Merge branch 'master' of github.com:highfidelity/hifi into model-scripting-2

interface/src/Menu.cpp

@@ -510,6 +510,8 @@ Menu::Menu() {
         avatar.get(), SLOT(setEnableInverseKinematics(bool)));
     addCheckableActionToQMenuAndActionHash(avatarDebugMenu, MenuOption::RenderSensorToWorldMatrix, 0, false,
         avatar.get(), SLOT(setEnableDebugDrawSensorToWorldMatrix(bool)));
+    addCheckableActionToQMenuAndActionHash(avatarDebugMenu, MenuOption::RenderIKTargets, 0, false,
+        avatar.get(), SLOT(setEnableDebugDrawIKTargets(bool)));
 
     addCheckableActionToQMenuAndActionHash(avatarDebugMenu, MenuOption::ActionMotorControl,
         Qt::CTRL | Qt::SHIFT | Qt::Key_K, true, avatar.get(), SLOT(updateMotionBehaviorFromMenu()),

interface/src/Menu.h

@@ -161,6 +161,7 @@ namespace MenuOption {
     const QString RenderResolutionThird = "1/3";
     const QString RenderResolutionQuarter = "1/4";
     const QString RenderSensorToWorldMatrix = "Show SensorToWorld Matrix";
+    const QString RenderIKTargets = "Show IK Targets";
     const QString ResetAvatarSize = "Reset Avatar Size";
     const QString ResetSensors = "Reset Sensors";
     const QString RunningScripts = "Running Scripts...";

interface/src/avatar/MyAvatar.cpp

@@ -491,6 +491,11 @@ void MyAvatar::simulate(float deltaTime) {
 
     {
         PerformanceTimer perfTimer("skeleton");
+
+        if (_rig) {
+            _rig->setEnableDebugDrawIKTargets(_enableDebugDrawIKTargets);
+        }
+
         _skeletonModel->simulate(deltaTime);
     }
 
@@ -916,6 +921,10 @@ void MyAvatar::setEnableDebugDrawSensorToWorldMatrix(bool isEnabled) {
     }
 }
 
+void MyAvatar::setEnableDebugDrawIKTargets(bool isEnabled) {
+    _enableDebugDrawIKTargets = isEnabled;
+}
+
 void MyAvatar::setEnableMeshVisible(bool isEnabled) {
     render::ScenePointer scene = qApp->getMain3DScene();
     _skeletonModel->setVisibleInScene(isEnabled, scene);

interface/src/avatar/MyAvatar.h

@@ -482,6 +482,7 @@ public slots:
     void setEnableDebugDrawPosition(bool isEnabled);
     void setEnableDebugDrawHandControllers(bool isEnabled);
     void setEnableDebugDrawSensorToWorldMatrix(bool isEnabled);
+    void setEnableDebugDrawIKTargets(bool isEnabled);
     bool getEnableMeshVisible() const { return _skeletonModel->isVisible(); }
     void setEnableMeshVisible(bool isEnabled);
     void setUseAnimPreAndPostRotations(bool isEnabled);
@@ -668,6 +669,7 @@ private:
     bool _enableDebugDrawAnimPose { false };
     bool _enableDebugDrawHandControllers { false };
     bool _enableDebugDrawSensorToWorldMatrix { false };
+    bool _enableDebugDrawIKTargets { false };
 
     AudioListenerMode _audioListenerMode;
     glm::vec3 _customListenPosition;

libraries/animation/src/AnimBlendLinear.cpp

@@ -24,7 +24,7 @@ AnimBlendLinear::~AnimBlendLinear() {
 
 }
 
-const AnimPoseVec& AnimBlendLinear::evaluate(const AnimVariantMap& animVars, float dt, Triggers& triggersOut) {
+const AnimPoseVec& AnimBlendLinear::evaluate(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut) {
 
     _alpha = animVars.lookup(_alphaVar, _alpha);
 
@@ -33,7 +33,7 @@ const AnimPoseVec& AnimBlendLinear::evaluate(const AnimVariantMap& animVars, flo
             pose = AnimPose::identity;
         }
     } else if (_children.size() == 1) {
-        _poses = _children[0]->evaluate(animVars, dt, triggersOut);
+        _poses = _children[0]->evaluate(animVars, context, dt, triggersOut);
     } else {
 
         float clampedAlpha = glm::clamp(_alpha, 0.0f, (float)(_children.size() - 1));
@@ -41,7 +41,7 @@ const AnimPoseVec& AnimBlendLinear::evaluate(const AnimVariantMap& animVars, flo
         size_t nextPoseIndex = glm::ceil(clampedAlpha);
         float alpha = glm::fract(clampedAlpha);
 
-        evaluateAndBlendChildren(animVars, triggersOut, alpha, prevPoseIndex, nextPoseIndex, dt);
+        evaluateAndBlendChildren(animVars, context, triggersOut, alpha, prevPoseIndex, nextPoseIndex, dt);
     }
     return _poses;
 }
@@ -51,15 +51,15 @@ const AnimPoseVec& AnimBlendLinear::getPosesInternal() const {
     return _poses;
 }
 
-void AnimBlendLinear::evaluateAndBlendChildren(const AnimVariantMap& animVars, Triggers& triggersOut, float alpha,
+void AnimBlendLinear::evaluateAndBlendChildren(const AnimVariantMap& animVars, const AnimContext& context, Triggers& triggersOut, float alpha,
                                                size_t prevPoseIndex, size_t nextPoseIndex, float dt) {
     if (prevPoseIndex == nextPoseIndex) {
         // this can happen if alpha is on an integer boundary
-        _poses = _children[prevPoseIndex]->evaluate(animVars, dt, triggersOut);
+        _poses = _children[prevPoseIndex]->evaluate(animVars, context, dt, triggersOut);
     } else {
         // need to eval and blend between two children.
-        auto prevPoses = _children[prevPoseIndex]->evaluate(animVars, dt, triggersOut);
-        auto nextPoses = _children[nextPoseIndex]->evaluate(animVars, dt, triggersOut);
+        auto prevPoses = _children[prevPoseIndex]->evaluate(animVars, context, dt, triggersOut);
+        auto nextPoses = _children[nextPoseIndex]->evaluate(animVars, context, dt, triggersOut);
 
         if (prevPoses.size() > 0 && prevPoses.size() == nextPoses.size()) {
             _poses.resize(prevPoses.size());

libraries/animation/src/AnimBlendLinear.h

@@ -30,7 +30,7 @@ public:
     AnimBlendLinear(const QString& id, float alpha);
     virtual ~AnimBlendLinear() override;
 
