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- This is x86_64-linux-gnu-gccinstall.info, produced by makeinfo version
- 6.7 from install.texi.
- Copyright (C) 1988-2019 Free Software Foundation, Inc.
- Permission is granted to copy, distribute and/or modify this document
- under the terms of the GNU Free Documentation License, Version 1.3 or
- any later version published by the Free Software Foundation; with no
- Invariant Sections, the Front-Cover texts being (a) (see below), and
- with the Back-Cover Texts being (b) (see below). A copy of the license
- is included in the section entitled "GNU Free Documentation License".
- (a) The FSF's Front-Cover Text is:
- A GNU Manual
- (b) The FSF's Back-Cover Text is:
- You have freedom to copy and modify this GNU Manual, like GNU
- software. Copies published by the Free Software Foundation raise funds
- for GNU development.
- INFO-DIR-SECTION Software development
- START-INFO-DIR-ENTRY
- * x86_64-linux-gnu-gccinstall: (x86_64-linux-gnu-gccinstall). Installing the GNU Compiler Collection.
- END-INFO-DIR-ENTRY
- Copyright (C) 1988-2019 Free Software Foundation, Inc.
- Permission is granted to copy, distribute and/or modify this document
- under the terms of the GNU Free Documentation License, Version 1.3 or
- any later version published by the Free Software Foundation; with no
- Invariant Sections, the Front-Cover texts being (a) (see below), and
- with the Back-Cover Texts being (b) (see below). A copy of the license
- is included in the section entitled "GNU Free Documentation License".
- (a) The FSF's Front-Cover Text is:
- A GNU Manual
- (b) The FSF's Back-Cover Text is:
- You have freedom to copy and modify this GNU Manual, like GNU
- software. Copies published by the Free Software Foundation raise funds
- for GNU development.
- File: x86_64-linux-gnu-gccinstall.info, Node: Top, Up: (dir)
- * Menu:
- * Installing GCC:: This document describes the generic installation
- procedure for GCC as well as detailing some target
- specific installation instructions.
- * Specific:: Host/target specific installation notes for GCC.
- * Binaries:: Where to get pre-compiled binaries.
- * Old:: Old installation documentation.
- * GNU Free Documentation License:: How you can copy and share this manual.
- * Concept Index:: This index has two entries.
- File: x86_64-linux-gnu-gccinstall.info, Node: Installing GCC, Next: Binaries, Up: Top
- 1 Installing GCC
- ****************
- The latest version of this document is always available at
- http://gcc.gnu.org/install/. It refers to the current development
- sources, instructions for specific released versions are included with
- the sources.
- This document describes the generic installation procedure for GCC as
- well as detailing some target specific installation instructions.
- GCC includes several components that previously were separate
- distributions with their own installation instructions. This document
- supersedes all package-specific installation instructions.
- _Before_ starting the build/install procedure please check the *note
- host/target specific installation notes: Specific. We recommend you
- browse the entire generic installation instructions before you proceed.
- Lists of successful builds for released versions of GCC are available
- at <http://gcc.gnu.org/buildstat.html>. These lists are updated as new
- information becomes available.
- The installation procedure itself is broken into five steps.
- * Menu:
- * Prerequisites::
- * Downloading the source::
- * Configuration::
- * Building::
- * Testing:: (optional)
- * Final install::
- Please note that GCC does not support 'make uninstall' and probably
- won't do so in the near future as this would open a can of worms.
- Instead, we suggest that you install GCC into a directory of its own and
- simply remove that directory when you do not need that specific version
- of GCC any longer, and, if shared libraries are installed there as well,
- no more binaries exist that use them.
- File: x86_64-linux-gnu-gccinstall.info, Node: Prerequisites, Next: Downloading the source, Up: Installing GCC
- 2 Prerequisites
- ***************
- GCC requires that various tools and packages be available for use in the
- build procedure. Modifying GCC sources requires additional tools
- described below.
- Tools/packages necessary for building GCC
- =========================================
- ISO C++98 compiler
- Necessary to bootstrap GCC, although versions of GCC prior to 4.8
- also allow bootstrapping with a ISO C89 compiler and versions of
- GCC prior to 3.4 also allow bootstrapping with a traditional (K&R)
- C compiler.
- To build all languages in a cross-compiler or other configuration
- where 3-stage bootstrap is not performed, you need to start with an
- existing GCC binary (version 3.4 or later) because source code for
- language frontends other than C might use GCC extensions.
- Note that to bootstrap GCC with versions of GCC earlier than 3.4,
- you may need to use '--disable-stage1-checking', though
- bootstrapping the compiler with such earlier compilers is strongly
- discouraged.
- C standard library and headers
- In order to build GCC, the C standard library and headers must be
- present for all target variants for which target libraries will be
- built (and not only the variant of the host C++ compiler).
- This affects the popular 'x86_64-pc-linux-gnu' platform (among
- other multilib targets), for which 64-bit ('x86_64') and 32-bit
- ('i386') libc headers are usually packaged separately. If you do a
- build of a native compiler on 'x86_64-pc-linux-gnu', make sure you
- either have the 32-bit libc developer package properly installed
- (the exact name of the package depends on your distro) or you must
- build GCC as a 64-bit only compiler by configuring with the option
- '--disable-multilib'. Otherwise, you may encounter an error such
- as 'fatal error: gnu/stubs-32.h: No such file'
- GNAT
- In order to build the Ada compiler (GNAT) you must already have
- GNAT installed because portions of the Ada frontend are written in
- Ada (with GNAT extensions.) Refer to the Ada installation
- instructions for more specific information.
- A "working" POSIX compatible shell, or GNU bash
- Necessary when running 'configure' because some '/bin/sh' shells
- have bugs and may crash when configuring the target libraries. In
- other cases, '/bin/sh' or 'ksh' have disastrous corner-case
- performance problems. This can cause target 'configure' runs to
- literally take days to complete in some cases.
- So on some platforms '/bin/ksh' is sufficient, on others it isn't.
- See the host/target specific instructions for your platform, or use
- 'bash' to be sure. Then set 'CONFIG_SHELL' in your environment to
- your "good" shell prior to running 'configure'/'make'.
- 'zsh' is not a fully compliant POSIX shell and will not work when
- configuring GCC.
- A POSIX or SVR4 awk
- Necessary for creating some of the generated source files for GCC.
- If in doubt, use a recent GNU awk version, as some of the older
- ones are broken. GNU awk version 3.1.5 is known to work.
- GNU binutils
- Necessary in some circumstances, optional in others. See the
- host/target specific instructions for your platform for the exact
- requirements.
- gzip version 1.2.4 (or later) or
- bzip2 version 1.0.2 (or later)
- Necessary to uncompress GCC 'tar' files when source code is
- obtained via FTP mirror sites.
- GNU make version 3.80 (or later)
- You must have GNU make installed to build GCC.
- GNU tar version 1.14 (or later)
- Necessary (only on some platforms) to untar the source code. Many
- systems' 'tar' programs will also work, only try GNU 'tar' if you
- have problems.
- Perl version between 5.6.1 and 5.6.24
- Necessary when targeting Darwin, building 'libstdc++', and not
- using '--disable-symvers'. Necessary when targeting Solaris 2 with
- Sun 'ld' and not using '--disable-symvers'. The bundled 'perl' in
- Solaris 8 and up works.
- Necessary when regenerating 'Makefile' dependencies in libiberty.
- Necessary when regenerating 'libiberty/functions.texi'. Necessary
- when generating manpages from Texinfo manuals. Used by various
- scripts to generate some files included in the source repository
- (mainly Unicode-related and rarely changing) from source tables.
- Used by 'automake'.
- Several support libraries are necessary to build GCC, some are
- required, others optional. While any sufficiently new version of
- required tools usually work, library requirements are generally
- stricter. Newer versions may work in some cases, but it's safer to use
- the exact versions documented. We appreciate bug reports about problems
- with newer versions, though. If your OS vendor provides packages for
- the support libraries then using those packages may be the simplest way
- to install the libraries.
- GNU Multiple Precision Library (GMP) version 4.3.2 (or later)
- Necessary to build GCC. If a GMP source distribution is found in a
- subdirectory of your GCC sources named 'gmp', it will be built
- together with GCC. Alternatively, if GMP is already installed but
- it is not in your library search path, you will have to configure
- with the '--with-gmp' configure option. See also '--with-gmp-lib'
- and '--with-gmp-include'. The in-tree build is only supported with
- the GMP version that download_prerequisites installs.
- MPFR Library version 2.4.2 (or later)
- Necessary to build GCC. It can be downloaded from
- <https://www.mpfr.org>. If an MPFR source distribution is found in
- a subdirectory of your GCC sources named 'mpfr', it will be built
- together with GCC. Alternatively, if MPFR is already installed but
- it is not in your default library search path, the '--with-mpfr'
- configure option should be used. See also '--with-mpfr-lib' and
- '--with-mpfr-include'. The in-tree build is only supported with
- the MPFR version that download_prerequisites installs.
- MPC Library version 0.8.1 (or later)
- Necessary to build GCC. It can be downloaded from
- <http://www.multiprecision.org/mpc/>. If an MPC source
- distribution is found in a subdirectory of your GCC sources named
- 'mpc', it will be built together with GCC. Alternatively, if MPC is
- already installed but it is not in your default library search
- path, the '--with-mpc' configure option should be used. See also
- '--with-mpc-lib' and '--with-mpc-include'. The in-tree build is
- only supported with the MPC version that download_prerequisites
- installs.
- isl Library version 0.15 or later.
- Necessary to build GCC with the Graphite loop optimizations. It
- can be downloaded from <ftp://gcc.gnu.org/pub/gcc/infrastructure/>.
- If an isl source distribution is found in a subdirectory of your
- GCC sources named 'isl', it will be built together with GCC.
- Alternatively, the '--with-isl' configure option should be used if
- isl is not installed in your default library search path.
- Tools/packages necessary for modifying GCC
- ==========================================
- autoconf version 2.69
- GNU m4 version 1.4.6 (or later)
- Necessary when modifying 'configure.ac', 'aclocal.m4', etc. to
- regenerate 'configure' and 'config.in' files.
- automake version 1.15.1
- Necessary when modifying a 'Makefile.am' file to regenerate its
- associated 'Makefile.in'.
- Much of GCC does not use automake, so directly edit the
- 'Makefile.in' file. Specifically this applies to the 'gcc',
- 'intl', 'libcpp', 'libiberty', 'libobjc' directories as well as any
- of their subdirectories.
- For directories that use automake, GCC requires the latest release
- in the 1.15 series, which is currently 1.15.1. When regenerating a
- directory to a newer version, please update all the directories
- using an older 1.15 to the latest released version.
- gettext version 0.14.5 (or later)
- Needed to regenerate 'gcc.pot'.
- gperf version 2.7.2 (or later)
- Necessary when modifying 'gperf' input files, e.g.
- 'gcc/cp/cfns.gperf' to regenerate its associated header file, e.g.
- 'gcc/cp/cfns.h'.
- DejaGnu 1.4.4
- Expect
- Tcl
- Necessary to run the GCC testsuite; see the section on testing for
- details. Tcl 8.6 has a known regression in RE pattern handling
- that make parts of the testsuite fail. See
- <http://core.tcl.tk/tcl/tktview/267b7e2334ee2e9de34c4b00d6e72e2f1997085f>
- for more information. This bug has been fixed in 8.6.1.
- autogen version 5.5.4 (or later) and
- guile version 1.4.1 (or later)
- Necessary to regenerate 'fixinc/fixincl.x' from
- 'fixinc/inclhack.def' and 'fixinc/*.tpl'.
- Necessary to run 'make check' for 'fixinc'.
- Necessary to regenerate the top level 'Makefile.in' file from
- 'Makefile.tpl' and 'Makefile.def'.
- Flex version 2.5.4 (or later)
- Necessary when modifying '*.l' files.
- Necessary to build GCC during development because the generated
- output files are not included in the version-controlled source
- repository. They are included in releases.
- Texinfo version 4.7 (or later)
- Necessary for running 'makeinfo' when modifying '*.texi' files to
- test your changes.
- Necessary for running 'make dvi' or 'make pdf' to create printable
- documentation in DVI or PDF format. Texinfo version 4.8 or later
- is required for 'make pdf'.
- Necessary to build GCC documentation during development because the
- generated output files are not included in the repository. They
- are included in releases.
- TeX (any working version)
- Necessary for running 'texi2dvi' and 'texi2pdf', which are used
- when running 'make dvi' or 'make pdf' to create DVI or PDF files,
- respectively.
- Sphinx version 1.0 (or later)
- Necessary to regenerate 'jit/docs/_build/texinfo' from the '.rst'
- files in the directories below 'jit/docs'.
- git (any version)
- SSH (any version)
- Necessary to access the source repository. Public releases and
- weekly snapshots of the development sources are also available via
- HTTPS.
- GNU diffutils version 2.7 (or later)
- Useful when submitting patches for the GCC source code.
- patch version 2.5.4 (or later)
- Necessary when applying patches, created with 'diff', to one's own
- sources.
- File: x86_64-linux-gnu-gccinstall.info, Node: Downloading the source, Next: Configuration, Prev: Prerequisites, Up: Installing GCC
- 3 Downloading GCC
- *****************
- GCC is distributed via git and via HTTPS as tarballs compressed with
- 'gzip' or 'bzip2'.
- Please refer to the releases web page for information on how to
- obtain GCC.
- The source distribution includes the C, C++, Objective-C, Fortran,
- and Ada (in the case of GCC 3.1 and later) compilers, as well as runtime
- libraries for C++, Objective-C, and Fortran. For previous versions
- these were downloadable as separate components such as the core GCC
- distribution, which included the C language front end and shared
- components, and language-specific distributions including the language
- front end and the language runtime (where appropriate).
- If you also intend to build binutils (either to upgrade an existing
- installation or for use in place of the corresponding tools of your OS),
- unpack the binutils distribution either in the same directory or a
- separate one. In the latter case, add symbolic links to any components
- of the binutils you intend to build alongside the compiler ('bfd',
- 'binutils', 'gas', 'gprof', 'ld', 'opcodes', ...) to the directory
- containing the GCC sources.
- Likewise the GMP, MPFR and MPC libraries can be automatically built
- together with GCC. You may simply run the
- 'contrib/download_prerequisites' script in the GCC source directory to
- set up everything. Otherwise unpack the GMP, MPFR and/or MPC source
- distributions in the directory containing the GCC sources and rename
- their directories to 'gmp', 'mpfr' and 'mpc', respectively (or use
- symbolic links with the same name).
- File: x86_64-linux-gnu-gccinstall.info, Node: Configuration, Next: Building, Prev: Downloading the source, Up: Installing GCC
- 4 Installing GCC: Configuration
- *******************************
- Like most GNU software, GCC must be configured before it can be built.
- This document describes the recommended configuration procedure for both
- native and cross targets.
- We use SRCDIR to refer to the toplevel source directory for GCC; we
- use OBJDIR to refer to the toplevel build/object directory.
- If you obtained the sources by cloning the repository, SRCDIR must
- refer to the top 'gcc' directory, the one where the 'MAINTAINERS' file
- can be found, and not its 'gcc' subdirectory, otherwise the build will
- fail.
- If either SRCDIR or OBJDIR is located on an automounted NFS file
- system, the shell's built-in 'pwd' command will return temporary
- pathnames. Using these can lead to various sorts of build problems. To
- avoid this issue, set the 'PWDCMD' environment variable to an
- automounter-aware 'pwd' command, e.g., 'pawd' or 'amq -w', during the
- configuration and build phases.
- First, we *highly* recommend that GCC be built into a separate
- directory from the sources which does *not* reside within the source
- tree. This is how we generally build GCC; building where SRCDIR ==
- OBJDIR should still work, but doesn't get extensive testing; building
- where OBJDIR is a subdirectory of SRCDIR is unsupported.
- If you have previously built GCC in the same directory for a
- different target machine, do 'make distclean' to delete all files that
- might be invalid. One of the files this deletes is 'Makefile'; if 'make
- distclean' complains that 'Makefile' does not exist or issues a message
- like "don't know how to make distclean" it probably means that the
- directory is already suitably clean. However, with the recommended
- method of building in a separate OBJDIR, you should simply use a
- different OBJDIR for each target.
- Second, when configuring a native system, either 'cc' or 'gcc' must
- be in your path or you must set 'CC' in your environment before running
- configure. Otherwise the configuration scripts may fail.
- To configure GCC:
- % mkdir OBJDIR
- % cd OBJDIR
- % SRCDIR/configure [OPTIONS] [TARGET]
- Distributor options
- ===================
- If you will be distributing binary versions of GCC, with modifications
- to the source code, you should use the options described in this section
- to make clear that your version contains modifications.
- '--with-pkgversion=VERSION'
- Specify a string that identifies your package. You may wish to
- include a build number or build date. This version string will be
- included in the output of 'gcc --version'. This suffix does not
- replace the default version string, only the 'GCC' part.
- The default value is 'GCC'.
- '--with-bugurl=URL'
- Specify the URL that users should visit if they wish to report a
- bug. You are of course welcome to forward bugs reported to you to
- the FSF, if you determine that they are not bugs in your
- modifications.
- The default value refers to the FSF's GCC bug tracker.
- Target specification
- ====================
- * GCC has code to correctly determine the correct value for TARGET
- for nearly all native systems. Therefore, we highly recommend you
- do not provide a configure target when configuring a native
- compiler.
- * TARGET must be specified as '--target=TARGET' when configuring a
- cross compiler; examples of valid targets would be m68k-elf,
- sh-elf, etc.
- * Specifying just TARGET instead of '--target=TARGET' implies that
- the host defaults to TARGET.
- Options specification
- =====================
- Use OPTIONS to override several configure time options for GCC. A list
- of supported OPTIONS follows; 'configure --help' may list other options,
- but those not listed below may not work and should not normally be used.
- Note that each '--enable' option has a corresponding '--disable'
- option and that each '--with' option has a corresponding '--without'
- option.
- '--prefix=DIRNAME'
- Specify the toplevel installation directory. This is the
- recommended way to install the tools into a directory other than
- the default. The toplevel installation directory defaults to
- '/usr/local'.
- We *highly* recommend against DIRNAME being the same or a
- subdirectory of OBJDIR or vice versa. If specifying a directory
- beneath a user's home directory tree, some shells will not expand
- DIRNAME correctly if it contains the '~' metacharacter; use '$HOME'
- instead.
- The following standard 'autoconf' options are supported. Normally
- you should not need to use these options.
- '--exec-prefix=DIRNAME'
- Specify the toplevel installation directory for
- architecture-dependent files. The default is 'PREFIX'.
- '--bindir=DIRNAME'
- Specify the installation directory for the executables called
- by users (such as 'gcc' and 'g++'). The default is
- 'EXEC-PREFIX/bin'.
- '--libdir=DIRNAME'
- Specify the installation directory for object code libraries
- and internal data files of GCC. The default is
- 'EXEC-PREFIX/lib'.
- '--libexecdir=DIRNAME'
- Specify the installation directory for internal executables of
- GCC. The default is 'EXEC-PREFIX/libexec'.
- '--with-slibdir=DIRNAME'
- Specify the installation directory for the shared libgcc
- library. The default is 'LIBDIR'.
- '--datarootdir=DIRNAME'
- Specify the root of the directory tree for read-only
- architecture-independent data files referenced by GCC. The
- default is 'PREFIX/share'.
- '--infodir=DIRNAME'
- Specify the installation directory for documentation in info
- format. The default is 'DATAROOTDIR/info'.
- '--datadir=DIRNAME'
- Specify the installation directory for some
- architecture-independent data files referenced by GCC. The
- default is 'DATAROOTDIR'.
- '--docdir=DIRNAME'
- Specify the installation directory for documentation files
- (other than Info) for GCC. The default is 'DATAROOTDIR/doc'.
- '--htmldir=DIRNAME'
- Specify the installation directory for HTML documentation
- files. The default is 'DOCDIR'.
- '--pdfdir=DIRNAME'
- Specify the installation directory for PDF documentation
- files. The default is 'DOCDIR'.
- '--mandir=DIRNAME'
- Specify the installation directory for manual pages. The
- default is 'DATAROOTDIR/man'. (Note that the manual pages are
- only extracts from the full GCC manuals, which are provided in
- Texinfo format. The manpages are derived by an automatic
- conversion process from parts of the full manual.)
- '--with-gxx-include-dir=DIRNAME'
- Specify the installation directory for G++ header files. The
- default depends on other configuration options, and differs
- between cross and native configurations.
- '--with-specs=SPECS'
- Specify additional command line driver SPECS. This can be
- useful if you need to turn on a non-standard feature by
- default without modifying the compiler's source code, for
- instance
- '--with-specs=%{!fcommon:%{!fno-common:-fno-common}}'. *Note
- Specifying subprocesses and the switches to pass to them:
- (gcc)Spec Files,
- '--program-prefix=PREFIX'
- GCC supports some transformations of the names of its programs when
- installing them. This option prepends PREFIX to the names of
- programs to install in BINDIR (see above). For example, specifying
- '--program-prefix=foo-' would result in 'gcc' being installed as
- '/usr/local/bin/foo-gcc'.
