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gerrit-public.fairphone.software / platform / external / skia / 725d9dbfa59d6804b157f876a7e5d4c0553c6455 / . / src / shaders / SkImageShader.cpp
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/*
* Copyright 2015 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "SkArenaAlloc.h"
#include "SkBitmapController.h"
#include "SkBitmapProcShader.h"
#include "SkBitmapProvider.h"
#include "SkEmptyShader.h"
#include "SkImage_Base.h"
#include "SkImageShader.h"
#include "SkPM4fPriv.h"
#include "SkReadBuffer.h"
#include "SkWriteBuffer.h"
#include "../jumper/SkJumper.h"
/**
* We are faster in clamp, so always use that tiling when we can.
*/
static SkShader::TileMode optimize(SkShader::TileMode tm, int dimension) {
SkASSERT(dimension > 0);
#ifdef SK_BUILD_FOR_ANDROID_FRAMEWORK
// need to update frameworks/base/libs/hwui/tests/unit/SkiaBehaviorTests.cpp:55 to allow
// for transforming to clamp.
return tm;
#else
return dimension == 1 ? SkShader::kClamp_TileMode : tm;
#endif
}
SkImageShader::SkImageShader(sk_sp<SkImage> img, TileMode tmx, TileMode tmy, const SkMatrix* matrix)
: INHERITED(matrix)
, fImage(std::move(img))
, fTileModeX(optimize(tmx, fImage->width()))
, fTileModeY(optimize(tmy, fImage->height()))
{}
sk_sp<SkFlattenable> SkImageShader::CreateProc(SkReadBuffer& buffer) {
const TileMode tx = (TileMode)buffer.readUInt();
const TileMode ty = (TileMode)buffer.readUInt();
SkMatrix matrix;
buffer.readMatrix(&matrix);
sk_sp<SkImage> img = buffer.readImage();
if (!img) {
return nullptr;
}
return SkImageShader::Make(std::move(img), tx, ty, &matrix);
}
void SkImageShader::flatten(SkWriteBuffer& buffer) const {
buffer.writeUInt(fTileModeX);
buffer.writeUInt(fTileModeY);
buffer.writeMatrix(this->getLocalMatrix());
buffer.writeImage(fImage.get());
}
bool SkImageShader::isOpaque() const {
return fImage->isOpaque();
}
bool SkImageShader::IsRasterPipelineOnly(const SkMatrix& ctm, SkColorType ct, SkAlphaType at,
SkShader::TileMode tx, SkShader::TileMode ty,
const SkMatrix& localM) {
if (ct != kN32_SkColorType) {
return true;
}
if (at == kUnpremul_SkAlphaType) {
return true;
}
#ifndef SK_SUPPORT_LEGACY_TILED_BITMAPS
if (tx != ty) {
return true;
}
#endif
if (!ctm.isScaleTranslate()) {
return true;
}
if (!localM.isScaleTranslate()) {
return true;
}
return false;
}
bool SkImageShader::onIsRasterPipelineOnly(const SkMatrix& ctm) const {
SkBitmapProvider provider(fImage.get(), nullptr);
return IsRasterPipelineOnly(ctm, provider.info().colorType(), provider.info().alphaType(),
fTileModeX, fTileModeY, this->getLocalMatrix());
}
SkShaderBase::Context* SkImageShader::onMakeContext(const ContextRec& rec,
SkArenaAlloc* alloc) const {
return SkBitmapProcLegacyShader::MakeContext(*this, fTileModeX, fTileModeY,
SkBitmapProvider(fImage.get(), rec.fDstColorSpace),
rec, alloc);
}
SkImage* SkImageShader::onIsAImage(SkMatrix* texM, TileMode xy[]) const {
if (texM) {
*texM = this->getLocalMatrix();
}
if (xy) {
xy[0] = (TileMode)fTileModeX;
xy[1] = (TileMode)fTileModeY;
}
return const_cast<SkImage*>(fImage.get());
}
#ifdef SK_SUPPORT_LEGACY_SHADER_ISABITMAP
bool SkImageShader::onIsABitmap(SkBitmap* texture, SkMatrix* texM, TileMode xy[]) const {
const SkBitmap* bm = as_IB(fImage)->onPeekBitmap();
if (!bm) {
return false;
}
if (texture) {
*texture = *bm;
}
if (texM) {
*texM = this->getLocalMatrix();
}
if (xy) {
xy[0] = (TileMode)fTileModeX;
xy[1] = (TileMode)fTileModeY;
}
return true;
}
#endif
static bool bitmap_is_too_big(int w, int h) {
// SkBitmapProcShader stores bitmap coordinates in a 16bit buffer, as it
// communicates between its matrix-proc and its sampler-proc. Until we can
// widen that, we have to reject bitmaps that are larger.
