blender/intern/cycles/render/session.cpp
Brecht Van Lommel 66b1dfae89 Cycles: tweaks to properties and nodes
* Passes renamed to samples
* Camera lens radius renamed to aperature size/blades/rotation
* Glass and fresnel nodes input is now index of refraction
* Glossy and velvet fresnel socket removed
* Mix/add closure node renamed to mix/add shader node
* Blend weight node added for shader mixing weights

There is some version patching code for reading existing files, but it's not
perfect, so shaders may work a bit different.
2011-09-16 13:14:02 +00:00

587 lines
13 KiB
C++

/*
* 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.
*/
#include <string.h>
#include <limits.h>
#include "buffers.h"
#include "camera.h"
#include "device.h"
#include "scene.h"
#include "session.h"
#include "util_foreach.h"
#include "util_function.h"
#include "util_time.h"
CCL_NAMESPACE_BEGIN
Session::Session(const SessionParams& params_)
: params(params_),
tile_manager(params.progressive, params.samples, params.tile_size, params.min_size)
{
device_use_gl = ((params.device_type != DEVICE_CPU) && !params.background);
device = Device::create(params.device_type, params.background, params.threads);
buffers = new RenderBuffers(device);
display = new DisplayBuffer(device);
session_thread = NULL;
scene = NULL;
start_time = 0.0;
reset_time = 0.0;
preview_time = 0.0;
paused_time = 0.0;
sample = 0;
delayed_reset.do_reset = false;
delayed_reset.w = 0;
delayed_reset.h = 0;
delayed_reset.samples = 0;
display_outdated = false;
gpu_draw_ready = false;
gpu_need_tonemap = false;
pause = false;
}
Session::~Session()
{
if(session_thread) {
progress.set_cancel("Exiting");
gpu_need_tonemap = false;
gpu_need_tonemap_cond.notify_all();
{
thread_scoped_lock pause_lock(pause_mutex);
pause = false;
}
pause_cond.notify_all();
wait();
}
if(params.output_path != "") {
tonemap();
progress.set_status("Writing Image", params.output_path);
display->write(device, params.output_path);
}
delete buffers;
delete display;
delete scene;
delete device;
}
void Session::start()
{
session_thread = new thread(function_bind(&Session::run, this));
}
bool Session::ready_to_reset()
{
double dt = time_dt() - reset_time;
if(!display_outdated)
return (dt > params.reset_timeout);
else
return (dt > params.cancel_timeout);
}
/* GPU Session */
void Session::reset_gpu(int w, int h, int samples)
{
/* block for buffer acces and reset immediately. we can't do this
in the thread, because we need to allocate an OpenGL buffer, and
that only works in the main thread */
thread_scoped_lock display_lock(display->mutex);
thread_scoped_lock buffers_lock(buffers->mutex);
display_outdated = true;
reset_time = time_dt();
reset_(w, h, samples);
gpu_need_tonemap = false;
gpu_need_tonemap_cond.notify_all();
pause_cond.notify_all();
}
bool Session::draw_gpu(int w, int h)
{
/* block for buffer access */
thread_scoped_lock display_lock(display->mutex);
/* first check we already rendered something */
if(gpu_draw_ready) {
/* then verify the buffers have the expected size, so we don't
draw previous results in a resized window */
if(w == display->width && h == display->height) {
/* for CUDA we need to do tonemapping still, since we can
only access GL buffers from the main thread */
if(gpu_need_tonemap) {
thread_scoped_lock buffers_lock(buffers->mutex);
tonemap();
gpu_need_tonemap = false;
gpu_need_tonemap_cond.notify_all();
}
display->draw(device);
if(display_outdated && (time_dt() - reset_time) > params.text_timeout)
return false;
return true;
}
}
return false;
}
void Session::run_gpu()
{
start_time = time_dt();
reset_time = time_dt();
paused_time = 0.0;
while(!progress.get_cancel()) {
/* advance to next tile */
bool no_tiles = !tile_manager.next();
if(params.background) {
/* if no work left and in background mode, we can stop immediately */
if(no_tiles)
break;
}
else {
/* if in interactive mode, and we are either paused or done for now,
wait for pause condition notify to wake up again */
thread_scoped_lock pause_lock(pause_mutex);
