Parallel Colt 0.7.2

cern.colt.matrix.tdouble.impl
Class DenseDoubleMatrix1D

java.lang.Object
  extended by cern.colt.PersistentObject
      extended by cern.colt.matrix.AbstractMatrix
          extended by cern.colt.matrix.AbstractMatrix1D
              extended by cern.colt.matrix.tdouble.DoubleMatrix1D
                  extended by cern.colt.matrix.tdouble.impl.DenseDoubleMatrix1D
All Implemented Interfaces:
Serializable, Cloneable

public class DenseDoubleMatrix1D
extends DoubleMatrix1D

Dense 1-d matrix (aka vector) holding double elements. First see the package summary and javadoc tree view to get the broad picture.

Implementation:

Internally holds one single contigous one-dimensional array. Note that this implementation is not synchronized.

Memory requirements:

memory [bytes] = 8*size(). Thus, a 1000000 matrix uses 8 MB.

Time complexity:

O(1) (i.e. constant time) for the basic operations get, getQuick, set, setQuick and size,

Version:
1.0, 09/24/99
Author:
wolfgang.hoschek@cern.ch, Piotr Wendykier (piotr.wendykier@gmail.com)
See Also:
Serialized Form

Constructor Summary
DenseDoubleMatrix1D(double[] values)
          Constructs a matrix with a copy of the given values.
DenseDoubleMatrix1D(int size)
          Constructs a matrix with a given number of cells.
DenseDoubleMatrix1D(int size, double[] elements, int zero, int stride, boolean isView)
          Constructs a matrix with the given parameters.
 
Method Summary
 double aggregate(DoubleDoubleFunction aggr, DoubleFunction f)
          Applies a function to each cell and aggregates the results.
 double aggregate(DoubleDoubleFunction aggr, DoubleFunction f, IntArrayList indexList)
          Applies a function to all cells with a given indexes and aggregates the results.
 double aggregate(DoubleMatrix1D other, DoubleDoubleFunction aggr, DoubleDoubleFunction f)
          Applies a function to each corresponding cell of two matrices and aggregates the results.
 DoubleMatrix1D assign(double value)
          Sets all cells to the state specified by value.
 DoubleMatrix1D assign(double[] values)
          Sets all cells to the state specified by values.
 DoubleMatrix1D assign(DoubleFunction function)
          Assigns the result of a function to each cell; x[i] = function(x[i]).
 DoubleMatrix1D assign(DoubleMatrix1D source)
          Replaces all cell values of the receiver with the values of another matrix.
 DoubleMatrix1D assign(DoubleMatrix1D y, DoubleDoubleFunction function)
          Assigns the result of a function to each cell; x[i] = function(x[i],y[i]).
 DoubleMatrix1D assign(DoubleProcedure cond, double value)
          Assigns a value to all cells that satisfy a condition.
 DoubleMatrix1D assign(DoubleProcedure cond, DoubleFunction function)
          Assigns the result of a function to all cells that satisfy a condition.
 int cardinality()
          Returns the number of cells having non-zero values; ignores tolerance.
 void dct(boolean scale)
          Computes the discrete cosine transform (DCT-II) of this matrix.
 void dht()
          Computes the discrete Hartley transform (DHT) of this matrix.
 void dst(boolean scale)
          Computes the discrete sine transform (DST-II) of this matrix.
 double[] elements()
          Returns the elements of this matrix.
 void fft()
          Computes the discrete Fourier transform (DFT) of this matrix.
 DenseDComplexMatrix1D getFft()
          Returns new complex matrix which is the discrete Fourier transform (DFT) of this matrix.
 DenseDComplexMatrix1D getIfft(boolean scale)
          Returns new complex matrix which is the inverse of the discrete Fourier (IDFT) transform of this matrix.
 double[] getMaxLocation()
          Return the maximum value of this matrix together with its location
 double[] getMinLocation()
          Return the minimum value of this matrix together with its location
 void getNegativeValues(IntArrayList indexList, DoubleArrayList valueList)
          Fills the coordinates and values of cells having negative values into the specified lists.
 void getNonZeros(IntArrayList indexList, DoubleArrayList valueList)
          Fills the coordinates and values of cells having non-zero values into the specified lists.
 void getPositiveValues(IntArrayList indexList, DoubleArrayList valueList)
          Fills the coordinates and values of cells having positive values into the specified lists.
 double getQuick(int index)
          Returns the matrix cell value at coordinate index.
 void idct(boolean scale)
          Computes the inverse of the discrete cosine transform (DCT-III) of this matrix.
 void idht(boolean scale)
          Computes the inverse of the discrete Hartley transform (IDHT) of this matrix.
 void idst(boolean scale)
          Computes the inverse of discrete sine transform (DST-III) of this matrix.
 void ifft(boolean scale)
          Computes the inverse of the discrete Fourier transform (DFT) of this matrix.
 long index(int rank)
          Returns the position of the element with the given relative rank within the (virtual or non-virtual) internal 1-dimensional array.
 DoubleMatrix1D like(int size)
          Construct and returns a new empty matrix of the same dynamic type as the receiver, having the specified size.
 DoubleMatrix2D like2D(int rows, int columns)
          Construct and returns a new 2-d matrix of the corresponding dynamic type, entirelly independent of the receiver.
 DoubleMatrix2D reshape(int rows, int cols)
          Returns new DoubleMatrix2D of size rows x columns whose elements are taken column-wise from this matrix.
 DoubleMatrix3D reshape(int slices, int rows, int cols)
          Returns new DoubleMatrix3D of size slices x rows x columns, whose elements are taken column-wise from this matrix.
 void setQuick(int index, double value)
          Sets the matrix cell at coordinate index to the specified value.
 void swap(DoubleMatrix1D other)
          Swaps each element this[i] with other[i].
 void toArray(double[] values)
          Fills the cell values into the specified 1-dimensional array.
 double zDotProduct(DoubleMatrix1D y, int from, int length)
          Returns the dot product of two vectors x and y, which is Sum(x[i]*y[i]).
 double zSum()
          Returns the sum of all cells; Sum( x[i] ).
 
