Commit 0ebbf6fc authored by Guenter Paul Peters's avatar Guenter Paul Peters
Browse files

mysterious dubbling de.jtem.de.jtem etc. in doc comments

git-svn-id: https://svn.math.tu-berlin.de/svn/jtem@47 f5b180c5-49ee-4939-b20e-b6ed35f0f7b7
parent 3cb52123
......@@ -522,12 +522,12 @@ checkArray(ca);
MatrixOperations.assign(im,M);
}
/** create and return new <b>de.jtem.de.jtem.blas.RealMatrix</b> containing <i>this</i>' real part */
/** create and return new <b>de.jtem.blas.RealMatrix</b> containing <i>this</i>' real part */
public RealMatrix getRe() {
return new RealMatrix (re, false );
}
/** create and return new <b>de.jtem.de.jtem.blas.RealMatrix</b> containing <i>this</i>' imaginary part */
/** create and return new <b>de.jtem.blas.RealMatrix</b> containing <i>this</i>' imaginary part */
public RealMatrix getIm() {
return new RealMatrix (im, false );
}
......@@ -1605,7 +1605,7 @@ checkArray(ca);
* This method temporary uses one additional matrix and two vectors.
* <p />
* @return The determinant.
* @see de.jtem.de.jtem.de.jtem.de.jtem.numericalMethods.algebra.linear.Determinant#compute(double[][],double[][]) Determinant
* @see de.jtem.numericalMethods.algebra.linear.Determinant#compute(double[][],double[][]) Determinant
*/
public Complex determinant(){
if (numRows != numCols)
......@@ -1620,7 +1620,7 @@ checkArray(ca);
* This method temporary uses two additional matrices and one vector.
* <p />
* @return The inverse.
* @see de.jtem.de.jtem.de.jtem.de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][],double[][],double[][]) Inversion
* @see de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][],double[][],double[][]) Inversion
*/
public ComplexMatrix invert() {
ComplexMatrix inv = new ComplexMatrix();
......@@ -1635,7 +1635,7 @@ checkArray(ca);
* <p />
* @param M The matrix to invert.
* @return The inverse.
* @see de.jtem.de.jtem.de.jtem.de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][],double[][],double[][]) Inversion
* @see de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][],double[][],double[][]) Inversion
*/
public static ComplexMatrix invert( ComplexMatrix M ) {
ComplexMatrix inv = new ComplexMatrix();
......@@ -1649,7 +1649,7 @@ checkArray(ca);
* This method temporary uses one additional matrix and one vector.
* <p />
* @param M The matrix to invert.
* @see de.jtem.de.jtem.de.jtem.de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][],double[][],double[][]) Inversion
* @see de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][],double[][],double[][]) Inversion
*/
public void assignInvert(ComplexMatrix M){
if (M.numRows != M.numCols)
......@@ -1664,7 +1664,7 @@ checkArray(ca);
* <p />
* This method temporary uses one additional matrix and one vector.
* <p />
* @see de.jtem.de.jtem.de.jtem.de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][],double[][],double[][]) Inversion
* @see de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][],double[][],double[][]) Inversion
*/
public void assignInvert() {
ComplexMatrix inv = new ComplexMatrix();
......
......@@ -415,12 +415,12 @@ public final class ComplexVector extends AbstractVector {
System.arraycopy( im, 0, V, 0, length );
}
/** create and return new <b>de.jtem.de.jtem.blas.RealVector</b> containing <i>this</i>' real part */
/** create and return new <b>de.jtem.blas.RealVector</b> containing <i>this</i>' real part */
public RealVector getRe() {
return new RealVector ( re );
}
/** create and return new <b>de.jtem.de.jtem.blas.RealVector</b> containing <i>this</i>' imaginary part */
/** create and return new <b>de.jtem.blas.RealVector</b> containing <i>this</i>' imaginary part */
public RealVector getIm() {
return new RealVector ( im );
}
......
