#
# XYZ
#
- cs = create_matrix_colorspace('XYZ',
+ cs = create_matrix_colorspace('XYZ-D60',
to_reference_values=[aces.ACES_XYZ_TO_AP0],
from_reference_values=[aces.ACES_AP0_TO_XYZ],
- aliases=["lin_xyz"])
- colorspaces.append(cs)
-
- #
- # AP1
- #
- cs = create_matrix_colorspace(
- 'Linear - AP1',
- to_reference_values=[aces.ACES_AP1_TO_AP0],
- from_reference_values=[aces.ACES_AP0_TO_AP1],
- aliases=["lin_ap1"])
+ aliases=["lin_xyz_d60"])
colorspaces.append(cs)
#
#
# Rec 1886
#
- # *ACES* to *Linear*, *Rec. 709* primaries.
- # Rec 1886 and Rec 709 use the same gamut
- XYZ_to_Rec709 = [3.2409699419, -1.5373831776, -0.4986107603,
- -0.9692436363, 1.8759675015, 0.0415550574,
- 0.0556300797, -0.2039769589, 1.0569715142]
- cs = create_matrix_colorspace(
- 'Linear - Rec.1886',
- from_reference_values=[aces.ACES_AP0_TO_XYZ, XYZ_to_Rec709],
- aliases=["lin_rec1886"])
- colorspaces.append(cs)
-
- # *Linear* to *sRGB* Transfer Function*
+ # *Linear* to *Rec.2020* Transfer Function*
cs = create_transfer_colorspace(
'Curve - Rec.1886',
'rec1886',
aliases=["crv_rec1886"])
colorspaces.append(cs)
- # *ACES* to *sRGB* Primaries + Transfer Function*
- cs = create_matrix_plus_transfer_colorspace(
- 'Rec.1886',
- 'rec1886',
- transfer_function_Rec1886_to_linear,
- lut_directory,
- lut_resolution_1d,
- from_reference_values=[aces.ACES_AP0_TO_XYZ, XYZ_to_Rec709],
- aliases=["rec1886"])
- colorspaces.append(cs)
-
#
# Rec 2020
#