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/*
* Copyright (C) 2017-2020 Intel Corporation
*
* SPDX-License-Identifier: MIT
*
*/
#pragma once
#include "shared/source/memory_manager/graphics_allocation.h"
#include "opencl/source/command_queue/command_queue.h"
#include "opencl/source/event/user_event.h"
#include "opencl/source/kernel/kernel.h"
#include "opencl/test/unit_test/fixtures/buffer_fixture.h"
#include "opencl/test/unit_test/fixtures/image_fixture.h"
#include "CL/cl.h"
#include <memory>
struct EnqueueTraits {
static cl_uint numEventsInWaitList;
static const cl_event *eventWaitList;
static cl_event *event;
};
struct EnqueueCopyBufferTraits : public EnqueueTraits {
static const size_t srcOffset;
static const size_t dstOffset;
static const size_t size;
static cl_command_type cmdType;
};
template <typename T = EnqueueCopyBufferTraits>
struct EnqueueCopyBufferHelper {
typedef T Traits;
using Buffer = NEO::Buffer;
using CommandQueue = NEO::CommandQueue;
static cl_int enqueueCopyBuffer(CommandQueue *pCmdQ,
Buffer *srcBuffer = std::unique_ptr<Buffer>(BufferHelper<>::create()).get(),
Buffer *dstBuffer = std::unique_ptr<Buffer>(BufferHelper<>::create()).get(),
size_t srcOffset = Traits::srcOffset,
size_t dstOffset = Traits::dstOffset,
size_t size = Traits::size,
cl_uint numEventsInWaitList = Traits::numEventsInWaitList,
const cl_event *eventWaitList = Traits::eventWaitList,
cl_event *event = Traits::event) {
cl_int retVal = pCmdQ->enqueueCopyBuffer(
srcBuffer,
dstBuffer,
srcOffset,
dstOffset,
size,
numEventsInWaitList,
eventWaitList,
event);
return retVal;
}
static cl_int enqueue(CommandQueue *pCmdQ, void *placeholder = nullptr) {
return enqueueCopyBuffer(pCmdQ);
}
};
struct EnqueueCopyBufferToImageTraits : public EnqueueTraits {
static const size_t srcOffset;
static const size_t dstOrigin[3];
static const size_t region[3];
static cl_command_type cmdType;
};
template <typename T = EnqueueCopyBufferToImageTraits>
struct EnqueueCopyBufferToImageHelper {
typedef T Traits;
using Buffer = NEO::Buffer;
using Image = NEO::Image;
using CommandQueue = NEO::CommandQueue;
static cl_int enqueueCopyBufferToImage(CommandQueue *pCmdQ,
Buffer *srcBuffer = std::unique_ptr<Buffer>(BufferHelper<>::create()).get(),
Image *dstImage = nullptr,
const size_t srcOffset = Traits::srcOffset,
const size_t dstOrigin[3] = Traits::dstOrigin,
const size_t region[3] = Traits::region,
cl_uint numEventsInWaitList = Traits::numEventsInWaitList,
const cl_event *eventWaitList = Traits::eventWaitList,
cl_event *event = Traits::event) {
auto &context = pCmdQ->getContext();
std::unique_ptr<Image> dstImageDelete(dstImage ? nullptr : Image2dHelper<>::create(&context));
dstImage = dstImage ? dstImage : dstImageDelete.get();
size_t regionOut[3] = {
region[0] == static_cast<size_t>(-1) ? dstImage->getImageDesc().image_width : region[0],
region[1] == static_cast<size_t>(-1) ? dstImage->getImageDesc().image_height : region[1],
region[2] == static_cast<size_t>(-1) ? (dstImage->getImageDesc().image_depth > 0 ? dstImage->getImageDesc().image_depth : 1) : region[2],
};
return pCmdQ->enqueueCopyBufferToImage(srcBuffer,
dstImage,
srcOffset,
dstOrigin,
regionOut,
numEventsInWaitList,
eventWaitList,
event);
