d603b22903
BUG=skia: Review URL: https://codereview.chromium.org/931483002
467 lines
17 KiB
C++
467 lines
17 KiB
C++
#include "DMSrcSink.h"
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#include "SamplePipeControllers.h"
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#include "SkCommonFlags.h"
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#include "SkDocument.h"
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#include "SkMultiPictureDraw.h"
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#include "SkNullCanvas.h"
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#include "SkOSFile.h"
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#include "SkPictureRecorder.h"
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#include "SkRandom.h"
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#include "SkSVGCanvas.h"
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#include "SkStream.h"
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#include "SkXMLWriter.h"
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namespace DM {
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GMSrc::GMSrc(skiagm::GMRegistry::Factory factory) : fFactory(factory) {}
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Error GMSrc::draw(SkCanvas* canvas) const {
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SkAutoTDelete<skiagm::GM> gm(fFactory(NULL));
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canvas->concat(gm->getInitialTransform());
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gm->draw(canvas);
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return "";
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}
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SkISize GMSrc::size() const {
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SkAutoTDelete<skiagm::GM> gm(fFactory(NULL));
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return gm->getISize();
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}
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Name GMSrc::name() const {
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SkAutoTDelete<skiagm::GM> gm(fFactory(NULL));
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return gm->getName();
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}
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/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
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ImageSrc::ImageSrc(Path path, int divisor) : fPath(path), fDivisor(divisor) {}
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Error ImageSrc::draw(SkCanvas* canvas) const {
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SkAutoTUnref<SkData> encoded(SkData::NewFromFileName(fPath.c_str()));
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if (!encoded) {
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return SkStringPrintf("Couldn't read %s.", fPath.c_str());
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}
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const SkColorType dstColorType = canvas->imageInfo().colorType();
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if (fDivisor == 0) {
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// Decode the full image.
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SkBitmap bitmap;
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if (!SkImageDecoder::DecodeMemory(encoded->data(), encoded->size(), &bitmap,
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dstColorType, SkImageDecoder::kDecodePixels_Mode)) {
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return SkStringPrintf("Couldn't decode %s.", fPath.c_str());
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}
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encoded.reset((SkData*)NULL); // Might as well drop this when we're done with it.
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canvas->drawBitmap(bitmap, 0,0);
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return "";
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}
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// Decode subsets. This is a little involved.
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SkAutoTDelete<SkMemoryStream> stream(new SkMemoryStream(encoded));
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SkAutoTDelete<SkImageDecoder> decoder(SkImageDecoder::Factory(stream.get()));
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if (!decoder) {
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return SkStringPrintf("Can't find a good decoder for %s.", fPath.c_str());
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}
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stream->rewind();
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int w,h;
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if (!decoder->buildTileIndex(stream.detach(), &w, &h) || w*h == 1) {
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return ""; // Not an error. Subset decoding is not always supported.
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}
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// Divide the image into subsets that cover the entire image.
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if (fDivisor > w || fDivisor > h) {
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return SkStringPrintf("divisor %d is too big for %s with dimensions (%d x %d)",
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fDivisor, fPath.c_str(), w, h);
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}
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const int subsetWidth = w / fDivisor,
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subsetHeight = h / fDivisor;
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for (int y = 0; y < h; y += subsetHeight) {
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for (int x = 0; x < w; x += subsetWidth) {
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SkBitmap subset;
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SkIRect rect = SkIRect::MakeXYWH(x, y, subsetWidth, subsetHeight);
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if (!decoder->decodeSubset(&subset, rect, dstColorType)) {
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return SkStringPrintf("Could not decode subset (%d, %d, %d, %d).",
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x, y, x+subsetWidth, y+subsetHeight);
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}
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canvas->drawBitmap(subset, SkIntToScalar(x), SkIntToScalar(y));
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}
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}
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return "";
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}
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SkISize ImageSrc::size() const {
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SkAutoTUnref<SkData> encoded(SkData::NewFromFileName(fPath.c_str()));
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SkBitmap bitmap;
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if (!encoded || !SkImageDecoder::DecodeMemory(encoded->data(),
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encoded->size(),
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&bitmap,
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kUnknown_SkColorType,
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SkImageDecoder::kDecodeBounds_Mode)) {
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return SkISize::Make(0,0);
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}
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return bitmap.dimensions();
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}
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Name ImageSrc::name() const {
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return SkOSPath::Basename(fPath.c_str());
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}
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/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
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static const SkRect kSKPViewport = {0,0, 1000,1000};
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SKPSrc::SKPSrc(Path path) : fPath(path) {}
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Error SKPSrc::draw(SkCanvas* canvas) const {
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SkAutoTDelete<SkStream> stream(SkStream::NewFromFile(fPath.c_str()));
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if (!stream) {
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return SkStringPrintf("Couldn't read %s.", fPath.c_str());
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}
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SkAutoTUnref<SkPicture> pic(SkPicture::CreateFromStream(stream));
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if (!pic) {
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return SkStringPrintf("Couldn't decode %s as a picture.", fPath.c_str());
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}
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stream.reset((SkStream*)NULL); // Might as well drop this when we're done with it.
