From 8c61583f287fdb41a4feeae16e896e365a2d09a5 Mon Sep 17 00:00:00 2001
From: Jean-Michel Sarlat <jm.sarlat@gmail.com>
Date: Thu, 11 Aug 2011 09:31:38 +0200
Subject: [PATCH] =?utf8?q?R=C3=A9initialisation=20du=20projet?=
MIME-Version: 1.0
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---
 README     |   2 +
 gdd-arc.mp |  13 +++
 gdd-c2d.mp |  32 ++++++
 gdd-fct.mp |  22 ++++
 gdd-lbl.mp |  72 ++++++++++++
 gdd-plt.mp |  65 +++++++++++
 gdd-rep.mp |  98 ++++++++++++++++
 gdd-tra.mp |  44 +++++++
 gdd.mp     | 328 +++++++++++++++++++++++++++++++++++++++++++++++++++++
 9 files changed, 676 insertions(+)
 create mode 100644 README
 create mode 100644 gdd-arc.mp
 create mode 100644 gdd-c2d.mp
 create mode 100644 gdd-fct.mp
 create mode 100644 gdd-lbl.mp
 create mode 100644 gdd-plt.mp
 create mode 100644 gdd-rep.mp
 create mode 100644 gdd-tra.mp
 create mode 100644 gdd.mp

diff --git a/README b/README
new file mode 100644
index 0000000..b251799
--- /dev/null
+++ b/README
@@ -0,0 +1,2 @@
+
+  * jeu. 11 aoÃ»t 2011 09:31:08 CEST : RÃ©initialisation du projet.
\ No newline at end of file
diff --git a/gdd-arc.mp b/gdd-arc.mp
new file mode 100644
index 0000000..8558c54
--- /dev/null
+++ b/gdd-arc.mp
@@ -0,0 +1,13 @@
+if unknown Pi: input gdd-fct; fi;
+
+%%% --------------------------------------------------------------------------
+%%% Arcs de cercles
+%%% --------------------------------------------------------------------------
+
+vardef Arc(expr c,r,a,b) =
+  save centre, pas; pair centre; centre = PairImp(c); pas =(b-a)/10;
+  (centre+r*(cos(a),sin(a))) for i=0 upto 10: .. (centre+r*(cos(a+i*pas),sin(a+i*pas))) endfor
+enddef;
+
+
+endinput
\ No newline at end of file
diff --git a/gdd-c2d.mp b/gdd-c2d.mp
new file mode 100644
index 0000000..e2a0035
--- /dev/null
+++ b/gdd-c2d.mp
@@ -0,0 +1,32 @@
+%%% --------------------------------------------------------------------------
+%%% mp-gdd %%% Courbes du second degré
+%%% --------------------------------------------------------------------------
+
+if unknown Pi: input gdd-fct; fi;
+
+%%% --------------------------------------------------------------------------
+%%% Paraboles
+%%% --------------------------------------------------------------------------
+
+% Parabole par Foyer-Directrice.
