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%2Fcolorspaces%2Fgeneral.py;h=d45699d6f5dc973d58a6f75d12e3b7458f85ad21;hp=bf335490a65e58eafe7f48d0cc5eba2f2c56b295;hb=805c53aca382854614ec47c02aa4799afe237e45;hpb=7a4fc682918ad7556041773dad14802cd73d15e7 diff --git a/aces_1.0.0/python/aces_ocio/colorspaces/general.py b/aces_1.0.0/python/aces_ocio/colorspaces/general.py index bf33549..d45699d 100644 --- a/aces_1.0.0/python/aces_ocio/colorspaces/general.py +++ b/aces_1.0.0/python/aces_ocio/colorspaces/general.py @@ -64,7 +64,7 @@ def create_matrix_colorspace(name='matrix', cs.family = 'Utility' cs.is_data = False - # A linear space needs allocation variables + # A linear space needs allocation variables. cs.allocation_type = ocio.Constants.ALLOCATION_UNIFORM cs.allocation_vars = [0, 1] @@ -120,16 +120,16 @@ def create_transfer_colorspace(name='transfer', cs.family = 'Utility' cs.is_data = False - # A linear space needs allocation variables + # A linear space needs allocation variables. cs.allocation_type = ocio.Constants.ALLOCATION_UNIFORM cs.allocation_vars = [0, 1] - # Sample the transfer function + # Sampling the transfer function. data = array.array('f', '\0' * lut_resolution_1d * 4) for c in range(lut_resolution_1d): data[c] = transfer_function(c / (lut_resolution_1d - 1)) - # Write the sampled data to a LUT + # Writing the sampled data to a *LUT*. lut = '%s_to_linear.spi1d' % transfer_function_name genlut.write_SPI_1d( os.path.join(lut_directory, lut), @@ -139,7 +139,7 @@ def create_transfer_colorspace(name='transfer', lut_resolution_1d, 1) - # Create the 'to_reference' transforms + # Creating the *to_reference* transforms. cs.to_reference_transforms = [] cs.to_reference_transforms.append({ 'type': 'lutFile', @@ -147,14 +147,12 @@ def create_transfer_colorspace(name='transfer', 'interpolation': 'linear', 'direction': 'forward'}) - # Create the 'from_reference' transforms + # Creating the *from_reference* transforms. cs.from_reference_transforms = [] return cs -# create_transfer_colorspace - # ------------------------------------------------------------------------- # *Transfer Function + Matrix Transform* # ------------------------------------------------------------------------- @@ -197,16 +195,16 @@ def create_matrix_plus_transfer_colorspace( cs.family = 'Utility' cs.is_data = False - # A linear space needs allocation variables + # A linear space needs allocation variables. cs.allocation_type = ocio.Constants.ALLOCATION_UNIFORM cs.allocation_vars = [0, 1] - # Sample the transfer function + # Sampling the transfer function. data = array.array('f', '\0' * lut_resolution_1d * 4) for c in range(lut_resolution_1d): data[c] = transfer_function(c / (lut_resolution_1d - 1)) - # Write the sampled data to a LUT + # Writing the sampled data to a *LUT*. lut = '%s_to_linear.spi1d' % transfer_function_name genlut.write_SPI_1d( os.path.join(lut_directory, lut), @@ -216,7 +214,7 @@ def create_matrix_plus_transfer_colorspace( lut_resolution_1d, 1) - # Create the 'to_reference' transforms + # Creating the *to_reference* transforms. cs.to_reference_transforms = [] if to_reference_values: cs.to_reference_transforms.append({ @@ -231,7 +229,7 @@ def create_matrix_plus_transfer_colorspace( 'matrix': mat44_from_mat33(matrix), 'direction': 'forward'}) - # Create the 'from_reference' transforms + # Creating the *from_reference* transforms. cs.from_reference_transforms = [] if from_reference_values: for matrix in from_reference_values: @@ -249,9 +247,7 @@ def create_matrix_plus_transfer_colorspace( return cs -# create_matrix_plus_transfer_colorspace - -# Transfer functions for standard color spaces +# Transfer functions for standard colorspaces. def transfer_function_sRGB_to_linear(v): a = 1.055 b = 0.04045 @@ -304,7 +300,7 @@ def transfer_function_Rec1886_to_linear(v): Lw = 1 Lb = 0 - # Ignoring legal to full scaling for now + # Ignoring legal to full scaling for now. # v = (1023.0*v - 64.0)/876.0 t = pow(Lw, 1.0 / g) - pow(Lb, 1.0 / g) @@ -332,19 +328,19 @@ def create_colorspaces(lut_directory, colorspaces = [] - # + # ------------------------------------------------------------------------- # 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']) colorspaces.append(cs) - # + # ------------------------------------------------------------------------- # P3-D60 - # - # *ACES* to *Linear*, *P3D60* primaries. + # ------------------------------------------------------------------------- + # *ACES* to *Linear*, *P3D60* primaries XYZ_to_P3D60 = [2.4027414142, -0.8974841639, -0.3880533700, -0.8325796487, 1.7692317536, 0.0237127115, 0.0388233815, -0.0824996856, 1.0363685997] @@ -355,10 +351,10 @@ def create_colorspaces(lut_directory, aliases=['lin_p3d60']) colorspaces.append(cs) - # + # ------------------------------------------------------------------------- # P3-DCI - # - # *ACES* to *Linear*, *P3DCI* primaries. + # ------------------------------------------------------------------------- + # *ACES* to *Linear*, *P3DCI* primaries XYZ_to_P3DCI = [2.7253940305, -1.0180030062, -0.4401631952, -0.7951680258, 1.6897320548, 0.0226471906, 0.0412418914, -0.0876390192, 1.1009293786] @@ -369,11 +365,11 @@ def create_colorspaces(lut_directory, aliases=['lin_p3dci']) colorspaces.append(cs) - # + # ------------------------------------------------------------------------- # sRGB - # + # ------------------------------------------------------------------------- # *ACES* to *Linear*, *Rec. 709* primaries. - # sRGB and Rec 709 use the same gamut + # *sRGB* 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] @@ -405,10 +401,10 @@ def create_colorspaces(lut_directory, aliases=['srgb']) colorspaces.append(cs) - # + # ------------------------------------------------------------------------- # Rec 709 - # - # *ACES* to *Linear*, *Rec. 709* primaries. + # ------------------------------------------------------------------------- + # *ACES* to *Linear*, *Rec. 709* primaries XYZ_to_Rec709 = [3.2409699419, -1.5373831776, -0.4986107603, -0.9692436363, 1.8759675015, 0.0415550574, 0.0556300797, -0.2039769589, 1.0569715142] @@ -440,10 +436,10 @@ def create_colorspaces(lut_directory, aliases=['rec709_camera']) colorspaces.append(cs) - # + # ------------------------------------------------------------------------- # Rec 2020 - # - # *ACES* to *Linear*, *Rec. 2020* primaries. + # ------------------------------------------------------------------------- + # *ACES* to *Linear*, *Rec. 2020* primaries XYZ_to_Rec2020 = [1.7166511880, -0.3556707838, -0.2533662814, -0.6666843518, 1.6164812366, 0.0157685458, 0.0176398574, -0.0427706133, 0.9421031212] @@ -475,10 +471,9 @@ def create_colorspaces(lut_directory, aliases=['rec2020_camera']) colorspaces.append(cs) - # + # ------------------------------------------------------------------------- # Rec 1886 - # - + # ------------------------------------------------------------------------- # *Linear* to *Rec.1886* Transfer Function* cs = create_transfer_colorspace( 'Curve - Rec.1886', @@ -511,10 +506,10 @@ def create_colorspaces(lut_directory, aliases=['rec2020_display']) colorspaces.append(cs) - # + # ------------------------------------------------------------------------- # ProPhoto - # - # *ACES* to *Linear*, *Pro Photo* primaries. + # ------------------------------------------------------------------------- + # *ACES* to *Linear*, *Pro Photo* primaries AP0_to_RIMM = [1.2412367771, -0.1685692287, -0.0726675484, 0.0061203066, 1.083151174, -0.0892714806, -0.0032853314, 0.0099796402, 0.9933056912] @@ -525,10 +520,10 @@ def create_colorspaces(lut_directory, aliases=['lin_prophoto', 'lin_rimm']) colorspaces.append(cs) - # + # ------------------------------------------------------------------------- # Adobe RGB - # - # *ACES* to *Linear*, *Adobe RGB* primaries. + # ------------------------------------------------------------------------- + # *ACES* to *Linear*, *Adobe RGB* primaries AP0_to_ADOBERGB = [1.7245603168, -0.4199935942, -0.3045667227, -0.2764799142, 1.3727190877, -0.0962391734, -0.0261255258, -0.0901747807, 1.1163003065] @@ -539,11 +534,10 @@ def create_colorspaces(lut_directory, aliases=['lin_adobergb']) colorspaces.append(cs) - # + # ------------------------------------------------------------------------- # Adobe Wide Gamut RGB - # - - # *ACES* to *Linear*, *Adobe Wide Gamut RGB* primaries. + # ------------------------------------------------------------------------- + # *ACES* to *Linear*, *Adobe Wide Gamut RGB* primaries AP0_to_ADOBERGB = [1.3809814778, -0.1158594573, -0.2651220205, 0.0057015535, 1.0402949043, -0.0459964578, -0.0038908746, -0.0597091815, 1.0636000561]