Tweak FTE_TARGET arch postfixes in our makefile to make cross compile targets a little more readable.

git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5838 fc73d0e0-1445-4013-8a0c-d673dee63da5
This commit is contained in:
Spoike 2021-05-09 13:01:04 +00:00
parent de7a03a780
commit ff4b88dd45
2 changed files with 19 additions and 10 deletions

View file

@ -202,18 +202,18 @@ function build_fteqcc {
echo "--- Engine builds ---" echo "--- Engine builds ---"
#the -fno-finite-math-only is to avoid a glibc dependancy #the -fno-finite-math-only is to avoid a glibc dependancy
if [ "$BUILD_LINUXx86" != "n" ]; then if [ "$BUILD_LINUXx86" != "n" ]; then
NATIVE_PLUGINS="$PLUGINS_LINUXx86" build "Linux 32-bit" linux_x86 FTE_TARGET=linux32 CPUOPTIMIZATIONS=-fno-finite-math-only $TARGETS_LINUX NATIVE_PLUGINS="$PLUGINS_LINUXx86" build "Linux 32-bit" linux_x86 FTE_TARGET=linux_x86 CPUOPTIMIZATIONS=-fno-finite-math-only $TARGETS_LINUX
fi fi
if [ "$BUILD_LINUXx64" != "n" ]; then if [ "$BUILD_LINUXx64" != "n" ]; then
NATIVE_PLUGINS="$PLUGINS_LINUXx64" build "Linux 64-bit" linux_amd64 FTE_TARGET=linux64 CPUOPTIMIZATIONS=-fno-finite-math-only $TARGETS_LINUX NATIVE_PLUGINS="$PLUGINS_LINUXx64" build "Linux 64-bit" linux_amd64 FTE_TARGET=linux64 CPUOPTIMIZATIONS=-fno-finite-math-only $TARGETS_LINUX
fi fi
if [ "$BUILD_LINUXx32" != "n" ]; then if [ "$BUILD_LINUXx32" != "n" ]; then
# CFLAGS="-DNO_JPEG" # CFLAGS="-DNO_JPEG"
NATIVE_PLUGINS="$PLUGINS_LINUXx32" build "Linux x32" linux_x32 FTE_TARGET=linuxx32 CPUOPTIMIZATIONS=-fno-finite-math-only $TARGETS_LINUX NATIVE_PLUGINS="$PLUGINS_LINUXx32" build "Linux x32" linux_x32 FTE_TARGET=linux_x32 CPUOPTIMIZATIONS=-fno-finite-math-only $TARGETS_LINUX
fi fi
if [ "$BUILD_LINUXarmhf" != "n" ]; then if [ "$BUILD_LINUXarmhf" != "n" ]; then
#debian/ubuntu's armhf targets armv7. we instead target armv6, because that means we work on rpi too (but still with hard-float). It should be compatible although we likely need more ops. #debian/ubuntu's armhf targets armv7. we instead target armv6, because that means we work on rpi too (but still with hard-float). It should be compatible although we likely need more ops.
NATIVE_PLUGINS="$PLUGINS_LINUXarmhf" build "Linux ARMhf" linux_armhf FTE_TARGET=linuxarmhf CPUOPTIMIZATIONS=-fno-finite-math-only $TARGETS_LINUX NATIVE_PLUGINS="$PLUGINS_LINUXarmhf" build "Linux ARMhf" linux_armhf FTE_TARGET=linux_armhf CPUOPTIMIZATIONS=-fno-finite-math-only $TARGETS_LINUX
fi fi
if [ "$BUILD_CYGWIN" != "n" ]; then if [ "$BUILD_CYGWIN" != "n" ]; then
NATIVE_PLUGINS="qi ezhud" build "Cygwin" cygwin qcc-rel rel dbg plugins-rel plugins-dbg NATIVE_PLUGINS="qi ezhud" build "Cygwin" cygwin qcc-rel rel dbg plugins-rel plugins-dbg

