org.das2.qds.FDataSet
rank 0,1,2,3 or 4 dataset backed by float array (4 byte real numbers).
Note access to the array is still done via doubles.
version
addValue
addValue( int i0, double value ) → void
add this value to the current value.
Parameters
i0 - the index
value - the value
Returns:
void (returns nothing)
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addValue( int i0, int i1, double value ) → void
capability
capability( java.lang.Class clazz ) → Object
TODO: this is untested, but is left in to demonstrate how the capability
method should be implemented. Clients should use this instead of
casting the class to the capability class.
Parameters
clazz - the class, such as WritableDataSet.class
Returns:
null or the capability if exists, such as WritableDataSet
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create
create( int[] qube ) → FDataSet
Makes an array from array of dimension sizes. The result will have
rank qube.length().
Parameters
qube - array specifying the rank and size of each dimension
Returns:
the array as a QDataSet
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createRank1
createRank1( int len0 ) → FDataSet
create a rank 1 dataset backed by array of floats.
Parameters
len0 - length of the dimension
Returns:
rank 1 qube dataset of backed by array of floats.
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createRank2
createRank2( int len0, int len1 ) → FDataSet
create a rank 2 qube dataset backed by array of floats.
Parameters
len0 - length of the dimension
len1 - length of the dimension
Returns:
rank 2 qube dataset of backed by array of floats.
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createRank3
createRank3( int len0, int len1, int len2 ) → FDataSet
create a rank 3 qube dataset backed by array of floats.
Parameters
len0 - length of the dimension
len1 - length of the dimension
len2 - length of the dimension
Returns:
rank 3 qube dataset of backed by array of floats.
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createRank4
createRank4( int len0, int len1, int len2, int len3 ) → FDataSet
create a rank 4 qube dataset backed by array of floats.
Parameters
len0 - length of the dimension
len1 - length of the dimension
len2 - length of the dimension
len3 - length of the dimension
Returns:
rank 4 qube dataset of backed by array of floats.
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putProperty
putProperty( String name, Object value ) → void
check for fill as well, since often numerical noise will corrupt
the fill values.
Parameters
name - the property name
value - the property value
Returns:
void (returns nothing)
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putValue
putValue( double value ) → void
Parameters
value - a double
Returns:
void (returns nothing)
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putValue( int i0, double value ) → void
putValue( int i0, int i1, double value ) → void
putValue( int i0, int i1, int i2, double value ) → void
putValue( int i0, int i1, int i2, int i3, double value ) → void
slice
slice( int i ) → QDataSet
the slice operator is better implemented here. Presently, we
use System.arraycopy to copy out the data, but this could be
re-implemented along with an offset parameter so the original data
can be used to back the data.
Parameters
i - the index
Returns:
a rank N-1 slice of the data.
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trim
trim( int start, int end ) → QDataSet
trim operator copies the data into a new dataset.
Parameters
start - the first index
end - the last index, exclusive
Returns:
a shorter dataset of the same rank.
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value
value( ) → double
Returns:
double
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value( int i0 ) → double
value( int i0, int i1 ) → double
value( int i0, int i1, int i2 ) → double
value( int i0, int i1, int i2, int i3 ) → double
wrap
wrap( float[] data, int[] qube ) → FDataSet
Wraps an array from array of dimension sizes. The result will have
rank qube.length(). For rank 0, data is 1-element array.
Parameters
data - array containing the data, with the last dimension contiguous in memory.
qube - array specifying the rank and size of each dimension
Returns:
the array as a QDataSet
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wrap( float[] back, int rank, int len0, int len1, int len2 ) → FDataSet
wrap( float[] back ) → FDataSet
wrap( float[] back, int nx, int ny ) → FDataSet
wrap( float[] back, int nx, int ny, int nz ) → FDataSet