impeller/entity/entity.cc - mirrors/engine - Git at Google

 // Copyright 2013 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "impeller/entity/entity.h"

 #include <algorithm>
 #include <optional>

 #include "impeller/base/validation.h"
 #include "impeller/entity/contents/content_context.h"
 #include "impeller/entity/contents/filters/filter_contents.h"
 #include "impeller/entity/contents/texture_contents.h"
 #include "impeller/entity/entity_pass.h"
 #include "impeller/geometry/color.h"
 #include "impeller/geometry/vector.h"
 #include "impeller/renderer/render_pass.h"

 namespace impeller {

 std::optional<Entity> Entity::FromSnapshot(
     const std::optional<Snapshot>& snapshot,
     BlendMode blend_mode,
     uint32_t stencil_depth) {
   if (!snapshot.has_value()) {
     return std::nullopt;
   }

   auto texture_rect = Rect::MakeSize(snapshot->texture->GetSize());

   auto contents = TextureContents::MakeRect(texture_rect);
   contents->SetTexture(snapshot->texture);
   contents->SetSamplerDescriptor(snapshot->sampler_descriptor);
   contents->SetSourceRect(texture_rect);
   contents->SetOpacity(snapshot->opacity);

   Entity entity;
   entity.SetBlendMode(blend_mode);
   entity.SetStencilDepth(stencil_depth);
   entity.SetTransformation(snapshot->transform);
   entity.SetContents(contents);
   return entity;
 }

 Entity::Entity() = default;

 Entity::~Entity() = default;

 const Matrix& Entity::GetTransformation() const {
   return transformation_;
 }

 void Entity::SetTransformation(const Matrix& transformation) {
   transformation_ = transformation;
 }

 std::optional<Rect> Entity::GetCoverage() const {
   if (!contents_) {
     return std::nullopt;
   }

   return contents_->GetCoverage(*this);
 }

 Contents::StencilCoverage Entity::GetStencilCoverage(
     const std::optional<Rect>& current_stencil_coverage) const {
   if (!contents_) {
     return {};
   }
   return contents_->GetStencilCoverage(*this, current_stencil_coverage);
 }

 bool Entity::ShouldRender(const std::optional<Rect>& stencil_coverage) const {
   return contents_->ShouldRender(*this, stencil_coverage);
 }

 void Entity::SetContents(std::shared_ptr<Contents> contents) {
   contents_ = std::move(contents);
 }

 const std::shared_ptr<Contents>& Entity::GetContents() const {
   return contents_;
 }

 void Entity::SetStencilDepth(uint32_t depth) {
   stencil_depth_ = depth;
 }

 uint32_t Entity::GetStencilDepth() const {
   return stencil_depth_;
 }

 void Entity::IncrementStencilDepth(uint32_t increment) {
   stencil_depth_ += increment;
 }

 void Entity::SetBlendMode(BlendMode blend_mode) {
   blend_mode_ = blend_mode;
 }

 BlendMode Entity::GetBlendMode() const {
   return blend_mode_;
 }

 bool Entity::CanInheritOpacity() const {
   if (!contents_) {
     return false;
   }
   if (!((blend_mode_ == BlendMode::kSource && contents_->IsOpaque()) ||
         blend_mode_ == BlendMode::kSourceOver)) {
     return false;
   }
   return contents_->CanInheritOpacity(*this);
 }

 bool Entity::SetInheritedOpacity(Scalar alpha) {
   if (!CanInheritOpacity()) {
     return false;
   }
   if (blend_mode_ == BlendMode::kSource && contents_->IsOpaque()) {
     blend_mode_ = BlendMode::kSourceOver;
   }
   contents_->SetInheritedOpacity(alpha);
   return true;
 }

 /// @brief  Returns true if the blend mode is "destructive", meaning that even
 ///         fully transparent source colors would result in the destination
 ///         getting changed.
 ///
 ///         This is useful for determining if EntityPass textures can be
 ///         shrinkwrapped to their Entities' coverage; they can be shrinkwrapped
 ///         if all of the contained Entities have non-destructive blends.
 bool Entity::IsBlendModeDestructive(BlendMode blend_mode) {
   switch (blend_mode) {
     case BlendMode::kClear:
     case BlendMode::kSource:
     case BlendMode::kSourceIn:
     case BlendMode::kDestinationIn:
     case BlendMode::kSourceOut:
     case BlendMode::kDestinationOut:
     case BlendMode::kDestinationATop:
     case BlendMode::kXor:
     case BlendMode::kModulate:
       return true;
     default:
       return false;
   }
 }

 bool Entity::Render(const ContentContext& renderer,
                     RenderPass& parent_pass) const {
   if (!contents_) {
     return true;
   }

   return contents_->Render(renderer, *this, parent_pass);
 }

 }  // namespace impeller
	// Copyright 2013 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "impeller/entity/entity.h"

