455 lines
18 KiB
TeX
455 lines
18 KiB
TeX
%&latex -*- latex -*-
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\chapter{Introduction}
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This is the reference manual for scsh,
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a {\Unix} shell that is embedded within {\Scheme}.
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Scsh is a Scheme system designed for writing useful standalone Unix
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programs and shell scripts---it spans a wide range of application,
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from ``script'' applications usually handled with perl or sh,
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to more standard systems applications usually written in C.
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Scsh comes built on top of {\scm}, and has two components:
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a process notation for running programs and setting up pipelines
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and redirections,
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and a complete syscall library for low-level access to the operating system.
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This manual gives a complete description of scsh.
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A general discussion of the design principles behind scsh can be found
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in a companion paper, ``A Scheme Shell.''
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\section{Copyright \& source-code license}
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Scsh is open source. The complete sources come with the standard
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distribution, which can be downloaded off the net.
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For years, scsh's underlying Scheme implementation, Scheme 48, did not have an
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open-source copyright. However, around 1999/2000, the Scheme 48 authors
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graciously retrofitted a BSD-style open-source copyright onto the system.
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Swept up by the fervor, we tacked an ideologically hip license onto scsh
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source, ourselves (BSD-style, as well). Not that we ever cared before what you
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did with the system.
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As a result, the whole system is now open source, top-to-bottom.
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We note that the code is a rich source for other Scheme implementations
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to mine. Not only the \emph{code}, but the \emph{APIs} are available
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for implementors working on Scheme environments for systems programming.
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These APIs represent years of work, and should provide a big head-start
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on any related effort. (Just don't call it ``scsh,'' unless it's
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\emph{exactly} compliant with the scsh interfaces.)
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Take all the code you like; we'll just write more.
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\section{Obtaining scsh}
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Scsh is distributed via net publication.
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We place new releases at well-known network sites,
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and allow them to propagate from there.
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We currently release scsh to the following Internet sites:
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\begin{inset}\begin{flushleft}
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\ex{ftp://ftp-swiss.ai.mit.edu/pub/su/} \\
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\ex{http://www-swiss.ai.mit.edu/scsh/scsh.html}
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\ex{http://www.cs.indiana.edu/scheme-repository/} \\
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\end{flushleft}
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\end{inset}
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These sites are
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the MIT Project Mac ftp server,
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the Scheme Shell home page, and
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the Indiana Scheme Repository home page,
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respectively.
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Each should have a compressed tar file of the entire scsh release,
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which includes all the source code and the manual,
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and a separate file containing just this manual in Postscript form,
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for those who simply wish to read about the system.
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However, nothing is certain for long on the Net.
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Probably the best way to get a copy of scsh is to use a network
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resource-discovery tool, such as archie,
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to find ftp servers storing scsh tar files.
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Take the set of sites storing the most recent release of scsh,
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choose one close to your site, and download the tar file.
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\section{Building scsh}
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Scsh currently runs on a fairly large set of Unix systems, including
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Linux, NetBSD, SunOS, Solaris, AIX, NeXTSTEP, Irix, and HP-UX.
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We use the Gnu project's autoconfig tool to generate self-configuring
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shell scripts that customise the scsh Makefile for different OS variants.
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This means that if you use one of the common Unix implementations,
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building scsh should require exactly the following steps:
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\begin{inset}
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\begin{tabular}{l@{\qquad}l}
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\ex{gunzip scsh.tar.gz} & \emph{Uncompress the release tar file.} \\
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\ex{untar xfv scsh.tar} & \emph{Unpack the source code.} \\
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\ex{cd scsh-0.5} & \emph{Move to the source directory.} \\
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\ex{./configure} & \emph{Examine host; build Makefile.} \\
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\ex{make} & \emph{Build system.}
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\end{tabular}
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\end{inset}
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When you are done, you should have a virtual machine compiled in
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file \ex{scshvm}, and a heap image in file \ex{scsh/scsh.image}.
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Typing
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\begin{code}
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make install
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\end{code}
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will install these programs in your installation directory
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(by default, \ex{/usr/local}), along with a small stub startup
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binary, \ex{scsh}.
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If you don't have the patience to do this, you can start up
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a Scheme shell immediately after the initial make by simply
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saying
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\codex{./scshvm -o ./scshvm -i scsh/scsh.image}
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See chapter~\ref{chapt:running} for full details on installation
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locations and startup options.
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It is not too difficult to port scsh to another Unix platform if your
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OS is not supported by the current release.
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See the release notes for more details on how to do this.