if(pause || no_tiles) {
update_status_time(pause, no_tiles);
while(1) {
double pause_start = time_dt();
pause_cond.wait(pause_lock);
paused_time += time_dt() - pause_start;
update_status_time(pause, no_tiles);
progress.set_update();
if(!pause)
break;
}
}
if(progress.get_cancel())
break;
}
if(!no_tiles) {
/* update scene */
update_scene();
if(progress.get_cancel())
break;
}
if(!no_tiles) {
/* buffers mutex is locked entirely while rendering each
sample, and released/reacquired on each iteration to allow
reset and draw in between */
thread_scoped_lock buffers_lock(buffers->mutex);
/* update status and timing */
update_status_time();
/* path trace */
foreach(Tile& tile, tile_manager.state.tiles) {
path_trace(tile);
device->task_wait();
if(progress.get_cancel())
break;
}
/* update status and timing */
update_status_time();
gpu_need_tonemap = true;
gpu_draw_ready = true;
progress.set_update();
/* wait for tonemap */
if(!params.background) {
while(gpu_need_tonemap) {
if(progress.get_cancel())
break;
gpu_need_tonemap_cond.wait(buffers_lock);
}
}
if(progress.get_cancel())
break;
}
}
}
/* CPU Session */
void Session::reset_cpu(int w, int h, int samples)
{
thread_scoped_lock reset_lock(delayed_reset.mutex);
display_outdated = true;
reset_time = time_dt();
delayed_reset.w = w;
delayed_reset.h = h;
delayed_reset.samples = samples;
delayed_reset.do_reset = true;
device->task_cancel();
pause_cond.notify_all();
}
bool Session::draw_cpu(int w, int h)
{
thread_scoped_lock display_lock(display->mutex);
/* first check we already rendered something */
if(display->draw_ready()) {
/* then verify the buffers have the expected size, so we don't
draw previous results in a resized window */
if(w == display->width && h == display->height) {
display->draw(device);
if(display_outdated && (time_dt() - reset_time) > params.text_timeout)
return false;
return true;
}
}
return false;
}
void Session::run_cpu()
{
{
/* reset once to start */
thread_scoped_lock reset_lock(delayed_reset.mutex);
thread_scoped_lock buffers_lock(buffers->mutex);
thread_scoped_lock display_lock(display->mutex);
reset_(delayed_reset.w, delayed_reset.h, delayed_reset.samples);
delayed_reset.do_reset = false;
}
while(!progress.get_cancel()) {
/* advance to next tile */
bool no_tiles = !tile_manager.next();
bool need_tonemap = false;
if(params.background) {
/* if no work left and in background mode, we can stop immediately */
if(no_tiles)
break;
}
else {
/* if in interactive mode, and we are either paused or done for now,
wait for pause condition notify to wake up again */
thread_scoped_lock pause_lock(pause_mutex);
if(pause || no_tiles) {
update_status_time(pause, no_tiles);
while(1) {
double pause_start = time_dt();
pause_cond.wait(pause_lock);
paused_time += time_dt() - pause_start;
update_status_time(pause, no_tiles);
progress.set_update();
if(!pause)
break;
}
}
if(progress.get_cancel())
break;
}
if(!no_tiles) {
/* buffers mutex is locked entirely while rendering each
sample, and released/reacquired on each iteration to allow
reset and draw in between */
thread_scoped_lock buffers_lock(buffers->mutex);
/* update scene */
update_scene();
if(progress.get_cancel())
break;
/* update status and timing */
update_status_time();
/* path trace */
foreach(Tile& tile, tile_manager.state.tiles)
path_trace(tile);
/* update status and timing */
update_status_time();
if(!params.background)
need_tonemap = true;
}
device->task_wait();
{
thread_scoped_lock reset_lock(delayed_reset.mutex);
thread_scoped_lock buffers_lock(buffers->mutex);
thread_scoped_lock display_lock(display->mutex);
if(delayed_reset.do_reset) {
/* reset rendering if request from main thread */
delayed_reset.do_reset = false;
reset_(delayed_reset.w, delayed_reset.h, delayed_reset.samples);
}
else if(need_tonemap) {
/* tonemap only if we do not reset, we don't we don't
want to show the result of an incomplete sample*/
tonemap();
}
}
progress.set_update();
}
}
void Session::run()
{
/* load kernels */
