isabelle: doc-src/Main/Docs/document/Main


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\begin{isamarkuptext}%
\begin{abstract}
This document lists the main types, functions and syntax provided by theory \isa{Main}. It is meant as a quick overview of what is available. The sophisticated class structure is only hinted at. For details see \url{http://isabelle.in.tum.de/dist/library/HOL/}.
\end{abstract}

\section{HOL}

The basic logic: \isa{x\ {\isacharequal}\ y}, \isa{True}, \isa{False}, \isa{{\isasymnot}\ P}, \isa{P\ {\isasymand}\ Q}, \isa{P\ {\isasymor}\ Q}, \isa{P\ {\isasymlongrightarrow}\ Q}, \isa{{\isasymforall}x{\isachardot}\ P}, \isa{{\isasymexists}x{\isachardot}\ P}, \isa{{\isasymexists}{\isacharbang}x{\isachardot}\ P}, \isa{THE\ x{\isachardot}\ P}.
\smallskip

\begin{tabular}{@ {} l @ {~::~} l @ {}}
\isa{undefined} & \isa{{\isacharprime}a}\\
\isa{default} & \isa{{\isacharprime}a}\\
\end{tabular}

\subsubsection*{Syntax}

\begin{supertabular}{@ {} l @ {\quad$\equiv$\quad} l l @ {}}
\isa{x\ {\isasymnoteq}\ y} & \isa{{\isachardoublequote}{\isasymnot}\ {\isacharparenleft}x\ {\isacharequal}\ y{\isacharparenright}{\isachardoublequote}} & (\verb$~=$)\\
\isa{{\isachardoublequote}P\ {\isasymlongleftrightarrow}\ Q{\isachardoublequote}} & \isa{P\ {\isacharequal}\ Q} \\
\isa{if\ x\ then\ y\ else\ z} & \isa{{\isachardoublequote}If\ x\ y\ z{\isachardoublequote}}\\
\isa{let\ x\ {\isacharequal}\ e\isactrlisub {\isadigit{1}}\ in\ e\isactrlisub {\isadigit{2}}} & \isa{{\isachardoublequote}Let\ e\isactrlisub {\isadigit{1}}\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ e\isactrlisub {\isadigit{2}}{\isacharparenright}{\isachardoublequote}}\\
\end{supertabular}


\section{Orderings}

A collection of classes defining basic orderings:
preorder, partial order, linear order, dense linear order and wellorder.
\smallskip

\begin{supertabular}{@ {} l @ {~::~} l l @ {}}
\isa{op\ {\isasymle}} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ bool} & (\verb$<=$)\\
\isa{op\ {\isacharless}} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ bool}\\
\isa{Least} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ bool{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{min} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{max} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{top} & \isa{{\isacharprime}a}\\
\isa{bot} & \isa{{\isacharprime}a}\\
\isa{mono} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ bool}\\
\isa{strict{\isacharunderscore}mono} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ bool}\\
\end{supertabular}

\subsubsection*{Syntax}

\begin{supertabular}{@ {} l @ {\quad$\equiv$\quad} l l @ {}}
\isa{{\isachardoublequote}x\ {\isasymge}\ y{\isachardoublequote}} & \isa{y\ {\isasymle}\ x} & (\verb$>=$)\\
\isa{{\isachardoublequote}x\ {\isachargreater}\ y{\isachardoublequote}} & \isa{y\ {\isacharless}\ x}\\
\isa{{\isasymforall}x{\isasymle}y{\isachardot}\ P} & \isa{{\isachardoublequote}{\isasymforall}x{\isachardot}\ x\ {\isasymle}\ y\ {\isasymlongrightarrow}\ P{\isachardoublequote}}\\
\isa{{\isasymexists}x{\isasymle}y{\isachardot}\ P} & \isa{{\isachardoublequote}{\isasymexists}x{\isachardot}\ x\ {\isasymle}\ y\ {\isasymand}\ P{\isachardoublequote}}\\
\multicolumn{2}{@ {}l@ {}}{Similarly for $<$, $\ge$ and $>$}\\
\isa{LEAST\ x{\isachardot}\ P} & \isa{{\isachardoublequote}Least\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ P{\isacharparenright}{\isachardoublequote}}\\
\end{supertabular}


\section{Lattices}

Classes semilattice, lattice, distributive lattice and complete lattice (the
latter in theory \isa{Set}).

\begin{tabular}{@ {} l @ {~::~} l @ {}}
\isa{inf} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{sup} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{Inf} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{Sup} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}a}\\
\end{tabular}

\subsubsection*{Syntax}

Available by loading theory \isa{Lattice{\isacharunderscore}Syntax} in directory \isa{Library}.

