public abstract class Array extends Object
Index
,
IndexIterator
Modifier and Type | Method and Description |
---|---|
static void |
arraycopy(Array arraySrc,
int srcPos,
Array arrayDst,
int dstPos,
int len)
Cover for System.arraycopy().
|
Array |
copy()
Create a copy of this Array, copying the data so that physical order is the same as
logical order
|
Object |
copyTo1DJavaArray()
Copy this array to a 1D Java primitive array of type getElementType(), with the physical order
of the result the same as logical order.
|
Object |
copyToNDJavaArray()
Copy this array to a n-Dimensional Java primitive array of type getElementType()
and rank getRank().
|
static Array |
factory(DataType dtype,
Index index,
Object storage) |
static Array |
factory(DataType dataType,
int[] shape)
Generate new Array with given dataType and shape and zeroed storage.
|
static Array |
factory(DataType dtype,
int[] shape,
ByteBuffer bb)
Create an Array from a ByteBuffer
|
static Array |
factory(DataType dataType,
int[] shape,
Object storage)
Generate new Array with given dataType, shape, storage.
|
static Array |
factoryConstant(DataType dtype,
int[] shape,
Object storage)
Generate new Array with given type and shape and an Index that always return 0.
|
Array |
flip(int dim)
Create a new Array using same backing store as this Array, by
flipping the index so that it runs from shape[index]-1 to 0.
|
Object |
get1DJavaArray(Class wantType)
Deprecated.
use get1DJavaArray(DataType wantType)
|
Object |
get1DJavaArray(DataType wantType)
This gets the equivalent java array of the wanted type, in correct order.
|
abstract boolean |
getBoolean(Index ima)
Get the array element at the current element of ima, as a boolean.
|
abstract boolean |
getBoolean(int elem) |
abstract byte |
getByte(Index ima)
Get the array element at the current element of ima, as a byte.
|
abstract byte |
getByte(int elem) |
abstract char |
getChar(Index ima)
Get the array element at the current element of ima, as a char.
|
abstract char |
getChar(int elem) |
ByteBuffer |
getDataAsByteBuffer()
This gets the data as a ByteBuffer, in correct order.
|
ByteBuffer |
getDataAsByteBuffer(ByteOrder order) |
ByteBuffer |
getDataAsByteBuffer(int capacity,
ByteOrder order) |
DataType |
getDataType()
Return the computed datatype for this array
|
abstract double |
getDouble(Index ima)
Get the array element at the current element of ima, as a double.
|
abstract double |
getDouble(int elem) |
abstract Class |
getElementType()
Get the element class type of this Array
|
abstract float |
getFloat(Index ima)
Get the array element at the current element of ima, as a float.
|
abstract float |
getFloat(int elem) |
Index |
getIndex()
Get an Index object used for indexed access of this Array.
|
IndexIterator |
getIndexIterator()
Get an index iterator for traversing the array in canonical order.
|
abstract int |
getInt(Index ima)
Get the array element at the current element of ima, as a int.
|
abstract int |
getInt(int elem) |
abstract long |
getLong(Index ima)
Get the array element at the current element of ima, as a long.
|
abstract long |
getLong(int elem) |
abstract Object |
getObject(Index ima)
Get the array element at index as an Object.
|
abstract Object |
getObject(int elem) |
IndexIterator |
getRangeIterator(List<Range> ranges)
Get an index iterator for traversing a section of the array in canonical order.
|
int |
getRank()
Get the number of dimensions of the array.
|
int[] |
getShape()
Get the shape: length of array in each dimension.
|
abstract short |
getShort(Index ima)
Get the array element at the current element of ima, as a short.
|
abstract short |
getShort(int elem) |
long |
getSize()
Get the total number of elements in the array.
|
long |
getSizeBytes()
Get the total number of bytes in the array.
|
abstract Object |
getStorage()
Get underlying primitive array storage.
|
boolean |
hasNext()
Check if more elements in the local iterator.
|
boolean |
isConstant()
If this is a constant array
|
boolean |
isUnsigned()
Find whether the underlying data should be interpreted as unsigned.
|
boolean |
isVlen() |
static Array |
makeArray(DataType dtype,
int npts,
double start,
double incr)
Make a 1D array from a start and incr.
|
static Array |
makeArray(DataType dtype,
List<String> stringValues)
Make an 1D array from a list of strings.
|
static Array |
makeArray(DataType dtype,
String[] stringValues)
Make an 1D array from an array of strings.
