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|
//
// Copyright 2014 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.
//
// Buffer11.cpp Defines the Buffer11 class.
#include "libANGLE/renderer/d3d/d3d11/Buffer11.h"
#include <memory>
#include "common/MemoryBuffer.h"
#include "libANGLE/renderer/d3d/IndexDataManager.h"
#include "libANGLE/renderer/d3d/VertexDataManager.h"
#include "libANGLE/renderer/d3d/d3d11/Renderer11.h"
#include "libANGLE/renderer/d3d/d3d11/RenderTarget11.h"
#include "libANGLE/renderer/d3d/d3d11/renderer11_utils.h"
#include "libANGLE/renderer/d3d/d3d11/formatutils11.h"
namespace
{
template <typename T>
GLuint ReadIndexValueFromIndices(const uint8_t *data, size_t index)
{
return reinterpret_cast<const T *>(data)[index];
}
typedef GLuint (*ReadIndexValueFunction)(const uint8_t *data, size_t index);
}
#if defined(ANGLE_MINGW32_COMPAT)
typedef enum D3D11_MAP_FLAG {
D3D11_MAP_FLAG_DO_NOT_WAIT = 0x100000
} D3D11_MAP_FLAG;
#endif
namespace rx
{
PackPixelsParams::PackPixelsParams()
: format(GL_NONE), type(GL_NONE), outputPitch(0), packBuffer(nullptr), offset(0)
{
}
PackPixelsParams::PackPixelsParams(const gl::Rectangle &areaIn,
GLenum formatIn,
GLenum typeIn,
GLuint outputPitchIn,
const gl::PixelPackState &packIn,
ptrdiff_t offsetIn)
: area(areaIn),
format(formatIn),
type(typeIn),
outputPitch(outputPitchIn),
packBuffer(packIn.pixelBuffer.get()),
pack(packIn.alignment, packIn.reverseRowOrder),
offset(offsetIn)
{
}
namespace gl_d3d11
{
D3D11_MAP GetD3DMapTypeFromBits(GLbitfield access)
{
bool readBit = ((access & GL_MAP_READ_BIT) != 0);
bool writeBit = ((access & GL_MAP_WRITE_BIT) != 0);
ASSERT(readBit || writeBit);
// Note : we ignore the discard bit, because in D3D11, staging buffers
// don't accept the map-discard flag (discard only works for DYNAMIC usage)
if (readBit && !writeBit)
{
return D3D11_MAP_READ;
}
else if (writeBit && !readBit)
{
return D3D11_MAP_WRITE;
}
else if (writeBit && readBit)
{
return D3D11_MAP_READ_WRITE;
}
else
{
UNREACHABLE();
return D3D11_MAP_READ;
}
}
}
// Each instance of Buffer11::BufferStorage is specialized for a class of D3D binding points
// - vertex/transform feedback buffers
// - index buffers
// - pixel unpack buffers
// - uniform buffers
class Buffer11::BufferStorage : angle::NonCopyable
{
public:
virtual ~BufferStorage() {}
DataRevision getDataRevision() const { return mRevision; }
BufferUsage getUsage() const { return mUsage; }
size_t getSize() const { return mBufferSize; }
void setDataRevision(DataRevision rev) { mRevision = rev; }
virtual bool isMappable() const = 0;
virtual bool copyFromStorage(BufferStorage *source,
size_t sourceOffset,
size_t size,
size_t destOffset) = 0;
virtual gl::Error resize(size_t size, bool preserveData) = 0;
virtual uint8_t *map(size_t offset, size_t length, GLbitfield access) = 0;
virtual void unmap() = 0;
gl::Error setData(const uint8_t *data, size_t offset, size_t size);
protected:
BufferStorage(Renderer11 *renderer, BufferUsage usage);
Renderer11 *mRenderer;
DataRevision mRevision;
const BufferUsage mUsage;
size_t mBufferSize;
};
// A native buffer storage represents an underlying D3D11 buffer for a particular
// type of storage.
class Buffer11::NativeStorage : public Buffer11::BufferStorage
{
public:
NativeStorage(Renderer11 *renderer, BufferUsage usage);
~NativeStorage() override;
bool isMappable() const override { return mUsage == BUFFER_USAGE_STAGING; }
ID3D11Buffer *getNativeStorage() const { return mNativeStorage; }
bool copyFromStorage(BufferStorage *source,
size_t sourceOffset,
size_t size,
size_t destOffset) override;
gl::Error resize(size_t size, bool preserveData) override;
uint8_t *map(size_t offset, size_t length, GLbitfield access) override;
void unmap() override;
private:
static void fillBufferDesc(D3D11_BUFFER_DESC *bufferDesc,
Renderer11 *renderer,
BufferUsage usage,
unsigned int bufferSize);
ID3D11Buffer *mNativeStorage;
};
// A emulated indexed buffer storage represents an underlying D3D11 buffer for data
// that has been expanded to match the indices list used. This storage is only
// used for FL9_3 pointsprite rendering emulation.
class Buffer11::EmulatedIndexedStorage : public Buffer11::BufferStorage
{
public:
EmulatedIndexedStorage(Renderer11 *renderer);
~EmulatedIndexedStorage() override;
bool isMappable() const override { return true; }
ID3D11Buffer *getNativeStorage();
bool copyFromStorage(BufferStorage *source,
size_t sourceOffset,
size_t size,
size_t destOffset) override;
gl::Error resize(size_t size, bool preserveData) override;
uint8_t *map(size_t offset, size_t length, GLbitfield access) override;
void unmap() override;
bool update(SourceIndexData *indexInfo, const TranslatedAttribute *attribute);
private:
ID3D11Buffer *mNativeStorage; // contains expanded data for use by D3D
MemoryBuffer mMemoryBuffer; // original data (not expanded)
MemoryBuffer mIndicesMemoryBuffer; // indices data
SourceIndexData mIndexInfo; // indices information
size_t mAttributeStride; // per element stride in bytes
size_t mAttributeOffset; // starting offset
};
// Pack storage represents internal storage for pack buffers. We implement pack buffers
// as CPU memory, tied to a staging texture, for asynchronous texture readback.
