config.mk.in

#								 -*-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.
#	  This may be triggered automatically by the build system (say
#	  if config.mk.in has changed more recently than config.mk),
#	  so 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.
#
# This is one of only two files that configure generates (the other is config.h)
#

ifneq "$(findstring 3.7, $(MAKE_VERSION))" ""
ifeq "$(findstring 3.79.1, $(MAKE_VERSION))" ""
$(error GNU make version 3.79.1 or later is required.)
endif
endif

################################################################################
#
# GHC Version
#

# ProjectVersion    is treated as a *string*
# ProjectVersionInt is treated as an *integer* (for cpp defines)

# Versioning scheme: A.B.C
#         A: major version, decimal, any number of digits
#         B: minor version, decimal, any number of digits
#	  C: patchlevel, one digit, omitted if zero.
#
# ProjectVersionInt does *not* contain the patchlevel (rationale: this
# figure is used for conditional compilations, and library interfaces
# etc. are not supposed to change between patchlevels).
#
# The ProjectVersionInt is included in interface files, and GHC
# checks that it's reading interface generated by the same ProjectVersion
# as itself. It does this even though interface file syntax may not 
# change between versions.  Rationale: calling conventions or other 
# random .o-file stuff might change even if the .hi syntax doesn't

ProjectName       = @ProjectName@
ProjectVersion    = @ProjectVersion@
ProjectVersionInt = @ProjectVersionInt@
ProjectPatchLevel = @ProjectPatchLevel@

################################################################################
#
#		Platform variables
#
################################################################################

# A "platform" is the GNU cpu-type/manufacturer/operating-system target machine
# specifier.  E.g. sparc-sun-solaris2
#
# Build  platform: the platform on which we are doing this build
# Host   platform: the platform on which these binaries will run
# Target platform: the platform for which this compiler will generate code
#
# We don't support build & host being different, because the build
# process creates binaries that are run during the build, and also
# installed.
#
# If host & target are different, then we are building a compiler
# which will generate intermediate .hc files to port to the target
# architecture for bootstrapping.  The libraries and stage 2 compiler
# will be built as HC files for the target system, and likely won't
# build on this host platform.
#
# An important invariant is that for any piece of source code, the
# platform on which the code is going to run is the HOST platform,
# and the platform on which we are building is the BUILD platform.
# Additionally for the compiler, the platform this compiler will
# generate code for is the TARGET.  TARGET is not meaningful outside
# the compiler sources.
#
# Guidelines for when to use HOST vs. TARGET:
#
#  - In the build system (Makefile, foo.mk), normally we should test
#    $(HOSTPLATFORM).  There are some cases (eg. installation), where
#    we expect $(HOSTPLATFORM)==$(TARGETPLATFORM), so in those cases it
#    doesn't matter which is used.
#
#  - In the compiler itself, we should test HOST or TARGET depending
#    on whether the conditional relates to the code being generated, or
#    the platform on which the compiler is running.  See the section
#    on "Coding Style" in the commentary for more details.
#
#  - In all other code, we should be testing HOST only.
#
# NOTE: cross-compiling is not well supported by the build system.
# You have to do a lot of work by hand to cross compile: see the
# section on "Porting GHC" in the Building Guide.

HOSTPLATFORM			= @HostPlatform@
TARGETPLATFORM			= @TargetPlatform@
BUILDPLATFORM			= @BuildPlatform@

# Hack alert:
# in one or two places, we need to get at the OS version (major and
# perhaps even minor), HostOS_Full is the OS name reported by
# AC_CANONICAL_SYSTEM.
#
HostPlatform_CPP		= @HostPlatform_CPP@
HostArch_CPP			= @HostArch_CPP@
HostOS_CPP			= @HostOS_CPP@
HostOS_Full			= @HostOS_Full@
HostVendor_CPP	                = @HostVendor_CPP@

TargetPlatform_CPP		= @TargetPlatform_CPP@
TargetArch_CPP			= @TargetArch_CPP@
TargetOS_CPP			= @TargetOS_CPP@
TargetVendor_CPP                = @TargetVendor_CPP@

BuildPlatform_CPP		= @BuildPlatform_CPP@
BuildArch_CPP			= @BuildArch_CPP@
BuildOS_CPP			= @BuildOS_CPP@
BuildVendor_CPP                 = @BuildVendor_CPP@

@HostPlatform_CPP@_HOST           = 1
@TargetPlatform_CPP@_TARGET       = 1
@BuildPlatform_CPP@_BUILD         = 1

@HostArch_CPP@_HOST_ARCH          = 1
@TargetArch_CPP@_TARGET_ARCH      = 1
@BuildArch_CPP@_BUILD_ARCH        = 1

@HostOS_CPP@_HOST_OS              = 1
@TargetOS_CPP@_TARGET_OS          = 1
@BuildOS_CPP@_BUILD_OS            = 1

@HostVendor_CPP@_HOST_VENDOR      = 1
@TargetVendor_CPP@_TARGET_VENDOR  = 1
@BuildVendor_CPP@_BUILD_VENDOR    = 1

################################################################################
#
#		Global configuration options
#
################################################################################

# Leading underscores on symbol names in object files
# Valid options: YES/NO
#
LeadingUnderscore=@LeadingUnderscore@

# Pin a suffix on executables? If so, what (Windows only).
exeext=@exeext@

# Windows=YES if on a Windows platform
ifneq "$(findstring $(HostOS_CPP), mingw32 cygwin32)" ""
Windows=YES
else
Windows=NO
endif