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\section{Caveats}
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It is important to note what scsh is \emph{not}, as well as what it is.
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Scsh, in the current release, is primarily designed for the writing of
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shell scripts---programming.
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It is not a very comfortable system for interactive command use:
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the current release lacks job control, command-line editing, a terse,
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convenient command syntax, and it does not read in an initialisation
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file analogous to \ex{.login} or \ex{.profile}.
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We hope to address all of these issues in future releases;
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we even have designs for several of these features;
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but the system as-released does not currently provide these features.
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In the current release, the system has some rough edges.
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It is quite slow to start up---loading the initial image into the
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{\scm} virtual machine induces a noticeable delay.
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This can be fixed with the static heap linker provided with this release.
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We welcome parties interested in porting the manual to a more portable
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XML or SGML format; please contact us if you are interested in doing so.
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\section{Naming conventions}
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Scsh follows a general naming scheme that consistently employs a set of
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abbreviations.
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This is intended to make it easier to remember the names of things.
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Some of the common ones are:
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\begin{description}
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\item [\ex{fdes}]
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Means ``file descriptor,'' a small integer used in {\Unix}
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to represent I/O channels.
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\item [\ex{\ldots*}]
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A given bit of functionality sometimes comes in two related forms,
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the first being a \emph{special form} that contains a body of
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{\Scheme} code to be executed in some context,
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and the other being a \emph{procedure} that takes a procedural
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argument (a ``thunk'') to be called in the same context.
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The procedure variant is named by taking the name of the special form,
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and appending an asterisk. For example:
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\begin{code}
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;;; Special form:
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(with-cwd "/etc"
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(for-each print-file (directory-files))
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(display "All done"))
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;;; Procedure:
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(with-cwd* "/etc"
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(lambda ()
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(for-each print-file (directory-files))
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(display "All done")))\end{code}
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\item [\ex{\var{action}/\var{modifier}}]
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The infix ``\ex{/}'' is pronounced ``with,'' as in
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\ex{exec/env}---``exec with environment.''
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\item [\ex{call/\ldots}]
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Procedures that call their argument on some computed value
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are usually named ``\ex{call/\ldots},'' \eg,
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\ex{(call/fdes \var{port} \var{proc})}, which calls \var{proc}
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on \var{port}'s file descriptor, returning whatever \var{proc}
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returns. The abbreviated name means ``call with file descriptor.''
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\item [\ex{with-\ldots}]
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Procedures that call their argument, and special forms that execute
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their bodies in some special dynamic context frequently have
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names of the form \ex{with-\ldots}. For example,
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\ex{(with-env \var{env} \vari{body}1 \ldots)} and
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\ex{(with-env* \var{env} \var{thunk})}. These forms set
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the process environment body, execute their body or thunk,
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and then return after resetting the environment to its original
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state.
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\item[\ex{create-}]
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Procedures that create objects in the file system (files, directories,
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temp files, fifos, \etc), begin with \ex{create-\ldots}.
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\item [\ex{delete-}]
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Procedures that delete objects from the file system (files,
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directories, temp files, fifos, \etc), begin with \ex{delete-\ldots}.
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\item[ \ex{\var{record}:\var{field}} ]
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Procedures that access fields of a record are usually written
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with a colon between the name of the record and the name of the
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field, as in \ex{user-info:home-dir}.
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\item[\ex{\%\ldots}]
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A percent sign is used to prefix lower-level scsh primitives
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that are not commonly used.
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\item[\ex{-info}]
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Data structures packaging up information about various OS
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entities frequently end in \ldots\ex{-info}. Examples:
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\ex{user-info}, \ex{file-info}, \ex{group-info}, and \ex{host-info}.
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\end{description}
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%
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Enumerated constants from some set \var{s} are usually named
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\ex{\var{s}/\vari{const}1}, \ex{\var{s}/\vari{const}2}, \ldots.
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For example, the various {\Unix} signal integers have the names
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\ex{signal/cont}, \ex{signal/kill}, \ex{signal/int}, \ex{signal/hup},
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and so forth.
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\section{Lexical issues}
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Scsh's lexical syntax is just {\R4RS} {\Scheme}, with the following
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exceptions.
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\subsection{Extended symbol syntax}
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Scsh's symbol syntax differs from {\R4RS} {\Scheme} in the following ways:
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\begin{itemize}
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\item In scsh, symbol case is preserved by \ex{read} and is significant on
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symbol comparison. This means
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\codex{(run (less Readme))}
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displays the right file.
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\item ``\ex{-}'' and ``\ex{+}'' are allowed to begin symbols.
