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blender-archive/source/blender/compositor/intern/COM_OpenCLDevice.cpp
Sergey Sharybin 77b7e1fe9a Deduplicate CUDA and OpenCL wranglers 
For now it was mainly about OpenCL wrangler being duplicated
between Cycles and Compositor, but with OpenSubdiv work those
wranglers were gonna to be duplicated just once again.

This commit makes it so Cycles and Compositor uses wranglers
from this repositories:

  - https://github.com/CudaWrangler/cuew
  - https://github.com/OpenCLWrangler/clew

This repositories are based on the wranglers we used before
and they'll be likely continued maintaining by us plus some
more players in the market.

Pretty much straightforward change with some tricks in the
CMake/SCons to make this libs being passed to the linker
after all other libraries in order to make OpenSubdiv linked
against those wranglers in the future.

For those who're worrying about Cycles being less standalone,
it's not truth, it's rather more flexible now and in the future
different wranglers might be used in Cycles. For now it'll
just mean those libs would need to be put into Cycles repository
together with some other libs from Blender such as mikkspace.

This is mainly platform maintenance commit, should not be any
changes to the user space.

Reviewers: juicyfruit, dingto, campbellbarton

Reviewed By: juicyfruit, dingto, campbellbarton

Differential Revision: https://developer.blender.org/D707
2014-08-05 13:57:50 +06:00

