swh:1:snp:a72e953ecd624a7df6e6196bbdd05851996c5e40
Tip revision: 26d7bb86c41a2343ad65e4da3e2bea2c7bc72e1c authored by Jameson Nash on 27 February 2016, 05:20:43 UTC
merge calls to identical methods (differing only by type signature) after doing union splitting
merge calls to identical methods (differing only by type signature) after doing union splitting
Tip revision: 26d7bb8
Make.inc
# -*- mode: makefile-gmake -*-
## Note:
## It is generally preferable to change these options, for
## your local machine, in a file named `Make.user` in the toplevel
## and build directories
# OPENBLAS build options
OPENBLAS_TARGET_ARCH:=
OPENBLAS_SYMBOLSUFFIX:=
OPENBLAS_LIBNAMESUFFIX:=
# If OPENBLAS_TARGET_ARCH is set, we default to disabling OPENBLAS_DYNAMIC_ARCH
ifneq ($(OPENBLAS_TARGET_ARCH),)
OPENBLAS_DYNAMIC_ARCH:=0
else
OPENBLAS_DYNAMIC_ARCH:=1
endif
OPENBLAS_USE_THREAD:=1
# Use libraries available on the system instead of building them
USE_SYSTEM_LLVM:=0
USE_SYSTEM_LIBUNWIND:=0
USE_SYSTEM_PCRE:=0
USE_SYSTEM_LIBM:=0
USE_SYSTEM_OPENLIBM:=0
UNTRUSTED_SYSTEM_LIBM:=0
USE_SYSTEM_OPENSPECFUN:=0
USE_SYSTEM_DSFMT:=0
USE_SYSTEM_BLAS:=0
USE_SYSTEM_LAPACK:=0
USE_SYSTEM_FFTW:=0
USE_SYSTEM_GMP:=0
USE_SYSTEM_MPFR:=0
USE_SYSTEM_ARPACK:=0
USE_SYSTEM_SUITESPARSE:=0
USE_SYSTEM_LIBUV:=0
USE_SYSTEM_UTF8PROC:=0
USE_SYSTEM_LIBGIT2:=0
USE_SYSTEM_PATCHELF:=0
# Link to the LLVM shared library
USE_LLVM_SHLIB := 0
## Settings for various Intel tools
# Set to 1 to use MKL
USE_INTEL_MKL ?= 0
# Set to 1 to use MKL FFT
USE_INTEL_MKL_FFT ?= 0
# Set to 1 to use Intel LIBM
USE_INTEL_LIBM ?= 0
# Set to 1 to enable profiling with Intel VTune Amplifier
USE_INTEL_JITEVENTS ?= 0
# Set to 1 to use Intel C, C++, and FORTRAN compilers
USEICC ?= 0
USEIFC ?= 0
ifeq ($(USE_MKL), 1)
$(warning "The julia make variable USE_MKL has been renamed to USE_INTEL_MKL")
USE_INTEL_MKL := 1
endif
# Set to 1 to enable profiling with OProfile
USE_OPROFILE_JITEVENTS ?= 0
# libc++ is standard on OS X 10.9, but not for earlier releases
USE_LIBCPP := 0
# assume we don't have LIBSSP support in our compiler, will enable later if likely true
HAVE_SSP := 0
# GC debugging options
WITH_GC_VERIFY := 0
WITH_GC_DEBUG_ENV := 0
# Prevent picking up $ARCH from the environment variables
ARCH:=
# pick up BUILDROOT from O= if it isn't already set (from recursive make)
ifeq ($(BUILDROOT),)
ifeq ("$(origin O)", "command line")
BUILDROOT := $(abspath $O)
BUILDDIR := $(abspath $(BUILDROOT)/$(shell $(JULIAHOME)/contrib/relative_path.sh $(JULIAHOME) $(SRCDIR)))
$(info $(shell printf '\033[32;1mBuilding into $(BUILDROOT)\033[0m')) # use printf to expand the escape sequences
else
BUILDROOT:=$(JULIAHOME)
endif
endif
export BUILDROOT
unexport O
# Make sure the user didn't try to specify a path that will confuse the shell / make
METACHARACTERS := ][?*{}() $$%:;&|!\#,\\`\":
ifneq (,$(findstring ',$(value BUILDROOT)))
$(error cowardly refusing to build into directory with a single-quote in the path)
endif
ifneq (,$(findstring ',$(value JULIAHOME)))
$(error cowardly refusing to build from source directory with a single-quote in the path)
endif
ifneq (,$(shell echo '$(value BUILDROOT)' | grep '[$(METACHARACTERS)]'))
$(error cowardly refusing to build into directory with a shell-metacharacter in the path\
(got: $(value BUILDROOT)))
endif
ifneq (,$(shell echo '$(value JULIAHOME)' | grep '[$(METACHARACTERS)]'))
$(error cowardly refusing to build from source directory with a shell-metacharacter in the path\
(got: $(value JULIAHOME)))
endif
# we include twice to pickup user definitions better
# include from JULIAHOME first so that BUILDROOT can override
ifeq (exists, $(shell [ -e $(JULIAHOME)/Make.user ] && echo exists ))
include $(JULIAHOME)/Make.user
endif
ifeq (exists, $(shell [ -e $(BUILDROOT)/Make.user ] && echo exists ))
include $(BUILDROOT)/Make.user
endif
# disable automatic Makefile rules
.SUFFIXES:
# find out if git repository is available
ifeq ($(shell [ -e $(JULIAHOME)/.git ] && echo true || echo "Warning: git information unavailable; versioning information limited" >&2), true)
NO_GIT := 0
else
NO_GIT := 1
endif
JULIA_VERSION := $(shell cat $(JULIAHOME)/VERSION)
ifneq ($(NO_GIT), 1)
JULIA_COMMIT := $(shell git rev-parse --short=10 HEAD)
else
JULIA_COMMIT := $(JULIA_VERSION)
