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%
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\begin{isabellebody}%
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\def\isabellecontext{Documents}%
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\isamarkupfalse%
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%
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\isamarkupsection{Concrete Syntax \label{sec:concrete-syntax}%
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}
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\isamarkuptrue%
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%
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\begin{isamarkuptext}%
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The core concept of Isabelle's framework for concrete syntax is that
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of \bfindex{mixfix annotations}. Associated with any kind of
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constant declaration, mixfixes affect both the grammar productions
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for the parser and output templates for the pretty printer.
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In full generality, parser and pretty printer configuration is a
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subtle affair \cite{isabelle-ref}. Your syntax specifications need
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to interact properly with the existing setup of Isabelle/Pure and
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Isabelle/HOL\@. To avoid creating ambiguities with existing
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elements, it is particularly important to give new syntactic
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constructs the right precedence.
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\medskip Subsequently we introduce a few simple syntax declaration
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forms that already cover many common situations fairly well.%
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\end{isamarkuptext}%
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\isamarkuptrue%
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%
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\isamarkupsubsection{Infix Annotations%
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}
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\isamarkuptrue%
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%
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\begin{isamarkuptext}%
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Syntax annotations may be included wherever constants are declared,
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such as \isacommand{consts} and \isacommand{constdefs} --- and also
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\isacommand{datatype}, which declares constructor operations.
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Type-constructors may be annotated as well, although this is less
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frequently encountered in practice (the infix type \isa{{\isasymtimes}} comes
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to mind).
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Infix declarations\index{infix annotations} provide a useful special
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case of mixfixes. The following example of the exclusive-or
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operation on boolean values illustrates typical infix declarations.%
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\end{isamarkuptext}%
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\isamarkuptrue%
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\isacommand{constdefs}\isanewline
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\ \ xor\ {\isacharcolon}{\isacharcolon}\ {\isachardoublequote}bool\ {\isasymRightarrow}\ bool\ {\isasymRightarrow}\ bool{\isachardoublequote}\ \ \ \ {\isacharparenleft}\isakeyword{infixl}\ {\isachardoublequote}{\isacharbrackleft}{\isacharplus}{\isacharbrackright}{\isachardoublequote}\ {\isadigit{6}}{\isadigit{0}}{\isacharparenright}\isanewline
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\ \ {\isachardoublequote}A\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}\ B\ {\isasymequiv}\ {\isacharparenleft}A\ {\isasymand}\ {\isasymnot}\ B{\isacharparenright}\ {\isasymor}\ {\isacharparenleft}{\isasymnot}\ A\ {\isasymand}\ B{\isacharparenright}{\isachardoublequote}\isamarkupfalse%
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%
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\begin{isamarkuptext}%
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\noindent Now \isa{xor\ A\ B} and \isa{A\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}\ B} refer to the
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same expression internally. Any curried function with at least two
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arguments may be given infix syntax. For partial applications with
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fewer than two operands, there is a notation using the prefix~\isa{op}. For instance, \isa{xor} without arguments is represented as
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\isa{op\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}}; together with ordinary function application, this
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turns \isa{xor\ A} into \isa{op\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}\ A}.
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\medskip The keyword \isakeyword{infixl} seen above specifies an
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infix operator that is nested to the \emph{left}: in iterated
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applications the more complex expression appears on the left-hand
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side, and \isa{A\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}\ B\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}\ C} stands for \isa{{\isacharparenleft}A\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}\ B{\isacharparenright}\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}\ C}. Similarly, \isakeyword{infixr} means nesting to the
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\emph{right}, reading \isa{A\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}\ B\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}\ C} as \isa{A\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}\ {\isacharparenleft}B\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}\ C{\isacharparenright}}. A \emph{non-oriented} declaration via \isakeyword{infix}
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would render \isa{A\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}\ B\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}\ C} illegal, but demand explicit
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parentheses to indicate the intended grouping.
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The string \isa{{\isachardoublequote}{\isacharbrackleft}{\isacharplus}{\isacharbrackright}{\isachardoublequote}} in our annotation refers to the
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concrete syntax to represent the operator (a literal token), while
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the number \isa{{\isadigit{6}}{\isadigit{0}}} determines the precedence of the construct:
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the syntactic priorities of the arguments and result. Isabelle/HOL
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already uses up many popular combinations of ASCII symbols for its
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own use, including both \isa{{\isacharplus}} and \isa{{\isacharplus}{\isacharplus}}. Longer
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character combinations are more likely to be still available for
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user extensions, such as our~\isa{{\isacharbrackleft}{\isacharplus}{\isacharbrackright}}.
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Operator precedences have a range of 0--1000. Very low or high
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priorities are reserved for the meta-logic. HOL syntax mainly uses
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the range of 10--100: the equality infix \isa{{\isacharequal}} is centered at
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50; logical connectives (like \isa{{\isasymor}} and \isa{{\isasymand}}) are
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below 50; algebraic ones (like \isa{{\isacharplus}} and \isa{{\isacharasterisk}}) are
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above 50. User syntax should strive to coexist with common HOL
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forms, or use the mostly unused range 100--900.%
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\end{isamarkuptext}%
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\isamarkuptrue%
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%
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\isamarkupsubsection{Mathematical Symbols \label{sec:syntax-symbols}%
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}
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\isamarkuptrue%
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%
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\begin{isamarkuptext}%
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Concrete syntax based on ASCII characters has inherent limitations.
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Mathematical notation demands a larger repertoire of glyphs.
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Several standards of extended character sets have been proposed over
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decades, but none has become universally available so far. Isabelle
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has its own notion of \bfindex{symbols} as the smallest entities of
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source text, without referring to internal encodings. There are
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three kinds of such ``generalized characters'':
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\begin{enumerate}
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\item 7-bit ASCII characters
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\item named symbols: \verb,\,\verb,<,$ident$\verb,>,
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\item named control symbols: \verb,\,\verb,<^,$ident$\verb,>,
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\end{enumerate}
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Here $ident$ may be any identifier according to the usual Isabelle
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conventions. This results in an infinite store of symbols, whose
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interpretation is left to further front-end tools. For example, the
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user-interface of Proof~General + X-Symbol and the Isabelle document
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processor (see \S\ref{sec:document-preparation}) display the
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\verb,\,\verb,<forall>, symbol as~\isa{{\isasymforall}}.
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A list of standard Isabelle symbols is given in
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\cite[appendix~A]{isabelle-sys}. You may introduce your own
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interpretation of further symbols by configuring the appropriate
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front-end tool accordingly, e.g.\ by defining certain {\LaTeX}
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macros (see also \S\ref{sec:doc-prep-symbols}). There are also a
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few predefined control symbols, such as \verb,\,\verb,<^sub>, and
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\verb,\,\verb,<^sup>, for sub- and superscript of the subsequent
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printable symbol, respectively. For example, \verb,A\<^sup>\<star>, is
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output as \isa{A\isactrlsup {\isasymstar}}.
