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authorKarl Berry <karl@freefriends.org>2016-10-07 22:26:00 +0000
committerKarl Berry <karl@freefriends.org>2016-10-07 22:26:00 +0000
commitcee1cf1fa4bae5836fd774f55d623142edad60e3 (patch)
tree06a019e84906fe08ff0da5495eb5f757dbf9c0a7 /Master/texmf-dist/doc/latex/colorspace/colorspace.tex
parent94c514933dc47dcba1f868f7df9ae3b131e5503a (diff)
colorspace (6oct16)
git-svn-id: svn://tug.org/texlive/trunk@42228 c570f23f-e606-0410-a88d-b1316a301751
Diffstat (limited to 'Master/texmf-dist/doc/latex/colorspace/colorspace.tex')
-rw-r--r--Master/texmf-dist/doc/latex/colorspace/colorspace.tex422
1 files changed, 309 insertions, 113 deletions
diff --git a/Master/texmf-dist/doc/latex/colorspace/colorspace.tex b/Master/texmf-dist/doc/latex/colorspace/colorspace.tex
index 6613c07c94a..53075191ed7 100644
--- a/Master/texmf-dist/doc/latex/colorspace/colorspace.tex
+++ b/Master/texmf-dist/doc/latex/colorspace/colorspace.tex
@@ -21,26 +21,33 @@
%% This work consists of the files colorspace.tex and colorspace.sty.
\documentclass[a4paper]{ltxguide}
-\title{\textsf{colorspace}\\\large Version 1.1.1}
+\title{\textsf{colorspace}\\\large Version 1.2.0}
\author{Javier Bezos\\\texttt{http://www.texnia.com}}
-\date{2016-09-12}
+\date{2016-10-05}
\raggedright
\parskip=.8ex
+\advance\oddsidemargin-.7cm
+\advance\textwidth2cm
+\addtolength{\textheight}{3.5cm}
+\addtolength{\topmargin}{-2cm}
\newif\ifcolorspace
\newif\iftikz
-\usepackage{graphicx}
+\usepackage{graphicx,bera}
\IfFileExists{colorspace.sty}{%
- \usepackage{colorspace}%
+ \usepackage[illuminant=d65]{colorspace}%
\definespotcolor{foo}{BarTone 555 GN}{.8,.2,.5,.3}%
\definespotcolor{foob}{BarTone 666 GN}[rgb]{.8, .2, .4}%
+ \definespotcolor{foolab}{BarTone 888 LB}[alt=lab]%
+ {50, -30, -40/1, .20, .15, .07}%
%
\definecolorspace{fooshaded}{mixed}{foo,black}%
+ \definecolorspace{labshaded}{mixed}{foolab,foob}%
%
\definecolor{sfoo}{fooshaded}{1,0}
\definecolor{sblack}{fooshaded}{0,1}
@@ -54,13 +61,29 @@
\tikztrue}{}
\def\showclr#1#{\testclr{#1}}
-\def\testclr#1#2{{\fboxsep0pt\fbox{\colorbox#1{#2}{\phantom{XX}}}}}
+\def\testclr#1#2{{\fboxsep0pt\fbox{\colorbox#1{#2}{\phantom{,MM}}}}}
+
+\makeatletter
+\def\@begintheorem#1#2{%
+ \list{}{}%
+ \global\advance\@listdepth\m@ne
+ \item[{\sffamily\bfseries\color{foob}\MakeUppercase{#1}}]}%
+\makeatother
+\newtheorem{warning}{Warning}
+\newtheorem{note}{Note}
+\newtheorem{example}{Example}
\begin{document}
-\maketitle
+{\fontsize{48}{48}\selectfont colorspace\par}
+{\LARGE Spot colors, mixed inks and more\par}
+\vspace*{1ex}
+Version 1.2.0 (2016-10-05)\par
+Javier Bezos (\texttt{http://www.texnia.com})
-The aim of this package is, as the name implies, to provide tools for
+\vspace*{6ex}
+
+The aim of this package is, as its name implies, to provide tools for
PDF color spaces. It requires \textsf{xcolor}, which is loaded if it
has not been before. It seems to work with \textsf{tikz}.
@@ -68,10 +91,11 @@ Currently it supports what I think are the most common tools:
\begin{itemize}
\item Spot colors, with a clean user interface, and including tints
(with the |!| notation).
