#! /bin/sh # GNU Mes --- Maxwell Equations of Software # Copyright © 2017,2018 Jan (janneke) Nieuwenhuizen # # 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 . . ${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 2\ --BaseAddress 0x1000000\ -f ${srcdest}lib/x86_64-mes/elf64-0header.hex2\ -f ${srcdest}lib/x86_64-mes/elf64-body-exit-42.hex2\ -f ${srcdest}lib/x86_64-mes/elf-0footer.hex2\ --exec_enable\ -o lib/x86_64-mes/0exit-42.x86_64-out trace "TEST 0exit-42" { set +e; lib/x86_64-mes/0exit-42.x86_64-out; r=$?; set -e; } [ $r != 42 ] && echo " => $r" && exit 1 trace "HEX2 0exit-42" $HEX2\ --LittleEndian\ --Architecture 2\ --BaseAddress 0x1000000\ -f ${srcdest}lib/x86_64-mes/elf64-header.hex2\ -f ${srcdest}lib/x86_64-mes/elf64-body-exit-42.hex2\ -f ${srcdest}lib/x86_64-mes/elf64-footer-single-main.hex2\ --exec_enable\ -o lib/x86_64-mes/exit-42.x86_64-out trace "TEST exit-42" { set +e; lib/x86_64-mes/exit-42.x86_64-out; r=$?; set -e; } [ $r != 42 ] && echo " => $r" && exit 1 # if [ -d "$MES_SEED" ]; then # mkdir -p lib/x86_64-mes # trace "M1 crt1.S" $M1\ # $M1FLAGS\ # -f ${srcdest}lib/x86_64-mes/x86_64.M1\ # -f $MES_SEED/x86_64-mes/crt1.S\ # -o lib/x86_64-mes/crt1.o # trace "M1 libc.S" $M1\ # $M1FLAGS\ # -f ${srcdest}lib/x86_64-mes/x86_64.M1\ # -f $MES_SEED/x86_64-mes/libc.S\ # -o lib/x86_64-mes/libc.o # trace "M1 mes.S" $M1\ # --LittleEndian\ # --Architecture 2\ # -f ${srcdest}lib/x86_64-mes/x86_64.M1\ # -f $MES_SEED/x86_64-mes/mes.S\ # -o src/mes.o # trace "BLOOD_ELF mes.S" $BLOOD_ELF\ # -f ${srcdest}lib/x86_64-mes/x86_64.M1\ # -f $MES_SEED/x86_64-mes/mes.S\ # -f $MES_SEED/x86_64-mes/libc.S\ # -o src/mes.S.blood-elf # trace "M1 mes.blood-elf" $M1\ # --LittleEndian\ # --Architecture 2\ # -f src/mes.S.blood-elf\ # -o src/mes.o.blood-elf # trace "HEX2 mes.o" $HEX2\ # $HEX2FLAGS\ # -f ${srcdest}lib/x86_64-mes/elf64-header.hex2\ # -f lib/x86_64-mes/crt1.o\ # -f lib/x86_64-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_64-mes/x86_64.M1\ # -f $MES_SEED/x86_64-mes/libc+tcc.S\ # -o lib/x86_64-mes/libc+tcc.o # fi # PREPROCESS=1 # if [ ! -d "$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/crt0 # ARCHDIR=1 NOLINK=1 bash ${srcdest}build-aux/cc-mes.sh lib/libc-mini # PREPROCESS= bash ${srcdest}build-aux/cc-mes.sh lib/x86_64-mes/exit-42 # trace "TEST exit-42.x86_64-mes-out" # { set +e; lib/x86_64-mes/exit-42.x86_64-mes-out; r=$?; set -e; } # [ $r != 42 ] && echo " => $r" && exit 1 # ARCHDIR=1 NOLINK=1 bash ${srcdest}build-aux/cc-mes.sh lib/linux/crt1 # ARCHDIR=1 NOLINK=1 bash ${srcdest}build-aux/cc-mes.sh lib/linux/crti # ARCHDIR=1 NOLINK=1 bash ${srcdest}build-aux/cc-mes.sh lib/linux/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 "MSNARF gc.c" ./pre-inst-env bash ${srcdest}build-aux/mes-snarf.scm --mes src/gc.c # trace "MSNARF lib.c" ./pre-inst-env bash ${srcdest}build-aux/mes-snarf.scm --mes src/lib.c # trace "MSNARF math.c" ./pre-inst-env bash ${srcdest}build-aux/mes-snarf.scm --mes src/math.c # trace "MSNARF mes.c" ./pre-inst-env bash ${srcdest}build-aux/mes-snarf.scm --mes src/mes.c # trace "MSNARF posix.c" ./pre-inst-env bash ${srcdest}build-aux/mes-snarf.scm --mes src/posix.c # trace "MSNARF reader.c" ./pre-inst-env bash ${srcdest}build-aux/mes-snarf.scm --mes src/reader.c # trace "MSNARF 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 true