forked from bartvdbraak/blender
11707119de
* Code cleanup, remove unused "resolution" variable from the DeviceTask class, was never used.
351 lines
8.1 KiB
C++
351 lines
8.1 KiB
C++
/*
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* Copyright 2011, Blender Foundation.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software Foundation,
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* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*/
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#include <stdlib.h>
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#include <string.h>
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#include "device.h"
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#include "device_intern.h"
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#include "kernel.h"
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#include "kernel_compat_cpu.h"
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#include "kernel_types.h"
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#include "kernel_globals.h"
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#include "osl_shader.h"
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#include "osl_globals.h"
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#include "buffers.h"
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#include "util_debug.h"
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#include "util_foreach.h"
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#include "util_function.h"
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#include "util_opengl.h"
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#include "util_progress.h"
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#include "util_system.h"
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#include "util_thread.h"
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CCL_NAMESPACE_BEGIN
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class CPUDevice : public Device
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{
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public:
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TaskPool task_pool;
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KernelGlobals kernel_globals;
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#ifdef WITH_OSL
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OSLGlobals osl_globals;
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#endif
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CPUDevice(Stats &stats) : Device(stats)
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{
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#ifdef WITH_OSL
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kernel_globals.osl = &osl_globals;
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#endif
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/* do now to avoid thread issues */
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system_cpu_support_sse2();
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system_cpu_support_sse3();
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}
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~CPUDevice()
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{
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task_pool.stop();
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}
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void mem_alloc(device_memory& mem, MemoryType type)
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{
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mem.device_pointer = mem.data_pointer;
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stats.mem_alloc(mem.memory_size());
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}
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void mem_copy_to(device_memory& mem)
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{
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/* no-op */
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}
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void mem_copy_from(device_memory& mem, int y, int w, int h, int elem)
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{
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/* no-op */
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}
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void mem_zero(device_memory& mem)
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{
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memset((void*)mem.device_pointer, 0, mem.memory_size());
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}
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void mem_free(device_memory& mem)
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{
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mem.device_pointer = 0;
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stats.mem_free(mem.memory_size());
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}
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void const_copy_to(const char *name, void *host, size_t size)
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{
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kernel_const_copy(&kernel_globals, name, host, size);
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}
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void tex_alloc(const char *name, device_memory& mem, bool interpolation, bool periodic)
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{
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kernel_tex_copy(&kernel_globals, name, mem.data_pointer, mem.data_width, mem.data_height);
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mem.device_pointer = mem.data_pointer;
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stats.mem_alloc(mem.memory_size());
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}
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void tex_free(device_memory& mem)
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{
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mem.device_pointer = 0;
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stats.mem_free(mem.memory_size());
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}
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void *osl_memory()
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{
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#ifdef WITH_OSL
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return &osl_globals;
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#else
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return NULL;
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#endif
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}
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void thread_run(DeviceTask *task)
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{
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if(task->type == DeviceTask::PATH_TRACE)
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thread_path_trace(*task);
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else if(task->type == DeviceTask::TONEMAP)
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thread_tonemap(*task);
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else if(task->type == DeviceTask::SHADER)
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thread_shader(*task);
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}
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class CPUDeviceTask : public DeviceTask {
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public:
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CPUDeviceTask(CPUDevice *device, DeviceTask& task)
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: DeviceTask(task)
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{
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run = function_bind(&CPUDevice::thread_run, device, this);
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}
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};
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void thread_path_trace(DeviceTask& task)
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{
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if(task_pool.cancelled()) {
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if(task.need_finish_queue == false)
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return;
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}
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KernelGlobals kg = kernel_globals;
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#ifdef WITH_OSL
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OSLShader::thread_init(&kg, &kernel_globals, &osl_globals);
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#endif
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RenderTile tile;
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while(task.acquire_tile(this, tile)) {
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float *render_buffer = (float*)tile.buffer;
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uint *rng_state = (uint*)tile.rng_state;
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int start_sample = tile.start_sample;
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int end_sample = tile.start_sample + tile.num_samples;
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#ifdef WITH_OPTIMIZED_KERNEL
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if(system_cpu_support_sse3()) {
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for(int sample = start_sample; sample < end_sample; sample++) {
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if (task.get_cancel() || task_pool.cancelled()) {
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if(task.need_finish_queue == false)
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break;
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}
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for(int y = tile.y; y < tile.y + tile.h; y++) {
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for(int x = tile.x; x < tile.x + tile.w; x++) {
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kernel_cpu_sse3_path_trace(&kg, render_buffer, rng_state,
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sample, x, y, tile.offset, tile.stride);
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}
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}
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tile.sample = sample + 1;
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task.update_progress(tile);
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}
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}