-    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, float dt, Triggers& triggersOut) override;
+    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut) override;
 
     void setAlphaVar(const QString& alphaVar) { _alphaVar = alphaVar; }
 
@@ -38,7 +38,7 @@ protected:
     // for AnimDebugDraw rendering
     virtual const AnimPoseVec& getPosesInternal() const override;
 
-    void evaluateAndBlendChildren(const AnimVariantMap& animVars, Triggers& triggersOut, float alpha,
+    void evaluateAndBlendChildren(const AnimVariantMap& animVars, const AnimContext& context, Triggers& triggersOut, float alpha,
                                   size_t prevPoseIndex, size_t nextPoseIndex, float dt);
 
     AnimPoseVec _poses;

libraries/animation/src/AnimBlendLinearMove.cpp

@@ -26,7 +26,7 @@ AnimBlendLinearMove::~AnimBlendLinearMove() {
 
 }
 
-const AnimPoseVec& AnimBlendLinearMove::evaluate(const AnimVariantMap& animVars, float dt, Triggers& triggersOut) {
+const AnimPoseVec& AnimBlendLinearMove::evaluate(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut) {
 
     assert(_children.size() == _characteristicSpeeds.size());
 
@@ -43,7 +43,7 @@ const AnimPoseVec& AnimBlendLinearMove::evaluate(const AnimVariantMap& animVars,
         const int nextPoseIndex = 0;
         float prevDeltaTime, nextDeltaTime;
         setFrameAndPhase(dt, alpha, prevPoseIndex, nextPoseIndex, &prevDeltaTime, &nextDeltaTime, triggersOut);
-        evaluateAndBlendChildren(animVars, triggersOut, alpha, prevPoseIndex, nextPoseIndex, prevDeltaTime, nextDeltaTime);
+        evaluateAndBlendChildren(animVars, context, triggersOut, alpha, prevPoseIndex, nextPoseIndex, prevDeltaTime, nextDeltaTime);
     } else {
 
         auto clampedAlpha = glm::clamp(_alpha, 0.0f, (float)(_children.size() - 1));
@@ -52,7 +52,7 @@ const AnimPoseVec& AnimBlendLinearMove::evaluate(const AnimVariantMap& animVars,
         auto alpha = glm::fract(clampedAlpha);
         float prevDeltaTime, nextDeltaTime;
         setFrameAndPhase(dt, alpha, prevPoseIndex, nextPoseIndex, &prevDeltaTime, &nextDeltaTime, triggersOut);
-        evaluateAndBlendChildren(animVars, triggersOut, alpha, prevPoseIndex, nextPoseIndex, prevDeltaTime, nextDeltaTime);
+        evaluateAndBlendChildren(animVars, context, triggersOut, alpha, prevPoseIndex, nextPoseIndex, prevDeltaTime, nextDeltaTime);
     }
     return _poses;
 }
@@ -62,16 +62,16 @@ const AnimPoseVec& AnimBlendLinearMove::getPosesInternal() const {
     return _poses;
 }
 
-void AnimBlendLinearMove::evaluateAndBlendChildren(const AnimVariantMap& animVars, Triggers& triggersOut, float alpha,
+void AnimBlendLinearMove::evaluateAndBlendChildren(const AnimVariantMap& animVars, const AnimContext& context, Triggers& triggersOut, float alpha,
                                                    size_t prevPoseIndex, size_t nextPoseIndex,
                                                    float prevDeltaTime, float nextDeltaTime) {
     if (prevPoseIndex == nextPoseIndex) {
         // this can happen if alpha is on an integer boundary
-        _poses = _children[prevPoseIndex]->evaluate(animVars, prevDeltaTime, triggersOut);
+        _poses = _children[prevPoseIndex]->evaluate(animVars, context, prevDeltaTime, triggersOut);
     } else {
         // need to eval and blend between two children.
-        auto prevPoses = _children[prevPoseIndex]->evaluate(animVars, prevDeltaTime, triggersOut);
-        auto nextPoses = _children[nextPoseIndex]->evaluate(animVars, nextDeltaTime, triggersOut);
+        auto prevPoses = _children[prevPoseIndex]->evaluate(animVars, context, prevDeltaTime, triggersOut);
+        auto nextPoses = _children[nextPoseIndex]->evaluate(animVars, context, nextDeltaTime, triggersOut);
 
         if (prevPoses.size() > 0 && prevPoses.size() == nextPoses.size()) {
             _poses.resize(prevPoses.size());

libraries/animation/src/AnimBlendLinearMove.h

@@ -39,7 +39,7 @@ public:
     AnimBlendLinearMove(const QString& id, float alpha, float desiredSpeed, const std::vector<float>& characteristicSpeeds);
     virtual ~AnimBlendLinearMove() override;
 
-    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, float dt, Triggers& triggersOut) override;
+    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut) override;
 
     void setAlphaVar(const QString& alphaVar) { _alphaVar = alphaVar; }
     void setDesiredSpeedVar(const QString& desiredSpeedVar) { _desiredSpeedVar = desiredSpeedVar; }
@@ -48,7 +48,7 @@ protected:
     // for AnimDebugDraw rendering
     virtual const AnimPoseVec& getPosesInternal() const override;
 
-    void evaluateAndBlendChildren(const AnimVariantMap& animVars, Triggers& triggersOut, float alpha,
+    void evaluateAndBlendChildren(const AnimVariantMap& animVars, const AnimContext& context, Triggers& triggersOut, float alpha,
                                   size_t prevPoseIndex, size_t nextPoseIndex,
                                   float prevDeltaTime, float nextDeltaTime);
 

libraries/animation/src/AnimClip.cpp

@@ -31,7 +31,7 @@ AnimClip::~AnimClip() {
 
 }
 
-const AnimPoseVec& AnimClip::evaluate(const AnimVariantMap& animVars, float dt, Triggers& triggersOut) {
+const AnimPoseVec& AnimClip::evaluate(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut) {
 
     // lookup parameters from animVars, using current instance variables as defaults.
     _startFrame = animVars.lookup(_startFrameVar, _startFrame);

libraries/animation/src/AnimClip.h

@@ -30,7 +30,7 @@ public:
     AnimClip(const QString& id, const QString& url, float startFrame, float endFrame, float timeScale, bool loopFlag, bool mirrorFlag);
     virtual ~AnimClip() override;
 