+\item CIE LAB spot colors.
\item Proper switching of color spaces.
\item Mixed spot and process colors (up to 4), like shades (ie, a spot
- color with black).
-\item ICC based default CMYK, RGB and Gray spaces.
+ color with black). Also CIE LAB if a CMYK equivalent is provided.
+\item ICC based (or ``tagged'') default CMYK, RGB and Gray spaces.
\item Overprinting (across pages, using the color stack).
\end{itemize}
Currently only \textsf{pdftex} and \textsf{luatex} are
@@ -90,7 +114,7 @@ They apply to text and line art only, not external images. For the
latter, \textsf{graphicx} provides a plea of (undocumented)
transformations: \texttt{interpolate}, \texttt{decodearray},
\texttt{maskarray}, \texttt{intent}, \texttt{ocobjnum}, and
-\texttt{ocobjref}. For transparencies, see \textsf{transparent}, by
+\texttt{ocobjref}. For transparency, see \textsf{transparent}, by
Heiko Oberdiek.
This package is still evolving, but the basic behaviour described here
@@ -103,128 +127,267 @@ This package is built on the previous attempts to provide spot colors
and other additional features by Jens Elstner, Stephan Lehmke and Siep
Kroonenberg (with some inspiration from \textsf{ConTeXt}, too).
-It does not provide a list of Pantone, TrueMatch, Folcoltone, Toyo,
-etc., colors. Currently you can find quite easily CMYK equivalents on
-the web, and after all they are intended to be used with a
-``physical'' palette (and not, as sometimes done, just picking a color
-just because looks nice on screen).
+\section{CMYK spot colors}
-\section{Spot colors}
+Spot colors are defined with a single macro:
\begin{decl}
|\definespotcolor{<latex-name>}{<PDF-name>}{<CMYK-equivalent>}|
\end{decl}
-Write, for example:
+Here |<latex-name>| is the \LaTeX{} name, as used in \verb|\color| and
+the like, |<PDF-name>| is the PDF name (usually taken from a swatch
+book; multiple spaces are collapsed into one) as shown by PDF viewers,
+and the four numbers are the CMYK equivalent. \LaTeX{} knows nothing
+about the PDF name, which is just a string to be written to the
+generated file, while the PDF knows nothing about the \LaTeX{} name.
+
+To mix inks, see below.
+
+\begin{example}
+ Write, for example:
\begin{verbatim}
\definespotcolor{foo}{BarTone 555 GN}{.8,.2,.5,.3}
\end{verbatim}
-\ifcolorspace
- for \showclr{foo}.
-\fi
-
-That's all. Here \verb|foo| is the \LaTeX{} name, as used in
-\verb|\color| and the like, \verb|BarTone 555 GN| is the PDF name
-(multiple spaces are collapsed into one) as shown by PDF readers, and
-the four numbers are the CMYK equivalent. \LaTeX{} knows nothing about
-the PDF name, which is just a string to be written to the generated
-file, while the PDF knows nothing about the \LaTeX{} name.
+ This creates the color \showclr{foo}, which is used in \LaTeX{} as
+ |\color{foo}|. If you preflight the PDF file you will see a color
+ named `BarTone 555 GN' besides cyan, magenta, yellow and black.
You can use tints as usual in \textsf{xcolor}, like:
\begin{verbatim}
\color{foo!50}
-\colorlet{foo60}{foo!50}
+\colorlet{foo50}{foo!50}
\end{verbatim}
\ifcolorspace
which would produce \showclr{foo!50}, and
\fi
-even set tints from other tints. To mix inks, see below.
+even set tints from other tints.
+\end{example}
-The special PDF names \verb|All| (for all plates) and \verb|None| work
-as expected:
+\begin{note}
+ The special PDF names \verb|All| (for all plates) and \verb|None|
+ work as expected:
\begin{verbatim}
\definespotcolor{registration}{All}{1,1,1,1}
\end{verbatim}
+\end{note}
+
+\begin{note}
+ Remember as far PDF is concerned a spot color is a color space on
+ its own.
+\end{note}
+
+\begin{note}
+ This package does not provide a list of Pantone, TrueMatch, HKS,
+ Folcoltone, Toyo, etc., colors. Currently you can find quite easily
+ CMYK equivalents on the web, and after all they are intended to be
+ used with a ``physical'' swatch book (and not, as often done, by
+ picking a color from a ``virtual'' palette just because it looks
+ nice on screen).
