From b2e42540e2925d79f4b4613894cd1f59d15b4ca7 Mon Sep 17 00:00:00 2001 From: Karl Berry Date: Tue, 17 Mar 2020 21:35:46 +0000 Subject: rm pst-spirograph, removed from ctan git-svn-id: svn://tug.org/texlive/trunk@54382 c570f23f-e606-0410-a88d-b1316a301751 --- .../dvips/pst-spirograph/pst-spirograph.pro | 414 --------------------- 1 file changed, 414 deletions(-) delete mode 100644 Master/texmf-dist/dvips/pst-spirograph/pst-spirograph.pro (limited to 'Master/texmf-dist/dvips') diff --git a/Master/texmf-dist/dvips/pst-spirograph/pst-spirograph.pro b/Master/texmf-dist/dvips/pst-spirograph/pst-spirograph.pro deleted file mode 100644 index 59f31ba3024..00000000000 --- a/Master/texmf-dist/dvips/pst-spirograph/pst-spirograph.pro +++ /dev/null @@ -1,414 +0,0 @@ -%% $Id: pst-spirograph.pro 1160 2020-03-14 14:08:31Z herbert $ -%% -% PostScript prologue for pst-spirograph.tex. -% -% Version 0.51, 2020/03/14 -% -/tx@spirographDict 50 dict def -tx@spirographDict begin -/coorPen { - 1 dict begin - /t exch def - r2 qi t cos mul ki qi t mul 60 ni mul sub cos mul add mul cm - r2 qi t sin mul ki qi t mul 60 ni mul sub sin mul sub mul cm - end -} def -/coorPen2 { - 1 dict begin - /t exch def - r2 qi2 t cos mul ki qi2 t mul 60 ni mul neg 180 Z2 div sub sub cos mul sub mul cm - r2 qi2 t sin mul ki qi2 t mul 60 ni mul neg 180 Z2 div sub sub sin mul sub mul cm - end -} def -/Datas1 { - /Z@ exch def - /m@ exch def - /R@ { m@ Z@ mul 2 div } bind def % cercle primitif - /Rb { R@ ap cos mul } bind def % cercle de base - /Rp { R@ 2 mul 2.5 m@ mul sub 2 div } bind def % cercle de pied - /Rt { R@ 2 mul 2 m@ mul add 2 div } bind def % cercle de tète -} def -/Datas2 { - /Z@ exch def - /m@ exch def - /R@ { m@ Z@ mul 2 div } bind def % cercle primitif - /Rb { R@ ap cos mul } bind def % cercle de base - /Rp { R@ 2 mul 2 m@ mul sub 2 div } bind def % cercle de pied - /Rt { R@ 2 mul 2.5 m@ mul add 2 div } bind def % cercle de tète -} def -/Calculs { % les valeurs suivantes sont en radians - /ThetaP {R@ Rb div dup mul 1 sub sqrt } bind def % intersection avec cercle primitif - /ThetaT {Rt Rb div dup mul 1 sub sqrt } bind def % intersection avec cercle de tete - % Les valeurs suivantes ont en degrés - /ThetaTdeg {Rt Rb div dup mul 1 sub sqrt RadtoDeg } bind def % - /ThetaPdeg {R@ Rb div dup mul 1 sub sqrt RadtoDeg } bind def - /DeltaP {ThetaPdeg sin ThetaP ThetaPdeg cos mul sub - ThetaPdeg cos ThetaP ThetaPdeg sin mul add atan } bind def - /DeltaT {ThetaTdeg sin ThetaT ThetaTdeg cos mul sub - ThetaTdeg cos ThetaT ThetaTdeg sin mul add atan } bind def - /DeltaS {Pi 2 div Z@ div } bind def - /DeltaSdeg {90 Z@ div } bind def - /AngleDent {360 Z@ div} bind def - /Alpha {DeltaSdeg DeltaP add DeltaT sub } bind def - /2Beta {DeltaSdeg DeltaP add 2 mul } bind def - /Beta_ {DeltaSdeg DeltaP add neg} bind def - /ptA { Rp cm 0} bind def - /ptB { Rb cm 0} bind def - /ptC { Rp cm DeltaSdeg 2 mul neg 