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/*
* Copyright (c) 2021, 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.simple.ops;
import org.ejml.data.Complex_F64;
import org.ejml.data.Matrix;
import org.ejml.data.ZMatrixRMaj;
import org.ejml.dense.row.CommonOps_ZDRM;
import org.ejml.dense.row.MatrixFeatures_ZDRM;
import org.ejml.dense.row.NormOps_ZDRM;
import org.ejml.ops.MatrixIO;
import org.ejml.simple.SimpleOperations;
import org.ejml.simple.UnsupportedOperation;
import java.io.PrintStream;
//CUSTOM ignore Complex_F64
//CUSTOM ignore org.ejml.data.Complex_F64;
/**
* @author Peter Abeles
*/
public class SimpleOperations_ZDRM implements SimpleOperations {
@Override
public void set( ZMatrixRMaj A, int row, int column, /**/double value ) {
A.set(row, column, (double)value, 0);
}
@Override
public void set( ZMatrixRMaj A, int row, int column, /**/double real, /**/double imaginary ) {
A.set(row, column, (double)real, (double)imaginary);
}
@Override
public /**/double get( ZMatrixRMaj A, int row, int column ) {
return (double)A.getReal(row, column);
}
@Override
public void get( ZMatrixRMaj A, int row, int column, Complex_F64 value ) {
int index = A.getIndex(row, column);
value.real = A.data[index];
value.imaginary = A.data[index + 1];
}
@Override
public void fill( ZMatrixRMaj A, /**/double value ) {
CommonOps_ZDRM.fill(A, (double)value, 0);
}
@Override
public void transpose( ZMatrixRMaj input, ZMatrixRMaj output ) {
CommonOps_ZDRM.transpose(input, output);
}
@Override
public void mult( ZMatrixRMaj A, ZMatrixRMaj B, ZMatrixRMaj output ) {
CommonOps_ZDRM.mult(A, B, output);
}
@Override
public void multTransA( ZMatrixRMaj A, ZMatrixRMaj B, ZMatrixRMaj output ) {
CommonOps_ZDRM.multTransA(A, B, output);
}
@Override
public void kron( ZMatrixRMaj A, ZMatrixRMaj B, ZMatrixRMaj output ) {
// CommonOps_ZDRM.kron(A,B,output);
throw new UnsupportedOperation();
}
@Override
public void plus( ZMatrixRMaj A, ZMatrixRMaj B, ZMatrixRMaj output ) {
CommonOps_ZDRM.add(A, B, output);
}
@Override
public void minus( ZMatrixRMaj A, ZMatrixRMaj B, ZMatrixRMaj output ) {
CommonOps_ZDRM.subtract(A, B, output);
}
@Override
public void minus( ZMatrixRMaj A, /**/double b, ZMatrixRMaj output ) {
// CommonOps_ZDRM.subtract(A, (double)b, output);
throw new UnsupportedOperation();
}
@Override
public void plus( ZMatrixRMaj A, /**/double b, ZMatrixRMaj output ) {
// CommonOps_ZDRM.add(A, (double)b, output);
throw new UnsupportedOperation();
}
@Override
public void plus( ZMatrixRMaj A, /**/double beta, ZMatrixRMaj b, ZMatrixRMaj output ) {
// CommonOps_ZDRM.add(A, (double)beta, b, output);
throw new UnsupportedOperation();
}
@Override
public void plus( /**/double alpha, ZMatrixRMaj A, /**/double beta, ZMatrixRMaj b, ZMatrixRMaj output ) {
throw new UnsupportedOperation();
}
@Override
public /**/double dot( ZMatrixRMaj A, ZMatrixRMaj v ) {
// return VectorVectorMult_DDRM.innerProd(A, v);
throw new UnsupportedOperation();
}
@Override
public void scale( ZMatrixRMaj A, /**/double val, ZMatrixRMaj output ) {
// CommonOps_ZDRM.scale( (double)val, 0,A,output);
throw new UnsupportedOperation();
}
@Override
public void divide( ZMatrixRMaj A, /**/double val, ZMatrixRMaj output ) {
// CommonOps_ZDRM.divide( A, (double)val,output);
throw new UnsupportedOperation();
}
@Override
public boolean invert( ZMatrixRMaj A, ZMatrixRMaj output ) {
return CommonOps_ZDRM.invert(A, output);
}
@Override
public void setIdentity( ZMatrixRMaj A ) {
CommonOps_ZDRM.setIdentity(A);
}
@Override
public void pseudoInverse( ZMatrixRMaj A, ZMatrixRMaj output ) {
// CommonOps_ZDRM.pinv(A,output);
throw new UnsupportedOperation();
