# -*- coding: utf-8 -*-
"""
-usage from python:
-
->>> import sys
->>> sys.path.append("/path/to/script")
->>> import create_aces_config as cac
->>> acesReleaseCTLDir = "/path/to/github/checkout/releases/v0.7.1/transforms/ctl"
->>> configDir = "/path/to/config/dir"
->>> cac.createACESConfig(acesReleaseCTLDir, configDir, 1024, 33, True)
-
-usage from command line, from the directory with 'create_aces_config.py':
-
-$ python create_aces_config.py -a "/path/to/github/checkout/releases/v0.7.1/transforms/ctl" -c "/path/to/config/dir" --lutResolution1d 1024 --lutResolution3d 33 --keepTempImages
-
-
-build instructions for osx for needed packages.
-
-#opencolorio
-brew install -vd opencolorio --with-python
-
-#openimageio
-brew tap homebrew/science
-
-# optional installs
-brew install -vd libRaw
-brew install -vd OpenCV
-
-brew install -vd openimageio --with-python
-
-#ctl
-brew install -vd CTL
-
-#opencolorio - again.
-# this time, 'ociolutimage' will build because openimageio is installed
-brew uninstall -vd opencolorio
-brew install -vd opencolorio --with-python
+Defines objects creating the *ACES* configuration.
"""
-import math
-import numpy
+from __future__ import division
+
import os
-import shutil
-import string
import sys
-# TODO: This restores the capability of running the script without having
-# added the package to PYTHONPATH, this is ugly and should ideally replaced by
-# dedicated executable in a /bin directory.
-sys.path.append(os.path.join(os.path.dirname(__file__), '..'))
+import PyOpenColorIO as ocio
-import PyOpenColorIO as OCIO
+import aces_ocio.create_aces_colorspaces as aces
+import aces_ocio.create_arri_colorspaces as arri
+import aces_ocio.create_canon_colorspaces as canon
+import aces_ocio.create_gopro_colorspaces as gopro
+import aces_ocio.create_panasonic_colorspaces as panasonic
+import aces_ocio.create_red_colorspaces as red
+import aces_ocio.create_sony_colorspaces as sony
+import aces_ocio.create_general_colorspaces as general
-import aces_ocio.createARRIColorSpaces as arri
-import aces_ocio.createCanonColorSpaces as canon
-import aces_ocio.createREDColorSpaces as red
-import aces_ocio.createSonyColorSpaces as sony
-import aces_ocio.generateLUT as genlut
from aces_ocio.process import Process
-from aces_ocio.util import ColorSpace, mat44FromMat33
__author__ = 'ACES Developers'
__copyright__ = 'Copyright (C) 2014 - 2015 - ACES Developers'
__all__ = ['ACES_OCIO_CTL_DIRECTORY_ENVIRON',
'ACES_OCIO_CONFIGURATION_DIRECTORY_ENVIRON',
- 'setConfigDefaultRoles',
- 'writeConfig',
- 'generateOCIOTransform',
- 'createConfig',
- 'generateLUTs',
- 'generateBakedLUTs',
- 'createConfigDir',
- 'getTransformInfo',
- 'getODTInfo',
- 'getLMTInfo',
- 'createACESConfig',
+ 'set_config_default_roles',
+ 'write_config',
+ 'generate_OCIO_transform',
+ 'add_colorspace_alias',
+ 'create_config',
+ 'generate_LUTs',
+ 'generate_baked_LUTs',
+ 'create_config_dir',
+ 'create_ACES_config',
'main']
ACES_OCIO_CTL_DIRECTORY_ENVIRON = 'ACES_OCIO_CTL_DIRECTORY'
ACES_OCIO_CONFIGURATION_DIRECTORY_ENVIRON = 'ACES_OCIO_CONFIGURATION_DIRECTORY'
-def setConfigDefaultRoles(config,
- color_picking="",
- color_timing="",
- compositing_log="",
- data="",
- default="",
- matte_paint="",
- reference="",
- scene_linear="",
- texture_paint=""):
+def set_config_default_roles(config,
+ color_picking='',
+ color_timing='',
+ compositing_log='',
+ data='',
+ default='',
+ matte_paint='',
+ reference='',
+ scene_linear='',
+ texture_paint=''):
"""
Sets given *OCIO* configuration default roles.
"""
if color_picking:
- config.setRole(OCIO.Constants.ROLE_COLOR_PICKING, color_picking)
+ config.setRole(ocio.Constants.ROLE_COLOR_PICKING, color_picking)
if color_timing:
- config.setRole(OCIO.Constants.ROLE_COLOR_TIMING, color_timing)
+ config.setRole(ocio.Constants.ROLE_COLOR_TIMING, color_timing)
if compositing_log:
- config.setRole(OCIO.Constants.ROLE_COMPOSITING_LOG, compositing_log)
+ config.setRole(ocio.Constants.ROLE_COMPOSITING_LOG, compositing_log)
if data:
- config.setRole(OCIO.Constants.ROLE_DATA, data)
+ config.setRole(ocio.Constants.ROLE_DATA, data)
if default:
- config.setRole(OCIO.Constants.ROLE_DEFAULT, default)
+ config.setRole(ocio.Constants.ROLE_DEFAULT, default)
if matte_paint:
- config.setRole(OCIO.Constants.ROLE_MATTE_PAINT, matte_paint)
+ config.setRole(ocio.Constants.ROLE_MATTE_PAINT, matte_paint)
if reference:
- config.setRole(OCIO.Constants.ROLE_REFERENCE, reference)
+ config.setRole(ocio.Constants.ROLE_REFERENCE, reference)
if scene_linear:
- config.setRole(OCIO.Constants.ROLE_SCENE_LINEAR, scene_linear)
+ config.setRole(ocio.Constants.ROLE_SCENE_LINEAR, scene_linear)
if texture_paint:
- config.setRole(OCIO.Constants.ROLE_TEXTURE_PAINT, texture_paint)
+ config.setRole(ocio.Constants.ROLE_TEXTURE_PAINT, texture_paint)
return True
-def writeConfig(config, configPath, sanityCheck=True):
+def write_config(config, config_path, sanity_check=True):
"""
Writes the configuration to given path.
Return value description.
"""
- if sanityCheck:
+ if sanity_check:
try:
config.sanityCheck()
except Exception, e:
print e
- print "Configuration was not written due to a failed Sanity Check"
+ print 'Configuration was not written due to a failed Sanity Check'
return
- # sys.exit()
- fileHandle = open(configPath, mode='w')
- fileHandle.write(config.serialize())
- fileHandle.close()
+ with open(config_path, mode='w') as fp:
+ fp.write(config.serialize())
-def generateOCIOTransform(transforms):
+def generate_OCIO_transform(transforms):
"""
Object description.
Return value description.
"""
- # print("Generating transforms")
+ interpolation_options = {
+ 'linear': ocio.Constants.INTERP_LINEAR,
+ 'nearest': ocio.Constants.INTERP_NEAREST,
+ 'tetrahedral': ocio.Constants.INTERP_TETRAHEDRAL}
- interpolationOptions = {
- 'linear': OCIO.Constants.INTERP_LINEAR,
- 'nearest': OCIO.Constants.INTERP_NEAREST,
- 'tetrahedral': OCIO.Constants.INTERP_TETRAHEDRAL
- }
- directionOptions = {
- 'forward': OCIO.Constants.TRANSFORM_DIR_FORWARD,
- 'inverse': OCIO.Constants.TRANSFORM_DIR_INVERSE
- }
+ direction_options = {
+ 'forward': ocio.Constants.TRANSFORM_DIR_FORWARD,
+ 'inverse': ocio.Constants.TRANSFORM_DIR_INVERSE}
- ocioTransforms = []
+ ocio_transforms = []
for transform in transforms:
+
+ # lutFile transform
if transform['type'] == 'lutFile':
- ocioTransform = OCIO.FileTransform(
+ ocio_transform = ocio.FileTransform(
src=transform['path'],
- interpolation=interpolationOptions[transform['interpolation']],
- direction=directionOptions[transform['direction']])
- ocioTransforms.append(ocioTransform)
+ interpolation=interpolation_options[
+ transform['interpolation']],
+ direction=direction_options[transform['direction']])
+ ocio_transforms.append(ocio_transform)
+
+ # matrix transform
elif transform['type'] == 'matrix':
- ocioTransform = OCIO.MatrixTransform()
+ ocio_transform = ocio.MatrixTransform()
# MatrixTransform member variables can't be initialized directly.
# Each must be set individually.
- ocioTransform.setMatrix(transform['matrix'])
+ ocio_transform.setMatrix(transform['matrix'])
if 'offset' in transform:
- ocioTransform.setOffset(transform['offset'])
+ ocio_transform.setOffset(transform['offset'])
if 'direction' in transform:
- ocioTransform.setDirection(
- directionOptions[transform['direction']])
+ ocio_transform.setDirection(
+ direction_options[transform['direction']])
- ocioTransforms.append(ocioTransform)
+ ocio_transforms.append(ocio_transform)
+
+ # exponent transform
elif transform['type'] == 'exponent':
- ocioTransform = OCIO.ExponentTransform()
- ocioTransform.setValue(transform['value'])
- ocioTransforms.append(ocioTransform)
+ ocio_transform = ocio.ExponentTransform()
+ ocio_transform.setValue(transform['value'])
+ ocio_transforms.append(ocio_transform)
+
+ # log transform
elif transform['type'] == 'log':
- ocioTransform = OCIO.LogTransform(
+ ocio_transform = ocio.LogTransform(
base=transform['base'],
- direction=directionOptions[transform['direction']])
-
- ocioTransforms.append(ocioTransform)
+ direction=direction_options[transform['direction']])
+
+ ocio_transforms.append(ocio_transform)
+
+ # color space transform
+ elif transform['type'] == 'colorspace':
+ ocio_transform = ocio.ColorSpaceTransform(src=transform['src'],
+ dst=transform['dst'],
+ direction=
+ direction_options[
+ 'forward'])
+ ocio_transforms.append(ocio_transform)
+ # unknown type
else:
print("Ignoring unknown transform type : %s" % transform['type'])
- # Build a group transform if necessary
- if len(ocioTransforms) > 1:
- transformG = OCIO.GroupTransform()
- for transform in ocioTransforms:
- transformG.push_back(transform)
- transform = transformG
-
- # Or take the first transform from the list
+ if len(ocio_transforms) > 1:
+ group_transform = ocio.GroupTransform()
+ for transform in ocio_transforms:
+ group_transform.push_back(transform)
+ transform = group_transform
else:
- transform = ocioTransforms[0]
+ transform = ocio_transforms[0]
return transform
-def createConfig(configData, nuke=False):
+def add_colorspace_alias(config,
+ reference_colorspace,
+ colorspace,
+ colorspace_alias_names):
"""
Object description.
