T
- the type of the field elementspublic class BlockFieldMatrix<T extends FieldElement<T>> extends AbstractFieldMatrix<T> implements Serializable
This implementation is specially designed to be cache-friendly. Square blocks are stored as small arrays and allow efficient traversal of data both in row major direction and columns major direction, one block at a time. This greatly increases performances for algorithms that use crossed directions loops like multiplication or transposition.
The size of square blocks is a static parameter. It may be tuned according to the cache size of the target computer processor. As a rule of thumbs, it should be the largest value that allows three blocks to be simultaneously cached (this is necessary for example for matrix multiplication). The default value is to use 36x36 blocks.
The regular blocks represent BLOCK_SIZE
x BLOCK_SIZE
squares. Blocks at right hand side and bottom
side which may be smaller to fit matrix dimensions. The square blocks are flattened in row major order in single
dimension arrays which are therefore BLOCK_SIZE
2 elements long for regular blocks. The blocks are
themselves organized in row major order.
As an example, for a block size of 36x36, a 100x60 matrix would be stored in 6 blocks. Block 0 would be a Field[1296] array holding the upper left 36x36 square, block 1 would be a Field[1296] array holding the upper center 36x36 square, block 2 would be a Field[1008] array holding the upper right 36x28 rectangle, block 3 would be a Field[864] array holding the lower left 24x36 rectangle, block 4 would be a Field[864] array holding the lower center 24x36 rectangle and block 5 would be a Field[672] array holding the lower right 24x28 rectangle.
The layout complexity overhead versus simple mapping of matrices to java arrays is negligible for small matrices (about 1%). The gain from cache efficiency leads to up to 3-fold improvements for matrices of moderate to large size.
Modifier and Type | Field and Description |
---|---|
static int |
BLOCK_SIZE
Block size.
|
Constructor and Description |
---|
BlockFieldMatrix(Field<T> field,
int rowsIn,
int columnsIn)
Create a new matrix with the supplied row and column dimensions.
|
BlockFieldMatrix(int rowsIn,
int columnsIn,
T[][] blockData,
boolean copyArray)
Create a new dense matrix copying entries from block layout data.
|
BlockFieldMatrix(T[][] rawData)
Create a new dense matrix copying entries from raw layout data.
|
Modifier and Type | Method and Description |
---|---|
BlockFieldMatrix<T> |
add(BlockFieldMatrix<T> m)
Compute the sum of
this and m . |
FieldMatrix<T> |
add(FieldMatrix<T> m)
Compute the sum of this and m.
|
void |
addToEntry(int row,
int column,
T increment)
Change an entry in the specified row and column.
|
FieldMatrix<T> |
copy()
Make a (deep) copy of this.
|
static <T extends FieldElement<T>> |
createBlocksLayout(Field<T> field,
int rows,
int columns)
Create a data array in blocks layout.
|
FieldMatrix<T> |
createMatrix(int rowDimension,
int columnDimension)
Create a new FieldMatrix
|
T[] |
getColumn(int column)
Get the entries in column number
col as an array. |
int |
getColumnDimension()
Returns the number of columns in the matrix.
|
FieldMatrix<T> |
getColumnMatrix(int column)
Get the entries in column number
column as a column matrix. |
FieldVector<T> |
getColumnVector(int column)
Returns the entries in column number
column as a vector. |
T[][] |
getData()
Returns matrix entries as a two-dimensional array.
|
T |
getEntry(int row,
int column)
Returns the entry in the specified row and column.
|
T[] |
getRow(int row)
Get the entries in row number
row as an array. |
int |
getRowDimension()
Returns the number of rows in the matrix.
|
FieldMatrix<T> |
getRowMatrix(int row)
Get the entries in row number
row as a row matrix. |
FieldVector<T> |
getRowVector(int row)
Get the entries in row number
row as a vector. |
FieldMatrix<T> |
getSubMatrix(int startRow,
int endRow,
int startColumn,
int endColumn)
Get a submatrix.
|
BlockFieldMatrix<T> |
multiply(BlockFieldMatrix<T> m)
Returns the result of postmultiplying
this by m . |
FieldMatrix<T> |
multiply(FieldMatrix<T> m)
Postmultiply this matrix by
m . |
void |
multiplyEntry(int row,
int column,
T factor)
Change an entry in the specified row and column.
