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add more byte-code assertions and better failure output -------------------- ChangeLog entries follow: -------------------- src/ChangeLog addition: 2010-02-03 Ben Wing <ben@xemacs.org> * alloc.c (Fmake_byte_code): * bytecode.h: * lisp.h: * lread.c: * lread.c (readevalloop): * lread.c (Fread): * lread.c (Fread_from_string): * lread.c (read_list_conser): * lread.c (read_list): * lread.c (vars_of_lread): * symbols.c: * symbols.c (Fdefine_function): Turn on the "compiled-function annotation hack". Implement it properly by hooking into Fdefalias(). Note in the docstring to `defalias' that we do this. Remove some old broken code and change code that implemented the old kludgy way of hooking into the Lisp reader into bracketed by `#ifdef COMPILED_FUNCTION_ANNOTATION_HACK_OLD_WAY', which is not enabled. Also enable byte-code metering when DEBUG_XEMACS -- this is a form of profiling for computing histograms of which sequences of two bytecodes are used most often. * bytecode-ops.h: * bytecode-ops.h (OPCODE): New file. Extract out all the opcodes and declare them using OPCODE(), a bit like frame slots and such. This way the file can be included multiple times if necessary to iterate multiple times over the byte opcodes. * bytecode.c: * bytecode.c (NUM_REMEMBERED_BYTE_OPS): * bytecode.c (OPCODE): * bytecode.c (assert_failed_with_remembered_ops): * bytecode.c (READ_UINT_2): * bytecode.c (READ_INT_1): * bytecode.c (READ_INT_2): * bytecode.c (PEEK_INT_1): * bytecode.c (PEEK_INT_2): * bytecode.c (JUMP_RELATIVE): * bytecode.c (JUMP_NEXT): * bytecode.c (PUSH): * bytecode.c (POP_WITH_MULTIPLE_VALUES): * bytecode.c (DISCARD): * bytecode.c (UNUSED): * bytecode.c (optimize_byte_code): * bytecode.c (optimize_compiled_function): * bytecode.c (Fbyte_code): * bytecode.c (vars_of_bytecode): * bytecode.c (init_opcode_table_multi_op): * bytecode.c (reinit_vars_of_bytecode): * emacs.c (main_1): * eval.c (funcall_compiled_function): * symsinit.h: Any time we change either the instruction pointer or the stack pointer, assert that we're going to move it to a valid location. This should catch failures right when they occur rather than sometime later. This requires that we pass in another couple of parameters into some functions (only with error-checking enabled, see below). Also keep track, using a circular queue, of the last 100 byte opcodes seen, and when we hit an assert failure during byte-code execution, output the contents of the queue in a nice readable fashion. This requires that bytecode-ops.h be included a second time so that a table mapping opcodes to the name of their operation can be constructed. This table is constructed in new function reinit_vars_of_bytecode(). Everything in the last two paras happens only when ERROR_CHECK_BYTE_CODE. Add some longish comments describing how the arrays that hold the stack and instructions, and the pointers used to access them, work. * gc.c: Import some code from my `latest-fix' workspace to mark the staticpro's in order from lowest to highest, rather than highest to lowest, so it's easier to debug when something goes wrong. * lisp.h (abort_with_message): Renamed from abort_with_msg(). * symbols.c (defsymbol_massage_name_1): * symbols.c (defsymbol_nodump): * symbols.c (defsymbol): * symbols.c (defkeyword): * symeval.h (DEFVAR_SYMVAL_FWD_OBJECT): Make the various calls to staticpro() instead call staticpro_1(), passing in the name of the C var being staticpro'ed, so that it shows up in staticpro_names. Otherwise staticpro_names just has 1000+ copies of the word `location'.
author Ben Wing <ben@xemacs.org>
date Wed, 03 Feb 2010 08:01:55 -0600
parents 8a653fbe5c27
children 308d34e9f07d
line wrap: on
line source

#!/bin/sh

# Copyright (C) 2000 Andy Piper

# This file is part of XEmacs.

# XEmacs is free software; you can redistribute it and/or modify it
# under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2, or (at your
# option) any later version.

# XEmacs is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
# General Public License for more details.

# You should have received a copy of the GNU General Public License
# along with XEmacs; see the file COPYING.  If not, write to the Free
# Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
# Boston, MA 02110-1301, USA.

