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\input texinfo @c -*-texinfo-*-
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@setfilename gccgo.info
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@settitle The GNU Go Compiler
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@c Merge the standard indexes into a single one.
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@syncodeindex fn cp
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@syncodeindex vr cp
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@syncodeindex ky cp
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@syncodeindex pg cp
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@syncodeindex tp cp
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@include gcc-common.texi
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@c Copyright years for this manual.
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@set copyrights-go 2010
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@copying
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@c man begin COPYRIGHT
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Copyright @copyright{} @value{copyrights-go} Free Software Foundation, Inc.
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Permission is granted to copy, distribute and/or modify this document
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under the terms of the GNU Free Documentation License, Version 1.3 or
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any later version published by the Free Software Foundation; with no
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Invariant Sections, the Front-Cover Texts being (a) (see below), and
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with the Back-Cover Texts being (b) (see below).
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A copy of the license is included in the
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@c man end
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section entitled ``GNU Free Documentation License''.
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@ignore
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@c man begin COPYRIGHT
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man page gfdl(7).
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@c man end
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@end ignore
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@c man begin COPYRIGHT
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(a) The FSF's Front-Cover Text is:
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39
     A GNU Manual
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(b) The FSF's Back-Cover Text is:
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     You have freedom to copy and modify this GNU Manual, like GNU
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     software.  Copies published by the Free Software Foundation raise
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     funds for GNU development.
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@c man end
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@end copying
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@ifinfo
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@format
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@dircategory Software development
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@direntry
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* Gccgo: (gccgo).           A GCC-based compiler for the Go language
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@end direntry
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@end format
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@insertcopying
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@end ifinfo
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@titlepage
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@title The GNU Go Compiler
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@versionsubtitle
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@author Ian Lance Taylor
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@page
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@vskip 0pt plus 1filll
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Published by the Free Software Foundation @*
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51 Franklin Street, Fifth Floor@*
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Boston, MA 02110-1301, USA@*
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@sp 1
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@insertcopying
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@end titlepage
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@contents
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@page
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@node Top
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@top Introduction
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79
This manual describes how to use @command{gccgo}, the GNU compiler for
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the Go programming language.  This manual is specifically about
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@command{gccgo}.  For more information about the Go programming
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language in general, including language specifications and standard
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package documentation, see @uref{http://golang.org/}.
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@menu
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* Copying::                     The GNU General Public License.
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* GNU Free Documentation License::
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                                How you can share and copy this manual.
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* Invoking gccgo::              How to run gccgo.
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* Import and Export::           Importing and exporting package data.
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* C Interoperability::          Calling C from Go and vice-versa.
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* Index::                       Index.
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@end menu
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@include gpl_v3.texi
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@include fdl.texi
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@node Invoking gccgo
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@chapter Invoking gccgo
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@c man title gccgo A GCC-based compiler for the Go language
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@ignore
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@c man begin SYNOPSIS gccgo
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gccgo [@option{-c}|@option{-S}]
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      [@option{-g}] [@option{-pg}] [@option{-O}@var{level}]
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      [@option{-I}@var{dir}@dots{}] [@option{-L}@var{dir}@dots{}]
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      [@option{-o} @var{outfile}] @var{infile}@dots{}
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113
Only the most useful options are listed here; see below for the
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remainder.
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@c man end
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@c man begin SEEALSO
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gpl(7), gfdl(7), fsf-funding(7), gcc(1)
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and the Info entries for @file{gccgo} and @file{gcc}.
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@c man end
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@end ignore
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@c man begin DESCRIPTION gccgo
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The @command{gccgo} command is a frontend to @command{gcc} and
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supports many of the same options.  @xref{Option Summary, , Option
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Summary, gcc, Using the GNU Compiler Collection (GCC)}.  This manual
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only documents the options specific to @command{gccgo}.
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The @command{gccgo} command may be used to compile Go source code into
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an object file, link a collection of object files together, or do both
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in sequence.
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Go source code is compiled as packages.  A package consists of one or
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more Go source files.  All the files in a single package must be
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compiled together, by passing all the files as arguments to
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@command{gccgo}.  A single invocation of @command{gccgo} may only
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compile a single package.
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One Go package may @code{import} a different Go package.  The imported
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package must have already been compiled; @command{gccgo} will read
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the import data directly from the compiled package.  When this package
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is later linked, the compiled form of the package must be included in
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the link command.
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@c man end
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@c man begin OPTIONS gccgo
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149
@table @gcctabopt
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@item -I@var{dir}
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@cindex @option{-I}
152
Specify a directory to use when searching for an import package at
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compile time.
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@item -L@var{dir}
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@cindex @option{-L}
157
When linking, specify a library search directory, as with
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@command{gcc}.
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160
@item -fgo-prefix=@var{string}
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@cindex @option{-fgo-prefix}
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Go permits a single program to include more than one package with the
163
same name.  This option is required to make this work with
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@command{gccgo}.  The argument to this option may be any string.  Each
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package with the same name must use a distinct @option{-fgo-prefix}
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option.  The argument is typically the full path under which the
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package will be installed, as that must obviously be unique.
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169
@item -frequire-return-statement
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@itemx -fno-require-return-statement
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@cindex @option{-frequire-return-statement}
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@cindex @option{-fno-require-return-statement}
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By default @command{gccgo} will warn about functions which have one or
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more return parameters but lack an explicit @code{return} statement.
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This warning may be disabled using
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@option{-fno-require-return-statement}.
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@end table
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@c man end
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181
@node Import and Export
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@chapter Import and Export
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184
When @command{gccgo} compiles a package which exports anything, the
185
export information will be stored directly in the object file.  When a
186
package is imported, @command{gccgo} must be able to find the file.