-    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, float dt, Triggers& triggersOut) override;
+    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut) override;
 
     void setStartFrameVar(const QString& startFrameVar) { _startFrameVar = startFrameVar; }
     void setEndFrameVar(const QString& endFrameVar) { _endFrameVar = endFrameVar; }

libraries/animation/src/AnimContext.cpp

@@ -0,0 +1,16 @@
+//
+//  AnimContext.cpp
+//
+//  Created by Anthony J. Thibault on 9/19/16.
+//  Copyright (c) 2016 High Fidelity, Inc. All rights reserved.
+//
+//  Distributed under the Apache License, Version 2.0.
+//  See the accompanying file LICENSE or http://www.apache.org/licenses/LICENSE-2.0.html
+//
+
+#include "AnimContext.h"
+
+AnimContext::AnimContext(bool enableDebugDrawIKTargets, const glm::mat4& geometryToRigMatrix) :
+    _enableDebugDrawIKTargets(enableDebugDrawIKTargets),
+    _geometryToRigMatrix(geometryToRigMatrix) {
+}

libraries/animation/src/AnimContext.h

@@ -0,0 +1,30 @@
+//
+//  AnimContext.h
+//
+//  Created by Anthony J. Thibault on 9/19/16.
+//  Copyright (c) 2016 High Fidelity, Inc. All rights reserved.
+//
+//  Distributed under the Apache License, Version 2.0.
+//  See the accompanying file LICENSE or http://www.apache.org/licenses/LICENSE-2.0.html
+//
+
+#ifndef hifi_AnimContext_h
+#define hifi_AnimContext_h
+
+#include <glm/glm.hpp>
+#include <glm/gtc/quaternion.hpp>
+
+class AnimContext {
+public:
+    AnimContext(bool enableDebugDrawIKTargets, const glm::mat4& geometryToRigMatrix);
+
+    bool getEnableDebugDrawIKTargets() const { return _enableDebugDrawIKTargets; }
+    const glm::mat4& getGeometryToRigMatrix() const { return _geometryToRigMatrix; }
+
+protected:
+
+    bool _enableDebugDrawIKTargets { false };
+    glm::mat4 _geometryToRigMatrix;
+};
+
+#endif  // hifi_AnimContext_h

libraries/animation/src/AnimInverseKinematics.cpp

@@ -14,6 +14,8 @@
 #include <NumericalConstants.h>
 #include <SharedUtil.h>
 #include <shared/NsightHelpers.h>
+#include <DebugDraw.h>
+#include "Rig.h"
 
 #include "ElbowConstraint.h"
 #include "SwingTwistConstraint.h"
@@ -378,14 +380,14 @@ int AnimInverseKinematics::solveTargetWithCCD(const IKTarget& target, AnimPoseVe
 }
 
 //virtual
-const AnimPoseVec& AnimInverseKinematics::evaluate(const AnimVariantMap& animVars, float dt, AnimNode::Triggers& triggersOut) {
+const AnimPoseVec& AnimInverseKinematics::evaluate(const AnimVariantMap& animVars, const AnimContext& context, float dt, AnimNode::Triggers& triggersOut) {
     // don't call this function, call overlay() instead
     assert(false);
     return _relativePoses;
 }
 
 //virtual
-const AnimPoseVec& AnimInverseKinematics::overlay(const AnimVariantMap& animVars, float dt, Triggers& triggersOut, const AnimPoseVec& underPoses) {
+const AnimPoseVec& AnimInverseKinematics::overlay(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut, const AnimPoseVec& underPoses) {
 
     const float MAX_OVERLAY_DT = 1.0f / 30.0f; // what to clamp delta-time to in AnimInverseKinematics::overlay
     if (dt > MAX_OVERLAY_DT) {
@@ -439,6 +441,28 @@ const AnimPoseVec& AnimInverseKinematics::overlay(const AnimVariantMap& animVars
             computeTargets(animVars, targets, underPoses);
         }
 
+        // debug render ik targets
+        if (context.getEnableDebugDrawIKTargets()) {
+            const vec4 WHITE(1.0f);
+            glm::mat4 rigToAvatarMat = createMatFromQuatAndPos(Quaternions::Y_180, glm::vec3());
+
+            for (auto& target : targets) {
+                glm::mat4 geomTargetMat = createMatFromQuatAndPos(target.getRotation(), target.getTranslation());
+                glm::mat4 avatarTargetMat = rigToAvatarMat * context.getGeometryToRigMatrix() * geomTargetMat;
+
+                QString name = QString("ikTarget%1").arg(target.getIndex());
+                DebugDraw::getInstance().addMyAvatarMarker(name, glmExtractRotation(avatarTargetMat), extractTranslation(avatarTargetMat), WHITE);
+            }
+        } else if (context.getEnableDebugDrawIKTargets() != _previousEnableDebugIKTargets) {
+            // remove markers if they were added last frame.
+            for (auto& target : targets) {
+                QString name = QString("ikTarget%1").arg(target.getIndex());
+                DebugDraw::getInstance().removeMyAvatarMarker(name);
+            }
+        }
+
+        _previousEnableDebugIKTargets = context.getEnableDebugDrawIKTargets();
+
         if (targets.empty()) {
             // no IK targets but still need to enforce constraints
             std::map<int, RotationConstraint*>::iterator constraintItr = _constraints.begin();

libraries/animation/src/AnimInverseKinematics.h

@@ -34,8 +34,8 @@ public:
 
     void setTargetVars(const QString& jointName, const QString& positionVar, const QString& rotationVar, const QString& typeVar);
 
-    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, float dt, AnimNode::Triggers& triggersOut) override;
-    virtual const AnimPoseVec& overlay(const AnimVariantMap& animVars, float dt, Triggers& triggersOut, const AnimPoseVec& underPoses) override;
+    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, const AnimContext& context, float dt, AnimNode::Triggers& triggersOut) override;
+    virtual const AnimPoseVec& overlay(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut, const AnimPoseVec& underPoses) override;
 
     void clearIKJointLimitHistory();
 
@@ -97,6 +97,7 @@ protected:
     int _maxTargetIndex { 0 };
 
     float _maxErrorOnLastSolve { FLT_MAX };
+    bool _previousEnableDebugIKTargets { false };
 };
 
 #endif // hifi_AnimInverseKinematics_h

libraries/animation/src/AnimManipulator.cpp

@@ -22,11 +22,11 @@ AnimManipulator::~AnimManipulator() {
 
 }
 
-const AnimPoseVec& AnimManipulator::evaluate(const AnimVariantMap& animVars, float dt, Triggers& triggersOut) {
-    return overlay(animVars, dt, triggersOut, _skeleton->getRelativeBindPoses());
+const AnimPoseVec& AnimManipulator::evaluate(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut) {
+    return overlay(animVars, context, dt, triggersOut, _skeleton->getRelativeBindPoses());
 }
 
