lsst.afw.display¶

Contributing¶

lsst.afw.display is developed at https://github.com/lsst/afw. You can find Jira issues for this module under the afw component.

Application Framework code to display images.

`computeIntensity`(imageR[, imageG, imageB])	Return a naive total intensity from the red, blue, and green intensities
`delAllDisplays`()	Delete and close all known displays
`displayRGB`(rgb[, show])	Display an rgb image using matplotlib
`getDefaultBackend`()
`getDefaultFrame`()	Get the default frame for display
`getDisplay`([frame, backend, create, verbose])	Return a specific `Display`, creating it if need be
`getZScale`(args, *kwargs)	Overloaded function.
`h_callback`(k, x, y)
`incrDefaultFrame`()	Increment the default frame for display
`makeRGB`(imageR[, imageG, imageB, minimum, …])	Make a set of three images into an RGB image using an asinh stretch and optionally write it to disk
`noop_callback`(k, x, y)	Callback function
`replaceSaturatedPixels`(rim, gim, bim, …)
`setDefaultBackend`(backend)
`setDefaultFrame`([frame])
`setDefaultMaskPlaneColor`([name, color])	Set the default mapping from mask plane names to colors
`setDefaultMaskTransparency`([…])
`writeFitsImage`(args, *kwargs)	Overloaded function.
`writeRGB`(fileName, rgbImage)	Write an RGB image to disk

`AsinhMapping`(minimum, dataRange[, Q])	A mapping for an asinh stretch (preserving colours independent of brightness)
`AsinhZScaleMapping`(image[, Q, pedestal])	A mapping for an asinh stretch, estimating the linear stretch by zscale
`Display`([frame, backend])	Create an object able to display images and overplot glyphs
`Event`(k[, x, y])	A class to handle events such as key presses in image display windows
`LinearMapping`([minimum, maximum, image])	A linear map of red, blue, green intensities into uint8 values
`Mapping`([minimum, image])	Base class to map red, blue, green intensities into uint8 values
`Mosaic`([gutter, background, mode])	A class to handle mosaics of one or more identically-sized images (or `Mask` or `MaskedImage`)
`ZScaleMapping`(image[, nSamples, contrast])	A mapping for a linear stretch chosen by the zscale algorithm (preserving colours independent of brightness)