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/*
 * Copyright (c) 2009-2012 jMonkeyEngine
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are
 * met:
 *
 * * Redistributions of source code must retain the above copyright
 *   notice, this list of conditions and the following disclaimer.
 *
 * * Redistributions in binary form must reproduce the above copyright
 *   notice, this list of conditions and the following disclaimer in the
 *   documentation and/or other materials provided with the distribution.
 *
 * * Neither the name of 'jMonkeyEngine' nor the names of its contributors
 *   may be used to endorse or promote products derived from this software
 *   without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
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 */
package com.jme3.math;

import com.jme3.export.*;
import java.io.IOException;

/**
 * Started Date: Jul 16, 2004

* Represents a translation, rotation and scale in one object. * * @author Jack Lindamood * @author Joshua Slack */ public final class Transform implements Savable, Cloneable, java.io.Serializable { static final long serialVersionUID = 1; public static final Transform IDENTITY = new Transform(); private Quaternion rot = new Quaternion(); private Vector3f translation = new Vector3f(); private Vector3f scale = new Vector3f(1, 1, 1); public Transform(Vector3f translation, Quaternion rot){ this.translation.set(translation); this.rot.set(rot); } public Transform(Vector3f translation, Quaternion rot, Vector3f scale){ this(translation, rot); this.scale.set(scale); } public Transform(Vector3f translation){ this(translation, Quaternion.IDENTITY); } public Transform(Quaternion rot){ this(Vector3f.ZERO, rot); } public Transform(){ this(Vector3f.ZERO, Quaternion.IDENTITY); } /** * Sets this rotation to the given Quaternion value. * @param rot The new rotation for this matrix. * @return this */ public Transform setRotation(Quaternion rot) { this.rot.set(rot); return this; } /** * Sets this translation to the given value. * @param trans The new translation for this matrix. * @return this */ public Transform setTranslation(Vector3f trans) { this.translation.set(trans); return this; } /** * Return the translation vector in this matrix. * @return translation vector. */ public Vector3f getTranslation() { return translation; } /** * Sets this scale to the given value. * @param scale The new scale for this matrix. * @return this */ public Transform setScale(Vector3f scale) { this.scale.set(scale); return this; } /** * Sets this scale to the given value. * @param scale The new scale for this matrix. * @return this */ public Transform setScale(float scale) { this.scale.set(scale, scale, scale); return this; } /** * Return the scale vector in this matrix. * @return scale vector. */ public Vector3f getScale() { return scale; } /** * Stores this translation value into the given vector3f. If trans is null, a new vector3f is created to * hold the value. The value, once stored, is returned. * @param trans The store location for this matrix's translation. * @return The value of this matrix's translation. */ public Vector3f getTranslation(Vector3f trans) { if (trans==null) trans=new Vector3f(); trans.set(this.translation); return trans; } /** * Stores this rotation value into the given Quaternion. If quat is null, a new Quaternion is created to * hold the value. The value, once stored, is returned. * @param quat The store location for this matrix's rotation. * @return The value of this matrix's rotation. */ public Quaternion getRotation(Quaternion quat) { if (quat==null) quat=new Quaternion(); quat.set(rot); return quat; } /** * Return the rotation quaternion in this matrix. * @return rotation quaternion. */ public Quaternion getRotation() { return rot; } /** * Stores this scale value into the given vector3f. If scale is null, a new vector3f is created to * hold the value. The value, once stored, is returned. * @param scale The store location for this matrix's scale. * @return The value of this matrix's scale. */ public Vector3f getScale(Vector3f scale) { if (scale==null) scale=new Vector3f(); scale.set(this.scale); return scale; } /** * Sets this matrix to the interpolation between the first matrix and the second by delta amount. * @param t1 The begining transform. * @param t2 The ending transform. * @param delta An amount between 0 and 1 representing how far to interpolate from t1 to t2. */ public void interpolateTransforms(Transform t1, Transform t2, float