# BootingFromHc - build GHC and the libraries from .hc files?
BootingFromHc = @BootingFromHc@

# BootingFromUnregisterisedHc - treat .hc files as containing unregisterised
# rather than registerised code, i.e., disable the mangler?
BootingFromUnregisterisedHc = @BootingFromUnregisterisedHc@

#
# Which ways should DocBook XML documents be built?
# options are: dvi ps pdf html chm HxS
#
XMLDocWays=

################################################################################
#
# 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 ways in which to build the compiler (for example, you might want to
# build a profiled compiler so you can see where it spends its time)
GhcCompilerWays=

# 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).
GhcStage1HcOpts=
GhcStage2HcOpts=
GhcStage3HcOpts=

# 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.
#
# If this is set to NO, you can still use the unregisterised way
# (way 'u') to get unregisterised code, but the default way will be
# registerised.
#
# 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.
#
ifneq "$(findstring $(HostArch_CPP), alpha hppa)" ""
GhcUnregisterised=YES
else
GhcUnregisterised=NO
endif

# Build a compiler with a native code generator backend
# (as well as a C backend)
#
# Target platforms supported:
#   i386, powerpc
#   sparc has bitrotted
#   AIX is not supported 
ArchSupportsNCG=$(strip $(patsubst $(HostArch_CPP), YES, $(findstring $(HostArch_CPP), i386 x86_64 powerpc)))
OsSupportsNCG=$(strip $(patsubst $(HostOS_CPP), YES, $(patsubst aix,,$(HostOS_CPP))))

ifeq "$(OsSupportsNCG)$(ArchSupportsNCG)$(GhcUnregisterised)" "YESYESNO"
GhcWithNativeCodeGen=YES
else
GhcWithNativeCodeGen=NO
endif

# Include support for generating Java
GhcWithJavaGen=NO

HaveLibDL = @HaveLibDL@

# ArchSupportsSMP should be set iff there is support for that arch in
# includes/SMP.h
ArchSupportsSMP=$(strip $(patsubst $(HostArch_CPP), YES, $(findstring $(HostArch_CPP), i386 x86_64 sparc powerpc)))

ifeq "$(ArchSupportsSMP)$(GhcUnregisterised)" "YESNO"
GhcWithSMP=YES
else
GhcWithSMP=NO
endif

# Whether to include GHCi in the compiler.  Depends on whether the RTS linker
# has support for this OS/ARCH combination.

OsSupportsGHCi=$(strip $(patsubst $(HostOS_CPP), YES, $(findstring $(HostOS_CPP), mingw32 cygwin32 linux solaris2 freebsd netbsd openbsd darwin)))
ArchSupportsGHCi=$(strip $(patsubst $(HostArch_CPP), YES, $(findstring $(HostArch_CPP), i386 x86_64 powerpc sparc sparc64)))

ifeq "$(OsSupportsGHCi)$(ArchSupportsGHCi)" "YESYES"
GhcWithInterpreter=YES
else 
GhcWithInterpreter=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)" ""
GhcEnableTablesNextToCode=NO
else
GhcEnableTablesNextToCode=YES
endif

#
# Building various ways?
# (right now, empty if not).
BuildingParallel=$(subst mp,YES,$(filter mp,$(WAYS)))
BuildingGranSim=$(subst mg,YES,$(filter mg,$(WAYS)))

# Interface file version (hi-boot files only)
#
# A GHC built with HscIfaceFileVersion=n will look for 
#	M.hi-boot-n, and only then for 
#	M.hi-boot.
# (It'll be happy with the latter if the former doesn't exist.)
#
#
# This variable is used ONLY for hi-boot files.  Its only purpose is
# to allow you to have a single directory with multiple .hi-boot files
# for the same module, each corresponding to a different version of
# GHC.
#
# HscIfaceFileVersion is propagated to hsc via
# compiler/main/Config.hs, which is automatically generated by
# compiler/Makefile.

HscIfaceFileVersion=6

# Building with debugger?
GhciWithDebugger=YES

#------------------------------------------------------------------------------
# Options for Libraries

# What extra ways to build the libraries in
# In addition to the normal sequential way, the default is to also build
# profiled prelude libraries.
# When booting from .hc files, turn this off.
ifeq "$(BootingFromHc)" "YES"
GhcLibWays=
else
GhcLibWays=p
endif

# In addition, the RTS is built in some further variations.  Ways that
# make sense here:
# 
#   thr         : threaded
#   thr_p       : threaded profiled
#   debug       : debugging (compile with -g for the C compiler, and -DDEBUG)
#   debug_p     : debugging profiled
#   debug_u     : debugging unregisterised
#   thr_debug   : debugging threaded
#   thr_debug_p : debugging threaded profiled
#
ifeq "$(BootingFromHc)" "YES"
GhcRTSWays=
else
GhcRTSWays=thr thr_p debug thr_debug
endif

# 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 is pretty desirable, otherwise no inlining of prelude
#		things (incl "+") happens when compiling with this compiler
#
#	-fgenerics switches on generation of support code for 
#		derivable type classes.  This is now off by default,
#		but we switch it on for the libraries so that we generate
#		the code in case someone importing wants it

GhcLibHcOpts=-O -Rghc-timing -fgenerics

# Win32 only: Enable the RTS and libraries to be built as DLLs
DLLized=@EnableWin32DLLs@

# 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

# These are the URL patterns that Haddock uses to generate the "Source
# File" links on each page.
CorePackageSourceURL = http://darcs.haskell.org/ghc-6.6/packages/$(PACKAGE)/%{FILE}
ExtraPackageSourceURL = http://darcs.haskell.org/packages/$(PACKAGE)/%{FILE}

