Uses of Class
cern.colt.matrix.tlong.LongMatrix2D

Packages that use LongMatrix2D

cern.colt.matrix.tlong	Matrix interfaces and factories holding elements of long data type.
cern.colt.matrix.tlong.algo	Algorithms operating on long integer matrices.
cern.colt.matrix.tlong.impl	Efficient and flexible dense and sparse 1, 2 and 3-dimensional matrices holding elements of long data type.

Uses of LongMatrix2D in cern.colt.matrix.tlong

Methods in cern.colt.matrix.tlong that return LongMatrix2D

LongMatrix2D	LongFactory2D.appendColumn(LongMatrix2D A, LongMatrix1D b)
LongMatrix2D	LongFactory2D.appendColumns(LongMatrix2D A, LongMatrix2D B) C = A||B; Constructs a new matrix which is the column-wise concatenation of two other matrices.
LongMatrix2D	LongFactory2D.appendRow(LongMatrix2D A, LongMatrix1D b)
LongMatrix2D	LongFactory2D.appendRows(LongMatrix2D A, LongMatrix2D B) C = A||B; Constructs a new matrix which is the row-wise concatenation of two other matrices.
LongMatrix2D	LongFactory2D.ascending(int rows, int columns) Constructs a matrix with cells having ascending values.
LongMatrix2D	LongMatrix2D.assign(int[] values) Sets all cells to the state specified by values.
LongMatrix2D	LongMatrix2D.assign(long value) Sets all cells to the state specified by value.
LongMatrix2D	LongMatrix2D.assign(long[] values) Sets all cells to the state specified by values.
LongMatrix2D	LongMatrix2D.assign(long[][] values) Sets all cells to the state specified by values.
LongMatrix2D	LongMatrix2D.assign(LongFunction f) Assigns the result of a function to each cell; x[row,col] = function(x[row,col]).
LongMatrix2D	LongMatrix2D.assign(LongMatrix2D other) Replaces all cell values of the receiver with the values of another matrix.
LongMatrix2D	LongMatrix2D.assign(LongMatrix2D y, LongLongFunction function) Assigns the result of a function to each cell; x[row,col] = function(x[row,col],y[row,col]).
LongMatrix2D	LongMatrix2D.assign(LongMatrix2D y, LongLongFunction function, IntArrayList rowList, IntArrayList columnList) Assigns the result of a function to all cells with a given indexes
LongMatrix2D	LongMatrix2D.assign(LongProcedure cond, long value) Assigns a value to all cells that satisfy a condition.
LongMatrix2D	LongMatrix2D.assign(LongProcedure cond, LongFunction f) Assigns the result of a function to all cells that satisfy a condition.
LongMatrix2D	LongFactory2D.compose(LongMatrix2D[][] parts) Constructs a block matrix made from the given parts.
LongMatrix2D	LongFactory2D.composeBidiagonal(LongMatrix2D A, LongMatrix2D B)
LongMatrix2D	LongFactory2D.composeDiagonal(LongMatrix2D A, LongMatrix2D B) Constructs a diagonal block matrix from the given parts (the direct sum of two matrices).
LongMatrix2D	LongFactory2D.composeDiagonal(LongMatrix2D A, LongMatrix2D B, LongMatrix2D C) Constructs a diagonal block matrix from the given parts.
LongMatrix2D	LongMatrix2D.copy() Constructs and returns a deep copy of the receiver.
LongMatrix2D	LongFactory2D.descending(int rows, int columns) Constructs a matrix with cells having descending values.
LongMatrix2D	LongFactory2D.diagonal(int[] vector) Constructs a new diagonal matrix whose diagonal elements are the elements of vector.
LongMatrix2D	LongFactory2D.diagonal(LongMatrix1D vector) Constructs a new diagonal matrix whose diagonal elements are the elements of vector.
LongMatrix2D	LongMatrix2D.forEachNonZero(IntIntLongFunction function) Assigns the result of a function to each non-zero cell; x[row,col] = function(x[row,col]).
LongMatrix2D	LongFactory2D.identity(int rowsAndColumns) Constructs an identity matrix (having ones on the diagonal and zeros elsewhere).
LongMatrix2D	LongMatrix2D.like() Construct and returns a new empty matrix of the same dynamic type as the receiver, having the same number of rows and columns.
abstract LongMatrix2D	LongMatrix2D.like(int rows, int columns) Construct and returns a new empty matrix of the same dynamic type as the receiver, having the specified number of rows and columns.
