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Merge remote-tracking branch 'upstream/master' into overlay

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This commit is contained in:
Brad Davis 2015-06-19 14:48:38 -07:00
commit cc6b589ae5
17 changed files with 704 additions and 706 deletions
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25
examples/utilities/tools/cookies.js
View file

@ -120,6 +120,23 @@ Slider = function(x,y,width,thumbSize) {
this.onValueChanged = function(value) {};
this.setMaxValue = function(maxValue) {
if (this.maxValue == maxValue) {
return;
}
var currentVal = this.getValue();
this.maxValue = maxValue;
this.setValue(currentVal);
}
this.setMinValue = function(minValue) {
if (this.minValue == minValue) {
return;
}
var currentVal = this.getValue();
this.minValue = minValue;
this.setValue(currentVal);
}
this.destroy = function() {
Overlays.deleteOverlay(this.background);
Overlays.deleteOverlay(this.thumb);
@ -613,6 +630,14 @@ Panel = function(x, y) {
return null;
}
this.getWidget = function(name) {
var item = this.items[name];
if (item != null) {
return item.widget;
}
return null;
}
this.update = function(name) {
var item = this.items[name];
if (item != null) {

85
examples/utilities/tools/renderEngineDebug.js
View file

@ -10,25 +10,7 @@
Script.include("cookies.js");
var panel = new Panel(10, 400);
panel.newCheckbox("Enable Cull Opaque",
function(value) { Scene.setEngineCullOpaque((value != 0)); },
function() { return Scene.doEngineCullOpaque(); },
function(value) { return (value); }
);
panel.newCheckbox("Enable Sort Opaque",
function(value) { Scene.setEngineSortOpaque((value != 0)); },
function() { return Scene.doEngineSortOpaque(); },
function(value) { return (value); }
);
panel.newCheckbox("Enable Render Opaque",
function(value) { Scene.setEngineRenderOpaque((value != 0)); },
function() { return Scene.doEngineRenderOpaque(); },
function(value) { return (value); }
);
var panel = new Panel(10, 800);
panel.newSlider("Num Feed Opaques", 0, 1000,
function(value) { },
@ -48,24 +30,6 @@ panel.newSlider("Max Drawn Opaques", -1, 1000,
function(value) { return (value); }
);
panel.newCheckbox("Enable Cull Transparent",
function(value) { Scene.setEngineCullTransparent((value != 0)); },
function() { return Scene.doEngineCullTransparent(); },
function(value) { return (value); }
);
panel.newCheckbox("Enable Sort Transparent",
function(value) { Scene.setEngineSortTransparent((value != 0)); },
function() { return Scene.doEngineSortTransparent(); },
function(value) { return (value); }
);
panel.newCheckbox("Enable Render Transparent",
function(value) { Scene.setEngineRenderTransparent((value != 0)); },
function() { return Scene.doEngineRenderTransparent(); },
function(value) { return (value); }
);
panel.newSlider("Num Feed Transparents", 0, 100,
function(value) { },
function() { return Scene.getEngineNumFeedTransparentItems(); },
@ -84,13 +48,52 @@ panel.newSlider("Max Drawn Transparents", -1, 100,
function(value) { return (value); }
);
panel.newSlider("Num Feed Overlay3Ds", 0, 100,
function(value) { },
function() { return Scene.getEngineNumFeedOverlay3DItems(); },
function(value) { return (value); }
);
panel.newSlider("Num Drawn Overlay3Ds", 0, 100,
function(value) { },
function() { return Scene.getEngineNumDrawnOverlay3DItems(); },
function(value) { return (value); }
);
panel.newSlider("Max Drawn Overlay3Ds", -1, 100,
function(value) { Scene.setEngineMaxDrawnOverlay3DItems(value); },
function() { return Scene.getEngineMaxDrawnOverlay3DItems(); },
function(value) { return (value); }
);
var tickTackPeriod = 500;
function updateCounters() {
panel.set("Num Feed Opaques", panel.get("Num Feed Opaques"));
panel.set("Num Drawn Opaques", panel.get("Num Drawn Opaques"));
panel.set("Num Feed Transparents", panel.get("Num Feed Transparents"));
panel.set("Num Drawn Transparents", panel.get("Num Drawn Transparents"));
var numFeedOpaques = panel.get("Num Feed Opaques");
var numFeedTransparents = panel.get("Num Feed Transparents");
var numFeedOverlay3Ds = panel.get("Num Feed Overlay3Ds");
panel.set("Num Feed Opaques", numFeedOpaques);
panel.set("Num Drawn Opaques", panel.get("Num Drawn Opaques"));
panel.set("Num Feed Transparents", numFeedTransparents);
panel.set("Num Drawn Transparents", panel.get("Num Drawn Transparents"));
panel.set("Num Feed Overlay3Ds", numFeedOverlay3Ds);
panel.set("Num Drawn Overlay3Ds", panel.get("Num Drawn Overlay3Ds"));
var numMax = Math.max(numFeedOpaques * 1.2, 1);
panel.getWidget("Num Feed Opaques").setMaxValue(numMax);
panel.getWidget("Num Drawn Opaques").setMaxValue(numMax);
panel.getWidget("Max Drawn Opaques").setMaxValue(numMax);
numMax = Math.max(numFeedTransparents * 1.2, 1);
panel.getWidget("Num Feed Transparents").setMaxValue(numMax);
panel.getWidget("Num Drawn Transparents").setMaxValue(numMax);
panel.getWidget("Max Drawn Transparents").setMaxValue(numMax);
numMax = Math.max(numFeedOverlay3Ds * 1.2, 1);
panel.getWidget("Num Feed Overlay3Ds").setMaxValue(numMax);
panel.getWidget("Num Drawn Overlay3Ds").setMaxValue(numMax);
panel.getWidget("Max Drawn Overlay3Ds").setMaxValue(numMax);
}
Script.setInterval(updateCounters, tickTackPeriod);

5
interface/src/Application.cpp
View file

@ -3476,6 +3476,7 @@ void Application::displaySide(RenderArgs* renderArgs, Camera& theCamera, bool se
renderContext._maxDrawnOpaqueItems = sceneInterface->getEngineMaxDrawnOpaqueItems();
renderContext._maxDrawnTransparentItems = sceneInterface->getEngineMaxDrawnTransparentItems();
renderContext._maxDrawnOverlay3DItems = sceneInterface->getEngineMaxDrawnOverlay3DItems();
renderArgs->_shouldRender = LODManager::shouldRender;
@ -3492,7 +3493,9 @@ void Application::displaySide(RenderArgs* renderArgs, Camera& theCamera, bool se
sceneInterface->setEngineFeedTransparentItems(engineRC->_numFeedTransparentItems);
sceneInterface->setEngineDrawnTransparentItems(engineRC->_numDrawnTransparentItems);
sceneInterface->setEngineFeedOverlay3DItems(engineRC->_numFeedOverlay3DItems);
sceneInterface->setEngineDrawnOverlay3DItems(engineRC->_numDrawnOverlay3DItems);
}
//Render the sixense lasers
if (Menu::getInstance()->isOptionChecked(MenuOption::SixenseLasers)) {