class Buffer11::PackStorage : public Buffer11::BufferStorage
{
public:
explicit PackStorage(Renderer11 *renderer);
~PackStorage() override;
bool isMappable() const override { return true; }
bool copyFromStorage(BufferStorage *source,
size_t sourceOffset,
size_t size,
size_t destOffset) override;
gl::Error resize(size_t size, bool preserveData) override;
uint8_t *map(size_t offset, size_t length, GLbitfield access) override;
void unmap() override;
gl::Error packPixels(const gl::FramebufferAttachment &readAttachment,
const PackPixelsParams ¶ms);
private:
gl::Error flushQueuedPackCommand();
TextureHelper11 mStagingTexture;
MemoryBuffer mMemoryBuffer;
std::unique_ptr<PackPixelsParams> mQueuedPackCommand;
PackPixelsParams mPackParams;
bool mDataModified;
};
// System memory storage stores a CPU memory buffer with our buffer data.
// For dynamic data, it's much faster to update the CPU memory buffer than
// it is to update a D3D staging buffer and read it back later.
class Buffer11::SystemMemoryStorage : public Buffer11::BufferStorage
{
public:
explicit SystemMemoryStorage(Renderer11 *renderer);
~SystemMemoryStorage() override {}
bool isMappable() const override { return true; }
bool copyFromStorage(BufferStorage *source,
size_t sourceOffset,
size_t size,
size_t destOffset) override;
gl::Error resize(size_t size, bool preserveData) override;
uint8_t *map(size_t offset, size_t length, GLbitfield access) override;
void unmap() override;
MemoryBuffer *getSystemCopy() { return &mSystemCopy; }
protected:
MemoryBuffer mSystemCopy;
};
Buffer11::Buffer11(Renderer11 *renderer)
: BufferD3D(renderer),
mRenderer(renderer),
mSize(0),
mMappedStorage(nullptr),
mBufferStorages(BUFFER_USAGE_COUNT, nullptr),
mConstantBufferStorageAdditionalSize(0),
mMaxConstantBufferLruCount(0),
mReadUsageCount(0)
{
}
Buffer11::~Buffer11()
{
for (auto &storage : mBufferStorages)
{
SafeDelete(storage);
}
for (auto &p : mConstantBufferRangeStoragesCache)
{
SafeDelete(p.second.storage);
}
mRenderer->onBufferDelete(this);
}
gl::Error Buffer11::setData(const void *data, size_t size, GLenum usage)
{
gl::Error error = setSubData(data, size, 0);
if (error.isError())
{
return error;
}
updateD3DBufferUsage(usage);
return error;
}
gl::Error Buffer11::getData(const uint8_t **outData)
{
SystemMemoryStorage *systemMemoryStorage = nullptr;
gl::Error error = getSystemMemoryStorage(&systemMemoryStorage);
if (error.isError())
{
*outData = nullptr;
return error;
}
mReadUsageCount = 0;
ASSERT(systemMemoryStorage->getSize() >= mSize);
*outData = systemMemoryStorage->getSystemCopy()->data();
return gl::Error(GL_NO_ERROR);
}
gl::Error Buffer11::getSystemMemoryStorage(SystemMemoryStorage **storageOut)
{
BufferStorage *memStorageUntyped = getBufferStorage(BUFFER_USAGE_SYSTEM_MEMORY);
if (memStorageUntyped == nullptr)
{
// TODO(jmadill): convert all to errors
return gl::Error(GL_OUT_OF_MEMORY);
}
*storageOut = GetAs<SystemMemoryStorage>(memStorageUntyped);
return gl::Error(GL_NO_ERROR);
}
gl::Error Buffer11::setSubData(const void *data, size_t size, size_t offset)
{
size_t requiredSize = size + offset;
if (data && size > 0)
{
// Use system memory storage for dynamic buffers.