|
T[] |
operate(T[] v)
Returns the result of multiplying this by the vector
v . |
T[] |
preMultiply(T[] v)
Returns the (row) vector result of premultiplying this by the vector
v . |
FieldMatrix<T> |
scalarAdd(T d)
Increment each entry of this matrix.
|
FieldMatrix<T> |
scalarMultiply(T d)
Multiply each entry by
d . |
void |
setColumn(int column,
T[] array)
Set the entries in column number
column as a column matrix. |
void |
setColumnMatrix(int column,
BlockFieldMatrix<T> matrix)
Sets the entries in column number
column as a column matrix. |
void |
setColumnMatrix(int column,
FieldMatrix<T> matrix)
Set the entries in column number
column as a column matrix. |
void |
setColumnVector(int column,
FieldVector<T> vector)
Set the entries in column number
column as a vector. |
void |
setEntry(int row,
int column,
T value)
Set the entry in the specified row and column.
|
void |
setRow(int row,
T[] array)
Set the entries in row number
row as a row matrix. |
void |
setRowMatrix(int row,
BlockFieldMatrix<T> matrix)
Sets the entries in row number
row as a row matrix. |
void |
setRowMatrix(int row,
FieldMatrix<T> matrix)
Set the entries in row number
row as a row matrix. |
void |
setRowVector(int row,
FieldVector<T> vector)
Set the entries in row number
row as a vector. |
void |
setSubMatrix(T[][] subMatrix,
int row,
int column)
Replace the submatrix starting at
(row, column) using data in the
input subMatrix array. |
BlockFieldMatrix<T> |
subtract(BlockFieldMatrix<T> m)
Compute
this - m . |
FieldMatrix<T> |
subtract(FieldMatrix<T> m)
Subtract
m from this matrix. |
static <T extends FieldElement<T>> |
toBlocksLayout(T[][] rawData)
Convert a data array from raw layout to blocks layout.
|
FieldMatrix<T> |
transpose()
Returns the transpose of this matrix.
|
T |
walkInOptimizedOrder(FieldMatrixChangingVisitor<T> visitor)
Visit (and possibly change) all matrix entries using the fastest possible order.
|
T |
walkInOptimizedOrder(FieldMatrixChangingVisitor<T> visitor,
int startRow,
int endRow,
int startColumn,
int endColumn)
Visit (and possibly change) some matrix entries using the fastest possible order.
|
T |
walkInOptimizedOrder(FieldMatrixPreservingVisitor<T> visitor)
Visit (but don't change) all matrix entries using the fastest possible order.
|
T |
walkInOptimizedOrder(FieldMatrixPreservingVisitor<T> visitor,
int startRow,
int endRow,
int startColumn,
int endColumn)
Visit (but don't change) some matrix entries using the fastest possible order.
|
T |
walkInRowOrder(FieldMatrixChangingVisitor<T> visitor)
Visit (and possibly change) all matrix entries in row order.
|
T |
walkInRowOrder(FieldMatrixChangingVisitor<T> visitor,
int startRow,
int endRow,
int startColumn,
int endColumn)
Visit (and possibly change) some matrix entries in row order.
|
T |
walkInRowOrder(FieldMatrixPreservingVisitor<T> visitor)
Visit (but don't change) all matrix entries in row order.
|
T |
walkInRowOrder(FieldMatrixPreservingVisitor<T> visitor,
int startRow,
int endRow,
int startColumn,
int endColumn)
Visit (but don't change) some matrix entries in row order.
|
buildArray, buildArray, checkAdditionCompatible, checkColumnIndex, checkMultiplicationCompatible, checkRowIndex, checkSubMatrixIndex, checkSubMatrixIndex, checkSubtractionCompatible, copySubMatrix, copySubMatrix, equals, extractField, extractField, getField, getSubMatrix, getTrace, hashCode, isSquare, operate, power, preMultiply, preMultiply, toString, walkInColumnOrder, walkInColumnOrder, walkInColumnOrder, walkInColumnOrder
public static final int BLOCK_SIZE
public BlockFieldMatrix(Field<T> field, int rowsIn, int columnsIn)
field
- Field to which the elements belong.rowsIn
- Number of rows in the new matrix.columnsIn
- Number of columns in the new matrix.NotStrictlyPositiveException
- if row or column dimension is not
positive.public BlockFieldMatrix(T[][] rawData)
The input array must already be in raw layout.