}
static cl_int enqueue(CommandQueue *pCmdQ, void *placeholder = nullptr) {
return enqueueCopyBufferToImage(pCmdQ);
}
};
struct EnqueueCopyImageToBufferTraits : public EnqueueTraits {
static const size_t srcOrigin[3];
static const size_t region[3];
static const size_t dstOffset;
static cl_command_type cmdType;
};
template <typename T = EnqueueCopyImageToBufferTraits>
struct EnqueueCopyImageToBufferHelper {
typedef T Traits;
using Buffer = NEO::Buffer;
using Image = NEO::Image;
using CommandQueue = NEO::CommandQueue;
static cl_int enqueueCopyImageToBuffer(CommandQueue *pCmdQ,
Image *srcImage = nullptr,
Buffer *dstBuffer = std::unique_ptr<Buffer>(BufferHelper<>::create()).get(),
const size_t srcOrigin[3] = Traits::srcOrigin,
const size_t region[3] = Traits::region,
const size_t dstOffset = Traits::dstOffset,
cl_uint numEventsInWaitList = Traits::numEventsInWaitList,
const cl_event *eventWaitList = Traits::eventWaitList,
cl_event *event = Traits::event) {
auto &context = pCmdQ->getContext();
std::unique_ptr<Image> srcImageDelete(srcImage ? nullptr : Image2dHelper<>::create(&context));
srcImage = srcImage ? srcImage : srcImageDelete.get();
size_t regionIn[3] = {
region[0] == static_cast<size_t>(-1) ? srcImage->getImageDesc().image_width : region[0],
region[1] == static_cast<size_t>(-1) ? srcImage->getImageDesc().image_height : region[1],
region[2] == static_cast<size_t>(-1) ? (srcImage->getImageDesc().image_depth > 0 ? srcImage->getImageDesc().image_depth : 1) : region[2],
};
return pCmdQ->enqueueCopyImageToBuffer(srcImage,
dstBuffer,
srcOrigin,
regionIn,
dstOffset,
numEventsInWaitList,
eventWaitList,
event);
}
static cl_int enqueue(CommandQueue *pCmdQ, void *placeholder = nullptr) {
return enqueueCopyImageToBuffer(pCmdQ);
}
};
struct EnqueueCopyImageTraits : public EnqueueTraits {
static const size_t srcOrigin[3];
static const size_t dstOrigin[3];
static const size_t region[3];
static cl_command_type cmdType;
};
template <typename T = EnqueueCopyImageTraits>
struct EnqueueCopyImageHelper {
typedef T Traits;
using Image = NEO::Image;
using CommandQueue = NEO::CommandQueue;
static cl_int enqueueCopyImage(CommandQueue *pCmdQ,
Image *srcImage = nullptr,
Image *dstImage = nullptr,
const size_t srcOrigin[3] = Traits::srcOrigin,
const size_t dstOrigin[3] = Traits::dstOrigin,
const size_t region[3] = Traits::region,
cl_uint numEventsInWaitList = Traits::numEventsInWaitList,
const cl_event *eventWaitList = Traits::eventWaitList,
cl_event *event = Traits::event) {
auto &context = pCmdQ->getContext();
std::unique_ptr<Image> srcImageDelete(srcImage ? nullptr : Image2dHelper<>::create(&context));
std::unique_ptr<Image> dstImageDelete(dstImage ? nullptr : Image2dHelper<>::create(&context));
srcImage = srcImage ? srcImage : srcImageDelete.get();
dstImage = dstImage ? dstImage : dstImageDelete.get();
size_t regionOut[3] = {
region[0] == static_cast<size_t>(-1) ? srcImage->getImageDesc().image_width : region[0],
region[1] == static_cast<size_t>(-1) ? srcImage->getImageDesc().image_height : region[1],
region[2] == static_cast<size_t>(-1) ? (srcImage->getImageDesc().image_depth > 0 ? srcImage->getImageDesc().image_depth : 1) : region[2],
};
return pCmdQ->enqueueCopyImage(srcImage,