# These are the packages required to be present in order to bootstrap GHC
# NB. must be synced with libraries/core-packages
CorePackages = base Cabal haskell98 readline regex-base regex-compat \
	       regex-posix parsec stm template-haskell unix Win32

# ----------------------------------------------------------------------------
# Object-file splitting
#
# 	Set SplitObjs=YES or NO in your build.mk
#
#	Don't use -split-objs in in GhcLibHcOpts, because the build
#		system needs to do other special magic if you are
#		doing object-file splitting
ifneq "$(findstring $(HostArch_CPP), i386 x86_64 powerpc sparc)" ""
SplitObjs=YES
else
SplitObjs=NO
endif

# Don't split object files for libs if we're building DLLs, or booting from
# .hc files.
ifeq "$(DLLized)" "YES"
SplitObjs=NO
endif
ifeq "$(BootingFromHc)" "YES"
SplitObjs=NO
endif
ifeq "$(GhcUnregisterised)" "YES"
SplitObjs=NO
endif
ifeq "$(TargetArch_CPP)" "ia64"
SplitObjs=NO
endif

# Math library
LIBM=@LIBM@

# Build the ObjectIO ?
#
GhcLibsWithObjectIO=@GhcLibsWithObjectIO@

# .NET interop support?
#
DotnetSupport=@DotnetSupport@

# Build unix package?
#
GhcLibsWithUnix=@GhcLibsWithUnix@

# ----------------------------------------------------------------------------
# Options for GHC's RTS

# For an optimised RTS (you probably don't want to change these; we build
# a debugging RTS by default now.  Use -debug to get it).
GhcRtsHcOpts=-optc-O2
GhcRtsCcOpts=-fomit-frame-pointer

# Include the front panel code?  Needs GTK+.
GhcRtsWithFrontPanel = NO

# Include support for CPU performance counters via the PAPI library in the RTS?
# (PAPI: http://icl.cs.utk.edu/papi/)
GhcRtsWithPapi = NO
HavePapi = @HavePapi@

################################################################################
#
#		nofib
#
# 	nofib specific options
#
################################################################################

WithNofibHc = $(GHC_INPLACE)

# NoFibSubDirs controls which set of tests should be run
# You can run one or more of
#	imaginary 
#	spectral
#	real
#	parallel
#	PRIVATE
#	PENDING
#	UNUSED
NoFibSubDirs = imaginary spectral real

# The different ways to build nofib. Default is just to mirror
# what is done for the ghc prelude libraries.
#
NoFibWays = $(GhcLibWays)

# Haskell compiler options for nofib
NoFibHcOpts = -O

# Number of times to run each program
NoFibRuns = 5

################################################################################
#
#		Paths (see paths.mk)
#
################################################################################

# Directory used by GHC (and possibly other tools) for storing
# temporary files.  If your TMPDIR isn't big enough, either override
# this in build.mk or set your environment variable "TMPDIR" to point
# to somewhere with more space.  (TMPDIR=. is a good choice).

# DEFAULT_TMPDIR isn't called TMPDIR because GNU make tends to
# override an environment variable with the value of the make variable
# of the same name (if it exists) when executing sub-processes, so
# setting the TMPDIR env var would have no effect in the build tree.

DEFAULT_TMPDIR		= /tmp
ifeq "$(TARGETPLATFORM)" "i386-unknown-cygwin32"
DEFAULT_TMPDIR		= /C/TEMP
endif
ifeq "$(TARGETPLATFORM)" "i386-unknown-mingw32"
DEFAULT_TMPDIR		= /C/TEMP
endif

# FPTOOLS_TOP: the top of the fptools hierarchy, absolute path. (POSIX / unix-style path).
FPTOOLS_TOP_ABS		= @hardtop@
# The platform specific version of 'hardtop'.
FPTOOLS_TOP_ABS_PLATFORM = @hardtop_plat@

#
# Installation directories, we don't use half of these,
# but since the configure script has them on offer while
# passing through, we might as well set them.

prefix			= @prefix@
exec_prefix		= @exec_prefix@
bindir			= @bindir@
datadir0		= @datadir@
libdir0			= @libdir@
includedir		= @includedir@
oldincludedir		= @oldincludedir@
mandir			= @mandir@

ifeq "$(Windows)" "YES"

ifeq "$(strip $(prefix))" ""
prefix		= /c/ghc
endif

# Hack: our directory layouts tend to be different on Windows, so
# hack around configure's bogus assumptions here.
datadir 	= $(prefix)
libdir		= $(prefix)

else

#
# Unix: override libdir and datadir to put ghc-specific stuff in
# a subdirectory with the version number included.
#
libdir     = $(libdir0)/ghc-$(ProjectVersion)
datadir    = $(datadir0)/ghc-$(ProjectVersion)

endif # Windows

# Default place for putting interface files is $(libdir)
# (overriden for packages in package.mk)
ifacedir		= $(libdir)

# 
# Default values for most of the above are only set if
# they weren't configured to anything in particular
# via the configure script. (i.e., we make no assumption
# that the autoconf-generated script will assign defaults
# to all of the above).
#
ifeq "$(strip $(exec_prefix))" ""
exec_prefix		= $(prefix)
endif
ifeq "$(strip $(bindir))" ""
bindir			= $(exec_prefix)/bin
endif

