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//
// Copyright 2002 The ANGLE Project Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
//
// ResourceManager.cpp: Implements the the ResourceManager classes, which handle allocation and
// lifetime of GL objects.
#include "libANGLE/ResourceManager.h"
#include "libANGLE/Buffer.h"
#include "libANGLE/Context.h"
#include "libANGLE/Fence.h"
#include "libANGLE/MemoryObject.h"
#include "libANGLE/Program.h"
#include "libANGLE/ProgramPipeline.h"
#include "libANGLE/Query.h"
#include "libANGLE/Renderbuffer.h"
#include "libANGLE/Sampler.h"
#include "libANGLE/Semaphore.h"
#include "libANGLE/Shader.h"
#include "libANGLE/Texture.h"
#include "libANGLE/renderer/ContextImpl.h"
namespace gl
{
namespace
{
template <typename ResourceType, typename IDType>
IDType AllocateEmptyObject(HandleAllocator *handleAllocator,
ResourceMap<ResourceType, IDType> *objectMap)
{
IDType handle = FromGL<IDType>(handleAllocator->allocate());
objectMap->assign(handle, nullptr);
return handle;
}
} // anonymous namespace
template <typename HandleAllocatorType>
ResourceManagerBase<HandleAllocatorType>::ResourceManagerBase() : mRefCount(1)
{}
template <typename HandleAllocatorType>
void ResourceManagerBase<HandleAllocatorType>::addRef()
{
mRefCount++;
}
template <typename HandleAllocatorType>
void ResourceManagerBase<HandleAllocatorType>::release(const Context *context)
{
if (--mRefCount == 0)
{
reset(context);
delete this;
}
}
template <typename ResourceType, typename HandleAllocatorType, typename ImplT, typename IDType>
TypedResourceManager<ResourceType, HandleAllocatorType, ImplT, IDType>::~TypedResourceManager()
{
ASSERT(mObjectMap.empty());
}
template <typename ResourceType, typename HandleAllocatorType, typename ImplT, typename IDType>
void TypedResourceManager<ResourceType, HandleAllocatorType, ImplT, IDType>::reset(
const Context *context)
{
this->mHandleAllocator.reset();
for (const auto &resource : mObjectMap)
{
if (resource.second)
{
ImplT::DeleteObject(context, resource.second);
}
}
mObjectMap.clear();
}
template <typename ResourceType, typename HandleAllocatorType, typename ImplT, typename IDType>
void TypedResourceManager<ResourceType, HandleAllocatorType, ImplT, IDType>::deleteObject(
const Context *context,
IDType handle)
{
ResourceType *resource = nullptr;
if (!mObjectMap.erase(handle, &resource))
{
return;
}
// Requires an explicit this-> because of C++ template rules.
this->mHandleAllocator.release(GetIDValue(handle));
if (resource)
{
ImplT::DeleteObject(context, resource);
}
}
template class ResourceManagerBase<HandleAllocator>;
template class TypedResourceManager<Buffer, HandleAllocator, BufferManager, BufferID>;
template class TypedResourceManager<Texture, HandleAllocator, TextureManager, TextureID>;
template class TypedResourceManager<Renderbuffer,
HandleAllocator,
RenderbufferManager,
RenderbufferID>;
template class TypedResourceManager<Sampler, HandleAllocator, SamplerManager, SamplerID>;
template class TypedResourceManager<Sync, HandleAllocator, SyncManager, GLuint>;
template class TypedResourceManager<Framebuffer,
HandleAllocator,
FramebufferManager,
FramebufferID>;
template class TypedResourceManager<ProgramPipeline,
HandleAllocator,
ProgramPipelineManager,
ProgramPipelineID>;
// BufferManager Implementation.
// static
Buffer *BufferManager::AllocateNewObject(rx::GLImplFactory *factory, BufferID handle)
{
Buffer *buffer = new Buffer(factory, handle);
buffer->addRef();
return buffer;
}
// static
void BufferManager::DeleteObject(const Context *context, Buffer *buffer)
{
buffer->release(context);
}
BufferID BufferManager::createBuffer()
{
return AllocateEmptyObject(&mHandleAllocator, &mObjectMap);
}
Buffer *BufferManager::getBuffer(BufferID handle) const
{
return mObjectMap.query(handle);
}
// ShaderProgramManager Implementation.
