187 lines
6.4 KiB
C++
187 lines
6.4 KiB
C++
/*
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* Copyright 2017 Google Inc.
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#include "gm.h"
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#include "sk_tool_utils.h"
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// Hue, Saturation, Color, and Luminosity blend modes are oddballs.
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// They nominally convert their inputs to unpremul, then to HSL, then
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// mix-and-match H,S,and L from Src and Dst, then convert back, then premul.
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//
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// In practice that's slow, so instead we pick the color with the correct
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// Hue, and then (approximately) apply the other's Saturation and/or Luminosity.
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// This isn't just an optimization... it's how the modes are specified.
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//
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// Each mode's name describes the Src H,S,L components to keep, taking the
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// others from Dst, where Color == Hue + Saturation. Color and Luminosity
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// are each other's complements; Hue and Saturation have no complement.
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//
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// All these modes were originally designed to operate on gamma-encoded values,
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// and that's what everyone's used to seeing. It's unclear wehther they make
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// any sense in a gamma-correct world. They certainly won't look at all similar.
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//
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// We have had many inconsistent implementations of these modes.
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// This GM tries to demonstrate unambigously how they should work.
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//
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// To go along with our inconsistent implementations, there are two slightly
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// inconsistent specifications of how to perform these blends,
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// web: https://www.w3.org/TR/compositing-1/#blendingnonseparable
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// KHR: https://www.khronos.org/registry/OpenGL/extensions/KHR/KHR_blend_equation_advanced.txt
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// It looks like these are meant to be identical, but they disagree on at least ClipColor().
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//
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// I think the KHR version is just wrong... it produces values >1. So we use the web version.
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static float min(float r, float g, float b) { return SkTMin(r, SkTMin(g, b)); }
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static float max(float r, float g, float b) { return SkTMax(r, SkTMax(g, b)); }
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static float sat(float r, float g, float b) { return max(r,g,b) - min(r,g,b); }
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static float lum(float r, float g, float b) { return r*0.30f + g*0.59f + b*0.11f; }
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// The two SetSat() routines in the specs look different, but they're logically equivalent.
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// Both map the minimum channel to 0, maximum to s, and scale the middle proportionately.
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// The KHR version has done a better job at simplifying its math, so we use it here.
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static void set_sat(float* r, float* g, float* b, float s) {
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float mn = min(*r,*g,*b),
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mx = max(*r,*g,*b);
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auto channel = [=](float c) {
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return mx == mn ? 0
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: (c - mn) * s / (mx - mn);
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};
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*r = channel(*r);
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*g = channel(*g);
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*b = channel(*b);
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}
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static void clip_color(float* r, float* g, float* b) {
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float l = lum(*r,*g,*b),
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mn = min(*r,*g,*b),
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mx = max(*r,*g,*b);
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auto clip = [=](float c) {
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if (mn < 0) { c = l + (c - l) * ( l) / (l - mn); }
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if (mx > 1) { c = l + (c - l) * (1 - l) / (mx - l); }
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SkASSERT(-0.0001f < c); // This may end up very slightly negative...
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SkASSERT( c <= 1);
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return c;
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};
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*r = clip(*r);
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*g = clip(*g);
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*b = clip(*b);
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}
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static void set_lum(float* r, float* g, float* b, float l) {
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float diff = l - lum(*r,*g,*b);
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*r += diff;
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*g += diff;
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*b += diff;
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clip_color(r,g,b);
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}
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static void hue(float dr, float dg, float db,
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float* sr, float* sg, float* sb) {
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// Hue of Src, Saturation and Luminosity of Dst.
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float R = *sr,
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G = *sg,
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B = *sb;
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set_sat(&R,&G,&B, sat(dr,dg,db));
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set_lum(&R,&G,&B, lum(dr,dg,db));
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*sr = R;
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*sg = G;
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*sb = B;
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}
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static void saturation(float dr, float dg, float db,
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float* sr, float* sg, float* sb) {
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// Saturation of Src, Hue and Luminosity of Dst
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float R = dr,
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G = dg,
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B = db;
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set_sat(&R,&G,&B, sat(*sr,*sg,*sb));
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set_lum(&R,&G,&B, lum( dr, dg, db)); // This may seem redundant, but it is not.
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*sr = R;
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*sg = G;
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*sb = B;
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}
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static void color(float dr, float dg, float db,
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float* sr, float* sg, float* sb) {
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// Hue and Saturation of Src, Luminosity of Dst.
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float R = *sr,
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G = *sg,
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B = *sb;
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set_lum(&R,&G,&B, lum(dr,dg,db));
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*sr = R;
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*sg = G;
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*sb = B;
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}
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static void luminosity(float dr, float dg, float db,
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float* sr, float* sg, float* sb) {
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// Luminosity of Src, Hue and Saturation of Dst.
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float R = dr,
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G = dg,
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B = db;
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set_lum(&R,&G,&B, lum(*sr,*sg,*sb));
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*sr = R;
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*sg = G;
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*sb = B;
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}
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static SkColor blend(SkColor dst, SkColor src,
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void (*mode)(float,float,float, float*,float*,float*)) {
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SkASSERT(SkColorGetA(dst) == 0xff
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&& SkColorGetA(src) == 0xff); // Not fundamental, just simplifying for this GM.
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SkColor4f d = SkColor4f::FromColor(dst),
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s = SkColor4f::FromColor(src);
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mode( d.fR, d.fG, d.fB,
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&s.fR, &s.fG, &s.fB);
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return s.toSkColor();
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}
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DEF_SIMPLE_GM(hsl, canvas, 600, 100) {
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SkPaint paint;
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SkFont font(sk_tool_utils::create_portable_typeface());
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const char* comment = "HSL blend modes are correct when you see no circles in the squares.";
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canvas->drawString(comment, 10,10, font, paint);
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// Just to keep things reaaaal simple, we'll only use opaque colors.
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SkPaint bg, fg;
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bg.setColor(0xff00ff00); // Fully-saturated bright green, H = 120°, S = 100%, L = 50%.
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fg.setColor(0xff7f3f7f); // Partly-saturated dim magenta, H = 300°, S = ~33%, L = ~37%.
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struct {
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SkBlendMode mode;
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void (*reference)(float,float,float, float*,float*,float*);
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} tests[] = {
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{ SkBlendMode::kSrc, nullptr },
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{ SkBlendMode::kDst, nullptr },
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{ SkBlendMode::kHue, hue },
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{ SkBlendMode::kSaturation, saturation },
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{ SkBlendMode::kColor, color },
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{ SkBlendMode::kLuminosity, luminosity },
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};
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for (auto test : tests) {
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canvas->drawRect({20,20,80,80}, bg);
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fg.setBlendMode(test.mode);
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canvas->drawRect({20,20,80,80}, fg);
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if (test.reference) {
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SkPaint ref;
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ref.setColor(blend(bg.getColor(), fg.getColor(), test.reference));
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canvas->drawCircle(50,50, 20, ref);
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}
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canvas->drawString(SkBlendMode_Name(test.mode), 20, 90, font, paint);
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canvas->translate(100,0);
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}
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}
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