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% \iffalse
%%
%% File: nccmath.dtx Copyright (C) 2002--2006 by Alexander I. Rozhenko
%%
%<package>\NeedsTeXFormat{LaTeX2e}[1995/12/01]
%<package>\ProvidesPackage{nccmath}
%<package>         [2006/01/20 v1.3 Additional Math Commands (NCC)]
%
% \changes{v1.01}{2002/01/20}{This version is uploaded to CTAN}
% \changes{v1.02}{2002/02/19}{|\Eq|, |\Eqs|, and |\Eqalign| are removed}
% \changes{v1.03}{2002/03/16}{|\useshortskip| command added}
% \changes{v1.1}{2004/12/08}{Do |fleqn| and |ceqn| working with all display equations}
% \changes{v1.1}{2004/12/08}{Documentation was prepared}
% \changes{v1.2}{2005/02/13}{Introduce |\medmath|, |\mfrac|, |\mbinom|, |mmatrix|}
% \changes{v1.2}{2005/02/14}{Introduce |\medop|, |\medint|, |\medintkern|, |medsize|}
% \changes{v1.2}{2005/02/15}{Introduce |mediummath|}
% \changes{v1.2}{2005/02/16}{Remove redefinition of equations tag}
% \changes{v1.2}{2005/02/21}{Avoid conflicts with the |array| package}
% \changes{v1.3}{2006/01/20}{Introduce |\dmulticolumn| to use within |darray|}
%
%<*driver>
\let\makeindex\relax
\documentclass{ltxdoc}
\usepackage{nccmath,desclist}
\GetFileInfo{nccmath.sty}
\newcommand*\com[1]{{\tt\symbol{"5C}#1}}

\begin{document}
\title{The \textsf{nccmath} package\thanks{This file
        has version number \fileversion, last
        revised \filedate.}}
\author{Alexander I. Rozhenko\\rozhenko@oapmg.sscc.ru}
\date{\filedate}
\maketitle
\DocInput{nccmath.dtx}
\end{document}
%</driver>
% \fi
% The package extends the |amsmath| package adding some math
% commands from NCC-\LaTeX. It also improves spacing control
% before display equations and fixes a bug of ignoring
% the |\displaybreak| in the |amsmath| version of the
% |equation| environment. All options are passed
% to the |amsmath| package.
%
% \tableofcontents
%
% \section{Improvement to the amsmath}
%
% \DescribeMacro{eqnarray}
% In the |amsmath| package, the |eqnarray| environment leaves
% unchanged because alternative \AmS\ environments exist. We
% redefine the |eqnarray| to work in the \AmS\ style. The
% following improvements are done in it: an equation tag is
% prepared by the same manner as in \AmS\ display formulas
% (|\tag| and |\tag*| are allowed); the |\displaybreak|
% command is allowed; the intercolumn distance is reduced to the
% distance between ordinary and relational math symbols; and the
% center field is prepared in the |\displaystyle| (the original
% version uses |\textstyle| here).
%
% \DescribeMacro{\intertext}
% The |\intertext| command is improved here. It now has an optional
% parameter:
% \begin{quote}
% |\intertext|\oarg{distance}\marg{text}
% \end{quote}
% The \meta{distance} parameter specifies a vertical space inserted
% before and after the text. If it is omitted, standard \TeX's
% skips are inserted.
%
% The following changes are made in display equations:
% \begin{itemize}
% \item The |\displaybreak| command now works within the |equation|
%       environment (it is ignored in the |amsmath|);
% \item The \AmS\ and \LaTeX\ display equations prepared in the
%       vertical mode do not produce now an empty extra line before.
%       Moreover, if a minipage starts from a display formula,
%       the vertical skip before is suppressed.
% \end{itemize}
%
% \section{Extra Macros}
%
% \DescribeMacro{fleqn}
% \DescribeMacro{ceqn}
% The following environments allow change the horizontal alignment
% of formulas inside them:
% \begin{quote}
% |\begin{fleqn}|\oarg{margin} \ldots\ |\end{fleqn}|\\
% |\begin{ceqn}| \ldots\ |\end{ceqn}|
% \end{quote}
% The |fleqn| environment prepares inner display equations in
% the flush left style. The \meta{margin} parameter specifies
% the left margin value. If it is omitted, zero value is used.
% The |ceqn| environment prepares inner display equations in the
% centered style. They have no effect on formulas prepared with the
% low-level \TeX\ command~|$$|.
%
% \DescribeMacro{darray}
% The |darray| environment produces an array of formulas in the
% |\displaystyle|. The distance between formulas is enlarged in
% just the same manner as in other multiline display equations. The
% |darray| environment has the same syntax as the |array|:
% \begin{quote}
% |\begin{darray}|\oarg{pos}\marg{columns}\\
% \meta{body}\\
% |\end{darray}|
% \end{quote}
% The \meta{pos} argument describes the vertical alignment of
% the array box (|t|, |b|, or |c|; default is |c|). The
% use of column specifications in the \meta{columns} argument
% is restricted in comparison with |array|: it can contain
% the |l|, |c|, and |r| specifiers, |*| and |@| commands.
% The intercolumn separation is smaller than in the |array|:
% it is reduced to the distance between ordinary and relational
% math symbols. As in the |amsmath| package, the thin skip is
% inserted before |darray|. Skips before the first and after
% the last column of |darray| are not inserted.
% To insert them manually, use |@{...}| in the \meta{columns}
% argument.
%
% The |darray| environment is implemented independently on the
% |array| environment to avoid conflicts with the |array| package.
%
% \DescribeMacro{\dmulticolumn}
% |\dmulticolumn|\marg{count}\marg{preamble}\marg{formula}
% is used in |darray| instead of |\multicolumn|.
%
% \DescribeMacro{\useshortskip}
% In \TeX, two types of skips above display formulas are used: the
% normal skip defined in the |\abovedisplayskip| register and the
% short skip defined in the |\abovedisplayshortskip| register.
% When a display formula is typed out, \TeX\ decides what skip to
% insert depending on the width of formula, its style (centered or
% flushed left, numbered left or right), and the width of the rest
% of text in the last line of the previous paragraph. But this
% algorithm works for ordinary formulas only. It does not work in
% multiline formulas prepared with |\halign| command. So, a
% manual replacement of the normal skip to the short skip is required
% in some cases. To provides this, the |\useshortskip| command is
% introduced. It forces the use of short skip in the next
% display formula but it has no effect on formulas prepared with the
% low-level \TeX\ command |$$|.