BufferStorage *writeBuffer = nullptr;
if (supportsDirectBinding())
{
writeBuffer = getStagingStorage();
if (!writeBuffer)
{
return gl::Error(GL_OUT_OF_MEMORY, "Failed to allocate internal buffer.");
}
}
else
{
SystemMemoryStorage *systemMemoryStorage = nullptr;
gl::Error error = getSystemMemoryStorage(&systemMemoryStorage);
if (error.isError())
{
return error;
}
writeBuffer = systemMemoryStorage;
}
ASSERT(writeBuffer);
// Explicitly resize the staging buffer, preserving data if the new data will not
// completely fill the buffer
if (writeBuffer->getSize() < requiredSize)
{
bool preserveData = (offset > 0);
gl::Error error = writeBuffer->resize(requiredSize, preserveData);
if (error.isError())
{
return error;
}
}
writeBuffer->setData(static_cast<const uint8_t *>(data), offset, size);
writeBuffer->setDataRevision(writeBuffer->getDataRevision() + 1);
}
mSize = std::max(mSize, requiredSize);
invalidateStaticData(D3D_BUFFER_INVALIDATE_WHOLE_CACHE);
return gl::Error(GL_NO_ERROR);
}
gl::Error Buffer11::copySubData(BufferImpl *source,
GLintptr sourceOffset,
GLintptr destOffset,
GLsizeiptr size)
{
Buffer11 *sourceBuffer = GetAs<Buffer11>(source);
ASSERT(sourceBuffer != nullptr);
BufferStorage *copyDest = getLatestBufferStorage();
if (!copyDest)
{
copyDest = getStagingStorage();
}
BufferStorage *copySource = sourceBuffer->getLatestBufferStorage();
if (!copySource || !copyDest)
{
return gl::Error(GL_OUT_OF_MEMORY, "Failed to allocate internal staging buffer.");
}
// If copying to/from a pixel pack buffer, we must have a staging or
// pack buffer partner, because other native buffers can't be mapped
if (copyDest->getUsage() == BUFFER_USAGE_PIXEL_PACK && !copySource->isMappable())
{
copySource = sourceBuffer->getStagingStorage();
}
else if (copySource->getUsage() == BUFFER_USAGE_PIXEL_PACK && !copyDest->isMappable())
{
copyDest = getStagingStorage();
}
// D3D11 does not allow overlapped copies until 11.1, and only if the
// device supports D3D11_FEATURE_DATA_D3D11_OPTIONS::CopyWithOverlap
// Get around this via a different source buffer
if (copySource == copyDest)
{
if (copySource->getUsage() == BUFFER_USAGE_STAGING)
{
copySource = getBufferStorage(BUFFER_USAGE_VERTEX_OR_TRANSFORM_FEEDBACK);
}
else
{
copySource = getStagingStorage();
}
}
copyDest->copyFromStorage(copySource, sourceOffset, size, destOffset);
copyDest->setDataRevision(copyDest->getDataRevision() + 1);
mSize = std::max<size_t>(mSize, destOffset + size);
invalidateStaticData(D3D_BUFFER_INVALIDATE_WHOLE_CACHE);
return gl::Error(GL_NO_ERROR);
}
gl::Error Buffer11::map(GLenum access, GLvoid **mapPtr)
{
// GL_OES_mapbuffer uses an enum instead of a bitfield for it's access, convert to a bitfield
// and call mapRange.
ASSERT(access == GL_WRITE_ONLY_OES);
return mapRange(0, mSize, GL_MAP_WRITE_BIT, mapPtr);
}
gl::Error Buffer11::mapRange(size_t offset, size_t length, GLbitfield access, GLvoid **mapPtr)
{
ASSERT(!mMappedStorage);
BufferStorage *latestStorage = getLatestBufferStorage();
if (latestStorage && (latestStorage->getUsage() == BUFFER_USAGE_PIXEL_PACK ||
latestStorage->getUsage() == BUFFER_USAGE_STAGING))
{
// Latest storage is mappable.
mMappedStorage = latestStorage;
}
else
{
// Fall back to using the staging buffer if the latest storage does
// not exist or is not CPU-accessible.
mMappedStorage = getStagingStorage();
}
if (!mMappedStorage)
{
return gl::Error(GL_OUT_OF_MEMORY, "Failed to allocate mappable internal buffer.");
}
if ((access & GL_MAP_WRITE_BIT) > 0)
{
// Update the data revision immediately, since the data might be changed at any time
mMappedStorage->setDataRevision(mMappedStorage->getDataRevision() + 1);
invalidateStaticData(D3D_BUFFER_INVALIDATE_WHOLE_CACHE);
}
uint8_t *mappedBuffer = mMappedStorage->map(offset, length, access);
if (!mappedBuffer)
{
return gl::Error(GL_OUT_OF_MEMORY, "Failed to map internal buffer.");
}
*mapPtr = static_cast<GLvoid *>(mappedBuffer);
return gl::Error(GL_NO_ERROR);
}
gl::Error Buffer11::unmap(GLboolean *result)
{
ASSERT(mMappedStorage);
mMappedStorage->unmap();
mMappedStorage = nullptr;
// TODO: detect if we had corruption. if so, return false.
*result = GL_TRUE;
return gl::Error(GL_NO_ERROR);
}
void Buffer11::markTransformFeedbackUsage()
{
BufferStorage *transformFeedbackStorage =
getBufferStorage(BUFFER_USAGE_VERTEX_OR_TRANSFORM_FEEDBACK);
if (transformFeedbackStorage)
{
transformFeedbackStorage->setDataRevision(transformFeedbackStorage->getDataRevision() + 1);
}
invalidateStaticData(D3D_BUFFER_INVALIDATE_WHOLE_CACHE);
}
void Buffer11::markBufferUsage()
{
mReadUsageCount++;
// Free the system memory storage if we decide it isn't being used very often.
const unsigned int usageLimit = 5;
BufferStorage *&sysMemUsage = mBufferStorages[BUFFER_USAGE_SYSTEM_MEMORY];
if (mReadUsageCount > usageLimit && sysMemUsage != nullptr)
{
if (getLatestBufferStorage() != sysMemUsage)
{
SafeDelete(sysMemUsage);
}
}
}
ID3D11Buffer *Buffer11::getBuffer(BufferUsage usage)
{
markBufferUsage();
BufferStorage *bufferStorage = getBufferStorage(usage);
if (!bufferStorage)
{
// Storage out-of-memory
return nullptr;
}
return GetAs<NativeStorage>(bufferStorage)->getNativeStorage();
}
ID3D11Buffer *Buffer11::getEmulatedIndexedBuffer(SourceIndexData *indexInfo,
const TranslatedAttribute *attribute)
{
markBufferUsage();
assert(indexInfo != nullptr);
assert(attribute != nullptr);
BufferStorage *bufferStorage = getBufferStorage(BUFFER_USAGE_EMULATED_INDEXED_VERTEX);
if (!bufferStorage)
{
// Storage out-of-memory
return nullptr;
}
EmulatedIndexedStorage *emulatedStorage = GetAs<EmulatedIndexedStorage>(bufferStorage);
if (!emulatedStorage->update(indexInfo, attribute))
{
// Storage out-of-memory
return nullptr;
}
return emulatedStorage->getNativeStorage();
}
ID3D11Buffer *Buffer11::getConstantBufferRange(GLintptr offset, GLsizeiptr size)
{
markBufferUsage();
BufferStorage *bufferStorage;
if (offset == 0)
{
bufferStorage = getBufferStorage(BUFFER_USAGE_UNIFORM);
}
else
{
bufferStorage = getConstantBufferRangeStorage(offset, size);
}
if (!bufferStorage)
{
// Storage out-of-memory
return nullptr;
}
return GetAs<NativeStorage>(bufferStorage)->getNativeStorage();
}
ID3D11ShaderResourceView *Buffer11::getSRV(DXGI_FORMAT srvFormat)
{
BufferStorage *storage = getBufferStorage(BUFFER_USAGE_PIXEL_UNPACK);
if (!storage)
{
// Storage out-of-memory
return nullptr;
}
ID3D11Buffer *buffer = GetAs<NativeStorage>(storage)->getNativeStorage();
auto bufferSRVIt = mBufferResourceViews.find(srvFormat);
if (bufferSRVIt != mBufferResourceViews.end())
{
if (bufferSRVIt->second.first == buffer)
{
return bufferSRVIt->second.second;
}
else
{
// The underlying buffer has changed since the SRV was created: recreate the SRV.