abstract LongMatrix2D	LongMatrix3D.like2D(int rows, int columns) Construct and returns a new 2-d matrix of the corresponding dynamic type, sharing the same cells.
abstract LongMatrix2D	LongMatrix1D.like2D(int rows, int columns) Construct and returns a new 2-d matrix of the corresponding dynamic type, entirelly independent of the receiver.
LongMatrix2D	LongFactory2D.make(int[] values, int rows) Construct a matrix from a one-dimensional column-major packed array, ala Fortran.
LongMatrix2D	LongFactory2D.make(int rows, int columns) Constructs a matrix with the given shape, each cell initialized with zero.
LongMatrix2D	LongFactory2D.make(int rows, int columns, long initialValue) Constructs a matrix with the given shape, each cell initialized with the given value.
LongMatrix2D	LongFactory2D.make(long[][] values) Constructs a matrix with the given cell values.
LongMatrix2D	LongFactory2D.random(int rows, int columns) Constructs a matrix with uniformly distributed values in (0,1) (exclusive).
LongMatrix2D	LongFactory2D.repeat(LongMatrix2D A, int rowRepeat, int columnRepeat) C = A||A||..||A; Constructs a new matrix which is duplicated both along the row and column dimension.
abstract LongMatrix2D	LongMatrix1D.reshape(int rows, int columns) Returns new LongMatrix2D of size rows x columns whose elements are taken column-wise from this matrix.
LongMatrix2D	LongFactory2D.reshape(LongMatrix1D a, int rows, int columns)
LongMatrix2D	LongFactory2D.sample(int rows, int columns, int value, int nonZeroFraction) Constructs a randomly sampled matrix with the given shape.
LongMatrix2D	LongFactory2D.sample(LongMatrix2D matrix, int value, int nonZeroFraction) Modifies the given matrix to be a randomly sampled matrix.
LongMatrix2D	LongMatrix3D.viewColumn(int column) Constructs and returns a new 2-dimensional slice view representing the slices and rows of the given column.
LongMatrix2D	LongMatrix2D.viewColumnFlip() Constructs and returns a new flip view along the column axis.
LongMatrix2D	LongMatrix2D.viewDice() Constructs and returns a new dice (transposition) view; Swaps axes; example: 3 x 4 matrix --> 4 x 3 matrix.
LongMatrix2D	LongMatrix2D.viewPart(int row, int column, int height, int width) Constructs and returns a new sub-range view that is a height x width sub matrix starting at [row,column].
LongMatrix2D	LongMatrix3D.viewRow(int row) Constructs and returns a new 2-dimensional slice view representing the slices and columns of the given row.
LongMatrix2D	LongMatrix2D.viewRowFlip() Constructs and returns a new flip view along the row axis.
LongMatrix2D	LongMatrix2D.viewSelection(int[] rowIndexes, int[] columnIndexes) Constructs and returns a new selection view that is a matrix holding the indicated cells.
LongMatrix2D	LongMatrix2D.viewSelection(LongMatrix1DProcedure condition) Constructs and returns a new selection view that is a matrix holding all rows matching the given condition.
LongMatrix2D	LongMatrix2D.viewSelection(Set<int[]> indexes)
LongMatrix2D	LongMatrix3D.viewSlice(int slice) Constructs and returns a new 2-dimensional slice view representing the rows and columns of the given slice.
LongMatrix2D	LongMatrix2D.viewSorted(int column) Sorts the matrix rows into ascending order, according to the natural ordering of the matrix values in the given column.
LongMatrix2D	LongMatrix2D.viewStrides(int rowStride, int columnStride) Constructs and returns a new stride view which is a sub matrix consisting of every i-th cell.
LongMatrix2D	LongMatrix2D.zMult(LongMatrix2D B, LongMatrix2D C) Linear algebraic matrix-matrix multiplication; C = A x B; Equivalent to A.zMult(B,C,1,0,false,false).
LongMatrix2D	LongMatrix2D.zMult(LongMatrix2D B, LongMatrix2D C, long alpha, long beta, boolean transposeA, boolean transposeB) Linear algebraic matrix-matrix multiplication; C = alpha * A x B + beta*C.

