haiku/build/jam/BuildSetup
Maurice Kalinowski ba97f78287 julun+mauricek:
* add cygwin specific options.
   * Cygwin cannot handle -fPIC option and throws warnings, thus we only use it on non windows platforms for the host tools.
   * Windows uses PATH instead of LD_LIBRARY_PATH, so before calling a host tool this environment variable needs to be expanded... Brilliant...
   * Using jam on Windows is kind of complicated, as the cygwin included gcc creates executables with a .exe extension. When jam parses dependencies for being up to date it ignores this extension again and tries to rebuild the executables again and again. This hack removes the extension after successful linking. Though jam has a SUFEXE variable for cygwin builds, we cannot use this one directly as crosscompiled targets do not have an extension, it is complicated to use the same jam for both platforms. A more clean attempt would be to check for the extension on each host target depending on the platform. This should be fixed later on.
   * Btw. Say hello to Haiku compiling successfully on Windows :) with one patch to be discussed for jam...

git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@26590 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-07-23 22:20:37 +00:00

996 lines
32 KiB
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# Variable naming conventions:
# TARGET_*: A build system variable specifying a property for building for
# the target platform (usually Haiku). E.g. TARGET_CC specifies the
# compiler when building a target for the target platform.
# HOST_*: A build system variable specifying a property of the platform
# hosting the build. E.g. HOST_CC specifies the compiler when
# building a target for the host platform (a build tool for
# instance).
# HAIKU_*: A build system variable specifying a build system property. Usually
# directory paths and the like.
#pragma mark - container settings
# Haiku image
HAIKU_IMAGE_CONTAINER_NAME = haiku-image-container ;
HAIKU_CONTAINER_GRIST on $(HAIKU_IMAGE_CONTAINER_NAME) = HaikuImage ;
HAIKU_INCLUDE_IN_CONTAINER_VAR on $(HAIKU_IMAGE_CONTAINER_NAME)
= HAIKU_INCLUDE_IN_IMAGE ;
HAIKU_INSTALL_TARGETS_VAR on $(HAIKU_IMAGE_CONTAINER_NAME)
= HAIKU_IMAGE_INSTALL_TARGETS ;
# network boot archive
HAIKU_NET_BOOT_ARCHIVE_CONTAINER_NAME = haiku-netboot-archive-container ;
HAIKU_CONTAINER_GRIST on $(HAIKU_NET_BOOT_ARCHIVE_CONTAINER_NAME)
= NetBootArchive ;
# HAIKU_INCLUDE_IN_CONTAINER_VAR -- update only mode not supported
HAIKU_INSTALL_TARGETS_VAR on $(HAIKU_NET_BOOT_ARCHIVE_CONTAINER_NAME)
= HAIKU_NET_BOOT_ARCHIVE_INSTALL_TARGETS ;
# boot floppy
HAIKU_FLOPPY_BOOT_IMAGE_CONTAINER_NAME = haiku-boot-floppy-container ;
HAIKU_CONTAINER_GRIST on $(HAIKU_FLOPPY_BOOT_IMAGE_CONTAINER_NAME) = FloppyBootImage ;
# HAIKU_INCLUDE_IN_CONTAINER_VAR -- update only mode not supported
HAIKU_INSTALL_TARGETS_VAR on $(HAIKU_FLOPPY_BOOT_IMAGE_CONTAINER_NAME)
= HAIKU_FLOPPY_BOOT_IMAGE_INSTALL_TARGETS ;
# boot CD image
HAIKU_CD_BOOT_IMAGE_CONTAINER_NAME = haiku-boot-cd-container ;
HAIKU_CONTAINER_GRIST on $(HAIKU_CD_BOOT_IMAGE_CONTAINER_NAME) = CDBootImage ;
# HAIKU_INCLUDE_IN_CONTAINER_VAR -- update only mode not supported
HAIKU_INSTALL_TARGETS_VAR on $(HAIKU_CD_BOOT_IMAGE_CONTAINER_NAME)
= HAIKU_CD_BOOT_IMAGE_INSTALL_TARGETS ;
# Haiku image/install defaults
HAIKU_DEFAULT_IMAGE_NAME = haiku.image ;
HAIKU_DEFAULT_IMAGE_DIR = $(HAIKU_OUTPUT_DIR) ;
HAIKU_DEFAULT_VMWARE_IMAGE_NAME = haiku.vmdk ;
HAIKU_DEFAULT_INSTALL_DIR = /Haiku ;
HAIKU_DEFAULT_IMAGE_SIZE ?= 100 ; # 100 MB
# analyze an optionally replace jam's target parameters
HAIKU_ORIGINAL_JAM_TARGETS = $(JAM_TARGETS) ;
HAIKU_BUILD_PROFILE = ;
if $(JAM_TARGETS) {
switch $(JAM_TARGETS[1]) {
# If the target to be built is "all" (i.e. the default) and we're in
# the output directory, the root directory of the build system, or
# in "src/", we change the target to be built to "haiku-image".
case all : {
if ! $(INVOCATION_SUBDIR) || $(INVOCATION_SUBDIR) = src {
JAM_TARGETS = haiku-image ;
}
}
# The "run" target allows for running arbitrary command lines containing
# build system targets, which are built and replaced accordingly.
case run : {
if $(JAM_TARGETS[2]) {
JAM_TARGETS = [ RunCommandLine $(JAM_TARGETS[2-]) ] ;
} else {
Exit "\"jam run\" requires parameters!" ;
}
}
# A target starting with "@" is a build profile.
case @* : {
HAIKU_BUILD_PROFILE = [ Match "@(.*)" : $(JAM_TARGETS[1]) ] ;
HAIKU_BUILD_PROFILE_ACTION = $(JAM_TARGETS[2]:E=build) ;
HAIKU_BUILD_PROFILE_PARAMETERS = $(JAM_TARGETS[3-]) ;
HAIKU_BUILD_PROFILE_DEFINED = ;
