@c -*-texinfo-*- @c This is part of the GNU Guile Reference Manual. @c Copyright (C) 1996, 1997, 2000, 2001, 2002, 2003, 2004, 2005, 2006, @c 2008, 2009, 2010, 2011, 2012, 2013 @c Free Software Foundation, Inc. @c See the file guile.texi for copying conditions. @node Options and Config @section Configuration, Features and Runtime Options Why is my Guile different from your Guile? There are three kinds of possible variation: @itemize @bullet @item build differences --- different versions of the Guile source code, installation directories, configuration flags that control pieces of functionality being included or left out, etc. @item differences in dynamically loaded code --- behavior and features provided by modules that can be dynamically loaded into a running Guile @item different runtime options --- some of the options that are provided for controlling Guile's behavior may be set differently. @end itemize Guile provides ``introspective'' variables and procedures to query all of these possible variations at runtime. For runtime options, it also provides procedures to change the settings of options and to obtain documentation on what the options mean. @menu * Build Config:: Build and installation configuration. * Feature Tracking:: Available features in the Guile process. * Runtime Options:: Controlling Guile's runtime behavior. @end menu @node Build Config @subsection Configuration, Build and Installation The following procedures and variables provide information about how Guile was configured, built and installed on your system. @deffn {Scheme Procedure} version @deffnx {Scheme Procedure} effective-version @deffnx {Scheme Procedure} major-version @deffnx {Scheme Procedure} minor-version @deffnx {Scheme Procedure} micro-version @deffnx {C Function} scm_version () @deffnx {C Function} scm_effective_version () @deffnx {C Function} scm_major_version () @deffnx {C Function} scm_minor_version () @deffnx {C Function} scm_micro_version () Return a string describing Guile's full version number, effective version number, major, minor or micro version number, respectively. The @code{effective-version} function returns the version name that should remain unchanged during a stable series. Currently that means that it omits the micro version. The effective version should be used for items like the versioned share directory name i.e.@: @file{/usr/share/guile/3.0/} @lisp (version) @result{} "3.0.0" (effective-version) @result{} "3.0" (major-version) @result{} "3" (minor-version) @result{} "0" (micro-version) @result{} "0" @end lisp @end deffn @deffn {Scheme Procedure} %package-data-dir @deffnx {C Function} scm_sys_package_data_dir () Return the name of the directory under which Guile Scheme files in general are stored. On Unix-like systems, this is usually @file{/usr/local/share/guile} or @file{/usr/share/guile}. @end deffn @deffn {Scheme Procedure} %library-dir @deffnx {C Function} scm_sys_library_dir () Return the name of the directory where the Guile Scheme files that belong to the core Guile installation (as opposed to files from a 3rd party package) are installed. On Unix-like systems this is usually @file{/usr/local/share/guile/@var{GUILE_EFFECTIVE_VERSION}} or @file{/usr/share/guile/@var{GUILE_EFFECTIVE_VERSION}}; @noindent for example @file{/usr/local/share/guile/3.0}. @end deffn @deffn {Scheme Procedure} %site-dir @deffnx {C Function} scm_sys_site_dir () Return the name of the directory where Guile Scheme files specific to your site should be installed. On Unix-like systems, this is usually @file{/usr/local/share/guile/site} or @file{/usr/share/guile/site}. @end deffn @deffn {Scheme Procedure} %site-ccache-dir @deffnx {C Function} scm_sys_site_ccache_dir () Return the directory where users should install compiled @code{.go} files for use with this version of Guile. Might look something like @file{/usr/lib/guile/@value{EFFECTIVE-VERSION}/site-ccache}. @end deffn @defvar %guile-build-info Alist of information collected during the building of a particular Guile. Entries can be grouped into one of several categories: directories, env vars, and versioning info. Briefly, here are the keys in @code{%guile-build-info}, by group: @cindex @code{srcdir} @cindex @code{top_srcdir} @cindex @code{prefix} @cindex @code{exec_prefix} @cindex @code{bindir} @cindex @code{sbindir} @cindex @code{libexecdir} @cindex @code{datadir} @cindex @code{sysconfdir} @cindex @code{sharedstatedir} @cindex @code{localstatedir} @cindex @code{libdir} @cindex @code{infodir} @cindex @code{mandir} @cindex @code{includedir} @cindex @code{pkgdatadir} @cindex @code{pkglibdir} @cindex @code{pkgincludedir} @table @asis @item directories