endif
# Whether to use GPL libraries or not.
USE_GPL_LIBS ?= 1
# Directories where said libraries get installed to
prefix ?= $(abspath julia-$(JULIA_COMMIT))
bindir := $(prefix)/bin
libdir := $(prefix)/lib
libexecdir := $(prefix)/libexec
datarootdir := $(prefix)/share
docdir := $(datarootdir)/doc/julia
mandir := $(datarootdir)/man
man1dir := $(mandir)/man1
includedir := $(prefix)/include
sysconfdir := $(prefix)/etc
# Directories where things get built into
build_prefix := $(BUILDROOT)/usr
build_staging := $(build_prefix)-staging
build_bindir := $(build_prefix)/bin
build_libdir := $(build_prefix)/lib
build_libexecdir := $(build_prefix)/libexec
build_datarootdir := $(build_prefix)/share
build_docdir := $(build_datarootdir)/doc/julia
build_mandir := $(build_datarootdir)/man
build_man1dir := $(build_mandir)/man1
build_includedir := $(build_prefix)/include
build_sysconfdir := $(build_prefix)/etc
# This used for debian packaging, to conform to library layout guidelines
ifeq ($(MULTIARCH_INSTALL), 1)
MULTIARCH := $(shell gcc -print-multiarch)
libdir := $(prefix)/lib/$(MULTIARCH)
build_libdir := $(build_prefix)/lib/$(MULTIARCH)
endif
# Private library directories
private_libdir := $(libdir)/julia
build_private_libdir := $(build_libdir)/julia
# Calculate relative paths to libdir, private_libdir, datarootdir, and sysconfdir
build_libdir_rel := $(shell $(JULIAHOME)/contrib/relative_path.sh $(build_bindir) $(build_libdir))
libdir_rel := $(shell $(JULIAHOME)/contrib/relative_path.sh $(bindir) $(libdir))
build_private_libdir_rel := $(shell $(JULIAHOME)/contrib/relative_path.sh $(build_bindir) $(build_private_libdir))
private_libdir_rel := $(shell $(JULIAHOME)/contrib/relative_path.sh $(bindir) $(private_libdir))
datarootdir_rel := $(shell $(JULIAHOME)/contrib/relative_path.sh $(bindir) $(datarootdir))
docdir_rel := $(shell $(JULIAHOME)/contrib/relative_path.sh $(bindir) $(docdir))
sysconfdir_rel := $(shell $(JULIAHOME)/contrib/relative_path.sh $(bindir) $(sysconfdir))
INSTALL_F := $(JULIAHOME)/contrib/install.sh 644
INSTALL_M := $(JULIAHOME)/contrib/install.sh 755
# LLVM Options
LLVMROOT := $(build_prefix)
LLVM_ASSERTIONS := 0
LLVM_DEBUG := 0
#LLVM_USE_CMAKE: defined in deps/Makefile as it depends on LLVM_VER_SHORT
# set to 1 to get clang and compiler-rt
BUILD_LLVM_CLANG := 0
# set to 1 to get lldb (often does not work, no chance with llvm3.2 and earlier)
# see http://lldb.llvm.org/build.html for dependencies
BUILD_LLDB := 0
# Cross-compile
#XC_HOST := i686-w64-mingw32
#XC_HOST := x86_64-w64-mingw32
# Path to cmake (override in Make.user if needed)
CMAKE ?= cmake
CMAKE_GENERATOR ?= make
# Point pkg-config to only look at our libraries
export PKG_CONFIG_LIBDIR = $(JULIAHOME)/usr/lib/pkgconfig
# Figure out OS and architecture
BUILD_OS := $(shell uname)
ifneq (,$(findstring CYGWIN,$(BUILD_OS)))
XC_HOST ?= $(shell uname -m)-w64-mingw32
endif
ifeq ($(XC_HOST),)
CROSS_COMPILE:=
# delayed expansion of $(CC), since it won't be computed until later
HOSTCC = $(CC)
else
HOSTCC := gcc
override OPENBLAS_DYNAMIC_ARCH := 1
override CROSS_COMPILE:=$(XC_HOST)-
ifneq (,$(findstring mingw,$(XC_HOST)))
override OS := WINNT
STD_LIB_PATH := $(shell $(CROSS_COMPILE)gcc -print-search-dirs | grep programs | sed -e "s/^programs: =//")
STD_LIB_PATH := $(STD_LIB_PATH):$(shell $(CROSS_COMPILE)gcc -print-search-dirs | grep libraries | sed -e "s/^libraries: =//")
ifneq (,$(findstring CYGWIN,$(BUILD_OS))) # the cygwin-mingw32 compiler lies about it search directory paths
STD_LIB_PATH := $(shell echo '$(STD_LIB_PATH)' | sed -e "s!/lib/!/bin/!g")
endif
else
$(error "unknown XC_HOST variable set")
endif
endif
STD_LIB_PATH ?= $(PATH)
JLDOWNLOAD := $(JULIAHOME)/deps/jldownload
JLCHECKSUM := $(JULIAHOME)/deps/jlchecksum
# Figure out OS and architecture
OS := $(BUILD_OS)
ifneq (,$(findstring MINGW,$(OS)))
override OS := WINNT
endif