Methods in cern.colt.matrix.tlong with parameters of type LongMatrix2D

long	LongMatrix2D.aggregate(LongMatrix2D other, LongLongFunction aggr, LongLongFunction f) Applies a function to each corresponding cell of two matrices and aggregates the results.
LongMatrix2D	LongFactory2D.appendColumn(LongMatrix2D A, LongMatrix1D b)
LongMatrix2D	LongFactory2D.appendColumns(LongMatrix2D A, LongMatrix2D B) C = A||B; Constructs a new matrix which is the column-wise concatenation of two other matrices.
LongMatrix2D	LongFactory2D.appendRow(LongMatrix2D A, LongMatrix1D b)
LongMatrix2D	LongFactory2D.appendRows(LongMatrix2D A, LongMatrix2D B) C = A||B; Constructs a new matrix which is the row-wise concatenation of two other matrices.
boolean	LongMatrix2DProcedure.apply(LongMatrix2D element) Applies a procedure to an argument.
LongMatrix2D	LongMatrix2D.assign(LongMatrix2D other) Replaces all cell values of the receiver with the values of another matrix.
LongMatrix2D	LongMatrix2D.assign(LongMatrix2D y, LongLongFunction function) Assigns the result of a function to each cell; x[row,col] = function(x[row,col],y[row,col]).
LongMatrix2D	LongMatrix2D.assign(LongMatrix2D y, LongLongFunction function, IntArrayList rowList, IntArrayList columnList) Assigns the result of a function to all cells with a given indexes
LongMatrix2D	LongFactory2D.compose(LongMatrix2D[][] parts) Constructs a block matrix made from the given parts.
LongMatrix2D	LongFactory2D.composeBidiagonal(LongMatrix2D A, LongMatrix2D B)
LongMatrix2D	LongFactory2D.composeDiagonal(LongMatrix2D A, LongMatrix2D B) Constructs a diagonal block matrix from the given parts (the direct sum of two matrices).
LongMatrix2D	LongFactory2D.composeDiagonal(LongMatrix2D A, LongMatrix2D B, LongMatrix2D C) Constructs a diagonal block matrix from the given parts.
void	LongFactory2D.decompose(LongMatrix2D[][] parts, LongMatrix2D matrix) Splits a block matrix into its constituent blocks; Copies blocks of a matrix into the given parts.
void	LongFactory2D.decompose(LongMatrix2D[][] parts, LongMatrix2D matrix) Splits a block matrix into its constituent blocks; Copies blocks of a matrix into the given parts.
LongMatrix1D	LongFactory2D.diagonal(LongMatrix2D A) Constructs a new vector consisting of the diagonal elements of A .
LongMatrix2D	LongFactory2D.repeat(LongMatrix2D A, int rowRepeat, int columnRepeat) C = A||A||..||A; Constructs a new matrix which is duplicated both along the row and column dimension.
LongMatrix2D	LongFactory2D.sample(LongMatrix2D matrix, int value, int nonZeroFraction) Modifies the given matrix to be a randomly sampled matrix.
LongMatrix2D	LongMatrix2D.zMult(LongMatrix2D B, LongMatrix2D C) Linear algebraic matrix-matrix multiplication; C = A x B; Equivalent to A.zMult(B,C,1,0,false,false).
LongMatrix2D	LongMatrix2D.zMult(LongMatrix2D B, LongMatrix2D C, long alpha, long beta, boolean transposeA, boolean transposeB) Linear algebraic matrix-matrix multiplication; C = alpha * A x B + beta*C.

Uses of LongMatrix2D in cern.colt.matrix.tlong.algo

Methods in cern.colt.matrix.tlong.algo that return LongMatrix2D

LongMatrix2D	LongSorting.sort(LongMatrix2D matrix, int column) Sorts the matrix rows into ascending order, according to the natural ordering of the matrix values in the given column.
LongMatrix2D	LongSorting.sort(LongMatrix2D matrix, long[] aggregates) Sorts the matrix rows into ascending order, according to the natural ordering of the matrix values in the virtual column aggregates; Particularly efficient when comparing expensive aggregates, because aggregates need not be recomputed time and again, as is the case for comparator based sorts.
LongMatrix2D	LongSorting.sort(LongMatrix2D matrix, LongMatrix1DComparator c) Sorts the matrix rows according to the order induced by the specified comparator.