+\end{note}
+
+\begin{decl}
+|\definespotcolor{<latex-name>}{<PDF-name>}[<model>]{<equivalent>}|
+\end{decl}
-Internally, only CMYK is used for the equivalent color, but you can define
-the latter with another name space, which is then converted:
+Internally, only CMYK is used for the equivalent color, but with this
+variant you can define the latter with another name space, which is
+then converted.
+\begin{example} The following definition is based on RGB:
\begin{verbatim}
\definespotcolor{foob}{BarTone 666 GN}[rgb]{.8, .2, .4}
\end{verbatim}
-\ifcolorspace
-which yields \showclr{foob}.
-\fi
-Remember as far PDF is concerned a spot color is a color space on its
-own.
-
-\section{Mixing spot colors}
+ which yields \showclr{foob}. Here \textsf{xcolor} just
+ converts this value to CMYK, which is still the space used
+ internally.
+\end{example}
+
+\begin{warning}
+ This conversion relies on the \textsf{xcolor} numerical methods,
+ which do not take into account any color profile and therefore
+ should be avoided in production if the alternate space is going to
+ be actually used. It is provided just for convenience in drafting or
+ in contexts where accuracy is not essential.
+\end{warning}
+
+\section{CIE LAB spot colors}
+
+Instead of targeting the CMYK space, spot colors may be defined using
+the CIE LAB (also known as L*a*b*, or even just Lab) space. Unlike the
+default CMYK space, which is by default device dependend, the Lab
+space is device independent. To define a Lab spot color, you must
+first set the illuminant with the package option |illuminant|, which
+takes a value:
+\begin{verbatim}
+\usepackage[illuminant=d65]{colorspace}
+\end{verbatim}
+Values are \texttt{a}, \texttt{c}, \texttt{e}, \texttt{d50},
+\texttt{d55}, \texttt{d65}, \texttt{d75}.
+The command to define a color is:
\begin{decl}
- |\definecolorspace{<latex-name>}{mixed}{<color-list>}|
+|\definespotcolor{<latex-name>}{<PDF-name>}[alt=lab]{<Lab-values>}|
\end{decl}
+Note the optional argument with the string |alt=lab| (which cannot be
+combined with a model). The three |<Lab-values>| have ranges
+\textit{L}* $=$ $0$\ldots$100$, \textit{a}* $=$ $-$128$\ldots$127,
+\textit{b}* $=$ $-$128{\ldots}127, respectively.
-To mix spot colors you must first declare a color space (or model)
-including them. This is done with something like:
+\begin{example}
+ With
\begin{verbatim}
-\definecolorspace{name}{mixed}{color1,color2,color3}
+\definespotcolor{foolab}{BarTone 888 LB}[alt=lab]{50, -30, -40}
\end{verbatim}
-(The second argument is the type of color space.) For example, if we
-have two spot colors named \verb|spot1| and \verb|spot2|, and we want
-in addition yellow:
+the result is \showclr{foolab}. An example of tint is
+\verb|\color{foolab!30}| (\showclr{foolab!30}).
+\end{example}
+
+\begin{warning}
+ The package does not warn if the color falls outside the gamut of
+ the CMYK space or if the color is not visible. To put it in
+ other words, you should not just write some arbitrary values to see
+ what happens.
+\end{warning}
+
+\begin{warning}
+ This model is not available in \textsf{xcolor}. If you need some
+ transformation, you must resort to an external tool like
+ \textsf{transicc} (or \textsf{icctrans}) included in Little
+ CMS\footnote{\texttt{http://www.littlecms.com/1/downloads.htm}}.
+\end{warning}
+
+\begin{warning}
+ There is no default illuminant -- it must be set if Lab colors are
+ defined.
+\end{warning}
+
+\begin{note}
+ The observer is currently only 2$^\circ$ (1931).
