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@c Copyright (C) 2001, 2002, 2003, 2004, 2006, 2008, 2010
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@c Free Software Foundation, Inc.
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@c This is part of the GCC manual.
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@c For copying conditions, see the file gcc.texi.
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@node Makefile
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@subsection Makefile Targets
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@cindex makefile targets
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@cindex targets, makefile
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These targets are available from the @samp{gcc} directory:
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@table @code
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@item all
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This is the default target.  Depending on what your build/host/target
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configuration is, it coordinates all the things that need to be built.
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@item doc
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Produce info-formatted documentation and man pages.  Essentially it
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calls @samp{make man} and @samp{make info}.
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@item dvi
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Produce DVI-formatted documentation.
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@item pdf
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Produce PDF-formatted documentation.
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@item html
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Produce HTML-formatted documentation.
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@item man
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Generate man pages.
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@item info
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Generate info-formatted pages.
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@item mostlyclean
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Delete the files made while building the compiler.
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@item clean
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That, and all the other files built by @samp{make all}.
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@item distclean
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That, and all the files created by @command{configure}.
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@item maintainer-clean
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Distclean plus any file that can be generated from other files.  Note
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that additional tools may be required beyond what is normally needed to
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build GCC.
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@item srcextra
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Generates files in the source directory that are not version-controlled but
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should go into a release tarball.
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@item srcinfo
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@itemx srcman
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Copies the info-formatted and manpage documentation into the source
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directory usually for the purpose of generating a release tarball.
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@item install
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Installs GCC.
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@item uninstall
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Deletes installed files, though this is not supported.
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@item check
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Run the testsuite.  This creates a @file{testsuite} subdirectory that
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has various @file{.sum} and @file{.log} files containing the results of
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the testing.  You can run subsets with, for example, @samp{make check-gcc}.
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You can specify specific tests by setting @env{RUNTESTFLAGS} to be the name
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of the @file{.exp} file, optionally followed by (for some tests) an equals
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and a file wildcard, like:
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@smallexample
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make check-gcc RUNTESTFLAGS="execute.exp=19980413-*"
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@end smallexample
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Note that running the testsuite may require additional tools be
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installed, such as Tcl or DejaGnu.
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@end table
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The toplevel tree from which you start GCC compilation is not
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the GCC directory, but rather a complex Makefile that coordinates
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the various steps of the build, including bootstrapping the compiler
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and using the new compiler to build target libraries.
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When GCC is configured for a native configuration, the default action
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for @command{make} is to do a full three-stage bootstrap.  This means
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that GCC is built three times---once with the native compiler, once with
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the native-built compiler it just built, and once with the compiler it
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built the second time.  In theory, the last two should produce the same
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results, which @samp{make compare} can check.  Each stage is configured
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separately and compiled into a separate directory, to minimize problems
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due to ABI incompatibilities between the native compiler and GCC.
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If you do a change, rebuilding will also start from the first stage
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and ``bubble'' up the change through the three stages.  Each stage
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is taken from its build directory (if it had been built previously),
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rebuilt, and copied to its subdirectory.  This will allow you to, for
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example, continue a bootstrap after fixing a bug which causes the
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stage2 build to crash.  It does not provide as good coverage of the
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compiler as bootstrapping from scratch, but it ensures that the new
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code is syntactically correct (e.g., that you did not use GCC extensions
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by mistake), and avoids spurious bootstrap comparison
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failures@footnote{Except if the compiler was buggy and miscompiled
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some of the files that were not modified.  In this case, it's best
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to use @command{make restrap}.}.
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Other targets available from the top level include:
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@table @code
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@item bootstrap-lean
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Like @code{bootstrap}, except that the various stages are removed once
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they're no longer needed.  This saves disk space.
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@item bootstrap2
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@itemx bootstrap2-lean
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Performs only the first two stages of bootstrap.  Unlike a three-stage
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bootstrap, this does not perform a comparison to test that the compiler
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is running properly.  Note that the disk space required by a ``lean''
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bootstrap is approximately independent of the number of stages.
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@item stage@var{N}-bubble (@var{N} = 1@dots{}4, profile, feedback)
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Rebuild all the stages up to @var{N}, with the appropriate flags,
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``bubbling'' the changes as described above.
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@item all-stage@var{N} (@var{N} = 1@dots{}4, profile, feedback)
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Assuming that stage @var{N} has already been built, rebuild it with the
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appropriate flags.  This is rarely needed.
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@item cleanstrap
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Remove everything (@samp{make clean}) and rebuilds (@samp{make bootstrap}).
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@item compare
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Compares the results of stages 2 and 3.  This ensures that the compiler
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is running properly, since it should produce the same object files
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regardless of how it itself was compiled.
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@item profiledbootstrap
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Builds a compiler with profiling feedback information.  In this case,
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the second and third stages are named @samp{profile} and @samp{feedback},
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respectively.  For more information, see
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@ref{Building,,Building with profile feedback,gccinstall,Installing GCC}.
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@item restrap
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Restart a bootstrap, so that everything that was not built with
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the system compiler is rebuilt.
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@item stage@var{N}-start (@var{N} = 1@dots{}4, profile, feedback)
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For each package that is bootstrapped, rename directories so that,
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for example, @file{gcc} points to the stage@var{N} GCC, compiled
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with the stage@var{N-1} GCC@footnote{Customarily, the system compiler
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is also termed the @file{stage0} GCC.}.
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You will invoke this target if you need to test or debug the
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stage@var{N} GCC@.  If you only need to execute GCC (but you need
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not run @samp{make} either to rebuild it or to run test suites),
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you should be able to work directly in the @file{stage@var{N}-gcc}
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directory.  This makes it easier to debug multiple stages in
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parallel.
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@item stage
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For each package that is bootstrapped, relocate its build directory
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to indicate its stage.  For example, if the @file{gcc} directory
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points to the stage2 GCC, after invoking this target it will be
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renamed to @file{stage2-gcc}.
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@end table
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If you wish to use non-default GCC flags when compiling the stage2 and
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stage3 compilers, set @code{BOOT_CFLAGS} on the command line when doing
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@samp{make}.
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Usually, the first stage only builds the languages that the compiler
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is written in: typically, C and maybe Ada.  If you are debugging a
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miscompilation of a different stage2 front-end (for example, of the
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Fortran front-end), you may want to have front-ends for other languages
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in the first stage as well.  To do so, set @code{STAGE1_LANGUAGES}
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on the command line when doing @samp{make}.
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For example, in the aforementioned scenario of debugging a Fortran
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front-end miscompilation caused by the stage1 compiler, you may need a
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command like
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@example
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make stage2-bubble STAGE1_LANGUAGES=c,fortran
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@end example
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Alternatively, you can use per-language targets to build and test
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languages that are not enabled by default in stage1.  For example,
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@command{make f951} will build a Fortran compiler even in the stage1
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build directory.
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