src/dawn_native/opengl/PipelineGL.cpp - dawn - Git at Google

 // Copyright 2017 The Dawn Authors
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #include "dawn_native/opengl/PipelineGL.h"

 #include "common/BitSetIterator.h"
 #include "common/Log.h"
 #include "dawn_native/BindGroupLayout.h"
 #include "dawn_native/opengl/Forward.h"
 #include "dawn_native/opengl/OpenGLFunctions.h"
 #include "dawn_native/opengl/PipelineLayoutGL.h"
 #include "dawn_native/opengl/ShaderModuleGL.h"

 #include <set>

 namespace dawn_native { namespace opengl {

     namespace {

         GLenum GLShaderType(SingleShaderStage stage) {
             switch (stage) {
                 case SingleShaderStage::Vertex:
                     return GL_VERTEX_SHADER;
                 case SingleShaderStage::Fragment:
                     return GL_FRAGMENT_SHADER;
                 case SingleShaderStage::Compute:
                     return GL_COMPUTE_SHADER;
                 default:
                     UNREACHABLE();
             }
         }

     }  // namespace

     PipelineGL::PipelineGL() {
     }

     void PipelineGL::Initialize(const OpenGLFunctions& gl,
                                 const PipelineLayout* layout,
                                 const PerStage<const ShaderModule*>& modules) {
         auto CreateShader = [](const OpenGLFunctions& gl, GLenum type,
                                const char* source) -> GLuint {
             GLuint shader = gl.CreateShader(type);
             gl.ShaderSource(shader, 1, &source, nullptr);
             gl.CompileShader(shader);

             GLint compileStatus = GL_FALSE;
             gl.GetShaderiv(shader, GL_COMPILE_STATUS, &compileStatus);
             if (compileStatus == GL_FALSE) {
                 GLint infoLogLength = 0;
                 gl.GetShaderiv(shader, GL_INFO_LOG_LENGTH, &infoLogLength);

                 if (infoLogLength > 1) {
                     std::vector<char> buffer(infoLogLength);
                     gl.GetShaderInfoLog(shader, infoLogLength, nullptr, &buffer[0]);
                     dawn::ErrorLog() << source << "\nProgram compilation failed:\n"
                                      << buffer.data();
                 }
             }
             return shader;
         };

         mProgram = gl.CreateProgram();

         wgpu::ShaderStage activeStages = wgpu::ShaderStage::None;
         for (SingleShaderStage stage : IterateStages(kAllStages)) {
             if (modules[stage] != nullptr) {
                 activeStages |= StageBit(stage);
             }
         }

         for (SingleShaderStage stage : IterateStages(activeStages)) {
             GLuint shader = CreateShader(gl, GLShaderType(stage), modules[stage]->GetSource());
             gl.AttachShader(mProgram, shader);
         }

         gl.LinkProgram(mProgram);

         GLint linkStatus = GL_FALSE;
         gl.GetProgramiv(mProgram, GL_LINK_STATUS, &linkStatus);
         if (linkStatus == GL_FALSE) {
             GLint infoLogLength = 0;
             gl.GetProgramiv(mProgram, GL_INFO_LOG_LENGTH, &infoLogLength);

             if (infoLogLength > 1) {
                 std::vector<char> buffer(infoLogLength);
                 gl.GetProgramInfoLog(mProgram, infoLogLength, nullptr, &buffer[0]);
                 dawn::ErrorLog() << "Program link failed:\n" << buffer.data();
             }
         }

         gl.UseProgram(mProgram);

         // The uniforms are part of the program state so we can pre-bind buffer units, texture units
         // etc.
         const auto& indices = layout->GetBindingIndexInfo();

         for (uint32_t group : IterateBitSet(layout->GetBindGroupLayoutsMask())) {
             const BindGroupLayoutBase* bgl = layout->GetBindGroupLayout(group);

             for (const auto& it : bgl->GetBindingMap()) {
                 BindingNumber bindingNumber = it.first;
                 BindingIndex bindingIndex = it.second;

                 std::string name = GetBindingName(group, bindingNumber);
                 switch (bgl->GetBindingInfo(bindingIndex).type) {
                     case wgpu::BindingType::UniformBuffer: {
                         GLint location = gl.GetUniformBlockIndex(mProgram, name.c_str());
                         if (location != -1) {
                             gl.UniformBlockBinding(mProgram, location,
                                                    indices[group][bindingIndex]);
                         }
                         break;
                     }

                     case wgpu::BindingType::StorageBuffer:
                     case wgpu::BindingType::ReadonlyStorageBuffer: {
                         GLuint location = gl.GetProgramResourceIndex(
                             mProgram, GL_SHADER_STORAGE_BLOCK, name.c_str());
                         if (location != GL_INVALID_INDEX) {
                             gl.ShaderStorageBlockBinding(mProgram, location,
                                                          indices[group][bindingIndex]);
                         }
                         break;
                     }

                     case wgpu::BindingType::Sampler:
                     case wgpu::BindingType::ComparisonSampler:
                     case wgpu::BindingType::SampledTexture:
                         // These binding types are handled in the separate sampler and texture
                         // emulation
                         break;

                     case wgpu::BindingType::StorageTexture:
                     case wgpu::BindingType::ReadonlyStorageTexture:
                     case wgpu::BindingType::WriteonlyStorageTexture:
                         UNREACHABLE();
                         break;

