Current Path : /compat/linux/proc/68247/root/usr/src/contrib/gcc/doc/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //compat/linux/proc/68247/root/usr/src/contrib/gcc/doc/makefile.texi |
@c Copyright (C) 2001, 2002, 2003, 2004 Free Software Foundation, Inc. @c This is part of the GCC manual. @c For copying conditions, see the file gcc.texi. @node Makefile @subsection Makefile Targets @cindex makefile targets @cindex targets, makefile These targets are available from the @samp{gcc} directory: @table @code @item all This is the default target. Depending on what your build/host/target configuration is, it coordinates all the things that need to be built. @item doc Produce info-formatted documentation and man pages. Essentially it calls @samp{make man} and @samp{make info}. @item dvi Produce DVI-formatted documentation. @item pdf Produce PDF-formatted documentation. @item html Produce HTML-formatted documentation. @item man Generate man pages. @item info Generate info-formatted pages. @item mostlyclean Delete the files made while building the compiler. @item clean That, and all the other files built by @samp{make all}. @item distclean That, and all the files created by @command{configure}. @item maintainer-clean Distclean plus any file that can be generated from other files. Note that additional tools may be required beyond what is normally needed to build gcc. @item srcextra Generates files in the source directory that do not exist in CVS but should go into a release tarball. One example is @file{gcc/java/parse.c} which is generated from the CVS source file @file{gcc/java/parse.y}. @item srcinfo @itemx srcman Copies the info-formatted and manpage documentation into the source directory usually for the purpose of generating a release tarball. @item install Installs gcc. @item uninstall Deletes installed files. @item check Run the testsuite. This creates a @file{testsuite} subdirectory that has various @file{.sum} and @file{.log} files containing the results of the testing. You can run subsets with, for example, @samp{make check-gcc}. You can specify specific tests by setting RUNTESTFLAGS to be the name of the @file{.exp} file, optionally followed by (for some tests) an equals and a file wildcard, like: @smallexample make check-gcc RUNTESTFLAGS="execute.exp=19980413-*" @end smallexample Note that running the testsuite may require additional tools be installed, such as TCL or dejagnu. @end table The toplevel tree from which you start GCC compilation is not the GCC directory, but rather a complex Makefile that coordinates the various steps of the build, including bootstrapping the compiler and using the new compiler to build target libraries. When GCC is configured for a native configuration, the default action for @command{make} is to do a full three-stage bootstrap. This means that GCC is built three times---once with the native compiler, once with the native-built compiler it just built, and once with the compiler it built the second time. In theory, the last two should produce the same results, which @samp{make compare} can check. Each stage is configured separately and compiled into a separate directory, to minimize problems due to ABI incompatibilities between the native compiler and GCC. If you do a change, rebuilding will also start from the first stage and ``bubble'' up the change through the three stages. Each stage is taken from its build directory (if it had been built previously), rebuilt, and copied to its subdirectory. This will allow you to, for example, continue a bootstrap after fixing a bug which causes the stage2 build to crash. It does not provide as good coverage of the compiler as bootstrapping from scratch, but it ensures that the new code is syntactically correct (e.g. that you did not use GCC extensions by mistake), and avoids spurious bootstrap comparison failures@footnote{Except if the compiler was buggy and miscompiled some of the files that were not modified. In this case, it's best to use @command{make restrap}.}. Other targets available from the top level include: @table @code @item bootstrap-lean Like @code{bootstrap}, except that the various stages are removed once they're no longer needed. This saves disk space. @item bootstrap2 @itemx bootstrap2-lean Performs only the first two stages of bootstrap. Unlike a three-stage bootstrap, this does not perform a comparison to test that the compiler is running properly. Note that the disk space required by a ``lean'' bootstrap is approximately independent of the number of stages. @item stage@var{N}-bubble (@var{N} = 1@dots{}4) Rebuild all the stages up to @var{N}, with the appropriate flags, ``bubbling'' the changes as described above. @item all-stage@var{N} (@var{N} = 1@dots{}4) Assuming that stage @var{N} has already been built, rebuild it with the appropriate flags. This is rarely needed. @item cleanstrap Remove everything (@samp{make clean}) and rebuilds (@samp{make bootstrap}). @item compare Compares the results of stages 2 and 3. This ensures that the compiler is running properly, since it should produce the same object files regardless of how it itself was compiled. @item profiledbootstrap Builds a compiler with profiling feedback information. For more information, see @ref{Building,,Building with profile feedback,gccinstall,Installing GCC}. @item restrap Restart a bootstrap, so that everything that was not built with the system compiler is rebuilt. @item stage@var{N}-start (@var{N} = 1@dots{}4) For each package that is bootstrapped, rename directories so that, for example, @file{gcc} points to the stage@var{N} GCC, compiled with the stage@var{N-1} GCC@footnote{Customarily, the system compiler is also termed the @file{stage0} GCC.}. You will invoke this target if you need to test or debug the stage@var{N} GCC. If you only need to execute GCC (but you need not run @samp{make} either to rebuild it or to run test suites), you should be able to work directly in the @file{stage@var{N}-gcc} directory. This makes it easier to debug multiple stages in parallel. @item stage For each package that is bootstrapped, relocate its build directory to indicate its stage. For example, if the @file{gcc} directory points to the stage2 GCC, after invoking this target it will be renamed to @file{stage2-gcc}. @end table If you wish to use non-default GCC flags when compiling the stage2 and stage3 compilers, set @code{BOOT_CFLAGS} on the command line when doing @samp{make}. Usually, the first stage only builds the languages that the compiler is written in: typically, C and maybe Ada. If you are debugging a miscompilation of a different stage2 front-end (for example, of the Fortran front-end), you may want to have front-ends for other languages in the first stage as well. To do so, set @code{STAGE1_LANGUAGES} on the command line when doing @samp{make}. For example, in the aforementioned scenario of debugging a Fortran front-end miscompilation caused by the stage1 compiler, you may need a command like @example make stage2-bubble STAGE1_LANGUAGES=c,fortran @end example Alternatively, you can use per-language targets to build and test languages that are not enabled by default in stage1. For example, @command{make f951} will build a Fortran compiler even in the stage1 build directory.