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So the following are legitimate symbols:
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\codex{-O2 -geometry +Wn}
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\item ``\ex{|}'' and ``\ex{.}'' are symbol constituents.
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This allows \ex{|} for the pipe symbol, and \ex{..} for the parent-directory
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symbol. (Of course, ``\ex{.}'' alone is not a symbol, but a
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dotted-pair marker.)
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\item A symbol may begin with a digit.
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So the following are legitimate symbols:
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\codex{9x15 80x36-3+440}
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\end{itemize}
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\subsection{Extended string syntax}
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Scsh strings are allowed to contain the {\Ansi} C escape sequences
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such as \verb|\n| and \verb|\161|.
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\subsection{Block comments and executable interpreter-triggers}
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Scsh allows source files to begin with a header of the form
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\codex{\#!/usr/local/bin/scsh -s}
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The Unix operating system treats source files beginning with the headers
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of this form specially;
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they can be directly executed by the operating system
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(see chapter~\ref{chapt:running} for information on how to use this feature).
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The scsh interpreter ignores this special header by treating \ex{\#!} as a
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comment marker similar to \ex{;}.
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When the scsh reader encounters \ex{\#!}, it skips characters until it finds
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the closing sequence
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new\-line/{\ob}ex\-cla\-ma\-tion-{\ob}point/{\ob}sharp-{\ob}sign/{\ob}new\-line.
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Although the form of the \ex{\#!} read-macro was chosen to support
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interpreter-triggers for executable Unix scripts,
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it is a general block-comment sequence and can be used as such
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anywhere in a scsh program.
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\subsection{Here-strings}
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The read macro \ex{\#<} is used to introduce ``here-strings''
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in programs, similar to the \ex{<<} ``here document'' redirections
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provided by sh and csh.
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There are two kinds of here-string, character-delimited and line-delimited;
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they are both introduced by the \ex{\#<} sequence.
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\subsubsection{Character-delimited here-strings}
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A \emph{character-delimited} here-string has the form
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\codex{\#<\emph{x}...stuff...\emph{x}}
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where \emph{x} is any single character
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(except \ex{<}, see below),
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which is used to delimit the string bounds.
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Some examples:
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\begin{inset}
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\begin{tabular}{ll}
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Here-string syntax & Ordinary string syntax \\ \hline
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\verb:#<|Hello, world.|: & \verb:"Hello, world.": \\
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\verb:#<!"Ouch," he said.!: & \verb:"\"Ouch,\" he said.":
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\end{tabular}
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\end{inset}
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%
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There is no interpretation of characters within the here-string;
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the characters are all copied verbatim.
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\subsubsection{Line-delimited here-strings}
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If the sequence begins "\ex{\#<<}" then it introduces a \emph{line-delimited}
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here-string.
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These are similar to the ``here documents'' of sh and csh.
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Line-delimited here-strings are delimited by the rest of the text line that
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follows the "\ex{\#<<}" sequence.
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For example:
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\begin{code}
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#<<FOO
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Hello, there.
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This is read by Scheme as a string,
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terminated by the first occurrence
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of newline-F-O-O-newline or newline-F-O-O-eof.
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FOO\end{code}
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%
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Thus,
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\begin{code}
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#<<foo
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Hello, world.
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foo\end{code}
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%
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is the same thing as
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\codex{"Hello, world."}
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Line-delimited here-strings are useful for writing down long, constant
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strings---such as long, multi-line \ex{format} strings,
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or arguments to Unix programs, \eg,
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\begin{code}
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;; Free up some disk space for my netnews files.
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(run (csh -c #<<EOF
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cd /urops
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rm -rf *
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echo All done.
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EOF
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))\end{code}
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The advantage they have over the double-quote syntax
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(\eg, \ex{"Hello, world."})
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is that there is no need to backslash-quote special characters internal
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to the string, such as the double-quote or backslash characters.
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The detailed syntax of line-delimited here-strings is as follows.
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The characters "\ex{\#<<}" begin the here-string.
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The characters between the "\ex{\#<<}" and the next newline are the
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\emph{delimiter line}.
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All characters between the "\ex{\#<<}" and the next newline comprise the
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delimiter line---including any white space.
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The body of the string begins on the following line,
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and is terminated by a line of text which exactly matches the
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delimiter line.
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This terminating line can be ended by either a newline or end-of-file.
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Absolutely no interpretation is done on the input string.
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Control characters, white space, quotes, backslash---everything
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is copied as-is.
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The newline immediately preceding the terminating delimiter line is
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not included in the result string
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(leave an extra blank line if you need to put a final
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newline in the here-string---see the example above).