2Beta 2 div add cos mul - Rp cm DeltaSdeg 2 mul neg 2Beta 2 div add sin mul} bind def - /ptA'{ Rp cm DeltaP DeltaSdeg add 2 mul cos mul - Rp cm DeltaP DeltaSdeg add 2 mul sin mul} bind def - /ptB'{ Rb cm DeltaP DeltaSdeg add 2 mul cos mul - Rb cm DeltaP DeltaSdeg add 2 mul sin mul} bind def - /ptC'{ Rp cm DeltaSdeg 3 mul DeltaP add cos mul - Rp cm DeltaSdeg 3 mul DeltaP add sin mul} bind def - /Raxe { Rp 4 div } bind def - /A@0 14.5 def % position et largeur de la clavette - % rayon de raccordement sur le cercle de pied - /Rarct {Rp Pi mul Z@ div 12 div cm} bind def -} def -% Le symetrique P' de P par rapport a la l'axe de la dent -% Delta(axe de la dent) y=x*tan(Beta) -% x'=y*sin(2*Beta)+x*cos(2*Beta) -% y'=x*sin(2*Beta)-y*cos(2*Beta) -% x y symAxe -> x' y' -/symAxe { - 2 dict begin - /y exch def - /x exch def - y 2Beta sin mul x 2Beta cos mul add % x' - x 2Beta sin mul y 2Beta cos mul sub % y' - end -} def - % -% Rotation pour amener l'axe de la dent horizontal -% -/RotDent { - 2 dict begin - /y exch def - /x exch def - i@ cos x mul i@ sin y mul sub - i@ sin x mul i@ cos y mul add - end -} def -% developpante du cercle de base -% -/Circles { - gsave - setlinedash - newpath - 0 0 R@ cm 0 360 arc - closepath - circlescolor - stroke - % on ne dessine pas le cercle de base - %newpath - %0 0 Rb cm 0 360 arc - %closepath - %stroke - grestore -} def -% -% trace des cercles -/devCercle { - 1 dict begin - /t exch def % en degres - Rb t cos t DegtoRad t sin mul add mul cm % x - Rb t sin t DegtoRad t cos mul sub mul cm % y - end -} def -%% -%%%% definition de la roue dentee %%%%%% -/Roue { - % arc de développante - /tabArcDev [ 0 1 ThetaTdeg { /i@ exch def [i@ devCercle] } for ] def - /n@ tabArcDev length def -% l'arc de developpante initial - /tabDent [ tabArcDev aload pop -% l'arc ce cercle de tete - DeltaT 0.1 2Beta DeltaT sub {/i@ exch def - [Rt cm i@ cos mul Rt cm i@ sin mul] } for -% le symetrique de l'arc de developpante par rapport a l'axe de la dent - n@ 1 sub -1 0 { /compteur exch def [tabArcDev compteur get aload pop symAxe] } for ] def -% trace de la dent - /n2@ tabDent length def - newpath - ptC moveto - 0 1 Z@ 1 sub { - /i@ exch AngleDent mul def - ifinner { - wheel 2 eq { ptA RotDent ptB RotDent Rarct arct ptB RotDent lineto } - { ptA RotDent lineto ptB RotDent lineto } ifelse - }{ - Rp Rb eq { ptA RotDent lineto ptB RotDent lineto } - { ptA RotDent ptB RotDent Rarct arct ptB RotDent lineto } ifelse - } ifelse - 0 1 n2@ 1 sub { - /compteur exch def - tabDent compteur get aload pop - RotDent lineto - } for - ifinner { - wheel 2 eq { - Rp Rb eq - { ptA' RotDent lineto ptC' RotDent lineto } - { ptA' RotDent ptC' RotDent Rarct arct ptC' RotDent lineto } ifelse - }{ ptA' RotDent lineto ptC' RotDent lineto } ifelse - }{ - Rp Rb eq - { ptA' RotDent lineto ptC' RotDent lineto } - { ptA' RotDent ptC' RotDent Rarct arct ptC' RotDent lineto } ifelse - } ifelse - } for -} def -% -% pour l'engrenage interieur -/COURONNE { 0 0 Rt 1.1 mul cm 360 0 arcn } def -% -/trous { - 1 dict begin - /a@ { R@ cm 3 div Pi div } bind def - gsave - positionAngular rotate - 0 60 540 { - /THETA exch def - untrou - 1 setgray iffill { Fill } if - untrou - linecolor - stroke - } for - grestore - end -} def -% -/untrou { - newpath - a@ THETA DegtoRad mul THETA cos mul neg - a@ THETA DegtoRad mul THETA sin mul - 0.05 cm 0 360 arc - closepath -} def -% -%%%%%%%%%% Roue No 1 %%%%%%%%%%%%%%%%% -/Roue1 { - 1 dict begin - /wheel 1 def - gsave - t@@x t@@y translate - m1 Z1 - ifinner { - Datas2 - Calculs - Beta_ rotate - Roue - COURONNE - closepath - iffill { color1 Fill } if - Roue - closepath - linecolor - stroke - COURONNE - closepath - linecolor - stroke - ifcircles { Circles } if - }{ - Datas1 - Calculs - Beta_ rotate - Roue - closepath - iffill { color1 Fill } if - Roue - closepath - linecolor - stroke - ifcircles { Circles } if - } ifelse - grestore - % dessin de l'hypocycloide ou de l'epicycloide - gsave - t@@x t@@y translate - ifinner { - tabSpirograph 0 get aload pop moveto - 1 1 nPts { - /nP exch def - tabSpirograph nP get aload pop lineto - } for - }{ - tabSpirograph2 0 get aload pop moveto - 1 1 nPts2 { - /nP exch def - tabSpirograph2 nP get aload pop lineto - } for - } ifelse - curvecolor - SetCurveWidth - stroke - grestore - end -} def -%%%%%%%%%% Roue No 2 %%%%%%%%%%%%%%%%% -/Roue2 { - 5 dict begin - /wheel 2 def - gsave - m2 Z2 Datas1 - Calculs - /a@ex m2 Z1 Z2 add mul 2 div cm def % entraxe engrenage exterieur - /a@in m2 Z1 Z2 sub mul 2 div cm def % entraxe engrenage interieur - /a@ {R@ cm 3 div 3.14159 div} bind def - ifinner{ - a@in polarAngle cos mul t@@x add a@in polarAngle sin mul t@@y add translate - Beta_ polarAngle Z1 Z2 sub Z2 div mul sub rotate - /positionAngular 2Beta 2 div def - }{ - a@ex polarAngle cos mul t@@x add a@ex polarAngle sin mul t@@y add translate - DeltaSdeg DeltaP add neg 180 Z2 div add 180 add polarAngle Z1 Z2 add Z2 div mul add rotate - /positionAngular Beta_ neg def - } ifelse - Roue - closepath - iffill { color2 Fill } if - Roue - closepath - linecolor - stroke - trous - ifcircles { Circles } if - grestore - gsave - newpath - ifinner { - a@in polarAngle cos mul t@@x add a@in polarAngle sin mul t@@y add translate - Beta_ polarAngle Z1 Z2 sub Z2 div mul sub rotate - /THETA 540 ni 60 mul sub def - positionAngular rotate - a@ THETA DegtoRad mul THETA cos mul neg - a@ THETA DegtoRad mul THETA sin mul - 0.12 cm 0 360 arc - }{ - a@ex polarAngle cos mul t@@x add a@ex polarAngle sin mul t@@y add translate - DeltaSdeg DeltaP add neg 180 Z2 div add 180 add polarAngle Z1 Z2 add Z2 div mul add rotate - /a@ {R@ cm 3 div 3.14159 div} bind def - /THETA 540 ni 60 mul sub def - positionAngular rotate - a@ THETA DegtoRad mul THETA cos mul neg - a@ THETA DegtoRad mul THETA sin mul - 0.12 cm 0 360 arc - } ifelse - closepath - curvecolor - fill - grestore - end -} def - /Roue3 { - % arc de développante - /tabArcDev [ 0 1 ThetaTdeg { /i@ exch def [i@ devCercle] } for ] def - /n@ tabArcDev length def - /tabDent [ - % l'arc de developpante initial - tabArcDev aload pop - % l'arc ce cercle de tete - DeltaT 0.1 2Beta DeltaT sub {/i@ exch def [Rt cm i@ cos mul Rt cm i@ sin mul] } for - % le symetrique de l'arc de developpante par rapport a l'axe de la dent - n@ 1 sub -1 0 { /compteur exch def [tabArcDev compteur get aload pop symAxe] } for - ] def - % tracé de la dent - /n2@ tabDent length def - newpath - ptC moveto - 0 1 Z@ 1 sub { /i@ exch AngleDent mul def - wheel 2 eq { ptA RotDent ptB RotDent Rarct arct ptB RotDent lineto } - { ptA RotDent lineto ptB RotDent lineto } ifelse - 0 1 n2@ 1 sub { /compteur exch def tabDent compteur get aload pop RotDent lineto } for - wheel 2 eq { - Rp Rb eq { ptA' RotDent lineto ptC' RotDent lineto } - { ptA' RotDent ptC' RotDent Rarct arct ptC' RotDent lineto } ifelse - } { ptA' RotDent lineto ptC' RotDent lineto } ifelse - } for - } def - %%%% fin de la definition de la roue dentee %%% - /plaquette { - Beta_ neg rotate - /alpha1 1 R1 2 mul atan 2 div def - /alpha2 1 R1 2 mul 2 m1 mul sub 2 div atan 2 div def - /xR1 R1 2 mul cm def - /yR1 0.5 cm def - /xR2 R1 2 mul cm def - /yR2 -0.5 cm def - /xR3 R1 2 mul 2 m1 mul sub 2 div R1 2 div sub cm def - /yR3 -0.5 cm def - /xR4 R1 2 mul 2 m1 mul sub 2 div R1 2 div sub cm def - /yR4 0.5 cm def - newpath - xR1 yR1 moveto - xR2 yR2 lineto - xR3 yR3 lineto - xR4 yR4 lineto - closepath - iffill { color1 Fill } if - newpath - xR1 yR1 moveto - xR2 yR2 lineto - xR3 yR3 lineto - xR4 yR4 lineto - closepath - linecolor - stroke - } def - /drawHole { - R1 cm HolePos mul 0 GetCurveWidth 1.5 mul 0 360 arc - curvecolor - fill - 0 setgray - R1 cm HolePos mul 0 GetCurveWidth 1.5 mul 0 360 arc - stroke - } def - %% calculs des points de la courbe - /coorPen3 { - 4 dict begin - /t exch def - % r2 qi t cos mul ki qi t mul 60 ni mul sub cos mul add mul cm - % r2 qi t sin mul ki qi t mul 60 ni mul sub sin mul sub mul cm - /beta t R1 R2 sub R1 div mul def - /xC R1 R2 sub t cos mul def - /yC R1 R2 sub t sin mul def - R1 HolePos mul beta cos mul xC add cm - R1 HolePos mul beta sin mul yC add cm - end - } def - /AXE { - %newpath - Raxe 4 div cm - A@0 cos Raxe mul cm moveto - 0 0 Raxe cm 90 A@0 sub 90 A@0 add arcn - Raxe 4 div cm neg - A@0 cos Raxe mul cm - lineto - Raxe 4 div cm neg - Raxe A@0 cos 0.2 add mul cm - lineto - Raxe 4 div cm - Raxe A@0 cos 0.2 add mul cm - lineto - } def - %%% clavette %%% - /CLAVETTE { - newpath - Raxe 4 div cm - A@0 cos 0.2 sub Raxe mul cm moveto - Raxe 4 div cm - Raxe A@0 cos 0.2 add mul cm lineto - Raxe 4 div cm neg - Raxe A@0 cos 0.2 add mul cm lineto - Raxe 4 div cm neg - A@0 cos 0.2 sub Raxe mul cm lineto - closepath - } def -% -end -%% \ No newline at end of file -- cgit v1.2.3