impeller/entity/contents/tiled_texture_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 "impeller/entity/contents/tiled_texture_contents.h"

 #include "fml/logging.h"
 #include "impeller/entity/contents/content_context.h"
 #include "impeller/entity/tiled_texture_fill.frag.h"
 #include "impeller/entity/tiled_texture_fill_external.frag.h"
 #include "impeller/renderer/render_pass.h"

 namespace impeller {

 static std::optional<SamplerAddressMode> TileModeToAddressMode(
     Entity::TileMode tile_mode,
     const Capabilities& capabilities) {
   switch (tile_mode) {
     case Entity::TileMode::kClamp:
       return SamplerAddressMode::kClampToEdge;
       break;
     case Entity::TileMode::kMirror:
       return SamplerAddressMode::kMirror;
       break;
     case Entity::TileMode::kRepeat:
       return SamplerAddressMode::kRepeat;
       break;
     case Entity::TileMode::kDecal:
       if (capabilities.SupportsDecalSamplerAddressMode()) {
         return SamplerAddressMode::kDecal;
       }
       return std::nullopt;
   }
 }

 TiledTextureContents::TiledTextureContents() = default;

 TiledTextureContents::~TiledTextureContents() = default;

 void TiledTextureContents::SetTexture(std::shared_ptr<Texture> texture) {
   texture_ = std::move(texture);
 }

 void TiledTextureContents::SetTileModes(Entity::TileMode x_tile_mode,
                                         Entity::TileMode y_tile_mode) {
   x_tile_mode_ = x_tile_mode;
   y_tile_mode_ = y_tile_mode;
 }

 void TiledTextureContents::SetSamplerDescriptor(SamplerDescriptor desc) {
   sampler_descriptor_ = std::move(desc);
 }

 void TiledTextureContents::SetColorFilter(ColorFilterProc color_filter) {
   color_filter_ = std::move(color_filter);
 }

 std::shared_ptr<Texture> TiledTextureContents::CreateFilterTexture(
     const ContentContext& renderer) const {
   if (!color_filter_) {
     return nullptr;
   }
   auto color_filter_contents = color_filter_(FilterInput::Make(texture_));
   auto snapshot = color_filter_contents->RenderToSnapshot(
       renderer,      // renderer
       Entity(),      // entity
       std::nullopt,  // coverage_limit
       std::nullopt,  // sampler_descriptor
       true,          // msaa_enabled
       /*mip_count=*/1,
       "TiledTextureContents Snapshot");  // label
   if (snapshot.has_value()) {
     return snapshot.value().texture;
   }
   return nullptr;
 }

 SamplerDescriptor TiledTextureContents::CreateSamplerDescriptor(
     const Capabilities& capabilities) const {
   SamplerDescriptor descriptor = sampler_descriptor_;
   auto width_mode = TileModeToAddressMode(x_tile_mode_, capabilities);
   auto height_mode = TileModeToAddressMode(y_tile_mode_, capabilities);
   if (width_mode.has_value()) {
     descriptor.width_address_mode = width_mode.value();
   }
   if (height_mode.has_value()) {
     descriptor.height_address_mode = height_mode.value();
   }
   return descriptor;
 }

 bool TiledTextureContents::UsesEmulatedTileMode(
     const Capabilities& capabilities) const {
   return !TileModeToAddressMode(x_tile_mode_, capabilities).has_value() ||
          !TileModeToAddressMode(y_tile_mode_, capabilities).has_value();
 }

 // |Contents|
 bool TiledTextureContents::IsOpaque(const Matrix& transform) const {
   if (GetOpacityFactor() < 1 || x_tile_mode_ == Entity::TileMode::kDecal ||
       y_tile_mode_ == Entity::TileMode::kDecal) {
     return false;
   }
   if (color_filter_) {
     return false;
   }
   return texture_->IsOpaque() && !AppliesAlphaForStrokeCoverage(transform);
 }

 bool TiledTextureContents::Render(const ContentContext& renderer,
                                   const Entity& entity,
                                   RenderPass& pass) const {
   if (texture_ == nullptr) {
     return true;
   }

   using VS = TextureUvFillVertexShader;
   using FS = TiledTextureFillFragmentShader;

   const auto texture_size = texture_->GetSize();
   if (texture_size.IsEmpty()) {
     return true;
   }

   VS::FrameInfo frame_info;
   frame_info.texture_sampler_y_coord_scale = texture_->GetYCoordScale();
   frame_info.uv_transform =
       Rect::MakeSize(texture_size).GetNormalizingTransform() *
       GetInverseEffectTransform();

   PipelineBuilderCallback pipeline_callback =
       [&renderer](ContentContextOptions options) {
         return renderer.GetTiledTexturePipeline(options);
       };
   return ColorSourceContents::DrawGeometry<VS>(
       renderer, entity, pass, pipeline_callback, frame_info,
       [this, &renderer, &entity](RenderPass& pass) {
         auto& host_buffer = renderer.GetTransientsBuffer();
 #ifdef IMPELLER_DEBUG
         pass.SetCommandLabel("TextureFill");
 #endif  // IMPELLER_DEBUG

