#
# target.mk
#
-# Standard targets for fptools
+# Standard targets for GHC
#
#################################################################################
#
# This file contain three groups of target rules:
#
-# 1. FPtools targets
+# 1. GHC targets
# depend*
# runtests*
#
# 2. GNU standard targets
# all*
-# install* uninstall installcheck installdirs
+# install* installcheck installdirs
+# install-docs*
# clean* distclean* mostlyclean* maintainer-clean*
# tags*
-# dvi ps (no info) FPTOOLS adds: pdf rtf html
+# dvi ps (no info) GHC adds: pdf rtf html chm HxS
# check
#
# 3. Some of the above targets have a version that
#
#
-
-##################################################################
-#
-# Recursive stuff
-#
-# At the top of the file so that recursive makes happen before
-# makes in the main directory. This is needed for some targets,
-# e.g. when building DLLs in hslibs.
-#
##################################################################
+# Pre-compute the list of sources so we don't have to do this
+# multiple times. See paths.mk.
-# Here are the diabolically clever rules that
-#
-# (a) for each "recursive target" <t>
-# propagates "make <t>" to directories in SUBDIRS
-#
-# (b) when SUBDIRS is empty,
-# for each "multi-way-target" <t>
-# calls "make way=w <t>" for each w in $(WAYS)
-#
-# This has the effect of making the standard target
-# in each of the specified ways (as well as in the normal way
-
-# Controlling variables
-# WAYS = extra (beyond the normal way) ways to build things in
-# SUBDIRS = subdirectories to recurse into
-
-# No ways, so iterate over the SUBDIRS
-
-# note about recursively invoking make: we'd like make to drop all the
-# way back to the top level if it fails in any of the
-# sub(sub-...)directories. This is done by setting the -e flag to the
-# shell during the loop, which causes an immediate failure if any of
-# the shell commands fail.
-
-# One exception: if the user gave the -i or -k flag to make in the
-# first place, we'd like to reverse this behaviour. So we check for
-# these flags, and set the -e flag appropriately. NOTE: watch out for
-# the --no-print-directory flag which is passed to recursive
-# invocations of make.
-#
-# NOTE: Truly weird use of exit below to stop the for loop dead in
-# its tracks should any of the sub-makes fail. By my reckoning,
-# "cmd || exit $?" should be equivalent to "cmd"
+PRE_SRCS := $(ALL_SRCS)
-ifneq "$(SUBDIRS)" ""
+##################################################################
+# Include package building machinery
+# NB. needs to be after PRE_SRCS setting above, because otherwise the
+# rule dependencies won't be set correctly.
-# we override the boot & all targets in the top level Makefile
-ifneq "$(NO_ALL_TARGETS)" "YES"
-ALL_TARGET = all
-BOOT_TARGET = boot
-INSTALL_TARGET = install
-endif
+include $(TOP)/mk/package.mk
-$(ALL_TARGET) docs runtests $(BOOT_TARGET) TAGS clean distclean mostlyclean maintainer-clean $(INSTALL_TARGET) html ps dvi txt::
- @echo "------------------------------------------------------------------------"
- @echo "===fptools== Recursively making \`$@' in $(SUBDIRS) ..."
- @echo "PWD = $(shell pwd)"
- @echo "------------------------------------------------------------------------"
-# Don't rely on -e working, instead we check exit return codes from sub-makes.
- @case '${MFLAGS}' in *-[ik]*) x_on_err=0;; *-r*[ik]*) x_on_err=0;; *) x_on_err=1;; esac; \
- for i in $(SUBDIRS); do \
- echo "------------------------------------------------------------------------"; \
- echo "==fptools== $(MAKE) $@ $(MFLAGS);"; \
- echo " in $(shell pwd)/$$i"; \
- echo "------------------------------------------------------------------------"; \
- $(MAKE) --no-print-directory -C $$i $(MFLAGS) $@; \
- if [ $$? -eq 0 -o $$x_on_err -eq 0 ] ; then true; else exit 1; fi; \
- done
- @echo "------------------------------------------------------------------------"
- @echo "===fptools== Finished making \`$@' in $(SUBDIRS) ..."
- @echo "PWD = $(shell pwd)"
- @echo "------------------------------------------------------------------------"
+###################################################################
+# Suffix rules for Haskell, C and literate
-endif
-
-#
-# Selectively building subdirectories.