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\medskip Replacing our definition of \isa{xor} by the following
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specifies an Isabelle symbol for the new operator:%
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\end{isamarkuptext}%
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\isamarkuptrue%
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\isamarkupfalse%
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\isamarkupfalse%
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\isacommand{constdefs}\isanewline
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\ \ xor\ {\isacharcolon}{\isacharcolon}\ {\isachardoublequote}bool\ {\isasymRightarrow}\ bool\ {\isasymRightarrow}\ bool{\isachardoublequote}\ \ \ \ {\isacharparenleft}\isakeyword{infixl}\ {\isachardoublequote}{\isasymoplus}{\isachardoublequote}\ {\isadigit{6}}{\isadigit{0}}{\isacharparenright}\isanewline
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\ \ {\isachardoublequote}A\ {\isasymoplus}\ B\ {\isasymequiv}\ {\isacharparenleft}A\ {\isasymand}\ {\isasymnot}\ B{\isacharparenright}\ {\isasymor}\ {\isacharparenleft}{\isasymnot}\ A\ {\isasymand}\ B{\isacharparenright}{\isachardoublequote}\isamarkupfalse%
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\isamarkupfalse%
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%
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\begin{isamarkuptext}%
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\noindent The X-Symbol package within Proof~General provides several
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input methods to enter \isa{{\isasymoplus}} in the text. If all fails one may
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just type a named entity \verb,\,\verb,<oplus>, by hand; the
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corresponding symbol will be displayed after further input.
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\medskip More flexible is to provide alternative syntax forms
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through the \bfindex{print mode} concept~\cite{isabelle-ref}. By
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convention, the mode of ``$xsymbols$'' is enabled whenever
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Proof~General's X-Symbol mode or {\LaTeX} output is active. Now
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consider the following hybrid declaration of \isa{xor}:%
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\end{isamarkuptext}%
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\isamarkuptrue%
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\isamarkupfalse%
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\isamarkupfalse%
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\isacommand{constdefs}\isanewline
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\ \ xor\ {\isacharcolon}{\isacharcolon}\ {\isachardoublequote}bool\ {\isasymRightarrow}\ bool\ {\isasymRightarrow}\ bool{\isachardoublequote}\ \ \ \ {\isacharparenleft}\isakeyword{infixl}\ {\isachardoublequote}{\isacharbrackleft}{\isacharplus}{\isacharbrackright}{\isasymignore}{\isachardoublequote}\ {\isadigit{6}}{\isadigit{0}}{\isacharparenright}\isanewline
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\ \ {\isachardoublequote}A\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}{\isasymignore}\ B\ {\isasymequiv}\ {\isacharparenleft}A\ {\isasymand}\ {\isasymnot}\ B{\isacharparenright}\ {\isasymor}\ {\isacharparenleft}{\isasymnot}\ A\ {\isasymand}\ B{\isacharparenright}{\isachardoublequote}\isanewline
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\isanewline
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\isamarkupfalse%
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\isacommand{syntax}\ {\isacharparenleft}xsymbols{\isacharparenright}\isanewline
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\ \ xor\ {\isacharcolon}{\isacharcolon}\ {\isachardoublequote}bool\ {\isasymRightarrow}\ bool\ {\isasymRightarrow}\ bool{\isachardoublequote}\ \ \ \ {\isacharparenleft}\isakeyword{infixl}\ {\isachardoublequote}{\isasymoplus}{\isasymignore}{\isachardoublequote}\ {\isadigit{6}}{\isadigit{0}}{\isacharparenright}\isamarkupfalse%
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\isamarkupfalse%
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%
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\begin{isamarkuptext}%
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The \commdx{syntax} command introduced here acts like
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\isakeyword{consts}, but without declaring a logical constant. The
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print mode specification of \isakeyword{syntax}, here \isa{{\isacharparenleft}xsymbols{\isacharparenright}}, is optional. Also note that its type merely serves
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for syntactic purposes, and is \emph{not} checked for consistency
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with the real constant.
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\medskip We may now write \isa{A\ {\isacharbrackleft}{\isacharplus}{\isacharbrackright}\ B} or \isa{A\ {\isasymoplus}\ B} in
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input, while output uses the nicer syntax of $xsymbols$ whenever
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that print mode is active. Such an arrangement is particularly
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useful for interactive development, where users may type ASCII text
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and see mathematical symbols displayed during proofs.%
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\end{isamarkuptext}%
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\isamarkuptrue%
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%
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\isamarkupsubsection{Prefix Annotations%
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}
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\isamarkuptrue%
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%
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\begin{isamarkuptext}%
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Prefix syntax annotations\index{prefix annotation} are another form
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of mixfixes \cite{isabelle-ref}, without any template arguments or
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priorities --- just some literal syntax. The following example
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associates common symbols with the constructors of a datatype.%
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\end{isamarkuptext}%
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\isamarkuptrue%
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\isacommand{datatype}\ currency\ {\isacharequal}\isanewline
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\ \ \ \ Euro\ nat\ \ \ \ {\isacharparenleft}{\isachardoublequote}{\isasymeuro}{\isachardoublequote}{\isacharparenright}\isanewline
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\ \ {\isacharbar}\ Pounds\ nat\ \ {\isacharparenleft}{\isachardoublequote}{\isasympounds}{\isachardoublequote}{\isacharparenright}\isanewline
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\ \ {\isacharbar}\ Yen\ nat\ \ \ \ \ {\isacharparenleft}{\isachardoublequote}{\isasymyen}{\isachardoublequote}{\isacharparenright}\isanewline
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\ \ {\isacharbar}\ Dollar\ nat\ \ {\isacharparenleft}{\isachardoublequote}{\isachardollar}{\isachardoublequote}{\isacharparenright}\isamarkupfalse%
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%
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\begin{isamarkuptext}%
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\noindent Here the mixfix annotations on the rightmost column happen
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to consist of a single Isabelle symbol each: \verb,\,\verb,<euro>,,
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\verb,\,\verb,<pounds>,, \verb,\,\verb,<yen>,, and \verb,$,. Recall
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that a constructor like \isa{Euro} actually is a function \isa{nat\ {\isasymRightarrow}\ currency}. The expression \isa{Euro\ {\isadigit{1}}{\isadigit{0}}} will be
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printed as \isa{{\isasymeuro}\ {\isadigit{1}}{\isadigit{0}}}; only the head of the application is
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subject to our concrete syntax. This rather simple form already
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achieves conformance with notational standards of the European
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Commission.
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Prefix syntax works the same way for \isakeyword{consts} or
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\isakeyword{constdefs}.%
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\end{isamarkuptext}%
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\isamarkuptrue%
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%
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\isamarkupsubsection{Syntax Translations \label{sec:syntax-translations}%
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}
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\isamarkuptrue%
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%
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\begin{isamarkuptext}%
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Mixfix syntax annotations merely decorate particular constant
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application forms with concrete syntax, for instance replacing \
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\isa{xor\ A\ B} by \isa{A\ {\isasymoplus}\ B}. Occasionally, the
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relationship between some piece of notation and its internal form is
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more complicated. Here we need \bfindex{syntax translations}.