|
static Array |
makeArrayRankPlusOne(Array org)
Add extra outermost dimension with len = 1.
|
static Array |
makeFromJavaArray(Object javaArray) |
static Array |
makeFromJavaArray(Object javaArray,
boolean isUnsigned)
Generate a new Array from a java array of any rank and type.
|
static Array |
makeObjectArray(DataType dtype,
Class classType,
int[] shape,
Object storage)
Generate new Array with given type, shape, storage.
|
static Array |
makeVlenArray(int[] shape,
Array[] storage)
Make a vlen array
|
Object |
next()
Return the next object in the local iterator.
|
boolean |
nextBoolean()
Return the next boolean in the local iterator.
|
byte |
nextByte()
Return the next byte in the local iterator.
|
char |
nextChar()
Return the next char in the local iterator.
|
double |
nextDouble()
Return the next double in the local iterator.
|
float |
nextFloat()
Return the next float in the local iterator.
|
int |
nextInt()
Return the next int in the local iterator.
|
long |
nextLong()
Return the next long in the local iterator.
|
short |
nextShort()
Return the next short in the local iterator.
|
Array |
permute(int[] dims)
Create a new Array using same backing store as this Array, by
permuting the indices.
|
Array |
reduce()
Create a new Array using same backing store as this Array, by
eliminating any dimensions with length one.
|
Array |
reduce(int dim)
Create a new Array using same backing store as this Array, by
eliminating the specified dimension.
|
void |
resetLocalIterator()
Reset the local iterator.
|
Array |
reshape(int[] shape)
Create a new Array by copying this Array to a new one with given shape
|
Array |
reshapeNoCopy(int[] shape)
Reshape this array without copying data
|
Array |
section(int[] origin,
int[] shape)
Create a new Array as a subsection of this Array, with rank reduction.
|
Array |
section(int[] origin,
int[] shape,
int[] stride)
Create a new Array as a subsection of this Array, with rank reduction.
|
Array |
section(List<Range> ranges)
Create a new Array as a subsection of this Array, with rank reduction.
|
Array |
sectionNoReduce(int[] origin,
int[] shape,
int[] stride)
Create a new Array as a subsection of this Array, without rank reduction.
|
Array |
sectionNoReduce(List<Range> ranges)
Create a new Array as a subsection of this Array, without rank reduction.
|
abstract void |
setBoolean(Index ima,
boolean value)
Set the array element at the current element of ima.
|
abstract void |
setBoolean(int elem,
boolean value) |
abstract void |
setByte(Index ima,
byte value)
Set the array element at the current element of ima.
|
abstract void |
setByte(int elem,
byte value) |
abstract void |
setChar(Index ima,
char value)
Set the array element at the current element of ima.
|
abstract void |
setChar(int elem,
char value) |
abstract void |
setDouble(Index ima,
double value)
Set the array element at the current element of ima.
|
abstract void |
setDouble(int elem,
double val) |
abstract void |
setFloat(Index ima,
float value)
Set the array element at the current element of ima.
|
abstract void |
setFloat(int elem,
float val) |
abstract void |
setInt(Index ima,
int value)
Set the array element at the current element of ima.
|
abstract void |
setInt(int elem,
int value) |
abstract void |
setLong(Index ima,
long value)
Set the array element at the current element of ima.
|
abstract void |
setLong(int elem,
long value) |
abstract void |
setObject(Index ima,
Object value)
Set the array element at index to the specified value.
|
abstract void |
setObject(int elem,
Object value) |
abstract void |
setShort(Index ima,
short value)
Set the array element at the current element of ima.
|
abstract void |
setShort(int elem,
short value) |
String |
shapeToString()
Create a string representation of the shape of this Array.
|
Array |
slice(int dim,
int value)
Create a new Array using same backing store as this Array, by
fixing the specified dimension at the specified index value.
|
String |
toString() |
Array |
transpose(int dim1,
int dim2)
Create a new Array using same backing store as this Array, by
transposing two of the indices.