}
case * : {
# "update-image", "update-vmware-image", and "update-install"
# targets allow for updating only specific targets in the
# image/installation dir.
if $(JAM_TARGETS[1]) in update-image update-vmware-image
update-install {
SetUpdateHaikuImageOnly 1 ;
HAIKU_INCLUDE_IN_IMAGE on $(JAM_TARGETS[2-]) = 1 ;
if $(JAM_TARGETS[1]) = update-image {
JAM_TARGETS = haiku-image ;
} else if $(JAM_TARGETS[1]) = update-vmware-image {
JAM_TARGETS = haiku-vmware-image ;
} else {
JAM_TARGETS = install-haiku ;
}
}
}
}
}
# Include BuildConfig/Timezones/libgccObjects
{
local buildConfig = [ GLOB $(HAIKU_BUILD_OUTPUT_DIR) : BuildConfig ] ;
local timezones = [ GLOB $(HAIKU_BUILD_OUTPUT_DIR) : Timezones ] ;
local libgccObjects = [ GLOB $(HAIKU_BUILD_OUTPUT_DIR) : libgccObjects ] ;
if ! $(buildConfig) {
ECHO "No `BuildConfig' found in $(HAIKU_BUILD_OUTPUT_DIR)!" ;
EXIT "Run ./configure in the source tree's root directory first!" ;
}
if ! ( $(timezones) && $(libgccObjects) ) {
ECHO "No `Timezones' or `libgccObjects' found in $(HAIKU_BUILD_OUTPUT_DIR)!" ;
EXIT "Please run ./configure in the source tree's root directory again!" ;
}
LOCATE on BuildConfig = $(HAIKU_BUILD_OUTPUT_DIR) ;
LOCATE on Timezones = $(HAIKU_BUILD_OUTPUT_DIR) ;
LOCATE on libgccObjects = $(HAIKU_BUILD_OUTPUT_DIR) ;
include BuildConfig ;
include Timezones ;
include libgccObjects ;
}
# supported debug levels
HAIKU_DEBUG_LEVELS = 0 1 2 3 4 5 ;
# BeOS, BONE, Dan0 compatible platforms
HAIKU_BEOS_COMPATIBLE_PLATFORMS = haiku r5 bone dano haiku_host ;
HAIKU_BONE_COMPATIBLE_PLATFORMS = haiku bone dano haiku_host ;
HAIKU_DANO_COMPATIBLE_PLATFORMS = haiku dano haiku_host ;
HAIKU_HAIKU_COMPATIBLE_PLATFORMS = haiku haiku_host ;
# configuration header directories
HAIKU_CONFIG_HEADERS = [ FDirName $(HAIKU_TOP) build user_config_headers ]
[ FDirName $(HAIKU_TOP) build config_headers ] ;
#pragma mark -
# haiku target platform settings
# analyze GCC version
HAIKU_GCC_VERSION = [ FAnalyzeGCCVersion HAIKU_GCC_RAW_VERSION ] ;
# enable GCC -pipe option, if requested
if $(HAIKU_USE_GCC_PIPE) = 1 {
HAIKU_GCC_BASE_FLAGS = -pipe ;
}
# disable strict aliasing on anything newer than gcc 2 as it may lead to
# unexpected results. also disable the tree-vrp (value range propagation)
# optimization for now as with the current gcc4 version we are using this
# results in some broken code.
# TODO: remove the -fno-strict-aliasing option when all code has been
# analyzed/fixed with regard to aliasing.
# TODO: retest/remove the -fno-tree-vrp option as soon as we have updated our
# gcc4 compiler.
if $(HAIKU_GCC_VERSION[1]) >= 3 {
HAIKU_GCC_BASE_FLAGS += -fno-strict-aliasing -fno-tree-vrp ;
}
# override gcc 2.95.3's header directory -- strictly necessary only when using
# the BeOS native compiler (since its headers are incompatible), but it doesn't
# harm for the cross-compiler either.
if $(HAIKU_GCC_VERSION[1]) = 2 {
HAIKU_GCC_HEADERS_DIR = [ FDirName $(HAIKU_TOP) headers build gcc-2.95.3 ] ;
}
# initial state for flags etc.
HAIKU_C++ ?= $(HAIKU_CC) ;
HAIKU_LINK = $(HAIKU_CC) ;
HAIKU_LINKFLAGS = $(HAIKU_GCC_BASE_FLAGS) ;
HAIKU_HDRS = [ FStandardHeaders ] ;
HAIKU_CCFLAGS = $(HAIKU_GCC_BASE_FLAGS) -nostdinc ;
HAIKU_C++FLAGS = $(HAIKU_GCC_BASE_FLAGS) -nostdinc ;
HAIKU_KERNEL_CCFLAGS = $(HAIKU_GCC_BASE_FLAGS) ;
HAIKU_KERNEL_C++FLAGS = $(HAIKU_GCC_BASE_FLAGS) ;
HAIKU_DEFINES = __HAIKU__ ;
# distro compatibility level defines
HAIKU_DISTRO_COMPATIBILITY ?= "default" ;
switch $(HAIKU_DISTRO_COMPATIBILITY) {
case official : HAIKU_DEFINES += HAIKU_DISTRO_COMPATIBILITY_OFFICIAL ;
case compatible : HAIKU_DEFINES += HAIKU_DISTRO_COMPATIBILITY_COMPATIBLE ;
case "default" : HAIKU_DEFINES += HAIKU_DISTRO_COMPATIBILITY_DEFAULT ;
case * : Exit "Invalid value for HAIKU_DISTRO_COMPATIBILITY:"
