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com.badlogic.gdx.physics.bullet.collision.btQuantizedBvh Maven / Gradle / Ivy
/* ----------------------------------------------------------------------------
* This file was automatically generated by SWIG (http://www.swig.org).
* Version 3.0.11
*
* Do not make changes to this file unless you know what you are doing--modify
* the SWIG interface file instead.
* ----------------------------------------------------------------------------- */
package com.badlogic.gdx.physics.bullet.collision;
import com.badlogic.gdx.physics.bullet.BulletBase;
import com.badlogic.gdx.physics.bullet.linearmath.*;
import com.badlogic.gdx.math.Vector3;
import com.badlogic.gdx.math.Quaternion;
import com.badlogic.gdx.math.Matrix3;
import com.badlogic.gdx.math.Matrix4;
public class btQuantizedBvh extends BulletBase {
private long swigCPtr;
protected btQuantizedBvh(final String className, long cPtr, boolean cMemoryOwn) {
super(className, cPtr, cMemoryOwn);
swigCPtr = cPtr;
}
/** Construct a new btQuantizedBvh, normally you should not need this constructor it's intended for low-level usage. */
public btQuantizedBvh(long cPtr, boolean cMemoryOwn) {
this("btQuantizedBvh", cPtr, cMemoryOwn);
construct();
}
@Override
protected void reset(long cPtr, boolean cMemoryOwn) {
if (!destroyed)
destroy();
super.reset(swigCPtr = cPtr, cMemoryOwn);
}
public static long getCPtr(btQuantizedBvh obj) {
return (obj == null) ? 0 : obj.swigCPtr;
}
@Override
protected void finalize() throws Throwable {
if (!destroyed)
destroy();
super.finalize();
}
@Override protected synchronized void delete() {
if (swigCPtr != 0) {
if (swigCMemOwn) {
swigCMemOwn = false;
CollisionJNI.delete_btQuantizedBvh(swigCPtr);
}
swigCPtr = 0;
}
super.delete();
}
public long operatorNew(long sizeInBytes) {
return CollisionJNI.btQuantizedBvh_operatorNew__SWIG_0(swigCPtr, this, sizeInBytes);
}
public void operatorDelete(long ptr) {
CollisionJNI.btQuantizedBvh_operatorDelete__SWIG_0(swigCPtr, this, ptr);
}
public long operatorNew(long arg0, long ptr) {
return CollisionJNI.btQuantizedBvh_operatorNew__SWIG_1(swigCPtr, this, arg0, ptr);
}
public void operatorDelete(long arg0, long arg1) {
CollisionJNI.btQuantizedBvh_operatorDelete__SWIG_1(swigCPtr, this, arg0, arg1);
}
public long operatorNewArray(long sizeInBytes) {
return CollisionJNI.btQuantizedBvh_operatorNewArray__SWIG_0(swigCPtr, this, sizeInBytes);
}
public void operatorDeleteArray(long ptr) {
CollisionJNI.btQuantizedBvh_operatorDeleteArray__SWIG_0(swigCPtr, this, ptr);
}
public long operatorNewArray(long arg0, long ptr) {
return CollisionJNI.btQuantizedBvh_operatorNewArray__SWIG_1(swigCPtr, this, arg0, ptr);
}
public void operatorDeleteArray(long arg0, long arg1) {
CollisionJNI.btQuantizedBvh_operatorDeleteArray__SWIG_1(swigCPtr, this, arg0, arg1);
}
public btQuantizedBvh() {
this(CollisionJNI.new_btQuantizedBvh(), true);
}
public void setQuantizationValues(Vector3 bvhAabbMin, Vector3 bvhAabbMax, float quantizationMargin) {
CollisionJNI.btQuantizedBvh_setQuantizationValues__SWIG_0(swigCPtr, this, bvhAabbMin, bvhAabbMax, quantizationMargin);
}
public void setQuantizationValues(Vector3 bvhAabbMin, Vector3 bvhAabbMax) {
CollisionJNI.btQuantizedBvh_setQuantizationValues__SWIG_1(swigCPtr, this, bvhAabbMin, bvhAabbMax);
}
public SWIGTYPE_p_btAlignedObjectArrayT_btQuantizedBvhNode_t getLeafNodeArray() {
return new SWIGTYPE_p_btAlignedObjectArrayT_btQuantizedBvhNode_t(CollisionJNI.btQuantizedBvh_getLeafNodeArray(swigCPtr, this), false);
}
public void buildInternal() {
CollisionJNI.btQuantizedBvh_buildInternal(swigCPtr, this);
}
public void reportAabbOverlappingNodex(btNodeOverlapCallback nodeCallback, Vector3 aabbMin, Vector3 aabbMax) {
CollisionJNI.btQuantizedBvh_reportAabbOverlappingNodex(swigCPtr, this, btNodeOverlapCallback.getCPtr(nodeCallback), nodeCallback, aabbMin, aabbMax);
