# -*-makefile-*- # @configure_input@ # ################################################################################ # # config.mk.in # # This file supplies defaults for many tweakable build configuration # options. Some of the defaults are filled in by the autoconf-generated # configure script. # # DO NOT EDIT THIS FILE! # # - config.mk is auto-generated from config.mk.in by configure. # If you edit config.mk your changes will be spammed. # # - Settings in this file may be overriden by giving replacement # definitions in build.mk. See build.mk.sample for a good # starting point for a build.mk file. # # If you don't have a build.mk file then you get defaults for everything. # The defaults should provide a reasonable vanilla build. # TOP: the top of the fptools hierarchy, absolute path. # On Windows this is a c:/foo/bar style path. TOP = @hardtop@ include $(TOP)/mk/project.mk # By default, be verbose V = 1 ################################################################################ # # Global configuration options # ################################################################################ NO_INCLUDE_DEPS = NO NO_INCLUDE_PKGDATA = NO ################################################################################ # # Variables that control how the compiler itself is built # ################################################################################ # The compiler used to build GHC is $(GHC). To change the actual compiler # used, re-configure with --with-ghc=<path-to-ghc>. # Extra option flags to pass to the compiler that compiles the compiler # (Ones that are essential are wired into compiler/Makefile) # Typical options to use here: # # -DDEBUG include debugging code and assertions (will make the # compiler slower and produce debugging output, but useful # for development) # # -dcore-lint check the types after every pass of the compiler; # a pretty strong internal check of the compiler being # used to compile GHC. Useful when bootstrapping. GhcHcOpts=-Rghc-timing # Extra options added to specific stages of the compiler bootstrap. # These are placed later on the command line, and may therefore # override options from $(GhcHcOpts). # # See Note [Stage number in build variables]. # # -haddock is needed so the GHCi :doc command can find docs # in the .hi-files for the ghc library GhcStage1HcOpts= GhcStage2HcOpts=-O2 -haddock GhcStage3HcOpts=-O2 -haddock # Note [Stage number in build variables]. # # There are (unfortunately) two different naming schemes for build variables # specific to a certain stage. # # * GhcStage1HcOpts/GhcStage2HcOpts/GhcStage3HcOpts: # # The stage number refers to the compiler stage being built (ghc library # and executable). # # * SRC_HC_OPTS_STAGE$4 and SRC_HC_WARNING_OPTS_STAGE$4: # # The stage number refers to the compiler stage the options are passed to. GhcDebugged=NO # GhcProfiled=YES means compile a profiled stage-2 compiler GhcProfiled=NO # WITH_TERMINFO can be used to disable terminfo support throughout the compiler # and its tools. This is handy in the case of cross-compilation, where we may # not have an ncurses build for the target. ifeq "$(TargetOS_CPP)" "ios" # iOS has no terminfo support WITH_TERMINFO=NO else ifeq "$(Windows_Target)" "YES" WITH_TERMINFO=NO else WITH_TERMINFO=YES endif ifeq "$(findstring $(TargetOS_CPP),linux freebsd dragonfly openbsd netbsd solaris2 kfreebsdgnu haiku linux-android)" "" TargetElf = NO else TargetElf = YES endif # Some platforms don't support shared libraries NoSharedLibsPlatformList = \ powerpc-ibm-aix \ x86_64-unknown-mingw32 \ i386-unknown-mingw32 ifeq "$(SOLARIS_BROKEN_SHLD)" "YES" NoSharedLibsPlatformList += i386-unknown-solaris2 endif