ShaderProgramManager::ShaderProgramManager() {}
ShaderProgramManager::~ShaderProgramManager()
{
ASSERT(mPrograms.empty());
ASSERT(mShaders.empty());
}
void ShaderProgramManager::reset(const Context *context)
{
while (!mPrograms.empty())
{
deleteProgram(context, {mPrograms.begin()->first});
}
mPrograms.clear();
while (!mShaders.empty())
{
deleteShader(context, {mShaders.begin()->first});
}
mShaders.clear();
}
ShaderProgramID ShaderProgramManager::createShader(rx::GLImplFactory *factory,
const gl::Limitations &rendererLimitations,
ShaderType type)
{
ASSERT(type != ShaderType::InvalidEnum);
ShaderProgramID handle = ShaderProgramID{mHandleAllocator.allocate()};
mShaders.assign(handle, new Shader(this, factory, rendererLimitations, type, handle));
return handle;
}
void ShaderProgramManager::deleteShader(const Context *context, ShaderProgramID shader)
{
deleteObject(context, &mShaders, shader);
}
Shader *ShaderProgramManager::getShader(ShaderProgramID handle) const
{
return mShaders.query(handle);
}
ShaderProgramID ShaderProgramManager::createProgram(rx::GLImplFactory *factory)
{
ShaderProgramID handle = ShaderProgramID{mHandleAllocator.allocate()};
mPrograms.assign(handle, new Program(factory, this, handle));
return handle;
}
void ShaderProgramManager::deleteProgram(const gl::Context *context, ShaderProgramID program)
{
deleteObject(context, &mPrograms, program);
}
template <typename ObjectType, typename IDType>
void ShaderProgramManager::deleteObject(const Context *context,
ResourceMap<ObjectType, IDType> *objectMap,
IDType id)
{
ObjectType *object = objectMap->query(id);
if (!object)
{
return;
}
if (object->getRefCount() == 0)
{
mHandleAllocator.release(id.value);
object->onDestroy(context);
objectMap->erase(id, &object);
}
else
{
object->flagForDeletion();
}
}
// TextureManager Implementation.
// static
Texture *TextureManager::AllocateNewObject(rx::GLImplFactory *factory,
TextureID handle,
TextureType type)
{
Texture *texture = new Texture(factory, handle, type);
texture->addRef();
return texture;
}
// static
void TextureManager::DeleteObject(const Context *context, Texture *texture)
{
texture->release(context);
}
TextureID TextureManager::createTexture()
{
return AllocateEmptyObject(&mHandleAllocator, &mObjectMap);
}
void TextureManager::signalAllTexturesDirty() const
{
for (const auto &texture : mObjectMap)
{
if (texture.second)
{
// We don't know if the Texture needs init, but that's ok, since it will only force
// a re-check, and will not initialize the pixels if it's not needed.
texture.second->signalDirtyStorage(InitState::MayNeedInit);
}
}
}
void TextureManager::enableHandleAllocatorLogging()
{
mHandleAllocator.enableLogging(true);
}
// RenderbufferManager Implementation.
// static
Renderbuffer *RenderbufferManager::AllocateNewObject(rx::GLImplFactory *factory,
RenderbufferID handle)
{
Renderbuffer *renderbuffer = new Renderbuffer(factory, handle);
renderbuffer->addRef();
return renderbuffer;
}
// static
void RenderbufferManager::DeleteObject(const Context *context, Renderbuffer *renderbuffer)
{
renderbuffer->release(context);
}
RenderbufferID RenderbufferManager::createRenderbuffer()
{
return {AllocateEmptyObject(&mHandleAllocator, &mObjectMap)};
}
Renderbuffer *RenderbufferManager::getRenderbuffer(RenderbufferID handle) const
{
return mObjectMap.query(handle);
}
// SamplerManager Implementation.
// static
Sampler *SamplerManager::AllocateNewObject(rx::GLImplFactory *factory, SamplerID handle)
{
Sampler *sampler = new Sampler(factory, handle);
sampler->addRef();
return sampler;
}
// static
void SamplerManager::DeleteObject(const Context *context, Sampler *sampler)
{
sampler->release(context);
}
SamplerID SamplerManager::createSampler()
{
return AllocateEmptyObject(&mHandleAllocator, &mObjectMap);
}
Sampler *SamplerManager::getSampler(SamplerID handle) const
{
return mObjectMap.query(handle);
}
bool SamplerManager::isSampler(SamplerID sampler) const
{
return mObjectMap.contains(sampler);
}
// SyncManager Implementation.
// static
void SyncManager::DeleteObject(const Context *context, Sync *sync)
{
sync->release(context);
}
GLuint SyncManager::createSync(rx::GLImplFactory *factory)
{
GLuint handle = mHandleAllocator.allocate();
Sync *sync = new Sync(factory, handle);
sync->addRef();
mObjectMap.assign(handle, sync);
return handle;
}
Sync *SyncManager::getSync(GLuint handle) const
{
return mObjectMap.query(handle);
}
// FramebufferManager Implementation.
