Provided by: libgraphics-colorobject-perl_0.5.0-10_all bug

NAME

       Graphics::ColorObject - convert between color spaces

SYNOPSIS

       use Graphics::ColorObject;

         # rgb to hsv
         $color = Graphics::ColorObject->new_RGB([$r, $g, $b]);
         ($h, $s, $v) = @{ $color->as_HSV() };

         # one rgb space to another (NTSC to PAL)
         $color = Graphics::ColorObject->new_RGB([$r, $g, $b], space=>'NTSC');
         ($r, $g, $b) = @{ $color->as_RGB(space=>'PAL') };

ABSTRACT

       Use this module to convert between all the common color spaces.  As a pure Perl module, it
       is not very fast, and so it you want to convert entire images quickly, this is probably
       not what you want.  The emphasis is on completeness and accurate conversion.

       Supported color spaces are: RGB (including sRGB, Apple, Adobe, CIE Rec 601, CIE Rec 709,
       CIE ITU, and about a dozen other RGB spaces), CMY, CMYK, HSL, HSV, XYZ, xyY, Lab, LCHab,
       Luv, LCHuv, YPbPr, YCbCr, YUV, YIQ, PhotoYCC.

       Conversion between different RGB working spaces, and between different white-points, is
       fully supported.

DESCRIPTION

       For any supported color space XXX, there is one constructor new_XXX that creates a color
       using data in that color space, and one method as_XXX that returns the current color as
       expressed in that color space.  For example, for RGB there is new_RGB and as_RGB.  The
       color data is always passed as an array reference to a three-element array (four-element
       in the case of CMYK).  Thus, to convert from RGB to HSL, you can use:

         $color = Graphics::ColorObject->new_RGB([$r, $g, $b]);
         ($h, $s, $l) = @{ $color->as_HSL() };

       The constructor can always take a hash of optional arguments in addition to the color
       value, namely the working RGB space and the white point.  For example:

         $color = Graphics::ColorObject->new_RGB([$r, $g, $b], space=>'Adobe', white_point=>'D65');

       For a list of all supported color spaces, call Graphics::ColorObject->list_colorspaces().
       For a list of all RGB working spaces and of all white points that this module supports,
       call Graphics::ColorObject->list_rgb_spaces() and
       Graphics::ColorObject->list_white_points().

       If not specified, the working RGB space will be sRGB.  Many non-RGB conversions also rely
       on an implicit RGB space, and passing an RGB space as an option (either to the constructor
       or later) will have an effect on the values.

VARIOUS NOTES AND GOTCHAS

       Most conversions will return out-of-gamut values if necessary, because that way they are
       lossless and can be chained in calculations, or reversed to produce the original values.
       Many conversion methods will take an optional boolean "clip" parameter to restrict the
       returned values to be within gamut:

         ($r, $g, $b) = @{ $color->as_RGB(space=>'sRGB', clip=>1) };

       Currently clipping is supported in RGB, RGB-derived (HSL, CMY) and chroma-luma separated
       (YUV, etc) spaces, but not in XYZ-derived spaces.  The only way to check whether a value
       is within gamut is to convert it with and without the clip option and compare the two
       results.  An RGB value is within gamut simply if R, G and B are between 0 and 1, but other
       spaces can be much harder to check.

       RGB values are non-linear (gamma-adjusted) floating-point values scaled in the range from
       0 to 1.  If you want integer values in the range 0..255, use the new_RGB255/as_RGB255
       functions instead.  If you want linear RGB (not gamma-adjusted) use RGB_to_linear_RGB([$r,
       $g, $b]).

       Functions that use an angle value always express it in degrees from 0 to 360.  That
       includes the hue H in HSL, HSV, LCHab and LCHuv.  Use rad2deg and deg2rad from Math::Trig
       to convert to/from degrees if necessary.

       There is some confusion in the naming of YUV and related (Y-something-something)
       colorspaces.  Most of the time when "YUV" or "YCC" is used in software, for example in
       JPEG and MPEG2, that is actually YCbCr, a chroma-luma separated space with integer values
       of Y in the range [16..235], Cb and Cr in [16..240].  JPEG uses a modified YCbCr with
       values in [0..255] (which is not implemented in this module).  As used here, YUV is a
       floating-point representation of the analog signal in PAL TV, YIQ is the same for NTSC TV,
       YPbPr is component analog video, and PhotoYCC or YCC is the Kodak PhotoCD standard.