%
% \DescribeMacro{\nr}
% The vertical distance between lines of miltiline equations
% is frequently smaller than necessary. To increase it, the
% extra distance can be used as the optional parameter of the
% |\\|\oarg{dist} command.
% In most cases, it is enough to increase the distance on |0.5ex|.
% We introduce the |\nr| command here that is equivalent to the
% |\\[0.5ex]|. Its full sintax is just the same as for the |\\| command:
% \begin{quote}
% |\nr*|\oarg{dist}
% \end{quote}
% This command can be used everywhere the command |\\| is allowed.
%
% \DescribeMacro{\mrel}
% The |\mrel|\marg{column} command composes a new math relation symbol
% from a one-column stack of math formulas described in the \meta{column}
% parameter. For example, the command |$\mrel{<\\[-.7ex]>}$| produces
% $\mrel{<\\[-.7ex]>}$.
%
% \DescribeMacro{\underrel}
% The |\underrel|\marg{base}\marg{bottom} command is a twin to
% the |\overrel| command. For example, the command
% |$A\underrel{\longrightarrow}{x\to 0}B$| produces
% $A\underrel{\longrightarrow}{x\to 0}B$.
%
% \section{Medium-Size Math Commands}
%
% Since version 1.2, a collection of medium-size math commands is
% introduced.
%
% \DescribeMacro{\medmath}
% The |\medmath|\marg{formula} command decreases a size of formula
% in 1.2 times and prepares it in the display style. An example:
% \begin{quote}
% |$\medmath{\cfrac{1}{\sqrt 2 +\cfrac{1}{\sqrt 2 +\dotsb}}}$|\\
% |\quad $\cfrac{1}{\sqrt 2 +\cfrac{1}{\sqrt 2 +\dotsb}}$|
% \end{quote}
% It produces:
% \begin{quote}
% $\medmath{\cfrac{1}{\sqrt 2 +\cfrac{1}{\sqrt 2 +\dotsb}}}$
% \quad $\cfrac{1}{\sqrt 2 +\cfrac{1}{\sqrt 2 +\dotsb}}$
% \end{quote}
%
% \DescribeMacro{\medop}
% The |\medop|\marg{operator} command prepares a medium-size operator
% with the required preference for limits. It can be use with |\sum| and
% others variable-size commands except integrals. An example:
% \begin{quote}
% |$\sum_{i=1}^n \medop\sum_{i=1}^n \displaystyle|\\
% |\sum\nolimits_{i=1}^n$\quad $\sum\limits_{i=1}^n|\\
% |\displaystyle \medop\sum_{i=1}^n \sum_{i=1}^n$|
% \end{quote}
% It produces:
% \begin{quote}
% $\sum_{i=1}^n \medop\sum_{i=1}^n \displaystyle \sum\nolimits_{i=1}^n$
% \quad$\sum\limits_{i=1}^n \displaystyle \medop\sum_{i=1}^n \sum_{i=1}^n$
% \end{quote}
%
% \DescribeMacro{\medint}
% The |\medint|\marg{operator} command prepares a medium-size integral
% with required preference for limits. It can be use with |\int|-family
% of commands and |\oint| command. An example:
% \begin{quote}
% |$\int_a^b \medint\int_a^b \displaystyle\int_a^b$\quad|\\
% |$\int\limits_a^b \medint\int_a^b\limits \displaystyle|\\
% |\int_a\limits^b$\quad $\iint_a^b \medint\iiint_a^b|\\
% |\displaystyle\iiiint_a^b$\quad $\iint\limits_X^Y|\\
% |\medint\iiint_X\limits^Y \displaystyle \iiiint_X^Y\limits$|\\
% |\quad $\medint\idotsint_X\limits \medint\oint_X^Y$|
% \end{quote}
% It produces:
% \begin{quote}
% $\int_a^b \medint\int_a^b \displaystyle\int_a^b$\quad
% $\int\limits_a^b \medint\int_a^b\limits \displaystyle
% \int_a\limits^b$\quad $\iint_a^b \medint\iiint_a^b
% \displaystyle\iiiint_a^b$\quad $\iint\limits_X^Y
% \medint\iiint_X\limits^Y \displaystyle \iiiint_X^Y\limits$
% \quad $\medint\idotsint_X\limits \medint\oint_X^Y$
% \end{quote}
% By the way, the original limits recognizing in |amsmath|
% multi-integrals is very restrictive: it allows only one |\limits|-like
% command right after the multi-integral. In this package, the
% recognizing is improved to work as \TeX's one.
%
% \DescribeMacro{\medintcorr}
% The |\medintcorr|\marg{length} command specifies the value of
% italic correction for medium integrals. It controls a positioning indices
% in medium integrals and in multi-integrals. Its default value is |0.5em|.
%
% \DescribeMacro{\mfrac}
% \DescribeMacro{\mbinom}
% Based on the medium size formulas, the |\mfrac| and |\mbinom| commands
% are introduced. They are similar to |\frac| and |\binom|. An example:
% \begin{quote}
% |$\frac {x+y}{a-b} \mfrac {x+y}{a-b} \dfrac {x+y}{a-b}$\quad|\\
% |$\binom {n}{k} \mbinom {n}{k} \dbinom {n}{k}$|
% \end{quote}
% It produces:
% \begin{quote}
% $\frac {x+y}{a-b} \mfrac {x+y}{a-b} \dfrac {x+y}{a-b}$\quad
% $\binom {n}{k} \mbinom {n}{k} \dbinom {n}{k}$
% \end{quote}
%
% \DescribeMacro{medsize}
% \DescribeMacro{mmatrix}
% The |medsize| environment is introduced to prepare formulas and arrays
% in the medium size. It reduces the |\arraycolsep| value by 0.8~times. Basing
% on it, the |mmatrix| environment is introduced. It is specified as
% follows:
% \begin{quote}
% |\begin{mmatrix} ... \end{mmatrix}|\quad $\equiv$\quad\\
% |\begin{medsize}\begin{matrix} ... \end{matrix}\end{medsize}|
% \end{quote}
% An example:
% \begin{quote}
% |$\bigl(\begin{smallmatrix} a&b\\c&d\end{smallmatrix}\bigr)$|\\
% |$\Bigl(\begin{mmatrix} a&b\\c&d\end{mmatrix}\Bigr)$|\\
% |$\begin{pmatrix}a&b\\c&d\end{pmatrix}$|
% \end{quote}
% It produces:
% \begin{quote}
% $\bigl(\begin{smallmatrix} a&b\\c&d\end{smallmatrix}\bigr)$
% $\Bigl(\begin{mmatrix} a&b\\c&d\end{mmatrix}\Bigr)$
% $\begin{pmatrix}a&b\\c&d\end{pmatrix}$
% \end{quote}
%
% \DescribeMacro{mediummath}
% Finally, the |mediummath| option allows prepare all variable-size
% math elements in medium size. It redefines |\frac|, |\binom| and
% all math operators to the medium size. For |\frac| and |\binom|,
% the medium size is applied in the display and text styles.