-const AnimPoseVec& AnimManipulator::overlay(const AnimVariantMap& animVars, float dt, Triggers& triggersOut, const AnimPoseVec& underPoses) {
+const AnimPoseVec& AnimManipulator::overlay(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut, const AnimPoseVec& underPoses) {
     _alpha = animVars.lookup(_alphaVar, _alpha);
 
     _poses = underPoses;

libraries/animation/src/AnimManipulator.h

@@ -22,8 +22,8 @@ public:
     AnimManipulator(const QString& id, float alpha);
     virtual ~AnimManipulator() override;
 
-    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, float dt, Triggers& triggersOut) override;
-    virtual const AnimPoseVec& overlay(const AnimVariantMap& animVars, float dt, Triggers& triggersOut, const AnimPoseVec& underPoses) override;
+    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut) override;
+    virtual const AnimPoseVec& overlay(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut, const AnimPoseVec& underPoses) override;
 
     void setAlphaVar(const QString& alphaVar) { _alphaVar = alphaVar; }
 

libraries/animation/src/AnimNode.h

@@ -20,6 +20,7 @@
 
 #include "AnimSkeleton.h"
 #include "AnimVariant.h"
+#include "AnimContext.h"
 
 class QJsonObject;
 
@@ -72,9 +73,10 @@ public:
 
     AnimSkeleton::ConstPointer getSkeleton() const { return _skeleton; }
 
-    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, float dt, Triggers& triggersOut) = 0;
-    virtual const AnimPoseVec& overlay(const AnimVariantMap& animVars, float dt, Triggers& triggersOut, const AnimPoseVec& underPoses) {
-        return evaluate(animVars, dt, triggersOut);
+    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut) = 0;
+    virtual const AnimPoseVec& overlay(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut,
+                                       const AnimPoseVec& underPoses) {
+        return evaluate(animVars, context, dt, triggersOut);
     }
 
     void setCurrentFrame(float frame);

libraries/animation/src/AnimOverlay.cpp

@@ -39,7 +39,7 @@ void AnimOverlay::buildBoneSet(BoneSet boneSet) {
     }
 }
 
-const AnimPoseVec& AnimOverlay::evaluate(const AnimVariantMap& animVars, float dt, Triggers& triggersOut) {
+const AnimPoseVec& AnimOverlay::evaluate(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut) {
 
     // lookup parameters from animVars, using current instance variables as defaults.
     // NOTE: switching bonesets can be an expensive operation, let's try to avoid it.
@@ -51,8 +51,8 @@ const AnimPoseVec& AnimOverlay::evaluate(const AnimVariantMap& animVars, float d
     _alpha = animVars.lookup(_alphaVar, _alpha);
 
     if (_children.size() >= 2) {
-        auto& underPoses = _children[1]->evaluate(animVars, dt, triggersOut);
-        auto& overPoses = _children[0]->overlay(animVars, dt, triggersOut, underPoses);
+        auto& underPoses = _children[1]->evaluate(animVars, context, dt, triggersOut);
+        auto& overPoses = _children[0]->overlay(animVars, context, dt, triggersOut, underPoses);
 
         if (underPoses.size() > 0 && underPoses.size() == overPoses.size()) {
             _poses.resize(underPoses.size());

libraries/animation/src/AnimOverlay.h

@@ -43,7 +43,7 @@ public:
     AnimOverlay(const QString& id, BoneSet boneSet, float alpha);
     virtual ~AnimOverlay() override;
 
-    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, float dt, Triggers& triggersOut) override;
+    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut) override;
 
     void setBoneSetVar(const QString& boneSetVar) { _boneSetVar = boneSetVar; }
     void setAlphaVar(const QString& alphaVar) { _alphaVar = alphaVar; }

libraries/animation/src/AnimStateMachine.cpp

@@ -21,7 +21,7 @@ AnimStateMachine::~AnimStateMachine() {
 
 }
 
-const AnimPoseVec& AnimStateMachine::evaluate(const AnimVariantMap& animVars, float dt, Triggers& triggersOut) {
+const AnimPoseVec& AnimStateMachine::evaluate(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut) {
 
     QString desiredStateID = animVars.lookup(_currentStateVar, _currentState->getID());
     if (_currentState->getID() != desiredStateID) {
@@ -29,7 +29,7 @@ const AnimPoseVec& AnimStateMachine::evaluate(const AnimVariantMap& animVars, fl
         bool foundState = false;
         for (auto& state : _states) {
             if (state->getID() == desiredStateID) {
-                switchState(animVars, state);
+                switchState(animVars, context, state);
                 foundState = true;
                 break;
             }
@@ -42,7 +42,7 @@ const AnimPoseVec& AnimStateMachine::evaluate(const AnimVariantMap& animVars, fl
     // evaluate currentState transitions
     auto desiredState = evaluateTransitions(animVars);
     if (desiredState != _currentState) {
-        switchState(animVars, desiredState);
+        switchState(animVars, context, desiredState);
     }
 
     assert(_currentState);
@@ -62,7 +62,7 @@ const AnimPoseVec& AnimStateMachine::evaluate(const AnimVariantMap& animVars, fl
             } else if (_interpType == InterpType::SnapshotPrev) {
                 // interp between the prev snapshot and evaluated next target.
                 // this is useful for interping into a blend
-                localNextPoses = currentStateNode->evaluate(animVars, dt, triggersOut);
+                localNextPoses = currentStateNode->evaluate(animVars, context, dt, triggersOut);
                 prevPoses = &_prevPoses;
                 nextPoses = &localNextPoses;
             } else {
@@ -79,7 +79,7 @@ const AnimPoseVec& AnimStateMachine::evaluate(const AnimVariantMap& animVars, fl
         }
     }
     if (!_duringInterp) {
-        _poses = currentStateNode->evaluate(animVars, dt, triggersOut);
+        _poses = currentStateNode->evaluate(animVars, context, dt, triggersOut);
     }
     return _poses;
 }
@@ -92,7 +92,7 @@ void AnimStateMachine::addState(State::Pointer state) {
     _states.push_back(state);
 }
 