+
+gddParabolePar := 15;
+
+vardef ParaboleFD(expr F,D) =
+  save u, v, w, d, i;
+  (u,v,w) = EquationDroite(D);
+  d := u * gddA[F] + v * gddB[F] + w;
+  i := -gddParabolePar-1;
+  (
+    (i*(v,-u)+((i*i-d*d)/(2d))*(u,v))
+    for i:= -gddParabolePar upto gddParabolePar:
+      ..(i*(v,-u)+((i*i-d*d)/(2d))*(u,v))
+    endfor
+  ) shifted PairImp(F)
+enddef;
+
+% Parabole par Foyer-Sommet
+vardef ParaboleFS(expr F,S) =
+enddef;
+
+endinput
\ No newline at end of file
diff --git a/gdd-fct.mp b/gdd-fct.mp
new file mode 100644
index 0000000..5ce866c
--- /dev/null
+++ b/gdd-fct.mp
@@ -0,0 +1,22 @@
+numeric Pi;
+numeric E;
+
+Pi := 3.14159265;
+E  := 2.71828183;
+
+vardef sin(expr x) = sind(x/Pi*180) enddef;
+vardef cos(expr x) = cosd(x/Pi*180) enddef;
+vardef tan(expr x) = sin(x)/cos(x) enddef;
+
+vardef exp(expr x) = E**x enddef;
+
+vardef ln(expr x) = mlog(x)/256 enddef;
+vardef ch(expr x) = (E**x + E**(-x))/2 enddef;
+vardef sh(expr x) = (E**x - E**(-x))/2 enddef;
+vardef th(expr x) = (E**(2*x) - 1)/(E**(2*x) + 1) enddef;
+
+vardef arcsin(expr t) = angle((sqrt(1-t**2),t)) / 180 * Pi enddef;
+vardef arccos(expr t) = angle(t,(sqrt(1-t**2))) / 180 * Pi enddef;
+vardef arctan(expr t) = angle(1,t) / 180 * Pi enddef;
+
+endinput
\ No newline at end of file
diff --git a/gdd-lbl.mp b/gdd-lbl.mp
new file mode 100644
index 0000000..f9b4a74
--- /dev/null
+++ b/gdd-lbl.mp
@@ -0,0 +1,72 @@
+string lblPreambule, lblLocal;
+lblPreambule := "\usepackage[frenchb]{babel}\usepackage[garamond]{mathdesign}\usepackage{amsmath}\usepackage{mflogo}";
+lblLocal     := "";
+
+string lblS[];
+lblS[0] = "alpha";
+lblS[1] = "beta";
+lblS[2] = "gamma";
+lblS[3] = "delta";
+lblN    = 3;
+
+vardef scanchaine_label(expr s) =
+  save d,m,f,c,l,flag,i; string d,m,f,c;
+  d := ""; m := ""; f := "";
+  l = length(s); flag := 0;
+  for i:=0 upto l:
+    c := substring (i,i+1) of s;
+    if c = "'":
+      f := f & c; flag := 2;
+    elseif c = "_":
+      flag := 1;
+    else:
+      if flag = 0:
+        d := d & c
+      else:
+        m := m & c
+      fi;
+    fi
+  endfor;
+  for i:=0 upto lblN:
+    if d = lblS[i]: d := "\" & d fi
+  endfor;
+  d := d & "_{" & m & "}" & f; d
+enddef;
+
+vardef lTEX primary s =
+  write "verbatimtex" to "mptextmp.mp";
+  write "%&latex" to "mptextmp.mp";
+  write "\documentclass{article}" to "mptextmp.mp";
+  write lblPreambule to "mptextmp.mp";
+  write lblLocal to "mptextmp.mp";
+  write "\begin{document}" to "mptextmp.mp";
+  write "etex" to "mptextmp.mp";
+  write "btex $"& scanchaine_label(s) &"$ etex" to "mptextmp.mp";
+  write EOF to "mptextmp.mp";
+  scantokens "input mptextmp"
+enddef;
+
+vardef TEX primary s =
+  write "verbatimtex" to "mptextmp.mp";
+  write "%&latex" to "mptextmp.mp";
+  write "\documentclass{article}" to "mptextmp.mp";
+  write lblPreambule to "mptextmp.mp";
+  write lblLocal to "mptextmp.mp";
+  write "\begin{document}" to "mptextmp.mp";
+  write "etex" to "mptextmp.mp";
+  write "btex "& s &" etex" to "mptextmp.mp";
+  write EOF to "mptextmp.mp";
+  scantokens "input mptextmp"
+enddef;
+
+
+vardef Etiquette.@#(expr s,t,p) = label.@#(TEX(s) scaled t,p gddEnPlace) enddef;
+
+
+
+vardef FICHIER primary s =
+    save _s; string _s; _s = "input " & s;