Methods in cern.colt.matrix.tlong.algo with parameters of type LongMatrix2D

void	LongProperty.checkRectangular(LongMatrix2D A) Checks whether the given matrix A is rectangular.
void	LongProperty.checkSquare(LongMatrix2D A) Checks whether the given matrix A is square.
int	LongMatrix2DComparator.compare(LongMatrix2D o1, LongMatrix2D o2) Compares its two arguments for order.
int	LongProperty.density(LongMatrix2D A) Returns the matrix's fraction of non-zero cells; A.cardinality() / A.size().
boolean	LongProperty.equals(LongMatrix2D A, long value) Returns whether all cells of the given matrix A are equal to the given value.
boolean	LongProperty.equals(LongMatrix2D A, LongMatrix2D B) Returns whether both given matrices A and B are equal.
String[][]	LongFormatter.format(LongMatrix2D matrix) Returns a string representations of all cells; no alignment considered.
void	LongProperty.generateNonSingular(LongMatrix2D A) Modifies the given matrix square matrix A such that it is diagonally dominant by row and column, hence non-singular, hence invertible.
boolean	LongProperty.isDiagonal(LongMatrix2D A) A matrix A is diagonal if A[i,j] == 0 whenever i != j.
boolean	LongProperty.isDiagonallyDominantByColumn(LongMatrix2D A) A matrix A is diagonally dominant by column if the absolute value of each diagonal element is larger than the sum of the absolute values of the off-diagonal elements in the corresponding column.
boolean	LongProperty.isDiagonallyDominantByRow(LongMatrix2D A) A matrix A is diagonally dominant by row if the absolute value of each diagonal element is larger than the sum of the absolute values of the off-diagonal elements in the corresponding row.
boolean	LongProperty.isIdentity(LongMatrix2D A) A matrix A is an identity matrix if A[i,i] == 1 and all other cells are zero.
boolean	LongProperty.isLowerBidiagonal(LongMatrix2D A) A matrix A is lower bidiagonal if A[i,j]==0 unless i==j || i==j+1.
boolean	LongProperty.isLowerTriangular(LongMatrix2D A) A matrix A is lower triangular if A[i,j]==0 whenever i < j.
boolean	LongProperty.isNonNegative(LongMatrix2D A) A matrix A is non-negative if A[i,j] >= 0 holds for all cells.
boolean	LongProperty.isOrthogonal(LongMatrix2D A) A square matrix A is orthogonal if A*transpose(A) = I.
boolean	LongProperty.isPositive(LongMatrix2D A) A matrix A is positive if A[i,j] > 0 holds for all cells.
boolean	LongProperty.isSkewSymmetric(LongMatrix2D A) A square matrix A is skew-symmetric if A = -transpose(A), that is A[i,j] == -A[j,i].
boolean	LongProperty.isSquare(LongMatrix2D A) A matrix A is square if it has the same number of rows and columns.
boolean	LongProperty.isStrictlyLowerTriangular(LongMatrix2D A) A matrix A is strictly lower triangular if A[i,j]==0 whenever i <= j.
boolean	LongProperty.isStrictlyTriangular(LongMatrix2D A) A matrix A is strictly triangular if it is triangular and its diagonal elements all equal 0.
boolean	LongProperty.isStrictlyUpperTriangular(LongMatrix2D A) A matrix A is strictly upper triangular if A[i,j]==0 whenever i >= j.
boolean	LongProperty.isSymmetric(LongMatrix2D A) A matrix A is symmetric if A = tranpose(A), that is A[i,j] == A[j,i].
boolean	LongProperty.isTriangular(LongMatrix2D A) A matrix A is triangular iff it is either upper or lower triangular.
boolean	LongProperty.isTridiagonal(LongMatrix2D A) A matrix A is tridiagonal if A[i,j]==0 whenever Math.abs(i-j) > 1.
boolean	LongProperty.isUnitTriangular(LongMatrix2D A) A matrix A is unit triangular if it is triangular and its diagonal elements all equal 1.
boolean	LongProperty.isUpperBidiagonal(LongMatrix2D A) A matrix A is upper bidiagonal if A[i,j]==0 unless i==j || i==j-1.
boolean	LongProperty.isUpperTriangular(LongMatrix2D A) A matrix A is upper triangular if A[i,j]==0 whenever i > j.
boolean	LongProperty.isZero(LongMatrix2D A) A matrix A is zero if all its cells are zero.
int	LongProperty.lowerBandwidth(LongMatrix2D A) The lower bandwidth of a square matrix A is the maximum i-j for which A[i,j] is nonzero and i > j.
int	LongProperty.semiBandwidth(LongMatrix2D A) Returns the semi-bandwidth of the given square matrix A.
LongMatrix2D	LongSorting.sort(LongMatrix2D matrix, int column) Sorts the matrix rows into ascending order, according to the natural ordering of the matrix values in the given column.
LongMatrix2D	LongSorting.sort(LongMatrix2D matrix, long[] aggregates) Sorts the matrix rows into ascending order, according to the natural ordering of the matrix values in the virtual column aggregates; Particularly efficient when comparing expensive aggregates, because aggregates need not be recomputed time and again, as is the case for comparator based sorts.
LongMatrix2D	LongSorting.sort(LongMatrix2D matrix, LongMatrix1DComparator c) Sorts the matrix rows according to the order induced by the specified comparator.
String	LongFormatter.toSourceCode(LongMatrix2D matrix) Returns a string s such that Object[] m = s is a legal Java statement.
String	LongProperty.toString(LongMatrix2D A) Returns summary information about the given matrix A.
String	LongFormatter.toString(LongMatrix2D matrix) Returns a string representation of the given matrix.
int	LongProperty.upperBandwidth(LongMatrix2D A) The upper bandwidth of a square matrix A is the maximum j-i for which A[i,j] is nonzero and j > i.