//
static const int kMaxSize = 65535;
return w > kMaxSize || h > kMaxSize;
}
sk_sp<SkShader> SkImageShader::Make(sk_sp<SkImage> image, TileMode tx, TileMode ty,
const SkMatrix* localMatrix) {
if (!image || bitmap_is_too_big(image->width(), image->height())) {
return sk_make_sp<SkEmptyShader>();
} else {
return sk_make_sp<SkImageShader>(image, tx, ty, localMatrix);
}
}
#ifndef SK_IGNORE_TO_STRING
void SkImageShader::toString(SkString* str) const {
const char* gTileModeName[SkShader::kTileModeCount] = {
"clamp", "repeat", "mirror"
};
str->appendf("ImageShader: ((%s %s) ", gTileModeName[fTileModeX], gTileModeName[fTileModeY]);
fImage->toString(str);
this->INHERITED::toString(str);
str->append(")");
}
#endif
///////////////////////////////////////////////////////////////////////////////////////////////////
#if SK_SUPPORT_GPU
#include "GrColorSpaceInfo.h"
#include "GrContext.h"
#include "SkGr.h"
#include "effects/GrBicubicEffect.h"
#include "effects/GrSimpleTextureEffect.h"
static GrSamplerState::WrapMode tile_mode_to_wrap_mode(const SkShader::TileMode tileMode) {
switch (tileMode) {
case SkShader::TileMode::kClamp_TileMode:
return GrSamplerState::WrapMode::kClamp;
case SkShader::TileMode::kRepeat_TileMode:
return GrSamplerState::WrapMode::kRepeat;
case SkShader::TileMode::kMirror_TileMode:
return GrSamplerState::WrapMode::kMirrorRepeat;
}
SK_ABORT("Unknown tile mode.");
return GrSamplerState::WrapMode::kClamp;
}
std::unique_ptr<GrFragmentProcessor> SkImageShader::asFragmentProcessor(
const AsFPArgs& args) const {
SkMatrix lmInverse;
if (!this->getLocalMatrix().invert(&lmInverse)) {
return nullptr;
}
if (args.fLocalMatrix) {
SkMatrix inv;
if (!args.fLocalMatrix->invert(&inv)) {
return nullptr;
}
lmInverse.postConcat(inv);
}
GrSamplerState::WrapMode wrapModes[] = {tile_mode_to_wrap_mode(fTileModeX),
tile_mode_to_wrap_mode(fTileModeY)};
// Must set wrap and filter on the sampler before requesting a texture. In two places below
// we check the matrix scale factors to determine how to interpret the filter quality setting.
// This completely ignores the complexity of the drawVertices case where explicit local coords
// are provided by the caller.
bool doBicubic;
GrSamplerState::Filter textureFilterMode = GrSkFilterQualityToGrFilterMode(
args.fFilterQuality, *args.fViewMatrix, this->getLocalMatrix(), &doBicubic);
GrSamplerState samplerState(wrapModes, textureFilterMode);
sk_sp<SkColorSpace> texColorSpace;
SkScalar scaleAdjust[2] = { 1.0f, 1.0f };
sk_sp<GrTextureProxy> proxy(as_IB(fImage)->asTextureProxyRef(
args.fContext, samplerState, args.fDstColorSpaceInfo->colorSpace(), &texColorSpace,
scaleAdjust));
if (!proxy) {
return nullptr;
}
GrPixelConfig config = proxy->config();
bool isAlphaOnly = GrPixelConfigIsAlphaOnly(config);
lmInverse.postScale(scaleAdjust[0], scaleAdjust[1]);