+    scantokens _s
+enddef;
+
+endinput
\ No newline at end of file
diff --git a/gdd-plt.mp b/gdd-plt.mp
new file mode 100644
index 0000000..8e8d288
--- /dev/null
+++ b/gdd-plt.mp
@@ -0,0 +1,65 @@
+if unknown Pi: input gdd-fct; fi;
+if unknown repSavePict: input gdd-rep; fi;
+
+%
+% Courbe paramétrée
+% ------------------------------------------------------------------------------
+vardef Courbe(suffix fx)(suffix fy)(expr ti,tf,n) =
+    save fpas; fpas := (tf-ti)/n;
+    (fx(ti),fy(ti)) for i=1 upto n: ..(fx(ti+i*fpas),fy(ti+i*fpas)) endfor
+enddef;
+
+%
+% Représentation de fonction
+% ------------------------------------------------------------------------------
+vardef Representation(suffix f)(expr ti,tf,n) =
+    save fpas;
+    fpas := (tf-ti)/n;
+    (ti,f(ti)) for i=1 upto n: ..(ti+i*fpas,f(ti+i*fpas)) endfor
+enddef;
+
+%
+% Courbe en polaire
+% ------------------------------------------------------------------------------
+vardef CourbeEnPolaires(suffix r)(expr ti,tf,n) =
+    save fpas,t;
+    fpas := (tf-ti)/n;
+    r(ti)*(cos(ti),sin(ti)) 
+    for i=1 upto n: hide(t:=ti+i*fpas) .. r(t)*(cos(t),sin(t)) endfor
+enddef;
+
+%
+% Champs de vecteurs
+% ------------------------------------------------------------------------------
+vardef ChampVecteurs(suffix f)(expr x,y,px,py,dx,couleur) =
+  for i = 0 upto (x - repXmin)/px:
+     for j = 0 upto (y - repYmin)/py:
+       drawarrow
+        (((0,0)--dx*unitvector((1,f(x-i*px,y-j*py))))
+                 shifted (x-i*px,y-j*py)) gddEnPlace
+                 withcolor couleur;
+     endfor
+     for j = 0 upto (repYmax - y)/py:
+       drawarrow
+        (((0,0)--dx*unitvector((1,f(x-i*px,y+j*py))))
+                 shifted (x-i*px,y+j*py)) gddEnPlace
+                 withcolor couleur;
+     endfor
+  endfor
+  for i = 0 upto (repXmax - x)/px:
+     for j = 0 upto (y - repYmin)/py:
+       drawarrow 
+        (((0,0)--dx*unitvector((1,f(x+i*px,y-j*py))))
+                 shifted (x+i*px,y-j*px)) gddEnPlace
+                 withcolor couleur;
+     endfor
+     for j = 0 upto (repYmax - y)/py:
+       drawarrow 
+        (((0,0)--dx*unitvector((1,f(x+i*px,y+j*py))))
+                 shifted (x+i*px,y+j*py)) gddEnPlace
+                 withcolor couleur;
+     endfor
+  endfor
+enddef;
+
+endinput;
\ No newline at end of file
diff --git a/gdd-rep.mp b/gdd-rep.mp
new file mode 100644
index 0000000..92bbf9d
--- /dev/null
+++ b/gdd-rep.mp
@@ -0,0 +1,98 @@
+picture repSavePict;
+string  repSaveW;
+
+def Repere(expr l,h,ox,oy,ux,uy) =
+  repLargeur := l; repHauteur := h;
+  repOX := ox ; repOY := oy;
+  repXmin := - ox / ux; repXmax := repXmin + l / ux;
+  repYmin := - oy / uy; repYmax := repYmin + h / uy;
+  repUX := ux; repUY := uy;
+  repSaveW := gddW;
+  gddW  := "xscaled repUX yscaled repUY shifted (repOX,repOY) scaled gddU";
+enddef;
+
+def Debut =
+  repSavePict := currentpicture; currentpicture := nullpicture;
+enddef;
+
+def repClip =
+  clip currentpicture to
+   ((0,0)--(repLargeur,0)--(repLargeur,repHauteur)--(0,repHauteur)--cycle)
+   scaled gddU;
+enddef;
+
+def repStroke (expr c) =
+  draw ((0,0)--(repLargeur,0)--(repLargeur,repHauteur)--(0,repHauteur)--cycle)
+    scaled gddU withcolor c;
