u*(ymax-ymin)); endfor; for k=0 step grilley until (ymax-ymin): trace (xpart(Origine),k*y.u)--(x.u*(xmax-xmin),y.u*k); endfor; drawoptions(); fi; if Graduations: for k=0 step grillex until (xmax-xmin): trace ((0,-0.5mm)--(0,0.5mm)) shifted ((k*x.u,0) shifted Origine) withpen pencircle scaled1.25; label.bot(TEX("\num{"&decimal(xmin+k)&"}"),(k*x.u,0) shifted Origine); endfor; label.ulft(TEX("\num{"&decimal(ymin)&"}"),(0,0) shifted Origine); for k=grilley step grilley until (ymax-ymin): trace ((-0.5mm,0)--(0.5mm,0)) shifted ((0,k*y.u) shifted Origine) withpen pencircle scaled1.25; label.lft(TEX("\num{"&decimal(ymin+k)&"}"),(0,k*y.u) shifted Origine); endfor; fi; drawoptions(withpen pencircle scaled1.5); drawarrow Origine--(xpart(Origine),y.u*(ymax-ymin)); drawarrow Origine--((xmax-xmin)*x.u,ypart(Origine)); drawoptions(); % On relie éventuellement les points if Relie: pair N[]; nbpoint=0; for p_=#2: nbpoint:=nbpoint+1; N[nbpoint]=(x.u*(xpart(p_)-xmin),y.u*(ypart(p_)-ymin)); endfor; draw N[1] for k=2 upto nbpoint: ..N[k] endfor withcolor colortrace; fi; if RelieSegment: pair N[]; nbpoint=0; for p_=#2: nbpoint:=nbpoint+1; N[nbpoint]=(x.u*(xpart(p_)-xmin),y.u*(ypart(p_)-ymin)); endfor; draw N[1] for k=2 upto nbpoint: --N[k] endfor withcolor colortrace; fi; % On place les points if Invisible=false: drawoptions(withcolor colorpoint); for p_=#2: if marque_p="dot": dotlabel("",(x.u*(xpart(p_)-xmin),y.u*(ypart(p_)-ymin))); elseif marque_p="croix": pointe((x.u*(xpart(p_)-xmin),y.u*(ypart(p_)-ymin))); fi; endfor; drawoptions(); fi; % on labelise les axes if LegendeX: label.urt(btex \useKV[TraceG]{LabelX} etex,(x.u*(xmax-xmin),ypart(Origine))); fi; if LegendeY: label.urt(btex \useKV[TraceG]{LabelY} etex,(xpart(Origine),y.u*(ymax-ymin))); fi; \end{mplibcode} \else \mpxcommands{% \usepackage{ProfCollege} \setKV[TraceG]{#1} } \begin{mpost}[mpsettings={xmin=\useKV[TraceG]{Xmin};xmax=\useKV[TraceG]{Xmax};ymin=\useKV[TraceG]{Ymin};ymax=\useKV[TraceG]{Ymax};pasx=\useKV[TraceG]{Xstep};pasy=\useKV[TraceG]{Ystep};xu=1cm/\useKV[TraceG]{Xstep};yu=1cm/\useKV[TraceG]{Ystep};grillex=\useKV[TraceG]{PasGrilleX};grilley=\useKV[TraceG]{PasGrilleY};pos=\useKV[TraceG]{LabelC};color colorpoint,colortrace;colorpoint=\useKV[TraceG]{CouleurPoint};colortrace=\useKV[TraceG]{CouleurTrace};boolean Grille;Grille=\useKV[TraceG]{Grille};boolean Graduations;Graduations=\useKV[TraceG]{Graduations};boolean Relie;Relie=\useKV[TraceG]{Relie};boolean RelieSegment;RelieSegment=\useKV[TraceG]{RelieSegment};boolean Invisible;Invisible=\useKV[TraceG]{Invisible};}] pair Origine; Origine=(0,0); if Grille: drawoptions(withcolor 0.75white); for k=0 step grillex until (xmax-xmin): trace (k*xu,ypart(Origine))--(xu*k,yu*(ymax-ymin)); endfor; for k=0 step grilley until (ymax-ymin): trace (xpart(Origine),k*yu)--(xu*(xmax-xmin),yu*k); endfor; drawoptions(); fi; if Graduations: for k=0 step grillex