Methods inherited from class cern.colt.matrix.tdouble.DoubleMatrix1D
assign, copy, equals, equals, get, getNonZeros, like, normalize, set, setSize, toArray, toString, viewFlip, viewPart, viewSelection, viewSelection, viewSorted, viewStrides, zDotProduct, zDotProduct
 
Methods inherited from class cern.colt.matrix.AbstractMatrix1D
checkSize, size, stride, toStringShort
 
Methods inherited from class cern.colt.matrix.AbstractMatrix
ensureCapacity, isView, trimToSize
 
Methods inherited from class cern.colt.PersistentObject
clone
 
Methods inherited from class java.lang.Object
getClass, hashCode, notify, notifyAll, wait, wait, wait
 

Constructor Detail

DenseDoubleMatrix1D

public DenseDoubleMatrix1D(double[] values)
Constructs a matrix with a copy of the given values. The values are copied. So subsequent changes in values are not reflected in the matrix, and vice-versa.

Parameters:
values - The values to be filled into the new matrix.

DenseDoubleMatrix1D

public DenseDoubleMatrix1D(int size)
Constructs a matrix with a given number of cells. All entries are initially 0.

Parameters:
size - the number of cells the matrix shall have.
Throws:
IllegalArgumentException - if size<0.

DenseDoubleMatrix1D

public DenseDoubleMatrix1D(int size,
                           double[] elements,
                           int zero,
                           int stride,
                           boolean isView)
Constructs a matrix with the given parameters.

Parameters:
size - the number of cells the matrix shall have.
elements - the cells.
zero - the index of the first element.
stride - the number of indexes between any two elements, i.e. index(i+1)-index(i).
isView - if true then a matrix view is constructed
Throws:
IllegalArgumentException - if size<0.
Method Detail

aggregate

public double aggregate(DoubleDoubleFunction aggr,
                        DoubleFunction f)
Description copied from class: DoubleMatrix1D
Applies a function to each cell and aggregates the results. Returns a value v such that v==a(size()) where a(i) == aggr( a(i-1), f(get(i)) ) and terminators are a(1) == f(get(0)), a(0)==Double.NaN.

