2e1142cc32
I'm changing GrGpu's createBackendTexture to take mipmap levels. Cleaning this up will make that change easier. Change-Id: I373fc45a4fdbe4adb1c917c5def6fd5a4a0c263a Reviewed-on: https://skia-review.googlesource.com/c/skia/+/234582 Reviewed-by: Brian Salomon <bsalomon@google.com> Commit-Queue: Robert Phillips <robertphillips@google.com>
291 lines
13 KiB
C++
291 lines
13 KiB
C++
/*
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* Copyright 2019 Google LLC
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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/gm.h"
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#include "include/core/SkCanvas.h"
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#include "include/core/SkColor.h"
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#include "include/core/SkPaint.h"
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#include "include/core/SkRect.h"
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#include "include/core/SkSurface.h"
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#include "include/core/SkYUVAIndex.h"
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#include "include/gpu/GrContext.h"
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#include "src/core/SkAutoPixmapStorage.h"
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#include "src/core/SkConvertPixels.h"
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#include "src/core/SkScopeExit.h"
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#include "src/gpu/GrContextPriv.h"
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#include "src/gpu/GrGpu.h"
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#include "tools/Resources.h"
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#include "tools/ToolUtils.h"
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// Draws the image to a surface, does a asyncRescaleAndReadPixels of the image, and then sticks
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// the result in a raster image.
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static sk_sp<SkImage> do_read_and_scale(SkSurface* surface, const SkIRect& srcRect,
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const SkImageInfo& ii, SkSurface::RescaleGamma rescaleGamma,
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SkFilterQuality quality) {
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SkBitmap bmp;
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bmp.allocPixels(ii);
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SkPaint paint;
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paint.setBlendMode(SkBlendMode::kSrc);
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struct Context {
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SkPixmap fPixmap;
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bool fCalled = false;
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bool fSucceeded = false;
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} context;
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SkAssertResult(bmp.peekPixels(&context.fPixmap));
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auto callback = [](void* c, const void* data, size_t rowBytes) {
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auto context = reinterpret_cast<Context*>(c);
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context->fCalled = true;
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if (!data) {
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context->fPixmap.reset();
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return;
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}
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context->fSucceeded = true;
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SkRectMemcpy(context->fPixmap.writable_addr(), context->fPixmap.rowBytes(), data, rowBytes,
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context->fPixmap.info().minRowBytes(), context->fPixmap.height());
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};
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surface->asyncRescaleAndReadPixels(ii, srcRect, rescaleGamma, quality, callback, &context);
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while (!context.fCalled) {
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// Only GPU should actually be asynchronous.
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SkASSERT(surface->getCanvas()->getGrContext());
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surface->getCanvas()->getGrContext()->checkAsyncWorkCompletion();
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}
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return context.fSucceeded ? SkImage::MakeFromBitmap(bmp) : nullptr;
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}
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static sk_sp<SkImage> do_read_and_scale_yuv(SkSurface* surface, SkYUVColorSpace yuvCS,
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const SkIRect& srcRect, int dstW, int dstH,
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SkSurface::RescaleGamma rescaleGamma,
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SkFilterQuality quality, SkScopeExit* cleanup) {
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SkASSERT(!(dstW & 0b1) && !(dstH & 0b1));
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struct Context {
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Context(int w, int h) {
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SkImageInfo yII = SkImageInfo::Make(w, h, kGray_8_SkColorType, kPremul_SkAlphaType);
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SkImageInfo uvII = SkImageInfo::Make(w / 2, h / 2, kGray_8_SkColorType,
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kPremul_SkAlphaType);
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fYData.alloc(yII);
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fUData.alloc(uvII);
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fVData.alloc(uvII);
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}
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SkAutoPixmapStorage fYData;
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SkAutoPixmapStorage fUData;
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SkAutoPixmapStorage fVData;
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bool fCalled = false;
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bool fSucceeded = false;
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} context(dstW, dstH);
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auto callback = [](void* c, const void* data[3], size_t rowBytes[3]) {
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auto context = reinterpret_cast<Context*>(c);
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context->fCalled = true;
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if (!data) {
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return;
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}
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context->fSucceeded = true;
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SkRectMemcpy(context->fYData.writable_addr(), context->fYData.rowBytes(), data[0],
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rowBytes[0], context->fYData.width(), context->fYData.height());
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SkRectMemcpy(context->fUData.writable_addr(), context->fUData.rowBytes(), data[1],
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rowBytes[1], context->fUData.width(), context->fUData.height());
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SkRectMemcpy(context->fVData.writable_addr(), context->fVData.rowBytes(), data[2],
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rowBytes[2], context->fVData.width(), context->fVData.height());
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};
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surface->asyncRescaleAndReadPixelsYUV420(yuvCS, SkColorSpace::MakeSRGB(), srcRect, dstW, dstH,
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rescaleGamma, quality, callback, &context);
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while (!context.fCalled) {
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// Only GPU should actually be asynchronous.