until (xmax-xmin): trace ((0,-0.5mm)--(0,0.5mm)) shifted ((k*xu,0) shifted Origine) withpen pencircle scaled1.25; label.bot(LATEX("\num{"&decimal(xmin+k)&"}"),(k*xu,0) shifted Origine); endfor; label.ulft(LATEX("\num{"&decimal(ymin)&"}"),(0,0) shifted Origine); for k=grilley step grilley until (ymax-ymin): trace ((-0.5mm,0)--(0.5mm,0)) shifted ((0,k*yu) shifted Origine) withpen pencircle scaled1.25; label.lft(LATEX("\num{"&decimal(ymin+k)&"}"),(0,k*yu) shifted Origine); endfor; fi; drawoptions(withpen pencircle scaled1.5); drawarrow Origine--(xpart(Origine),yu*(ymax-ymin)); drawarrow Origine--((xmax-xmin)*xu,ypart(Origine)); drawoptions(); % On relie éventuellement les points if Relie: pair N[]; nbpoint=0; for p_=#2: nbpoint:=nbpoint+1; N[nbpoint]=(xu*(xpart(p_)-xmin),yu*(ypart(p_)-ymin)); endfor; draw N[1] for k=2 upto nbpoint: ..N[k] endfor withcolor colortrace; fi; if RelieSegment: pair N[]; nbpoint=0; for p_=#2: nbpoint:=nbpoint+1; N[nbpoint]=(xu*(xpart(p_)-xmin),yu*(ypart(p_)-ymin)); endfor; draw N[1] for k=2 upto nbpoint: --N[k] endfor withcolor colortrace; fi; % On place les points if Invisible=false: drawoptions(withcolor colorpoint); for p_=#2: dotlabel("",(xu*(xpart(p_)-xmin),yu*(ypart(p_)-ymin))); endfor; drawoptions(); fi; %on labelise les axes label.urt(btex \unexpanded{\useKV[TraceG]{LabelX}} etex,(xu*(xmax-xmin),ypart(Origine))); label.urt(btex \unexpanded{\useKV[TraceG]{LabelY}} etex,(xpart(Origine),yu*(ymax-ymin))); \end{mpost} \fi } \newcommand\MPTraceFonction[2][]{% \ifluatex \mplibforcehmode \begin{mplibcode} borneinf=\useKV[TraceG]{Bornea}; bornesup=\useKV[TraceG]{Borneb}; nbpointsCourbe:=\useKV[TraceG]{NbPointsCourbe}; xmin=\useKV[TraceG]{Xmin}; xmax=\useKV[TraceG]{Xmax}; ymin=\useKV[TraceG]{Ymin}; ymax=\useKV[TraceG]{Ymax}; pasx=\useKV[TraceG]{Xstep}; pasy=\useKV[TraceG]{Ystep}; x.u=1cm/\useKV[TraceG]{Xstep}; y.u=1cm/\useKV[TraceG]{Ystep}; grillex=\useKV[TraceG]{PasGrilleX}; grilley=\useKV[TraceG]{PasGrilleY}; gradx=\useKV[TraceG]{PasGradX}; grady=\useKV[TraceG]{PasGradY}; pos=\useKV[TraceG]{LabelC}; Epaisseur:=\useKV[TraceG]{Epaisseur}; color colortrace; colortrace=\useKV[TraceG]{CouleurTrace}; pair Origine; Origine=(xmin,ymin)+\useKV[TraceG]{Origine}; boolean Grille,Vide,Graduations,LegendeX,LegendeY; Grille=\useKV[TraceG]{Grille}; Vide=\useKV[TraceG]{Vide}; Graduations=\useKV[TraceG]{Graduations}; LegendeX:=\useKV[TraceG]{LegendeX}; LegendeY:=\useKV[TraceG]{LegendeY}; vardef sin(expr t) = sind(c*t) enddef; vardef cos(expr t) = cosd(c*t) enddef; vardef tan(expr t) = sin(t)/cos(t) enddef; vardef exp(expr t) = e**t enddef; vardef ch(expr x)=(exp(x)+exp(-x))/2 enddef; vardef sh(expr x)=(exp(x)-exp(-x))/2 enddef; vardef ln(expr t) = mlog(t)/256 enddef; vardef arcsin(expr x)=%Définition mathématique en radian pi*angle((sqrt(1-x**2),x))/180 enddef; vardef arccos(expr x)=%Définition mathématique en radian pi*angle((x,sqrt(1-x**2)))/180 enddef; def enplace= xscaled x.u yscaled y.u shifted (Origine*cm) enddef; vardef placepoint(expr q,r)= (q,r) enplace enddef; path Cb[]; vardef courbe[](expr a,b,nb)(text texte)= path Courbe; for i:=0 upto nb : x@[i]:=(a+i*(b-a)/nb); x:=x@[i]; y@[i]:=texte; endfor ; Cb@:=(x@.0*x.u,y@.0*y.u) for i:=1 upto nb : ..