356
interface/src/ui/overlays/Circle3DOverlay.cpp
View file

@ -11,6 +11,7 @@
// include this before QGLWidget, which includes an earlier version of OpenGL
#include "InterfaceConfig.h"
#include <DeferredLightingEffect.h>
#include <GeometryCache.h>
#include <GlowEffect.h>
#include <SharedUtil.h>
@ -101,206 +102,185 @@ void Circle3DOverlay::render(RenderArgs* args) {
bool colorChanged = colorX.red != _lastColor.red || colorX.green != _lastColor.green || colorX.blue != _lastColor.blue;
_lastColor = colorX;
glDisable(GL_LIGHTING);
glm::vec3 position = getPosition();
glm::vec3 center = getCenter();
glm::vec2 dimensions = getDimensions();
glm::quat rotation = getRotation();
float glowLevel = getGlowLevel();
Glower* glower = NULL;
if (glowLevel > 0.0f) {
glower = new Glower(glowLevel);
}
glPushMatrix();
glTranslatef(position.x, position.y, position.z);
glm::vec3 axis = glm::axis(rotation);
glRotatef(glm::degrees(glm::angle(rotation)), axis.x, axis.y, axis.z);
glPushMatrix();
glm::vec3 positionToCenter = center - position;
glTranslatef(positionToCenter.x, positionToCenter.y, positionToCenter.z);
glScalef(dimensions.x / 2.0f, dimensions.y / 2.0f, 1.0f);
glLineWidth(_lineWidth);
auto geometryCache = DependencyManager::get<GeometryCache>();
// for our overlay, is solid means we draw a ring between the inner and outer radius of the circle, otherwise
// we just draw a line...
if (getIsSolid()) {
if (_quadVerticesID == GeometryCache::UNKNOWN_ID) {
_quadVerticesID = geometryCache->allocateID();
}
if (geometryChanged || colorChanged) {
QVector<glm::vec2> points;
float angle = startAt;
float angleInRadians = glm::radians(angle);
glm::vec2 firstInnerPoint(cosf(angleInRadians) * innerRadius, sinf(angleInRadians) * innerRadius);
glm::vec2 firstOuterPoint(cosf(angleInRadians) * outerRadius, sinf(angleInRadians) * outerRadius);
points << firstInnerPoint << firstOuterPoint;
while (angle < endAt) {
angleInRadians = glm::radians(angle);
glm::vec2 thisInnerPoint(cosf(angleInRadians) * innerRadius, sinf(angleInRadians) * innerRadius);
glm::vec2 thisOuterPoint(cosf(angleInRadians) * outerRadius, sinf(angleInRadians) * outerRadius);
points << thisOuterPoint << thisInnerPoint;
angle += SLICE_ANGLE;
}
// get the last slice portion....
angle = endAt;
angleInRadians = glm::radians(angle);
glm::vec2 lastInnerPoint(cosf(angleInRadians) * innerRadius, sinf(angleInRadians) * innerRadius);
glm::vec2 lastOuterPoint(cosf(angleInRadians) * outerRadius, sinf(angleInRadians) * outerRadius);
points << lastOuterPoint << lastInnerPoint;
geometryCache->updateVertices(_quadVerticesID, points, color);
}
geometryCache->renderVertices(gpu::QUAD_STRIP, _quadVerticesID);
} else {
if (_lineVerticesID == GeometryCache::UNKNOWN_ID) {
_lineVerticesID = geometryCache->allocateID();
}
if (geometryChanged || colorChanged) {
QVector<glm::vec2> points;
float angle = startAt;
float angleInRadians = glm::radians(angle);
glm::vec2 firstPoint(cosf(angleInRadians) * outerRadius, sinf(angleInRadians) * outerRadius);
points << firstPoint;
while (angle < endAt) {
angle += SLICE_ANGLE;
angleInRadians = glm::radians(angle);
glm::vec2 thisPoint(cosf(angleInRadians) * outerRadius, sinf(angleInRadians) * outerRadius);
points << thisPoint;
if (getIsDashedLine()) {
angle += SLICE_ANGLE / 2.0f; // short gap
angleInRadians = glm::radians(angle);
glm::vec2 dashStartPoint(cosf(angleInRadians) * outerRadius, sinf(angleInRadians) * outerRadius);
points << dashStartPoint;
}
}
// get the last slice portion....
angle = endAt;
angleInRadians = glm::radians(angle);
glm::vec2 lastPoint(cosf(angleInRadians) * outerRadius, sinf(angleInRadians) * outerRadius);
points << lastPoint;
geometryCache->updateVertices(_lineVerticesID, points, color);
}
auto geometryCache = DependencyManager::get<GeometryCache>();
Transform transform;
transform.setTranslation(getCenter());
transform.setRotation(getRotation());
transform.setScale(glm::vec3(getDimensions(), 0.01f));
auto& batch = *args->_batch;
batch._glLineWidth(_lineWidth);
batch.setModelTransform(transform);
DependencyManager::get<DeferredLightingEffect>()->bindSimpleProgram(batch, false, false);
// for our overlay, is solid means we draw a ring between the inner and outer radius of the circle, otherwise
// we just draw a line...
if (getIsSolid()) {
if (_quadVerticesID == GeometryCache::UNKNOWN_ID) {
_quadVerticesID = geometryCache->allocateID();
}
if (geometryChanged || colorChanged) {
QVector<glm::vec2> points;
float angle = startAt;
float angleInRadians = glm::radians(angle);
glm::vec2 firstInnerPoint(cosf(angleInRadians) * innerRadius, sinf(angleInRadians) * innerRadius);
glm::vec2 firstOuterPoint(cosf(angleInRadians) * outerRadius, sinf(angleInRadians) * outerRadius);
points << firstInnerPoint << firstOuterPoint;
while (angle < endAt) {
angleInRadians = glm::radians(angle);
glm::vec2 thisInnerPoint(cosf(angleInRadians) * innerRadius, sinf(angleInRadians) * innerRadius);
glm::vec2 thisOuterPoint(cosf(angleInRadians) * outerRadius, sinf(angleInRadians) * outerRadius);
points << thisOuterPoint << thisInnerPoint;
angle += SLICE_ANGLE;
}
// get the last slice portion....
angle = endAt;
angleInRadians = glm::radians(angle);
glm::vec2 lastInnerPoint(cosf(angleInRadians) * innerRadius, sinf(angleInRadians) * innerRadius);
glm::vec2 lastOuterPoint(cosf(angleInRadians) * outerRadius, sinf(angleInRadians) * outerRadius);
points << lastOuterPoint << lastInnerPoint;
geometryCache->updateVertices(_quadVerticesID, points, color);
}
geometryCache->renderVertices(batch, gpu::QUAD_STRIP, _quadVerticesID);
} else {
if (_lineVerticesID == GeometryCache::UNKNOWN_ID) {
_lineVerticesID = geometryCache->allocateID();
}
if (geometryChanged || colorChanged) {
QVector<glm::vec2> points;
float angle = startAt;
float angleInRadians = glm::radians(angle);
glm::vec2 firstPoint(cosf(angleInRadians) * outerRadius, sinf(angleInRadians) * outerRadius);
points << firstPoint;
while (angle < endAt) {
angle += SLICE_ANGLE;
angleInRadians = glm::radians(angle);
glm::vec2 thisPoint(cosf(angleInRadians) * outerRadius, sinf(angleInRadians) * outerRadius);
points << thisPoint;
if (getIsDashedLine()) {
geometryCache->renderVertices(gpu::LINES, _lineVerticesID);
} else {
geometryCache->renderVertices(gpu::LINE_STRIP, _lineVerticesID);
angle += SLICE_ANGLE / 2.0f; // short gap
angleInRadians = glm::radians(angle);
glm::vec2 dashStartPoint(cosf(angleInRadians) * outerRadius, sinf(angleInRadians) * outerRadius);
points << dashStartPoint;
}
}
// draw our tick marks
// for our overlay, is solid means we draw a ring between the inner and outer radius of the circle, otherwise
// we just draw a line...
if (getHasTickMarks()) {
if (_majorTicksVerticesID == GeometryCache::UNKNOWN_ID) {
_majorTicksVerticesID = geometryCache->allocateID();
// get the last slice portion....
angle = endAt;
angleInRadians = glm::radians(angle);
glm::vec2 lastPoint(cosf(angleInRadians) * outerRadius, sinf(angleInRadians) * outerRadius);
points << lastPoint;
geometryCache->updateVertices(_lineVerticesID, points, color);
}
if (getIsDashedLine()) {
geometryCache->renderVertices(batch, gpu::LINES, _lineVerticesID);
} else {
geometryCache->renderVertices(batch, gpu::LINE_STRIP, _lineVerticesID);
}
}
// draw our tick marks
// for our overlay, is solid means we draw a ring between the inner and outer radius of the circle, otherwise
// we just draw a line...
if (getHasTickMarks()) {
if (_majorTicksVerticesID == GeometryCache::UNKNOWN_ID) {
_majorTicksVerticesID = geometryCache->allocateID();
}
if (_minorTicksVerticesID == GeometryCache::UNKNOWN_ID) {
_minorTicksVerticesID = geometryCache->allocateID();
}
if (geometryChanged) {
QVector<glm::vec2> majorPoints;
QVector<glm::vec2> minorPoints;
// draw our major tick marks
if (getMajorTickMarksAngle() > 0.0f && getMajorTickMarksLength() != 0.0f) {
float tickMarkAngle = getMajorTickMarksAngle();
float angle = startAt - fmodf(startAt, tickMarkAngle) + tickMarkAngle;
float angleInRadians = glm::radians(angle);
float tickMarkLength = getMajorTickMarksLength();
float startRadius = (tickMarkLength > 0.0f) ? innerRadius : outerRadius;
float endRadius = startRadius + tickMarkLength;
while (angle <= endAt) {
angleInRadians = glm::radians(angle);
glm::vec2 thisPointA(cosf(angleInRadians) * startRadius, sinf(angleInRadians) * startRadius);
glm::vec2 thisPointB(cosf(angleInRadians) * endRadius, sinf(angleInRadians) * endRadius);
majorPoints << thisPointA << thisPointB;
angle += tickMarkAngle;
}
if (_minorTicksVerticesID == GeometryCache::UNKNOWN_ID) {
_minorTicksVerticesID = geometryCache->allocateID();
}
if (geometryChanged) {
QVector<glm::vec2> majorPoints;
QVector<glm::vec2> minorPoints;
// draw our major tick marks
if (getMajorTickMarksAngle() > 0.0f && getMajorTickMarksLength() != 0.0f) {
float tickMarkAngle = getMajorTickMarksAngle();
float angle = startAt - fmodf(startAt, tickMarkAngle) + tickMarkAngle;
float angleInRadians = glm::radians(angle);
float tickMarkLength = getMajorTickMarksLength();
float startRadius = (tickMarkLength > 0.0f) ? innerRadius : outerRadius;
float endRadius = startRadius + tickMarkLength;
while (angle <= endAt) {
angleInRadians = glm::radians(angle);
glm::vec2 thisPointA(cosf(angleInRadians) * startRadius, sinf(angleInRadians) * startRadius);
glm::vec2 thisPointB(cosf(angleInRadians) * endRadius, sinf(angleInRadians) * endRadius);
majorPoints << thisPointA << thisPointB;
angle += tickMarkAngle;
}
}
// draw our minor tick marks
if (getMinorTickMarksAngle() > 0.0f && getMinorTickMarksLength() != 0.0f) {
float tickMarkAngle = getMinorTickMarksAngle();
float angle = startAt - fmodf(startAt, tickMarkAngle) + tickMarkAngle;
float angleInRadians = glm::radians(angle);
float tickMarkLength = getMinorTickMarksLength();
float startRadius = (tickMarkLength > 0.0f) ? innerRadius : outerRadius;
float endRadius = startRadius + tickMarkLength;
while (angle <= endAt) {
angleInRadians = glm::radians(angle);
glm::vec2 thisPointA(cosf(angleInRadians) * startRadius, sinf(angleInRadians) * startRadius);
glm::vec2 thisPointB(cosf(angleInRadians) * endRadius, sinf(angleInRadians) * endRadius);
minorPoints << thisPointA << thisPointB;
angle += tickMarkAngle;
}
}
xColor majorColorX = getMajorTickMarksColor();
glm::vec4 majorColor(majorColorX.red / MAX_COLOR, majorColorX.green / MAX_COLOR, majorColorX.blue / MAX_COLOR, alpha);
geometryCache->updateVertices(_majorTicksVerticesID, majorPoints, majorColor);
xColor minorColorX = getMinorTickMarksColor();
glm::vec4 minorColor(minorColorX.red / MAX_COLOR, minorColorX.green / MAX_COLOR, minorColorX.blue / MAX_COLOR, alpha);
geometryCache->updateVertices(_minorTicksVerticesID, minorPoints, minorColor);
}
geometryCache->renderVertices(gpu::LINES, _majorTicksVerticesID);
geometryCache->renderVertices(gpu::LINES, _minorTicksVerticesID);
}
glPopMatrix();
glPopMatrix();
// draw our minor tick marks
if (getMinorTickMarksAngle() > 0.0f && getMinorTickMarksLength() != 0.0f) {
float tickMarkAngle = getMinorTickMarksAngle();
float angle = startAt - fmodf(startAt, tickMarkAngle) + tickMarkAngle;
float angleInRadians = glm::radians(angle);
float tickMarkLength = getMinorTickMarksLength();
float startRadius = (tickMarkLength > 0.0f) ? innerRadius : outerRadius;
float endRadius = startRadius + tickMarkLength;
while (angle <= endAt) {
angleInRadians = glm::radians(angle);
glm::vec2 thisPointA(cosf(angleInRadians) * startRadius, sinf(angleInRadians) * startRadius);
glm::vec2 thisPointB(cosf(angleInRadians) * endRadius, sinf(angleInRadians) * endRadius);
minorPoints << thisPointA << thisPointB;
angle += tickMarkAngle;
}
}
xColor majorColorX = getMajorTickMarksColor();
glm::vec4 majorColor(majorColorX.red / MAX_COLOR, majorColorX.green / MAX_COLOR, majorColorX.blue / MAX_COLOR, alpha);
geometryCache->updateVertices(_majorTicksVerticesID, majorPoints, majorColor);
xColor minorColorX = getMinorTickMarksColor();
glm::vec4 minorColor(minorColorX.red / MAX_COLOR, minorColorX.green / MAX_COLOR, minorColorX.blue / MAX_COLOR, alpha);
geometryCache->updateVertices(_minorTicksVerticesID, minorPoints, minorColor);
}
geometryCache->renderVertices(batch, gpu::LINES, _majorTicksVerticesID);
geometryCache->renderVertices(batch, gpu::LINES, _minorTicksVerticesID);
}
if (geometryChanged) {
_lastStartAt = startAt;
_lastEndAt = endAt;
_lastInnerRadius = innerRadius;
_lastOuterRadius = outerRadius;
}
if (glower) {
delete glower;
}
}
void Circle3DOverlay::setProperties(const QScriptValue &properties) {