// static
Framebuffer *FramebufferManager::AllocateNewObject(rx::GLImplFactory *factory,
FramebufferID handle,
const Caps &caps,
ContextID owningContextID)
{
// Make sure the caller isn't using a reserved handle.
ASSERT(handle != Framebuffer::kDefaultDrawFramebufferHandle);
return new Framebuffer(caps, factory, handle, owningContextID);
}
// static
void FramebufferManager::DeleteObject(const Context *context, Framebuffer *framebuffer)
{
framebuffer->onDestroy(context);
delete framebuffer;
}
FramebufferID FramebufferManager::createFramebuffer()
{
return AllocateEmptyObject(&mHandleAllocator, &mObjectMap);
}
Framebuffer *FramebufferManager::getFramebuffer(FramebufferID handle) const
{
return mObjectMap.query(handle);
}
void FramebufferManager::setDefaultFramebuffer(Framebuffer *framebuffer)
{
ASSERT(framebuffer == nullptr || framebuffer->isDefault());
mObjectMap.assign(Framebuffer::kDefaultDrawFramebufferHandle, framebuffer);
}
void FramebufferManager::invalidateFramebufferCompletenessCache() const
{
for (const auto &framebuffer : mObjectMap)
{
if (framebuffer.second)
{
framebuffer.second->invalidateCompletenessCache();
}
}
}
// ProgramPipelineManager Implementation.
// static
ProgramPipeline *ProgramPipelineManager::AllocateNewObject(rx::GLImplFactory *factory,
ProgramPipelineID handle)
{
ProgramPipeline *pipeline = new ProgramPipeline(factory, handle);
pipeline->addRef();
return pipeline;
}
// static
void ProgramPipelineManager::DeleteObject(const Context *context, ProgramPipeline *pipeline)
{
pipeline->release(context);
}
ProgramPipelineID ProgramPipelineManager::createProgramPipeline()
{
return AllocateEmptyObject(&mHandleAllocator, &mObjectMap);
}
ProgramPipeline *ProgramPipelineManager::getProgramPipeline(ProgramPipelineID handle) const
{
return mObjectMap.query(handle);
}
// MemoryObjectManager Implementation.
MemoryObjectManager::MemoryObjectManager() {}
MemoryObjectManager::~MemoryObjectManager()
{
ASSERT(mMemoryObjects.empty());
}
void MemoryObjectManager::reset(const Context *context)
{
while (!mMemoryObjects.empty())
{
deleteMemoryObject(context, {mMemoryObjects.begin()->first});
}
mMemoryObjects.clear();
}
MemoryObjectID MemoryObjectManager::createMemoryObject(rx::GLImplFactory *factory)
{
MemoryObjectID handle = MemoryObjectID{mHandleAllocator.allocate()};
MemoryObject *memoryObject = new MemoryObject(factory, handle);
memoryObject->addRef();
mMemoryObjects.assign(handle, memoryObject);
return handle;
}
void MemoryObjectManager::deleteMemoryObject(const Context *context, MemoryObjectID handle)
{
MemoryObject *memoryObject = nullptr;
if (!mMemoryObjects.erase(handle, &memoryObject))
{
return;
}
// Requires an explicit this-> because of C++ template rules.
this->mHandleAllocator.release(handle.value);
if (memoryObject)
{
memoryObject->release(context);
}
}
MemoryObject *MemoryObjectManager::getMemoryObject(MemoryObjectID handle) const
{
return mMemoryObjects.query(handle);
}
// SemaphoreManager Implementation.
SemaphoreManager::SemaphoreManager() {}
SemaphoreManager::~SemaphoreManager()
{
ASSERT(mSemaphores.empty());
}
void SemaphoreManager::reset(const Context *context)
{
while (!mSemaphores.empty())
{
deleteSemaphore(context, {mSemaphores.begin()->first});
}
mSemaphores.clear();
}
SemaphoreID SemaphoreManager::createSemaphore(rx::GLImplFactory *factory)
{
SemaphoreID handle = SemaphoreID{mHandleAllocator.allocate()};
Semaphore *semaphore = new Semaphore(factory, handle);
semaphore->addRef();
mSemaphores.assign(handle, semaphore);
return handle;
}
void SemaphoreManager::deleteSemaphore(const Context *context, SemaphoreID handle)
{
Semaphore *semaphore = nullptr;
if (!mSemaphores.erase(handle, &semaphore))
{
return;
}
// Requires an explicit this-> because of C++ template rules.
this->mHandleAllocator.release(handle.value);
if (semaphore)
{
semaphore->release(context);
}
}
Semaphore *SemaphoreManager::getSemaphore(SemaphoreID handle) const
{
return mSemaphores.query(handle);
}
} // namespace gl