srcdir, top_srcdir, prefix, exec_prefix, bindir, sbindir, libexecdir, datadir, sysconfdir, sharedstatedir, localstatedir, libdir, infodir, mandir, includedir, pkgdatadir, pkglibdir, pkgincludedir @cindex @code{LIBS} @item env vars LIBS @cindex @code{guileversion} @cindex @code{libguileinterface} @cindex @code{buildstamp} @item versioning info guileversion, libguileinterface, buildstamp @end table Values are all strings. The value for @code{LIBS} is typically found also as a part of @code{pkg-config --libs guile-@value{EFFECTIVE-VERSION}} output. The value for @code{guileversion} has form X.Y.Z, and should be the same as returned by @code{(version)}. The value for @code{libguileinterface} is libtool compatible and has form CURRENT:REVISION:AGE (@pxref{Versioning,, Library interface versions, libtool, GNU Libtool}). The value for @code{buildstamp} is the output of the command @samp{date -u +'%Y-%m-%d %T'} (UTC). In the source, @code{%guile-build-info} is initialized from libguile/libpath.h, which is completely generated, so deleting this file before a build guarantees up-to-date values for that build. @end defvar @cindex GNU triplet @cindex canonical host type @defvar %host-type The canonical host type (GNU triplet) of the host Guile was configured for, e.g., @code{"x86_64-unknown-linux-gnu"} (@pxref{Canonicalizing,,, autoconf, The GNU Autoconf Manual}). @end defvar @node Feature Tracking @subsection Feature Tracking Guile has a Scheme level variable @code{*features*} that keeps track to some extent of the features that are available in a running Guile. @code{*features*} is a list of symbols, for example @code{threads}, each of which describes a feature of the running Guile process. @defvar *features* A list of symbols describing available features of the Guile process. @end defvar You shouldn't modify the @code{*features*} variable directly using @code{set!}. Instead, see the procedures that are provided for this purpose in the following subsection. @menu * Feature Manipulation:: Checking for and advertising features. * Common Feature Symbols:: Commonly available features. @end menu @node Feature Manipulation @subsubsection Feature Manipulation To check whether a particular feature is available, use the @code{provided?} procedure: @deffn {Scheme Procedure} provided? feature @deffnx {Deprecated Scheme Procedure} feature? feature Return @code{#t} if the specified @var{feature} is available, otherwise @code{#f}. @end deffn To advertise a feature from your own Scheme code, you can use the @code{provide} procedure: @deffn {Scheme Procedure} provide feature Add @var{feature} to the list of available features in this Guile process. @end deffn For C code, the equivalent function takes its feature name as a @code{char *} argument for convenience: @deftypefn {C Function} void scm_add_feature (const char *str) Add a symbol with name @var{str} to the list of available features in this Guile process. @end deftypefn @node Common Feature Symbols @subsubsection Common Feature Symbols In general, a particular feature may be available for one of two reasons. Either because the Guile library was configured and compiled with that feature enabled --- i.e.@: the feature is built into the library on your system. Or because some C or Scheme code that was dynamically loaded by Guile has added that feature to the list. In the first category, here are the features that the current version of Guile may define (depending on how it is built), and what they mean. @table @code @item array Indicates support for arrays (@pxref{Arrays}). @item array-for-each Indicates availability of @code{array-for-each} and other array mapping procedures (@pxref{Arrays}). @item char-ready? Indicates that the @code{char-ready?} function is available (@pxref{Venerable Port Interfaces}). @item complex Indicates support for complex numbers. @item current-time Indicates availability of time-related functions: @code{times}, @code{get-internal-run-time} and so on (@pxref{Time}). @item debug-extensions Indicates that the debugging evaluator is available, together with the options for controlling it. @item delay Indicates support for promises (@pxref{Delayed Evaluation}). @item EIDs Indicates that the @code{geteuid} and @code{getegid} really return effective user and group IDs (@pxref{Processes}). @item inexact Indicates support for inexact numbers. @item i/o-extensions Indicates availability of the following extended I/O procedures: @code{ftell}, @code{redirect-port}, @code{dup->fdes}, @code{dup2}, @code{fileno}, @code{isatty?