Source code for colour.models.cie_ucs

"""
CIE 1960 UCS Colourspace
========================

Defines the *CIE 1960 UCS* colourspace transformations:

-   :func:`colour.XYZ_to_UCS`
-   :func:`colour.UCS_to_XYZ`
-   :func:`colour.UCS_to_uv`
-   :func:`colour.uv_to_UCS`
-   :func:`colour.UCS_uv_to_xy`
-   :func:`colour.xy_to_UCS_uv`

References
----------
-   :cite:`Wikipedia2008` : Wikipedia. (2008). CIE 1960 color space. Retrieved
    February 24, 2014, from http://en.wikipedia.org/wiki/CIE_1960_color_space
-   :cite:`Wikipedia2008c` : Wikipedia. (2008). Relation to CIE XYZ. Retrieved
    February 24, 2014, from
    http://en.wikipedia.org/wiki/CIE_1960_color_space#Relation_to_CIE_XYZ
"""

from __future__ import annotations

from colour.algebra import sdiv, sdiv_mode
from colour.hints import ArrayLike, NDArrayFloat
from colour.utilities import (
    as_float_scalar,
    from_range_1,
    full,
    to_domain_1,
    tsplit,
    tstack,
)

__author__ = "Colour Developers"
__copyright__ = "Copyright 2013 Colour Developers"
__license__ = "BSD-3-Clause - https://opensource.org/licenses/BSD-3-Clause"
__maintainer__ = "Colour Developers"
__email__ = "colour-developers@colour-science.org"
__status__ = "Production"

__all__ = [
    "XYZ_to_UCS",
    "UCS_to_XYZ",
    "UCS_to_uv",
    "uv_to_UCS",
    "UCS_uv_to_xy",
    "xy_to_UCS_uv",
]




[docs]
def XYZ_to_UCS(XYZ: ArrayLike) -> NDArrayFloat:
    """
    Convert from *CIE XYZ* tristimulus values to *CIE 1960 UCS* colourspace.

    Parameters
    ----------
    XYZ
        *CIE XYZ* tristimulus values.

    Returns
    -------
    :class:`numpy.ndarray`
        *CIE 1960 UCS* colourspace array.

    Notes
    -----
    +------------+-----------------------+---------------+
    | **Domain** | **Scale - Reference** | **Scale - 1** |
    +============+=======================+===============+
    | ``XYZ``    | [0, 1]                | [0, 1]        |
    +------------+-----------------------+---------------+

    +------------+-----------------------+---------------+
    | **Range**  | **Scale - Reference** | **Scale - 1** |
    +============+=======================+===============+
    | ``UVW``    | [0, 1]                | [0, 1]        |
    +------------+-----------------------+---------------+

    References
    ----------
    :cite:`Wikipedia2008c`, :cite:`Wikipedia2008`

    Examples
    --------
    >>> import numpy as np
    >>> XYZ = np.array([0.20654008, 0.12197225, 0.05136952])
    >>> XYZ_to_UCS(XYZ)  # doctest: +ELLIPSIS
    array([ 0.1376933...,  0.1219722...,  0.1053731...])
    """

    X, Y, Z = tsplit(to_domain_1(XYZ))

    UVW = tstack([2 / 3 * X, Y, 1 / 2 * (-X + 3 * Y + Z)])

    return from_range_1(UVW)






[docs]
def UCS_to_XYZ(UVW: ArrayLike) -> NDArrayFloat:
    """
    Convert from *CIE 1960 UCS* colourspace to *CIE XYZ* tristimulus values.

    Parameters
    ----------
    UVW
        *CIE 1960 UCS* colourspace array.

    Returns
    -------
    :class:`numpy.ndarray`
        *CIE XYZ* tristimulus values.

    Notes
    -----
    +------------+-----------------------+---------------+
    | **Domain** | **Scale - Reference** | **Scale - 1** |
    +============+=======================+===============+
    | ``UVW``    | [0, 1]                | [0, 1]        |
    +------------+-----------------------+---------------+

    +------------+-----------------------+---------------+
    | **Range**  | **Scale - Reference** | **Scale - 1** |
    +============+=======================+===============+
    | ``XYZ``    | [0, 1]                | [0, 1]        |
    +------------+-----------------------+---------------+

    References
    ----------
    :cite:`Wikipedia2008c`, :cite:`Wikipedia2008`

    Examples
    --------
    >>> import numpy as np
    >>> UVW = np.array([0.13769339, 0.12197225, 0.10537310])
    >>> UCS_to_XYZ(UVW)  # doctest: +ELLIPSIS
    array([ 0.2065400...,  0.1219722...,  0.0513695...])
    """

    U, V, W = tsplit(to_domain_1(UVW))

    XYZ = tstack([3 / 2 * U, V, 3 / 2 * U - (3 * V) + (2 * W)])

    return from_range_1(XYZ)






[docs]
def UCS_to_uv(UVW: ArrayLike) -> NDArrayFloat:
    """
    Return the *uv* chromaticity coordinates from given *CIE 1960 UCS*
    colourspace array.