% The |\dfrac|, |\tfrac|, |\dbinom|, and |\tbinom| commands have
% the old meaning.
%
% \section{NCC-\LaTeX\ Equivalents to Display Formulas}
%
% The following NCC-\LaTeX\ equivalents are provided with
% this package:
% \begin{desclist}{}{\hfill\enskip=}[\com{eqalign*}\marg{formulas}]
% \raggedright
% \item[\com{eq}\marg{formula}]
% |\begin{equation}| \meta{formula} |\end{equation}|.
%
% \item[\com{eq*}\marg{formula}]
% |\begin{equation*}| \meta{formula} |\end{equation*}|.
%
% \item[\com{eqs}\marg{formulas}]
% |\begin{eqnarray}| \meta{formulas} |\end{eqnarray}|.
%
% \item[\com{eqs*}\marg{formulas}]
% |\begin{eqnarray*}| \meta{formulas} |\end{eqnarray*}|.
%
% \item[\com{eqalign}\marg{formulas}]
% |\begin{equation} \begin{darray}{rcl}| \meta{formulas}
% |\end{darray} \end{equation}|.
%
% \item[\com{eqalign*}\marg{formulas}]
% |\begin{equation*} \begin{darray}{rcl}| \meta{formulas}
% |\end{darray} \end{equation*}|.
% \end{desclist}
%
% The |\eqs| and |\eqs*| commands have an optional parameter
% specifying a distance between columns. For example, in the command
% \begin{quote}
% \verb+\eqs[0mm]{&& -\Delta u = f, \\ && u|_\Gamma = 0,}+
% \end{quote}
% the intercolumn distance is removed because only the 3rd column is
% used. The |eqnarray| environment has no optional parameter.
%
% The |\eqalign| and |\eqalign*| commands also have an optional
% parameter. Its meaning is the column specification
% parameter: |\eqalign|\marg{formulas} |=|
% |\eqalign[rcl]|\marg{formulas}.
%
% \StopEventually{}
%
% \section{The Implementation}
%
% At first we load the |amsmath| package and pass all options to it
% except the |mediummath| option.
%    \begin{macrocode}
%<*package>
\DeclareOption{mediummath}{\newcommand\NCC@op{}}
\DeclareOption*{\PassOptionsToPackage{\CurrentOption}{amsmath}}
\ProcessOptions\relax
\RequirePackage{amsmath}[2000/07/18]
%    \end{macrocode}
%
% \subsection{Kernel}
%
% \begin{macro}{\NCC@cr}
% Simplified version of |\\| used in some commands here.
% The low level command |\NCC@cr@@@|\marg{skip} is defined
% if necessary to |\NCC@aligncr| or to something else.
% The |\new@ifnextchar| commands from the \AmS\ does the
% same as |\@ifnextchar|, but disallows spaces before the
% tested symbol.
%    \begin{macrocode}
\newif\ifNCC@star
\def\NCC@cr{\relax\iffalse{\fi\ifnum0=`}\fi
  \@ifstar{\global\NCC@startrue\NCC@cr@}{\global\NCC@starfalse\NCC@cr@}%
}
\def\NCC@cr@{\new@ifnextchar[\NCC@cr@@{\NCC@cr@@[\z@]}}
\def\NCC@cr@@[#1]{\ifnum0=`{\fi \iffalse}\fi\NCC@cr@@@{#1}}
\def\NCC@aligncr#1{\cr\noalign{\vskip #1\relax}}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\NCC@default@cr}
% This command sets defaults for the |\\| command.
%    \begin{macrocode}
\def\NCC@default@cr{\let\\\NCC@cr \let\NCC@cr@@@\NCC@aligncr}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\nr}
% The |\nr| command has just the same syntax as |\\|
% but adds 0.5ex extra vertical space between lines.
% It can work anywhere the |\\| command is allowed.
% We temporary change in it the value of |\NCC@cr@@@| to
% |\NCC@nr| and restore it later.
%    \begin{macrocode}
\newcommand{\nr}{%
  \let\NCC@temp\NCC@cr@@@
  \let\NCC@cr@@@\NCC@nr
  \NCC@cr
}
\def\NCC@nr#1{%
  \let\NCC@cr@@@\NCC@temp
  \setlength\@tempskipa{#1}\advance\@tempskipa .5ex
  \ifNCC@star
    \edef\@tempa{\noexpand\\*[\the\@tempskipa]}%
  \else
    \edef\@tempa{\noexpand\\[\the\@tempskipa]}%
  \fi
  \@tempa
}
%    \end{macrocode}
% \end{macro}
%
% \subsection{Additional Math Commands}
%
% \begin{macro}{\mrel}
% The |\mrel|\marg{column} command composes a new math relation and
% vertically centers it with respect to the math line.
%    \begin{macrocode}
\newcommand{\mrel}{\mathpalette\NCC@rel}
\def\NCC@rel#1#2{\mathrel{\vcenter{\NCC@default@cr
  \offinterlineskip \ialign{\hfil$\m@th#1##$\hfil\cr#2\crcr}}}}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\underrel}
% The |\underrel|\marg{base}\marg{bottom} command is a twin to
% |\overrel|.
