Rebin2D dialog.
Table of Contents
| Name | Direction | Type | Default | Description |
|---|---|---|---|---|
| InputWorkspace | Input | MatrixWorkspace | Mandatory | An input workspace. |
| OutputWorkspace | Output | MatrixWorkspace | Mandatory | An output workspace. |
| Axis1Binning | Input | dbl list | Mandatory | A comma separated list of first bin boundary, width, last bin boundary. Optionally this can be followed by a comma and more widths and last boundary pairs. Negative width values indicate logarithmic binning. |
| Axis2Binning | Input | dbl list | Mandatory | A comma separated list of first bin boundary, width, last bin boundary. Optionally this can be followed by a comma and more widths and last boundary pairs. Negative width values indicate logarithmic binning. |
| UseFractionalArea | Input | boolean | False | Flag to turn on the using the fractional area tracking RebinnedOutput workspace .Default is false. |
| Transpose | Input | boolean | False | Run the Transpose algorithm on the resulting matrix. |
The bin parameters are used to form an output grid. A positive
makes constant width bins, whilst negative ones
create logarithmic binning using the formula
. The overlap of the polygons
formed from the old and new grids is tested to compute the required
signal weight for the each of the new bins on the workspace. The errors
are summed in quadrature.
The algorithms currently requires the second axis on the workspace to be a numerical axis so ConvertSpectrumAxis v2 may need to run first.
Example - A simple example using the fractional area
ws = CreateSampleWorkspace()
#Convert the Spectrum Axis to theta
wsc = ConvertSpectrumAxis(ws,"theta")
rb = Rebin2D(wsc,[0,100,20000],[0,0.01,1.2],UseFractionalArea=True)
print ("Bins in the X axis: %i" % rb.blocksize())
print ("Bins in the Y axis: %i" % rb.getNumberHistograms())
Output:
Bins in the X axis: 200
Bins in the Y axis: 120
Example - Transposing the Result
ws = CreateSampleWorkspace()
#Convert the Spectrum Axis to theta
wsc = ConvertSpectrumAxis(ws,"theta")
rb = Rebin2D(wsc,[0,100,20000],[0,0.01,1.2],Transpose=True)
print ("Bins in the X axis: %i" % rb.blocksize())
print ("Bins in the Y axis: %i" % rb.getNumberHistograms())
Output:
Bins in the X axis: 120
Bins in the Y axis: 200
Categories: Algorithms | Transforms\Rebin