-#
-#
-ifneq "$(SUBDIRS)" ""
-$(SUBDIRS) ::
- $(MAKE) -C $@ $(MFLAGS)
-endif
+include $(TOP)/mk/suffix.mk
##################################################################
-# FPtools standard targets
+# GHC standard targets
#
# depend:
#
# Compiler produced files that are targets of the source's imports.
MKDEPENDHS_OBJ_SUFFICES=o
-depend :: $(MKDEPENDHS_SRCS) $(MKDEPENDC_SRCS)
+ifneq "$(BootingFromHc)" "YES"
+PKGCONF_DEP = $(STAMP_PKG_CONF)
+endif
+
+depend :: $(MKDEPENDHS_SRCS) $(MKDEPENDC_SRCS) $(PKGCONF_DEP)
@$(RM) .depend
@touch .depend
ifneq "$(DOC_SRCS)" ""
# The boot target, at a minimum generates dependency information
.PHONY: boot
-boot :: depend
+ifeq "$(NO_BOOT_TARGET)" "YES"
+boot ::
+else
+boot :: depend
+endif
##################################################################
# GNU Standard targets
# will ignore any errors. This is in case there are systems that
# don't have the Unix man page documentation system installed.
#
-# `uninstall'
-# Delete all the installed files that the `install' target would
-# create (but not the noninstalled files such as `make all' would
-# create).
-#
# `clean'
#
# Delete all files from the current directory that are normally
# `TAGS'
# Update a tags table for this program.
#
-# `dvi' `ps' `pdf' `html' `pdf'
+# `dvi' `ps' `pdf' `html' `chm' `HxS' `rtf'
# Generate DVI/PS/PDF files for LaTeX/DocBook docs. Not everything is
# supported everywhere, but the intention is to standardise on DocBook
# producing all formats.
# directories where files are installed, and their parent
# directories. There is a script called `mkinstalldirs' which is
# convenient for this; find it in the Texinfo package.
-# (FPTOOLS: we use a close relative of the suggested script, situated
+# (GHC: we use a close relative of the suggested script, situated
# in glafp-utils/mkdirhier -- SOF)
# HS_PROG Haskell program
# C_PROG C program
# LIBRARY Library
-# SCRIPT_PROG Script (e.g. Perl script)
#
# For details of exactly what rule is generated, see the
# relevant section below
all :: $(HS_PROG)
ifneq "$(BootingFromHc)" "YES"
-$(HS_PROG) :: $(HS_OBJS)
- $(HC) -o $@ $(HC_OPTS) $(LD_OPTS) $(HS_OBJS)
+$(HS_PROG) :: $(OBJS)
+ $(HC) -o $@ $(HC_OPTS) $(LD_OPTS) $(OBJS)
else
-# see bootstrp.mk
-$(HS_PROG) :: $(HS_OBJS)
- $(CC) -o $@ $(HC_BOOT_CC_OPTS) $(HC_BOOT_LD_OPTS) $(HS_OBJS) $(HC_BOOT_LIBS)
-endif
-endif
-
-# Object and interface files have suffixes tagged with their ways
-ifneq "$(way)" ""
-SRC_HC_OPTS += -hisuf $(way_)hi -hcsuf $(way_)hc -osuf $(way_)o
+# see bootstrap.mk
+$(HS_PROG) :: $(OBJS)
+ $(CC) -o $@ $(HC_BOOT_CC_OPTS) $(HC_BOOT_LD_OPTS) $(OBJS) $(HC_BOOT_LIBS)
endif
-
-# add syslib dependencies and current package name
-SRC_HC_OPTS += $(patsubst %, -package %, $(PACKAGE_DEPS))
-ifneq "$(PACKAGE)" ""
-SRC_HC_OPTS += -package-name $(PACKAGE)
-else
-# No library, we are actually building the tools
-SRC_HC_OPTS += $(FptoolsHcOpts)
endif
#----------------------------------------
$(CC) -o $@ $(CC_OPTS) $(LD_OPTS) $(C_OBJS) $(LIBS)
endif
-
-#----------------------------------------
-# Building HsLibs libraries.
-#
-# Inputs:
-# $(PACKAGE) is the name of the library to build
-# $(IS_CBITS_LIB) should be "YES" for a "cbits" library
-#
-# Outputs:
-# $(LIBRARY) the name of the library.a
-# $(GHIC_LIBRARY) the name of the library.o (for GHCi)
-# $(LIBOBJS) objects to put in library
-# $(STUBOBJS) more objects to put in library
-#
-# $(LIBOBJS) is set to $(HS_OBJS) or $(C_OBJS) depending
-# on whether or not it's a "cbits" library. But you can
-# override this by setting $(LIBOBJS) yourself
-
-ifneq "$(PACKAGE)" ""
-
-ifeq "$(IS_CBITS_LIB)" "YES"
-_cbits := _cbits
-STUBOBJS += $(HSC_C_OBJS)
-# Add _hsc.c files to the cbits library
-SRCS += $(wildcard ../*_hsc.c)
-# Make .hsc.h include files from the directory above visible
-SRC_CC_OPTS += -I..