delta) { this.rot.slerp(t1.rot,t2.rot,delta); this.translation.interpolateLocal(t1.translation,t2.translation,delta); this.scale.interpolateLocal(t1.scale,t2.scale,delta); } /** * Changes the values of this matrix acording to it's parent. Very similar to the concept of Node/Spatial transforms. * @param parent The parent matrix. * @return This matrix, after combining. */ public Transform combineWithParent(Transform parent) { scale.multLocal(parent.scale); // rot.multLocal(parent.rot); parent.rot.mult(rot, rot); // This here, is evil code // parent // .rot // .multLocal(translation) // .multLocal(parent.scale) // .addLocal(parent.translation); translation.multLocal(parent.scale); parent .rot .multLocal(translation) .addLocal(parent.translation); return this; } /** * Sets this matrix's translation to the given x,y,z values. * @param x This matrix's new x translation. * @param y This matrix's new y translation. * @param z This matrix's new z translation. * @return this */ public Transform setTranslation(float x,float y, float z) { translation.set(x,y,z); return this; } /** * Sets this matrix's scale to the given x,y,z values. * @param x This matrix's new x scale. * @param y This matrix's new y scale. * @param z This matrix's new z scale. * @return this */ public Transform setScale(float x, float y, float z) { scale.set(x,y,z); return this; } public Vector3f transformVector(final Vector3f in, Vector3f store){ if (store == null) store = new Vector3f(); // multiply with scale first, then rotate, finally translate (cf. // Eberly) return rot.mult(store.set(in).multLocal(scale), store).addLocal(translation); } public Vector3f transformInverseVector(final Vector3f in, Vector3f store){ if (store == null) store = new Vector3f(); // The author of this code should look above and take the inverse of that // But for some reason, they didnt .. // in.subtract(translation, store).divideLocal(scale); // rot.inverse().mult(store, store); in.subtract(translation, store); rot.inverse().mult(store, store); store.divideLocal(scale); return store; } public Matrix4f toTransformMatrix() { Matrix4f trans = new Matrix4f(); trans.setTranslation(translation); trans.setRotationQuaternion(rot); trans.setScale(scale); return trans; } public void fromTransformMatrix(Matrix4f mat) { translation.set(mat.toTranslationVector()); rot.set(mat.toRotationQuat()); scale.set(mat.toScaleVector()); } public Transform invert() { Transform t = new Transform(); t.fromTransformMatrix(toTransformMatrix().invertLocal()); return t; } /** * Loads the identity. Equal to translation=0,0,0 scale=1,1,1 rot=0,0,0,1. */ public void loadIdentity() { translation.set(0, 0, 0); scale.set(1, 1, 1); rot.set(0, 0, 0, 1); } @Override public int hashCode() { int hash = 7; hash = 89 * hash + rot.hashCode(); hash = 89 * hash + translation.hashCode(); hash = 89 * hash + scale.hashCode(); return hash; } @Override public boolean equals(Object obj) { if (obj == null) { return false; } if (getClass() != obj.getClass()) { return false; } final Transform other = (Transform) obj; return this.translation.equals(other.translation) && this.scale.equals(other.scale) && this.rot.equals(other.rot); } @Override public String toString(){ return getClass().getSimpleName() + "[ " + translation.x + ", " + translation.y + ", " + translation.z + "]\n" + "[ " + rot.x + ", " + rot.y + ", " + rot.z + ", " + rot.w + "]\n" + "[ " + scale.x + " , " + scale.y + ", " + scale.z + "]"; } /** * Sets this matrix to be equal to the given matrix. * @param matrixQuat The matrix to be equal to. * @return this */ public Transform set(Transform matrixQuat) { this.translation.set(matrixQuat.translation); this.rot.set(matrixQuat.rot); this.scale.set(matrixQuat.scale); return this; } @Override public void write(JmeExporter e) throws IOException { OutputCapsule capsule = e.getCapsule(this); capsule.write(rot, "rot", Quaternion.IDENTITY); capsule.write(translation, "translation", Vector3f.ZERO); capsule.write(scale, "scale", Vector3f.UNIT_XYZ); } @Override public void read(JmeImporter e) throws IOException { InputCapsule capsule = e.getCapsule(this); rot.set((Quaternion)capsule.readSavable("rot", Quaternion.IDENTITY)); translation.set((Vector3f)capsule.readSavable("translation", Vector3f.ZERO)); scale.set((Vector3f)capsule.readSavable("scale", Vector3f.UNIT_XYZ)); } @Override public Transform clone() { try { Transform tq = (Transform) super.clone(); tq.rot = rot.clone(); tq.scale = scale.clone(); tq.translation = translation.clone(); return tq; } catch (CloneNotSupportedException e) { throw new AssertionError(); } } }




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