- '--program-suffix=SUFFIX'
- Appends SUFFIX to the names of programs to install in BINDIR (see
- above). For example, specifying '--program-suffix=-3.1' would
- result in 'gcc' being installed as '/usr/local/bin/gcc-3.1'.
- '--program-transform-name=PATTERN'
- Applies the 'sed' script PATTERN to be applied to the names of
- programs to install in BINDIR (see above). PATTERN has to consist
- of one or more basic 'sed' editing commands, separated by
- semicolons. For example, if you want the 'gcc' program name to be
- transformed to the installed program '/usr/local/bin/myowngcc' and
- the 'g++' program name to be transformed to
- '/usr/local/bin/gspecial++' without changing other program names,
- you could use the pattern
- '--program-transform-name='s/^gcc$/myowngcc/; s/^g++$/gspecial++/''
- to achieve this effect.
- All three options can be combined and used together, resulting in
- more complex conversion patterns. As a basic rule, PREFIX (and
- SUFFIX) are prepended (appended) before further transformations can
- happen with a special transformation script PATTERN.
- As currently implemented, this option only takes effect for native
- builds; cross compiler binaries' names are not transformed even
- when a transformation is explicitly asked for by one of these
- options.
- For native builds, some of the installed programs are also
- installed with the target alias in front of their name, as in
- 'i686-pc-linux-gnu-gcc'. All of the above transformations happen
- before the target alias is prepended to the name--so, specifying
- '--program-prefix=foo-' and 'program-suffix=-3.1', the resulting
- binary would be installed as
- '/usr/local/bin/i686-pc-linux-gnu-foo-gcc-3.1'.
- As a last shortcoming, none of the installed Ada programs are
- transformed yet, which will be fixed in some time.
- '--with-local-prefix=DIRNAME'
- Specify the installation directory for local include files. The
- default is '/usr/local'. Specify this option if you want the
- compiler to search directory 'DIRNAME/include' for locally
- installed header files _instead_ of '/usr/local/include'.
- You should specify '--with-local-prefix' *only* if your site has a
- different convention (not '/usr/local') for where to put
- site-specific files.
- The default value for '--with-local-prefix' is '/usr/local'
- regardless of the value of '--prefix'. Specifying '--prefix' has
- no effect on which directory GCC searches for local header files.
- This may seem counterintuitive, but actually it is logical.
- The purpose of '--prefix' is to specify where to _install GCC_. The
- local header files in '/usr/local/include'--if you put any in that
- directory--are not part of GCC. They are part of other
- programs--perhaps many others. (GCC installs its own header files
- in another directory which is based on the '--prefix' value.)
- Both the local-prefix include directory and the GCC-prefix include
- directory are part of GCC's "system include" directories. Although
- these two directories are not fixed, they need to be searched in
- the proper order for the correct processing of the include_next
- directive. The local-prefix include directory is searched before
- the GCC-prefix include directory. Another characteristic of system
- include directories is that pedantic warnings are turned off for
- headers in these directories.
- Some autoconf macros add '-I DIRECTORY' options to the compiler
- command line, to ensure that directories containing installed
- packages' headers are searched. When DIRECTORY is one of GCC's
- system include directories, GCC will ignore the option so that
- system directories continue to be processed in the correct order.
- This may result in a search order different from what was specified
- but the directory will still be searched.
- GCC automatically searches for ordinary libraries using
- 'GCC_EXEC_PREFIX'. Thus, when the same installation prefix is used
- for both GCC and packages, GCC will automatically search for both
- headers and libraries. This provides a configuration that is easy
- to use. GCC behaves in a manner similar to that when it is
- installed as a system compiler in '/usr'.
- Sites that need to install multiple versions of GCC may not want to
- use the above simple configuration. It is possible to use the
- '--program-prefix', '--program-suffix' and
- '--program-transform-name' options to install multiple versions
- into a single directory, but it may be simpler to use different
- prefixes and the '--with-local-prefix' option to specify the
- location of the site-specific files for each version. It will then
- be necessary for users to specify explicitly the location of local
- site libraries (e.g., with 'LIBRARY_PATH').
- The same value can be used for both '--with-local-prefix' and
- '--prefix' provided it is not '/usr'. This can be used to avoid
- the default search of '/usr/local/include'.
- *Do not* specify '/usr' as the '--with-local-prefix'! The
- directory you use for '--with-local-prefix' *must not* contain any
- of the system's standard header files. If it did contain them,
- certain programs would be miscompiled (including GNU Emacs, on
- certain targets), because this would override and nullify the
- header file corrections made by the 'fixincludes' script.
- Indications are that people who use this option use it based on
- mistaken ideas of what it is for. People use it as if it specified
- where to install part of GCC. Perhaps they make this assumption
- because installing GCC creates the directory.
- '--with-gcc-major-version-only'
- Specifies that GCC should use only the major number rather than
- MAJOR.MINOR.PATCHLEVEL in filesystem paths.
- '--with-native-system-header-dir=DIRNAME'
- Specifies that DIRNAME is the directory that contains native system
- header files, rather than '/usr/include'. This option is most
- useful if you are creating a compiler that should be isolated from
- the system as much as possible. It is most commonly used with the
- '--with-sysroot' option and will cause GCC to search DIRNAME inside
- the system root specified by that option.
- '--enable-shared[=PACKAGE[,...]]'
- Build shared versions of libraries, if shared libraries are
- supported on the target platform. Unlike GCC 2.95.x and earlier,
- shared libraries are enabled by default on all platforms that
- support shared libraries.
- If a list of packages is given as an argument, build shared
- libraries only for the listed packages. For other packages, only
- static libraries will be built. Package names currently recognized
- in the GCC tree are 'libgcc' (also known as 'gcc'), 'libstdc++'
- (not 'libstdc++-v3'), 'libffi', 'zlib', 'boehm-gc', 'ada',
- 'libada', 'libgo', 'libobjc', and 'libphobos'. Note 'libiberty'
- does not support shared libraries at all.
- Use '--disable-shared' to build only static libraries. Note that
- '--disable-shared' does not accept a list of package names as
- argument, only '--enable-shared' does.
- Contrast with '--enable-host-shared', which affects _host_ code.
- '--enable-host-shared'
- Specify that the _host_ code should be built into
- position-independent machine code (with -fPIC), allowing it to be
- used within shared libraries, but yielding a slightly slower
- compiler.
- This option is required when building the libgccjit.so library.
- Contrast with '--enable-shared', which affects _target_ libraries.
- '--with-gnu-as'
- Specify that the compiler should assume that the assembler it finds
- is the GNU assembler. However, this does not modify the rules to
- find an assembler and will result in confusion if the assembler
- found is not actually the GNU assembler. (Confusion may also
- result if the compiler finds the GNU assembler but has not been
- configured with '--with-gnu-as'.) If you have more than one
- assembler installed on your system, you may want to use this option
- in connection with '--with-as=PATHNAME' or
- '--with-build-time-tools=PATHNAME'.
- The following systems are the only ones where it makes a difference
- whether you use the GNU assembler. On any other system,
- '--with-gnu-as' has no effect.
- * 'hppa1.0-ANY-ANY'
- * 'hppa1.1-ANY-ANY'
- * 'sparc-sun-solaris2.ANY'
- * 'sparc64-ANY-solaris2.ANY'
- '--with-as=PATHNAME'
- Specify that the compiler should use the assembler pointed to by
- PATHNAME, rather than the one found by the standard rules to find
- an assembler, which are:
- * Unless GCC is being built with a cross compiler, check the
- 'LIBEXEC/gcc/TARGET/VERSION' directory. LIBEXEC defaults to
- 'EXEC-PREFIX/libexec'; EXEC-PREFIX defaults to PREFIX, which
- defaults to '/usr/local' unless overridden by the
- '--prefix=PATHNAME' switch described above. TARGET is the
- target system triple, such as 'sparc-sun-solaris2.7', and
- VERSION denotes the GCC version, such as 3.0.
- * If the target system is the same that you are building on,
- check operating system specific directories (e.g.
- '/usr/ccs/bin' on Sun Solaris 2).
- * Check in the 'PATH' for a tool whose name is prefixed by the
- target system triple.
- * Check in the 'PATH' for a tool whose name is not prefixed by
- the target system triple, if the host and target system triple
- are the same (in other words, we use a host tool if it can be
- used for the target as well).
- You may want to use '--with-as' if no assembler is installed in the
- directories listed above, or if you have multiple assemblers
- installed and want to choose one that is not found by the above
- rules.
- '--with-gnu-ld'
- Same as '--with-gnu-as' but for the linker.
- '--with-ld=PATHNAME'
- Same as '--with-as' but for the linker.
- '--with-stabs'
- Specify that stabs debugging information should be used instead of
- whatever format the host normally uses. Normally GCC uses the same
- debug format as the host system.
- '--with-tls=DIALECT'
- Specify the default TLS dialect, for systems were there is a
- choice. For ARM targets, possible values for DIALECT are 'gnu' or
- 'gnu2', which select between the original GNU dialect and the GNU
- TLS descriptor-based dialect.
- '--enable-multiarch'
- Specify whether to enable or disable multiarch support. The
- default is to check for glibc start files in a multiarch location,
- and enable it if the files are found. The auto detection is
- enabled for native builds, and for cross builds configured with
- '--with-sysroot', and without '--with-native-system-header-dir'.
- More documentation about multiarch can be found at
- <https://wiki.debian.org/Multiarch>.
- '--enable-sjlj-exceptions'
- Force use of the 'setjmp'/'longjmp'-based scheme for exceptions.
- 'configure' ordinarily picks the correct value based on the
- platform. Only use this option if you are sure you need a
- different setting.
- '--enable-vtable-verify'
- Specify whether to enable or disable the vtable verification
- feature. Enabling this feature causes libstdc++ to be built with
- its virtual calls in verifiable mode. This means that, when linked
- with libvtv, every virtual call in libstdc++ will verify the vtable
- pointer through which the call will be made before actually making
- the call. If not linked with libvtv, the verifier will call stub
- functions (in libstdc++ itself) and do nothing. If vtable
- verification is disabled, then libstdc++ is not built with its
- virtual calls in verifiable mode at all. However the libvtv
- library will still be built (see '--disable-libvtv' to turn off
- building libvtv). '--disable-vtable-verify' is the default.
- '--disable-gcov'
- Specify that the run-time library used for coverage analysis and
- associated host tools should not be built.
- '--disable-multilib'
- Specify that multiple target libraries to support different target
- variants, calling conventions, etc. should not be built. The
- default is to build a predefined set of them.
- Some targets provide finer-grained control over which multilibs are
- built (e.g., '--disable-softfloat'):
- 'arm-*-*'
- fpu, 26bit, underscore, interwork, biendian, nofmult.
- 'm68*-*-*'
- softfloat, m68881, m68000, m68020.
- 'mips*-*-*'
- single-float, biendian, softfloat.
- 'powerpc*-*-*, rs6000*-*-*'
- aix64, pthread, softfloat, powercpu, powerpccpu, powerpcos,
- biendian, sysv, aix.
- '--with-multilib-list=LIST'
- '--without-multilib-list'
- Specify what multilibs to build. LIST is a comma separated list of
- values, possibly consisting of a single value. Currently only
- implemented for aarch64*-*-*, arm*-*-*, riscv*-*-*, sh*-*-* and
- x86-64-*-linux*. The accepted values and meaning for each target
- is given below.
- 'aarch64*-*-*'
- LIST is a comma separated list of 'ilp32', and 'lp64' to
- enable ILP32 and LP64 run-time libraries, respectively. If
- LIST is empty, then there will be no multilibs and only the
- default run-time library will be built. If LIST is 'default'
- or -with-multilib-list= is not specified, then the default set
- of libraries is selected based on the value of '--target'.
- 'arm*-*-*'
- LIST is a comma separated list of 'aprofile' and 'rmprofile'
- to build multilibs for A or R and M architecture profiles
- respectively. Note that, due to some limitation of the
- current multilib framework, using the combined
- 'aprofile,rmprofile' multilibs selects in some cases a less
- optimal multilib than when using the multilib profile for the
- architecture targetted. The special value 'default' is also
- accepted and is equivalent to omitting the option, i.e., only
- the default run-time library will be enabled.
- LIST may instead contain '@name', to use the multilib
- configuration Makefile fragment 'name' in 'gcc/config/arm' in
- the source tree (it is part of the corresponding sources,
- after all). It is recommended, but not required, that files
- used for this purpose to be named starting with 't-ml-', to
- make their intended purpose self-evident, in line with GCC
- conventions. Such files enable custom, user-chosen multilib
- lists to be configured. Whether multiple such files can be
- used together depends on the contents of the supplied files.
- See 'gcc/config/arm/t-multilib' and its supplementary
- 'gcc/config/arm/t-*profile' files for an example of what such
- Makefile fragments might look like for this version of GCC.
- The macros expected to be defined in these fragments are not
- stable across GCC releases, so make sure they define the
- 'MULTILIB'-related macros expected by the version of GCC you
- are building. *Note Target Makefile Fragments: (gccint)Target
- Fragment.
- The table below gives the combination of ISAs, architectures,
- FPUs and floating-point ABIs for which multilibs are built for
- each predefined profile. The union of these options is
- considered when specifying both 'aprofile' and 'rmprofile'.
- Option aprofile rmprofile
- ISAs '-marm' and '-mthumb'
- '-mthumb'
- Architecturesdefault default architecture
- architecture '-march=armv6s-m'
- '-march=armv7-a' '-march=armv7-m'
- '-march=armv7ve' '-march=armv7e-m'
- '-march=armv8-a' '-march=armv8-m.base'
- '-march=armv8-m.main'
- '-march=armv7'
- FPUs none none
- '-mfpu=vfpv3-d16' '-mfpu=vfpv3-d16'
- '-mfpu=neon' '-mfpu=fpv4-sp-d16'
- '-mfpu=vfpv4-d16' '-mfpu=fpv5-sp-d16'
- '-mfpu=neon-vfpv4' '-mfpu=fpv5-d16'
- '-mfpu=neon-fp-armv8'
- floating-point'-mfloat-abi=soft' '-mfloat-abi=soft'
- ABIs '-mfloat-abi=softfp' '-mfloat-abi=softfp'
- '-mfloat-abi=hard' '-mfloat-abi=hard'
- 'riscv*-*-*'
- LIST is a single ABI name. The target architecture must be
- either 'rv32gc' or 'rv64gc'. This will build a single
- multilib for the specified architecture and ABI pair. If
- '--with-multilib-list' is not given, then a default set of
- multilibs is selected based on the value of '--target'. This
- is usually a large set of multilibs.
- 'sh*-*-*'
- LIST is a comma separated list of CPU names. These must be of
- the form 'sh*' or 'm*' (in which case they match the compiler
- option for that processor). The list should not contain any
- endian options - these are handled by '--with-endian'.
- If LIST is empty, then there will be no multilibs for extra
- processors. The multilib for the secondary endian remains
- enabled.
- As a special case, if an entry in the list starts with a '!'
- (exclamation point), then it is added to the list of excluded
- multilibs. Entries of this sort should be compatible with
- 'MULTILIB_EXCLUDES' (once the leading '!' has been stripped).
- If '--with-multilib-list' is not given, then a default set of
- multilibs is selected based on the value of '--target'. This
- is usually the complete set of libraries, but some targets
- imply a more specialized subset.
- Example 1: to configure a compiler for SH4A only, but
- supporting both endians, with little endian being the default:
- --with-cpu=sh4a --with-endian=little,big --with-multilib-list=
- Example 2: to configure a compiler for both SH4A and
- SH4AL-DSP, but with only little endian SH4AL:
- --with-cpu=sh4a --with-endian=little,big \
- --with-multilib-list=sh4al,!mb/m4al
- 'x86-64-*-linux*'
- LIST is a comma separated list of 'm32', 'm64' and 'mx32' to
- enable 32-bit, 64-bit and x32 run-time libraries,
- respectively. If LIST is empty, then there will be no
- multilibs and only the default run-time library will be
- enabled.
- If '--with-multilib-list' is not given, then only 32-bit and
- 64-bit run-time libraries will be enabled.
- '--with-endian=ENDIANS'
- Specify what endians to use. Currently only implemented for
- sh*-*-*.
- ENDIANS may be one of the following:
- 'big'
- Use big endian exclusively.
- 'little'
- Use little endian exclusively.
- 'big,little'
- Use big endian by default. Provide a multilib for little
- endian.
- 'little,big'
- Use little endian by default. Provide a multilib for big
- endian.
- '--enable-threads'
- Specify that the target supports threads. This affects the
- Objective-C compiler and runtime library, and exception handling
- for other languages like C++. On some systems, this is the
- default.
- In general, the best (and, in many cases, the only known) threading
- model available will be configured for use. Beware that on some
- systems, GCC has not been taught what threading models are
- generally available for the system. In this case,
- '--enable-threads' is an alias for '--enable-threads=single'.
- '--disable-threads'
- Specify that threading support should be disabled for the system.
- This is an alias for '--enable-threads=single'.
- '--enable-threads=LIB'
- Specify that LIB is the thread support library. This affects the
- Objective-C compiler and runtime library, and exception handling
- for other languages like C++. The possibilities for LIB are:
- 'aix'
- AIX thread support.
- 'dce'
- DCE thread support.
- 'lynx'
- LynxOS thread support.
- 'mipssde'
- MIPS SDE thread support.
- 'no'
- This is an alias for 'single'.
- 'posix'
- Generic POSIX/Unix98 thread support.
- 'rtems'
- RTEMS thread support.
- 'single'
- Disable thread support, should work for all platforms.
- 'tpf'
- TPF thread support.
- 'vxworks'
- VxWorks thread support.
- 'win32'
- Microsoft Win32 API thread support.
- '--enable-tls'
- Specify that the target supports TLS (Thread Local Storage).
- Usually configure can correctly determine if TLS is supported. In
- cases where it guesses incorrectly, TLS can be explicitly enabled
- or disabled with '--enable-tls' or '--disable-tls'. This can
- happen if the assembler supports TLS but the C library does not, or
- if the assumptions made by the configure test are incorrect.
- '--disable-tls'
- Specify that the target does not support TLS. This is an alias for
- '--enable-tls=no'.
- '--with-cpu=CPU'
- '--with-cpu-32=CPU'
- '--with-cpu-64=CPU'
- Specify which cpu variant the compiler should generate code for by
- default. CPU will be used as the default value of the '-mcpu='
- switch. This option is only supported on some targets, including
- ARC, ARM, i386, M68k, PowerPC, and SPARC. It is mandatory for ARC.
- The '--with-cpu-32' and '--with-cpu-64' options specify separate
- default CPUs for 32-bit and 64-bit modes; these options are only
- supported for i386, x86-64, PowerPC, and SPARC.
- '--with-schedule=CPU'
- '--with-arch=CPU'
- '--with-arch-32=CPU'
- '--with-arch-64=CPU'
- '--with-tune=CPU'
- '--with-tune-32=CPU'
- '--with-tune-64=CPU'
- '--with-abi=ABI'
- '--with-fpu=TYPE'
- '--with-float=TYPE'
- These configure options provide default values for the
- '-mschedule=', '-march=', '-mtune=', '-mabi=', and '-mfpu=' options
- and for '-mhard-float' or '-msoft-float'. As with '--with-cpu',
- which switches will be accepted and acceptable values of the
- arguments depend on the target.
- '--with-mode=MODE'
- Specify if the compiler should default to '-marm' or '-mthumb'.
- This option is only supported on ARM targets.
- '--with-stack-offset=NUM'
- This option sets the default for the -mstack-offset=NUM option, and
- will thus generally also control the setting of this option for
- libraries. This option is only supported on Epiphany targets.
- '--with-fpmath=ISA'
- This options sets '-mfpmath=sse' by default and specifies the
- default ISA for floating-point arithmetics. You can select either
- 'sse' which enables '-msse2' or 'avx' which enables '-mavx' by
- default. This option is only supported on i386 and x86-64 targets.
- '--with-fp-32=MODE'
- On MIPS targets, set the default value for the '-mfp' option when
- using the o32 ABI. The possibilities for MODE are:
- '32'
- Use the o32 FP32 ABI extension, as with the '-mfp32'
- command-line option.
- 'xx'
- Use the o32 FPXX ABI extension, as with the '-mfpxx'
- command-line option.
- '64'
- Use the o32 FP64 ABI extension, as with the '-mfp64'
- command-line option.
- In the absence of this configuration option the default is to use
- the o32 FP32 ABI extension.
- '--with-odd-spreg-32'
- On MIPS targets, set the '-modd-spreg' option by default when using
- the o32 ABI.
- '--without-odd-spreg-32'
- On MIPS targets, set the '-mno-odd-spreg' option by default when
- using the o32 ABI. This is normally used in conjunction with
- '--with-fp-32=64' in order to target the o32 FP64A ABI extension.
- '--with-nan=ENCODING'
- On MIPS targets, set the default encoding convention to use for the
- special not-a-number (NaN) IEEE 754 floating-point data. The
- possibilities for ENCODING are:
- 'legacy'
- Use the legacy encoding, as with the '-mnan=legacy'
- command-line option.
- '2008'
- Use the 754-2008 encoding, as with the '-mnan=2008'
- command-line option.