Uses of LongMatrix2D in cern.colt.matrix.tlong.impl

Subclasses of LongMatrix2D in cern.colt.matrix.tlong.impl

class	DenseColumnLongMatrix2D Dense 2-d matrix holding long elements.
class	DenseLargeLongMatrix2D Dense 2-d matrix holding long elements.
class	DenseLongMatrix2D Dense 2-d matrix holding int elements.
class	DiagonalLongMatrix2D Diagonal 2-d matrix holding long elements.
class	SparseCCLongMatrix2D Sparse column-compressed 2-d matrix holding long elements.
class	SparseCCMLongMatrix2D Sparse column-compressed-modified 2-d matrix holding long elements.
class	SparseLongMatrix2D Sparse hashed 2-d matrix holding long elements.
class	SparseRCLongMatrix2D Sparse row-compressed 2-d matrix holding long elements.
class	SparseRCMLongMatrix2D Sparse row-compressed-modified 2-d matrix holding long elements.
class	WrapperLongMatrix2D 2-d matrix holding long elements; either a view wrapping another matrix or a matrix whose views are wrappers.

Methods in cern.colt.matrix.tlong.impl that return LongMatrix2D

LongMatrix2D	WrapperLongMatrix2D.assign(int[] values)
LongMatrix2D	DenseLongMatrix2D.assign(int[] values)
LongMatrix2D	SparseRCLongMatrix2D.assign(long value)
LongMatrix2D	SparseLongMatrix2D.assign(long value)
LongMatrix2D	SparseCCLongMatrix2D.assign(long value)
LongMatrix2D	DiagonalLongMatrix2D.assign(long value)
LongMatrix2D	DenseLongMatrix2D.assign(long value)
LongMatrix2D	DenseColumnLongMatrix2D.assign(long value)
LongMatrix2D	WrapperLongMatrix2D.assign(long[] values)
LongMatrix2D	DiagonalLongMatrix2D.assign(long[] values)
LongMatrix2D	DenseLongMatrix2D.assign(long[] values)
LongMatrix2D	DenseColumnLongMatrix2D.assign(long[] values)
LongMatrix2D	DiagonalLongMatrix2D.assign(long[][] values)
LongMatrix2D	DenseLongMatrix2D.assign(long[][] values)
LongMatrix2D	DenseColumnLongMatrix2D.assign(long[][] values)
LongMatrix2D	SparseRCLongMatrix2D.assign(LongFunction function)
LongMatrix2D	SparseLongMatrix2D.assign(LongFunction function)
LongMatrix2D	SparseCCLongMatrix2D.assign(LongFunction function)
LongMatrix2D	DiagonalLongMatrix2D.assign(LongFunction function)
LongMatrix2D	DenseLongMatrix2D.assign(LongFunction function)
LongMatrix2D	DenseColumnLongMatrix2D.assign(LongFunction function)
LongMatrix2D	SparseRCLongMatrix2D.assign(LongMatrix2D source)
LongMatrix2D	SparseLongMatrix2D.assign(LongMatrix2D source)
LongMatrix2D	SparseCCLongMatrix2D.assign(LongMatrix2D source)
LongMatrix2D	DiagonalLongMatrix2D.assign(LongMatrix2D source)
LongMatrix2D	DenseLongMatrix2D.assign(LongMatrix2D source)
LongMatrix2D	DenseColumnLongMatrix2D.assign(LongMatrix2D source)
LongMatrix2D	WrapperLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function)
LongMatrix2D	SparseRCLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function)
LongMatrix2D	SparseLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function)
LongMatrix2D	SparseCCLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function)
LongMatrix2D	DiagonalLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function)
LongMatrix2D	DenseLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function)
LongMatrix2D	DenseColumnLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function)
LongMatrix2D	DenseLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function, IntArrayList rowList, IntArrayList columnList)