#
# NOTE: by intention, libexecdir and libdir point to 
# the same place.
#  => Only way to override this is to set libexecdir= on the command line.
#     (NOTE: configure script setting is ignored).
libexecdir		= $(libdir)

ifeq "$(strip $(datadir))" ""
datadir		= $(prefix)/share
endif
ifeq "$(strip $(libdir))" ""
libdir		= $(exec_prefix)/lib
endif
ifeq "$(strip $(includedir))" ""
includedir	= $(prefix)/include
endif
ifeq "$(strip $(oldincludedir))" ""
oldincludedir	= /usr/include
endif
ifeq "$(strip $(mandir))" ""
mandir		= $(prefix)/man
endif

#-----------------------------------------------------------------------------
# install configuration

#
# Set this to have files installed with a specific owner
#
INSTALL_OWNER =

# 
# Set this to have files installed with a specific group
#
INSTALL_GROUP =

#
# Invocations of `install' for the four different classes
# of targets:
#
INSTALL_PROGRAM = $(INSTALL) -m 755
INSTALL_SCRIPT  = $(INSTALL) -m 755
INSTALL_SHLIB   = $(INSTALL) -m 755
INSTALL_DATA    = $(INSTALL) -m 644
INSTALL_MAN     = $(INSTALL) -m 644
INSTALL_DIR     = $(MKDIRHIER)

# -----------------------------------------------------------------------------
# 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 += -H16m -O

# These flags make flex 8-bit
SRC_FLEX_OPTS	+= -8

SRC_INSTALL_BIN_OPTS	+= -s

# lint gets all CPP's flags too
SRC_LINT_OPTS		+= -axz -DLINT $(SRC_CPP_OPTS)
WAY$(_way)_LINT_OPTS	+= WAY$(_way)_CPP_OPTS

# Default fptools options for dllwrap.
SRC_BLD_DLL_OPTS += -mno-cygwin --target=i386-mingw32

# Flags for CPP when running GreenCard on .pgc files
GC_CPP_OPTS += -P -E -x c -traditional -D__GLASGOW_HASKELL__


################################################################################
#
#	Layout of the source tree
#
################################################################################

# Here we provide defines for the various directories in the source tree,
# so we can move things around more easily.  A define $(GHC_FOO_DIR_REL)
# indicates a directory relative to the top of the source tree, whereas
# $(GHC_FOO_DIR) is a directory relative to the current directory.
# $(GHC_FOO_DIR_ABS) is the absolute path to the directory.

GHC_UTILS_DIR_REL	= utils
GHC_INCLUDE_DIR_REL	= includes
GHC_COMPILER_DIR_REL	= compiler
GHC_RTS_DIR_REL	   	= rts
GHC_UTILS_DIR_REL 	= utils
GHC_DRIVER_DIR_REL	= driver
GHC_COMPAT_DIR_REL	= compat

GHC_MKDEPENDC_DIR_REL	= $(GHC_UTILS_DIR_REL)/mkdependC
GHC_LTX_DIR_REL		= $(GHC_UTILS_DIR_REL)/ltx
GHC_RUNTEST_DIR_REL	= $(GHC_UTILS_DIR_REL)/runstdtest
GHC_LNDIR_DIR_REL	= $(GHC_UTILS_DIR_REL)/lndir
GHC_MKDIRHIER_DIR_REL	= $(GHC_UTILS_DIR_REL)/mkdirhier
GHC_DOCBOOK_DIR_REL	= $(GHC_UTILS_DIR_REL)/docbook
GHC_UNLIT_DIR_REL    	= $(GHC_UTILS_DIR_REL)/unlit
GHC_HP2PS_DIR_REL	= $(GHC_UTILS_DIR_REL)/hp2ps
GHC_HSTAGS_DIR_REL	= $(GHC_UTILS_DIR_REL)/hasktags
GHC_HSC2HS_DIR_REL	= $(GHC_UTILS_DIR_REL)/hsc2hs
GHC_TOUCHY_DIR_REL	= $(GHC_UTILS_DIR_REL)/touchy
GHC_PKG_DIR_REL		= $(GHC_UTILS_DIR_REL)/ghc-pkg
GHC_GENPRIMOP_DIR_REL	= $(GHC_UTILS_DIR_REL)/genprimopcode
GHC_GENAPPLY_DIR_REL	= $(GHC_UTILS_DIR_REL)/genapply

GHC_MANGLER_DIR_REL	= $(GHC_DRIVER_DIR_REL)/mangler
GHC_SPLIT_DIR_REL	= $(GHC_DRIVER_DIR_REL)/split
GHC_SYSMAN_DIR_REL	= $(GHC_RTS_DIR_REL)/parallel

GHC_UTILS_DIR		= $(FPTOOLS_TOP)/$(GHC_UTILS_DIR_REL)
GHC_INCLUDE_DIR	  	= $(FPTOOLS_TOP)/$(GHC_INCLUDE_DIR_REL)
GHC_COMPILER_DIR	= $(FPTOOLS_TOP)/$(GHC_COMPILER_DIR_REL)
GHC_RTS_DIR	   	= $(FPTOOLS_TOP)/$(GHC_RTS_DIR_REL)
GHC_UTILS_DIR 		= $(FPTOOLS_TOP)/$(GHC_UTILS_DIR_REL)
GHC_DRIVER_DIR		= $(FPTOOLS_TOP)/$(GHC_DRIVER_DIR_REL)
GHC_COMPAT_DIR		= $(FPTOOLS_TOP)/$(GHC_COMPAT_DIR_REL)