\begin{supertabular}{@ {} l @ {\quad$\equiv$\quad} l @ {}}
\isa{{\isachardoublequote}x\ {\isasymsqsubseteq}\ y{\isachardoublequote}} & \isa{x\ {\isasymle}\ y}\\
\isa{{\isachardoublequote}x\ {\isasymsqsubset}\ y{\isachardoublequote}} & \isa{x\ {\isacharless}\ y}\\
\isa{{\isachardoublequote}x\ {\isasymsqinter}\ y{\isachardoublequote}} & \isa{inf\ x\ y}\\
\isa{{\isachardoublequote}x\ {\isasymsqunion}\ y{\isachardoublequote}} & \isa{sup\ x\ y}\\
\isa{{\isachardoublequote}{\isasymSqinter}\ A{\isachardoublequote}} & \isa{Sup\ A}\\
\isa{{\isachardoublequote}{\isasymSqunion}\ A{\isachardoublequote}} & \isa{Inf\ A}\\
\isa{{\isachardoublequote}{\isasymtop}{\isachardoublequote}} & \isa{top}\\
\isa{{\isachardoublequote}{\isasymbottom}{\isachardoublequote}} & \isa{bot}\\
\end{supertabular}


\section{Set}

Sets are predicates: \isa{{\isachardoublequote}{\isacharprime}a\ set\ \ {\isacharequal}\ \ {\isacharprime}a\ {\isasymRightarrow}\ bool{\isachardoublequote}}
\bigskip

\begin{supertabular}{@ {} l @ {~::~} l l @ {}}
\isa{{\isacharbraceleft}{\isacharbraceright}} & \isa{{\isacharprime}a\ set}\\
\isa{insert} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{Collect} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ bool{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{op\ {\isasymin}} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ set\ {\isasymRightarrow}\ bool} & (\texttt{:})\\
\isa{op\ {\isasymunion}} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}a\ set} & (\texttt{Un})\\
\isa{op\ {\isasyminter}} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}a\ set} & (\texttt{Int})\\
\isa{UNION} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b\ set{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}b\ set}\\
\isa{INTER} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b\ set{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}b\ set}\\
\isa{Union} & \isa{{\isacharprime}a\ set\ set\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{Inter} & \isa{{\isacharprime}a\ set\ set\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{Pow} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}a\ set\ set}\\
\isa{UNIV} & \isa{{\isacharprime}a\ set}\\
\isa{op\ {\isacharbackquote}} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}b\ set}\\
\isa{Ball} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ bool{\isacharparenright}\ {\isasymRightarrow}\ bool}\\
\isa{Bex} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ bool{\isacharparenright}\ {\isasymRightarrow}\ bool}\\
\end{supertabular}

\subsubsection*{Syntax}

\begin{supertabular}{@ {} l @ {\quad$\equiv$\quad} l l @ {}}
\isa{{\isacharbraceleft}x\isactrlisub {\isadigit{1}}{\isacharcomma}{\isasymdots}{\isacharcomma}x\isactrlisub n{\isacharbraceright}} & \isa{insert\ x\isactrlisub {\isadigit{1}}\ {\isacharparenleft}{\isasymdots}\ {\isacharparenleft}insert\ x\isactrlisub n\ {\isacharbraceleft}{\isacharbraceright}{\isacharparenright}{\isasymdots}{\isacharparenright}}\\
\isa{x\ {\isasymnotin}\ A} & \isa{{\isachardoublequote}{\isasymnot}{\isacharparenleft}x\ {\isasymin}\ A{\isacharparenright}{\isachardoublequote}}\\
\isa{A\ {\isasymsubseteq}\ B} & \isa{{\isachardoublequote}A\ {\isasymle}\ B{\isachardoublequote}}\\
\isa{A\ {\isasymsubset}\ B} & \isa{{\isachardoublequote}A\ {\isacharless}\ B{\isachardoublequote}}\\
\isa{{\isachardoublequote}A\ {\isasymsupseteq}\ B{\isachardoublequote}} & \isa{{\isachardoublequote}B\ {\isasymle}\ A{\isachardoublequote}}\\
\isa{{\isachardoublequote}A\ {\isasymsupset}\ B{\isachardoublequote}} & \isa{{\isachardoublequote}B\ {\isacharless}\ A{\isachardoublequote}}\\
\isa{{\isacharbraceleft}x{\isachardot}\ P{\isacharbraceright}} & \isa{{\isachardoublequote}Collect\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ P{\isacharparenright}{\isachardoublequote}}\\
\isa{{\isasymUnion}x{\isasymin}I{\isachardot}\ A} & \isa{{\isachardoublequote}UNION\ I\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ A{\isacharparenright}{\isachardoublequote}} & (\texttt{UN})\\
\isa{{\isasymUnion}x{\isachardot}\ A} & \isa{{\isachardoublequote}UNION\ UNIV\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ A{\isacharparenright}{\isachardoublequote}}\\
\isa{{\isasymInter}x{\isasymin}I{\isachardot}\ A} & \isa{{\isachardoublequote}INTER\ I\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ A{\isacharparenright}{\isachardoublequote}} & (\texttt{INT})\\
\isa{{\isasymInter}x{\isachardot}\ A} & \isa{{\isachardoublequote}INTER\ UNIV\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ A{\isacharparenright}{\isachardoublequote}}\\
\isa{{\isasymforall}x{\isasymin}A{\isachardot}\ P} & \isa{{\isachardoublequote}Ball\ A\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ P{\isacharparenright}{\isachardoublequote}}\\
\isa{{\isasymexists}x{\isasymin}A{\isachardot}\ P} & \isa{{\isachardoublequote}Bex\ A\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ P{\isacharparenright}{\isachardoublequote}}\\
\isa{range\ f} & \isa{{\isachardoublequote}f\ {\isacharbackquote}\ UNIV{\isachardoublequote}}\\
\end{supertabular}