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canvas->clipRect(kSKPViewport);
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canvas->drawPicture(pic);
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return "";
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}
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SkISize SKPSrc::size() const {
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// This may be unnecessarily large.
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return kSKPViewport.roundOut().size();
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}
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Name SKPSrc::name() const { return SkOSPath::Basename(fPath.c_str()); }
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/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
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Error NullSink::draw(const Src& src, SkBitmap*, SkWStream*, SkString*) const {
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SkAutoTDelete<SkCanvas> canvas(SkCreateNullCanvas());
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return src.draw(canvas);
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}
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/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
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DEFINE_bool(gpuStats, false, "Append GPU stats to the log for each GPU task?");
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GPUSink::GPUSink(GrContextFactory::GLContextType ct,
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GrGLStandard api,
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int samples,
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bool dfText,
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bool threaded)
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: fContextType(ct)
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, fGpuAPI(api)
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, fSampleCount(samples)
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, fUseDFText(dfText)
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, fThreaded(threaded) {}
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int GPUSink::enclave() const {
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return fThreaded ? kAnyThread_Enclave : kGPU_Enclave;
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}
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Error GPUSink::draw(const Src& src, SkBitmap* dst, SkWStream*, SkString* log) const {
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GrContextFactory factory;
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const SkISize size = src.size();
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const SkImageInfo info =
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SkImageInfo::Make(size.width(), size.height(), kN32_SkColorType, kPremul_SkAlphaType);
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SkAutoTUnref<SkSurface> surface(
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NewGpuSurface(&factory, fContextType, fGpuAPI, info, fSampleCount, fUseDFText));
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if (!surface) {
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return "Could not create a surface.";
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}
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SkCanvas* canvas = surface->getCanvas();
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Error err = src.draw(canvas);
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if (!err.isEmpty()) {
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return err;
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}
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canvas->flush();
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if (FLAGS_gpuStats) {
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canvas->getGrContext()->dumpCacheStats(log);
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canvas->getGrContext()->dumpGpuStats(log);
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}
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dst->allocPixels(info);
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canvas->readPixels(dst, 0,0);
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if (FLAGS_abandonGpuContext) {
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factory.abandonContexts();
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}
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return "";
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}
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/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
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PDFSink::PDFSink() {}
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Error PDFSink::draw(const Src& src, SkBitmap*, SkWStream* dst, SkString*) const {
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// Print the given DM:Src to a PDF, breaking on 8.5x11 pages.
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SkAutoTUnref<SkDocument> doc(SkDocument::CreatePDF(dst));
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int width = src.size().width(),
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height = src.size().height();
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const int kLetterWidth = 612, // 8.5 * 72
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kLetterHeight = 792; // 11 * 72
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const SkRect letter = SkRect::MakeWH(SkIntToScalar(kLetterWidth),
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SkIntToScalar(kLetterHeight));
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int xPages = ((width - 1) / kLetterWidth) + 1;
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int yPages = ((height - 1) / kLetterHeight) + 1;
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for (int y = 0; y < yPages; ++y) {
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for (int x = 0; x < xPages; ++x) {
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int w = SkTMin(kLetterWidth, width - (x * kLetterWidth));
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int h = SkTMin(kLetterHeight, height - (y * kLetterHeight));
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SkCanvas* canvas =
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doc->beginPage(SkIntToScalar(w), SkIntToScalar(h));
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canvas->clipRect(letter);
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canvas->translate(-letter.width() * x, -letter.height() * y);
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Error err = src.draw(canvas);
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if (!err.isEmpty()) {
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return err;
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}
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doc->endPage();
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}
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}
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doc->close();
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dst->flush();
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return "";
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}
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/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
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SKPSink::SKPSink() {}
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Error SKPSink::draw(const Src& src, SkBitmap*, SkWStream* dst, SkString*) const {
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SkSize size;
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size = src.size();
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SkPictureRecorder recorder;
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Error err = src.draw(recorder.beginRecording(size.width(), size.height()));
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if (!err.isEmpty()) {
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return err;
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}
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SkAutoTUnref<SkPicture> pic(recorder.endRecording());
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pic->serialize(dst);
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return "";
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}
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/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
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SVGSink::SVGSink() {}
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Error SVGSink::draw(const Src& src, SkBitmap*, SkWStream* dst, SkString*) const {
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SkAutoTDelete<SkXMLWriter> xmlWriter(SkNEW_ARGS(SkXMLStreamWriter, (dst)));
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SkAutoTUnref<SkCanvas> canvas(SkSVGCanvas::Create(
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SkRect::MakeWH(SkIntToScalar(src.size().width()), SkIntToScalar(src.size().height())),
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xmlWriter));
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return src.draw(canvas);
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}
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/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
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RasterSink::RasterSink(SkColorType colorType) : fColorType(colorType) {}
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Error RasterSink::draw(const Src& src, SkBitmap* dst, SkWStream*, SkString*) const {
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const SkISize size = src.size();
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// If there's an appropriate alpha type for this color type, use it, otherwise use premul.