- To use this configuration option you must have an assembler version
- installed that supports the '-mnan=' command-line option too. In
- the absence of this configuration option the default convention is
- the legacy encoding, as when neither of the '-mnan=2008' and
- '-mnan=legacy' command-line options has been used.
- '--with-divide=TYPE'
- Specify how the compiler should generate code for checking for
- division by zero. This option is only supported on the MIPS
- target. The possibilities for TYPE are:
- 'traps'
- Division by zero checks use conditional traps (this is the
- default on systems that support conditional traps).
- 'breaks'
- Division by zero checks use the break instruction.
- '--with-llsc'
- On MIPS targets, make '-mllsc' the default when no '-mno-llsc'
- option is passed. This is the default for Linux-based targets, as
- the kernel will emulate them if the ISA does not provide them.
- '--without-llsc'
- On MIPS targets, make '-mno-llsc' the default when no '-mllsc'
- option is passed.
- '--with-synci'
- On MIPS targets, make '-msynci' the default when no '-mno-synci'
- option is passed.
- '--without-synci'
- On MIPS targets, make '-mno-synci' the default when no '-msynci'
- option is passed. This is the default.
- '--with-lxc1-sxc1'
- On MIPS targets, make '-mlxc1-sxc1' the default when no
- '-mno-lxc1-sxc1' option is passed. This is the default.
- '--without-lxc1-sxc1'
- On MIPS targets, make '-mno-lxc1-sxc1' the default when no
- '-mlxc1-sxc1' option is passed. The indexed load/store
- instructions are not directly a problem but can lead to unexpected
- behaviour when deployed in an application intended for a 32-bit
- address space but run on a 64-bit processor. The issue is seen
- because all known MIPS 64-bit Linux kernels execute o32 and n32
- applications with 64-bit addressing enabled which affects the
- overflow behaviour of the indexed addressing mode. GCC will assume
- that ordinary 32-bit arithmetic overflow behaviour is the same
- whether performed as an 'addu' instruction or as part of the
- address calculation in 'lwxc1' type instructions. This assumption
- holds true in a pure 32-bit environment and can hold true in a
- 64-bit environment if the address space is accurately set to be
- 32-bit for o32 and n32.
- '--with-madd4'
- On MIPS targets, make '-mmadd4' the default when no '-mno-madd4'
- option is passed. This is the default.
- '--without-madd4'
- On MIPS targets, make '-mno-madd4' the default when no '-mmadd4'
- option is passed. The 'madd4' instruction family can be
- problematic when targeting a combination of cores that implement
- these instructions differently. There are two known cores that
- implement these as fused operations instead of unfused (where
- unfused is normally expected). Disabling these instructions is the
- only way to ensure compatible code is generated; this will incur a
- performance penalty.
- '--with-mips-plt'
- On MIPS targets, make use of copy relocations and PLTs. These
- features are extensions to the traditional SVR4-based MIPS ABIs and
- require support from GNU binutils and the runtime C library.
- '--with-stack-clash-protection-guard-size=SIZE'
- On certain targets this option sets the default stack clash
- protection guard size as a power of two in bytes. On AArch64 SIZE
- is required to be either 12 (4KB) or 16 (64KB).
- '--enable-__cxa_atexit'
- Define if you want to use __cxa_atexit, rather than atexit, to
- register C++ destructors for local statics and global objects.
- This is essential for fully standards-compliant handling of
- destructors, but requires __cxa_atexit in libc. This option is
- currently only available on systems with GNU libc. When enabled,
- this will cause '-fuse-cxa-atexit' to be passed by default.
- '--enable-gnu-indirect-function'
- Define if you want to enable the 'ifunc' attribute. This option is
- currently only available on systems with GNU libc on certain
- targets.
- '--enable-target-optspace'
- Specify that target libraries should be optimized for code space
- instead of code speed. This is the default for the m32r platform.
- '--with-cpp-install-dir=DIRNAME'
- Specify that the user visible 'cpp' program should be installed in
- 'PREFIX/DIRNAME/cpp', in addition to BINDIR.
- '--enable-comdat'
- Enable COMDAT group support. This is primarily used to override
- the automatically detected value.
- '--enable-initfini-array'
- Force the use of sections '.init_array' and '.fini_array' (instead
- of '.init' and '.fini') for constructors and destructors. Option
- '--disable-initfini-array' has the opposite effect. If neither
- option is specified, the configure script will try to guess whether
- the '.init_array' and '.fini_array' sections are supported and, if
- they are, use them.
- '--enable-link-mutex'
- When building GCC, use a mutex to avoid linking the compilers for
- multiple languages at the same time, to avoid thrashing on build
- systems with limited free memory. The default is not to use such a
- mutex.
- '--enable-maintainer-mode'
- The build rules that regenerate the Autoconf and Automake output
- files as well as the GCC master message catalog 'gcc.pot' are
- normally disabled. This is because it can only be rebuilt if the
- complete source tree is present. If you have changed the sources
- and want to rebuild the catalog, configuring with
- '--enable-maintainer-mode' will enable this. Note that you need a
- recent version of the 'gettext' tools to do so.
- '--disable-bootstrap'
- For a native build, the default configuration is to perform a
- 3-stage bootstrap of the compiler when 'make' is invoked, testing
- that GCC can compile itself correctly. If you want to disable this
- process, you can configure with '--disable-bootstrap'.
- '--enable-bootstrap'
- In special cases, you may want to perform a 3-stage build even if
- the target and host triplets are different. This is possible when
- the host can run code compiled for the target (e.g. host is
- i686-linux, target is i486-linux). Starting from GCC 4.2, to do
- this you have to configure explicitly with '--enable-bootstrap'.
- '--enable-generated-files-in-srcdir'
- Neither the .c and .h files that are generated from Bison and flex
- nor the info manuals and man pages that are built from the .texi
- files are present in the repository development tree. When
- building GCC from that development tree, or from one of our
- snapshots, those generated files are placed in your build
- directory, which allows for the source to be in a readonly
- directory.
- If you configure with '--enable-generated-files-in-srcdir' then
- those generated files will go into the source directory. This is
- mainly intended for generating release or prerelease tarballs of
- the GCC sources, since it is not a requirement that the users of
- source releases to have flex, Bison, or makeinfo.
- '--enable-version-specific-runtime-libs'
- Specify that runtime libraries should be installed in the compiler
- specific subdirectory ('LIBDIR/gcc') rather than the usual places.
- In addition, 'libstdc++''s include files will be installed into
- 'LIBDIR' unless you overruled it by using
- '--with-gxx-include-dir=DIRNAME'. Using this option is
- particularly useful if you intend to use several versions of GCC in
- parallel. This is currently supported by 'libgfortran',
- 'libstdc++', and 'libobjc'.
- '--with-aix-soname='aix', 'svr4' or 'both''
- Traditional AIX shared library versioning (versioned 'Shared
- Object' files as members of unversioned 'Archive Library' files
- named 'lib.a') causes numerous headaches for package managers.
- However, 'Import Files' as members of 'Archive Library' files allow
- for *filename-based versioning* of shared libraries as seen on
- Linux/SVR4, where this is called the "SONAME". But as they prevent
- static linking, 'Import Files' may be used with 'Runtime Linking'
- only, where the linker does search for 'libNAME.so' before
- 'libNAME.a' library filenames with the '-lNAME' linker flag.
- For detailed information please refer to the AIX ld Command
- reference.
- As long as shared library creation is enabled, upon:
- '--with-aix-soname=aix'
- '--with-aix-soname=both'
- A (traditional AIX) 'Shared Archive Library' file is created:
- * using the 'libNAME.a' filename scheme
- * with the 'Shared Object' file as archive member named
- 'libNAME.so.V' (except for 'libgcc_s', where the 'Shared
- Object' file is named 'shr.o' for backwards
- compatibility), which
- - is used for runtime loading from inside the
- 'libNAME.a' file
- - is used for dynamic loading via
- 'dlopen("libNAME.a(libNAME.so.V)", RTLD_MEMBER)'
- - is used for shared linking
- - is used for static linking, so no separate 'Static
- Archive Library' file is needed
- '--with-aix-soname=both'
- '--with-aix-soname=svr4'
- A (second) 'Shared Archive Library' file is created:
- * using the 'libNAME.so.V' filename scheme
- * with the 'Shared Object' file as archive member named
- 'shr.o', which
- - is created with the '-G linker flag'
- - has the 'F_LOADONLY' flag set
- - is used for runtime loading from inside the
- 'libNAME.so.V' file
- - is used for dynamic loading via
- 'dlopen("libNAME.so.V(shr.o)", RTLD_MEMBER)'
- * with the 'Import File' as archive member named 'shr.imp',
- which
- - refers to 'libNAME.so.V(shr.o)' as the "SONAME", to
- be recorded in the 'Loader Section' of subsequent
- binaries
- - indicates whether 'libNAME.so.V(shr.o)' is 32 or 64
- bit
- - lists all the public symbols exported by
- 'lib.so.V(shr.o)', eventually decorated with the
- ''weak' Keyword'
- - is necessary for shared linking against
- 'lib.so.V(shr.o)'
- A symbolic link using the 'libNAME.so' filename scheme is
- created:
- * pointing to the 'libNAME.so.V' 'Shared Archive Library'
- file
- * to permit the 'ld Command' to find 'lib.so.V(shr.imp)'
- via the '-lNAME' argument (requires 'Runtime Linking' to
- be enabled)
- * to permit dynamic loading of 'lib.so.V(shr.o)' without
- the need to specify the version number via
- 'dlopen("libNAME.so(shr.o)", RTLD_MEMBER)'
- As long as static library creation is enabled, upon:
- '--with-aix-soname=svr4'
- A 'Static Archive Library' is created:
- * using the 'libNAME.a' filename scheme
- * with all the 'Static Object' files as archive members,
- which
- - are used for static linking
- While the aix-soname='svr4' option does not create 'Shared Object'
- files as members of unversioned 'Archive Library' files any more,
- package managers still are responsible to transfer 'Shared Object'
- files found as member of a previously installed unversioned
- 'Archive Library' file into the newly installed 'Archive Library'
- file with the same filename.
- _WARNING:_ Creating 'Shared Object' files with 'Runtime Linking'
- enabled may bloat the TOC, eventually leading to 'TOC overflow'
- errors, requiring the use of either the '-Wl,-bbigtoc' linker flag
- (seen to break with the 'GDB' debugger) or some of the TOC-related
- compiler flags, *Note RS/6000 and PowerPC Options: (gcc)RS/6000 and
- PowerPC Options.
- '--with-aix-soname' is currently supported by 'libgcc_s' only, so
- this option is still experimental and not for normal use yet.
- Default is the traditional behavior '--with-aix-soname='aix''.
- '--enable-languages=LANG1,LANG2,...'
- Specify that only a particular subset of compilers and their
- runtime libraries should be built. For a list of valid values for
- LANGN you can issue the following command in the 'gcc' directory of
- your GCC source tree:
- grep ^language= */config-lang.in
- Currently, you can use any of the following: 'all', 'default',
- 'ada', 'c', 'c++', 'd', 'fortran', 'go', 'jit', 'lto', 'objc',
- 'obj-c++'. Building the Ada compiler has special requirements, see
- below. If you do not pass this flag, or specify the option
- 'default', then the default languages available in the 'gcc'
- sub-tree will be configured. Ada, D, Go, Jit, and Objective-C++
- are not default languages. LTO is not a default language, but is
- built by default because '--enable-lto' is enabled by default. The
- other languages are default languages. If 'all' is specified, then
- all available languages are built. An exception is 'jit' language,
- which requires '--enable-host-shared' to be included with 'all'.
- '--enable-stage1-languages=LANG1,LANG2,...'
- Specify that a particular subset of compilers and their runtime
- libraries should be built with the system C compiler during stage 1
- of the bootstrap process, rather than only in later stages with the
- bootstrapped C compiler. The list of valid values is the same as
- for '--enable-languages', and the option 'all' will select all of
- the languages enabled by '--enable-languages'. This option is
- primarily useful for GCC development; for instance, when a
- development version of the compiler cannot bootstrap due to
- compiler bugs, or when one is debugging front ends other than the C
- front end. When this option is used, one can then build the target
- libraries for the specified languages with the stage-1 compiler by
- using 'make stage1-bubble all-target', or run the testsuite on the
- stage-1 compiler for the specified languages using 'make
- stage1-start check-gcc'.
- '--disable-libada'
- Specify that the run-time libraries and tools used by GNAT should
- not be built. This can be useful for debugging, or for
- compatibility with previous Ada build procedures, when it was
- required to explicitly do a 'make -C gcc gnatlib_and_tools'.
- '--disable-libsanitizer'
- Specify that the run-time libraries for the various sanitizers
- should not be built.
- '--disable-libssp'
- Specify that the run-time libraries for stack smashing protection
- should not be built or linked against. On many targets library
- support is provided by the C library instead.
- '--disable-libquadmath'
- Specify that the GCC quad-precision math library should not be
- built. On some systems, the library is required to be linkable
- when building the Fortran front end, unless
- '--disable-libquadmath-support' is used.
- '--disable-libquadmath-support'
- Specify that the Fortran front end and 'libgfortran' do not add
- support for 'libquadmath' on systems supporting it.
- '--disable-libgomp'
- Specify that the GNU Offloading and Multi Processing Runtime
- Library should not be built.
- '--disable-libvtv'
- Specify that the run-time libraries used by vtable verification
- should not be built.
- '--with-dwarf2'
- Specify that the compiler should use DWARF 2 debugging information
- as the default.
- '--with-advance-toolchain=AT'
- On 64-bit PowerPC Linux systems, configure the compiler to use the
- header files, library files, and the dynamic linker from the
- Advance Toolchain release AT instead of the default versions that
- are provided by the Linux distribution. In general, this option is
- intended for the developers of GCC, and it is not intended for
- general use.
- '--enable-targets=all'
- '--enable-targets=TARGET_LIST'
- Some GCC targets, e.g. powerpc64-linux, build bi-arch compilers.
- These are compilers that are able to generate either 64-bit or
- 32-bit code. Typically, the corresponding 32-bit target, e.g.
- powerpc-linux for powerpc64-linux, only generates 32-bit code.
- This option enables the 32-bit target to be a bi-arch compiler,
- which is useful when you want a bi-arch compiler that defaults to
- 32-bit, and you are building a bi-arch or multi-arch binutils in a
- combined tree. On mips-linux, this will build a tri-arch compiler
- (ABI o32/n32/64), defaulted to o32. Currently, this option only
- affects sparc-linux, powerpc-linux, x86-linux, mips-linux and
- s390-linux.
- '--enable-default-pie'
- Turn on '-fPIE' and '-pie' by default.
- '--enable-secureplt'
- This option enables '-msecure-plt' by default for powerpc-linux.
- *Note RS/6000 and PowerPC Options: (gcc)RS/6000 and PowerPC
- Options,
- '--enable-default-ssp'
- Turn on '-fstack-protector-strong' by default.
- '--enable-cld'
- This option enables '-mcld' by default for 32-bit x86 targets.
- *Note i386 and x86-64 Options: (gcc)i386 and x86-64 Options,
- '--enable-large-address-aware'
- The '--enable-large-address-aware' option arranges for MinGW
- executables to be linked using the '--large-address-aware' option,
- that enables the use of more than 2GB of memory. If GCC is
- configured with this option, its effects can be reversed by passing
- the '-Wl,--disable-large-address-aware' option to the so-configured
- compiler driver.
- '--enable-win32-registry'
- '--enable-win32-registry=KEY'
- '--disable-win32-registry'
- The '--enable-win32-registry' option enables Microsoft
- Windows-hosted GCC to look up installations paths in the registry
- using the following key:
- HKEY_LOCAL_MACHINE\SOFTWARE\Free Software Foundation\KEY
- KEY defaults to GCC version number, and can be overridden by the
- '--enable-win32-registry=KEY' option. Vendors and distributors who
- use custom installers are encouraged to provide a different key,
- perhaps one comprised of vendor name and GCC version number, to
- avoid conflict with existing installations. This feature is
- enabled by default, and can be disabled by
- '--disable-win32-registry' option. This option has no effect on
- the other hosts.
- '--nfp'
- Specify that the machine does not have a floating point unit. This
- option only applies to 'm68k-sun-sunosN'. On any other system,
- '--nfp' has no effect.
- '--enable-werror'
- '--disable-werror'
- '--enable-werror=yes'
- '--enable-werror=no'
- When you specify this option, it controls whether certain files in
- the compiler are built with '-Werror' in bootstrap stage2 and
- later. If you don't specify it, '-Werror' is turned on for the
- main development trunk. However it defaults to off for release
- branches and final releases. The specific files which get
- '-Werror' are controlled by the Makefiles.
- '--enable-checking'
- '--disable-checking'
- '--enable-checking=LIST'
- This option controls performing internal consistency checks in the
- compiler. It does not change the generated code, but adds error
- checking of the requested complexity. This slows down the compiler
- and may only work properly if you are building the compiler with
- GCC.
- When the option is not specified, the active set of checks depends
- on context. Namely, bootstrap stage 1 defaults to
- '--enable-checking=yes', builds from release branches or release
- archives default to '--enable-checking=release', and otherwise
- '--enable-checking=yes,extra' is used. When the option is
- specified without a LIST, the result is the same as
- '--enable-checking=yes'. Likewise, '--disable-checking' is
- equivalent to '--enable-checking=no'.
- The categories of checks available in LIST are 'yes' (most common
- checks 'assert,misc,gc,gimple,rtlflag,runtime,tree,types'), 'no'
- (no checks at all), 'all' (all but 'valgrind'), 'release' (cheapest
- checks 'assert,runtime') or 'none' (same as 'no'). 'release'
- checks are always on and to disable them '--disable-checking' or
- '--enable-checking=no[,<other checks>]' must be explicitly
- requested. Disabling assertions makes the compiler and runtime
- slightly faster but increases the risk of undetected internal
- errors causing wrong code to be generated.
- Individual checks can be enabled with these flags: 'assert', 'df',
- 'extra', 'fold', 'gc', 'gcac', 'gimple', 'misc', 'rtl', 'rtlflag',
- 'runtime', 'tree', 'types' and 'valgrind'. 'extra' extends 'misc'
- checking with extra checks that might affect code generation and
- should therefore not differ between stage1 and later stages in
- bootstrap.
- The 'valgrind' check requires the external 'valgrind' simulator,
- available from <http://valgrind.org/>. The 'rtl' checks are
- expensive and the 'df', 'gcac' and 'valgrind' checks are very
- expensive.
- '--disable-stage1-checking'
- '--enable-stage1-checking'
- '--enable-stage1-checking=LIST'
- This option affects only bootstrap build. If no
- '--enable-checking' option is specified the stage1 compiler is
- built with 'yes' checking enabled, otherwise the stage1 checking
- flags are the same as specified by '--enable-checking'. To build
- the stage1 compiler with different checking options use
- '--enable-stage1-checking'. The list of checking options is the
- same as for '--enable-checking'. If your system is too slow or too
- small to bootstrap a released compiler with checking for stage1
- enabled, you can use '--disable-stage1-checking' to disable
- checking for the stage1 compiler.
- '--enable-coverage'
- '--enable-coverage=LEVEL'
- With this option, the compiler is built to collect self coverage
- information, every time it is run. This is for internal
- development purposes, and only works when the compiler is being
- built with gcc. The LEVEL argument controls whether the compiler
- is built optimized or not, values are 'opt' and 'noopt'. For
- coverage analysis you want to disable optimization, for performance
- analysis you want to enable optimization. When coverage is
- enabled, the default level is without optimization.
- '--enable-gather-detailed-mem-stats'
- When this option is specified more detailed information on memory
- allocation is gathered. This information is printed when using
- '-fmem-report'.
- '--enable-valgrind-annotations'
- Mark selected memory related operations in the compiler when run
- under valgrind to suppress false positives.
- '--enable-nls'
- '--disable-nls'
- The '--enable-nls' option enables Native Language Support (NLS),
- which lets GCC output diagnostics in languages other than American
- English. Native Language Support is enabled by default if not
- doing a canadian cross build. The '--disable-nls' option disables
- NLS.
- '--with-included-gettext'
- If NLS is enabled, the '--with-included-gettext' option causes the
- build procedure to prefer its copy of GNU 'gettext'.
- '--with-catgets'
- If NLS is enabled, and if the host lacks 'gettext' but has the
- inferior 'catgets' interface, the GCC build procedure normally
- ignores 'catgets' and instead uses GCC's copy of the GNU 'gettext'
- library. The '--with-catgets' option causes the build procedure to
- use the host's 'catgets' in this situation.
- '--with-libiconv-prefix=DIR'
- Search for libiconv header files in 'DIR/include' and libiconv
- library files in 'DIR/lib'.
- '--enable-obsolete'
- Enable configuration for an obsoleted system. If you attempt to
- configure GCC for a system (build, host, or target) which has been
- obsoleted, and you do not specify this flag, configure will halt
- with an error message.
- All support for systems which have been obsoleted in one release of
- GCC is removed entirely in the next major release, unless someone
- steps forward to maintain the port.