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Using the \isakeyword{syntax}\index{syntax (command)}, command we
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introduce uninterpreted notational elements. Then
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\commdx{translations} relate input forms to complex logical
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expressions. This provides a simple mechanism for syntactic macros;
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even heavier transformations may be written in ML
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\cite{isabelle-ref}.
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\medskip A typical use of syntax translations is to introduce
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relational notation for membership in a set of pair, replacing \
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\isa{{\isacharparenleft}x{\isacharcomma}\ y{\isacharparenright}\ {\isasymin}\ sim} by \isa{x\ {\isasymapprox}\ y}.%
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\end{isamarkuptext}%
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\isamarkuptrue%
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\isacommand{consts}\isanewline
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\ \ sim\ {\isacharcolon}{\isacharcolon}\ {\isachardoublequote}{\isacharparenleft}{\isacharprime}a\ {\isasymtimes}\ {\isacharprime}a{\isacharparenright}\ set{\isachardoublequote}\isanewline
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\isanewline
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\isamarkupfalse%
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\isacommand{syntax}\isanewline
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\ \ {\isachardoublequote}{\isacharunderscore}sim{\isachardoublequote}\ {\isacharcolon}{\isacharcolon}\ {\isachardoublequote}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ bool{\isachardoublequote}\ \ \ \ {\isacharparenleft}\isakeyword{infix}\ {\isachardoublequote}{\isasymapprox}{\isachardoublequote}\ {\isadigit{5}}{\isadigit{0}}{\isacharparenright}\isanewline
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\isamarkupfalse%
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\isacommand{translations}\isanewline
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\ \ {\isachardoublequote}x\ {\isasymapprox}\ y{\isachardoublequote}\ {\isasymrightleftharpoons}\ {\isachardoublequote}{\isacharparenleft}x{\isacharcomma}\ y{\isacharparenright}\ {\isasymin}\ sim{\isachardoublequote}\isamarkupfalse%
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%
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\begin{isamarkuptext}%
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\noindent Here the name of the dummy constant \isa{{\isacharunderscore}sim} does
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not matter, as long as it is not used elsewhere. Prefixing an
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underscore is a common convention. The \isakeyword{translations}
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declaration already uses concrete syntax on the left-hand side;
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internally we relate a raw application \isa{{\isacharunderscore}sim\ x\ y} with
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\isa{{\isacharparenleft}x{\isacharcomma}\ y{\isacharparenright}\ {\isasymin}\ sim}.
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\medskip Another common application of syntax translations is to
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provide variant versions of fundamental relational expressions, such
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as \isa{{\isasymnoteq}} for negated equalities. The following declaration
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stems from Isabelle/HOL itself:%
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\end{isamarkuptext}%
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\isamarkuptrue%
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\isacommand{syntax}\ {\isachardoublequote}{\isacharunderscore}not{\isacharunderscore}equal{\isachardoublequote}\ {\isacharcolon}{\isacharcolon}\ {\isachardoublequote}{\isacharprime}a\ {\isasymRightarrow}\ {\isacharprime}a\ {\isasymRightarrow}\ bool{\isachardoublequote}\ \ \ \ {\isacharparenleft}\isakeyword{infixl}\ {\isachardoublequote}{\isasymnoteq}{\isasymignore}{\isachardoublequote}\ {\isadigit{5}}{\isadigit{0}}{\isacharparenright}\isanewline
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\isamarkupfalse%
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\isacommand{translations}\ {\isachardoublequote}x\ {\isasymnoteq}{\isasymignore}\ y{\isachardoublequote}\ {\isasymrightleftharpoons}\ {\isachardoublequote}{\isasymnot}\ {\isacharparenleft}x\ {\isacharequal}\ y{\isacharparenright}{\isachardoublequote}\isamarkupfalse%
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%
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|
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\begin{isamarkuptext}%
|
|
258 |
\noindent Normally one would introduce derived concepts like this
|
12652
|
259 |
within the logic, using \isakeyword{consts} + \isakeyword{defs}
|
|
260 |
instead of \isakeyword{syntax} + \isakeyword{translations}. The
|
12649
|
261 |
present formulation has the virtue that expressions are immediately
|
12666
|
262 |
replaced by the ``definition'' upon parsing; the effect is reversed
|
|
263 |
upon printing.
|
12649
|
264 |
|
12767
|
265 |
This sort of translation is appropriate when the defined concept is
|
|
266 |
a trivial variation on an existing one. On the other hand, syntax
|
|
267 |
translations do not scale up well to large hierarchies of concepts.
|
|
268 |
Translations do not replace definitions!%
|
12635
|
269 |
\end{isamarkuptext}%
|
12627
|
270 |
\isamarkuptrue%
|
12635
|
271 |
%
|
12652
|
272 |
\isamarkupsection{Document Preparation \label{sec:document-preparation}%
|
12635
|
273 |
}
|
|
274 |
\isamarkuptrue%
|
|
275 |
%
|
12644
|
276 |
\begin{isamarkuptext}%
|
12652
|
277 |
Isabelle/Isar is centered around the concept of \bfindex{formal
|
12767
|
278 |
proof documents}\index{documents|bold}. The outcome of a formal
|
|
279 |
development effort is meant to be a human-readable record, presented
|
|
280 |
as browsable PDF file or printed on paper. The overall document
|
|
281 |
structure follows traditional mathematical articles, with sections,
|
|
282 |
intermediate explanations, definitions, theorems and proofs.
|
12644
|
283 |
|
|
284 |
\medskip The Isabelle document preparation system essentially acts
|
12671
|
285 |
as a front-end to {\LaTeX}. After checking specifications and
|
|
286 |
proofs formally, the theory sources are turned into typesetting
|
12767
|
287 |
instructions in a schematic manner. This lets you write authentic
|
|
288 |
reports on theory developments with little effort: many technical
|
|
289 |
consistency checks are handled by the system.