LongMatrix2D	DenseColumnLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function, IntArrayList rowList, IntArrayList columnList)
LongMatrix2D	DenseLongMatrix2D.assign(LongProcedure cond, long value)
LongMatrix2D	DenseColumnLongMatrix2D.assign(LongProcedure cond, long value)
LongMatrix2D	DenseLongMatrix2D.assign(LongProcedure cond, LongFunction function)
LongMatrix2D	DenseColumnLongMatrix2D.assign(LongProcedure cond, LongFunction function)
LongMatrix2D	SparseRCLongMatrix2D.forEachNonZero(IntIntLongFunction function)
LongMatrix2D	SparseLongMatrix2D.forEachNonZero(IntIntLongFunction function)
LongMatrix2D	SparseCCLongMatrix2D.forEachNonZero(IntIntLongFunction function)
LongMatrix2D	DiagonalLongMatrix2D.forEachNonZero(IntIntLongFunction function)
LongMatrix2D	DenseLongMatrix2D.forEachNonZero(IntIntLongFunction function)
LongMatrix2D	DenseColumnLongMatrix2D.forEachNonZero(IntIntLongFunction function)
LongMatrix2D	WrapperLongMatrix2D.like(int rows, int columns)
LongMatrix2D	SparseRCMLongMatrix2D.like(int rows, int columns)
LongMatrix2D	SparseRCLongMatrix2D.like(int rows, int columns)
LongMatrix2D	SparseLongMatrix2D.like(int rows, int columns)
LongMatrix2D	SparseCCMLongMatrix2D.like(int rows, int columns)
LongMatrix2D	SparseCCLongMatrix2D.like(int rows, int columns)
LongMatrix2D	DiagonalLongMatrix2D.like(int rows, int columns)
LongMatrix2D	DenseLongMatrix2D.like(int rows, int columns)
LongMatrix2D	DenseLargeLongMatrix2D.like(int rows, int columns)
LongMatrix2D	DenseColumnLongMatrix2D.like(int rows, int columns)
LongMatrix2D	WrapperLongMatrix3D.like2D(int rows, int columns)
LongMatrix2D	WrapperLongMatrix1D.like2D(int rows, int columns) Construct and returns a new 2-d matrix of the corresponding dynamic type, entirelly independent of the receiver.
LongMatrix2D	SparseLongMatrix3D.like2D(int rows, int columns)
LongMatrix2D	SparseLongMatrix1D.like2D(int rows, int columns) Construct and returns a new 2-d matrix of the corresponding dynamic type, entirelly independent of the receiver.
LongMatrix2D	DenseLongMatrix3D.like2D(int rows, int columns)
LongMatrix2D	DenseLongMatrix1D.like2D(int rows, int columns)
LongMatrix2D	WrapperLongMatrix1D.reshape(int rows, int columns)
LongMatrix2D	SparseLongMatrix1D.reshape(int rows, int columns)
LongMatrix2D	DenseLongMatrix1D.reshape(int rows, int columns)
LongMatrix2D	WrapperLongMatrix3D.viewColumn(int column)
LongMatrix2D	WrapperLongMatrix2D.viewColumnFlip()
LongMatrix2D	WrapperLongMatrix2D.viewDice()
LongMatrix2D	WrapperLongMatrix2D.viewPart(int row, int column, int height, int width)
LongMatrix2D	WrapperLongMatrix3D.viewRow(int row)
LongMatrix2D	WrapperLongMatrix2D.viewRowFlip()
LongMatrix2D	WrapperLongMatrix2D.viewSelection(int[] rowIndexes, int[] columnIndexes)
LongMatrix2D	WrapperLongMatrix3D.viewSlice(int slice)
LongMatrix2D	WrapperLongMatrix2D.viewStrides(int _rowStride, int _columnStride)
LongMatrix2D	SparseRCLongMatrix2D.zMult(LongMatrix2D B, LongMatrix2D C, long alpha, long beta, boolean transposeA, boolean transposeB)
LongMatrix2D	SparseLongMatrix2D.zMult(LongMatrix2D B, LongMatrix2D C, long alpha, long beta, boolean transposeA, boolean transposeB)
LongMatrix2D	SparseCCLongMatrix2D.zMult(LongMatrix2D B, LongMatrix2D C, long alpha, long beta, boolean transposeA, boolean transposeB)
LongMatrix2D	DenseLongMatrix2D.zMult(LongMatrix2D B, LongMatrix2D C, long alpha, long beta, boolean transposeA, boolean transposeB)