ifneq (,$(findstring MINGW,$(BUILD_OS)))
override BUILD_OS := WINNT
endif
ifneq (,$(findstring MSYS,$(OS)))
override OS := WINNT
endif
ifneq (,$(findstring MSYS,$(BUILD_OS)))
override BUILD_OS := WINNT
endif
ifeq ($(BUILD_OS), WINNT)
BUILD_EXE := .exe
else ifneq (,$(findstring CYGWIN,$(BUILD_OS)))
BUILD_EXE := .exe
else
BUILD_EXE :=
endif
ifeq ($(OS), WINNT)
fPIC :=
EXE := .exe
else
fPIC := -fPIC
EXE :=
endif
JULIAGC := MARKSWEEP
JULIACODEGEN := LLVM
# flag for disabling assertions
ifeq ($(FORCE_ASSERTIONS), 1)
DISABLE_ASSERTIONS :=
else
DISABLE_ASSERTIONS := -DNDEBUG
endif
# Compiler specific stuff
ifeq ($(USEMSVC), 1)
USEGCC := 0
USECLANG := 0
USEICC := 0
else
ifeq ($(USECLANG), 1)
USEGCC := 0
USEICC := 0
else
ifeq ($(USEICC), 1)
USEGCC := 0
USECLANG := 0
else # default to gcc
USEGCC := 1
USECLANG := 0
USEICC := 0
endif
endif
endif
ifeq ($(USEIFC), 1)
FC := ifort
else
FC := $(CROSS_COMPILE)gfortran
endif
STDLIBCPP_FLAG :=
ifeq ($(OS), Darwin)
DARWINVER := $(shell uname -r | cut -b 1-2)
DARWINVER_GTE13 := $(shell expr `uname -r | cut -b 1-2` \>= 13)
ifeq ($(DARWINVER), 10) # Snow Leopard specific configuration
USEGCC := 1
USECLANG := 0
OPENBLAS_TARGET_ARCH:=NEHALEM
OPENBLAS_DYNAMIC_ARCH:=0
USE_SYSTEM_LIBUNWIND:=1
else
ifeq ($(DARWINVER_GTE13),1)
USE_LIBCPP := 1
STDLIBCPP_FLAG := -stdlib=libstdc++
else
USE_LIBCPP := 0
endif
USEGCC := 0
USECLANG := 1
endif
endif
ifeq ($(USEGCC),1)
ifeq ($(USE_LIBCPP),1)
$(error USE_LIBCPP only supported with clang. Try setting USE_LIBCPP=0)
endif
ifeq ($(SANITIZE),1)
$(error Address Sanitizer only supported with clang. Try setting SANITIZE=0)
endif
CC := $(CROSS_COMPILE)gcc
CXX := $(CROSS_COMPILE)g++
JCFLAGS := -std=gnu99 -pipe $(fPIC) -fno-strict-aliasing -D_FILE_OFFSET_BITS=64
# AArch64 needs this flag to generate the .eh_frame used by libunwind
JCPPFLAGS := -fasynchronous-unwind-tables
JCXXFLAGS := -pipe $(fPIC) -fno-rtti
ifneq ($(OS), WINNT)
# Do no enable on windows to avoid warnings from libuv.
JCXXFLAGS += -pedantic
endif
DEBUGFLAGS := -O0 -ggdb2 -DJL_DEBUG_BUILD -fstack-protector-all
SHIPFLAGS := -O3 -ggdb2 -falign-functions
endif
ifeq ($(USECLANG),1)
CC := $(CROSS_COMPILE)clang
CXX := $(CROSS_COMPILE)clang++
JCFLAGS := -pipe $(fPIC) -fno-strict-aliasing -D_FILE_OFFSET_BITS=64
# AArch64 needs this flag to generate the .eh_frame used by libunwind
JCPPFLAGS := -fasynchronous-unwind-tables
JCXXFLAGS := -pipe $(fPIC) -fno-rtti -pedantic
DEBUGFLAGS := -O0 -g -DJL_DEBUG_BUILD -fstack-protector-all
SHIPFLAGS := -O3 -g
ifeq ($(OS), Darwin)
ifeq ($(USE_LIBCPP), 1)
CC += -stdlib=libc++ -mmacosx-version-min=10.7
CXX += -stdlib=libc++ -mmacosx-version-min=10.7
FC += -mmacosx-version-min=10.7
else
CC += $(STDLIBCPP_FLAG) -mmacosx-version-min=10.6
CXX += $(STDLIBCPP_FLAG) -mmacosx-version-min=10.6
endif
JCPPFLAGS += -D_LARGEFILE_SOURCE -D_DARWIN_USE_64_BIT_INODE=1
endif
endif
ifeq ($(USEICC),1)
ifeq ($(USE_LIBCPP),1)
$(error USE_LIBCPP only supported with clang. Try setting USE_LIBCPP=0)
endif
ifeq ($(SANITIZE),1)
$(error Address Sanitizer only supported with clang. Try setting SANITIZE=0)
endif
CC := icc
CXX := icpc
JCFLAGS := -std=gnu11 -pipe $(fPIC) -fno-strict-aliasing -D_FILE_OFFSET_BITS=64 -fp-model precise -fp-model except -no-ftz
JCPPFLAGS :=
JCXXFLAGS := -pipe $(fPIC) -fno-rtti
DEBUGFLAGS := -O0 -g -DJL_DEBUG_BUILD -fstack-protector-all
SHIPFLAGS := -O3 -g -falign-functions
endif
ifeq ($(USECCACHE), 1)
# expand CC and CXX at declaration time because we will redefine them
CC_ARG := $(CC) # Expand CC and CXX here already because we want
CXX_ARG := $(CXX) # the original definition and not the ccache version.
CC_FULL := ccache $(CC) # Expand CC and CXX here already to avoid recursive
CXX_FULL := ccache $(CXX) # referencing.
CC := $(CC_FULL) # Add an extra indirection to make CC/CXX non-simple
CXX := $(CXX_FULL) # vars (because of how -m$(BINARY) is added later on).