         FS::FragInfo frag_info;
         frag_info.x_tile_mode = static_cast<Scalar>(x_tile_mode_);
         frag_info.y_tile_mode = static_cast<Scalar>(y_tile_mode_);
         frag_info.alpha =
             GetOpacityFactor() *
             GetGeometry()->ComputeAlphaCoverage(entity.GetTransform());
         FS::BindFragInfo(pass, host_buffer.EmplaceUniform(frag_info));

         if (color_filter_) {
           auto filtered_texture = CreateFilterTexture(renderer);
           if (!filtered_texture) {
             return false;
           }
           FS::BindTextureSampler(
               pass, filtered_texture,
               renderer.GetContext()->GetSamplerLibrary()->GetSampler(
                   CreateSamplerDescriptor(renderer.GetDeviceCapabilities())));
         } else {
           FS::BindTextureSampler(
               pass, texture_,
               renderer.GetContext()->GetSamplerLibrary()->GetSampler(
                   CreateSamplerDescriptor(renderer.GetDeviceCapabilities())));
         }

         return true;
       });
 }

 std::optional<Snapshot> TiledTextureContents::RenderToSnapshot(
     const ContentContext& renderer,
     const Entity& entity,
     std::optional<Rect> coverage_limit,
     const std::optional<SamplerDescriptor>& sampler_descriptor,
     bool msaa_enabled,
     int32_t mip_count,
     const std::string& label) const {
   std::optional<Rect> geometry_coverage = GetGeometry()->GetCoverage({});
   if (GetInverseEffectTransform().IsIdentity() &&
       GetGeometry()->IsAxisAlignedRect() &&
       (!geometry_coverage.has_value() ||
        Rect::MakeSize(texture_->GetSize())
            .Contains(geometry_coverage.value()))) {
     auto coverage = GetCoverage(entity);
     if (!coverage.has_value()) {
       return std::nullopt;
     }
     auto scale = Vector2(coverage->GetSize() / Size(texture_->GetSize()));

     return Snapshot{
         .texture = texture_,
         .transform = Matrix::MakeTranslation(coverage->GetOrigin()) *
                      Matrix::MakeScale(scale),
         .sampler_descriptor = sampler_descriptor.value_or(sampler_descriptor_),
         .opacity = GetOpacityFactor(),
     };
   }

   return Contents::RenderToSnapshot(
       renderer,                                          // renderer
       entity,                                            // entity
       std::nullopt,                                      // coverage_limit
       sampler_descriptor.value_or(sampler_descriptor_),  // sampler_descriptor
       true,                                              // msaa_enabled
       /*mip_count=*/1,
       label);  // label
 }

 }  // 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/contents/tiled_texture_contents.h"

	#include "fml/logging.h"
	#include "impeller/entity/contents/content_context.h"
	#include "impeller/entity/tiled_texture_fill.frag.h"
	#include "impeller/entity/tiled_texture_fill_external.frag.h"
	#include "impeller/renderer/render_pass.h"

	namespace impeller {

	static std::optional<SamplerAddressMode> TileModeToAddressMode(
	Entity::TileMode tile_mode,
	const Capabilities& capabilities) {
	switch (tile_mode) {
	case Entity::TileMode::kClamp:
	return SamplerAddressMode::kClampToEdge;
	break;
	case Entity::TileMode::kMirror:
	return SamplerAddressMode::kMirror;
	break;
	case Entity::TileMode::kRepeat:
	return SamplerAddressMode::kRepeat;
	break;
	case Entity::TileMode::kDecal:
	if (capabilities.SupportsDecalSamplerAddressMode()) {
	return SamplerAddressMode::kDecal;
	}
	return std::nullopt;
	}
	}

	TiledTextureContents::TiledTextureContents() = default;

	TiledTextureContents::~TiledTextureContents() = default;

	void TiledTextureContents::SetTexture(std::shared_ptr<Texture> texture) {
	texture_ = std::move(texture);
	}

	void TiledTextureContents::SetTileModes(Entity::TileMode x_tile_mode,
	Entity::TileMode y_tile_mode) {
	x_tile_mode_ = x_tile_mode;
	y_tile_mode_ = y_tile_mode;
	}

	void TiledTextureContents::SetSamplerDescriptor(SamplerDescriptor desc) {
	sampler_descriptor_ = std::move(desc);
	}

	void TiledTextureContents::SetColorFilter(ColorFilterProc color_filter) {
	color_filter_ = std::move(color_filter);
	}

	std::shared_ptr<Texture> TiledTextureContents::CreateFilterTexture(
	const ContentContext& renderer) const {
	if (!color_filter_) {
	return nullptr;
	}
	auto color_filter_contents = color_filter_(FilterInput::Make(texture_));
	auto snapshot = color_filter_contents->RenderToSnapshot(
	renderer, // renderer
	Entity(), // entity
	std::nullopt, // coverage_limit
	std::nullopt, // sampler_descriptor
	true, // msaa_enabled
	/mip_count=/1,
	"TiledTextureContents Snapshot"); // label
	if (snapshot.has_value()) {
	return snapshot.value().texture;
	}
	return nullptr;
	}