Example:

         cern.jet.math.Functions F = cern.jet.math.Functions.functions;
         matrix = 0 1 2 3 
 
         // Sum( x[i]*x[i] ) 
         matrix.aggregate(F.plus,F.square);
         --> 14
 
 
For further examples, see the package doc.

Overrides:
aggregate in class DoubleMatrix1D
Parameters:
aggr - an aggregation function taking as first argument the current aggregation and as second argument the transformed current cell value.
f - a function transforming the current cell value.
Returns:
the aggregated measure.
See Also:
DoubleFunctions

aggregate

public double aggregate(DoubleDoubleFunction aggr,
                        DoubleFunction f,
                        IntArrayList indexList)
Description copied from class: DoubleMatrix1D
Applies a function to all cells with a given indexes and aggregates the results.

Overrides:
aggregate in class DoubleMatrix1D
Parameters:
aggr - an aggregation function taking as first argument the current aggregation and as second argument the transformed current cell value.
f - a function transforming the current cell value.
indexList - indexes.
Returns:
the aggregated measure.
See Also:
DoubleFunctions

aggregate

public double aggregate(DoubleMatrix1D other,
                        DoubleDoubleFunction aggr,
                        DoubleDoubleFunction f)
Description copied from class: DoubleMatrix1D
Applies a function to each corresponding cell of two matrices and aggregates the results. Returns a value v such that v==a(size()) where a(i) == aggr( a(i-1), f(get(i),other.get(i)) ) and terminators are a(1) == f(get(0),other.get(0)), a(0)==Double.NaN.

Example:

         cern.jet.math.Functions F = cern.jet.math.Functions.functions;
         x = 0 1 2 3 
         y = 0 1 2 3 
 
         // Sum( x[i]*y[i] )
         x.aggregate(y, F.plus, F.mult);
         --> 14
 
         // Sum( (x[i]+y[i])ˆ2 )
         x.aggregate(y, F.plus, F.chain(F.square,F.plus));
         --> 56
 
 
For further examples, see the package doc.

Overrides:
aggregate in class DoubleMatrix1D
aggr - an aggregation function taking as first argument the current aggregation and as second argument the transformed current cell values.
f - a function transforming the current cell values.
Returns:
the aggregated measure.
See Also:
DoubleFunctions

assign

public DoubleMatrix1D assign(DoubleFunction function)
Description copied from class: DoubleMatrix1D
Assigns the result of a function to each cell; x[i] = function(x[i]). (Iterates downwards from [size()-1] to [0]).

Example:

         // change each cell to its sine
         matrix =   0.5      1.5      2.5       3.5 
         matrix.assign(cern.jet.math.Functions.sin);
         -->
         matrix ==  0.479426 0.997495 0.598472 -0.350783
 
 
For further examples, see the package doc.

Overrides:
assign in class DoubleMatrix1D
Parameters:
function - a function object taking as argument the current cell's value.
Returns:
this (for convenience only).
See Also:
DoubleFunctions

assign

public DoubleMatrix1D assign(DoubleProcedure cond,
                             DoubleFunction function)
Description copied from class: DoubleMatrix1D
Assigns the result of a function to all cells that satisfy a condition.

Overrides:
assign in class DoubleMatrix1D
Parameters:
cond - a condition.
function - a function object.
Returns:
this (for convenience only).
See Also:
DoubleFunctions

assign

public DoubleMatrix1D assign(DoubleProcedure cond,
                             double value)
Description copied from class: DoubleMatrix1D
Assigns a value to all cells that satisfy a condition.

Overrides:
assign in class DoubleMatrix1D
Parameters:
cond - a condition.
value - a value.
Returns:
this (for convenience only).

assign

public DoubleMatrix1D assign(double value)
Description copied from class: DoubleMatrix1D
Sets all cells to the state specified by value.

Overrides:
assign in class DoubleMatrix1D
Parameters:
value - the value to be filled into the cells.
Returns:
this (for convenience only).

assign

public DoubleMatrix1D assign(double[] values)
Description copied from class: DoubleMatrix1D
Sets all cells to the state specified by values. values is required to have the same number of cells as the receiver.