SafeRelease(bufferSRVIt->second.second);
}
}
ID3D11Device *device = mRenderer->getDevice();
ID3D11ShaderResourceView *bufferSRV = nullptr;
const d3d11::DXGIFormat &dxgiFormatInfo = d3d11::GetDXGIFormatInfo(srvFormat);
D3D11_SHADER_RESOURCE_VIEW_DESC bufferSRVDesc;
bufferSRVDesc.Buffer.ElementOffset = 0;
bufferSRVDesc.Buffer.ElementWidth =
static_cast<unsigned int>(mSize) / dxgiFormatInfo.pixelBytes;
bufferSRVDesc.ViewDimension = D3D11_SRV_DIMENSION_BUFFER;
bufferSRVDesc.Format = srvFormat;
HRESULT result = device->CreateShaderResourceView(buffer, &bufferSRVDesc, &bufferSRV);
UNUSED_ASSERTION_VARIABLE(result);
ASSERT(SUCCEEDED(result));
mBufferResourceViews[srvFormat] = BufferSRVPair(buffer, bufferSRV);
return bufferSRV;
}
gl::Error Buffer11::packPixels(const gl::FramebufferAttachment &readAttachment,
const PackPixelsParams ¶ms)
{
PackStorage *packStorage = getPackStorage();
BufferStorage *latestStorage = getLatestBufferStorage();
if (packStorage)
{
gl::Error error = packStorage->packPixels(readAttachment, params);
if (error.isError())
{
return error;
}
packStorage->setDataRevision(latestStorage ? latestStorage->getDataRevision() + 1 : 1);
}
return gl::Error(GL_NO_ERROR);
}
size_t Buffer11::getTotalCPUBufferMemoryBytes() const
{
size_t allocationSize = 0;
BufferStorage *staging = mBufferStorages[BUFFER_USAGE_STAGING];
allocationSize += staging ? staging->getSize() : 0;
BufferStorage *sysMem = mBufferStorages[BUFFER_USAGE_SYSTEM_MEMORY];
allocationSize += sysMem ? sysMem->getSize() : 0;
return allocationSize;
}
Buffer11::BufferStorage *Buffer11::getBufferStorage(BufferUsage usage)
{
ASSERT(0 <= usage && usage < BUFFER_USAGE_COUNT);
BufferStorage *&newStorage = mBufferStorages[usage];
if (!newStorage)
{
if (usage == BUFFER_USAGE_PIXEL_PACK)
{
newStorage = new PackStorage(mRenderer);
}
else if (usage == BUFFER_USAGE_SYSTEM_MEMORY)
{
newStorage = new SystemMemoryStorage(mRenderer);
}
else if (usage == BUFFER_USAGE_EMULATED_INDEXED_VERTEX)
{
newStorage = new EmulatedIndexedStorage(mRenderer);
}
else
{
// buffer is not allocated, create it
newStorage = new NativeStorage(mRenderer, usage);
}
}
// resize buffer
if (newStorage->getSize() < mSize)
{
if (newStorage->resize(mSize, true).isError())
{
// Out of memory error
return nullptr;
}
}
updateBufferStorage(newStorage, 0, mSize);
return newStorage;
}
Buffer11::BufferStorage *Buffer11::getConstantBufferRangeStorage(GLintptr offset, GLsizeiptr size)
{
BufferStorage *newStorage;
{
// Keep the cacheEntry in a limited scope because it may be invalidated later in the code if
// we need to reclaim some space.
ConstantBufferCacheEntry *cacheEntry = &mConstantBufferRangeStoragesCache[offset];
if (!cacheEntry->storage)
{
cacheEntry->storage = new NativeStorage(mRenderer, BUFFER_USAGE_UNIFORM);
cacheEntry->lruCount = ++mMaxConstantBufferLruCount;
}
cacheEntry->lruCount = ++mMaxConstantBufferLruCount;
newStorage = cacheEntry->storage;
}
if (newStorage->getSize() < static_cast<size_t>(size))
{
size_t maximumAllowedAdditionalSize = 2 * getSize();
size_t sizeDelta = size - newStorage->getSize();
while (mConstantBufferStorageAdditionalSize + sizeDelta > maximumAllowedAdditionalSize)
{
auto iter = std::min_element(std::begin(mConstantBufferRangeStoragesCache),
std::end(mConstantBufferRangeStoragesCache),
[](const ConstantBufferCache::value_type &a,
const ConstantBufferCache::value_type &b)
{
return a.second.lruCount < b.second.lruCount;
});
ASSERT(iter->second.storage != newStorage);
ASSERT(mConstantBufferStorageAdditionalSize >= iter->second.storage->getSize());
mConstantBufferStorageAdditionalSize -= iter->second.storage->getSize();
SafeDelete(iter->second.storage);
mConstantBufferRangeStoragesCache.erase(iter);
}
if (newStorage->resize(size, false).isError())
{
// Out of memory error
return nullptr;
}
mConstantBufferStorageAdditionalSize += sizeDelta;
// We don't copy the old data when resizing the constant buffer because the data may be
// out-of-date therefore we reset the data revision and let updateBufferStorage() handle the
// copy.