\section{Fun}

\begin{supertabular}{@ {} l @ {~::~} l @ {}}
\isa{id} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{op\ {\isasymcirc}} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}c\ {\isasymRightarrow}\ {\isacharprime}a{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}c\ {\isasymRightarrow}\ {\isacharprime}b}\\
\isa{inj{\isacharunderscore}on} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ set\ {\isasymRightarrow}\ bool}\\
\isa{inj} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ bool}\\
\isa{surj} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ bool}\\
\isa{bij} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ bool}\\
\isa{bij{\isacharunderscore}betw} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}b\ set\ {\isasymRightarrow}\ bool}\\
\isa{fun{\isacharunderscore}upd} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b}\\
\end{supertabular}

\subsubsection*{Syntax}

\begin{tabular}{@ {} l @ {\quad$\equiv$\quad} l @ {}}
\isa{f{\isacharparenleft}x\ {\isacharcolon}{\isacharequal}\ y{\isacharparenright}} & \isa{{\isachardoublequote}fun{\isacharunderscore}upd\ f\ x\ y{\isachardoublequote}}\\
\isa{f{\isacharparenleft}x\isactrlisub {\isadigit{1}}{\isacharcolon}{\isacharequal}y\isactrlisub {\isadigit{1}}{\isacharcomma}{\isasymdots}{\isacharcomma}x\isactrlisub n{\isacharcolon}{\isacharequal}y\isactrlisub n{\isacharparenright}} & \isa{f{\isacharparenleft}x\isactrlisub {\isadigit{1}}{\isacharcolon}{\isacharequal}y\isactrlisub {\isadigit{1}}{\isacharparenright}{\isasymdots}{\isacharparenleft}x\isactrlisub n{\isacharcolon}{\isacharequal}y\isactrlisub n{\isacharparenright}}\\
\end{tabular}


\section{Fixed Points}

Theory: \isa{Inductive}.

Least and greatest fixed points in a complete lattice \isa{{\isacharprime}a}:

\begin{tabular}{@ {} l @ {~::~} l @ {}}
\isa{lfp} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{gfp} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a}\\
\end{tabular}

Note that in particular sets (\isa{{\isacharprime}a\ {\isasymRightarrow}\ bool}) are complete lattices.

\section{Sum\_Type}

Type constructor \isa{{\isacharplus}}.

\begin{tabular}{@ {} l @ {~::~} l @ {}}
\isa{Inl} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isacharplus}\ {\isacharprime}b}\\
\isa{Inr} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b\ {\isacharplus}\ {\isacharprime}a}\\
\isa{op\ {\isacharless}{\isacharplus}{\isachargreater}} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}b\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isacharplus}\ {\isacharprime}b{\isacharparenright}\ set}
\end{tabular}


\section{Product\_Type}

Types \isa{unit} and \isa{{\isasymtimes}}.

\begin{supertabular}{@ {} l @ {~::~} l @ {}}
\isa{{\isacharparenleft}{\isacharparenright}} & \isa{unit}\\
\isa{Pair} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymtimes}\ {\isacharprime}b}\\
\isa{fst} & \isa{{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{snd} & \isa{{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}b}\\
\isa{split} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}c{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymtimes}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}c}\\
\isa{curry} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}c{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}c}\\
\isa{Sigma} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b\ set{\isacharparenright}\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}b{\isacharparenright}\ set}\\
\end{supertabular}

\subsubsection*{Syntax}

\begin{tabular}{@ {} l @ {\quad$\equiv$\quad} ll @ {}}
\isa{{\isacharparenleft}a{\isacharcomma}\ b{\isacharparenright}} & \isa{{\isachardoublequote}Pair\ a\ b{\isachardoublequote}}\\
\isa{{\isasymlambda}{\isacharparenleft}x{\isacharcomma}\ y{\isacharparenright}{\isachardot}\ t} & \isa{{\isachardoublequote}split\ {\isacharparenleft}{\isasymlambda}x\ y{\isachardot}\ t{\isacharparenright}{\isachardoublequote}}\\
\isa{A\ {\isasymtimes}\ B} &  \isa{Sigma\ A\ {\isacharparenleft}{\isasymlambda}\_{\isachardot}\ B{\isacharparenright}} & (\verb$<*>$)
\end{tabular}

Pairs may be nested. Nesting to the right is printed as a tuple,
e.g.\ \mbox{\isa{{\isacharparenleft}a{\isacharcomma}\ b{\isacharcomma}\ c{\isacharparenright}}} is really \mbox{\isa{{\isacharparenleft}a{\isacharcomma}\ {\isacharparenleft}b{\isacharcomma}\ c{\isacharparenright}{\isacharparenright}}.}
Pattern matching with pairs and tuples extends to all binders,
e.g.\ \mbox{\isa{{\isasymforall}{\isacharparenleft}x{\isacharcomma}\ y{\isacharparenright}{\isasymin}A{\isachardot}\ P},} \isa{{\isacharbraceleft}{\isacharparenleft}x{\isacharcomma}\ y{\isacharparenright}{\isachardot}\ P{\isacharbraceright}}, etc.