dstImage,
srcOrigin,
dstOrigin,
regionOut,
numEventsInWaitList,
eventWaitList,
event);
}
static cl_int enqueue(CommandQueue *pCmdQ, void *placeholder = nullptr) {
return enqueueCopyImage(pCmdQ);
}
};
struct EnqueueFillBufferTraits : public EnqueueTraits {
static const float pattern[1];
static const size_t patternSize;
static const size_t offset;
static const size_t size;
static cl_command_type cmdType;
};
template <typename T = EnqueueFillBufferTraits>
struct EnqueueFillBufferHelper {
typedef T Traits;
using Buffer = NEO::Buffer;
using CommandQueue = NEO::CommandQueue;
static cl_int enqueueFillBuffer(CommandQueue *pCmdQ,
Buffer *buffer = std::unique_ptr<Buffer>(BufferHelper<>::create()).get(),
cl_uint numEventsInWaitList = Traits::numEventsInWaitList,
const cl_event *eventWaitList = Traits::eventWaitList,
cl_event *event = Traits::event) {
return pCmdQ->enqueueFillBuffer(buffer,
Traits::pattern,
Traits::patternSize,
Traits::offset,
Traits::size,
numEventsInWaitList,
eventWaitList,
event);
}
static cl_int enqueue(CommandQueue *pCmdQ, void *placeholder = nullptr) {
return enqueueFillBuffer(pCmdQ);
}
};
struct EnqueueFillImageTraits : public EnqueueTraits {
static const float fillColor[4];
static const size_t origin[3];
static const size_t region[3];
static cl_command_type cmdType;
};
template <typename T = EnqueueFillImageTraits>
struct EnqueueFillImageHelper {
typedef T Traits;
using Image = NEO::Image;
using CommandQueue = NEO::CommandQueue;
static cl_int enqueueFillImage(CommandQueue *pCmdQ,
Image *image = nullptr,
const void *fillColor = Traits::fillColor,
const size_t *origin = Traits::origin,
const size_t *region = Traits::region,
cl_uint numEventsInWaitList = Traits::numEventsInWaitList,
const cl_event *eventWaitList = Traits::eventWaitList,
cl_event *event = Traits::event) {
auto &context = pCmdQ->getContext();
std::unique_ptr<Image> imageDelete(image ? nullptr : Image2dHelper<>::create(&context));
image = image ? image : imageDelete.get();
size_t regionOut[3] = {
region[0] == static_cast<size_t>(-1) ? image->getImageDesc().image_width : region[0],
region[1] == static_cast<size_t>(-1) ? image->getImageDesc().image_height : region[1],
region[2] == static_cast<size_t>(-1) ? (image->getImageDesc().image_depth > 0 ? image->getImageDesc().image_depth : 1) : region[2],
};
cl_int retVal = pCmdQ->enqueueFillImage(image,
fillColor,
origin,
regionOut,
numEventsInWaitList,
eventWaitList,
event);
return retVal;
}
static cl_int enqueue(CommandQueue *pCmdQ, void *placeholder = nullptr) {
return enqueueFillImage(pCmdQ);
}
};
struct EnqueueKernelTraits : public EnqueueTraits {
static const cl_uint workDim;
static const size_t globalWorkOffset[3];
static const size_t globalWorkSize[3];
static const size_t *localWorkSize;
static cl_command_type cmdType;
};
template <typename T = EnqueueKernelTraits>
struct EnqueueKernelHelper {
typedef T Traits;
using CommandQueue = NEO::CommandQueue;
using Kernel = NEO::Kernel;
static cl_int enqueueKernel(CommandQueue *pCmdQ,
Kernel *kernel,
cl_uint workDim = Traits::workDim,
const size_t *globalWorkOffset = Traits::globalWorkOffset,
const size_t *globalWorkSize = Traits::globalWorkSize,
const size_t *localWorkSize = Traits::localWorkSize,