                         // TODO(shaobo.yan@intel.com): Implement dynamic buffer offset.
                 }
             }
         }

         // Compute links between stages for combined samplers, then bind them to texture units
         {
             std::set<CombinedSampler> combinedSamplersSet;
             for (SingleShaderStage stage : IterateStages(activeStages)) {
                 for (const auto& combined : modules[stage]->GetCombinedSamplerInfo()) {
                     combinedSamplersSet.insert(combined);
                 }
             }

             mUnitsForSamplers.resize(layout->GetNumSamplers());
             mUnitsForTextures.resize(layout->GetNumSampledTextures());

             GLuint textureUnit = layout->GetTextureUnitsUsed();
             for (const auto& combined : combinedSamplersSet) {
                 std::string name = combined.GetName();
                 GLint location = gl.GetUniformLocation(mProgram, name.c_str());

                 if (location == -1) {
                     continue;
                 }

                 gl.Uniform1i(location, textureUnit);

                 GLuint textureIndex =
                     indices[combined.textureLocation.group][combined.textureLocation.binding];
                 mUnitsForTextures[textureIndex].push_back(textureUnit);

                 const BindGroupLayoutBase* bgl =
                     layout->GetBindGroupLayout(combined.textureLocation.group);
                 Format::Type componentType =
                     bgl->GetBindingInfo(bgl->GetBindingIndex(combined.textureLocation.binding))
                         .textureComponentType;
                 bool shouldUseFiltering = componentType == Format::Type::Float;

                 GLuint samplerIndex =
                     indices[combined.samplerLocation.group][combined.samplerLocation.binding];
                 mUnitsForSamplers[samplerIndex].push_back({textureUnit, shouldUseFiltering});

                 textureUnit++;
             }
         }
     }

     const std::vector<PipelineGL::SamplerUnit>& PipelineGL::GetTextureUnitsForSampler(
         GLuint index) const {
         ASSERT(index < mUnitsForSamplers.size());
         return mUnitsForSamplers[index];
     }

     const std::vector<GLuint>& PipelineGL::GetTextureUnitsForTextureView(GLuint index) const {
         ASSERT(index < mUnitsForSamplers.size());
         return mUnitsForTextures[index];
     }

     GLuint PipelineGL::GetProgramHandle() const {
         return mProgram;
     }

     void PipelineGL::ApplyNow(const OpenGLFunctions& gl) {
         gl.UseProgram(mProgram);
     }

 }}  // namespace dawn_native::opengl
	// Copyright 2017 The Dawn Authors
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#include "dawn_native/opengl/PipelineGL.h"

	#include "common/BitSetIterator.h"
	#include "common/Log.h"
	#include "dawn_native/BindGroupLayout.h"
	#include "dawn_native/opengl/Forward.h"
	#include "dawn_native/opengl/OpenGLFunctions.h"
	#include "dawn_native/opengl/PipelineLayoutGL.h"
	#include "dawn_native/opengl/ShaderModuleGL.h"

	#include <set>

	namespace dawn_native { namespace opengl {

	namespace {

	GLenum GLShaderType(SingleShaderStage stage) {
	switch (stage) {
	case SingleShaderStage::Vertex:
	return GL_VERTEX_SHADER;
	case SingleShaderStage::Fragment:
	return GL_FRAGMENT_SHADER;
	case SingleShaderStage::Compute:
	return GL_COMPUTE_SHADER;
	default:
	UNREACHABLE();
	}
	}

	} // namespace

	PipelineGL::PipelineGL() {
	}

	void PipelineGL::Initialize(const OpenGLFunctions& gl,
	const PipelineLayout* layout,
	const PerStage<const ShaderModule*>& modules) {
	auto CreateShader = [](const OpenGLFunctions& gl, GLenum type,
	const char* source) -> GLuint {
	GLuint shader = gl.CreateShader(type);
	gl.ShaderSource(shader, 1, &source, nullptr);
	gl.CompileShader(shader);

	GLint compileStatus = GL_FALSE;
	gl.GetShaderiv(shader, GL_COMPILE_STATUS, &compileStatus);
	if (compileStatus == GL_FALSE) {
	GLint infoLogLength = 0;
	gl.GetShaderiv(shader, GL_INFO_LOG_LENGTH, &infoLogLength);

	if (infoLogLength > 1) {
	std::vector<char> buffer(infoLogLength);
	gl.GetShaderInfoLog(shader, infoLogLength, nullptr, &buffer[0]);
	dawn::ErrorLog() << source << "\nProgram compilation failed:\n"
	<< buffer.data();
	}
	}
	return shader;
	};

	mProgram = gl.CreateProgram();

	wgpu::ShaderStage activeStages = wgpu::ShaderStage::None;
	for (SingleShaderStage stage : IterateStages(kAllStages)) {
	if (modules[stage] != nullptr) {
	activeStages \|= StageBit(stage);
	}
	}

	for (SingleShaderStage stage : IterateStages(activeStages)) {
	GLuint shader = CreateShader(gl, GLShaderType(stage), modules[stage]->GetSource());
	gl.AttachShader(mProgram, shader);
	}

	gl.LinkProgram(mProgram);