PlatformSupportsSharedLibs = $(if $(filter $(TARGETPLATFORM),\ $(NoSharedLibsPlatformList)),NO,YES) # DYNAMIC_BY_DEFAULT says whether this compiler will default to # building dynamic executables, i.e. -dynamic is on. We do this for # most platforms because it lets us use the system dynamic linker # instead of our own linker for GHCi. # # Currently this isn't possible on Windows, and we have not yet enabled # it on i386 while we consider the performance implications. # ifeq "$(TargetOS_CPP)" "mingw32" DYNAMIC_BY_DEFAULT = NO else ifeq "$(TargetArch_CPP)" "i386" DYNAMIC_BY_DEFAULT = NO else DYNAMIC_BY_DEFAULT = YES endif # For now, we unconditionally disable dynamic-by-default, as the # cabal-install's that are in the wild don't handle it properly. DYNAMIC_BY_DEFAULT = NO # If building both v and dyn ways, then use -dynamic-too to build them. # This makes the build faster. DYNAMIC_TOO = YES # Use the dynamic way when building programs in the GHC tree. In # particular, this means that GHCi will use DLLs rather than loading # object files directly. ifeq "$(TargetOS_CPP)" "mingw32" # This doesn't work on Windows yet DYNAMIC_GHC_PROGRAMS = NO DYNAMIC_TOO=NO else ifeq "$(PlatformSupportsSharedLibs)" "NO" DYNAMIC_GHC_PROGRAMS = NO else DYNAMIC_GHC_PROGRAMS = YES endif # Build a compiler that will build *unregisterised* libraries and # binaries by default. Unregisterised code is supposed to compile and # run without any support for architecture-specific assembly mangling, # register assignment or tail-calls, and is therefore a good way to get # started when porting GHC to new architectures. # # NOTE: the stage1 compiler will be a registerised binary (assuming # the compiler you build with is generating registerised binaries), but # the stage2 compiler will be an unregisterised binary. # GhcUnregisterised=@Unregisterised@ # Build a compiler with a native code generator backend # (as well as a C backend) # # Target platforms supported: # i386, powerpc, powerpc64, sparc # IOS is not supported ArchSupportsNCG=$(strip $(patsubst $(TargetArch_CPP), YES, $(findstring $(TargetArch_CPP), i386 x86_64 powerpc powerpc64 powerpc64le sparc))) OsSupportsNCG=$(strip $(patsubst $(TargetOS_CPP), YES, $(patsubst ios,,$(TargetOS_CPP)))) GhcWithNativeCodeGen := $(strip\ $(if $(filter YESYESNO,\ $(OsSupportsNCG)$(ArchSupportsNCG)$(GhcUnregisterised)),YES,NO)) # ArchSupportsSMP should be set iff there is support for that arch in # includes/stg/SMP.h ifeq "$(TargetArch_CPP)" "arm" # We don't support load/store barriers pre-ARMv7. See #10433. ArchSupportsSMP=$(if $(filter $(ARM_ISA),ARMv5 ARMv6),NO,YES) else ArchSupportsSMP=$(strip $(patsubst $(TargetArch_CPP), YES, $(findstring $(TargetArch_CPP), i386 x86_64 sparc powerpc powerpc64 powerpc64le aarch64))) endif # The THREADED_RTS requires `BaseReg` to be in a register and the # `GhcUnregisterised` mode doesn't allow that. GhcWithSMP := $(strip $(if $(filter YESNO, $(ArchSupportsSMP)$(GhcUnregisterised)),YES,NO)) # Whether to include GHCi in the compiler. Depends on whether the RTS linker # has support for this OS/ARCH combination. OsSupportsGHCi=$(strip $(patsubst $(TargetOS_CPP), YES, $(findstring $(TargetOS_CPP), mingw32 linux solaris2 freebsd dragonfly netbsd openbsd darwin kfreebsdgnu))) ArchSupportsGHCi=$(strip $(patsubst $(TargetArch_CPP), YES, $(findstring $(TargetArch_CPP), i386 x86_64 powerpc powerpc64 powerpc64le sparc sparc64 arm aarch64))) ifeq "$(OsSupportsGHCi)$(ArchSupportsGHCi)" "YESYES" GhcWithInterpreter=YES else GhcWithInterpreter=$(if $(findstring YES,$(DYNAMIC_GHC_PROGRAMS)),YES,NO) endif # GhcEnableTablesNextToCode tells us whether the target architecture # supports placing info tables