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188
@cindex @file{.gox}
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When Go code imports the package @file{@var{gopackage}}, @command{gccgo}
190
will look for the import data using the following filenames, using the
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first one that it finds.
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193
@table @file
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@item @var{gopackage}.gox
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@item lib@var{gopackage}.so
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@item lib@var{gopackage}.a
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@item @var{gopackage}.o
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@end table
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200
The compiler will search for these files in the directories named by
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any @option{-I} options, in order in which the directories appear on
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the command line.  The compiler will then search several standard
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system directories.  Finally the compiler will search the current
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directory (to search the current directory earlier, use @samp{-I.}).
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206
The compiler will extract the export information directly from the
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compiled object file.  The file @file{@var{gopackage}.gox} will
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typically contain nothing but export data.  This can be generated from
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@file{@var{gopackage}.o} via
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@smallexample
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objcopy -j .go_export @var{gopackage}.o @var{gopackage}.gox
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@end smallexample
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For example, it may be desirable to extract the export information
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from several different packages into their independent
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@file{@var{gopackage}.gox} files, and then to combine the different
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package object files together into a single shared library or archive.
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At link time you must explicitly tell @command{gccgo} which files to
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link together into the executable, as is usual with @command{gcc}.
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This is different from the behaviour of other Go compilers.
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@node C Interoperability
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@chapter C Interoperability
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When using @command{gccgo} there is limited interoperability with C,
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or with C++ code compiled using @code{extern "C"}.
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@menu
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* C Type Interoperability::     How C and Go types match up.
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* Function Names::              How Go functions are named.
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@end menu
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@node C Type Interoperability
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@section C Type Interoperability
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Basic types map directly: an @code{int} in Go is an @code{int} in C,
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etc.  Go @code{byte} is equivalent to C @code{unsigned char}.
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Pointers in Go are pointers in C.  A Go @code{struct} is the same as C
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@code{struct} with the same field names and types.
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@cindex @code{string} in C
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The Go @code{string} type is currently defined as a two-element
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structure:
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247
@smallexample
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struct __go_string @{
249
  const unsigned char *__data;
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  int __length;
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@};
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@end smallexample
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You can't pass arrays between C and Go.  However, a pointer to an
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array in Go is equivalent to a C pointer to the equivalent of the
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element type.  For example, Go @code{*[10]int} is equivalent to C
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@code{int*}, assuming that the C pointer does point to 10 elements.
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259
@cindex @code{slice} in C
260
A slice in Go is a structure.  The current definition is:
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@smallexample
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struct __go_slice @{
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  void *__values;
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  int __count;
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  int __capacity;
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@};
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@end smallexample
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The type of a Go function with no receiver is equivalent to a C
271
function whose parameter types are equivalent.  When a Go function
272
returns more than one value, the C function returns a struct.  For
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example, these functions have equivalent types:
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275
@smallexample
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func GoFunction(int) (int, float)
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struct @{ int i; float f; @} CFunction(int)
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@end smallexample
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280
A pointer to a Go function is equivalent to a pointer to a C function
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when the functions have equivalent types.
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Go @code{interface}, @code{channel}, and @code{map} types have no
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corresponding C type (@code{interface} is a two-element struct and
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@code{channel} and @code{map} are pointers to structs in C, but the
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structs are deliberately undocumented).  C @code{enum} types
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correspond to some integer type, but precisely which one is difficult
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to predict in general; use a cast.  C @code{union} types have no
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corresponding Go type.  C @code{struct} types containing bitfields
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have no corresponding Go type.  C++ @code{class} types have no
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corresponding Go type.
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Memory allocation is completely different between C and Go, as Go uses
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garbage collection.  The exact guidelines in this area are
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undetermined, but it is likely that it will be permitted to pass a
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pointer to allocated memory from C to Go.  The responsibility of
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eventually freeing the pointer will remain with C side, and of course
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if the C side frees the pointer while the Go side still has a copy the
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program will fail.  When passing a pointer from Go to C, the Go
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function must retain a visible copy of it in some Go variable.
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Otherwise the Go garbage collector may delete the pointer while the C
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function is still using it.
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@node Function Names
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@section Function Names
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@cindex @code{extern}
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@cindex external names
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Go code can call C functions directly using a Go extension implemented
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in @command{gccgo}: a function declaration may be preceded by a
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comment giving the external name.  The comment must be at the
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beginning of the line and must start with @code{//extern}.  This must
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be followed by a space and then the external name of the function.
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The function declaration must be on the line immediately after the
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comment.  For example, here is how the C function @code{open} can be
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declared in Go:
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318
@smallexample
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//extern open
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func c_open(name *byte, mode int, perm int) int
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@end smallexample
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The C function naturally expects a nul terminated string, which in Go
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is equivalent to a pointer to an array (not a slice!) of @code{byte}
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with a terminating zero byte.  So a sample call from Go would look
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like (after importing the @code{os} package):
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328
@smallexample
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var name = [4]byte@{'f', 'o', 'o', 0@};
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i := c_open(&name[0], os.O_RDONLY, 0);
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@end smallexample
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Note that this serves as an example only.  To open a file in Go please
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use Go's @code{os.Open} function instead.
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The name of Go functions accessed from C is subject to change.  At
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present the name of a Go function that does not have a receiver is
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@code{prefix.package.Functionname}.  The prefix is set by the
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@option{-fgo-prefix} option used when the package is compiled; if the
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option is not used, the default is simply @code{go}.  To call the
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function from C you must set the name using the @command{gcc}
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@code{__asm__} extension.
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344
@smallexample
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extern int go_function(int) __asm__ ("myprefix.mypackage.Function");
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@end smallexample
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@node Index
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@unnumbered Index
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@printindex cp
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@bye

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