rs/java/android/renderscript/Matrix3f.java - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 2009-2012 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 package android.renderscript;


 /**
  * Class for exposing the native RenderScript rs_matrix3x3 type back to the Android system.
  *
  **/
 public class Matrix3f {

     /**
     * Creates a new identity 3x3 matrix
     */
     public Matrix3f() {
         mMat = new float[9];
         loadIdentity();
     }

     /**
     * Creates a new matrix and sets its values from the given
     * parameter
     *
     * @param dataArray values to set the matrix to, must be 9
     *                  floats long
     */
     public Matrix3f(float[] dataArray) {
         mMat = new float[9];
         System.arraycopy(dataArray, 0, mMat, 0, mMat.length);
     }

     /**
     * Return a reference to the internal array representing matrix
     * values. Modifying this array will also change the matrix
     *
     * @return internal array representing the matrix
     */
     public float[] getArray() {
         return mMat;
     }

     /**
     * Returns the value for a given row and column
     *
     * @param x column of the value to return
     * @param y row of the value to return
     *
     * @return value in the yth row and xth column
     */
     public float get(int x, int y) {
         return mMat[x*3 + y];
     }

     /**
     * Sets the value for a given row and column
     *
     * @param x column of the value to set
     * @param y row of the value to set
     */
     public void set(int x, int y, float v) {
         mMat[x*3 + y] = v;
     }

     /**
     * Sets the matrix values to identity
     */
     public void loadIdentity() {
         mMat[0] = 1;
         mMat[1] = 0;
         mMat[2] = 0;

         mMat[3] = 0;
         mMat[4] = 1;
         mMat[5] = 0;

         mMat[6] = 0;
         mMat[7] = 0;
         mMat[8] = 1;
     }

     /**
     * Sets the values of the matrix to those of the parameter
     *
     * @param src matrix to load the values from
     */
     public void load(Matrix3f src) {
         System.arraycopy(src.getArray(), 0, mMat, 0, mMat.length);
     }

     /**
     * Sets current values to be a rotation matrix of certain angle
     * about a given axis
     *
     * @param rot angle of rotation
     * @param x rotation axis x
     * @param y rotation axis y
     * @param z rotation axis z
     */
     public void loadRotate(float rot, float x, float y, float z) {
         float c, s;
         rot *= (float)(java.lang.Math.PI / 180.0f);
         c = (float)java.lang.Math.cos(rot);
         s = (float)java.lang.Math.sin(rot);

         float len = (float)java.lang.Math.sqrt(x*x + y*y + z*z);
         if (!(len != 1)) {
             float recipLen = 1.f / len;
             x *= recipLen;
             y *= recipLen;
             z *= recipLen;
         }
         float nc = 1.0f - c;
         float xy = x * y;
         float yz = y * z;
         float zx = z * x;
         float xs = x * s;
         float ys = y * s;
         float zs = z * s;
         mMat[0] = x*x*nc +  c;
         mMat[3] =  xy*nc - zs;
         mMat[6] =  zx*nc + ys;
         mMat[1] =  xy*nc + zs;
         mMat[4] = y*y*nc +  c;
         mMat[7] =  yz*nc - xs;
         mMat[2] =  zx*nc - ys;
         mMat[5] =  yz*nc + xs;
         mMat[8] = z*z*nc +  c;
     }

     /**
     * Makes the upper 2x2 a rotation matrix of the given angle
     *
     * @param rot rotation angle
     */
     public void loadRotate(float rot) {
         loadIdentity();
         float c, s;
         rot *= (float)(java.lang.Math.PI / 180.0f);
         c = (float)java.lang.Math.cos(rot);
         s = (float)java.lang.Math.sin(rot);
         mMat[0] = c;
         mMat[1] = -s;
         mMat[3] = s;
         mMat[4] = c;
     }

     /**
     * Makes the upper 2x2 a scale matrix of given dimensions
     *
     * @param x scale component x
     * @param y scale component y
     */
     public void loadScale(float x, float y) {
         loadIdentity();
         mMat[0] = x;
         mMat[4] = y;
     }