+\end{note}
+
+The Lab space allows to define colors accurately, but there is a price
+to pay -- mixing Lab colors is not in general possible except after
+converting them somehow to CMYK or RGB.\footnote{There are no simple
+rules to carry out those transformations, which, I think, explains why
+\textsf{xcolor} does not support Lab at all}. Since currently mixing
+colors in this package is based on CMYK, you must provide an alternate
+value as shown, if mixed inks are required\footnote{Internally, and
+in PDF jargon, Lab is the ``alternate space'' and ``tints transforms''
+are based on CMYK}:
\begin{verbatim}
-\definecolorspace{spot12y}{mixed}{spot1,spot2,yellow}
+\definespotcolor{foolab}{BarTone 888 LB}[alt=lab]{50, -30, -40/1, .20, .15, .07}
\end{verbatim}
-A typical usage, for shades, would be:
+
+\section{Mixing spot colors}
+
+To mix spot colors you must first declare a color space (or model)
+including them. This is done with the following macro:
+
+\begin{decl}
+ |\definecolorspace{<latex-name>}{mixed}{<color-list>}|
+\end{decl}
+
+Here, |<latex-name>| is the name to be used in |\color| and the
+like as the color model. The second argument is the string |mixed|,
+and the last one is a list of up to 4 colors, either defined with
+\textsf{xcolor} using the CMYK model or spot.
+
+\begin{example}
+ A simple and typical usage would be for shades:
\begin{verbatim}
\definecolorspace{fooshaded}{mixed}{foo,black}
\end{verbatim}
-
-Then, you can define a color with:
+ Then, you can define a color in this new model named
+ \verb|fooshaded| with:
\begin{verbatim}
-\definecolor{mix12y}{spot12y}{.5,.4,.6}
\definecolor{darkfoo}{fooshaded}{.6,.3}
\end{verbatim}
-or set it with
+Or set it with:
\begin{verbatim}
-\color[spot12y]{.5,.4,.3}
\color[fooshaded]{.6,.3}
\end{verbatim}
+In both cases, the mix is 60\% \verb|foo| and 30\% \verb|black|.
+\end{example}
-Due to internal limitations of \textsf{xcolor}, no more than four
-colors are allowed.
-
-The alternate color space in the PDF file is that of the spot colors
-(which means currently it is CMYK).
+\begin{example}
+ If we have two spot colors named \verb|spot1| and \verb|spot2|, and
+ we want in addition yellow:
+\begin{verbatim}
+\definecolorspace{mix12y}{mixed}{spot1,spot2,yellow}
+\end{verbatim}
+To define a new color based on this space:
+\begin{verbatim}
+\definecolor{mix12y}{mix12y}{.5,.4,.6}
+\end{verbatim}
+And to set it:
+\begin{verbatim}
+\color[mix12y]{.5,.4,.6}
+\end{verbatim}
+\end{example}
-As with spot colors, the only operation allowed is \verb|!| for tints
-(ie, \verb|color!num|). But there is an easy trick to mix colors with
-\verb|!| and \verb|color,num| -- just define an ortogonal set of
-colors based on the new color model:
+\begin{example}
+Here is a duotone mixing the \verb|foob| and \verb|foolab| colors defined above:
\begin{verbatim}
-\definecolor{xspot1}{spot12y}{1,0,0}
-\definecolor{xspot2}{spot12y}{0,1,0}
-\definecolor{xyellow}{spot12y}{0,0,1}
+\definecolorspace{labshaded}{mixed}{foolab,foob}
\end{verbatim}
-and then you can say:
+The colors corresponding to:
+\begin{verbatim}
+\color[labshaded]{1,0} \color[labshaded]{.8,.2}
+\color[labshaded]{.6,.4} \color[labshaded]{.4,.6}
+\color[labshaded]{.2,.8} \color[labshaded]{0,1}
+\end{verbatim}
+are \showclr[labshaded]{1,0} \showclr[labshaded]{.8,.2}
+ \showclr[labshaded]{.6,.4} \showclr[labshaded]{.4,.6}
+ \showclr[labshaded]{.2,.8} \showclr[labshaded]{0,1}
+\end{example}
+
+\begin{warning}
+ Due to internal limitations of \textsf{xcolor}, no more than four
+ colors are allowed.
+\end{warning}
+
+\begin{note}
+ The alternate color space in the PDF file is that of the spot colors
+ (which means currently it is CMYK).