newStorage->setDataRevision(0);
}
updateBufferStorage(newStorage, offset, size);
return newStorage;
}
void Buffer11::updateBufferStorage(BufferStorage *storage, size_t sourceOffset, size_t storageSize)
{
BufferStorage *latestBuffer = getLatestBufferStorage();
if (latestBuffer && latestBuffer->getDataRevision() > storage->getDataRevision())
{
// Copy through a staging buffer if we're copying from or to a non-staging, mappable
// buffer storage. This is because we can't map a GPU buffer, and copy CPU
// data directly. If we're already using a staging buffer we're fine.
if (latestBuffer->getUsage() != BUFFER_USAGE_STAGING &&
storage->getUsage() != BUFFER_USAGE_STAGING &&
(!latestBuffer->isMappable() || !storage->isMappable()))
{
NativeStorage *stagingBuffer = getStagingStorage();
stagingBuffer->copyFromStorage(latestBuffer, 0, latestBuffer->getSize(), 0);
stagingBuffer->setDataRevision(latestBuffer->getDataRevision());
latestBuffer = stagingBuffer;
}
// if copyFromStorage returns true, the D3D buffer has been recreated
// and we should update our serial
if (storage->copyFromStorage(latestBuffer, sourceOffset, storageSize, 0))
{
updateSerial();
}
storage->setDataRevision(latestBuffer->getDataRevision());
}
}
Buffer11::BufferStorage *Buffer11::getLatestBufferStorage() const
{
// Even though we iterate over all the direct buffers, it is expected that only
// 1 or 2 will be present.
BufferStorage *latestStorage = nullptr;
DataRevision latestRevision = 0;
for (auto &storage : mBufferStorages)
{
if (storage && (!latestStorage || storage->getDataRevision() > latestRevision))
{
latestStorage = storage;
latestRevision = storage->getDataRevision();
}
}
// resize buffer
if (latestStorage && latestStorage->getSize() < mSize)
{
if (latestStorage->resize(mSize, true).isError())
{
// Out of memory error
return nullptr;
}
}
return latestStorage;
}
Buffer11::NativeStorage *Buffer11::getStagingStorage()
{
BufferStorage *stagingStorage = getBufferStorage(BUFFER_USAGE_STAGING);
if (!stagingStorage)
{
// Out-of-memory
return nullptr;
}
return GetAs<NativeStorage>(stagingStorage);
}
Buffer11::PackStorage *Buffer11::getPackStorage()
{
BufferStorage *packStorage = getBufferStorage(BUFFER_USAGE_PIXEL_PACK);
if (!packStorage)
{
// Out-of-memory
return nullptr;
}
return GetAs<PackStorage>(packStorage);
}
bool Buffer11::supportsDirectBinding() const
{
// Do not support direct buffers for dynamic data. The streaming buffer
// offers better performance for data which changes every frame.
// Check for absence of static buffer interfaces to detect dynamic data.
return (mStaticVertexBuffer && mStaticIndexBuffer);
}
Buffer11::BufferStorage::BufferStorage(Renderer11 *renderer, BufferUsage usage)
: mRenderer(renderer), mRevision(0), mUsage(usage), mBufferSize(0)
{
}
gl::Error Buffer11::BufferStorage::setData(const uint8_t *data, size_t offset, size_t size)
{
ASSERT(isMappable());
uint8_t *writePointer = map(offset, size, GL_MAP_WRITE_BIT);
if (!writePointer)
{
return gl::Error(GL_OUT_OF_MEMORY, "Failed to map internal buffer.");
}
memcpy(writePointer, data, size);
unmap();
return gl::Error(GL_NO_ERROR);
}
Buffer11::NativeStorage::NativeStorage(Renderer11 *renderer, BufferUsage usage)
: BufferStorage(renderer, usage), mNativeStorage(nullptr)
{
}
Buffer11::NativeStorage::~NativeStorage()
{
SafeRelease(mNativeStorage);
}
// Returns true if it recreates the direct buffer
bool Buffer11::NativeStorage::copyFromStorage(BufferStorage *source,
size_t sourceOffset,
size_t size,
size_t destOffset)
{
ID3D11DeviceContext *context = mRenderer->getDeviceContext();
size_t requiredSize = destOffset + size;
bool createBuffer = !mNativeStorage || mBufferSize < requiredSize;
// (Re)initialize D3D buffer if needed
if (createBuffer)
{
bool preserveData = (destOffset > 0);
resize(requiredSize, preserveData);
}
if (source->getUsage() == BUFFER_USAGE_PIXEL_PACK ||
source->getUsage() == BUFFER_USAGE_SYSTEM_MEMORY)
{
ASSERT(source->isMappable());
uint8_t *sourcePointer = source->map(sourceOffset, size, GL_MAP_READ_BIT);
D3D11_MAPPED_SUBRESOURCE mappedResource;
HRESULT hr = context->Map(mNativeStorage, 0, D3D11_MAP_WRITE, 0, &mappedResource);
ASSERT(SUCCEEDED(hr));
if (FAILED(hr))
{
source->unmap();
return false;
}
uint8_t *destPointer = static_cast<uint8_t *>(mappedResource.pData) + destOffset;
// Offset bounds are validated at the API layer
ASSERT(sourceOffset + size <= destOffset + mBufferSize);
memcpy(destPointer, sourcePointer, size);
context->Unmap(mNativeStorage, 0);
source->unmap();
}
else
{
D3D11_BOX srcBox;
srcBox.left = static_cast<unsigned int>(sourceOffset);
srcBox.right = static_cast<unsigned int>(sourceOffset + size);
srcBox.top = 0;
srcBox.bottom = 1;
srcBox.front = 0;
srcBox.back = 1;
ID3D11Buffer *sourceBuffer = GetAs<NativeStorage>(source)->getNativeStorage();
context->CopySubresourceRegion(mNativeStorage, 0, static_cast<unsigned int>(destOffset), 0,
0, sourceBuffer, 0, &srcBox);
}
return createBuffer;
}
gl::Error Buffer11::NativeStorage::resize(size_t size, bool preserveData)
{
ID3D11Device *device = mRenderer->getDevice();
ID3D11DeviceContext *context = mRenderer->getDeviceContext();
D3D11_BUFFER_DESC bufferDesc;
fillBufferDesc(&bufferDesc, mRenderer, mUsage, static_cast<unsigned int>(size));
ID3D11Buffer *newBuffer;
HRESULT result = device->CreateBuffer(&bufferDesc, nullptr, &newBuffer);
if (FAILED(result))
{
return gl::Error(GL_OUT_OF_MEMORY, "Failed to create internal buffer, result: 0x%X.",
result);
}
d3d11::SetDebugName(newBuffer, "Buffer11::NativeStorage");
if (mNativeStorage && preserveData)
{
// We don't call resize if the buffer is big enough already.