$(HAIKU_DISTRO_COMPATIBILITY) ;
}
# analyze the gcc machine spec to determine HAIKU_CPU
switch $(HAIKU_GCC_MACHINE) {
case i386-* : HAIKU_CPU = x86 ;
case i486-* : HAIKU_CPU = x86 ;
case i586-* : HAIKU_CPU = x86 ;
case i686-* : HAIKU_CPU = x86 ;
case powerpc-* : HAIKU_CPU = ppc ;
case m68k-* : HAIKU_CPU = m68k ;
case * : Exit "Unsupported gcc target machine:" $(HAIKU_GCC_MACHINE) ;
}
switch $(HAIKU_CPU) {
case ppc :
{
HAIKU_DEFINES += __POWERPC__ ;
HAIKU_BOOT_PLATFORM = openfirmware ;
}
case x86 :
{
HAIKU_DEFINES += __INTEL__ ;
HAIKU_BOOT_PLATFORM = bios_ia32 ;
}
case m68k :
{
HAIKU_DEFINES += __M68K__ ;
HAIKU_BOOT_PLATFORM = atari_m68k ;
}
case * :
Exit "Currently unsupported target CPU:" $(HAIKU_CPU) ;
}
HAIKU_ARCH ?= $(HAIKU_CPU) ;
HAIKU_ARCH_MACRO_DEFINE = ARCH_$(HAIKU_ARCH) ;
HAIKU_DEFINES += $(HAIKU_ARCH_MACRO_DEFINE) ;
# directories
HAIKU_OBJECT_BASE_DIR = [ FDirName $(HAIKU_OBJECT_DIR) haiku ] ;
HAIKU_COMMON_ARCH_OBJECT_DIR = [ FDirName $(HAIKU_OBJECT_BASE_DIR) common ] ;
HAIKU_ARCH_OBJECT_DIR = [ FDirName $(HAIKU_OBJECT_BASE_DIR) $(HAIKU_ARCH) ] ;
HAIKU_COMMON_DEBUG_OBJECT_DIR = [ FDirName $(HAIKU_ARCH_OBJECT_DIR) common ] ;
HAIKU_DEBUG_0_OBJECT_DIR = [ FDirName $(HAIKU_ARCH_OBJECT_DIR) release ] ;
local level ;
for level in $(HAIKU_DEBUG_LEVELS[2-]) {
HAIKU_DEBUG_$(level)_OBJECT_DIR
= [ FDirName $(HAIKU_ARCH_OBJECT_DIR) debug_$(level) ] ;
}
# set variables for gcc header options
SetIncludePropertiesVariables HAIKU ;
# assembler flags
HAIKU_ASFLAGS = ;
# C/C++ flags
HAIKU_CCFLAGS += -Wno-multichar ;
HAIKU_C++FLAGS += -Wno-multichar ;
HAIKU_KERNEL_CCFLAGS += -finline -fno-builtin -Wno-multichar
-DBOCHS_DEBUG_HACK=$(BOCHS_DEBUG_HACK) ;
HAIKU_KERNEL_C++FLAGS += -finline -fno-builtin -fno-exceptions -Wno-multichar
-DBOCHS_DEBUG_HACK=$(BOCHS_DEBUG_HACK) ;
HAIKU_KERNEL_DEFINES += _KERNEL_MODE ;
if $(HAIKU_GCC_VERSION[1]) >= 3 {
HAIKU_KERNEL_C++FLAGS += -fno-use-cxa-atexit ;
}
if $(HAIKU_GCC_VERSION[1]) >= 4 {
HAIKU_C++FLAGS += -Wno-deprecated ;
}
HAIKU_KERNEL_PIC_CCFLAGS = -fno-pic ;
HAIKU_KERNEL_PIC_LINKFLAGS = ;
if $(HAIKU_ARCH) = ppc {
# Build a position independent PPC kernel. We need to be able to relocate
# the kernel, since the virtual address space layout at boot time is not
# fixed.
HAIKU_KERNEL_PIC_CCFLAGS = -fPIE ;
HAIKU_KERNEL_PIC_LINKFLAGS = -shared -fPIE ;
}
if $(HAIKU_ARCH) = m68k {
# Build a position independent M68K kernel. We need to be able to relocate
# the kernel, since the virtual address space layout at boot time is not
# fixed.
#HAIKU_KERNEL_PIC_CCFLAGS = -mpcrel -Wa,--pcrel ;
#HAIKU_KERNEL_PIC_LINKFLAGS = -mpcrel ;
#HAIKU_KERNEL_PIC_CCFLAGS = -msep-data -Wa,--pcrel ;
#HAIKU_KERNEL_PIC_LINKFLAGS = -msep-data ;
HAIKU_KERNEL_PIC_CCFLAGS = -fno-pic ;
HAIKU_KERNEL_PIC_LINKFLAGS = ;
}
# If the environment variable DEBUG_PRINTF is defined we define an equally
# named macro to the variable value. Some components use the macro to allow
# another function than printf() to print the debug output. The variable should
# be set to the name of the alternative function.
#
if $(DEBUG_PRINTF) {
HAIKU_CCFLAGS += [ FDefines DEBUG_PRINTF=$(DEBUG_PRINTF) ] ;
HAIKU_C++FLAGS += [ FDefines DEBUG_PRINTF=$(DEBUG_PRINTF) ] ;
}
# warning flags
HAIKU_WARNING_CCFLAGS = -Wall -Wno-trigraphs -Wmissing-prototypes -Wpointer-arith -Wcast-align
-Wsign-compare ;
HAIKU_WARNING_C++FLAGS = -Wall -Wno-trigraphs -Wno-ctor-dtor-privacy
-Woverloaded-virtual -Wpointer-arith -Wcast-align -Wsign-compare ;
HAIKU_KERNEL_WARNING_CCFLAGS = -Wall -Wno-trigraphs -Wmissing-prototypes
-Wno-multichar ;
HAIKU_KERNEL_WARNING_C++FLAGS = -Wall -Wno-trigraphs -Wno-multichar ;
# debug flags
HAIKU_DEBUG_FLAGS ?= -ggdb ;
# debug 0: suppress asserts
HAIKU_DEBUG_0_CCFLAGS = [ FDefines NDEBUG=$(NDEBUG) ] ;