|
12745
|
290 |
|
|
291 |
Here is an example to illustrate the idea of Isabelle document
|
12747
|
292 |
preparation.%
|
|
293 |
\end{isamarkuptext}%
|
|
294 |
\isamarkuptrue%
|
|
295 |
%
|
|
296 |
\begin{quotation}
|
|
297 |
%
|
|
298 |
\begin{isamarkuptext}%
|
|
299 |
The following datatype definition of \isa{{\isacharprime}a\ bintree} models
|
|
300 |
binary trees with nodes being decorated by elements of type \isa{{\isacharprime}a}.%
|
12745
|
301 |
\end{isamarkuptext}%
|
|
302 |
\isamarkuptrue%
|
|
303 |
\isacommand{datatype}\ {\isacharprime}a\ bintree\ {\isacharequal}\isanewline
|
12747
|
304 |
\ \ \ \ \ Leaf\ {\isacharbar}\ Branch\ {\isacharprime}a\ \ {\isachardoublequote}{\isacharprime}a\ bintree{\isachardoublequote}\ \ {\isachardoublequote}{\isacharprime}a\ bintree{\isachardoublequote}\isamarkupfalse%
|
12745
|
305 |
%
|
|
306 |
\begin{isamarkuptext}%
|
|
307 |
\noindent The datatype induction rule generated here is of the form
|
|
308 |
\begin{isabelle}%
|
12749
|
309 |
\ {\isasymlbrakk}P\ Leaf{\isacharsemicolon}\isanewline
|
|
310 |
\isaindent{\ \ \ \ }{\isasymAnd}a\ bintree{\isadigit{1}}\ bintree{\isadigit{2}}{\isachardot}\isanewline
|
|
311 |
\isaindent{\ \ \ \ \ \ \ }{\isasymlbrakk}P\ bintree{\isadigit{1}}{\isacharsemicolon}\ P\ bintree{\isadigit{2}}{\isasymrbrakk}\ {\isasymLongrightarrow}\ P\ {\isacharparenleft}Branch\ a\ bintree{\isadigit{1}}\ bintree{\isadigit{2}}{\isacharparenright}{\isasymrbrakk}\isanewline
|
|
312 |
\isaindent{\ }{\isasymLongrightarrow}\ P\ bintree%
|
12747
|
313 |
\end{isabelle}%
|
|
314 |
\end{isamarkuptext}%
|
|
315 |
\isamarkuptrue%
|
|
316 |
%
|
|
317 |
\end{quotation}
|
|
318 |
%
|
|
319 |
\begin{isamarkuptext}%
|
12767
|
320 |
\noindent The above document output has been produced as follows:
|
12745
|
321 |
|
|
322 |
\begin{ttbox}
|
|
323 |
text {\ttlbrace}*
|
|
324 |
The following datatype definition of {\at}{\ttlbrace}text "'a bintree"{\ttrbrace}
|
|
325 |
models binary trees with nodes being decorated by elements
|
|
326 |
of type {\at}{\ttlbrace}typ 'a{\ttrbrace}.
|
|
327 |
*{\ttrbrace}
|
|
328 |
|
|
329 |
datatype 'a bintree =
|
|
330 |
Leaf | Branch 'a "'a bintree" "'a bintree"
|
12767
|
331 |
\end{ttbox}
|
|
332 |
\begin{ttbox}
|
12745
|
333 |
text {\ttlbrace}*
|
|
334 |
{\ttback}noindent The datatype induction rule generated here is
|
|
335 |
of the form {\at}{\ttlbrace}thm [display] bintree.induct [no_vars]{\ttrbrace}
|
|
336 |
*{\ttrbrace}
|
12767
|
337 |
\end{ttbox}\vspace{-\medskipamount}
|
12745
|
338 |
|
12747
|
339 |
\noindent Here we have augmented the theory by formal comments
|
12767
|
340 |
(using \isakeyword{text} blocks), the informal parts may again refer
|
|
341 |
to formal entities by means of ``antiquotations'' (such as
|
12745
|
342 |
\texttt{\at}\verb,{text "'a bintree"}, or
|
12747
|
343 |
\texttt{\at}\verb,{typ 'a},), see also \S\ref{sec:doc-prep-text}.%
|
12644
|
344 |
\end{isamarkuptext}%
|
12635
|
345 |
\isamarkuptrue%
|
|
346 |
%
|
12647
|
347 |
\isamarkupsubsection{Isabelle Sessions%
|
12635
|
348 |
}
|
|
349 |
\isamarkuptrue%
|
|
350 |
%
|
|
351 |
\begin{isamarkuptext}%
|
12652
|
352 |
In contrast to the highly interactive mode of Isabelle/Isar theory
|
|
353 |
development, the document preparation stage essentially works in
|
12671
|
354 |
batch-mode. An Isabelle \bfindex{session} consists of a collection
|
12767
|
355 |
of source files that may contribute to an output document. Each
|
|
356 |
session is derived from a single parent, usually an object-logic
|
|
357 |
image like \texttt{HOL}. This results in an overall tree structure,
|
|
358 |
which is reflected by the output location in the file system
|
|
359 |
(usually rooted at \verb,~/isabelle/browser_info,).
|
12644
|
360 |
|
12684
|
361 |
\medskip The easiest way to manage Isabelle sessions is via
|
12686
|
362 |
\texttt{isatool mkdir} (generates an initial session source setup)
|
|
363 |
and \texttt{isatool make} (run sessions controlled by
|
12684
|
364 |
\texttt{IsaMakefile}). For example, a new session
|
|
365 |
\texttt{MySession} derived from \texttt{HOL} may be produced as
|
|
366 |
follows:
|
|
367 |
|
|
368 |
\begin{verbatim}
|
|
369 |
isatool mkdir HOL MySession
|
|
370 |
isatool make
|
|
371 |
\end{verbatim}
|
|
372 |
|
12686
|
373 |
The \texttt{isatool make} job also informs about the file-system
|
|
374 |
location of the ultimate results. The above dry run should be able
|
|
375 |
to produce some \texttt{document.pdf} (with dummy title, empty table
|
12743
|
376 |
of contents etc.). Any failure at this stage usually indicates
|
12686
|
377 |
technical problems of the {\LaTeX} installation.\footnote{Especially
|
12767
|
378 |
make sure that \texttt{pdflatex} is present; if in doubt one may
|
12686
|
379 |
fall back on DVI output by changing \texttt{usedir} options in
|
|
380 |
\texttt{IsaMakefile} \cite{isabelle-sys}.}
|
12684
|
381 |
|
|
382 |
\medskip The detailed arrangement of the session sources is as
|
12747
|
383 |
follows.
|
12644
|
384 |
|
|
385 |
\begin{itemize}
|
|
386 |
|
12671
|
387 |
\item Directory \texttt{MySession} holds the required theory files
|
|
388 |
$T@1$\texttt{.thy}, \dots, $T@n$\texttt{.thy}.
|
12644
|
389 |
|
|
390 |
\item File \texttt{MySession/ROOT.ML} holds appropriate ML commands
|
|
391 |
for loading all wanted theories, usually just
|
12666
|
392 |
``\texttt{use_thy"$T@i$";}'' for any $T@i$ in leaf position of the
|
12671
|
393 |
dependency graph.
|
12644
|
394 |
|
|
395 |
\item Directory \texttt{MySession/document} contains everything
|
12652
|
396 |
required for the {\LaTeX} stage; only \texttt{root.tex} needs to be
|
|
397 |
provided initially.
|
12644
|
398 |
|
12652
|
399 |
The latter file holds appropriate {\LaTeX} code to commence a
|
|
400 |
document (\verb,\documentclass, etc.), and to include the generated
|
12743
|
401 |
files $T@i$\texttt{.tex} for each theory. Isabelle will generate a
|
|
402 |
file \texttt{session.tex} holding {\LaTeX} commands to include all
|
12747
|
403 |
generated theory output files in topologically sorted order, so
|
|
404 |
\verb,\input{session}, in the body of \texttt{root.tex} does the job
|
|
405 |
in most situations.
