bool RenderableZoneEntityItem::addToScene(EntityItemPointer self, std::shared_ptr<render::Scene> scene,
render::PendingChanges& pendingChanges) {
_myMetaItem = scene->allocateID();
auto renderData = std::make_shared<RenderableZoneEntityItemMeta>(self);
auto renderPayload = std::make_shared<RenderableZoneEntityItemMeta::Payload>(renderData);
render::Item::Status::Getters statusGetters;
makeEntityItemStatusGetters(getThisPointer(), statusGetters);
renderPayload->addStatusGetters(statusGetters);
pendingChanges.resetItem(_myMetaItem, renderPayload);
return true;
}
bool RenderableLightEntityItem::addToScene(const EntityItemPointer& self, const render::ScenePointer& scene, render::Transaction& transaction) {
_myItem = scene->allocateID();
auto renderItem = std::make_shared<LightPayload>();
updateRenderItemFromEntity((*renderItem));
auto renderPayload = std::make_shared<LightPayload::Payload>(renderItem);
render::Item::Status::Getters statusGetters;
makeEntityItemStatusGetters(self, statusGetters);
renderPayload->addStatusGetters(statusGetters);
transaction.resetItem(_myItem, renderPayload);
return true;
}
bool RenderableZoneEntityItem::addToScene(const EntityItemPointer& self, const render::ScenePointer& scene,
render::Transaction& transaction) {
_myMetaItem = scene->allocateID();
auto renderData = std::make_shared<RenderableZoneEntityItemMeta>(self);
auto renderPayload = std::make_shared<RenderableZoneEntityItemMeta::Payload>(renderData);
updateKeyZoneItemFromEntity((*renderData));
updateKeySunFromEntity((*renderData));
updateKeyAmbientFromEntity((*renderData));
updateKeyBackgroundFromEntity((*renderData));
render::Item::Status::Getters statusGetters;
makeEntityItemStatusGetters(getThisPointer(), statusGetters);
renderPayload->addStatusGetters(statusGetters);
transaction.resetItem(_myMetaItem, renderPayload);
return true;
}
bool RenderableModelEntityItem::addToScene(EntityItemPointer self, std::shared_ptr<render::Scene> scene,
render::PendingChanges& pendingChanges) {
_myMetaItem = scene->allocateID();
auto renderData = std::make_shared<RenderableModelEntityItemMeta>(self);
auto renderPayload = std::make_shared<RenderableModelEntityItemMeta::Payload>(renderData);
pendingChanges.resetItem(_myMetaItem, renderPayload);
if (_model) {
render::Item::Status::Getters statusGetters;
makeEntityItemStatusGetters(getThisPointer(), statusGetters);
// note: we don't care if the model fails to add items, we always added our meta item and therefore we return
// true so that the system knows our meta item is in the scene!
_model->addToScene(scene, pendingChanges, statusGetters, _showCollisionHull);
}
return true;
}
void RenderableZoneEntityItem::render(RenderArgs* args) {
Q_ASSERT(getType() == EntityTypes::Zone);
if (_drawZoneBoundaries) {
switch (getShapeType()) {
case SHAPE_TYPE_COMPOUND: {
PerformanceTimer perfTimer("zone->renderCompound");
updateGeometry();
if (_model && _model->needsFixupInScene()) {
// check to see if when we added our models to the scene they were ready, if they were not ready, then
// fix them up in the scene
render::ScenePointer scene = AbstractViewStateInterface::instance()->getMain3DScene();
render::Transaction transaction;
_model->removeFromScene(scene, transaction);
render::Item::Status::Getters statusGetters;
makeEntityItemStatusGetters(getThisPointer(), statusGetters);
_model->addToScene(scene, transaction);
scene->enqueueTransaction(transaction);
_model->setVisibleInScene(getVisible(), scene);
}
break;
}
case SHAPE_TYPE_BOX:
case SHAPE_TYPE_SPHERE: {
PerformanceTimer perfTimer("zone->renderPrimitive");
glm::vec4 DEFAULT_COLOR(1.0f, 1.0f, 1.0f, 1.0f);
Q_ASSERT(args->_batch);
gpu::Batch& batch = *args->_batch;
bool success;
auto shapeTransform = getTransformToCenter(success);
if (!success) {
break;
}
auto geometryCache = DependencyManager::get<GeometryCache>();
if (getShapeType() == SHAPE_TYPE_SPHERE) {
shapeTransform.postScale(SPHERE_ENTITY_SCALE);
batch.setModelTransform(shapeTransform);
geometryCache->renderWireSphereInstance(args, batch, DEFAULT_COLOR);
} else {
batch.setModelTransform(shapeTransform);
geometryCache->renderWireCubeInstance(args, batch, DEFAULT_COLOR);
}
break;
}
default:
// Not handled
break;
}
}
if ((!_drawZoneBoundaries || getShapeType() != SHAPE_TYPE_COMPOUND) &&
_model && !_model->needsFixupInScene()) {
// If the model is in the scene but doesn't need to be, remove it.