%    \begin{macrocode}
\newcommand{\underrel}[2]{\mathrel{\mathop{#1}\limits_{#2}}}
%    \end{macrocode}
% \end{macro}
%
% \subsection{Medium-Size Math Commands}
%
% \begin{macro}{\NCC@select@msize}
% The |\NCC@select@msize| command prepares dimensions for medium-size math:
% \begin{itemize}
% \item In |\NCC@fracrulewidth| --- a rule width in fractions;
% \item In |@tempdima| --- a raising value; and
% \item In |@tempdimb| --- a font size to be used in medium fractions
%       and matrices.
% \end{itemize}
%    \begin{macrocode}
\newdimen\NCC@fracrulewidth
\def\NCC@select@msize{\relax
%    \end{macrocode}
% |\@tempdima| contains the current font size
%    \begin{macrocode}
  \@tempdima \f@size\p@
%    \end{macrocode}
% Calculate in |\@tempdimb| a text font size in medium fraction
%    \begin{macrocode}
  \ifdim\@tempdima>11.5\p@
    \@tempdimb .83\@tempdima
  \else
    \@tempdimb .8\@tempdima
    \ifdim\@tempdimb<5\p@ \@tempdimb 5\p@\fi
  \fi
%    \end{macrocode}
% Calculate in |\NCC@fracrulewidth| the rule width and in
% |\@tempdima| --- the raising value
%    \begin{macrocode}
  \NCC@fracrulewidth .04\@tempdima
  \@tempdima 1.25\NCC@fracrulewidth
  \ifdim\NCC@fracrulewidth>.45\p@ \else
    \ifdim\NCC@fracrulewidth>.34\p@ \NCC@fracrulewidth .4\p@
    \else \NCC@fracrulewidth .3\p@
    \fi
  \fi
}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\NCC@innerfrac}
% \begin{macro}{\NCC@innerbinom}
% The |\NCC@innerfrac|\marg{style} prepares a fraction with a
% special width in the given style:
%    \begin{macrocode}
\def\NCC@innerfrac#1{\genfrac{}{}\NCC@fracrulewidth{#1}}
%    \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\NCC@prepare@msize}
% Select a font by rounding its pt-size to the nearest integer
% and redefine fractions to have the given rule width. The |\binom|
% command is redefined also to its original value because it can be
% changed when the |mediummath| option is applied.
%    \begin{macrocode}
\def\NCC@prepare@msize{%
  \@tempdima 1.2\@tempdimb
  \advance\@tempdimb .5\p@
  \edef\@tempa{\strip@pt\@tempdimb}%
  \expandafter\NCC@floor\expandafter\@tempa\@tempa.\@nil
  \fontsize\@tempa\@tempdima\selectfont
  \def\frac{\protect\NCC@innerfrac{}}%
  \def\dfrac{\NCC@innerfrac\z@}%
  \def\tfrac{\NCC@innerfrac\@ne}%
  \def\binom{\protect\genfrac()\z@{}}%
}
\def\NCC@floor#1#2.#3\@nil{\def#1{#2}}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\NCC@op@prepare}
% |\NCC@op@prepare|\marg{integral}
% command prepares an integral. It looks forward, extracts indices
% and limits-change commands, and puts the integral with required kerning
% of indices. The |\NCC@op@print| driver is a command to print the integral.
% Its default value is |\NCC@op@printm|. The driver uses the following hooks:
% |\NCC@op| contains an integral command, |\NCC@op@lim| contains
% the selected limits-style, |\NCC@op@sb| contains a subscript,
% |\NCC@op@sp| contains a superscript, |NCC@op@kern| contains the
% kerning value for medium-size integrals. If subscript or superscript
% is omitted, the corresponding hook is equal to |\relax|.
%    \begin{macrocode}
\DeclareRobustCommand*\NCC@op@prepare[1]{%
  \def\NCC@op{#1}%
  \let\NCC@op@print\NCC@op@printm
  \NCC@op@prepare@
}
\def\NCC@op@prepare@{%
  \let\NCC@op@lim\ilimits@
  \let\NCC@op@sp\relax
  \let\NCC@op@sb\relax
  \NCC@op@next
}
\def\NCC@op@next{\futurelet\@let@token\NCC@op@getnext}
%    \end{macrocode}
% Test the next token and get it if necessary:
%    \begin{macrocode}
\def\NCC@op@getnext{%
  \let\@tempa\NCC@op@skip
  \ifx\@let@token\limits
   \let\NCC@op@lim\limits \else
    \ifx\@let@token\nolimits
     \let\NCC@op@lim\nolimits \else
      \ifx\@let@token\displaylimits
       \let\NCC@op@lim\displaylimits \else
        \ifx\@let@token\sp
         \NCC@op@test\NCC@op@sp
         \def\@tempa{\NCC@op@get\NCC@op@sp}\else
          \ifx\@let@token\sb
           \NCC@op@test\NCC@op@sb
           \def\@tempa{\NCC@op@get\NCC@op@sb}\else
            \ifx\@let@token\@sptoken
             \let\@tempa\NCC@op@skipsp \else
             \let\@tempa\NCC@op@print
            \fi
          \fi
        \fi
      \fi
    \fi
  \fi
  \@tempa
}
%    \end{macrocode}
% Skip |\limits|-like token:
%    \begin{macrocode}
\def\NCC@op@skip#1{\NCC@op@next}
%    \end{macrocode}
% Skip a space token. A space token is skipped within |\@ifnextchar|
% before comparing it with the first parameter. So, it does not important
% what char to test for:
%    \begin{macrocode}
\def\NCC@op@skipsp{%
  \@ifnextchar0{\NCC@op@next}{\NCC@op@next}%
}
%    \end{macrocode}
% Test subscript or superscript to be already defined:
%    \begin{macrocode}
\def\NCC@op@test#1{%
  \ifx#1\relax \else
    \PackageError{nccmath}{Double index in math operator}{}
  \fi
}
%    \end{macrocode}
% Get a subscript or superscript:
%    \begin{macrocode}
\def\NCC@op@get#1#2#3{\def#1{#3}\NCC@op@next}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\NCC@op@printm}
% Driver for printing the medium-size integral with indices:
%    \begin{macrocode}
\def\NCC@op@printm{%
  \ifx\NCC@op@lim\nolimits \NCC@op@printm@\@ne \else
    \ifx\NCC@op@lim\limits \NCC@op@printm@\z@ \else
      \mathchoice{\displaystyle\NCC@op@printm@\z@}%
                 {\textstyle\NCC@op@printm@\@ne}%
                 {\scriptstyle\NCC@op@printm@\@ne}%
                 {\scriptscriptstyle\NCC@op@printm@\@ne}%
    \fi
  \fi
}
\def\NCC@op@printm@{\NCC@op@print@\NCC@op\NCC@op@kern}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\NCC@op@print@}
% |\NCC@op@print@|\marg{integral}\marg{kern}\marg{level} command
% prints an \meta{integral} using the specified \meta{kern} in indices.