ASSERT(mBufferSize <= size);
D3D11_BOX srcBox;
srcBox.left = 0;
srcBox.right = static_cast<unsigned int>(mBufferSize);
srcBox.top = 0;
srcBox.bottom = 1;
srcBox.front = 0;
srcBox.back = 1;
context->CopySubresourceRegion(newBuffer, 0, 0, 0, 0, mNativeStorage, 0, &srcBox);
}
// No longer need the old buffer
SafeRelease(mNativeStorage);
mNativeStorage = newBuffer;
mBufferSize = bufferDesc.ByteWidth;
return gl::Error(GL_NO_ERROR);
}
void Buffer11::NativeStorage::fillBufferDesc(D3D11_BUFFER_DESC *bufferDesc,
Renderer11 *renderer,
BufferUsage usage,
unsigned int bufferSize)
{
bufferDesc->ByteWidth = bufferSize;
bufferDesc->MiscFlags = 0;
bufferDesc->StructureByteStride = 0;
switch (usage)
{
case BUFFER_USAGE_STAGING:
bufferDesc->Usage = D3D11_USAGE_STAGING;
bufferDesc->BindFlags = 0;
bufferDesc->CPUAccessFlags = D3D11_CPU_ACCESS_READ | D3D11_CPU_ACCESS_WRITE;
break;
case BUFFER_USAGE_VERTEX_OR_TRANSFORM_FEEDBACK:
bufferDesc->Usage = D3D11_USAGE_DEFAULT;
bufferDesc->BindFlags = D3D11_BIND_VERTEX_BUFFER;
if (renderer->isES3Capable())
{
bufferDesc->BindFlags |= D3D11_BIND_STREAM_OUTPUT;
}
bufferDesc->CPUAccessFlags = 0;
break;
case BUFFER_USAGE_INDEX:
bufferDesc->Usage = D3D11_USAGE_DEFAULT;
bufferDesc->BindFlags = D3D11_BIND_INDEX_BUFFER;
bufferDesc->CPUAccessFlags = 0;
break;
case BUFFER_USAGE_PIXEL_UNPACK:
bufferDesc->Usage = D3D11_USAGE_DEFAULT;
bufferDesc->BindFlags = D3D11_BIND_SHADER_RESOURCE;
bufferDesc->CPUAccessFlags = 0;
break;
case BUFFER_USAGE_UNIFORM:
bufferDesc->Usage = D3D11_USAGE_DYNAMIC;
bufferDesc->BindFlags = D3D11_BIND_CONSTANT_BUFFER;
bufferDesc->CPUAccessFlags = D3D11_CPU_ACCESS_WRITE;
// Constant buffers must be of a limited size, and aligned to 16 byte boundaries
// For our purposes we ignore any buffer data past the maximum constant buffer size
bufferDesc->ByteWidth = roundUp(bufferDesc->ByteWidth, 16u);
bufferDesc->ByteWidth =
std::min<UINT>(bufferDesc->ByteWidth,
static_cast<UINT>(renderer->getRendererCaps().maxUniformBlockSize));
break;
default:
UNREACHABLE();
}
}
uint8_t *Buffer11::NativeStorage::map(size_t offset, size_t length, GLbitfield access)
{
ASSERT(mUsage == BUFFER_USAGE_STAGING);
D3D11_MAPPED_SUBRESOURCE mappedResource;
ID3D11DeviceContext *context = mRenderer->getDeviceContext();
D3D11_MAP d3dMapType = gl_d3d11::GetD3DMapTypeFromBits(access);
UINT d3dMapFlag = ((access & GL_MAP_UNSYNCHRONIZED_BIT) != 0 ? D3D11_MAP_FLAG_DO_NOT_WAIT : 0);
HRESULT result = context->Map(mNativeStorage, 0, d3dMapType, d3dMapFlag, &mappedResource);
ASSERT(SUCCEEDED(result));
if (FAILED(result))
{
return nullptr;
}
return static_cast<uint8_t *>(mappedResource.pData) + offset;
}
void Buffer11::NativeStorage::unmap()
{
ASSERT(mUsage == BUFFER_USAGE_STAGING);
ID3D11DeviceContext *context = mRenderer->getDeviceContext();
context->Unmap(mNativeStorage, 0);
}
Buffer11::EmulatedIndexedStorage::EmulatedIndexedStorage(Renderer11 *renderer)
: BufferStorage(renderer, BUFFER_USAGE_EMULATED_INDEXED_VERTEX), mNativeStorage(nullptr)
{
}
Buffer11::EmulatedIndexedStorage::~EmulatedIndexedStorage()
{
SafeRelease(mNativeStorage);
}
ID3D11Buffer *Buffer11::EmulatedIndexedStorage::getNativeStorage()
{
if (!mNativeStorage)
{
// Expand the memory storage upon request and cache the results.