HAIKU_DEBUG_0_C++FLAGS = [ FDefines NDEBUG=$(NDEBUG) ] ;
HAIKU_KERNEL_DEBUG_0_CCFLAGS = [ FDefines NDEBUG=$(NDEBUG) ] ;
HAIKU_KERNEL_DEBUG_0_C++FLAGS = [ FDefines NDEBUG=$(NDEBUG) ] ;
local level ;
for level in $(HAIKU_DEBUG_LEVELS[2-]) {
local flags = $(HAIKU_DEBUG_FLAGS) [ FDefines DEBUG=$(level) ] ;
HAIKU_DEBUG_$(level)_CCFLAGS = $(flags) ;
HAIKU_DEBUG_$(level)_C++FLAGS = $(flags) ;
HAIKU_KERNEL_DEBUG_$(level)_CCFLAGS = $(flags) ;
HAIKU_KERNEL_DEBUG_$(level)_C++FLAGS = $(flags) ;
}
if $(HAIKU_GCC_VERSION[1]) >= 3 {
# TODO: Temporary work-around. Should be defined in the compiler specs
HAIKU_LINKFLAGS += -Xlinker --no-undefined ;
} else {
HAIKU_DEFINES += _BEOS_R5_COMPATIBLE_ ;
}
# private shared kernel/libroot headers
HAIKU_PRIVATE_SYSTEM_HEADERS =
[ PrivateHeaders $(DOT) system system/arch/$(HAIKU_ARCH) ]
;
# private kernel headers to be used when compiling kernel code
HAIKU_PRIVATE_KERNEL_HEADERS =
[ PrivateHeaders $(DOT) kernel libroot
kernel/boot/platform/$(HAIKU_BOOT_PLATFORM) ]
[ ArchHeaders $(HAIKU_ARCH) ]
$(HAIKU_PRIVATE_SYSTEM_HEADERS)
;
# Add some grist to the libgcc objects
HAIKU_GCC_LIBGCC_OBJECTS = $(HAIKU_GCC_LIBGCC_OBJECTS:G=libgcc) ;
# the C++ library
if $(HAIKU_SHARED_LIBSTDC++) {
HAIKU_LIBSTDC++ = $(HAIKU_SHARED_LIBSTDC++) ;
} else if $(HAIKU_STATIC_LIBSTDC++) {
HAIKU_LIBSTDC++ = $(HAIKU_STATIC_LIBSTDC++) ;
} else {
HAIKU_LIBSTDC++ = libstdc++.r4.so ;
}
# the C++ support library
if $(HAIKU_SHARED_LIBSUPC++) {
HAIKU_LIBSUPC++ = $(HAIKU_SHARED_LIBSUPC++) ;
} else if $(HAIKU_STATIC_LIBSUPC++) {
HAIKU_LIBSUPC++ = $(HAIKU_STATIC_LIBSUPC++) ;
} else {
HAIKU_LIBSUPC++ = ;
}
# network libraries
HAIKU_NETWORK_LIBS = network ;
HAIKU_NETAPI_LIB = bnetapi ;
HAIKU_SELECT_UNAME_ETC_LIB = ; # libroot, against which we link anyway
# library and executable glue code
local commonGlueCode =
<src!system!glue>init_term_dyn.o
<src!system!glue!arch!$(HAIKU_ARCH)>crti.o
<src!system!glue!arch!$(HAIKU_ARCH)>crtn.o
;
HAIKU_LIBRARY_BEGIN_GLUE_CODE =
<src!system!glue!arch!$(HAIKU_ARCH)>crti.o
crtbegin.o
<src!system!glue>init_term_dyn.o
;
HAIKU_LIBRARY_END_GLUE_CODE =
# TODO: For the time being always link against libsupc++.a.
$(HAIKU_STATIC_LIBSUPC++)
crtend.o
<src!system!glue!arch!$(HAIKU_ARCH)>crtn.o
;
HAIKU_EXECUTABLE_BEGIN_GLUE_CODE =
<src!system!glue!arch!$(HAIKU_ARCH)>crti.o
crtbegin.o
<src!system!glue>start_dyn.o
<src!system!glue>init_term_dyn.o
;
HAIKU_EXECUTABLE_END_GLUE_CODE = $(HAIKU_LIBRARY_END_GLUE_CODE) ;
HAIKU_KERNEL_ADDON_BEGIN_GLUE_CODE = crtbegin.o ;
HAIKU_KERNEL_ADDON_END_GLUE_CODE = $(HAIKU_GCC_LIBGCC) crtend.o ;
SEARCH on crtbegin.o crtend.o = $(HAIKU_GCC_LIB_DIR) ;
HAIKU_EXECUTABLE_MIME_TYPE = "application/x-vnd.Be-elfexecutable" ;
# TODO: The version stuff should probably go into a separate file and be made
# available as macro, too.
# Set our version number if not already set and mark it as a developer build
if ! $(HAIKU_BUILD_VERSION) {
HAIKU_BUILD_VERSION ?= "1 0 0 a 1" ;
HAIKU_BUILD_DESCRIPTION ?= "Developer Build" ;
}
# If HAIKU_BUILD_VERSION is set, but HAIKU_BUILD_DESCRIPTION isn't, mark it as
# an unknown build.
HAIKU_BUILD_DESCRIPTION ?= "Unknown Build" ;
# init library name map
{
local i ;
for i in be game GL mail media midi midi2 network bnetapi opengl
screensaver root z textencoding tracker translation {
HAIKU_LIBRARY_NAME_MAP_$(i) = lib$(i).so ;
}
HAIKU_LIBRARY_NAME_MAP_libstdc++ = $(HAIKU_LIBSTDC++) ;
HAIKU_LIBRARY_NAME_MAP_input_server = <nogrist>input_server ;
}
#pragma mark -
# host platform settings
# enable GCC -m32 option, if requested
if $(HAIKU_HOST_USE_32BIT) = 1 {
HOST_GCC_BASE_FLAGS = -m32 ;
}
# save jam's variables for the build platform
HOST_AR ?= $(AR) ;
HOST_CC ?= $(CC) ;
HOST_C++ ?= $(C++) ;
HOST_LINK ?= $(LINK) ;
HOST_LD ?= ld ; # TODO: Fix this!