Methods in cern.colt.matrix.tlong.impl with parameters of type LongMatrix2D

long	DenseLongMatrix2D.aggregate(LongMatrix2D other, LongLongFunction aggr, LongLongFunction f)
long	DenseColumnLongMatrix2D.aggregate(LongMatrix2D other, LongLongFunction aggr, LongLongFunction f)
LongMatrix2D	SparseRCLongMatrix2D.assign(LongMatrix2D source)
LongMatrix2D	SparseLongMatrix2D.assign(LongMatrix2D source)
LongMatrix2D	SparseCCLongMatrix2D.assign(LongMatrix2D source)
LongMatrix2D	DiagonalLongMatrix2D.assign(LongMatrix2D source)
LongMatrix2D	DenseLongMatrix2D.assign(LongMatrix2D source)
LongMatrix2D	DenseColumnLongMatrix2D.assign(LongMatrix2D source)
LongMatrix2D	WrapperLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function)
LongMatrix2D	SparseRCLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function)
LongMatrix2D	SparseLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function)
LongMatrix2D	SparseCCLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function)
LongMatrix2D	DiagonalLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function)
LongMatrix2D	DenseLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function)
LongMatrix2D	DenseColumnLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function)
LongMatrix2D	DenseLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function, IntArrayList rowList, IntArrayList columnList)
LongMatrix2D	DenseColumnLongMatrix2D.assign(LongMatrix2D y, LongLongFunction function, IntArrayList rowList, IntArrayList columnList)
LongMatrix2D	SparseRCLongMatrix2D.zMult(LongMatrix2D B, LongMatrix2D C, long alpha, long beta, boolean transposeA, boolean transposeB)
LongMatrix2D	SparseLongMatrix2D.zMult(LongMatrix2D B, LongMatrix2D C, long alpha, long beta, boolean transposeA, boolean transposeB)
LongMatrix2D	SparseCCLongMatrix2D.zMult(LongMatrix2D B, LongMatrix2D C, long alpha, long beta, boolean transposeA, boolean transposeB)
LongMatrix2D	DenseLongMatrix2D.zMult(LongMatrix2D B, LongMatrix2D C, long alpha, long beta, boolean transposeA, boolean transposeB)

Constructors in cern.colt.matrix.tlong.impl with parameters of type LongMatrix2D

WrapperLongMatrix2D(LongMatrix2D newContent)