\section{Relation}

\begin{supertabular}{@ {} l @ {~::~} l @ {}}
\isa{converse} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}b{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}b\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set}\\
\isa{op\ O} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}b{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}c\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}c\ {\isasymtimes}\ {\isacharprime}b{\isacharparenright}\ set}\\
\isa{op\ {\isacharbackquote}{\isacharbackquote}} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}b{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}b\ set}\\
\isa{inv{\isacharunderscore}image} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}a{\isacharparenright}\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}b\ {\isasymtimes}\ {\isacharprime}b{\isacharparenright}\ set}\\
\isa{Id{\isacharunderscore}on} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set}\\
\isa{Id} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set}\\
\isa{Domain} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}b{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{Range} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}b{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharprime}b\ set}\\
\isa{Field} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{refl{\isacharunderscore}on} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ bool}\\
\isa{refl} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ bool}\\
\isa{sym} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ bool}\\
\isa{antisym} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ bool}\\
\isa{trans} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ bool}\\
\isa{irrefl} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ bool}\\
\isa{total{\isacharunderscore}on} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ bool}\\
\isa{total} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ bool}\\
\end{supertabular}

\subsubsection*{Syntax}

\begin{tabular}{@ {} l @ {\quad$\equiv$\quad} l l @ {}}
\isa{r{\isasyminverse}} & \isa{{\isachardoublequote}converse\ r{\isachardoublequote}} & (\verb$^-1$)
\end{tabular}

\section{Equiv\_Relations}

\begin{supertabular}{@ {} l @ {~::~} l @ {}}
\isa{equiv} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ bool}\\
\isa{op\ {\isacharslash}{\isacharslash}} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharprime}a\ set\ set}\\
\isa{congruent} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ bool}\\
\isa{congruent{\isadigit{2}}} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}b\ {\isasymtimes}\ {\isacharprime}b{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}c{\isacharparenright}\ {\isasymRightarrow}\ bool}\\
%@ {const Equiv_Relations.} & @ {term_type_only Equiv_Relations. ""}\\
\end{supertabular}

\subsubsection*{Syntax}

\begin{tabular}{@ {} l @ {\quad$\equiv$\quad} l @ {}}
\isa{f\ respects\ r} & \isa{{\isachardoublequote}congruent\ r\ f{\isachardoublequote}}\\
\isa{f\ respects{\isadigit{2}}\ r} & \isa{{\isachardoublequote}congruent{\isadigit{2}}\ r\ r\ f{\isachardoublequote}}\\
\end{tabular}


\section{Transitive\_Closure}

\begin{tabular}{@ {} l @ {~::~} l @ {}}
\isa{rtrancl} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set}\\
\isa{trancl} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set}\\
\isa{reflcl} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set}\\
\isa{op\ {\isacharcircum}{\isacharcircum}} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ nat\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set}\\
\end{tabular}

\subsubsection*{Syntax}

\begin{tabular}{@ {} l @ {\quad$\equiv$\quad} l l @ {}}
\isa{r\isactrlsup {\isacharasterisk}} & \isa{{\isachardoublequote}rtrancl\ r{\isachardoublequote}} & (\verb$^*$)\\
\isa{r\isactrlsup {\isacharplus}} & \isa{{\isachardoublequote}trancl\ r{\isachardoublequote}} & (\verb$^+$)\\
\isa{r\isactrlsup {\isacharequal}} & \isa{{\isachardoublequote}reflcl\ r{\isachardoublequote}} & (\verb$^=$)
\end{tabular}


\section{Algebra}

Theories \isa{OrderedGroup}, \isa{Ring{\isacharunderscore}and{\isacharunderscore}Field} and \isa{Divides} define a large collection of classes describing common algebraic
structures from semigroups up to fields. Everything is done in terms of
overloaded operators:

\begin{supertabular}{@ {} l @ {~::~} l l @ {}}
\isa{{\isadigit{0}}} & \isa{{\isacharprime}a}\\
\isa{{\isadigit{1}}} & \isa{{\isacharprime}a}\\
\isa{op\ {\isacharplus}} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{op\ {\isacharminus}} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{uminus} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a} & (\verb$-$)\\
\isa{op\ {\isacharasterisk}} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{inverse} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{op\ {\isacharslash}} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{abs} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{sgn} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{op\ dvd} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ bool}\\
\isa{op\ div} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{op\ mod} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a}\\
\end{supertabular}

\subsubsection*{Syntax}

\begin{tabular}{@ {} l @ {\quad$\equiv$\quad} l @ {}}
\isa{{\isasymbar}x{\isasymbar}} & \isa{{\isachardoublequote}abs\ x{\isachardoublequote}}
\end{tabular}