Calling this constructor is equivalent to call:
matrix = new BlockFieldMatrix<T>(getField(), rawData.length, rawData[0].length, toBlocksLayout(rawData), false);
rawData
- Data for the new matrix, in raw layout.DimensionMismatchException
- if the blockData
shape is
inconsistent with block layout.BlockFieldMatrix(int, int, FieldElement[][], boolean)
public BlockFieldMatrix(int rowsIn, int columnsIn, T[][] blockData, boolean copyArray)
The input array must already be in blocks layout.
rowsIn
- the number of rows in the new matrixcolumnsIn
- the number of columns in the new matrixblockData
- data for new matrixcopyArray
- if true, the input array will be copied, otherwise
it will be referencedDimensionMismatchException
- if the blockData
shape is
inconsistent with block layout.NotStrictlyPositiveException
- if row or column dimension is not
positive.createBlocksLayout(Field, int, int)
,
toBlocksLayout(FieldElement[][])
,
BlockFieldMatrix(FieldElement[][])
public static <T extends FieldElement<T>> T[][] toBlocksLayout(T[][] rawData)
Raw layout is the straightforward layout where element at row i and column j is in array element
rawData[i][j]
. Blocks layout is the layout used in BlockFieldMatrix
instances, where the
matrix is split in square blocks (except at right and bottom side where blocks may be rectangular to fit matrix
size) and each block is stored in a flattened one-dimensional array.
This method creates an array in blocks layout from an input array in raw layout. It can be used to provide the
array argument of the BlockFieldMatrix(int, int, FieldElement[][], boolean)
constructor.
T
- Type of the field elements.rawData
- Data array in raw layout.DimensionMismatchException
- if rawData
is not rectangular
(not all rows have the same length).createBlocksLayout(Field, int, int)
,
BlockFieldMatrix(int, int, FieldElement[][], boolean)
public static <T extends FieldElement<T>> T[][] createBlocksLayout(Field<T> field, int rows, int columns)
This method can be used to create the array argument of the
BlockFieldMatrix(int, int, FieldElement[][], boolean)
constructor.
T
- Type of the field elements.field
- Field to which the elements belong.rows
- Number of rows in the new matrix.columns
- Number of columns in the new matrix.toBlocksLayout(FieldElement[][])
,
BlockFieldMatrix(int, int, FieldElement[][], boolean)
public FieldMatrix<T> createMatrix(int rowDimension, int columnDimension)
createMatrix
in interface FieldMatrix<T extends FieldElement<T>>
createMatrix
in class AbstractFieldMatrix<T extends FieldElement<T>>
rowDimension
- the number of rows in the new matrixcolumnDimension
- the number of columns in the new matrixpublic FieldMatrix<T> copy()
copy
in interface FieldMatrix<T extends FieldElement<T>>
copy
in class AbstractFieldMatrix<T extends FieldElement<T>>
public FieldMatrix<T> add(FieldMatrix<T> m)
add
in interface FieldMatrix<T extends FieldElement<T>>
add
in class AbstractFieldMatrix<T extends FieldElement<T>>
m
- Matrix to be added.this
+ m
.public BlockFieldMatrix<T> add(BlockFieldMatrix<T> m)
this
and m
.m
- matrix to be addedthis + m
MatrixDimensionMismatchException
- if m
is not the same
size as this
public FieldMatrix<T> subtract(FieldMatrix<T> m)
m
from this matrix.subtract
in interface FieldMatrix<T extends FieldElement<T>>
subtract
in class AbstractFieldMatrix<T extends FieldElement<T>>
m
- Matrix to be subtracted.this
- m
.public BlockFieldMatrix<T> subtract(BlockFieldMatrix<T> m)
this - m
.m
- matrix to be subtractedthis - m
MatrixDimensionMismatchException
- if m
is not the same
size as this
public FieldMatrix<T> scalarAdd(T d)
scalarAdd
in interface FieldMatrix<T extends FieldElement<T>>
scalarAdd
in class AbstractFieldMatrix<T extends FieldElement<T>>
d
- Value to be added to each entry.d
+ this
.public FieldMatrix<T> scalarMultiply(T d)
d
.scalarMultiply
in interface FieldMatrix<T extends FieldElement<T>>
scalarMultiply
in class AbstractFieldMatrix<T extends FieldElement<T>>
d
- Value to multiply all entries by.d
* this
.public FieldMatrix<T> multiply(FieldMatrix<T> m)
m
.multiply
in interface FieldMatrix<T extends FieldElement<T>>
multiply
in class AbstractFieldMatrix<T extends FieldElement<T>>
m
- Matrix to postmultiply by.this
* m
.public BlockFieldMatrix<T> multiply(BlockFieldMatrix<T> m)
this
by m
.m
- matrix to postmultiply bythis * m
DimensionMismatchException
- if the matrices are not compatible.public T[][] getData()
getData
in interface FieldMatrix<T extends FieldElement<T>>
getData
in class AbstractFieldMatrix<T extends FieldElement<T>>
public FieldMatrix<T> getSubMatrix(int startRow, int endRow, int startColumn, int endColumn)
getSubMatrix
in interface FieldMatrix<T extends FieldElement<T>>
getSubMatrix
in class AbstractFieldMatrix<T extends FieldElement<T>>
startRow
- Initial row indexendRow
- Final row index (inclusive)startColumn
- Initial column indexendColumn
- Final column index (inclusive)public void setSubMatrix(T[][] subMatrix, int row, int column)
(row, column)
using data in the
input subMatrix
array. Indexes are 0-based.