% If \meta{level} = 0 use |\limits| else use |\nolimits|.
%    \begin{macrocode}
\def\NCC@op@print@#1#2#3{\mathop{#1}%
  \setlength\@tempdima{#2}%
  \@tempswatrue
  \ifx\NCC@op@sb\relax \else \ifnum#3>\z@ \@tempswafalse \fi \fi
  \ifx\NCC@op@sp\relax \else \ifnum#3>\z@ \@tempswafalse \fi \fi
  \edef\@tempa{%
    \ifnum#3=\z@ \noexpand\limits \else \noexpand\nolimits \fi
    \ifx\NCC@op@sb\relax \else
      \noexpand\sb{%
        \ifnum#3=\z@ \kern -\@tempdima\else \kern -.8\@tempdima \fi
        \noexpand\NCC@op@sb}%
    \fi
    \ifx\NCC@op@sp\relax \else
      \noexpand\sp{\ifnum#3=\z@ \kern \@tempdima\fi
        \noexpand\NCC@op@sp}%
    \fi
    \if@tempswa \kern -.2\@tempdima \fi
  }%
  \@tempa
}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\medmath}
% The |\medmath|\marg{formula} prepares a medium-size formula
% in display style:
%    \begin{macrocode}
\DeclareRobustCommand*\medmath[1]{\NCC@select@msize
  \mathord{\raise\@tempdima\hbox{\NCC@prepare@msize
    $\displaystyle#1$}}%
}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\medop}
% The |\medop|\marg{operator} prepares an operator in the medium size:
%    \begin{macrocode}
\newcommand*\medop[1]{\DOTSB\mathop{\medmath{#1}}\slimits@}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\medintcorr}
% The |\medintcorr|\marg{length} specifies an italic correction
% for a medium integral:
%    \begin{macrocode}
\newcommand*\medintcorr[1]{\def\NCC@op@kern{#1}}
\medintcorr{.5em}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\medint}
% The |\medint|\marg{integral} command prepares a medium integral:
%    \begin{macrocode}
\newcommand*\medint[1]{\DOTSI\NCC@op@prepare{\medmath{#1}}}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\mfac}
% The |\mfrac|\marg{numerator}\marg{denominator} prepares
% a medium-size fraction:
%    \begin{macrocode}
\DeclareRobustCommand*\mfrac[2]{\medmath{\frac{#1}{#2}}}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\mbinom}
% The |\mbinom|\marg{numerator}\marg{denominator} prepares
% a medium-size binomial expression:
%    \begin{macrocode}
\DeclareRobustCommand*\mbinom[2]{%
  \Bigl(\medmath{\genfrac{}{}{\z@}{}{#1}{#2}}\Bigr)%
}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{medsize}
% The |medsize| environment is useful for preparing medium-size arrays:
%    \begin{macrocode}
\newenvironment{medsize}{\NCC@select@msize
  \mathord\bgroup
    \raise\@tempdima\hbox\bgroup\NCC@prepare@msize
      \arraycolsep .8\arraycolsep $}{$\egroup\egroup}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{mmatrix}
% The |mmatrix| environment prepares a medium-size matrix:
%    \begin{macrocode}
\newenvironment{mmatrix}{\medsize\begin{matrix}}{\end{matrix}\endmedsize}
%    \end{macrocode}
% \end{macro}
%
% \subsection{Patches to amsmath}
%
% \begin{macro}{\MultiIntegral}
% Improve the |\MultiIntegral| kerning method on the base of
% |\NCC@op@prepare@| hook. The original method from |amsmath| works
% bad if a multi-integral is an argument of the |\medint| command.
%    \begin{macrocode}
\renewcommand*{\MultiIntegral}[1]{%
  \edef\NCC@op{\noexpand\intop
    \ifnum#1=\z@\noexpand\intdots@\else\noexpand\intkern@\fi
    \ifnum#1>\tw@\noexpand\intop\noexpand\intkern@\fi
    \ifnum#1>\thr@@\noexpand\intop\noexpand\intkern@\fi
    \noexpand\intop
  }%
  \let\NCC@op@print\NCC@op@printd
  \NCC@op@prepare@
}
\def\NCC@op@printd{%
  \setlength\@tempdima{\NCC@op@kern}%
  \ifx\NCC@op@lim\nolimits \@tempcnta\@ne \else
    \ifx\NCC@op@lim\limits \@tempcnta\z@ \else
      \@tempcnta\m@ne
    \fi
  \fi
  \mathchoice{\NCC@op@printd@{\displaystyle}{1.2\@tempdima}}%
             {\NCC@op@printd@{\textstyle}{.8\@tempdima}}%
             {\NCC@op@printd@{\scriptstyle}{.8\@tempdima}}%
             {\NCC@op@printd@{\scriptscriptstyle}{.8\@tempdima}}%
}
\def\NCC@op@printd@#1#2{#1%
  \ifnum\@tempcnta>\m@ne
    \NCC@op@print@{\hbox{$#1\NCC@op$}}{#2}\@tempcnta
  \else
    \ifx#1\displaystyle
      \NCC@op@print@{\hbox{$#1\NCC@op$}}{#2}\z@
    \else
      \NCC@op@print@{\hbox{$#1\NCC@op$}}{#2}\@ne
    \fi
  \fi
}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\endmathdisplay@a}
% Fix the bug in the |\endmathdisplay@a| command
% from the |amsmath| package. The |\displaybreak| has no effect in
% it if a tag is specified. This is because the change
% of |\postdisplaypenalty| is done after the |\eqno| command.
% But the rest of display formula after |\eqno| up to the |$$|
% command belongs to the tag. It is prepared in the horizontal mode
% and the mentioned penalty is ignored. Fixed version of
% this command at first changes the |\postdisplaypenalty| and
% after that prints a tag.
%
% To be sure, that the required command does not fixed yet,
% we prepare its bug version in the |\@tempa| command
%    \begin{macrocode}
\def\@tempa{%
  \if@eqnsw \gdef\df@tag{\tagform@\theequation}\fi
  \if@fleqn \@xp\endmathdisplay@fleqn
  \else \ifx\df@tag\@empty \else \veqno \alt@tag \df@tag \fi
    \ifx\df@label\@empty \else \@xp\ltx@label\@xp{\df@label}\fi
  \fi
  \ifnum\dspbrk@lvl>\m@ne
    \postdisplaypenalty -\@getpen\dspbrk@lvl
    \global\dspbrk@lvl\m@ne
  \fi
}
%    \end{macrocode}
% and compare it with the current value of |\endmathdisplay@a|.
% If they are identic, we fix the last command. Otherwise,
% print a warning and do nothing.
%    \begin{macrocode}
\ifx\@tempa\endmathdisplay@a
  \def\endmathdisplay@a{%
    \ifnum\dspbrk@lvl>\m@ne
      \postdisplaypenalty -\@getpen\dspbrk@lvl
      \global\dspbrk@lvl\m@ne
    \fi
    \if@eqnsw \gdef\df@tag{\tagform@\theequation}\fi
    \if@fleqn \@xp\endmathdisplay@fleqn
    \else \ifx\df@tag\@empty \else \veqno \alt@tag \df@tag \fi
      \ifx\df@label\@empty \else \@xp\ltx@label\@xp{\df@label}\fi
    \fi
  }
\else
  \PackageWarning{nccmath}%
    {The \string\endmathdisplay@a\ command differs from\MessageBreak
     waited value in this version of amsmath package.\MessageBreak
     We don't fix it!}
\fi
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\intertext}
% Redefine \AmS's |\intertext|\marg{text} to
% |\intertext|\oarg{skip}\marg{text}. Optional \meta{skip} means
% the vertical space inserted below and after the text. If it is
% omitted, the default |\belowdisplayskip| and |\abovedisplayskip|
% spaces are inserted.
%
% We need to redefine its default value used out of display
% equations:
%    \begin{macrocode}
\renewcommand*{\intertext}[1][]{\@amsmath@err{\Invalid@@\intertext}\@eha}
%    \end{macrocode}
% and also must redefine the |\intertext@| hook that changes the
% value of |\intertext| within display equations. Its new
% definition differs from the original one in the conditional
% inserting of skips before and after the text.
% The optional parameter is scanned inside the |\noalign|
% command. We use the ordinary trick with the |\ifnum0| to
% close the open brace in the next macro.
%    \begin{macrocode}
\def\intertext@{%
  \def\intertext{%
    \ifvmode\else\\\@empty\fi
    \noalign{\ifnum0=`}\fi
      \@ifnextchar[{\NCC@intertext}{\NCC@intertext[]}%
  }%
}
\def\NCC@intertext[#1]#2{%
  \penalty\postdisplaypenalty
  \@ifempty{#1}{\vskip\belowdisplayskip}{\vskip#1\relax}%
  \vbox{\normalbaselines
    \ifdim\linewidth=\columnwidth
    \else \parshape\@ne \@totalleftmargin \linewidth
    \fi
    \noindent#2\par}%
  \penalty\predisplaypenalty
  \@ifempty{#1}{\vskip\abovedisplayskip}{\vskip#1\relax}%
  \ifnum0=`{\fi}%
}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\useshortskip}
% The |\useshortskip| command changes an above skip for nearest
% display formula to |\abovedisplayshortskip|. Really, it
% sets the value of inner if-macro to true and the
% actual changes are applied in the |\NCC@ignorepar| hook.
%    \begin{macrocode}
\newif\ifNCC@shortskip \NCC@shortskipfalse
\newcommand{\useshortskip}{\global\NCC@shortskiptrue}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\NCC@ignorepar}
% This command removes extra vertical space before display formula
% if it starts from a new paragraph and changes the before-skip
% to |\abovedisplayshortskip| if the |\useshortskip|
% command was applied.
%    \begin{macrocode}
\def\NCC@ignorepar{\relax
  \ifNCC@shortskip
    \abovedisplayskip\abovedisplayshortskip
    \global\NCC@shortskipfalse
  \fi
  \ifmmode \else \ifvmode
%    \end{macrocode}
% If a display equation starts in the vertical mode, we
% insert the vertical space with the |\addvspace| (this
% space will be ignored at the beginning of minipage)
% and set above display skips to zero. The below display
% skips are made equal. Then we put the |\noindent|
% command that prevents insertion an empty paragraph.
%    \begin{macrocode}
    \addvspace{\abovedisplayskip}%
    \abovedisplayskip\z@skip
    \abovedisplayshortskip\z@skip
    \belowdisplayshortskip\belowdisplayskip
    \noindent
  \fi\fi
}
%    \end{macrocode}
% \end{macro}
%
% Now we insert the |\NCC@ignorepar| command at the
% beginning of all \LaTeX\ and \AmS-\LaTeX\ display equations
% except |eqnarray|. We need to correct four \AmS\ commands only:
%    \begin{macrocode}
\let\NCC@startgather\start@gather
\let\NCC@startalign\start@align
\let\NCC@startmultline\start@multline
\let\NCC@startdisplay\mathdisplay
\def\start@gather{\NCC@ignorepar\NCC@startgather}
\def\start@align{\ifingather@\else\NCC@ignorepar\fi\NCC@startalign}
\def\start@multline{\NCC@ignorepar\NCC@startmultline}
\def\mathdisplay{\NCC@ignorepar\NCC@startdisplay}
%    \end{macrocode}
%
% \subsection{The darray Environment}
%
% \begin{macro}{darray}
% The implementation of |darray| is a hybrid of the
% |\start@aligned| command from the |amsmath| package
% and the |\array| command.
