+++ /dev/null
-#!/usr/bin/env python
-# -*- coding: utf-8 -*-
-
-"""
-Implements support for *Sony* colorspaces conversions and transfer functions.
-"""
-
-from __future__ import division
-
-import array
-import os
-
-import PyOpenColorIO as ocio
-
-import aces_ocio.generate_lut as genlut
-from aces_ocio.utilities import ColorSpace, mat44_from_mat33
-
-__author__ = 'ACES Developers'
-__copyright__ = 'Copyright (C) 2014 - 2015 - ACES Developers'
-__license__ = ''
-__maintainer__ = 'ACES Developers'
-__email__ = 'aces@oscars.org'
-__status__ = 'Production'
-
-__all__ = ['create_s_log',
- 'create_colorspaces']
-
-
-def create_s_log(gamut,
- transfer_function,
- name,
- lut_directory,
- lut_resolution_1d,
- aliases):
- """
- Object description.
-
- SLog to ACES.
-
- Parameters
- ----------
- parameter : type
- Parameter description.
-
- Returns
- -------
- type
- Return value description.
- """
-
- 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
- cs.aliases = aliases
- cs.equality_group = ''
- cs.family = 'Input/Sony'
- cs.is_data = False
-
- # A linear space needs allocation variables
- if transfer_function == '':
- cs.allocation_type = ocio.Constants.ALLOCATION_LG2
- cs.allocation_vars = [-8, 5, 0.00390625]
-
- def s_log1_to_linear(s_log):
- b = 64.
- ab = 90.
- w = 940.
-
- if s_log >= ab:
- linear = ((pow(10.,
- (((s_log - b) /
- (w - b) - 0.616596 - 0.03) / 0.432699)) -
- 0.037584) * 0.9)
- else:
- linear = (((s_log - b) / (
- w - b) - 0.030001222851889303) / 5.) * 0.9
- return linear
-
- def s_log2_to_linear(s_log):
- b = 64.
- ab = 90.
- w = 940.
-
- if s_log >= ab:
- linear = ((219. * (pow(10.,
- (((s_log - b) /
- (w - b) - 0.616596 - 0.03) / 0.432699)) -
- 0.037584) / 155.) * 0.9)
- else:
- linear = (((s_log - b) / (
- w - b) - 0.030001222851889303) / 3.53881278538813) * 0.9
- return linear
-
- def s_log3_to_linear(code_value):
- if code_value >= 171.2102946929:
- linear = (pow(10, ((code_value - 420) / 261.5)) *
- (0.18 + 0.01) - 0.01)
- else:
- linear = (code_value - 95) * 0.01125000 / (171.2102946929 - 95)
-
- return linear
-
- cs.to_reference_transforms = []
-
- if transfer_function == 'S-Log1':
- data = array.array('f', '\0' * lut_resolution_1d * 4)
- for c in range(lut_resolution_1d):
- data[c] = s_log1_to_linear(1023 * c / (lut_resolution_1d - 1))
-
- lut = '%s_to_linear.spi1d' % transfer_function
- genlut.write_SPI_1d(
- os.path.join(lut_directory, lut),
- 0,
- 1,
- data,
- lut_resolution_1d,
- 1)
-
- cs.to_reference_transforms.append({
- 'type': 'lutFile',
- 'path': lut,
- 'interpolation': 'linear',
- 'direction': 'forward'})
- elif transfer_function == 'S-Log2':
- data = array.array('f', '\0' * lut_resolution_1d * 4)
- for c in range(lut_resolution_1d):
- data[c] = s_log2_to_linear(1023 * c / (lut_resolution_1d - 1))
-
- lut = '%s_to_linear.spi1d' % transfer_function
- genlut.write_SPI_1d(
- os.path.join(lut_directory, lut),
- 0,
- 1,
- data,
- lut_resolution_1d,
- 1)
-
- cs.to_reference_transforms.append({
- 'type': 'lutFile',
- 'path': lut,
- 'interpolation': 'linear',
- 'direction': 'forward'})
- elif transfer_function == 'S-Log3':
- data = array.array('f', '\0' * lut_resolution_1d * 4)
- for c in range(lut_resolution_1d):
- data[c] = s_log3_to_linear(1023 * c / (lut_resolution_1d - 1))
-
- lut = '%s_to_linear.spi1d' % transfer_function
- genlut.write_SPI_1d(
- os.path.join(lut_directory, lut),
- 0,
- 1,
- data,
- lut_resolution_1d,
- 1)
-
- cs.to_reference_transforms.append({
- 'type': 'lutFile',
- 'path': lut,
- 'interpolation': 'linear',
- 'direction': 'forward'})
-
- if gamut == 'S-Gamut':
- cs.to_reference_transforms.append({
- 'type': 'matrix',
- 'matrix': mat44_from_mat33(
- [0.754338638, 0.133697046, 0.111968437,
- 0.021198141, 1.005410934, -0.026610548,
- -0.009756991, 0.004508563, 1.005253201]),
- 'direction': 'forward'})
- elif gamut == 'S-Gamut Daylight':
- cs.to_reference_transforms.append({
- 'type': 'matrix',
- 'matrix': mat44_from_mat33(
- [0.8764457030, 0.0145411681, 0.1090131290,
- 0.0774075345, 0.9529571767, -0.0303647111,
- 0.0573564351, -0.1151066335, 1.0577501984]),
- 'direction': 'forward'})
- elif gamut == 'S-Gamut Tungsten':
- cs.to_reference_transforms.append({
- 'type': 'matrix',
- 'matrix': mat44_from_mat33(
- [1.0110238740, -0.1362526051, 0.1252287310,
- 0.1011994504, 0.9562196265, -0.0574190769,
- 0.0600766530, -0.1010185315, 1.0409418785]),
- 'direction': 'forward'})
- elif gamut == 'S-Gamut3.Cine':
- cs.to_reference_transforms.append({
- 'type': 'matrix',
- 'matrix': mat44_from_mat33(
- [0.6387886672, 0.2723514337, 0.0888598992,
- -0.0039159061, 1.0880732308, -0.0841573249,
- -0.0299072021, -0.0264325799, 1.0563397820]),
- 'direction': 'forward'})
- elif gamut == 'S-Gamut3':
- cs.to_reference_transforms.append({
- 'type': 'matrix',
- 'matrix': mat44_from_mat33(
- [0.7529825954, 0.1433702162, 0.1036471884,
- 0.0217076974, 1.0153188355, -0.0370265329,
- -0.0094160528, 0.0033704179, 1.0060456349]),
- 'direction': 'forward'})
-
- cs.from_reference_transforms = []
- return cs
-
-
-def create_colorspaces(lut_directory, lut_resolution_1d):
- """
- Generates the colorspace conversions.
