From 3710c23789342d9d88783cbe9ad23eb5263a7c33 Mon Sep 17 00:00:00 2001 From: Norbert Preining Date: Fri, 7 Aug 2020 03:02:55 +0000 Subject: CTAN sync 202008070302 --- graphics/asymptote/base/palette.asy | 70 ++++++++++++++++++------------------- 1 file changed, 35 insertions(+), 35 deletions(-) (limited to 'graphics/asymptote/base/palette.asy') diff --git a/graphics/asymptote/base/palette.asy b/graphics/asymptote/base/palette.asy index e77fa946e6..e3d6218312 100644 --- a/graphics/asymptote/base/palette.asy +++ b/graphics/asymptote/base/palette.asy @@ -5,7 +5,7 @@ private transform swap=(0,0,0,1,1,0); typedef bounds range(picture pic, real min, real max); range Range(bool automin=false, real min=-infinity, - bool automax=false, real max=infinity) + bool automax=false, real max=infinity) { return new bounds(picture pic, real dmin, real dmax) { // autoscale routine finds reasonable limits @@ -45,7 +45,7 @@ void image(frame f, pen[][] data, pair initial, pair final, // Reduce color palette to approximate range of data relative to "display" // range => errors of 1/palette.length in resulting color space. pen[] adjust(picture pic, real min, real max, real rmin, real rmax, - pen[] palette) + pen[] palette) { real dmin=pic.scale.z.T(min); real dmax=pic.scale.z.T(max); @@ -100,7 +100,7 @@ bounds image(picture pic=currentpicture, real[][] f, range range=Full, initial=T*initial; final=T*final; } - + pic.add(new void(frame F, transform t) { _image(F,f,initial,final,palette,t*T,copy=false,antialias=antialias); },true); @@ -146,7 +146,7 @@ void image(picture pic=currentpicture, pen[][] data, pair initial, pair final, initial=T*initial; final=T*final; } - + pic.add(new void(frame F, transform t) { _image(F,data,initial,final,t*T,copy=false,antialias=antialias); },true); @@ -171,7 +171,7 @@ void image(picture pic=currentpicture, pen f(int, int), int width, int height, initial=T*initial; final=T*final; } - + pic.add(new void(frame F, transform t) { _image(F,f,width,height,initial,final,t*T,antialias=antialias); },true); @@ -267,20 +267,20 @@ paletteticks PaletteTicks(Label format="", ticklabel ticklabel=null, return Ticks(sign,format,ticklabel,beginlabel,endlabel,N,n,Step,step, true,true,extend=true,pTick,ptick); }; -} +} paletteticks PaletteTicks=PaletteTicks(); paletteticks NoTicks=new ticks(int sign=-1) {return NoTicks;}; -void palette(picture pic=currentpicture, Label L="", bounds bounds, - pair initial, pair final, axis axis=Right, pen[] palette, +void palette(picture pic=currentpicture, Label L="", bounds bounds, + pair initial, pair final, axis axis=Right, pen[] palette, pen p=currentpen, paletteticks ticks=PaletteTicks, bool copy=true, bool antialias=false) { real initialz=pic.scale.z.T(bounds.min); real finalz=pic.scale.z.T(bounds.max); bounds mz=autoscale(initialz,finalz,pic.scale.z.scale); - + axisT axis; axis(pic,axis); real angle=degrees(axis.align.dir); @@ -311,11 +311,11 @@ void palette(picture pic=currentpicture, Label L="", bounds bounds, if(vertical && L.defaulttransform) { frame f; add(f,Label(L.s,(0,0),L.p)); - if(length(max(f)-min(f)) > ylabelwidth*fontsize(L.p)) + if(length(max(f)-min(f)) > ylabelwidth*fontsize(L.p)) L.transform(rotate(90)); } real[][] pdata={sequence(palette.length)}; - + transform T; pair Tinitial,Tfinal; if(vertical) { @@ -326,12 +326,12 @@ void palette(picture pic=currentpicture, Label L="", bounds