modules/sksg/src/SkSGRenderEffect.cpp - skia - Git at Google

 /*
  * Copyright 2019 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "modules/sksg/include/SkSGRenderEffect.h"

 #include "include/core/SkCanvas.h"
 #include "include/core/SkMaskFilter.h"
 #include "include/core/SkShader.h"
 #include "src/core/SkMaskFilterBase.h"

 namespace sksg {

 sk_sp<MaskShaderEffect> MaskShaderEffect::Make(sk_sp<RenderNode> child, sk_sp<SkShader> sh) {
     return child ? sk_sp<MaskShaderEffect>(new MaskShaderEffect(std::move(child), std::move(sh)))
                  : nullptr;
 }

 MaskShaderEffect::MaskShaderEffect(sk_sp<RenderNode> child, sk_sp<SkShader> sh)
     : INHERITED(std::move(child))
     , fShader(std::move(sh)) {
 }

 void MaskShaderEffect::onRender(SkCanvas* canvas, const RenderContext* ctx) const {
     const auto local_ctx = ScopedRenderContext(canvas, ctx)
             .modulateMaskShader(fShader, canvas->getTotalMatrix());

     this->INHERITED::onRender(canvas, local_ctx);
 }

 sk_sp<ShaderEffect> ShaderEffect::Make(sk_sp<RenderNode> child, sk_sp<Shader> shader) {
     return child ? sk_sp<ShaderEffect>(new ShaderEffect(std::move(child), std::move(shader)))
                  : nullptr;
 }

 ShaderEffect::ShaderEffect(sk_sp<RenderNode> child, sk_sp<Shader> shader)
     : INHERITED(std::move(child))
     , fShader(std::move(shader)) {
     if (fShader) {
         this->observeInval(fShader);
     }
 }

 ShaderEffect::~ShaderEffect() {
     if (fShader) {
         this->unobserveInval(fShader);
     }
 }

 void ShaderEffect::setShader(sk_sp<Shader> sh) {
     if (fShader) {
         this->unobserveInval(fShader);
     }

     fShader = std::move(sh);

     if (fShader) {
         this->observeInval(fShader);
     }
 }
 SkRect ShaderEffect::onRevalidate(InvalidationController* ic, const SkMatrix& ctm) {
     if (fShader) {
         fShader->revalidate(ic, ctm);
     }

     return this->INHERITED::onRevalidate(ic, ctm);
 }

 void ShaderEffect::onRender(SkCanvas* canvas, const RenderContext* ctx) const {
     const auto local_ctx = ScopedRenderContext(canvas, ctx)
             .modulateShader(fShader ? fShader->getShader() : nullptr, canvas->getTotalMatrix());

     this->INHERITED::onRender(canvas, local_ctx);
 }

 Shader::Shader() : INHERITED(kBubbleDamage_Trait) {}

 Shader::~Shader() = default;

 SkRect Shader::onRevalidate(InvalidationController*, const SkMatrix&) {
     SkASSERT(this->hasInval());

     fShader = this->onRevalidateShader();
     return SkRect::MakeEmpty();
 }

 sk_sp<RenderNode> ImageFilterEffect::Make(sk_sp<RenderNode> child, sk_sp<ImageFilter> filter) {
     return filter ? sk_sp<RenderNode>(new ImageFilterEffect(std::move(child), std::move(filter)))
                   : child;
 }

 ImageFilterEffect::ImageFilterEffect(sk_sp<RenderNode> child, sk_sp<ImageFilter> filter)
     // filters always override descendent damage
     : INHERITED(std::move(child), kOverrideDamage_Trait)
     , fImageFilter(std::move(filter)) {
     this->observeInval(fImageFilter);
 }

 ImageFilterEffect::~ImageFilterEffect() {
     this->unobserveInval(fImageFilter);
 }

 SkRect ImageFilterEffect::onRevalidate(InvalidationController* ic, const SkMatrix& ctm) {
     // FIXME: image filter effects should replace the descendents' damage!
     fImageFilter->revalidate(ic, ctm);

     const auto& filter = fImageFilter->getFilter();

     // Would be nice for this this to stick, but canComputeFastBounds()
     // appears to be conservative (false negatives).
     // SkASSERT(!filter || filter->canComputeFastBounds());

     const auto content_bounds = this->INHERITED::onRevalidate(ic, ctm);

     return filter ? filter->computeFastBounds(content_bounds)
                   : content_bounds;
 }

 const RenderNode* ImageFilterEffect::onNodeAt(const SkPoint& p) const {
     // TODO: map p through the filter DAG and dispatch to descendants?
     // For now, image filters occlude hit-testing.
     SkASSERT(this->bounds().contains(p.x(), p.y()));
     return this;
 }

 void ImageFilterEffect::onRender(SkCanvas* canvas, const RenderContext* ctx) const {
     // Note: we're using the source content bounds for saveLayer, not our local/filtered bounds.
     const auto filter_ctx =
         ScopedRenderContext(canvas, ctx).setFilterIsolation(this->getChild()->bounds(),
                                                             canvas->getTotalMatrix(),
                                                             fImageFilter->getFilter());
     this->INHERITED::onRender(canvas, filter_ctx);
 }

 ImageFilter::ImageFilter(sk_sp<ImageFilter> input)
     : ImageFilter(input ? std::make_unique<InputsT>(1, std::move(input)) : nullptr) {}

 ImageFilter::ImageFilter(std::unique_ptr<InputsT> inputs)
     : INHERITED(kBubbleDamage_Trait)
     , fInputs(std::move(inputs)) {
     if (fInputs) {
         for (const auto& input : *fInputs) {
             this->observeInval(input);
         }
     }
 }

 ImageFilter::~ImageFilter() {
     if (fInputs) {
         for (const auto& input : *fInputs) {
             this->unobserveInval(input);
         }
     }
 }

 sk_sp<SkImageFilter> ImageFilter::refInput(size_t i) const {
     return (fInputs && i < fInputs->size()) ? (*fInputs)[i]->getFilter() : nullptr;
 }

 SkRect ImageFilter::onRevalidate(InvalidationController*, const SkMatrix&) {
     SkASSERT(this->hasInval());

     fFilter = this->onRevalidateFilter();
     return SkRect::MakeEmpty();
 }

 ExternalImageFilter:: ExternalImageFilter() = default;
 ExternalImageFilter::~ExternalImageFilter() = default;

 sk_sp<DropShadowImageFilter> DropShadowImageFilter::Make(sk_sp<ImageFilter> input) {
     return sk_sp<DropShadowImageFilter>(new DropShadowImageFilter(std::move(input)));
 }

 DropShadowImageFilter::DropShadowImageFilter(sk_sp<ImageFilter> input)
     : INHERITED(std::move(input)) {}

 DropShadowImageFilter::~DropShadowImageFilter() = default;

 sk_sp<SkImageFilter> DropShadowImageFilter::onRevalidateFilter() {
     if (fMode == Mode::kShadowOnly) {
         return SkImageFilters::DropShadowOnly(fOffset.x(), fOffset.y(), fSigma.x(), fSigma.y(),
                                               fColor, this->refInput(0));
     } else {
         return SkImageFilters::DropShadow(fOffset.x(), fOffset.y(), fSigma.x(), fSigma.y(),
                                           fColor, this->refInput(0));
     }
 }

 sk_sp<BlurImageFilter> BlurImageFilter::Make(sk_sp<ImageFilter> input) {
     return sk_sp<BlurImageFilter>(new BlurImageFilter(std::move(input)));
 }

 BlurImageFilter::BlurImageFilter(sk_sp<ImageFilter> input)
     : INHERITED(std::move(input)) {}

 BlurImageFilter::~BlurImageFilter() = default;

 sk_sp<SkImageFilter> BlurImageFilter::onRevalidateFilter() {
     return SkImageFilters::Blur(fSigma.x(), fSigma.y(), fTileMode, this->refInput(0));
 }

 sk_sp<BlendModeEffect> BlendModeEffect::Make(sk_sp<RenderNode> child, SkBlendMode mode) {
     return child ? sk_sp<BlendModeEffect>(new BlendModeEffect(std::move(child), mode))
                  : nullptr;
 }

 BlendModeEffect::BlendModeEffect(sk_sp<RenderNode> child, SkBlendMode mode)
     : INHERITED(std::move(child))
     , fMode(mode) {}

 BlendModeEffect::~BlendModeEffect() = default;

 void BlendModeEffect::onRender(SkCanvas* canvas, const RenderContext* ctx) const {
     const auto local_ctx = ScopedRenderContext(canvas, ctx).modulateBlendMode(fMode);

     this->INHERITED::onRender(canvas, local_ctx);
 }

 const RenderNode* BlendModeEffect::onNodeAt(const SkPoint& p) const {
     // TODO: we likely need to do something more sophisticated than delegate to descendants here.
     return this->INHERITED::onNodeAt(p);
 }

 sk_sp<LayerEffect> LayerEffect::Make(sk_sp<RenderNode> child, SkBlendMode mode) {
     return child ? sk_sp<LayerEffect>(new LayerEffect(std::move(child), mode))
                  : nullptr;
 }

 LayerEffect::LayerEffect(sk_sp<RenderNode> child, SkBlendMode mode)
     : INHERITED(std::move(child))
     , fMode(mode) {}

 LayerEffect::~LayerEffect() = default;

 void LayerEffect::onRender(SkCanvas* canvas, const RenderContext* ctx) const {
     SkAutoCanvasRestore acr(canvas, false);

     // Commit any potential pending paint effects to their own layer.
     const auto local_ctx = ScopedRenderContext(canvas, ctx).setIsolation(this->bounds(),
                                                                          canvas->getTotalMatrix(),
                                                                          true);

     SkPaint layer_paint;
     if (ctx) {
         // Apply all optional context overrides upfront.
         ctx->modulatePaint(canvas->getTotalMatrix(), &layer_paint);
     }
     layer_paint.setBlendMode(fMode);

     canvas->saveLayer(nullptr, &layer_paint);

     this->INHERITED::onRender(canvas, nullptr);
 }

 } // namespace sksg
	/*
	* Copyright 2019 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "modules/sksg/include/SkSGRenderEffect.h"

	#include "include/core/SkCanvas.h"
	#include "include/core/SkMaskFilter.h"
	#include "include/core/SkShader.h"
	#include "src/core/SkMaskFilterBase.h"

	namespace sksg {

	sk_sp<MaskShaderEffect> MaskShaderEffect::Make(sk_sp<RenderNode> child, sk_sp<SkShader> sh) {
	return child ? sk_sp<MaskShaderEffect>(new MaskShaderEffect(std::move(child), std::move(sh)))
	: nullptr;
	}

	MaskShaderEffect::MaskShaderEffect(sk_sp<RenderNode> child, sk_sp<SkShader> sh)
	: INHERITED(std::move(child))
	, fShader(std::move(sh)) {
	}

	void MaskShaderEffect::onRender(SkCanvas* canvas, const RenderContext* ctx) const {
	const auto local_ctx = ScopedRenderContext(canvas, ctx)
	.modulateMaskShader(fShader, canvas->getTotalMatrix());

	this->INHERITED::onRender(canvas, local_ctx);
	}

	sk_sp<ShaderEffect> ShaderEffect::Make(sk_sp<RenderNode> child, sk_sp<Shader> shader) {
	return child ? sk_sp<ShaderEffect>(new ShaderEffect(std::move(child), std::move(shader)))
	: nullptr;
	}

	ShaderEffect::ShaderEffect(sk_sp<RenderNode> child, sk_sp<Shader> shader)
	: INHERITED(std::move(child))
	, fShader(std::move(shader)) {
	if (fShader) {
	this->observeInval(fShader);
	}
	}