HOST_OBJCOPY ?= objcopy ; #
HOST_RANLIB ?= $(RANLIB) ;
HOST_CPPFLAGS ?= $(CPPFLAGS) ;
HOST_CCFLAGS ?= $(HOST_GCC_BASE_FLAGS) $(CCFLAGS) ;
HOST_C++FLAGS ?= $(HOST_GCC_BASE_FLAGS) $(C++FLAGS) ;
HOST_LDFLAGS ?= $(HOST_GCC_BASE_FLAGS) $(LDFLAGS) ;
HOST_LINKFLAGS ?= $(HOST_GCC_BASE_FLAGS) $(LINKFLAGS) ;
HOST_DEFINES ?= $(DEFINES) ;
HOST_HDRS ?= $(HDRS) ;
# split up HOST_AR into the command name and flags
HOST_AR = [ Match "([^ ]*) *(.*)" : $(HOST_AR[1]) ]
$(HOST_AR[2-]) ;
HOST_ARFLAGS = $(HOST_AR[2-]) ;
HOST_AR = $(HOST_AR[1]) ;
HOST_UNARFLAGS ?= x ;
# check the host platform compatibility
SetPlatformCompatibilityFlagVariables HOST_PLATFORM : HOST : host
: linux freebsd darwin sunos cygwin ;
if $(HOST_PLATFORM) = linux || $(HOST_PLATFORM) = freebsd
|| $(HOST_PLATFORM) = darwin || $(HOST_PLATFORM) = cygwin {
# don't use lex: otherwise rc will not work correctly
if $(LEX) = lex {
LEX = flex ;
}
}
if $(HOST_PLATFORM) = cygwin {
HOST_LINKFLAGS += -Xlinker --allow-multiple-definition -Xlinker --enable-auto-import ;
}
HOST_CPU ?= $(OSPLAT:L) ;
HOST_ARCH ?= $(HOST_CPU) ;
HOST_ARCH_MACRO_DEFINE = ARCH_$(HOST_CPU) ;
# directories
HOST_OBJECT_BASE_DIR = [ FDirName $(HAIKU_OBJECT_DIR) $(HOST_PLATFORM) ] ;
HOST_COMMON_ARCH_OBJECT_DIR = [ FDirName $(HOST_OBJECT_BASE_DIR) common ] ;
HOST_ARCH_OBJECT_DIR = [ FDirName $(HOST_OBJECT_BASE_DIR) $(HOST_ARCH) ] ;
HOST_COMMON_DEBUG_OBJECT_DIR = [ FDirName $(HOST_ARCH_OBJECT_DIR) common ] ;
HOST_DEBUG_0_OBJECT_DIR = [ FDirName $(HOST_ARCH_OBJECT_DIR) release ] ;
local level ;
for level in $(HAIKU_DEBUG_LEVELS[2-]) {
HOST_DEBUG_$(level)_OBJECT_DIR
= [ FDirName $(HOST_ARCH_OBJECT_DIR) debug_$(level) ] ;
}
# analyze GCC version
HOST_GCC_VERSION = [ FAnalyzeGCCVersion HOST_GCC_RAW_VERSION ] ;
# set variables for gcc header options
SetIncludePropertiesVariables HOST ;
# assembler flags
HOST_ASFLAGS = ;
# C/C++ flags
HOST_CCFLAGS += -Wno-multichar ;
HOST_C++FLAGS += -Wno-multichar ;
if $(HOST_PLATFORM) != cygwin {
HOST_PIC_CCFLAGS += -fPIC ;
HOST_PIC_C++FLAGS += -fPIC ;
}
HOST_KERNEL_CCFLAGS += $(HOST_GCC_BASE_FLAGS) -finline -fno-builtin
-DBOCHS_DEBUG_HACK=$(BOCHS_DEBUG_HACK) -D_KERNEL_MODE ;
HOST_KERNEL_C++FLAGS += $(HOST_GCC_BASE_FLAGS) -finline -fno-builtin
-fno-exceptions -DBOCHS_DEBUG_HACK=$(BOCHS_DEBUG_HACK) -D_KERNEL_MODE ;
HOST_KERNEL_DEFINES += _KERNEL_MODE ;
HOST_KERNEL_PIC_CCFLAGS = -fno-pic ;
HOST_KERNEL_PIC_LINKFLAGS = ;
if $(HOST_ARCH) = ppc {
# Build a position independent PPC kernel. We need to be able to relocate
# the kernel, since the virtual address space layout at boot time is not
# fixed.
HOST_KERNEL_PIC_CCFLAGS = -fPIE ;
HOST_KERNEL_PIC_LINKFLAGS = -shared -fPIE ;
}
if $(HOST_ARCH) = m68k {
# Build a position independent M68K kernel. We need to be able to relocate
# the kernel, since the virtual address space layout at boot time is not
# fixed.
HOST_KERNEL_PIC_CCFLAGS = $(HAIKU_KERNEL_PIC_CCFLAGS) ;
HOST_KERNEL_PIC_LINKFLAGS = $(HAIKU_KERNEL_PIC_LINKFLAGS) ;
}
# warning flags
HOST_WARNING_CCFLAGS = -Wall -Wno-trigraphs -Wmissing-prototypes -Wpointer-arith -Wcast-align
-Wsign-compare ;
HOST_WARNING_C++FLAGS = -Wall -Wno-trigraphs -Wno-ctor-dtor-privacy
-Woverloaded-virtual -Wpointer-arith -Wcast-align -Wsign-compare ;
HOST_KERNEL_WARNING_CCFLAGS = -Wall -Wno-trigraphs -Wmissing-prototypes ;
HOST_KERNEL_WARNING_C++FLAGS = -Wall -Wno-trigraphs ;
# debug flags
switch $(HOST_PLATFORM) {
case haiku : HOST_DEBUG_FLAGS ?= -ggdb ;
case haiku_host : HOST_DEBUG_FLAGS ?= -ggdb ;
case linux : HOST_DEBUG_FLAGS ?= -ggdb ;
case freebsd : HOST_DEBUG_FLAGS ?= -ggdb ;
case darwin : HOST_DEBUG_FLAGS ?= -ggdb ;
case * : HOST_DEBUG_FLAGS ?= -g ;
}
# debug 0: suppress asserts
HOST_DEBUG_0_CCFLAGS = [ FDefines NDEBUG=$(NDEBUG) ] ;
HOST_DEBUG_0_C++FLAGS = [ FDefines NDEBUG=$(NDEBUG) ] ;
HOST_KERNEL_DEBUG_0_CCFLAGS = [ FDefines NDEBUG=$(NDEBUG) ] ;
HOST_KERNEL_DEBUG_0_C++FLAGS = [ FDefines NDEBUG=$(NDEBUG) ] ;
local level ;
for level in $(HAIKU_DEBUG_LEVELS[2-]) {
local flags = $(HOST_DEBUG_FLAGS) [ FDefines DEBUG=$(level) ] ;
HOST_DEBUG_$(level)_CCFLAGS = $(flags) ;
HOST_DEBUG_$(level)_C++FLAGS = $(flags) ;
HOST_KERNEL_DEBUG_$(level)_CCFLAGS = $(flags) ;
HOST_KERNEL_DEBUG_$(level)_C++FLAGS = $(flags) ;
}
# ld flags
if $(HOST_ARCH) = x86 && $(HAIKU_HOST_USE_32BIT) = 1 {
HOST_LDFLAGS += -melf_i386 ;
}
# private kernel headers do be used when compiling kernel code
HOST_PRIVATE_KERNEL_HEADERS = ;
# private shared kernel/libroot headers
HOST_PRIVATE_SYSTEM_HEADERS = ;
# under BeOS use copyattr instead of cp
if $(HOST_PLATFORM_BEOS_COMPATIBLE)
{
CP = copyattr --data ;
}
HOST_DEFINES += $(HOST_ARCH_MACRO_DEFINE) ;
HOST_DEFINES += _NO_INLINE_ASM ;