-endif
-
-LIBRARY = libHS$(PACKAGE)$(_cbits)$(_way).a
-GHCI_LIBRARY = HS$(PACKAGE)$(_cbits)$(_way).o
-
-ifneq "$(IS_CBITS_LIB)" "YES"
-WAYS=$(GhcLibWays)
-endif
-
-ifeq "$(LIBOBJS)" ""
- ifeq "$(IS_CBITS_LIB)" "YES"
- LIBOBJS = $(C_OBJS)
- else
- LIBOBJS = $(HS_OBJS)
- endif
-endif
-
-SRC_CC_OPTS += -I$(GHC_INCLUDE_DIR) -I$(GHC_RUNTIME_DIR)
-
-ifeq "$(IS_CBITS_LIB)" "YES"
-override datadir:=$(libdir)/include
-INSTALL_DATAS += Hs$(shell perl -e 'print ucfirst "$(PACKAGE)"').h
-else
-SRC_CC_OPTS += -Icbits
-endif
-
-endif # PACKAGE
-
#----------------------------------------
# Libraries/archives
#
-# Build $(LIBRARY) from $(LIBOJBS)+$(STUBOBJS)
+# Build $(LIBRARY) from $(LIBOBJS)+$(STUBOBJS)
#
# Inputs:
# $(LIBOBJS)
ifneq "$(LIBRARY)" ""
all :: $(LIBRARY)
-define BUILD_LIB
+ifneq "$(way)" "i"
+define BUILD_STATIC_LIB
$(RM) $@
$(AR) $(AR_OPTS) $@ $(STUBOBJS) $(LIBOBJS)
$(RANLIB) $@
endef
+else
+define BUILD_STATIC_LIB
+$(RM) $@
+al -out:$@ $(STUBOBJS) $(LIBOBJS)
+endef
+endif
#
# For Haskell object files, we might have chosen to split
# whether HS_SRCS is empty or not.
#
+# can't split objs in way 'u', so we disable it here
+ifeq "$(way)" "u"
+SplitObjs = NO
+endif
+
ifneq "$(HS_SRCS)" ""
ifeq "$(SplitObjs)" "YES"
-# can't split objs in way 'u', so we disable it here
-ifneq "$(way)" "u"
-
SRC_HC_OPTS += -split-objs
+# We generate the archive into a temporary file libfoo.a.tmp, then
+# rename it at the end. This avoids the problem that ar may sometimes
+# fail, leaving a partially built archive behind.
ifeq "$(ArSupportsInput)" ""
-define BUILD_LIB
-$(RM) $@
-(echo $(STUBOBJS); $(FIND) $(patsubst %.$(way_)o,%,$(LIBOBJS)) -name '*.$(way_)o') | xargs ar q $@
+define BUILD_STATIC_LIB
+$(RM) $@ $@.tmp
+(echo $(STUBOBJS) $(C_OBJS) $(GC_C_OBJS); $(FIND) $(patsubst %.$(way_)o,%_split,$(HS_OBJS)) -name '*.$(way_)o' -print) | xargs $(AR) $@
$(RANLIB) $@
endef
else
-define BUILD_LIB
-$(RM) $@
+define BUILD_STATIC_LIB
+$(RM) $@ $@.tmp
echo $(STUBOBJS) > $@.list
-$(FIND) $(patsubst %.$(way_)o,%,$(LIBOBJS)) -name '*.$(way_)o' >> $@.list
+echo $(C_OBJS) >> $@.list
+echo $(GC_C_OBJS) >> $@.list
+$(FIND) $(patsubst %.$(way_)o,%_split,$(HS_OBJS)) -name '*.$(way_)o' -print >> $@.list
$(AR) $(AR_OPTS) $@ $(ArSupportsInput) $@.list
$(RM) $@.list
$(RANLIB) $@
# Extra stuff for compiling Haskell files with $(SplitObjs):
-HC_SPLIT_PRE = \
- $(RM) $@; if [ ! -d $(basename $@) ]; then mkdir $(basename $@); else \
- $(FIND) $(basename $@) -name '*.$(way_)o' | xargs $(RM) __rm_food; fi
-ifeq "$(GhcWithInterpreter)" "YES"
-HC_SPLIT_POST = ld -r -x -o $@ $(basename $@)/*.$(way_)o
