impeller/entity/contents/vertices_contents.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 "vertices_contents.h"

 #include "impeller/core/formats.h"
 #include "impeller/core/vertex_buffer.h"
 #include "impeller/entity/contents/content_context.h"
 #include "impeller/entity/contents/filters/color_filter_contents.h"
 #include "impeller/entity/contents/filters/filter_contents.h"
 #include "impeller/entity/contents/texture_contents.h"
 #include "impeller/entity/position_color.vert.h"
 #include "impeller/entity/vertices.frag.h"
 #include "impeller/geometry/color.h"
 #include "impeller/renderer/render_pass.h"
 #include "impeller/renderer/sampler_library.h"

 namespace impeller {

 VerticesContents::VerticesContents() = default;

 VerticesContents::~VerticesContents() = default;

 std::optional<Rect> VerticesContents::GetCoverage(const Entity& entity) const {
   return geometry_->GetCoverage(entity.GetTransformation());
 };

 void VerticesContents::SetGeometry(std::shared_ptr<VerticesGeometry> geometry) {
   geometry_ = std::move(geometry);
 }

 void VerticesContents::SetSourceContents(std::shared_ptr<Contents> contents) {
   src_contents_ = std::move(contents);
 }

 std::shared_ptr<VerticesGeometry> VerticesContents::GetGeometry() const {
   return geometry_;
 }

 void VerticesContents::SetAlpha(Scalar alpha) {
   alpha_ = alpha;
 }

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

 const std::shared_ptr<Contents>& VerticesContents::GetSourceContents() const {
   return src_contents_;
 }

 bool VerticesContents::Render(const ContentContext& renderer,
                               const Entity& entity,
                               RenderPass& pass) const {
   if (blend_mode_ == BlendMode::kClear) {
     return true;
   }
   std::shared_ptr<Contents> src_contents = src_contents_;
   src_contents->SetCoverageHint(GetCoverageHint());
   if (geometry_->HasTextureCoordinates()) {
     auto contents = std::make_shared<VerticesUVContents>(*this);
     contents->SetCoverageHint(GetCoverageHint());
     if (!geometry_->HasVertexColors()) {
       contents->SetAlpha(alpha_);
       return contents->Render(renderer, entity, pass);
     }
     src_contents = contents;
   }

   auto dst_contents = std::make_shared<VerticesColorContents>(*this);
   dst_contents->SetCoverageHint(GetCoverageHint());

   std::shared_ptr<Contents> contents;
   if (blend_mode_ == BlendMode::kDestination) {
     contents = dst_contents;
   } else {
     auto color_filter_contents = ColorFilterContents::MakeBlend(
         blend_mode_, {FilterInput::Make(dst_contents, false),
                       FilterInput::Make(src_contents, false)});
     color_filter_contents->SetAlpha(alpha_);
     color_filter_contents->SetCoverageHint(GetCoverageHint());
     contents = color_filter_contents;
   }

   FML_DCHECK(contents->GetCoverageHint() == GetCoverageHint());
   return contents->Render(renderer, entity, pass);
 }

 //------------------------------------------------------
 // VerticesUVContents

 VerticesUVContents::VerticesUVContents(const VerticesContents& parent)
     : parent_(parent) {}

 VerticesUVContents::~VerticesUVContents() {}

 std::optional<Rect> VerticesUVContents::GetCoverage(
     const Entity& entity) const {
   return parent_.GetCoverage(entity);
 }

 void VerticesUVContents::SetAlpha(Scalar alpha) {
   alpha_ = alpha;
 }

 bool VerticesUVContents::Render(const ContentContext& renderer,
                                 const Entity& entity,
                                 RenderPass& pass) const {
   using VS = TexturePipeline::VertexShader;
   using FS = TexturePipeline::FragmentShader;

   auto src_contents = parent_.GetSourceContents();

   auto snapshot =
       src_contents->RenderToSnapshot(renderer,           // renderer
                                      entity,             // entity
                                      GetCoverageHint(),  // coverage_limit
                                      std::nullopt,       // sampler_descriptor
                                      true,               // msaa_enabled
                                      "VerticesUVContents Snapshot");  // label
   if (!snapshot.has_value()) {
     return false;
   }

   Command cmd;
   DEBUG_COMMAND_INFO(cmd, "VerticesUV");
   auto& host_buffer = pass.GetTransientsBuffer();
   auto geometry = parent_.GetGeometry();

   auto coverage = src_contents->GetCoverage(Entity{});
   if (!coverage.has_value()) {
     return false;
   }
   auto geometry_result = geometry->GetPositionUVBuffer(
       coverage.value(), Matrix(), renderer, entity, pass);
   auto opts = OptionsFromPassAndEntity(pass, entity);
   opts.primitive_type = geometry_result.type;
   cmd.pipeline = renderer.GetTexturePipeline(opts);
   cmd.stencil_reference = entity.GetStencilDepth();
   cmd.BindVertices(geometry_result.vertex_buffer);