|
public static Array factory(DataType dataType, int[] shape)
dataType
- instance of DataType.shape
- shape of the array.public static Array factory(DataType dataType, int[] shape, Object storage)
dataType
- DataType, eg DataType.DOUBLE.shape
- shape of the array.storage
- primitive array of correct typeClassCastException
- wrong storage typepublic static Array makeVlenArray(int[] shape, @Nonnull Array[] storage)
shape
- the outer shape, ie excluding the vlen dimensionstorage
- must be an Array type. must not be nullpublic static Array makeObjectArray(DataType dtype, Class classType, int[] shape, Object storage)
classType
- element class type, eg double.class. Corresponding Object types like Double.class are
mapped to double.class. Any reference types use ArrayObject.shape
- array shapestorage
- 1D java array of type classType, except object types like Double.class are mapped to
their corresponding primitive type, eg double.class.IllegalArgumentException
- storage.length != product of shapesClassCastException
- wrong storage typepublic static Array factoryConstant(DataType dtype, int[] shape, Object storage)
dtype
- data typeshape
- shape of the array.storage
- primitive array of correct type of length 1public static Array makeFromJavaArray(Object javaArray, boolean isUnsigned)
javaArray
- scalar Object or a java array of any rank and typepublic static void arraycopy(Array arraySrc, int srcPos, Array arrayDst, int dstPos, int len)
arraySrc
- copy from here : if not in canonical order, an extra copy will be donesrcPos
- starting atarrayDst
- copy to here : must be in canonical orderdstPos
- starting atlen
- number of elements to copypublic static Array makeArray(DataType dtype, int npts, double start, double incr)
dtype
- data type of result. must be convertible to double.npts
- number of pointsstart
- starting valuesincr
- incrementpublic static Array makeArray(DataType dtype, List<String> stringValues) throws NumberFormatException
dtype
- data type of the array.stringValues
- list of strings.NumberFormatException
- if string values not parseable to specified data typepublic static Array makeArray(DataType dtype, String[] stringValues) throws NumberFormatException
dtype
- data type of the array. Assumed unsignedstringValues
- list of strings.NumberFormatException
- if string values not parseable to specified data typepublic static Array makeArrayRankPlusOne(Array org)
org
- original arraypublic DataType getDataType()
public Index getIndex()
Index
public IndexIterator getIndexIterator()
IndexIterator
public int getRank()
public int[] getShape()
public long getSize()
public long getSizeBytes()
public IndexIterator getRangeIterator(List<Range> ranges) throws InvalidRangeException
ranges
- list of Ranges that specify the array subset.
Must be same rank as original Array.
A particular Range: 1) may be a subset, or 2) may be null, meaning use entire Range.InvalidRangeException
- if ranges is invalidpublic abstract Class getElementType()
public abstract Object getStorage()
public Array section(List<Range> ranges) throws InvalidRangeException
ranges
- list of Ranges that specify the array subset.
Must be same rank as original Array.
A particular Range: 1) may be a subset, or 2) may be null, meaning use entire Range.
If Range[dim].length == 1, then the rank of the resulting Array is reduced at that dimension.InvalidRangeException
- if ranges is invalidpublic Array section(int[] origin, int[] shape) throws InvalidRangeException
origin
- int array specifying the starting index. Must be same rank as original Array.shape
- int array specifying the extents in each dimension.
This becomes the shape of the returned Array. Must be same rank as original Array.
If shape[dim] == 1, then the rank of the resulting Array is reduced at that dimension.InvalidRangeException
- if ranges is invalidpublic Array section(int[] origin, int[] shape, int[] stride) throws InvalidRangeException
origin
- int array specifying the starting index. Must be same rank as original Array.shape
- int array specifying the extents in each dimension.
This becomes the shape of the returned Array. Must be same rank as original Array.
If shape[dim] == 1, then the rank of the resulting Array is reduced at that dimension.stride
- int array specifying the strides in each dimension. If null, assume all ones.InvalidRangeException
- if ranges is invalidpublic Array sectionNoReduce(List<Range> ranges) throws InvalidRangeException
ranges
- list of Ranges that specify the array subset.
Must be same rank as original Array.
A particular Range: 1) may be a subset, or 2) may be null, meaning use entire Range.InvalidRangeException
- if ranges is invalidpublic Array sectionNoReduce(int[] origin, int[] shape, int[] stride) throws InvalidRangeException
origin
- int array specifying the starting index. Must be same rank as original Array.shape
- int array specifying the extents in each dimension.