directly before the entry code # (see TABLES_NEXT_TO_CODE in the RTS). Whether we actually compile for # TABLES_NEXT_TO_CODE depends on whether we're building unregisterised # code or not, which may be decided by options to the compiler later. ifneq "$(findstring $(TargetArch_CPP)X, ia64X powerpc64X powerpc64leX)" "" GhcEnableTablesNextToCode=NO else GhcEnableTablesNextToCode=YES endif # Whether to use libffi for adjustors (foreign import "wrapper") or # not. If we have built-in support (rts/Adjustor.c) then we use that, # otherwise we fall back on libffi, which is slightly slower. ArchHasAdjustorSupport = $(if $(findstring $(TargetArch_CPP),i386 x86_64),YES,NO) ifeq "$(ArchHasAdjustorSupport)" "YES" UseLibFFIForAdjustors=NO else UseLibFFIForAdjustors=YES endif # On Windows we normally want to make a relocatable bindist, to we # ignore flags like libdir ifeq "$(Windows_Host)" "YES" RelocatableBuild = YES else RelocatableBuild = NO endif # needs to be after $(RelocatableBuild) is set above include $(TOP)/mk/install.mk # When building bindists we set this to yes so that the binaries are as # portable as possible. BeConservative = NO ExtraMakefileSanityChecks = NO #------------------------------------------------------------------------------ # Options for Libraries # Which directory (in libraries/) contains the integer library? INTEGER_LIBRARY=integer-gmp # We build the libraries at least the "vanilla" way (way "v") # Technically we don't need the v way if DYNAMIC_GHC_PROGRAMS is YES, # but with -dynamic-too it's cheap, and makes life easier. GhcLibWays = v # In addition to the normal sequential way, the default is to also build # profiled prelude libraries # $(if $(filter ...)) allows controlling this expression from build.mk. GhcLibWays += $(if $(filter $(BUILD_PROF_LIBS),NO),,p) # Backward compatibility: although it would be cleaner to test for # PlatformSupportsSharedLibs, or perhaps a new variable BUILD_SHARED_LIBS, # some users currently expect that DYNAMIC_GHC_PROGRAMS=NO in build.mk implies # that dyn is not added to GhcLibWays. GhcLibWays += $(if $(filter $(DYNAMIC_GHC_PROGRAMS),NO),,dyn) # Handy way to test whether we're building shared libs or not. BuildSharedLibs=$(strip $(if $(findstring dyn,$(GhcLibWays)),YES,NO)) # In addition, the RTS is built in some further variations. Ways that # make sense here: # # thr : threaded # thr_p : threaded + profiled + eventlog # debug : debugging + eventlog # thr_debug : debugging + threaded, + eventlog # l : eventlog # p : profiled + eventlog # thr_l : threaded + eventlog # # Note how there are a few cases which are handled specially (in packageHsLibs) # to reduce the number of distinct ways, # # debug implies eventlog # profiled implies eventlog # # This means, for instance, that there is no debug_l way. # GhcRTSWays=l # Usually want the debug version GhcRTSWays += debug # We always have the threaded versions, but note that SMP support may be disabled # (see GhcWithSMP). GhcRTSWays += thr thr_debug thr_l GhcRTSWays += $(if $(findstring p, $(GhcLibWays)),thr_p,) GhcRTSWays += $(if $(findstring dyn, $(GhcLibWays)),dyn debug_dyn thr_dyn thr_debug_dyn l_dyn thr_l_dyn,) GhcRTSWays += $(if $(findstring p, $(GhcLibWays)),thr_debug_p debug_p,) # We can only build GHCi threaded if we have a threaded RTS: GhcThreaded = $(if $(findstring thr,$(GhcRTSWays)),YES,NO) # Option flags to pass to GHC when it's compiling modules in # fptools/libraries. Typically these are things like -O or # -dcore-lint or -H32m. The ones that are *essential* are wired into # the build system. # # -O(2) is pretty desirable, otherwise no inlining of prelude # things (incl "+") happens when compiling with this