   VS::FrameInfo frame_info;
   frame_info.mvp = geometry_result.transform;
   frame_info.texture_sampler_y_coord_scale =
       snapshot->texture->GetYCoordScale();
   frame_info.alpha = alpha_ * snapshot->opacity;
   VS::BindFrameInfo(cmd, host_buffer.EmplaceUniform(frame_info));

   FS::BindTextureSampler(cmd, snapshot->texture,
                          renderer.GetContext()->GetSamplerLibrary()->GetSampler(
                              snapshot->sampler_descriptor));

   return pass.AddCommand(std::move(cmd));
 }

 //------------------------------------------------------
 // VerticesColorContents

 VerticesColorContents::VerticesColorContents(const VerticesContents& parent)
     : parent_(parent) {}

 VerticesColorContents::~VerticesColorContents() {}

 std::optional<Rect> VerticesColorContents::GetCoverage(
     const Entity& entity) const {
   return parent_.GetCoverage(entity);
 }

 void VerticesColorContents::SetAlpha(Scalar alpha) {
   alpha_ = alpha;
 }

 bool VerticesColorContents::Render(const ContentContext& renderer,
                                    const Entity& entity,
                                    RenderPass& pass) const {
   using VS = GeometryColorPipeline::VertexShader;
   using FS = GeometryColorPipeline::FragmentShader;

   Command cmd;
   DEBUG_COMMAND_INFO(cmd, "VerticesColors");
   auto& host_buffer = pass.GetTransientsBuffer();
   auto geometry = parent_.GetGeometry();

   auto geometry_result =
       geometry->GetPositionColorBuffer(renderer, entity, pass);
   auto opts = OptionsFromPassAndEntity(pass, entity);
   opts.primitive_type = geometry_result.type;
   cmd.pipeline = renderer.GetGeometryColorPipeline(opts);
   cmd.stencil_reference = entity.GetStencilDepth();
   cmd.BindVertices(geometry_result.vertex_buffer);

   VS::FrameInfo frame_info;
   frame_info.mvp = geometry_result.transform;
   VS::BindFrameInfo(cmd, host_buffer.EmplaceUniform(frame_info));

   FS::FragInfo frag_info;
   frag_info.alpha = alpha_;
   FS::BindFragInfo(cmd, host_buffer.EmplaceUniform(frag_info));

   return pass.AddCommand(std::move(cmd));
 }

 }  // 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 "vertices_contents.h"

	#include "impeller/core/formats.h"
	#include "impeller/core/vertex_buffer.h"
	#include "impeller/entity/contents/content_context.h"
	#include "impeller/entity/contents/filters/color_filter_contents.h"
	#include "impeller/entity/contents/filters/filter_contents.h"
	#include "impeller/entity/contents/texture_contents.h"
	#include "impeller/entity/position_color.vert.h"
	#include "impeller/entity/vertices.frag.h"
	#include "impeller/geometry/color.h"
	#include "impeller/renderer/render_pass.h"
	#include "impeller/renderer/sampler_library.h"

	namespace impeller {

	VerticesContents::VerticesContents() = default;

	VerticesContents::~VerticesContents() = default;

	std::optional<Rect> VerticesContents::GetCoverage(const Entity& entity) const {
	return geometry_->GetCoverage(entity.GetTransformation());
	};

	void VerticesContents::SetGeometry(std::shared_ptr<VerticesGeometry> geometry) {
	geometry_ = std::move(geometry);
	}

	void VerticesContents::SetSourceContents(std::shared_ptr<Contents> contents) {
	src_contents_ = std::move(contents);
	}

	std::shared_ptr<VerticesGeometry> VerticesContents::GetGeometry() const {
	return geometry_;
	}

	void VerticesContents::SetAlpha(Scalar alpha) {
	alpha_ = alpha;
	}

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

	const std::shared_ptr<Contents>& VerticesContents::GetSourceContents() const {
	return src_contents_;
	}

	bool VerticesContents::Render(const ContentContext& renderer,
	const Entity& entity,
	RenderPass& pass) const {
	if (blend_mode_ == BlendMode::kClear) {
	return true;
	}
	std::shared_ptr<Contents> src_contents = src_contents_;
	src_contents->SetCoverageHint(GetCoverageHint());
	if (geometry_->HasTextureCoordinates()) {
	auto contents = std::make_shared<VerticesUVContents>(*this);
	contents->SetCoverageHint(GetCoverageHint());
	if (!geometry_->HasVertexColors()) {
	contents->SetAlpha(alpha_);
	return contents->Render(renderer, entity, pass);
	}
	src_contents = contents;
	}

	auto dst_contents = std::make_shared<VerticesColorContents>(*this);
	dst_contents->SetCoverageHint(GetCoverageHint());

	std::shared_ptr<Contents> contents;
	if (blend_mode_ == BlendMode::kDestination) {
	contents = dst_contents;
	} else {
	auto color_filter_contents = ColorFilterContents::MakeBlend(
	blend_mode_, {FilterInput::Make(dst_contents, false),
	FilterInput::Make(src_contents, false)});
	color_filter_contents->SetAlpha(alpha_);
	color_filter_contents->SetCoverageHint(GetCoverageHint());
	contents = color_filter_contents;
	}