    Parameters
    ----------
    UVW
        *CIE 1960 UCS* colourspace array.

    Returns
    -------
    :class:`numpy.ndarray`
        *uv* chromaticity coordinates.

    Notes
    -----
    +------------+-----------------------+---------------+
    | **Domain** | **Scale - Reference** | **Scale - 1** |
    +============+=======================+===============+
    | ``UVW``    | [0, 1]                | [0, 1]        |
    +------------+-----------------------+---------------+

    References
    ----------
    :cite:`Wikipedia2008c`

    Examples
    --------
    >>> import numpy as np
    >>> UVW = np.array([0.13769339, 0.12197225, 0.10537310])
    >>> UCS_to_uv(UVW)  # doctest: +ELLIPSIS
    array([ 0.3772021...,  0.3341350...])
    """

    U, V, W = tsplit(to_domain_1(UVW))

    U_V_W = U + V + W

    with sdiv_mode():
        uv = tstack([sdiv(U, U_V_W), sdiv(V, U_V_W)])

    return uv






[docs]
def uv_to_UCS(uv: ArrayLike, V: float = 1) -> NDArrayFloat:
    """
    Return the *CIE 1960 UCS* colourspace array from given *uv* chromaticity
    coordinates.

    Parameters
    ----------
    uv
        *uv* chromaticity coordinates.
    V
        Optional :math:`V` *luminance* value used to construct the
        *CIE 1960 UCS* colourspace array, the default :math:`V` *luminance* is
        set to 1.

    Returns
    -------
    :class:`numpy.ndarray`
        *CIE 1960 UCS* colourspace array.

    References
    ----------
    :cite:`Wikipedia2008c`

    Examples
    --------
    >>> import numpy as np
    >>> uv = np.array([0.37720213, 0.33413508])
    >>> uv_to_UCS(uv)  # doctest: +ELLIPSIS
    array([ 1.1288911...,  1.        ,  0.8639104...])
    """

    u, v = tsplit(uv)
    V = as_float_scalar(to_domain_1(V))

    with sdiv_mode():
        UVW = tstack([V * sdiv(u, v), full(u.shape, V), -V * sdiv(u + v - 1, v)])

    return from_range_1(UVW)






[docs]
def UCS_uv_to_xy(uv: ArrayLike) -> NDArrayFloat:
    """
    Return the *CIE xy* chromaticity coordinates from given *CIE 1960 UCS*
    colourspace *uv* chromaticity coordinates.

    Parameters
    ----------
    uv
        *CIE UCS uv* chromaticity coordinates.

    Returns
    -------
    :class:`numpy.ndarray`
        *CIE xy* chromaticity coordinates.

    References
    ----------
    :cite:`Wikipedia2008c`

    Examples
    --------
    >>> import numpy as np
    >>> uv = np.array([0.37720213, 0.33413508])
    >>> UCS_uv_to_xy(uv)  # doctest: +ELLIPSIS
    array([ 0.5436955...,  0.3210794...])
    """

    u, v = tsplit(uv)

    d = 2 * u - 8 * v + 4

    with sdiv_mode():
        xy = tstack([sdiv(3 * u, d), sdiv(2 * v, d)])

    return xy






[docs]
def xy_to_UCS_uv(xy: ArrayLike) -> NDArrayFloat:
    """
    Return the *CIE 1960 UCS* colourspace *uv* chromaticity coordinates from
    given *CIE xy* chromaticity coordinates.

    Parameters
    ----------
    xy
        *CIE xy* chromaticity coordinates.

    Returns
    -------
    :class:`numpy.ndarray`
        *CIE UCS uv* chromaticity coordinates.

    References
    ----------
    :cite:`Wikipedia2008c`

    Examples
    --------
    >>> import numpy as np
    >>> xy = np.array([0.54369555, 0.32107941])
    >>> xy_to_UCS_uv(xy)  # doctest: +ELLIPSIS
    array([ 0.3772021...,  0.3341350...])
    """

    x, y = tsplit(xy)

    d = 12 * y - 2 * x + 3

    with sdiv_mode():
        uv = tstack([sdiv(4 * x, d), sdiv(6 * y, d)])

    return uv