+enddef;
+
+def Fin =
+    repClip; addto repSavePict also currentpicture; currentpicture := repSavePict;
+    gddW := repSaveW;
+enddef;
+
+def Axes =
+    drawarrow ((repXmin,0)--(repXmax,0)) gddEnPlace;
+    drawarrow ((0,repYmin)--(0,repYmax)) gddEnPlace;
+    label.lrt(TEX("$x$"),(repXmax,0) gddEnPlace);
+    label.ulft(TEX("$y$"),(0,repYmax) gddEnPlace);
+enddef;
+
+vardef Graduations  =
+    save xmin, xmax, ymin, ymax;
+    xmin = floor(repXmin); xmax = floor(repXmax) + 1;
+    ymin = floor(repYmin); ymax = floor(repYmax) + 1;
+    SequenceTirets((xmin,0),(1,0),(0,-4),xmax-xmin+1);
+    SequenceTirets((xmin+0.5,0),(1,0),(0,-2),xmax-xmin);
+    SequenceTirets((0,ymin),(0,1),(-4,0),ymax-ymin+1);
+    SequenceTirets((0,ymin+0.5),(0,1),(-2,0),ymax-ymin);
+enddef;
+
+def ClipRepere =
+    extra_endfig := extra_endfig & "repClip;";
+enddef;
+
+%
+% SequenceTirets
+% ------------------------------------------------------------------------------
+vardef SequenceTirets(expr o,p,t,n) text a=
+  save ot; pair ot; ot := o gddEnPlace;
+  for i:=1 upto n:
+    % tiret
+    draw ot -- (ot shifted t) a;
+    % avancement
+    ot := (o + i*p) gddEnPlace;
+  endfor
+enddef;
+
+vardef Unites(expr t) =
+  if t=1:
+    label.bot(TEX("$+1$"),(1,-(3/gddU/repUY)) gddEnPlace);
+    label.ulft(TEX("$+1$"),(-(3/gddU/repUX),1) gddEnPlace);
+  fi
+enddef;
+
+%%% ----------------------------------------------------------------------------
+%%% Grille
+%%% ----------------------------------------------------------------------------
+
+def GrilleRepere =
+  save xmin, xmax, ymin, ymax;
+  xmin = floor(repXmin); xmax = floor(repXmax) + 1;
+  ymin = floor(repYmin); ymax = floor(repYmax) + 1;
+  for i:=xmin upto xmax:
+    draw ((i,ymin)--(i,ymax)) gddEnPlace;
+  endfor;
+  for i:=ymin upto ymax:
+    draw ((xmin,i)--(xmax,i)) gddEnPlace;
+  endfor;
+enddef;
+
+%%% ----------------------------------------------------------------------------
+%%% CadreRepere
+%%% ----------------------------------------------------------------------------
+def CadreRepere = 
+  (repXmin,repYmin)--(repXmin,repYmax)--(repXmax,repYmax)--(repXmax,repYmin)--cycle
+enddef;
+
+endinput
\ No newline at end of file
diff --git a/gdd-tra.mp b/gdd-tra.mp
new file mode 100644
index 0000000..48801cd
--- /dev/null
+++ b/gdd-tra.mp
@@ -0,0 +1,44 @@
+%% === Pseudo-transparence =====================================================
+%% Code emprunté à Anthony Phan :
+%%   http://www-math.univ-poitiers.fr/~phan/metalpha.html
+
+color   gdd_tc;
+numeric gdd_ta;
+picture gdd_ap;
+
+def gdd_AlphaFill expr c =
+    gdd_ap := nullpicture;
+    gdd_AlphaPicture(currentpicture,c);
+    addto currentpicture also gdd_ap;
+enddef;
+
+vardef gdd_AlphaPicture(expr p,c) =
+    save p_; picture p_;
+    p_ := nullpicture;
+    addto p_ contour c withcolor gdd_ta[background,gdd_tc];
+    for p__ within p:
+      if (not clipped p__) and (not bounded p__):
+        addto p_ also p__ withcolor
+         gdd_ta[(redpart p__,greenpart p__,bluepart p__), gdd_tc];
+      else:
+        begingroup save gdd_ap;
+         picture gdd_ap; gdd_ap = nullpicture;
+         gdd_AlphaPicture(p__,pathpart p__);
+         addto p_ also gdd_ap;
+        endgroup;
+      fi