This becomes the shape of the returned Array. Must be same rank as original Array.stride
- int array specifying the strides in each dimension. If null, assume all ones.InvalidRangeException
- if ranges is invalidpublic Array slice(int dim, int value)
dim
- which dimension to fixvalue
- at what index valuepublic Array copy()
public Object get1DJavaArray(DataType wantType)
wantType
- returned object will be an array of this type. This must be convertible to it.public Object get1DJavaArray(Class wantType)
public ByteBuffer getDataAsByteBuffer()
public ByteBuffer getDataAsByteBuffer(ByteOrder order)
public ByteBuffer getDataAsByteBuffer(int capacity, ByteOrder order)
public static Array factory(DataType dtype, int[] shape, ByteBuffer bb)
dtype
- type of datashape
- shape of data; if null, then use int[]{bb.limit()}bb
- data is in herepublic Object copyTo1DJavaArray()
public Object copyToNDJavaArray()
public Array flip(int dim)
dim
- dimension to flippublic Array transpose(int dim1, int dim2)
dim1
- transpose these two indicesdim2
- transpose these two indicespublic Array permute(int[] dims)
dims
- the old index dims[k] becomes the new kth index.IllegalArgumentException:
- wrong rank or dim[k] not validpublic Array reshape(int[] shape)
shape
- the new shapeIllegalArgumentException
- new shape is not conformablepublic Array reshapeNoCopy(int[] shape)
shape
- the new shapeIllegalArgumentException
- new shape is not conformablepublic Array reduce()
public Array reduce(int dim)
dim
- dimension to eliminate: must be of length one, else IllegalArgumentExceptionpublic boolean isUnsigned()
public boolean isConstant()
public boolean isVlen()
public abstract double getDouble(Index ima)
ima
- Index with current element setindex
cast to double if necessary.public abstract void setDouble(Index ima, double value)
ima
- Index with current element setvalue
- the new value; cast to underlying data type if necessary.public abstract float getFloat(Index ima)
ima
- Index with current element setindex
cast to float if necessary.public abstract void setFloat(Index ima, float value)
ima
- Index with current element setvalue
- the new value; cast to underlying data type if necessary.public abstract long getLong(Index ima)
ima
- Index with current element setindex
cast to long if necessary.public abstract void setLong(Index ima, long value)
ima
- Index with current element setvalue
- the new value; cast to underlying data type if necessary.public abstract int getInt(Index ima)
ima
- Index with current element setindex
cast to int if necessary.public abstract void setInt(Index ima, int value)
ima
- Index with current element setvalue
- the new value; cast to underlying data type if necessary.public abstract short getShort(Index ima)
ima
- Index with current element setindex
cast to short if necessary.public abstract void setShort(Index ima, short value)
ima
- Index with current element setvalue
- the new value; cast to underlying data type if necessary.public abstract byte getByte(Index ima)
ima
- Index with current element setindex
cast to float if necessary.public abstract void setByte(Index ima, byte value)
ima
- Index with current element setvalue
- the new value; cast to underlying data type if necessary.public abstract char getChar(Index ima)
ima
- Index with current element setindex
cast to char if necessary.public abstract void setChar(Index ima, char value)
ima
- Index with current element setvalue
- the new value; cast to underlying data type if necessary.public abstract boolean getBoolean(Index ima)
ima
- Index with current element setindex
cast to boolean if necessary.ForbiddenConversionException
- if underlying array not booleanpublic abstract void setBoolean(Index ima, boolean value)
ima
- Index with current element setvalue
- the new value; cast to underlying data type if necessary.ForbiddenConversionException
- if underlying array not booleanpublic abstract Object getObject(Index ima)
ima
- element Indexindex
ArrayIndexOutOfBoundsException
- if index incorrect rank or out of boundspublic abstract void setObject(Index ima, Object value)
ima
- Index with current element setvalue
- the new value.ArrayIndexOutOfBoundsException
- if index incorrect rank or out of boundsClassCastException
- if Object is incorrect typepublic abstract double getDouble(int elem)
public abstract void setDouble(int elem, double val)
public abstract float getFloat(int elem)
public abstract void setFloat(int elem, float val)
public abstract long getLong(int elem)
public abstract void setLong(int elem, long value)
public abstract int getInt(int elem)
public abstract void setInt(int elem, int value)
public abstract short getShort(int elem)
public abstract void setShort(int elem, short value)
public abstract byte getByte(int elem)
public abstract void setByte(int elem, byte value)
public abstract char getChar(int elem)
public abstract void setChar(int elem, char value)
public abstract boolean getBoolean(int elem)
public abstract void setBoolean(int elem, boolean value)
public abstract Object getObject(int elem)
public abstract void setObject(int elem, Object value)
public String shapeToString()
public boolean hasNext()
arr.resetLocalIterator(); while (arr.hasNext()) { double val = mdata.nextDouble(); .. }
public Object next()
public double nextDouble()
public float nextFloat()
public byte nextByte()
public short nextShort()
public int nextInt()
public long nextLong()
public char nextChar()
public boolean nextBoolean()
public void resetLocalIterator()