from aces_ocio.colorspaces import aces
from aces_ocio.utilities import ColorSpace, mat44_from_mat33
-
__author__ = 'ACES Developers'
__copyright__ = 'Copyright (C) 2014 - 2015 - ACES Developers'
__license__ = ''
__all__ = ['create_matrix_colorspace',
'create_colorspaces']
+
# -------------------------------------------------------------------------
# *Matrix Transform*
# -------------------------------------------------------------------------
def create_matrix_colorspace(name='matrix',
from_reference_values=None,
to_reference_values=None,
- aliases=[]):
+ aliases=None):
"""
Object description.
if to_reference_values is None:
to_reference_values = []
+ if aliases is None:
+ aliases = []
+
cs = ColorSpace(name)
cs.description = 'The %s color space' % name
cs.aliases = aliases
return cs
+
# -------------------------------------------------------------------------
# *Transfer Function Transform*
# -------------------------------------------------------------------------
transfer_function=lambda x: x,
lut_directory='/tmp',
lut_resolution_1d=1024,
- aliases=[]):
+ aliases=None):
"""
Object description.
Return value description.
"""
+ if aliases is None:
+ aliases = []
+
cs = ColorSpace(name)
cs.description = 'The %s color space' % name
cs.aliases = aliases
cs.from_reference_transforms = []
return cs
+
+
# create_transfer_colorspace
# -------------------------------------------------------------------------
# *Transfer Function + Matrix Transform*
# -------------------------------------------------------------------------
-def create_matrix_plus_transfer_colorspace(name='matrix_plus_transfer',
- transfer_function_name='transfer_function',
- transfer_function=lambda x: x,
- lut_directory='/tmp',
- lut_resolution_1d=1024,
- from_reference_values=None,
- to_reference_values=None,
- aliases=[]):
+def create_matrix_plus_transfer_colorspace(
+ name='matrix_plus_transfer',
+ transfer_function_name='transfer_function',
+ transfer_function=lambda x: x,
+ lut_directory='/tmp',
+ lut_resolution_1d=1024,
+ from_reference_values=None,
+ to_reference_values=None,
+ aliases=None):
"""
Object description.
if to_reference_values is None:
to_reference_values = []
+ if aliases is None:
+ aliases = []
+
cs = ColorSpace(name)
cs.description = 'The %s color space' % name
cs.aliases = aliases
'direction': 'inverse'})
return cs
+
+
# create_matrix_plus_transfer_colorspace
# Transfer functions for standard color spaces
g = 2.4
if v < b:
- return v/d
+ return v / d
return pow(((v + (a - 1)) / a), g)
+
def transfer_function_Rec709_to_linear(v):
a = 1.099
b = 0.018
d = 4.5
- g = (1.0/0.45)
+ g = (1.0 / 0.45)
- if v < b*d:
- return v/d
+ if v < b * d:
+ return v / d
return pow(((v + (a - 1)) / a), g)
+
def transfer_function_Rec2020_10bit_to_linear(v):
a = 1.099
b = 0.018
d = 4.5
- g = (1.0/0.45)
+ g = (1.0 / 0.45)
- if v < b*d:
- return v/d
+ if v < b * d:
+ return v / d
return pow(((v + (a - 1)) / a), g)
+
def transfer_function_Rec2020_12bit_to_linear(v):
a = 1.0993
b = 0.0181
d = 4.5
- g = (1.0/0.45)
+ g = (1.0 / 0.45)
- if v < b*d:
- return v/d
+ if v < b * d:
+ return v / d
return pow(((v + (a - 1)) / a), g)
+
def transfer_function_Rec1886_to_linear(v):
g = 2.4
Lw = 1
Lb = 0
# Ignoring legal to full scaling for now
- #v = (1023.0*v - 64.0)/876.0
+ # v = (1023.0*v - 64.0)/876.0
- t = pow(Lw, 1.0/g) - pow(Lb, 1.0/g)
+ t = pow(Lw, 1.0 / g) - pow(Lb, 1.0 / g)
a = pow(t, g)
- b = pow(Lb, 1.0/g)/t
+ b = pow(Lb, 1.0 / g) / t
+
+ return a * pow(max((v + b), 0.0), g)
- return a*pow(max((v + b), 0.0), g)
def create_colorspaces(lut_directory,
lut_resolution_1d,
# 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_d60"])
+ to_reference_values=[aces.ACES_XYZ_TO_AP0],
+ from_reference_values=[aces.ACES_AP0_TO_XYZ],