unsigned int expandedDataSize =
static_cast<unsigned int>((mIndexInfo.srcCount * mAttributeStride) + mAttributeOffset);
MemoryBuffer expandedData;
if (!expandedData.resize(expandedDataSize))
{
return nullptr;
}
// Clear the contents of the allocated buffer
ZeroMemory(expandedData.data(), expandedDataSize);
uint8_t *curr = expandedData.data();
const uint8_t *ptr = static_cast<const uint8_t *>(mIndexInfo.srcIndices);
// Ensure that we start in the correct place for the emulated data copy operation to
// maintain offset behaviors.
curr += mAttributeOffset;
ReadIndexValueFunction readIndexValue = ReadIndexValueFromIndices<GLushort>;
switch (mIndexInfo.srcIndexType)
{
case GL_UNSIGNED_INT:
readIndexValue = ReadIndexValueFromIndices<GLuint>;
break;
case GL_UNSIGNED_SHORT:
readIndexValue = ReadIndexValueFromIndices<GLushort>;
break;
case GL_UNSIGNED_BYTE:
readIndexValue = ReadIndexValueFromIndices<GLubyte>;
break;
}
// Iterate over the cached index data and copy entries indicated into the emulated buffer.
for (GLuint i = 0; i < mIndexInfo.srcCount; i++)
{
GLuint idx = readIndexValue(ptr, i);
memcpy(curr, mMemoryBuffer.data() + (mAttributeStride * idx), mAttributeStride);
curr += mAttributeStride;
}
// Finally, initialize the emulated indexed native storage object with the newly copied data
// and free the temporary buffers used.
ID3D11Device *device = mRenderer->getDevice();
D3D11_BUFFER_DESC bufferDesc;
bufferDesc.ByteWidth = expandedDataSize;
bufferDesc.MiscFlags = 0;
bufferDesc.StructureByteStride = 0;
bufferDesc.Usage = D3D11_USAGE_DEFAULT;
bufferDesc.BindFlags = D3D11_BIND_VERTEX_BUFFER;
bufferDesc.CPUAccessFlags = 0;
D3D11_SUBRESOURCE_DATA subResourceData = {expandedData.data(), 0, 0};
HRESULT result = device->CreateBuffer(&bufferDesc, &subResourceData, &mNativeStorage);
if (FAILED(result))
{
ERR("Could not create emulated index data buffer: %08lX", result);
return nullptr;
}
d3d11::SetDebugName(mNativeStorage, "Buffer11::EmulatedIndexedStorage");
}
return mNativeStorage;
}
bool Buffer11::EmulatedIndexedStorage::update(SourceIndexData *indexInfo,
const TranslatedAttribute *attribute)
{
// If a change in the indices applied from the last draw call is detected, then the emulated
// indexed buffer needs to be invalidated. After invalidation, the change detected flag should
// be cleared to avoid unnecessary recreation of the buffer.
if (mNativeStorage == nullptr || indexInfo->srcIndicesChanged)
{
SafeRelease(mNativeStorage);
// Copy attribute offset and stride information
mAttributeStride = attribute->stride;
mAttributeOffset = attribute->offset;
// Copy the source index data. This ensures that the lifetime of the indices pointer
// stays with this storage until the next time we invalidate.
size_t indicesDataSize = 0;
switch (indexInfo->srcIndexType)
{
case GL_UNSIGNED_INT:
indicesDataSize = sizeof(GLuint) * indexInfo->srcCount;
break;
case GL_UNSIGNED_SHORT:
indicesDataSize = sizeof(GLushort) * indexInfo->srcCount;
break;
case GL_UNSIGNED_BYTE:
indicesDataSize = sizeof(GLubyte) * indexInfo->srcCount;
break;
default:
indicesDataSize = sizeof(GLushort) * indexInfo->srcCount;
break;
}
if (!mIndicesMemoryBuffer.resize(indicesDataSize))
{
return false;
}
memcpy(mIndicesMemoryBuffer.data(), indexInfo->srcIndices, indicesDataSize);
// Copy the source index data description and update the srcIndices pointer to point
// to our cached index data.