-void AnimStateMachine::switchState(const AnimVariantMap& animVars, State::Pointer desiredState) {
+void AnimStateMachine::switchState(const AnimVariantMap& animVars, const AnimContext& context, State::Pointer desiredState) {
 
     const float FRAMES_PER_SECOND = 30.0f;
 
@@ -114,7 +114,7 @@ void AnimStateMachine::switchState(const AnimVariantMap& animVars, State::Pointe
         _prevPoses = _poses;
         // snapshot next pose at the target frame.
         nextStateNode->setCurrentFrame(desiredState->_interpTarget);
-        _nextPoses = nextStateNode->evaluate(animVars, dt, triggers);
+        _nextPoses = nextStateNode->evaluate(animVars, context, dt, triggers);
     } else if (_interpType == InterpType::SnapshotPrev) {
         // snapshot previoius pose
         _prevPoses = _poses;

libraries/animation/src/AnimStateMachine.h

@@ -113,7 +113,7 @@ public:
     explicit AnimStateMachine(const QString& id);
     virtual ~AnimStateMachine() override;
 
-    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, float dt, Triggers& triggersOut) override;
+    virtual const AnimPoseVec& evaluate(const AnimVariantMap& animVars, const AnimContext& context, float dt, Triggers& triggersOut) override;
 
     void setCurrentStateVar(QString& currentStateVar) { _currentStateVar = currentStateVar; }
 
@@ -123,7 +123,7 @@ protected:
 
     void addState(State::Pointer state);
 
-    void switchState(const AnimVariantMap& animVars, State::Pointer desiredState);
+    void switchState(const AnimVariantMap& animVars, const AnimContext& context, State::Pointer desiredState);
     State::Pointer evaluateTransitions(const AnimVariantMap& animVars) const;
 
     // for AnimDebugDraw rendering

libraries/animation/src/Rig.cpp

@@ -950,9 +950,11 @@ void Rig::updateAnimations(float deltaTime, glm::mat4 rootTransform) {
         updateAnimationStateHandlers();
         _animVars.setRigToGeometryTransform(_rigToGeometryTransform);
 
+        AnimContext context(_enableDebugDrawIKTargets, getGeometryToRigTransform());
+
         // evaluate the animation
         AnimNode::Triggers triggersOut;
-        _internalPoseSet._relativePoses = _animNode->evaluate(_animVars, deltaTime, triggersOut);
+        _internalPoseSet._relativePoses = _animNode->evaluate(_animVars, context, deltaTime, triggersOut);
         if ((int)_internalPoseSet._relativePoses.size() != _animSkeleton->getNumJoints()) {
             // animations haven't fully loaded yet.
             _internalPoseSet._relativePoses = _animSkeleton->getRelativeDefaultPoses();
@@ -1427,9 +1429,10 @@ void Rig::computeAvatarBoundingCapsule(
 
     // call overlay twice: once to verify AnimPoseVec joints and again to do the IK
     AnimNode::Triggers triggersOut;
+    AnimContext context(false, glm::mat4());
     float dt = 1.0f; // the value of this does not matter
-    ikNode.overlay(animVars, dt, triggersOut, _animSkeleton->getRelativeBindPoses());
-    AnimPoseVec finalPoses =  ikNode.overlay(animVars, dt, triggersOut, _animSkeleton->getRelativeBindPoses());
+    ikNode.overlay(animVars, context, dt, triggersOut, _animSkeleton->getRelativeBindPoses());
+    AnimPoseVec finalPoses =  ikNode.overlay(animVars, context, dt, triggersOut, _animSkeleton->getRelativeBindPoses());
 
     // convert relative poses to absolute
     _animSkeleton->convertRelativePosesToAbsolute(finalPoses);

libraries/animation/src/Rig.h

@@ -219,6 +219,8 @@ public:
 
     const glm::mat4& getGeometryToRigTransform() const { return _geometryToRigTransform; }
 
+    void setEnableDebugDrawIKTargets(bool enableDebugDrawIKTargets) { _enableDebugDrawIKTargets = enableDebugDrawIKTargets; }
+
 signals:
     void onLoadComplete();
 
@@ -324,7 +326,8 @@ protected:
 
     mutable uint32_t _jointNameWarningCount { 0 };
     float _maxHipsOffsetLength { 1.0f };
-    float _maxErrorOnLastSolve { 0.0f };
+
+    bool _enableDebugDrawIKTargets { false };
 
 private:
     QMap<int, StateHandler> _stateHandlers;

libraries/entities-renderer/src/EntityTreeRenderer.cpp

@@ -608,7 +608,6 @@ RayToEntityIntersectionResult EntityTreeRenderer::findRayIntersectionWorker(cons
             (void**)&intersectedEntity, lockType, &result.accurate);
         if (result.intersects && intersectedEntity) {
             result.entityID = intersectedEntity->getEntityItemID();
-            result.properties = intersectedEntity->getProperties();
             result.intersection = ray.origin + (ray.direction * result.distance);
             result.entity = intersectedEntity;
         }
@@ -704,7 +703,9 @@ void EntityTreeRenderer::mousePressEvent(QMouseEvent* event) {
     if (rayPickResult.intersects) {
         //qCDebug(entitiesrenderer) << "mousePressEvent over entity:" << rayPickResult.entityID;
 
-        QString urlString = rayPickResult.properties.getHref();
+        auto entity = getTree()->findEntityByEntityItemID(rayPickResult.entityID);
+        auto properties = entity->getProperties();
+        QString urlString = properties.getHref();
         QUrl url = QUrl(urlString, QUrl::StrictMode);
         if (url.isValid() && !url.isEmpty()){
             DependencyManager::get<AddressManager>()->handleLookupString(urlString);
@@ -750,12 +751,6 @@ void EntityTreeRenderer::mouseDoublePressEvent(QMouseEvent* event) {
     if (rayPickResult.intersects) {
         //qCDebug(entitiesrenderer) << "mouseDoublePressEvent over entity:" << rayPickResult.entityID;
 
-        QString urlString = rayPickResult.properties.getHref();
-        QUrl url = QUrl(urlString, QUrl::StrictMode);
-        if (url.isValid() && !url.isEmpty()){
-            DependencyManager::get<AddressManager>()->handleLookupString(urlString);
-        }
-
         glm::vec2 pos2D = projectOntoEntityXYPlane(rayPickResult.entity, ray, rayPickResult);
         PointerEvent pointerEvent(PointerEvent::Press, MOUSE_POINTER_ID,
             pos2D, rayPickResult.intersection,

libraries/entities-renderer/src/RenderableModelEntityItem.cpp

@@ -812,7 +812,7 @@ void RenderableModelEntityItem::computeShapeInfo(ShapeInfo& shapeInfo) {
         auto& meshes = _model->getGeometry()->getMeshes();
         int32_t numMeshes = (int32_t)(meshes.size());
 