std::unique_ptr<GrFragmentProcessor> inner;
if (doBicubic) {
inner = GrBicubicEffect::Make(std::move(proxy), lmInverse, wrapModes);
} else {
inner = GrSimpleTextureEffect::Make(std::move(proxy), lmInverse, samplerState);
}
inner = GrColorSpaceXformEffect::Make(std::move(inner), texColorSpace.get(), config,
args.fDstColorSpaceInfo->colorSpace());
if (isAlphaOnly) {
return inner;
}
return GrFragmentProcessor::MulOutputByInputAlpha(std::move(inner));
}
#endif
///////////////////////////////////////////////////////////////////////////////////////////////////
#include "SkImagePriv.h"
sk_sp<SkShader> SkMakeBitmapShader(const SkBitmap& src, SkShader::TileMode tmx,
SkShader::TileMode tmy, const SkMatrix* localMatrix,
SkCopyPixelsMode cpm) {
return SkImageShader::Make(SkMakeImageFromRasterBitmap(src, cpm),
tmx, tmy, localMatrix);
}
SK_DEFINE_FLATTENABLE_REGISTRAR_GROUP_START(SkShaderBase)
SK_DEFINE_FLATTENABLE_REGISTRAR_ENTRY(SkImageShader)
SK_DEFINE_FLATTENABLE_REGISTRAR_GROUP_END
bool SkImageShader::onAppendStages(const StageRec& rec) const {
SkRasterPipeline* p = rec.fPipeline;
SkArenaAlloc* alloc = rec.fAlloc;
auto matrix = SkMatrix::Concat(rec.fCTM, this->getLocalMatrix());
if (rec.fLocalM) {
matrix.preConcat(*rec.fLocalM);
}
if (!matrix.invert(&matrix)) {
return false;
}
auto quality = rec.fPaint.getFilterQuality();
SkBitmapProvider provider(fImage.get(), rec.fDstCS);
SkDefaultBitmapController controller;
std::unique_ptr<SkBitmapController::State> state {
controller.requestBitmap(provider, matrix, quality)
};
if (!state) {
return false;
}
const SkPixmap& pm = state->pixmap();
matrix = state->invMatrix();
quality = state->quality();
auto info = pm.info();
// When the matrix is just an integer translate, bilerp == nearest neighbor.
if (quality == kLow_SkFilterQuality &&
matrix.getType() <= SkMatrix::kTranslate_Mask &&
matrix.getTranslateX() == (int)matrix.getTranslateX() &&
matrix.getTranslateY() == (int)matrix.getTranslateY()) {
quality = kNone_SkFilterQuality;
}
// See skia:4649 and the GM image_scale_aligned.
if (quality == kNone_SkFilterQuality) {
if (matrix.getScaleX() >= 0) {
matrix.setTranslateX(nextafterf(matrix.getTranslateX(),
floorf(matrix.getTranslateX())));
}
if (matrix.getScaleY() >= 0) {
matrix.setTranslateY(nextafterf(matrix.getTranslateY(),
floorf(matrix.getTranslateY())));
}
}
p->append_seed_shader();
struct MiscCtx {
std::unique_ptr<SkBitmapController::State> state;
SkColor4f paint_color;
};
auto misc = alloc->make<MiscCtx>();
misc->state = std::move(state); // Extend lifetime to match the pipeline's.
misc->paint_color = SkColor4f_from_SkColor(rec.fPaint.getColor(), rec.fDstCS);
p->append_matrix(alloc, matrix);
auto gather = alloc->make<SkJumper_GatherCtx>();
gather->pixels = pm.writable_addr(); // Don't worry, we won't write to it.