bounds, Tinitial=initial; Tfinal=final; } - + pic.add(new void(frame f, transform t) { _image(f,pdata,Tinitial,Tfinal,palette,t*T,copy=false, antialias=antialias); },true); - + ticklocate locate=ticklocate(initialz,finalz,pic.scale.z,mz.min,mz.max); axis(pic,L,g,g2,p,ticks(sgn(axis.side.x*dot(lambda,par))),locate,mz.divisor, true); @@ -356,13 +356,13 @@ pen[] Grayscale(int NColors=256) pen[] Wheel(int NColors=32766) { if(settings.gray) return Grayscale(NColors); - + int nintervals=6; if(NColors <= nintervals) NColors=nintervals+1; int n=-quotient(NColors,-nintervals); - + pen[] Palette; - + Palette=new pen[n*nintervals]; real ninv=1.0/n; @@ -373,7 +373,7 @@ pen[] Wheel(int NColors=32766) Palette[n+i]=rgb(ininv1,0.0,1.0); Palette[2n+i]=rgb(0.0,ininv,1.0); Palette[3n+i]=rgb(0.0,1.0,ininv1); - Palette[4n+i]=rgb(ininv,1.0,0.0); + Palette[4n+i]=rgb(ininv,1.0,0.0); Palette[5n+i]=rgb(1.0,ininv1,0.0); } return Palette; @@ -383,14 +383,14 @@ pen[] Wheel(int NColors=32766) pen[] Rainbow(int NColors=32766) { if(settings.gray) return Grayscale(NColors); - + int offset=1; int nintervals=5; if(NColors <= nintervals) NColors=nintervals+1; int n=-quotient(NColors-1,-nintervals); - + pen[] Palette; - + Palette=new pen[n*nintervals+offset]; real ninv=1.0/n; @@ -400,37 +400,37 @@ pen[] Rainbow(int NColors=32766) Palette[i]=rgb(ininv1,0.0,1.0); Palette[n+i]=rgb(0.0,ininv,1.0); Palette[2n+i]=rgb(0.0,1.0,ininv1); - Palette[3n+i]=rgb(ininv,1.0,0.0); + Palette[3n+i]=rgb(ininv,1.0,0.0); Palette[4n+i]=rgb(1.0,ininv1,0.0); } Palette[4n+n]=rgb(1.0,0.0,0.0); - + return Palette; } private pen[] BWRainbow(int NColors, bool two) { if(settings.gray) return Grayscale(NColors); - + int offset=1; int nintervals=6; int divisor=3; - + if(two) nintervals += 6; - + int Nintervals=nintervals*divisor; if(NColors <= Nintervals) NColors=Nintervals+1; int num=NColors-offset; int n=-quotient(num,-Nintervals)*divisor; NColors=n*nintervals+offset; - + pen[] Palette; - + Palette=new pen[NColors]; real ninv=1.0/n; int k=0; - + if(two) { for(int i=0; i < n; ++i) { real ininv=i*ninv; @@ -444,9 +444,9 @@ private pen[] BWRainbow(int NColors, bool two) } k += 6n; } - + if(two) - for(int i=0; i < n; ++i) + for(int i=0; i < n; ++i) Palette[k+i]=rgb(1.0-i*ninv,0.0,1.0); else { int n3=-quotient(n,-3); @@ -467,12 +467,12 @@ private pen[] BWRainbow(int NColors, bool two) real ininv1=1.0-ininv; Palette[k+i]=rgb(0.0,ininv,1.0); Palette[k+n+i]=rgb(0.0,1.0,ininv1); - Palette[k+2n+i]=rgb(ininv,1.0,0.0); + Palette[k+2n+i]=rgb(ininv,1.0,0.0); Palette[k+3n+i]=rgb(1.0,ininv1,0.0); Palette[k+4n+i]=rgb(1.0,ininv,ininv); } Palette[k+5n]=rgb(1.0,1.0,1.0); - + return Palette; } @@ -484,7 +484,7 @@ pen[] quantize(pen[] Palette, int n) real step=(Palette.length-1)/(n-1); return sequence(new pen(int i) { return Palette[round(i*step)]; - },n); + },n); } // A rainbow palette tapering off to black/white at the spectrum ends, @@ -507,7 +507,7 @@ pen[] BWRainbow2(int NColors=32761) //A palette varying linearly over the specified array of pens, using // NColors in each interpolation interval. -pen[] Gradient(int NColors=256 ... pen[] p) +pen[] Gradient(int NColors=256 ... pen[] p) { pen[] P; if(p.length < 2) abort("at least 2 colors must be specified"); @@ -522,7 +522,7 @@ pen[] Gradient(int NColors=256 ... pen[] p) return P; } -pen[] cmyk(pen[] Palette) +pen[] cmyk(pen[] Palette) { int n=Palette.length; for(int i=0; i < n; ++i) -- cgit v1.2.3