GHC_MKDEPENDC_DIR	= $(FPTOOLS_TOP)/$(GHC_MKDEPENDC_DIR_REL)
GHC_LTX_DIR		= $(FPTOOLS_TOP)/$(GHC_LTX_DIR_REL)
GHC_RUNTEST_DIR		= $(FPTOOLS_TOP)/$(GHC_RUNTEST_DIR_REL)
GHC_LNDIR_DIR		= $(FPTOOLS_TOP)/$(GHC_LNDIR_DIR_REL)
GHC_MKDIRHIER_DIR	= $(FPTOOLS_TOP)/$(GHC_MKDIRHIER_DIR_REL)
GHC_DOCBOOK_DIR		= $(FPTOOLS_TOP)/$(GHC_DOCBOOK_DIR_REL)
GHC_UNLIT_DIR    	= $(FPTOOLS_TOP)/$(GHC_UNLIT_DIR_REL)
GHC_HP2PS_DIR		= $(FPTOOLS_TOP)/$(GHC_HP2PS_DIR_REL)
GHC_HSTAGS_DIR		= $(FPTOOLS_TOP)/$(GHC_HSTAGS_DIR_REL)
GHC_HSC2HS_DIR		= $(FPTOOLS_TOP)/$(GHC_HSC2HS_DIR_REL)
GHC_TOUCHY_DIR		= $(FPTOOLS_TOP)/$(GHC_TOUCHY_DIR_REL)
GHC_PKG_DIR		= $(FPTOOLS_TOP)/$(GHC_PKG_DIR_REL)
GHC_GENPRIMOP_DIR	= $(FPTOOLS_TOP)/$(GHC_GENPRIMOP_DIR_REL)
GHC_GENAPPLY_DIR	= $(FPTOOLS_TOP)/$(GHC_GENAPPLY_DIR_REL)

GHC_MANGLER_DIR		= $(FPTOOLS_TOP)/$(GHC_MANGLER_DIR_REL)
GHC_SPLIT_DIR		= $(FPTOOLS_TOP)/$(GHC_SPLIT_DIR_REL)
GHC_SYSMAN_DIR		= $(FPTOOLS_TOP)/$(GHC_SYSMAN_DIR_REL)

GHC_UTILS_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_UTILS_DIR_REL)
GHC_INCLUDE_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_INCLUDE_DIR_REL)
GHC_COMPILER_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_COMPILER_DIR_REL)
GHC_RTS_DIR_ABS	   	= $(FPTOOLS_TOP_ABS)/$(GHC_RTS_DIR_REL)
GHC_UTILS_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_UTILS_DIR_REL)
GHC_DRIVER_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_DRIVER_DIR_REL)
GHC_COMPAT_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_COMPAT_DIR_REL)

GHC_MKDEPENDC_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_MKDEPENDC_DIR_REL)
GHC_LTX_DIR_ABS		= $(FPTOOLS_TOP_ABS)/$(GHC_LTX_DIR_REL)
GHC_RUNTEST_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_RUNTEST_DIR_REL)
GHC_LNDIR_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_LNDIR_DIR_REL)
GHC_MKDIRHIER_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_MKDIRHIER_DIR_REL)
GHC_DOCBOOK_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_DOCBOOK_DIR_REL)
GHC_UNLIT_DIR    	= $(FPTOOLS_TOP_ABS)/$(GHC_UNLIT_DIR_REL)
GHC_HP2PS_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_HP2PS_DIR_REL)
GHC_HSTAGS_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_HSTAGS_DIR_REL)
GHC_HSC2HS_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_HSC2HS_DIR_REL)
GHC_TOUCHY_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_TOUCHY_DIR_REL)
GHC_PKG_DIR_ABS		= $(FPTOOLS_TOP_ABS)/$(GHC_PKG_DIR_REL)
GHC_GENPRIMOP_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_GENPRIMOP_DIR_REL)
GHC_GENAPPLY_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_GENAPPLY_DIR_REL)

GHC_MANGLER_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_MANGLER_DIR_REL)
GHC_SYSMAN_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_SYSMAN_DIR_REL)
GHC_SPLIT_DIR_ABS	= $(FPTOOLS_TOP_ABS)/$(GHC_SPLIT_DIR_REL)

# -----------------------------------------------------------------------------
# Names of programs in the GHC tree
#
#      xxx_PGM	        the name of an executable, without the path
#      xxx		the executable relative to the current dir

GHC_UNLIT_PGM		= unlit$(exeext)
GHC_HP2PS_PGM		= hp2ps
GHC_HSTAGS_PGM		= hasktags
GHC_HSC2HS_INPLACE_PGM	= hsc2hs-inplace
GHC_TOUCHY_PGM		= touchy$(exeext)
GHC_MANGLER_PGM		= ghc-asm
GHC_SPLIT_PGM		= ghc-split
GHC_SYSMAN_PGM 		= SysMan
GHC_PKG_INPLACE_PGM	= ghc-pkg-inplace
GHC_GENPRIMOP_PGM	= genprimopcode
GHC_GENAPPLY_PGM	= genapply
GHC_MKDEPENDC_PGM 	= mkdependC
GHC_LTX_PGM 		= ltx
GHC_MKDIRHIER_PGM	= mkdirhier
GHC_LNDIR_PGM		= lndir
GHC_RUNTEST_PGM		= runstdtest

ifeq "$(TARGETPLATFORM)" "i386-unknown-mingw32"
GHC_CP			= "xcopy /y"
GHC_PERL		= perl
else
GHC_CP			= $(CP)
GHC_PERL		= $(PERL)
endif