if $(HOST_PLATFORM_BEOS_COMPATIBLE) {
# TODO: That's obviously not correct, but in the way the COMPILE_FOR_R5
# macro is used, it actually seems to mean r5/bone/dano.
# TODO: Deprecated. Remove!
HOST_DEFINES += COMPILE_FOR_R5 ;
}
# for builds of tools in the current environment
HOST_BUILD_COMPATIBILITY_LIB_DIR = [ FDirName $(HOST_OBJECT_BASE_DIR) lib ] ;
# For the generic attributes emulation: Target rm_attrs -- rm replacement that
# also removes the attributes.
HOST_RM_ATTRS_TARGET = ;
if $(HOST_PLATFORM_BEOS_COMPATIBLE) {
HOST_LIBSTDC++ = stdc++.r4 ;
HOST_LIBROOT = root ;
HOST_STATIC_LIBROOT = $(HOST_LIBROOT) ;
HOST_LIBBE = be ;
HOST_ADD_BUILD_COMPATIBILITY_LIB_DIR = ;
HOST_LIBRARY_NAME_MAP_input_server = /system/servers/input_server ;
} else {
HOST_LIBSTDC++ = stdc++ ;
HOST_LIBROOT = libroot_build.so ;
HOST_STATIC_LIBROOT = libroot_build.a ;
HOST_LIBBE = libbe_build.so ;
if $(HOST_PLATFORM) = cygwin {
HOST_ADD_BUILD_COMPATIBILITY_LIB_DIR
= "export PATH=$PATH:$(HOST_BUILD_COMPATIBILITY_LIB_DIR)" ;
} else {
HOST_ADD_BUILD_COMPATIBILITY_LIB_DIR
= "export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:$(HOST_BUILD_COMPATIBILITY_LIB_DIR)" ;
}
# the C++ support library
if $(HOST_GCC_VERSION[1]) < 3 {
HOST_LIBSUPC++ = ;
} else {
HOST_LIBSUPC++ = supc++ ;
}
if $(HOST_PLATFORM) = darwin {
# part of the C++ runtime lives in libstdc++ on Darwin
HOST_LIBSUPC++ = gcc_s.1 stdc++ ;
HOST_LIBSTDC++ = ;
}
# Unlike glibc FreeBSD's libc doesn't have built-in regex support.
if $(HOST_PLATFORM) = freebsd {
HOST_LIBROOT += /usr/lib/libgnuregex.so ;
HOST_STATIC_LIBROOT += /usr/lib/libgnuregex.so ;
} else if $(HOST_PLATFORM) = darwin {
HOST_LIBROOT += /opt/local/lib/libgnuregex.dylib ;
HOST_STATIC_LIBROOT += /opt/local/lib/libgnuregex.dylib ;
}
# The BeOS compilers define __INTEL__ respectively __POWERPC__. On the
# build platform we need to make sure, this is also defined.
if $(HOST_CPU) = x86 {
HOST_DEFINES += __INTEL__ ;
} else if $(HOST_CPU) = ppc {
HOST_DEFINES += __POWERPC__ ;
} else if $(HOST_CPU) = m68k {
HOST_DEFINES += __M68K__ ;
}
# Supposing this is a glibc platform, let's try to get features like large
# file support, ISO C 99 definitions, etc. On some platforms we need to
# request 64 bit off_t support explicitely.
HOST_DEFINES += _GNU_SOURCE _FILE_OFFSET_BITS=64 ;
# On Linux with xattr support we can use it for our attribute emulation,
# which is somewhat more robust.
if $(HAIKU_HOST_USE_XATTR) = 1 {
HOST_DEFINES += HAIKU_HOST_USE_XATTR ;
} else {
# Otherwise the generic attribute emulation is used, which uses a
# directory per file to store its attribute. We need to redefine RM so
# that the attributes are removed as well. We use a wrapper script, which
# invokes a build tool. If the build tool hasn't been built yet, the
# normal "rm" is used and the attributes are leaked (likely there aren't
# any yet).
RM = $(HOST_ADD_BUILD_COMPATIBILITY_LIB_DIR) ";"
[ FDirName $(HAIKU_TOP) build scripts rm_attrs ]
[ FDirName $(HAIKU_OBJECT_DIR) $(HOST_PLATFORM) $(HOST_ARCH) release
tools rm_attrs ] -f ;
# assumes that rm_attrs is built with debugging disabled
HOST_RM_ATTRS_TARGET = <build>rm_attrs ;
}
}
# network libraries
if $(HOST_PLATFORM_HAIKU_COMPATIBLE) {
HOST_NETWORK_LIBS = network ;
HOST_NETAPI_LIB = bnetapi ;
HOST_SELECT_UNAME_ETC_LIB = ; # libroot
} else if $(HOST_PLATFORM_BONE_COMPATIBLE) {
HOST_NETWORK_LIBS = socket bind ;
HOST_NETAPI_LIB = bnetapi ;
HOST_SELECT_UNAME_ETC_LIB = ; # libroot
} else if $(HOST_PLATFORM_BEOS_COMPATIBLE) {
HOST_NETWORK_LIBS = net ;
HOST_NETAPI_LIB = netapi ;
HOST_SELECT_UNAME_ETC_LIB = net ;
} else {
# Linux,...
HOST_NETWORK_LIBS = ;
HOST_NETAPI_LIB = ;
HOST_SELECT_UNAME_ETC_LIB = ;
}
# define the executable MIME type
HOST_EXECUTABLE_MIME_TYPE = "application/x-vnd.Be-elfexecutable" ;
if $(METROWERKS) {
# at least parts of Haiku still can be compiled with
# the Metrowerks compiler on BeOS/PPC
HOST_EXECUTABLE_MIME_TYPE = "application/x-be-executable" ;
}
# Be API compatibility
HOST_BE_API_HEADERS = ;
HOST_BE_API_CCFLAGS = ;
HOST_BE_API_C++FLAGS = ;
if ! $(HOST_PLATFORM_BEOS_COMPATIBLE) {
HOST_BE_API_HEADERS =
[ FDirName $(HAIKU_TOP) headers build ]
[ FDirName $(HAIKU_TOP) headers build os ]
[ FDirName $(HAIKU_TOP) headers build os app ]
[ FDirName $(HAIKU_TOP) headers build os drivers ]
[ FDirName $(HAIKU_TOP) headers build os kernel ]
[ FDirName $(HAIKU_TOP) headers build os interface ]
[ FDirName $(HAIKU_TOP) headers build os storage ]
[ FDirName $(HAIKU_TOP) headers build os support ]
;
HOST_BE_API_CCFLAGS = -include BeOSBuildCompatibility.h ;
HOST_BE_API_C++FLAGS = $(HOST_BE_API_CCFLAGS) ;