-else
-HC_SPLIT_POST = touch $@
-endif # GhcWithInterpreter == YES
-
-SRC_HC_PRE_OPTS += $(HC_SPLIT_PRE);
-SRC_HC_POST_OPTS += $(HC_SPLIT_POST);
-
#
# If (Haskell) object files are split, cleaning up
# consist of descending into the directories where
#
extraclean ::
- $(FIND) $(patsubst %.$(way_)o,%,$(HS_OBJS)) -name '*.$(way_)o' -print | xargs $(RM) __rm_food
- -rmdir $(patsubst %.$(way_)o,%,$(HS_OBJS)) > /dev/null 2>&1
+ $(FIND) $(patsubst %.$(way_)o,%_split,$(HS_OBJS)) -name '*.$(way_)o' -print -o -name ld.script -print | xargs $(RM) __rm_food
+ -rmdir $(patsubst %.$(way_)o,%_split,$(HS_OBJS)) > /dev/null 2>&1
-endif # $(way) == u
endif # $(SplitObjs)
endif # $(HS_SRCS)
ifeq "$(StripLibraries)" "YES"
ifeq "$(SplitObjs)" "YES"
SRC_HC_POST_OPTS += \
- for i in $(basename $@)/*; do \
- ld -r -x -o $$i.tmp $$i; \
+ for i in $(basename $@)_split/*.$(way_)o; do \
+ $(LD) -r $(LD_X) -o $$i.tmp $$i; \
$(MV) $$i.tmp $$i; \
done
else
SRC_HC_POST_OPTS += \
- ld -r -x -o $@.tmp $@; $(MV) $@.tmp $@
+ $(LD) -r $(LD_X) -o $@.tmp $@; $(MV) $@.tmp $@
endif # SplitObjs
endif # StripLibraries
-$(LIBRARY) :: $(STUBOBJS) $(LIBOBJS)
- $(BUILD_LIB)
-endif # LIBRARY = ""
-
-#--------------------------------------------------------------
-# Build dynamically-linkable libraries for GHCi
-#
-# Build $(GHCI_LIBRARY) from $(LIBOBJS)+$(STUBOBJS)
-#
-# Why? GHCi can only link .o files (at the moment), not .a files
-# so we have to build libFoo.o as well as libFoo.a
-#
-# Furthermore, GHCi currently never loads
-# profiling libraries (or other non-std ways)
-#
-# Inputs:
-# $(GHCI_LIBRARY)
-#
-# Outputs:
-# Rule to build $(GHCI_LIBRARY)
-
-
-ifneq "$(GHCI_LIBRARY)" ""
-ifeq "$(way)" ""
-ifeq "$(GhcWithInterpreter)" "YES"
-
-
-INSTALL_LIBS += $(GHCI_LIBRARY)
-CLEAN_FILES += $(GHCI_LIBRARY)
-
-all :: $(GHCI_LIBRARY)
-
-ifneq "$(GHCI_LIBRARY)" "HSstd.o"
-# An annoying gotcha is that the Prelude is a bit special,
-# for reasons described in ghc/lib/std/Makefile.
-# So we only put in this standard rule for packages other than std
-# The rule for the Prelude is in ghc/lib/std/Makefile
-# We check for GHCI_LIBRARY being HSstd.o rather than
-# PACKAGE being std, because we want to still use the boilerplate rule
-# for cbits.
-$(GHCI_LIBRARY) :: $(LIBOBJS)
- ld -r -x -o $@ $(LIBOBJS) $(STUBOBJS)
-endif
-
-endif # GhcWithInterpreter
-endif # way
-endif # GHCI_LIBRARY
-
+# Note: $(STUBOBJS) isn't depended on here, but included when building the lib.
+# (i.e., the assumption is that $(STUBOBJS) are created as a side-effect
+# of building $(LIBOBJS)).