CC_BASE := ccache
CXX_BASE := ccache
ifeq ($(USECLANG),1)
# ccache and Clang don't do well together
# http://petereisentraut.blogspot.be/2011/05/ccache-and-clang.html
CC += -Qunused-arguments
CXX += -Qunused-arguments
# http://petereisentraut.blogspot.be/2011/09/ccache-and-clang-part-2.html
export CCACHE_CPP2 := yes
endif
else #USECCACHE
CC_BASE := $(shell echo $(CC) | cut -d' ' -f1)
CXX_BASE := $(shell echo $(CXX) | cut -d' ' -f1)
endif
JFFLAGS := -O2 $(fPIC)
ifneq ($(USEMSVC),1)
CPP := $(CC) -E
AR := $(CROSS_COMPILE)ar
AS := $(CROSS_COMPILE)as
LD := $(CROSS_COMPILE)ld
else #USEMSVC
CPP := $(CC) -EP
AR := lib
ifeq ($(ARCH),x86_64)
AS := ml64
else
AS := ml
endif #ARCH
LD := link
endif #USEMSVC
RANLIB := $(CROSS_COMPILE)ranlib
# file extensions
ifeq ($(OS), WINNT)
SHLIB_EXT := dll
else ifeq ($(OS), Darwin)
SHLIB_EXT := dylib
else
SHLIB_EXT := so
endif
# On Windows, we want shared library files to end up in $(build_bindir), instead of $(build_libdir)
ifeq ($(OS),WINNT)
build_shlibdir := $(build_bindir)
else
build_shlibdir := $(build_libdir)
endif
ifeq (exists, $(shell [ -e $(JULIAHOME)/Make.user ] && echo exists ))
include $(JULIAHOME)/Make.user
endif
ifeq (exists, $(shell [ -e $(BUILDROOT)/Make.user ] && echo exists ))
include $(BUILDROOT)/Make.user
endif
ifeq ($(SANITIZE),1)
ifeq ($(SANITIZE_MEMORY),1)
SANITIZE_OPTS := -fsanitize=memory -fsanitize-memory-track-origins -fno-omit-frame-pointer
SANITIZE_LDFLAGS := $(SANITIZE_OPTS)
else
SANITIZE_OPTS := -fsanitize=address -mllvm -asan-stack=0
SANITIZE_LDFLAGS := -fsanitize=address
endif
JCXXFLAGS += $(SANITIZE_OPTS)
JCFLAGS += $(SANITIZE_OPTS)
LDFLAGS += $(SANITIZE_LDFLAGS)
# FIXME: sanitizing all dependencies doesn't work because of -Wl,--no-undefined
# https://github.com/JuliaLang/julia/issues/13858
# use LLVM_SANITIZE to sanitize LLVM
#DEPS_CFLAGS += $(SANITIZE_OPTS)
#DEPS_CXXFLAGS += $(SANITIZE_OPTS)
endif
TAR=`which gtar 2>/dev/null || which tar 2>/dev/null`
TAR_TEST := $(shell $(TAR) --help 2>&1 | egrep 'bsdtar|strip-components')
ifeq (,$(findstring components,$(TAR_TEST)))
ifneq (bsdtar,$(findstring bsdtar,$(TAR_TEST)))
$(error "please install either GNU tar or bsdtar")
endif
endif
ifeq ($(WITH_GC_VERIFY), 1)
JCXXFLAGS += -DGC_VERIFY
JCFLAGS += -DGC_VERIFY
endif
ifeq ($(WITH_GC_DEBUG_ENV), 1)
JCXXFLAGS += -DGC_DEBUG_ENV
JCFLAGS += -DGC_DEBUG_ENV
endif
# ===========================================================================
# Select the cpu architecture to target, or automatically detects the user's compiler
# ARCH is the first element of the triple, and gives the CPU class (e.g. x86_64)
# MARCH is the CPU type, and accepts anything that can be passed to the gcc -march flag
# it is set equal to ARCH (for cases where the two are the same, such as i686)
# it can be set to native to optimize all code for the user's machine (not just the JIT code)
# if MARCH is set newer than the native processor, be forewarned that the compile might fail
# JULIA_CPU_TARGET is the JIT-only complement to MARCH. Setting it explicitly is not generally necessary,
# since it is set equal to MARCH by default
BUILD_MACHINE := $(shell $(HOSTCC) -dumpmachine)
# Clang spells mingw `-windows-gnu`, but autotools, etc
# don't recognize that, so canonicalize to mingw32
BUILD_MACHINE := $(subst windows-gnu,mingw32,$(BUILD_MACHINE))
ifeq ($(ARCH),)
override ARCH := $(shell $(CC) -dumpmachine | sed "s/\([^-]*\).*$$/\1/")
else
ifneq ($(XC_HOST),)
XC_HOST := $(ARCH)$(shell echo $(XC_HOST) | sed "s/[^-]*\(.*\)$$/\1/")
MARCH := $(subst _,-,$(ARCH))
else # insert ARCH into HOST
XC_HOST := $(ARCH)$(shell echo $(BUILD_MACHINE) | sed "s/[^-]*\(.*\)$$/\1/")
endif
endif
ifeq ($(ARCH),mingw32)
$(error "the mingw32 compiler you are using fails the openblas testsuite. please see the README.windows document for a replacement")
else ifeq (cygwin, $(shell $(CC) -dumpmachine | cut -d\- -f3))
$(error "cannot build julia with cygwin-target compilers. set XC_HOST to i686-w64-mingw32 or x86_64-w64-mingw32 for mingw cross-compile")
else ifeq (msys, $(shell $(CC) -dumpmachine | cut -d\- -f3))
$(error "cannot build julia with msys-target compilers. please see the README.windows document for instructions on setting up mingw-w64 compilers")
endif
ifeq ($(BUILD_OS),Darwin)
## Mac is a rather cool 64-bit user-space on 32-bit kernel architecture, so to determine arch we detect
## the capabilities of the hardware, rather than the compiler or kernel, and make a substitution
BUILD_ARCH := $(shell echo $(BUILD_MACHINE) | sed "s/\([^-]*\).*$$/\1/")
ifeq ($(BUILD_ARCH),x86_64)
BUILD_ARCH := i686
else ifeq ($(BUILD_ARCH),i386)
BUILD_ARCH := i686
endif
ifeq ($(BUILD_ARCH),i686)
ifeq ($(shell sysctl -n hw.cpu64bit_capable),1)
BUILD_ARCH := x86_64
endif
BUILD_MACHINE := $(BUILD_ARCH)$(shell echo $(BUILD_MACHINE) | sed "s/[^-]*\(.*\)$$/\1/")
endif
ifeq ($(BUILD_OS),$(OS))
ARCH := $(BUILD_OS)
endif
endif
# Detect common pre-SSE2 JULIA_CPU_TARGET values known not to work (#7185)
ifeq ($(MARCH),)
ifneq ($(findstring $(ARCH),i386 i486 i586 i686),)
MARCH := pentium4
endif
endif
ifneq ($(findstring $(MARCH),i386 i486 i586 i686 pentium pentium2 pentium3),)
$(error Pre-SSE2 CPU targets not supported. To create a generic 32-bit x86 binary, \
pass 'MARCH=pentium4'.)