gather->stride = pm.rowBytesAsPixels();
gather->width = pm.width();
gather->height = pm.height();
auto limit_x = alloc->make<SkJumper_TileCtx>(),
limit_y = alloc->make<SkJumper_TileCtx>();
limit_x->scale = pm.width();
limit_x->invScale = 1.0f / pm.width();
limit_y->scale = pm.height();
limit_y->invScale = 1.0f / pm.height();
auto append_tiling_and_gather = [&] {
switch (fTileModeX) {
case kClamp_TileMode: /* The gather_xxx stage will clamp for us. */ break;
case kMirror_TileMode: p->append(SkRasterPipeline::mirror_x, limit_x); break;
case kRepeat_TileMode: p->append(SkRasterPipeline::repeat_x, limit_x); break;
}
switch (fTileModeY) {
case kClamp_TileMode: /* The gather_xxx stage will clamp for us. */ break;
case kMirror_TileMode: p->append(SkRasterPipeline::mirror_y, limit_y); break;
case kRepeat_TileMode: p->append(SkRasterPipeline::repeat_y, limit_y); break;
}
switch (info.colorType()) {
case kAlpha_8_SkColorType: p->append(SkRasterPipeline::gather_a8, gather); break;
case kGray_8_SkColorType: p->append(SkRasterPipeline::gather_g8, gather); break;
case kRGB_565_SkColorType: p->append(SkRasterPipeline::gather_565, gather); break;
case kARGB_4444_SkColorType: p->append(SkRasterPipeline::gather_4444, gather); break;
case kBGRA_8888_SkColorType: p->append(SkRasterPipeline::gather_bgra, gather); break;
case kRGBA_8888_SkColorType: p->append(SkRasterPipeline::gather_8888, gather); break;
case kRGBA_F16_SkColorType: p->append(SkRasterPipeline::gather_f16, gather); break;
default: SkASSERT(false);
}
if (rec.fDstCS && (!info.colorSpace() || info.gammaCloseToSRGB())) {
p->append_from_srgb(info.alphaType());
}
};
SkJumper_SamplerCtx* sampler = nullptr;
if (quality != kNone_SkFilterQuality) {
sampler = alloc->make<SkJumper_SamplerCtx>();
}
auto sample = [&](SkRasterPipeline::StockStage setup_x,
SkRasterPipeline::StockStage setup_y) {
p->append(setup_x, sampler);
p->append(setup_y, sampler);
append_tiling_and_gather();
p->append(SkRasterPipeline::accumulate, sampler);
};
if (quality == kNone_SkFilterQuality) {
append_tiling_and_gather();
} else if (quality == kLow_SkFilterQuality) {
p->append(SkRasterPipeline::save_xy, sampler);
sample(SkRasterPipeline::bilinear_nx, SkRasterPipeline::bilinear_ny);
sample(SkRasterPipeline::bilinear_px, SkRasterPipeline::bilinear_ny);
sample(SkRasterPipeline::bilinear_nx, SkRasterPipeline::bilinear_py);
sample(SkRasterPipeline::bilinear_px, SkRasterPipeline::bilinear_py);
p->append(SkRasterPipeline::move_dst_src);
} else {
p->append(SkRasterPipeline::save_xy, sampler);
sample(SkRasterPipeline::bicubic_n3x, SkRasterPipeline::bicubic_n3y);
sample(SkRasterPipeline::bicubic_n1x, SkRasterPipeline::bicubic_n3y);
sample(SkRasterPipeline::bicubic_p1x, SkRasterPipeline::bicubic_n3y);
sample(SkRasterPipeline::bicubic_p3x, SkRasterPipeline::bicubic_n3y);
sample(SkRasterPipeline::bicubic_n3x, SkRasterPipeline::bicubic_n1y);
sample(SkRasterPipeline::bicubic_n1x, SkRasterPipeline::bicubic_n1y);
sample(SkRasterPipeline::bicubic_p1x, SkRasterPipeline::bicubic_n1y);
sample(SkRasterPipeline::bicubic_p3x, SkRasterPipeline::bicubic_n1y);
sample(SkRasterPipeline::bicubic_n3x, SkRasterPipeline::bicubic_p1y);
sample(SkRasterPipeline::bicubic_n1x, SkRasterPipeline::bicubic_p1y);
sample(SkRasterPipeline::bicubic_p1x, SkRasterPipeline::bicubic_p1y);
sample(SkRasterPipeline::bicubic_p3x, SkRasterPipeline::bicubic_p1y);
sample(SkRasterPipeline::bicubic_n3x, SkRasterPipeline::bicubic_p3y);
sample(SkRasterPipeline::bicubic_n1x, SkRasterPipeline::bicubic_p3y);
sample(SkRasterPipeline::bicubic_p1x, SkRasterPipeline::bicubic_p3y);
sample(SkRasterPipeline::bicubic_p3x, SkRasterPipeline::bicubic_p3y);
p->append(SkRasterPipeline::move_dst_src);
}
if (info.colorType() == kAlpha_8_SkColorType) {
p->append(SkRasterPipeline::set_rgb, &misc->paint_color);
}
if (info.colorType() == kAlpha_8_SkColorType || info.alphaType() == kUnpremul_SkAlphaType) {
p->append(SkRasterPipeline::premul);
}
if (quality > kLow_SkFilterQuality) {
// Bicubic filtering naturally produces out of range values on both sides.
p->append(SkRasterPipeline::clamp_0);
p->append(SkRasterPipeline::clamp_a);
}
append_gamut_transform(p, alloc, info.colorSpace(), rec.fDstCS, kPremul_SkAlphaType);
return true;
}