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SkAlphaType alphaType = kPremul_SkAlphaType;
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(void)SkColorTypeValidateAlphaType(fColorType, alphaType, &alphaType);
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dst->allocPixels(SkImageInfo::Make(size.width(), size.height(), fColorType, alphaType));
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dst->eraseColor(SK_ColorTRANSPARENT);
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SkCanvas canvas(*dst);
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return src.draw(&canvas);
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}
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/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
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static SkISize auto_compute_translate(SkMatrix* matrix, int srcW, int srcH) {
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SkRect bounds = SkRect::MakeIWH(srcW, srcH);
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matrix->mapRect(&bounds);
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matrix->postTranslate(-bounds.x(), -bounds.y());
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return SkISize::Make(SkScalarRoundToInt(bounds.width()), SkScalarRoundToInt(bounds.height()));
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}
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ViaMatrix::ViaMatrix(SkMatrix matrix, Sink* sink) : fMatrix(matrix), fSink(sink) {}
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Error ViaMatrix::draw(const Src& src, SkBitmap* bitmap, SkWStream* stream, SkString* log) const {
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// We turn our arguments into a Src, then draw that Src into our Sink to fill bitmap or stream.
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struct ProxySrc : public Src {
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const Src& fSrc;
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SkMatrix fMatrix;
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SkISize fSize;
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ProxySrc(const Src& src, SkMatrix matrix) : fSrc(src), fMatrix(matrix) {
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fSize = auto_compute_translate(&fMatrix, src.size().width(), src.size().height());
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}
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Error draw(SkCanvas* canvas) const SK_OVERRIDE {
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canvas->concat(fMatrix);
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return fSrc.draw(canvas);
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}
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SkISize size() const SK_OVERRIDE { return fSize; }
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Name name() const SK_OVERRIDE { sk_throw(); return ""; } // No one should be calling this.
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} proxy(src, fMatrix);
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return fSink->draw(proxy, bitmap, stream, log);
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}
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// Undoes any flip or 90 degree rotate without changing the scale of the bitmap.
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// This should be pixel-preserving.
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ViaUpright::ViaUpright(SkMatrix matrix, Sink* sink) : fMatrix(matrix), fSink(sink) {}
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Error ViaUpright::draw(const Src& src, SkBitmap* bitmap, SkWStream* stream, SkString* log) const {
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Error err = fSink->draw(src, bitmap, stream, log);
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if (!err.isEmpty()) {
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return err;
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}
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SkMatrix inverse;
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if (!fMatrix.rectStaysRect() || !fMatrix.invert(&inverse)) {
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return "Cannot upright --matrix.";
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}
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SkMatrix upright = SkMatrix::I();
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upright.setScaleX(SkScalarSignAsScalar(inverse.getScaleX()));
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upright.setScaleY(SkScalarSignAsScalar(inverse.getScaleY()));
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upright.setSkewX(SkScalarSignAsScalar(inverse.getSkewX()));
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upright.setSkewY(SkScalarSignAsScalar(inverse.getSkewY()));
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SkBitmap uprighted;
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SkISize size = auto_compute_translate(&upright, bitmap->width(), bitmap->height());
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uprighted.allocPixels(bitmap->info().makeWH(size.width(), size.height()));
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SkCanvas canvas(uprighted);
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canvas.concat(upright);
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SkPaint paint;
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paint.setXfermodeMode(SkXfermode::kSrc_Mode);
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canvas.drawBitmap(*bitmap, 0, 0, &paint);
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*bitmap = uprighted;
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bitmap->lockPixels();
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return "";
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}
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/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
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ViaPipe::ViaPipe(Sink* sink) : fSink(sink) {}
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Error ViaPipe::draw(const Src& src, SkBitmap* bitmap, SkWStream* stream, SkString* log) const {
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// We turn ourselves into another Src that draws our argument into bitmap/stream via pipe.
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struct ProxySrc : public Src {
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const Src& fSrc;
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ProxySrc(const Src& src) : fSrc(src) {}
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Error draw(SkCanvas* canvas) const SK_OVERRIDE {
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SkISize size = this->size();
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PipeController controller(canvas, &SkImageDecoder::DecodeMemory);
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SkGPipeWriter pipe;
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const uint32_t kFlags = 0; // We mirror SkDeferredCanvas, which doesn't use any flags.