Return value description.
"""
- # Create the config
- config = OCIO.Config()
-
- #
- # Set config wide values
- #
- config.setDescription("An ACES config generated from python")
- config.setSearchPath("luts")
-
- #
- # Define the reference color space
- #
- referenceData = configData['referenceColorSpace']
- print("Adding the reference color space : %s" % referenceData.name)
-
- # Create a color space
- reference = OCIO.ColorSpace(
- name=referenceData.name,
- bitDepth=referenceData.bitDepth,
- description=referenceData.description,
- equalityGroup=referenceData.equalityGroup,
- family=referenceData.family,
- isData=referenceData.isData,
- allocation=referenceData.allocationType,
- allocationVars=referenceData.allocationVars)
-
- # Add to config
- config.addColorSpace(reference)
-
- #
- # Create the rest of the color spaces
- #
- for colorspace in sorted(configData['colorSpaces']):
- print("Creating new color space : %s" % colorspace.name)
-
- ocioColorspace = OCIO.ColorSpace(
- name=colorspace.name,
- bitDepth=colorspace.bitDepth,
- description=colorspace.description,
- equalityGroup=colorspace.equalityGroup,
- family=colorspace.family,
- isData=colorspace.isData,
- allocation=colorspace.allocationType,
- allocationVars=colorspace.allocationVars)
-
- if colorspace.toReferenceTransforms != []:
- print("Generating To-Reference transforms")
- ocioTransform = generateOCIOTransform(
- colorspace.toReferenceTransforms)
- ocioColorspace.setTransform(
- ocioTransform,
- OCIO.Constants.COLORSPACE_DIR_TO_REFERENCE)
-
- if colorspace.fromReferenceTransforms != []:
- print("Generating From-Reference transforms")
- ocioTransform = generateOCIOTransform(
- colorspace.fromReferenceTransforms)
- ocioColorspace.setTransform(
- ocioTransform,
- OCIO.Constants.COLORSPACE_DIR_FROM_REFERENCE)
-
- config.addColorSpace(ocioColorspace)
-
- print("")
-
- #
- # Define the views and displays
- #
- displays = []
- views = []
-
- # Generic display and view setup
- if not nuke:
- for display, viewList in configData['displays'].iteritems():
- for viewName, colorspace in viewList.iteritems():
- config.addDisplay(display, viewName, colorspace.name)
- if not (viewName in views):
- views.append(viewName)
- displays.append(display)
- # A Nuke specific set of views and displays
- #
- # XXX
- # A few names: Output Transform, ACES, ACEScc, are hard-coded here.
- # Would be better to automate.
- #
- else:
- for display, viewList in configData['displays'].iteritems():
- for viewName, colorspace in viewList.iteritems():
- if (viewName == 'Output Transform'):
- viewName = 'View'
- config.addDisplay(display, viewName, colorspace.name)
- if not (viewName in views):
- views.append(viewName)
- displays.append(display)
-
- config.addDisplay('linear', 'View', 'ACES2065-1')
- displays.append('linear')
- config.addDisplay('log', 'View', 'ACEScc')
- displays.append('log')
-
- # Set active displays and views
- config.setActiveDisplays(','.join(sorted(displays)))
- config.setActiveViews(','.join(views))
-
- #
- # Need to generalize this at some point
- #
-
- # Add Default Roles
- setConfigDefaultRoles(config,
- color_picking=reference.getName(),
- color_timing=reference.getName(),
- compositing_log=reference.getName(),
- data=reference.getName(),
- default=reference.getName(),
- matte_paint=reference.getName(),
- reference=reference.getName(),
- scene_linear=reference.getName(),
- texture_paint=reference.getName())
-
- # Check to make sure we didn't screw something up
- config.sanityCheck()
+ for alias_name in colorspace_alias_names:
+ if alias_name == colorspace.name.lower():
+ return
- return config
+ print('Adding alias colorspace space %s, alias to %s' % (
+ alias_name, colorspace.name))
+ compact_family_name = 'Aliases'
-def generateLUTs(odtInfo,
- lmtInfo,
- shaperName,
- acesCTLReleaseDir,
- lutDir,
- lutResolution1d=4096,
- lutResolution3d=64,
- cleanup=True):
+ ocio_colorspace_alias = ocio.ColorSpace(
+ name=alias_name,
+ bitDepth=colorspace.bit_depth,
+ description=colorspace.description,
+ equalityGroup=colorspace.equality_group,
+ family=compact_family_name,
+ isData=colorspace.is_data,
+ allocation=colorspace.allocation_type,
+ allocationVars=colorspace.allocation_vars)
+
+ if not colorspace.to_reference_transforms:
+ print('Generating To-Reference transforms')
+ ocio_transform = generate_OCIO_transform(
+ [{'type': 'colorspace',
+ 'src': colorspace.name,
+ 'dst': reference_colorspace.name,
+ 'direction': 'forward'}])
+ ocio_colorspace_alias.setTransform(
+ ocio_transform,
+ ocio.Constants.COLORSPACE_DIR_TO_REFERENCE)
+
+ if not colorspace.from_reference_transforms:
+ print('Generating From-Reference transforms')
+ ocio_transform = generate_OCIO_transform(
+ [{'type': 'colorspace',
+ 'src': reference_colorspace.name,
+ 'dst': colorspace.name,
+ 'direction': 'forward'}])
+ ocio_colorspace_alias.setTransform(
+ ocio_transform,
+ ocio.Constants.COLORSPACE_DIR_FROM_REFERENCE)
+
+ config.addColorSpace(ocio_colorspace_alias)
+
+
+def create_config(config_data, nuke=False):
"""
Object description.
Returns
-------
- dict
- Colorspaces and transforms converting between those colorspaces and
- the reference colorspace, *ACES*.
+ type
+ Return value description.
"""
- print("generateLUTs - begin")
- configData = {}
-
- #
- # Define the reference color space
- #
- ACES = ColorSpace('ACES2065-1')
- ACES.description = (
- 'The Academy Color Encoding System reference color space')
- ACES.equalityGroup = ''
- ACES.family = 'ACES'
- ACES.isData = False
- ACES.allocationType = OCIO.Constants.ALLOCATION_LG2
- ACES.allocationVars = [-15, 6]
-
- configData['referenceColorSpace'] = ACES
-
- #
- # Define the displays
- #
- configData['displays'] = {}
-
- #
- # Define the other color spaces
- #
- configData['colorSpaces'] = []
-
- # Matrix converting ACES AP1 primaries to AP0
- acesAP1toAP0 = [0.6954522414, 0.1406786965, 0.1638690622,
- 0.0447945634, 0.8596711185, 0.0955343182,
- -0.0055258826, 0.0040252103, 1.0015006723]
-
- # Matrix converting ACES AP0 primaries to XYZ
- acesAP0toXYZ = [0.9525523959, 0.0000000000, 0.0000936786,
- 0.3439664498, 0.7281660966, -0.0721325464,
- 0.0000000000, 0.0000000000, 1.0088251844]
-
- #
- # ACEScc
- #
- def createACEScc(name='ACEScc',
- minValue=0.0,
- maxValue=1.0,
- inputScale=1.0):
- cs = ColorSpace(name)
- cs.description = "The %s color space" % name
- cs.equalityGroup = ''
- cs.family = 'ACES'
- cs.isData = False
-
- ctls = [
- '%s/ACEScc/ACEScsc.ACEScc_to_ACES.a1.0.0.ctl' % acesCTLReleaseDir,
- # This transform gets back to the AP1 primaries
- # Useful as the 1d LUT is only covering the transfer function
- # The primaries switch is covered by the matrix below
- '%s/ACEScg/ACEScsc.ACES_to_ACEScg.a1.0.0.ctl' % acesCTLReleaseDir
- ]
- lut = "%s_to_ACES.spi1d" % name
-
- # Remove spaces and parentheses
- lut = lut.replace(' ', '_').replace(')', '_').replace('(', '_')
-
- genlut.generate1dLUTFromCTL(
- lutDir + "/" + lut,
- ctls,
- lutResolution1d,
- 'float',
- inputScale,
- 1.0,
- {},
- cleanup,
- acesCTLReleaseDir,
- minValue,
- maxValue)
-
- cs.toReferenceTransforms = []
- cs.toReferenceTransforms.append({
- 'type': 'lutFile',
- 'path': lut,
- 'interpolation': 'linear',
- 'direction': 'forward'
- })
-
- # AP1 primaries to AP0 primaries
- cs.toReferenceTransforms.append({
- 'type': 'matrix',
- 'matrix': mat44FromMat33(acesAP1toAP0),
- 'direction': 'forward'
- })
-
- cs.fromReferenceTransforms = []
- return cs
-
- ACEScc = createACEScc()
- configData['colorSpaces'].append(ACEScc)
-
- #
