Uses of Class
org.apache.commons.math3.linear.MatrixDimensionMismatchException

Packages that use MatrixDimensionMismatchException
org.apache.commons.math3.filter Implementations of common discrete-time linear filters. 
org.apache.commons.math3.linear Linear algebra support. 
 

Uses of MatrixDimensionMismatchException in org.apache.commons.math3.filter
 

Constructors in org.apache.commons.math3.filter that throw MatrixDimensionMismatchException
KalmanFilter(ProcessModel process, MeasurementModel measurement)
          Creates a new Kalman filter with the given process and measurement models.
 

Uses of MatrixDimensionMismatchException in org.apache.commons.math3.linear
 

Methods in org.apache.commons.math3.linear that throw MatrixDimensionMismatchException
 Array2DRowFieldMatrix<T> Array2DRowFieldMatrix.add(Array2DRowFieldMatrix<T> m)
          Add m to this matrix.
 Array2DRowRealMatrix Array2DRowRealMatrix.add(Array2DRowRealMatrix m)
          Compute the sum of this and m.
 BlockFieldMatrix<T> BlockFieldMatrix.add(BlockFieldMatrix<T> m)
          Compute the sum of this and m.
 BlockRealMatrix BlockRealMatrix.add(BlockRealMatrix m)
          Compute the sum of this matrix and m.
 DiagonalMatrix DiagonalMatrix.add(DiagonalMatrix m)
          Compute the sum of this and m.
 FieldMatrix<T> FieldMatrix.add(FieldMatrix<T> m)
          Compute the sum of this and m.
 FieldMatrix<T> BlockFieldMatrix.add(FieldMatrix<T> m)
          Compute the sum of this and m.
 FieldMatrix<T> AbstractFieldMatrix.add(FieldMatrix<T> m)
          Compute the sum of this and m.
 OpenMapRealMatrix OpenMapRealMatrix.add(OpenMapRealMatrix m)
          Deprecated. Compute the sum of this matrix and m.
 RealMatrix AbstractRealMatrix.add(RealMatrix m)
          Returns the sum of this and m.
 RealMatrix RealMatrix.add(RealMatrix m)
          Returns the sum of this and m.
 BlockRealMatrix BlockRealMatrix.add(RealMatrix m)
          Returns the sum of this and m.
static void MatrixUtils.checkAdditionCompatible(AnyMatrix left, AnyMatrix right)
          Check if matrices are addition compatible.
protected  void AbstractFieldMatrix.checkAdditionCompatible(FieldMatrix<T> m)
          Check if a matrix is addition compatible with the instance.
static void MatrixUtils.checkSubtractionCompatible(AnyMatrix left, AnyMatrix right)
          Check if matrices are subtraction compatible
protected  void AbstractFieldMatrix.checkSubtractionCompatible(FieldMatrix<T> m)
          Check if a matrix is subtraction compatible with the instance.
 void AbstractRealMatrix.copySubMatrix(int[] selectedRows, int[] selectedColumns, double[][] destination)
          Copy a submatrix.
 void RealMatrix.copySubMatrix(int[] selectedRows, int[] selectedColumns, double[][] destination)
          Copy a submatrix.
 void FieldMatrix.copySubMatrix(int[] selectedRows, int[] selectedColumns, T[][] destination)
          Copy a submatrix.
 void AbstractFieldMatrix.copySubMatrix(int[] selectedRows, int[] selectedColumns, T[][] destination)
          Copy a submatrix.
 void AbstractRealMatrix.copySubMatrix(int startRow, int endRow, int startColumn, int endColumn, double[][] destination)
          Copy a submatrix.
 void RealMatrix.copySubMatrix(int startRow, int endRow, int startColumn, int endColumn, double[][] destination)
          Copy a submatrix.
 void FieldMatrix.copySubMatrix(int startRow, int endRow, int startColumn, int endColumn, T[][] destination)
          Copy a submatrix.
 void AbstractFieldMatrix.copySubMatrix(int startRow, int endRow, int startColumn, int endColumn, T[][] destination)
          Copy a submatrix.
 void AbstractRealMatrix.setColumn(int column, double[] array)
          Sets the specified column of this matrix to the entries of the specified array.
 void RealMatrix.setColumn(int column, double[] array)
          Sets the specified column of this matrix to the entries of the specified array.
 void BlockRealMatrix.setColumn(int column, double[] array)
          Sets the specified column of this matrix to the entries of the specified array.
 void FieldMatrix.setColumn(int column, T[] array)
          Set the entries in column number column as a column matrix.
 void BlockFieldMatrix.setColumn(int column, T[] array)
          Set the entries in column number column as a column matrix.
 void AbstractFieldMatrix.setColumn(int column, T[] array)
          Set the entries in column number column as a column matrix.
 void FieldMatrix.setColumnMatrix(int column, FieldMatrix<T> matrix)
          Set the entries in column number column as a column matrix.
 void BlockFieldMatrix.setColumnMatrix(int column, FieldMatrix<T> matrix)
          Set the entries in column number column as a column matrix.
 void AbstractFieldMatrix.setColumnMatrix(int column, FieldMatrix<T> matrix)
          Set the entries in column number column as a column matrix.
 void AbstractRealMatrix.setColumnMatrix(int column, RealMatrix matrix)
          Sets the specified column of this matrix to the entries of the specified column matrix.
 void RealMatrix.setColumnMatrix(int column, RealMatrix matrix)