+\end{note}
+
+\begin{note}
+ There is an easy trick to mix colors with \verb|!| and
+ \verb|color,num| -- just define an ortogonal set of colors based on
+ the new color model:
+\begin{verbatim}
+\definecolor{xspot1}{mix12y}{1,0,0}
+\definecolor{xspot2}{mix12y}{0,1,0}
+\definecolor{xyellow}{mix12y}{0,0,1}
+\end{verbatim}
+ and then you can say:
\begin{verbatim}
\color{xspot1!30!xspot2!40!xyellow}
-\color{spot12y:xspot1,3;xspot2,2;xyellow,1}
+\color{mix12y:xspot1,3;xspot2,2;xyellow,1}
\end{verbatim}
-Of course, it is just a trick and a better and direct interface is
-under study (none of those provided by \textsf{xcolor} fits really
-with the new |mixed| models).
+ Of course, it is just a trick and a better and direct interface is
+ under study (none of those provided by \textsf{xcolor} fits well
+ with the new |mixed| models).
+\end{note}
+
+\begin{warning}
+ Mixing colors in \verb|\color|, \verb|\definecolor| and the like
+ from diferent spaces can lead to unexpected results (currently no
+ checking is done).
+\end{warning}
Color series (see the \textsf{xcolor} documentation) are also
partially supported. For example:
\begin{verbatim}
-\definecolorseries{test}{spot12y}{grad}[spot12y]{.95,.85,.55}{3,11,17}
-\definecolorseries{test}{spot12y}{last}{xyellow!50}{xspotA}
+\definecolorseries{test}{mix12y}{grad}[mix12y]{.95,.85,.55}{3,11,17}
+\definecolorseries{test}{mix12y}{last}{xyellow!50}{xspotA}
\end{verbatim}
\ifcolorspace
-Here is a example with some of the described
-techniques, based on the |fooshaded| space defined above (figure 1
-shows the |foo| plate):
+\begin{example}
+ Here is a example with some of the described techniques, based on
+ the |fooshaded| space defined above (figure 1 shows the |foo|
+ plate):
\begin{verbatim}
\definecolor{sfoo}{fooshaded}{1,0}
@@ -233,14 +396,14 @@ shows the |foo| plate):
\def\testclr#1{{\fboxsep0pt\fbox{\colorbox{#1}{\phantom{XX}}}}}
\resetcolorseries[8]{shseries}
\begin{tabular}{cccccccc}
-0 \testclr{shseries!!+} &
-1 \testclr{shseries!!+} &
-2 \testclr{shseries!!+} &
-3 \testclr{shseries!!+} &
-4 \testclr{shseries!!+} &
-5 \testclr{shseries!!+} &
-6 \testclr{shseries!!+} &
-7 \testclr{shseries!!+}
+ 0 \testclr{shseries!!+} &
+ 1 \testclr{shseries!!+} &
+ 2 \testclr{shseries!!+} &
+ 3 \testclr{shseries!!+} &
+ 4 \testclr{shseries!!+} &
+ 5 \testclr{shseries!!+} &
+ 6 \testclr{shseries!!+} &
+ 7 \testclr{shseries!!+}
\end{tabular}
\end{verbatim}
@@ -248,36 +411,35 @@ shows the |foo| plate):
\def\testclr#1{{\fboxsep0pt\fbox{\colorbox{#1}{\phantom{XX}}}}}
\resetcolorseries[8]{shseries}
\begin{tabular}{cccccccc}
-0 \testclr{shseries!!+} &
-1 \testclr{shseries!!+} &
-2 \testclr{shseries!!+} &
-3 \testclr{shseries!!+} &
-4 \testclr{shseries!!+} &
-5 \testclr{shseries!!+} &
-6 \testclr{shseries!!+} &
-7 \testclr{shseries!!+}
+ 0 \testclr{shseries!!+} &
+ 1 \testclr{shseries!!+} &
+ 2 \testclr{shseries!!+} &
+ 3 \testclr{shseries!!+} &
+ 4 \testclr{shseries!!+} &
+ 5 \testclr{shseries!!+} &
+ 6 \testclr{shseries!!+} &
+ 7 \testclr{shseries!!+}
\end{tabular}
\endgroup
+\end{example}
\fi
\begin{figure}
\fbox{\includegraphics[width=\linewidth]{colorspaceshade.png}}
\caption{Plate for the \texttt{foo} spot color as shown by Adobe
-Acrobat. Note the \texttt{foob} spot color defined in this document
-is listed, too.}
+Acrobat. Note both \texttt{foob} and \texttt{foolab},
+defined in this document, are listed, too.}
\end{figure}
-The key is not to mix a |mixed| model with other color models.
