7c602de058
It will now reside in SkColorSpace_Base. Future work for SkColorSpace will cause this function to not be desirable or sensible to call on all SkColorSpaces. Call sites were changed to make a kSRGBLinear_Named instead of kSRGB_Named -> makeLinearGamma() (the majority of cases), and if that was not possible, SkColorSpace_Base::makeLinearGamma() was called instead. TBR=reed@google.com BUG=skia: GOLD_TRYBOT_URL= https://gold.skia.org/search?issue=2412613005 Review-Url: https://codereview.chromium.org/2412613005
229 lines
8.6 KiB
C++
229 lines
8.6 KiB
C++
/*
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* Copyright 2016 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 "SkColorSpace_Base.h"
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#include "SkGradientShader.h"
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#include "SkPM4fPriv.h"
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#include "SkSurface.h"
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static const int gRectSize = 50;
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static const SkScalar gScalarSize = SkIntToScalar(gRectSize);
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static const int gTestWidth = 700;
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static const int gTestHeight = 300;
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struct CellRenderer {
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virtual void draw(SkCanvas* canvas) = 0;
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virtual const char* label() = 0;
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virtual ~CellRenderer() {}
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};
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struct PaintColorCellRenderer : public CellRenderer {
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PaintColorCellRenderer(SkColor color) : fColor(color) {}
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void draw(SkCanvas* canvas) override {
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canvas->drawColor(fColor);
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}
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const char* label() override {
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return "Paint Color";
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}
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protected:
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SkColor fColor;
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};
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struct BitmapCellRenderer : public CellRenderer {
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BitmapCellRenderer(SkColor color, SkFilterQuality quality, float scale = 1.0f)
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: fQuality(quality) {
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int scaledSize = SkFloatToIntRound(scale * gRectSize);
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fBitmap.allocPixels(SkImageInfo::MakeS32(scaledSize, scaledSize, kPremul_SkAlphaType));
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fBitmap.eraseColor(color);
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const char* qualityNames[] = { "None", "Low", "Medium", "High" };
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fLabel = SkStringPrintf("Bitmap (%s)", qualityNames[quality]);
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}
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void draw(SkCanvas* canvas) override {
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SkPaint paint;
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paint.setFilterQuality(fQuality);
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canvas->drawBitmapRect(fBitmap, SkRect::MakeIWH(gRectSize, gRectSize), &paint);
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}
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const char* label() override {
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return fLabel.c_str();
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}
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protected:
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SkFilterQuality fQuality;
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SkBitmap fBitmap;
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SkString fLabel;
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};
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struct GradientCellRenderer : public CellRenderer {
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GradientCellRenderer(SkColor colorOne, SkColor colorTwo, bool manyStops) {
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fColors[0] = colorOne;
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fColors[1] = colorTwo;
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fManyStops = manyStops;
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}
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void draw(SkCanvas* canvas) override {
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SkPoint points[2] = {
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SkPoint::Make(0, 0),
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SkPoint::Make(0, gScalarSize)
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};
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SkPaint paint;
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if (fManyStops) {
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SkColor colors[4] ={
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fColors[0], fColors[0], fColors[1], fColors[1]
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};
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paint.setShader(SkGradientShader::MakeLinear(points, colors, nullptr, 4,
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SkShader::kClamp_TileMode));
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} else {
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paint.setShader(SkGradientShader::MakeLinear(points, fColors, nullptr, 2,
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SkShader::kClamp_TileMode));
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}
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canvas->drawPaint(paint);
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}
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const char* label() override {
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return "Linear Gradient";
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}
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protected:
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SkColor fColors[2];
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bool fManyStops;
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};
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struct VerticesCellRenderer : public CellRenderer {
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VerticesCellRenderer(SkColor colorOne, SkColor colorTwo) {
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fColors[0] = fColors[1] = colorOne;
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fColors[2] = fColors[3] = colorTwo;
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}
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void draw(SkCanvas* canvas) override {
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SkPaint paint;
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SkPoint vertices[4] = {
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SkPoint::Make(0, 0),
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SkPoint::Make(gScalarSize, 0),
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SkPoint::Make(gScalarSize, gScalarSize),
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SkPoint::Make(0, gScalarSize)
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};
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canvas->drawVertices(SkCanvas::kTriangleFan_VertexMode, 4, vertices, nullptr, fColors,
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nullptr, nullptr, 0, paint);
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}
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const char* label() override {
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return "Vertices";
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}
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protected:
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SkColor fColors[4];
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};
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static void draw_gamut_grid(SkCanvas* canvas, SkTArray<SkAutoTDelete<CellRenderer>>& renderers) {
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// We want our colors in our wide gamut to be obviously visibly distorted from sRGB, so we use
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// Wide Gamut RGB (with sRGB gamma, for HW acceleration) as the working space for this test:
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const float gWideGamutRGB_toXYZD50[]{
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0.7161046f, 0.1009296f, 0.1471858f, // -> X
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0.2581874f, 0.7249378f, 0.0168748f, // -> Y
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0.0000000f, 0.0517813f, 0.7734287f, // -> Z
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};
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SkMatrix44 wideGamutRGB_toXYZD50(SkMatrix44::kUninitialized_Constructor);
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wideGamutRGB_toXYZD50.set3x3RowMajorf(gWideGamutRGB_toXYZD50);
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// Use the original canvas' color type, but account for gamma requirements
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SkImageInfo origInfo = canvas->imageInfo();
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auto srgbCS = SkColorSpace::NewNamed(SkColorSpace::kSRGB_Named);
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auto wideCS = SkColorSpace::NewRGB(SkColorSpace::kSRGB_RenderTargetGamma,
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wideGamutRGB_toXYZD50);
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switch (origInfo.colorType()) {
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case kRGBA_8888_SkColorType:
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case kBGRA_8888_SkColorType:
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break;
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case kRGBA_F16_SkColorType:
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srgbCS = as_CSB(srgbCS.get())->makeLinearGamma();
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wideCS = as_CSB(wideCS.get())->makeLinearGamma();
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break;
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default:
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return;
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}
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// Make our two working surfaces (one sRGB, one Adobe)
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SkImageInfo srgbGamutInfo = SkImageInfo::Make(gRectSize, gRectSize, origInfo.colorType(),
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kPremul_SkAlphaType, srgbCS);
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SkImageInfo wideGamutInfo = SkImageInfo::Make(gRectSize, gRectSize, origInfo.colorType(),
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kPremul_SkAlphaType, wideCS);
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// readPixels doesn't do color conversion (yet), so we can use it to see the raw (wide) data
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SkImageInfo dstInfo = srgbGamutInfo.makeColorSpace(nullptr);
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sk_sp<SkSurface> srgbGamutSurface = canvas->makeSurface(srgbGamutInfo);
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sk_sp<SkSurface> wideGamutSurface = canvas->makeSurface(wideGamutInfo);
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if (!srgbGamutSurface || !wideGamutSurface) {
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return;
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}
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SkCanvas* srgbGamutCanvas = srgbGamutSurface->getCanvas();
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SkCanvas* wideGamutCanvas = wideGamutSurface->getCanvas();
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SkPaint textPaint;
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textPaint.setAntiAlias(true);
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textPaint.setColor(SK_ColorWHITE);
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sk_tool_utils::set_portable_typeface(&textPaint);
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SkScalar x = 0, y = 0;
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SkScalar textHeight = textPaint.getFontSpacing();
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for (const auto& renderer : renderers) {
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srgbGamutCanvas->clear(SK_ColorBLACK);
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renderer->draw(srgbGamutCanvas);
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wideGamutCanvas->clear(SK_ColorBLACK);
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renderer->draw(wideGamutCanvas);
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canvas->drawText(renderer->label(), strlen(renderer->label()), x, y + textHeight,
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textPaint);
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SkBitmap srgbBitmap;
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srgbBitmap.setInfo(dstInfo);
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srgbGamutCanvas->readPixels(&srgbBitmap, 0, 0);
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canvas->drawBitmap(srgbBitmap, x, y + textHeight + 5);
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x += (gScalarSize + 1);
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SkBitmap wideBitmap;
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wideBitmap.setInfo(dstInfo);
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wideGamutCanvas->readPixels(&wideBitmap, 0, 0);
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canvas->drawBitmap(wideBitmap, x, y + textHeight + 5);
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x += (gScalarSize + 10);
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if (x + (2 * gScalarSize + 1) > gTestWidth) {
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x = 0;
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y += (textHeight + gScalarSize + 10);
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}
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}
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}
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DEF_SIMPLE_GM_BG(gamut, canvas, gTestWidth, gTestHeight, SK_ColorBLACK) {
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SkTArray<SkAutoTDelete<CellRenderer>> renderers;
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// sRGB primaries, rendered as paint color
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renderers.push_back(new PaintColorCellRenderer(SK_ColorRED));
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renderers.push_back(new PaintColorCellRenderer(SK_ColorGREEN));
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// sRGB primaries, rendered as bitmaps
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renderers.push_back(new BitmapCellRenderer(SK_ColorRED, kNone_SkFilterQuality));
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renderers.push_back(new BitmapCellRenderer(SK_ColorGREEN, kLow_SkFilterQuality));
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// Larger bitmap to trigger mipmaps
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renderers.push_back(new BitmapCellRenderer(SK_ColorRED, kMedium_SkFilterQuality, 2.0f));
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// Smaller bitmap to trigger bicubic
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renderers.push_back(new BitmapCellRenderer(SK_ColorGREEN, kHigh_SkFilterQuality, 0.5f));
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// Various gradients involving sRGB primaries and white/black
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// First with just two stops (implemented with uniforms on GPU)
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renderers.push_back(new GradientCellRenderer(SK_ColorRED, SK_ColorGREEN, false));
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renderers.push_back(new GradientCellRenderer(SK_ColorGREEN, SK_ColorBLACK, false));
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renderers.push_back(new GradientCellRenderer(SK_ColorGREEN, SK_ColorWHITE, false));
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// ... and then with four stops (implemented with textures on GPU)
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renderers.push_back(new GradientCellRenderer(SK_ColorRED, SK_ColorGREEN, true));
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renderers.push_back(new GradientCellRenderer(SK_ColorGREEN, SK_ColorBLACK, true));
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renderers.push_back(new GradientCellRenderer(SK_ColorGREEN, SK_ColorWHITE, true));
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// Vertex colors
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renderers.push_back(new VerticesCellRenderer(SK_ColorRED, SK_ColorRED));
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renderers.push_back(new VerticesCellRenderer(SK_ColorRED, SK_ColorGREEN));
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draw_gamut_grid(canvas, renderers);
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}
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