Example:
Starting with
1 2 3 4 5 6 7 8 9 0 1 2and
subMatrix = {{3, 4} {5,6}}
, invoking setSubMatrix(subMatrix,1,1))
will result in
1 2 3 4 5 3 4 8 9 5 6 2
setSubMatrix
in interface FieldMatrix<T extends FieldElement<T>>
setSubMatrix
in class AbstractFieldMatrix<T extends FieldElement<T>>
subMatrix
- Array containing the submatrix replacement data.row
- Row coordinate of the top-left element to be replaced.column
- Column coordinate of the top-left element to be replaced.public FieldMatrix<T> getRowMatrix(int row)
row
as a row matrix.getRowMatrix
in interface FieldMatrix<T extends FieldElement<T>>
getRowMatrix
in class AbstractFieldMatrix<T extends FieldElement<T>>
row
- Row to be fetched.public void setRowMatrix(int row, FieldMatrix<T> matrix)
row
as a row matrix.setRowMatrix
in interface FieldMatrix<T extends FieldElement<T>>
setRowMatrix
in class AbstractFieldMatrix<T extends FieldElement<T>>
row
- Row to be set.matrix
- Row matrix (must have one row and the same number
of columns as the instance).public void setRowMatrix(int row, BlockFieldMatrix<T> matrix)
row
as a row matrix. Row indices start at 0.row
- the row to be setmatrix
- row matrix (must have one row and the same number of columns
as the instance)MatrixDimensionMismatchException
- if the matrix dimensions do
not match one instance row.OutOfRangeException
- if the specified row index is invalid.public FieldMatrix<T> getColumnMatrix(int column)
column
as a column matrix.getColumnMatrix
in interface FieldMatrix<T extends FieldElement<T>>
getColumnMatrix
in class AbstractFieldMatrix<T extends FieldElement<T>>
column
- Column to be fetched.public void setColumnMatrix(int column, FieldMatrix<T> matrix)
column
as a column matrix.setColumnMatrix
in interface FieldMatrix<T extends FieldElement<T>>
setColumnMatrix
in class AbstractFieldMatrix<T extends FieldElement<T>>
column
- Column to be set.matrix
- column matrix (must have one column and the same
number of rows as the instance).public void setColumnMatrix(int column, BlockFieldMatrix<T> matrix)
column
as a column matrix. Column indices start at 0.column
- Column to be set.matrix
- Column matrix (must have one column and the same number of rows
as the instance).MatrixDimensionMismatchException
- if the matrix dimensions do
not match one instance column.OutOfRangeException
- if the specified column index is invalid.public FieldVector<T> getRowVector(int row)
row
as a vector.getRowVector
in interface FieldMatrix<T extends FieldElement<T>>
getRowVector
in class AbstractFieldMatrix<T extends FieldElement<T>>
row
- Row to be fetchedpublic void setRowVector(int row, FieldVector<T> vector)
row
as a vector.setRowVector
in interface FieldMatrix<T extends FieldElement<T>>
setRowVector
in class AbstractFieldMatrix<T extends FieldElement<T>>
row
- Row to be set.vector
- row vector (must have the same number of columns
as the instance).public FieldVector<T> getColumnVector(int column)
column
as a vector.getColumnVector
in interface FieldMatrix<T extends FieldElement<T>>
getColumnVector
in class AbstractFieldMatrix<T extends FieldElement<T>>
column
- Column to be fetched.public void setColumnVector(int column, FieldVector<T> vector)
column
as a vector.setColumnVector
in interface FieldMatrix<T extends FieldElement<T>>
setColumnVector
in class AbstractFieldMatrix<T extends FieldElement<T>>
column
- Column to be set.vector
- Column vector (must have the same number of rows
as the instance).public T[] getRow(int row)
row
as an array.getRow
in interface FieldMatrix<T extends FieldElement<T>>
getRow
in class AbstractFieldMatrix<T extends FieldElement<T>>
row
- Row to be fetched.public void setRow(int row, T[] array)
