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overte-HifiExperiments/interface/src/Application_render.cpp
Anthony J. Thibault a2a6cd0c7a Reduce present traffic on main thread event queue. 
In an effort to diagnose the root cause of several deadlocks,
it seems possible that the main thread event queue can grow
to a size where it can take many seconds to drain.

This PR attempts to address this in two ways:
  * Change the connection between the DisplayPlugin::presented signal and
    the Application::onPresent slot to be a DirectConnection.  This should
    prevent the main thread from filling up with signal events.
  * Within Applicaiton::onPresent use an atomic counter to prevent the main
    thread from filling up with repeated Idle events.
2017-10-13 14:28:23 -07:00

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//
// Application_render.cpp
// interface/src
//
// Copyright 2013 High Fidelity, Inc.
//
// Distributed under the Apache License, Version 2.0.
// See the accompanying file LICENSE or http://www.apache.org/licenses/LICENSE-2.0.html
//
#include "Application.h"
#include <MainWindow.h>
#include <display-plugins/CompositorHelper.h>
#include <FramebufferCache.h>
#include "ui/Stats.h"
#include <SceneScriptingInterface.h>
#include "Util.h"
// Statically provided display and input plugins
extern DisplayPluginList getDisplayPlugins();
void Application::editRenderArgs(RenderArgsEditor editor) {
QMutexLocker renderLocker(&_renderArgsMutex);
editor(_appRenderArgs);
}
void Application::paintGL() {
// Some plugins process message events, allowing paintGL to be called reentrantly.
if (_aboutToQuit || _window->isMinimized()) {
return;
}
_renderFrameCount++;
_lastTimeRendered.start();
auto lastPaintBegin = usecTimestampNow();
PROFILE_RANGE_EX(render, __FUNCTION__, 0xff0000ff, (uint64_t)_renderFrameCount);
PerformanceTimer perfTimer("paintGL");
if (nullptr == _displayPlugin) {
return;
}
DisplayPluginPointer displayPlugin;
{
PROFILE_RANGE(render, "/getActiveDisplayPlugin");
displayPlugin = getActiveDisplayPlugin();
}
{
PROFILE_RANGE(render, "/pluginBeginFrameRender");
// If a display plugin loses it's underlying support, it
// needs to be able to signal us to not use it
if (!displayPlugin->beginFrameRender(_renderFrameCount)) {
updateDisplayMode();
return;
}
}
RenderArgs renderArgs;
glm::mat4 HMDSensorPose;
glm::mat4 eyeToWorld;
glm::mat4 sensorToWorld;
bool isStereo;
glm::mat4 stereoEyeOffsets[2];
glm::mat4 stereoEyeProjections[2];
{
QMutexLocker viewLocker(&_renderArgsMutex);
renderArgs = _appRenderArgs._renderArgs;
// don't render if there is no context.
if (!_appRenderArgs._renderArgs._context) {
return;
}
HMDSensorPose = _appRenderArgs._headPose;
eyeToWorld = _appRenderArgs._eyeToWorld;
sensorToWorld = _appRenderArgs._sensorToWorld;
isStereo = _appRenderArgs._isStereo;
for_each_eye([&](Eye eye) {
stereoEyeOffsets[eye] = _appRenderArgs._eyeOffsets[eye];
stereoEyeProjections[eye] = _appRenderArgs._eyeProjections[eye];
});
}
{
PROFILE_RANGE(render, "/gpuContextReset");
_gpuContext->beginFrame(HMDSensorPose);
// Reset the gpu::Context Stages
// Back to the default framebuffer;
gpu::doInBatch(_gpuContext, [&](gpu::Batch& batch) {
batch.resetStages();
});
}
{
PROFILE_RANGE(render, "/renderOverlay");
PerformanceTimer perfTimer("renderOverlay");
// NOTE: There is no batch associated with this renderArgs
// the ApplicationOverlay class assumes it's viewport is setup to be the device size
QSize size = getDeviceSize();
renderArgs._viewport = glm::ivec4(0, 0, size.width(), size.height());
_applicationOverlay.renderOverlay(&renderArgs);
}
{
PROFILE_RANGE(render, "/updateCompositor");
getApplicationCompositor().setFrameInfo(_renderFrameCount, eyeToWorld, sensorToWorld);
}
gpu::FramebufferPointer finalFramebuffer;
QSize finalFramebufferSize;
{
PROFILE_RANGE(render, "/getOutputFramebuffer");
// Primary rendering pass
auto framebufferCache = DependencyManager::get<FramebufferCache>();
finalFramebufferSize = framebufferCache->getFrameBufferSize();
// Final framebuffer that will be handled to the display-plugin
finalFramebuffer = framebufferCache->getFramebuffer();
}
{
if (isStereo) {
renderArgs._context->enableStereo(true);
renderArgs._context->setStereoProjections(stereoEyeProjections);
renderArgs._context->setStereoViews(stereoEyeOffsets);
}
renderArgs._hudOperator = displayPlugin->getHUDOperator();
renderArgs._hudTexture = _applicationOverlay.getOverlayTexture();
renderArgs._blitFramebuffer = finalFramebuffer;
runRenderFrame(&renderArgs);
}
auto frame = _gpuContext->endFrame();
frame->frameIndex = _renderFrameCount;
frame->framebuffer = finalFramebuffer;
frame->framebufferRecycler = [](const gpu::FramebufferPointer& framebuffer) {
DependencyManager::get<FramebufferCache>()->releaseFramebuffer(framebuffer);
};
// deliver final scene rendering commands to the display plugin
{
PROFILE_RANGE(render, "/pluginOutput");
PerformanceTimer perfTimer("pluginOutput");
_renderLoopCounter.increment();
displayPlugin->submitFrame(frame);
}
// Reset the framebuffer and stereo state
renderArgs._blitFramebuffer.reset();
renderArgs._context->enableStereo(false);
{
Stats::getInstance()->setRenderDetails(renderArgs._details);
}
uint64_t lastPaintDuration = usecTimestampNow() - lastPaintBegin;
_frameTimingsScriptingInterface.addValue(lastPaintDuration);
}
// WorldBox Render Data & rendering functions
class WorldBoxRenderData {
public:
typedef render::Payload<WorldBoxRenderData> Payload;
typedef Payload::DataPointer Pointer;
int _val = 0;
static render::ItemID _item; // unique WorldBoxRenderData
};
render::ItemID WorldBoxRenderData::_item{ render::Item::INVALID_ITEM_ID };
namespace render {
template <> const ItemKey payloadGetKey(const WorldBoxRenderData::Pointer& stuff) { return ItemKey::Builder::opaqueShape(); }
template <> const Item::Bound payloadGetBound(const WorldBoxRenderData::Pointer& stuff) { return Item::Bound(); }
template <> void payloadRender(const WorldBoxRenderData::Pointer& stuff, RenderArgs* args) {
if (Menu::getInstance()->isOptionChecked(MenuOption::WorldAxes)) {
PerformanceTimer perfTimer("worldBox");
auto& batch = *args->_batch;
DependencyManager::get<GeometryCache>()->bindSimpleProgram(batch);
renderWorldBox(args, batch);
}
}
}
void Application::runRenderFrame(RenderArgs* renderArgs) {
PROFILE_RANGE(render, __FUNCTION__);
PerformanceTimer perfTimer("display");
PerformanceWarning warn(Menu::getInstance()->isOptionChecked(MenuOption::PipelineWarnings), "Application::runRenderFrame()");
// The pending changes collecting the changes here
render::Transaction transaction;
if (DependencyManager::get<SceneScriptingInterface>()->shouldRenderEntities()) {
// render models...
PerformanceTimer perfTimer("entities");
PerformanceWarning warn(Menu::getInstance()->isOptionChecked(MenuOption::PipelineWarnings),
"Application::runRenderFrame() ... entities...");
RenderArgs::DebugFlags renderDebugFlags = RenderArgs::RENDER_DEBUG_NONE;
if (Menu::getInstance()->isOptionChecked(MenuOption::PhysicsShowHulls)) {
renderDebugFlags = static_cast<RenderArgs::DebugFlags>(renderDebugFlags |
static_cast<int>(RenderArgs::RENDER_DEBUG_HULLS));
}
renderArgs->_debugFlags = renderDebugFlags;
}
// Make sure the WorldBox is in the scene
// For the record, this one RenderItem is the first one we created and added to the scene.
// We could meoee that code elsewhere but you know...
if (!render::Item::isValidID(WorldBoxRenderData::_item)) {
auto worldBoxRenderData = std::make_shared<WorldBoxRenderData>();
auto worldBoxRenderPayload = std::make_shared<WorldBoxRenderData::Payload>(worldBoxRenderData);
WorldBoxRenderData::_item = _main3DScene->allocateID();
transaction.resetItem(WorldBoxRenderData::_item, worldBoxRenderPayload);
_main3DScene->enqueueTransaction(transaction);
}
{
PerformanceTimer perfTimer("EngineRun");
_renderEngine->getRenderContext()->args = renderArgs;
_renderEngine->run();
}
}
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