+ifeq "$(LIBRARY:%.so=YES)" "YES"
+# ELF styled DSO
+$(LIBRARY): $(LIBOBJS) $(LIB_DEPS)
+ $(RM) $@
+ $(HC) -shared -dynamic -o $@ $(STUBOBJS) $(LIBOBJS) $(LIB_LD_OPTS)
+else
+ifeq "$(LIBRARY:%.dylib=YES)" "YES"
+$(LIBRARY): $(LIBOBJS) $(LIB_DEPS)
+ $(HC) -shared -dynamic -o $@ $(STUBOBJS) $(LIBOBJS) $(LIB_LD_OPTS)
+else
+ifeq "$(LIBRARY:%.dll=YES)" "YES"
#----------------------------------------
# Building Win32 DLLs
#
+$(LIBRARY): $(LIBOBJS) $(LIBRARY).o $(LIB_DEPS)
+ $(HC) -shared -dynamic -o $@ $(STUBOBJS) $(LIBOBJS) $(LIBRARY).o $(LIB_LD_OPTS)
-ifeq "$(DLLized)" "YES"
-SRC_CC_OPTS += -DDLLized
-
-ifneq "$(PACKAGE)" ""
-
-SRC_BLD_DLL_OPTS += --export-all --output-def=HS$(PACKAGE)$(_cbits)$(_way).def DllVersionInfo.$(way_)o
-
-ifneq "$(PACKAGE) $(IS_CBITS_LIB)" "std YES"
-ifneq "$(PACKAGE)" "rts"
-SRC_BLD_DLL_OPTS += -lHSstd_cbits_imp -L$(GHC_LIB_DIR)/std/cbits
-SRC_BLD_DLL_OPTS += -lHSrts_$(way_)imp -L$(GHC_RUNTIME_DIR)
-ifneq "$(PACKAGE)" "std"
- ifeq "$(IS_CBITS_LIB)" ""
- SRC_BLD_DLL_OPTS += -lHSstd_$(way_)imp -L$(GHC_LIB_DIR)/std
- endif
-endif
-endif
-endif
-
-SRC_BLD_DLL_OPTS += -lgmp -L. -L$(GHC_RUNTIME_DIR)/gmp
-ifeq "$(IS_CBITS_LIB)" ""
-SRC_BLD_DLL_OPTS += $(patsubst %,-lHS%_$(way_)imp, $(PACKAGE_DEPS))
-SRC_BLD_DLL_OPTS += $(patsubst %,-L../%, $(PACKAGE_DEPS))
-endif
-ifneq "$(HAS_CBITS)" ""
-SRC_BLD_DLL_OPTS += -lHS$(PACKAGE)_cbits_imp -Lcbits
-endif
-SRC_BLD_DLL_OPTS += -lwsock32 -lwinmm
-
-endif # PACKAGE != ""
-
-SplitObjs = NO
-
-ifneq "$(LIBRARY)" ""
-
-all :: DllVersionInfo.$(way_)o
-
-ifeq "$(DLL_NAME)" ""
-DLL_NAME = $(patsubst %.a,%.dll,$(subst lib,,$(LIBRARY)))
-endif
-
-ifneq "$(DLL_NAME)" ""
-DLL_NAME := $(DLL_PEN)/$(DLL_NAME)
-endif
-
-all :: $(DLL_NAME)
+DLLTOOL=dlltool
-ifeq "$(DLL_IMPLIB_NAME)" ""
-DLL_IMPLIB_NAME = $(patsubst %.a,%_imp.a,$(LIBRARY))
-endif
+$(LIBRARY).def: $(LIBOBJS)
+ $(DLLTOOL) -D $(LIBRARY) --output-def $@ --export-all $(LIBOBJS)
-$(DLL_NAME) :: $(LIBRARY)
- $(BLD_DLL) --output-lib $(DLL_IMPLIB_NAME) -o $(DLL_NAME) $(LIBRARY) $(BLD_DLL_OPTS)
-endif # LIBRARY != ""
+$(LIBRARY).o:
+ $(DLLTOOL) -D $(LIBRARY) --output-exp $(LIBRARY).o $(LIBOBJS)
-endif # DLLized
+# Generates library.dll.a; by MinGW conventions, this is the dll's import library
+$(LIBRARY).a: $(LIBOBJS) $(LIBRARY).def
+ $(DLLTOOL) -D $(LIBRARY) --def $(LIBRARY).def --output-lib $@
#
# Version information is baked into a DLL by having the DLL include DllVersionInfo.o.
echo " VALUE \"Translation\", 0x0409, 1200" >> $@
echo " END" >> $@
echo "END" >> $@
-
-#----------------------------------------
-# Script programs
-
-ifneq "$(SCRIPT_PROG)" ""
-
-# To produce a fully functional script, you may
-# have to add some configuration variables at the top of
-# the script, i.e., the compiler driver needs to know
-# the path to various utils in the build tree for instance.
