org.das2.dataset.VectorUtil
VectorUtil( )
closestXTag
closestXTag( org.das2.dataset.DataSet ds, Datum datum ) → int
Parameters
ds - a DataSet
datum - a Datum
Returns:
int
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closestXTag( org.das2.dataset.DataSet ds, double x, Units units ) → int
dumpToAsciiStream
dumpToAsciiStream( org.das2.dataset.VectorDataSet vds, Datum xmin, Datum xmax, java.io.OutputStream out ) → void
Parameters
vds - a VectorDataSet
xmin - a Datum
xmax - a Datum
out - an OutputStream
Returns:
void (returns nothing)
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dumpToAsciiStream( org.das2.dataset.VectorDataSet vds, java.io.OutputStream out ) → void
dumpToAsciiStream( org.das2.dataset.VectorDataSet vds, java.nio.channels.WritableByteChannel out ) → void
dumpToBinaryStream
dumpToBinaryStream( org.das2.dataset.VectorDataSet vds, java.io.OutputStream out ) → void
Parameters
vds - a VectorDataSet
out - an OutputStream
Returns:
void (returns nothing)
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dumpToDas2Stream
dumpToDas2Stream( org.das2.dataset.VectorDataSet vds, java.nio.channels.WritableByteChannel out, boolean asciiTransferTypes, boolean sendStreamDescriptor ) → void
write the data to a das2Stream
Parameters
vds - a VectorDataSet
out - a WritableByteChannel
asciiTransferTypes - a boolean
sendStreamDescriptor - if false, then don't send the stream and don't close
Returns:
void (returns nothing)
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finiteDerivative
finiteDerivative( org.das2.dataset.VectorDataSet ds, int n ) → org.das2.dataset.VectorDataSet
Return the finite difference derivative of the dataset, between elements that
are n steps apart.
Because we don't have a general-purpose way to divide units, the units returned
are dimensionless.
Parameters
ds - a VectorDataSet
n - an int
Returns:
org.das2.dataset.VectorDataSet
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getXTagArrayDouble
getXTagArrayDouble( org.das2.dataset.DataSet vds, Units units ) → double[]
Parameters
vds - a DataSet
units - an Units
Returns:
double[]
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median
median( org.das2.dataset.VectorDataSet ds ) → Datum
Parameters
ds - a VectorDataSet
Returns:
org.das2.datum.Datum
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reduce2D
reduce2D( QDataSet xds, QDataSet ds, int start, int finish, Datum xLimit, Datum yLimit ) → QDataSet
produce a simpler version of the dataset by averaging adjacent data.
code taken from org.das2.graph.GraphUtil.reducePath. Adjacent points are
averaged together until a point is found that is not in the bin, and then
a new bin is started. The bin's lower bounds are integer multiples
of xLimit and yLimit.
If yLimit is null, then averaging is done for all points in the x bin,
regardless of how close they are in Y. This is similarly true when
xLimit is null.
xLimit and yLimit are rank 0 datasets, so that they can indicate that binning
should be done in log space rather than linear. In this case, a SCALE_TYPE
for the dataset should be "log" and its unit should be convertible to
Units.logERatio (for example, Units.log10Ratio or Units.percentIncrease).
Note when either is log, then averaging is done in the log space.
Parameters
xds - the x tags
ds - the y tags
start - first index.
finish - last (non-inclusive) index.
xLimit - the size of the bins or null to indicate no limit.
yLimit - the size of the bins or null to indicate no limit.
Returns:
a QDataSet
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toString
toString( org.das2.dataset.VectorDataSet ds ) → String
Parameters
ds - a VectorDataSet
Returns:
java.lang.String
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