\section{Nat}

\isa{\isacommand{datatype}\ nat\ {\isacharequal}\ {\isadigit{0}}\ {\isacharbar}\ Suc\ nat}
\bigskip

\begin{tabular}{@ {} lllllll @ {}}
\isa{op\ {\isacharplus}} &
\isa{op\ {\isacharminus}} &
\isa{op\ {\isacharasterisk}} &
\isa{op\ div}&
\isa{op\ mod}&
\isa{op\ dvd}\\
\isa{op\ {\isasymle}} &
\isa{op\ {\isacharless}} &
\isa{min} &
\isa{max} &
\isa{Min} &
\isa{Max}\\
\end{tabular}

\begin{tabular}{@ {} l @ {~::~} l @ {}}
\isa{of{\isacharunderscore}nat} & \isa{nat\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{op\ {\isacharcircum}{\isacharcircum}} &
  \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a{\isacharparenright}\ {\isasymRightarrow}\ nat\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a}
\end{tabular}

\section{Int}

Type \isa{int}
\bigskip

\begin{tabular}{@ {} llllllll @ {}}
\isa{op\ {\isacharplus}} &
\isa{op\ {\isacharminus}} &
\isa{uminus} &
\isa{op\ {\isacharasterisk}} &
\isa{op\ {\isacharcircum}} &
\isa{op\ div}&
\isa{op\ mod}&
\isa{op\ dvd}\\
\isa{op\ {\isasymle}} &
\isa{op\ {\isacharless}} &
\isa{min} &
\isa{max} &
\isa{Min} &
\isa{Max}\\
\isa{abs} &
\isa{sgn}\\
\end{tabular}

\begin{tabular}{@ {} l @ {~::~} l l @ {}}
\isa{nat} & \isa{int\ {\isasymRightarrow}\ nat}\\
\isa{of{\isacharunderscore}int} & \isa{int\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{{\isasymint}} & \isa{{\isacharprime}a\ set} & (\verb$Ints$)
\end{tabular}

\subsubsection*{Syntax}

\begin{tabular}{@ {} l @ {\quad$\equiv$\quad} l @ {}}
\isa{int} & \isa{{\isachardoublequote}of{\isacharunderscore}nat{\isachardoublequote}}\\
\end{tabular}


\section{Finite\_Set}


\begin{supertabular}{@ {} l @ {~::~} l @ {}}
\isa{finite} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ bool}\\
\isa{card} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ nat}\\
\isa{fold} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}b}\\
\isa{fold{\isacharunderscore}image} & \isa{{\isacharparenleft}{\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}b}\\
\isa{setsum} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}b}\\
\isa{setprod} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}b}\\
\end{supertabular}


\subsubsection*{Syntax}

\begin{supertabular}{@ {} l @ {\quad$\equiv$\quad} l l @ {}}
\isa{{\isasymSum}A} & \isa{{\isachardoublequote}setsum\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ x{\isacharparenright}\ A{\isachardoublequote}} & (\verb$SUM$)\\
\isa{{\isasymSum}x{\isasymin}A{\isachardot}\ t} & \isa{{\isachardoublequote}setsum\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ t{\isacharparenright}\ A{\isachardoublequote}}\\
\isa{{\isachardoublequote}{\isasymSum}x{\isacharbar}P{\isachardot}\ t{\isachardoublequote}} & \isa{{\isasymSum}x{\isasymin}{\isacharbraceleft}x{\isachardot}\ P{\isacharbraceright}{\isachardot}\ t}\\
\multicolumn{2}{@ {}l@ {}}{Similarly for \isa{{\isasymProd}} instead of \isa{{\isasymSum}}} & (\verb$PROD$)\\
\end{supertabular}


\section{Wellfounded}

\begin{supertabular}{@ {} l @ {~::~} l @ {}}
\isa{wf} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ bool}\\
\isa{acyclic} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ bool}\\
\isa{acc} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{measure} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ nat{\isacharparenright}\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set}\\
\isa{op\ {\isacharless}{\isacharasterisk}lex{\isacharasterisk}{\isachargreater}} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}b\ {\isasymtimes}\ {\isacharprime}b{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}b{\isacharparenright}\ {\isasymtimes}\ {\isacharprime}a\ {\isasymtimes}\ {\isacharprime}b{\isacharparenright}\ set}\\
\isa{op\ {\isacharless}{\isacharasterisk}mlex{\isacharasterisk}{\isachargreater}} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ nat{\isacharparenright}\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set}\\
\isa{less{\isacharunderscore}than} & \isa{{\isacharparenleft}nat\ {\isasymtimes}\ nat{\isacharparenright}\ set}\\
\isa{pred{\isacharunderscore}nat} & \isa{{\isacharparenleft}nat\ {\isasymtimes}\ nat{\isacharparenright}\ set}\\
\end{supertabular}