row
as a row matrix.setRow
in interface FieldMatrix<T extends FieldElement<T>>
setRow
in class AbstractFieldMatrix<T extends FieldElement<T>>
row
- Row to be set.array
- Row matrix (must have the same number of columns as
the instance).public T[] getColumn(int column)
col
as an array.getColumn
in interface FieldMatrix<T extends FieldElement<T>>
getColumn
in class AbstractFieldMatrix<T extends FieldElement<T>>
column
- the column to be fetchedpublic void setColumn(int column, T[] array)
column
as a column matrix.setColumn
in interface FieldMatrix<T extends FieldElement<T>>
setColumn
in class AbstractFieldMatrix<T extends FieldElement<T>>
column
- the column to be setarray
- column array (must have the same number of rows as the instance)public T getEntry(int row, int column)
getEntry
in interface FieldMatrix<T extends FieldElement<T>>
getEntry
in class AbstractFieldMatrix<T extends FieldElement<T>>
row
- row location of entry to be fetchedcolumn
- column location of entry to be fetchedpublic void setEntry(int row, int column, T value)
setEntry
in interface FieldMatrix<T extends FieldElement<T>>
setEntry
in class AbstractFieldMatrix<T extends FieldElement<T>>
row
- row location of entry to be setcolumn
- column location of entry to be setvalue
- matrix entry to be set in row,columnpublic void addToEntry(int row, int column, T increment)
addToEntry
in interface FieldMatrix<T extends FieldElement<T>>
addToEntry
in class AbstractFieldMatrix<T extends FieldElement<T>>
row
- Row location of entry to be set.column
- Column location of entry to be set.increment
- Value to add to the current matrix entry in (row, column)
.public void multiplyEntry(int row, int column, T factor)
multiplyEntry
in interface FieldMatrix<T extends FieldElement<T>>
multiplyEntry
in class AbstractFieldMatrix<T extends FieldElement<T>>
row
- Row location of entry to be set.column
- Column location of entry to be set.factor
- Multiplication factor for the current matrix entry
in (row,column)
public FieldMatrix<T> transpose()
transpose
in interface FieldMatrix<T extends FieldElement<T>>
transpose
in class AbstractFieldMatrix<T extends FieldElement<T>>
public int getRowDimension()
getRowDimension
in interface AnyMatrix
getRowDimension
in class AbstractFieldMatrix<T extends FieldElement<T>>
public int getColumnDimension()
getColumnDimension
in interface AnyMatrix
getColumnDimension
in class AbstractFieldMatrix<T extends FieldElement<T>>
public T[] operate(T[] v)
v
.operate
in interface FieldMatrix<T extends FieldElement<T>>
operate
in class AbstractFieldMatrix<T extends FieldElement<T>>
v
- the vector to operate onthis * v
public T[] preMultiply(T[] v)
v
.preMultiply
in interface FieldMatrix<T extends FieldElement<T>>
preMultiply
in class AbstractFieldMatrix<T extends FieldElement<T>>
v
- the row vector to premultiply byv * this
public T walkInRowOrder(FieldMatrixChangingVisitor<T> visitor)
Row order starts at upper left and iterating through all elements of a row from left to right before going to the leftmost element of the next row.
walkInRowOrder
in interface FieldMatrix<T extends FieldElement<T>>
walkInRowOrder
in class AbstractFieldMatrix<T extends FieldElement<T>>
visitor
- visitor used to process all matrix entriesFieldMatrixChangingVisitor.end()
at the end
of the walkFieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor, int, int, int, int)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor, int, int, int, int)
public T walkInRowOrder(FieldMatrixPreservingVisitor<T> visitor)
Row order starts at upper left and iterating through all elements of a row from left to right before going to the leftmost element of the next row.
walkInRowOrder
in interface FieldMatrix<T extends FieldElement<T>>
walkInRowOrder
in class AbstractFieldMatrix<T extends FieldElement<T>>
visitor
- visitor used to process all matrix entriesFieldMatrixPreservingVisitor.end()
at the end
of the walkFieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor, int, int, int, int)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor, int, int, int, int)
public T walkInRowOrder(FieldMatrixChangingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
Row order starts at upper left and iterating through all elements of a row from left to right before going to the leftmost element of the next row.
walkInRowOrder
in interface FieldMatrix<T extends FieldElement<T>>
walkInRowOrder
in class AbstractFieldMatrix<T extends FieldElement<T>>
visitor
- visitor used to process all matrix entriesstartRow
- Initial row indexendRow
- Final row index (inclusive)startColumn
- Initial column indexendColumn
- Final column indexFieldMatrixChangingVisitor.end()
at the end
of the walkFieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor, int, int, int, int)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor, int, int, int, int)
public T walkInRowOrder(FieldMatrixPreservingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
Row order starts at upper left and iterating through all elements of a row from left to right before going to the leftmost element of the next row.
walkInRowOrder
in interface FieldMatrix<T extends FieldElement<T>>
walkInRowOrder
in class AbstractFieldMatrix<T extends FieldElement<T>>
visitor
- visitor used to process all matrix entriesstartRow
- Initial row indexendRow
- Final row index (inclusive)startColumn
- Initial column indexendColumn
- Final column indexFieldMatrixPreservingVisitor.end()
at the end
of the walkFieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor, int, int, int, int)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor, int, int, int, int)
public T walkInOptimizedOrder(FieldMatrixChangingVisitor<T> visitor)
The fastest walking order depends on the exact matrix class. It may be different from traditional row or column orders.
walkInOptimizedOrder
in interface FieldMatrix<T extends FieldElement<T>>
walkInOptimizedOrder
in class AbstractFieldMatrix<T extends FieldElement<T>>
visitor
- visitor used to process all matrix entriesFieldMatrixChangingVisitor.end()
at the end
of the walkFieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor, int, int, int, int)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor, int, int, int, int)
public T walkInOptimizedOrder(FieldMatrixPreservingVisitor<T> visitor)
The fastest walking order depends on the exact matrix class. It may be different from traditional row or column orders.
walkInOptimizedOrder
in interface FieldMatrix<T extends FieldElement<T>>
walkInOptimizedOrder
in class AbstractFieldMatrix<T extends FieldElement<T>>
visitor
- visitor used to process all matrix entriesFieldMatrixPreservingVisitor.end()
at the end
of the walkFieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor, int, int, int, int)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor, int, int, int, int)
public T walkInOptimizedOrder(FieldMatrixChangingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
The fastest walking order depends on the exact matrix class. It may be different from traditional row or column orders.
walkInOptimizedOrder
in interface FieldMatrix<T extends FieldElement<T>>
walkInOptimizedOrder
in class AbstractFieldMatrix<T extends FieldElement<T>>
visitor
- visitor used to process all matrix entriesstartRow
- Initial row indexendRow
- Final row index (inclusive)startColumn
- Initial column indexendColumn
- Final column index (inclusive)FieldMatrixChangingVisitor.end()
at the end
of the walkFieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor, int, int, int, int)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor, int, int, int, int)
public T walkInOptimizedOrder(FieldMatrixPreservingVisitor<T> visitor, int startRow, int endRow, int startColumn, int endColumn)
The fastest walking order depends on the exact matrix class. It may be different from traditional row or column orders.
walkInOptimizedOrder
in interface FieldMatrix<T extends FieldElement<T>>
walkInOptimizedOrder
in class AbstractFieldMatrix<T extends FieldElement<T>>
visitor
- visitor used to process all matrix entriesstartRow
- Initial row indexendRow
- Final row index (inclusive)startColumn
- Initial column indexendColumn
- Final column index (inclusive)FieldMatrixPreservingVisitor.end()
at the end
of the walkFieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInRowOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInRowOrder(FieldMatrixPreservingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInColumnOrder(FieldMatrixChangingVisitor, int, int, int, int)
,
FieldMatrix.walkInColumnOrder(FieldMatrixPreservingVisitor, int, int, int, int)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixPreservingVisitor)
,
FieldMatrix.walkInOptimizedOrder(FieldMatrixChangingVisitor, int, int, int, int)
Copyright © 2019 CNES. All rights reserved.