compiler # # -haddock is needed so the GHCi :doc command can find the boot # library docs in the respective .hi-files GhcLibHcOpts=-O2 -haddock # Strip local symbols from libraries? This can make the libraries smaller, # but makes debugging somewhat more difficult. Doesn't work with all ld's. # StripLibraries=NO # ---------------------------------------------------------------------------- # Section splitting # # Similar to -ffunction-sections -fdata-sections in GCC. # # Set SplitSections=YES or NO in your build.mk to override the default. # # This is not supported on Darwin (where you can use subsections-via-symbols # instead) and Windows is disabled until we figure the linking performance # issues related to BFD out. (See #11445, #12913 and related tickets.) OsSupportsSplitSections=$(if $(filter $(TargetOS_CPP),darwin),NO,YES) SupportsSplitSections=$(if $(and $(filter YES,$(OsSupportsSplitSections)),\ $(filter YES,$(LdIsGNULd))),YES,NO) SplitSections ?= $(SupportsSplitSections) # ---------------------------------------------------------------------------- # There are a number of things which technically depend on GHC (e.g. if # ghc changes then Haskell files may be compiled differently, or Cabal # packages may be configured differently). By default we therefore # have dependencies on the compiler executable. # However, in practice, having a dependency on GHC is just a pain: We # normally don't want to spend time recompiling other things while # we're working on the compiler, and even if we did, GHC will normally # decide compilation isn't needed anyway. So by setting LAX_DEPENDENCIES # to YES you can turn these dependencies into order-only dependencies, # i.e. GHC must exist, but if it's newer than other targets then # rebuilding is not necessary. LAX_DEPENDENCIES = NO # ---------------------------------------------------------------------------- # Options for GHC's RTS # Build an optimised RTS. Remember that we need to turn on # optimisation both for C code (-optc-O2) and .cmm code (-O2). For # the debugging RTS flavour, rts/ghc.mk overrides these to turn off # optimisation. GhcRtsHcOpts=-O2 GhcRtsCcOpts=-O2 -fomit-frame-pointer -g # Configuration for libffi UseSystemLibFFI=@UseSystemLibFFI@ # Flags to go into package.conf for rts FFILibDir=@FFILibDir@ FFIIncludeDir=@FFIIncludeDir@ # GHC needs arch-specific tweak at least in # rts/Libdw.c:set_initial_registers() GhcRtsWithLibdw=$(strip $(if $(filter $(TargetArch_CPP),i386 x86_64),@UseLibdw@,NO)) ################################################################################ # # Paths (see paths.mk) # ################################################################################ BINDIST = NO BIN_DIST_NAME = ghc-$(ProjectVersion) BIN_DIST_PREP_DIR = bindistprep/$(BIN_DIST_NAME) BIN_DIST_PREP_TAR = bindistprep/$(BIN_DIST_NAME)-$(TARGETPLATFORM).tar BIN_DIST_PREP_TAR_COMP = $(BIN_DIST_PREP_TAR).$(TAR_COMP_EXT) BIN_DIST_TAR_COMP = $(BIN_DIST_NAME)-$(TARGETPLATFORM).tar.$(TAR_COMP_EXT) # ----------------------------------------------------------------------------- # Utilities programs: flags # If you want to give any standard flags to pretty much any utility # (see utils.mk for a complete list), by adding a line here # # SRC_P_OPTS += ... # # where P is the utility. For example, to add -O to all Haskell # compilations, # # SRC_HC_OPTS += -O # SRC_HC_OPTS includes flags to be added to *every* Haskell # compilation. Setting SRC_HC_OPTS is a good way to set the default # optimisation level (-O) and heap size (-H<size>). # # SRC_HC_OPTS is *not* for adding flags that are required to make your # build work. Examples: # # - instead of using -pgmc/-pgma-/-pgml, use the --with-gcc