WITH_FEATURES=""
WITHOUT_FEATURES=""
+FANCY_FEATURES=":sb-core-compression :sb-xref-for-internals :sb-after-xc-core"
fancy=false
some_options=false
WITHOUT_FEATURES="$WITHOUT_FEATURES :$optarg"
;;
--fancy)
- WITH_FEATURES="$WITH_FEATURES :sb-core-compression :sb-xref-for-internals :sb-after-xc-core"
+ WITH_FEATURES="$WITH_FEATURES $FANCY_FEATURES"
# Lower down we add :sb-thread for platforms where it can be built.
fancy=true
;;
# customize-target-features.lisp...
echo "ERROR: Both customize-target-features.lisp, and feature-options"
echo "to make.sh present -- cannot use both at the same time."
+ exit 1
fi
# Previously XC host was provided as a positional argument.
--with-<feature> Build with specified feature.
--without-<feature> Build wihout the specfied feature.
+ --fancy Build with several optional features:
+
+ $FANCY_FEATURES
+
+ Plus threading on platforms which support it.
+
--arch=<string> Specify the architecture to build for.
Mainly for doing x86 builds on x86-64.
link_or_copy() {
if [ "$sbcl_os" = "win32" ] ; then
- cp -r "$1" "$2"
+ # Use preprocessor or makefile includes instead of copying if
+ # possible, to avoid unexpected use of the original, unchanged
+ # files when re-running only make-target-1 during development.
+ if echo "$1" | egrep '[.][ch]$'; then
+ echo "#include \"$1\"" >"$2"
+ elif echo "$1" | egrep '^Config[.]'; then
+ echo "include $1" >"$2"
+ else
+ cp -r "$1" "$2"
+ fi
else
ln -s "$1" "$2"
fi
# If --fancy, enable threads on platforms where they can be built.
case $sbcl_arch in
x86|x86-64|ppc)
- WITH_FEATURES="$WITH_FEATURES :sb-thread"
- echo "Enabling threads due to --fancy."
+ if [ "$sbcl_os" = "sunos" ] && [ "$sbcl_arch" = "x86-64" ]
+ then
+ echo "No threads on this platform."
+ else
+ WITH_FEATURES="$WITH_FEATURES :sb-thread"
+ echo "Enabling threads due to --fancy."
+ fi
;;
*)
echo "No threads on this platform."
;;
win32)
printf ' :win32' >> $ltf
+ printf ' :sb-qshow' >> $ltf
link_or_copy Config.$sbcl_arch-win32 Config
link_or_copy $sbcl_arch-win32-os.h target-arch-os.h
link_or_copy win32-os.h target-os.h
printf ' :float-eql-vops :inline-constants :memory-barrier-vops' >> $ltf
printf ' :multiply-high-vops' >> $ltf
elif [ "$sbcl_arch" = "mips" ]; then
- printf ' :linkage-table' >> $ltf
+ printf ' :cheneygc :linkage-table' >> $ltf
printf ' :stack-allocatable-closures :stack-allocatable-vectors' >> $ltf
printf ' :stack-allocatable-lists :stack-allocatable-fixed-objects' >> $ltf
printf ' :alien-callbacks' >> $ltf
- # Use a little C program to try to guess the endianness. Ware
- # cross-compilers!
- #
- # FIXME: integrate to grovel-features, mayhaps
- $GNUMAKE -C tools-for-build determine-endianness -I ../src/runtime
- tools-for-build/determine-endianness >> $ltf
elif [ "$sbcl_arch" = "ppc" ]; then
printf ' :gencgc :stack-allocatable-closures :stack-allocatable-lists' >> $ltf
printf ' :linkage-table :raw-instance-init-vops :memory-barrier-vops' >> $ltf
# FUNCDEF macro for assembler. No harm in running this on sparc-linux
# as well.
sh tools-for-build/sparc-funcdef.sh > src/runtime/sparc-funcdef.h
+ printf ' :cheneygc' >> $ltf
if [ "$sbcl_os" = "sunos" ] || [ "$sbcl_os" = "linux" ]; then
printf ' :linkage-table' >> $ltf
fi
printf ' :stack-allocatable-closures :stack-allocatable-lists' >> $ltf
elif [ "$sbcl_arch" = "alpha" ]; then
+ printf ' :cheneygc' >> $ltf
printf ' :stack-allocatable-closures :stack-allocatable-lists' >> $ltf
elif [ "$sbcl_arch" = "hppa" ]; then
+ printf ' :cheneygc' >> $ltf
printf ' :stack-allocatable-vectors :stack-allocatable-fixed-objects' >> $ltf
printf ' :stack-allocatable-lists' >> $ltf
else
echo > /dev/null
fi
+# Use a little C program to try to guess the endianness. Ware
+# cross-compilers!
+#
+# FIXME: integrate to grovel-features, mayhaps
+$GNUMAKE -C tools-for-build determine-endianness -I ../src/runtime
+tools-for-build/determine-endianness >> $ltf
+
export sbcl_os sbcl_arch
sh tools-for-build/grovel-features.sh >> $ltf