export GDBPREFIX ?= $(PREFIX) export LLVMPREFIX ?= llvm- # Apple XCode doesn't prefix its tools with llvm-, but manually installed LLVM # on OSX might have the llvm- prefix, we can't simply test against uname -s. # Test if llvm-ar exists ifeq (,$(shell command -v $(LLVMPREFIX)ar 2>/dev/null)) # fall back to system tools export LLVMPREFIX := endif export CC = clang export CXX = clang++ export LINK = $(CC) export AS = $(LLVMPREFIX)as export AR = $(LLVMPREFIX)ar export NM = $(LLVMPREFIX)nm # There is no LLVM linker yet, use GNU binutils. #export LINKER = $(LLVMPREFIX)ld # objcopy does not have a clear substitute in LLVM, use GNU binutils #export OBJCOPY = $(LLVMPREFIX)objcopy export OBJCOPY = $(PREFIX)objcopy export OBJDUMP = $(LLVMPREFIX)objdump export SIZE = $(LLVMPREFIX)size export DBG = $(GDBPREFIX)gdb # LLVM lacks a binutils strip tool as well... #export STRIP = $(LLVMPREFIX)strip # Clang on Linux uses GCC's C++ headers and libstdc++ (installed with GCC) # Ubuntu and Debian use /etc/alternatives/gcc-$(TARGET_ARCH)-include/c++/$(GCC_VERSION) # Arch uses /usr/$(TARGET_ARCH)/include/c++/$(GCC_VERSION) # Gentoo uses /usr/lib/gcc/$(TARGET_ARCH)/$(GCC_VERSION)/include/g++-v5 GCC_CXX_INCLUDE_PATTERNS ?= \ /etc/alternatives/gcc-$(TARGET_ARCH)-include/c++/*/ \ /usr/$(TARGET_ARCH)/include/c++/*/ \ /usr/lib/gcc/$(TARGET_ARCH)/*/include/g++-v5 \ # # Try to find the proper multilib directory using GCC, this may fail if a cross- # GCC is not installed. ifeq ($(GCC_MULTI_DIR),) GCC_MULTI_DIR := $(shell $(PREFIX)gcc -print-multi-directory $(CFLAGS) 2>/dev/null) endif # Tell clang to cross compile export CFLAGS += -target $(TARGET_ARCH) export CXXFLAGS += -target $(TARGET_ARCH) export LINKFLAGS += -target $(TARGET_ARCH) # Use the wildcard Makefile function to search for existing directories matching # the patterns above. We use the -isystem gcc/clang argument to add the include # directories as system include directories, which means they will not be # searched until after all the project specific include directories (-I/path) # We sort the list of found directories and take the last one, it will likely be # the most recent GCC version. This avoids using old headers left over from # previous tool chain installations. GCC_CXX_INCLUDES ?= \ $(addprefix \ -isystem $(lastword $(sort \ $(foreach pat, $(GCC_CXX_INCLUDE_PATTERNS), $(wildcard $(pat))))), \ /. /$(TARGET_ARCH)/$(GCC_MULTI_DIR) /backward \ ) # If nothing was found we will try to fall back to searching for a cross-gcc in # the current PATH and use a relative path for the includes ifeq (,$(GCC_CXX_INCLUDES)) GCC_CXX_INCLUDES := $(addprefix -isystem ,$(wildcard $(dir $(shell which $(PREFIX)gcc))../$(TARGET_TRIPLE)/include)) endif # Pass the includes to the C++ compilation rule in Makefile.base export CXXINCLUDES += $(GCC_CXX_INCLUDES) # Some C headers (e.g. limits.h) are located with the GCC libraries GCC_C_INCLUDE_PATTERNS ?= \ /usr/lib/gcc/$(TARGET_TRIPLE)/*/ \ # GCC_C_INCLUDES ?= \ $(addprefix -isystem ,$(wildcard $(addprefix \ $(lastword $(sort \ $(foreach pat, $(GCC_C_INCLUDE_PATTERNS), $(wildcard $(pat))))), \ include include-fixed) \ )) # If nothing was found we will try to fall back to searching for the libgcc used # by an installed cross-GCC and use its headers. ifeq (,$(GCC_C_INCLUDES)) GCC_C_INCLUDES := $(addprefix -isystem ,$(wildcard $(addprefix $(dir $(shell $(PREFIX)gcc -print-libgcc-file-name)), include include-fixed))) endif export INCLUDES += $(GCC_C_INCLUDES)