option to configure # # - if you need -optc, -opta, or -optl flags, the CONF_CC_* and CONF_LD_* # variables are more appropriate (set via configure) # # Note that SRC_HC_OPTS are added to every Haskell compilation, # including when using the bootstrapping compiler (stage 0), So don't # put options here that are only supported by very recent GHCs. # SRC_HC_OPTS += -H32m -O # See Note [Stage number in build variables]. SRC_HC_OPTS_STAGE0 = SRC_HC_OPTS_STAGE1 = SRC_HC_OPTS_STAGE2 = # Warning suppression flags. See mk/warnings.mk. SRC_CC_WARNING_OPTS = SRC_HC_WARNING_OPTS = # See Note [Stage number in build variables]. SRC_HC_WARNING_OPTS_STAGE0 = SRC_HC_WARNING_OPTS_STAGE1 = SRC_HC_WARNING_OPTS_STAGE2 = # ----------------------------------------------------------------------------- # Names of programs in the GHC tree MKDIRHIER = $(INPLACE_BIN)/mkdirhier GENERATED_FILE = chmod a-w EXECUTABLE_FILE = chmod +x #----------------------------------------------------------------------------- # Installed GHC # $(GHC) points to installed version of the compiler. # # NOTE: Don't override $(GHC) in build.mk, use configure --with-ghc instead # (because the version numbers have to be calculated). GHC := @WithGhc@ # If we have a make dependency on c:/ghc/ghc, and the file is actually # called c:/ghc/ghc.exe, then make will think that ghc doesn't exist # and that it doesn't know how to create it. ifneq "$(wildcard $(GHC).exe)" "" GHC := $(GHC).exe endif GHC_STAGE0 = $(GHC) GHC_STAGE1 = $(ghc-stage1_INPLACE) GHC_STAGE2 = $(ghc-stage2_INPLACE) GHC_STAGE3 = $(ghc-stage3_INPLACE) BOOTSTRAPPING_CONF = libraries/bootstrapping.conf INPLACE_PACKAGE_CONF = $(INPLACE_LIB)/package.conf.d GhcVersion = @GhcVersion@ GhcPatchLevel = @GhcPatchLevel@ GhcMajVersion = @GhcMajVersion@ GhcMinVersion = @GhcMinVersion@ # Canonicalised ghc version number, used for easy (integer) version # comparisons. We must expand $(GhcMinVersion) to two digits by # adding a leading zero if necessary: ifneq "$(findstring $(GhcMinVersion), 0 1 2 3 4 5 6 7 8 9)" "" GhcCanonVersion = $(GhcMajVersion)0$(GhcMinVersion) else GhcCanonVersion = $(GhcMajVersion)$(GhcMinVersion) endif GHC_PACKAGE_DB_FLAG = @GHC_PACKAGE_DB_FLAG@ #----------------------------------------------------------------------------- # C compiler # # NB. Don't override $(CC) using build.mk, re-configure using # the flag CC=<blah> instead. The reason is that the configure script # needs to know which gcc you're using in order to perform its tests. GccVersion = @GccVersion@ # TargetPlatformFull retains the string passed to configure so we have it in # the necessary format to pass to libffi's configure. TargetPlatformFull = @TargetPlatformFull@ GccLT46 = @GccLT46@ GccIsClang = @GccIsClang@ CC = @CC@ CC_STAGE0 = @CC_STAGE0@ CC_STAGE1 = $(CC) CC_STAGE2 = $(CC) CC_STAGE3 = $(CC) AS = @CC@ AS_STAGE0 = @CC_STAGE0@ AS_STAGE1 = $(AS) AS_STAGE2 = $(AS) AS_STAGE3 = $(AS) # why no LD=@LD@ ? LD_STAGE0 = @LD_STAGE0@ LD_STAGE1 = $(LD) LD_STAGE2 = $(LD) LD_STAGE3 = $(LD) # Cross-compiling options # See Note [CrossCompiling vs Stage1Only] CrossCompiling = @CrossCompiling@ # Change this to YES if you're building a cross-compiler and don't # want to build stage 2. # See Note [CrossCompiling vs Stage1Only] # See Note [Stage1Only vs stage=1] Stage1Only = NO # Installed tools prefix: # we add prefix to crosscompiler GHC only (ghc-stage1), # not cross-built GHC (not ghc-stage2). CrossCompilePrefix = $(if $(filter YES,$(Stage1Only)),@CrossCompilePrefix@,) # Install stage 2 by default, or stage 1 in the cross compiler # case. Can be changed to 3 INSTALL_GHC_STAGE= $(if $(filter YES,$(Stage1Only)),1,2) # Note [CrossCompiling vs Stage1Only] # # There