UNLIT			= $(GHC_UNLIT_DIR)/$(GHC_UNLIT_PGM)
HP2PS			= $(GHC_HP2PS_DIR)/$(GHC_HP2PS_PGM)
HSTAGS			= $(GHC_HSTAGS_DIR)/$(GHC_HSTAGS_PGM)
HSC2HS_INPLACE		= $(GHC_HSC2HS_DIR)/$(GHC_HSC2HS_INPLACE_PGM)
MANGLER			= $(GHC_MANGLER_DIR)/$(GHC_MANGLER_PGM)
SPLIT			= $(GHC_SPLIT_DIR)/$(GHC_SPLIT_PGM)
SYSMAN 			= $(GHC_SYSMAN_DIR)/$(GHC_SYSMAN_PGM)
GHC_PKG_INPLACE		= $(GHC_PKG_DIR)/$(GHC_PKG_INPLACE_PGM)
GENPRIMOP		= $(GHC_GENPRIMOP_DIR)/$(GHC_GENPRIMOP_PGM)
GENAPPLY		= $(GHC_GENAPPLY_DIR)/$(GHC_GENAPPLY_PGM)
MKDEPENDC 		= $(GHC_MKDEPENDC_DIR)/$(GHC_MKDEPENDC_PGM)
LTX 			= $(GHC_LTX_DIR)/$(GHC_LTX_PGM)
MKDIRHIER		= $(GHC_MKDIRHIER_DIR)/$(GHC_MKDIRHIER_PGM)
LNDIR			= $(GHC_LNDIR_DIR)/$(GHC_LNDIR_PGM)
RUNTEST			= $(GHC_RUNTEST_DIR)/$(GHC_RUNTEST_PGM)

#-----------------------------------------------------------------------------
# Haskell compilers and mkdependHS

# $(GHC), $(HBC) and $(NHC) point to installed versions of the relevant
# compilers, if available.
#
# $(HC) is a generic Haskell 98 compiler, set to $(GHC) by default.
# $(MKDEPENDHS) is the Haskell dependency generator (ghc -M).
#
# NOTE: Don't override $(GHC) in build.mk, use configure --with-ghc instead
# (because the version numbers have to be calculated).

GHC		= @WithGhc@
GhcDir          = $(dir $(GHC))

# Set to YES if $(GHC) has the readline package installed
GhcHasReadline	= @GhcHasReadline@

HBC		= @HBC@
NHC		= @NHC@

# Sometimes we want to invoke ghc from the build tree in different
# places (eg. it's handy to have a nofib & a ghc build in the same
# tree).  We can refer to "this ghc" as $(GHC_INPLACE):

GHC_INPLACE 	= $(GHC_COMPILER_DIR)/ghc-inplace
GHC_STAGE1 	= $(GHC_COMPILER_DIR)/stage1/ghc-inplace
GHC_STAGE2 	= $(GHC_COMPILER_DIR)/stage2/ghc-inplace
GHC_STAGE3 	= $(GHC_COMPILER_DIR)/stage3/ghc-inplace

ifneq "$(findstring YES, $(UseStage1) $(BootingFromHc))" ""

# We are using the stage1 compiler to compile Haskell code, set up
# some variables appropriately:
HC		=$(GHC_STAGE1)
MKDEPENDHS	=$(GHC_STAGE1)
GhcVersion	= @ProjectVersion@
GhcPatchLevel	= @ProjectPatchLevel@
# oops, these are wrong:
GhcMajVersion	= @GhcMajVersion@
GhcMinVersion	= @GhcMinVersion@

ghc_ge_504 = YES
ghc_ge_601 = YES
ghc_ge_602 = YES
ghc_ge_603 = YES
ghc_ge_605 = YES

else # not UseStage1 or BootingFromHc

HC	        = @WithHc@
MKDEPENDHS	= $(GHC)
GhcVersion	= @GhcVersion@
GhcPatchLevel	= @GhcPatchLevel@
GhcMajVersion	= @GhcMajVersion@
GhcMinVersion	= @GhcMinVersion@

# Some useful GHC version predicates:
ghc_ge_504 = $(shell if (test $(GhcCanonVersion) -ge 504); then echo YES; else echo NO; fi)
ghc_ge_601 = $(shell if (test $(GhcCanonVersion) -ge 601); then echo YES; else echo NO; fi)
ghc_ge_602 = $(shell if (test $(GhcCanonVersion) -ge 602); then echo YES; else echo NO; fi)
ghc_ge_603 = $(shell if (test $(GhcCanonVersion) -ge 603); then echo YES; else echo NO; fi)
ghc_ge_605 = $(shell if (test $(GhcCanonVersion) -ge 605); then echo YES; else echo NO; fi)
endif

# 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

#-----------------------------------------------------------------------------
# C compiler
#
# NB. Don't override $(WhatGccIsCalled) using build.mk,  re-configure using
# the flag --with-gcc=<blah> instead.  The reason is that the configure script
# needs to know which gcc you're using in order to perform its tests.

