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// 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 <set>
#include <sstream>
#include <string>
#include "dawn/common/BitSetIterator.h"
#include "dawn/native/BindGroupLayout.h"
#include "dawn/native/Device.h"
#include "dawn/native/Pipeline.h"
#include "dawn/native/opengl/Forward.h"
#include "dawn/native/opengl/OpenGLFunctions.h"
#include "dawn/native/opengl/PipelineLayoutGL.h"
#include "dawn/native/opengl/SamplerGL.h"
#include "dawn/native/opengl/ShaderModuleGL.h"
namespace dawn::native::opengl {
PipelineGL::PipelineGL() : mProgram(0) {}
PipelineGL::~PipelineGL() = default;
MaybeError PipelineGL::InitializeBase(const OpenGLFunctions& gl,
const PipelineLayout* layout,
const PerStage<ProgrammableStage>& stages) {
mProgram = gl.CreateProgram();
// Compute the set of active stages.
wgpu::ShaderStage activeStages = wgpu::ShaderStage::None;
for (SingleShaderStage stage : IterateStages(kAllStages)) {
if (stages[stage].module != nullptr) {
activeStages |= StageBit(stage);
}
}
// Create an OpenGL shader for each stage and gather the list of combined samplers.
PerStage<CombinedSamplerInfo> combinedSamplers;
bool needsPlaceholderSampler = false;
std::vector<GLuint> glShaders;
for (SingleShaderStage stage : IterateStages(activeStages)) {
const ShaderModule* module = ToBackend(stages[stage].module.Get());
GLuint shader;
DAWN_TRY_ASSIGN(shader,
module->CompileShader(gl, stages[stage], stage, &combinedSamplers[stage],
layout, &needsPlaceholderSampler));
gl.AttachShader(mProgram, shader);
glShaders.push_back(shader);
}
if (needsPlaceholderSampler) {
SamplerDescriptor desc = {};
ASSERT(desc.minFilter == wgpu::FilterMode::Nearest);
ASSERT(desc.magFilter == wgpu::FilterMode::Nearest);
ASSERT(desc.mipmapFilter == wgpu::FilterMode::Nearest);
mPlaceholderSampler =
ToBackend(layout->GetDevice()->GetOrCreateSampler(&desc).AcquireSuccess());
}
// Link all the shaders together.
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]);
return DAWN_VALIDATION_ERROR("Program link failed:\n%s", buffer.data());
}
}
// Compute links between stages for combined samplers, then bind them to texture units
gl.UseProgram(mProgram);
const auto& indices = layout->GetBindingIndexInfo();
std::set<CombinedSampler> combinedSamplersSet;
for (SingleShaderStage stage : IterateStages(activeStages)) {
for (const CombinedSampler& combined : combinedSamplers[stage]) {
combinedSamplersSet.insert(combined);
}
}
mUnitsForSamplers.resize(layout->GetNumSamplers());
mUnitsForTextures.resize(layout->GetNumSampledTextures());
GLuint textureUnit = layout->GetTextureUnitsUsed();
for (const auto& combined : combinedSamplersSet) {
const std::string& name = combined.GetName();
GLint location = gl.GetUniformLocation(mProgram, name.c_str());
if (location == -1) {
continue;
}
gl.Uniform1i(location, textureUnit);
bool shouldUseFiltering;
{
const BindGroupLayoutBase* bgl =
layout->GetBindGroupLayout(combined.textureLocation.group);
BindingIndex bindingIndex = bgl->GetBindingIndex(combined.textureLocation.binding);
GLuint textureIndex = indices[combined.textureLocation.group][bindingIndex];
mUnitsForTextures[textureIndex].push_back(textureUnit);
shouldUseFiltering = bgl->GetBindingInfo(bindingIndex).texture.sampleType ==
wgpu::TextureSampleType::Float;
}
{
if (combined.usePlaceholderSampler) {
mPlaceholderSamplerUnits.push_back(textureUnit);
} else {
const BindGroupLayoutBase* bgl =
layout->GetBindGroupLayout(combined.samplerLocation.group);
BindingIndex bindingIndex = bgl->GetBindingIndex(combined.samplerLocation.binding);
GLuint samplerIndex = indices[combined.samplerLocation.group][bindingIndex];
mUnitsForSamplers[samplerIndex].push_back({textureUnit, shouldUseFiltering});
}
}
textureUnit++;
}
for (GLuint glShader : glShaders) {
gl.DetachShader(mProgram, glShader);
gl.DeleteShader(glShader);
}
return {};
}
void PipelineGL::DeleteProgram(const OpenGLFunctions& gl) {
gl.DeleteProgram(mProgram);
}
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 < mUnitsForTextures.size());
return mUnitsForTextures[index];
}
GLuint PipelineGL::GetProgramHandle() const {
return mProgram;
}
void PipelineGL::ApplyNow(const OpenGLFunctions& gl) {
gl.UseProgram(mProgram);
for (GLuint unit : mPlaceholderSamplerUnits) {
ASSERT(mPlaceholderSampler.Get() != nullptr);
gl.BindSampler(unit, mPlaceholderSampler->GetNonFilteringHandle());
}
}
} // namespace dawn::native::opengl