cl_uint numEventsInWaitList = Traits::numEventsInWaitList,
const cl_event *eventWaitList = Traits::eventWaitList,
cl_event *event = Traits::event) {
return pCmdQ->enqueueKernel(kernel,
workDim,
globalWorkOffset,
globalWorkSize,
localWorkSize,
numEventsInWaitList,
eventWaitList,
event);
}
};
struct EnqueueMapBufferTraits : public EnqueueTraits {
static const cl_bool blocking;
static const cl_mem_flags flags;
static const size_t offset;
static const size_t sizeInBytes;
static cl_int *errcodeRet;
static cl_command_type cmdType;
};
template <typename T = EnqueueMapBufferTraits>
struct EnqueueMapBufferHelper {
typedef T Traits;
using Buffer = NEO::Buffer;
using CommandQueue = NEO::CommandQueue;
static void *enqueueMapBuffer(CommandQueue *pCmdQ,
Buffer *buffer = std::unique_ptr<Buffer>(BufferHelper<>::create()).get(),
cl_bool blockingMap = Traits::blocking,
cl_mem_flags flags = Traits::flags,
size_t offset = Traits::offset,
size_t size = Traits::sizeInBytes,
cl_uint numEventsInWaitList = Traits::numEventsInWaitList,
const cl_event *eventWaitList = Traits::eventWaitList,
cl_event *event = Traits::event,
cl_int *errcodeRet = Traits::errcodeRet) {
size = size == static_cast<size_t>(-1) ? buffer->getSize() : size;
auto retCode = CL_SUCCESS;
auto retPtr = pCmdQ->enqueueMapBuffer(buffer,
blockingMap,
flags,
offset,
size,
numEventsInWaitList,
eventWaitList,
event,
retCode);
if (errcodeRet) {
*errcodeRet = retCode;
}
return retPtr;
}
static cl_int enqueue(CommandQueue *pCmdQ, Buffer *buffer = nullptr) {
auto retVal = CL_SUCCESS;
enqueueMapBuffer(pCmdQ,
buffer ? buffer : std::unique_ptr<Buffer>(BufferHelper<>::create()).get(),
Traits::blocking,
Traits::flags,
Traits::offset,
Traits::sizeInBytes,
Traits::numEventsInWaitList,
Traits::eventWaitList,
Traits::event,
&retVal);
return retVal;
}
};
struct EnqueueReadBufferTraits : public EnqueueTraits {
static const cl_bool blocking;
static const size_t offset;
static const size_t sizeInBytes;
static void *hostPtr;
static cl_command_type cmdType;
static NEO::GraphicsAllocation *mapAllocation;
};
template <typename T = EnqueueReadBufferTraits>
struct EnqueueReadBufferHelper {
typedef T Traits;
using Buffer = NEO::Buffer;
using CommandQueue = NEO::CommandQueue;
static cl_int enqueueReadBuffer(CommandQueue *pCmdQ,
Buffer *buffer = std::unique_ptr<Buffer>(BufferHelper<>::create()).get(),
cl_bool blockingRead = Traits::blocking,
size_t offset = Traits::offset,
size_t size = Traits::sizeInBytes,
void *ptr = Traits::hostPtr,
NEO::GraphicsAllocation *mapAllocation = Traits::mapAllocation,
cl_uint numEventsInWaitList = Traits::numEventsInWaitList,
const cl_event *eventWaitList = Traits::eventWaitList,
cl_event *event = Traits::event) {
size = size == static_cast<size_t>(-1) ? buffer->getSize() : size;
cl_int retVal = pCmdQ->enqueueReadBuffer(buffer,
blockingRead,
offset,
size,
ptr,
mapAllocation,
numEventsInWaitList,
eventWaitList,
event);
return retVal;
}
static cl_int enqueue(CommandQueue *pCmdQ) {
return enqueueReadBuffer(pCmdQ);
}
static cl_int enqueue(CommandQueue *pCmdQ, Buffer *buffer) {
return enqueueReadBuffer(pCmdQ, buffer);
}
};
struct EnqueueReadImageTraits : public EnqueueTraits {
static const cl_bool blocking;