\section{SetInterval}

\begin{supertabular}{@ {} l @ {~::~} l @ {}}
\isa{lessThan} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{atMost} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{greaterThan} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{atLeast} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{greaterThanLessThan} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{atLeastLessThan} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{greaterThanAtMost} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{atLeastAtMost} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\end{supertabular}

\subsubsection*{Syntax}

\begin{supertabular}{@ {} l @ {\quad$\equiv$\quad} l @ {}}
\isa{{\isacharbraceleft}{\isachardot}{\isachardot}{\isacharless}y{\isacharbraceright}} & \isa{{\isachardoublequote}lessThan\ y{\isachardoublequote}}\\
\isa{{\isacharbraceleft}{\isachardot}{\isachardot}y{\isacharbraceright}} & \isa{{\isachardoublequote}atMost\ y{\isachardoublequote}}\\
\isa{{\isacharbraceleft}x{\isacharless}{\isachardot}{\isachardot}{\isacharbraceright}} & \isa{{\isachardoublequote}greaterThan\ x{\isachardoublequote}}\\
\isa{{\isacharbraceleft}x{\isachardot}{\isachardot}{\isacharbraceright}} & \isa{{\isachardoublequote}atLeast\ x{\isachardoublequote}}\\
\isa{{\isacharbraceleft}x{\isacharless}{\isachardot}{\isachardot}{\isacharless}y{\isacharbraceright}} & \isa{{\isachardoublequote}greaterThanLessThan\ x\ y{\isachardoublequote}}\\
\isa{{\isacharbraceleft}x{\isachardot}{\isachardot}{\isacharless}y{\isacharbraceright}} & \isa{{\isachardoublequote}atLeastLessThan\ x\ y{\isachardoublequote}}\\
\isa{{\isacharbraceleft}x{\isacharless}{\isachardot}{\isachardot}y{\isacharbraceright}} & \isa{{\isachardoublequote}greaterThanAtMost\ x\ y{\isachardoublequote}}\\
\isa{{\isacharbraceleft}x{\isachardot}{\isachardot}y{\isacharbraceright}} & \isa{{\isachardoublequote}atLeastAtMost\ x\ y{\isachardoublequote}}\\
\isa{{\isasymUnion}\ i{\isasymle}n{\isachardot}\ A} & \isa{{\isachardoublequote}{\isasymUnion}\ i\ {\isasymin}\ {\isacharbraceleft}{\isachardot}{\isachardot}n{\isacharbraceright}{\isachardot}\ A{\isachardoublequote}}\\
\isa{{\isasymUnion}\ i{\isacharless}n{\isachardot}\ A} & \isa{{\isachardoublequote}{\isasymUnion}\ i\ {\isasymin}\ {\isacharbraceleft}{\isachardot}{\isachardot}{\isacharless}n{\isacharbraceright}{\isachardot}\ A{\isachardoublequote}}\\
\multicolumn{2}{@ {}l@ {}}{Similarly for \isa{{\isasymInter}} instead of \isa{{\isasymUnion}}}\\
\isa{{\isasymSum}x\ {\isacharequal}\ a{\isachardot}{\isachardot}b{\isachardot}\ t} & \isa{{\isachardoublequote}setsum\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ t{\isacharparenright}\ {\isacharbraceleft}a{\isachardot}{\isachardot}b{\isacharbraceright}{\isachardoublequote}}\\
\isa{{\isasymSum}x\ {\isacharequal}\ a{\isachardot}{\isachardot}{\isacharless}b{\isachardot}\ t} & \isa{{\isachardoublequote}setsum\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ t{\isacharparenright}\ {\isacharbraceleft}a{\isachardot}{\isachardot}{\isacharless}b{\isacharbraceright}{\isachardoublequote}}\\
\isa{{\isasymSum}x{\isasymle}b{\isachardot}\ t} & \isa{{\isachardoublequote}setsum\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ t{\isacharparenright}\ {\isacharbraceleft}{\isachardot}{\isachardot}b{\isacharbraceright}{\isachardoublequote}}\\
\isa{{\isasymSum}x{\isacharless}b{\isachardot}\ t} & \isa{{\isachardoublequote}setsum\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ t{\isacharparenright}\ {\isacharbraceleft}{\isachardot}{\isachardot}{\isacharless}b{\isacharbraceright}{\isachardoublequote}}\\
\multicolumn{2}{@ {}l@ {}}{Similarly for \isa{{\isasymProd}} instead of \isa{{\isasymSum}}}\\
\end{supertabular}


\section{Power}

\begin{tabular}{@ {} l @ {~::~} l @ {}}
\isa{op\ {\isacharcircum}} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ nat\ {\isasymRightarrow}\ {\isacharprime}a}
\end{tabular}


\section{Option}

\isa{\isacommand{datatype}\ {\isacharprime}a\ option\ {\isacharequal}\ None\ {\isacharbar}\ Some\ {\isacharprime}a}
\bigskip

\begin{tabular}{@ {} l @ {~::~} l @ {}}
\isa{the} & \isa{{\isacharprime}a\ option\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{Option{\isachardot}map} & \isa{{\isachardoublequote}{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ option\ {\isasymRightarrow}\ {\isacharprime}b\ option{\isachardoublequote}}\\
\isa{Option{\isachardot}set} & \isa{{\isacharprime}a\ option\ {\isasymRightarrow}\ {\isacharprime}a\ set}
\end{tabular}