-
\section{Page color spaces}
Each PDF page must know which colors will be used (other than the
-predefined CMYK, RGB and Gray). By default, \textsf{colorspace} turn
+predefined CMYK, RGB and Gray). By default, \textsf{colorspace} turns
on for every page all newly defined colors, and that will be fine in
-most cases. However, you may want to set explicitly the list. Use this
-feature with care, because (1) the asynchronous nature of \TeX{}
-(remember it affects the whole current page), and (2) each
-distinct color list creates a PDF resource.
+most cases. However, you may want to set explicitly the list (for
+covers or plates). Use this feature with care, because (1) the
+asynchronous nature of \TeX{} (remember it affects the whole current
+page), and (2) each distinct color list creates a PDF resource.
\begin{decl}
|\pagecolorspace{<color-list>}|\\
@@ -292,7 +454,7 @@ set something like:
(It can be empty.) To return to the default color space, which
contains all the defined spot colors, use \verb|\resetpagecolorspace|.
-\section{ICC Based spaces}
+\section{ICC based spaces}
\begin{decl}
|\definecolorspace*{<latex-name>}{iccbased}{<icc-file>}|
@@ -300,7 +462,7 @@ contains all the defined spot colors, use \verb|\resetpagecolorspace|.
The starred version \verb|\definecolorspace*| does not define a new
color model, but sets the behaviour of the three basic color spaces
(CMYK, RGB and Gray). When belonging to the same space, the last
-definition for that space takes precedence and its considered the
+definition for that space takes precedence and it is considered the
default one. It cannot be used to define new colors or set
them. Currently, only a type is supported -- \verb|iccbased|. For
example,
@@ -310,18 +472,46 @@ example,
The space it applies to is read from the ICC profile.
-Note those ICC spaces does not go to the output intent dictionary (see
-the \textsf{pdfx} package). The latter, as the PDF reference explains,
-supplements rather than replaces the ICC profiles in a default color
-space.
-
The name can be used in \verb|\pagecolorspace|. Alternatively, there
are 3 reserved names: \verb|*rgb|, \verb|*gray|, \verb|*cmyk|, which
-stand for the current default spaces. Named ICC based spaces are not
-set by \verb|\resetpagecolorspace|, but the starred named are. On the
-other hand, the starred names are not set automatically by
-|\pagecolorspace|, and you must set them explicitly if you want them
-to be active.
+stand for the last-defined, default ICC based spaces. Named ICC based
+spaces are not set by \verb|\resetpagecolorspace|, but the starred
+named are. On the other hand, the starred names are not set
+automatically by |\pagecolorspace|, and you must set them explicitly
+if you want them to be active.
+
+\begin{note}
+ Those ICC spaces do not go to the output intent dictionary (see
+ the \textsf{pdfx} package). The latter, as the PDF reference
+ explains, supplements rather than replaces the ICC profiles in a
+ default color space.
+\end{note}
+
+\begin{example}
+ Given the following declarations:
+\begin{verbatim}
+\definecolorspace*{sRGB}{iccbased}{sRGB Profile.icc}
+\definecolorspace*{colormatch}{ColorMatchRGB.icc}
+\end{verbatim}
+ and remembering the RGB space is always active (like the CMYK and
+ Gray ones),
+\begin{verbatim}
+\pagecolorspace{}
+\end{verbatim}
+leaves the RGB space unprofiled;
+\begin{verbatim}
+\pagecolorspace{sRGB}
+\end{verbatim}
+sets the RGB space to sRGB; while the following are (in this
+particular example) equivalent:
+\begin{verbatim}
+\pagecolorspace{colormatch}
+\pagecolorspace{*rgb}
+\resetpagecolorspace
+\end{verbatim}
+
+
+\end{example}
\section{Overprinting}
@@ -346,11 +536,17 @@ something like:
Since the color stack is used, pdf\TeX{} $\ge$ 1.40 is required.
+\begin{warning}
+ Some PDF viewers ignore this setting.
+\end{warning}
+
\section{Version}
1.1.1. No new features. Just internal changes related to
\textsc{luatex} and new manual.
+1.2.0. CIE LAB spot colors and |illuminant|. Manual rewritten.
+
\end{document}