(x@[i]*x.u,y@[i]*y.u) endfor; Cb@:=Cb@ shifted (Origine*cm); Courbe=Cb@; Courbe enddef; if Grille: drawoptions(withcolor 0.75white); for k=xpart(Origine) step grillex until xmax: trace u*(k,ymin)--u*(k,ymax); endfor; for k=xpart(Origine) step -grillex until xmin: trace u*(k,ymin)--u*(k,ymax); endfor; for k=ypart(Origine) step grilley until ymax: trace u*(xmin,k)--u*(xmax,k); endfor; for k=ypart(Origine) step -grilley until ymin: trace u*(xmin,k)--u*(xmax,k); endfor; drawoptions(); fi; if Graduations: for k=gradx step gradx until bornesup:%xmax*gradx/grillex: dotlabel.bot(TEX("\num{"&decimal(k)&"}"),(k*x.u+xpart(Origine*cm),ypart(Origine*cm))); endfor; for k=-gradx step -gradx until borneinf:%xmin*gradx/grillex: dotlabel.bot(TEX("\num{"&decimal(k)&"}"),(k*x.u+xpart(Origine*cm),ypart(Origine*cm))); endfor; for k=grady step grady until ymax*grady/grilley: dotlabel.lft(TEX("\num{"&decimal(k)&"}"),(xpart(Origine*cm),k*y.u+ypart(Origine*cm))); endfor; for k=-grady step -grady until ymin*grady/grilley: dotlabel.lft(TEX("\num{"&decimal(k)&"}"),(xpart(Origine*cm),k*y.u+ypart(Origine*cm))); endfor; fi; drawoptions(withpen pencircle scaled(1)); drawarrow (u*(0,ymin)--u*(0,ymax)) shifted (u*(xpart(Origine),0)); drawarrow (u*(xmin,0)--u*(xmax,0)) shifted (u*(0,ypart(Origine))); label.llft(btex 0 etex,u*Origine); drawoptions(); if Vide: clip currentpicture to polygone(u*(xmin,ymin),u*(xmax,ymin),u*(xmax,ymax),u*(xmin,ymax)); else: draw courbe1(borneinf,bornesup,nbpointsCourbe)(#2) withpen (pencircle scaled Epaisseur) withcolor colortrace; % labelisation numeric t; t=pos*length Cb1; pair PT,Tangente; PT:=point (pos*length Cb1) of Cb1; Tangente:=unitvector(direction t of Cb1); label(TEX("\useKV[TraceG]{NomCourbe}") rotated angle(Tangente),PT+2mm*(Tangente rotated 90)); % fin labelisation if \useKV[TraceG]{Code}: \useKV[TraceG]{Traces} fi; clip currentpicture to polygone(u*(xmin,ymin),u*(xmax,ymin),u*(xmax,ymax),u*(xmin,ymax)); if LegendeX: label.rt(btex \useKV[TraceG]{LabelX} etex,u*(xmax,ypart(Origine))); fi; if LegendeY: label.top(btex \useKV[TraceG]{LabelY} etex,u*(xpart(Origine),ymax)); fi; fi; \end{mplibcode} \else \mpxcommands{% \usepackage{ProfCollege} \setKV[TraceG]{#1} } \begin{mpost}[mpsettings={borneinf=\useKV[TraceG]{Bornea};bornesup=\useKV[TraceG]{Borneb};nbpointsCourbe:=\useKV[TraceG]{NbPointsCourbe};xmin=\useKV[TraceG]{Xmin};xmax=\useKV[TraceG]{Xmax};ymin=\useKV[TraceG]{Ymin};ymax=\useKV[TraceG]{Ymax};pasx=\useKV[TraceG]{Xstep};pasy=\useKV[TraceG]{Ystep};xu=1cm/\useKV[TraceG]{Xstep};yu=1cm/\useKV[TraceG]{Ystep};grillex=\useKV[TraceG]{PasGrilleX};grilley=\useKV[TraceG]{PasGrilleY};pos=\useKV[TraceG]{LabelC};Epaisseur=\useKV[TraceG]{Epaisseur}; color