LinearMapping¶
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class
lsst.afw.display.LinearMapping(minimum=None, maximum=None, image=None)¶ Bases:
lsst.afw.display.MappingA linear map of red, blue, green intensities into uint8 values
Parameters: Methods Summary
intensity(imageR, imageG, imageB)Return the total intensity from the red, blue, and green intensities makeRgbImage([imageR, imageG, imageB, …])Convert 3 arrays, imageR, imageG, and imageB into a numpy RGB image mapIntensityToUint8(intensity)Return an array which, when multiplied by an image, returns that image mapped to the range of a uint8, [0, 255] (but not converted to uint8) Methods Documentation
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intensity(imageR, imageG, imageB)¶ Return the total intensity from the red, blue, and green intensities
Notes
This is a naive computation, and may be overridden by subclasses
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makeRgbImage(imageR=None, imageG=None, imageB=None, xSize=None, ySize=None, rescaleFactor=None)¶ Convert 3 arrays, imageR, imageG, and imageB into a numpy RGB image
- imageR :
lsst.afw.image.Imageornumpy.ndarray, (Nx, Ny) - Image to map to red (if
None, use the image passed to the ctor) - imageG :
lsst.afw.image.Imageornumpy.ndarray, (Nx, Ny), optional - Image to map to green (if
None, use imageR) - imageB :
lsst.afw.image.Imageornumpy.ndarray, (Nx, Ny), optional - Image to map to blue (if
None, use imageR) - xSize :
int, optional - Desired width of RGB image. If
ySizeisNone, preserve aspect ratio - ySize :
int, optional - Desired height of RGB image
- rescaleFactor :
float, optional - Make size of output image
rescaleFactor*sizeof the input image
- imageR :
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mapIntensityToUint8(intensity)¶ Return an array which, when multiplied by an image, returns that image mapped to the range of a uint8, [0, 255] (but not converted to uint8)
The intensity is assumed to have had
minimumsubtracted (as that can be done per-band)
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