render::ScenePointer scene = AbstractViewStateInterface::instance()->getMain3DScene();
render::Transaction transaction;
_model->removeFromScene(scene, transaction);
scene->enqueueTransaction(transaction);
}
}
// NOTE: this only renders the "meta" portion of the Model, namely it renders debugging items, and it handles
// the per frame simulation/update that might be required if the models properties changed.
void RenderableModelEntityItem::render(RenderArgs* args) {
PerformanceTimer perfTimer("RMEIrender");
assert(getType() == EntityTypes::Model);
if (hasModel()) {
if (_model) {
// check if the URL has changed
auto& currentURL = getParsedModelURL();
if (currentURL != _model->getURL()) {
qCDebug(entitiesrenderer).noquote() << "Updating model URL: " << currentURL.toDisplayString();
_model->setURL(currentURL);
}
render::ScenePointer scene = AbstractViewStateInterface::instance()->getMain3DScene();
// check to see if when we added our models to the scene they were ready, if they were not ready, then
// fix them up in the scene
bool shouldShowCollisionHull = (args->_debugFlags & (int)RenderArgs::RENDER_DEBUG_HULLS) > 0;
if (_model->needsFixupInScene() || _showCollisionHull != shouldShowCollisionHull) {
_showCollisionHull = shouldShowCollisionHull;
render::PendingChanges pendingChanges;
_model->removeFromScene(scene, pendingChanges);
render::Item::Status::Getters statusGetters;
makeEntityItemStatusGetters(getThisPointer(), statusGetters);
_model->addToScene(scene, pendingChanges, statusGetters, _showCollisionHull);
scene->enqueuePendingChanges(pendingChanges);
}
// FIXME: this seems like it could be optimized if we tracked our last known visible state in
// the renderable item. As it stands now the model checks it's visible/invisible state
// so most of the time we don't do anything in this function.
_model->setVisibleInScene(getVisible(), scene);
}
remapTextures();
{
// float alpha = getLocalRenderAlpha();
if (!_model || _needsModelReload) {
// TODO: this getModel() appears to be about 3% of model render time. We should optimize
PerformanceTimer perfTimer("getModel");
EntityTreeRenderer* renderer = static_cast<EntityTreeRenderer*>(args->_renderer);
getModel(renderer);
}
if (_model) {
if (hasAnimation()) {
if (!jointsMapped()) {
QStringList modelJointNames = _model->getJointNames();
mapJoints(modelJointNames);
}
}
_jointDataLock.withWriteLock([&] {
getAnimationFrame();
// relay any inbound joint changes from scripts/animation/network to the model/rig
for (int index = 0; index < _absoluteJointRotationsInObjectFrame.size(); index++) {
if (_absoluteJointRotationsInObjectFrameDirty[index]) {
glm::quat rotation = _absoluteJointRotationsInObjectFrame[index];
_model->setJointRotation(index, true, rotation, 1.0f);
_absoluteJointRotationsInObjectFrameDirty[index] = false;
}
}
for (int index = 0; index < _absoluteJointTranslationsInObjectFrame.size(); index++) {
if (_absoluteJointTranslationsInObjectFrameDirty[index]) {
glm::vec3 translation = _absoluteJointTranslationsInObjectFrame[index];
_model->setJointTranslation(index, true, translation, 1.0f);
_absoluteJointTranslationsInObjectFrameDirty[index] = false;
}
}
});