-#
-# To have the build rule for the script automatically do this
-# for you, set the variable SCRIPT_SUBST_VARS to the list of
-# variables you need to put in.
-
-#
-# SCRIPT_SUBST creates a string of echo commands that
-# will when evaluated append the (perl)variable name and its value
-# to the target it is used for, i.e.,
-#
-# A=foo
-# B=bar
-# SCRIPT_SUBST_VARS = A B
-# SCRIPT_SUBST=echo "$""A=\"foo\";" >> $@; echo "$""B=\"bar\";" >> $@
-#
-# so if you have a rule like the following
-#
-# foo:
-# @(RM) $@
-# @(TOUCH) $@
-# @eval $(SCRIPT_SUBST)
-#
-# `make foo' would create a file `foo' containing the following
-#
-# % cat foo
-# $A=foo;
-# $B=bar;
-# %
-#
-# ToDo: make this work for shell scripts (drop the initial $).
-#
-ifeq "$(INTERP)" "$(SHELL)"
-SCRIPT_SUBST=$(foreach val,$(SCRIPT_SUBST_VARS),"echo \"$(val)=\\\"$($(val))\\\";\" >> $@;")
-else
-SCRIPT_SUBST=$(foreach val,$(SCRIPT_SUBST_VARS),"echo \"$$\"\"$(val)=\\\"$($(val))\\\";\" >> $@;")
-endif
-
-all :: $(SCRIPT_PROG)
-
-$(SCRIPT_PROG) : $(SCRIPT_OBJS)
- $(RM) $@
- @echo Creating $@...
-ifeq "$(INTERP)" "perl"
- echo "#! "$(PERL) > $@
-else
-ifneq "$(INTERP)" ""
- @echo "#!"$(INTERP) > $@
-else
- @touch $@
-endif
-endif
-ifneq "$(SCRIPT_PREFIX_FILES)" ""
- @cat $(SCRIPT_PREFIX_FILES) >> $@
-endif
-ifneq "$(SCRIPT_SUBST)" ""
- @eval $(SCRIPT_SUBST)
-endif
- @cat $(SCRIPT_OBJS) >> $@
- @chmod a+x $@
- @echo Done.
-endif
-
-# ---------------------------------------------------------------------------
-# Symbolic links
-
-# links to programs: we sometimes install a program as
-# <name>-<version> with a link from <name> to the real program.
-
-ifneq "$(LINK)" ""
-
-all :: $(LINK)
-
-CLEAN_FILES += $(LINK)
-
-ifeq "$(LINK_TARGET)" ""
-ifneq "$(SCRIPT_PROG)" ""
-LINK_TARGET = $(SCRIPT_PROG)
-else
-ifneq "$(HS_PROG)" ""
-LINK_TARGET = $(HS_PROG)
-else
-ifneq "$(C_PROG)" ""
-LINK_TARGET = $(C_PROG)
else
-LINK_TARGET = dunno
-endif
-endif
-endif
-endif
-
-#
-# Don't want to overwrite $(LINK)s that aren't symbolic
-# links. Testing for symbolic links is problematic to do in
-# a portable fashion using a /bin/sh test, so we simply rely
-# on perl.
-#
-$(LINK) : $(LINK_TARGET)
- @if ( $(PERL) -e '$$fn="$(LINK)"; exit ((! -f $$fn || -l $$fn) ? 0 : 1);' ); then \
- echo "Creating a symbolic link from $(LINK_TARGET) to $(LINK)"; \
- $(RM) $(LINK); \
- $(LN_S) $(LINK_TARGET) $(LINK); \
- else \
- echo "Creating a symbolic link from $(LINK_TARGET) to $(LINK) failed: \`$(LINK)' already exists"; \
- echo "Perhaps remove \`$(LINK)' manually?"; \
- exit 1; \
- fi;
-
-
-#
-# install links to script drivers.