	GLint linkStatus = GL_FALSE;
	gl.GetProgramiv(mProgram, GL_LINK_STATUS, &linkStatus);
	if (linkStatus == GL_FALSE) {
	GLint infoLogLength = 0;
	gl.GetProgramiv(mProgram, GL_INFO_LOG_LENGTH, &infoLogLength);

	if (infoLogLength > 1) {
	std::vector<char> buffer(infoLogLength);
	gl.GetProgramInfoLog(mProgram, infoLogLength, nullptr, &buffer[0]);
	dawn::ErrorLog() << "Program link failed:\n" << buffer.data();
	}
	}

	gl.UseProgram(mProgram);

	// The uniforms are part of the program state so we can pre-bind buffer units, texture units
	// etc.
	const auto& indices = layout->GetBindingIndexInfo();

	for (uint32_t group : IterateBitSet(layout->GetBindGroupLayoutsMask())) {
	const BindGroupLayoutBase* bgl = layout->GetBindGroupLayout(group);

	for (const auto& it : bgl->GetBindingMap()) {
	BindingNumber bindingNumber = it.first;
	BindingIndex bindingIndex = it.second;

	std::string name = GetBindingName(group, bindingNumber);
	switch (bgl->GetBindingInfo(bindingIndex).type) {
	case wgpu::BindingType::UniformBuffer: {
	GLint location = gl.GetUniformBlockIndex(mProgram, name.c_str());
	if (location != -1) {
	gl.UniformBlockBinding(mProgram, location,
	indices[group][bindingIndex]);
	}
	break;
	}

	case wgpu::BindingType::StorageBuffer:
	case wgpu::BindingType::ReadonlyStorageBuffer: {
	GLuint location = gl.GetProgramResourceIndex(
	mProgram, GL_SHADER_STORAGE_BLOCK, name.c_str());
	if (location != GL_INVALID_INDEX) {
	gl.ShaderStorageBlockBinding(mProgram, location,
	indices[group][bindingIndex]);
	}
	break;
	}

	case wgpu::BindingType::Sampler:
	case wgpu::BindingType::ComparisonSampler:
	case wgpu::BindingType::SampledTexture:
	// These binding types are handled in the separate sampler and texture
	// emulation
	break;

	case wgpu::BindingType::StorageTexture:
	case wgpu::BindingType::ReadonlyStorageTexture:
	case wgpu::BindingType::WriteonlyStorageTexture:
	UNREACHABLE();
	break;

	// TODO(shaobo.yan@intel.com): Implement dynamic buffer offset.
	}
	}
	}

	// Compute links between stages for combined samplers, then bind them to texture units
	{
	std::set<CombinedSampler> combinedSamplersSet;
	for (SingleShaderStage stage : IterateStages(activeStages)) {
	for (const auto& combined : modules[stage]->GetCombinedSamplerInfo()) {
	combinedSamplersSet.insert(combined);
	}
	}

	mUnitsForSamplers.resize(layout->GetNumSamplers());
	mUnitsForTextures.resize(layout->GetNumSampledTextures());

	GLuint textureUnit = layout->GetTextureUnitsUsed();
	for (const auto& combined : combinedSamplersSet) {
	std::string name = combined.GetName();
	GLint location = gl.GetUniformLocation(mProgram, name.c_str());

	if (location == -1) {
	continue;
	}

	gl.Uniform1i(location, textureUnit);

	GLuint textureIndex =
	indices[combined.textureLocation.group][combined.textureLocation.binding];
	mUnitsForTextures[textureIndex].push_back(textureUnit);

	const BindGroupLayoutBase* bgl =
	layout->GetBindGroupLayout(combined.textureLocation.group);
	Format::Type componentType =
	bgl->GetBindingInfo(bgl->GetBindingIndex(combined.textureLocation.binding))
	.textureComponentType;
	bool shouldUseFiltering = componentType == Format::Type::Float;

	GLuint samplerIndex =
	indices[combined.samplerLocation.group][combined.samplerLocation.binding];
	mUnitsForSamplers[samplerIndex].push_back({textureUnit, shouldUseFiltering});

	textureUnit++;
	}
	}
	}

	const std::vector<PipelineGL::SamplerUnit>& PipelineGL::GetTextureUnitsForSampler(
	GLuint index) const {
	ASSERT(index < mUnitsForSamplers.size());
	return mUnitsForSamplers[index];
	}

	const std::vector<GLuint>& PipelineGL::GetTextureUnitsForTextureView(GLuint index) const {
	ASSERT(index < mUnitsForSamplers.size());
	return mUnitsForTextures[index];
	}

	GLuint PipelineGL::GetProgramHandle() const {
	return mProgram;
	}

	void PipelineGL::ApplyNow(const OpenGLFunctions& gl) {
	gl.UseProgram(mProgram);
	}

	}} // namespace dawn_native::opengl