mes/build-aux/build-mes.sh
Jan Nieuwenhuizen 6633331876
build: Cleanup trace output.
* build-aux/build-cc.sh: Cleanup trace output.
* build-aux/build-cc32.sh: Likewise.
* build-aux/build-guile.sh: Likewise.
* build-aux/build-mes.sh: Likewise.
* build-aux/build-x86_64-mes.sh: Likewise.
* build-aux/cc-mes.sh: Likewise.
* build-aux/cc.sh: Likewise.
* build-aux/cc32-mes.sh: Likewise.
* build-aux/cc64-mes.sh: Likewise.
* build-aux/check-boot.sh: Likewise.
2018-08-15 12:28:08 +02:00

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#! /bin/sh
# GNU Mes --- Maxwell Equations of Software
# Copyright © 2017,2018 Jan (janneke) Nieuwenhuizen <janneke@gnu.org>
#
# This file is part of GNU Mes.
#
# GNU Mes 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 3 of the License, or (at
# your option) any later version.
#
# GNU Mes 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 GNU Mes. If not, see <http://www.gnu.org/licenses/>.
. ${srcdest}build-aux/config.sh
. ${srcdest}build-aux/trace.sh
GUILE=${GUILE-guile}
if [ -z "$GUILE" -o "$GUILE" = "true" ] || ! command -v $GUILE > /dev/null; then
GUILE=src/mes
fi
[ -z "$MESCC" ] && MESCC=scripts/mescc
MES=${MES-$(command -v mes)}
[ -z "$MES" ] && MES=src/mes
set -e
trace "HEX2 0exit-42" $HEX2\
--LittleEndian\
--Architecture 1\
--BaseAddress 0x1000000\
-f ${srcdest}lib/x86-mes/elf32-0header.hex2\
-f ${srcdest}lib/x86-mes/elf32-body-exit-42.hex2\
-f ${srcdest}lib/x86-mes/elf-0footer.hex2\
--exec_enable\
-o lib/x86-mes/0exit-42.x86-out
trace "TEST lib/x86-mes/0exit-42.x86-out" echo lib/x86-mes/0exit-42.x86-out
{ set +e; lib/x86-mes/0exit-42.x86-out; r=$?; set -e; }
[ $r != 42 ] && echo " => $r" && exit 1
trace "HEX2 0exit-42" $HEX2\
--LittleEndian\
--Architecture 1\
--BaseAddress 0x1000000\
-f ${srcdest}lib/x86-mes/elf32-header.hex2\
-f ${srcdest}lib/x86-mes/elf32-body-exit-42.hex2\
-f ${srcdest}lib/x86-mes/elf32-footer-single-main.hex2\
--exec_enable\
-o lib/x86-mes/exit-42.x86-out
trace "TEST lib/x86-mes/exit-42.x86-out" echo lib/x86-mes/exit-42.x86-out
{ set +e; lib/x86-mes/exit-42.x86-out; r=$?; set -e; }
[ $r != 42 ] && echo " => $r" && exit 1
if [ -d "$MES_SEED" ]; then
mkdir -p lib/x86-mes
trace "M1 crt1.S" $M1\
$M1FLAGS\
-f ${srcdest}lib/x86-mes/x86.M1\
-f $MES_SEED/x86-mes/crt1.S\
-o lib/x86-mes/crt1.o
trace "M1 libc.S" $M1\
$M1FLAGS\
-f ${srcdest}lib/x86-mes/x86.M1\
-f $MES_SEED/x86-mes/libc.S\
-o lib/x86-mes/libc.o
trace "M1 mes.S" $M1\
--LittleEndian\
--Architecture 1\
-f ${srcdest}lib/x86-mes/x86.M1\
-f $MES_SEED/x86-mes/mes.S\
-o src/mes.o
trace "BLOOD_ELF mes.S" $BLOOD_ELF\
-f ${srcdest}lib/x86-mes/x86.M1\
-f $MES_SEED/x86-mes/mes.S\
-f $MES_SEED/x86-mes/libc.S\
-o src/mes.S.blood-elf
trace "M1 mes.blood-elf" $M1\