+    endfor;
+    clip p_ to c;
+    addto gdd_ap also p_;
+enddef;
+
+vardef ColorieAvecTransparence(expr p,c,a)  =
+    gdd_tc := c; gdd_ta := a;
+    if path p:
+      gdd_AlphaFill (p gddEnPlace)
+    else:
+      gdd_AlphaFill ((gddTraceObjet p) gddEnPlace)
+    fi
+enddef;
+
+endinput;
\ No newline at end of file
diff --git a/gdd.mp b/gdd.mp
new file mode 100644
index 0000000..4cd4fe2
--- /dev/null
+++ b/gdd.mp
@@ -0,0 +1,328 @@
+input graph;
+
+%%% ----------------------------------------------------------------------------
+%%% Déclarations
+%%% ----------------------------------------------------------------------------
+
+numeric gddA[];
+numeric gddB[];
+numeric gddC[];
+numeric gddD[];
+numeric gddE[];
+numeric gddF[];
+picture gddL[];         % Table des labels TeX (btex .. etex)
+numeric gddO;           % Compteur des objets
+path    gddP[];         % Table des chemins (paths internes)
+string  gddS[];         % Table des chaînes (noms de fichiers)
+string  gddT[];         % Table des types
+numeric gddU;           % Unité graphique
+string  gddW;           % Chaîne spécifiant le placement des objets
+
+%%% ----------------------------------------------------------------------------
+%%% Initialisations
+%%% ----------------------------------------------------------------------------
+
+% Initialisation de gddO -------------------------------------------------------
+gddO := 0;
+
+% Valeur par défaut de gddU ----------------------------------------------------
+gddU := 1cm;
+
+% Initialisation de gddW et procédure associée ---------------------------------
+gddW = "scaled gddU";
+def gddEnPlace = scantokens gddW enddef;
+
+%%% ----------------------------------------------------------------------------
+%%% Définition des objets
+%%% ----------------------------------------------------------------------------
+
+% Point ------------------------------------------------------------------------
+vardef Point(expr a,b) =
+  gddT[incr gddO] = "point";
+  gddA[gddO] = a; gddB[gddO] = b; gddO
+enddef;
+
+vardef PointDansRepere(expr x,y,o,i,j) =
+  gddT[incr gddO] = "point";
+  gddA[gddO] = gddA[o] + x*(gddA[i]-gddA[o]) + y*(gddA[j]-gddA[o]);
+  gddB[gddO] = gddB[o] + x*(gddB[i]-gddB[o]) + y*(gddB[j]-gddB[o]);
+  gddO
+enddef;
+
+vardef CoordonneesRepere(expr m,o,i,j) =
+  save x,y; numeric x,y;
+  gddA[m] = (gddA[i]-gddA[o])*x + (gddA[j]-gddA[o])*y + gddA[o];
+  gddB[m] = (gddB[i]-gddB[o])*x + (gddB[j]-gddB[o])*y + gddB[o];
+  (x,y)
+enddef;
+
+vardef Milieu(expr a,b) =
+  gddT[incr gddO] = "point";
+  gddA[gddO] = 0.5*(gddA[a]+gddA[b]);
+  gddB[gddO] = 0.5*(gddB[a]+gddB[b]);
+  gddO
+enddef;
+
+% Transformations pair <-> Point -----------------------------------------------
+def PointTOPair(expr a) = (gddA[a],gddB[a]) enddef;
+def PairTOPoint(expr p) = Point(xpart p,ypart p) enddef;
+def PairImp(expr a) = if pair a: a else: PointTOPair(a) fi enddef;
+def PointImp(expr a) = if pair a: PairTOPoint(a) else: a fi enddef;
+def Pt(expr a) = (gddA[a],gddB[a]) enddef;
+def PtR(expr a) = (gddA[a],gddB[a]) gddEnPlace enddef;
+
+
+% Addition ---------------------------------------------------------------------
+vardef AdditionAbscisses(expr a,b) = if pair a: xpart a else: gddA[a] fi + if pair b: xpart b else: gddA[b] fi enddef;