endif
ifneq ($(MARCH),)
CC += -march=$(MARCH)
CXX += -march=$(MARCH)
FC += -march=$(MARCH)
JULIA_CPU_TARGET ?= $(MARCH)
ifeq ($(OS),Darwin)
# on Darwin, the standalone `as` program doesn't know
# how to handle AVX instructions, but it does know how
# to dispatch to the clang assembler (if we ask it to)
ifeq ($(USECLANG),1)
CC += -integrated-as
CXX += -integrated-as
else
CC += -Wa,-q
CXX += -Wa,-q
endif
FC += -Wa,-q
AS += -q
endif
endif
JULIA_CPU_TARGET ?= native
# We map amd64 to x86_64 for compatibility with systems that identify 64-bit systems as such
ifeq ($(ARCH),amd64)
override ARCH := x86_64
endif
ifeq ($(ARCH),i386)
BINARY:=32
ISX86:=1
else ifeq ($(ARCH),i387)
BINARY:=32
ISX86:=1
else ifeq ($(ARCH),i486)
BINARY:=32
ISX86:=1
else ifeq ($(ARCH),i586)
BINARY:=32
ISX86:=1
else ifeq ($(ARCH),i686)
BINARY:=32
ISX86:=1
else ifeq ($(ARCH),x86_64)
BINARY:=64
ISX86:=1
else
# For all other architectures (ARM, PPC, AArch64, etc.)
ISX86:=0
endif
# If we are running on ARM, set certain options automatically
ifneq (,$(findstring arm,$(ARCH)))
JCFLAGS += -fsigned-char
LLVM_ASSERTIONS=1
#LLVM_FLAGS+="--with-float=hard --with-abi=aapcs-vfp"
override USE_BLAS64:=0
override OPENBLAS_DYNAMIC_ARCH:=0
override OPENBLAS_TARGET_ARCH:=ARMV7
override USE_SYSTEM_LIBM:=1
endif
# Set some ARCH-specific flags
ifneq ($(USEICC),1)
ifeq ($(ISX86),1)
CC += -m$(BINARY)
CXX += -m$(BINARY)
FC += -m$(BINARY)
CC_ARG += -m$(BINARY)
CXX_ARG += -m$(BINARY)
endif
endif
ifeq ($(OS),WINNT)
ifneq ($(ARCH),x86_64)
JCFLAGS += -mincoming-stack-boundary=2
JCXXFLAGS += -mincoming-stack-boundary=2
endif
endif
ifeq ($(USEGCC),1)
ifeq ($(ISX86),1)
SHIPFLAGS += -momit-leaf-frame-pointer
endif
endif
ifeq ($(OS),WINNT)
LIBUNWIND:=
else
ifeq ($(USE_SYSTEM_LIBUNWIND), 1)
ifneq ($(OS),Darwin)
LIBUNWIND:=-lunwind-generic -lunwind
# Only for linux since we want to use not yet released libunwind features
JCFLAGS+=-DSYSTEM_LIBUNWIND
JCPPFLAGS+=-DSYSTEM_LIBUNWIND
endif
else
ifeq ($(OS),Darwin)
LIBUNWIND:=$(build_libdir)/libosxunwind.a
JCPPFLAGS+=-DLIBOSXUNWIND
else
LIBUNWIND:=$(build_libdir)/libunwind-generic.a $(build_libdir)/libunwind.a
endif
endif
endif
ifeq ($(origin LLVM_CONFIG), undefined)
ifeq ($(USE_SYSTEM_LLVM), 1)
LLVM_CONFIG := llvm-config$(EXE)
else
LLVM_CONFIG := $(build_bindir)/llvm-config$(EXE)
endif
endif # LLVM_CONFIG undefined
ifeq ($(USE_SYSTEM_LLVM), 1)
JCPPFLAGS+=-DSYSTEM_LLVM
endif # SYSTEM_LLVM
ifeq ($(BUILD_OS),$(OS))
LLVM_CONFIG_HOST := $(LLVM_CONFIG)
else
LLVM_CONFIG_HOST := $(basename $(LLVM_CONFIG))-host$(BUILD_EXE)
ifeq (exists, $(shell [ -f '$(LLVM_CONFIG_HOST)' ] && echo exists ))
ifeq ($(shell $(LLVM_CONFIG_HOST) --version),3.3)
# llvm-config-host <= 3.3 is broken, use llvm-config instead (in an emulator)
# use delayed expansion (= not :=) because spawn isn't defined until later
LLVM_CONFIG_HOST = $(call spawn,$(LLVM_CONFIG))
endif
else
# llvm-config-host does not exist (cmake build)
LLVM_CONFIG_HOST = $(call spawn,$(LLVM_CONFIG))
endif
endif
ifeq ($(USE_SYSTEM_PCRE), 1)
PCRE_CONFIG := pcre2-config
else
PCRE_CONFIG := $(build_bindir)/pcre2-config
endif
# Use ILP64 BLAS interface when building openblas from source on 64-bit architectures
ifeq ($(BINARY), 64)
ifeq ($(USE_SYSTEM_BLAS), 1)
ifeq ($(USE_INTEL_MKL), 1)
USE_BLAS64 ?= 1
else # non MKL system blas is most likely LP64
USE_BLAS64 ?= 0
endif
else
USE_BLAS64 ?= 1
endif
endif
ifeq ($(USE_SYSTEM_BLAS), 1)
ifeq ($(OS), Darwin)