	#include <algorithm>
	#include <optional>

	#include "impeller/base/validation.h"
	#include "impeller/entity/contents/content_context.h"
	#include "impeller/entity/contents/filters/filter_contents.h"
	#include "impeller/entity/contents/texture_contents.h"
	#include "impeller/entity/entity_pass.h"
	#include "impeller/geometry/color.h"
	#include "impeller/geometry/vector.h"
	#include "impeller/renderer/render_pass.h"

	namespace impeller {

	std::optional<Entity> Entity::FromSnapshot(
	const std::optional<Snapshot>& snapshot,
	BlendMode blend_mode,
	uint32_t stencil_depth) {
	if (!snapshot.has_value()) {
	return std::nullopt;
	}

	auto texture_rect = Rect::MakeSize(snapshot->texture->GetSize());

	auto contents = TextureContents::MakeRect(texture_rect);
	contents->SetTexture(snapshot->texture);
	contents->SetSamplerDescriptor(snapshot->sampler_descriptor);
	contents->SetSourceRect(texture_rect);
	contents->SetOpacity(snapshot->opacity);

	Entity entity;
	entity.SetBlendMode(blend_mode);
	entity.SetStencilDepth(stencil_depth);
	entity.SetTransformation(snapshot->transform);
	entity.SetContents(contents);
	return entity;
	}

	Entity::Entity() = default;

	Entity::~Entity() = default;

	const Matrix& Entity::GetTransformation() const {
	return transformation_;
	}

	void Entity::SetTransformation(const Matrix& transformation) {
	transformation_ = transformation;
	}

	std::optional<Rect> Entity::GetCoverage() const {
	if (!contents_) {
	return std::nullopt;
	}

	return contents_->GetCoverage(*this);
	}

	Contents::StencilCoverage Entity::GetStencilCoverage(
	const std::optional<Rect>& current_stencil_coverage) const {
	if (!contents_) {
	return {};
	}
	return contents_->GetStencilCoverage(*this, current_stencil_coverage);
	}

	bool Entity::ShouldRender(const std::optional<Rect>& stencil_coverage) const {
	return contents_->ShouldRender(*this, stencil_coverage);
	}

	void Entity::SetContents(std::shared_ptr<Contents> contents) {
	contents_ = std::move(contents);
	}

	const std::shared_ptr<Contents>& Entity::GetContents() const {
	return contents_;
	}

	void Entity::SetStencilDepth(uint32_t depth) {
	stencil_depth_ = depth;
	}

	uint32_t Entity::GetStencilDepth() const {
	return stencil_depth_;
	}

	void Entity::IncrementStencilDepth(uint32_t increment) {
	stencil_depth_ += increment;
	}

	void Entity::SetBlendMode(BlendMode blend_mode) {
	blend_mode_ = blend_mode;
	}

	BlendMode Entity::GetBlendMode() const {
	return blend_mode_;
	}

	bool Entity::CanInheritOpacity() const {
	if (!contents_) {
	return false;
	}
	if (!((blend_mode_ == BlendMode::kSource && contents_->IsOpaque()) \|\|
	blend_mode_ == BlendMode::kSourceOver)) {
	return false;
	}
	return contents_->CanInheritOpacity(*this);
	}

	bool Entity::SetInheritedOpacity(Scalar alpha) {
	if (!CanInheritOpacity()) {
	return false;
	}
	if (blend_mode_ == BlendMode::kSource && contents_->IsOpaque()) {
	blend_mode_ = BlendMode::kSourceOver;
	}
	contents_->SetInheritedOpacity(alpha);
	return true;
	}

	/// @brief Returns true if the blend mode is "destructive", meaning that even
	/// fully transparent source colors would result in the destination
	/// getting changed.
	///
	/// This is useful for determining if EntityPass textures can be
	/// shrinkwrapped to their Entities' coverage; they can be shrinkwrapped
	/// if all of the contained Entities have non-destructive blends.
	bool Entity::IsBlendModeDestructive(BlendMode blend_mode) {
	switch (blend_mode) {
	case BlendMode::kClear:
	case BlendMode::kSource:
	case BlendMode::kSourceIn:
	case BlendMode::kDestinationIn:
	case BlendMode::kSourceOut:
	case BlendMode::kDestinationOut:
	case BlendMode::kDestinationATop:
	case BlendMode::kXor:
	case BlendMode::kModulate:
	return true;
	default:
	return false;
	}
	}

	bool Entity::Render(const ContentContext& renderer,
	RenderPass& parent_pass) const {
	if (!contents_) {
	return true;
	}

	return contents_->Render(renderer, *this, parent_pass);
	}

	} // namespace impeller