+vardef AdditionOrdonnees(expr a,b) = if pair a: ypart a else: gddB[a] fi + if pair b: ypart b else: gddB[b] fi enddef;
+vardef Addition(expr a,b) =
+  gddT[incr gddO] = "paire";
+  gddA[gddO] = AdditionAbscisses(a,b);
+  gddB[gddO] = AdditionOrdonnees(a,b);
+  gddO
+enddef;
+
+% Vecteur ----------------------------------------------------------------------
+vardef Vecteur (expr a,b) =
+  save n; n = incr gddO;
+  gddT[n] = "vecteur"; gddA[n] = PointImp(a); gddB[n] = PointImp(b); n
+enddef;
+
+
+% Segment ----------------------------------------------------------------------
+vardef Segment (expr a,b) =
+  save n; n = incr gddO;
+  gddT[n] = "segment"; gddA[n] = PointImp(a); gddB[n] = PointImp(b); n
+enddef;
+
+% Triangle ---------------------------------------------------------------------
+vardef Triangle (expr a,b,c) =
+  save n; n = incr gddO; gddT[n] = "triangle";
+  gddA[n] = PointImp(a); gddB[n] = PointImp(b); gddC[n] = PointImp(c); n
+enddef;
+
+% Droite -----------------------------------------------------------------------
+vardef Droite (expr a,b) =
+  save n; n = incr gddO;
+  gddT[n] = "droite"; gddA[n] = PointImp(a); gddB[n] = PointImp(b); n
+enddef;
+
+% Équation de droite : triplet (u,v,w) tel que ux+vy+w=0 -----------------------
+% L'équation rendue est normalisée !
+vardef EquationDroite(expr d) =
+  save u, v, w, n;
+  u := gddB[gddB[d]] - gddB[gddA[d]];
+  v := gddA[gddA[d]] - gddA[gddB[d]];
+  w := - u * gddA[gddA[d]] - v * gddB[gddA[d]];
+  n := u ++ v;
+  (u/n,v/n,w/n)
+enddef;
+
+% Ordonnée relative à une droite orientée --------------------------------------
+vardef OrdonneeRelativePointDroite(expr p, d) =
+  savec u, v, w;
+  (u,v,w) = EquationDroite(d);
+  u * gddA[p] + v * gddB[p] + w
+enddef;
+
+% Distance d'un point à une droite ---------------------------------------------
+def DistancePointDroite(expr p, d) =
+  abs(OrdonneeRelativePointDroite(p, d))
+enddef;
+
+% Projection d'un point sur une droite -----------------------------------------
+vardef ProjectionPointSurDroite(expr p, d) =
+  save u,v,w, l;
+  (u,v,w) = EquationDroite(d);
+  l := - u * gddA[p] - v * gddB[p] - w;
+  Point(gddA[p] + l * u, gddB[p] + l * v)
+enddef;
+
+% Cercles ----------------------------------------------------------------------
+vardef Cercle (expr a,b) =
+    save n; n = incr gddO;
+    gddT[n] = "cercle"; gddA[n] = PointImp(a); gddB[n] = b; n
+enddef;
+
+vardef CercleCP(expr a,b) = Cercle(a,abs(Pt(a)-Pt(b))) enddef;
+vardef CercleD(expr a,b) = CercleCP(Milieu(a,b),a) enddef;
+
+% Tangente commune extérieure à deux cercles -----------------------------------
+vardef TangenteCommuneExterieure(expr a, b) =
+  save O, A, d, f; pair O, A;
+  O = (gddB[a]/(gddB[a]-gddB[b]))[Pt(gddA[a]),Pt(gddA[b])]; % Centre de l'homothétie
+  d = abs(O-Pt(gddA[a]));
+  f := if gddA[a] < gddA[b] : 1 else: -1 fi;
+  A = Pt(gddA[a]) rotatedaround(O,angle(d+-+gddB[a],f*gddB[a]));
+  Droite(O,A)
+enddef;
+
+% Intersection de deux cercles -------------------------------------------------
+vardef IntersectionCercles(expr a, b) =
+  save d, x, y, u; pair u;
+  u = unitvector(Pt(gddA[b])-Pt(gddA[a]));
+  d = abs(Pt(gddA[a])-Pt(gddA[b]));