	FML_DCHECK(contents->GetCoverageHint() == GetCoverageHint());
	return contents->Render(renderer, entity, pass);
	}

	//------------------------------------------------------
	// VerticesUVContents

	VerticesUVContents::VerticesUVContents(const VerticesContents& parent)
	: parent_(parent) {}

	VerticesUVContents::~VerticesUVContents() {}

	std::optional<Rect> VerticesUVContents::GetCoverage(
	const Entity& entity) const {
	return parent_.GetCoverage(entity);
	}

	void VerticesUVContents::SetAlpha(Scalar alpha) {
	alpha_ = alpha;
	}

	bool VerticesUVContents::Render(const ContentContext& renderer,
	const Entity& entity,
	RenderPass& pass) const {
	using VS = TexturePipeline::VertexShader;
	using FS = TexturePipeline::FragmentShader;

	auto src_contents = parent_.GetSourceContents();

	auto snapshot =
	src_contents->RenderToSnapshot(renderer, // renderer
	entity, // entity
	GetCoverageHint(), // coverage_limit
	std::nullopt, // sampler_descriptor
	true, // msaa_enabled
	"VerticesUVContents Snapshot"); // label
	if (!snapshot.has_value()) {
	return false;
	}

	Command cmd;
	DEBUG_COMMAND_INFO(cmd, "VerticesUV");
	auto& host_buffer = pass.GetTransientsBuffer();
	auto geometry = parent_.GetGeometry();

	auto coverage = src_contents->GetCoverage(Entity{});
	if (!coverage.has_value()) {
	return false;
	}
	auto geometry_result = geometry->GetPositionUVBuffer(
	coverage.value(), Matrix(), renderer, entity, pass);
	auto opts = OptionsFromPassAndEntity(pass, entity);
	opts.primitive_type = geometry_result.type;
	cmd.pipeline = renderer.GetTexturePipeline(opts);
	cmd.stencil_reference = entity.GetStencilDepth();
	cmd.BindVertices(geometry_result.vertex_buffer);

	VS::FrameInfo frame_info;
	frame_info.mvp = geometry_result.transform;
	frame_info.texture_sampler_y_coord_scale =
	snapshot->texture->GetYCoordScale();
	frame_info.alpha = alpha_ * snapshot->opacity;
	VS::BindFrameInfo(cmd, host_buffer.EmplaceUniform(frame_info));

	FS::BindTextureSampler(cmd, snapshot->texture,
	renderer.GetContext()->GetSamplerLibrary()->GetSampler(
	snapshot->sampler_descriptor));

	return pass.AddCommand(std::move(cmd));
	}

	//------------------------------------------------------
	// VerticesColorContents

	VerticesColorContents::VerticesColorContents(const VerticesContents& parent)
	: parent_(parent) {}

	VerticesColorContents::~VerticesColorContents() {}

	std::optional<Rect> VerticesColorContents::GetCoverage(
	const Entity& entity) const {
	return parent_.GetCoverage(entity);
	}

	void VerticesColorContents::SetAlpha(Scalar alpha) {
	alpha_ = alpha;
	}

	bool VerticesColorContents::Render(const ContentContext& renderer,
	const Entity& entity,
	RenderPass& pass) const {
	using VS = GeometryColorPipeline::VertexShader;
	using FS = GeometryColorPipeline::FragmentShader;

	Command cmd;
	DEBUG_COMMAND_INFO(cmd, "VerticesColors");
	auto& host_buffer = pass.GetTransientsBuffer();
	auto geometry = parent_.GetGeometry();

	auto geometry_result =
	geometry->GetPositionColorBuffer(renderer, entity, pass);
	auto opts = OptionsFromPassAndEntity(pass, entity);
	opts.primitive_type = geometry_result.type;
	cmd.pipeline = renderer.GetGeometryColorPipeline(opts);
	cmd.stencil_reference = entity.GetStencilDepth();
	cmd.BindVertices(geometry_result.vertex_buffer);

	VS::FrameInfo frame_info;
	frame_info.mvp = geometry_result.transform;
	VS::BindFrameInfo(cmd, host_buffer.EmplaceUniform(frame_info));

	FS::FragInfo frag_info;
	frag_info.alpha = alpha_;
	FS::BindFragInfo(cmd, host_buffer.EmplaceUniform(frag_info));

	return pass.AddCommand(std::move(cmd));
	}

	} // namespace impeller