bool movingOrAnimating = isMoving() || isAnimatingSomething();
if ((movingOrAnimating ||
_needsInitialSimulation ||
_model->getTranslation() != getPosition() ||
_model->getRotation() != getRotation() ||
_model->getRegistrationPoint() != getRegistrationPoint())
&& _model->isActive() && _dimensionsInitialized) {
_model->setScaleToFit(true, getDimensions());
_model->setSnapModelToRegistrationPoint(true, getRegistrationPoint());
_model->setRotation(getRotation());
_model->setTranslation(getPosition());
// make sure to simulate so everything gets set up correctly for rendering
{
PerformanceTimer perfTimer("_model->simulate");
_model->simulate(0.0f);
}
_needsInitialSimulation = false;
}
}
}
} else {
static glm::vec4 greenColor(0.0f, 1.0f, 0.0f, 1.0f);
gpu::Batch& batch = *args->_batch;
bool success;
auto shapeTransform = getTransformToCenter(success);
if (success) {
batch.setModelTransform(Transform()); // we want to include the scale as well
DependencyManager::get<GeometryCache>()->renderWireCubeInstance(batch, shapeTransform, greenColor);
}
}
}
// NOTE: this only renders the "meta" portion of the Model, namely it renders debugging items, and it handles
// the per frame simulation/update that might be required if the models properties changed.
void RenderableModelEntityItem::render(RenderArgs* args) {
PerformanceTimer perfTimer("RMEIrender");
assert(getType() == EntityTypes::Model);
if (hasModel()) {
// Prepare the current frame
{
if (!_model || _needsModelReload) {
// TODO: this getModel() appears to be about 3% of model render time. We should optimize
PerformanceTimer perfTimer("getModel");
EntityTreeRenderer* renderer = static_cast<EntityTreeRenderer*>(args->_renderer);
getModel(renderer);
// Remap textures immediately after loading to avoid flicker
remapTextures();
}
if (_model) {
if (hasRenderAnimation()) {
if (!jointsMapped()) {
QStringList modelJointNames = _model->getJointNames();
mapJoints(modelJointNames);
}
}
_jointDataLock.withWriteLock([&] {
getAnimationFrame();
// relay any inbound joint changes from scripts/animation/network to the model/rig
for (int index = 0; index < _absoluteJointRotationsInObjectFrame.size(); index++) {
if (_absoluteJointRotationsInObjectFrameDirty[index]) {
glm::quat rotation = _absoluteJointRotationsInObjectFrame[index];
_model->setJointRotation(index, true, rotation, 1.0f);
_absoluteJointRotationsInObjectFrameDirty[index] = false;
}
}
for (int index = 0; index < _absoluteJointTranslationsInObjectFrame.size(); index++) {
if (_absoluteJointTranslationsInObjectFrameDirty[index]) {
glm::vec3 translation = _absoluteJointTranslationsInObjectFrame[index];
_model->setJointTranslation(index, true, translation, 1.0f);
_absoluteJointTranslationsInObjectFrameDirty[index] = false;
}
}
});
updateModelBounds();
}
}
// Enqueue updates for the next frame
if (_model) {
render::ScenePointer scene = AbstractViewStateInterface::instance()->getMain3DScene();
// FIXME: this seems like it could be optimized if we tracked our last known visible state in
// the renderable item. As it stands now the model checks it's visible/invisible state
// so most of the time we don't do anything in this function.