-        const int MAX_ALLOWED_MESH_COUNT = 500;
+        const int MAX_ALLOWED_MESH_COUNT = 1000;
         if (numMeshes > MAX_ALLOWED_MESH_COUNT) {
             // too many will cause the deadlock timer to throw...
             shapeInfo.setParams(SHAPE_TYPE_BOX, 0.5f * dimensions);

libraries/entities/src/EntityScriptingInterface.cpp

@@ -674,7 +674,6 @@ RayToEntityIntersectionResult EntityScriptingInterface::findRayIntersectionWorke
             (void**)&intersectedEntity, lockType, &result.accurate);
         if (result.intersects && intersectedEntity) {
             result.entityID = intersectedEntity->getEntityItemID();
-            result.properties = intersectedEntity->getProperties();
             result.intersection = ray.origin + (ray.direction * result.distance);
         }
     }
@@ -839,7 +838,6 @@ RayToEntityIntersectionResult::RayToEntityIntersectionResult() :
     intersects(false),
     accurate(true), // assume it's accurate
     entityID(),
-    properties(),
     distance(0),
     face(),
     entity(NULL)
@@ -855,9 +853,6 @@ QScriptValue RayToEntityIntersectionResultToScriptValue(QScriptEngine* engine, c
     QScriptValue entityItemValue = EntityItemIDtoScriptValue(engine, value.entityID);
     obj.setProperty("entityID", entityItemValue);
 
-    QScriptValue propertiesValue = EntityItemPropertiesToScriptValue(engine, value.properties);
-    obj.setProperty("properties", propertiesValue);
-
     obj.setProperty("distance", value.distance);
 
     QString faceName = "";
@@ -903,10 +898,6 @@ void RayToEntityIntersectionResultFromScriptValue(const QScriptValue& object, Ra
     QScriptValue entityIDValue = object.property("entityID");
     // EntityItemIDfromScriptValue(entityIDValue, value.entityID);
     quuidFromScriptValue(entityIDValue, value.entityID);
-    QScriptValue entityPropertiesValue = object.property("properties");
-    if (entityPropertiesValue.isValid()) {
-        EntityItemPropertiesFromScriptValueHonorReadOnly(entityPropertiesValue, value.properties);
-    }
     value.distance = object.property("distance").toVariant().toFloat();
 
     QString faceName = object.property("face").toVariant().toString();

libraries/entities/src/EntityScriptingInterface.h

@@ -58,7 +58,6 @@ public:
     bool intersects;
     bool accurate;
     QUuid entityID;
-    EntityItemProperties properties;
     float distance;
     BoxFace face;
     glm::vec3 intersection;

libraries/gpu-gl/src/gpu/gl/GLTexture.cpp

@@ -8,8 +8,6 @@
 
 #include "GLTexture.h"
 
-#include <NumericalConstants.h>
-
 #include "GLBackend.h"
 
 using namespace gpu;

libraries/gpu-gl/src/gpu/gl41/GL41BackendTexture.cpp

@@ -72,7 +72,7 @@ GL41Texture::GL41Texture(const std::weak_ptr<GLBackend>& backend, const Texture&
     incrementTextureGPUCount();
     withPreservedTexture([&] {
         GLTexelFormat texelFormat = GLTexelFormat::evalGLTexelFormat(_gpuObject.getTexelFormat(), _gpuObject.getStoredMipFormat());
-        auto numMips = _gpuObject.evalNumMips();
+        auto numMips = _gpuObject.getNumMipLevels();
         for (uint16_t mipLevel = 0; mipLevel < numMips; ++mipLevel) {
             // Get the mip level dimensions, accounting for the downgrade level
             Vec3u dimensions = _gpuObject.evalMipDimensions(mipLevel);

libraries/gpu-gl/src/gpu/gl45/GL45BackendTexture.cpp

@@ -186,8 +186,10 @@ GL45FixedAllocationTexture::~GL45FixedAllocationTexture() {
 void GL45FixedAllocationTexture::allocateStorage() const {
     const GLTexelFormat texelFormat = GLTexelFormat::evalGLTexelFormat(_gpuObject.getTexelFormat());
     const auto dimensions = _gpuObject.getDimensions();
-    const auto mips = _gpuObject.evalNumMips();
+    const auto mips = _gpuObject.getNumMipLevels();
+
     glTextureStorage2D(_id, mips, texelFormat.internalFormat, dimensions.x, dimensions.y);
+    glTextureParameteri(_id, GL_TEXTURE_BASE_LEVEL, 0);
 }
 
 void GL45FixedAllocationTexture::syncSampler() const {
@@ -214,7 +216,7 @@ GL45AttachmentTexture::~GL45AttachmentTexture() {
 using GL45StrictResourceTexture = GL45Backend::GL45StrictResourceTexture;
 
 GL45StrictResourceTexture::GL45StrictResourceTexture(const std::weak_ptr<GLBackend>& backend, const Texture& texture) : GL45FixedAllocationTexture(backend, texture) {
-    auto mipLevels = _gpuObject.evalNumMips();
+    auto mipLevels = _gpuObject.getNumMipLevels();
     for (uint16_t sourceMip = 0; sourceMip < mipLevels; ++sourceMip) {
         uint16_t targetMip = sourceMip;
         size_t maxFace = GLTexture::getFaceCount(_target);

libraries/gpu-gl/src/gpu/gl45/GL45BackendVariableTexture.cpp

@@ -461,10 +461,10 @@ void GL45ResourceTexture::allocateStorage(uint16 allocatedMip) {
     _allocatedMip = allocatedMip;
     const GLTexelFormat texelFormat = GLTexelFormat::evalGLTexelFormat(_gpuObject.getTexelFormat());
     const auto dimensions = _gpuObject.evalMipDimensions(_allocatedMip);
-    const auto totalMips = _gpuObject.evalNumMips();
+    const auto totalMips = _gpuObject.getNumMipLevels();
     const auto mips = totalMips - _allocatedMip;
     glTextureStorage2D(_id, mips, texelFormat.internalFormat, dimensions.x, dimensions.y);
-    auto mipLevels = _gpuObject.evalNumMips();
+    auto mipLevels = _gpuObject.getNumMipLevels();
     _size = 0;
     for (uint16_t mip = _allocatedMip; mip < mipLevels; ++mip) {
         _size += _gpuObject.evalMipSize(mip);
@@ -474,7 +474,7 @@ void GL45ResourceTexture::allocateStorage(uint16 allocatedMip) {
 }
 