%    \begin{macrocode}
\newenvironment{darray}[2][c]{%
  \null\,%
  \if #1t\vtop \else \if#1b \vbox \else \vcenter \fi \fi
  \bgroup
    \NCC@default@cr
    \spread@equation
    \NCC@mkpream{#2}%
    \edef\@preamble{\ialign \bgroup \strut@ \@preamble \tabskip\z@skip \cr}%
    \let\par\@empty \let\@sharp##%
    \set@typeset@protect
    \tabskip\z@skip
    \@preamble
}{%
    \crcr\egroup\egroup
}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\dmulticolumn}
% To produce multi-columns in |darray|, the |\dmulticolumn|
% command is used.
%    \begin{macrocode}
\newcommand\dmulticolumn[3]{\multispan{#1}%
  \begingroup
    \NCC@mkpream{#2}%
    \def\@sharp{#3}\set@typeset@protect
    \@preamble
  \endgroup
  \ignorespaces
}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\NCC@mkpream}
% The |darray| environment
% is independent from |array| to avoid conflicts with
% packages customizing the |array| environment. So,
% we need to implement an independent preamble maker.
%
% The following classes can appear in the preamble:
% \begin{quote}
% 0\enskip |lcr|\\
% 1\enskip |@|-argument\\
% 2\enskip |@|
% \end{quote}
% The implementation of preamble maker is very similar to the
% \LaTeX's version.
%    \begin{macrocode}
\def\NCC@mkpream#1{%
  \@lastchclass\@ne \@firstamptrue
%    \end{macrocode}
% Specify the default distance between columns in
% the |\alignsep@| register from |amsmath|.
%    \begin{macrocode}
  \settowidth\alignsep@{$\m@th\mskip\thickmuskip$}%
  \let\@sharp\relax
  \let\@preamble\@empty
%    \end{macrocode}
% The |\@xexpast| command expands the argument replacing
% all instances of\linebreak |*|\marg{N}\marg{string}
% by \meta{N} copies of \meta{string}. The result is saved in
% the |\reserved@a| macro. But this command is let to |\relax|
% in the |array| package. So, we use its original definition prepared
% in the |\NCC@xexpast| macro to avoid conflicts with other
% packages.
%    \begin{macrocode}
  \let\protect\@unexpandable@protect
  \NCC@xexpast #1*0x\@@
%    \end{macrocode}
% Now we make the preamble collecting it in the |\@preamble| hook.
% The code is very similar to the \LaTeX's |\@mkpream| command.
%    \begin{macrocode}
  \expandafter \@tfor \expandafter \@nextchar
   \expandafter :\expandafter =\reserved@a \do
  {\@chclass
   \ifnum \@lastchclass=\tw@ \@ne \else
    \z@
    \edef\@nextchar{\expandafter\string\@nextchar}%
    \if \@nextchar @\@chclass \tw@ \else
     \@chnum
     \if \@nextchar c\z@ \else
      \if \@nextchar l\@ne \else
       \if \@nextchar r\tw@ \else
        \z@ \@preamerr \z@
       \fi
      \fi
     \fi
    \fi
   \fi
   \ifcase \@chclass
    \ifnum \@lastchclass=\z@ \@addtopreamble{\hskip \alignsep@}\fi
    \@addamp
    \@addtopreamble{%
      \ifcase \@chnum \hfil$\displaystyle{\@sharp}$\hfil
      \or             $\displaystyle{\@sharp}$\hfil
      \or             \hfil$\displaystyle{\@sharp}$%
      \fi
    }%
   \or
    \@addtopreamble{$\@nextchar$}%
   \fi
   \@lastchclass\@chclass
  }%
  \ifnum\@lastchclass=\tw@ \@preamerr\@ne \fi
}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\NCC@xexpast}
% The standard \LaTeX's |\@xexpast| macro is saved here:
%    \begin{macrocode}
\def\NCC@xexpast#1*#2#3#4\@@{%
  \edef\reserved@a{#1}%
  \@tempcnta#2\relax
  \ifnum\@tempcnta>\z@
    \@whilenum\@tempcnta>\z@\do
       {\edef\reserved@a{\reserved@a#3}\advance\@tempcnta \m@ne}%
    \let\reserved@b\NCC@xexpast
  \else
    \let\reserved@b\NCC@xexnoop
  \fi
  \expandafter\reserved@b\reserved@a #4\@@
}
\def\NCC@xexnoop #1\@@{}
%    \end{macrocode}
% \end{macro}
%
% \subsection{NCC Equations}
%
% \begin{macro}{fleqn}
% \begin{macro}{ceqn}
% The implementation of these environments is streightforward:
% change the |\if@fleqn| flag and the |\@mathmargin| value:
%    \begin{macrocode}
\newenvironment*{fleqn}[1][\z@]{\@fleqntrue
  \setlength\@mathmargin{#1}\ignorespaces
}{%
  \ignorespacesafterend
}
\newenvironment{ceqn}{\@fleqnfalse
  \@mathmargin\@centering \ignorespaces
}{%
  \ignorespacesafterend
}
%    \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\eq}
% The implementation of the NCC-\LaTeX's |\eq| command
% is quite simple:
%    \begin{macrocode}
\newcommand{\eq}{\@ifstar{\NCC@eqx}{\NCC@eq}}
\def\NCC@eqx#1{\begin{equation*}#1\end{equation*}}
\def\NCC@eq#1{\begin{equation}#1\end{equation}}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\eqalign}
% The |\eqalign| command is based on the |equation|
% and |darray| environments:
%    \begin{macrocode}
\newcommand{\eqalign}{%
  \@ifstar{\let\@tempa\NCC@eqx \NCC@eqa}%
          {\let\@tempa\NCC@eq \NCC@eqa}%
}
\newcommand*{\NCC@eqa}[2][rcl]{%
  \@tempa{\begin{darray}{#1}#2\end{darray}}%
}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\eqs}
% \begin{macro}{eqnarray}
% The difference between the |\eqs| command and the |eqnarray|
% environment consists in optional length parameters allowed
% in |\eqs|. All these commands are based on |\NCC@beqs| and
% |\NCC@eeqs| macros.