View file

@ -55,9 +55,9 @@ BULLETVER=2.87
#linux->win64 (FTE_TARGET=win64) RPM Package: "mingw32-gcc", DEB Package: "mingw32" #linux->win64 (FTE_TARGET=win64) RPM Package: "mingw32-gcc", DEB Package: "mingw32"
#linux->linux 32 (FTE_TARGET=linux32) #linux->linux 32 (FTE_TARGET=linux32)
#linux->linux 64 (FTE_TARGET=linux64) #linux->linux 64 (FTE_TARGET=linux64)
#linux->linux x32 (FTE_TARGET=linuxx32) #linux->linux x32 (FTE_TARGET=linux_x32)
#linux->linux armhf (FTE_TARGET=linuxarmhf) #linux->linux armhf (FTE_TARGET=linux_armhf)
#linux->linux arm64/aarch64 (FTE_TARGET=linuxarm64) #linux->linux arm64/aarch64 (FTE_TARGET=linux_arm64)
#linux->linux *others* (FTE_TARGET=linux CC=other-gcc) #linux->linux *others* (FTE_TARGET=linux CC=other-gcc)
#linux->morphos (FTE_TARGET=morphos) #linux->morphos (FTE_TARGET=morphos)
#linux->macosx (FTE_TARGET=macosx) or (FTE_TARGET=macosx_x86) #linux->macosx (FTE_TARGET=macosx) or (FTE_TARGET=macosx_x86)
@ -418,7 +418,7 @@ ifeq ($(FTE_TARGET),linux32)
STRIP=strip STRIP=strip
BITS=32 BITS=32
endif endif
ifeq ($(FTE_TARGET),linuxx86) ifeq ($(FTE_TARGET),linux_x86)
FTE_TARGET=linux FTE_TARGET=linux
CC=i686-linux-gnu-gcc CC=i686-linux-gnu-gcc
PKGCONFIG=i686-linux-gnu-pkg-config PKGCONFIG=i686-linux-gnu-pkg-config
@ -426,7 +426,15 @@ ifeq ($(FTE_TARGET),linuxx86)
STRIP=i686-linux-gnu-strip STRIP=i686-linux-gnu-strip
BITS=32 BITS=32
endif endif
ifeq ($(FTE_TARGET),linuxarmhf) ifeq ($(FTE_TARGET),linux_amd64)
FTE_TARGET=linux
CC=x86_64-linux-gnu-gcc
PKGCONFIG=x86_64-linux-gnu-pkg-config
CXX=x86_64-linux-gnu-g++
STRIP=x86_64-linux-gnu-strip
BITS=64
endif
ifeq ($(FTE_TARGET),linux_armhf)
#debian's armhf is armv7, but armv6 works on RPI too. #debian's armhf is armv7, but armv6 works on RPI too.
FTE_TARGET=linux FTE_TARGET=linux
CC=arm-linux-gnueabihf-gcc -marm -march=armv6 -mfpu=vfp -mfloat-abi=hard CC=arm-linux-gnueabihf-gcc -marm -march=armv6 -mfpu=vfp -mfloat-abi=hard
@ -434,7 +442,7 @@ ifeq ($(FTE_TARGET),linuxarmhf)
STRIP=arm-linux-gnueabihf-strip STRIP=arm-linux-gnueabihf-strip
BITS=armhf BITS=armhf
endif endif
ifeq ($(FTE_TARGET),linuxarm64) ifeq ($(FTE_TARGET),linux_arm64)
FTE_TARGET=linux FTE_TARGET=linux
CC=aarch64-linux-gnu-gcc CC=aarch64-linux-gnu-gcc
CXX=aarch64-linux-gnu-g++ CXX=aarch64-linux-gnu-g++
@ -442,7 +450,8 @@ ifeq ($(FTE_TARGET),linuxarm64)
BITS=arm64 BITS=arm64
USE_SPEEX=0 #fails to compile due to neon asm, I'm just going to disable it (will still soft-link). USE_SPEEX=0 #fails to compile due to neon asm, I'm just going to disable it (will still soft-link).
endif endif
ifeq ($(FTE_TARGET),linuxx32) ifeq ($(FTE_TARGET),linux_x32)
#DO NOT CONFUSE WITH linux_x86. this target is amd64-with-32bit-pointers
#note: the x32 abi is still not finished or something. #note: the x32 abi is still not finished or something.
#at the current time, you will need to edit your kernel's commandline to allow this stuff to run #at the current time, you will need to edit your kernel's commandline to allow this stuff to run
#try and use a proper cross-compiler if we can, otherwise fall back on multi-arch. #try and use a proper cross-compiler if we can, otherwise fall back on multi-arch.