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If EOF is encountered before reading the end of the here-string,
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an error is signalled.
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\subsection{Dot}
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It is unfortunate that the single-dot token, ``\ex{.}'', is both
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a fundamental {\Unix} file name and a deep, primitive syntactic token
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in {\Scheme}---it means the following will not parse correctly in scsh:
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\codex{(run/strings (find . -name *.c -print))}
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You must instead quote the dot:
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\codex{(run/strings (find "." -name *.c -print))}
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When you write shell scripts that manipulate the file system,
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keep in mind the special status of the dot token.
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\section{Record types and the \texttt{define-record} form}
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\label{sec:defrec}
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\index{define-record@\texttt{define-record}}
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Scsh's interfaces occasionally provide data in structured record types;
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an example is the \ex{file-info} record whose various fields describe the size,
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protection, last date of modification, and other pertinent data for a
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particular file.
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These record types are described in this manual using the \ex{define-record}
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notation, which looks like the following:
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%
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\begin{code}
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(define-record ship
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x
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y
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(size 100))\end{code}
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%
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This form defines a \var{ship} record, with three fields:
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its x and y coordinates, and its size.
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The values of the \var{x} and \var{y} fields are specified as parameters
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to the ship-building procedure, \ex{(make-ship \var{x} \var{y})},
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and the \var{size} field is initialised to 100.
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All told, the \ex{define-record} form above defines the following procedures:
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%
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\begin{center}
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\begin{tabular}{|ll|}
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\multicolumn{1}{l}{Procedure} & \multicolumn{1}{l}{Definition} \\
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\hline
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(make-ship \var{x} \var{y}) & Create a new \var{ship} record. \\
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\hline
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(ship:x \var{ship}) & Retrieve the \var{x} field. \\
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(ship:y \var{ship}) & Retrieve the \var{y} field. \\
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(ship:size \var{ship}) & Retrieve the \var{size} field. \\
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\hline
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(set-ship:x \var{ship} \var{new-x}) & Assign the \var{x} field. \\
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(set-ship:y \var{ship} \var{new-y}) & Assign the \var{y} field. \\
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(set-ship:size \var{ship} \var{new-size}) & Assign the \var{size} field. \\
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\hline
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(modify-ship:x \var{ship} \var{xfun}) & Modify \var{x} field with \var{xfun}. \\
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(modify-ship:y \var{ship} \var{yfun}) & Modify \var{y} field with \var{yfun}. \\
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(modify-ship:size \var{ship} \var{sizefun}) & Modify \var{size} field with \var{sizefun}. \\
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\hline
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(ship? \var{object}) & Type predicate. \\
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\hline
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(copy-ship \var{ship}) & Shallow-copy of the record. \\
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\hline
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\end{tabular}
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\end{center}
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%
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An implementation of \ex{define-record} is available as a macro for Scheme
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programmers to define their own record types;
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the syntax is accessed by opening the package \ex{defrec-package}, which
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exports the single syntax form \ex{define-record}.
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See the source code for the \ex{defrec-package} module
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for further details of the macro.
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You must open this package to access the form.
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Scsh does not export a record-definition package by default as there are
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several from which to choose.
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Besides the \ex{define-record} macro, which Shivers prefers\footnote{He wrote
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it.}, you might instead wish to employ the notationally-distinct
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\ex{define-record-type} macro that Jonathan Rees
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prefers,\footnote{He wrote it.}
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or the identically named but wholly different \ex{define-record-type}
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macro that Richard Kelsey prefers.\footnote{He wrote it.}
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The former can be found in file \ex{rts/jar-defrecord.scm} and package
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\ex{define-record-types}; the latter can be found in file
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\ex{big/defrecord.scm} and package \ex{defrecord}.
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Alternatively, you may define your own, of course.
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\section{A word about {\Unix} standards}
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``The wonderful thing about {\Unix} standards is that there are so many
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to choose from.''
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You may be totally bewildered about the multitude of various standards that
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exist.
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Rest assured that this nowhere in this manual will you encounter an attempt
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to spell it all out for you;
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you could not read and internalise such a twisted account without
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bleeding from the nose and ears.
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However, you might keep in mind the following simple fact: of all the
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standards, {\Posix} is the least common denominator.
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So when this manual repeatedly refers to {\Posix}, the point is ``the
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thing we are describing should be portable just about anywhere.''
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Scsh sticks to {\Posix} when at all possible; its major departure is
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symbolic links, which aren't in {\Posix} (see---it
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really \emph{is} a least common denominator).
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