- '--enable-decimal-float'
- '--enable-decimal-float=yes'
- '--enable-decimal-float=no'
- '--enable-decimal-float=bid'
- '--enable-decimal-float=dpd'
- '--disable-decimal-float'
- Enable (or disable) support for the C decimal floating point
- extension that is in the IEEE 754-2008 standard. This is enabled
- by default only on PowerPC, i386, and x86_64 GNU/Linux systems.
- Other systems may also support it, but require the user to
- specifically enable it. You can optionally control which decimal
- floating point format is used (either 'bid' or 'dpd'). The 'bid'
- (binary integer decimal) format is default on i386 and x86_64
- systems, and the 'dpd' (densely packed decimal) format is default
- on PowerPC systems.
- '--enable-fixed-point'
- '--disable-fixed-point'
- Enable (or disable) support for C fixed-point arithmetic. This
- option is enabled by default for some targets (such as MIPS) which
- have hardware-support for fixed-point operations. On other
- targets, you may enable this option manually.
- '--with-long-double-128'
- Specify if 'long double' type should be 128-bit by default on
- selected GNU/Linux architectures. If using
- '--without-long-double-128', 'long double' will be by default
- 64-bit, the same as 'double' type. When neither of these configure
- options are used, the default will be 128-bit 'long double' when
- built against GNU C Library 2.4 and later, 64-bit 'long double'
- otherwise.
- '--with-long-double-format=ibm'
- '--with-long-double-format=ieee'
- Specify whether 'long double' uses the IBM extended double format
- or the IEEE 128-bit floating point format on PowerPC Linux systems.
- This configuration switch will only work on little endian PowerPC
- Linux systems and on big endian 64-bit systems where the default
- cpu is at least power7 (i.e. '--with-cpu=power7',
- '--with-cpu=power8', or '--with-cpu=power9' is used).
- If you use the '--with-long-double-64' configuration option, the
- '--with-long-double-format=ibm' and
- '--with-long-double-format=ieee' options are ignored.
- The default 'long double' format is to use IBM extended double.
- Until all of the libraries are converted to use IEEE 128-bit
- floating point, it is not recommended to use
- '--with-long-double-format=ieee'.
- On little endian PowerPC Linux systems, if you explicitly set the
- 'long double' type, it will build multilibs to allow you to select
- either 'long double' format, unless you disable multilibs with the
- '--disable-multilib' option. At present, 'long double' multilibs
- are not built on big endian PowerPC Linux systems. If you are
- building multilibs, you will need to configure the compiler using
- the '--with-system-zlib' option.
- If you do not set the 'long double' type explicitly, no multilibs
- will be generated.
- '--enable-fdpic'
- On SH Linux systems, generate ELF FDPIC code.
- '--with-gmp=PATHNAME'
- '--with-gmp-include=PATHNAME'
- '--with-gmp-lib=PATHNAME'
- '--with-mpfr=PATHNAME'
- '--with-mpfr-include=PATHNAME'
- '--with-mpfr-lib=PATHNAME'
- '--with-mpc=PATHNAME'
- '--with-mpc-include=PATHNAME'
- '--with-mpc-lib=PATHNAME'
- If you want to build GCC but do not have the GMP library, the MPFR
- library and/or the MPC library installed in a standard location and
- do not have their sources present in the GCC source tree then you
- can explicitly specify the directory where they are installed
- ('--with-gmp=GMPINSTALLDIR', '--with-mpfr=MPFRINSTALLDIR',
- '--with-mpc=MPCINSTALLDIR'). The '--with-gmp=GMPINSTALLDIR' option
- is shorthand for '--with-gmp-lib=GMPINSTALLDIR/lib' and
- '--with-gmp-include=GMPINSTALLDIR/include'. Likewise the
- '--with-mpfr=MPFRINSTALLDIR' option is shorthand for
- '--with-mpfr-lib=MPFRINSTALLDIR/lib' and
- '--with-mpfr-include=MPFRINSTALLDIR/include', also the
- '--with-mpc=MPCINSTALLDIR' option is shorthand for
- '--with-mpc-lib=MPCINSTALLDIR/lib' and
- '--with-mpc-include=MPCINSTALLDIR/include'. If these shorthand
- assumptions are not correct, you can use the explicit include and
- lib options directly. You might also need to ensure the shared
- libraries can be found by the dynamic linker when building and
- using GCC, for example by setting the runtime shared library path
- variable ('LD_LIBRARY_PATH' on GNU/Linux and Solaris systems).
- These flags are applicable to the host platform only. When
- building a cross compiler, they will not be used to configure
- target libraries.
- '--with-isl=PATHNAME'
- '--with-isl-include=PATHNAME'
- '--with-isl-lib=PATHNAME'
- If you do not have the isl library installed in a standard location
- and you want to build GCC, you can explicitly specify the directory
- where it is installed ('--with-isl=ISLINSTALLDIR'). The
- '--with-isl=ISLINSTALLDIR' option is shorthand for
- '--with-isl-lib=ISLINSTALLDIR/lib' and
- '--with-isl-include=ISLINSTALLDIR/include'. If this shorthand
- assumption is not correct, you can use the explicit include and lib
- options directly.
- These flags are applicable to the host platform only. When
- building a cross compiler, they will not be used to configure
- target libraries.
- '--with-stage1-ldflags=FLAGS'
- This option may be used to set linker flags to be used when linking
- stage 1 of GCC. These are also used when linking GCC if configured
- with '--disable-bootstrap'. If '--with-stage1-libs' is not set to
- a value, then the default is '-static-libstdc++ -static-libgcc', if
- supported.
- '--with-stage1-libs=LIBS'
- This option may be used to set libraries to be used when linking
- stage 1 of GCC. These are also used when linking GCC if configured
- with '--disable-bootstrap'.
- '--with-boot-ldflags=FLAGS'
- This option may be used to set linker flags to be used when linking
- stage 2 and later when bootstrapping GCC. If -with-boot-libs is not
- is set to a value, then the default is '-static-libstdc++
- -static-libgcc'.
- '--with-boot-libs=LIBS'
- This option may be used to set libraries to be used when linking
- stage 2 and later when bootstrapping GCC.
- '--with-debug-prefix-map=MAP'
- Convert source directory names using '-fdebug-prefix-map' when
- building runtime libraries. 'MAP' is a space-separated list of
- maps of the form 'OLD=NEW'.
- '--enable-linker-build-id'
- Tells GCC to pass '--build-id' option to the linker for all final
- links (links performed without the '-r' or '--relocatable' option),
- if the linker supports it. If you specify
- '--enable-linker-build-id', but your linker does not support
- '--build-id' option, a warning is issued and the
- '--enable-linker-build-id' option is ignored. The default is off.
- '--with-linker-hash-style=CHOICE'
- Tells GCC to pass '--hash-style=CHOICE' option to the linker for
- all final links. CHOICE can be one of 'sysv', 'gnu', and 'both'
- where 'sysv' is the default.
- '--enable-gnu-unique-object'
- '--disable-gnu-unique-object'
- Tells GCC to use the gnu_unique_object relocation for C++ template
- static data members and inline function local statics. Enabled by
- default for a toolchain with an assembler that accepts it and GLIBC
- 2.11 or above, otherwise disabled.
- '--with-diagnostics-color=CHOICE'
- Tells GCC to use CHOICE as the default for '-fdiagnostics-color='
- option (if not used explicitly on the command line). CHOICE can be
- one of 'never', 'auto', 'always', and 'auto-if-env' where 'auto' is
- the default. 'auto-if-env' means that '-fdiagnostics-color=auto'
- will be the default if 'GCC_COLORS' is present and non-empty in the
- environment, and '-fdiagnostics-color=never' otherwise.
- '--enable-lto'
- '--disable-lto'
- Enable support for link-time optimization (LTO). This is enabled by
- default, and may be disabled using '--disable-lto'.
- '--enable-linker-plugin-configure-flags=FLAGS'
- '--enable-linker-plugin-flags=FLAGS'
- By default, linker plugins (such as the LTO plugin) are built for
- the host system architecture. For the case that the linker has a
- different (but run-time compatible) architecture, these flags can
- be specified to build plugins that are compatible to the linker.
- For example, if you are building GCC for a 64-bit x86_64
- ('x86_64-pc-linux-gnu') host system, but have a 32-bit x86
- GNU/Linux ('i686-pc-linux-gnu') linker executable (which is
- executable on the former system), you can configure GCC as follows
- for getting compatible linker plugins:
- % SRCDIR/configure \
- --host=x86_64-pc-linux-gnu \
- --enable-linker-plugin-configure-flags=--host=i686-pc-linux-gnu \
- --enable-linker-plugin-flags='CC=gcc\ -m32\ -Wl,-rpath,[...]/i686-pc-linux-gnu/lib'
- '--with-plugin-ld=PATHNAME'
- Enable an alternate linker to be used at link-time optimization
- (LTO) link time when '-fuse-linker-plugin' is enabled. This linker
- should have plugin support such as gold starting with version 2.20
- or GNU ld starting with version 2.21. See '-fuse-linker-plugin'
- for details.
- '--enable-canonical-system-headers'
- '--disable-canonical-system-headers'
- Enable system header path canonicalization for 'libcpp'. This can
- produce shorter header file paths in diagnostics and dependency
- output files, but these changed header paths may conflict with some
- compilation environments. Enabled by default, and may be disabled
- using '--disable-canonical-system-headers'.
- '--with-glibc-version=MAJOR.MINOR'
- Tell GCC that when the GNU C Library (glibc) is used on the target
- it will be version MAJOR.MINOR or later. Normally this can be
- detected from the C library's header files, but this option may be
- needed when bootstrapping a cross toolchain without the header
- files available for building the initial bootstrap compiler.
- If GCC is configured with some multilibs that use glibc and some
- that do not, this option applies only to the multilibs that use
- glibc. However, such configurations may not work well as not all
- the relevant configuration in GCC is on a per-multilib basis.
- '--enable-as-accelerator-for=TARGET'
- Build as offload target compiler. Specify offload host triple by
- TARGET.
- '--enable-offload-targets=TARGET1[=PATH1],...,TARGETN[=PATHN]'
- Enable offloading to targets TARGET1, ..., TARGETN. Offload
- compilers are expected to be already installed. Default search
- path for them is 'EXEC-PREFIX', but it can be changed by specifying
- paths PATH1, ..., PATHN.
- % SRCDIR/configure \
- --enable-offload-targets=x86_64-intelmicemul-linux-gnu=/path/to/x86_64/compiler,nvptx-none,hsa
- If 'hsa' is specified as one of the targets, the compiler will be
- built with support for HSA GPU accelerators. Because the same
- compiler will emit the accelerator code, no path should be
- specified.
- '--with-hsa-runtime=PATHNAME'
- '--with-hsa-runtime-include=PATHNAME'
- '--with-hsa-runtime-lib=PATHNAME'
- If you configure GCC with HSA offloading but do not have the HSA
- run-time library installed in a standard location then you can
- explicitly specify the directory where they are installed. The
- '--with-hsa-runtime=HSAINSTALLDIR' option is a shorthand for
- '--with-hsa-runtime-lib=HSAINSTALLDIR/lib' and
- '--with-hsa-runtime-include=HSAINSTALLDIR/include'.
- '--enable-cet'
- '--disable-cet'
- Enable building target run-time libraries with control-flow
- instrumentation, see '-fcf-protection' option. When '--enable-cet'
- is specified target libraries are configured to add
- '-fcf-protection' and, if needed, other target specific options to
- a set of building options.
- The option is disabled by default. When '--enable-cet=auto' is
- used, it is enabled on Linux/x86 if target binutils supports 'Intel
- CET' instructions and disabled otherwise. In this case the target
- libraries are configured to get additional '-fcf-protection'
- option.
- '--with-riscv-attribute='yes', 'no' or 'default''
- Generate RISC-V attribute by default, in order to record extra
- build information in object.
- The option is disabled by default. It is enabled on RISC-V/ELF
- (bare-metal) target if target binutils supported.
- Cross-Compiler-Specific Options
- -------------------------------
- The following options only apply to building cross compilers.
- '--with-sysroot'
- '--with-sysroot=DIR'
- Tells GCC to consider DIR as the root of a tree that contains (a
- subset of) the root filesystem of the target operating system.
- Target system headers, libraries and run-time object files will be
- searched for in there. More specifically, this acts as if
- '--sysroot=DIR' was added to the default options of the built
- compiler. The specified directory is not copied into the install
- tree, unlike the options '--with-headers' and '--with-libs' that
- this option obsoletes. The default value, in case '--with-sysroot'
- is not given an argument, is '${gcc_tooldir}/sys-root'. If the
- specified directory is a subdirectory of '${exec_prefix}', then it
- will be found relative to the GCC binaries if the installation tree
- is moved.
- This option affects the system root for the compiler used to build
- target libraries (which runs on the build system) and the compiler
- newly installed with 'make install'; it does not affect the
- compiler which is used to build GCC itself.
- If you specify the '--with-native-system-header-dir=DIRNAME' option
- then the compiler will search that directory within DIRNAME for
- native system headers rather than the default '/usr/include'.
- '--with-build-sysroot'
- '--with-build-sysroot=DIR'
- Tells GCC to consider DIR as the system root (see '--with-sysroot')
- while building target libraries, instead of the directory specified
- with '--with-sysroot'. This option is only useful when you are
- already using '--with-sysroot'. You can use '--with-build-sysroot'
- when you are configuring with '--prefix' set to a directory that is
- different from the one in which you are installing GCC and your
- target libraries.
- This option affects the system root for the compiler used to build
- target libraries (which runs on the build system); it does not
- affect the compiler which is used to build GCC itself.
- If you specify the '--with-native-system-header-dir=DIRNAME' option
- then the compiler will search that directory within DIRNAME for
- native system headers rather than the default '/usr/include'.
- '--with-headers'
- '--with-headers=DIR'
- Deprecated in favor of '--with-sysroot'. Specifies that target
- headers are available when building a cross compiler. The DIR
- argument specifies a directory which has the target include files.
- These include files will be copied into the 'gcc' install
- directory. _This option with the DIR argument is required_ when
- building a cross compiler, if 'PREFIX/TARGET/sys-include' doesn't
- pre-exist. If 'PREFIX/TARGET/sys-include' does pre-exist, the DIR
- argument may be omitted. 'fixincludes' will be run on these files
- to make them compatible with GCC.
- '--without-headers'
- Tells GCC not use any target headers from a libc when building a
- cross compiler. When crossing to GNU/Linux, you need the headers
- so GCC can build the exception handling for libgcc.
- '--with-libs'
- '--with-libs="DIR1 DIR2 ... DIRN"'
- Deprecated in favor of '--with-sysroot'. Specifies a list of
- directories which contain the target runtime libraries. These
- libraries will be copied into the 'gcc' install directory. If the
- directory list is omitted, this option has no effect.
- '--with-newlib'
- Specifies that 'newlib' is being used as the target C library.
- This causes '__eprintf' to be omitted from 'libgcc.a' on the
- assumption that it will be provided by 'newlib'.
- '--with-avrlibc'
- Specifies that 'AVR-Libc' is being used as the target C library.
- This causes float support functions like '__addsf3' to be omitted
- from 'libgcc.a' on the assumption that it will be provided by
- 'libm.a'. For more technical details, cf. PR54461. This option
- is only supported for the AVR target. It is not supported for
- RTEMS configurations, which currently use newlib. The option is
- supported since version 4.7.2 and is the default in 4.8.0 and
- newer.
- '--with-nds32-lib=LIBRARY'
- Specifies that LIBRARY setting is used for building 'libgcc.a'.
- Currently, the valid LIBRARY is 'newlib' or 'mculib'. This option
- is only supported for the NDS32 target.
- '--with-build-time-tools=DIR'
- Specifies where to find the set of target tools (assembler, linker,
- etc.) that will be used while building GCC itself. This option
- can be useful if the directory layouts are different between the
- system you are building GCC on, and the system where you will
- deploy it.
- For example, on an 'ia64-hp-hpux' system, you may have the GNU
- assembler and linker in '/usr/bin', and the native tools in a
- different path, and build a toolchain that expects to find the
- native tools in '/usr/bin'.
- When you use this option, you should ensure that DIR includes 'ar',
- 'as', 'ld', 'nm', 'ranlib' and 'strip' if necessary, and possibly
- 'objdump'. Otherwise, GCC may use an inconsistent set of tools.
- Overriding 'configure' test results
- ...................................
- Sometimes, it might be necessary to override the result of some
- 'configure' test, for example in order to ease porting to a new system
- or work around a bug in a test. The toplevel 'configure' script
- provides three variables for this:
- 'build_configargs'
- The contents of this variable is passed to all build 'configure'
- scripts.
- 'host_configargs'
- The contents of this variable is passed to all host 'configure'
- scripts.
- 'target_configargs'
- The contents of this variable is passed to all target 'configure'
- scripts.
- In order to avoid shell and 'make' quoting issues for complex
- overrides, you can pass a setting for 'CONFIG_SITE' and set variables in
- the site file.
- Objective-C-Specific Options
- ----------------------------
- The following options apply to the build of the Objective-C runtime
- library.
- '--enable-objc-gc'
- Specify that an additional variant of the GNU Objective-C runtime
- library is built, using an external build of the
- Boehm-Demers-Weiser garbage collector
- (<http://www.hboehm.info/gc/>). This library needs to be available
- for each multilib variant, unless configured with
- '--enable-objc-gc='auto'' in which case the build of the additional
- runtime library is skipped when not available and the build
- continues.
- '--with-target-bdw-gc=LIST'
- '--with-target-bdw-gc-include=LIST'
- '--with-target-bdw-gc-lib=LIST'
- Specify search directories for the garbage collector header files
- and libraries. LIST is a comma separated list of key value pairs
- of the form 'MULTILIBDIR=PATH', where the default multilib key is
- named as '.' (dot), or is omitted (e.g.
- '--with-target-bdw-gc=/opt/bdw-gc,32=/opt-bdw-gc32').
- The options '--with-target-bdw-gc-include' and
- '--with-target-bdw-gc-lib' must always be specified together for
- each multilib variant and they take precedence over
- '--with-target-bdw-gc'. If '--with-target-bdw-gc-include' is
- missing values for a multilib, then the value for the default
- multilib is used (e.g.
- '--with-target-bdw-gc-include=/opt/bdw-gc/include'
- '--with-target-bdw-gc-lib=/opt/bdw-gc/lib64,32=/opt-bdw-gc/lib32').
- If none of these options are specified, the library is assumed in
- default locations.
- D-Specific Options
- ------------------
- The following options apply to the build of the D runtime library.
- '--with-target-system-zlib'
- Use installed 'zlib' rather than that included with GCC. This
- needs to be available for each multilib variant, unless configured
- with '--with-target-system-zlib='auto'' in which case the
- GCC included 'zlib' is only used when the system installed library
- is not available.
- File: x86_64-linux-gnu-gccinstall.info, Node: Building, Next: Testing, Prev: Configuration, Up: Installing GCC
- 5 Building
- **********
- Now that GCC is configured, you are ready to build the compiler and
- runtime libraries.
- Some commands executed when making the compiler may fail (return a
- nonzero status) and be ignored by 'make'. These failures, which are
- often due to files that were not found, are expected, and can safely be
- ignored.
- It is normal to have compiler warnings when compiling certain files.
- Unless you are a GCC developer, you can generally ignore these warnings
- unless they cause compilation to fail. Developers should attempt to fix
- any warnings encountered, however they can temporarily continue past
- warnings-as-errors by specifying the configure flag '--disable-werror'.
- On certain old systems, defining certain environment variables such
- as 'CC' can interfere with the functioning of 'make'.
- If you encounter seemingly strange errors when trying to build the
- compiler in a directory other than the source directory, it could be
- because you have previously configured the compiler in the source
- directory. Make sure you have done all the necessary preparations.
- If you build GCC on a BSD system using a directory stored in an old
- System V file system, problems may occur in running 'fixincludes' if the
- System V file system doesn't support symbolic links. These problems
- result in a failure to fix the declaration of 'size_t' in 'sys/types.h'.
- If you find that 'size_t' is a signed type and that type mismatches
- occur, this could be the cause.
- The solution is not to use such a directory for building GCC.
- Similarly, when building from the source repository or snapshots, or
- if you modify '*.l' files, you need the Flex lexical analyzer generator
- installed. If you do not modify '*.l' files, releases contain the
- Flex-generated files and you do not need Flex installed to build them.
- There is still one Flex-based lexical analyzer (part of the build
- machinery, not of GCC itself) that is used even if you only build the C
- front end.
- When building from the source repository or snapshots, or if you
- modify Texinfo documentation, you need version 4.7 or later of Texinfo
- installed if you want Info documentation to be regenerated. Releases
- contain Info documentation pre-built for the unmodified documentation in
- the release.
- 5.1 Building a native compiler
- ==============================
- For a native build, the default configuration is to perform a 3-stage
- bootstrap of the compiler when 'make' is invoked. This will build the
- entire GCC system and ensure that it compiles itself correctly. It can
- be disabled with the '--disable-bootstrap' parameter to 'configure', but
- bootstrapping is suggested because the compiler will be tested more
- completely and could also have better performance.