}
# Add directory with system headers we need when building something for the host
# platform, e.g. containing missing POSIX/GNU headers.
HOST_HDRS += [ FDirName $(HAIKU_TOP) headers build host $(HOST_PLATFORM) ] ;
# For all versions of BeOS also add the common beos directory.
if $(HOST_PLATFORM) in r5 bone dano {
HOST_HDRS += [ FDirName $(HAIKU_TOP) headers build host beos_common ] ;
}
#pragma mark -
# target platform settings
# check the target platform compatibility
SetPlatformCompatibilityFlagVariables TARGET_PLATFORM : TARGET : target ;
# check the compatibility between host and target platform
if $(TARGET_PLATFORM) != haiku {
if ! $(HOST_PLATFORM_($(TARGET_PLATFORM))_COMPATIBLE) {
Exit ERROR: The host platform is not compatible with target platform
$(TARGET_PLATFORM). ;
}
}
# Set TARGET_* variables either from HAIKU_* or HOST_* depending on the
# specified TARGET_PLATFORM.
local buildVars =
ARCH CPU GCC_VERSION
AR CC C++ LD OBJCOPY RANLIB
INCLUDES_SEPARATOR LOCAL_INCLUDES_OPTION SYSTEM_INCLUDES_OPTION
HDRS CPPFLAGS CCFLAGS C++FLAGS LDFLAGS LINK LINKFLAGS DEFINES
ARFLAGS UNARFLAGS
KERNEL_DEFINES
KERNEL_CCFLAGS KERNEL_C++FLAGS
KERNEL_PIC_CCFLAGS KERNEL_PIC_LINKFLAGS
WARNING_CCFLAGS WARNING_C++FLAGS
KERNEL_WARNING_CCFLAGS KERNEL_WARNING_C++FLAGS
DEBUG_FLAGS
DEBUG_$(HAIKU_DEBUG_LEVELS)_CCFLAGS DEBUG_$(HAIKU_DEBUG_LEVELS)_C++FLAGS
KERNEL_DEBUG_$(HAIKU_DEBUG_LEVELS)_CCFLAGS
KERNEL_DEBUG_$(HAIKU_DEBUG_LEVELS)_C++FLAGS
PRIVATE_KERNEL_HEADERS
PRIVATE_SYSTEM_HEADERS
LIBSTDC++ LIBSUPC++
NETWORK_LIBS NETAPI_LIB SELECT_UNAME_ETC_LIB
ARCH_MACRO_DEFINE EXECUTABLE_MIME_TYPE
OBJECT_BASE_DIR COMMON_ARCH_OBJECT_DIR COMMON_DEBUG_OBJECT_DIR
DEBUG_$(HAIKU_DEBUG_LEVELS)_OBJECT_DIR
;
if $(TARGET_PLATFORM) = haiku {
local var ;
for var in $(buildVars) {
TARGET_$(var) = $(HAIKU_$(var)) ;
}
TARGET_GCC_LIB_DIR = $(HAIKU_GCC_LIB_DIR) ;
TARGET_GCC_HEADERS_DIR = $(HAIKU_GCC_HEADERS_DIR) ;
TARGET_GCC_LIBGCC = $(HAIKU_GCC_LIBGCC) ;
TARGET_GCC_LIBGCC_OBJECTS = $(HAIKU_GCC_LIBGCC_OBJECTS) ;
TARGET_BOOT_PLATFORM ?= $(HAIKU_BOOT_PLATFORM) ;
TARGET_LIBRARY_NAME_MAP = HAIKU_LIBRARY_NAME_MAP ;
} else {
local var ;
for var in $(buildVars) {
TARGET_$(var) = $(HOST_$(var)) ;
}
TARGET_GCC_LIB_DIR = ;
TARGET_GCC_HEADERS_DIR = ;
TARGET_GCC_LIBGCC = ;
TARGET_GCC_LIBGCC_OBJECTS = ;
TARGET_BOOT_PLATFORM = ;
TARGET_LIBRARY_NAME_MAP = HOST_LIBRARY_NAME_MAP ;
}
# define macro, for identifying the platform
switch $(TARGET_PLATFORM) {
case r5 : TARGET_DEFINES += HAIKU_TARGET_PLATFORM_BEOS ;
case bone : TARGET_DEFINES += HAIKU_TARGET_PLATFORM_BONE ;
case dano : TARGET_DEFINES += HAIKU_TARGET_PLATFORM_DANO ;
case haiku_host : TARGET_DEFINES += HAIKU_TARGET_PLATFORM_HAIKU ;
case haiku : TARGET_DEFINES += HAIKU_TARGET_PLATFORM_HAIKU ;
case linux : TARGET_DEFINES += HAIKU_TARGET_PLATFORM_LINUX ;
case freebsd : TARGET_DEFINES += HAIKU_TARGET_PLATFORM_FREEBSD ;
case darwin : TARGET_DEFINES += HAIKU_TARGET_PLATFORM_DARWIN ;
case cygwin : TARGET_DEFINES += HAIKU_TARGET_PLATFORM_CYGWIN ;
case libbe_test : TARGET_DEFINES += HAIKU_TARGET_PLATFORM_LIBBE_TEST ;
}
# define macro, for identifying the host platform
switch $(HOST_PLATFORM) {
case r5 : HOST_DEFINES += HAIKU_HOST_PLATFORM_BEOS ;
case bone : HOST_DEFINES += HAIKU_HOST_PLATFORM_BONE ;
case dano : HOST_DEFINES += HAIKU_HOST_PLATFORM_DANO ;
case haiku_host : HOST_DEFINES += HAIKU_HOST_PLATFORM_HAIKU ;
case linux : HOST_DEFINES += HAIKU_HOST_PLATFORM_LINUX ;
case freebsd : HOST_DEFINES += HAIKU_HOST_PLATFORM_FREEBSD ;
case darwin : HOST_DEFINES += HAIKU_HOST_PLATFORM_DARWIN ;
case cygwin : HOST_DEFINES += HAIKU_HOST_PLATFORM_CYGWIN ;