-#
-install ::
- @$(INSTALL_DIR) $(bindir)
- @if ( $(PERL) -e '$$fn="$(bindir)/$(LINK)"; exit ((! -f $$fn || -l $$fn) ? 0 : 1);' ); then \
- echo "Creating a symbol link from $(LINK_TARGET) to $(LINK) in $(bindir)"; \
- $(RM) $(bindir)/$(LINK); \
- $(LN_S) $(LINK_TARGET) $(bindir)/$(LINK); \
- else \
- echo "Creating a symbol link from $(LINK_TARGET) to $(LINK) in $(bindir) failed: \`$(bindir)/$(LINK)' already exists"; \
- echo "Perhaps remove \`$(bindir)/$(LINK)' manually?"; \
- exit 1; \
- fi;
-
-endif # LINK
-
-
-###########################################
-#
-# Targets: install install-strip uninstall
-#
-###########################################
-
-# For each of these variables that is defined, you
-# get one install rule
-#
-# INSTALL_PROGS executable programs in $(bindir)
-# INSTALL_SCRIPTS executable scripts in $(bindir)
-# INSTALL_LIBS platform-dependent libraries in $(libdir) (ranlib'ed)
-# INSTALL_LIB_SCRIPTS platform-dependent scripts in $(libdir)
-# INSTALL_LIBEXECS platform-dependent execs in $(libdir)
-# INSTALL_DATAS platform-independent files in $(datadir)
-#
-# If the installation directory variable is undefined, the install rule simply
-# emits a suitable error message.
-#
-# Remember, too, that the installation directory variables ($(bindir) and
-# friends can be overridden from their original settings in mk/config.mk.in
-# || mk/build.mk
-#
-.PHONY: install installdirs install-strip install-dirs uninstall install-docs show-install
-
-show-install :
- @echo "bindir = $(bindir)"
- @echo "libdir = $(libdir)"
- @echo "libexecdir = $(libexecdir) # by default, same as libdir"
- @echo "datadir = $(datadir) # unused for ghc project"
-
-#
-# Sometimes useful to separate out the creation of install directories
-# from the installation itself.
-#
-install-dirs ::
- @$(INSTALL_DIR) $(bindir)
- @$(INSTALL_DIR) $(libdir)
- @$(INSTALL_DIR) $(libexecdir)
- @$(INSTALL_DIR) $(datadir)
-
-# Better do this first...
-# but we won't for the moment, do it on-demand from
-# within the various install targets instead.
-#install:: install-dirs
-
-# Install libraries automatically
-ifneq "$(LIBRARY)" ""
-INSTALL_LIBS += $(LIBRARY)
-ifeq "$(DLLized)" "YES"
-INSTALL_PROGS += $(DLL_NAME)
-INSTALL_LIBS += $(patsubst %.a,%_imp.a, $(LIBRARY))
-endif
-INSTALL_DATAS += $(HS_IFACES)
-endif
-
-ifneq "$(INSTALL_PROGS)" ""
-
-#
-# Here's an interesting one - when using the win32 version
-# of install (provided via the cygwin toolkit), we have to
-# supply the .exe suffix, *if* there's no other suffix.
-#
-# The rule below does this by ferreting out the suffix of each
-# entry in the INSTALL_PROGS list. If there's no suffix, use
-# $(exeext).
-#
-# This is bit of a pain to express since GNU make doesn't have
-# something like $(if ...), but possible using $(subst ...)
-# [Aside: I added support for $(if ...) to my local copy of GNU
-# make at one stage, perhaps I should propagate the patch to
-# the GNU make maintainers...]
-#
-INSTALL_PROGS := $(foreach p, $(INSTALL_PROGS), $(addsuffix $(subst _,,$(subst __,$(exeext),_$(suffix $(p))_)), $(basename $(p))))
-
-install:: $(INSTALL_PROGS)
- @$(INSTALL_DIR) $(bindir)
- @for i in $(INSTALL_PROGS); do \
- echo $(INSTALL_PROGRAM) $(INSTALL_BIN_OPTS) $$i $(bindir); \
- $(INSTALL_PROGRAM) $(INSTALL_BIN_OPTS) $$i $(bindir) ; \
- done
-endif
-
-#
-# Just like INSTALL_PROGS, but prefix with install sites bin/lib/data and
-# install without stripping.
