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A fast and easy to use dense and sparse matrix linear algebra library written in Java.

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/*
 * Copyright (c) 2020, Peter Abeles. All Rights Reserved.
 *
 * This file is part of Efficient Java Matrix Library (EJML).
 *
 * 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 org.ejml.data;

import org.ejml.ops.MatrixIO;

import javax.annotation.Generated;

/**
 * Fixed sized 2 by DMatrix2x2 matrix.  The matrix is stored as class variables for very fast read/write.  aXY is the
 * value of row = X and column = Y.
 *
 * 

DO NOT MODIFY. Automatically generated code created by GenerateMatrixFixedNxN

* * @author Peter Abeles */ @Generated("org.ejml.data.GenerateMatrixFixedNxN") public class DMatrix2x2 implements DMatrixFixed { public double a11,a12; public double a21,a22; public DMatrix2x2() {} public DMatrix2x2( double a11, double a12, double a21, double a22 ) { this.a11 = a11; this.a12 = a12; this.a21 = a21; this.a22 = a22; } public DMatrix2x2( DMatrix2x2 o ) { this.a11 = o.a11; this.a12 = o.a12; this.a21 = o.a21; this.a22 = o.a22; } @Override public void zero() { a11 = 0.0; a12 = 0.0; a21 = 0.0; a22 = 0.0; } public void setTo( double a11, double a12, double a21, double a22 ) { this.a11 = a11; this.a12 = a12; this.a21 = a21; this.a22 = a22; } public void setTo( int offset , double[] a ) { this.a11 = a[offset + 0]; this.a12 = a[offset + 1]; this.a21 = a[offset + 2]; this.a22 = a[offset + 3]; } @Override public double get( int row, int col ) { return unsafe_get(row,col); } @Override public double unsafe_get( int row, int col ) { if (row == 0) { if (col == 0) { return a11; } else if (col == 1) { return a12; } } else if (row == 1) { if (col == 0) { return a21; } else if (col == 1) { return a22; } } throw new IllegalArgumentException("Row and/or column out of range. "+row+" "+col); } @Override public void set( int row, int col, double val ) { unsafe_set(row,col,val); } @Override public void unsafe_set( int row, int col, double val ) { if (row == 0) { if (col == 0) { a11 = val; return; } else if (col == 1) { a12 = val; return; } } else if (row == 1) { if (col == 0) { a21 = val; return; } else if (col == 1) { a22 = val; return; } } throw new IllegalArgumentException("Row and/or column out of range. "+row+" "+col); } @Override public void setTo( Matrix original ) { if (original.getNumCols() != 2 || original.getNumRows() != 2) throw new IllegalArgumentException("Rows and/or columns do not match"); DMatrix m = (DMatrix)original; a11 = m.get(0,0); a12 = m.get(0,1); a21 = m.get(1,0); a22 = m.get(1,1); } @Override public int getNumRows() {return 2;} @Override public int getNumCols() {return 2;} @Override public int getNumElements() {return 4;} @Override public T copy() { return (T)new DMatrix2x2(this); } @Override public void print() { MatrixIO.printFancy(System.out, this, MatrixIO.DEFAULT_LENGTH); } @Override public void print( String format ) { MatrixIO.print(System.out, this, format); } @Override public T createLike() {return (T)new DMatrix2x2();} @Override public MatrixType getType() {return MatrixType.UNSPECIFIED;}}




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