|
12652
|
406 |
|
12682
|
407 |
\item \texttt{IsaMakefile} holds appropriate dependencies and
|
|
408 |
invocations of Isabelle tools to control the batch job. In fact,
|
12747
|
409 |
several sessions may be managed by the same \texttt{IsaMakefile}.
|
12764
|
410 |
See the \emph{Isabelle System Manual} \cite{isabelle-sys}
|
|
411 |
for further details, especially on
|
12652
|
412 |
\texttt{isatool usedir} and \texttt{isatool make}.
|
12644
|
413 |
|
|
414 |
\end{itemize}
|
|
415 |
|
12686
|
416 |
One may now start to populate the directory \texttt{MySession}, and
|
12767
|
417 |
the file \texttt{MySession/ROOT.ML} accordingly. The file
|
|
418 |
\texttt{MySession/document/root.tex} should also be adapted at some
|
12686
|
419 |
point; the default version is mostly self-explanatory. Note that
|
|
420 |
\verb,\isabellestyle, enables fine-tuning of the general appearance
|
|
421 |
of characters and mathematical symbols (see also
|
|
422 |
\S\ref{sec:doc-prep-symbols}).
|
12652
|
423 |
|
12686
|
424 |
Especially observe the included {\LaTeX} packages \texttt{isabelle}
|
|
425 |
(mandatory), \texttt{isabellesym} (required for mathematical
|
12743
|
426 |
symbols), and the final \texttt{pdfsetup} (provides sane defaults
|
12764
|
427 |
for \texttt{hyperref}, including URL markup). All three are
|
12743
|
428 |
distributed with Isabelle. Further packages may be required in
|
12764
|
429 |
particular applications, say for unusual mathematical symbols.
|
12644
|
430 |
|
12747
|
431 |
\medskip Any additional files for the {\LaTeX} stage go into the
|
|
432 |
\texttt{MySession/document} directory as well. In particular,
|
12767
|
433 |
adding a file named \texttt{root.bib} causes an automatic run of
|
|
434 |
\texttt{bibtex} to process a bibliographic database; see also
|
|
435 |
\texttt{isatool document} \cite{isabelle-sys}.
|
12644
|
436 |
|
12652
|
437 |
\medskip Any failure of the document preparation phase in an
|
12671
|
438 |
Isabelle batch session leaves the generated sources in their target
|
12767
|
439 |
location, identified by the accompanying error message. This lets
|
|
440 |
you trace {\LaTeX} problems with the generated files at hand.%
|
12644
|
441 |
\end{isamarkuptext}%
|
|
442 |
\isamarkuptrue%
|
|
443 |
%
|
12647
|
444 |
\isamarkupsubsection{Structure Markup%
|
12644
|
445 |
}
|
|
446 |
\isamarkuptrue%
|
|
447 |
%
|
|
448 |
\begin{isamarkuptext}%
|
12652
|
449 |
The large-scale structure of Isabelle documents follows existing
|
|
450 |
{\LaTeX} conventions, with chapters, sections, subsubsections etc.
|
|
451 |
The Isar language includes separate \bfindex{markup commands}, which
|
12682
|
452 |
do not affect the formal meaning of a theory (or proof), but result
|
12666
|
453 |
in corresponding {\LaTeX} elements.
|
12644
|
454 |
|
12666
|
455 |
There are separate markup commands depending on the textual context:
|
|
456 |
in header position (just before \isakeyword{theory}), within the
|
|
457 |
theory body, or within a proof. The header needs to be treated
|
|
458 |
specially here, since ordinary theory and proof commands may only
|
|
459 |
occur \emph{after} the initial \isakeyword{theory} specification.
|
12644
|
460 |
|
12666
|
461 |
\medskip
|
12644
|
462 |
|
|
463 |
\begin{tabular}{llll}
|
|
464 |
header & theory & proof & default meaning \\\hline
|
|
465 |
& \commdx{chapter} & & \verb,\chapter, \\
|
|
466 |
\commdx{header} & \commdx{section} & \commdx{sect} & \verb,\section, \\
|
|
467 |
& \commdx{subsection} & \commdx{subsect} & \verb,\subsection, \\
|
|
468 |
& \commdx{subsubsection} & \commdx{subsubsect} & \verb,\subsubsection, \\
|
|
469 |
\end{tabular}
|
|
470 |
|
|
471 |
\medskip
|
|
472 |
|
|
473 |
From the Isabelle perspective, each markup command takes a single
|
12747
|
474 |
$text$ argument (delimited by \verb,",~\isa{{\isasymdots}}~\verb,", or
|
|
475 |
\verb,{,\verb,*,~\isa{{\isasymdots}}~\verb,*,\verb,},). After stripping any
|
12644
|
476 |
surrounding white space, the argument is passed to a {\LaTeX} macro
|
12767
|
477 |
\verb,\isamarkupXYZ, for command \isakeyword{XYZ}. These macros are
|
|
478 |
defined in \verb,isabelle.sty, according to the meaning given in the
|
|
479 |
rightmost column above.
|
12644
|
480 |
|
|
481 |
\medskip The following source fragment illustrates structure markup
|
12652
|
482 |
of a theory. Note that {\LaTeX} labels may be included inside of
|
|
483 |
section headings as well.
|
12644
|
484 |
|
|
485 |
\begin{ttbox}
|
|
486 |
header {\ttlbrace}* Some properties of Foo Bar elements *{\ttrbrace}
|
|
487 |
|
|
488 |
theory Foo_Bar = Main:
|
|
489 |
|
|
490 |
subsection {\ttlbrace}* Basic definitions *{\ttrbrace}
|
|
491 |
|
|
492 |
consts
|
|
493 |
foo :: \dots
|
|
494 |
bar :: \dots
|
12647
|
495 |
|
12644
|
496 |
defs \dots
|
12647
|
497 |
|
12644
|
498 |
subsection {\ttlbrace}* Derived rules *{\ttrbrace}
|
|
499 |
|
|
500 |
lemma fooI: \dots
|
|
501 |
lemma fooE: \dots
|
|
502 |
|
12647
|
503 |
subsection {\ttlbrace}* Main theorem {\ttback}label{\ttlbrace}sec:main-theorem{\ttrbrace} *{\ttrbrace}
|
12644
|
504 |
|
|
505 |
theorem main: \dots
|
|
506 |
|
|
507 |
end
|
12767
|
508 |
\end{ttbox}\vspace{-\medskipamount}
|
12644
|
509 |
|
12767
|
510 |
You may occasionally want to change the meaning of markup commands,
|
|
511 |
say via \verb,\renewcommand, in \texttt{root.tex}. For example,
|
|
512 |
\verb,\isamarkupheader, is a good candidate for some tuning. We
|
|
513 |
could move it up in the hierarchy to become \verb,\chapter,.
|
12644
|
514 |
|
|
515 |
\begin{verbatim}
|
|
516 |
\renewcommand{\isamarkupheader}[1]{\chapter{#1}}
|
|
517 |
\end{verbatim}
|
|
518 |
|
12767
|
519 |
\noindent Now we must change the document class given in
|
|
520 |
\texttt{root.tex} to something that supports chapters. A suitable
|
|
521 |
command is \verb,\documentclass{report},.