static const size_t origin[3];
static const size_t region[3];
static const size_t rowPitch;
static const size_t slicePitch;
static void *hostPtr;
static cl_command_type cmdType;
static NEO::GraphicsAllocation *mapAllocation;
};
template <typename T = EnqueueReadImageTraits>
struct EnqueueReadImageHelper {
typedef T Traits;
using Image = NEO::Image;
using CommandQueue = NEO::CommandQueue;
static cl_int enqueueReadImage(CommandQueue *pCmdQ,
Image *image = nullptr,
cl_bool blockingRead = Traits::blocking,
const size_t *origin = Traits::origin,
const size_t *region = Traits::region,
size_t rowPitch = Traits::rowPitch,
size_t slicePitch = Traits::slicePitch,
void *ptr = Traits::hostPtr,
NEO::GraphicsAllocation *mapAllocation = Traits::mapAllocation,
cl_uint numEventsInWaitList = Traits::numEventsInWaitList,
const cl_event *eventWaitList = Traits::eventWaitList,
cl_event *event = Traits::event) {
auto &context = pCmdQ->getContext();
std::unique_ptr<Image> imageDelete(image ? nullptr : Image2dHelper<>::create(&context));
image = image ? image : imageDelete.get();
size_t regionOut[3] = {
region[0] == static_cast<size_t>(-1) ? image->getImageDesc().image_width : region[0],
region[1] == static_cast<size_t>(-1) ? image->getImageDesc().image_height : region[1],
region[2] == static_cast<size_t>(-1) ? (image->getImageDesc().image_depth > 0 ? image->getImageDesc().image_depth : 1) : region[2],
};
return pCmdQ->enqueueReadImage(image,
blockingRead,
origin,
regionOut,
rowPitch,
slicePitch,
ptr,
mapAllocation,
numEventsInWaitList,
eventWaitList,
event);
}
static cl_int enqueue(CommandQueue *pCmdQ, void *placeholder = nullptr) {
return enqueueReadImage(pCmdQ);
}
};
struct EnqueueWriteBufferTraits : public EnqueueTraits {
static const bool zeroCopy;
static const cl_bool blocking;
static const size_t offset;
static const size_t sizeInBytes;
static void *hostPtr;
static cl_command_type cmdType;
static NEO::GraphicsAllocation *mapAllocation;
};
template <typename T = EnqueueWriteBufferTraits>
struct EnqueueWriteBufferHelper {
typedef T Traits;
using Buffer = NEO::Buffer;
using CommandQueue = NEO::CommandQueue;
static cl_int enqueueWriteBuffer(CommandQueue *pCmdQ,
Buffer *buffer = std::unique_ptr<Buffer>(BufferHelper<>::create()).get(),
cl_bool blockingWrite = Traits::blocking,
size_t offset = Traits::offset,
size_t size = Traits::sizeInBytes,
void *ptr = Traits::hostPtr,
NEO::GraphicsAllocation *mapAllocation = Traits::mapAllocation,
cl_uint numEventsInWaitList = Traits::numEventsInWaitList,
const cl_event *eventWaitList = Traits::eventWaitList,
cl_event *event = Traits::event) {
size = size == static_cast<size_t>(-1) ? buffer->getSize() : size;
cl_int retVal = pCmdQ->enqueueWriteBuffer(buffer,
blockingWrite,
offset,
size,
ptr,
mapAllocation,
numEventsInWaitList,
eventWaitList,
event);
return retVal;
}
static cl_int enqueue(CommandQueue *pCmdQ) {
return enqueueWriteBuffer(pCmdQ);
}
static cl_int enqueue(CommandQueue *pCmdQ, Buffer *buffer) {
return enqueueWriteBuffer(pCmdQ, buffer);
}
};
struct EnqueueWriteBufferRectTraits : public EnqueueTraits {
static const bool zeroCopy;
static const cl_bool blocking;
static const size_t bufferOrigin[3];
static const size_t hostOrigin[3];