progress.set_status("Loading render kernels (may take a few minutes the first time)");
if(!device->load_kernels()) {
progress.set_status("Failed loading render kernel, see console for errors");
progress.set_update();
return;
}
/* session thread loop */
progress.set_status("Waiting for render to start");
/* run */
if(!progress.get_cancel()) {
if(device_use_gl)
run_gpu();
else
run_cpu();
}
/* progress update */
if(progress.get_cancel())
progress.set_status(progress.get_cancel_message());
else
progress.set_update();
}
bool Session::draw(int w, int h)
{
if(device_use_gl)
return draw_gpu(w, h);
else
return draw_cpu(w, h);
}
void Session::reset_(int w, int h, int samples)
{
if(w != buffers->width || h != buffers->height) {
gpu_draw_ready = false;
buffers->reset(device, w, h);
display->reset(device, w, h);
}
tile_manager.reset(w, h, samples);
start_time = time_dt();
preview_time = 0.0;
paused_time = 0.0;
sample = 0;
}
void Session::reset(int w, int h, int samples)
{
if(device_use_gl)
reset_gpu(w, h, samples);
else
reset_cpu(w, h, samples);
}
void Session::set_samples(int samples)
{
if(samples != params.samples) {
params.samples = samples;
tile_manager.set_samples(samples);
{
thread_scoped_lock pause_lock(pause_mutex);
}
pause_cond.notify_all();
}
}
void Session::set_pause(bool pause_)
{
bool notify = false;
{
thread_scoped_lock pause_lock(pause_mutex);
if(pause != pause_) {
pause = pause_;
notify = true;
}
}
if(notify)
pause_cond.notify_all();
}
void Session::wait()
{
session_thread->join();
delete session_thread;
session_thread = NULL;
}
void Session::update_scene()
{
thread_scoped_lock scene_lock(scene->mutex);
progress.set_status("Updating Scene");
/* update camera if dimensions changed for progressive render */
Camera *cam = scene->camera;
int w = tile_manager.state.width;
int h = tile_manager.state.height;
if(cam->width != w || cam->height != h) {
cam->width = w;
cam->height = h;
cam->tag_update();
}
/* update scene */
if(scene->need_update())
scene->device_update(device, progress);
}
void Session::update_status_time(bool show_pause, bool show_done)
{
int sample = tile_manager.state.sample;
int resolution = tile_manager.state.resolution;
/* update status */
string status, substatus;
if(!params.progressive)
substatus = "Path Tracing";
else if(params.samples == INT_MAX)
substatus = string_printf("Path Tracing Sample %d", sample+1);
else
substatus = string_printf("Path Tracing Sample %d/%d", sample+1, params.samples);
if(show_pause)
status = "Paused";
else if(show_done)
status = "Done";
else
status = "Rendering";
progress.set_status(status, substatus);
/* update timing */
if(preview_time == 0.0 && resolution == 1)
preview_time = time_dt();
double total_time = time_dt() - start_time - paused_time;
double sample_time = (sample == 0)? 0.0: (time_dt() - preview_time - paused_time)/(sample);
/* negative can happen when we pause a bit before rendering, can discard that */
if(total_time < 0.0) total_time = 0.0;
if(preview_time < 0.0) preview_time = 0.0;
progress.set_sample(sample + 1, total_time, sample_time);
}
void Session::path_trace(Tile& tile)
{
/* add path trace task */
DeviceTask task(DeviceTask::PATH_TRACE);
task.x = tile.x;
task.y = tile.y;
task.w = tile.w;
task.h = tile.h;
task.buffer = buffers->buffer.device_pointer;
task.rng_state = buffers->rng_state.device_pointer;
task.sample = tile_manager.state.sample;
task.resolution = tile_manager.state.resolution;
device->task_add(task);
}
void Session::tonemap()
{
/* add tonemap task */
DeviceTask task(DeviceTask::TONEMAP);
task.x = 0;
task.y = 0;
task.w = tile_manager.state.width;
task.h = tile_manager.state.height;
task.rgba = display->rgba.device_pointer;
task.buffer = buffers->buffer.device_pointer;
task.sample = tile_manager.state.sample;
task.resolution = tile_manager.state.resolution;
if(task.w > 0 && task.h > 0) {
device->task_add(task);
device->task_wait();
/* set display to new size */
display->draw_set(task.w, task.h);
}
display_outdated = false;
}
CCL_NAMESPACE_END