mIndexInfo = *indexInfo;
mIndexInfo.srcIndices = mIndicesMemoryBuffer.data();
indexInfo->srcIndicesChanged = false;
}
return true;
}
bool Buffer11::EmulatedIndexedStorage::copyFromStorage(BufferStorage *source,
size_t sourceOffset,
size_t size,
size_t destOffset)
{
ASSERT(source->isMappable());
const uint8_t *sourceData = source->map(sourceOffset, size, GL_MAP_READ_BIT);
ASSERT(destOffset + size <= mMemoryBuffer.size());
memcpy(mMemoryBuffer.data() + destOffset, sourceData, size);
source->unmap();
return true;
}
gl::Error Buffer11::EmulatedIndexedStorage::resize(size_t size, bool preserveData)
{
if (mMemoryBuffer.size() < size)
{
if (!mMemoryBuffer.resize(size))
{
return gl::Error(GL_OUT_OF_MEMORY, "Failed to resize EmulatedIndexedStorage");
}
mBufferSize = size;
}
return gl::Error(GL_NO_ERROR);
}
uint8_t *Buffer11::EmulatedIndexedStorage::map(size_t offset, size_t length, GLbitfield access)
{
ASSERT(!mMemoryBuffer.empty() && offset + length <= mMemoryBuffer.size());
return mMemoryBuffer.data() + offset;
}
void Buffer11::EmulatedIndexedStorage::unmap()
{
// No-op
}
Buffer11::PackStorage::PackStorage(Renderer11 *renderer)
: BufferStorage(renderer, BUFFER_USAGE_PIXEL_PACK), mStagingTexture(), mDataModified(false)
{
}
Buffer11::PackStorage::~PackStorage()
{
}
bool Buffer11::PackStorage::copyFromStorage(BufferStorage *source,
size_t sourceOffset,
size_t size,
size_t destOffset)
{
// We copy through a staging buffer when drawing with a pack buffer,
// or for other cases where we access the pack buffer
UNREACHABLE();
return false;
}
gl::Error Buffer11::PackStorage::resize(size_t size, bool preserveData)
{
if (size != mBufferSize)
{
if (!mMemoryBuffer.resize(size))
{
return gl::Error(GL_OUT_OF_MEMORY, "Failed to resize internal buffer storage.");
}
mBufferSize = size;
}
return gl::Error(GL_NO_ERROR);
}
uint8_t *Buffer11::PackStorage::map(size_t offset, size_t length, GLbitfield access)
{
ASSERT(offset + length <= getSize());
// TODO: fast path
// We might be able to optimize out one or more memcpy calls by detecting when
// and if D3D packs the staging texture memory identically to how we would fill
// the pack buffer according to the current pack state.
gl::Error error = flushQueuedPackCommand();
if (error.isError())
{
return nullptr;
}
mDataModified = (mDataModified || (access & GL_MAP_WRITE_BIT) != 0);
return mMemoryBuffer.data() + offset;
}
void Buffer11::PackStorage::unmap()
{
// No-op
}
gl::Error Buffer11::PackStorage::packPixels(const gl::FramebufferAttachment &readAttachment,
const PackPixelsParams ¶ms)
{
gl::Error error = flushQueuedPackCommand();
if (error.isError())
{
return error;
}
RenderTarget11 *renderTarget = nullptr;
error = readAttachment.getRenderTarget(&renderTarget);
if (error.isError())
{
return error;
}
ID3D11Resource *renderTargetResource = renderTarget->getTexture();
ASSERT(renderTargetResource);
unsigned int srcSubresource = renderTarget->getSubresourceIndex();
TextureHelper11 srcTexture = TextureHelper11::MakeAndReference(renderTargetResource);
mQueuedPackCommand.reset(new PackPixelsParams(params));
gl::Extents srcTextureSize(params.area.width, params.area.height, 1);
if (!mStagingTexture.getResource() || mStagingTexture.getFormat() != srcTexture.getFormat() ||
mStagingTexture.getExtents() != srcTextureSize)
{
auto textureOrError =
CreateStagingTexture(srcTexture.getTextureType(), srcTexture.getFormat(),
srcTextureSize, mRenderer->getDevice());
if (textureOrError.isError())
{
return textureOrError.getError();
}
mStagingTexture = std::move(textureOrError.getResult());
}
// ReadPixels from multisampled FBOs isn't supported in current GL
ASSERT(srcTexture.getSampleCount() <= 1);
ID3D11DeviceContext *immediateContext = mRenderer->getDeviceContext();
D3D11_BOX srcBox;
srcBox.left = params.area.x;
srcBox.right = params.area.x + params.area.width;
srcBox.top = params.area.y;
srcBox.bottom = params.area.y + params.area.height;
// Select the correct layer from a 3D attachment
srcBox.front = 0;
if (mStagingTexture.getTextureType() == GL_TEXTURE_3D)
{
srcBox.front = static_cast<UINT>(readAttachment.layer());
}
srcBox.back = srcBox.front + 1;
// Asynchronous copy
immediateContext->CopySubresourceRegion(mStagingTexture.getResource(), 0, 0, 0, 0,
srcTexture.getResource(), srcSubresource, &srcBox);
return gl::Error(GL_NO_ERROR);
}
gl::Error Buffer11::PackStorage::flushQueuedPackCommand()
{
ASSERT(mMemoryBuffer.size() > 0);
if (mQueuedPackCommand)
{
gl::Error error =
mRenderer->packPixels(mStagingTexture, *mQueuedPackCommand, mMemoryBuffer.data());
mQueuedPackCommand.reset(nullptr);
if (error.isError())
{
return error;
}
}
return gl::Error(GL_NO_ERROR);
}
Buffer11::SystemMemoryStorage::SystemMemoryStorage(Renderer11 *renderer)
: Buffer11::BufferStorage(renderer, BUFFER_USAGE_SYSTEM_MEMORY)
{
}
bool Buffer11::SystemMemoryStorage::copyFromStorage(BufferStorage *source,
size_t sourceOffset,
size_t size,
size_t destOffset)
{
ASSERT(source->isMappable());
const uint8_t *sourceData = source->map(sourceOffset, size, GL_MAP_READ_BIT);
ASSERT(destOffset + size <= mSystemCopy.size());
memcpy(mSystemCopy.data() + destOffset, sourceData, size);
source->unmap();
return true;
}
gl::Error Buffer11::SystemMemoryStorage::resize(size_t size, bool preserveData)
{
if (mSystemCopy.size() < size)
{
if (!mSystemCopy.resize(size))
{
return gl::Error(GL_OUT_OF_MEMORY, "Failed to resize SystemMemoryStorage");
}
mBufferSize = size;
}
return gl::Error(GL_NO_ERROR);
}
uint8_t *Buffer11::SystemMemoryStorage::map(size_t offset, size_t length, GLbitfield access)
{
ASSERT(!mSystemCopy.empty() && offset + length <= mSystemCopy.size());
return mSystemCopy.data() + offset;
}
void Buffer11::SystemMemoryStorage::unmap()
{
// No-op
}
}
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