-
- Parameters
- ----------
- parameter : type
- Parameter description.
-
- Returns
- -------
- type
- Return value description.
- """
-
- colorspaces = []
-
- # *S-Log1*
- s_log1_s_gamut = create_s_log(
- 'S-Gamut',
- 'S-Log1',
- 'S-Log',
- lut_directory,
- lut_resolution_1d,
- ["slog1_sgamut"])
- colorspaces.append(s_log1_s_gamut)
-
- # *S-Log2*
- s_log2_s_gamut = create_s_log(
- 'S-Gamut',
- 'S-Log2',
- 'S-Log2',
- lut_directory,
- lut_resolution_1d,
- ["slog2_sgamut"])
- colorspaces.append(s_log2_s_gamut)
-
- s_log2_s_gamut_daylight = create_s_log(
- 'S-Gamut Daylight',
- 'S-Log2',
- 'S-Log2',
- lut_directory,
- lut_resolution_1d,
- ["slog2_sgamutday"])
- colorspaces.append(s_log2_s_gamut_daylight)
-
- s_log2_s_gamut_tungsten = create_s_log(
- 'S-Gamut Tungsten',
- 'S-Log2',
- 'S-Log2',
- lut_directory,
- lut_resolution_1d,
- ["slog2_sgamuttung"])
- colorspaces.append(s_log2_s_gamut_tungsten)
-
- # *S-Log3*
- s_log3_s_gamut3Cine = create_s_log(
- 'S-Gamut3.Cine',
- 'S-Log3',
- 'S-Log3',
- lut_directory,
- lut_resolution_1d,
- ["slog3_sgamutcine"])
- colorspaces.append(s_log3_s_gamut3Cine)
-
- s_log3_s_gamut3 = create_s_log(
- 'S-Gamut3',
- 'S-Log3',
- 'S-Log3',
- lut_directory,
- lut_resolution_1d,
- ["slog3_sgamut3"])
- colorspaces.append(s_log3_s_gamut3)
-
- # Linearization Only
- s_log1 = create_s_log(
- '',
- 'S-Log1',
- 'S-Log',
- lut_directory,
- lut_resolution_1d,
- ["crv_slog1"])
- colorspaces.append(s_log1)
-
- s_log2 = create_s_log(
- '',
- 'S-Log2',
- 'S-Log2',
- lut_directory,
- lut_resolution_1d,
- ["crv_slog2"])
- colorspaces.append(s_log2)
-
- s_log3 = create_s_log(
- '',
- 'S-Log3',
- 'S-Log3',
- lut_directory,
- lut_resolution_1d,
- ["crv_slog3"])
- colorspaces.append(s_log3)
-
- # Primaries Only
- s_gamut = create_s_log(
- 'S-Gamut',
- '',
- 'S-Log',
- lut_directory,
- lut_resolution_1d,
- ["lin_sgamut"])
- colorspaces.append(s_gamut)
-
- s_gamut_daylight = create_s_log(
- 'S-Gamut Daylight',
- '',
- 'S-Log2',
- lut_directory,
- lut_resolution_1d,
- ["lin_sgamutday"])
- colorspaces.append(s_gamut_daylight)
-
- s_gamut_tungsten = create_s_log(
- 'S-Gamut Tungsten',
- '',
- 'S-Log2',
- lut_directory,
- lut_resolution_1d,
- ["lin_sgamuttung"])
- colorspaces.append(s_gamut_tungsten)
-
- s_gamut3Cine = create_s_log(
- 'S-Gamut3.Cine',
- '',
- 'S-Log3',
- lut_directory,
- lut_resolution_1d,
- ["lin_sgamut3cine"])
- colorspaces.append(s_gamut3Cine)
-
- s_gamut3 = create_s_log(
- 'S-Gamut3',
- '',
- 'S-Log3',
- lut_directory,
- lut_resolution_1d,
- ["lin_sgamut3"])
- colorspaces.append(s_gamut3)
-
- return colorspaces