}
public void reportRayOverlappingNodex(btNodeOverlapCallback nodeCallback, Vector3 raySource, Vector3 rayTarget) {
CollisionJNI.btQuantizedBvh_reportRayOverlappingNodex(swigCPtr, this, btNodeOverlapCallback.getCPtr(nodeCallback), nodeCallback, raySource, rayTarget);
}
public void reportBoxCastOverlappingNodex(btNodeOverlapCallback nodeCallback, Vector3 raySource, Vector3 rayTarget, Vector3 aabbMin, Vector3 aabbMax) {
CollisionJNI.btQuantizedBvh_reportBoxCastOverlappingNodex(swigCPtr, this, btNodeOverlapCallback.getCPtr(nodeCallback), nodeCallback, raySource, rayTarget, aabbMin, aabbMax);
}
public void quantize(java.nio.IntBuffer out, Vector3 point, int isMax) {
assert out.isDirect() : "Buffer must be allocated direct.";
{
CollisionJNI.btQuantizedBvh_quantize(swigCPtr, this, out, point, isMax);
}
}
public void quantizeWithClamp(java.nio.IntBuffer out, Vector3 point2, int isMax) {
assert out.isDirect() : "Buffer must be allocated direct.";
{
CollisionJNI.btQuantizedBvh_quantizeWithClamp(swigCPtr, this, out, point2, isMax);
}
}
public Vector3 unQuantize(java.nio.IntBuffer vecIn) {
assert vecIn.isDirect() : "Buffer must be allocated direct.";
{
return CollisionJNI.btQuantizedBvh_unQuantize(swigCPtr, this, vecIn);
}
}
public void setTraversalMode(int traversalMode) {
CollisionJNI.btQuantizedBvh_setTraversalMode(swigCPtr, this, traversalMode);
}
public SWIGTYPE_p_btAlignedObjectArrayT_btQuantizedBvhNode_t getQuantizedNodeArray() {
return new SWIGTYPE_p_btAlignedObjectArrayT_btQuantizedBvhNode_t(CollisionJNI.btQuantizedBvh_getQuantizedNodeArray(swigCPtr, this), false);
}
public SWIGTYPE_p_btAlignedObjectArrayT_btBvhSubtreeInfo_t getSubtreeInfoArray() {
return new SWIGTYPE_p_btAlignedObjectArrayT_btBvhSubtreeInfo_t(CollisionJNI.btQuantizedBvh_getSubtreeInfoArray(swigCPtr, this), false);
}
public long calculateSerializeBufferSize() {
return CollisionJNI.btQuantizedBvh_calculateSerializeBufferSize(swigCPtr, this);
}
public boolean serialize(long o_alignedDataBuffer, long i_dataBufferSize, boolean i_swapEndian) {
return CollisionJNI.btQuantizedBvh_serialize__SWIG_0(swigCPtr, this, o_alignedDataBuffer, i_dataBufferSize, i_swapEndian);
}
public static btQuantizedBvh deSerializeInPlace(long i_alignedDataBuffer, long i_dataBufferSize, boolean i_swapEndian) {
long cPtr = CollisionJNI.btQuantizedBvh_deSerializeInPlace(i_alignedDataBuffer, i_dataBufferSize, i_swapEndian);
return (cPtr == 0) ? null : new btQuantizedBvh(cPtr, false);
}
public static long getAlignmentSerializationPadding() {
return CollisionJNI.btQuantizedBvh_getAlignmentSerializationPadding();
}
public int calculateSerializeBufferSizeNew() {
return CollisionJNI.btQuantizedBvh_calculateSerializeBufferSizeNew(swigCPtr, this);
}
public String serialize(long dataBuffer, btSerializer serializer) {
return CollisionJNI.btQuantizedBvh_serialize__SWIG_1(swigCPtr, this, dataBuffer, btSerializer.getCPtr(serializer), serializer);
}
public void deSerializeFloat(btQuantizedBvhFloatData quantizedBvhFloatData) {
CollisionJNI.btQuantizedBvh_deSerializeFloat(swigCPtr, this, btQuantizedBvhFloatData.getCPtr(quantizedBvhFloatData), quantizedBvhFloatData);
}
public void deSerializeDouble(btQuantizedBvhDoubleData quantizedBvhDoubleData) {
CollisionJNI.btQuantizedBvh_deSerializeDouble(swigCPtr, this, btQuantizedBvhDoubleData.getCPtr(quantizedBvhDoubleData), quantizedBvhDoubleData);
}
public boolean isQuantized() {
return CollisionJNI.btQuantizedBvh_isQuantized(swigCPtr, this);
}
public final static class btTraversalMode {
public final static int TRAVERSAL_STACKLESS = 0;
public final static int TRAVERSAL_STACKLESS_CACHE_FRIENDLY = TRAVERSAL_STACKLESS + 1;
public final static int TRAVERSAL_RECURSIVE = TRAVERSAL_STACKLESS_CACHE_FRIENDLY + 1;
}
}
