Changes

v1.1.2

  • BUG AFFECTING CALCULATIONS: As a result of the scrutiny triggered by the v1.1.1 release, we discovered that the reference article that colorspacious (and other libraries) was using as a source for the CIECAM02Surround.DIM constant values was itself incorrect. It has now been corrected, and verified against CIE 159:2004. See #14 for details, and thanks to Thomas Mansencal and Mark Fairchild for helping sort this out.

    Like the bug fix in v1.1.1, this doesn’t affect most calculations; it only matters if you were explicitly choosing the CIECAM02Surround.DIM viewing conditions.

v1.1.1

https://zenodo.org/badge/DOI/10.5281/zenodo.1211038.svg
  • BUG AFFECTING CALCULATIONS: In previous versions, the constants CIECAM02Surround.DIM and CIECAM02Surround.DARK were incorrect due to a data entry error. Fortunately, CIECAM02Surround.AVERAGE was correct, and this is the default, so unless you have explicitly been requesting DIM or DARK surrounds in your CIECAM02 calculations, then you should be unaffected by this bug. (Thanks to Brian Deiterle for catching this!)

v1.1.0

https://zenodo.org/badge/DOI/10.5281/zenodo.165867.svg
  • BUG AFFECTING CALCULATIONS: In previous versions, it turns out that the CAM02-LCD and CAM02-SCD spaces were accidentally swapped – so if you asked for CAM02-LCD you got SCD, and vice-versa. This has now been corrected. (Thanks to Github user TFiFiE for catching this!)
  • Fixed setup.py to be compatible with both python 2 and python 3.
  • Miscellaneous documentation improvements.

v1.0.0

https://zenodo.org/badge/doi/10.5281/zenodo.33086.svg

Notable changes since v0.1.0 include:

  • BUG AFFECTING CALCULATIONS: the sRGB viewing conditions (colorspacious.CIECAM02Space.sRGB), which are used by default in all calculations involving CIECAM02 or CAM02-UCS, were previously incorrect – the \(L_A\) parameter was supposed to be \((64 / \pi) / 5\), but instead was incorrectly calculated as \((64 / \pi) * 5\). The effect of this was to assume much brighter ambient lighting than actually specified by the sRGB standard (i.e., the sRGB standard assumes that you are looking at your monitor in a dim environment, like a movie theatre; we were calculating as if you were looking at your monitor in an environment that was 125 times lighter – something like, outside on an overcast day). This bug is corrected in this release.

    Fortunately this turns out to have had a negligible effect on viridis and the other matplotlib colormaps that were computed using the buggy code. Once the bug is corrected, the old colormaps’ perceptual uniformity is no long analytically exactly perfect, but the deviations are numerically negligible, so there’s no need to regenerate the colormaps. (Indeed, the buggy viewing conditions, while different from those specified in IEC 61966-2-1:1999, are probably still within the range of realistic viewing conditions where these colormaps will be used.)

    If it is necessary to reproduce results using the old code, then this can be accomplished by instantiating a custom CIECAM02Space object:

    from colorspacious import CIECAM02Space
    # almost, but not quite, the sRGB viewing conditions:
    buggy_space = CIECAM02Space(
        XYZ100_w="D65",
        Y_b=20,
        # bug: should be (64 / np.pi) / 5
        L_A=(64 / np.pi) * 5)
    

    This can be used directly, or to create custom colorspace specifications to use with cspace_convert(). E.g., to convert from sRGB1 to JCh using the buggy viewing conditions:

    cspace_convert(..., "sRGB1",
                   {"name": "JCh", "ciecam02_space": buggy_space})
    

    Or to convert from XYZ100 to CAM02-UCS using the buggy viewing conditions:

    cspace_convert(..., "XYZ100",
                   {"name": "CAM02-UCS", "ciecam02_space": buggy_space})
    

    Similar code has been added to viscm to allow reproduction and editing of viridis and related colormaps that were designed using the old code.

  • colorspacious.deltaE() is now available as a convenience function for computing the perceptual distance between colors.

  • Substantially improved docs (i.e. there is now actually a comprehensive manual).

  • Better test coverage (currently at 100% statement and branch coverage).

  • Miscellaneous bug fixes.

v0.1.0

Initial release.