HaveGcc 	= @HaveGcc@
UseGcc  	= YES
WhatGccIsCalled = @WhatGccIsCalled@
GccVersion      = @GccVersion@
ifeq "$(strip $(HaveGcc))" "YES"
ifneq "$(strip $(UseGcc))"  "YES"
  CC	= cc
else
  CC	= $(WhatGccIsCalled)
  GccDir = $(dir $(WhatGccIsCalled))
endif
endif

# default C compiler flags
SRC_CC_OPTS = @SRC_CC_OPTS@

ifeq "$(TARGETPLATFORM)" "ia64-unknown-linux"
SRC_CC_OPTS += -G0
endif

#-----------------------------------------------------------------------------
# GMP Library (version 2.0.x or above)
#
HaveLibGmp	= @HaveLibGmp@
LibGmp		= @LibGmp@

#-----------------------------------------------------------------------------
# GMP framework (Mac OS X)
#
HaveFrameworkGMP = @HaveFrameworkGMP@

#-----------------------------------------------------------------------------
# Mingwex Library
#
HaveLibMingwEx	= @HaveLibMingwEx@

#-----------------------------------------------------------------------------
# Flex (currently unused, could be moved to glafp-utils)

# FLEX			= @LEX@
# Don't bother with -lfl, we define our own yywrap()s anyway.
# FLEX_LIB		= 
#WAS:FLEX_LIB		= @LEXLIB@

#-----------------------------------------------------------------------------
# Other standard (ha!) Unix utilities

AR			= @ArCmd@
ArSupportsInput		= @ArSupportsInput@
# Yuckage: for ghc/utils/parallel -- todo: nuke this dependency!!
BASH                    = /usr/local/bin/bash

CONTEXT_DIFF		= @ContextDiffCmd@
CP			= cp
CPP			= @CPP@ @CPPFLAGS@
CTAGS 			= $(ETAGS)
#
# RAWCPP_FLAGS are the flags to give to cpp (viz, gcc -E) to persuade it to
# behave plausibly on Haskell sources.
#
RAWCPP_FLAGS            = -undef -traditional
FIND			= @FindCmd@
SORT		        = @SortCmd@
INSTALL			= @INSTALL@
#
# 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			:= $(subst .././install-sh,$(FPTOOLS_TOP_ABS)/install-sh,$(INSTALL))
LATEX			= latex
HEVEA			= hevea
HACHA			= hacha
LN_S			= @LN_S@
MANMACROS		= -man
MSMACROS 		= -ms
MV			= mv
NROFF			= nroff
PERL 			= @PerlCmd@
PYTHON			= @PythonCmd@
PIC			= pic
PREPROCESSCMD		= $(CC) -E
RANLIB			= @RANLIB@
RM			= rm -f
SED			= @SedCmd@
SHELL			= /bin/sh

LD			= @LdCmd@

# Some ld's support the -x flag and some don't, so the configure
# script detects which we have and sets LdXFlag to "-x" or ""
# respectively.
LD_X			= @LdXFlag@

# GNU ld supports input via a linker script, which is useful to avoid
# overflowing command-line length limits.
LdIsGNULd		= @LdIsGNULd@

#
# In emergency situations, REAL_SHELL is used to perform shell commands
# from within the ghc driver script, by scribbling the command line to
# a temp file and then having $(REAL_SHELL) execute it. 
#
# The reason for having to do this is that overly long command lines
# cause unnecessary trouble with some shells (e.g., /bin/sh on Solaris
# 2.5.1), which is why this backdoor is provided. The situation of overly
# long command lines is either encountered while doing `make boot' in compiler/, 
# or when linking the compiler binary (`hsc'). 
#
# We do not use SHELL to execute long commands, as `make' will more than likely
# override whatever setting you have in your environment while executing. 

# By default, REAL_SHELL is set equal to SHELL, which is not really a smart move
# as it is SHELL that will show up the bogosity in the first place, but setting
# it to anything else isn't really portable.
#
#  ====> If long command lines cause you trouble, invoke `ghc' (via `make' or otherwise)
# with REAL_SHELL set to something else than /bin/sh, for instance, your favourite
# command shell.
#
REAL_SHELL=$(SHELL)
SIZE			= size
STRIP			= strip
TAR			= @TarCmd@
ZIP			= zip

#
# This is special to literate/, ToDo: add literate-specific
# configure setup to literate/.
#
TBL 			= tbl
TEX			= tex
TGRIND 			= tgrind
TGRIND_HELPER 		= /usr/local/lib/tgrind/tfontedpr # XXX
TIB			= tib

TIME			= @TimeCmd@
TROFF			= troff
UNAME			= uname

# GTK+
GTK_CONFIG = @GTK_CONFIG@

#-----------------------------------------------------------------------------
# DocBook XML stuff

XSLTPROC		= @XsltprocCmd@
XMLLINT			= @XmllintCmd@
FOP			= @FopCmd@
XMLTEX			= @XmltexCmd@
PDFXMLTEX		= @PdfxmltexCmd@
DVIPS			= @DvipsCmd@

DIR_DOCBOOK_XSL		= @DIR_DOCBOOK_XSL@

XSLTPROC_LABEL_OPTS	= --stringparam toc.section.depth 3 \
			  --stringparam section.autolabel 1 \
			  --stringparam section.label.includes.component.label 1

#-----------------------------------------------------------------------------
# 		FPtools support software