	ShaderEffect::~ShaderEffect() {
	if (fShader) {
	this->unobserveInval(fShader);
	}
	}

	void ShaderEffect::setShader(sk_sp<Shader> sh) {
	if (fShader) {
	this->unobserveInval(fShader);
	}

	fShader = std::move(sh);

	if (fShader) {
	this->observeInval(fShader);
	}
	}
	SkRect ShaderEffect::onRevalidate(InvalidationController* ic, const SkMatrix& ctm) {
	if (fShader) {
	fShader->revalidate(ic, ctm);
	}

	return this->INHERITED::onRevalidate(ic, ctm);
	}

	void ShaderEffect::onRender(SkCanvas* canvas, const RenderContext* ctx) const {
	const auto local_ctx = ScopedRenderContext(canvas, ctx)
	.modulateShader(fShader ? fShader->getShader() : nullptr, canvas->getTotalMatrix());

	this->INHERITED::onRender(canvas, local_ctx);
	}

	Shader::Shader() : INHERITED(kBubbleDamage_Trait) {}

	Shader::~Shader() = default;

	SkRect Shader::onRevalidate(InvalidationController*, const SkMatrix&) {
	SkASSERT(this->hasInval());

	fShader = this->onRevalidateShader();
	return SkRect::MakeEmpty();
	}

	sk_sp<RenderNode> ImageFilterEffect::Make(sk_sp<RenderNode> child, sk_sp<ImageFilter> filter) {
	return filter ? sk_sp<RenderNode>(new ImageFilterEffect(std::move(child), std::move(filter)))
	: child;
	}

	ImageFilterEffect::ImageFilterEffect(sk_sp<RenderNode> child, sk_sp<ImageFilter> filter)
	// filters always override descendent damage
	: INHERITED(std::move(child), kOverrideDamage_Trait)
	, fImageFilter(std::move(filter)) {
	this->observeInval(fImageFilter);
	}

	ImageFilterEffect::~ImageFilterEffect() {
	this->unobserveInval(fImageFilter);
	}

	SkRect ImageFilterEffect::onRevalidate(InvalidationController* ic, const SkMatrix& ctm) {
	// FIXME: image filter effects should replace the descendents' damage!
	fImageFilter->revalidate(ic, ctm);

	const auto& filter = fImageFilter->getFilter();

	// Would be nice for this this to stick, but canComputeFastBounds()
	// appears to be conservative (false negatives).
	// SkASSERT(!filter \|\| filter->canComputeFastBounds());

	const auto content_bounds = this->INHERITED::onRevalidate(ic, ctm);

	return filter ? filter->computeFastBounds(content_bounds)
	: content_bounds;
	}

	const RenderNode* ImageFilterEffect::onNodeAt(const SkPoint& p) const {
	// TODO: map p through the filter DAG and dispatch to descendants?
	// For now, image filters occlude hit-testing.
	SkASSERT(this->bounds().contains(p.x(), p.y()));
	return this;
	}

	void ImageFilterEffect::onRender(SkCanvas* canvas, const RenderContext* ctx) const {
	// Note: we're using the source content bounds for saveLayer, not our local/filtered bounds.
	const auto filter_ctx =
	ScopedRenderContext(canvas, ctx).setFilterIsolation(this->getChild()->bounds(),
	canvas->getTotalMatrix(),
	fImageFilter->getFilter());
	this->INHERITED::onRender(canvas, filter_ctx);
	}

	ImageFilter::ImageFilter(sk_sp<ImageFilter> input)
	: ImageFilter(input ? std::make_unique<InputsT>(1, std::move(input)) : nullptr) {}

	ImageFilter::ImageFilter(std::unique_ptr<InputsT> inputs)
	: INHERITED(kBubbleDamage_Trait)
	, fInputs(std::move(inputs)) {
	if (fInputs) {
	for (const auto& input : *fInputs) {
	this->observeInval(input);
	}
	}
	}

	ImageFilter::~ImageFilter() {
	if (fInputs) {
	for (const auto& input : *fInputs) {
	this->unobserveInval(input);
	}
	}
	}

	sk_sp<SkImageFilter> ImageFilter::refInput(size_t i) const {
	return (fInputs && i < fInputs->size()) ? (*fInputs)[i]->getFilter() : nullptr;
	}