are 4 possible settings: # # 1 CrossCompiling=NO Stage1Only=NO # The default. # # 2 CrossCompiling=NO Stage1Only=YES # Don't build ghc-stage2. See Note [Stage1Only vs stage=1]. # # 3 CrossCompiling=YES Stage1Only=YES # Building a cross-compiler (ghc-stage1). See [1] and # Note [Stage1Only vs stage=1]. # # 4 CrossCompiling=YES Stage1Only=NO # Cross-compiling GHC itself. See [1]. # # [1] https://ghc.haskell.org/trac/ghc/wiki/Building/CrossCompiling # Note [Stage1Only vs stage=1] # # Stage1Only=YES means: # - don't build ghc-stage2 (the executable) # - don't build utils that rely on ghc-stage2 # See Note [No stage2 packages when CrossCompiling or Stage1Only] in # ./ghc.mk. # - install ghc-stage1 instead of ghc-stage2 # - install the ghc-pkg that was built with the stage0 compiler # - (*do* still build compiler/stage2 (i.e. the ghc library)) # - (*do* still build all other libraries) # # stage=1 means: # - don't build compiler/stage2 (i.e. the ghc library) # - don't build ghc-stage2 (the executable) # Note: these are the only two things it does. If you want to exclude more # stuff, combine it with Stage1Only=YES, or run make in the ghc or compiler # directory. # # running make in the ghc or compiler directory means: # - don't build any packages in the libraries/ directory, except the ones # listed in PACKAGES_STAGE0 (i.e. the boot libraries) # # You may wonder why Stage1Only=YES still builds compiler/stage2. Quoting # simonmar in #7639: # # "strictly speaking building compiler/stage2 is correct, because it is # the ghc package that can be used with [ghc-stage1]. If you don't # want to build it, then setting stage=1 in your mk/build.mk should # disable it." # C compiler and linker flags from configure (e.g. -m<blah> to select # correct C compiler backend). The stage number is the stage of GHC # that is being used to compile with. CONF_CC_OPTS_STAGE0 = @CONF_CC_OPTS_STAGE0@ CONF_CC_OPTS_STAGE1 = @CONF_CC_OPTS_STAGE1@ CONF_CC_OPTS_STAGE2 = @CONF_CC_OPTS_STAGE2@ CONF_GCC_LINKER_OPTS_STAGE0 = @CONF_GCC_LINKER_OPTS_STAGE0@ CONF_GCC_LINKER_OPTS_STAGE1 = @CONF_GCC_LINKER_OPTS_STAGE1@ CONF_GCC_LINKER_OPTS_STAGE2 = @CONF_GCC_LINKER_OPTS_STAGE2@ CONF_LD_LINKER_OPTS_STAGE0 = @CONF_LD_LINKER_OPTS_STAGE0@ CONF_LD_LINKER_OPTS_STAGE1 = @CONF_LD_LINKER_OPTS_STAGE1@ CONF_LD_LINKER_OPTS_STAGE2 = @CONF_LD_LINKER_OPTS_STAGE2@ CONF_CPP_OPTS_STAGE0 = @CONF_CPP_OPTS_STAGE0@ CONF_CPP_OPTS_STAGE1 = @CONF_CPP_OPTS_STAGE1@ CONF_CPP_OPTS_STAGE2 = @CONF_CPP_OPTS_STAGE2@ CONF_HC_OPTS_STAGE0 = @CONF_HC_OPTS_STAGE0@ CONF_HC_OPTS_STAGE1 = @CONF_HC_OPTS_STAGE1@ CONF_HC_OPTS_STAGE2 = @CONF_HC_OPTS_STAGE2@ # The .hsc files aren't currently safe for cross-compilation on Windows: # libraries\haskeline\.\System\Console\Haskeline\Backend\Win32.hsc:160 # directive "let" is not safe for cross-compilation ifneq "$(Windows_Host)" "YES" SRC_HSC2HS_OPTS += --cross-safe endif SRC_HSC2HS_OPTS += $(foreach d,$(GMP_INCLUDE_DIRS),-I$(d)) define set_stage_HSC2HS_OPTS # $1 = stage SRC_HSC2HS_OPTS_STAGE$1 += $$(addprefix --cflag=,$$(filter-out -O,$$(SRC_CC_OPTS) $$(CONF_CC_OPTS_STAGE$1))) SRC_HSC2HS_OPTS_STAGE$1 += $$(addprefix --cflag=,$$(CONF_CPP_OPTS_STAGE$1)) SRC_HSC2HS_OPTS_STAGE$1 += $$(addprefix --lflag=,$$(CONF_GCC_LINKER_OPTS_STAGE$1)) endef $(eval $(call set_stage_HSC2HS_OPTS,0)) $(eval $(call set_stage_HSC2HS_OPTS,1)) $(eval $(call set_stage_HSC2HS_OPTS,2)) ifeq "$(CrossCompiling)" "YES" SRC_HSC2HS_OPTS_STAGE1 += --cross-compile SRC_HSC2HS_OPTS_STAGE2 += --cross-compile ifeq "$(Windows_Target)" "YES" # We'll assume we compile with gcc or clang, and both support `-S` and can as such use the # --via-asm pass, which should be faster and is required for cross compiling