X-Git-Url: http://users.mur.at/ms/git/gitweb/?p=OpenColorIO-Configs.git;a=blobdiff_plain;f=aces_1.0.0%2Fpython%2Faces_ocio%2Fcreate_red_colorspaces.py;h=b87eb4abe0ed7bf5ec01e56dd1f62e511c1c176d;hp=4c091518a7471adf3fae4bcb51feb6bb5f163226;hb=2158c15470d514412974585e84210cbc2c909011;hpb=516185e8542092bcd40d2db16758c5c84a13e7c8 diff --git a/aces_1.0.0/python/aces_ocio/create_red_colorspaces.py b/aces_1.0.0/python/aces_ocio/create_red_colorspaces.py index 4c09151..b87eb4a 100644 --- a/aces_1.0.0/python/aces_ocio/create_red_colorspaces.py +++ b/aces_1.0.0/python/aces_ocio/create_red_colorspaces.py @@ -42,11 +42,11 @@ def create_RED_log_film(gamut, Return value description. """ - name = "%s - %s" % (transfer_function, gamut) - if transfer_function == "": - name = "Linear - %s" % gamut - if gamut == "": - name = "%s" % transfer_function + name = '%s - %s' % (transfer_function, gamut) + if transfer_function == '': + name = 'Linear - %s' % gamut + if gamut == '': + name = '%s' % transfer_function cs = ColorSpace(name) cs.description = name @@ -70,12 +70,12 @@ def create_RED_log_film(gamut, cs.to_reference_transforms = [] if transfer_function == 'REDlogFilm': - data = array.array('f', "\0" * lut_resolution_1d * 4) + data = array.array('f', '\0' * lut_resolution_1d * 4) for c in range(lut_resolution_1d): data[c] = cineon_to_linear(1023.0 * c / (lut_resolution_1d - 1)) - lut = "CineonLog_to_linear.spi1d" - genlut.write_SPI_1d(lut_directory + "/" + lut, + lut = 'CineonLog_to_linear.spi1d' + genlut.write_SPI_1d(lut_directory + '/' + lut, 0.0, 1.0, data, @@ -92,36 +92,36 @@ def create_RED_log_film(gamut, cs.to_reference_transforms.append({ 'type': 'matrix', 'matrix': mat44_from_mat33([0.532279, 0.376648, 0.091073, - 0.046344, 0.974513, -0.020860, - -0.053976, -0.000320, 1.054267]), + 0.046344, 0.974513, -0.020860, + -0.053976, -0.000320, 1.054267]), 'direction': 'forward'}) elif gamut == 'DRAGONcolor2': cs.to_reference_transforms.append({ 'type': 'matrix', 'matrix': mat44_from_mat33([0.468452, 0.331484, 0.200064, - 0.040787, 0.857658, 0.101553, - -0.047504, -0.000282, 1.047756]), + 0.040787, 0.857658, 0.101553, + -0.047504, -0.000282, 1.047756]), 'direction': 'forward'}) elif gamut == 'REDcolor2': cs.to_reference_transforms.append({ 'type': 'matrix', 'matrix': mat44_from_mat33([0.480997, 0.402289, 0.116714, - -0.004938, 1.000154, 0.004781, - -0.105257, 0.025320, 1.079907]), + -0.004938, 1.000154, 0.004781, + -0.105257, 0.025320, 1.079907]), 'direction': 'forward'}) elif gamut == 'REDcolor3': cs.to_reference_transforms.append({ 'type': 'matrix', 'matrix': mat44_from_mat33([0.512136, 0.360370, 0.127494, - 0.070377, 0.903884, 0.025737, - -0.020824, 0.017671, 1.003123]), + 0.070377, 0.903884, 0.025737, + -0.020824, 0.017671, 1.003123]), 'direction': 'forward'}) elif gamut == 'REDcolor4': cs.to_reference_transforms.append({ 'type': 'matrix', 'matrix': mat44_from_mat33([0.474202, 0.333677, 0.192121, - 0.065164, 0.836932, 0.097901, - -0.019281, 0.016362, 1.002889]), + 0.065164, 0.836932, 0.097901, + -0.019281, 0.016362, 1.002889]), 'direction': 'forward'}) cs.from_reference_transforms = [] @@ -147,91 +147,91 @@ def create_colorspaces(lut_directory, lut_resolution_1d): # Full conversion RED_log_film_dragon = create_RED_log_film( - "DRAGONcolor", - "REDlogFilm", - "REDlogFilm", + 'DRAGONcolor', + 'REDlogFilm', + 'REDlogFilm', lut_directory, lut_resolution_1d) colorspaces.append(RED_log_film_dragon) RED_log_film_dragon2 = create_RED_log_film( - "DRAGONcolor2", - "REDlogFilm", - "REDlogFilm", + 'DRAGONcolor2', + 'REDlogFilm', + 'REDlogFilm', lut_directory, lut_resolution_1d) colorspaces.append(RED_log_film_dragon2) RED_log_film_color2 = create_RED_log_film( - "REDcolor2", - "REDlogFilm", - "REDlogFilm", + 'REDcolor2', + 'REDlogFilm', + 'REDlogFilm', lut_directory, lut_resolution_1d) colorspaces.append(RED_log_film_color2) RED_log_film_color3 = create_RED_log_film( - "REDcolor3", - "REDlogFilm", - "REDlogFilm", + 'REDcolor3', + 'REDlogFilm', + 'REDlogFilm', lut_directory, lut_resolution_1d) colorspaces.append(RED_log_film_color3) RED_log_film_color4 = create_RED_log_film( - "REDcolor4", - "REDlogFilm", - "REDlogFilm", + 'REDcolor4', + 'REDlogFilm', + 'REDlogFilm', lut_directory, lut_resolution_1d) colorspaces.append(RED_log_film_color4) # Linearization only RED_log_film_dragon = create_RED_log_film( - "", - "REDlogFilm", - "REDlogFilm", + '', + 'REDlogFilm', + 'REDlogFilm', lut_directory, lut_resolution_1d) colorspaces.append(RED_log_film_dragon) # Primaries only RED_log_film_dragon = create_RED_log_film( - "DRAGONcolor", - "", - "REDlogFilm", + 'DRAGONcolor', + '', + 'REDlogFilm', lut_directory, lut_resolution_1d) colorspaces.append(RED_log_film_dragon) RED_log_film_dragon2 = create_RED_log_film( - "DRAGONcolor2", - "", - "REDlogFilm", + 'DRAGONcolor2', + '', + 'REDlogFilm', lut_directory, lut_resolution_1d) colorspaces.append(RED_log_film_dragon2) RED_log_film_color2 = create_RED_log_film( - "REDcolor2", - "", - "REDlogFilm", + 'REDcolor2', + '', + 'REDlogFilm', lut_directory, lut_resolution_1d) colorspaces.append(RED_log_film_color2) RED_log_film_color3 = create_RED_log_film( - "REDcolor3", - "", - "REDlogFilm", + 'REDcolor3', + '', + 'REDlogFilm', lut_directory, lut_resolution_1d) colorspaces.append(RED_log_film_color3) RED_log_film_color4 = create_RED_log_film( - "REDcolor4", - "", - "REDlogFilm", + 'REDcolor4', + '', + 'REDlogFilm', lut_directory, lut_resolution_1d) colorspaces.append(RED_log_film_color4)