The values are copied. So subsequent changes in values are not reflected in the matrix, and vice-versa.

Overrides:
assign in class DoubleMatrix1D
Parameters:
values - the values to be filled into the cells.
Returns:
this (for convenience only).

assign

public DoubleMatrix1D assign(DoubleMatrix1D source)
Description copied from class: DoubleMatrix1D
Replaces all cell values of the receiver with the values of another matrix. Both matrices must have the same size. If both matrices share the same cells (as is the case if they are views derived from the same matrix) and intersect in an ambiguous way, then replaces as if using an intermediate auxiliary deep copy of other.

Overrides:
assign in class DoubleMatrix1D
Parameters:
source - the source matrix to copy from (may be identical to the receiver).
Returns:
this (for convenience only).

assign

public DoubleMatrix1D assign(DoubleMatrix1D y,
                             DoubleDoubleFunction function)
Description copied from class: DoubleMatrix1D
Assigns the result of a function to each cell; x[i] = function(x[i],y[i]).

Example:

         // assign x[i] = x[i]<sup>y[i]</sup>
         m1 = 0 1 2 3;
         m2 = 0 2 4 6;
         m1.assign(m2, cern.jet.math.Functions.pow);
         -->
         m1 == 1 1 16 729
 
 
For further examples, see the package doc.

Overrides:
assign in class DoubleMatrix1D
Parameters:
y - the secondary matrix to operate on.
function - a function object taking as first argument the current cell's value of this, and as second argument the current cell's value of y,
Returns:
this (for convenience only).
See Also:
DoubleFunctions

cardinality

public int cardinality()
Description copied from class: DoubleMatrix1D
Returns the number of cells having non-zero values; ignores tolerance.

Overrides:
cardinality in class DoubleMatrix1D
Returns:
the number of cells having non-zero values.

dct

public void dct(boolean scale)
Computes the discrete cosine transform (DCT-II) of this matrix.

Parameters:
scale - if true then scaling is performed
Throws:
IllegalArgumentException - if the size of this matrix is not a power of 2 number.

dht

public void dht()
Computes the discrete Hartley transform (DHT) of this matrix.

Throws:
IllegalArgumentException - if the size of this matrix is not a power of 2 number.

dst

public void dst(boolean scale)
Computes the discrete sine transform (DST-II) of this matrix.

Parameters:
scale - if true then scaling is performed
Throws:
IllegalArgumentException - if the size of this matrix is not a power of 2 number.

elements

public double[] elements()
Description copied from class: DoubleMatrix1D
Returns the elements of this matrix.

Specified by:
elements in class DoubleMatrix1D
Returns:
the elements

fft

public void fft()
Computes the discrete Fourier transform (DFT) of this matrix. The physical layout of the output data is as follows:
 this[2*k] = Re[k], 0<=k<size/2
 this[2*k+1] = Im[k], 0<k<size/2
 this[1] = Re[size/2]
 
This method computes only half of the elements of the real transform. The other half satisfies the symmetry condition. If you want the full real forward transform, use getFft. To get back the original data, use ifft.

Throws:
IllegalArgumentException - if the size of this matrix is not a power of 2 number.

getFft

public DenseDComplexMatrix1D getFft()
Returns new complex matrix which is the discrete Fourier transform (DFT) of this matrix.

Returns:
the discrete Fourier transform (DFT) of this matrix.
Throws:
IllegalArgumentException - if the size of this matrix is not a power of 2 number.

getIfft

public DenseDComplexMatrix1D getIfft(boolean scale)
Returns new complex matrix which is the inverse of the discrete Fourier (IDFT) transform of this matrix.

Returns:
the inverse of the discrete Fourier transform (IDFT) of this matrix.
Throws:
IllegalArgumentException - if the size of this matrix is not a power of 2 number.

getNonZeros

public void getNonZeros(IntArrayList indexList,
                        DoubleArrayList valueList)
Description copied from class: DoubleMatrix1D
Fills the coordinates and values of cells having non-zero values into the specified lists. Fills into the lists, starting at index 0. After this call returns the specified lists all have a new size, the number of non-zero values.