41
libraries/fbx/src/FBXReader.cpp
View file

@ -506,7 +506,7 @@ FBXNode parseFBX(QIODevice* device) {
QVector<glm::vec4> createVec4Vector(const QVector<double>& doubleVector) {
QVector<glm::vec4> values;
for (const double* it = doubleVector.constData(), *end = it + (doubleVector.size() / 4 * 4); it != end; ) {
for (const double* it = doubleVector.constData(), *end = it + ((doubleVector.size() / 4) * 4); it != end; ) {
float x = *it++;
float y = *it++;
float z = *it++;
@ -516,9 +516,27 @@ QVector<glm::vec4> createVec4Vector(const QVector<double>& doubleVector) {
return values;
}
QVector<glm::vec4> createVec4VectorRGBA(const QVector<double>& doubleVector, glm::vec4& average) {
QVector<glm::vec4> values;
for (const double* it = doubleVector.constData(), *end = it + ((doubleVector.size() / 4) * 4); it != end; ) {
float x = *it++;
float y = *it++;
float z = *it++;
float w = *it++;
auto val = glm::vec4(x, y, z, w);
values.append(val);
average += val;
}
if (!values.isEmpty()) {
average *= (1.0f / float(values.size()));
}
return values;
}
QVector<glm::vec3> createVec3Vector(const QVector<double>& doubleVector) {
QVector<glm::vec3> values;
for (const double* it = doubleVector.constData(), *end = it + (doubleVector.size() / 3 * 3); it != end; ) {
for (const double* it = doubleVector.constData(), *end = it + ((doubleVector.size() / 3) * 3); it != end; ) {
float x = *it++;
float y = *it++;
float z = *it++;
@ -529,7 +547,7 @@ QVector<glm::vec3> createVec3Vector(const QVector<double>& doubleVector) {
QVector<glm::vec2> createVec2Vector(const QVector<double>& doubleVector) {
QVector<glm::vec2> values;
for (const double* it = doubleVector.constData(), *end = it + (doubleVector.size() / 2 * 2); it != end; ) {
for (const double* it = doubleVector.constData(), *end = it + ((doubleVector.size() / 2) * 2); it != end; ) {
float s = *it++;
float t = *it++;
values.append(glm::vec2(s, -t));
@ -799,6 +817,7 @@ public:
QVector<int> normalIndices;
bool colorsByVertex;
glm::vec4 averageColor{1.0f, 1.0f, 1.0f, 1.0f};
QVector<glm::vec4> colors;
QVector<int> colorIndices;
@ -940,8 +959,7 @@ ExtractedMesh extractMesh(const FBXNode& object, unsigned int& meshIndex) {
bool indexToDirect = false;
foreach (const FBXNode& subdata, child.children) {
if (subdata.name == "Colors") {
data.colors = createVec4Vector(getDoubleVector(subdata));
data.colors = createVec4VectorRGBA(getDoubleVector(subdata), data.averageColor);
} else if (subdata.name == "ColorsIndex") {
data.colorIndices = getIntVector(subdata);
@ -956,6 +974,19 @@ ExtractedMesh extractMesh(const FBXNode& object, unsigned int& meshIndex) {
// hack to work around wacky Makehuman exports
data.colorsByVertex = true;
}
#if defined(FBXREADER_KILL_BLACK_COLOR_ATTRIBUTE)
// Potential feature where we decide to kill the color attribute is to dark?
// Tested with the model:
// https://hifi-public.s3.amazonaws.com/ryan/gardenLight2.fbx
// let's check if we did have true data ?
if (glm::all(glm::lessThanEqual(data.averageColor, glm::vec4(0.09f)))) {
data.colors.clear();
data.colorIndices.clear();
data.colorsByVertex = false;
qCDebug(modelformat) << "LayerElementColor has an average value of 0.0f... let's forget it.";
}
#endif
} else if (child.name == "LayerElementUV") {
if (child.properties.at(0).toInt() == 0) {

8
libraries/gpu/src/gpu/GLBackend.cpp
View file

@ -460,6 +460,7 @@ void GLBackend::do_glUniform1i(Batch& batch, uint32 paramOffset) {
// because these uniform setters are deprecated and we don;t want to create side effect
return;
}
updatePipeline();
glUniform1f(
batch._params[paramOffset + 1]._int,
batch._params[paramOffset + 0]._int);
@ -482,6 +483,8 @@ void GLBackend::do_glUniform1f(Batch& batch, uint32 paramOffset) {
// because these uniform setters are deprecated and we don;t want to create side effect
return;
}
updatePipeline();
glUniform1f(
batch._params[paramOffset + 1]._int,
batch._params[paramOffset + 0]._float);
@ -504,6 +507,7 @@ void GLBackend::do_glUniform2f(Batch& batch, uint32 paramOffset) {
// because these uniform setters are deprecated and we don;t want to create side effect
return;
}
updatePipeline();
glUniform2f(
batch._params[paramOffset + 2]._int,
batch._params[paramOffset + 1]._float,
@ -528,6 +532,7 @@ void GLBackend::do_glUniform3f(Batch& batch, uint32 paramOffset) {
// because these uniform setters are deprecated and we don;t want to create side effect
return;
}
updatePipeline();
glUniform3f(
batch._params[paramOffset + 3]._int,
batch._params[paramOffset + 2]._float,
@ -552,6 +557,7 @@ void GLBackend::do_glUniform3fv(Batch& batch, uint32 paramOffset) {
// because these uniform setters are deprecated and we don;t want to create side effect
return;
}
updatePipeline();
glUniform3fv(
batch._params[paramOffset + 2]._int,
batch._params[paramOffset + 1]._uint,
@ -577,6 +583,7 @@ void GLBackend::do_glUniform4fv(Batch& batch, uint32 paramOffset) {
// because these uniform setters are deprecated and we don;t want to create side effect
return;
}
updatePipeline();
glUniform4fv(
batch._params[paramOffset + 2]._int,
batch._params[paramOffset + 1]._uint,
@ -602,6 +609,7 @@ void GLBackend::do_glUniformMatrix4fv(Batch& batch, uint32 paramOffset) {
// because these uniform setters are deprecated and we don;t want to create side effect
return;
}
updatePipeline();
glUniformMatrix4fv(
batch._params[paramOffset + 3]._int,
batch._params[paramOffset + 2]._uint,

4
libraries/gpu/src/gpu/GLBackendTexture.cpp
View file

@ -344,10 +344,10 @@ GLBackend::GLTexture* GLBackend::syncGPUObject(const Texture& texture) {
if (bytes && texture.isAutogenerateMips()) {
glGenerateMipmap(GL_TEXTURE_2D);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_LINEAR);
} else {
}/* else {
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
}
}*/
object->_target = GL_TEXTURE_2D;

