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java.lang.Object cern.colt.PersistentObject cern.colt.matrix.AbstractMatrix cern.colt.matrix.AbstractMatrix1D cern.colt.matrix.tfloat.FloatMatrix1D cern.colt.matrix.tfloat.impl.SparseFloatMatrix1D
public class SparseFloatMatrix1D
Sparse hashed 1d matrix (aka vector) holding float elements. First see the package summary and javadoc tree view to get the broad picture.
Implementation:
Note that this implementation is not synchronized. Uses a
OpenIntFloatHashMap
, which is a compact and
performant hashing technique.
Memory requirements:
Cells that
trimToSize()
.
worst case: memory [bytes] = (1/minLoadFactor) * nonZeros * 13.
best case: memory [bytes] = (1/maxLoadFactor) * nonZeros * 13.
Where nonZeros = cardinality() is the number of nonzero cells.
Thus, a 1000000 matrix with minLoadFactor=0.25 and maxLoadFactor=0.5 and
1000000 nonzero cells consumes between 25 MB and 50 MB. The same 1000000
matrix with 1000 nonzero cells consumes between 25 and 50 KB.
Time complexity:
This class offers expected time complexity O(1) (i.e.
constant time) for the basic operations get, getQuick,
set, setQuick and size assuming the hash function
disperses the elements properly among the buckets. Otherwise, pathological
cases, although highly improbable, can occur, degrading performance to
O(N) in the worst case. As such this sparse class is expected to
have no worse time complexity than its dense counterpart
DenseFloatMatrix1D
. However, constant factors are considerably
larger.
Field Summary 

Fields inherited from class cern.colt.PersistentObject 

serialVersionUID 
Constructor Summary  

SparseFloatMatrix1D(float[] values)
Constructs a matrix with a copy of the given values. 

SparseFloatMatrix1D(int size)
Constructs a matrix with a given number of cells. 

SparseFloatMatrix1D(int size,
int initialCapacity,
float minLoadFactor,
float maxLoadFactor)
Constructs a matrix with a given number of parameters. 
Method Summary  

FloatMatrix1D 
assign(float value)
Sets all cells to the state specified by value. 
int 
cardinality()
Returns the number of cells having nonzero values. 
AbstractLongFloatMap 
elements()
Returns the elements of this matrix. 
void 
ensureCapacity(int minCapacity)
Ensures that the receiver can hold at least the specified number of nonzero cells without needing to allocate new internal memory. 
float 
getQuick(int index)
Returns the matrix cell value at coordinate index. 
long 
index(int rank)
Returns the position of the element with the given relative rank within the (virtual or nonvirtual) internal 1dimensional array. 
FloatMatrix1D 
like(int size)
Construct and returns a new empty matrix of the same dynamic type as the receiver, having the specified size. 
FloatMatrix2D 
like2D(int rows,
int columns)
Construct and returns a new 2d matrix of the corresponding dynamic type, entirelly independent of the receiver. 
FloatMatrix2D 
reshape(int rows,
int cols)
Returns new FloatMatrix2D of size rows x columns whose elements are taken columnwise from this matrix. 
FloatMatrix3D 
reshape(int slices,
int rows,
int cols)
Returns new FloatMatrix3D of size slices x rows x columns, whose elements are taken columnwise from this matrix. 
void 
setQuick(int index,
float value)
Sets the matrix cell at coordinate index to the specified value. 
void 
trimToSize()
Releases any superfluous memory created by explicitly putting zero values into cells formerly having nonzero values; An application can use this operation to minimize the storage of the receiver. 
Methods inherited from class cern.colt.matrix.tfloat.FloatMatrix1D 

aggregate, aggregate, aggregate, assign, assign, assign, assign, assign, assign, assign, copy, equals, equals, get, getMaxLocation, getMinLocation, getNegativeValues, getNonZeros, getNonZeros, getPositiveValues, like, normalize, set, setSize, swap, toArray, toArray, toString, viewFlip, viewPart, viewSelection, viewSelection, viewSorted, viewStrides, zDotProduct, zDotProduct, zDotProduct, zSum 
Methods inherited from class cern.colt.matrix.AbstractMatrix1D 

checkSize, size, stride, toStringShort 
Methods inherited from class cern.colt.matrix.AbstractMatrix 

isView 
Methods inherited from class cern.colt.PersistentObject 

clone 
Methods inherited from class java.lang.Object 

getClass, hashCode, notify, notifyAll, wait, wait, wait 
Constructor Detail 

public SparseFloatMatrix1D(float[] values)
values
 The values to be filled into the new matrix.public SparseFloatMatrix1D(int size)
size
 the number of cells the matrix shall have.
IllegalArgumentException
 if size<0.public SparseFloatMatrix1D(int size, int initialCapacity, float minLoadFactor, float maxLoadFactor)
OpenIntFloatHashMap
.
size
 the number of cells the matrix shall have.initialCapacity
 the initial capacity of the hash map. If not known, set
initialCapacity=0 or small.minLoadFactor
 the minimum load factor of the hash map.maxLoadFactor
 the maximum load factor of the hash map.
IllegalArgumentException
 if
initialCapacity < 0  (minLoadFactor < 0.0  minLoadFactor >= 1.0)  (maxLoadFactor <= 0.0  maxLoadFactor >= 1.0)  (minLoadFactor >= maxLoadFactor)
.
IllegalArgumentException
 if size<0.Method Detail 

public FloatMatrix1D assign(float value)
assign
in class FloatMatrix1D
value
 the value to be filled into the cells.
public int cardinality()
cardinality
in class FloatMatrix1D
public AbstractLongFloatMap elements()
elements
in class FloatMatrix1D
public void ensureCapacity(int minCapacity)
This method never need be called; it is for performance tuning only. Calling this method before tt>set()ing a large number of nonzero values boosts performance, because the receiver will grow only once instead of potentially many times and hash collisions get less probable.
ensureCapacity
in class AbstractMatrix
minCapacity
 the desired minimum number of nonzero cells.public float getQuick(int 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().
getQuick
in class FloatMatrix1D
index
 the index of the cell.
public long index(int rank)
index
in class AbstractMatrix1D
rank
 the rank of the element.public FloatMatrix1D like(int size)
like
in class FloatMatrix1D
size
 the number of cell the matrix shall have.
public FloatMatrix2D like2D(int rows, int columns)
like2D
in class FloatMatrix1D
rows
 the number of rows the matrix shall have.columns
 the number of columns the matrix shall have.
public FloatMatrix2D reshape(int rows, int cols)
FloatMatrix1D
reshape
in class FloatMatrix1D
rows
 number of rowscols
 number of columns
public FloatMatrix3D reshape(int slices, int rows, int cols)
FloatMatrix1D
reshape
in class FloatMatrix1D
rows
 number of rowscols
 number of columns
public void setQuick(int index, float 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().
setQuick
in class FloatMatrix1D
index
 the index of the cell.value
 the value to be filled into the specified cell.public void trimToSize()
Background:
Cells that
trimToSize
in class AbstractMatrix

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