 void GL45ResourceTexture::copyMipsFromTexture() {
-    auto mipLevels = _gpuObject.evalNumMips();
+    auto mipLevels = _gpuObject.getNumMipLevels();
     size_t maxFace = GLTexture::getFaceCount(_target);
     for (uint16_t sourceMip = _populatedMip; sourceMip < mipLevels; ++sourceMip) {
         uint16_t targetMip = sourceMip - _allocatedMip;
@@ -499,7 +499,7 @@ void GL45ResourceTexture::promote() {
     uint16_t oldAllocatedMip = _allocatedMip;
     // allocate storage for new level
     allocateStorage(_allocatedMip - std::min<uint16_t>(_allocatedMip, 2));
-    uint16_t mips = _gpuObject.evalNumMips();
+    uint16_t mips = _gpuObject.getNumMipLevels();
     // copy pre-existing mips
     for (uint16_t mip = _populatedMip; mip < mips; ++mip) {
         auto mipDimensions = _gpuObject.evalMipDimensions(mip);
@@ -532,7 +532,7 @@ void GL45ResourceTexture::demote() {
     const_cast<GLuint&>(_id) = allocate(_gpuObject);
     allocateStorage(_allocatedMip + 1);
     _populatedMip = std::max(_populatedMip, _allocatedMip);
-    uint16_t mips = _gpuObject.evalNumMips();
+    uint16_t mips = _gpuObject.getNumMipLevels();
     // copy pre-existing mips
     for (uint16_t mip = _populatedMip; mip < mips; ++mip) {
         auto mipDimensions = _gpuObject.evalMipDimensions(mip);

libraries/gpu/src/gpu/Texture.h

@@ -418,8 +418,8 @@ public:
 
     uint32 evalTotalSize(uint16 startingMip = 0) const {
         uint32 size = 0;
-        uint16 minMipLevel = std::max(minMip(), startingMip);
-        uint16 maxMipLevel = maxMip();
+        uint16 minMipLevel = std::max(getMinMip(), startingMip);
+        uint16 maxMipLevel = getMaxMip();
         for (uint16 l = minMipLevel; l <= maxMipLevel; l++) {
             size += evalMipSize(l);
         }
@@ -429,12 +429,9 @@ public:
     // max mip is in the range [ 0 if no sub mips, log2(max(width, height, depth))]
     // if autoGenerateMip is on => will provide the maxMIp level specified
     // else provide the deepest mip level provided through assignMip
-    uint16 maxMip() const { return _maxMip; }
-
-    uint16 minMip() const { return _minMip; }
-    
-    uint16 mipLevels() const { return _maxMip + 1; }
-    
+    uint16 getMaxMip() const { return _maxMip; }
+    uint16 getMinMip() const { return _minMip; }
+    uint16 getNumMipLevels() const { return _maxMip + 1; }
     uint16 usedMipLevels() const { return (_maxMip - _minMip) + 1; }
 
     const std::string& source() const { return _source; }

libraries/gpu/src/gpu/Texture_ktx.cpp

@@ -121,7 +121,7 @@ ktx::KTXUniquePointer Texture::serialize(const Texture& texture) {
     }
 
     // Number level of mips coming
-    header.numberOfMipmapLevels = texture.maxMip() + 1;
+    header.numberOfMipmapLevels = texture.getNumMipLevels();
 
     ktx::Images images;
     for (uint32_t level = 0; level < header.numberOfMipmapLevels; level++) {

libraries/render-utils/src/AmbientOcclusionEffect.cpp

@@ -73,12 +73,12 @@ void AmbientOcclusionFramebuffer::allocate() {
     
     auto width = _frameSize.x;
     auto height = _frameSize.y;
-    
-    _occlusionTexture = gpu::TexturePointer(gpu::Texture::create2D(gpu::Element::COLOR_RGBA_32, width, height, gpu::Sampler(gpu::Sampler::FILTER_MIN_MAG_LINEAR_MIP_POINT)));
+
+    _occlusionTexture = gpu::TexturePointer(gpu::Texture::createRenderBuffer(gpu::Element::COLOR_RGBA_32, width, height, gpu::Sampler(gpu::Sampler::FILTER_MIN_MAG_LINEAR_MIP_POINT)));
     _occlusionFramebuffer = gpu::FramebufferPointer(gpu::Framebuffer::create("occlusion"));
     _occlusionFramebuffer->setRenderBuffer(0, _occlusionTexture);
-   
-    _occlusionBlurredTexture = gpu::TexturePointer(gpu::Texture::create2D(gpu::Element::COLOR_RGBA_32, width, height, gpu::Sampler(gpu::Sampler::FILTER_MIN_MAG_LINEAR_MIP_POINT)));
+
+    _occlusionBlurredTexture = gpu::TexturePointer(gpu::Texture::createRenderBuffer(gpu::Element::COLOR_RGBA_32, width, height, gpu::Sampler(gpu::Sampler::FILTER_MIN_MAG_LINEAR_MIP_POINT)));
     _occlusionBlurredFramebuffer = gpu::FramebufferPointer(gpu::Framebuffer::create("occlusionBlurred"));
     _occlusionBlurredFramebuffer->setRenderBuffer(0, _occlusionBlurredTexture);
 }

libraries/render-utils/src/SurfaceGeometryPass.cpp

@@ -72,18 +72,18 @@ void LinearDepthFramebuffer::allocate() {
     auto height = _frameSize.y;
 
     // For Linear Depth:
-    _linearDepthTexture = gpu::TexturePointer(gpu::Texture::createRenderBuffer(gpu::Element(gpu::SCALAR, gpu::FLOAT, gpu::RGB), width, height,
+    _linearDepthTexture = gpu::TexturePointer(gpu::Texture::createRenderBuffer(gpu::Element(gpu::SCALAR, gpu::FLOAT, gpu::RED), width, height,
         gpu::Sampler(gpu::Sampler::FILTER_MIN_MAG_LINEAR_MIP_POINT)));
     _linearDepthFramebuffer = gpu::FramebufferPointer(gpu::Framebuffer::create("linearDepth"));
     _linearDepthFramebuffer->setRenderBuffer(0, _linearDepthTexture);
     _linearDepthFramebuffer->setDepthStencilBuffer(_primaryDepthTexture, _primaryDepthTexture->getTexelFormat());
 