%    \begin{macrocode}
\newcommand{\eqs}{\@ifstar{\st@rredtrue\NCC@eqs}{\st@rredfalse \NCC@eqs}}
\newcommand*{\NCC@eqs}[2][]{%
  \begingroup\NCC@beqs{#1}#2\NCC@eeqs\endgroup\ignorespaces
}
\renewenvironment{eqnarray}{\st@rredfalse\NCC@beqs{}}
                           {\NCC@eeqs\ignorespacesafterend}
\renewenvironment{eqnarray*}{\st@rredtrue\NCC@beqs{}}
                            {\NCC@eeqs\ignorespacesafterend}
%    \end{macrocode}
% \end{macro}
% \end{macro}
%
% \begin{macro}{\NCC@beqs}
% The |\NCC@beqs|\marg{skip} starts eqnarray-like equations.
% The \meta{skip} parameter specifies a skip inserted
% between columns. If it is empty, the default value of this skip
% is used. It equals to the thick skip appearing in relations.
% The implementation of this macro uses hooks from the
% |amsmath| package.
%    \begin{macrocode}
\def\NCC@beqs#1{%
  \NCC@ignorepar$$
  \inalign@true \intertext@ \displ@y@ \Let@
  \chardef\dspbrk@context\z@
  \let\math@cr@@@\NCC@eqcr \let\tag\tag@in@align
  \let\label\label@in@display \let\split\insplit@
  \ifst@rred\else \global\@eqnswtrue \fi
  \tabskip\@mathmargin
  \@ifempty{#1}{\settowidth\alignsep@{$\m@th\mskip\thickmuskip$}}%
               {\setlength\alignsep@{#1}}%
  \halign to \displaywidth\bgroup
    \strut@ \global\column@\z@ \hfil$\displaystyle{##}$\tabskip\z@skip
   &\column@plus \hskip\alignsep@ \hfil$\displaystyle{##}$\hfil
   &\column@plus \hskip\alignsep@ $\displaystyle{##{}}$\hfil
    \tabskip\@centering
   &\column@plus \llap{##}\tabskip\z@skip\cr
}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\NCC@eqcr}
% The |\NCC@eqcr| hook is called at the end of line of the
% |eqnarray|. It is originated on \LaTeX's |\@eqncr| command, but
% uses commands from |amsmath| to prepare a tag in the \AmS\ style.
%    \begin{macrocode}
\def\NCC@eqcr{%
  \let\@tempa\relax
  \ifcase\column@ \def\@tempa{&&&}\or \def\@tempa{&&}\or\def\@tempa{&}%
  \else
    \let\@tempa\@empty
    \@latex@error{Too many columns in eqnarray environment}\@ehc
  \fi
  \@tempa
  \ifst@rred\nonumber\fi
  \if@eqnsw \global\tag@true \fi
  \iftag@ \@lign\strut@
    \iftagsleft@ \rlap{\hskip -\displaywidth\make@display@tag}%
    \else \make@display@tag \fi
  \fi
  \ifst@rred\else\global\@eqnswtrue\fi
  \cr
}
%    \end{macrocode}
% \end{macro}
%
% \begin{macro}{\NCC@eeqs}
% This macro finishes eqnarray-like equations.
%    \begin{macrocode}
\def\NCC@eeqs{\math@cr\egroup$$}
%    \end{macrocode}
% \end{macro}
%
% \subsection{Math with medium fractions and operators}
%
% Finally, we process the |mediummath| option. It is recognized by
% the |\NCC@op| command to be specified.
%    \begin{macrocode}
\@ifundefined{NCC@op}{\endinput}{}
%    \end{macrocode}
%
% Redifine fractions and binoms.
%    \begin{macrocode}
\DeclareRobustCommand\frac{\NCC@op@select\mfrac{\genfrac{}{}{}{}}}
\DeclareRobustCommand\binom{\NCC@op@select\mbinom{\genfrac()\z@{}}}
\def\NCC@op@select#1#2#3#4{%
  \mathchoice{#1{#3}{#4}}{#1{#3}{#4}}%
             {\scriptstyle#2{#3}{#4}}{\scriptscriptstyle#2{#3}{#4}}%
}
%    \end{macrocode}
%
% Redefine all math operators except integrals:
%    \begin{macrocode}
\def\@tempa#1#2{%
  \ifx#2\@undefined \let#2#1\fi
  \def#1{\DOTSB\medop{#2}}%
}
\@tempa \coprod    \coprod@
\@tempa \bigvee    \bigvee@
\@tempa \bigwedge  \bigwedge@
\@tempa \biguplus  \biguplus@
\@tempa \bigcap    \bigcap@
\@tempa \bigcup    \bigcup@
\@tempa \prod      \prod@
\@tempa \sum       \sum@
\@tempa \bigotimes \bigotimes@
\@tempa \bigoplus  \bigoplus@
\@tempa \bigodot   \bigodot@
\@tempa \bigsqcup  \bigsqcup@
%    \end{macrocode}
%
% Redefine integrals:
%    \begin{macrocode}
\def\@tempa#1#2#3{\let#3#2%
  \DeclareRobustCommand#2{\mathop{\medmath{#3}}}%
  \def#1{\DOTSI\NCC@op@prepare{#2}}%
}
\@tempa\int  \intop  \NCC@op@int
\@tempa\oint \ointop \NCC@op@oint
\let\@tempa\relax
%    \end{macrocode}
%
% Redefine multiple integrals:
%    \begin{macrocode}
\renewcommand*{\MultiIntegral}[1]{%
  \edef\NCC@op{\noexpand\intop
    \ifnum#1=\z@\noexpand\intdots@\else\noexpand\intkern@\fi
    \ifnum#1>\tw@\noexpand\intop\noexpand\intkern@\fi
    \ifnum#1>\thr@@\noexpand\intop\noexpand\intkern@\fi
    \noexpand\intop
  }%
  \let\NCC@op@print\NCC@op@printm
  \NCC@op@prepare@
}
\def\intkern@{\kern-\NCC@op@kern}
\def\intdots@{\setlength\@tempdima{\NCC@op@kern}%
  \kern-.4\@tempdima{\cdotp}\mkern1.5mu{\cdotp}%
  \mkern1.5mu{\cdotp}\kern-.4\@tempdima}
%</package>
%    \end{macrocode}
\endinput