+ aliases=['lin_xyz_d60'])
colorspaces.append(cs)
#
cs = create_matrix_colorspace(
'Linear - P3-D60',
from_reference_values=[aces.ACES_AP0_TO_XYZ, XYZ_to_P3D60],
- aliases=["lin_p3d60"])
+ aliases=['lin_p3d60'])
colorspaces.append(cs)
#
cs = create_matrix_colorspace(
'Linear - P3-DCI',
from_reference_values=[aces.ACES_AP0_TO_XYZ, XYZ_to_P3DCI],
- aliases=["lin_p3dci"])
+ aliases=['lin_p3dci'])
colorspaces.append(cs)
#
cs = create_matrix_colorspace(
'Linear - sRGB',
from_reference_values=[aces.ACES_AP0_TO_XYZ, XYZ_to_Rec709],
- aliases=["lin_srgb"])
+ aliases=['lin_srgb'])
colorspaces.append(cs)
# *Linear* to *sRGB* Transfer Function*
transfer_function_sRGB_to_linear,
lut_directory,
lut_resolution_1d,
- aliases=["crv_srgb"])
+ aliases=['crv_srgb'])
colorspaces.append(cs)
# *ACES* to *sRGB* Primaries + Transfer Function*
lut_directory,
lut_resolution_1d,
from_reference_values=[aces.ACES_AP0_TO_XYZ, XYZ_to_Rec709],
- aliases=["srgb"])
+ aliases=['srgb'])
colorspaces.append(cs)
#
cs = create_matrix_colorspace(
'Linear - Rec.709',
from_reference_values=[aces.ACES_AP0_TO_XYZ, XYZ_to_Rec709],
- aliases=["lin_rec709"])
+ aliases=['lin_rec709'])
colorspaces.append(cs)
# *Linear* to *Rec. 709* Transfer Function*
transfer_function_Rec709_to_linear,
lut_directory,
lut_resolution_1d,
- aliases=["crv_rec709"])
+ aliases=['crv_rec709'])
colorspaces.append(cs)
# *ACES* to *Rec. 709* Primaries + Transfer Function*
lut_directory,
lut_resolution_1d,
from_reference_values=[aces.ACES_AP0_TO_XYZ, XYZ_to_Rec709],
- aliases=["rec709_camera"])
+ aliases=['rec709_camera'])
colorspaces.append(cs)
#
cs = create_matrix_colorspace(
'Linear - Rec.2020',
from_reference_values=[aces.ACES_AP0_TO_XYZ, XYZ_to_Rec2020],
- aliases=["lin_rec2020"])
+ aliases=['lin_rec2020'])
colorspaces.append(cs)
# *Linear* to *Rec. 2020 10 bit* Transfer Function*
transfer_function_Rec2020_10bit_to_linear,
lut_directory,
lut_resolution_1d,
- aliases=["crv_rec2020"])
+ aliases=['crv_rec2020'])
colorspaces.append(cs)
# *ACES* to *Rec. 2020 10 bit* Primaries + Transfer Function*
lut_directory,
lut_resolution_1d,
from_reference_values=[aces.ACES_AP0_TO_XYZ, XYZ_to_Rec2020],
- aliases=["rec2020_camera"])
+ aliases=['rec2020_camera'])
colorspaces.append(cs)
#
transfer_function_Rec1886_to_linear,
lut_directory,
lut_resolution_1d,
- aliases=["crv_rec1886"])
+ aliases=['crv_rec1886'])
colorspaces.append(cs)
# *ACES* to *sRGB* Primaries + Transfer Function*
lut_directory,
lut_resolution_1d,
from_reference_values=[aces.ACES_AP0_TO_XYZ, XYZ_to_Rec709],
- aliases=["rec709_display"])
+ aliases=['rec709_display'])
colorspaces.append(cs)
# *ACES* to *sRGB* Primaries + Transfer Function*
lut_directory,
lut_resolution_1d,
from_reference_values=[aces.ACES_AP0_TO_XYZ, XYZ_to_Rec2020],
- aliases=["rec2020_display"])
+ aliases=['rec2020_display'])
colorspaces.append(cs)
#
cs = create_matrix_colorspace(
'Linear - RIMM ROMM (ProPhoto)',
from_reference_values=[AP0_to_RIMM],
- aliases=["lin_prophoto", "lin_rimm"])
+ aliases=['lin_prophoto', 'lin_rimm'])
colorspaces.append(cs)
#
cs = create_matrix_colorspace(
'Linear - Adobe RGB',
from_reference_values=[AP0_to_ADOBERGB],
- aliases=["lin_adobergb"])
+ aliases=['lin_adobergb'])
colorspaces.append(cs)
#
cs = create_matrix_colorspace(
'Linear - Adobe Wide Gamut RGB',
from_reference_values=[AP0_to_ADOBERGB],
- aliases=["lin_adobewidegamutrgb"])
+ aliases=['lin_adobewidegamutrgb'])
colorspaces.append(cs)
return colorspaces
def create_raw():
# *Raw* utility space
- name = "Raw"
+ name = 'Raw'
raw = ColorSpace(name)
raw.description = 'The %s color space' % name
- raw.aliases = ["raw"]
+ raw.aliases = ['raw']
raw.equality_group = name
raw.family = 'Utility'
raw.is_data = True
return raw
-
-