	SkRect ImageFilter::onRevalidate(InvalidationController*, const SkMatrix&) {
	SkASSERT(this->hasInval());

	fFilter = this->onRevalidateFilter();
	return SkRect::MakeEmpty();
	}

	ExternalImageFilter:: ExternalImageFilter() = default;
	ExternalImageFilter::~ExternalImageFilter() = default;

	sk_sp<DropShadowImageFilter> DropShadowImageFilter::Make(sk_sp<ImageFilter> input) {
	return sk_sp<DropShadowImageFilter>(new DropShadowImageFilter(std::move(input)));
	}

	DropShadowImageFilter::DropShadowImageFilter(sk_sp<ImageFilter> input)
	: INHERITED(std::move(input)) {}

	DropShadowImageFilter::~DropShadowImageFilter() = default;

	sk_sp<SkImageFilter> DropShadowImageFilter::onRevalidateFilter() {
	if (fMode == Mode::kShadowOnly) {
	return SkImageFilters::DropShadowOnly(fOffset.x(), fOffset.y(), fSigma.x(), fSigma.y(),
	fColor, this->refInput(0));
	} else {
	return SkImageFilters::DropShadow(fOffset.x(), fOffset.y(), fSigma.x(), fSigma.y(),
	fColor, this->refInput(0));
	}
	}

	sk_sp<BlurImageFilter> BlurImageFilter::Make(sk_sp<ImageFilter> input) {
	return sk_sp<BlurImageFilter>(new BlurImageFilter(std::move(input)));
	}

	BlurImageFilter::BlurImageFilter(sk_sp<ImageFilter> input)
	: INHERITED(std::move(input)) {}

	BlurImageFilter::~BlurImageFilter() = default;

	sk_sp<SkImageFilter> BlurImageFilter::onRevalidateFilter() {
	return SkImageFilters::Blur(fSigma.x(), fSigma.y(), fTileMode, this->refInput(0));
	}

	sk_sp<BlendModeEffect> BlendModeEffect::Make(sk_sp<RenderNode> child, SkBlendMode mode) {
	return child ? sk_sp<BlendModeEffect>(new BlendModeEffect(std::move(child), mode))
	: nullptr;
	}

	BlendModeEffect::BlendModeEffect(sk_sp<RenderNode> child, SkBlendMode mode)
	: INHERITED(std::move(child))
	, fMode(mode) {}

	BlendModeEffect::~BlendModeEffect() = default;

	void BlendModeEffect::onRender(SkCanvas* canvas, const RenderContext* ctx) const {
	const auto local_ctx = ScopedRenderContext(canvas, ctx).modulateBlendMode(fMode);

	this->INHERITED::onRender(canvas, local_ctx);
	}

	const RenderNode* BlendModeEffect::onNodeAt(const SkPoint& p) const {
	// TODO: we likely need to do something more sophisticated than delegate to descendants here.
	return this->INHERITED::onNodeAt(p);
	}

	sk_sp<LayerEffect> LayerEffect::Make(sk_sp<RenderNode> child, SkBlendMode mode) {
	return child ? sk_sp<LayerEffect>(new LayerEffect(std::move(child), mode))
	: nullptr;
	}

	LayerEffect::LayerEffect(sk_sp<RenderNode> child, SkBlendMode mode)
	: INHERITED(std::move(child))
	, fMode(mode) {}

	LayerEffect::~LayerEffect() = default;

	void LayerEffect::onRender(SkCanvas* canvas, const RenderContext* ctx) const {
	SkAutoCanvasRestore acr(canvas, false);

	// Commit any potential pending paint effects to their own layer.
	const auto local_ctx = ScopedRenderContext(canvas, ctx).setIsolation(this->bounds(),
	canvas->getTotalMatrix(),
	true);

	SkPaint layer_paint;
	if (ctx) {
	// Apply all optional context overrides upfront.
	ctx->modulatePaint(canvas->getTotalMatrix(), &layer_paint);
	}
	layer_paint.setBlendMode(fMode);

	canvas->saveLayer(nullptr, &layer_paint);

	this->INHERITED::onRender(canvas, nullptr);
	}

	} // namespace sksg