31
libraries/render-utils/src/DeferredLightingEffect.cpp
View file

@ -61,15 +61,26 @@ void DeferredLightingEffect::init(AbstractViewStateInterface* viewState) {
gpu::Shader::BindingSet slotBindings;
gpu::Shader::makeProgram(*program, slotBindings);
gpu::Shader::makeProgram(*programTextured, slotBindings);
gpu::StatePointer state = gpu::StatePointer(new gpu::State());
state->setCullMode(gpu::State::CULL_BACK);
state->setDepthTest(true, true, gpu::LESS_EQUAL);
state->setBlendFunction(false,
gpu::State::SRC_ALPHA, gpu::State::BLEND_OP_ADD, gpu::State::INV_SRC_ALPHA,
gpu::State::FACTOR_ALPHA, gpu::State::BLEND_OP_ADD, gpu::State::ONE);
gpu::StatePointer stateCullNone = gpu::StatePointer(new gpu::State());
stateCullNone->setCullMode(gpu::State::CULL_NONE);
stateCullNone->setDepthTest(true, true, gpu::LESS_EQUAL);
stateCullNone->setBlendFunction(false,
gpu::State::SRC_ALPHA, gpu::State::BLEND_OP_ADD, gpu::State::INV_SRC_ALPHA,
gpu::State::FACTOR_ALPHA, gpu::State::BLEND_OP_ADD, gpu::State::ONE);
_simpleProgram = gpu::PipelinePointer(gpu::Pipeline::create(program, state));
_simpleProgramCullNone = gpu::PipelinePointer(gpu::Pipeline::create(program, stateCullNone));
_simpleProgramTextured = gpu::PipelinePointer(gpu::Pipeline::create(programTextured, state));
_simpleProgramTexturedCullNone = gpu::PipelinePointer(gpu::Pipeline::create(programTextured, stateCullNone));
_viewState = viewState;
loadLightProgram(directional_light_frag, false, _directionalLight, _directionalLightLocations);
@ -106,13 +117,21 @@ void DeferredLightingEffect::init(AbstractViewStateInterface* viewState) {
lp->setAmbientSpherePreset(gpu::SphericalHarmonics::Preset(_ambientLightMode % gpu::SphericalHarmonics::NUM_PRESET));
}
void DeferredLightingEffect::bindSimpleProgram(gpu::Batch& batch, bool textured) {
void DeferredLightingEffect::bindSimpleProgram(gpu::Batch& batch, bool textured, bool culled) {
// DependencyManager::get<TextureCache>()->setPrimaryDrawBuffers(batch, true, true, true);
if (textured) {
batch.setPipeline(_simpleProgramTextured);
if (culled) {
batch.setPipeline(_simpleProgramTextured);
} else {
batch.setPipeline(_simpleProgramTexturedCullNone);
}
} else {
batch.setPipeline(_simpleProgram);
if (culled) {
batch.setPipeline(_simpleProgram);
} else {
batch.setPipeline(_simpleProgramCullNone);
}
}
}
@ -191,7 +210,7 @@ void DeferredLightingEffect::addSpotLight(const glm::vec3& position, float radiu
}
}
void DeferredLightingEffect::prepare() {
void DeferredLightingEffect::prepare(RenderArgs* args) {
// clear the normal and specular buffers
auto textureCache = DependencyManager::get<TextureCache>();
textureCache->setPrimaryDrawBuffers(false, true, false);
@ -205,7 +224,7 @@ void DeferredLightingEffect::prepare() {
textureCache->setPrimaryDrawBuffers(true, false, false);
}
void DeferredLightingEffect::render() {
void DeferredLightingEffect::render(RenderArgs* args) {
// perform deferred lighting, rendering to free fbo
glDisable(GL_BLEND);
glDisable(GL_LIGHTING);

8
libraries/render-utils/src/DeferredLightingEffect.h
View file

@ -34,7 +34,7 @@ public:
void init(AbstractViewStateInterface* viewState);
/// Sets up the state necessary to render static untextured geometry with the simple program.
void bindSimpleProgram(gpu::Batch& batch, bool textured = false);
void bindSimpleProgram(gpu::Batch& batch, bool textured = false, bool culled = true);
/// Tears down the state necessary to render static untextured geometry with the simple program.
void releaseSimpleProgram(gpu::Batch& batch);
@ -66,8 +66,8 @@ public:
void addSpotLight(const glm::vec3& position, float radius, const glm::vec3& color = glm::vec3(1.0f, 1.0f, 1.0f),
float intensity = 0.5f, const glm::quat& orientation = glm::quat(), float exponent = 0.0f, float cutoff = PI);
void prepare();
void render();
void prepare(RenderArgs* args);
void render(RenderArgs* args);
void copyBack(RenderArgs* args);
void setupTransparent(RenderArgs* args, int lightBufferUnit);
@ -100,7 +100,9 @@ private:
static void loadLightProgram(const char* fragSource, bool limited, ProgramObject& program, LightLocations& locations);
gpu::PipelinePointer _simpleProgram;
gpu::PipelinePointer _simpleProgramCullNone;
gpu::PipelinePointer _simpleProgramTextured;
gpu::PipelinePointer _simpleProgramTexturedCullNone;
ProgramObject _directionalSkyboxLight;
LightLocations _directionalSkyboxLightLocations;

1
libraries/render-utils/src/Model.cpp
View file

@ -1804,6 +1804,7 @@ AABox Model::getPartBounds(int meshIndex, int partIndex) {
}
void Model::renderPart(RenderArgs* args, int meshIndex, int partIndex, bool translucent) {
PerformanceTimer perfTimer("Model::renderPart");
if (!_readyWhenAdded) {
return; // bail asap
}

