colour.corresponding_chromaticities_prediction¶
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colour.corresponding_chromaticities_prediction(experiment=1, model='Von Kries', **kwargs)[source]¶ Returns the corresponding chromaticities prediction for given chromatic adaptation model.
Parameters: - experiment (integer, optional) – {1, 2, 3, 4, 6, 8, 9, 11, 12} Breneman (1987) experiment number.
- model (unicode, optional) – {‘Von Kries’, ‘CIE 1994’, ‘CMCCAT2000’, ‘Fairchild 1990’}, Chromatic adaptation model.
Other Parameters: transform (unicode, optional) – {
colour.corresponding.corresponding_chromaticities_prediction_VonKries()}, {‘CAT02’, ‘XYZ Scaling’, ‘Von Kries’, ‘Bradford’, ‘Sharp’, ‘Fairchild’, ‘CMCCAT97’, ‘CMCCAT2000’, ‘CAT02_BRILL_CAT’, ‘Bianco’, ‘Bianco PC’}, Chromatic adaptation transform.Returns: Corresponding chromaticities prediction.
Return type: References
[Bre87], [CIET13294], [Fai91], [Fai13c], [Fai13b], [LLRH02], [WRC12a]
Examples
>>> from pprint import pprint >>> pr = corresponding_chromaticities_prediction(2, 'CMCCAT2000') >>> pr = [(p.uvp_m, p.uvp_p) for p in pr] >>> pprint(pr) # doctest: +SKIP [((0.207, 0.486), (0.2083210..., 0.4727168...)), ((0.449, 0.511), (0.4459270..., 0.5077735...)), ((0.263, 0.505), (0.2640262..., 0.4955361...)), ((0.322, 0.545), (0.3316884..., 0.5431580...)), ((0.316, 0.537), (0.3222624..., 0.5357624...)), ((0.265, 0.553), (0.2710705..., 0.5501997...)), ((0.221, 0.538), (0.2261826..., 0.5294740...)), ((0.135, 0.532), (0.1439693..., 0.5190984...)), ((0.145, 0.472), (0.1494835..., 0.4556760...)), ((0.163, 0.331), (0.1563172..., 0.3164151...)), ((0.176, 0.431), (0.1763199..., 0.4127589...)), ((0.244, 0.349), (0.2287638..., 0.3499324...))]