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return fSrc.draw(pipe.startRecording(&controller, kFlags, size.width(), size.height()));
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}
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SkISize size() const SK_OVERRIDE { return fSrc.size(); }
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Name name() const SK_OVERRIDE { sk_throw(); return ""; } // No one should be calling this.
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} proxy(src);
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return fSink->draw(proxy, bitmap, stream, log);
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}
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/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
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ViaSerialization::ViaSerialization(Sink* sink) : fSink(sink) {}
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Error ViaSerialization::draw(const Src& src, SkBitmap* bitmap, SkWStream* stream, SkString* log)
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const {
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// Record our Src into a picture.
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SkSize size;
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size = src.size();
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SkPictureRecorder recorder;
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Error err = src.draw(recorder.beginRecording(size.width(), size.height()));
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if (!err.isEmpty()) {
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return err;
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}
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SkAutoTUnref<SkPicture> pic(recorder.endRecording());
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// Serialize it and then deserialize it.
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SkDynamicMemoryWStream wStream;
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pic->serialize(&wStream);
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SkAutoTDelete<SkStream> rStream(wStream.detachAsStream());
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SkAutoTUnref<SkPicture> deserialized(SkPicture::CreateFromStream(rStream));
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// Turn that deserialized picture into a Src, draw it into our Sink to fill bitmap or stream.
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struct ProxySrc : public Src {
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const SkPicture* fPic;
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const SkISize fSize;
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ProxySrc(const SkPicture* pic, SkISize size) : fPic(pic), fSize(size) {}
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Error draw(SkCanvas* canvas) const SK_OVERRIDE {
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canvas->drawPicture(fPic);
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return "";
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}
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SkISize size() const SK_OVERRIDE { return fSize; }
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Name name() const SK_OVERRIDE { sk_throw(); return ""; } // No one should be calling this.
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} proxy(deserialized, src.size());
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return fSink->draw(proxy, bitmap, stream, log);
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}
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/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/
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ViaTiles::ViaTiles(int w, int h, SkBBHFactory* factory, Sink* sink)
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: fW(w)
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, fH(h)
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, fFactory(factory)
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, fSink(sink) {}
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Error ViaTiles::draw(const Src& src, SkBitmap* bitmap, SkWStream* stream, SkString* log) const {
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// Record our Src into a picture.
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SkSize size;
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size = src.size();
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SkPictureRecorder recorder;
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Error err = src.draw(recorder.beginRecording(size.width(), size.height(), fFactory.get()));
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if (!err.isEmpty()) {
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return err;
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}
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SkAutoTUnref<SkPicture> pic(recorder.endRecording());
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// Turn that picture into a Src that draws into our Sink via tiles + MPD.
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struct ProxySrc : public Src {
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const int fW, fH;
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const SkPicture* fPic;
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const SkISize fSize;
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ProxySrc(int w, int h, const SkPicture* pic, SkISize size)
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: fW(w), fH(h), fPic(pic), fSize(size) {}
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Error draw(SkCanvas* canvas) const SK_OVERRIDE {
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const int xTiles = (fSize.width() + fW - 1) / fW,
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yTiles = (fSize.height() + fH - 1) / fH;
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SkMultiPictureDraw mpd(xTiles*yTiles);
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SkTDArray<SkSurface*> surfaces;
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surfaces.setReserve(xTiles*yTiles);
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SkImageInfo info = canvas->imageInfo().makeWH(fW, fH);
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for (int j = 0; j < yTiles; j++) {
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for (int i = 0; i < xTiles; i++) {
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// This lets our ultimate Sink determine the best kind of surface.
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// E.g., if it's a GpuSink, the surfaces and images are textures.
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SkSurface* s = canvas->newSurface(info);
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if (!s) {
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s = SkSurface::NewRaster(info); // Some canvases can't create surfaces.
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}
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surfaces.push(s);
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SkCanvas* c = s->getCanvas();
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c->translate(SkIntToScalar(-i * fW),
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SkIntToScalar(-j * fH)); // Line up the canvas with this tile.
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mpd.add(c, fPic);
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}
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}
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mpd.draw();
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for (int j = 0; j < yTiles; j++) {
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for (int i = 0; i < xTiles; i++) {
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SkAutoTUnref<SkImage> image(surfaces[i+xTiles*j]->newImageSnapshot());
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canvas->drawImage(image, SkIntToScalar(i*fW), SkIntToScalar(j*fH));
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}
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}
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surfaces.unrefAll();
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return "";
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}
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SkISize size() const SK_OVERRIDE { return fSize; }
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Name name() const SK_OVERRIDE { sk_throw(); return ""; } // No one should be calling this.
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} proxy(fW, fH, pic, src.size());
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return fSink->draw(proxy, bitmap, stream, log);
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}
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} // namespace DM
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