- # ACESproxy
- #
- def createACESProxy(name='ACESproxy'):
- cs = ColorSpace(name)
- cs.description = "The %s color space" % name
- cs.equalityGroup = ''
- cs.family = 'ACES'
- cs.isData = False
-
- ctls = [
- '%s/ACESproxy/ACEScsc.ACESproxy10i_to_ACES.a1.0.0.ctl' % (
- acesCTLReleaseDir),
- # This transform gets back to the AP1 primaries
- # Useful as the 1d LUT is only covering the transfer function
- # The primaries switch is covered by the matrix below
- '%s/ACEScg/ACEScsc.ACES_to_ACEScg.a1.0.0.ctl' % acesCTLReleaseDir
- ]
- lut = "%s_to_aces.spi1d" % name
-
- # Remove spaces and parentheses
- lut = lut.replace(' ', '_').replace(')', '_').replace('(', '_')
-
- genlut.generate1dLUTFromCTL(
- lutDir + "/" + lut,
- ctls,
- lutResolution1d,
- 'uint16',
- 64.0,
- 1.0,
- {},
- cleanup,
- acesCTLReleaseDir)
-
- cs.toReferenceTransforms = []
- cs.toReferenceTransforms.append({
- 'type': 'lutFile',
- 'path': lut,
- 'interpolation': 'linear',
- 'direction': 'forward'
- })
-
- # AP1 primaries to AP0 primaries
- cs.toReferenceTransforms.append({
- 'type': 'matrix',
- 'matrix': mat44FromMat33(acesAP1toAP0),
- 'direction': 'forward'
- })
-
- cs.fromReferenceTransforms = []
- return cs
-
- ACESproxy = createACESProxy()
- configData['colorSpaces'].append(ACESproxy)
-
- #
- # ACEScg
- #
- def createACEScg(name='ACEScg'):
- cs = ColorSpace(name)
- cs.description = "The %s color space" % name
- cs.equalityGroup = ''
- cs.family = 'ACES'
- cs.isData = False
-
- cs.toReferenceTransforms = []
-
- # AP1 primaries to AP0 primaries
- cs.toReferenceTransforms.append({
- 'type': 'matrix',
- 'matrix': mat44FromMat33(acesAP1toAP0),
- 'direction': 'forward'
- })
-
- cs.fromReferenceTransforms = []
- return cs
-
- ACEScg = createACEScg()
- configData['colorSpaces'].append(ACEScg)
-
- #
- # ADX
- #
- def createADX(bitdepth=10, name='ADX'):
- name = "%s%s" % (name, bitdepth)
- cs = ColorSpace(name)
- cs.description = "%s color space - used for film scans" % name
- cs.equalityGroup = ''
- cs.family = 'ADX'
- cs.isData = False
-
- if bitdepth == 10:
- cs.bitDepth = bitDepth = OCIO.Constants.BIT_DEPTH_UINT10
- adx_to_cdd = [1023.0 / 500.0, 0.0, 0.0, 0.0,
- 0.0, 1023.0 / 500.0, 0.0, 0.0,
- 0.0, 0.0, 1023.0 / 500.0, 0.0,
- 0.0, 0.0, 0.0, 1.0]
- offset = [-95.0 / 500.0, -95.0 / 500.0, -95.0 / 500.0, 0.0]
- elif bitdepth == 16:
- cs.bitDepth = bitDepth = OCIO.Constants.BIT_DEPTH_UINT16
- adx_to_cdd = [65535.0 / 8000.0, 0.0, 0.0, 0.0,
- 0.0, 65535.0 / 8000.0, 0.0, 0.0,
- 0.0, 0.0, 65535.0 / 8000.0, 0.0,
- 0.0, 0.0, 0.0, 1.0]
- offset = [-1520.0 / 8000.0, -1520.0 / 8000.0, -1520.0 / 8000.0,
- 0.0]
-
- cs.toReferenceTransforms = []
-
- # Convert from ADX to Channel-Dependent Density
- cs.toReferenceTransforms.append({
- 'type': 'matrix',
- 'matrix': adx_to_cdd,
- 'offset': offset,
- 'direction': 'forward'
- })
-
- # Convert from Channel-Dependent Density to Channel-Independent Density
- cs.toReferenceTransforms.append({
- 'type': 'matrix',
- 'matrix': [0.75573, 0.22197, 0.02230, 0,
- 0.05901, 0.96928, -0.02829, 0,
- 0.16134, 0.07406, 0.76460, 0,
- 0.0, 0.0, 0.0, 1.0],
- 'direction': 'forward'
- })
-
- # Copied from Alex Fry's adx_cid_to_rle.py
- def createCIDtoRLELUT():
- def interpolate1D(x, xp, fp):
- return numpy.interp(x, xp, fp)
-
- LUT_1D_xp = [-0.190000000000000,
- 0.010000000000000,
- 0.028000000000000,
- 0.054000000000000,
- 0.095000000000000,
- 0.145000000000000,
- 0.220000000000000,
- 0.300000000000000,
- 0.400000000000000,
- 0.500000000000000,
- 0.600000000000000]
-
- LUT_1D_fp = [-6.000000000000000,
- -2.721718645000000,
- -2.521718645000000,
- -2.321718645000000,
- -2.121718645000000,
- -1.921718645000000,
- -1.721718645000000,
- -1.521718645000000,
- -1.321718645000000,
- -1.121718645000000,
- -0.926545676714876]
-
- REF_PT = ((7120.0 - 1520.0) / 8000.0 * (100.0 / 55.0) -
- math.log(0.18, 10.0))
-
- def cid_to_rle(x):
- if x <= 0.6:
- return interpolate1D(x, LUT_1D_xp, LUT_1D_fp)
- return (100.0 / 55.0) * x - REF_PT
-
- def Fit(value, fromMin, fromMax, toMin, toMax):
- if fromMin == fromMax:
- raise ValueError("fromMin == fromMax")
- return (value - fromMin) / (fromMax - fromMin) * (
- toMax - toMin) + toMin
-
- NUM_SAMPLES = 2 ** 12
- RANGE = (-0.19, 3.0)
- data = []
- for i in xrange(NUM_SAMPLES):
- x = i / (NUM_SAMPLES - 1.0)
- x = Fit(x, 0.0, 1.0, RANGE[0], RANGE[1])
- data.append(cid_to_rle(x))
-
- lut = 'ADX_CID_to_RLE.spi1d'
- genlut.writeSPI1D(lutDir + "/" + lut, RANGE[0], RANGE[1], data,
- NUM_SAMPLES, 1)
-
- return lut
-
- # Convert Channel Independent Density values to Relative Log Exposure
- # values.
- lut = createCIDtoRLELUT()
- cs.toReferenceTransforms.append({
- 'type': 'lutFile',
- 'path': lut,
- 'interpolation': 'linear',
- 'direction': 'forward'
- })
-
- # Convert Relative Log Exposure values to Relative Exposure values
- cs.toReferenceTransforms.append({
- 'type': 'log',
- 'base': 10,
- 'direction': 'inverse'
- })
-
- # Convert Relative Exposure values to ACES values
- cs.toReferenceTransforms.append({
- 'type': 'matrix',
- 'matrix': [0.72286, 0.12630, 0.15084, 0,
- 0.11923, 0.76418, 0.11659, 0,
- 0.01427, 0.08213, 0.90359, 0,
- 0.0, 0.0, 0.0, 1.0],
- 'direction': 'forward'
- })
-
- cs.fromReferenceTransforms = []
- return cs
-
- ADX10 = createADX(bitdepth=10)
- configData['colorSpaces'].append(ADX10)
-
- ADX16 = createADX(bitdepth=16)
- configData['colorSpaces'].append(ADX16)
-
- #
- # Camera Input Transforms
- #
-
- # RED color spaces to ACES
- redColorSpaces = red.createColorSpaces(lutDir, lutResolution1d)
- for cs in redColorSpaces:
- configData['colorSpaces'].append(cs)
-
- # Canon-Log to ACES
- canonColorSpaces = canon.createColorSpaces(lutDir, lutResolution1d)
- for cs in canonColorSpaces:
- configData['colorSpaces'].append(cs)
-
- # SLog to ACES
- sonyColorSpaces = sony.createColorSpaces(lutDir, lutResolution1d)
- for cs in sonyColorSpaces:
- configData['colorSpaces'].append(cs)
-
- # LogC to ACES
- arriColorSpaces = arri.createColorSpaces(lutDir, lutResolution1d)
- for cs in arriColorSpaces:
- configData['colorSpaces'].append(cs)
-
- #
- # Generic log transform
- #
- def createGenericLog(name='log',
- minValue=0.0,
- maxValue=1.0,
- inputScale=1.0,
- middleGrey=0.18,
- minExposure=-6.0,
- maxExposure=6.5,
- lutResolution1d=lutResolution1d):
- cs = ColorSpace(name)
- cs.description = "The %s color space" % name
- cs.equalityGroup = name
- cs.family = 'Utility'
- cs.isData = False
-
- ctls = [
- '%s/utilities/ACESlib.OCIO_shaper_log2_to_lin_param.a1.0.0.ctl' % (
- acesCTLReleaseDir)
- ]
- lut = "%s_to_aces.spi1d" % name
-
- # Remove spaces and parentheses
- lut = lut.replace(' ', '_').replace(')', '_').replace('(', '_')
-
- genlut.generate1dLUTFromCTL(
- lutDir + "/" + lut,
- ctls,
- lutResolution1d,
- 'float',
- inputScale,
- 1.0,
- {
- 'middleGrey': middleGrey,
- 'minExposure': minExposure,
- 'maxExposure': maxExposure
- },
- cleanup,
- acesCTLReleaseDir,
- minValue,
- maxValue)
-
- cs.toReferenceTransforms = []
- cs.toReferenceTransforms.append({
- 'type': 'lutFile',
- 'path': lut,
- 'interpolation': 'linear',
- 'direction': 'forward'
- })
-
- cs.fromReferenceTransforms = []
- return cs
-
- #
- # ACES LMTs
- #
- def createACESLMT(lmtName,
- lmtValues,
- shaperInfo,
- lutResolution1d=1024,
- lutResolution3d=64,
- cleanup=True):
- cs = ColorSpace("%s" % lmtName)
- cs.description = "The ACES Look Transform: %s" % lmtName
- cs.equalityGroup = ''
- cs.family = 'Look'
- cs.isData = False
-
- import pprint
-
- pprint.pprint(lmtValues)
+ # Creating the *OCIO* configuration.