+  x = (gddB[a]**2-gddB[b]**2+d**2)/(2d);
+  y = gddB[a]+-+x;
+  PairTOPoint(Pt(gddA[a])+x*u+y*(u rotated 90))
+enddef;
+
+
+% Chemin -----------------------------------------------------------------------
+vardef Chemin (expr p) =
+    gddT[incr gddO] = "chemin"; gddP[gddO] = p; gddO
+enddef;
+
+% Courbe -----------------------------------------------------------------------
+vardef Courbe (expr s) =
+    gddT[incr gddO] = "courbe"; gddS[gddO] = s; gddO
+enddef;
+
+%%% ----------------------------------------------------------------------------
+%%% Définitions liées au repère
+%%% ----------------------------------------------------------------------------
+
+% Définition de l'origine ------------------------------------------------------
+origine = Point(0,0);
+
+% Définition des axes ----------------------------------------------------------
+AxeOx = Droite(origin,right);
+AxeOy = Droite(origin,up);
+
+%%% ----------------------------------------------------------------------------
+%%% Calculs MetaPost
+%%% ----------------------------------------------------------------------------
+
+vardef mpIntersectionDroites (expr a,b,c,d) =
+    save t; pair t; t = whatever [a,b]; t = whatever [c,d]; t
+enddef;
+
+%%% --------------------------------------------------------------------------
+%%% Tracés des courbes
+%%% --------------------------------------------------------------------------
+vardef gddTraceCourbe (expr f) =
+    save s; gdata(f, s, if i>1:..fi (scantokens s1,scantokens s2))
+enddef;
+
+%%% ----------------------------------------------------------------------------
+%%% Tracés des objets
+%%% ----------------------------------------------------------------------------
+
+gddExtensionDroite := 10;
+
+def gddTraceObjet expr o =
+  if gddT[o] = "triangle":
+    PointTOPair(gddA[o])--PointTOPair(gddB[o])--
+    PointTOPair(gddC[o])--cycle
+  elseif (gddT[o] = "segment") or (gddT[o] = "vecteur"):
+    PointTOPair(gddA[o])--PointTOPair(gddB[o])
+  elseif gddT[o] = "droite":
+    (gddExtensionDroite [ PointTOPair(gddA[o]), PointTOPair(gddB[o]) ]) --
+    (gddExtensionDroite [ PointTOPair(gddB[o]), PointTOPair(gddA[o]) ])
+  elseif gddT[o] = "cercle":
+    fullcircle scaled (gddB[o]*2) shifted PointTOPair(gddA[o])
+  elseif gddT[o] = "chemin":
+    gddP[o]
+  elseif gddT[o] = "courbe":
+    gddTraceCourbe (gddS[o] & ".dta")
+  fi
+enddef;
+
+def trace expr p =
+  if path p or picture p or pair p: draw (p)
+  elseif gddT[p] = "vecteur": drawarrow (gddTraceObjet p)
+  else: draw (gddTraceObjet p)
+  fi gddEnPlace
+enddef;
+
+def fleche expr p =
+  if path p or picture p: drawarrow (p)
+  elseif gddT[p] = "vecteur": drawarrow (gddTraceObjet p)
+  else: drawarrow (gddTraceObjet p)
+  fi gddEnPlace
+enddef;
+
+def colorie expr p =
+  if path p: fill p else: fill (gddTraceObjet p) fi gddEnPlace
+enddef;
+
+def fermeture expr p =
+  if path p: p else: (gddTraceObjet p) fi -- cycle
+enddef;
+
+
+%%% --------------------------------------------------------------------------
+%%% Marque et label des points
+%%% --------------------------------------------------------------------------
+gddTaillePoint  := 3;                % Diamètre des cercles marquant un point.