- The bootstrapping process will complete the following steps:
- * Build tools necessary to build the compiler.
- * Perform a 3-stage bootstrap of the compiler. This includes
- building three times the target tools for use by the compiler such
- as binutils (bfd, binutils, gas, gprof, ld, and opcodes) if they
- have been individually linked or moved into the top level GCC
- source tree before configuring.
- * Perform a comparison test of the stage2 and stage3 compilers.
- * Build runtime libraries using the stage3 compiler from the previous
- step.
- If you are short on disk space you might consider 'make
- bootstrap-lean' instead. The sequence of compilation is the same
- described above, but object files from the stage1 and stage2 of the
- 3-stage bootstrap of the compiler are deleted as soon as they are no
- longer needed.
- If you wish to use non-default GCC flags when compiling the stage2
- and stage3 compilers, set 'BOOT_CFLAGS' on the command line when doing
- 'make'. For example, if you want to save additional space during the
- bootstrap and in the final installation as well, you can build the
- compiler binaries without debugging information as in the following
- example. This will save roughly 40% of disk space both for the
- bootstrap and the final installation. (Libraries will still contain
- debugging information.)
- make BOOT_CFLAGS='-O' bootstrap
- You can place non-default optimization flags into 'BOOT_CFLAGS'; they
- are less well tested here than the default of '-g -O2', but should still
- work. In a few cases, you may find that you need to specify special
- flags such as '-msoft-float' here to complete the bootstrap; or, if the
- native compiler miscompiles the stage1 compiler, you may need to work
- around this, by choosing 'BOOT_CFLAGS' to avoid the parts of the stage1
- compiler that were miscompiled, or by using 'make bootstrap4' to
- increase the number of stages of bootstrap.
- 'BOOT_CFLAGS' does not apply to bootstrapped target libraries. Since
- these are always compiled with the compiler currently being
- bootstrapped, you can use 'CFLAGS_FOR_TARGET' to modify their
- compilation flags, as for non-bootstrapped target libraries. Again, if
- the native compiler miscompiles the stage1 compiler, you may need to
- work around this by avoiding non-working parts of the stage1 compiler.
- Use 'STAGE1_TFLAGS' to this end.
- If you used the flag '--enable-languages=...' to restrict the
- compilers to be built, only those you've actually enabled will be built.
- This will of course only build those runtime libraries, for which the
- particular compiler has been built. Please note, that re-defining
- 'LANGUAGES' when calling 'make' *does not* work anymore!
- If the comparison of stage2 and stage3 fails, this normally indicates
- that the stage2 compiler has compiled GCC incorrectly, and is therefore
- a potentially serious bug which you should investigate and report. (On
- a few systems, meaningful comparison of object files is impossible; they
- always appear "different". If you encounter this problem, you will need
- to disable comparison in the 'Makefile'.)
- If you do not want to bootstrap your compiler, you can configure with
- '--disable-bootstrap'. In particular cases, you may want to bootstrap
- your compiler even if the target system is not the same as the one you
- are building on: for example, you could build a
- 'powerpc-unknown-linux-gnu' toolchain on a 'powerpc64-unknown-linux-gnu'
- host. In this case, pass '--enable-bootstrap' to the configure script.
- 'BUILD_CONFIG' can be used to bring in additional customization to
- the build. It can be set to a whitespace-separated list of names. For
- each such 'NAME', top-level 'config/NAME.mk' will be included by the
- top-level 'Makefile', bringing in any settings it contains. The default
- 'BUILD_CONFIG' can be set using the configure option
- '--with-build-config=NAME...'. Some examples of supported build
- configurations are:
- 'bootstrap-O1'
- Removes any '-O'-started option from 'BOOT_CFLAGS', and adds '-O1'
- to it. 'BUILD_CONFIG=bootstrap-O1' is equivalent to
- 'BOOT_CFLAGS='-g -O1''.
- 'bootstrap-O3'
- Analogous to 'bootstrap-O1'.
- 'bootstrap-lto'
- Enables Link-Time Optimization for host tools during bootstrapping.
- 'BUILD_CONFIG=bootstrap-lto' is equivalent to adding '-flto' to
- 'BOOT_CFLAGS'. This option assumes that the host supports the
- linker plugin (e.g. GNU ld version 2.21 or later or GNU gold
- version 2.21 or later).
- 'bootstrap-lto-noplugin'
- This option is similar to 'bootstrap-lto', but is intended for
- hosts that do not support the linker plugin. Without the linker
- plugin static libraries are not compiled with link-time
- optimizations. Since the GCC middle end and back end are in
- 'libbackend.a' this means that only the front end is actually LTO
- optimized.
- 'bootstrap-lto-lean'
- This option is similar to 'bootstrap-lto', but is intended for
- faster build by only using LTO in the final bootstrap stage. With
- 'make profiledbootstrap' the LTO frontend is trained only on
- generator files.
- 'bootstrap-debug'
- Verifies that the compiler generates the same executable code,
- whether or not it is asked to emit debug information. To this end,
- this option builds stage2 host programs without debug information,
- and uses 'contrib/compare-debug' to compare them with the stripped
- stage3 object files. If 'BOOT_CFLAGS' is overridden so as to not
- enable debug information, stage2 will have it, and stage3 won't.
- This option is enabled by default when GCC bootstrapping is
- enabled, if 'strip' can turn object files compiled with and without
- debug info into identical object files. In addition to better test
- coverage, this option makes default bootstraps faster and leaner.
- 'bootstrap-debug-big'
- Rather than comparing stripped object files, as in
- 'bootstrap-debug', this option saves internal compiler dumps during
- stage2 and stage3 and compares them as well, which helps catch
- additional potential problems, but at a great cost in terms of disk
- space. It can be specified in addition to 'bootstrap-debug'.
- 'bootstrap-debug-lean'
- This option saves disk space compared with 'bootstrap-debug-big',
- but at the expense of some recompilation. Instead of saving the
- dumps of stage2 and stage3 until the final compare, it uses
- '-fcompare-debug' to generate, compare and remove the dumps during
- stage3, repeating the compilation that already took place in
- stage2, whose dumps were not saved.
- 'bootstrap-debug-lib'
- This option tests executable code invariance over debug information
- generation on target libraries, just like 'bootstrap-debug-lean'
- tests it on host programs. It builds stage3 libraries with
- '-fcompare-debug', and it can be used along with any of the
- 'bootstrap-debug' options above.
- There aren't '-lean' or '-big' counterparts to this option because
- most libraries are only build in stage3, so bootstrap compares
- would not get significant coverage. Moreover, the few libraries
- built in stage2 are used in stage3 host programs, so we wouldn't
- want to compile stage2 libraries with different options for
- comparison purposes.
- 'bootstrap-debug-ckovw'
- Arranges for error messages to be issued if the compiler built on
- any stage is run without the option '-fcompare-debug'. This is
- useful to verify the full '-fcompare-debug' testing coverage. It
- must be used along with 'bootstrap-debug-lean' and
- 'bootstrap-debug-lib'.
- 'bootstrap-cet'
- This option enables Intel CET for host tools during bootstrapping.
- 'BUILD_CONFIG=bootstrap-cet' is equivalent to adding
- '-fcf-protection' to 'BOOT_CFLAGS'. This option assumes that the
- host supports Intel CET (e.g. GNU assembler version 2.30 or later).
- 'bootstrap-time'
- Arranges for the run time of each program started by the GCC
- driver, built in any stage, to be logged to 'time.log', in the top
- level of the build tree.
- 5.2 Building a cross compiler
- =============================
- When building a cross compiler, it is not generally possible to do a
- 3-stage bootstrap of the compiler. This makes for an interesting
- problem as parts of GCC can only be built with GCC.
- To build a cross compiler, we recommend first building and installing
- a native compiler. You can then use the native GCC compiler to build
- the cross compiler. The installed native compiler needs to be GCC
- version 2.95 or later.
- Assuming you have already installed a native copy of GCC and
- configured your cross compiler, issue the command 'make', which performs
- the following steps:
- * Build host tools necessary to build the compiler.
- * Build target tools for use by the compiler such as binutils (bfd,
- binutils, gas, gprof, ld, and opcodes) if they have been
- individually linked or moved into the top level GCC source tree
- before configuring.
- * Build the compiler (single stage only).
- * Build runtime libraries using the compiler from the previous step.
- Note that if an error occurs in any step the make process will exit.
- If you are not building GNU binutils in the same source tree as GCC,
- you will need a cross-assembler and cross-linker installed before
- configuring GCC. Put them in the directory 'PREFIX/TARGET/bin'. Here
- is a table of the tools you should put in this directory:
- 'as'
- This should be the cross-assembler.
- 'ld'
- This should be the cross-linker.
- 'ar'
- This should be the cross-archiver: a program which can manipulate
- archive files (linker libraries) in the target machine's format.
- 'ranlib'
- This should be a program to construct a symbol table in an archive
- file.
- The installation of GCC will find these programs in that directory,
- and copy or link them to the proper place to for the cross-compiler to
- find them when run later.
- The easiest way to provide these files is to build the Binutils
- package. Configure it with the same '--host' and '--target' options
- that you use for configuring GCC, then build and install them. They
- install their executables automatically into the proper directory.
- Alas, they do not support all the targets that GCC supports.
- If you are not building a C library in the same source tree as GCC,
- you should also provide the target libraries and headers before
- configuring GCC, specifying the directories with '--with-sysroot' or
- '--with-headers' and '--with-libs'. Many targets also require "start
- files" such as 'crt0.o' and 'crtn.o' which are linked into each
- executable. There may be several alternatives for 'crt0.o', for use
- with profiling or other compilation options. Check your target's
- definition of 'STARTFILE_SPEC' to find out what start files it uses.
- 5.3 Building in parallel
- ========================
- GNU Make 3.80 and above, which is necessary to build GCC, support
- building in parallel. To activate this, you can use 'make -j 2' instead
- of 'make'. You can also specify a bigger number, and in most cases
- using a value greater than the number of processors in your machine will
- result in fewer and shorter I/O latency hits, thus improving overall
- throughput; this is especially true for slow drives and network
- filesystems.
- 5.4 Building the Ada compiler
- =============================
- In order to build GNAT, the Ada compiler, you need a working GNAT
- compiler (GCC version 4.0 or later). This includes GNAT tools such as
- 'gnatmake' and 'gnatlink', since the Ada front end is written in Ada and
- uses some GNAT-specific extensions.
- In order to build a cross compiler, it is suggested to install the
- new compiler as native first, and then use it to build the cross
- compiler.
- 'configure' does not test whether the GNAT installation works and has
- a sufficiently recent version; if too old a GNAT version is installed,
- the build will fail unless '--enable-languages' is used to disable
- building the Ada front end.
- 'ADA_INCLUDE_PATH' and 'ADA_OBJECT_PATH' environment variables must
- not be set when building the Ada compiler, the Ada tools, or the Ada
- runtime libraries. You can check that your build environment is clean
- by verifying that 'gnatls -v' lists only one explicit path in each
- section.
- 5.5 Building with profile feedback
- ==================================
- It is possible to use profile feedback to optimize the compiler itself.
- This should result in a faster compiler binary. Experiments done on x86
- using gcc 3.3 showed approximately 7 percent speedup on compiling C
- programs. To bootstrap the compiler with profile feedback, use 'make
- profiledbootstrap'.
- When 'make profiledbootstrap' is run, it will first build a 'stage1'
- compiler. This compiler is used to build a 'stageprofile' compiler
- instrumented to collect execution counts of instruction and branch
- probabilities. Training run is done by building 'stagetrain' compiler.
- Finally a 'stagefeedback' compiler is built using the information
- collected.
- Unlike standard bootstrap, several additional restrictions apply.
- The compiler used to build 'stage1' needs to support a 64-bit integral
- type. It is recommended to only use GCC for this.
- On Linux/x86_64 hosts with some restrictions (no virtualization) it
- is also possible to do autofdo build with 'make autoprofiledback'. This
- uses Linux perf to sample branches in the binary and then rebuild it
- with feedback derived from the profile. Linux perf and the 'autofdo'
- toolkit needs to be installed for this.
- Only the profile from the current build is used, so when an error
- occurs it is recommended to clean before restarting. Otherwise the code
- quality may be much worse.
- File: x86_64-linux-gnu-gccinstall.info, Node: Testing, Next: Final install, Prev: Building, Up: Installing GCC
- 6 Installing GCC: Testing
- *************************
- Before you install GCC, we encourage you to run the testsuites and to
- compare your results with results from a similar configuration that have
- been submitted to the gcc-testresults mailing list. Some of these
- archived results are linked from the build status lists at
- <http://gcc.gnu.org/buildstat.html>, although not everyone who reports a
- successful build runs the testsuites and submits the results. This step
- is optional and may require you to download additional software, but it
- can give you confidence in your new GCC installation or point out
- problems before you install and start using your new GCC.
- First, you must have downloaded the testsuites. These are part of
- the full distribution, but if you downloaded the "core" compiler plus
- any front ends, you must download the testsuites separately.
- Second, you must have the testing tools installed. This includes
- DejaGnu, Tcl, and Expect; the DejaGnu site has links to these. For
- running the BRIG frontend tests, a tool to assemble the binary BRIGs
- from HSAIL text, HSAILasm must be installed.
- If the directories where 'runtest' and 'expect' were installed are
- not in the 'PATH', you may need to set the following environment
- variables appropriately, as in the following example (which assumes that
- DejaGnu has been installed under '/usr/local'):
- TCL_LIBRARY = /usr/local/share/tcl8.0
- DEJAGNULIBS = /usr/local/share/dejagnu
- (On systems such as Cygwin, these paths are required to be actual
- paths, not mounts or links; presumably this is due to some lack of
- portability in the DejaGnu code.)
- Finally, you can run the testsuite (which may take a long time):
- cd OBJDIR; make -k check
- This will test various components of GCC, such as compiler front ends
- and runtime libraries. While running the testsuite, DejaGnu might emit
- some harmless messages resembling 'WARNING: Couldn't find the global
- config file.' or 'WARNING: Couldn't find tool init file' that can be
- ignored.
- If you are testing a cross-compiler, you may want to run the
- testsuite on a simulator as described at
- <http://gcc.gnu.org/simtest-howto.html>.
- 6.1 How can you run the testsuite on selected tests?
- ====================================================
- In order to run sets of tests selectively, there are targets 'make
- check-gcc' and language specific 'make check-c', 'make check-c++', 'make
- check-d' 'make check-fortran', 'make check-ada', 'make check-objc',
- 'make check-obj-c++', 'make check-lto' in the 'gcc' subdirectory of the
- object directory. You can also just run 'make check' in a subdirectory
- of the object directory.
- A more selective way to just run all 'gcc' execute tests in the
- testsuite is to use
- make check-gcc RUNTESTFLAGS="execute.exp OTHER-OPTIONS"
- Likewise, in order to run only the 'g++' "old-deja" tests in the
- testsuite with filenames matching '9805*', you would use
- make check-g++ RUNTESTFLAGS="old-deja.exp=9805* OTHER-OPTIONS"
- The file-matching expression following FILENAME'.exp=' is treated as
- a series of whitespace-delimited glob expressions so that multiple
- patterns may be passed, although any whitespace must either be escaped
- or surrounded by single quotes if multiple expressions are desired. For
- example,
- make check-g++ RUNTESTFLAGS="old-deja.exp=9805*\ virtual2.c OTHER-OPTIONS"
- make check-g++ RUNTESTFLAGS="'old-deja.exp=9805* virtual2.c' OTHER-OPTIONS"
- The '*.exp' files are located in the testsuite directories of the GCC
- source, the most important ones being 'compile.exp', 'execute.exp',
- 'dg.exp' and 'old-deja.exp'. To get a list of the possible '*.exp'
- files, pipe the output of 'make check' into a file and look at the
- 'Running ... .exp' lines.
- 6.2 Passing options and running multiple testsuites
- ===================================================
- You can pass multiple options to the testsuite using the
- '--target_board' option of DejaGNU, either passed as part of
- 'RUNTESTFLAGS', or directly to 'runtest' if you prefer to work outside
- the makefiles. For example,
- make check-g++ RUNTESTFLAGS="--target_board=unix/-O3/-fmerge-constants"
- will run the standard 'g++' testsuites ("unix" is the target name for
- a standard native testsuite situation), passing '-O3 -fmerge-constants'
- to the compiler on every test, i.e., slashes separate options.
- You can run the testsuites multiple times using combinations of
- options with a syntax similar to the brace expansion of popular shells:
- ..."--target_board=arm-sim\{-mhard-float,-msoft-float\}\{-O1,-O2,-O3,\}"
- (Note the empty option caused by the trailing comma in the final
- group.) The following will run each testsuite eight times using the
- 'arm-sim' target, as if you had specified all possible combinations
- yourself:
- --target_board='arm-sim/-mhard-float/-O1 \
- arm-sim/-mhard-float/-O2 \
- arm-sim/-mhard-float/-O3 \
- arm-sim/-mhard-float \
- arm-sim/-msoft-float/-O1 \
- arm-sim/-msoft-float/-O2 \
- arm-sim/-msoft-float/-O3 \
- arm-sim/-msoft-float'
- They can be combined as many times as you wish, in arbitrary ways.
- This list:
- ..."--target_board=unix/-Wextra\{-O3,-fno-strength\}\{-fomit-frame,\}"
- will generate four combinations, all involving '-Wextra'.
- The disadvantage to this method is that the testsuites are run in
- serial, which is a waste on multiprocessor systems. For users with GNU
- Make and a shell which performs brace expansion, you can run the
- testsuites in parallel by having the shell perform the combinations and
- 'make' do the parallel runs. Instead of using '--target_board', use a
- special makefile target:
- make -jN check-TESTSUITE//TEST-TARGET/OPTION1/OPTION2/...
- For example,
- make -j3 check-gcc//sh-hms-sim/{-m1,-m2,-m3,-m3e,-m4}/{,-nofpu}
- will run three concurrent "make-gcc" testsuites, eventually testing
- all ten combinations as described above. Note that this is currently
- only supported in the 'gcc' subdirectory. (To see how this works, try
- typing 'echo' before the example given here.)
- 6.3 How to interpret test results
- =================================
- The result of running the testsuite are various '*.sum' and '*.log'
- files in the testsuite subdirectories. The '*.log' files contain a
- detailed log of the compiler invocations and the corresponding results,
- the '*.sum' files summarize the results. These summaries contain status
- codes for all tests:
- * PASS: the test passed as expected
- * XPASS: the test unexpectedly passed
- * FAIL: the test unexpectedly failed
- * XFAIL: the test failed as expected
- * UNSUPPORTED: the test is not supported on this platform
- * ERROR: the testsuite detected an error
- * WARNING: the testsuite detected a possible problem
- It is normal for some tests to report unexpected failures. At the
- current time the testing harness does not allow fine grained control
- over whether or not a test is expected to fail. This problem should be
- fixed in future releases.
- 6.4 Submitting test results
- ===========================
- If you want to report the results to the GCC project, use the
- 'contrib/test_summary' shell script. Start it in the OBJDIR with
- SRCDIR/contrib/test_summary -p your_commentary.txt \
- -m gcc-testresults@gcc.gnu.org |sh
- This script uses the 'Mail' program to send the results, so make sure
- it is in your 'PATH'. The file 'your_commentary.txt' is prepended to
- the testsuite summary and should contain any special remarks you have on
- your results or your build environment. Please do not edit the
- testsuite result block or the subject line, as these messages may be
- automatically processed.
- File: x86_64-linux-gnu-gccinstall.info, Node: Final install, Prev: Testing, Up: Installing GCC
- 7 Installing GCC: Final installation
- ************************************
- Now that GCC has been built (and optionally tested), you can install it
- with
- cd OBJDIR && make install
- We strongly recommend to install into a target directory where there
- is no previous version of GCC present. Also, the GNAT runtime should
- not be stripped, as this would break certain features of the debugger
- that depend on this debugging information (catching Ada exceptions for
- instance).
- That step completes the installation of GCC; user level binaries can
- be found in 'PREFIX/bin' where PREFIX is the value you specified with
- the '--prefix' to configure (or '/usr/local' by default). (If you
- specified '--bindir', that directory will be used instead; otherwise, if
- you specified '--exec-prefix', 'EXEC-PREFIX/bin' will be used.) Headers
- for the C++ library are installed in 'PREFIX/include'; libraries in
- 'LIBDIR' (normally 'PREFIX/lib'); internal parts of the compiler in
- 'LIBDIR/gcc' and 'LIBEXECDIR/gcc'; documentation in info format in
- 'INFODIR' (normally 'PREFIX/info').
- When installing cross-compilers, GCC's executables are not only
- installed into 'BINDIR', that is, 'EXEC-PREFIX/bin', but additionally
- into 'EXEC-PREFIX/TARGET-ALIAS/bin', if that directory exists.
- Typically, such "tooldirs" hold target-specific binutils, including
- assembler and linker.
- Installation into a temporary staging area or into a 'chroot' jail
- can be achieved with the command
- make DESTDIR=PATH-TO-ROOTDIR install
- where PATH-TO-ROOTDIR is the absolute path of a directory relative to
- which all installation paths will be interpreted. Note that the
- directory specified by 'DESTDIR' need not exist yet; it will be created
- if necessary.