294
libraries/render-utils/src/RenderDeferredTask.cpp
View file

@ -19,42 +19,54 @@
#include <PerfStat.h>
#include "overlay3D_vert.h"
#include "overlay3D_vert.h"
#include "overlay3D_frag.h"
using namespace render;
template <> void render::jobRun(const PrepareDeferred& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
PerformanceTimer perfTimer("PrepareDeferred");
DependencyManager::get<DeferredLightingEffect>()->prepare();
void PrepareDeferred::run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
DependencyManager::get<DeferredLightingEffect>()->prepare(renderContext->args);
}
template <> void render::jobRun(const RenderDeferred& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
PerformanceTimer perfTimer("RenderDeferred");
DependencyManager::get<DeferredLightingEffect>()->render();
// renderContext->args->_context->syncCache();
void RenderDeferred::run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
DependencyManager::get<DeferredLightingEffect>()->render(renderContext->args);
}
template <> void render::jobRun(const ResolveDeferred& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
void ResolveDeferred::run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
PerformanceTimer perfTimer("ResolveDeferred");
DependencyManager::get<DeferredLightingEffect>()->copyBack(renderContext->args);
renderContext->args->_context->syncCache();
}
RenderDeferredTask::RenderDeferredTask() : Task() {
_jobs.push_back(Job(PrepareDeferred()));
_jobs.push_back(Job(DrawBackground()));
_jobs.push_back(Job(DrawOpaqueDeferred()));
_jobs.push_back(Job(DrawLight()));
_jobs.push_back(Job(ResetGLState()));
_jobs.push_back(Job(RenderDeferred()));
_jobs.push_back(Job(ResolveDeferred()));
_jobs.push_back(Job(DrawTransparentDeferred()));
_jobs.push_back(Job(DrawOverlay3D()));
_jobs.push_back(Job(ResetGLState()));
_jobs.push_back(Job(new PrepareDeferred::JobModel("PrepareDeferred")));
_jobs.push_back(Job(new DrawBackground::JobModel("DrawBackground")));
_jobs.push_back(Job(new FetchItems::JobModel("FetchOpaque",
FetchItems(
[] (const RenderContextPointer& context, int count) {
context->_numFeedOpaqueItems = count;
}
)
)));
_jobs.push_back(Job(new CullItems::JobModel("CullOpaque", _jobs.back().getOutput())));
_jobs.push_back(Job(new DepthSortItems::JobModel("DepthSortOpaque", _jobs.back().getOutput())));
_jobs.push_back(Job(new DrawOpaqueDeferred::JobModel("DrawOpaqueDeferred", _jobs.back().getOutput())));
_jobs.push_back(Job(new DrawLight::JobModel("DrawLight")));
_jobs.push_back(Job(new ResetGLState::JobModel()));
_jobs.push_back(Job(new RenderDeferred::JobModel("RenderDeferred")));
_jobs.push_back(Job(new ResolveDeferred::JobModel("ResolveDeferred")));
_jobs.push_back(Job(new FetchItems::JobModel("FetchTransparent",
FetchItems(
ItemFilter::Builder::transparentShape().withoutLayered(),
[] (const RenderContextPointer& context, int count) {
context->_numFeedTransparentItems = count;
}
)
)));
_jobs.push_back(Job(new CullItems::JobModel("CullTransparent", _jobs.back().getOutput())));
_jobs.push_back(Job(new DepthSortItems::JobModel("DepthSortTransparent", _jobs.back().getOutput(), DepthSortItems(false))));
_jobs.push_back(Job(new DrawTransparentDeferred::JobModel("TransparentDeferred", _jobs.back().getOutput())));
_jobs.push_back(Job(new DrawOverlay3D::JobModel("DrawOverlay3D")));
_jobs.push_back(Job(new ResetGLState::JobModel()));
}
RenderDeferredTask::~RenderDeferredTask() {
@ -80,181 +92,104 @@ void RenderDeferredTask::run(const SceneContextPointer& sceneContext, const Rend
}
};
template <> void render::jobRun(const DrawOpaqueDeferred& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
PerformanceTimer perfTimer("DrawOpaqueDeferred");
void DrawOpaqueDeferred::run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, const ItemIDsBounds& inItems) {
assert(renderContext->args);
assert(renderContext->args->_viewFrustum);
// render opaques
auto& scene = sceneContext->_scene;
auto& items = scene->getMasterBucket().at(ItemFilter::Builder::opaqueShape().withoutLayered());
auto& renderDetails = renderContext->args->_details;
RenderArgs* args = renderContext->args;
gpu::Batch batch;
args->_batch = &batch;
ItemIDsBounds inItems;
inItems.reserve(items.size());
for (auto id : items) {
inItems.emplace_back(ItemIDAndBounds(id));
renderContext->_numDrawnOpaqueItems = inItems.size();
glm::mat4 projMat;
Transform viewMat;
args->_viewFrustum->evalProjectionMatrix(projMat);
args->_viewFrustum->evalViewTransform(viewMat);
if (args->_renderMode == RenderArgs::MIRROR_RENDER_MODE) {
viewMat.postScale(glm::vec3(-1.0f, 1.0f, 1.0f));
}
ItemIDsBounds& renderedItems = inItems;
batch.setProjectionTransform(projMat);
batch.setViewTransform(viewMat);
renderContext->_numFeedOpaqueItems = renderedItems.size();
ItemIDsBounds culledItems;
culledItems.reserve(inItems.size());
if (renderContext->_cullOpaque) {
renderDetails.pointTo(RenderDetails::OPAQUE_ITEM);
cullItems(sceneContext, renderContext, renderedItems, culledItems);
renderDetails.pointTo(RenderDetails::OTHER_ITEM);
renderedItems = culledItems;
{
GLenum buffers[3];
int bufferCount = 0;
buffers[bufferCount++] = GL_COLOR_ATTACHMENT0;
buffers[bufferCount++] = GL_COLOR_ATTACHMENT1;
buffers[bufferCount++] = GL_COLOR_ATTACHMENT2;
batch._glDrawBuffers(bufferCount, buffers);
const float OPAQUE_ALPHA_THRESHOLD = 0.5f;
args->_alphaThreshold = OPAQUE_ALPHA_THRESHOLD;
}
renderContext->_numDrawnOpaqueItems = renderedItems.size();
renderItems(sceneContext, renderContext, inItems, renderContext->_maxDrawnOpaqueItems);
ItemIDsBounds sortedItems;
sortedItems.reserve(culledItems.size());
if (renderContext->_sortOpaque) {
depthSortItems(sceneContext, renderContext, true, renderedItems, sortedItems); // Sort Front to back opaque items!
renderedItems = sortedItems;
}
// ItemIDsBounds sortedItems;
/* ItemMaterialBucketMap stateSortedItems;
stateSortedItems.allocateStandardMaterialBuckets();
if (true) {
for (auto& itemIDAndBound : renderedItems) {
stateSortedItems.insert(itemIDAndBound.id, scene->getItem(itemIDAndBound.id).getMaterialKey());
}
}
*/
if (renderContext->_renderOpaque) {
RenderArgs* args = renderContext->args;
gpu::Batch batch;
args->_batch = &batch;
glm::mat4 projMat;
Transform viewMat;
args->_viewFrustum->evalProjectionMatrix(projMat);
args->_viewFrustum->evalViewTransform(viewMat);
if (args->_renderMode == RenderArgs::MIRROR_RENDER_MODE) {
viewMat.postScale(glm::vec3(-1.0f, 1.0f, 1.0f));
}
batch.setProjectionTransform(projMat);
batch.setViewTransform(viewMat);
{
GLenum buffers[3];
int bufferCount = 0;
buffers[bufferCount++] = GL_COLOR_ATTACHMENT0;
buffers[bufferCount++] = GL_COLOR_ATTACHMENT1;
buffers[bufferCount++] = GL_COLOR_ATTACHMENT2;
batch._glDrawBuffers(bufferCount, buffers);
}
renderItems(sceneContext, renderContext, renderedItems, renderContext->_maxDrawnOpaqueItems);
args->_context->render((*args->_batch));
args->_batch = nullptr;
}
// Before rendering the batch make sure we re in sync with gl state
args->_context->syncCache();
renderContext->args->_context->syncCache();
args->_context->render((*args->_batch));
args->_batch = nullptr;
}
template <> void render::jobRun(const DrawTransparentDeferred& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
PerformanceTimer perfTimer("DrawTransparentDeferred");
void DrawTransparentDeferred::run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, const ItemIDsBounds& inItems) {
assert(renderContext->args);
assert(renderContext->args->_viewFrustum);
// render transparents
auto& scene = sceneContext->_scene;
auto& items = scene->getMasterBucket().at(ItemFilter::Builder::transparentShape().withoutLayered());
auto& renderDetails = renderContext->args->_details;
RenderArgs* args = renderContext->args;
gpu::Batch batch;
args->_batch = &batch;
ItemIDsBounds inItems;
inItems.reserve(items.size());
for (auto id : items) {
inItems.push_back(id);
renderContext->_numDrawnTransparentItems = inItems.size();
glm::mat4 projMat;
Transform viewMat;
args->_viewFrustum->evalProjectionMatrix(projMat);
args->_viewFrustum->evalViewTransform(viewMat);
if (args->_renderMode == RenderArgs::MIRROR_RENDER_MODE) {
viewMat.postScale(glm::vec3(-1.0f, 1.0f, 1.0f));
}
ItemIDsBounds& renderedItems = inItems;
renderContext->_numFeedTransparentItems = renderedItems.size();
ItemIDsBounds culledItems;
if (renderContext->_cullTransparent) {
renderDetails.pointTo(RenderDetails::TRANSLUCENT_ITEM);
cullItems(sceneContext, renderContext, inItems, culledItems);
renderDetails.pointTo(RenderDetails::OTHER_ITEM);
renderedItems = culledItems;
batch.setProjectionTransform(projMat);
batch.setViewTransform(viewMat);
const float TRANSPARENT_ALPHA_THRESHOLD = 0.0f;
{
GLenum buffers[3];
int bufferCount = 0;
buffers[bufferCount++] = GL_COLOR_ATTACHMENT0;
batch._glDrawBuffers(bufferCount, buffers);
args->_alphaThreshold = TRANSPARENT_ALPHA_THRESHOLD;
}
renderContext->_numDrawnTransparentItems = renderedItems.size();
ItemIDsBounds sortedItems;
if (renderContext->_sortTransparent) {
depthSortItems(sceneContext, renderContext, false, renderedItems, sortedItems); // Sort Back to front transparent items!
renderedItems = sortedItems;
}
if (renderContext->_renderTransparent) {
RenderArgs* args = renderContext->args;
gpu::Batch batch;
args->_batch = &batch;
renderItems(sceneContext, renderContext, inItems, renderContext->_maxDrawnTransparentItems);
// Before rendering the batch make sure we re in sync with gl state
args->_context->syncCache();
args->_context->render((*args->_batch));
args->_batch = nullptr;
// reset blend function to standard...
glBlendFuncSeparate(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA, GL_CONSTANT_ALPHA, GL_ONE);
}
const gpu::PipelinePointer& DrawOverlay3D::getOpaquePipeline() const {
if (!_opaquePipeline) {
auto vs = gpu::ShaderPointer(gpu::Shader::createVertex(std::string(overlay3D_vert)));
auto ps = gpu::ShaderPointer(gpu::Shader::createPixel(std::string(overlay3D_frag)));
auto program = gpu::ShaderPointer(gpu::Shader::createProgram(vs, ps));
auto state = gpu::StatePointer(new gpu::State());
state->setDepthTest(true, true, gpu::LESS_EQUAL);
glm::mat4 projMat;
Transform viewMat;
args->_viewFrustum->evalProjectionMatrix(projMat);
args->_viewFrustum->evalViewTransform(viewMat);
if (args->_renderMode == RenderArgs::MIRROR_RENDER_MODE) {
viewMat.postScale(glm::vec3(-1.0f, 1.0f, 1.0f));
}
batch.setProjectionTransform(projMat);
batch.setViewTransform(viewMat);
const float TRANSPARENT_ALPHA_THRESHOLD = 0.0f;
{
GLenum buffers[3];
int bufferCount = 0;
buffers[bufferCount++] = GL_COLOR_ATTACHMENT0;
batch._glDrawBuffers(bufferCount, buffers);
args->_alphaThreshold = TRANSPARENT_ALPHA_THRESHOLD;
}
renderItems(sceneContext, renderContext, renderedItems, renderContext->_maxDrawnTransparentItems);
// Before rendering the batch make sure we re in sync with gl state
args->_context->syncCache();
args->_context->render((*args->_batch));
args->_batch = nullptr;
// reset blend function to standard...
// glBlendFuncSeparate(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA, GL_CONSTANT_ALPHA, GL_ONE);
_opaquePipeline.reset(gpu::Pipeline::create(program, state));
}
return _opaquePipeline;
}
const gpu::PipelinePointer& DrawOverlay3D::getOpaquePipeline() const {
if (!_opaquePipeline) {
auto vs = gpu::ShaderPointer(gpu::Shader::createVertex(std::string(overlay3D_vert)));
auto ps = gpu::ShaderPointer(gpu::Shader::createPixel(std::string(overlay3D_frag)));
auto program = gpu::ShaderPointer(gpu::Shader::createProgram(vs, ps));
auto state = gpu::StatePointer(new gpu::State());
state->setDepthTest(true, true, gpu::LESS_EQUAL);
_opaquePipeline.reset(gpu::Pipeline::create(program, state));
}
return _opaquePipeline;
}
template <> void render::jobRun(const DrawOverlay3D& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
PerformanceTimer perfTimer("DrawOverlay3D");
void DrawOverlay3D::run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
assert(renderContext->args);
assert(renderContext->args->_viewFrustum);
@ -271,13 +206,14 @@ template <> void render::jobRun(const DrawOverlay3D& job, const SceneContextPoin
inItems.emplace_back(id);
}
}
renderContext->_numFeedOverlay3DItems = inItems.size();
renderContext->_numDrawnOverlay3DItems = inItems.size();
RenderArgs* args = renderContext->args;
gpu::Batch batch;
args->_batch = &batch;
args->_whiteTexture = DependencyManager::get<TextureCache>()->getWhiteTexture();
glm::mat4 projMat;
Transform viewMat;
args->_viewFrustum->evalProjectionMatrix(projMat);
@ -287,12 +223,13 @@ template <> void render::jobRun(const DrawOverlay3D& job, const SceneContextPoin
}
batch.setProjectionTransform(projMat);
batch.setViewTransform(viewMat);
batch.setPipeline(job.getOpaquePipeline());
batch.setPipeline(getOpaquePipeline());
batch.setUniformTexture(0, args->_whiteTexture);
if (!inItems.empty()) {
batch.clearFramebuffer(gpu::Framebuffer::BUFFER_DEPTH, glm::vec4(), 1.f, 0);
renderItems(sceneContext, renderContext, inItems);
batch.clearFramebuffer(gpu::Framebuffer::BUFFER_DEPTH, glm::vec4(), 1.f, 0);
renderItems(sceneContext, renderContext, inItems, renderContext->_maxDrawnOverlay3DItems);
}
// Before rendering the batch make sure we re in sync with gl state
@ -301,3 +238,4 @@ template <> void render::jobRun(const DrawOverlay3D& job, const SceneContextPoin
args->_batch = nullptr;
args->_whiteTexture.reset();
}

