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A fast and easy to use dense and sparse matrix linear algebra library written in Java.
/*
* Copyright (c) 2022, 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.dense.fixed;
import org.ejml.data.FMatrix5;
import org.ejml.data.FMatrix5x5;
import javax.annotation.Generated;
/**
* Matrix norm related operations for fixed sized matrices of size 5.
* DO NOT MODIFY. Automatically generated code created by GenerateNormOps_DDF
*
* @author Peter Abeles
*/
@Generated("org.ejml.dense.fixed.GenerateNormOps_DDF")
public class NormOps_FDF5 {
public static void normalizeF( FMatrix5x5 M ) {
float val = normF(M);
CommonOps_FDF5.divide(M,val);
}
public static void normalizeF( FMatrix5 M ) {
float val = normF(M);
CommonOps_FDF5.divide(M,val);
}
public static float fastNormF( FMatrix5x5 M ) {
float sum = 0;
sum += M.a11*M.a11 + M.a12*M.a12 + M.a13*M.a13 + M.a14*M.a14 + M.a15*M.a15;
sum += M.a21*M.a21 + M.a22*M.a22 + M.a23*M.a23 + M.a24*M.a24 + M.a25*M.a25;
sum += M.a31*M.a31 + M.a32*M.a32 + M.a33*M.a33 + M.a34*M.a34 + M.a35*M.a35;
sum += M.a41*M.a41 + M.a42*M.a42 + M.a43*M.a43 + M.a44*M.a44 + M.a45*M.a45;
sum += M.a51*M.a51 + M.a52*M.a52 + M.a53*M.a53 + M.a54*M.a54 + M.a55*M.a55;
return (float)Math.sqrt(sum);
}
public static float fastNormF( FMatrix5 M ) {
float sum = M.a1*M.a1 + M.a2*M.a2 + M.a3*M.a3 + M.a4*M.a4 + M.a5*M.a5;
return (float)Math.sqrt(sum);
}
public static float normF( FMatrix5x5 M ) {
float scale = CommonOps_FDF5.elementMaxAbs(M);
if( scale == 0.0f )
return 0.0f;
float a11 = M.a11/scale, a12 = M.a12/scale, a13 = M.a13/scale, a14 = M.a14/scale, a15 = M.a15/scale;
float a21 = M.a21/scale, a22 = M.a22/scale, a23 = M.a23/scale, a24 = M.a24/scale, a25 = M.a25/scale;
float a31 = M.a31/scale, a32 = M.a32/scale, a33 = M.a33/scale, a34 = M.a34/scale, a35 = M.a35/scale;
float a41 = M.a41/scale, a42 = M.a42/scale, a43 = M.a43/scale, a44 = M.a44/scale, a45 = M.a45/scale;
float a51 = M.a51/scale, a52 = M.a52/scale, a53 = M.a53/scale, a54 = M.a54/scale, a55 = M.a55/scale;
float sum = 0;
sum += a11*a11 + a12*a12 + a13*a13 + a14*a14 + a15*a15;
sum += a21*a21 + a22*a22 + a23*a23 + a24*a24 + a25*a25;
sum += a31*a31 + a32*a32 + a33*a33 + a34*a34 + a35*a35;
sum += a41*a41 + a42*a42 + a43*a43 + a44*a44 + a45*a45;
sum += a51*a51 + a52*a52 + a53*a53 + a54*a54 + a55*a55;
return scale * (float)Math.sqrt(sum);
}
public static float normF( FMatrix5 M ) {
float scale = CommonOps_FDF5.elementMaxAbs(M);
if( scale == 0.0f )
return 0.0f;
float a1 = M.a1/scale, a2 = M.a2/scale, a3 = M.a3/scale, a4 = M.a4/scale, a5 = M.a5/scale;
float sum = a1*a1 + a2*a2 + a3*a3 + a4*a4 + a5*a5;
return scale * (float)Math.sqrt(sum);
}
}