- There is a subtle point with tooldirs and 'DESTDIR': If you relocate
- a cross-compiler installation with e.g. 'DESTDIR=ROOTDIR', then the
- directory 'ROOTDIR/EXEC-PREFIX/TARGET-ALIAS/bin' will be filled with
- duplicated GCC executables only if it already exists, it will not be
- created otherwise. This is regarded as a feature, not as a bug, because
- it gives slightly more control to the packagers using the 'DESTDIR'
- feature.
- You can install stripped programs and libraries with
- make install-strip
- If you are bootstrapping a released version of GCC then please
- quickly review the build status page for your release, available from
- <http://gcc.gnu.org/buildstat.html>. If your system is not listed for
- the version of GCC that you built, send a note to <gcc@gcc.gnu.org>
- indicating that you successfully built and installed GCC. Include the
- following information:
- * Output from running 'SRCDIR/config.guess'. Do not send that file
- itself, just the one-line output from running it.
- * The output of 'gcc -v' for your newly installed 'gcc'. This tells
- us which version of GCC you built and the options you passed to
- configure.
- * Whether you enabled all languages or a subset of them. If you used
- a full distribution then this information is part of the configure
- options in the output of 'gcc -v', but if you downloaded the "core"
- compiler plus additional front ends then it isn't apparent which
- ones you built unless you tell us about it.
- * If the build was for GNU/Linux, also include:
- * The distribution name and version (e.g., Red Hat 7.1 or Debian
- 2.2.3); this information should be available from
- '/etc/issue'.
- * The version of the Linux kernel, available from 'uname
- --version' or 'uname -a'.
- * The version of glibc you used; for RPM-based systems like Red
- Hat, Mandrake, and SuSE type 'rpm -q glibc' to get the glibc
- version, and on systems like Debian and Progeny use 'dpkg -l
- libc6'.
- For other systems, you can include similar information if you think
- it is relevant.
- * Any other information that you think would be useful to people
- building GCC on the same configuration. The new entry in the build
- status list will include a link to the archived copy of your
- message.
- We'd also like to know if the *note host/target specific installation
- notes: Specific. didn't include your host/target information or if that
- information is incomplete or out of date. Send a note to
- <gcc@gcc.gnu.org> detailing how the information should be changed.
- If you find a bug, please report it following the bug reporting
- guidelines.
- If you want to print the GCC manuals, do 'cd OBJDIR; make dvi'. You
- will need to have 'texi2dvi' (version at least 4.7) and TeX installed.
- This creates a number of '.dvi' files in subdirectories of 'OBJDIR';
- these may be converted for printing with programs such as 'dvips'.
- Alternately, by using 'make pdf' in place of 'make dvi', you can create
- documentation in the form of '.pdf' files; this requires 'texi2pdf',
- which is included with Texinfo version 4.8 and later. You can also buy
- printed manuals from the Free Software Foundation, though such manuals
- may not be for the most recent version of GCC.
- If you would like to generate online HTML documentation, do 'cd
- OBJDIR; make html' and HTML will be generated for the gcc manuals in
- 'OBJDIR/gcc/HTML'.
- File: x86_64-linux-gnu-gccinstall.info, Node: Binaries, Next: Specific, Prev: Installing GCC, Up: Top
- 8 Installing GCC: Binaries
- **************************
- We are often asked about pre-compiled versions of GCC. While we cannot
- provide these for all platforms, below you'll find links to binaries for
- various platforms where creating them by yourself is not easy due to
- various reasons.
- Please note that we did not create these binaries, nor do we support
- them. If you have any problems installing them, please contact their
- makers.
- * AIX:
- * Bull's Open Source Software Archive for for AIX 5L and AIX 6;
- * AIX Open Source Packages (AIX5L AIX 6.1 AIX 7.1).
- * DOS--DJGPP.
- * HP-UX:
- * HP-UX Porting Center;
- * Solaris 2 (SPARC, Intel):
- * OpenCSW
- * TGCware
- * macOS:
- * The Homebrew package manager;
- * MacPorts.
- * Microsoft Windows:
- * The Cygwin project;
- * The MinGW and mingw-w64 projects.
- * OpenPKG offers binaries for quite a number of platforms.
- * The GFortran Wiki has links to GNU Fortran binaries for several
- platforms.
- File: x86_64-linux-gnu-gccinstall.info, Node: Specific, Next: Old, Prev: Binaries, Up: Top
- 9 Host/target specific installation notes for GCC
- *************************************************
- Please read this document carefully _before_ installing the GNU Compiler
- Collection on your machine.
- Note that this list of install notes is _not_ a list of supported
- hosts or targets. Not all supported hosts and targets are listed here,
- only the ones that require host-specific or target-specific information
- have to.
- aarch64*-*-*
- ============
- Binutils pre 2.24 does not have support for selecting '-mabi' and does
- not support ILP32. If it is used to build GCC 4.9 or later, GCC will
- not support option '-mabi=ilp32'.
- To enable a workaround for the Cortex-A53 erratum number 835769 by
- default (for all CPUs regardless of -mcpu option given) at configure
- time use the '--enable-fix-cortex-a53-835769' option. This will enable
- the fix by default and can be explicitly disabled during compilation by
- passing the '-mno-fix-cortex-a53-835769' option. Conversely,
- '--disable-fix-cortex-a53-835769' will disable the workaround by
- default. The workaround is disabled by default if neither of
- '--enable-fix-cortex-a53-835769' or '--disable-fix-cortex-a53-835769' is
- given at configure time.
- To enable a workaround for the Cortex-A53 erratum number 843419 by
- default (for all CPUs regardless of -mcpu option given) at configure
- time use the '--enable-fix-cortex-a53-843419' option. This workaround
- is applied at link time. Enabling the workaround will cause GCC to pass
- the relevant option to the linker. It can be explicitly disabled during
- compilation by passing the '-mno-fix-cortex-a53-843419' option.
- Conversely, '--disable-fix-cortex-a53-843419' will disable the
- workaround by default. The workaround is disabled by default if neither
- of '--enable-fix-cortex-a53-843419' or '--disable-fix-cortex-a53-843419'
- is given at configure time.
- To enable Branch Target Identification Mechanism and Return Address
- Signing by default at configure time use the
- '--enable-standard-branch-protection' option. This is equivalent to
- having '-mbranch-protection=standard' during compilation. This can be
- explicitly disabled during compilation by passing the
- '-mbranch-protection=none' option which turns off all types of branch
- protections. Conversely, '--disable-standard-branch-protection' will
- disable both the protections by default. This mechanism is turned off
- by default if neither of the options are given at configure time.
- alpha*-*-*
- ==========
- This section contains general configuration information for all
- Alpha-based platforms using ELF. In addition to reading this section,
- please read all other sections that match your target.
- We require binutils 2.11.2 or newer. Previous binutils releases had
- a number of problems with DWARF 2 debugging information, not the least
- of which is incorrect linking of shared libraries.
- amd64-*-solaris2.1[0-9]*
- ========================
- This is a synonym for 'x86_64-*-solaris2.1[0-9]*'.
- amdgcn-unknown-amdhsa
- =====================
- AMD GCN GPU target.
- Instead of GNU Binutils, you will need to install LLVM 6, or later,
- and copy 'bin/llvm-mc' to 'amdgcn-unknown-amdhsa/bin/as', 'bin/lld' to
- 'amdgcn-unknown-amdhsa/bin/ld', 'bin/llvm-nm' to
- 'amdgcn-unknown-amdhsa/bin/nm', and 'bin/llvm-ar' to both
- 'bin/amdgcn-unknown-amdhsa-ar' and 'bin/amdgcn-unknown-amdhsa-ranlib'.
- Use Newlib (2019-01-16, or newer).
- To run the binaries, install the HSA Runtime from the ROCm Platform,
- and use 'libexec/gcc/amdhsa-unknown-amdhsa/VERSION/gcn-run' to launch
- them on the GPU.
- arc-*-elf32
- ===========
- Use 'configure --target=arc-elf32 --with-cpu=CPU
- --enable-languages="c,c++"' to configure GCC, with CPU being one of
- 'arc600', 'arc601', or 'arc700'.
- arc-linux-uclibc
- ================
- Use 'configure --target=arc-linux-uclibc --with-cpu=arc700
- --enable-languages="c,c++"' to configure GCC.
- arm-*-eabi
- ==========
- ARM-family processors.
- Building the Ada frontend commonly fails (an infinite loop executing
- 'xsinfo') if the host compiler is GNAT 4.8. Host compilers built from
- the GNAT 4.6, 4.9 or 5 release branches are known to succeed.
- avr
- ===
- ATMEL AVR-family micro controllers. These are used in embedded
- applications. There are no standard Unix configurations. *Note AVR
- Options: (gcc)AVR Options, for the list of supported MCU types.
- Use 'configure --target=avr --enable-languages="c"' to configure GCC.
- Further installation notes and other useful information about AVR
- tools can also be obtained from:
- * http://www.nongnu.org/avr/
- * http://www.amelek.gda.pl/avr/
- The following error:
- Error: register required
- indicates that you should upgrade to a newer version of the binutils.
- Blackfin
- ========
- The Blackfin processor, an Analog Devices DSP. *Note Blackfin Options:
- (gcc)Blackfin Options,
- More information, and a version of binutils with support for this
- processor, is available at <https://blackfin.uclinux.org>
- CR16
- ====
- The CR16 CompactRISC architecture is a 16-bit architecture. This
- architecture is used in embedded applications.
- *Note CR16 Options: (gcc)CR16 Options,
- Use 'configure --target=cr16-elf --enable-languages=c,c++' to
- configure GCC for building a CR16 elf cross-compiler.
- Use 'configure --target=cr16-uclinux --enable-languages=c,c++' to
- configure GCC for building a CR16 uclinux cross-compiler.
- CRIS
- ====
- CRIS is the CPU architecture in Axis Communications ETRAX
- system-on-a-chip series. These are used in embedded applications.
- *Note CRIS Options: (gcc)CRIS Options, for a list of CRIS-specific
- options.
- There are a few different CRIS targets:
- 'cris-axis-elf'
- Mainly for monolithic embedded systems. Includes a multilib for
- the 'v10' core used in 'ETRAX 100 LX'.
- 'cris-axis-linux-gnu'
- A GNU/Linux port for the CRIS architecture, currently targeting
- 'ETRAX 100 LX' by default.
- Pre-packaged tools can be obtained from
- <ftp://ftp.axis.com/pub/axis/tools/cris/compiler-kit/>. More
- information about this platform is available at
- <http://developer.axis.com/>.
- DOS
- ===
- Please have a look at the binaries page.
- You cannot install GCC by itself on MSDOS; it will not compile under
- any MSDOS compiler except itself. You need to get the complete
- compilation package DJGPP, which includes binaries as well as sources,
- and includes all the necessary compilation tools and libraries.
- epiphany-*-elf
- ==============
- Adapteva Epiphany. This configuration is intended for embedded systems.
- *-*-freebsd*
- ============
- Support for FreeBSD 1 was discontinued in GCC 3.2. Support for FreeBSD
- 2 (and any mutant a.out variants of FreeBSD 3) was discontinued in GCC
- 4.0.
- In order to better utilize FreeBSD base system functionality and
- match the configuration of the system compiler, GCC 4.5 and above as
- well as GCC 4.4 past 2010-06-20 leverage SSP support in libc (which is
- present on FreeBSD 7 or later) and the use of '__cxa_atexit' by default
- (on FreeBSD 6 or later). The use of 'dl_iterate_phdr' inside
- 'libgcc_s.so.1' and boehm-gc (on FreeBSD 7 or later) is enabled by GCC
- 4.5 and above.
- We support FreeBSD using the ELF file format with DWARF 2 debugging
- for all CPU architectures. You may use '-gstabs' instead of '-g', if
- you really want the old debugging format. There are no known issues
- with mixing object files and libraries with different debugging formats.
- Otherwise, this release of GCC should now match more of the
- configuration used in the stock FreeBSD configuration of GCC. In
- particular, '--enable-threads' is now configured by default. However,
- as a general user, do not attempt to replace the system compiler with
- this release. Known to bootstrap and check with good results on FreeBSD
- 7.2-STABLE. In the past, known to bootstrap and check with good results
- on FreeBSD 3.0, 3.4, 4.0, 4.2, 4.3, 4.4, 4.5, 4.8, 4.9 and 5-CURRENT.
- The version of binutils installed in '/usr/bin' probably works with
- this release of GCC. Bootstrapping against the latest GNU binutils
- and/or the version found in '/usr/ports/devel/binutils' has been known
- to enable additional features and improve overall testsuite results.
- However, it is currently known that boehm-gc may not configure properly
- on FreeBSD prior to the FreeBSD 7.0 release with GNU binutils after
- 2.16.1.
- ft32-*-elf
- ==========
- The FT32 processor. This configuration is intended for embedded
- systems.
- h8300-hms
- =========
- Renesas H8/300 series of processors.
- Please have a look at the binaries page.
- The calling convention and structure layout has changed in release
- 2.6. All code must be recompiled. The calling convention now passes
- the first three arguments in function calls in registers. Structures
- are no longer a multiple of 2 bytes.
- hppa*-hp-hpux*
- ==============
- Support for HP-UX version 9 and older was discontinued in GCC 3.4.
- We require using gas/binutils on all hppa platforms. Version 2.19 or
- later is recommended.
- It may be helpful to configure GCC with the '--with-gnu-as' and
- '--with-as=...' options to ensure that GCC can find GAS.
- The HP assembler should not be used with GCC. It is rarely tested and
- may not work. It shouldn't be used with any languages other than C due
- to its many limitations.
- Specifically, '-g' does not work (HP-UX uses a peculiar debugging
- format which GCC does not know about). It also inserts timestamps into
- each object file it creates, causing the 3-stage comparison test to fail
- during a bootstrap. You should be able to continue by saying 'make
- all-host all-target' after getting the failure from 'make'.
- Various GCC features are not supported. For example, it does not
- support weak symbols or alias definitions. As a result, explicit
- template instantiations are required when using C++. This makes it
- difficult if not impossible to build many C++ applications.
- There are two default scheduling models for instructions. These are
- PROCESSOR_7100LC and PROCESSOR_8000. They are selected from the pa-risc
- architecture specified for the target machine when configuring.
- PROCESSOR_8000 is the default. PROCESSOR_7100LC is selected when the
- target is a 'hppa1*' machine.
- The PROCESSOR_8000 model is not well suited to older processors.
- Thus, it is important to completely specify the machine architecture
- when configuring if you want a model other than PROCESSOR_8000. The
- macro TARGET_SCHED_DEFAULT can be defined in BOOT_CFLAGS if a different
- default scheduling model is desired.
- As of GCC 4.0, GCC uses the UNIX 95 namespace for HP-UX 10.10 through
- 11.00, and the UNIX 98 namespace for HP-UX 11.11 and later. This
- namespace change might cause problems when bootstrapping with an earlier
- version of GCC or the HP compiler as essentially the same namespace is
- required for an entire build. This problem can be avoided in a number
- of ways. With HP cc, 'UNIX_STD' can be set to '95' or '98'. Another
- way is to add an appropriate set of predefines to 'CC'. The description
- for the 'munix=' option contains a list of the predefines used with each
- standard.
- More specific information to 'hppa*-hp-hpux*' targets follows.
- hppa*-hp-hpux10
- ===============
- For hpux10.20, we _highly_ recommend you pick up the latest sed patch
- 'PHCO_19798' from HP.
- The C++ ABI has changed incompatibly in GCC 4.0. COMDAT subspaces
- are used for one-only code and data. This resolves many of the previous
- problems in using C++ on this target. However, the ABI is not
- compatible with the one implemented under HP-UX 11 using secondary
- definitions.
- hppa*-hp-hpux11
- ===============
- GCC 3.0 and up support HP-UX 11. GCC 2.95.x is not supported and cannot
- be used to compile GCC 3.0 and up.
- The libffi library haven't been ported to 64-bit HP-UX and doesn't
- build.
- Refer to binaries for information about obtaining precompiled GCC
- binaries for HP-UX. Precompiled binaries must be obtained to build the
- Ada language as it cannot be bootstrapped using C. Ada is only
- available for the 32-bit PA-RISC runtime.
- Starting with GCC 3.4 an ISO C compiler is required to bootstrap.
- The bundled compiler supports only traditional C; you will need either
- HP's unbundled compiler, or a binary distribution of GCC.
- It is possible to build GCC 3.3 starting with the bundled HP
- compiler, but the process requires several steps. GCC 3.3 can then be
- used to build later versions.
- There are several possible approaches to building the distribution.
- Binutils can be built first using the HP tools. Then, the GCC
- distribution can be built. The second approach is to build GCC first
- using the HP tools, then build binutils, then rebuild GCC. There have
- been problems with various binary distributions, so it is best not to
- start from a binary distribution.
- On 64-bit capable systems, there are two distinct targets. Different
- installation prefixes must be used if both are to be installed on the
- same system. The 'hppa[1-2]*-hp-hpux11*' target generates code for the
- 32-bit PA-RISC runtime architecture and uses the HP linker. The
- 'hppa64-hp-hpux11*' target generates 64-bit code for the PA-RISC 2.0
- architecture.
- The script config.guess now selects the target type based on the
- compiler detected during configuration. You must define 'PATH' or 'CC'
- so that configure finds an appropriate compiler for the initial
- bootstrap. When 'CC' is used, the definition should contain the options
- that are needed whenever 'CC' is used.
- Specifically, options that determine the runtime architecture must be
- in 'CC' to correctly select the target for the build. It is also
- convenient to place many other compiler options in 'CC'. For example,
- 'CC="cc -Ac +DA2.0W -Wp,-H16376 -D_CLASSIC_TYPES -D_HPUX_SOURCE"' can be
- used to bootstrap the GCC 3.3 branch with the HP compiler in 64-bit
- K&R/bundled mode. The '+DA2.0W' option will result in the automatic
- selection of the 'hppa64-hp-hpux11*' target. The macro definition table
- of cpp needs to be increased for a successful build with the HP
- compiler. _CLASSIC_TYPES and _HPUX_SOURCE need to be defined when
- building with the bundled compiler, or when using the '-Ac' option.
- These defines aren't necessary with '-Ae'.
- It is best to explicitly configure the 'hppa64-hp-hpux11*' target
- with the '--with-ld=...' option. This overrides the standard search for
- ld. The two linkers supported on this target require different
- commands. The default linker is determined during configuration. As a
- result, it's not possible to switch linkers in the middle of a GCC
- build. This has been reported to sometimes occur in unified builds of
- binutils and GCC.
- A recent linker patch must be installed for the correct operation of
- GCC 3.3 and later. 'PHSS_26559' and 'PHSS_24304' are the oldest linker
- patches that are known to work. They are for HP-UX 11.00 and 11.11,
- respectively. 'PHSS_24303', the companion to 'PHSS_24304', might be
- usable but it hasn't been tested. These patches have been superseded.
- Consult the HP patch database to obtain the currently recommended linker
- patch for your system.
- The patches are necessary for the support of weak symbols on the
- 32-bit port, and for the running of initializers and finalizers. Weak
- symbols are implemented using SOM secondary definition symbols. Prior
- to HP-UX 11, there are bugs in the linker support for secondary symbols.
- The patches correct a problem of linker core dumps creating shared
- libraries containing secondary symbols, as well as various other linking
- issues involving secondary symbols.
- GCC 3.3 uses the ELF DT_INIT_ARRAY and DT_FINI_ARRAY capabilities to
- run initializers and finalizers on the 64-bit port. The 32-bit port
- uses the linker '+init' and '+fini' options for the same purpose. The
- patches correct various problems with the +init/+fini options, including
- program core dumps. Binutils 2.14 corrects a problem on the 64-bit port
- resulting from HP's non-standard use of the .init and .fini sections for
- array initializers and finalizers.
- Although the HP and GNU linkers are both supported for the
- 'hppa64-hp-hpux11*' target, it is strongly recommended that the HP
- linker be used for link editing on this target.
- At this time, the GNU linker does not support the creation of long
- branch stubs. As a result, it cannot successfully link binaries
- containing branch offsets larger than 8 megabytes. In addition, there
- are problems linking shared libraries, linking executables with
- '-static', and with dwarf2 unwind and exception support. It also
- doesn't provide stubs for internal calls to global functions in shared
- libraries, so these calls cannot be overloaded.
- The HP dynamic loader does not support GNU symbol versioning, so
- symbol versioning is not supported. It may be necessary to disable
- symbol versioning with '--disable-symvers' when using GNU ld.
- POSIX threads are the default. The optional DCE thread library is
- not supported, so '--enable-threads=dce' does not work.
- *-*-linux-gnu
- =============
- Versions of libstdc++-v3 starting with 3.2.1 require bug fixes present
- in glibc 2.2.5 and later. More information is available in the
- libstdc++-v3 documentation.
- i?86-*-linux*
- =============
- As of GCC 3.3, binutils 2.13.1 or later is required for this platform.
- See bug 10877 for more information.
- If you receive Signal 11 errors when building on GNU/Linux, then it
- is possible you have a hardware problem. Further information on this
- can be found on www.bitwizard.nl.