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SkASSERT(surface->getCanvas()->getGrContext());
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surface->getCanvas()->getGrContext()->checkAsyncWorkCompletion();
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}
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if (!context.fSucceeded) {
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return nullptr;
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}
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auto* gr = surface->getCanvas()->getGrContext();
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GrBackendTexture backendTextures[3];
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backendTextures[0] = gr->priv().createBackendTexture(&context.fYData, 1,
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GrRenderable::kNo, GrProtected::kNo);
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backendTextures[1] = gr->priv().createBackendTexture(&context.fUData, 1,
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GrRenderable::kNo, GrProtected::kNo);
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backendTextures[2] = gr->priv().createBackendTexture(&context.fVData, 1,
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GrRenderable::kNo, GrProtected::kNo);
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SkYUVAIndex indices[4] = {
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{ 0, SkColorChannel::kR},
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{ 1, SkColorChannel::kR},
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{ 2, SkColorChannel::kR},
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{-1, SkColorChannel::kR}
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};
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*cleanup = {[gr, backendTextures] {
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GrFlushInfo flushInfo;
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flushInfo.fFlags = kSyncCpu_GrFlushFlag;
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gr->flush(flushInfo);
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gr->deleteBackendTexture(backendTextures[0]);
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gr->deleteBackendTexture(backendTextures[1]);
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gr->deleteBackendTexture(backendTextures[2]);
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}};
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return SkImage::MakeFromYUVATextures(gr, yuvCS, backendTextures, indices, {dstW, dstH},
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kTopLeft_GrSurfaceOrigin, SkColorSpace::MakeSRGB());
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}
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// Draws a grid of rescales. The columns are none, low, and high filter quality. The rows are
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// rescale in src gamma and rescale in linear gamma.
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static skiagm::DrawResult do_rescale_grid(SkCanvas* canvas, SkSurface* surface,
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const SkIRect& srcRect, int newW, int newH, bool doYUV420,
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SkString* errorMsg, int pad = 0) {
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if (doYUV420) {
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if (!canvas->getGrContext() || !canvas->getGrContext()->priv().asDirectContext()) {
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errorMsg->printf("YUV420 only supported on direct GPU for now.");
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return skiagm::DrawResult::kSkip;
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}
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}
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if (canvas->imageInfo().colorType() == kUnknown_SkColorType) {
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*errorMsg = "Not supported on recording/vector backends.";
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return skiagm::DrawResult::kSkip;
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}
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const auto ii = canvas->imageInfo().makeWH(newW, newH);
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SkYUVColorSpace yuvColorSpace = kRec601_SkYUVColorSpace;
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canvas->save();
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for (auto gamma : {SkSurface::RescaleGamma::kSrc, SkSurface::RescaleGamma::kLinear}) {
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canvas->save();
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for (auto quality : {kNone_SkFilterQuality, kLow_SkFilterQuality, kHigh_SkFilterQuality}) {
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SkScopeExit cleanup;
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sk_sp<SkImage> result;
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if (doYUV420) {
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result = do_read_and_scale_yuv(surface, yuvColorSpace, srcRect, newW, newH, gamma,
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quality, &cleanup);
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if (!result) {
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errorMsg->printf("YUV420 async call failed. Allowed for now.");
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return skiagm::DrawResult::kSkip;
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}
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int nextCS = static_cast<int>(yuvColorSpace + 1) % (kLastEnum_SkYUVColorSpace + 1);
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yuvColorSpace = static_cast<SkYUVColorSpace>(nextCS);
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} else {
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result = do_read_and_scale(surface, srcRect, ii, gamma, quality);
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if (!result) {
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errorMsg->printf("async read call failed.");
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return skiagm::DrawResult::kFail;
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}
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}
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canvas->drawImage(result, 0, 0);
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canvas->translate(newW + pad, 0);
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}
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canvas->restore();
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canvas->translate(0, newH + pad);
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}
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canvas->restore();
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return skiagm::DrawResult::kOk;
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}
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static skiagm::DrawResult do_rescale_image_grid(SkCanvas* canvas, const char* imageFile,
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const SkIRect& srcRect, int newW, int newH,
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bool doYUV420, SkString* errorMsg) {
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auto image = GetResourceAsImage(imageFile);
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if (!image) {
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errorMsg->printf("Could not load image file %s.", imageFile);
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return skiagm::DrawResult::kFail;
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}
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if (canvas->imageInfo().colorType() == kUnknown_SkColorType) {
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*errorMsg = "Not supported on recording/vector backends.";
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return skiagm::DrawResult::kSkip;
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}
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// Turn the image into a surface in order to call the read and rescale API
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auto surfInfo = image->imageInfo().makeWH(image->width(), image->height());
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auto surface = canvas->makeSurface(surfInfo);
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if (!surface && surfInfo.colorType() == kBGRA_8888_SkColorType) {
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surfInfo = surfInfo.makeColorType(kRGBA_8888_SkColorType);
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surface = canvas->makeSurface(surfInfo);
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}
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if (!surface) {
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*errorMsg = "Could not create surface for image.";
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// When testing abandoned GrContext we expect surface creation to fail.
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if (canvas->getGrContext() && canvas->getGrContext()->abandoned()) {
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return skiagm::DrawResult::kSkip;
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}
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return skiagm::DrawResult::kFail;
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}
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SkPaint paint;
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paint.setBlendMode(SkBlendMode::kSrc);
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surface->getCanvas()->drawImage(image, 0, 0, &paint);
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return do_rescale_grid(canvas, surface.get(), srcRect, newW, newH, doYUV420, errorMsg);
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}
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#define DEF_RESCALE_AND_READ_GM(IMAGE_FILE, TAG, SRC_RECT, W, H) \
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DEF_SIMPLE_GM_CAN_FAIL(async_rescale_and_read_##TAG, canvas, errorMsg, 3 * W, 2 * H) { \
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ToolUtils::draw_checkerboard(canvas, SK_ColorDKGRAY, SK_ColorLTGRAY, 25); \
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return do_rescale_image_grid(canvas, #IMAGE_FILE, SRC_RECT, W, H, false, errorMsg); \
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}
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#define DEF_RESCALE_AND_READ_YUV_GM(IMAGE_FILE, TAG, SRC_RECT, W, H) \
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DEF_SIMPLE_GM_CAN_FAIL(async_rescale_and_read_yuv420_##TAG, canvas, errorMsg, 3 * W, 2 * H) { \
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ToolUtils::draw_checkerboard(canvas, SK_ColorDKGRAY, SK_ColorLTGRAY, 25); \
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return do_rescale_image_grid(canvas, #IMAGE_FILE, SRC_RECT, W, H, true, errorMsg); \
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}
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DEF_RESCALE_AND_READ_YUV_GM(images/yellow_rose.webp, rose, SkIRect::MakeXYWH(50, 5, 200, 150),
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410, 376)
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DEF_RESCALE_AND_READ_GM(images/yellow_rose.webp, rose, SkIRect::MakeXYWH(100, 20, 100, 100),
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410, 410)
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DEF_RESCALE_AND_READ_GM(images/dog.jpg, dog_down, SkIRect::MakeXYWH(0, 10, 180, 150), 45, 45)
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DEF_RESCALE_AND_READ_GM(images/dog.jpg, dog_up, SkIRect::MakeWH(180, 180), 800, 400)
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DEF_RESCALE_AND_READ_GM(images/text.png, text_down, SkIRect::MakeWH(637, 105), (int)(0.7 * 637),
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(int)(0.7 * 105))
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DEF_RESCALE_AND_READ_GM(images/text.png, text_up, SkIRect::MakeWH(637, 105), (int)(1.2 * 637),
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(int)(1.2 * 105))
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DEF_RESCALE_AND_READ_GM(images/text.png, text_up_large, SkIRect::MakeXYWH(300, 0, 300, 105),
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(int)(2.4 * 300), (int)(2.4 * 105))
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DEF_SIMPLE_GM_CAN_FAIL(async_rescale_and_read_no_bleed, canvas, errorMsg, 60, 60) {
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if (canvas->imageInfo().colorType() == kUnknown_SkColorType) {
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*errorMsg = "Not supported on recording/vector backends.";
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return skiagm::DrawResult::kSkip;
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}
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static constexpr int kBorder = 5;
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static constexpr int kInner = 5;
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const auto srcRect = SkIRect::MakeXYWH(kBorder, kBorder, kInner, kInner);
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auto surfaceII =
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SkImageInfo::Make(kInner + 2 * kBorder, kInner + 2 * kBorder, kRGBA_8888_SkColorType,
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kPremul_SkAlphaType, SkColorSpace::MakeSRGB());
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auto surface = canvas->makeSurface(surfaceII);
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if (!surface) {
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*errorMsg = "Could not create surface for image.";
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// When testing abandoned GrContext we expect surface creation to fail.
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if (canvas->getGrContext() && canvas->getGrContext()->abandoned()) {
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return skiagm::DrawResult::kSkip;
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}
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return skiagm::DrawResult::kFail;
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}
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surface->getCanvas()->clear(SK_ColorRED);
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surface->getCanvas()->save();
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surface->getCanvas()->clipRect(SkRect::Make(srcRect), SkClipOp::kIntersect, false);
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surface->getCanvas()->clear(SK_ColorBLUE);
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surface->getCanvas()->restore();
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static constexpr int kPad = 2;
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canvas->translate(kPad, kPad);
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skiagm::DrawResult result;
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auto downW = static_cast<int>(kInner / 2);
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auto downH = static_cast<int>(kInner / 2);
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result = do_rescale_grid(canvas, surface.get(), srcRect, downW, downH, false, errorMsg, kPad);
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if (result != skiagm::DrawResult::kOk) {
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return result;
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}
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canvas->translate(0, 2 * downH);
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auto upW = static_cast<int>(kInner * 3.5);
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auto upH = static_cast<int>(kInner * 4.6);
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result = do_rescale_grid(canvas, surface.get(), srcRect, upW, upH, false, errorMsg, kPad);
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if (result != skiagm::DrawResult::kOk) {
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return result;
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}
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return skiagm::DrawResult::kOk;
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}
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