}
@Override
public boolean solve( ZMatrixRMaj A, ZMatrixRMaj X, ZMatrixRMaj B ) {
return CommonOps_ZDRM.solve(A, B, X);
}
@Override
public void zero( ZMatrixRMaj A ) {
A.zero();
}
@Override
public /**/double normF( ZMatrixRMaj A ) {
return NormOps_ZDRM.normF(A);
}
@Override
public /**/double conditionP2( ZMatrixRMaj A ) {
// return NormOps_ZDRM.conditionP2(A);
throw new UnsupportedOperation();
}
@Override
public /**/double determinant( ZMatrixRMaj A ) {
return CommonOps_ZDRM.det(A).real;
}
@Override
public /**/double trace( ZMatrixRMaj A ) {
// return CommonOps_ZDRM.trace(A);
throw new UnsupportedOperation();
}
@Override
public void setRow( ZMatrixRMaj A, int row, int startColumn, /**/double... values ) {
for (int i = 0; i < values.length; i++) {
A.set(row, startColumn + i, (double)values[i], 0);
}
}
@Override
public void setColumn( ZMatrixRMaj A, int column, int startRow, /**/double... values ) {
for (int i = 0; i < values.length; i++) {
A.set(startRow + i, column, (double)values[i], 0);
}
}
@Override
public void extract( ZMatrixRMaj src, int srcY0, int srcY1, int srcX0, int srcX1, ZMatrixRMaj dst, int dstY0, int dstX0 ) {
CommonOps_ZDRM.extract(src, srcY0, srcY1, srcX0, srcX1, dst, dstY0, dstX0);
}
@Override
public ZMatrixRMaj diag( ZMatrixRMaj A ) {
ZMatrixRMaj output;
if (MatrixFeatures_ZDRM.isVector(A)) {
int N = Math.max(A.numCols, A.numRows);
output = new ZMatrixRMaj(N, N);
CommonOps_ZDRM.diag(output, N, A.data);
} else {
int N = Math.min(A.numCols, A.numRows);
output = new ZMatrixRMaj(N, 1);
CommonOps_ZDRM.extractDiag(A, output);
}
return output;
}
@Override
public boolean hasUncountable( ZMatrixRMaj M ) {
return MatrixFeatures_ZDRM.hasUncountable(M);
}
@Override
public void changeSign( ZMatrixRMaj a ) {
// CommonOps_ZDRM.changeSign(a);
throw new UnsupportedOperation();
}
@Override
public /**/double elementMax( ZMatrixRMaj A ) {
return CommonOps_ZDRM.elementMaxReal(A);
}
@Override
public /**/double elementMin( ZMatrixRMaj A ) {
return CommonOps_ZDRM.elementMinReal(A);
}
@Override
public /**/double elementMaxAbs( ZMatrixRMaj A ) {
return CommonOps_ZDRM.elementMaxAbs(A);
}
@Override
public /**/double elementMinAbs( ZMatrixRMaj A ) {
return CommonOps_ZDRM.elementMinAbs(A);
}
@Override
public /**/double elementSum( ZMatrixRMaj A ) {
// return CommonOps_ZDRM.elementSum(A);
throw new UnsupportedOperation();
}
@Override
public void elementMult( ZMatrixRMaj A, ZMatrixRMaj B, ZMatrixRMaj output ) {
// CommonOps_ZDRM.elementMult(A,B,output);
throw new UnsupportedOperation();
}
@Override
public void elementDiv( ZMatrixRMaj A, ZMatrixRMaj B, ZMatrixRMaj output ) {
// CommonOps_ZDRM.elementDiv(A,B,output);
throw new UnsupportedOperation();
}
@Override
public void elementPower( ZMatrixRMaj A, ZMatrixRMaj B, ZMatrixRMaj output ) {
// CommonOps_ZDRM.elementPower(A,B,output);
throw new UnsupportedOperation();
}
@Override
public void elementPower( ZMatrixRMaj A, /**/double b, ZMatrixRMaj output ) {
// CommonOps_ZDRM.elementPower(A, (double)b, output);
throw new UnsupportedOperation();
}
@Override
public void elementExp( ZMatrixRMaj A, ZMatrixRMaj output ) {
// CommonOps_ZDRM.elementExp(A,output);
throw new UnsupportedOperation();
}
@Override
public void elementLog( ZMatrixRMaj A, ZMatrixRMaj output ) {
// CommonOps_ZDRM.elementLog(A,output);
throw new UnsupportedOperation();
}
@Override
public boolean isIdentical( ZMatrixRMaj A, ZMatrixRMaj B, /**/double tol ) {
return MatrixFeatures_ZDRM.isIdentical(A, B, (double)tol);
}
@Override
public void print( PrintStream out, Matrix mat, String format ) {
MatrixIO.print(out, (ZMatrixRMaj)mat, format);
}
}
