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blender-archive/source/blender/compositor/operations/COM_WriteBufferOperation.cc
Campbell Barton 891949cbb4 Cleanup: use 'u' prefixed integer types for brevity & cast style 
To use function style cast '(unsigned char)x' can't be replaced by
'unsigned char(x)'.
2022-09-25 18:26:27 +10:00

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/* SPDX-License-Identifier: GPL-2.0-or-later
* Copyright 2011 Blender Foundation. */
#include "COM_WriteBufferOperation.h"
#include "COM_OpenCLDevice.h"
namespace blender::compositor {
WriteBufferOperation::WriteBufferOperation(DataType datatype)
{
this->add_input_socket(datatype);
memory_proxy_ = new MemoryProxy(datatype);
memory_proxy_->set_write_buffer_operation(this);
memory_proxy_->set_executor(nullptr);
flags_.is_write_buffer_operation = true;
}
WriteBufferOperation::~WriteBufferOperation()
{
if (memory_proxy_) {
delete memory_proxy_;
memory_proxy_ = nullptr;
}
}
void WriteBufferOperation::execute_pixel_sampled(float output[4],
float x,
float y,
PixelSampler sampler)
{
input_->read_sampled(output, x, y, sampler);
}
void WriteBufferOperation::init_execution()
{
input_ = this->get_input_operation(0);
memory_proxy_->allocate(this->get_width(), this->get_height());
}
void WriteBufferOperation::deinit_execution()
{
input_ = nullptr;
memory_proxy_->free();
}
void WriteBufferOperation::execute_region(rcti *rect, uint /*tile_number*/)
{
MemoryBuffer *memory_buffer = memory_proxy_->get_buffer();
float *buffer = memory_buffer->get_buffer();
const uint8_t num_channels = memory_buffer->get_num_channels();
if (input_->get_flags().complex) {
void *data = input_->initialize_tile_data(rect);
int x1 = rect->xmin;
int y1 = rect->ymin;
int x2 = rect->xmax;
int y2 = rect->ymax;
int x;
int y;
bool breaked = false;
for (y = y1; y < y2 && (!breaked); y++) {
int offset4 = (y * memory_buffer->get_width() + x1) * num_channels;
for (x = x1; x < x2; x++) {
input_->read(&(buffer[offset4]), x, y, data);
offset4 += num_channels;
}
if (is_braked()) {
breaked = true;
}
}
if (data) {
input_->deinitialize_tile_data(rect, data);
data = nullptr;
}
}
else {
int x1 = rect->xmin;
int y1 = rect->ymin;
int x2 = rect->xmax;
int y2 = rect->ymax;
int x;
int y;
bool breaked = false;
for (y = y1; y < y2 && (!breaked); y++) {
int offset4 = (y * memory_buffer->get_width() + x1) * num_channels;
for (x = x1; x < x2; x++) {
input_->read_sampled(&(buffer[offset4]), x, y, PixelSampler::Nearest);
offset4 += num_channels;
}
if (is_braked()) {
breaked = true;
}
}
}
}
void WriteBufferOperation::execute_opencl_region(OpenCLDevice *device,
rcti * /*rect*/,
uint /*chunk_number*/,
MemoryBuffer **input_memory_buffers,
MemoryBuffer *output_buffer)
{
float *output_float_buffer = output_buffer->get_buffer();
cl_int error;
/*
* 1. create cl_mem from outputbuffer
* 2. call NodeOperation (input) executeOpenCLChunk(.....)
* 3. schedule read back from opencl to main device (outputbuffer)
* 4. schedule native callback
*
* NOTE: list of cl_mem will be filled by 2, and needs to be cleaned up by 4
*/
/* STEP 1 */
const uint output_buffer_width = output_buffer->get_width();
const uint output_buffer_height = output_buffer->get_height();
const cl_image_format *image_format = OpenCLDevice::determine_image_format(output_buffer);
cl_mem cl_output_buffer = clCreateImage2D(device->get_context(),
CL_MEM_WRITE_ONLY | CL_MEM_USE_HOST_PTR,
image_format,
output_buffer_width,
output_buffer_height,
0,
output_float_buffer,
&error);
if (error != CL_SUCCESS) {
printf("CLERROR[%d]: %s\n", error, clewErrorString(error));
}
/* STEP 2 */
std::list<cl_mem> *cl_mem_to_clean_up = new std::list<cl_mem>();
cl_mem_to_clean_up->push_back(cl_output_buffer);
std::list<cl_kernel> *cl_kernels_to_clean_up = new std::list<cl_kernel>();
input_->execute_opencl(device,
output_buffer,
cl_output_buffer,
input_memory_buffers,
cl_mem_to_clean_up,
cl_kernels_to_clean_up);
/* STEP 3 */
size_t origin[3] = {0, 0, 0};
size_t region[3] = {output_buffer_width, output_buffer_height, 1};
// clFlush(queue);
// clFinish(queue);
error = clEnqueueBarrier(device->get_queue());
if (error != CL_SUCCESS) {
printf("CLERROR[%d]: %s\n", error, clewErrorString(error));
}
error = clEnqueueReadImage(device->get_queue(),
cl_output_buffer,
CL_TRUE,
origin,
region,
0,
0,
output_float_buffer,
0,
nullptr,
nullptr);
if (error != CL_SUCCESS) {
printf("CLERROR[%d]: %s\n", error, clewErrorString(error));
}
this->get_memory_proxy()->get_buffer()->fill_from(*output_buffer);
/* STEP 4 */
while (!cl_mem_to_clean_up->empty()) {
cl_mem mem = cl_mem_to_clean_up->front();
error = clReleaseMemObject(mem);
if (error != CL_SUCCESS) {
printf("CLERROR[%d]: %s\n", error, clewErrorString(error));
}
cl_mem_to_clean_up->pop_front();
}
while (!cl_kernels_to_clean_up->empty()) {
cl_kernel kernel = cl_kernels_to_clean_up->front();
error = clReleaseKernel(kernel);
if (error != CL_SUCCESS) {
printf("CLERROR[%d]: %s\n", error, clewErrorString(error));
}
cl_kernels_to_clean_up->pop_front();
}
delete cl_kernels_to_clean_up;
}
void WriteBufferOperation::determine_canvas(const rcti &preferred_area, rcti &r_area)
{
NodeOperation::determine_canvas(preferred_area, r_area);
/* make sure there is at least one pixel stored in case the input is a single value */
single_value_ = false;
if (BLI_rcti_size_x(&r_area) == 0) {
r_area.xmax += 1;
single_value_ = true;
}
if (BLI_rcti_size_y(&r_area) == 0) {
r_area.ymax += 1;
single_value_ = true;
}
}
void WriteBufferOperation::read_resolution_from_input_socket()
{
NodeOperation *input_operation = this->get_input_operation(0);
this->set_width(input_operation->get_width());
this->set_height(input_operation->get_height());
}
} // namespace blender::compositor
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