colortrace;colortrace=\useKV[TraceG]{CouleurTrace};boolean Grille,Vide;Grille=\useKV[TraceG]{Grille};Vide=\useKV[TraceG]{Vide};boolean Graduations;Graduations=\useKV[TraceG]{Graduations}; pair Origine; Origine=(xmin,ymin)+\useKV[TraceG]{Origine};}] vardef sin(expr t) = sind(c*t) enddef; vardef cos(expr t) = cosd(c*t) enddef; vardef tan(expr t) = sin(t)/cos(t) enddef; vardef exp(expr t) = e**t enddef; vardef ch(expr x)=(exp(x)+exp(-x))/2 enddef; vardef sh(expr x)=(exp(x)-exp(-x))/2 enddef; vardef ln(expr t) = mlog(t)/256 enddef; vardef arcsin(expr x)=%Définition mathématique en radian pi*angle((sqrt(1-x**2),x))/180 enddef; vardef arccos(expr x)=%Définition mathématique en radian pi*angle((x,sqrt(1-x**2)))/180 enddef; path Cb[]; vardef courbe[](expr a,b,nb)(text texte)= path Courbe; for i:=0 upto nb : x@[i]:=(a+i*(b-a)/nb); x:=x@[i]; y@[i]:=texte; endfor ; Cb@:=(x@.0*xu,y@.0*yu) for i:=1 upto nb : ..(x@[i]*xu,y@[i]*yu) endfor; Cb@:=Cb@ shifted (Origine*cm); Courbe=Cb@; Courbe enddef; if Grille: drawoptions(withcolor 0.75white); for k=xpart(Origine) step grillex until xmax: trace u*(k,ymin)--u*(k,ymax); endfor; for k=xpart(Origine) step -grillex until xmin: trace u*(k,ymin)--u*(k,ymax); endfor; for k=ypart(Origine) step grilley until ymax: trace u*(xmin,k)--u*(xmax,k); endfor; for k=ypart(Origine) step -grilley until ymin: trace u*(xmin,k)--u*(xmax,k); endfor; drawoptions(); fi; if Graduations: for k=1 upto xmax/grillex: dotlabel.bot(LATEX("\num{"&decimal(k)&"}"),(k*xu+xpart(Origine*cm),ypart(Origine*cm))); endfor; for k=-1 downto xmin/grillex: dotlabel.bot(LATEX("\num{"&decimal(k)&"}"),(k*xu+xpart(Origine*cm),ypart(Origine*cm))); endfor; for k=1 upto ymax/grilley: dotlabel.lft(LATEX("\num{"&decimal(k)&"}"),(xpart(Origine*cm),k*yu+ypart(Origine*cm))); endfor; for k=-1 downto ymin/grilley: dotlabel.lft(LATEX("\num{"&decimal(k)&"}"),(xpart(Origine*cm),k*yu+ypart(Origine*cm))); endfor; fi; drawoptions(withpen pencircle scaled1.5); drawarrow (u*(0,ymin)--u*(0,ymax)) shifted (u*(xpart(Origine),0)); drawarrow (u*(xmin,0)--u*(xmax,0)) shifted (u*(0,ypart(Origine))); drawoptions(); if Vide: else: draw courbe1(borneinf,bornesup,nbpointsCourbe)(#2) withpen (pencircle scaled Epaisseur) withcolor colortrace; % % labelisation numeric t; t=pos*length Cb1; pair PT,Tangente; PT:=point (pos*length Cb1) of Cb1; Tangente:=unitvector(direction t of Cb1); label(btex \noexpand\useKV[TraceG]{NomCourbe} etex rotated angle(Tangente),PT+2mm*(Tangente rotated 90)); % % fin labelisation clip currentpicture to polygone(u*(xmin,ymin),u*(xmax,ymin),u*(xmax,ymax),u*(xmin,ymax)); label.rt(btex \useKV[TraceG]{LabelX} etex,u*(xmax,ypart(Origine))); label.top(btex \useKV[TraceG]{LabelY} etex,u*(xpart(Origine),ymax)); fi; \end{mpost} \fi }%