|
12644
|
522 |
|
12647
|
523 |
\medskip The {\LaTeX} macro \verb,\isabellecontext, is maintained to
|
|
524 |
hold the name of the current theory context. This is particularly
|
12652
|
525 |
useful for document headings:
|
12644
|
526 |
|
|
527 |
\begin{verbatim}
|
12652
|
528 |
\renewcommand{\isamarkupheader}[1]
|
12644
|
529 |
{\chapter{#1}\markright{THEORY~\isabellecontext}}
|
|
530 |
\end{verbatim}
|
|
531 |
|
|
532 |
\noindent Make sure to include something like
|
12647
|
533 |
\verb,\pagestyle{headings}, in \texttt{root.tex}; the document
|
12764
|
534 |
should have more than two pages to show the effect.%
|
12644
|
535 |
\end{isamarkuptext}%
|
|
536 |
\isamarkuptrue%
|
|
537 |
%
|
12745
|
538 |
\isamarkupsubsection{Formal Comments and Antiquotations \label{sec:doc-prep-text}%
|
12644
|
539 |
}
|
|
540 |
\isamarkuptrue%
|
|
541 |
%
|
|
542 |
\begin{isamarkuptext}%
|
12745
|
543 |
Isabelle \bfindex{source comments}, which are of the form
|
12747
|
544 |
\verb,(,\verb,*,~\isa{{\isasymdots}}~\verb,*,\verb,),, essentially act like
|
|
545 |
white space and do not really contribute to the content. They
|
|
546 |
mainly serve technical purposes to mark certain oddities in the raw
|
|
547 |
input text. In contrast, \bfindex{formal comments} are portions of
|
|
548 |
text that are associated with formal Isabelle/Isar commands
|
12682
|
549 |
(\bfindex{marginal comments}), or as standalone paragraphs within a
|
12666
|
550 |
theory or proof context (\bfindex{text blocks}).
|
12658
|
551 |
|
|
552 |
\medskip Marginal comments are part of each command's concrete
|
12671
|
553 |
syntax \cite{isabelle-ref}; the common form is ``\verb,--,~$text$''
|
12747
|
554 |
where $text$ is delimited by \verb,",\isa{{\isasymdots}}\verb,", or
|
|
555 |
\verb,{,\verb,*,~\isa{{\isasymdots}}~\verb,*,\verb,}, as before. Multiple
|
12671
|
556 |
marginal comments may be given at the same time. Here is a simple
|
|
557 |
example:%
|
12666
|
558 |
\end{isamarkuptext}%
|
|
559 |
\isamarkuptrue%
|
|
560 |
\isacommand{lemma}\ {\isachardoublequote}A\ {\isacharminus}{\isacharminus}{\isachargreater}\ A{\isachardoublequote}\isanewline
|
|
561 |
\ \ %
|
|
562 |
\isamarkupcmt{a triviality of propositional logic%
|
|
563 |
}
|
|
564 |
\isanewline
|
|
565 |
\ \ %
|
|
566 |
\isamarkupcmt{(should not really bother)%
|
|
567 |
}
|
|
568 |
\isanewline
|
|
569 |
\ \ \isamarkupfalse%
|
|
570 |
\isacommand{by}\ {\isacharparenleft}rule\ impI{\isacharparenright}\ %
|
|
571 |
\isamarkupcmt{implicit assumption step involved here%
|
|
572 |
}
|
|
573 |
\isamarkupfalse%
|
|
574 |
%
|
|
575 |
\begin{isamarkuptext}%
|
|
576 |
\noindent The above output has been produced as follows:
|
12658
|
577 |
|
|
578 |
\begin{verbatim}
|
|
579 |
lemma "A --> A"
|
|
580 |
-- "a triviality of propositional logic"
|
|
581 |
-- "(should not really bother)"
|
|
582 |
by (rule impI) -- "implicit assumption step involved here"
|
|
583 |
\end{verbatim}
|
|
584 |
|
12671
|
585 |
From the {\LaTeX} viewpoint, ``\verb,--,'' acts like a markup
|
|
586 |
command, associated with the macro \verb,\isamarkupcmt, (taking a
|
|
587 |
single argument).
|
12658
|
588 |
|
12666
|
589 |
\medskip Text blocks are introduced by the commands \bfindex{text}
|
|
590 |
and \bfindex{txt}, for theory and proof contexts, respectively.
|
|
591 |
Each takes again a single $text$ argument, which is interpreted as a
|
|
592 |
free-form paragraph in {\LaTeX} (surrounded by some additional
|
12671
|
593 |
vertical space). This behavior may be changed by redefining the
|
|
594 |
{\LaTeX} environments of \verb,isamarkuptext, or
|
|
595 |
\verb,isamarkuptxt,, respectively (via \verb,\renewenvironment,) The
|
|
596 |
text style of the body is determined by \verb,\isastyletext, and
|
|
597 |
\verb,\isastyletxt,; the default setup uses a smaller font within
|
12747
|
598 |
proofs. This may be changed as follows:
|
|
599 |
|
|
600 |
\begin{verbatim}
|
|
601 |
\renewcommand{\isastyletxt}{\isastyletext}
|
|
602 |
\end{verbatim}
|
12658
|
603 |
|
12767
|
604 |
\medskip The $text$ part of Isabelle markup commands essentially
|
|
605 |
inserts \emph{quoted material} into a formal text, mainly for
|
|
606 |
instruction of the reader. An \bfindex{antiquotation} is again a
|
|
607 |
formal object embedded into such an informal portion. The
|
|
608 |
interpretation of antiquotations is limited to some well-formedness
|
|
609 |
checks, with the result being pretty printed to the resulting
|
|
610 |
document. Quoted text blocks together with antiquotations provide
|
|
611 |
an attractive means of referring to formal entities, with good
|
|
612 |
confidence in getting the technical details right (especially syntax
|
|
613 |
and types).
|
12658
|
614 |
|
12666
|
615 |
The general syntax of antiquotations is as follows:
|
12658
|
616 |
\texttt{{\at}{\ttlbrace}$name$ $arguments${\ttrbrace}}, or
|
|
617 |
\texttt{{\at}{\ttlbrace}$name$ [$options$] $arguments${\ttrbrace}}
|
12666
|
618 |
for a comma-separated list of options consisting of a $name$ or
|
12767
|
619 |
\texttt{$name$=$value$} each. The syntax of $arguments$ depends on
|
|
620 |
the kind of antiquotation, it generally follows the same conventions
|
|
621 |
for types, terms, or theorems as in the formal part of a theory.
|
12649
|
622 |
|
12767
|
623 |
\medskip This sentence demonstrates quotations and antiquotations:
|
|
624 |
\isa{{\isasymlambda}x\ y{\isachardot}\ x} is a well-typed term.