- i?86-*-solaris2.10
- ==================
- Use this for Solaris 10 or later on x86 and x86-64 systems. Starting
- with GCC 4.7, there is also a 64-bit 'amd64-*-solaris2.1[0-9]*' or
- 'x86_64-*-solaris2.1[0-9]*' configuration that corresponds to
- 'sparcv9-sun-solaris2*'.
- It is recommended that you configure GCC to use the GNU assembler.
- The versions included in Solaris 10, from GNU binutils 2.15 (in
- '/usr/sfw/bin/gas'), and Solaris 11, from GNU binutils 2.19 or newer
- (also available as '/usr/bin/gas' and '/usr/gnu/bin/as'), work fine.
- The current version, from GNU binutils 2.29, is known to work, but the
- version from GNU binutils 2.26 must be avoided. Recent versions of the
- Solaris assembler in '/usr/ccs/bin/as' work almost as well, though.
- For linking, the Solaris linker, is preferred. If you want to use
- the GNU linker instead, note that due to a packaging bug the version in
- Solaris 10, from GNU binutils 2.15 (in '/usr/sfw/bin/gld'), cannot be
- used, while the version in Solaris 11, from GNU binutils 2.19 or newer
- (also in '/usr/gnu/bin/ld' and '/usr/bin/gld'), works, as does the
- latest version, from GNU binutils 2.29.
- To use GNU 'as', configure with the options '--with-gnu-as
- --with-as=/usr/sfw/bin/gas'. It may be necessary to configure with
- '--without-gnu-ld --with-ld=/usr/ccs/bin/ld' to guarantee use of Sun
- 'ld'.
- ia64-*-linux
- ============
- IA-64 processor (also known as IPF, or Itanium Processor Family) running
- GNU/Linux.
- If you are using the installed system libunwind library with
- '--with-system-libunwind', then you must use libunwind 0.98 or later.
- None of the following versions of GCC has an ABI that is compatible
- with any of the other versions in this list, with the exception that Red
- Hat 2.96 and Trillian 000171 are compatible with each other: 3.1, 3.0.2,
- 3.0.1, 3.0, Red Hat 2.96, and Trillian 000717. This primarily affects
- C++ programs and programs that create shared libraries. GCC 3.1 or
- later is recommended for compiling linux, the kernel. As of version 3.1
- GCC is believed to be fully ABI compliant, and hence no more major ABI
- changes are expected.
- ia64-*-hpux*
- ============
- Building GCC on this target requires the GNU Assembler. The bundled HP
- assembler will not work. To prevent GCC from using the wrong assembler,
- the option '--with-gnu-as' may be necessary.
- The GCC libunwind library has not been ported to HPUX. This means
- that for GCC versions 3.2.3 and earlier, '--enable-libunwind-exceptions'
- is required to build GCC. For GCC 3.3 and later, this is the default.
- For gcc 3.4.3 and later, '--enable-libunwind-exceptions' is removed and
- the system libunwind library will always be used.
- *-ibm-aix*
- ==========
- Support for AIX version 3 and older was discontinued in GCC 3.4.
- Support for AIX version 4.2 and older was discontinued in GCC 4.5.
- "out of memory" bootstrap failures may indicate a problem with
- process resource limits (ulimit). Hard limits are configured in the
- '/etc/security/limits' system configuration file.
- GCC 4.9 and above require a C++ compiler for bootstrap. IBM VAC++ /
- xlC cannot bootstrap GCC. xlc can bootstrap an older version of GCC and
- G++ can bootstrap recent releases of GCC.
- GCC can bootstrap with recent versions of IBM XLC, but bootstrapping
- with an earlier release of GCC is recommended. Bootstrapping with XLC
- requires a larger data segment, which can be enabled through the
- LDR_CNTRL environment variable, e.g.,
- % LDR_CNTRL=MAXDATA=0x50000000
- % export LDR_CNTRL
- One can start with a pre-compiled version of GCC to build from
- sources. One may delete GCC's "fixed" header files when starting with a
- version of GCC built for an earlier release of AIX.
- To speed up the configuration phases of bootstrapping and installing
- GCC, one may use GNU Bash instead of AIX '/bin/sh', e.g.,
- % CONFIG_SHELL=/opt/freeware/bin/bash
- % export CONFIG_SHELL
- and then proceed as described in the build instructions, where we
- strongly recommend specifying an absolute path to invoke
- SRCDIR/configure.
- Because GCC on AIX is built as a 32-bit executable by default,
- (although it can generate 64-bit programs) the GMP and MPFR libraries
- required by gfortran must be 32-bit libraries. Building GMP and MPFR as
- static archive libraries works better than shared libraries.
- Errors involving 'alloca' when building GCC generally are due to an
- incorrect definition of 'CC' in the Makefile or mixing files compiled
- with the native C compiler and GCC. During the stage1 phase of the
- build, the native AIX compiler *must* be invoked as 'cc' (not 'xlc').
- Once 'configure' has been informed of 'xlc', one needs to use 'make
- distclean' to remove the configure cache files and ensure that 'CC'
- environment variable does not provide a definition that will confuse
- 'configure'. If this error occurs during stage2 or later, then the
- problem most likely is the version of Make (see above).
- The native 'as' and 'ld' are recommended for bootstrapping on AIX.
- The GNU Assembler, GNU Linker, and GNU Binutils version 2.20 is the
- minimum level that supports bootstrap on AIX 5. The GNU Assembler has
- not been updated to support AIX 6 or AIX 7. The native AIX tools do
- interoperate with GCC.
- AIX 7.1 added partial support for DWARF debugging, but full support
- requires AIX 7.1 TL03 SP7 that supports additional DWARF sections and
- fixes a bug in the assembler. AIX 7.1 TL03 SP5 distributed a version of
- libm.a missing important symbols; a fix for IV77796 will be included in
- SP6.
- AIX 5.3 TL10, AIX 6.1 TL05 and AIX 7.1 TL00 introduced an AIX
- assembler change that sometimes produces corrupt assembly files causing
- AIX linker errors. The bug breaks GCC bootstrap on AIX and can cause
- compilation failures with existing GCC installations. An AIX iFix for
- AIX 5.3 is available (APAR IZ98385 for AIX 5.3 TL10, APAR IZ98477 for
- AIX 5.3 TL11 and IZ98134 for AIX 5.3 TL12). AIX 5.3 TL11 SP8, AIX 5.3
- TL12 SP5, AIX 6.1 TL04 SP11, AIX 6.1 TL05 SP7, AIX 6.1 TL06 SP6, AIX 6.1
- TL07 and AIX 7.1 TL01 should include the fix.
- Building 'libstdc++.a' requires a fix for an AIX Assembler bug APAR
- IY26685 (AIX 4.3) or APAR IY25528 (AIX 5.1). It also requires a fix for
- another AIX Assembler bug and a co-dependent AIX Archiver fix referenced
- as APAR IY53606 (AIX 5.2) or as APAR IY54774 (AIX 5.1)
- 'libstdc++' in GCC 3.4 increments the major version number of the
- shared object and GCC installation places the 'libstdc++.a' shared
- library in a common location which will overwrite the and GCC 3.3
- version of the shared library. Applications either need to be re-linked
- against the new shared library or the GCC 3.1 and GCC 3.3 versions of
- the 'libstdc++' shared object needs to be available to the AIX runtime
- loader. The GCC 3.1 'libstdc++.so.4', if present, and GCC 3.3
- 'libstdc++.so.5' shared objects can be installed for runtime dynamic
- loading using the following steps to set the 'F_LOADONLY' flag in the
- shared object for _each_ multilib 'libstdc++.a' installed:
- Extract the shared objects from the currently installed 'libstdc++.a'
- archive:
- % ar -x libstdc++.a libstdc++.so.4 libstdc++.so.5
- Enable the 'F_LOADONLY' flag so that the shared object will be
- available for runtime dynamic loading, but not linking:
- % strip -e libstdc++.so.4 libstdc++.so.5
- Archive the runtime-only shared object in the GCC 3.4 'libstdc++.a'
- archive:
- % ar -q libstdc++.a libstdc++.so.4 libstdc++.so.5
- Eventually, the '--with-aix-soname=svr4' configure option may drop
- the need for this procedure for libraries that support it.
- Linking executables and shared libraries may produce warnings of
- duplicate symbols. The assembly files generated by GCC for AIX always
- have included multiple symbol definitions for certain global variable
- and function declarations in the original program. The warnings should
- not prevent the linker from producing a correct library or runnable
- executable.
- AIX 4.3 utilizes a "large format" archive to support both 32-bit and
- 64-bit object modules. The routines provided in AIX 4.3.0 and AIX 4.3.1
- to parse archive libraries did not handle the new format correctly.
- These routines are used by GCC and result in error messages during
- linking such as "not a COFF file". The version of the routines shipped
- with AIX 4.3.1 should work for a 32-bit environment. The '-g' option of
- the archive command may be used to create archives of 32-bit objects
- using the original "small format". A correct version of the routines is
- shipped with AIX 4.3.2 and above.
- Some versions of the AIX binder (linker) can fail with a relocation
- overflow severe error when the '-bbigtoc' option is used to link
- GCC-produced object files into an executable that overflows the TOC. A
- fix for APAR IX75823 (OVERFLOW DURING LINK WHEN USING GCC AND -BBIGTOC)
- is available from IBM Customer Support and from its
- techsupport.services.ibm.com website as PTF U455193.
- The AIX 4.3.2.1 linker (bos.rte.bind_cmds Level 4.3.2.1) will dump
- core with a segmentation fault when invoked by any version of GCC. A
- fix for APAR IX87327 is available from IBM Customer Support and from its
- techsupport.services.ibm.com website as PTF U461879. This fix is
- incorporated in AIX 4.3.3 and above.
- The initial assembler shipped with AIX 4.3.0 generates incorrect
- object files. A fix for APAR IX74254 (64BIT DISASSEMBLED OUTPUT FROM
- COMPILER FAILS TO ASSEMBLE/BIND) is available from IBM Customer Support
- and from its techsupport.services.ibm.com website as PTF U453956. This
- fix is incorporated in AIX 4.3.1 and above.
- AIX provides National Language Support (NLS). Compilers and
- assemblers use NLS to support locale-specific representations of various
- data formats including floating-point numbers (e.g., '.' vs ',' for
- separating decimal fractions). There have been problems reported where
- GCC does not produce the same floating-point formats that the assembler
- expects. If one encounters this problem, set the 'LANG' environment
- variable to 'C' or 'En_US'.
- A default can be specified with the '-mcpu=CPU_TYPE' switch and using
- the configure option '--with-cpu-CPU_TYPE'.
- iq2000-*-elf
- ============
- Vitesse IQ2000 processors. These are used in embedded applications.
- There are no standard Unix configurations.
- lm32-*-elf
- ==========
- Lattice Mico32 processor. This configuration is intended for embedded
- systems.
- lm32-*-uclinux
- ==============
- Lattice Mico32 processor. This configuration is intended for embedded
- systems running uClinux.
- m32c-*-elf
- ==========
- Renesas M32C processor. This configuration is intended for embedded
- systems.
- m32r-*-elf
- ==========
- Renesas M32R processor. This configuration is intended for embedded
- systems.
- m68k-*-*
- ========
- By default, 'm68k-*-elf*', 'm68k-*-rtems', 'm68k-*-uclinux' and
- 'm68k-*-linux' build libraries for both M680x0 and ColdFire processors.
- If you only need the M680x0 libraries, you can omit the ColdFire ones by
- passing '--with-arch=m68k' to 'configure'. Alternatively, you can omit
- the M680x0 libraries by passing '--with-arch=cf' to 'configure'. These
- targets default to 5206 or 5475 code as appropriate for the target
- system when configured with '--with-arch=cf' and 68020 code otherwise.
- The 'm68k-*-netbsd' and 'm68k-*-openbsd' targets also support the
- '--with-arch' option. They will generate ColdFire CFV4e code when
- configured with '--with-arch=cf' and 68020 code otherwise.
- You can override the default processors listed above by configuring
- with '--with-cpu=TARGET'. This TARGET can either be a '-mcpu' argument
- or one of the following values: 'm68000', 'm68010', 'm68020', 'm68030',
- 'm68040', 'm68060', 'm68020-40' and 'm68020-60'.
- GCC requires at least binutils version 2.17 on these targets.
- m68k-*-uclinux
- ==============
- GCC 4.3 changed the uClinux configuration so that it uses the
- 'm68k-linux-gnu' ABI rather than the 'm68k-elf' ABI. It also added
- improved support for C++ and flat shared libraries, both of which were
- ABI changes.
- microblaze-*-elf
- ================
- Xilinx MicroBlaze processor. This configuration is intended for
- embedded systems.
- mips-*-*
- ========
- If on a MIPS system you get an error message saying "does not have gp
- sections for all it's [sic] sectons [sic]", don't worry about it. This
- happens whenever you use GAS with the MIPS linker, but there is not
- really anything wrong, and it is okay to use the output file. You can
- stop such warnings by installing the GNU linker.
- It would be nice to extend GAS to produce the gp tables, but they are
- optional, and there should not be a warning about their absence.
- The libstdc++ atomic locking routines for MIPS targets requires MIPS
- II and later. A patch went in just after the GCC 3.3 release to make
- 'mips*-*-*' use the generic implementation instead. You can also
- configure for 'mipsel-elf' as a workaround. The 'mips*-*-linux*' target
- continues to use the MIPS II routines. More work on this is expected in
- future releases.
- The built-in '__sync_*' functions are available on MIPS II and later
- systems and others that support the 'll', 'sc' and 'sync' instructions.
- This can be overridden by passing '--with-llsc' or '--without-llsc' when
- configuring GCC. Since the Linux kernel emulates these instructions if
- they are missing, the default for 'mips*-*-linux*' targets is
- '--with-llsc'. The '--with-llsc' and '--without-llsc' configure options
- may be overridden at compile time by passing the '-mllsc' or '-mno-llsc'
- options to the compiler.
- MIPS systems check for division by zero (unless
- '-mno-check-zero-division' is passed to the compiler) by generating
- either a conditional trap or a break instruction. Using trap results in
- smaller code, but is only supported on MIPS II and later. Also, some
- versions of the Linux kernel have a bug that prevents trap from
- generating the proper signal ('SIGFPE'). To enable the use of break,
- use the '--with-divide=breaks' 'configure' option when configuring GCC.
- The default is to use traps on systems that support them.
- moxie-*-elf
- ===========
- The moxie processor.
- msp430-*-elf
- ============
- TI MSP430 processor. This configuration is intended for embedded
- systems.
- nds32le-*-elf
- =============
- Andes NDS32 target in little endian mode.
- nds32be-*-elf
- =============
- Andes NDS32 target in big endian mode.
- nvptx-*-none
- ============
- Nvidia PTX target.
- Instead of GNU binutils, you will need to install nvptx-tools. Tell
- GCC where to find it:
- '--with-build-time-tools=[install-nvptx-tools]/nvptx-none/bin'.
- You will need newlib 3.0 git revision
- cd31fbb2aea25f94d7ecedc9db16dfc87ab0c316 or later. It can be
- automatically built together with GCC. For this, add a symbolic link to
- nvptx-newlib's 'newlib' directory to the directory containing the GCC
- sources.
- Use the '--disable-sjlj-exceptions' and
- '--enable-newlib-io-long-long' options when configuring.
- or1k-*-elf
- ==========
- The OpenRISC 1000 32-bit processor with delay slots. This configuration
- is intended for embedded systems.
- or1k-*-linux
- ============
- The OpenRISC 1000 32-bit processor with delay slots.
- powerpc-*-*
- ===========
- You can specify a default version for the '-mcpu=CPU_TYPE' switch by
- using the configure option '--with-cpu-CPU_TYPE'.
- You will need GNU binutils 2.15 or newer.
- powerpc-*-darwin*
- =================
- PowerPC running Darwin (Mac OS X kernel).
- Pre-installed versions of Mac OS X may not include any developer
- tools, meaning that you will not be able to build GCC from source. Tool
- binaries are available at <https://opensource.apple.com>.
- This version of GCC requires at least cctools-590.36. The
- cctools-590.36 package referenced from
- <http://gcc.gnu.org/ml/gcc/2006-03/msg00507.html> will not work on
- systems older than 10.3.9 (aka darwin7.9.0).
- powerpc-*-elf
- =============
- PowerPC system in big endian mode, running System V.4.
- powerpc*-*-linux-gnu*
- =====================
- PowerPC system in big endian mode running Linux.
- powerpc-*-netbsd*
- =================
- PowerPC system in big endian mode running NetBSD.
- powerpc-*-eabisim
- =================
- Embedded PowerPC system in big endian mode for use in running under the
- PSIM simulator.
- powerpc-*-eabi
- ==============
- Embedded PowerPC system in big endian mode.
- powerpcle-*-elf
- ===============
- PowerPC system in little endian mode, running System V.4.
- powerpcle-*-eabisim
- ===================
- Embedded PowerPC system in little endian mode for use in running under
- the PSIM simulator.
- powerpcle-*-eabi
- ================
- Embedded PowerPC system in little endian mode.
- rl78-*-elf
- ==========
- The Renesas RL78 processor. This configuration is intended for embedded
- systems.
- riscv32-*-elf
- =============
- The RISC-V RV32 instruction set. This configuration is intended for
- embedded systems. This (and all other RISC-V) targets are supported
- upstream as of the binutils 2.28 release.
- riscv32-*-linux
- ===============
- The RISC-V RV32 instruction set running GNU/Linux. This (and all other
- RISC-V) targets are supported upstream as of the binutils 2.28 release.
- riscv64-*-elf
- =============
- The RISC-V RV64 instruction set. This configuration is intended for
- embedded systems. This (and all other RISC-V) targets are supported
- upstream as of the binutils 2.28 release.
- riscv64-*-linux
- ===============
- The RISC-V RV64 instruction set running GNU/Linux. This (and all other
- RISC-V) targets are supported upstream as of the binutils 2.28 release.
- rx-*-elf
- ========
- The Renesas RX processor.
- s390-*-linux*
- =============
- S/390 system running GNU/Linux for S/390.
- s390x-*-linux*
- ==============
- zSeries system (64-bit) running GNU/Linux for zSeries.
- s390x-ibm-tpf*
- ==============
- zSeries system (64-bit) running TPF. This platform is supported as
- cross-compilation target only.
- *-*-solaris2*
- =============
- Support for Solaris 10 has been obsoleted in GCC 9, but can still be
- enabled by configuring with '--enable-obsolete'. Support will be
- removed in GCC 10. Support for Solaris 9 has been removed in GCC 5.
- Support for Solaris 8 has been removed in GCC 4.8. Support for Solaris
- 7 has been removed in GCC 4.6.
- Sun does not ship a C compiler with Solaris 2 before Solaris 10,
- though you can download the Sun Studio compilers for free. In Solaris
- 10 and 11, GCC 3.4.3 is available as '/usr/sfw/bin/gcc'. Solaris 11
- also provides GCC 4.5.2, 4.7.3, and 4.8.2 as '/usr/gcc/4.5/bin/gcc' or
- similar. Alternatively, you can install a pre-built GCC to bootstrap
- and install GCC. See the binaries page for details.
- The Solaris 2 '/bin/sh' will often fail to configure 'libstdc++-v3'or
- 'boehm-gc'. We therefore recommend using the following initial sequence
- of commands
- % CONFIG_SHELL=/bin/ksh
- % export CONFIG_SHELL
- and proceed as described in the configure instructions. In addition we
- strongly recommend specifying an absolute path to invoke
- 'SRCDIR/configure'.
- Solaris 10 comes with a number of optional OS packages. Some of
- these are needed to use GCC fully, namely 'SUNWarc', 'SUNWbtool',
- 'SUNWesu', 'SUNWhea', 'SUNWlibm', 'SUNWsprot', and 'SUNWtoo'. If you
- did not install all optional packages when installing Solaris 10, you
- will need to verify that the packages that GCC needs are installed. To
- check whether an optional package is installed, use the 'pkginfo'
- command. To add an optional package, use the 'pkgadd' command. For
- further details, see the Solaris 10 documentation.
- Starting with Solaris 11, the package management has changed, so you
- need to check for 'system/header', 'system/linker', and
- 'developer/assembler' packages. Checking for and installing packages is
- done with the 'pkg' command now.
- Trying to use the linker and other tools in '/usr/ucb' to install GCC
- has been observed to cause trouble. For example, the linker may hang
- indefinitely. The fix is to remove '/usr/ucb' from your 'PATH'.
- The build process works more smoothly with the legacy Sun tools so,
- if you have '/usr/xpg4/bin' in your 'PATH', we recommend that you place
- '/usr/bin' before '/usr/xpg4/bin' for the duration of the build.