       The set_white_point() function can take arbitrary temperatures as well as the predefined
       standard illuminants.  The valid range of temperatures is from 4000K to 25000K.

RECOMMENDATIONS

       Aside from converting from one space to another, what colorspace is the best one to use
       for a particular task?  This section attempts to answer that question.

       For "generic" RGB values, use sRGB (which is the default).

       For 2D effects filters, use Lab (or LCHab).

       For adjustment of brightness, saturation and hue, use LCHab or LSHab.

       For compression, use YCbCr, or use YPbPr and convert to integer values in a way that makes
       sense in your application.

       For representing data as colors, use Lab (straight lines between points in Lab are more-
       or-less uniform gradients, unlike straight lines in RGB, for example).

UPGRADING FROM 0.3a2 AND OLDER VERSIONS

       Version 0.4 and later are a complete rewrite from the previous major version, 0.3a2. The
       API is completely changed.  The old API should be emulated exactly in all cases.  Please
       test any code that uses this module when upgrading. If you encounter any strange behavior,
       please downgrade to 0.3a2 and email me a bug report.  Additionally, the exact values
       returned by some functions may be slightly different, this is not a bug - the new values
       are (more) correct.

METHODS

   $color = Graphics::ColorObject->new_XYZ([$X, $Y, $Z])
   $color = Graphics::ColorObject->new_xyY([$x, $y, $Y])
   $color = Graphics::ColorObject->new_RGB([$R, $G, $B])
   $color = Graphics::ColorObject->new_RGB255([$R, $G, $B])
   $color = Graphics::ColorObject->new_RGBhex($rgbhex)
   $color = Graphics::ColorObject->new_Lab([$L, $a, $b])
   $color = Graphics::ColorObject->new_LCHab([$L, $C, $H])
   $color = Graphics::ColorObject->new_Luv([$L, $u, $v])
   $color = Graphics::ColorObject->new_LCHuv([$L, $C, $H])
   $color = Graphics::ColorObject->new_HSL([$H, $S, $L])
   $color = Graphics::ColorObject->new_HSV([$H, $S, $V])
   $color = Graphics::ColorObject->new_CMY([$C, $M, $Y])
   $color = Graphics::ColorObject->new_CMYK([$C, $M, $Y])
   $color = Graphics::ColorObject->new_YPbPr([$Y, $Pb, $Pr])
   $color = Graphics::ColorObject->new_YCbCr([$Y, $Cb, $Cr])
   $color = Graphics::ColorObject->new_YUV([$Y, $Cb, $Cr])
   $color = Graphics::ColorObject->new_YIQ([$Y, $I, $Q])
   $color = Graphics::ColorObject->new_PhotoYCC([$Y, $C1, $C2])
   ($X, $Y, $Z) = @{ $color->as_XYZ() }
   ($R, $G, $B) = @{ $color->as_RGB() }
   ($R, $G, $B) = @{ $color->as_RGB255() }
   $hex = $color->as_RGBhex()
   ($x, $y, $Y) = @{ $color->as_xyY() }
   ($L, $a, $b) = @{ $color->as_Lab() }
   ($L, $C, $H) = @{ $color->as_LCHab() }
   ($L, $u, $v) = @{ $color->as_Luv() }
   ($L, $C, $H) = @{ $color->as_LCHuv() }
   ($H, $S, $L) = @{ $color->as_HSL() }
   ($H, $S, $V) = @{ $color->as_HSV() }
   ($C, $M, $Y) = @{ $color->as_CMY() }
   ($C, $M, $Y, $K) = @{ $color->as_CMYK() }
   ($Y, $Pb, $Pr) = @{ $color->as_YPbPr() }
   ($Y, $Cb, $Cr) = @{ $color->as_YCbCr() }
   ($Y, $U, $V) = @{ $color->as_YUV() }
   ($Y, $I, $Q) = @{ $color->as_YIQ() }
   ($Y, $C1, $C2) = @{ $color->as_PhotoYCC() }
   $white_point = $color->get_white_point() Returns the name of the current white point.  Value
       is one of the entries returned from list_white_points, such as "D65", or a color
       temperature.
   $color->set_white_point("D65") Sets the current white point by name.  Argument is one of the
       entries returned from list_white_points, or a temperature value like "6800K".  This
       changes the current color slightly since white-point adaptation is not completely
       reversible.  This does not affect the current RGB space, thus it is possible to use RGB
       spaces at whitepoints other than those they were defined at.
   $rgb_space = $color->get_rgb_space() Returns the name of the current RGB color space.  Value
       is one of the entries returned from list_rgb_spaces, such as "NTSC".
   $color->set_rgb_space("NTSC") Sets the current RGB color space by name.  Argument is one of
       the entries returned from list_rgb_spaces.  This may change the current color if the old
       and new spaces have different white points.
   $color2 = $color->copy() Creates an exact duplicate of the current color.
   if ($color->equals($color2)) { ... } Checks if another color is the same as this one.
       Optionally takes an accuracy parameter which is the distance between the two colors as
       measured by the city-block metric in XYZ space (default accuracy is 0.01%).
   $d = $color->difference($color2) Calculates the difference between this color and another one.
       The difference measure is (approximately) perceptually uniform.
   @colorspaces = &Graphics::ColorObject->list_colorspaces() Returns a list of all supported
       colorspaces.
   @rgb_spaces = &Graphics::ColorObject->list_rgb_spaces() Returns a list of all supported RGB
       spaces.  Some items are aliases, so the same space may be listed more than once under
       different names.
   @white_points = &Graphics::ColorObject->list_white_points() Returns a list of all supported
       white points.
   EXPORT
       None by default.  The 'all' tag causes the non-object-oriented interface to be exported,
       and you get all the XXX_to_YYY functions, for example RGB_to_XYZ.  Please note that some
       of these functions need extra arguments in addition to the color value to be converted.