to windows, as # the c compiler complains about non-constant expressions even though they are constant and # end up as constants in the assembly. SRC_HSC2HS_OPTS_STAGE1 += --via-asm SRC_HSC2HS_OPTS_STAGE2 += --via-asm endif endif SRC_HSC2HS_OPTS_STAGE0 += --cflag=-D$(HostArch_CPP)_HOST_ARCH --cflag=-D$(HostOS_CPP)_HOST_OS SRC_HSC2HS_OPTS_STAGE1 += --cflag=-D$(TargetArch_CPP)_HOST_ARCH --cflag=-D$(TargetOS_CPP)_HOST_OS SRC_HSC2HS_OPTS_STAGE2 += --cflag=-D$(TargetArch_CPP)_HOST_ARCH --cflag=-D$(TargetOS_CPP)_HOST_OS ifeq "$(TARGETPLATFORM)" "i386-unknown-mingw32" WINDRES = $(INPLACE_MINGW)/bin/windres else ifeq "$(TARGETPLATFORM)" "x86_64-unknown-mingw32" WINDRES = $(INPLACE_MINGW)/bin/windres endif #----------------------------------------------------------------------------- # Mingwex Library # HaveLibMingwEx = @HaveLibMingwEx@ ifeq "$(TARGETPLATFORM)" "i386-unknown-mingw32" DLLTOOL = inplace/mingw/bin/dlltool.exe else ifeq "$(TARGETPLATFORM)" "x86_64-unknown-mingw32" DLLTOOL = inplace/mingw/bin/dlltool.exe endif #----------------------------------------------------------------------------- # Other standard (ha!) Unix utilities AR = @ArCmd@ AR_OPTS = @ArArgs@ ArSupportsAtFile = @ArSupportsAtFile@ AR_STAGE0 = @AR_STAGE0@ AR_STAGE1 = $(AR) AR_STAGE2 = $(AR) AR_STAGE3 = $(AR) AR_OPTS_STAGE0 = @AR_OPTS_STAGE0@ AR_OPTS_STAGE1 = $(AR_OPTS) AR_OPTS_STAGE2 = $(AR_OPTS) AR_OPTS_STAGE3 = $(AR_OPTS) EXTRA_AR_ARGS_STAGE0 = $(EXTRA_AR_ARGS) EXTRA_AR_ARGS_STAGE1 = $(EXTRA_AR_ARGS) EXTRA_AR_ARGS_STAGE2 = $(EXTRA_AR_ARGS) EXTRA_AR_ARGS_STAGE3 = $(EXTRA_AR_ARGS) ArSupportsAtFile_STAGE0 = @ArSupportsAtFile_STAGE0@ ArSupportsAtFile_STAGE1 = $(ArSupportsAtFile) ArSupportsAtFile_STAGE2 = $(ArSupportsAtFile) ArSupportsAtFile_STAGE3 = $(ArSupportsAtFile) CONTEXT_DIFF = @ContextDiffCmd@ CP = cp # It's not easy to separate the CPP program from its flags, as # AC_PROG_CPP defines CPP as "/usr/bin/gcc -E" CPP = @CPP@ @CPPFLAGS@ HS_CPP = @HaskellCPPCmd@ @HaskellCPPArgs@ FIND = @FindCmd@ # # Sigh - the autoconf macro for INSTALL will subst a relative path to the fallback # install-sh script (if chosen). This not terribly useful to us, so we convert # it into an abs. path. # INSTALL = @INSTALL@ INSTALL := $(subst .././install-sh,$(TOP)/install-sh,$(INSTALL)) LN_S = @LN_S@ MV = mv PERL = @PerlCmd@ PIC = pic RANLIB_CMD = @RANLIB_CMD@ REAL_RANLIB_CMD = @REAL_RANLIB_CMD@ SED = @SedCmd@ SHELL = @SHELL@ HaveDtrace = @HaveDtrace@ USE_DTRACE = $(HaveDtrace) DTRACE = @DtraceCmd@ LD_NO_GOLD = @LdNoGoldCmd@ LD = @LdCmd@ NM = @NmCmd@ AR = @ArCmd@ OBJDUMP = @ObjdumpCmd@ CLANG = @ClangCmd@ LLC = @LlcCmd@ OPT = @OptCmd@ # GNU ld supports input via a linker script, which is useful to avoid # overflowing command-line length limits. LdIsGNULd = @LdIsGNULd@ # Set to YES if ld has the --build-id flag. Sometimes we need to # disable it with --build-id=none. LdHasBuildId = @LdHasBuildId@ # Set to YES if ld has the --no_compact_unwind flag. See #5019 # and compiler/main/DriverPipeline.hs. LdHasNoCompactUnwind = @LdHasNoCompactUnwind@ # On MSYS, building with SplitObjs=YES fails with # ar: Bad file number # see #3201. We need to specify a smaller max command-line size # to work around it. 32767 doesn't work; 30000 does, but says # xargs: value for -s option should be < 28153 # so we now use 20000 to be comfortably below this bound XARGS = xargs ifeq "$(Windows_Host)" "YES" XARGS_OPTS = -s 20000 endif ifeq "$(TARGETPLATFORM)" "x86_64-unknown-mingw32" STRIP_CMD = $(TOP)/inplace/mingw/bin/strip.exe else ifeq "$(TARGETPLATFORM)" "arm-unknown-linux" # The Cortex A8 hardware apparently has a bug which ld.gold will check for; # however in order to do so it must have unstripped executables lest we # see warnings of the form (see #10376, #10464), # # /usr/bin/ld.gold: warning: cannot scan executable section 1 of ... for # Cortex-A8 erratum because it has no mapping symbols. # # Consequently we disabling stripping by default on this architecture. # The hack of using `:` to disable stripping is implemented by ghc-cabal. STRIP_CMD = : else STRIP_CMD = @StripCmd@ endif PATCH_CMD = @PatchCmd@ TAR_CMD = @TarCmd@ BZIP2_CMD = @Bzip2Cmd@ GZIP_CMD = @GzipCmd@ XZ_CMD = @XzCmd@ # xz is default compression TAR_COMP ?