49
libraries/render-utils/src/RenderDeferredTask.h
View file

@ -18,48 +18,49 @@
class PrepareDeferred {
public:
void run(const render::SceneContextPointer& sceneContext, const render::RenderContextPointer& renderContext);
typedef render::Job::Model<PrepareDeferred> JobModel;
};
namespace render {
template <> void jobRun(const PrepareDeferred& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext);
}
class RenderDeferred {
public:
void run(const render::SceneContextPointer& sceneContext, const render::RenderContextPointer& renderContext);
typedef render::Job::Model<RenderDeferred> JobModel;
};
namespace render {
template <> void jobRun(const RenderDeferred& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext);
}
class ResolveDeferred {
public:
};
namespace render {
template <> void jobRun(const ResolveDeferred& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext);
}
void run(const render::SceneContextPointer& sceneContext, const render::RenderContextPointer& renderContext);
typedef render::Job::Model<ResolveDeferred> JobModel;
};
class DrawOpaqueDeferred {
public:
void run(const render::SceneContextPointer& sceneContext, const render::RenderContextPointer& renderContext, const render::ItemIDsBounds& inItems);
typedef render::Job::ModelI<DrawOpaqueDeferred, render::ItemIDsBounds> JobModel;
};
namespace render {
template <> void jobRun(const DrawOpaqueDeferred& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext);
}
class DrawTransparentDeferred {
public:
};
namespace render {
template <> void jobRun(const DrawTransparentDeferred& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext);
}
void run(const render::SceneContextPointer& sceneContext, const render::RenderContextPointer& renderContext, const render::ItemIDsBounds& inItems);
class DrawOverlay3D {
mutable gpu::PipelinePointer _opaquePipeline; //lazy evaluation hence mutable
public:
const gpu::PipelinePointer& getOpaquePipeline() const;
typedef render::Job::ModelI<DrawTransparentDeferred, render::ItemIDsBounds> JobModel;
};
class DrawOverlay3D {
mutable gpu::PipelinePointer _opaquePipeline; //lazy evaluation hence mutable
public:
const gpu::PipelinePointer& getOpaquePipeline() const;
void run(const render::SceneContextPointer& sceneContext, const render::RenderContextPointer& renderContext);
typedef render::Job::Model<DrawOverlay3D> JobModel;
};
namespace render {
template <> void jobRun(const DrawOverlay3D& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext);
}
class RenderDeferredTask : public render::Task {
public:

283
libraries/render/src/render/DrawTask.cpp
View file

@ -25,11 +25,6 @@
using namespace render;
DrawSceneTask::DrawSceneTask() : Task() {
_jobs.push_back(Job(DrawOpaque()));
_jobs.push_back(Job(DrawLight()));
_jobs.push_back(Job(DrawTransparent()));
_jobs.push_back(Job(ResetGLState()));
}
DrawSceneTask::~DrawSceneTask() {
@ -56,8 +51,11 @@ void DrawSceneTask::run(const SceneContextPointer& sceneContext, const RenderCon
Job::~Job() {
}
void render::cullItems(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, const ItemIDsBounds& inItems, ItemIDsBounds& outItems) {
PerformanceTimer perfTimer("cullItems");
assert(renderContext->args);
assert(renderContext->args->_viewFrustum);
@ -68,17 +66,9 @@ void render::cullItems(const SceneContextPointer& sceneContext, const RenderCont
renderDetails->_considered += inItems.size();
// Culling / LOD
for (auto itemDetails : inItems) {
auto item = scene->getItem(itemDetails.id);
AABox bound;
{
PerformanceTimer perfTimer("getBound");
bound = item.getBound();
}
if (bound.isNull()) {
outItems.emplace_back(ItemIDAndBounds(itemDetails.id)); // One more Item to render
for (auto item : inItems) {
if (item.bounds.isNull()) {
outItems.emplace_back(item); // One more Item to render
continue;
}
@ -87,16 +77,16 @@ void render::cullItems(const SceneContextPointer& sceneContext, const RenderCont
bool outOfView;
{
PerformanceTimer perfTimer("boxInFrustum");
outOfView = args->_viewFrustum->boxInFrustum(bound) == ViewFrustum::OUTSIDE;
outOfView = args->_viewFrustum->boxInFrustum(item.bounds) == ViewFrustum::OUTSIDE;
}
if (!outOfView) {
bool bigEnoughToRender;
{
PerformanceTimer perfTimer("shouldRender");
bigEnoughToRender = (args->_shouldRender) ? args->_shouldRender(args, bound) : true;
bigEnoughToRender = (args->_shouldRender) ? args->_shouldRender(args, item.bounds) : true;
}
if (bigEnoughToRender) {
outItems.emplace_back(ItemIDAndBounds(itemDetails.id, bound)); // One more Item to render
outItems.emplace_back(item); // One more Item to render
} else {
renderDetails->_tooSmall++;
}
@ -107,6 +97,32 @@ void render::cullItems(const SceneContextPointer& sceneContext, const RenderCont
renderDetails->_rendered += outItems.size();
}
void FetchItems::run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, ItemIDsBounds& outItems) {
auto& scene = sceneContext->_scene;
auto& items = scene->getMasterBucket().at(_filter);
auto& renderDetails = renderContext->args->_details;
outItems.clear();
outItems.reserve(items.size());
for (auto id : items) {
auto& item = scene->getItem(id);
outItems.emplace_back(ItemIDAndBounds(id, item.getBound()));
}
if (_probeNumItems) {
_probeNumItems(renderContext, outItems.size());
}
}
void CullItems::run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, const ItemIDsBounds& inItems, ItemIDsBounds& outItems) {
outItems.clear();
outItems.reserve(inItems.size());
cullItems(sceneContext, renderContext, inItems, outItems);
}
struct ItemBound {
float _centerDepth = 0.0f;
float _nearDepth = 0.0f;
@ -130,7 +146,6 @@ struct BackToFrontSort {
};
void render::depthSortItems(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, bool frontToBack, const ItemIDsBounds& inItems, ItemIDsBounds& outItems) {
PerformanceTimer perfTimer("depthSortItems");
assert(renderContext->args);
assert(renderContext->args->_viewFrustum);
@ -139,9 +154,10 @@ void render::depthSortItems(const SceneContextPointer& sceneContext, const Rende
// Allocate and simply copy
outItems.clear();
outItems.reserve(inItems.size());
// Make a local dataset of the center distance and closest point distance
std::vector<ItemBound> itemBounds;
itemBounds.reserve(outItems.size());
@ -169,8 +185,14 @@ void render::depthSortItems(const SceneContextPointer& sceneContext, const Rende
}
}
void DepthSortItems::run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, const ItemIDsBounds& inItems, ItemIDsBounds& outItems) {
outItems.clear();
outItems.reserve(inItems.size());
depthSortItems(sceneContext, renderContext, _frontToBack, inItems, outItems);
}
void render::renderItems(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, const ItemIDsBounds& inItems, int maxDrawnItems) {
PerformanceTimer perfTimer("renderItems");
auto& scene = sceneContext->_scene;
RenderArgs* args = renderContext->args;
// render
@ -183,6 +205,10 @@ void render::renderItems(const SceneContextPointer& sceneContext, const RenderCo
int numItems = 0;
for (auto itemDetails : inItems) {
auto item = scene->getItem(itemDetails.id);
if (numItems + 1 >= maxDrawnItems) {
item.render(args);
return;
}
item.render(args);
numItems++;
if (numItems >= maxDrawnItems) {
@ -224,8 +250,7 @@ void addClearStateCommands(gpu::Batch& batch) {
// Back to no program
batch._glUseProgram(0);
}
template <> void render::jobRun(const ResetGLState& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
void ResetGLState::run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
gpu::Batch theBatch;
addClearStateCommands(theBatch);
@ -233,160 +258,7 @@ template <> void render::jobRun(const ResetGLState& job, const SceneContextPoint
renderContext->args->_context->render(theBatch);
}
template <> void render::jobRun(const DrawOpaque& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
PerformanceTimer perfTimer("DrawOpaque");
assert(renderContext->args);
assert(renderContext->args->_viewFrustum);
// render opaques
auto& scene = sceneContext->_scene;
auto& items = scene->getMasterBucket().at(ItemFilter::Builder::opaqueShape());
auto& renderDetails = renderContext->args->_details;
ItemIDsBounds inItems;
inItems.reserve(items.size());
for (auto id : items) {
inItems.emplace_back(ItemIDAndBounds(id));
}
ItemIDsBounds& renderedItems = inItems;
renderContext->_numFeedOpaqueItems = renderedItems.size();
ItemIDsBounds culledItems;
culledItems.reserve(inItems.size());
if (renderContext->_cullOpaque) {
renderDetails.pointTo(RenderDetails::OPAQUE_ITEM);
cullItems(sceneContext, renderContext, renderedItems, culledItems);
renderDetails.pointTo(RenderDetails::OTHER_ITEM);
renderedItems = culledItems;
}
renderContext->_numDrawnOpaqueItems = renderedItems.size();
ItemIDsBounds sortedItems;
sortedItems.reserve(culledItems.size());
if (renderContext->_sortOpaque) {
depthSortItems(sceneContext, renderContext, true, renderedItems, sortedItems); // Sort Front to back opaque items!
renderedItems = sortedItems;
}
if (renderContext->_renderOpaque) {
RenderArgs* args = renderContext->args;
gpu::Batch batch;
args->_batch = &batch;
glm::mat4 projMat;
Transform viewMat;
args->_viewFrustum->evalProjectionMatrix(projMat);
args->_viewFrustum->evalViewTransform(viewMat);
if (args->_renderMode == RenderArgs::MIRROR_RENDER_MODE) {
viewMat.postScale(glm::vec3(-1.0f, 1.0f, 1.0f));
}
batch.setProjectionTransform(projMat);
batch.setViewTransform(viewMat);
{
GLenum buffers[3];
int bufferCount = 0;
buffers[bufferCount++] = GL_COLOR_ATTACHMENT0;
buffers[bufferCount++] = GL_COLOR_ATTACHMENT1;
buffers[bufferCount++] = GL_COLOR_ATTACHMENT2;
batch._glDrawBuffers(bufferCount, buffers);
}
renderItems(sceneContext, renderContext, renderedItems, renderContext->_maxDrawnOpaqueItems);
args->_context->render((*args->_batch));
args->_batch = nullptr;
}
}
template <> void render::jobRun(const DrawTransparent& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
PerformanceTimer perfTimer("DrawTransparent");
assert(renderContext->args);
assert(renderContext->args->_viewFrustum);
// render transparents
auto& scene = sceneContext->_scene;
auto& items = scene->getMasterBucket().at(ItemFilter::Builder::transparentShape());
auto& renderDetails = renderContext->args->_details;
ItemIDsBounds inItems;
inItems.reserve(items.size());
for (auto id : items) {
inItems.emplace_back(id);
}
ItemIDsBounds& renderedItems = inItems;
renderContext->_numFeedTransparentItems = renderedItems.size();
ItemIDsBounds culledItems;
culledItems.reserve(inItems.size());
if (renderContext->_cullTransparent) {
renderDetails.pointTo(RenderDetails::TRANSLUCENT_ITEM);
cullItems(sceneContext, renderContext, inItems, culledItems);
renderDetails.pointTo(RenderDetails::OTHER_ITEM);
renderedItems = culledItems;
}
renderContext->_numDrawnTransparentItems = renderedItems.size();
ItemIDsBounds sortedItems;
sortedItems.reserve(culledItems.size());
if (renderContext->_sortTransparent) {
depthSortItems(sceneContext, renderContext, false, renderedItems, sortedItems); // Sort Back to front transparent items!
renderedItems = sortedItems;
}
if (renderContext->_renderTransparent) {
RenderArgs* args = renderContext->args;
gpu::Batch batch;
args->_batch = &batch;
glm::mat4 projMat;
Transform viewMat;
args->_viewFrustum->evalProjectionMatrix(projMat);
args->_viewFrustum->evalViewTransform(viewMat);
if (args->_renderMode == RenderArgs::MIRROR_RENDER_MODE) {
viewMat.postScale(glm::vec3(-1.0f, 1.0f, 1.0f));
}
batch.setProjectionTransform(projMat);
batch.setViewTransform(viewMat);
const float MOSTLY_OPAQUE_THRESHOLD = 0.75f;
const float TRANSPARENT_ALPHA_THRESHOLD = 0.0f;
// render translucent meshes afterwards
{
GLenum buffers[2];
int bufferCount = 0;
buffers[bufferCount++] = GL_COLOR_ATTACHMENT1;
buffers[bufferCount++] = GL_COLOR_ATTACHMENT2;
batch._glDrawBuffers(bufferCount, buffers);
args->_alphaThreshold = MOSTLY_OPAQUE_THRESHOLD;
}
renderItems(sceneContext, renderContext, renderedItems, renderContext->_maxDrawnTransparentItems);
{
GLenum buffers[3];
int bufferCount = 0;
buffers[bufferCount++] = GL_COLOR_ATTACHMENT0;
batch._glDrawBuffers(bufferCount, buffers);
args->_alphaThreshold = TRANSPARENT_ALPHA_THRESHOLD;
}
renderItems(sceneContext, renderContext, renderedItems, renderContext->_maxDrawnTransparentItems);
args->_context->render((*args->_batch));
args->_batch = nullptr;
}
}
template <> void render::jobRun(const DrawLight& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
PerformanceTimer perfTimer("DrawLight");
void DrawLight::run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
assert(renderContext->args);
assert(renderContext->args->_viewFrustum);
@ -398,7 +270,8 @@ template <> void render::jobRun(const DrawLight& job, const SceneContextPointer&
ItemIDsBounds inItems;
inItems.reserve(items.size());
for (auto id : items) {
inItems.emplace_back(id);
auto item = scene->getItem(id);
inItems.emplace_back(ItemIDAndBounds(id, item.getBound()));
}
ItemIDsBounds culledItems;
@ -413,8 +286,7 @@ template <> void render::jobRun(const DrawLight& job, const SceneContextPointer&
args->_batch = nullptr;
}
template <> void render::jobRun(const DrawBackground& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
PerformanceTimer perfTimer("DrawBackground");
void DrawBackground::run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
assert(renderContext->args);
assert(renderContext->args->_viewFrustum);
@ -450,53 +322,6 @@ template <> void render::jobRun(const DrawBackground& job, const SceneContextPoi
args->_context->syncCache();
}
template <> void render::jobRun(const DrawPostLayered& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
PerformanceTimer perfTimer("DrawPostLayered");
assert(renderContext->args);
assert(renderContext->args->_viewFrustum);
// render backgrounds
auto& scene = sceneContext->_scene;
auto& items = scene->getMasterBucket().at(ItemFilter::Builder::opaqueShape().withLayered());
ItemIDsBounds inItems;
inItems.reserve(items.size());
for (auto id : items) {
auto& item = scene->getItem(id);
if (item.getKey().isVisible() && (item.getLayer() > 0)) {
inItems.emplace_back(id);
}
}
if (inItems.empty()) {
return;
}
RenderArgs* args = renderContext->args;
gpu::Batch batch;
args->_batch = &batch;
glm::mat4 projMat;
Transform viewMat;
args->_viewFrustum->evalProjectionMatrix(projMat);
args->_viewFrustum->evalViewTransform(viewMat);
if (args->_renderMode == RenderArgs::MIRROR_RENDER_MODE) {
viewMat.postScale(glm::vec3(-1.0f, 1.0f, 1.0f));
}
batch.setProjectionTransform(projMat);
batch.setViewTransform(viewMat);
batch.clearFramebuffer(gpu::Framebuffer::BUFFER_DEPTH, glm::vec4(), 1.f, 0);
renderItems(sceneContext, renderContext, inItems);
args->_context->render((*args->_batch));
args->_batch = nullptr;
// Force the context sync
args->_context->syncCache();
}
void ItemMaterialBucketMap::insert(const ItemID& id, const model::MaterialKey& key) {
// Insert the itemID in every bucket where it filters true
for (auto& bucket : (*this)) {

204
libraries/render/src/render/DrawTask.h
View file

@ -13,42 +13,173 @@
#define hifi_render_Task_h
#include "Engine.h"
#include "gpu/Batch.h"
#include <PerfStat.h>
namespace render {
template <class T> void jobRun(const T& jobModel, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) { }
template <class T> void jobRun(T& jobModel, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
jobModel.run(sceneContext, renderContext);
}
template <class T, class I> void jobRunI(T& jobModel, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, const I& input) {
jobModel.run(sceneContext, renderContext, input);
}
template <class T, class O> void jobRunO(T& jobModel, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, O& output) {
jobModel.run(sceneContext, renderContext, output);
}
template <class T, class I, class O> void jobRunIO(T& jobModel, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, const I& input, O& output) {
jobModel.run(sceneContext, renderContext, input, output);
}
class Job {
public:
template <class T>
Job(T data) : _concept(new Model<T>(data)) {}
// Varying represent a varying piece of data
class Varying {
public:
Varying(const Varying& var): _concept(var._concept) {}
Varying() {}
template <class T>
Varying(const T& data) : _concept(new Job::Varying::Model<T>(data)) {}
// Access the _data contained win the concept explicitely
template <class T> T& edit() { return (static_cast<Model<T>*> (_concept.get())->_data); }
template <class T> const T& get() const { return (static_cast<const Model<T>*> (_concept.get())->_data); }
protected:
friend class Job;
std::vector<std::weak_ptr<Job>> _consumerJobs;
void addJobConsumer(const std::shared_ptr<Job>& job) {
_consumerJobs.push_back(job);
}
class Concept {
public:
virtual ~Concept() = default;
};
template <class T> class Model : public Concept {
public:
typedef T Data;
Data _data;
Model(const Model& source): _data(source.data) {}
Model(const Data& data): _data(data) {}
virtual ~Model() {}
};
std::shared_ptr<Concept> _concept;
};
Job(const Job& other) : _concept(other._concept) {}
~Job();
virtual void run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
if (_concept) {
_concept->run(sceneContext, renderContext);
}
const std::string& getName() const { return _concept->getName(); }
const Varying getInput() const { return _concept->getInput(); }
const Varying getOutput() const { return _concept->getOutput(); }
void run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
PerformanceTimer perfTimer(getName().c_str());
PROFILE_RANGE(getName().c_str());
_concept->run(sceneContext, renderContext);
}
protected:
public:
class Concept {
std::string _name;
public:
Concept() : _name() {}
Concept(const std::string& name) : _name(name) {}
virtual ~Concept() = default;
void setName(const std::string& name) { _name = name; }
const std::string& getName() const { return _name; }
virtual const Varying getInput() const { return Varying(); }
virtual const Varying getOutput() const { return Varying(); }
virtual void run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) = 0;
};
Job(Concept* concept) : _concept(concept) {}
public:
template <class T> class Model : public Concept {
public:
typedef T Data;
Data _data;
Model() {}
Model(const std::string& name): Concept(name) {}
Model(Data data): _data(data) {}
Model(Data data, const std::string& name): Concept(name), _data(data) {}
void run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) { jobRun(_data, sceneContext, renderContext); }
};
template <class T, class I> class ModelI : public Concept {
public:
typedef T Data;
typedef I Input;
Data _data;
Varying _input;
const Varying getInput() const { return _input; }
ModelI(const std::string& name, const Varying& input): Concept(name), _input(input) {}
ModelI(const std::string& name, Data data): Concept(name), _data(data) {}
void run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) { jobRunI(_data, sceneContext, renderContext, _input.get<I>()); }
};
template <class T, class O> class ModelO : public Concept {
public:
typedef T Data;
typedef O Output;
Data _data;
Varying _output;
const Varying getOutput() const { return _output; }
ModelO(const std::string& name): Concept(name), _output(Output()) {
}
ModelO(const std::string& name, Data data): Concept(name), _data(data), _output(Output()) {}
void run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) {
jobRunO(_data, sceneContext, renderContext, _output.edit<O>());
}
};
template <class T, class I, class O> class ModelIO : public Concept {
public:
typedef T Data;
typedef I Input;
typedef O Output;
Data _data;
Varying _input;
Varying _output;
const Varying getInput() const { return _input; }
const Varying getOutput() const { return _output; }
ModelIO(const std::string& name, const Varying& input, Data data = Data()): Concept(name), _data(data), _input(input), _output(Output()) {}
ModelIO(const std::string& name, Data data, Output output): Concept(name), _data(data), _output(output) {}
void setInput(const Varying& input) { _input = input; }
void run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext) { jobRunIO(_data, sceneContext, renderContext, _input.get<I>(), _output.edit<O>()); }
};
std::shared_ptr<Concept> _concept;
};
@ -62,43 +193,59 @@ void depthSortItems(const SceneContextPointer& sceneContext, const RenderContext
void renderItems(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, const ItemIDsBounds& inItems, int maxDrawnItems = -1);
void materialSortItems(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, const ItemIDsBounds& inItems, ItemIDsBounds& outItems);
class DrawOpaque {
class FetchItems {
public:
typedef std::function<void (const RenderContextPointer& context, int count)> ProbeNumItems;
FetchItems(const ProbeNumItems& probe): _probeNumItems(probe) {}
FetchItems(const ItemFilter& filter, const ProbeNumItems& probe): _filter(filter), _probeNumItems(probe) {}
ItemFilter _filter = ItemFilter::Builder::opaqueShape().withoutLayered();
ProbeNumItems _probeNumItems;
void run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, ItemIDsBounds& outItems);
typedef Job::ModelO<FetchItems, ItemIDsBounds> JobModel;
};
template <> void jobRun(const DrawOpaque& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext);
class DrawTransparent {
class CullItems {
public:
void run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, const ItemIDsBounds& inItems, ItemIDsBounds& outItems);
typedef Job::ModelIO<CullItems, ItemIDsBounds, ItemIDsBounds> JobModel;
};
class DepthSortItems {
public:
bool _frontToBack = true;
DepthSortItems(bool frontToBack = true) : _frontToBack(frontToBack) {}
void run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, const ItemIDsBounds& inItems, ItemIDsBounds& outITems);
typedef Job::ModelIO<DepthSortItems, ItemIDsBounds, ItemIDsBounds> JobModel;
};
template <> void jobRun(const DrawTransparent& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext);
class DrawLight {
public:
void run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext);
typedef Job::Model<DrawLight> JobModel;
};
template <> void jobRun(const DrawLight& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext);
class DrawBackground {
public:
void run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext);
typedef Job::Model<DrawBackground> JobModel;
};
template <> void jobRun(const DrawBackground& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext);
class DrawPostLayered {
public:
};
template <> void jobRun(const DrawPostLayered& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext);
class ResetGLState {
public:
void run(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext);
typedef Job::Model<ResetGLState> JobModel;
};
template <> void jobRun(const ResetGLState& job, const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext);
class DrawSceneTask : public Task {
@ -126,6 +273,7 @@ public:
// standard builders allocating the main buckets
void allocateStandardMaterialBuckets();
};
void materialSortItems(const SceneContextPointer& sceneContext, const RenderContextPointer& renderContext, const ItemIDsBounds& inItems, ItemIDsBounds& outItems);
}

4
libraries/render/src/render/Engine.h
View file

@ -45,6 +45,10 @@ public:
int _numDrawnTransparentItems = 0;
int _maxDrawnTransparentItems = -1;
int _numFeedOverlay3DItems = 0;
int _numDrawnOverlay3DItems = 0;
int _maxDrawnOverlay3DItems = -1;
RenderContext() {}
};
typedef std::shared_ptr<RenderContext> RenderContextPointer;

2
libraries/script-engine/src/SceneScriptingInterface.cpp
View file

@ -159,4 +159,6 @@ void SceneScriptingInterface::clearEngineCounters() {
_numDrawnOpaqueItems = 0;
_numFeedTransparentItems = 0;
_numDrawnTransparentItems = 0;
_numFeedOverlay3DItems = 0;
_numDrawnOverlay3DItems = 0;
}

10
libraries/script-engine/src/SceneScriptingInterface.h
View file

@ -90,17 +90,22 @@ public:
Q_INVOKABLE int getEngineNumDrawnOpaqueItems() { return _numDrawnOpaqueItems; }
void setEngineDrawnTransparentItems(int count) { _numDrawnTransparentItems = count; }
Q_INVOKABLE int getEngineNumDrawnTransparentItems() { return _numDrawnTransparentItems; }
void setEngineDrawnOverlay3DItems(int count) { _numDrawnOverlay3DItems = count; }
Q_INVOKABLE int getEngineNumDrawnOverlay3DItems() { return _numDrawnOverlay3DItems; }
void setEngineFeedOpaqueItems(int count) { _numFeedOpaqueItems = count; }
Q_INVOKABLE int getEngineNumFeedOpaqueItems() { return _numFeedOpaqueItems; }
void setEngineFeedTransparentItems(int count) { _numFeedTransparentItems = count; }
Q_INVOKABLE int getEngineNumFeedTransparentItems() { return _numFeedTransparentItems; }
void setEngineFeedOverlay3DItems(int count) { _numFeedOverlay3DItems = count; }
Q_INVOKABLE int getEngineNumFeedOverlay3DItems() { return _numFeedOverlay3DItems; }
Q_INVOKABLE void setEngineMaxDrawnOpaqueItems(int count) { _maxDrawnOpaqueItems = count; }
Q_INVOKABLE int getEngineMaxDrawnOpaqueItems() { return _maxDrawnOpaqueItems; }
Q_INVOKABLE void setEngineMaxDrawnTransparentItems(int count) { _maxDrawnTransparentItems = count; }
Q_INVOKABLE int getEngineMaxDrawnTransparentItems() { return _maxDrawnTransparentItems; }
Q_INVOKABLE void setEngineMaxDrawnOverlay3DItems(int count) { _maxDrawnOverlay3DItems = count; }
Q_INVOKABLE int getEngineMaxDrawnOverlay3DItems() { return _maxDrawnOverlay3DItems; }
signals:
void shouldRenderAvatarsChanged(bool shouldRenderAvatars);
void shouldRenderEntitiesChanged(bool shouldRenderEntities);
@ -124,9 +129,12 @@ protected:
int _numDrawnOpaqueItems = 0;
int _numFeedTransparentItems = 0;
int _numDrawnTransparentItems = 0;
int _numFeedOverlay3DItems = 0;
int _numDrawnOverlay3DItems = 0;
int _maxDrawnOpaqueItems = -1;
int _maxDrawnTransparentItems = -1;
int _maxDrawnOverlay3DItems = -1;
};