# This file builds the release kits for both cygwin and win32. You
# must have both environments configured for it to work properly. In
# particular you must provide a suitable value for NATIVE_ZLIB_DIR.

# configuration
NATIVE_ZLIB_DIR=/usr/local/mingw/lib
PROGRAM_FILES='c:/Program Files/XEmacs'
TMPINSTALL=/tmp/local
# no configuration past this point

INSTALL=
FILES=
BUILD=1

for OPT in $*
do
    case $OPT in
    --install) INSTALL=1;;
    --installonly) INSTALL=1; BUILD='';;
    --help) echo "usage: build-msw-release.sh [--install]" && exit;;
    --*) ;;
    *) FILES="$FILES $OPT";;
    esac
done

# pick up version info
. version.sh

# decide on names
emacs_ver=${emacs_major_version}.${emacs_minor_version}.${emacs_beta_version}
cygwin_tarball=xemacs-i686-pc-cygwin-${emacs_ver}${emacs_kit_version}.tar.gz
win32_tarball=xemacs-i586-pc-win32-${emacs_ver}${emacs_kit_version}.tar.gz

DISTDIR=`pwd`/windows

# check to see if we should build
if test "$BUILD" = "1"
then

echo "Building the mswindows ${emacs_ver} release"

# cleanup everything first
if [ -f Makefile ] ; then
    make distclean
fi

# nuke the dist dir.
rm -rf windows

# create a dist directory 
mkdir -p windows/cygwin32
mkdir -p windows/win32
mkdir -p /usr/local
mkdir -p ${TMPINSTALL}

# first build win32
(cd nt;
  nmake -f xemacs.mak clean;
  nmake -f xemacs.mak)
(cd "${PROGRAM_FILES}";
    rm -rf ./XEmacs-${emacs_ver})
(cd nt;
  nmake -f xemacs.mak install;
  nmake -f xemacs.mak clean)

# now build cygwin
./configure --with-dragndrop --with-postgresql=no --with-x=no \
    --bindir=/usr/local/bin/i686-pc-cygwin --with-site-lisp=yes \
    --with-ipv6-cname=no --with-netinstall
make CFLAGS=-O3 MINGW_ZLIB_DIR=${NATIVE_ZLIB_DIR} beta

# deal with the netinstaller
(cd netinstall;
    strip setup.exe)
cp netinstall/setup.exe windows

# the win32 tar ball needs setup.exe
cp netinstall/setup.exe \
    "${PROGRAM_FILES}"/XEmacs-${emacs_ver}/i586-pc-win32

# make the win32 tarball
(cd "${PROGRAM_FILES}";
    tar czvf ${DISTDIR}/win32/${win32_tarball} \
	./XEmacs-${emacs_ver})

# make the tarball
make prefix=${TMPINSTALL} bindir=${TMPINSTALL}/bin/i686-pc-cygwin install
(cd ${TMPINSTALL};
    tar czvf ${DISTDIR}/cygwin32/${cygwin_tarball} \
    ./bin/i686-pc-cygwin \
    ./lib/xemacs-${emacs_ver} \
    ./lib/xemacs/lock \
    ./man/man1/ctags.1 \
    ./man/man1/etags.1 \
    ./man/man1/gnuattach.1 \
    ./man/man1/gnuclient.1 \
    ./man/man1/gnudoit.1 \
    ./man/man1/gnuserv.1 \
    ./man/man1/xemacs.1;
    rm -rf bin lib man)

# figure out the ini file.
cygwin_tarball_size=`ls -l windows/cygwin32/${cygwin_tarball} | awk '{ print $5; }'`
win32_tarball_size=`ls -l windows/win32/${win32_tarball} | awk '{ print $5; }'`

(cd netinstall;
    make CYGWIN_SIZE=${cygwin_tarball_size} \
	WIN32_SIZE=${win32_tarball_size} \
	KIT_VERSION=${emacs_kit_version} setup-bin.ini )
cp netinstall/setup-bin.ini windows

# tidy up
make distclean

fi
# end of build

# optionally install to the ftp site
if test "$INSTALL" != ""
then
    echo "Installing the mswindows ${emacs_ver} release"
    scp -r -oUser=slb -oProtocol=1 windows/* \
	ftp.xemacs.org:/pub/xemacs/windows
    # update setup.ini
    ssh -1 -l slb ftp.xemacs.org 'cd /pub/xemacs/windows; sh makeini.sh'
fi