static const size_t region[3];
static size_t bufferRowPitch;
static size_t bufferSlicePitch;
static size_t hostRowPitch;
static size_t hostSlicePitch;
static void *hostPtr;
static cl_command_type cmdType;
};
template <typename T = EnqueueWriteBufferRectTraits>
struct EnqueueWriteBufferRectHelper {
typedef T Traits;
using Buffer = NEO::Buffer;
using CommandQueue = NEO::CommandQueue;
static cl_int enqueueWriteBufferRect(CommandQueue *pCmdQ,
Buffer *buffer = std::unique_ptr<Buffer>(BufferHelper<>::create()).get(),
cl_bool blockingWrite = Traits::blocking,
const size_t *bufferOrigin = Traits::bufferOrigin,
const size_t *hostOrigin = Traits::hostOrigin,
const size_t *region = Traits::region,
size_t bufferRowPitch = Traits::bufferRowPitch,
size_t bufferSlicePitch = Traits::bufferSlicePitch,
size_t hostRowPitch = Traits::hostRowPitch,
size_t hostSlicePitch = Traits::hostSlicePitch,
void *hostPtr = Traits::hostPtr,
cl_uint numEventsInWaitList = Traits::numEventsInWaitList,
const cl_event *eventWaitList = Traits::eventWaitList,
cl_event *event = Traits::event) {
cl_int retVal = pCmdQ->enqueueWriteBufferRect(buffer,
blockingWrite,
bufferOrigin,
hostOrigin,
region,
bufferRowPitch,
bufferSlicePitch,
hostRowPitch,
hostSlicePitch,
hostPtr,
numEventsInWaitList,
eventWaitList,
event);
return retVal;
}
static cl_int enqueue(CommandQueue *pCmdQ) {
return enqueueWriteBufferRect(pCmdQ);
}
};
struct EnqueueWriteImageTraits : public EnqueueTraits {
static const cl_bool blocking;
static const size_t origin[3];
static const size_t region[3];
static const size_t rowPitch;
static const size_t slicePitch;
static void *hostPtr;
static cl_command_type cmdType;
static NEO::GraphicsAllocation *mapAllocation;
};
template <typename T = EnqueueWriteImageTraits>
struct EnqueueWriteImageHelper {
typedef T Traits;
using Image = NEO::Image;
using CommandQueue = NEO::CommandQueue;
static cl_int enqueueWriteImage(CommandQueue *pCmdQ,
Image *image = nullptr,
cl_bool blockingRead = Traits::blocking,
const size_t *origin = Traits::origin,
const size_t *region = Traits::region,
size_t rowPitch = Traits::rowPitch,
size_t slicePitch = Traits::slicePitch,
const void *ptr = Traits::hostPtr,
NEO::GraphicsAllocation *mapAllocation = Traits::mapAllocation,
cl_uint numEventsInWaitList = Traits::numEventsInWaitList,
const cl_event *eventWaitList = Traits::eventWaitList,
cl_event *event = Traits::event) {
auto &context = pCmdQ->getContext();
std::unique_ptr<Image> imageDelete(image ? nullptr : Image2dHelper<>::create(&context));
image = image ? image : imageDelete.get();
size_t regionOut[3] = {
region[0] == static_cast<size_t>(-1) ? image->getImageDesc().image_width : region[0],
region[1] == static_cast<size_t>(-1) ? image->getImageDesc().image_height : region[1],
region[2] == static_cast<size_t>(-1) ? (image->getImageDesc().image_depth > 0 ? image->getImageDesc().image_depth : 1) : region[2],
};
return pCmdQ->enqueueWriteImage(image,
blockingRead,
origin,
regionOut,
rowPitch,
slicePitch,
ptr,
mapAllocation,
numEventsInWaitList,
eventWaitList,
event);
}
static cl_int enqueue(CommandQueue *pCmdQ, void *placeholder = nullptr) {
return enqueueWriteImage(pCmdQ);
}
};
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