Things libgcj hackers should know --------------------------------- If you want to hack on the libgcj files you need to be aware of the following things. There are probably lots of other things that should be explained in this HACKING file. Please add them if you discover them :) -- If you plan to modify a .java file, you will need to configure with --enable-java-maintainer-mode. In order to make this work properly, you will need to have 'ecj1' and 'gjavah' executables in your PATH at build time. One way to do this is to download ecj.jar (see contrib/download_ecj) and write a simple wrapper script like: #! /bin/sh gij -cp /home/tromey/gnu/Generics/trunk/ecj.jar \ org.eclipse.jdt.internal.compiler.batch.GCCMain \ ${1+"$@"} For gjavah, you can make a tools.zip from the classes in classpath/lib/tools/ and write a gjavah script like: #! /bin/sh dir=/home/tromey/gnu/Generics/Gcjh gij -cp $dir/tools.zip \ gnu.classpath.tools.javah.Main \ ${1+"$@"} Another way to get a version of gjavah is to first do a non-maintainer-mode build and use the newly installed gjavah. -- To regenerate libjava/configure, first run aclocal passing the flags found near the top of Makefile.am, then autoconf. H. J. Lu writes that this can be done using these commands: cd libjava && rm -f aclocal.m4 && ACFLAGS=$(grep "^ACLOCAL_AMFLAGS" Makefile.in | sed -e "s/ACLOCAL_AMFLAGS[ \t ]*=//") && aclocal-1.9 $ACFLAGS && rm -f configure && autoconf-2.59 && rm -fr autom4te.cache See the GCC documentation which auto* versions to use. -- libgcj uses GNU Classpath as an upstream provider. Snapshots of Classpath are imported into the libgcj source tree. Some classes are overridden by local versions; these files still appear in the libgcj tree. To import a new release: - Check out a classpath snapshot or take a release tar.gz file. I use 'cvs export' for this. Make a tag to ensure future hackers know exactly what revision was checked out; tags are of the form 'libgcj-import-DATE' (when using a tagged checkout do: - ./autogen.sh && ./configure && make dist to get a proper .tar.gz for importing below). - Get a svn checkout of svn+ssh://gcc.gnu.org/svn/gcc/branches/CLASSPATH/libjava/classpath this contains "pure" GNU Classpath inside the GCC tree. - Clean it up and get the files from a new version: - find classpath -type f | grep -v /\.svn | grep -v /\.cvs | xargs rm - tar zxf classpath-x.tar.gz - cp -r classpath-x/* classpath - Add/Remove files: - svn status classpath | grep ^\! | cut -c8- | xargs svn remove - svn status classpath | grep ^\? | cut -c8- | xargs svn add - If there are any empty directories now they can be removed. You can find candidates (dirs with files removed) with: - for i in `svn status classpath | grep ^D | cut -c8-`; \ do ls -d `dirname $i`; done | uniq - Update vendor branch - svn commit classpath - Note the new revision number (Xrev) - Get a fresh svn trunk checkout and cd gcc/libjava - Merge the changes between classpath versions into the trunk. svn merge -rXrev-1:Xrev \ svn+ssh://gcc.gnu.org/svn/gcc/branches/CLASSPATH/libjava/classpath \ classpath - Resolve any conflicts pointed out by svn status classpath | grep ^C - Makefile.in files will be regenerated in the next step. - Other files should have a "GCJ LOCAL" comment, and/or are mentioned in the classpath/ChangeLog.gcj file. (Don't forget to svn resolved files.) - Use auto* to create configure, Makefile.in, etc Make sure you have Automake 1.9.6 installed. Exactly that version! You have to make sure to use the gcc libtool.m4 and gcc lt* scripts cd .../classpath cp ../../lt* . cp ../../config.sub ../../config.guess . aclocal -I m4 -I ../.. -I ../../config autoconf autoheader automake rm -rf autom4te.cache cd .. scripts/makemake.tcl > sources.am automake - Build, fix, till everything works. Be sure to build all peers (--enable-java-awt=gtk,xlib,qt --enable-gconf-peer) Be sure to update gnu/classpath/Configuration.java to reflect the new version Possibly update the gcj/javaprims.h file with scripts/classes.pl (See below, it can only be done after the first source->bytecode pass has finished.) You will need to configure with --enable-maintainer-mode and you will need to update the .class files and generated CNI header files in your working tree Over time we plan to remove as many of the remaining divergences as possible. File additions and deletions require running scripts/makemake.tcl before running automake. -- In general you should not make any changes in the classpath/ directory. Changes here should come via imports from upstream. However, there are three (known) exceptions to this rule: * In an emergency, such as a bootstrap breakage, it is ok to commit a patch provided that the problem is resolved (by fixing a compiler bug or fixing the Classpath bug upstream) somehow and the resolution is later checked in (erasing the local diff). * On a release branch to fix a bug, where a full-scale import of Classpath is not advisable. * We maintain a fair number of divergences in the build system. This is a pain but they don't seem suitable for upstream. -- You can develop in a GCC tree using a CVS checkout of Classpath, most of the time. (The exceptions are when an incompatible change has been made in Classpath and some core part of libgcj has not yet been updated.) The way to set this up is very similar to importing a new version of Classpath into the libgcj tree. In your working tree: * cd gcc/libjava; rm -rf classpath * cvs co classpath * cd classpath Now run the auto tools as specified in the import process; then cd .. * Run 'scripts/makemake.tcl > sources.am' in the source tree * Run automake for libgcj Now you should be ready to go. If you are working in a tree like this, you must remember to run makemake.tcl and automake whenever you update your embedded classpath tree. -- If you add a class to java.lang, java.io, or java.util (including sub-packages, like java.lang.ref). * Edit gcj/javaprims.h * Go to the `namespace java' line, and delete that entire block (the entire contents of the namespace) * Then insert the output of `perl scripts/classes.pl' into the file at that point. This must be run from the build tree, in /classpath/lib; it uses the .class file name to determine what to print.