In general, fill order is unspecified. This implementation fills like: for (index = 0..size()-1) do ... . However, subclasses are free to us any other order, even an order that may change over time as cell values are changed. (Of course, result lists indexes are guaranteed to correspond to the same cell).

Example:

         0, 0, 8, 0, 7
         -->
         indexList  = (2,4)
         valueList  = (8,7)
 
 
In other words, get(2)==8, get(4)==7.

Overrides:
getNonZeros in class DoubleMatrix1D
Parameters:
indexList - the list to be filled with indexes, can have any size.
valueList - the list to be filled with values, can have any size.

getPositiveValues

public void getPositiveValues(IntArrayList indexList,
                              DoubleArrayList valueList)
Description copied from class: DoubleMatrix1D
Fills the coordinates and values of cells having positive values into the specified lists. Fills into the lists, starting at index 0. After this call returns the specified lists all have a new size, the number of non-zero values.

Overrides:
getPositiveValues in class DoubleMatrix1D
Parameters:
indexList - the list to be filled with indexes, can have any size.
valueList - the list to be filled with values, can have any size.

getNegativeValues

public void getNegativeValues(IntArrayList indexList,
                              DoubleArrayList valueList)
Description copied from class: DoubleMatrix1D
Fills the coordinates and values of cells having negative values into the specified lists. Fills into the lists, starting at index 0. After this call returns the specified lists all have a new size, the number of non-zero values.

Overrides:
getNegativeValues in class DoubleMatrix1D
Parameters:
indexList - the list to be filled with indexes, can have any size.
valueList - the list to be filled with values, can have any size.

getMaxLocation

public double[] getMaxLocation()
Description copied from class: DoubleMatrix1D
Return the maximum value of this matrix together with its location

Overrides:
getMaxLocation in class DoubleMatrix1D
Returns:
{ maximum_value, location };

getMinLocation

public double[] getMinLocation()
Description copied from class: DoubleMatrix1D
Return the minimum value of this matrix together with its location

Overrides:
getMinLocation in class DoubleMatrix1D
Returns:
{ minimum_value, location };

getQuick

public double getQuick(int index)
Description copied from class: DoubleMatrix1D
Returns the matrix cell value at coordinate index.

Provided with invalid parameters this method may return invalid objects without throwing any exception. You should only use this method when you are absolutely sure that the coordinate is within bounds. Precondition (unchecked): index<0 || index>=size().

Specified by:
getQuick in class DoubleMatrix1D
Parameters:
index - the index of the cell.
Returns:
the value of the specified cell.

idct

public void idct(boolean scale)
Computes the inverse of the discrete cosine transform (DCT-III) of this matrix.

Parameters:
scale - if true then scaling is performed
Throws:
IllegalArgumentException - if the size of this matrix is not a power of 2 number.

idht

public void idht(boolean scale)
Computes the inverse of the discrete Hartley transform (IDHT) of this matrix.

Parameters:
scale - if true then scaling is performed
Throws:
IllegalArgumentException - if the size of this matrix is not a power of 2 number.

idst

public void idst(boolean scale)
Computes the inverse of discrete sine transform (DST-III) of this matrix.

Parameters:
scale - if true then scaling is performed
Throws:
IllegalArgumentException - if the size of this matrix is not a power of 2 number.

ifft

public void ifft(boolean scale)
Computes the inverse of the discrete Fourier transform (DFT) of this matrix. The physical layout of the input data has to be as follows:
 this[2*k] = Re[k], 0<=k<size/2
 this[2*k+1] = Im[k], 0<k<size/2
 this[1] = Re[size/2]
 
This method computes only half of the elements of the real transform. The other half satisfies the symmetry condition. If you want the full real inverse transform, use getIfft.