= xz # select compression command and .tar extension based on TAR_COMP value ifeq "$(TAR_COMP)" "bzip2" TAR_COMP_CMD = $(BZIP2_CMD) $(TAR_COMP_OPTS) TAR_COMP_EXT = bz2 else ifeq "$(TAR_COMP)" "gzip" TAR_COMP_CMD = $(GZIP_CMD) $(TAR_COMP_OPTS) TAR_COMP_EXT = gz else ifeq "$(TAR_COMP)" "xz" TAR_COMP_CMD = $(XZ_CMD) $(TAR_COMP_OPTS) TAR_COMP_EXT = xz else $(error $$(TAR_COMP) set to unknown value "$(TAR_COMP)" (supported: "bzip2", "gzip", "xz")) endif ifeq "$(Windows_Host)" "YES" TOUCH_CMD = $(utils/touchy_dist_INPLACE) TOUCH_DEP = $(TOUCH_CMD) else TOUCH_CMD = touch TOUCH_DEP = endif HSCOLOUR_CMD = @HSCOLOUR@ TIME_CMD = @TimeCmd@ #----------------------------------------------------------------------------- # Sphinx stuff SPHINXBUILD = @SPHINXBUILD@ BUILD_MAN = @BUILD_MAN@ BUILD_SPHINX_HTML = @BUILD_SPHINX_HTML@ BUILD_SPHINX_PDF = @BUILD_SPHINX_PDF@ SPHINXOPTS = -D latex_paper_size=letter XELATEX = @XELATEX@ #----------------------------------------------------------------------------- # FPtools support software # # ghc-pkg # GHC_PKG = @GhcPkgCmd@ # # Happy # HAPPY = @HappyCmd@ HAPPY_VERSION = @HappyVersion@ # # Options to pass to Happy when we're going to compile the output with GHC # # TODO (int-index): restore the -c option when happy/pull/134 is merged. SRC_HAPPY_OPTS = -ag --strict # # Alex # ALEX = @AlexCmd@ ALEX_VERSION = @AlexVersion@ # # Options to pass to Alex when we're going to compile the output with GHC # SRC_ALEX_OPTS = -g # The compiler isn't using the Unicode support in Alex 3.0 yet, in fact we do our own # Unicode handling, so diable Alex's. compiler_ALEX_OPTS = --latin1 # Should we build haddock docs? HADDOCK_DOCS = YES # And HsColour the sources? ifeq "$(HSCOLOUR_CMD)" "" HSCOLOUR_SRCS = NO else HSCOLOUR_SRCS = YES endif # Build and install the "extra" packages (see ./packages)? BUILD_EXTRA_PKGS = NO ################################################################################ # # Library configure arguments # ################################################################################ CONFIGURE_ARGS = @CONFIGURE_ARGS@ ################################################################################ # # To be passed to sub-builds # ################################################################################ ICONV_INCLUDE_DIRS = @ICONV_INCLUDE_DIRS@ ICONV_LIB_DIRS = @ICONV_LIB_DIRS@ GMP_INCLUDE_DIRS = @GMP_INCLUDE_DIRS@ GMP_LIB_DIRS = @GMP_LIB_DIRS@ GMP_PREFER_FRAMEWORK = @GMP_PREFER_FRAMEWORK@ GMP_FORCE_INTREE = @GMP_FORCE_INTREE@ CURSES_LIB_DIRS = @CURSES_LIB_DIRS@ # See Note [Disable -O2 in unregisterised mode] # Be careful: 'GhcUnregisterised' should be defined earlier in this file. ifeq "$(GhcUnregisterised)" "YES" GhcStage1HcOpts= GhcStage2HcOpts= GhcStage3HcOpts= GhcLibHcOpts= endif # Note [Disable -O2 in unregisterised mode] # Disable -O2 optimization in unregisterised mode. Otherwise amount # of generated C code # makes things very slow to compile (~5 minutes # on core-i7 for 'compiler/hsSyn/HsExpr.hs') and sometimes not compile # at all: powerpc64 overflows TOC section on 'compiler/hsSyn/HsExpr.hs' # ia64 overflows short data section on 'compiler/main/DynFlags.hs'