USE_BLAS64 := 0
USE_SYSTEM_LAPACK := 0
LIBBLAS := -L$(build_libdir) -lgfortblas
LIBBLASNAME := libgfortblas
else
LIBBLAS ?= -lblas
LIBBLASNAME ?= libblas
endif
else
LIBBLAS := -L$(build_shlibdir) -lopenblas
LIBBLASNAME := libopenblas
endif
# OpenBLAS builds LAPACK as part of its build.
# We only need to build LAPACK if we are not using OpenBLAS.
ifeq ($(USE_SYSTEM_BLAS), 0)
LIBLAPACK := $(LIBBLAS)
LIBLAPACKNAME := $(LIBBLASNAME)
else
ifeq ($(USE_SYSTEM_LAPACK), 1)
LIBLAPACK ?= -llapack
LIBLAPACKNAME ?= liblapack
else
LIBLAPACK := -L$(build_shlibdir) -llapack $(LIBBLAS)
LIBLAPACKNAME := liblapack
endif
endif
ifeq ($(OS), WINNT)
LIBFFTWNAME := libfftw3
LIBFFTWFNAME := libfftw3f
else
LIBFFTWNAME := libfftw3_threads
LIBFFTWFNAME := libfftw3f_threads
endif
ifeq ($(USE_SYSTEM_LIBM), 1)
LIBM := -lm
LIBMNAME := libm
else
LIBM := -lopenlibm
LIBMNAME := libopenlibm
endif
ifeq ($(USE_SYSTEM_LIBUV), 1)
LIBUV := /usr/lib/libuv-julia.a
LIBUV_INC := /usr/include
else
LIBUV := $(build_libdir)/libuv.a
LIBUV_INC := $(build_includedir)
endif
ifeq ($(USE_SYSTEM_UTF8PROC), 1)
LIBUTF8PROC := -lutf8proc
UTF8PROC_INC := /usr/include
else
LIBUTF8PROC := $(build_libdir)/libutf8proc.a
UTF8PROC_INC := $(build_includedir)
endif
# OS specific stuff
# install_name_tool
ifeq ($(OS), Darwin)
# must end with a / and have no trailing spaces
INSTALL_NAME_ID_DIR := @rpath/
INSTALL_NAME_CMD := install_name_tool -id $(INSTALL_NAME_ID_DIR)
INSTALL_NAME_CHANGE_CMD := install_name_tool -change
ifeq ($(shell test `dsymutil -v | cut -d\- -f2 | cut -d. -f1` -gt 102 && echo yes), yes)
DSYMUTIL := dsymutil
else
DSYMUTIL := true -ignore
endif
else
INSTALL_NAME_ID_DIR :=
INSTALL_NAME_CMD := true -ignore
INSTALL_NAME_CHANGE_CMD := true -ignore
DSYMUTIL := true -ignore
endif
# shared library runtime paths
ifeq ($(OS), WINNT)
RPATH :=
RPATH_ORIGIN :=
else ifeq ($(OS), Darwin)
RPATH := -Wl,-rpath,'@executable_path/$(build_private_libdir_rel)' -Wl,-rpath,'@executable_path/$(build_libdir_rel)'
RPATH_ORIGIN := -Wl,-rpath,'@loader_path/'
else
RPATH := -Wl,-rpath,'$$ORIGIN/$(build_private_libdir_rel)' -Wl,-rpath,'$$ORIGIN/$(build_libdir_rel)' -Wl,-z,origin
RPATH_ORIGIN := -Wl,-rpath,'$$ORIGIN' -Wl,-z,origin
endif
# --whole-archive
ifeq ($(OS), Darwin)
WHOLE_ARCHIVE := -Xlinker -all_load
NO_WHOLE_ARCHIVE :=
else ifneq ($(USEMSVC), 1)
WHOLE_ARCHIVE := -Wl,--whole-archive
NO_WHOLE_ARCHIVE := -Wl,--no-whole-archive
endif
ifeq ($(OS), Linux)
OSLIBS += -Wl,--no-as-needed -ldl -lrt -lpthread -Wl,--export-dynamic,--as-needed,--no-whole-archive $(LIBUNWIND)
ifneq ($(SANITIZE),1)
ifneq ($(SANITIZE_MEMORY),1)
ifneq ($(LLVM_SANITIZE),1)
OSLIBS += -Wl,--version-script=$(JULIAHOME)/src/julia.expmap
endif
endif
endif
JLDFLAGS := -Wl,-Bdynamic
ifeq (-Bsymbolic-functions, $(shell $(LD) --help | grep -o -e "-Bsymbolic-functions"))
JLIBLDFLAGS := -Wl,-Bsymbolic-functions
else
JLIBLDFLAGS :=
endif
else #Linux
JLIBLDFLAGS :=
endif
ifeq ($(OS), FreeBSD)
JLDFLAGS := -Wl,-Bdynamic
OSLIBS += -lelf -lkvm -lrt -Wl,--export-dynamic -Wl,--version-script=$(JULIAHOME)/src/julia.expmap $(NO_WHOLE_ARCHIVE) $(LIBUNWIND)
endif
ifeq ($(OS), Darwin)
INSTALL_NAME_CMD := install_name_tool -id $(INSTALL_NAME_ID_DIR)