}, @code{fdopen}, @code{primitive-move->fdes} and @code{fdes->ports} (@pxref{Ports and File Descriptors}). @item net-db Indicates availability of network database functions: @code{scm_gethost}, @code{scm_getnet}, @code{scm_getproto}, @code{scm_getserv}, @code{scm_sethost}, @code{scm_setnet}, @code{scm_setproto}, @code{scm_setserv}, and their `byXXX' variants (@pxref{Network Databases}). @item posix Indicates support for POSIX functions: @code{pipe}, @code{getgroups}, @code{kill}, @code{execl} and so on (@pxref{POSIX}). @item fork Indicates support for the POSIX @code{fork} function (@pxref{Processes, @code{primitive-fork}}). @item popen Indicates support for @code{open-pipe} in the @code{(ice-9 popen)} module (@pxref{Pipes}). @item random Indicates availability of random number generation functions: @code{random}, @code{copy-random-state}, @code{random-uniform} and so on (@pxref{Random}). @item reckless Indicates that Guile was built with important checks omitted --- you should never see this! @item regex Indicates support for POSIX regular expressions using @code{make-regexp}, @code{regexp-exec} and friends (@pxref{Regexp Functions}). @item socket Indicates availability of socket-related functions: @code{socket}, @code{bind}, @code{connect} and so on (@pxref{Network Sockets and Communication}). @item sort Indicates availability of sorting and merging functions (@pxref{Sorting}). @item system Indicates that the @code{system} function is available (@pxref{Processes}). @item threads Indicates support for multithreading (@pxref{Threads}). @item values Indicates support for multiple return values using @code{values} and @code{call-with-values} (@pxref{Multiple Values}). @end table Available features in the second category depend, by definition, on what additional code your Guile process has loaded in. The following table lists features that you might encounter for this reason. @table @code @item defmacro Indicates that the @code{defmacro} macro is available (@pxref{Macros}). @item describe Indicates that the @code{(oop goops describe)} module has been loaded, which provides a procedure for describing the contents of GOOPS instances. @item readline Indicates that Guile has loaded in Readline support, for command line editing (@pxref{Readline Support}). @item record Indicates support for record definition using @code{make-record-type} and friends (@pxref{Records}). @end table Although these tables may seem exhaustive, it is probably unwise in practice to rely on them, as the correspondences between feature symbols and available procedures/behavior are not strictly defined. If you are writing code that needs to check for the existence of some procedure, it is probably safer to do so directly using the @code{defined?} procedure than to test for the corresponding feature using @code{provided?}. @node Runtime Options @subsection Runtime Options There are a number of runtime options available for parameterizing built-in procedures, like @code{read}, and built-in behavior, like what happens on an uncaught error. For more information on reader options, @xref{Scheme Read}. For more information on print options, @xref{Scheme Write}. Finally, for more information on debugger options, @xref{Debug Options}. @subsubsection Examples of option use Here is an example of a session in which some read and debug option handling procedures are used. In this example, the user @enumerate @item Notices that the symbols @code{abc} and @code{aBc} are not the same @item Examines the @code{read-options}, and sees that @code{case-insensitive} is set to ``no''. @item Enables @code{case-insensitive} @item Quits the recursive prompt @item Verifies that now @code{aBc} and @code{abc} are the same @end enumerate @smalllisp scheme@@(guile-user)> (define abc "hello") scheme@@(guile-user)> abc $1 = "hello" scheme@@(guile-user)> aBc : warning: possibly unbound variable `aBc' ERROR: In procedure module-lookup: ERROR: Unbound variable: aBc Entering a new prompt. Type `,bt' for a backtrace or `,q' to continue. scheme@@(guile-user) [1]> (read-options 'help) copy no Copy source code expressions. positions yes Record positions of source code expressions. case-insensitive no Convert symbols to lower case. keywords #f Style of keyword recognition: #f, 'prefix or 'postfix. r6rs-hex-escapes no Use R6RS variable-length character and string hex escapes. square-brackets yes Treat `[' and `]' as parentheses, for R6RS compatibility. hungry-eol-escapes no In strings, consume leading whitespace after an escaped end-of-line. curly-infix no Support SRFI-105 curly infix expressions. scheme@@(guile-user) [1]> (read-enable 'case-insensitive) $2 = (square-brackets keywords #f case-insensitive positions) scheme@@(guile-user) [1]> ,q scheme@@(guile-user)> aBc $3 = "hello" @end smalllisp @c Local Variables: @c TeX-master: "guile.texi" @c End: