/external/jmonkeyengine/engine/src/bullet-common/com/jme3/bullet/collision/ |
H A D | PhysicsCollisionGroupListener.java | 19 * @param nodeA CollisionObject #1 23 public boolean collide(PhysicsCollisionObject nodeA, PhysicsCollisionObject nodeB); argument
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/external/jmonkeyengine/engine/src/bullet/com/jme3/bullet/joints/ |
H A D | PhysicsJoint.java | 48 protected PhysicsRigidBody nodeA; field in class:PhysicsJoint 61 public PhysicsJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB) { argument 62 this.nodeA = nodeA; 66 nodeA.addJoint(this); 100 return nodeA; 125 capsule.write(nodeA, "nodeA", null); 133 this.nodeA = ((PhysicsRigidBody) capsule.readSavable("nodeA", ne [all...] |
H A D | SixDofSpringJoint.java | 63 public SixDofSpringJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB, Matrix3f rotA, Matrix3f rotB, boolean useLinearReferenceFrameA) { argument 64 super(nodeA, nodeB, pivotA, pivotB, rotA, rotB, useLinearReferenceFrameA);
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H A D | ConeJoint.java | 67 public ConeJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB) { argument 68 super(nodeA, nodeB, pivotA, pivotB); 78 public ConeJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB, Matrix3f rotA, Matrix3f rotB) { argument 79 super(nodeA, nodeB, pivotA, pivotB); 129 objectId = createJoint(nodeA.getObjectId(), nodeB.getObjectId(), pivotA, rotA, pivotB, rotB);
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H A D | Point2PointJoint.java | 60 public Point2PointJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB) { argument 61 super(nodeA, nodeB, pivotA, pivotB); 121 objectId = createJoint(nodeA.getObjectId(), nodeB.getObjectId(), pivotA, pivotB);
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H A D | SixDofJoint.java | 78 public SixDofJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB, Matrix3f rotA, Matrix3f rotB, boolean useLinearReferenceFrameA) { argument 79 super(nodeA, nodeB, pivotA, pivotB); 84 objectId = createJoint(nodeA.getObjectId(), nodeB.getObjectId(), pivotA, rotA, pivotB, rotB, useLinearReferenceFrameA); 93 public SixDofJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB, boolean useLinearReferenceFrameA) { argument 94 super(nodeA, nodeB, pivotA, pivotB); 99 objectId = createJoint(nodeA.getObjectId(), nodeB.getObjectId(), pivotA, rotA, pivotB, rotB, useLinearReferenceFrameA); 170 objectId = createJoint(nodeA.getObjectId(), nodeB.getObjectId(), pivotA, rotA, pivotB, rotB, useLinearReferenceFrameA);
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H A D | HingeJoint.java | 69 public HingeJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB, Vector3f axisA, Vector3f axisB) { argument 70 super(nodeA, nodeB, pivotA, pivotB); 184 objectId = createJoint(nodeA.getObjectId(), nodeB.getObjectId(), pivotA, axisA, pivotB, axisB);
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H A D | SliderJoint.java | 62 public SliderJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB, Matrix3f rotA, Matrix3f rotB, boolean useLinearReferenceFrameA) { argument 63 super(nodeA, nodeB, pivotA, pivotB); 74 public SliderJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB, boolean useLinearReferenceFrameA) { argument 75 super(nodeA, nodeB, pivotA, pivotB); 532 objectId = createJoint(nodeA.getObjectId(), nodeB.getObjectId(), pivotA, rotA, pivotB, rotB, useLinearReferenceFrameA); 534 // = new SliderConstraint(nodeA.getObjectId(), nodeB.getObjectId(), transA, transB, useLinearReferenceFrameA);
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/external/jmonkeyengine/engine/src/jbullet/com/jme3/bullet/joints/ |
H A D | PhysicsJoint.java | 47 protected PhysicsRigidBody nodeA; field in class:PhysicsJoint 60 public PhysicsJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB) { argument 61 this.nodeA = nodeA; 65 nodeA.addJoint(this); 97 return nodeA; 122 capsule.write(nodeA, "nodeA", null); 130 this.nodeA = ((PhysicsRigidBody) capsule.readSavable("nodeA", ne [all...] |
H A D | Point2PointJoint.java | 60 public Point2PointJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB) { argument 61 super(nodeA, nodeB, pivotA, pivotB); 109 constraint = new Point2PointConstraint(nodeA.getObjectId(), nodeB.getObjectId(), Converter.convert(pivotA), Converter.convert(pivotB));
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H A D | ConeJoint.java | 68 public ConeJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB) { argument 69 super(nodeA, nodeB, pivotA, pivotB); 79 public ConeJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB, Matrix3f rotA, Matrix3f rotB) { argument 80 super(nodeA, nodeB, pivotA, pivotB); 134 constraint = new ConeTwistConstraint(nodeA.getObjectId(), nodeB.getObjectId(), transA, transB);
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H A D | SixDofJoint.java | 78 public SixDofJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB, Matrix3f rotA, Matrix3f rotB, boolean useLinearReferenceFrameA) { argument 79 super(nodeA, nodeB, pivotA, pivotB); 90 constraint = new Generic6DofConstraint(nodeA.getObjectId(), nodeB.getObjectId(), transA, transB, useLinearReferenceFrameA); 98 public SixDofJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB, boolean useLinearReferenceFrameA) { argument 99 super(nodeA, nodeB, pivotA, pivotB); 108 constraint = new Generic6DofConstraint(nodeA.getObjectId(), nodeB.getObjectId(), transA, transB, useLinearReferenceFrameA); 169 constraint = new Generic6DofConstraint(nodeA.getObjectId(), nodeB.getObjectId(), transA, transB, useLinearReferenceFrameA);
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H A D | HingeJoint.java | 69 public HingeJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB, Vector3f axisA, Vector3f axisB) { argument 70 super(nodeA, nodeB, pivotA, pivotB); 152 constraint = new HingeConstraint(nodeA.getObjectId(), nodeB.getObjectId(),
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H A D | SliderJoint.java | 62 public SliderJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB, Matrix3f rotA, Matrix3f rotB, boolean useLinearReferenceFrameA) { argument 63 super(nodeA, nodeB, pivotA, pivotB); 74 public SliderJoint(PhysicsRigidBody nodeA, PhysicsRigidBody nodeB, Vector3f pivotA, Vector3f pivotB, boolean useLinearReferenceFrameA) { argument 75 super(nodeA, nodeB, pivotA, pivotB); 428 constraint = new SliderConstraint(nodeA.getObjectId(), nodeB.getObjectId(), transA, transB, useLinearReferenceFrameA);
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/external/jmonkeyengine/engine/src/jbullet/com/jme3/bullet/collision/ |
H A D | PhysicsCollisionEvent.java | 52 private PhysicsCollisionObject nodeA; field in class:PhysicsCollisionEvent 59 this.nodeA = source; 70 nodeA = null; 81 this.nodeA = source; 94 if (nodeA.getUserObject() instanceof Spatial) { 95 return (Spatial) nodeA.getUserObject(); 111 return nodeA;
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/external/jmonkeyengine/engine/src/bullet/com/jme3/bullet/collision/ |
H A D | PhysicsCollisionEvent.java | 50 private PhysicsCollisionObject nodeA; field in class:PhysicsCollisionEvent 54 public PhysicsCollisionEvent(int type, PhysicsCollisionObject nodeA, PhysicsCollisionObject nodeB, long manifoldPointObjectId) { argument 55 super(nodeA); 65 this.nodeA = null; 76 this.nodeA = source; 89 if (nodeA.getUserObject() instanceof Spatial) { 90 return (Spatial) nodeA.getUserObject(); 106 return nodeA;
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/external/webkit/Source/WebCore/inspector/front-end/ |
H A D | HeapSnapshot.js | 681 var nodeA = new WebInspector.HeapSnapshotNode(this); 686 nodeA.nodeIndex = idxA; 688 return nodeA.id < nodeB.id ? -1 : 1; 881 var nodeA = new WebInspector.HeapSnapshotNode(this.snapshot); 901 nodeA.nodeIndex = edgeA.nodeIndex; 903 var valueA = nodeA[fieldName]; 962 var nodeA = new WebInspector.HeapSnapshotNode(this.snapshot); 967 nodeA.nodeIndex = indexA; 969 var valueA = nodeA[fieldName];
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H A D | DetailedHeapshotView.js | 75 function SortByTwoFields(nodeA, nodeB) 77 var field1 = nodeA[sortFields[0]]; 84 field1 = nodeA[sortFields[2]]; 371 function DataExtractorWrapper(nodeA, nodeB) 373 return sortFunction(nodeA.data, nodeB.data);
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/external/webkit/Source/WebCore/editing/ |
H A D | htmlediting.cpp | 97 Node* nodeA = a.deprecatedNode(); local 98 ASSERT(nodeA); 104 Node* shadowAncestorA = nodeA->shadowAncestorNode(); 105 if (shadowAncestorA == nodeA) 114 nodeA = shadowAncestorA; 126 int result = Range::compareBoundaryPoints(nodeA, offsetA, nodeB, offsetB, ec);
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/external/webkit/Source/WebCore/platform/graphics/texmap/ |
H A D | TextureMapperNode.cpp | 178 const NodePtr* nodeA = static_cast<const NodePtr*>(a); local 180 return int(((*nodeA)->m_transforms.centerZ - (*nodeB)->m_transforms.centerZ) * 1000);
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