BUGS

       Backwards compatibility with versions before 0.4 is not very well tested.

       This module will produce results that are, in some cases, different from other software.
       Most of the time that is not a bug in this module, but rather a case where the other
       software uses an approximate (trading accuracy for speed) algorithm.  That is particularly
       true for YUV and related conversions which are often implemented using integer-math
       approximations.  As far as possible, this module produces results which are exact
       according to the definitions in the relevant CIE/ITU or other standards.

       Some color transformations are not exactly reversible.  In particular, conversions between
       different white points are almost but not exactly reversible.  This is not a bug.

       There is no way to choose any other color-adaptation algorithm than the Bradford
       algorithm.  That is probably ok since the Bradford algorithm is better than other
       algorithms (such as Von Kries or simple scaling).

       There is no way to choose a RGB space other than the built-in ones.

       Support for CMYK is very basic, it relies on assumptions that completely do not work in
       the physical world of subtractive pigment mixtures.  If you tried to convert an image to
       CMYK directly for printing using these functions, the results will not be very good, to
       say the least.

TODO

       Add clipping to gamut for every color space.

       Choose between several clipping algorithms (nearest, luminance-preserving, hue-
       preserving).

       Add a simpler way to check whether something is within gamut.

       Add user-defined RGB spaces.

       Calculate RGB matrices from chromaticity coordinates.

       Only load non-RGB matrices once at startup.

       Add colorspaces: uvw, YOZ, RYB, others?

       Add RGB spaces: ROMM, others?

       Convert arrays of colors efficiently (maybe someday in C).

SEE ALSO

       The Color FAQ by Charles Poynton is one of the definitive references on the subject:
       http://www.poynton.com/notes/colour_and_gamma/ColorFAQ.txt

       Bruce Lindbloom's web site contains a tremendous amount of information on color:
       http://www.brucelindbloom.com/index.html?Math.html

AUTHOR

       Alex Izvorski, <izv@dslextreme.com>

       Alfred Reibenschuh <alfredreibenschuh@yahoo.com> was the original author for versions up
       to 0.3a2.

       Many thanks to:

       Alfred Reibenschuh <alfredreibenschuh@yahoo.com> for the previous versions of
       Graphics::ColorObject, and for the HSL/HSV/CMYK code.

       Bruce Lindbloom <info@brucelindbloom.com> for providing a wealth of information on color
       space conversion and color adaptation algorithms, and for the precalculated RGB conversion
       matrices.

       Charles Poynton <colorfaq@poynton.com> for the Color FAQ.

       Timo Autiokari <timo.autiokari@aim-dtp.net> for information on white points.

COPYRIGHT AND LICENSE

       Copyright 2003-2005 by Alex Izvorski

       Portions Copyright 2001-2003 by Alfred Reibenschuh

       This library is free software; you can redistribute it and/or modify it under the same
       terms as Perl itself.