Many resources are needed to download a project. Please understand that we have to compensate our server costs. Thank you in advance.
Project price only 1 $
You can buy this project and download/modify it how often you want.
com.badlogic.gdx.physics.bullet.linearmath.btTransform 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.linearmath;
import com.badlogic.gdx.physics.bullet.BulletBase;
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 btTransform extends BulletBase {
private long swigCPtr;
protected btTransform(final String className, long cPtr, boolean cMemoryOwn) {
super(className, cPtr, cMemoryOwn);
swigCPtr = cPtr;
}
/** Construct a new btTransform, normally you should not need this constructor it's intended for low-level usage. */
public btTransform(long cPtr, boolean cMemoryOwn) {
this("btTransform", cPtr, cMemoryOwn);
construct();
}
@Override
protected void reset(long cPtr, boolean cMemoryOwn) {
if (!destroyed)
destroy();
super.reset(swigCPtr = cPtr, cMemoryOwn);
}
public static long getCPtr(btTransform 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;
LinearMathJNI.delete_btTransform(swigCPtr);
}
swigCPtr = 0;
}
super.delete();
}
public btTransform() {
this(LinearMathJNI.new_btTransform__SWIG_0(), true);
}
public btTransform(Quaternion q, Vector3 c) {
this(LinearMathJNI.new_btTransform__SWIG_1(q, c), true);
}
public btTransform(Quaternion q) {
this(LinearMathJNI.new_btTransform__SWIG_2(q), true);
}
public btTransform(Matrix3 b, Vector3 c) {
this(LinearMathJNI.new_btTransform__SWIG_3(b, c), true);
}
public btTransform(Matrix3 b) {
this(LinearMathJNI.new_btTransform__SWIG_4(b), true);
}
public btTransform(Matrix4 other) {
this(LinearMathJNI.new_btTransform__SWIG_5(other), true);
}
public Matrix4 operatorAssignment(Matrix4 other) {
return LinearMathJNI.btTransform_operatorAssignment(swigCPtr, this, other);
}
public void mult(Matrix4 t1, Matrix4 t2) {
LinearMathJNI.btTransform_mult(swigCPtr, this, t1, t2);
}
public Vector3 operatorFunctionCall(Vector3 x) {
return LinearMathJNI.btTransform_operatorFunctionCall(swigCPtr, this, x);
}
public Vector3 operatorMultiplication(Vector3 x) {
return LinearMathJNI.btTransform_operatorMultiplication__SWIG_0(swigCPtr, this, x);
}
public Quaternion operatorMultiplication(Quaternion q) {
return LinearMathJNI.btTransform_operatorMultiplication__SWIG_1(swigCPtr, this, q);
}
public Matrix3 getBasis() {
return LinearMathJNI.btTransform_getBasis(swigCPtr, this);
}
public Matrix3 getBasisConst() {
return LinearMathJNI.btTransform_getBasisConst(swigCPtr, this);
}
public Vector3 getOrigin() {
return LinearMathJNI.btTransform_getOrigin(swigCPtr, this);
}
public Vector3 getOriginConst() {
return LinearMathJNI.btTransform_getOriginConst(swigCPtr, this);
}
public Quaternion getRotation() {
return LinearMathJNI.btTransform_getRotation(swigCPtr, this);
}
public void setFromOpenGLMatrix(float[] m) {
LinearMathJNI.btTransform_setFromOpenGLMatrix(swigCPtr, this, m);
}
public void getOpenGLMatrix(float[] m) {
LinearMathJNI.btTransform_getOpenGLMatrix(swigCPtr, this, m);
}
public void setOrigin(Vector3 origin) {
LinearMathJNI.btTransform_setOrigin(swigCPtr, this, origin);
}
public Vector3 invXform(Vector3 inVec) {
return LinearMathJNI.btTransform_invXform(swigCPtr, this, inVec);
}
public void setBasis(Matrix3 basis) {
LinearMathJNI.btTransform_setBasis(swigCPtr, this, basis);
}
public void setRotation(Quaternion q) {
LinearMathJNI.btTransform_setRotation(swigCPtr, this, q);
}
public void setIdentity() {
LinearMathJNI.btTransform_setIdentity(swigCPtr, this);
}
public Matrix4 operatorMultiplicationAssignment(Matrix4 t) {
return LinearMathJNI.btTransform_operatorMultiplicationAssignment(swigCPtr, this, t);
}
public Matrix4 inverse() {
return LinearMathJNI.btTransform_inverse(swigCPtr, this);
}
public Matrix4 inverseTimes(Matrix4 t) {
return LinearMathJNI.btTransform_inverseTimes(swigCPtr, this, t);
}
public Matrix4 operatorMultiplication(Matrix4 t) {
return LinearMathJNI.btTransform_operatorMultiplication__SWIG_2(swigCPtr, this, t);
}
public static Matrix4 getIdentity() {
return LinearMathJNI.btTransform_getIdentity();
}
public void serialize(btTransformFloatData dataOut) {
LinearMathJNI.btTransform_serialize(swigCPtr, this, btTransformFloatData.getCPtr(dataOut), dataOut);
}
public void serializeFloat(btTransformFloatData dataOut) {
LinearMathJNI.btTransform_serializeFloat(swigCPtr, this, btTransformFloatData.getCPtr(dataOut), dataOut);
}
public void deSerialize(btTransformFloatData dataIn) {
LinearMathJNI.btTransform_deSerialize(swigCPtr, this, btTransformFloatData.getCPtr(dataIn), dataIn);
}
public void deSerializeDouble(btTransformDoubleData dataIn) {
LinearMathJNI.btTransform_deSerializeDouble(swigCPtr, this, btTransformDoubleData.getCPtr(dataIn), dataIn);
}
public void deSerializeFloat(btTransformFloatData dataIn) {
LinearMathJNI.btTransform_deSerializeFloat(swigCPtr, this, btTransformFloatData.getCPtr(dataIn), dataIn);
}
}