--LittleEndian\
--Architecture 1\
-f src/mes.S.blood-elf\
-o src/mes.o.blood-elf
trace "HEX2 mes.o" $HEX2\
$HEX2FLAGS\
-f ${srcdest}lib/x86-mes/elf32-header.hex2\
-f lib/x86-mes/crt1.o\
-f lib/x86-mes/libc.o\
-f src/mes.o\
-f src/mes.o.blood-elf\
--exec_enable\
-o src/mes.seed-out
cp src/mes.seed-out src/mes
trace "M1 libc+tcc.S" $M1\
$M1FLAGS\
-f ${srcdest}lib/x86-mes/x86.M1\
-f $MES_SEED/x86-mes/libc+tcc.S\
-o lib/x86-mes/libc+tcc.o
fi
PREPROCESS=1
if [ ! -d "$MES_SEED" ] \
&& [ "$ARCH" = "i386" \
-o "$ARCH" = "i586" \
-o "$ARCH" = "i686" ]; then
MES_ARENA=100000000
fi
MES_ARENA=100000000
ARCHDIR=1 NOLINK=1 bash ${srcdest}build-aux/cc-mes.sh lib/linux/x86-mes/crt1
ARCHDIR=1 NOLINK=1 bash ${srcdest}build-aux/cc-mes.sh lib/libc-mini
PREPROCESS= bash ${srcdest}build-aux/cc-mes.sh lib/x86-mes/exit-42
trace "TEST lib/x86-mes/exit-42.mes-out" echo lib/x86-mes/exit-42.mes-out
{ set +e; lib/x86-mes/exit-42.mes-out; r=$?; set -e; }
[ $r != 42 ] && echo " => $r" && exit 1
ARCHDIR=1 NOLINK=1 bash ${srcdest}build-aux/cc-mes.sh lib/linux/x86-mes/crt0
ARCHDIR=1 NOLINK=1 bash ${srcdest}build-aux/cc-mes.sh lib/linux/x86-mes/crti
ARCHDIR=1 NOLINK=1 bash ${srcdest}build-aux/cc-mes.sh lib/linux/x86-mes/crtn
ARCHDIR=1 NOLINK=1 bash ${srcdest}build-aux/cc-mes.sh lib/libc
ARCHDIR=1 NOLINK=1 bash ${srcdest}build-aux/cc-mes.sh lib/libgetopt
ARCHDIR=1 NOLINK=1 bash ${srcdest}build-aux/cc-mes.sh lib/libc+tcc
ARCHDIR=1 NOLINK=1 bash ${srcdest}build-aux/cc-mes.sh lib/libc+gnu
[ -n "$SEED" ] && exit 0
MES_ARENA=${MES_ARENA-100000000}
trace "SNARF.mes gc.c" ./pre-inst-env bash ${srcdest}build-aux/mes-snarf.scm --mes src/gc.c
trace "SNARF.mes lib.c" ./pre-inst-env bash ${srcdest}build-aux/mes-snarf.scm --mes src/lib.c
trace "SNARF.mes math.c" ./pre-inst-env bash ${srcdest}build-aux/mes-snarf.scm --mes src/math.c
trace "SNARF.mes mes.c" ./pre-inst-env bash ${srcdest}build-aux/mes-snarf.scm --mes src/mes.c
trace "SNARF.mes posix.c" ./pre-inst-env bash ${srcdest}build-aux/mes-snarf.scm --mes src/posix.c
trace "SNARF.mes reader.c" ./pre-inst-env bash ${srcdest}build-aux/mes-snarf.scm --mes src/reader.c
trace "SNARF.mes vector.c" ./pre-inst-env bash ${srcdest}build-aux/mes-snarf.scm --mes src/vector.c
echo MES_ARENA=$MES_ARENA
bash ${srcdest}build-aux/cc-mes.sh scaffold/main
bash ${srcdest}build-aux/cc-mes.sh scaffold/main
bash ${srcdest}build-aux/cc-mes.sh scaffold/hello
bash ${srcdest}build-aux/cc-mes.sh scaffold/argv
bash ${srcdest}build-aux/cc-mes.sh scaffold/malloc
##sh ${srcdest}build-aux/cc-mes.sh scaffold/micro-mes
##sh ${srcdest}build-aux/cc-mes.sh scaffold/tiny-mes
# bash ${srcdest}build-aux/cc-mes.sh scaffold/mini-mes
bash ${srcdest}build-aux/cc-mes.sh src/mes
cp src/mes.mes-out src/mes