_model->setVisibleInScene(getVisible(), scene);
// Remap textures for the next frame to avoid flicker
remapTextures();
// check to see if when we added our models to the scene they were ready, if they were not ready, then
// fix them up in the scene
bool shouldShowCollisionHull = (args->_debugFlags & (int)RenderArgs::RENDER_DEBUG_HULLS) > 0;
if (_model->needsFixupInScene() || _showCollisionHull != shouldShowCollisionHull) {
_showCollisionHull = shouldShowCollisionHull;
render::PendingChanges pendingChanges;
_model->removeFromScene(scene, pendingChanges);
render::Item::Status::Getters statusGetters;
makeEntityItemStatusGetters(getThisPointer(), statusGetters);
_model->addToScene(scene, pendingChanges, statusGetters, _showCollisionHull);
scene->enqueuePendingChanges(pendingChanges);
}
auto& currentURL = getParsedModelURL();
if (currentURL != _model->getURL()) {
// Defer setting the url to the render thread
getModel(_myRenderer);
}
}
} else {
static glm::vec4 greenColor(0.0f, 1.0f, 0.0f, 1.0f);
gpu::Batch& batch = *args->_batch;
bool success;
auto shapeTransform = getTransformToCenter(success);
if (success) {
batch.setModelTransform(shapeTransform); // we want to include the scale as well
DependencyManager::get<GeometryCache>()->renderWireCubeInstance(batch, greenColor);
}
}
}
// NOTE: this only renders the "meta" portion of the Model, namely it renders debugging items, and it handles
// the per frame simulation/update that might be required if the models properties changed.
void RenderableModelEntityItem::render(RenderArgs* args) {
PerformanceTimer perfTimer("RMEIrender");
assert(getType() == EntityTypes::Model);
if (hasModel()) {
if (_model) {
if (getModelURL() != _model->getURL().toString()) {
qDebug() << "Updating model URL: " << getModelURL();
_model->setURL(getModelURL());
}
render::ScenePointer scene = AbstractViewStateInterface::instance()->getMain3DScene();
// check to see if when we added our models to the scene they were ready, if they were not ready, then
// fix them up in the scene
if (_model->needsFixupInScene()) {
render::PendingChanges pendingChanges;
_model->removeFromScene(scene, pendingChanges);
render::Item::Status::Getters statusGetters;
makeEntityItemStatusGetters(this, statusGetters);
_model->addToScene(scene, pendingChanges, statusGetters);
scene->enqueuePendingChanges(pendingChanges);
}
// FIXME: this seems like it could be optimized if we tracked our last known visible state in
// the renderable item. As it stands now the model checks it's visible/invisible state
// so most of the time we don't do anything in this function.
_model->setVisibleInScene(getVisible(), scene);
}
remapTextures();
{
// float alpha = getLocalRenderAlpha();
if (!_model || _needsModelReload) {
// TODO: this getModel() appears to be about 3% of model render time. We should optimize
PerformanceTimer perfTimer("getModel");
EntityTreeRenderer* renderer = static_cast<EntityTreeRenderer*>(args->_renderer);
getModel(renderer);
}
if (_model) {
// handle animations..
if (hasAnimation()) {
if (!jointsMapped()) {
QStringList modelJointNames = _model->getJointNames();
mapJoints(modelJointNames);
}
if (jointsMapped()) {
bool newFrame;
QVector<glm::quat> frameDataRotations;
QVector<glm::vec3> frameDataTranslations;
getAnimationFrame(newFrame, frameDataRotations, frameDataTranslations);
assert(frameDataRotations.size() == frameDataTranslations.size());
if (newFrame) {
for (int i = 0; i < frameDataRotations.size(); i++) {
_model->setJointState(i, true, frameDataRotations[i], frameDataTranslations[i], 1.0f);
}
}
}
}
bool movingOrAnimating = isMoving() || isAnimatingSomething();
if ((movingOrAnimating || _needsInitialSimulation) && _model->isActive() && _dimensionsInitialized) {
_model->setScaleToFit(true, getDimensions());
_model->setSnapModelToRegistrationPoint(true, getRegistrationPoint());
_model->setRotation(getRotation());
_model->setTranslation(getPosition());
// make sure to simulate so everything gets set up correctly for rendering
{
PerformanceTimer perfTimer("_model->simulate");
_model->simulate(0.0f);
}
_needsInitialSimulation = false;
}
}
}
} else {
glm::vec4 greenColor(0.0f, 1.0f, 0.0f, 1.0f);
RenderableDebugableEntityItem::renderBoundingBox(this, args, 0.0f, greenColor);
}
RenderableDebugableEntityItem::render(this, args);
}