+color gddCouleurPoint;               % Couleur de fond de la marque d'un point.
+gddCouleurPoint := white;
+gddTailleLabel  := 1.5;              % Taille d'un label.
+
+
+def gddPointe(expr p) =
+  fill (fullcircle scaled gddTaillePoint) shifted (p gddEnPlace) 
+    withcolor gddCouleurPoint;
+  draw (fullcircle scaled gddTaillePoint) shifted (p gddEnPlace)
+enddef;
+
+def pointe expr p = gddPointe(if pair p: p else: PointTOPair(p) fi) enddef;
+
+vardef m_arque.@# expr p =
+    pointe p;
+    label.@#(gddL[p] scaled gddTailleLabel,PointTOPair(p) gddEnPlace);
+enddef;
+
+vardef m_a_rque.@# expr p = 
+    pointe(scantokens p);
+    label.@#(lTEX(p),PointTOPair(scantokens p) gddEnPlace);
+enddef;
+
+vardef marque.@# expr p =
+   if string p: m_a_rque.@# p else: m_arque.@# p fi
+enddef;
+
+%%% --------------------------------------------------------------------------
+%%% Signes
+%%% --------------------------------------------------------------------------
+def SigneOrtho(expr a,b,c,x) =
+  (_point_(b) + x * unitvector(_point_(a)-_point_(b)))
+   -- (_point_(b) + x * unitvector(_point_(a) - _point_(b)) 
+   + x * unitvector(_point_(c) - _point_(b)))
+   -- (_point_(b) + x * unitvector(_point_(c) - _point_(b)))
+enddef;
+
+picture gdd_marque[];
+gdd_marque1 = image(draw (-7,-7)--(7,7));
+gdd_marque2 = image(draw (-7,-7)--(7,7); draw (-7,7)--(7,-7));
+gdd_marque3 = image(draw (-9,-7)--(5,7); draw (-5,-7)--(9,7);
+  draw (-7,7)--(7,-7));
+gdd_marque4 = image(draw (-9,-7)--(5,7); draw (-5,-7)--(9,7);
+  draw (-9,7)--(5,-7); draw (-5,7)--(9,-7));
+
+def Marque(expr a,b,n) =
+  gdd_marque[n] rotated angle(PairImp(b)-PairImp(a)) scaled (0.5/gddU)
+   shifted 0.5[PairImp(a),PairImp(b)]
+enddef;
+
+%%% --------------------------------------------------------------------------
+%%% Fenêtrage
+%%% --------------------------------------------------------------------------
+
+def Fenetre(expr xg,yg,xd,yd) =
+  gddXG := xg;
+  gddYB := yg;
+  gddXD := xd;
+  gddYH := yd;
+  extra_endfig := "gddFenetre;" & extra_endfig;
+enddef;
+
+def gddFenetre =
+  clip currentpicture to
+   ((gddXG,gddYB)--(gddXG,gddYH)--(gddXD,gddYH)--(gddXD,gddYB)--cycle)
+   gddEnPlace;
+  draw ((gddXG,gddYB)--(gddXG,gddYH)--(gddXD,gddYH)--(gddXD,gddYB)--cycle)
+   gddEnPlace withpen pencircle scaled 1 withcolor white;
+enddef;
+
+endinput
\ No newline at end of file
-- 
2.20.1