     /**
     * Sets current values to be a scale matrix of given dimensions
     *
     * @param x scale component x
     * @param y scale component y
     * @param z scale component z
     */
     public void loadScale(float x, float y, float z) {
         loadIdentity();
         mMat[0] = x;
         mMat[4] = y;
         mMat[8] = z;
     }

     /**
     * Sets current values to be a translation matrix of given
     * dimensions
     *
     * @param x translation component x
     * @param y translation component y
     */
     public void loadTranslate(float x, float y) {
         loadIdentity();
         mMat[6] = x;
         mMat[7] = y;
     }

     /**
     * Sets current values to be the result of multiplying two given
     * matrices
     *
     * @param lhs left hand side matrix
     * @param rhs right hand side matrix
     */
     public void loadMultiply(Matrix3f lhs, Matrix3f rhs) {
         for (int i=0 ; i<3 ; i++) {
             float ri0 = 0;
             float ri1 = 0;
             float ri2 = 0;
             for (int j=0 ; j<3 ; j++) {
                 float rhs_ij = rhs.get(i,j);
                 ri0 += lhs.get(j,0) * rhs_ij;
                 ri1 += lhs.get(j,1) * rhs_ij;
                 ri2 += lhs.get(j,2) * rhs_ij;
             }
             set(i,0, ri0);
             set(i,1, ri1);
             set(i,2, ri2);
         }
     }

     /**
     * Post-multiplies the current matrix by a given parameter
     *
     * @param rhs right hand side to multiply by
     */
     public void multiply(Matrix3f rhs) {
         Matrix3f tmp = new Matrix3f();
         tmp.loadMultiply(this, rhs);
         load(tmp);
     }

     /**
     * Modifies the current matrix by post-multiplying it with a
     * rotation matrix of certain angle about a given axis
     *
     * @param rot angle of rotation
     * @param x rotation axis x
     * @param y rotation axis y
     * @param z rotation axis z
     */
     public void rotate(float rot, float x, float y, float z) {
         Matrix3f tmp = new Matrix3f();
         tmp.loadRotate(rot, x, y, z);
         multiply(tmp);
     }

     /**
     * Modifies the upper 2x2 of the current matrix by
     * post-multiplying it with a rotation matrix of given angle
     *
     * @param rot angle of rotation
     */
     public void rotate(float rot) {
         Matrix3f tmp = new Matrix3f();
         tmp.loadRotate(rot);
         multiply(tmp);
     }

     /**
     * Modifies the upper 2x2 of the current matrix by
     * post-multiplying it with a scale matrix of given dimensions
     *
     * @param x scale component x
     * @param y scale component y
     */
     public void scale(float x, float y) {
         Matrix3f tmp = new Matrix3f();
         tmp.loadScale(x, y);
         multiply(tmp);
     }

     /**
     * Modifies the current matrix by post-multiplying it with a
     * scale matrix of given dimensions
     *
     * @param x scale component x
     * @param y scale component y
     * @param z scale component z
     */
     public void scale(float x, float y, float z) {
         Matrix3f tmp = new Matrix3f();
         tmp.loadScale(x, y, z);
         multiply(tmp);
     }

     /**
     * Modifies the current matrix by post-multiplying it with a
     * translation matrix of given dimensions
     *
     * @param x translation component x
     * @param y translation component y
     */
     public void translate(float x, float y) {
         Matrix3f tmp = new Matrix3f();
         tmp.loadTranslate(x, y);
         multiply(tmp);
     }

     /**
     * Sets the current matrix to its transpose
     */
     public void transpose() {
         for(int i = 0; i < 2; ++i) {
             for(int j = i + 1; j < 3; ++j) {
                 float temp = mMat[i*3 + j];
                 mMat[i*3 + j] = mMat[j*3 + i];
                 mMat[j*3 + i] = temp;
             }
         }
     }

     final float[] mMat;
 }
	/*
	* Copyright (C) 2009-2012 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	package android.renderscript;