	SamplerDescriptor TiledTextureContents::CreateSamplerDescriptor(
	const Capabilities& capabilities) const {
	SamplerDescriptor descriptor = sampler_descriptor_;
	auto width_mode = TileModeToAddressMode(x_tile_mode_, capabilities);
	auto height_mode = TileModeToAddressMode(y_tile_mode_, capabilities);
	if (width_mode.has_value()) {
	descriptor.width_address_mode = width_mode.value();
	}
	if (height_mode.has_value()) {
	descriptor.height_address_mode = height_mode.value();
	}
	return descriptor;
	}

	bool TiledTextureContents::UsesEmulatedTileMode(
	const Capabilities& capabilities) const {
	return !TileModeToAddressMode(x_tile_mode_, capabilities).has_value() \|\|
	!TileModeToAddressMode(y_tile_mode_, capabilities).has_value();
	}

	// \|Contents\|
	bool TiledTextureContents::IsOpaque(const Matrix& transform) const {
	if (GetOpacityFactor() < 1 \|\| x_tile_mode_ == Entity::TileMode::kDecal \|\|
	y_tile_mode_ == Entity::TileMode::kDecal) {
	return false;
	}
	if (color_filter_) {
	return false;
	}
	return texture_->IsOpaque() && !AppliesAlphaForStrokeCoverage(transform);
	}

	bool TiledTextureContents::Render(const ContentContext& renderer,
	const Entity& entity,
	RenderPass& pass) const {
	if (texture_ == nullptr) {
	return true;
	}

	using VS = TextureUvFillVertexShader;
	using FS = TiledTextureFillFragmentShader;

	const auto texture_size = texture_->GetSize();
	if (texture_size.IsEmpty()) {
	return true;
	}

	VS::FrameInfo frame_info;
	frame_info.texture_sampler_y_coord_scale = texture_->GetYCoordScale();
	frame_info.uv_transform =
	Rect::MakeSize(texture_size).GetNormalizingTransform() *
	GetInverseEffectTransform();

	PipelineBuilderCallback pipeline_callback =
	[&renderer](ContentContextOptions options) {
	return renderer.GetTiledTexturePipeline(options);
	};
	return ColorSourceContents::DrawGeometry<VS>(
	renderer, entity, pass, pipeline_callback, frame_info,
	[this, &renderer, &entity](RenderPass& pass) {
	auto& host_buffer = renderer.GetTransientsBuffer();
	#ifdef IMPELLER_DEBUG
	pass.SetCommandLabel("TextureFill");
	#endif // IMPELLER_DEBUG

	FS::FragInfo frag_info;
	frag_info.x_tile_mode = static_cast<Scalar>(x_tile_mode_);
	frag_info.y_tile_mode = static_cast<Scalar>(y_tile_mode_);
	frag_info.alpha =
	GetOpacityFactor() *
	GetGeometry()->ComputeAlphaCoverage(entity.GetTransform());
	FS::BindFragInfo(pass, host_buffer.EmplaceUniform(frag_info));

	if (color_filter_) {
	auto filtered_texture = CreateFilterTexture(renderer);
	if (!filtered_texture) {
	return false;
	}
	FS::BindTextureSampler(
	pass, filtered_texture,
	renderer.GetContext()->GetSamplerLibrary()->GetSampler(
	CreateSamplerDescriptor(renderer.GetDeviceCapabilities())));
	} else {
	FS::BindTextureSampler(
	pass, texture_,
	renderer.GetContext()->GetSamplerLibrary()->GetSampler(
	CreateSamplerDescriptor(renderer.GetDeviceCapabilities())));
	}

	return true;
	});
	}

	std::optional<Snapshot> TiledTextureContents::RenderToSnapshot(
	const ContentContext& renderer,
	const Entity& entity,
	std::optional<Rect> coverage_limit,
	const std::optional<SamplerDescriptor>& sampler_descriptor,
	bool msaa_enabled,
	int32_t mip_count,
	const std::string& label) const {
	std::optional<Rect> geometry_coverage = GetGeometry()->GetCoverage({});
	if (GetInverseEffectTransform().IsIdentity() &&
	GetGeometry()->IsAxisAlignedRect() &&
	(!geometry_coverage.has_value() \|\|
	Rect::MakeSize(texture_->GetSize())
	.Contains(geometry_coverage.value()))) {
	auto coverage = GetCoverage(entity);
	if (!coverage.has_value()) {
	return std::nullopt;
	}
	auto scale = Vector2(coverage->GetSize() / Size(texture_->GetSize()));

	return Snapshot{
	.texture = texture_,
	.transform = Matrix::MakeTranslation(coverage->GetOrigin()) *
	Matrix::MakeScale(scale),
	.sampler_descriptor = sampler_descriptor.value_or(sampler_descriptor_),
	.opacity = GetOpacityFactor(),
	};
	}

	return Contents::RenderToSnapshot(
	renderer, // renderer
	entity, // entity
	std::nullopt, // coverage_limit
	sampler_descriptor.value_or(sampler_descriptor_), // sampler_descriptor
	true, // msaa_enabled
	/mip_count=/1,
	label); // label
	}

	} // namespace impeller