def create_RED_log_film(gamut,
transfer_function,
- name,
lut_directory,
lut_resolution_1d,
- aliases=[]):
+ aliases=None):
"""
Object description.
Return value description.
"""
+ if aliases is None:
+ aliases = []
+
name = '%s - %s' % (transfer_function, gamut)
if transfer_function == '':
name = 'Linear - %s' % gamut
if gamut == '':
- name = '%s' % transfer_function
+ name = 'Curve - %s' % transfer_function
cs = ColorSpace(name)
cs.description = name
RED_log_film_dragon = create_RED_log_film(
'DRAGONcolor',
'REDlogFilm',
- 'REDlogFilm',
lut_directory,
lut_resolution_1d,
- ["rlf_dgn"])
+ ['rlf_dgn'])
colorspaces.append(RED_log_film_dragon)
RED_log_film_dragon2 = create_RED_log_film(
'DRAGONcolor2',
'REDlogFilm',
- 'REDlogFilm',
lut_directory,
lut_resolution_1d,
- ["rlf_dgn2"])
+ ['rlf_dgn2'])
colorspaces.append(RED_log_film_dragon2)
RED_log_film_color = create_RED_log_film(
'REDcolor',
'REDlogFilm',
- 'REDlogFilm',
lut_directory,
lut_resolution_1d,
- ["rlf_rc"])
+ ['rlf_rc'])
colorspaces.append(RED_log_film_color)
RED_log_film_color2 = create_RED_log_film(
'REDcolor2',
'REDlogFilm',
- 'REDlogFilm',
lut_directory,
lut_resolution_1d,
- ["rlf_rc2"])
+ ['rlf_rc2'])
colorspaces.append(RED_log_film_color2)
RED_log_film_color3 = create_RED_log_film(
'REDcolor3',
'REDlogFilm',
- 'REDlogFilm',
lut_directory,
lut_resolution_1d,
- ["rlf_rc3"])
+ ['rlf_rc3'])
colorspaces.append(RED_log_film_color3)
RED_log_film_color4 = create_RED_log_film(
'REDcolor4',
'REDlogFilm',
- 'REDlogFilm',
lut_directory,
lut_resolution_1d,
- ["rlf_rc4"])
+ ['rlf_rc4'])
colorspaces.append(RED_log_film_color4)
# Linearization only
RED_log_film = create_RED_log_film(
'',
'REDlogFilm',
- 'REDlogFilm',
lut_directory,
lut_resolution_1d,
- ["crv_rlf"])
+ ['crv_rlf'])
colorspaces.append(RED_log_film)
# Primaries only
RED_dragon = create_RED_log_film(
'DRAGONcolor',
'',
- 'REDlogFilm',
lut_directory,
lut_resolution_1d,
- ["lin_dgn"])
+ ['lin_dgn'])
colorspaces.append(RED_dragon)
RED_dragon2 = create_RED_log_film(
'DRAGONcolor2',
'',
- 'REDlogFilm',
lut_directory,
lut_resolution_1d,
- ["lin_dgn2"])
+ ['lin_dgn2'])
colorspaces.append(RED_dragon2)
RED_color = create_RED_log_film(
'REDcolor',
'',
- 'REDlogFilm',
lut_directory,
lut_resolution_1d,
- ["lin_rc"])
+ ['lin_rc'])
colorspaces.append(RED_color)
RED_color2 = create_RED_log_film(
'REDcolor2',
'',
- 'REDlogFilm',
lut_directory,
lut_resolution_1d,
- ["lin_rc2"])
+ ['lin_rc2'])
colorspaces.append(RED_color2)
RED_color3 = create_RED_log_film(
'REDcolor3',
'',
- 'REDlogFilm',
lut_directory,
lut_resolution_1d,
- ["lin_rc3"])
+ ['lin_rc3'])
colorspaces.append(RED_color3)
RED_color4 = create_RED_log_film(
'REDcolor4',
'',
- 'REDlogFilm',
lut_directory,
lut_resolution_1d,
- ["lin_rc4"])
+ ['lin_rc4'])
colorspaces.append(RED_color4)
return colorspaces