\section{List}

\isa{\isacommand{datatype}\ {\isacharprime}a\ list\ {\isacharequal}\ {\isacharbrackleft}{\isacharbrackright}\ {\isacharbar}\ op\ {\isacharhash}\ {\isacharprime}a\ {\isacharparenleft}{\isacharprime}a\ list{\isacharparenright}}
\bigskip

\begin{supertabular}{@ {} l @ {~::~} l @ {}}
\isa{op\ {\isacharat}} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{butlast} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{concat} & \isa{{\isacharprime}a\ list\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{distinct} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ bool}\\
\isa{drop} & \isa{nat\ {\isasymRightarrow}\ {\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{dropWhile} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ bool{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{filter} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ bool{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{foldl} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}a{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b\ list\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{foldr} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}b\ {\isasymRightarrow}\ {\isacharprime}b}\\
\isa{hd} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{last} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{length} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ nat}\\
\isa{lenlex} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ list\ {\isasymtimes}\ {\isacharprime}a\ list{\isacharparenright}\ set}\\
\isa{lex} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ list\ {\isasymtimes}\ {\isacharprime}a\ list{\isacharparenright}\ set}\\
\isa{lexn} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ nat\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ list\ {\isasymtimes}\ {\isacharprime}a\ list{\isacharparenright}\ set}\\
\isa{lexord} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ list\ {\isasymtimes}\ {\isacharprime}a\ list{\isacharparenright}\ set}\\
\isa{listrel} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ list\ {\isasymtimes}\ {\isacharprime}a\ list{\isacharparenright}\ set}\\
\isa{lists} & \isa{{\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}a\ list\ set}\\
\isa{listset} & \isa{{\isacharprime}a\ set\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list\ set}\\
\isa{listsum} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a}\\
\isa{list{\isacharunderscore}all{\isadigit{2}}} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b\ {\isasymRightarrow}\ bool{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}b\ list\ {\isasymRightarrow}\ bool}\\
\isa{list{\isacharunderscore}update} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ nat\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{map} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}b\ list}\\
\isa{measures} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ nat{\isacharparenright}\ list\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set}\\
\isa{remdups} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{removeAll} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{remove{\isadigit{1}}} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{replicate} & \isa{nat\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{rev} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{rotate} & \isa{nat\ {\isasymRightarrow}\ {\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{rotate{\isadigit{1}}} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{set} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{sort} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{sorted} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ bool}\\
\isa{splice} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{sublist} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharparenleft}nat\ {\isasymRightarrow}\ bool{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{take} & \isa{nat\ {\isasymRightarrow}\ {\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{takeWhile} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymRightarrow}\ bool{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{tl} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{upt} & \isa{nat\ {\isasymRightarrow}\ nat\ {\isasymRightarrow}\ nat\ list}\\
\isa{upto} & \isa{{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ list}\\
\isa{zip} & \isa{{\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}b\ list\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}b{\isacharparenright}\ list}\\
\end{supertabular}

\subsubsection*{Syntax}

\begin{supertabular}{@ {} l @ {\quad$\equiv$\quad} l @ {}}
\isa{{\isacharbrackleft}x\isactrlisub {\isadigit{1}}{\isacharcomma}{\isasymdots}{\isacharcomma}x\isactrlisub n{\isacharbrackright}} & \isa{x\isactrlisub {\isadigit{1}}\ {\isacharhash}\ {\isasymdots}\ {\isacharhash}\ x\isactrlisub n\ {\isacharhash}\ {\isacharbrackleft}{\isacharbrackright}}\\
\isa{{\isacharbrackleft}m{\isachardot}{\isachardot}{\isacharless}n{\isacharbrackright}} & \isa{{\isachardoublequote}upt\ m\ n{\isachardoublequote}}\\
\isa{{\isacharbrackleft}i{\isachardot}{\isachardot}j{\isacharbrackright}} & \isa{{\isachardoublequote}upto\ i\ j{\isachardoublequote}}\\
\isa{{\isacharbrackleft}e{\isachardot}\ x\ {\isasymleftarrow}\ xs{\isacharbrackright}} & \isa{map\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ e{\isacharparenright}\ xs}\\
\isa{{\isacharbrackleft}x{\isasymleftarrow}xs\ {\isachardot}\ b{\isacharbrackright}} & \isa{{\isachardoublequote}filter\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ b{\isacharparenright}\ xs{\isachardoublequote}} \\
\isa{xs{\isacharbrackleft}n\ {\isacharcolon}{\isacharequal}\ x{\isacharbrackright}} & \isa{{\isachardoublequote}list{\isacharunderscore}update\ xs\ n\ x{\isachardoublequote}}\\
\isa{{\isasymSum}x{\isasymleftarrow}xs{\isachardot}\ e} & \isa{{\isachardoublequote}listsum\ {\isacharparenleft}map\ {\isacharparenleft}{\isasymlambda}x{\isachardot}\ e{\isacharparenright}\ xs{\isacharparenright}{\isachardoublequote}}\\
\end{supertabular}
\medskip

List comprehension: \isa{{\isacharbrackleft}e{\isachardot}\ q\isactrlisub {\isadigit{1}}{\isacharcomma}\ {\isasymdots}{\isacharcomma}\ q\isactrlisub n{\isacharbrackright}} where each
qualifier \isa{q\isactrlisub i} is either a generator \mbox{\isa{pat\ {\isasymleftarrow}\ e}} or a
guard, i.e.\ boolean expression.