BLD_DLL			= dllwrap

#
# .NET support software
#
ILX2IL                  = ilx2il
ILASM                   = ilasm

#
# ghc-pkg
#
GHC_PKG		        = @GhcPkgCmd@

#
# GreenCard
#
GREENCARD	        = @GreenCardCmd@
GREENCARD_VERSION	= @GreenCardVersion@		

#
# Happy
#
HAPPY			= @HappyCmd@
HAPPY_VERSION		= @HappyVersion@		
#
# Options to pass to Happy when we're going to compile the output with GHC
#
GHC_HAPPY_OPTS		= -agc

# Temp. to work around performance problems in the HEAD around 8/12/2003,
# A Happy compiled with this compiler needs more stack.
SRC_HAPPY_OPTS		= +RTS -K2m -RTS

#
# Alex
#
ALEX			= @AlexCmd@
ALEX_VERSION		= @AlexVersion@		
#
# Options to pass to Happy when we're going to compile the output with GHC
#
GHC_ALEX_OPTS		= -g

#
# Haddock
# 
HADDOCK			= @HaddockCmd@

#
# Options for compiling in different `ways'. 
# 
# To configure up your own way, have a look at some of the standard ways
# such as profiling, and create your own set of WAY_*_OPTS defs below.
# After having done that, add your way string to WAYS, and after having
# run the configure script, the different projects will add the new way
# to the list of ways they support.
#

#
# Definitions of the different ways:
#   
#   * their name:
#          - tag, e.g., p
#          - description, e.g., profiling
#   * what they mean to the driver:
#          - WAY_p_HC_OPTS gives the list of command-line options
#            to the driver.
#

#
# The ways currently defined.
#
ALL_WAYS=p t u s mp mg a b c d e f g h i j k l m n o A B
USER_WAYS=a b c d e f g h j k l m n o A B

#
# The following ways currently have treated specially, p u t mg,
# as the driver script treats these guys specially and needs to carefully be told
# about the options for these. Hence, we hide the required command line options
# for these in the driver, as this is the only place they are needed.
# 
# If you want to add to these default options, fill in the variables below:

# Way 'i':
WAY_i_NAME=ILX
WAY_i_HC_OPTS= -filx -fruntime-types

# Way 'p':
WAY_p_NAME=profiling
WAY_p_HC_OPTS= -prof

# Way 't':
WAY_t_NAME=ticky-ticky profiling
WAY_t_HC_OPTS= -ticky

# Way `u':
WAY_u_NAME=unregisterized (using portable C only)
WAY_u_HC_OPTS=-unreg

# Way `mp': 
WAY_mp_NAME=parallel
WAY_mp_HC_OPTS=-parallel

# Way `mg': 
WAY_mg_NAME=GranSim
WAY_mg_HC_OPTS=-gransim

#
# These ways apply to the RTS only:
#

# Way 'thr':
WAY_thr_NAME=threaded
WAY_thr_HC_OPTS=-optc-DTHREADED_RTS

# Way 'thr_p':
WAY_thr_p_NAME=threaded profiled
WAY_thr_p_HC_OPTS=-optc-DTHREADED_RTS -prof

# Way 'debug':
WAY_debug_NAME=debug
WAY_debug_HC_OPTS=-optc-DDEBUG

# Way 'debug_p':
WAY_debug_p_NAME=debug profiled
WAY_debug_p_HC_OPTS=-optc-DDEBUG -prof

# Way 'debug_u':
WAY_debug_u_NAME=debug unregisterised
WAY_debug_u_HC_OPTS=-optc-DDEBUG -unreg

# Way 'thr_debug':
WAY_thr_debug_NAME=threaded
WAY_thr_debug_HC_OPTS=-optc-DTHREADED_RTS -optc-DDEBUG

# Way 'thr_debug_p':
WAY_thr_debug_p_NAME=threaded
WAY_thr_debug_p_HC_OPTS=-optc-DTHREADED_RTS -optc-DDEBUG -prof

#
# Add user-way configurations here:
#
WAY_A_NAME=
WAY_A_HC_OPTS=

WAY_B_NAME=
WAY_B_HC_OPTS=

WAY_a_NAME=
WAY_a_HC_OPTS=

WAY_b_NAME=
WAY_b_HC_OPTS=

WAY_c_NAME=
WAY_c_HC_OPTS=

WAY_d_NAME=
WAY_d_HC_OPTS=

WAY_e_NAME=
WAY_e_HC_OPTS=

WAY_f_NAME=
WAY_f_HC_OPTS=

WAY_g_NAME=
WAY_g_HC_OPTS=

WAY_h_NAME=
WAY_h_HC_OPTS=

WAY_j_NAME=
WAY_j_HC_OPTS=

WAY_k_NAME=
WAY_k_HC_OPTS=

WAY_l_NAME=
WAY_l_HC_OPTS=

WAY_m_NAME=
WAY_m_HC_OPTS=

WAY_n_NAME=
WAY_n_HC_OPTS=

WAY_o_NAME=
WAY_o_HC_OPTS=

################################################################################
#
#		31-bit-Int Core files
#
################################################################################

# 
# It is possible to configure the compiler and prelude to support 31-bit
# integers, suitable for a back-end and RTS using a tag bit on a 32-bit
# architecture.  Currently the only useful output from this option is external Core
# files.  The following additions to your build.mk will produce the
# 31-bit core output.  Note that this is *not* just a library "way"; the
# compiler must be built a special way too.

# GhcCppOpts +=-DWORD_SIZE_IN_BITS=31
# GhcLibHcOpts +=-fext-core -fno-code -DWORD_SIZE_IN_BITS=31
# GhcLibCppOpts += -DWORD_SIZE_IN_BITS=31
# SplitObjs=NO