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/*
* Copyright 2011, Blender Foundation.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* Contributor:
* Jeroen Bakker
* Monique Dewanchand
*/
#include "COM_OpenCLDevice.h"
#include "COM_WorkScheduler.h"
typedef enum COM_VendorID {NVIDIA = 0x10DE, AMD = 0x1002} COM_VendorID;
OpenCLDevice::OpenCLDevice(cl_context context, cl_device_id device, cl_program program, cl_int vendorId)
{
this->m_device = device;
this->m_context = context;
this->m_program = program;
this->m_queue = NULL;
this->m_vendorID = vendorId;
}
bool OpenCLDevice::initialize()
{
cl_int error;
this->m_queue = clCreateCommandQueue(this->m_context, this->m_device, 0, &error);
return false;
}
void OpenCLDevice::deinitialize()
{
if (this->m_queue) {
clReleaseCommandQueue(this->m_queue);
}
}
void OpenCLDevice::execute(WorkPackage *work)
{
const unsigned int chunkNumber = work->getChunkNumber();
ExecutionGroup *executionGroup = work->getExecutionGroup();
rcti rect;
executionGroup->determineChunkRect(&rect, chunkNumber);
MemoryBuffer **inputBuffers = executionGroup->getInputBuffersOpenCL(chunkNumber);
MemoryBuffer *outputBuffer = executionGroup->allocateOutputBuffer(chunkNumber, &rect);
executionGroup->getOutputOperation()->executeOpenCLRegion(this, &rect,
chunkNumber, inputBuffers, outputBuffer);
delete outputBuffer;
executionGroup->finalizeChunkExecution(chunkNumber, inputBuffers);
}
cl_mem OpenCLDevice::COM_clAttachMemoryBufferToKernelParameter(cl_kernel kernel, int parameterIndex, int offsetIndex,
list<cl_mem> *cleanup, MemoryBuffer **inputMemoryBuffers,
SocketReader *reader)
{
return COM_clAttachMemoryBufferToKernelParameter(kernel, parameterIndex, offsetIndex, cleanup, inputMemoryBuffers, (ReadBufferOperation *)reader);
}
cl_mem OpenCLDevice::COM_clAttachMemoryBufferToKernelParameter(cl_kernel kernel, int parameterIndex, int offsetIndex,
list<cl_mem> *cleanup, MemoryBuffer **inputMemoryBuffers,
ReadBufferOperation *reader)
{
cl_int error;
MemoryBuffer *result = reader->getInputMemoryBuffer(inputMemoryBuffers);
const cl_image_format imageFormat = {
CL_RGBA,
CL_FLOAT
};
cl_mem clBuffer = clCreateImage2D(this->m_context, CL_MEM_READ_ONLY | CL_MEM_COPY_HOST_PTR, &imageFormat, result->getWidth(),
result->getHeight(), 0, result->getBuffer(), &error);
if (error != CL_SUCCESS) { printf("CLERROR[%d]: %s\n", error, clewErrorString(error)); }
if (error == CL_SUCCESS) cleanup->push_back(clBuffer);
error = clSetKernelArg(kernel, parameterIndex, sizeof(cl_mem), &clBuffer);
if (error != CL_SUCCESS) { printf("CLERROR[%d]: %s\n", error, clewErrorString(error)); }
COM_clAttachMemoryBufferOffsetToKernelParameter(kernel, offsetIndex, result);
return clBuffer;
}
void OpenCLDevice::COM_clAttachMemoryBufferOffsetToKernelParameter(cl_kernel kernel, int offsetIndex, MemoryBuffer *memoryBuffer)
{
if (offsetIndex != -1) {
cl_int error;
rcti *rect = memoryBuffer->getRect();
cl_int2 offset = {{rect->xmin, rect->ymin}};
error = clSetKernelArg(kernel, offsetIndex, sizeof(cl_int2), &offset);
if (error != CL_SUCCESS) { printf("CLERROR[%d]: %s\n", error, clewErrorString(error)); }
}
}
void OpenCLDevice::COM_clAttachSizeToKernelParameter(cl_kernel kernel, int offsetIndex, NodeOperation *operation)
{
if (offsetIndex != -1) {
cl_int error;
cl_int2 offset = {{(cl_int)operation->getWidth(), (cl_int)operation->getHeight()}};
error = clSetKernelArg(kernel, offsetIndex, sizeof(cl_int2), &offset);
if (error != CL_SUCCESS) { printf("CLERROR[%d]: %s\n", error, clewErrorString(error)); }
}
}
void OpenCLDevice::COM_clAttachOutputMemoryBufferToKernelParameter(cl_kernel kernel, int parameterIndex, cl_mem clOutputMemoryBuffer)
{
cl_int error;
error = clSetKernelArg(kernel, parameterIndex, sizeof(cl_mem), &clOutputMemoryBuffer);
if (error != CL_SUCCESS) { printf("CLERROR[%d]: %s\n", error, clewErrorString(error)); }
}
void OpenCLDevice::COM_clEnqueueRange(cl_kernel kernel, MemoryBuffer *outputMemoryBuffer)
{
cl_int error;
const size_t size[] = {(size_t)outputMemoryBuffer->getWidth(), (size_t)outputMemoryBuffer->getHeight()};
error = clEnqueueNDRangeKernel(this->m_queue, kernel, 2, NULL, size, 0, 0, 0, NULL);
if (error != CL_SUCCESS) { printf("CLERROR[%d]: %s\n", error, clewErrorString(error)); }
}
void OpenCLDevice::COM_clEnqueueRange(cl_kernel kernel, MemoryBuffer *outputMemoryBuffer, int offsetIndex, NodeOperation *operation)
{
cl_int error;
const int width = outputMemoryBuffer->getWidth();
const int height = outputMemoryBuffer->getHeight();
int offsetx;
int offsety;
int localSize = 1024;
size_t size[2];
cl_int2 offset;
if (this->m_vendorID == NVIDIA) {
localSize = 32;
}
bool breaked = false;
for (offsety = 0; offsety < height && (!breaked); offsety += localSize) {
offset.y = offsety;
if (offsety + localSize < height) {
size[1] = localSize;
}
else {
size[1] = height - offsety;
}
for (offsetx = 0; offsetx < width && (!breaked); offsetx += localSize) {
if (offsetx + localSize < width) {
size[0] = localSize;
}
else {
size[0] = width - offsetx;
}
offset.x = offsetx;
error = clSetKernelArg(kernel, offsetIndex, sizeof(cl_int2), &offset);
if (error != CL_SUCCESS) { printf("CLERROR[%d]: %s\n", error, clewErrorString(error)); }
error = clEnqueueNDRangeKernel(this->m_queue, kernel, 2, NULL, size, 0, 0, 0, NULL);
if (error != CL_SUCCESS) { printf("CLERROR[%d]: %s\n", error, clewErrorString(error)); }
clFlush(this->m_queue);
if (operation->isBreaked()) {
breaked = false;
}
}
}
}
cl_kernel OpenCLDevice::COM_clCreateKernel(const char *kernelname, list<cl_kernel> *clKernelsToCleanUp)
{
cl_int error;
cl_kernel kernel = clCreateKernel(this->m_program, kernelname, &error);
if (error != CL_SUCCESS) { printf("CLERROR[%d]: %s\n", error, clewErrorString(error)); }
else {
if (clKernelsToCleanUp) clKernelsToCleanUp->push_back(kernel);
}
return kernel;
}
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