          Sets the specified column of this matrix to the entries of the specified column matrix.
 void BlockRealMatrix.setColumnMatrix(int column, RealMatrix matrix)
          Sets the specified column of this matrix to the entries of the specified column matrix.
 void FieldMatrix.setColumnVector(int column, FieldVector<T> vector)
          Set the entries in column number column as a vector.
 void BlockFieldMatrix.setColumnVector(int column, FieldVector<T> vector)
          Set the entries in column number column as a vector.
 void AbstractFieldMatrix.setColumnVector(int column, FieldVector<T> vector)
          Set the entries in column number column as a vector.
 void AbstractRealMatrix.setColumnVector(int column, RealVector vector)
          Sets the specified column of this matrix to the entries of the specified vector.
 void RealMatrix.setColumnVector(int column, RealVector vector)
          Sets the specified column of this matrix to the entries of the specified vector.
 void BlockRealMatrix.setColumnVector(int column, RealVector vector)
          Sets the specified column of this matrix to the entries of the specified vector.
 void AbstractRealMatrix.setRow(int row, double[] array)
          Sets the specified row of this matrix to the entries of the specified array.
 void RealMatrix.setRow(int row, double[] array)
          Sets the specified row of this matrix to the entries of the specified array.
 void BlockRealMatrix.setRow(int row, double[] array)
          Sets the specified row of this matrix to the entries of the specified array.
 void FieldMatrix.setRow(int row, T[] array)
          Set the entries in row number row as a row matrix.
 void BlockFieldMatrix.setRow(int row, T[] array)
          Set the entries in row number row as a row matrix.
 void AbstractFieldMatrix.setRow(int row, T[] array)
          Set the entries in row number row as a row matrix.
 void BlockFieldMatrix.setRowMatrix(int row, BlockFieldMatrix<T> matrix)
          Sets the entries in row number row as a row matrix.
 void BlockRealMatrix.setRowMatrix(int row, BlockRealMatrix matrix)
          Sets the entries in row number row as a row matrix.
 void FieldMatrix.setRowMatrix(int row, FieldMatrix<T> matrix)
          Set the entries in row number row as a row matrix.
 void BlockFieldMatrix.setRowMatrix(int row, FieldMatrix<T> matrix)
          Set the entries in row number row as a row matrix.
 void AbstractFieldMatrix.setRowMatrix(int row, FieldMatrix<T> matrix)
          Set the entries in row number row as a row matrix.
 void AbstractRealMatrix.setRowMatrix(int row, RealMatrix matrix)
          Sets the specified row of this matrix to the entries of the specified row matrix.
 void RealMatrix.setRowMatrix(int row, RealMatrix matrix)
          Sets the specified row of this matrix to the entries of the specified row matrix.
 void BlockRealMatrix.setRowMatrix(int row, RealMatrix matrix)
          Sets the specified row of this matrix to the entries of the specified row matrix.
 void FieldMatrix.setRowVector(int row, FieldVector<T> vector)
          Set the entries in row number row as a vector.
 void BlockFieldMatrix.setRowVector(int row, FieldVector<T> vector)
          Set the entries in row number row as a vector.
 void AbstractFieldMatrix.setRowVector(int row, FieldVector<T> vector)
          Set the entries in row number row as a vector.
 void AbstractRealMatrix.setRowVector(int row, RealVector vector)
          Sets the specified row of this matrix to the entries of the specified vector.
 void RealMatrix.setRowVector(int row, RealVector vector)
          Sets the specified row of this matrix to the entries of the specified vector.
 void BlockRealMatrix.setRowVector(int row, RealVector vector)
          Sets the specified row of this matrix to the entries of the specified vector.
 Array2DRowFieldMatrix<T> Array2DRowFieldMatrix.subtract(Array2DRowFieldMatrix<T> m)
          Subtract m from this matrix.
 Array2DRowRealMatrix Array2DRowRealMatrix.subtract(Array2DRowRealMatrix m)
          Returns this minus m.
 BlockFieldMatrix<T> BlockFieldMatrix.subtract(BlockFieldMatrix<T> m)
          Compute this - m.
 BlockRealMatrix BlockRealMatrix.subtract(BlockRealMatrix m)
          Subtract m from this matrix.
 DiagonalMatrix DiagonalMatrix.subtract(DiagonalMatrix m)
          Returns this minus m.
 FieldMatrix<T> FieldMatrix.subtract(FieldMatrix<T> m)
          Subtract m from this matrix.
 FieldMatrix<T> BlockFieldMatrix.subtract(FieldMatrix<T> m)
          Subtract m from this matrix.
 FieldMatrix<T> AbstractFieldMatrix.subtract(FieldMatrix<T> m)
          Subtract m from this matrix.
 OpenMapRealMatrix OpenMapRealMatrix.subtract(OpenMapRealMatrix m)
          Deprecated. Subtract m from this matrix.
 OpenMapRealMatrix OpenMapRealMatrix.subtract(RealMatrix m)
          Deprecated. Returns this minus m.
 RealMatrix AbstractRealMatrix.subtract(RealMatrix m)
          Returns this minus m.
 RealMatrix RealMatrix.subtract(RealMatrix m)
          Returns this minus m.
 BlockRealMatrix BlockRealMatrix.subtract(RealMatrix m)
          Returns this minus m.
 



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