	/**
	* Class for exposing the native RenderScript rs_matrix3x3 type back to the Android system.
	*
	**/
	public class Matrix3f {

	/**
	* Creates a new identity 3x3 matrix
	*/
	public Matrix3f() {
	mMat = new float[9];
	loadIdentity();
	}

	/**
	* Creates a new matrix and sets its values from the given
	* parameter
	*
	* @param dataArray values to set the matrix to, must be 9
	* floats long
	*/
	public Matrix3f(float[] dataArray) {
	mMat = new float[9];
	System.arraycopy(dataArray, 0, mMat, 0, mMat.length);
	}

	/**
	* Return a reference to the internal array representing matrix
	* values. Modifying this array will also change the matrix
	*
	* @return internal array representing the matrix
	*/
	public float[] getArray() {
	return mMat;
	}

	/**
	* Returns the value for a given row and column
	*
	* @param x column of the value to return
	* @param y row of the value to return
	*
	* @return value in the yth row and xth column
	*/
	public float get(int x, int y) {
	return mMat[x*3 + y];
	}

	/**
	* Sets the value for a given row and column
	*
	* @param x column of the value to set
	* @param y row of the value to set
	*/
	public void set(int x, int y, float v) {
	mMat[x*3 + y] = v;
	}

	/**
	* Sets the matrix values to identity
	*/
	public void loadIdentity() {
	mMat[0] = 1;
	mMat[1] = 0;
	mMat[2] = 0;

	mMat[3] = 0;
	mMat[4] = 1;
	mMat[5] = 0;

	mMat[6] = 0;
	mMat[7] = 0;
	mMat[8] = 1;
	}

	/**
	* Sets the values of the matrix to those of the parameter
	*
	* @param src matrix to load the values from
	*/
	public void load(Matrix3f src) {
	System.arraycopy(src.getArray(), 0, mMat, 0, mMat.length);
	}

	/**
	* Sets current values to be a rotation matrix of certain angle
	* about a given axis
	*
	* @param rot angle of rotation
	* @param x rotation axis x
	* @param y rotation axis y
	* @param z rotation axis z
	*/
	public void loadRotate(float rot, float x, float y, float z) {
	float c, s;
	rot *= (float)(java.lang.Math.PI / 180.0f);
	c = (float)java.lang.Math.cos(rot);
	s = (float)java.lang.Math.sin(rot);

	float len = (float)java.lang.Math.sqrt(xx + yy + z*z);
	if (!(len != 1)) {
	float recipLen = 1.f / len;
	x *= recipLen;
	y *= recipLen;
	z *= recipLen;
	}
	float nc = 1.0f - c;
	float xy = x * y;
	float yz = y * z;
	float zx = z * x;
	float xs = x * s;
	float ys = y * s;
	float zs = z * s;
	mMat[0] = xxnc + c;
	mMat[3] = xy*nc - zs;
	mMat[6] = zx*nc + ys;
	mMat[1] = xy*nc + zs;
	mMat[4] = yync + c;
	mMat[7] = yz*nc - xs;
	mMat[2] = zx*nc - ys;
	mMat[5] = yz*nc + xs;
	mMat[8] = zznc + c;
	}

	/**
	* Makes the upper 2x2 a rotation matrix of the given angle
	*
	* @param rot rotation angle
	*/
	public void loadRotate(float rot) {
	loadIdentity();
	float c, s;
	rot *= (float)(java.lang.Math.PI / 180.0f);
	c = (float)java.lang.Math.cos(rot);
	s = (float)java.lang.Math.sin(rot);
	mMat[0] = c;
	mMat[1] = -s;
	mMat[3] = s;
	mMat[4] = c;
	}

	/**
	* Makes the upper 2x2 a scale matrix of given dimensions
	*
	* @param x scale component x
	* @param y scale component y
	*/
	public void loadScale(float x, float y) {
	loadIdentity();
	mMat[0] = x;
	mMat[4] = y;
	}