Throws:
IllegalArgumentException - if the size of this matrix is not a power of 2 number.

like

public DoubleMatrix1D like(int size)
Description copied from class: DoubleMatrix1D
Construct and returns a new empty matrix of the same dynamic type as the receiver, having the specified size. For example, if the receiver is an instance of type DenseDoubleMatrix1D the new matrix must also be of type DenseDoubleMatrix1D, if the receiver is an instance of type SparseDoubleMatrix1D the new matrix must also be of type SparseDoubleMatrix1D, etc. In general, the new matrix should have internal parametrization as similar as possible.

Specified by:
like in class DoubleMatrix1D
Parameters:
size - the number of cell the matrix shall have.
Returns:
a new empty matrix of the same dynamic type.

like2D

public DoubleMatrix2D like2D(int rows,
                             int columns)
Description copied from class: DoubleMatrix1D
Construct and returns a new 2-d matrix of the corresponding dynamic type, entirelly independent of the receiver. For example, if the receiver is an instance of type DenseDoubleMatrix1D the new matrix must be of type DenseDoubleMatrix2D, if the receiver is an instance of type SparseDoubleMatrix1D the new matrix must be of type SparseDoubleMatrix2D, etc.

Specified by:
like2D in class DoubleMatrix1D
Parameters:
rows - the number of rows the matrix shall have.
columns - the number of columns the matrix shall have.
Returns:
a new matrix of the corresponding dynamic type.

reshape

public DoubleMatrix2D reshape(int rows,
                              int cols)
Description copied from class: DoubleMatrix1D
Returns new DoubleMatrix2D of size rows x columns whose elements are taken column-wise from this matrix.

Specified by:
reshape in class DoubleMatrix1D
Parameters:
rows - number of rows
cols - number of columns
Returns:
new 2D matrix with columns being the elements of this matrix.

reshape

public DoubleMatrix3D reshape(int slices,
                              int rows,
                              int cols)
Description copied from class: DoubleMatrix1D
Returns new DoubleMatrix3D of size slices x rows x columns, whose elements are taken column-wise from this matrix.

Specified by:
reshape in class DoubleMatrix1D
rows - number of rows
cols - number of columns
Returns:
new 2D matrix with columns being the elements of this matrix.

setQuick

public void setQuick(int index,
                     double value)
Description copied from class: DoubleMatrix1D
Sets the matrix cell at coordinate index to the specified value.

Provided with invalid parameters this method may access illegal indexes without throwing any exception. You should only use this method when you are absolutely sure that the coordinate is within bounds. Precondition (unchecked): index<0 || index>=size().

Specified by:
setQuick in class DoubleMatrix1D
Parameters:
index - the index of the cell.
value - the value to be filled into the specified cell.

swap

public void swap(DoubleMatrix1D other)
Description copied from class: DoubleMatrix1D
Swaps each element this[i] with other[i].

Overrides:
swap in class DoubleMatrix1D

toArray

public void toArray(double[] values)
Description copied from class: DoubleMatrix1D
Fills the cell values into the specified 1-dimensional array. The values are copied. So subsequent changes in values are not reflected in the matrix, and vice-versa. After this call returns the array values has the form
for (int i=0; i < size(); i++) values[i] = get(i);

Overrides:
toArray in class DoubleMatrix1D

zDotProduct

public double zDotProduct(DoubleMatrix1D y,
                          int from,
                          int length)
Description copied from class: DoubleMatrix1D
Returns the dot product of two vectors x and y, which is Sum(x[i]*y[i]). Where x == this. Operates on cells at indexes from .. Min(size(),y.size(),from+length)-1.

Overrides:
zDotProduct in class DoubleMatrix1D
Parameters:
y - the second vector.
from - the first index to be considered.
length - the number of cells to be considered.
Returns:
the sum of products; zero if from<0 || length<0.

zSum

public double zSum()
Description copied from class: DoubleMatrix1D
Returns the sum of all cells; Sum( x[i] ).

Overrides:
zSum in class DoubleMatrix1D
Returns:
the sum.

index

public long index(int rank)
Description copied from class: AbstractMatrix1D
Returns the position of the element with the given relative rank within the (virtual or non-virtual) internal 1-dimensional array. You may want to override this method for performance.

Overrides:
index in class AbstractMatrix1D
Parameters:
rank - the rank of the element.

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