}
#pragma mark -
# In case we build for a BeOS compatible platform, but not for Haiku, we
# include the HaikuBuildCompatibility.h header and link against
# libhaikucompat.a.
if ! $(TARGET_PLATFORM_HAIKU_COMPATIBLE) && $(TARGET_PLATFORM_BEOS_COMPATIBLE) {
# headers and flags
local compatibilityHeader = -include [ FDirName $(HAIKU_TOP) headers build
HaikuBuildCompatibility.h ] ;
TARGET_CCFLAGS += $(compatibilityHeader) ;
TARGET_C++FLAGS += $(compatibilityHeader) ;
# compatibility library
TARGET_HAIKU_COMPATIBILITY_LIBS = libhaikucompat.a ;
}
# special target libbe_test
if $(TARGET_PLATFORM) = libbe_test {
# headers and flags
TARGET_HDRS +=
[ PublicHeaders $(DOT) app drivers game interface kernel storage
support ]
[ PrivateHeaders $(DOT) ] ;
TARGET_DEFINES += __HAIKU__ ;
TARGET_PRIVATE_SYSTEM_HEADERS =
[ PrivateHeaders $(DOT) system system/arch/$(TARGET_ARCH) ] ;
# directories
TARGET_OBJECT_BASE_DIR
= [ FDirName $(HAIKU_OBJECT_DIR) $(TARGET_PLATFORM) ] ;
TARGET_COMMON_ARCH_OBJECT_DIR
= [ FDirName $(TARGET_OBJECT_BASE_DIR) common ] ;
TARGET_ARCH_OBJECT_DIR
= [ FDirName $(TARGET_OBJECT_BASE_DIR) $(TARGET_ARCH) ] ;
TARGET_COMMON_DEBUG_OBJECT_DIR
= [ FDirName $(TARGET_ARCH_OBJECT_DIR) common ] ;
TARGET_DEBUG_0_OBJECT_DIR
= [ FDirName $(TARGET_ARCH_OBJECT_DIR) release ] ;
local level ;
for level in $(HAIKU_DEBUG_LEVELS[2-]) {
TARGET_DEBUG_$(level)_OBJECT_DIR
= [ FDirName $(TARGET_ARCH_OBJECT_DIR) debug_$(level) ] ;
}
# library name map
TARGET_LIBRARY_NAME_MAP = LIBBE_LIBRARY_NAME_MAP ;
LIBBE_LIBRARY_NAME_MAP_be = libbe_haiku.so ;
}
#pragma mark -
# common stuff
# start with a clean state
CCFLAGS = ;
C++FLAGS = ;
DEFINES = ;
# Set CC, C++, LINK to invalid values, so that we realize early, that we use
# the wrong compiler.
CC = bad-cc ;
C++ = bad-c++ ;
LINK = bad-link ;
# Allow compiling unit tests on Zeta. Instead of fixing the PostMessage()
# issues, they deprecated that nice function. This will enable it again:
C++FLAGS += -D_ZETA_USING_DEPRECATED_API_=1 ;
# Same for buggy find_directory threadsafety fixes
C++FLAGS += -D_ZETA_TS_FIND_DIR_=1 ;
# TODO: Doesn't really belong here.
# Defaults for warnings, optimization, and debugging.
#
WARNINGS ?= 1 ;
OPTIM ?= -O2 ;
DEBUG ?= 0 ;
# Set the defaults for PLATFORM and SUPPORTED_PLATFORMS. PLATFORM is only
# overridden for targets to be built for the host platform. SUPPORTED_PLATFORMS
# can be overridden by the author of a component.
PLATFORM = $(TARGET_PLATFORM) ;
SUPPORTED_PLATFORMS = haiku ;
# Instructs the Library rule to not make its object files temporary.
# This is needed as some objects are used in a static library and for an
# executable.
KEEPOBJS = true ;
# Set permissions to how they should be on the image.
EXEMODE = 755 ;
FILEMODE = 644 ;
SHELLMODE = 755 ;
# output directories
# TODO: Review this.
HAIKU_DOCUMENTATION_DIR ?= [ FDirName $(HAIKU_OUTPUT_DIR) documentation ] ;
HAIKU_DOCUMENTATION_OBJECT_DIR ?= [ FDirName $(HAIKU_COMMON_PLATFORM_OBJECT_DIR)
documentation ] ;
# TODO: Rethink test stuff.
HAIKU_TEST_DIR ?= [ FDirName $(HAIKU_OUTPUT_DIR) tests $(TARGET_PLATFORM) $(HAIKU_ARCH) ] ;
HAIKU_APP_TEST_DIR ?= [ FDirName $(HAIKU_TEST_DIR) apps ] ;
HAIKU_APP_TEST_LIB_DIR ?= [ FDirName $(HAIKU_APP_TEST_DIR) lib ] ;
HAIKU_TMP_DIR ?= [ FDirName $(HAIKU_OUTPUT_DIR) tmp ] ;
HAIKU_PACKAGE_DIR ?= [ FDirName $(HAIKU_OUTPUT_DIR) packages ] ;
HAIKU_PACKAGE_OBJECT_DIR ?= [ FDirName $(HAIKU_OBJECT_DIR) packages ] ;
TARGET_TEST_DIR ?= [ FDirName $(HAIKU_TEST_DIR)
$(TARGET_PLATFORM) ] ;
TARGET_UNIT_TEST_DIR ?= [ FDirName $(TARGET_TEST_DIR) unittests ] ;
TARGET_UNIT_TEST_LIB_DIR ?= [ FDirName $(TARGET_UNIT_TEST_DIR) lib ] ;
# automatically setup the objects directory per subdirectory
SUBDIRRULES += SetupObjectsDir ;
# Add the standard (userland) warning flags variables to the ones restored in
# every subdirectory. Thus we can easily meddle with them in subdirectories
# with imported sources.
AUTO_SET_UP_CONFIG_VARIABLES +=
HOST_WARNING_CCFLAGS HOST_WARNING_C++FLAGS
TARGET_WARNING_CCFLAGS TARGET_WARNING_C++FLAGS
# also add PLATFORM and SUPPORTED_PLATFORMS
PLATFORM SUPPORTED_PLATFORMS
;