|
12658
|
625 |
|
12764
|
626 |
\medskip\noindent The output above was produced as follows:
|
12658
|
627 |
\begin{ttbox}
|
|
628 |
text {\ttlbrace}*
|
12764
|
629 |
This sentence demonstrates quotations and antiquotations:
|
12658
|
630 |
{\at}{\ttlbrace}term "%x y. x"{\ttrbrace} is a well-typed term.
|
|
631 |
*{\ttrbrace}
|
12767
|
632 |
\end{ttbox}\vspace{-\medskipamount}
|
12658
|
633 |
|
12764
|
634 |
The notational change from the ASCII character~\verb,%, to the
|
12767
|
635 |
symbol~\isa{{\isasymlambda}} reveals that Isabelle printed this term, after
|
|
636 |
parsing and type-checking. Document preparation enables symbolic
|
|
637 |
output by default.
|
12658
|
638 |
|
12764
|
639 |
\medskip The next example includes an option to modify Isabelle's
|
|
640 |
\verb,show_types, flag. The antiquotation
|
12767
|
641 |
\texttt{{\at}}\verb,{term [show_types] "%x y. x"}, produces the
|
|
642 |
output \isa{{\isasymlambda}{\isacharparenleft}x{\isasymColon}{\isacharprime}a{\isacharparenright}\ y{\isasymColon}{\isacharprime}b{\isachardot}\ x}. Type inference has figured
|
|
643 |
out the most general typings in the present theory context. Terms
|
|
644 |
may acquire different typings due to constraints imposed by their
|
|
645 |
environment; within a proof, for example, variables are given the
|
|
646 |
same types as they have in the main goal statement.
|
12658
|
647 |
|
12764
|
648 |
\medskip Several further kinds of antiquotations and options are
|
12666
|
649 |
available \cite{isabelle-sys}. Here are a few commonly used
|
12671
|
650 |
combinations:
|
12658
|
651 |
|
|
652 |
\medskip
|
|
653 |
|
|
654 |
\begin{tabular}{ll}
|
|
655 |
\texttt{\at}\verb,{typ,~$\tau$\verb,}, & print type $\tau$ \\
|
|
656 |
\texttt{\at}\verb,{term,~$t$\verb,}, & print term $t$ \\
|
|
657 |
\texttt{\at}\verb,{prop,~$\phi$\verb,}, & print proposition $\phi$ \\
|
12666
|
658 |
\texttt{\at}\verb,{prop [display],~$\phi$\verb,}, & print large proposition $\phi$ (with linebreaks) \\
|
12658
|
659 |
\texttt{\at}\verb,{prop [source],~$\phi$\verb,}, & check proposition $\phi$, print its input \\
|
|
660 |
\texttt{\at}\verb,{thm,~$a$\verb,}, & print fact $a$ \\
|
|
661 |
\texttt{\at}\verb,{thm,~$a$~\verb,[no_vars]}, & print fact $a$, fixing schematic variables \\
|
12747
|
662 |
\texttt{\at}\verb,{thm [source],~$a$\verb,}, & check availability of fact $a$, print its name \\
|
12658
|
663 |
\texttt{\at}\verb,{text,~$s$\verb,}, & print uninterpreted text $s$ \\
|
|
664 |
\end{tabular}
|
|
665 |
|
|
666 |
\medskip
|
|
667 |
|
12666
|
668 |
Note that \attrdx{no_vars} given above is \emph{not} an
|
|
669 |
antiquotation option, but an attribute of the theorem argument given
|
|
670 |
here. This might be useful with a diagnostic command like
|
|
671 |
\isakeyword{thm}, too.
|
12658
|
672 |
|
12666
|
673 |
\medskip The \texttt{\at}\verb,{text, $s$\verb,}, antiquotation is
|
12658
|
674 |
particularly interesting. Embedding uninterpreted text within an
|
12666
|
675 |
informal body might appear useless at first sight. Here the key
|
|
676 |
virtue is that the string $s$ is processed as Isabelle output,
|
|
677 |
interpreting Isabelle symbols appropriately.
|
12658
|
678 |
|
12666
|
679 |
For example, \texttt{\at}\verb,{text "\<forall>\<exists>"}, produces \isa{{\isasymforall}{\isasymexists}}, according to the standard interpretation of these symbol
|
|
680 |
(cf.\ \S\ref{sec:doc-prep-symbols}). Thus we achieve consistent
|
12658
|
681 |
mathematical notation in both the formal and informal parts of the
|
12767
|
682 |
document very easily, independently of the term language of
|
|
683 |
Isabelle. Manual {\LaTeX} code would leave more control over the
|
|
684 |
typesetting, but is also slightly more tedious.%
|
12644
|
685 |
\end{isamarkuptext}%
|
|
686 |
\isamarkuptrue%
|
|
687 |
%
|
12674
|
688 |
\isamarkupsubsection{Interpretation of Symbols \label{sec:doc-prep-symbols}%
|
12644
|
689 |
}
|
|
690 |
\isamarkuptrue%
|
|
691 |
%
|
|
692 |
\begin{isamarkuptext}%
|
12666
|
693 |
As has been pointed out before (\S\ref{sec:syntax-symbols}),
|
12671
|
694 |
Isabelle symbols are the smallest syntactic entities --- a
|
12682
|
695 |
straightforward generalization of ASCII characters. While Isabelle
|
12666
|
696 |
does not impose any interpretation of the infinite collection of
|
12764
|
697 |
named symbols, {\LaTeX} documents use canonical glyphs for certain
|
12671
|
698 |
standard symbols \cite[appendix~A]{isabelle-sys}.
|
12658
|
699 |
|
12767
|
700 |
The {\LaTeX} code produced from Isabelle text follows a simple
|
|
701 |
scheme. You can tune the final appearance by redefining certain
|
|
702 |
macros, say in \texttt{root.tex} of the document.
|
12671
|
703 |
|
|
704 |
\begin{enumerate}
|
12658
|
705 |
|
12671
|
706 |
\item 7-bit ASCII characters: letters \texttt{A\dots Z} and
|
12747
|
707 |
\texttt{a\dots z} are output directly, digits are passed as an
|
12671
|
708 |
argument to the \verb,\isadigit, macro, other characters are
|
|
709 |
replaced by specifically named macros of the form
|
12666
|
710 |
\verb,\isacharXYZ,.
|
12658
|
711 |
|
12767
|
712 |
\item Named symbols: \verb,\,\verb,<XYZ>, is turned into
|
|
713 |
\verb,{\isasymXYZ},; note the additional braces.
|
12658
|
714 |
|
12767
|
715 |
\item Named control symbols: \verb,\,\verb,<^XYZ>, is turned into
|
|
716 |
\verb,\isactrlXYZ,; subsequent symbols may act as arguments if the
|
|
717 |
control macro is defined accordingly.
|
12671
|
718 |
|
12666
|
719 |
\end{enumerate}
|
|
720 |
|
12764
|
721 |
You may occasionally wish to give new {\LaTeX} interpretations of
|
|
722 |
named symbols. This merely requires an appropriate definition of
|
12767
|
723 |
\verb,\isasymXYZ,, for \verb,\,\verb,<XYZ>, (see
|
12747
|
724 |
\texttt{isabelle.sty} for working examples). Control symbols are
|
|
725 |
slightly more difficult to get right, though.