	/**
	* Sets current values to be a scale matrix of given dimensions
	*
	* @param x scale component x
	* @param y scale component y
	* @param z scale component z
	*/
	public void loadScale(float x, float y, float z) {
	loadIdentity();
	mMat[0] = x;
	mMat[4] = y;
	mMat[8] = z;
	}

	/**
	* Sets current values to be a translation matrix of given
	* dimensions
	*
	* @param x translation component x
	* @param y translation component y
	*/
	public void loadTranslate(float x, float y) {
	loadIdentity();
	mMat[6] = x;
	mMat[7] = y;
	}

	/**
	* Sets current values to be the result of multiplying two given
	* matrices
	*
	* @param lhs left hand side matrix
	* @param rhs right hand side matrix
	*/
	public void loadMultiply(Matrix3f lhs, Matrix3f rhs) {
	for (int i=0 ; i<3 ; i++) {
	float ri0 = 0;
	float ri1 = 0;
	float ri2 = 0;
	for (int j=0 ; j<3 ; j++) {
	float rhs_ij = rhs.get(i,j);
	ri0 += lhs.get(j,0) * rhs_ij;
	ri1 += lhs.get(j,1) * rhs_ij;
	ri2 += lhs.get(j,2) * rhs_ij;
	}
	set(i,0, ri0);
	set(i,1, ri1);
	set(i,2, ri2);
	}
	}

	/**
	* Post-multiplies the current matrix by a given parameter
	*
	* @param rhs right hand side to multiply by
	*/
	public void multiply(Matrix3f rhs) {
	Matrix3f tmp = new Matrix3f();
	tmp.loadMultiply(this, rhs);
	load(tmp);
	}

	/**
	* Modifies the current matrix by post-multiplying it with a
	* rotation matrix of certain angle about a given axis
	*
	* @param rot angle of rotation
	* @param x rotation axis x
	* @param y rotation axis y
	* @param z rotation axis z
	*/
	public void rotate(float rot, float x, float y, float z) {
	Matrix3f tmp = new Matrix3f();
	tmp.loadRotate(rot, x, y, z);
	multiply(tmp);
	}

	/**
	* Modifies the upper 2x2 of the current matrix by
	* post-multiplying it with a rotation matrix of given angle
	*
	* @param rot angle of rotation
	*/
	public void rotate(float rot) {
	Matrix3f tmp = new Matrix3f();
	tmp.loadRotate(rot);
	multiply(tmp);
	}

	/**
	* Modifies the upper 2x2 of the current matrix by
	* post-multiplying it with a scale matrix of given dimensions
	*
	* @param x scale component x
	* @param y scale component y
	*/
	public void scale(float x, float y) {
	Matrix3f tmp = new Matrix3f();
	tmp.loadScale(x, y);
	multiply(tmp);
	}

	/**
	* Modifies the current matrix by post-multiplying it with a
	* scale matrix of given dimensions
	*
	* @param x scale component x
	* @param y scale component y
	* @param z scale component z
	*/
	public void scale(float x, float y, float z) {
	Matrix3f tmp = new Matrix3f();
	tmp.loadScale(x, y, z);
	multiply(tmp);
	}

	/**
	* Modifies the current matrix by post-multiplying it with a
	* translation matrix of given dimensions
	*
	* @param x translation component x
	* @param y translation component y
	*/
	public void translate(float x, float y) {
	Matrix3f tmp = new Matrix3f();
	tmp.loadTranslate(x, y);
	multiply(tmp);
	}

	/**
	* Sets the current matrix to its transpose
	*/
	public void transpose() {
	for(int i = 0; i < 2; ++i) {
	for(int j = i + 1; j < 3; ++j) {
	float temp = mMat[i*3 + j];
	mMat[i3 + j] = mMat[j3 + i];
	mMat[j*3 + i] = temp;
	}
	}
	}

	final float[] mMat;
	}