+ config = ocio.Config()
- #
- # Generate the shaper transform
- #
- (shaperName,
- shaperToACESCTL,
- shaperFromACESCTL,
- shaperInputScale,
- shaperParams) = shaperInfo
-
- shaperLut = "%s_to_aces.spi1d" % shaperName
- if (not os.path.exists(lutDir + "/" + shaperLut)):
- ctls = [
- shaperToACESCTL % acesCTLReleaseDir
- ]
-
- # Remove spaces and parentheses
- shaperLut = shaperLut.replace(
- ' ', '_').replace(')', '_').replace('(', '_')
-
- genlut.generate1dLUTFromCTL(
- lutDir + "/" + shaperLut,
- ctls,
- lutResolution1d,
- 'float',
- 1.0 / shaperInputScale,
- 1.0,
- shaperParams,
- cleanup,
- acesCTLReleaseDir)
-
- shaperOCIOTransform = {
- 'type': 'lutFile',
- 'path': shaperLut,
- 'interpolation': 'linear',
- 'direction': 'inverse'
- }
+ # Setting configuration overall values.
+ config.setDescription('An ACES config generated from python')
+ config.setSearchPath('luts')
- #
- # Generate the forward transform
- #
- cs.fromReferenceTransforms = []
-
- if 'transformCTL' in lmtValues:
- ctls = [
- shaperToACESCTL % acesCTLReleaseDir,
- '%s/%s' % (acesCTLReleaseDir, lmtValues['transformCTL'])
- ]
- lut = "%s.%s.spi3d" % (shaperName, lmtName)
-
- # Remove spaces and parentheses
- lut = lut.replace(' ', '_').replace(')', '_').replace('(', '_')
-
- genlut.generate3dLUTFromCTL(
- lutDir + "/" + lut,
- ctls,
- lutResolution3d,
- 'float',
- 1.0 / shaperInputScale,
- 1.0,
- shaperParams,
- cleanup,
- acesCTLReleaseDir)
-
- cs.fromReferenceTransforms.append(shaperOCIOTransform)
- cs.fromReferenceTransforms.append({
- 'type': 'lutFile',
- 'path': lut,
- 'interpolation': 'tetrahedral',
- 'direction': 'forward'
- })
+ # Defining the reference colorspace.
+ reference_data = config_data['referenceColorSpace']
+ print('Adding the reference color space : %s' % reference_data.name)
- #
- # Generate the inverse transform
- #
- cs.toReferenceTransforms = []
-
- if 'transformCTLInverse' in lmtValues:
- ctls = [
- '%s/%s' % (
- acesCTLReleaseDir, odtValues['transformCTLInverse']),
- shaperFromACESCTL % acesCTLReleaseDir
- ]
- lut = "Inverse.%s.%s.spi3d" % (odtName, shaperName)
-
- # Remove spaces and parentheses
- lut = lut.replace(' ', '_').replace(')', '_').replace('(', '_')
-
- genlut.generate3dLUTFromCTL(
- lutDir + "/" + lut,
- ctls,
- lutResolution3d,
- 'half',
- 1.0,
- shaperInputScale,
- shaperParams,
- cleanup,
- acesCTLReleaseDir)
-
- cs.toReferenceTransforms.append({
- 'type': 'lutFile',
- 'path': lut,
- 'interpolation': 'tetrahedral',
- 'direction': 'forward'
- })
-
- shaperInverse = shaperOCIOTransform.copy()
- shaperInverse['direction'] = 'forward'
- cs.toReferenceTransforms.append(shaperInverse)
-
- return cs
-
- #
- # LMT Shaper
- #
-
- lmtLutResolution1d = max(4096, lutResolution1d)
- lmtLutResolution3d = max(65, lutResolution3d)
-
- # Log 2 shaper
- lmtShaperName = 'LMT Shaper'
- lmtParams = {
- 'middleGrey': 0.18,
- 'minExposure': -10.0,
- 'maxExposure': 6.5
- }
- lmtShaper = createGenericLog(name=lmtShaperName,
- middleGrey=lmtParams['middleGrey'],
- minExposure=lmtParams['minExposure'],
- maxExposure=lmtParams['maxExposure'],
- lutResolution1d=lmtLutResolution1d)
- configData['colorSpaces'].append(lmtShaper)
-
- shaperInputScale_genericLog2 = 1.0
-
- # Log 2 shaper name and CTL transforms bundled up
- lmtShaperData = [
- lmtShaperName,
- '%s/utilities/ACESlib.OCIO_shaper_log2_to_lin_param.a1.0.0.ctl',
- '%s/utilities/ACESlib.OCIO_shaper_lin_to_log2_param.a1.0.0.ctl',
- shaperInputScale_genericLog2,
- lmtParams
- ]
-
- sortedLMTs = sorted(lmtInfo.iteritems(), key=lambda x: x[1])
- print(sortedLMTs)
- for lmt in sortedLMTs:
- (lmtName, lmtValues) = lmt
- cs = createACESLMT(
- lmtValues['transformUserName'],
- lmtValues,
- lmtShaperData,
- lmtLutResolution1d,
- lmtLutResolution3d,
- cleanup)
- configData['colorSpaces'].append(cs)
-
- #
- # ACES RRT with the supplied ODT
- #
- def createACESRRTplusODT(odtName,
- odtValues,
- shaperInfo,
- lutResolution1d=1024,
- lutResolution3d=64,
- cleanup=True):
- cs = ColorSpace("%s" % odtName)
- cs.description = "%s - %s Output Transform" % (
- odtValues['transformUserNamePrefix'], odtName)
- cs.equalityGroup = ''
- cs.family = 'Output'
- cs.isData = False
-
- import pprint
-
- pprint.pprint(odtValues)
+ reference = ocio.ColorSpace(
+ name=reference_data.name,
+ bitDepth=reference_data.bit_depth,
+ description=reference_data.description,
+ equalityGroup=reference_data.equality_group,
+ family=reference_data.family,
+ isData=reference_data.is_data,
+ allocation=reference_data.allocation_type,
+ allocationVars=reference_data.allocation_vars)
- #
- # Generate the shaper transform
- #
- # if 'shaperCTL' in odtValues:
- (shaperName,
- shaperToACESCTL,
- shaperFromACESCTL,
- shaperInputScale,
- shaperParams) = shaperInfo
-
- if 'legalRange' in odtValues:
- shaperParams['legalRange'] = odtValues['legalRange']
- else:
- shaperParams['legalRange'] = 0
-
- shaperLut = "%s_to_aces.spi1d" % shaperName
- if (not os.path.exists(lutDir + "/" + shaperLut)):
- ctls = [
- shaperToACESCTL % acesCTLReleaseDir
- ]
-
- # Remove spaces and parentheses
- shaperLut = shaperLut.replace(
- ' ', '_').replace(')', '_').replace('(', '_')
-
- genlut.generate1dLUTFromCTL(
- lutDir + "/" + shaperLut,
- ctls,
- lutResolution1d,
- 'float',
- 1.0 / shaperInputScale,
- 1.0,
- shaperParams,
- cleanup,
- acesCTLReleaseDir)
-
- shaperOCIOTransform = {
- 'type': 'lutFile',
- 'path': shaperLut,
- 'interpolation': 'linear',
- 'direction': 'inverse'
- }
+ config.addColorSpace(reference)
- #
- # Generate the forward transform
- #
- cs.fromReferenceTransforms = []
-
- if 'transformLUT' in odtValues:
- # Copy into the lut dir
- transformLUTFileName = os.path.basename(odtValues['transformLUT'])
- lut = lutDir + "/" + transformLUTFileName
- shutil.copy(odtValues['transformLUT'], lut)
-
- cs.fromReferenceTransforms.append(shaperOCIOTransform)
- cs.fromReferenceTransforms.append({
- 'type': 'lutFile',
- 'path': transformLUTFileName,
- 'interpolation': 'tetrahedral',
- 'direction': 'forward'
- })
- elif 'transformCTL' in odtValues:
- # shaperLut
-
- ctls = [
- shaperToACESCTL % acesCTLReleaseDir,
- '%s/rrt/RRT.a1.0.0.ctl' % acesCTLReleaseDir,
- '%s/odt/%s' % (acesCTLReleaseDir, odtValues['transformCTL'])
- ]
- lut = "%s.RRT.a1.0.0.%s.spi3d" % (shaperName, odtName)
-
- # Remove spaces and parentheses
- lut = lut.replace(' ', '_').replace(')', '_').replace('(', '_')
-
- genlut.generate3dLUTFromCTL(lutDir + "/" + lut,
- # shaperLUT,
- ctls,
- lutResolution3d,
- 'float',
- 1.0 / shaperInputScale,
- 1.0,
- shaperParams,
- cleanup,
- acesCTLReleaseDir)
-
- cs.fromReferenceTransforms.append(shaperOCIOTransform)
- cs.fromReferenceTransforms.append({
- 'type': 'lutFile',
- 'path': lut,
- 'interpolation': 'tetrahedral',
- 'direction': 'forward'
- })
+ # Add alias
+ if reference_data.aliases != []:
+ add_colorspace_alias(config, reference_data,
+ reference_data, reference_data.aliases)
+
+ print("")
+
+ # Creating the remaining colorspaces.
+ for colorspace in sorted(config_data['colorSpaces']):
+ print('Creating new color space : %s' % colorspace.name)
+
+ ocio_colorspace = ocio.ColorSpace(
+ name=colorspace.name,
+ bitDepth=colorspace.bit_depth,
+ description=colorspace.description,
+ equalityGroup=colorspace.equality_group,
+ family=colorspace.family,
+ isData=colorspace.is_data,
+ allocation=colorspace.allocation_type,
+ allocationVars=colorspace.allocation_vars)
+
+ if colorspace.to_reference_transforms:
+ print('Generating To-Reference transforms')
+ ocio_transform = generate_OCIO_transform(
+ colorspace.to_reference_transforms)
+ ocio_colorspace.setTransform(
+ ocio_transform,
+ ocio.Constants.COLORSPACE_DIR_TO_REFERENCE)
+
+ if colorspace.from_reference_transforms:
+ print('Generating From-Reference transforms')
+ ocio_transform = generate_OCIO_transform(
+ colorspace.from_reference_transforms)
+ ocio_colorspace.setTransform(
+ ocio_transform,
+ ocio.Constants.COLORSPACE_DIR_FROM_REFERENCE)
+
+ config.addColorSpace(ocio_colorspace)
#
- # Generate the inverse transform
+ # Add alias to normal colorspace, using compact name
#
- cs.toReferenceTransforms = []
-
- if 'transformLUTInverse' in odtValues:
- # Copy into the lut dir
- transformLUTInverseFileName = os.path.basename(
- odtValues['transformLUTInverse'])
- lut = lutDir + "/" + transformLUTInverseFileName
- shutil.copy(odtValues['transformLUTInverse'], lut)
-
- cs.toReferenceTransforms.append({
- 'type': 'lutFile',
- 'path': transformLUTInverseFileName,
- 'interpolation': 'tetrahedral',
- 'direction': 'forward'
- })
-
- shaperInverse = shaperOCIOTransform.copy()
- shaperInverse['direction'] = 'forward'
- cs.toReferenceTransforms.append(shaperInverse)
- elif 'transformCTLInverse' in odtValues:
- ctls = [
- '%s/odt/%s' % (
- acesCTLReleaseDir, odtValues['transformCTLInverse']),
- '%s/rrt/InvRRT.a1.0.0.ctl' % acesCTLReleaseDir,
- shaperFromACESCTL % acesCTLReleaseDir
- ]
- lut = "InvRRT.a1.0.0.%s.%s.spi3d" % (odtName, shaperName)
-
- # Remove spaces and parentheses
- lut = lut.replace(' ', '_').replace(')', '_').replace('(', '_')
-
- genlut.generate3dLUTFromCTL(
- lutDir + "/" + lut,
- # None,
- ctls,
- lutResolution3d,
- 'half',
- 1.0,
- shaperInputScale,
- shaperParams,
- cleanup,
- acesCTLReleaseDir)
-
- cs.toReferenceTransforms.append({
- 'type': 'lutFile',
- 'path': lut,
- 'interpolation': 'tetrahedral',
- 'direction': 'forward'
- })
-
- shaperInverse = shaperOCIOTransform.copy()
- shaperInverse['direction'] = 'forward'
- cs.toReferenceTransforms.append(shaperInverse)
-
- return cs
-
- #
- # RRT/ODT shaper options
- #
- shaperData = {}
-
- # Log 2 shaper
- log2ShaperName = shaperName
- log2Params = {
- 'middleGrey': 0.18,
- 'minExposure': -6.0,
- 'maxExposure': 6.5
- }
- log2Shaper = createGenericLog(name=log2ShaperName,
- middleGrey=log2Params['middleGrey'],
- minExposure=log2Params['minExposure'],
- maxExposure=log2Params['maxExposure'])
- configData['colorSpaces'].append(log2Shaper)
-
- shaperInputScale_genericLog2 = 1.0
-
- # Log 2 shaper name and CTL transforms bundled up
- log2ShaperData = [
- log2ShaperName,
- '%s/utilities/ACESlib.OCIO_shaper_log2_to_lin_param.a1.0.0.ctl',
- '%s/utilities/ACESlib.OCIO_shaper_lin_to_log2_param.a1.0.0.ctl',
- shaperInputScale_genericLog2,
- log2Params
- ]
-
- shaperData[log2ShaperName] = log2ShaperData
-
- #
- # Shaper that also includes the AP1 primaries
- # - Needed for some LUT baking steps
- #
- log2ShaperAP1 = createGenericLog(name=log2ShaperName,
- middleGrey=log2Params['middleGrey'],
- minExposure=log2Params['minExposure'],
- maxExposure=log2Params['maxExposure'])
- log2ShaperAP1.name = "%s - AP1" % log2ShaperAP1.name
- # AP1 primaries to AP0 primaries
- log2ShaperAP1.toReferenceTransforms.append({
- 'type': 'matrix',
- 'matrix': mat44FromMat33(acesAP1toAP0),
- 'direction': 'forward'
- })
- configData['colorSpaces'].append(log2ShaperAP1)
-
- #
- # Choose your shaper
- #
- rrtShaperName = log2ShaperName
- rrtShaper = log2ShaperData
-
- #
- # RRT + ODT Combinations
- #
- sortedOdts = sorted(odtInfo.iteritems(), key=lambda x: x[1])
- print(sortedOdts)
- for odt in sortedOdts:
- (odtName, odtValues) = odt
-
- # Have to handle ODTs that can generate either legal or full output
- if odtName in ['Academy.Rec2020_100nits_dim.a1.0.0',
- 'Academy.Rec709_100nits_dim.a1.0.0',
- 'Academy.Rec709_D60sim_100nits_dim.a1.0.0']:
- odtNameLegal = '%s - Legal' % odtValues['transformUserName']
- else:
- odtNameLegal = odtValues['transformUserName']
-
- odtLegal = odtValues.copy()
- odtLegal['legalRange'] = 1
-
- cs = createACESRRTplusODT(
- odtNameLegal,
- odtLegal,
- rrtShaper,
- lutResolution1d,
- lutResolution3d,
- cleanup)
- configData['colorSpaces'].append(cs)
-
- # Create a display entry using this color space
- configData['displays'][odtNameLegal] = {
- 'Linear': ACES,
- 'Log': ACEScc,
- 'Output Transform': cs}
-
- if odtName in ['Academy.Rec2020_100nits_dim.a1.0.0',
- 'Academy.Rec709_100nits_dim.a1.0.0',
- 'Academy.Rec709_D60sim_100nits_dim.a1.0.0']:
- print("Generating full range ODT for %s" % odtName)
-
- odtNameFull = "%s - Full" % odtValues['transformUserName']
- odtFull = odtValues.copy()
- odtFull['legalRange'] = 0
-
- csFull = createACESRRTplusODT(
- odtNameFull,
- odtFull,
- rrtShaper,
- lutResolution1d,
- lutResolution3d,
- cleanup)
- configData['colorSpaces'].append(csFull)
-
- # Create a display entry using this color space
- configData['displays'][odtNameFull] = {
- 'Linear': ACES,
- 'Log': ACEScc,
- 'Output Transform': csFull}
-
- #
- # Generic Matrix transform
- #
- def createGenericMatrix(name='matrix',
- fromReferenceValues=[],
- toReferenceValues=[]):
- cs = ColorSpace(name)
- cs.description = "The %s color space" % name
- cs.equalityGroup = name
- cs.family = 'Utility'
- cs.isData = False
-
- cs.toReferenceTransforms = []
- if toReferenceValues != []:
- for matrix in toReferenceValues:
- cs.toReferenceTransforms.append({
- 'type': 'matrix',
- 'matrix': mat44FromMat33(matrix),
- 'direction': 'forward'
- })
-
- cs.fromReferenceTransforms = []
- if fromReferenceValues != []:
- for matrix in fromReferenceValues:
- cs.fromReferenceTransforms.append({
- 'type': 'matrix',
- 'matrix': mat44FromMat33(matrix),
- 'direction': 'forward'
- })
-
- return cs
-
- cs = createGenericMatrix('XYZ', fromReferenceValues=[acesAP0toXYZ])
- configData['colorSpaces'].append(cs)
-
- cs = createGenericMatrix('Linear - AP1', toReferenceValues=[acesAP1toAP0])
- configData['colorSpaces'].append(cs)
-
- # ACES to Linear, P3D60 primaries
- xyzToP3D60 = [2.4027414142, -0.8974841639, -0.3880533700,
- -0.8325796487, 1.7692317536, 0.0237127115,
- 0.0388233815, -0.0824996856, 1.0363685997]
-
- cs = createGenericMatrix('Linear - P3-D60',
- fromReferenceValues=[acesAP0toXYZ, xyzToP3D60])
- configData['colorSpaces'].append(cs)
-
- # ACES to Linear, P3D60 primaries
- xyzToP3DCI = [2.7253940305, -1.0180030062, -0.4401631952,
- -0.7951680258, 1.6897320548, 0.0226471906,
- 0.0412418914, -0.0876390192, 1.1009293786]
-
- cs = createGenericMatrix('Linear - P3-DCI',
- fromReferenceValues=[acesAP0toXYZ, xyzToP3DCI])
- configData['colorSpaces'].append(cs)
-
- # ACES to Linear, Rec 709 primaries
- xyzToRec709 = [3.2409699419, -1.5373831776, -0.4986107603,
- -0.9692436363, 1.8759675015, 0.0415550574,
- 0.0556300797, -0.2039769589, 1.0569715142]
-
- cs = createGenericMatrix('Linear - Rec.709',
- fromReferenceValues=[acesAP0toXYZ, xyzToRec709])
- configData['colorSpaces'].append(cs)
-
- # ACES to Linear, Rec 2020 primaries
- xyzToRec2020 = [1.7166511880, -0.3556707838, -0.2533662814,
- -0.6666843518, 1.6164812366, 0.0157685458,
- 0.0176398574, -0.0427706133, 0.9421031212]
-
- cs = createGenericMatrix('Linear - Rec.2020',
- fromReferenceValues=[acesAP0toXYZ, xyzToRec2020])
- configData['colorSpaces'].append(cs)
-
- print("generateLUTs - end")
- return configData
-
-
-def generateBakedLUTs(odtInfo,
- shaperName,
- bakedDir,
- configPath,
- lutResolution1d,
- lutResolution3d,
- lutResolutionShaper=1024):
- """
- Object description.
+ if colorspace.aliases != []:
+ add_colorspace_alias(config, reference_data,
+ colorspace, colorspace.aliases)
- Parameters
- ----------
- parameter : type
- Parameter description.
+ print('')
- Returns
- -------
- type
- Return value description.
- """
+ # Defining the *views* and *displays*.
+ displays = []
+ views = []
- # Add the legal and full variations into this list
- odtInfoC = dict(odtInfo)
- for odtCTLName, odtValues in odtInfo.iteritems():
- if odtCTLName in ['Academy.Rec2020_100nits_dim.a1.0.0',
- 'Academy.Rec709_100nits_dim.a1.0.0',
- 'Academy.Rec709_D60sim_100nits_dim.a1.0.0']:
- odtName = odtValues["transformUserName"]
-
- odtValuesLegal = dict(odtValues)
- odtValuesLegal["transformUserName"] = "%s - Legal" % odtName
- odtInfoC["%s - Legal" % odtCTLName] = odtValuesLegal
-
- odtValuesFull = dict(odtValues)
- odtValuesFull["transformUserName"] = "%s - Full" % odtName
- odtInfoC["%s - Full" % odtCTLName] = odtValuesFull
-
- del (odtInfoC[odtCTLName])
-
- for odtCTLName, odtValues in odtInfoC.iteritems():
- odtPrefix = odtValues["transformUserNamePrefix"]
- odtName = odtValues["transformUserName"]
-
- # For Photoshop
- for inputspace in ["ACEScc", "ACESproxy"]:
- args = ["--iconfig", configPath, "-v", "--inputspace", inputspace]
- args += ["--outputspace", "%s" % odtName]
- args += ["--description",
- "%s - %s for %s data" % (odtPrefix, odtName, inputspace)]
- args += ["--shaperspace", shaperName, "--shapersize",
- str(lutResolutionShaper)]
- args += ["--cubesize", str(lutResolution3d)]
- args += ["--format", "icc", "%s/photoshop/%s for %s.icc" % (
- bakedDir, odtName, inputspace)]
-
- bakeLUT = Process(description="bake a LUT", cmd="ociobakelut",
- args=args)
- bakeLUT.execute()
-
- # For Flame, Lustre
- for inputspace in ["ACEScc", "ACESproxy"]:
- args = ["--iconfig", configPath, "-v", "--inputspace", inputspace]
- args += ["--outputspace", "%s" % odtName]
- args += ["--description",
- "%s - %s for %s data" % (odtPrefix, odtName, inputspace)]
- args += ["--shaperspace", shaperName, "--shapersize",
- str(lutResolutionShaper)]
- args += ["--cubesize", str(lutResolution3d)]
-
- fargs = ["--format", "flame", "%s/flame/%s for %s Flame.3dl" % (
- bakedDir, odtName, inputspace)]
- bakeLUT = Process(description="bake a LUT", cmd="ociobakelut",
- args=(args + fargs))
- bakeLUT.execute()
-
- largs = ["--format", "lustre", "%s/lustre/%s for %s Lustre.3dl" % (
- bakedDir, odtName, inputspace)]
- bakeLUT = Process(description="bake a LUT", cmd="ociobakelut",
- args=(args + largs))
- bakeLUT.execute()
-
- # For Maya, Houdini
- for inputspace in ["ACEScg", "ACES2065-1"]:
- args = ["--iconfig", configPath, "-v", "--inputspace", inputspace]
- args += ["--outputspace", "%s" % odtName]
- args += ["--description",
- "%s - %s for %s data" % (odtPrefix, odtName, inputspace)]
- if inputspace == 'ACEScg':
- linShaperName = "%s - AP1" % shaperName
- else:
- linShaperName = shaperName
- args += ["--shaperspace", linShaperName, "--shapersize",
- str(lutResolutionShaper)]
+ # Defining a *generic* *display* and *view* setup.
+ if not nuke:
+ for display, view_list in config_data['displays'].iteritems():
+ for view_name, colorspace in view_list.iteritems():
+ config.addDisplay(display, view_name, colorspace.name)
+ if not (view_name in views):
+ views.append(view_name)
+ displays.append(display)
- args += ["--cubesize", str(lutResolution3d)]
+ # Defining the *Nuke* specific set of *views* and *displays*.
+ else:
+ display_name = 'Output'
+ displays.append(display_name)
+
+ display_names = sorted(config_data['displays'])
+ for display in display_names:
+ view_list = config_data['displays'][display]
+ for view_name, colorspace in view_list.iteritems():
+ if view_name == 'Output Transform':
+ config.addDisplay(display_name, display, colorspace.name)
+ if not (display in views):
+ views.append(display)
+
+ linear_display_space_name = config_data['linearDisplaySpace'].name
+ log_display_space_name = config_data['logDisplaySpace'].name
+
+ config.addDisplay(display_name, 'Linear', linear_display_space_name)
+ views.append('Linear')
+ config.addDisplay(display_name, 'Log', log_display_space_name)
+ views.append('Log')
+
+ # Setting the active *displays* and *views*.
+ config.setActiveDisplays(','.join(sorted(displays)))
+ config.setActiveViews(','.join(views))
- margs = ["--format", "cinespace", "%s/maya/%s for %s Maya.csp" % (
- bakedDir, odtName, inputspace)]
- bakeLUT = Process(description="bake a LUT", cmd="ociobakelut",
- args=(args + margs))
- bakeLUT.execute()
+ set_config_default_roles(
+ config,
+ color_picking=config_data['roles']['color_picking'],
+ color_timing=config_data['roles']['color_timing'],
+ compositing_log=config_data['roles']['compositing_log'],
+ data=config_data['roles']['data'],
+ default=config_data['roles']['default'],
+ matte_paint=config_data['roles']['matte_paint'],
+ reference=config_data['roles']['reference'],
+ scene_linear=config_data['roles']['scene_linear'],
+ texture_paint=config_data['roles']['texture_paint'])
- hargs = ["--format", "houdini",
- "%s/houdini/%s for %s Houdini.lut" % (
- bakedDir, odtName, inputspace)]
- bakeLUT = Process(description="bake a LUT", cmd="ociobakelut",
- args=(args + hargs))
- bakeLUT.execute()
+ config.sanityCheck()
+ return config
-def createConfigDir(configDir, bakeSecondaryLUTs):
+
+def generate_LUTs(odt_info,
+ lmt_info,
+ shaper_name,
+ aces_ctl_directory,
+ lut_directory,
+ lut_resolution_1d=4096,
+ lut_resolution_3d=64,
+ cleanup=True):
"""
Object description.
Returns
-------
- type
- Return value description.
+ dict
+ Colorspaces and transforms converting between those colorspaces and
+ the reference colorspace, *ACES*.
"""
- dirs = [configDir, "%s/luts" % configDir]
- if bakeSecondaryLUTs:
- dirs.extend(["%s/baked" % configDir,
- "%s/baked/flame" % configDir,
- "%s/baked/photoshop" % configDir,
- "%s/baked/houdini" % configDir,
- "%s/baked/lustre" % configDir,
- "%s/baked/maya" % configDir])
-
- for d in dirs:
- if not os.path.exists(d):
- os.mkdir(d)
-
-
-def getTransformInfo(ctlTransform):
+ print('generateLUTs - begin')
+ config_data = {}
+
+ # Initialize a few variables
+ config_data['displays'] = {}
+ config_data['colorSpaces'] = []
+
+ # -------------------------------------------------------------------------
+ # *ACES Color Spaces*
+ # -------------------------------------------------------------------------
+
+ # *ACES* colorspaces
+ (aces_reference,
+ aces_colorspaces,
+ aces_displays,
+ aces_log_display_space,
+ aces_roles) = aces.create_colorspaces(aces_ctl_directory,
+ lut_directory,
+ lut_resolution_1d,
+ lut_resolution_3d,
+ lmt_info,
+ odt_info,
+ shaper_name,
+ cleanup)
+
+ config_data['referenceColorSpace'] = aces_reference
+ config_data['roles'] = aces_roles
+
+ for cs in aces_colorspaces:
+ config_data['colorSpaces'].append(cs)
+
+ for name, data in aces_displays.iteritems():
+ config_data['displays'][name] = data
+
+ config_data['linearDisplaySpace'] = aces_reference
+ config_data['logDisplaySpace'] = aces_log_display_space
+
+ # -------------------------------------------------------------------------
+ # *Camera Input Transforms*
+ # -------------------------------------------------------------------------
+
+ # *ARRI Log-C* to *ACES*.
+ arri_colorSpaces = arri.create_colorspaces(lut_directory,
+ lut_resolution_1d)
+ for cs in arri_colorSpaces:
+ config_data['colorSpaces'].append(cs)
+
+ # *Canon-Log* to *ACES*.
+ canon_colorspaces = canon.create_colorspaces(lut_directory,
+ lut_resolution_1d)
+ for cs in canon_colorspaces:
+ config_data['colorSpaces'].append(cs)
+
+ # *GoPro Protune* to *ACES*.
+ gopro_colorspaces = gopro.create_colorspaces(lut_directory,
+ lut_resolution_1d)
+ for cs in gopro_colorspaces:
+ config_data['colorSpaces'].append(cs)
+
+ # *Panasonic V-Log* to *ACES*.
+ panasonic_colorSpaces = panasonic.create_colorspaces(lut_directory,
+ lut_resolution_1d)
+ for cs in panasonic_colorSpaces:
+ config_data['colorSpaces'].append(cs)
+
+ # *RED* colorspaces to *ACES*.
+ red_colorspaces = red.create_colorspaces(lut_directory,
+ lut_resolution_1d)
+ for cs in red_colorspaces:
+ config_data['colorSpaces'].append(cs)
+
+ # *S-Log* to *ACES*.
+ sony_colorSpaces = sony.create_colorspaces(lut_directory,
+ lut_resolution_1d)
+ for cs in sony_colorSpaces:
+ config_data['colorSpaces'].append(cs)
+
+ # -------------------------------------------------------------------------
+ # General Color Spaces
+ # -------------------------------------------------------------------------
+ general_colorSpaces = general.create_colorspaces(lut_directory,
+ lut_resolution_1d,
+ lut_resolution_3d)
+ for cs in general_colorSpaces:
+ config_data['colorSpaces'].append(cs)
+
+ # The *Raw* color space
+ raw = general.create_raw()
+ config_data['colorSpaces'].append(raw)
+
+ # Override 'linear' display
+ config_data['linearDisplaySpace'] = raw
+
+ # Override certain roles, for now
+ config_data['roles']['data'] = raw.name
+ config_data['roles']['reference'] = raw.name
+ config_data['roles']['texture_paint'] = raw.name
+
+ print('generateLUTs - end')
+ return config_data
+
+
+def generate_baked_LUTs(odt_info,
+ shaper_name,
+ baked_directory,
+ config_path,
+ lut_resolution_1d,
+ lut_resolution_3d,
+ lut_resolution_shaper=1024):
"""
Object description.
Return value description.
"""
- fp = open(ctlTransform, 'rb')
-
- # Read lines
- lines = fp.readlines()
-
- # Grab transform ID and User Name
- transformID = lines[1][3:].split('<')[1].split('>')[1].lstrip().rstrip()
- # print(transformID)
- transformUserName = '-'.join(
- lines[2][3:].split('<')[1].split('>')[1].split('-')[
- 1:]).lstrip().rstrip()
- transformUserNamePrefix = \
- lines[2][3:].split('<')[1].split('>')[1].split('-')[
- 0].lstrip().rstrip()
- # print(transformUserName)
- fp.close()
-
- return transformID, transformUserName, transformUserNamePrefix
-
-
-def getODTInfo(acesCTLReleaseDir):
+ # Create two entries for ODTs that have full and legal range support
+ odt_info_C = dict(odt_info)
+ for odt_ctl_name, odt_values in odt_info.iteritems():
+ if odt_values['transformHasFullLegalSwitch']:
+ odt_name = odt_values['transformUserName']
+
+ odt_values_legal = dict(odt_values)
+ odt_values_legal['transformUserName'] = '%s - Legal' % odt_name
+ odt_info_C['%s - Legal' % odt_ctl_name] = odt_values_legal
+
+ odt_values_full = dict(odt_values)
+ odt_values_full['transformUserName'] = '%s - Full' % odt_name
+ odt_info_C['%s - Full' % odt_ctl_name] = odt_values_full
+
+ del (odt_info_C[odt_ctl_name])
+
+ # Generate appropriate LUTs for each ODT
+ for odt_ctl_name, odt_values in odt_info_C.iteritems():
+ odt_prefix = odt_values['transformUserNamePrefix']
+ odt_name = odt_values['transformUserName']
+
+ # *Photoshop*
+ for input_space in ['ACEScc', 'ACESproxy']:
+ args = ['--iconfig', config_path,
+ '-v',
+ '--inputspace', input_space]
+ args += ['--outputspace', '%s' % odt_name]
+ args += ['--description',
+ '%s - %s for %s data' % (odt_prefix,
+ odt_name,
+ input_space)]
+ args += ['--shaperspace', shaper_name,
+ '--shapersize', str(lut_resolution_shaper)]
+ args += ['--cubesize', str(lut_resolution_3d)]
+ args += ['--format',
+ 'icc',
+ os.path.join(baked_directory,
+ 'photoshop',
+ '%s for %s.icc' % (odt_name, input_space))]
+
+ bake_lut = Process(description='bake a LUT',
+ cmd='ociobakelut',
+ args=args)
+ bake_lut.execute()
+
+ # *Flame*, *Lustre*
+ for input_space in ['ACEScc', 'ACESproxy']:
+ args = ['--iconfig', config_path,
+ '-v',
+ '--inputspace', input_space]
+ args += ['--outputspace', '%s' % odt_name]
+ args += ['--description',
+ '%s - %s for %s data' % (
+ odt_prefix, odt_name, input_space)]
+ args += ['--shaperspace', shaper_name,
+ '--shapersize', str(lut_resolution_shaper)]
+ args += ['--cubesize', str(lut_resolution_3d)]
+
+ fargs = ['--format',
+ 'flame',
+ os.path.join(
+ baked_directory,
+ 'flame',
+ '%s for %s Flame.3dl' % (odt_name, input_space))]
+ bake_lut = Process(description='bake a LUT',
+ cmd='ociobakelut',
+ args=(args + fargs))
+ bake_lut.execute()
+
+ largs = ['--format',
+ 'lustre',
+ os.path.join(
+ baked_directory,
+ 'lustre',
+ '%s for %s Lustre.3dl' % (odt_name, input_space))]
+ bake_lut = Process(description='bake a LUT',
+ cmd='ociobakelut',
+ args=(args + largs))
+ bake_lut.execute()
+
+ # *Maya*, *Houdini*
+ for input_space in ['ACEScg', 'ACES2065-1']:
+ args = ['--iconfig', config_path,
+ '-v',
+ '--inputspace', input_space]
+ args += ['--outputspace', '%s' % odt_name]
+ args += ['--description',
+ '%s - %s for %s data' % (
+ odt_prefix, odt_name, input_space)]
+ if input_space == 'ACEScg':
+ lin_shaper_name = '%s - AP1' % shaper_name
+ else:
+ lin_shaper_name = shaper_name
+ args += ['--shaperspace', lin_shaper_name,
+ '--shapersize', str(lut_resolution_shaper)]
+
+ args += ['--cubesize', str(lut_resolution_3d)]
+
+ margs = ['--format',
+ 'cinespace',
+ os.path.join(
+ baked_directory,
+ 'maya',
+ '%s for %s Maya.csp' % (odt_name, input_space))]
+ bake_lut = Process(description='bake a LUT',
+ cmd='ociobakelut',
+ args=(args + margs))
+ bake_lut.execute()
+
+ hargs = ['--format',
+ 'houdini',
+ os.path.join(
+ baked_directory,
+ 'houdini',
+ '%s for %s Houdini.lut' % (odt_name, input_space))]
+ bake_lut = Process(description='bake a LUT',
+ cmd='ociobakelut',
+ args=(args + hargs))
+ bake_lut.execute()
+
+
+def create_config_dir(config_directory, bake_secondary_LUTs):
"""
Object description.
- For versions after WGR9.
-
Parameters
----------
parameter : type
Return value description.
"""
- # Credit to Alex Fry for the original approach here
- odtDir = os.path.join(acesCTLReleaseDir, "odt")
- allodt = []
- for dirName, subdirList, fileList in os.walk(odtDir):
- for fname in fileList:
- allodt.append((os.path.join(dirName, fname)))
-
- odtCTLs = [x for x in allodt if
- ("InvODT" not in x) and (os.path.split(x)[-1][0] != '.')]
-
- # print odtCTLs
-
- odts = {}
-
- for odtCTL in odtCTLs:
- odtTokens = os.path.split(odtCTL)
- # print(odtTokens)
-
- # Handle nested directories
- odtPathTokens = os.path.split(odtTokens[-2])
- odtDir = odtPathTokens[-1]
- while odtPathTokens[-2][-3:] != 'odt':
- odtPathTokens = os.path.split(odtPathTokens[-2])
- odtDir = os.path.join(odtPathTokens[-1], odtDir)
-
- # Build full name
- # print("odtDir : %s" % odtDir)
- transformCTL = odtTokens[-1]
- # print(transformCTL)
- odtName = string.join(transformCTL.split('.')[1:-1], '.')
- # print(odtName)
-
- # Find id, user name and user name prefix
- (transformID, transformUserName,
- transformUserNamePrefix) = getTransformInfo(
- "%s/odt/%s/%s" % (acesCTLReleaseDir, odtDir, transformCTL))
-
- # Find inverse
- transformCTLInverse = "InvODT.%s.ctl" % odtName
- if not os.path.exists(
- os.path.join(odtTokens[-2], transformCTLInverse)):
- transformCTLInverse = None
- # print(transformCTLInverse)
-
- # Add to list of ODTs
- odts[odtName] = {}
- odts[odtName]['transformCTL'] = os.path.join(odtDir, transformCTL)
- if transformCTLInverse != None:
- odts[odtName]['transformCTLInverse'] = os.path.join(
- odtDir, transformCTLInverse)
-
- odts[odtName]['transformID'] = transformID
- odts[odtName]['transformUserNamePrefix'] = transformUserNamePrefix
- odts[odtName]['transformUserName'] = transformUserName
-
- print("ODT : %s" % odtName)
- print("\tTransform ID : %s" % transformID)
- print("\tTransform User Name Prefix : %s" % transformUserNamePrefix)
- print("\tTransform User Name : %s" % transformUserName)
- print("\tForward ctl : %s" % (
- odts[odtName]['transformCTL']))
- if 'transformCTLInverse' in odts[odtName]:
- print("\tInverse ctl : %s" % (
- odts[odtName]['transformCTLInverse']))
- else:
- print("\tInverse ctl : %s" % "None")
+ lut_directory = os.path.join(config_directory, 'luts')
+ dirs = [config_directory, lut_directory]
+ if bake_secondary_LUTs:
+ dirs.extend([os.path.join(config_directory, 'baked'),
+ os.path.join(config_directory, 'baked', 'flame'),
+ os.path.join(config_directory, 'baked', 'photoshop'),
+ os.path.join(config_directory, 'baked', 'houdini'),
+ os.path.join(config_directory, 'baked', 'lustre'),
+ os.path.join(config_directory, 'baked', 'maya')])
- print("\n")
+ for d in dirs:
+ not os.path.exists(d) and os.mkdir(d)
- return odts
+ return lut_directory
-def getLMTInfo(acesCTLReleaseDir):
+def create_ACES_config(aces_ctl_directory,
+ config_directory,
+ lut_resolution_1d=4096,
+ lut_resolution_3d=64,
+ bake_secondary_LUTs=True,
+ cleanup=True):
"""
- Object description.