|
12666
|
726 |
|
|
727 |
\medskip The \verb,\isabellestyle, macro provides a high-level
|
|
728 |
interface to tune the general appearance of individual symbols. For
|
12671
|
729 |
example, \verb,\isabellestyle{it}, uses the italics text style to
|
|
730 |
mimic the general appearance of the {\LaTeX} math mode; double
|
12743
|
731 |
quotes are not printed at all. The resulting quality of typesetting
|
|
732 |
is quite good, so this should be the default style for work that
|
|
733 |
gets distributed to a broader audience.%
|
12644
|
734 |
\end{isamarkuptext}%
|
|
735 |
\isamarkuptrue%
|
|
736 |
%
|
12652
|
737 |
\isamarkupsubsection{Suppressing Output \label{sec:doc-prep-suppress}%
|
12644
|
738 |
}
|
|
739 |
\isamarkuptrue%
|
|
740 |
%
|
|
741 |
\begin{isamarkuptext}%
|
12749
|
742 |
By default, Isabelle's document system generates a {\LaTeX} file for
|
|
743 |
each theory that gets loaded while running the session. The
|
|
744 |
generated \texttt{session.tex} will include all of these in order of
|
|
745 |
appearance, which in turn gets included by the standard
|
12743
|
746 |
\texttt{root.tex}. Certainly one may change the order or suppress
|
12747
|
747 |
unwanted theories by ignoring \texttt{session.tex} and load
|
|
748 |
individual files directly in \texttt{root.tex}. On the other hand,
|
|
749 |
such an arrangement requires additional maintenance whenever the
|
|
750 |
collection of theories changes.
|
12647
|
751 |
|
|
752 |
Alternatively, one may tune the theory loading process in
|
12652
|
753 |
\texttt{ROOT.ML} itself: traversal of the theory dependency graph
|
12671
|
754 |
may be fine-tuned by adding \verb,use_thy, invocations, although
|
|
755 |
topological sorting still has to be observed. Moreover, the ML
|
|
756 |
operator \verb,no_document, temporarily disables document generation
|
12767
|
757 |
while executing a theory loader command. Its usage is like this:
|
12647
|
758 |
|
|
759 |
\begin{verbatim}
|
12666
|
760 |
no_document use_thy "T";
|
12647
|
761 |
\end{verbatim}
|
12644
|
762 |
|
12767
|
763 |
\medskip Theory output may be suppressed more selectively. Research
|
|
764 |
articles and slides usually do not include the formal content in
|
|
765 |
full. Delimiting \bfindex{ignored material} by the special source
|
|
766 |
comments \verb,(,\verb,*,\verb,<,\verb,*,\verb,), and
|
|
767 |
\verb,(,\verb,*,\verb,>,\verb,*,\verb,), tells the document
|
|
768 |
preparation system to suppress these parts; the formal checking of
|
12771
|
769 |
the theory is unchanged, of course.
|
12647
|
770 |
|
12767
|
771 |
In this example, we hide a theory's \isakeyword{theory} and
|
|
772 |
\isakeyword{end} brackets:
|
12647
|
773 |
|
|
774 |
\medskip
|
|
775 |
|
|
776 |
\begin{tabular}{l}
|
|
777 |
\verb,(,\verb,*,\verb,<,\verb,*,\verb,), \\
|
12666
|
778 |
\texttt{theory T = Main:} \\
|
12647
|
779 |
\verb,(,\verb,*,\verb,>,\verb,*,\verb,), \\
|
|
780 |
~~$\vdots$ \\
|
|
781 |
\verb,(,\verb,*,\verb,<,\verb,*,\verb,), \\
|
|
782 |
\texttt{end} \\
|
|
783 |
\verb,(,\verb,*,\verb,>,\verb,*,\verb,), \\
|
|
784 |
\end{tabular}
|
|
785 |
|
|
786 |
\medskip
|
|
787 |
|
12764
|
788 |
Text may be suppressed in a fine-grained manner. We may even hide
|
12747
|
789 |
vital parts of a proof, pretending that things have been simpler
|
12767
|
790 |
than they really were. For example, this ``fully automatic'' proof
|
|
791 |
is actually a fake:%
|
12649
|
792 |
\end{isamarkuptext}%
|
|
793 |
\isamarkuptrue%
|
|
794 |
\isacommand{lemma}\ {\isachardoublequote}x\ {\isasymnoteq}\ {\isacharparenleft}{\isadigit{0}}{\isacharcolon}{\isacharcolon}int{\isacharparenright}\ {\isasymLongrightarrow}\ {\isadigit{0}}\ {\isacharless}\ x\ {\isacharasterisk}\ x{\isachardoublequote}\isanewline
|
|
795 |
\ \ \isamarkupfalse%
|
|
796 |
\isacommand{by}\ {\isacharparenleft}auto{\isacharparenright}\isamarkupfalse%
|
|
797 |
%
|
|
798 |
\begin{isamarkuptext}%
|
|
799 |
\noindent Here the real source of the proof has been as follows:
|
|
800 |
|
|
801 |
\begin{verbatim}
|
|
802 |
by (auto(*<*)simp add: int_less_le(*>*))
|
12658
|
803 |
\end{verbatim}
|
|
804 |
%(*
|
12649
|
805 |
|
12767
|
806 |
\medskip Suppressing portions of printed text demands care. You
|
|
807 |
should not misrepresent the underlying theory development. It is
|
|
808 |
easy to invalidate the visible text by hiding references to
|
|
809 |
questionable axioms.
|
12652
|
810 |
|
12747
|
811 |
Authentic reports of Isabelle/Isar theories, say as part of a
|
12767
|
812 |
library, should suppress nothing. Other users may need the full
|
|
813 |
information for their own derivative work. If a particular
|
|
814 |
formalization appears inadequate for general public coverage, it is
|
|
815 |
often more appropriate to think of a better way in the first place.
|
12671
|
816 |
|
|
817 |
\medskip Some technical subtleties of the
|
12666
|
818 |
\verb,(,\verb,*,\verb,<,\verb,*,\verb,),~\verb,(,\verb,*,\verb,>,\verb,*,\verb,),
|
12764
|
819 |
elements need to be kept in mind, too --- the system performs few
|
12671
|
820 |
sanity checks here. Arguments of markup commands and formal
|
12649
|
821 |
comments must not be hidden, otherwise presentation fails. Open and
|
12751
|
822 |
close parentheses need to be inserted carefully; it is easy to hide
|
|
823 |
the wrong parts, especially after rearranging the theory text.%
|
12635
|
824 |
\end{isamarkuptext}%
|
12627
|
825 |
\isamarkuptrue%
|
11866
|
826 |
\isamarkupfalse%
|
11648
|
827 |
\end{isabellebody}%
|
|
828 |
%%% Local Variables:
|
|
829 |
%%% mode: latex
|
|
830 |
%%% TeX-master: "root"
|
|
831 |
%%% End:
|