INSTALL_NAME_CHANGE_CMD := install_name_tool -change
SHLIB_EXT := dylib
OSLIBS += -ldl -Wl,-w -framework CoreFoundation -framework CoreServices $(LIBUNWIND)
WHOLE_ARCHIVE := -Xlinker -all_load
NO_WHOLE_ARCHIVE :=
JLDFLAGS :=
HAVE_SSP := 1
endif
ifeq ($(OS), WINNT)
ifneq ($(USEMSVC), 1)
HAVE_SSP := 1
OSLIBS += -Wl,--export-all-symbols -Wl,--version-script=$(JULIAHOME)/src/julia.expmap \
$(NO_WHOLE_ARCHIVE) -lpsapi -lkernel32 -lws2_32 -liphlpapi -lwinmm -ldbghelp
ifeq ($(ARCH),i686)
JLDFLAGS := -Wl,--stack,8388608 -Wl,--large-address-aware
else #x64
JLDFLAGS := -Wl,--stack,16777216
endif
else #USEMSVC
OSLIBS += kernel32.lib ws2_32.lib psapi.lib advapi32.lib iphlpapi.lib shell32.lib winmm.lib
JLDFLAGS := -stack:16777216
endif
JCPPFLAGS += -D_WIN32_WINNT=0x0502
UNTRUSTED_SYSTEM_LIBM := 1
endif
# Threads
ifeq ($(JULIA_THREADS), 1)
JCPPFLAGS += -DJULIA_ENABLE_THREADING
endif
# Intel VTune Amplifier
ifeq ($(USE_INTEL_JITEVENTS), 1)
JCPPFLAGS += -DJL_USE_INTEL_JITEVENTS
endif
# OProfile
ifeq ($(USE_OPROFILE_JITEVENTS), 1)
JCPPFLAGS += -DJL_USE_OPROFILE_JITEVENTS
endif
# Intel libraries
ifeq ($(USE_INTEL_LIBM), 1)
USE_SYSTEM_LIBM := 1
LIBM := -L$(MKLROOT)/../compiler/lib/intel64 -limf
LIBMNAME := libimf
endif
ifeq ($(USE_INTEL_MKL), 1)
ifeq ($(USE_BLAS64), 1)
export MKL_INTERFACE_LAYER := ILP64
MKLLIB := $(MKLROOT)/lib/intel64
else
MKLLIB := $(MKLROOT)/lib/ia32
endif
USE_SYSTEM_BLAS:=1
USE_SYSTEM_LAPACK:=1
LIBBLASNAME := libmkl_rt
LIBLAPACKNAME := libmkl_rt
MKL_LDFLAGS := -L$(MKLLIB) -lmkl_rt
ifneq ($(strip $(MKLLIB)),)
ifeq ($(OS), Linux)
RPATH_MKL := -Wl,-rpath,$(MKLLIB)
RPATH += $(RPATH_MKL)
MKL_LDFLAGS += $(RPATH_MKL)
endif
endif
LIBBLAS := $(MKL_LDFLAGS)
LIBLAPACK := $(MKL_LDFLAGS)
endif
ifeq ($(USE_INTEL_MKL_FFT), 1)
USE_SYSTEM_FFTW := 1
LIBFFTWNAME := libmkl_rt
LIBFFTWFNAME := libmkl_rt
endif
ifeq ($(HAVE_SSP),1)
JCPPFLAGS += -DHAVE_SSP=1
ifeq ($(USEGCC),1)
OSLIBS += -lssp
endif
endif
# ATLAS
# ATLAS must have been previously built with "make -C deps compile-atlas" (without -jN),
# or installed to usr/lib/libatlas from some another source (built as
# a shared library, for your platform, single threaded)
USE_ATLAS := 0
ATLAS_LIBDIR := $(build_libdir)
#or ATLAS_LIBDIR := /path/to/system/atlas/lib
ifeq ($(USE_ATLAS), 1)
USE_BLAS64 := 0
USE_SYSTEM_BLAS := 1
USE_SYSTEM_LAPACK := 1
LIBBLAS := -L$(ATLAS_LIBDIR) -lsatlas
LIBLAPACK := $(LIBBLAS)
LIBBLASNAME := libsatlas
LIBLAPACKNAME := $(LIBBLASNAME)
endif
# Renaming OpenBLAS symbols, see #4923 and #8734
ifeq ($(USE_SYSTEM_BLAS), 0)
ifeq ($(USE_BLAS64), 1)
OPENBLAS_SYMBOLSUFFIX := 64_
OPENBLAS_LIBNAMESUFFIX := 64_
LIBBLAS := -L$(build_shlibdir) -lopenblas$(OPENBLAS_LIBNAMESUFFIX)
LIBLAPACK := $(LIBBLAS)
LIBBLASNAME := $(LIBBLASNAME)$(OPENBLAS_LIBNAMESUFFIX)
LIBLAPACKNAME := $(LIBBLASNAME)
endif
endif
# Custom libcxx
ifeq ($(BUILD_CUSTOM_LIBCXX),1)
LDFLAGS += -L$(build_libdir)
CXXLDFLAGS += -L$(build_libdir) -lc++abi -stdlib=libc++ -lc++
CPPFLAGS += -I$(build_includedir)/c++/v1
CUSTOM_LD_LIBRARY_PATH := LD_LIBRARY_PATH="$(build_libdir)"
ifeq ($(USEICC),1)
CXXFLAGS += -cxxlib-nostd -static-intel
CLDFLAGS += -static-intel
LDFLAGS += -cxxlib-nostd -static-intel