......@@ -194,7 +194,7 @@ public final class IntegerMatrix extends AbstractMatrix {
re = M;
}
/** create and return new <b>de.jtem.de.jtem.blas.IntegerVector</b> containing row <i>aRowNum</i> */
/** create and return new <b>de.jtem.blas.IntegerVector</b> containing row <i>aRowNum</i> */
public IntegerVector getRow(int aRowNum) {
return getRow(aRowNum, null);
}
......@@ -230,7 +230,7 @@ public final class IntegerMatrix extends AbstractMatrix {
}
/** create and return new <b>de.jtem.de.jtem.blas.IntegerVector</b> containing column <i>aColNum</i> */
/** create and return new <b>de.jtem.blas.IntegerVector</b> containing column <i>aColNum</i> */
public IntegerVector getCol( int aColNum ) {
return getCol(aColNum, null);
}
......@@ -343,7 +343,7 @@ public final class IntegerMatrix extends AbstractMatrix {
MatrixOperations.getDiagonal( re , diag.re ) ;
}
/** create and return a <b>de.jtem.de.jtem.blas.IntegerVector</b> containing <i>this</i>' diagonal */
/** create and return a <b>de.jtem.blas.IntegerVector</b> containing <i>this</i>' diagonal */
public IntegerVector getDiagonal() {
IntegerVector diag = new IntegerVector (Math.min(numRows, numCols));
getDiagonal(diag);
......@@ -810,7 +810,6 @@ public final class IntegerMatrix extends AbstractMatrix {
/**
* Computes the inverse of matrix <em>M</em> and stores the result in <em>this</em> matrix. <p />
* @param M A <code>IntegerMatrix</code> to invert.
* @return A <code>IntegerMatrix</code> containing the result.
*/
public void assignInvert(final IntegerMatrix M) {
assign(M);
......@@ -819,7 +818,6 @@ public final class IntegerMatrix extends AbstractMatrix {
/**
* Inverts <em>this</em> matrix.
* @return A <code>IntegerMatrix</code> containing the result.
*/
public void assignInvert() {
checkSquared();
......
......@@ -241,7 +241,7 @@ public final class RealMatrix extends AbstractMatrix
re = M;
}
/** create and return new <b>de.jtem.de.jtem.blas.RealVector</b> containing row <i>aRowNum</i> */
/** create and return new <b>de.jtem.blas.RealVector</b> containing row <i>aRowNum</i> */
public RealVector getRow( final int aRowNum ) {
return getRow( aRowNum, null );
}
......@@ -290,7 +290,7 @@ public final class RealMatrix extends AbstractMatrix
MatrixOperations.assignRow( re, V , aRowNum );
}
/** create and return new <b>de.jtem.de.jtem.blas.RealVector</b> containing column <i>aColNum</i> */
/** create and return new <b>de.jtem.blas.RealVector</b> containing column <i>aColNum</i> */
public RealVector getCol( final int aColNum ) {
return getCol( aColNum, null );
}
......@@ -436,7 +436,7 @@ public final class RealMatrix extends AbstractMatrix
MatrixOperations.getDiagonal( re, diag.re );
}
/** create and return a <b>de.jtem.de.jtem.blas.RealVector</b> containing <i>this</i>' diagonal */
/** create and return a <b>de.jtem.blas.RealVector</b> containing <i>this</i>' diagonal */
public RealVector getDiagonal() {
RealVector diag = new RealVector (Math.min(numRows,numCols));
getDiagonal(diag);
......@@ -959,7 +959,7 @@ public final class RealMatrix extends AbstractMatrix
* This method temporary uses one additional matrix and two vectors.
* <p />
* @return The determinant.
* @see de.jtem.de.jtem.de.jtem.de.jtem.numericalMethods.algebra.linear.Determinant#compute(double[][]) Determinant
* @see de.jtem.numericalMethods.algebra.linear.Determinant#compute(double[][]) Determinant
*/
public double determinant(){
if (numRows != numCols)
......@@ -973,7 +973,7 @@ public final class RealMatrix extends AbstractMatrix
* This method temporary uses two additional matrices and one vector.
* <p />
* @return The inverse.
* @see de.jtem.de.jtem.de.jtem.de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][]) Inversion
* @see de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][]) Inversion
*/
public RealMatrix invert() {
RealMatrix inv = new RealMatrix();
......@@ -988,7 +988,7 @@ public final class RealMatrix extends AbstractMatrix
* <p />
* @param M The matrix to invert.
* @return The inverse.
* @see de.jtem.de.jtem.de.jtem.de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][]) Inversion
* @see de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][]) Inversion
*/
public static RealMatrix invert( final RealMatrix M ) {
RealMatrix inv = new RealMatrix();
......@@ -1002,7 +1002,7 @@ public final class RealMatrix extends AbstractMatrix
* This method temporary uses one additional matrix and one vector.
* <p />
* @param M The matrix to invert.
* @see de.jtem.de.jtem.de.jtem.de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][]) Inversion
* @see de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][]) Inversion
*/
public void assignInvert(final RealMatrix M){
if (M.numRows != M.numCols)
......@@ -1017,7 +1017,7 @@ public final class RealMatrix extends AbstractMatrix
* <p />
* This method temporary uses one additional matrix and one vector.
* <p />
* @see de.jtem.de.jtem.de.jtem.de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][]) Inversion
* @see de.jtem.numericalMethods.algebra.linear.Inversion#compute(double[][],double[][]) Inversion
*/
public void assignInvert() {
RealMatrix inv = new RealMatrix();
......
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