-
- For versions after WGR9.
+ Creates the ACES configuration.
Parameters
----------
Return value description.
"""
- # Credit to Alex Fry for the original approach here
- lmtDir = os.path.join(acesCTLReleaseDir, "lmt")
- alllmt = []
- for dirName, subdirList, fileList in os.walk(lmtDir):
- for fname in fileList:
- alllmt.append((os.path.join(dirName, fname)))
-
- lmtCTLs = [x for x in alllmt if
- ("InvLMT" not in x) and ("README" not in x) and (
- os.path.split(x)[-1][0] != '.')]
-
- # print lmtCTLs
-
- lmts = {}
-
- for lmtCTL in lmtCTLs:
- lmtTokens = os.path.split(lmtCTL)
- # print(lmtTokens)
-
- # Handle nested directories
- lmtPathTokens = os.path.split(lmtTokens[-2])
- lmtDir = lmtPathTokens[-1]
- while lmtPathTokens[-2][-3:] != 'ctl':
- lmtPathTokens = os.path.split(lmtPathTokens[-2])
- lmtDir = os.path.join(lmtPathTokens[-1], lmtDir)
-
- # Build full name
- # print("lmtDir : %s" % lmtDir)
- transformCTL = lmtTokens[-1]
- # print(transformCTL)
- lmtName = string.join(transformCTL.split('.')[1:-1], '.')
- # print(lmtName)
-
- # Find id, user name and user name prefix
- (transformID, transformUserName,
- transformUserNamePrefix) = getTransformInfo(
- "%s/%s/%s" % (acesCTLReleaseDir, lmtDir, transformCTL))
-
- # Find inverse
- transformCTLInverse = "InvLMT.%s.ctl" % lmtName
- if not os.path.exists(
- os.path.join(lmtTokens[-2], transformCTLInverse)):
- transformCTLInverse = None
- # print(transformCTLInverse)
-
- # Add to list of LMTs
- lmts[lmtName] = {}
- lmts[lmtName]['transformCTL'] = os.path.join(lmtDir, transformCTL)
- if transformCTLInverse != None:
- # TODO: Check unresolved *odtName* referemce.
- lmts[odtName]['transformCTLInverse'] = os.path.join(
- lmtDir, transformCTLInverse)
-
- lmts[lmtName]['transformID'] = transformID
- lmts[lmtName]['transformUserNamePrefix'] = transformUserNamePrefix
- lmts[lmtName]['transformUserName'] = transformUserName
-
- print("LMT : %s" % lmtName)
- print("\tTransform ID : %s" % transformID)
- print("\tTransform User Name Prefix : %s" % transformUserNamePrefix)
- print("\tTransform User Name : %s" % transformUserName)
- print("\t Forward ctl : %s" % lmts[lmtName]['transformCTL'])
- if 'transformCTLInverse' in lmts[lmtName]:
- print("\t Inverse ctl : %s" % (
- lmts[lmtName]['transformCTLInverse']))
- else:
- print("\t Inverse ctl : %s" % "None")
+ lut_directory = create_config_dir(config_directory, bake_secondary_LUTs)
- print("\n")
+ odt_info = aces.get_ODTs_info(aces_ctl_directory)
+ lmt_info = aces.get_LMTs_info(aces_ctl_directory)
- return lmts
+ shaper_name = 'Output Shaper'
+ config_data = generate_LUTs(odt_info,
+ lmt_info,
+ shaper_name,
+ aces_ctl_directory,
+ lut_directory,
+ lut_resolution_1d,
+ lut_resolution_3d,
+ cleanup)
+ print('Creating "generic" config')
+ config = create_config(config_data)
+ print('\n\n\n')
-def createACESConfig(acesCTLReleaseDir,
- configDir,
- lutResolution1d=4096,
- lutResolution3d=64,
- bakeSecondaryLUTs=True,
- cleanup=True):
- """
- Creates the ACES configuration.
+ write_config(config,
+ os.path.join(config_directory, 'config.ocio'))
- Parameters
- ----------
- parameter : type
- Parameter description.
+ print('Creating "Nuke" config')
+ nuke_config = create_config(config_data, nuke=True)
+ print('\n\n\n')
- Returns
- -------
- type
- Return value description.
- """
+ write_config(nuke_config,
+ os.path.join(config_directory, 'nuke_config.ocio'))
- # Get ODT names and CTL paths
- odtInfo = getODTInfo(acesCTLReleaseDir)
-
- # Get ODT names and CTL paths
- lmtInfo = getLMTInfo(acesCTLReleaseDir)
-
- # Create config dir
- createConfigDir(configDir, bakeSecondaryLUTs)
-
- # Generate config data and LUTs for different transforms
- lutDir = "%s/luts" % configDir
- shaperName = 'Output Shaper'
- configData = generateLUTs(odtInfo,
- lmtInfo,
- shaperName,
- acesCTLReleaseDir,
- lutDir,
- lutResolution1d,
- lutResolution3d,
- cleanup)
-
- # Create the config using the generated LUTs
- print("Creating generic config")
- config = createConfig(configData)
- print("\n\n\n")
-
- # Write the config to disk
- writeConfig(config, "%s/config.ocio" % configDir)
-
- # Create a config that will work well with Nuke using the previously
- # generated LUTs.
- print("Creating Nuke-specific config")
- nuke_config = createConfig(configData, nuke=True)
- print("\n\n\n")
-
- # Write the config to disk
- writeConfig(nuke_config, "%s/nuke_config.ocio" % configDir)
-
- # Bake secondary LUTs using the config
- if bakeSecondaryLUTs:
- generateBakedLUTs(odtInfo,
- shaperName,
- "%s/baked" % configDir,
- "%s/config.ocio" % configDir,
- lutResolution1d,
- lutResolution3d,
- lutResolution1d)
+ if bake_secondary_LUTs:
+ generate_baked_LUTs(odt_info,
+ shaper_name,
+ os.path.join(config_directory, 'baked'),
+ os.path.join(config_directory, 'config.ocio'),
+ lut_resolution_1d,
+ lut_resolution_3d,
+ lut_resolution_1d)
return True
version='createACESConfig 0.1',
usage='%prog [options]')
p.add_option('--acesCTLDir', '-a', default=os.environ.get(
- 'ACES_OCIO_CTL_DIRECTORY', None))
+ ACES_OCIO_CTL_DIRECTORY_ENVIRON, None))
p.add_option('--configDir', '-c', default=os.environ.get(
- 'ACES_OCIO_CONFIGURATION_DIRECTORY', None))
+ ACES_OCIO_CONFIGURATION_DIRECTORY_ENVIRON, None))
p.add_option('--lutResolution1d', default=4096)
p.add_option('--lutResolution3d', default=64)
- p.add_option('--dontBakeSecondaryLUTs', action="store_true")
- p.add_option('--keepTempImages', action="store_true")
+ p.add_option('--dontBakeSecondaryLUTs', action='store_true')
+ p.add_option('--keepTempImages', action='store_true')
options, arguments = p.parse_args()
- #
- # Get options
- #
- acesCTLDir = options.acesCTLDir
- configDir = options.configDir
- lutResolution1d = int(options.lutResolution1d)
- lutResolution3d = int(options.lutResolution3d)
- bakeSecondaryLUTs = not (options.dontBakeSecondaryLUTs)
- cleanupTempImages = not (options.keepTempImages)
+ aces_ctl_directory = options.acesCTLDir
+ config_directory = options.configDir
+ lut_resolution_1d = int(options.lutResolution1d)
+ lut_resolution_3d = int(options.lutResolution3d)
+ bake_secondary_luts = not options.dontBakeSecondaryLUTs
+ cleanup_temp_images = not options.keepTempImages
+ # TODO: Investigate the following statements.
try:
- argsStart = sys.argv.index('--') + 1
- args = sys.argv[argsStart:]
+ args_start = sys.argv.index('--') + 1
+ args = sys.argv[args_start:]
except:
- argsStart = len(sys.argv) + 1
+ args_start = len(sys.argv) + 1
args = []
- print("command line : \n%s\n" % " ".join(sys.argv))
-
- # TODO: Use assertion and mention environment variables.
- if not acesCTLDir:
- print("process: No ACES CTL directory specified")
- return
- if not configDir:
- print("process: No configuration directory specified")
- return
- #
- # Generate the configuration
- #
- return createACESConfig(acesCTLDir,
- configDir,
- lutResolution1d,
- lutResolution3d,
- bakeSecondaryLUTs,
- cleanupTempImages)
+ print('command line : \n%s\n' % ' '.join(sys.argv))
+
+ assert aces_ctl_directory is not None, (
+ 'process: No "{0}" environment variable defined or no "ACES CTL" '
+ 'directory specified'.format(
+ ACES_OCIO_CTL_DIRECTORY_ENVIRON))
+
+ assert config_directory is not None, (
+ 'process: No "{0}" environment variable defined or no configuration '
+ 'directory specified'.format(
+ ACES_OCIO_CONFIGURATION_DIRECTORY_ENVIRON))
+
+ return create_ACES_config(aces_ctl_directory,
+ config_directory,
+ lut_resolution_1d,
+ lut_resolution_3d,
+ bake_secondary_luts,
+ cleanup_temp_images)
if __name__ == '__main__':