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else if(system_cpu_support_sse2()) {
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for(int sample = start_sample; sample < end_sample; sample++) {
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if (task.get_cancel() || task_pool.cancelled()) {
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if(task.need_finish_queue == false)
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break;
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}
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for(int y = tile.y; y < tile.y + tile.h; y++) {
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for(int x = tile.x; x < tile.x + tile.w; x++) {
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kernel_cpu_sse2_path_trace(&kg, render_buffer, rng_state,
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sample, x, y, tile.offset, tile.stride);
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}
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}
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tile.sample = sample + 1;
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task.update_progress(tile);
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}
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}
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else
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#endif
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{
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for(int sample = start_sample; sample < end_sample; sample++) {
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if (task.get_cancel() || task_pool.cancelled()) {
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if(task.need_finish_queue == false)
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break;
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}
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for(int y = tile.y; y < tile.y + tile.h; y++) {
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for(int x = tile.x; x < tile.x + tile.w; x++) {
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kernel_cpu_path_trace(&kg, render_buffer, rng_state,
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sample, x, y, tile.offset, tile.stride);
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}
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}
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tile.sample = sample + 1;
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task.update_progress(tile);
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}
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}
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task.release_tile(tile);
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if(task_pool.cancelled()) {
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if(task.need_finish_queue == false)
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break;
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}
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}
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#ifdef WITH_OSL
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OSLShader::thread_free(&kg);
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#endif
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}
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void thread_tonemap(DeviceTask& task)
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{
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#ifdef WITH_OPTIMIZED_KERNEL
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if(system_cpu_support_sse3()) {
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for(int y = task.y; y < task.y + task.h; y++)
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for(int x = task.x; x < task.x + task.w; x++)
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kernel_cpu_sse3_tonemap(&kernel_globals, (uchar4*)task.rgba, (float*)task.buffer,
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task.sample, x, y, task.offset, task.stride);
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}
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else if(system_cpu_support_sse2()) {
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for(int y = task.y; y < task.y + task.h; y++)
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for(int x = task.x; x < task.x + task.w; x++)
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kernel_cpu_sse2_tonemap(&kernel_globals, (uchar4*)task.rgba, (float*)task.buffer,
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task.sample, x, y, task.offset, task.stride);
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}
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else
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#endif
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{
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for(int y = task.y; y < task.y + task.h; y++)
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for(int x = task.x; x < task.x + task.w; x++)
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kernel_cpu_tonemap(&kernel_globals, (uchar4*)task.rgba, (float*)task.buffer,
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task.sample, x, y, task.offset, task.stride);
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}
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}
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void thread_shader(DeviceTask& task)
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{
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KernelGlobals kg = kernel_globals;
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#ifdef WITH_OSL
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OSLShader::thread_init(&kg, &kernel_globals, &osl_globals);
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#endif
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#ifdef WITH_OPTIMIZED_KERNEL
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if(system_cpu_support_sse3()) {
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for(int x = task.shader_x; x < task.shader_x + task.shader_w; x++) {
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kernel_cpu_sse3_shader(&kg, (uint4*)task.shader_input, (float4*)task.shader_output, task.shader_eval_type, x);
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if(task_pool.cancelled())
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break;
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}
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}
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else if(system_cpu_support_sse2()) {
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for(int x = task.shader_x; x < task.shader_x + task.shader_w; x++) {
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kernel_cpu_sse2_shader(&kg, (uint4*)task.shader_input, (float4*)task.shader_output, task.shader_eval_type, x);
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if(task_pool.cancelled())
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break;
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}
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}
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else
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#endif
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{
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for(int x = task.shader_x; x < task.shader_x + task.shader_w; x++) {
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kernel_cpu_shader(&kg, (uint4*)task.shader_input, (float4*)task.shader_output, task.shader_eval_type, x);
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if(task_pool.cancelled())
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break;
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}
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}
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#ifdef WITH_OSL
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OSLShader::thread_free(&kg);
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#endif
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}
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void task_add(DeviceTask& task)
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{
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/* split task into smaller ones, more than number of threads for uneven
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* workloads where some parts of the image render slower than others */
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list<DeviceTask> tasks;
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task.split(tasks, TaskScheduler::num_threads());
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foreach(DeviceTask& task, tasks)
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task_pool.push(new CPUDeviceTask(this, task));
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}
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void task_wait()
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{
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task_pool.wait_work();
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}
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void task_cancel()
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{
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task_pool.cancel();
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}
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};
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Device *device_cpu_create(DeviceInfo& info, Stats &stats)
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{
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return new CPUDevice(stats);
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}
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void device_cpu_info(vector<DeviceInfo>& devices)
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{
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DeviceInfo info;
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info.type = DEVICE_CPU;
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info.description = system_cpu_brand_string();
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info.id = "CPU";
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info.num = 0;
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info.advanced_shading = true;
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info.pack_images = false;
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devices.insert(devices.begin(), info);
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}
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CCL_NAMESPACE_END
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