- We recommend the use of the Solaris assembler or the GNU assembler,
- in conjunction with the Solaris linker. The GNU 'as' versions included
- in Solaris 10, from GNU binutils 2.15 (in '/usr/sfw/bin/gas'), and
- Solaris 11, from GNU binutils 2.19 or newer (also in '/usr/bin/gas' and
- '/usr/gnu/bin/as'), are known to work. The current version, from GNU
- binutils 2.29, is known to work as well. Note that your mileage may
- vary if you use a combination of the GNU tools and the Solaris tools:
- while the combination GNU 'as' + Sun 'ld' should reasonably work, the
- reverse combination Sun 'as' + GNU 'ld' may fail to build or cause
- memory corruption at runtime in some cases for C++ programs. GNU 'ld'
- usually works as well, although the version included in Solaris 10
- cannot be used due to several bugs. Again, the current version (2.29)
- is known to work, but generally lacks platform specific features, so
- better stay with Solaris 'ld'. To use the LTO linker plugin
- ('-fuse-linker-plugin') with GNU 'ld', GNU binutils _must_ be configured
- with '--enable-largefile'.
- To enable symbol versioning in 'libstdc++' with the Solaris linker,
- you need to have any version of GNU 'c++filt', which is part of GNU
- binutils. 'libstdc++' symbol versioning will be disabled if no
- appropriate version is found. Solaris 'c++filt' from the Solaris Studio
- compilers does _not_ work.
- Sun bug 4927647 sometimes causes random spurious testsuite failures
- related to missing diagnostic output. This bug doesn't affect GCC
- itself, rather it is a kernel bug triggered by the 'expect' program
- which is used only by the GCC testsuite driver. When the bug causes the
- 'expect' program to miss anticipated output, extra testsuite failures
- appear.
- sparc*-*-*
- ==========
- This section contains general configuration information for all
- SPARC-based platforms. In addition to reading this section, please read
- all other sections that match your target.
- Newer versions of the GNU Multiple Precision Library (GMP), the MPFR
- library and the MPC library are known to be miscompiled by earlier
- versions of GCC on these platforms. We therefore recommend the use of
- the exact versions of these libraries listed as minimal versions in the
- prerequisites.
- sparc-sun-solaris2*
- ===================
- When GCC is configured to use GNU binutils 2.14 or later, the binaries
- produced are smaller than the ones produced using Sun's native tools;
- this difference is quite significant for binaries containing debugging
- information.
- Starting with Solaris 7, the operating system is capable of executing
- 64-bit SPARC V9 binaries. GCC 3.1 and later properly supports this; the
- '-m64' option enables 64-bit code generation. However, if all you want
- is code tuned for the UltraSPARC CPU, you should try the
- '-mtune=ultrasparc' option instead, which produces code that, unlike
- full 64-bit code, can still run on non-UltraSPARC machines.
- When configuring the GNU Multiple Precision Library (GMP), the MPFR
- library or the MPC library on a Solaris 7 or later system, the canonical
- target triplet must be specified as the 'build' parameter on the
- configure line. This target triplet can be obtained by invoking
- './config.guess' in the toplevel source directory of GCC (and not that
- of GMP or MPFR or MPC). For example on a Solaris 9 system:
- % ./configure --build=sparc-sun-solaris2.9 --prefix=xxx
- sparc-sun-solaris2.10
- =====================
- There is a bug in older versions of the Sun assembler which breaks
- thread-local storage (TLS). A typical error message is
- ld: fatal: relocation error: R_SPARC_TLS_LE_HIX22: file /var/tmp//ccamPA1v.o:
- symbol <unknown>: bad symbol type SECT: symbol type must be TLS
- This bug is fixed in Sun patch 118683-03 or later.
- sparc-*-linux*
- ==============
- sparc64-*-solaris2*
- ===================
- When configuring the GNU Multiple Precision Library (GMP), the MPFR
- library or the MPC library, the canonical target triplet must be
- specified as the 'build' parameter on the configure line. For example
- on a Solaris 9 system:
- % ./configure --build=sparc64-sun-solaris2.9 --prefix=xxx
- sparcv9-*-solaris2*
- ===================
- This is a synonym for 'sparc64-*-solaris2*'.
- c6x-*-*
- =======
- The C6X family of processors. This port requires binutils-2.22 or
- newer.
- tilegx-*-linux*
- ===============
- The TILE-Gx processor in little endian mode, running GNU/Linux. This
- port requires binutils-2.22 or newer.
- tilegxbe-*-linux*
- =================
- The TILE-Gx processor in big endian mode, running GNU/Linux. This port
- requires binutils-2.23 or newer.
- tilepro-*-linux*
- ================
- The TILEPro processor running GNU/Linux. This port requires
- binutils-2.22 or newer.
- visium-*-elf
- ============
- CDS VISIUMcore processor. This configuration is intended for embedded
- systems.
- *-*-vxworks*
- ============
- Support for VxWorks is in flux. At present GCC supports _only_ the very
- recent VxWorks 5.5 (aka Tornado 2.2) release, and only on PowerPC. We
- welcome patches for other architectures supported by VxWorks 5.5.
- Support for VxWorks AE would also be welcome; we believe this is merely
- a matter of writing an appropriate "configlette" (see below). We are
- not interested in supporting older, a.out or COFF-based, versions of
- VxWorks in GCC 3.
- VxWorks comes with an older version of GCC installed in
- '$WIND_BASE/host'; we recommend you do not overwrite it. Choose an
- installation PREFIX entirely outside $WIND_BASE. Before running
- 'configure', create the directories 'PREFIX' and 'PREFIX/bin'. Link or
- copy the appropriate assembler, linker, etc. into 'PREFIX/bin', and set
- your PATH to include that directory while running both 'configure' and
- 'make'.
- You must give 'configure' the '--with-headers=$WIND_BASE/target/h'
- switch so that it can find the VxWorks system headers. Since VxWorks is
- a cross compilation target only, you must also specify
- '--target=TARGET'. 'configure' will attempt to create the directory
- 'PREFIX/TARGET/sys-include' and copy files into it; make sure the user
- running 'configure' has sufficient privilege to do so.
- GCC's exception handling runtime requires a special "configlette"
- module, 'contrib/gthr_supp_vxw_5x.c'. Follow the instructions in that
- file to add the module to your kernel build. (Future versions of
- VxWorks will incorporate this module.)
- x86_64-*-*, amd64-*-*
- =====================
- GCC supports the x86-64 architecture implemented by the AMD64 processor
- (amd64-*-* is an alias for x86_64-*-*) on GNU/Linux, FreeBSD and NetBSD.
- On GNU/Linux the default is a bi-arch compiler which is able to generate
- both 64-bit x86-64 and 32-bit x86 code (via the '-m32' switch).
- x86_64-*-solaris2.1[0-9]*
- =========================
- GCC also supports the x86-64 architecture implemented by the AMD64
- processor ('amd64-*-*' is an alias for 'x86_64-*-*') on Solaris 10 or
- later. Unlike other systems, without special options a bi-arch compiler
- is built which generates 32-bit code by default, but can generate 64-bit
- x86-64 code with the '-m64' switch. Since GCC 4.7, there is also a
- configuration that defaults to 64-bit code, but can generate 32-bit code
- with '-m32'. To configure and build this way, you have to provide all
- support libraries like 'libgmp' as 64-bit code, configure with
- '--target=x86_64-pc-solaris2.1x' and 'CC=gcc -m64'.
- xtensa*-*-elf
- =============
- This target is intended for embedded Xtensa systems using the 'newlib' C
- library. It uses ELF but does not support shared objects.
- Designed-defined instructions specified via the Tensilica Instruction
- Extension (TIE) language are only supported through inline assembly.
- The Xtensa configuration information must be specified prior to
- building GCC. The 'include/xtensa-config.h' header file contains the
- configuration information. If you created your own Xtensa configuration
- with the Xtensa Processor Generator, the downloaded files include a
- customized copy of this header file, which you can use to replace the
- default header file.
- xtensa*-*-linux*
- ================
- This target is for Xtensa systems running GNU/Linux. It supports ELF
- shared objects and the GNU C library (glibc). It also generates
- position-independent code (PIC) regardless of whether the '-fpic' or
- '-fPIC' options are used. In other respects, this target is the same as
- the 'xtensa*-*-elf' target.
- Microsoft Windows
- =================
- Intel 16-bit versions
- ---------------------
- The 16-bit versions of Microsoft Windows, such as Windows 3.1, are not
- supported.
- However, the 32-bit port has limited support for Microsoft Windows
- 3.11 in the Win32s environment, as a target only. See below.
- Intel 32-bit versions
- ---------------------
- The 32-bit versions of Windows, including Windows 95, Windows NT,
- Windows XP, and Windows Vista, are supported by several different target
- platforms. These targets differ in which Windows subsystem they target
- and which C libraries are used.
- * Cygwin *-*-cygwin: Cygwin provides a user-space Linux API emulation
- layer in the Win32 subsystem.
- * MinGW *-*-mingw32: MinGW is a native GCC port for the Win32
- subsystem that provides a subset of POSIX.
- * MKS i386-pc-mks: NuTCracker from MKS. See
- <https://www.mkssoftware.com> for more information.
- Intel 64-bit versions
- ---------------------
- GCC contains support for x86-64 using the mingw-w64 runtime library,
- available from <http://mingw-w64.org/doku.php>. This library should be
- used with the target triple x86_64-pc-mingw32.
- Presently Windows for Itanium is not supported.
- Windows CE
- ----------
- Windows CE is supported as a target only on Hitachi SuperH
- (sh-wince-pe), and MIPS (mips-wince-pe).
- Other Windows Platforms
- -----------------------
- GCC no longer supports Windows NT on the Alpha or PowerPC.
- GCC no longer supports the Windows POSIX subsystem. However, it does
- support the Interix subsystem. See above.
- Old target names including *-*-winnt and *-*-windowsnt are no longer
- used.
- PW32 (i386-pc-pw32) support was never completed, and the project
- seems to be inactive. See <http://pw32.sourceforge.net/> for more
- information.
- UWIN support has been removed due to a lack of maintenance.
- *-*-cygwin
- ==========
- Ports of GCC are included with the Cygwin environment.
- GCC will build under Cygwin without modification; it does not build
- with Microsoft's C++ compiler and there are no plans to make it do so.
- The Cygwin native compiler can be configured to target any 32-bit x86
- cpu architecture desired; the default is i686-pc-cygwin. It should be
- used with as up-to-date a version of binutils as possible; use either
- the latest official GNU binutils release in the Cygwin distribution, or
- version 2.20 or above if building your own.
- *-*-mingw32
- ===========
- GCC will build with and support only MinGW runtime 3.12 and later.
- Earlier versions of headers are incompatible with the new default
- semantics of 'extern inline' in '-std=c99' and '-std=gnu99' modes.
- Older systems
- =============
- GCC contains support files for many older (1980s and early 1990s) Unix
- variants. For the most part, support for these systems has not been
- deliberately removed, but it has not been maintained for several years
- and may suffer from bitrot.
- Starting with GCC 3.1, each release has a list of "obsoleted"
- systems. Support for these systems is still present in that release,
- but 'configure' will fail unless the '--enable-obsolete' option is
- given. Unless a maintainer steps forward, support for these systems
- will be removed from the next release of GCC.
- Support for old systems as hosts for GCC can cause problems if the
- workarounds for compiler, library and operating system bugs affect the
- cleanliness or maintainability of the rest of GCC. In some cases, to
- bring GCC up on such a system, if still possible with current GCC, may
- require first installing an old version of GCC which did work on that
- system, and using it to compile a more recent GCC, to avoid bugs in the
- vendor compiler. Old releases of GCC 1 and GCC 2 are available in the
- 'old-releases' directory on the GCC mirror sites. Header bugs may
- generally be avoided using 'fixincludes', but bugs or deficiencies in
- libraries and the operating system may still cause problems.
- Support for older systems as targets for cross-compilation is less
- problematic than support for them as hosts for GCC; if an enthusiast
- wishes to make such a target work again (including resurrecting any of
- the targets that never worked with GCC 2, starting from the last version
- before they were removed), patches following the usual requirements
- would be likely to be accepted, since they should not affect the support
- for more modern targets.
- For some systems, old versions of GNU binutils may also be useful,
- and are available from 'pub/binutils/old-releases' on sourceware.org
- mirror sites.
- Some of the information on specific systems above relates to such
- older systems, but much of the information about GCC on such systems
- (which may no longer be applicable to current GCC) is to be found in the
- GCC texinfo manual.
- all ELF targets (SVR4, Solaris 2, etc.)
- =======================================
- C++ support is significantly better on ELF targets if you use the GNU
- linker; duplicate copies of inlines, vtables and template instantiations
- will be discarded automatically.
- File: x86_64-linux-gnu-gccinstall.info, Node: Old, Next: GNU Free Documentation License, Prev: Specific, Up: Top
- 10 Old installation documentation
- *********************************
- Note most of this information is out of date and superseded by the
- previous chapters of this manual. It is provided for historical
- reference only, because of a lack of volunteers to merge it into the
- main manual.
- * Menu:
- * Configurations:: Configurations Supported by GCC.
- Here is the procedure for installing GCC on a GNU or Unix system.
- 1. If you have chosen a configuration for GCC which requires other GNU
- tools (such as GAS or the GNU linker) instead of the standard
- system tools, install the required tools in the build directory
- under the names 'as', 'ld' or whatever is appropriate.
- Alternatively, you can do subsequent compilation using a value of
- the 'PATH' environment variable such that the necessary GNU tools
- come before the standard system tools.
- 2. Specify the host, build and target machine configurations. You do
- this when you run the 'configure' script.
- The "build" machine is the system which you are using, the "host"
- machine is the system where you want to run the resulting compiler
- (normally the build machine), and the "target" machine is the
- system for which you want the compiler to generate code.
- If you are building a compiler to produce code for the machine it
- runs on (a native compiler), you normally do not need to specify
- any operands to 'configure'; it will try to guess the type of
- machine you are on and use that as the build, host and target
- machines. So you don't need to specify a configuration when
- building a native compiler unless 'configure' cannot figure out
- what your configuration is or guesses wrong.
- In those cases, specify the build machine's "configuration name"
- with the '--host' option; the host and target will default to be
- the same as the host machine.
- Here is an example:
- ./configure --host=sparc-sun-sunos4.1
- A configuration name may be canonical or it may be more or less
- abbreviated.
- A canonical configuration name has three parts, separated by
- dashes. It looks like this: 'CPU-COMPANY-SYSTEM'. (The three
- parts may themselves contain dashes; 'configure' can figure out
- which dashes serve which purpose.) For example,
- 'm68k-sun-sunos4.1' specifies a Sun 3.
- You can also replace parts of the configuration by nicknames or
- aliases. For example, 'sun3' stands for 'm68k-sun', so
- 'sun3-sunos4.1' is another way to specify a Sun 3.
- You can specify a version number after any of the system types, and
- some of the CPU types. In most cases, the version is irrelevant,
- and will be ignored. So you might as well specify the version if
- you know it.
- See *note Configurations::, for a list of supported configuration
- names and notes on many of the configurations. You should check
- the notes in that section before proceeding any further with the
- installation of GCC.
- File: x86_64-linux-gnu-gccinstall.info, Node: Configurations, Up: Old
- 10.1 Configurations Supported by GCC
- ====================================
- Here are the possible CPU types:
- 1750a, a29k, alpha, arm, avr, cN, clipper, dsp16xx, elxsi, fr30,
- h8300, hppa1.0, hppa1.1, i370, i386, i486, i586, i686, i786, i860,
- i960, ip2k, m32r, m68000, m68k, m88k, mcore, mips, mipsel, mips64,
- mips64el, mn10200, mn10300, ns32k, pdp11, powerpc, powerpcle, romp,
- rs6000, sh, sparc, sparclite, sparc64, v850, vax, we32k.
- Here are the recognized company names. As you can see, customary
- abbreviations are used rather than the longer official names.
- acorn, alliant, altos, apollo, apple, att, bull, cbm, convergent,
- convex, crds, dec, dg, dolphin, elxsi, encore, harris, hitachi, hp,
- ibm, intergraph, isi, mips, motorola, ncr, next, ns, omron, plexus,
- sequent, sgi, sony, sun, tti, unicom, wrs.
- The company name is meaningful only to disambiguate when the rest of
- the information supplied is insufficient. You can omit it, writing just
- 'CPU-SYSTEM', if it is not needed. For example, 'vax-ultrix4.2' is
- equivalent to 'vax-dec-ultrix4.2'.
- Here is a list of system types:
- 386bsd, aix, acis, amigaos, aos, aout, aux, bosx, bsd, clix, coff,
- ctix, cxux, dgux, dynix, ebmon, ecoff, elf, esix, freebsd, hms,
- genix, gnu, linux, linux-gnu, hiux, hpux, iris, irix, isc, luna,
- lynxos, mach, minix, msdos, mvs, netbsd, newsos, nindy, ns, osf,
- osfrose, ptx, riscix, riscos, rtu, sco, sim, solaris, sunos, sym,
- sysv, udi, ultrix, unicos, uniplus, unos, vms, vsta, vxworks,
- winnt, xenix.
- You can omit the system type; then 'configure' guesses the operating
- system from the CPU and company.
- You can add a version number to the system type; this may or may not
- make a difference. For example, you can write 'bsd4.3' or 'bsd4.4' to
- distinguish versions of BSD. In practice, the version number is most
- needed for 'sysv3' and 'sysv4', which are often treated differently.
- 'linux-gnu' is the canonical name for the GNU/Linux target; however
- GCC will also accept 'linux'. The version of the kernel in use is not
- relevant on these systems. A suffix such as 'libc1' or 'aout'
- distinguishes major versions of the C library; all of the suffixed
- versions are obsolete.
- If you specify an impossible combination such as 'i860-dg-vms', then
- you may get an error message from 'configure', or it may ignore part of
- the information and do the best it can with the rest. 'configure'
- always prints the canonical name for the alternative that it used. GCC
- does not support all possible alternatives.
- Often a particular model of machine has a name. Many machine names
- are recognized as aliases for CPU/company combinations. Thus, the
- machine name 'sun3', mentioned above, is an alias for 'm68k-sun'.
- Sometimes we accept a company name as a machine name, when the name is
- popularly used for a particular machine. Here is a table of the known
- machine names:
- 3300, 3b1, 3bN, 7300, altos3068, altos, apollo68, att-7300,
- balance, convex-cN, crds, decstation-3100, decstation, delta,
- encore, fx2800, gmicro, hp7NN, hp8NN, hp9k2NN, hp9k3NN, hp9k7NN,
- hp9k8NN, iris4d, iris, isi68, m3230, magnum, merlin, miniframe,
- mmax, news-3600, news800, news, next, pbd, pc532, pmax, powerpc,
- powerpcle, ps2, risc-news, rtpc, sun2, sun386i, sun386, sun3, sun4,
- symmetry, tower-32, tower.
- Remember that a machine name specifies both the cpu type and the company
- name.
- File: x86_64-linux-gnu-gccinstall.info, Node: GNU Free Documentation License, Next: Concept Index, Prev: Old, Up: Top
- GNU Free Documentation License
- ******************************
- Version 1.3, 3 November 2008
- Copyright (C) 2000, 2001, 2002, 2007, 2008 Free Software Foundation, Inc.
- <http://fsf.org/>
- Everyone is permitted to copy and distribute verbatim copies
- of this license document, but changing it is not allowed.
- 0. PREAMBLE
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- It complements the GNU General Public License, which is a copyleft
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- We have designed this License in order to use it for manuals for
- free software, because free software needs free documentation: a
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- ADDENDUM: How to use this License for your documents
- ====================================================
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- Copyright (C) YEAR YOUR NAME.
- Permission is granted to copy, distribute and/or modify this document
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- with no Invariant Sections, no Front-Cover Texts, and no Back-Cover
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- File: x86_64-linux-gnu-gccinstall.info, Node: Concept Index, Prev: GNU Free Documentation License, Up: Top
- Concept Index
- *************
- �[index�]
- * Menu:
- * Binaries: Binaries. (line 6)
- * build_configargs: Configuration. (line 1618)
- * Configuration: Configuration. (line 6)
- * configurations supported by GCC: Configurations. (line 6)
- * Downloading GCC: Downloading the source.
- (line 6)
- * Downloading the Source: Downloading the source.
- (line 6)
- * FDL, GNU Free Documentation License: GNU Free Documentation License.
- (line 6)
- * Host specific installation: Specific. (line 6)
- * host_configargs: Configuration. (line 1622)
- * Installing GCC: Binaries: Binaries. (line 6)
- * Installing GCC: Building: Building. (line 6)
- * Installing GCC: Configuration: Configuration. (line 6)
- * Installing GCC: Testing: Testing. (line 6)
- * Prerequisites: Prerequisites. (line 6)
- * Specific: Specific. (line 6)
- * Specific installation notes: Specific. (line 6)
- * Target specific installation: Specific. (line 6)
- * Target specific installation notes: Specific. (line 6)
- * target_configargs: Configuration. (line 1626)
- * Testing: Testing. (line 6)
- * Testsuite: Testing. (line 6)
- Tag Table:
- Node: Top1747
- Node: Installing GCC2322
- Node: Prerequisites3973
- Node: Downloading the source14509
- Node: Configuration16197
- Ref: with-gnu-as31845
- Ref: with-as32740
- Ref: with-gnu-ld34153
- Ref: WithAixSoname56562
- Ref: AixLdCommand57223
- Node: Building93807
- Node: Testing110433
- Node: Final install118337
- Node: Binaries123654
- Node: Specific124798
- Ref: aarch64-x-x125322
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