endif
endif
# Make tricks
define dir_target
$$(subst $$(abspath $(JULIAHOME))/,,$$(abspath $(1))): $$(abspath $(1))
$$(abspath $(1)):
@mkdir -p $$@
endef
ifeq ($(BUILD_OS), WINNT)
define mingw_to_dos
$(subst /,\\,$(subst $(shell $(2) pwd),$(shell $(2) cmd //C cd),$(abspath $(1))))
endef
endif
define symlink_target
CLEAN_TARGETS += clean-$(2)/$(1)
clean-$$(abspath $(2)/$(1)):
ifeq ($(BUILD_OS), WINNT)
@-cmd //C rmdir $$(call mingw_to_dos,$(2)/$(1),cd $(2) &&)
else
@-rm $$(abspath $(2)/$(1))
endif
$$(subst $$(abspath $(JULIAHOME))/,,$$(abspath $(2)/$(1))): $$(abspath $(2)/$(1))
$$(abspath $(2)/$(1)): | $$(abspath $(2))
ifeq ($(BUILD_OS), WINNT)
@cmd //C mklink //J $$(call mingw_to_dos,$(2)/$(1),cd $(2) &&) $$(call mingw_to_dos,$(1),)
else ifneq (,$(findstring CYGWIN,$(BUILD_OS)))
@cmd /C mklink /J $$(call cygpath_w,$(2)/$(1)) $$(call cygpath_w,$(1))
else ifdef JULIA_VAGRANT_BUILD
@cp -R $$(abspath $(1)) $$@
else
@ln -sf $$(abspath $(1)) $$@
endif
endef
# many of the following targets must be = not := because the expansion of the makefile functions (and $1) shouldn't happen until later
ifeq ($(BUILD_OS), WINNT) # MSYS
spawn = $(1)
cygpath_w = $(1)
else ifneq (,$(findstring CYGWIN,$(BUILD_OS))) # Cygwin
spawn = $(1)
cygpath_w = `cygpath -w $(1)`
else
ifeq ($(OS), WINNT) # unix-to-Windows cross-compile
spawn = wine $(1)
cygpath_w = `winepath -w $(1)`
else # not Windows
spawn = $(1)
cygpath_w = $(1)
endif
endif
exec = $(shell $(call spawn,$(1)))
pathsearch = $(firstword $(wildcard $(addsuffix /$(1),$(subst :, ,$(2)))))
JULIA_BUILD_MODE := release
JULIA_LIBSUFFIX:=
ifeq (,$(findstring release,$(MAKECMDGOALS)))
ifneq (,$(findstring debug,$(MAKECMDGOALS)))
JULIA_BUILD_MODE := debug
JULIA_LIBSUFFIX:=-debug
endif
endif
JULIA_EXECUTABLE_debug := $(build_bindir)/julia-debug$(EXE)
JULIA_EXECUTABLE_release := $(build_bindir)/julia$(EXE)
JULIA_EXECUTABLE := $(JULIA_EXECUTABLE_$(JULIA_BUILD_MODE))
# Colors for make
ifndef VERBOSE
VERBOSE := 0
endif
WARNCOLOR:="\033[33;1m"
ENDCOLOR:="\033[0m"
ifeq ($(VERBOSE), 0)
QUIET_MAKE = -s
CCCOLOR:="\033[34m"
LINKCOLOR:="\033[34;1m"
PERLCOLOR:="\033[35m"
FLISPCOLOR:="\033[32m"
JULIACOLOR:="\033[32;1m"
SRCCOLOR:="\033[33m"
BINCOLOR:="\033[37;1m"
JULCOLOR:="\033[34;1m"
GOAL=$(subst ','\'',$(subst $(abspath $(JULIAHOME))/,,$(abspath $@)))
PRINT_CC = printf ' %b %b\n' $(CCCOLOR)CC$(ENDCOLOR) $(SRCCOLOR)$(GOAL)$(ENDCOLOR); $(1)
PRINT_LINK = printf ' %b %b\n' $(LINKCOLOR)LINK$(ENDCOLOR) $(BINCOLOR)$(GOAL)$(ENDCOLOR); $(1)
PRINT_PERL = printf ' %b %b\n' $(PERLCOLOR)PERL$(ENDCOLOR) $(BINCOLOR)$(GOAL)$(ENDCOLOR); $(1)
PRINT_FLISP = printf ' %b %b\n' $(FLISPCOLOR)FLISP$(ENDCOLOR) $(BINCOLOR)$(GOAL)$(ENDCOLOR); $(1)
PRINT_JULIA = printf ' %b %b\n' $(JULIACOLOR)JULIA$(ENDCOLOR) $(BINCOLOR)$(GOAL)$(ENDCOLOR); $(1)
else
QUIET_MAKE =
PRINT_CC = echo '$(subst ','\'',$(1))'; $(1)
PRINT_LINK = echo '$(subst ','\'',$(1))'; $(1)
PRINT_PERL = echo '$(subst ','\'',$(1))'; $(1)
PRINT_FLISP = echo '$(subst ','\'',$(1))'; $(1)
PRINT_JULIA = echo '$(subst ','\'',$(1))'; $(1)
endif
# Makefile debugging trick:
# call print-VARIABLE to see the runtime value of any variable
print-%:
@echo '$*=$($*)'