\section{Map}

Maps model partial functions and are often used as finite tables. However,
the domain of a map may be infinite.

\isa{{\isacharprime}a\ {\isasymrightharpoonup}\ {\isacharprime}b\ \ {\isacharequal}\ \ {\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}b\ option}
\bigskip

\begin{supertabular}{@ {} l @ {~::~} l @ {}}
\isa{Map{\isachardot}empty} & \isa{{\isacharprime}a\ {\isasymrightharpoonup}\ {\isacharprime}b}\\
\isa{op\ {\isacharplus}{\isacharplus}} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymrightharpoonup}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymrightharpoonup}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymrightharpoonup}\ {\isacharprime}b}\\
\isa{op\ {\isasymcirc}\isactrlsub m} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymrightharpoonup}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}c\ {\isasymrightharpoonup}\ {\isacharprime}a{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}c\ {\isasymrightharpoonup}\ {\isacharprime}b}\\
\isa{op\ {\isacharbar}{\isacharbackquote}} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymrightharpoonup}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ set\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymrightharpoonup}\ {\isacharprime}b}\\
\isa{dom} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymrightharpoonup}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ set}\\
\isa{ran} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymrightharpoonup}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}b\ set}\\
\isa{op\ {\isasymsubseteq}\isactrlsub m} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymrightharpoonup}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharparenleft}{\isacharprime}a\ {\isasymrightharpoonup}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ bool}\\
\isa{map{\isacharunderscore}of} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}b{\isacharparenright}\ list\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymrightharpoonup}\ {\isacharprime}b}\\
\isa{map{\isacharunderscore}upds} & \isa{{\isacharparenleft}{\isacharprime}a\ {\isasymrightharpoonup}\ {\isacharprime}b{\isacharparenright}\ {\isasymRightarrow}\ {\isacharprime}a\ list\ {\isasymRightarrow}\ {\isacharprime}b\ list\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymrightharpoonup}\ {\isacharprime}b}\\
\end{supertabular}

\subsubsection*{Syntax}

\begin{tabular}{@ {} l @ {\quad$\equiv$\quad} l @ {}}
\isa{Map{\isachardot}empty} & \isa{{\isasymlambda}x{\isachardot}\ None}\\
\isa{m{\isacharparenleft}x\ {\isasymmapsto}\ y{\isacharparenright}} & \isa{{\isachardoublequote}m{\isacharparenleft}x{\isacharcolon}{\isacharequal}Some\ y{\isacharparenright}{\isachardoublequote}}\\
\isa{m{\isacharparenleft}x\isactrlisub {\isadigit{1}}{\isasymmapsto}y\isactrlisub {\isadigit{1}}{\isacharcomma}{\isasymdots}{\isacharcomma}x\isactrlisub n{\isasymmapsto}y\isactrlisub n{\isacharparenright}} & \isa{{\isachardoublequote}m{\isacharparenleft}x\isactrlisub {\isadigit{1}}{\isasymmapsto}y\isactrlisub {\isadigit{1}}{\isacharparenright}{\isasymdots}{\isacharparenleft}x\isactrlisub n{\isasymmapsto}y\isactrlisub n{\isacharparenright}{\isachardoublequote}}\\
\isa{{\isacharbrackleft}x\isactrlisub {\isadigit{1}}{\isasymmapsto}y\isactrlisub {\isadigit{1}}{\isacharcomma}{\isasymdots}{\isacharcomma}x\isactrlisub n{\isasymmapsto}y\isactrlisub n{\isacharbrackright}} & \isa{{\isachardoublequote}Map{\isachardot}empty{\isacharparenleft}x\isactrlisub {\isadigit{1}}{\isasymmapsto}y\isactrlisub {\isadigit{1}}{\isacharcomma}{\isasymdots}{\isacharcomma}x\isactrlisub n{\isasymmapsto}y\isactrlisub n{\isacharparenright}{\isachardoublequote}}\\
\isa{m{\isacharparenleft}xs\ {\isacharbrackleft}{\isasymmapsto}{\isacharbrackright}\ ys{\isacharparenright}} & \isa{{\isachardoublequote}map{\isacharunderscore}upds\ m\ xs\ ys{\isachardoublequote}}\\
\end{tabular}%
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author	haftmann
	Sun, 26 Apr 2009 08:34:53 +0200
changeset 30988	b53800e3ee47
parent 30457	28b487cd9e15
child 32266	b1c2110ae681
permissions	-rw-r--r--