     // For Downsampling:
-    _halfLinearDepthTexture = gpu::TexturePointer(gpu::Texture::createRenderBuffer(gpu::Element(gpu::SCALAR, gpu::FLOAT, gpu::RGB), _halfFrameSize.x, _halfFrameSize.y,
+    _halfLinearDepthTexture = gpu::TexturePointer(gpu::Texture::createRenderBuffer(gpu::Element(gpu::SCALAR, gpu::FLOAT, gpu::RED), _halfFrameSize.x, _halfFrameSize.y,
         gpu::Sampler(gpu::Sampler::FILTER_MIN_MAG_LINEAR_MIP_POINT)));
     _halfLinearDepthTexture->autoGenerateMips(5);
 
-    _halfNormalTexture = gpu::TexturePointer(gpu::Texture::createRenderBuffer(gpu::Element(gpu::VEC3, gpu::NUINT8, gpu::RGB), _halfFrameSize.x, _halfFrameSize.y,
+    _halfNormalTexture = gpu::TexturePointer(gpu::Texture::createRenderBuffer(gpu::Element::COLOR_RGBA_32, _halfFrameSize.x, _halfFrameSize.y,
         gpu::Sampler(gpu::Sampler::FILTER_MIN_MAG_LINEAR_MIP_POINT)));
 
     _downsampleFramebuffer = gpu::FramebufferPointer(gpu::Framebuffer::create("halfLinearDepth"));

script-archive/example/games/grabHockey.js

@@ -142,7 +142,8 @@ function mousePressEvent(event) {
   if (!pickResults.intersects) {
     return;
   }
-  if (pickResults.properties.dynamic) {
+  var isDynamic = Entites.getEntityProperties(pickResults.entityID, "dynamic").dynamic;
+  if (isDynamic) {
     grabbedEntity = pickResults.entityID;
     var props = Entities.getEntityProperties(grabbedEntity)
     originalGravity = props.gravity;

script-archive/example/games/hydraGrabHockey.js

@@ -190,7 +190,10 @@ function controller(side) {
       direction: Vec3.normalize(Vec3.subtract(this.tipPosition, this.palmPosition))
     };
     var intersection = getRayIntersection(pickRay, true);
-    if (intersection.intersects && intersection.properties.dynamic) {
+
+    var isDynamic = Entites.getEntityProperties(intersection.entityID, "dynamic").dynamic;
+
+    if (intersection.intersects && isDynamic) {
       this.laserWasHovered = true;
       if (this.triggerHeld && !this.grabbing) {
         this.grab(intersection.entityID);

script-archive/example/scripts/rayPickExample.js

@@ -38,7 +38,6 @@ function mouseMoveEvent(event) {
     
     if (intersection.intersects) {
         print("intersection entityID=" + intersection.entityID);
-        print("intersection properties.modelURL=" + intersection.properties.modelURL);
         print("intersection face=" + intersection.face);
         print("intersection distance=" + intersection.distance);
         print("intersection intersection.x/y/z=" + intersection.intersection.x + ", "

script-archive/painting/whiteboard/whiteboardEntityScript.js

@@ -77,6 +77,8 @@
             //Comment out above line and uncomment below line to see difference in performance between using a whitelist, and not using one
             // this.intersection = Entities.findRayIntersection(pickRay, true);
 
+            var type = Entites.getEntityProperties(this.intersection.entityID, "type").type;
+
             if (this.intersection.intersects) {
                 var distance = Vec3.distance(handPosition, this.intersection.intersection);
                 if (distance < MAX_DISTANCE) {
@@ -98,7 +100,7 @@
                         this.oldPosition = null;
                     }
                 }
-            } else if (this.intersection.properties.type !== "Unknown") {
+            } else if (type !== "Unknown") {
                 //Sometimes ray will pick against an invisible object with type unkown... so if type is unknown, ignore
                 this.stopPainting();
             }

script-archive/vrShop/item/shopItemGrab.js

@@ -382,7 +382,10 @@ function MyController(hand) {
 
                 var grabbableData = getEntityCustomData(GRABBABLE_DATA_KEY, intersection.entityID, DEFAULT_GRABBABLE_DATA);
 
-                if (intersection.properties.name == "Grab Debug Entity") {
+                var properties = Entites.getEntityProperties(intersection.entityID, ["locked", "name"]);
+
+
+                if (properties.name == "Grab Debug Entity") {
                     continue;
                 }
 
@@ -399,7 +402,7 @@ function MyController(hand) {
                         this.grabbedEntity = intersection.entityID;
                         this.setState(STATE_NEAR_TRIGGER);
                         return;
-                    } else if (!intersection.properties.locked) {
+                    } else if (!properties.locked) {
                         var ownerObj = getEntityCustomData('ownerKey', intersection.entityID, null);
                         
                         if (ownerObj == null || ownerObj.ownerID === MyAvatar.sessionUUID) {    //I can only grab new or already mine items

scripts/system/controllers/grab.js

@@ -343,7 +343,8 @@ Grabber.prototype.pressEvent = function(event) {
         return;
     }
 
-    if (!pickResults.properties.dynamic) {
+    var isDynamic = Entities.getEntityProperties(pickResults.entityID, "dynamic").dynamic;
+    if (!isDynamic) {
         // only grab dynamic objects
         return;
     }

scripts/tutorials/entity_scripts/pistol.js

@@ -151,8 +151,9 @@
                         });
                     }, randFloat(10, 200));
                 }
-                if (intersection.properties.dynamic === 1) {
-                    // Any dynaic entity can be shot
+                var isDynamic = Entities.getEntityProperties(intersection.entityID, "dynamic").dynamic;
+                if (isDynamic === 1) {
+                    // Any dynamic entity can be shot
                     Entities.editEntity(intersection.entityID, {
                         velocity: Vec3.multiply(this.firingDirection, this.bulletForce)
                     });
@@ -347,7 +348,7 @@
             this.laser = Overlays.addOverlay("line3d", {
                 start: ZERO_VECTOR,
                 end: ZERO_VECTOR,
-                color: COLORS.RED,
+                color: { red: 255, green: 0, blue: 0},
                 alpha: 1,
                 visible: true,
                 lineWidth: 2

tests/render-texture-load/src/main.cpp

@@ -456,7 +456,7 @@ protected:
             return;
         }
         auto texture = _textures[_currentTextureIndex];
-        texture->setMinMip(texture->minMip() + 1);
+        texture->setMinMip(texture->getMinMip() + 1);
     }
 
     void loadTexture() {