-#
-ifneq "$(INSTALL_SCRIPTS)" ""
-install:: $(INSTALL_SCRIPTS)
- @$(INSTALL_DIR) $(bindir)
- for i in $(INSTALL_SCRIPTS); do \
- $(INSTALL_SCRIPT) $(INSTALL_OPTS) $$i $(bindir); \
- done
-endif
-
-ifneq "$(INSTALL_LIB_SCRIPTS)" ""
-install:: $(INSTALL_LIB_SCRIPTS)
- @$(INSTALL_DIR) $(libdir)
- for i in $(INSTALL_LIB_SCRIPTS); do \
- $(INSTALL_SCRIPT) $(INSTALL_OPTS) $$i $(libdir); \
- done
-endif
-
-ifneq "$(INSTALL_LIBEXEC_SCRIPTS)" ""
-install:: $(INSTALL_LIBEXEC_SCRIPTS)
- @$(INSTALL_DIR) $(libexecdir)
- for i in $(INSTALL_LIBEXEC_SCRIPTS); do \
- $(INSTALL_SCRIPT) $(INSTALL_OPTS) $$i $(libexecdir); \
- done
-endif
-
-ifneq "$(INSTALL_LIBS)" ""
-install:: $(INSTALL_LIBS)
- @$(INSTALL_DIR) $(libdir)
- for i in $(INSTALL_LIBS); do \
- case $$i in \
- *.a) \
- $(INSTALL_DATA) $(INSTALL_OPTS) $$i $(libdir); \
- $(RANLIB) $(libdir)/`basename $$i` ;; \
- *.dll) \
- $(INSTALL_DATA) -s $(INSTALL_OPTS) $$i $(libdir) ;; \
- *) \
- $(INSTALL_DATA) $(INSTALL_OPTS) $$i $(libdir); \
- esac; \
- done
-endif
-
-ifneq "$(INSTALL_LIBEXECS)" ""
-#
-# See above comment next to defn of INSTALL_PROGS for what
-# the purpose of this one-liner is.
-#
-INSTALL_LIBEXECS := $(foreach p, $(INSTALL_LIBEXECS), $(addsuffix $(subst _,,$(subst __,$(exeext),_$(suffix $(p))_)), $(basename $(p))))
-
-install:: $(INSTALL_LIBEXECS)
- @$(INSTALL_DIR) $(libexecdir)
- -for i in $(INSTALL_LIBEXECS); do \
- $(INSTALL_PROGRAM) $(INSTALL_BIN_OPTS) $$i $(libexecdir); \
- done
-endif
-
-ifneq "$(INSTALL_DATAS)" ""
-install:: $(INSTALL_DATAS)
- @$(INSTALL_DIR) $(datadir)
- for i in $(INSTALL_DATAS); do \
- $(INSTALL_DATA) $(INSTALL_OPTS) $$i $(datadir); \
- done
-endif
-
-ifneq "$(INSTALL_INCLUDES)" ""
-install:: $(INSTALL_INCLUDES)
- @$(INSTALL_DIR) $(includedir)
- for i in $(INSTALL_INCLUDES); do \
- $(INSTALL_DATA) $(INSTALL_OPTS) $$i $(includedir); \
- done
-endif
-
-#
-# Use with care..
-#
-uninstall::
- @for i in $(INSTALL_PROGS) "" ; do \
- if test "$$i"; then \
- echo rm -f $(bindir)/`basename $$i`; \
- rm -f $(bindir)/`basename $$i`; \
- fi; \
- done
- @for i in $(INSTALL_LIBS) ""; do \
- if test "$$i"; then \
- echo rm -f $(libdir)/`basename $$i`; \
- rm -f $(libdir)/`basename $$i`; \
- fi; \
- done
- @for i in $(INSTALL_LIBEXECS) ""; do \
- if test "$$i"; then \
- echo rm -f $(libexecdir)/`basename $$i`; \
- rm -f $(libexecdir)/`basename $$i`; \
- fi; \
- done
- @for i in $(INSTALL_DATAS) ""; do \
- if test "$$i"; then \
- echo rm -f $(datadir)/`basename $$i`; \
- rm -f $(datadir)/`basename $$i`; \
- fi; \
- done
+# Regular static library
+$(LIBRARY): $(LIBOBJS)
+ $(BUILD_STATIC_LIB)
+endif # %.dll
+endif # %.dylib
+endif # %.so
+endif # LIBRARY = ""
-#
-# install-strip is from the GNU Makefile standard.
-#
-ifneq "$(way)" ""
-install-strip::
- @$(MAKE) EXTRA_INSTALL_OPTS='-s' install
-endif
+include $(TOP)/mk/install.mk
-###########################################
+##############################################################################
#
# Targets: check tags show
#
-###########################################
+##############################################################################
#------------------------------------------------------------
# Check
@$(RM) TAGS
@touch TAGS
ifneq "$(TAGS_HS_SRCS)" ""
- $(HSTAGS) $(HSTAGS_OPTS) -- $(TAGS_HS_SRCS)
+ $(HSTAGS) $(HSTAGS_OPTS) $(TAGS_HS_SRCS)
endif
ifneq "$(TAGS_C_SRCS)" ""
etags -a $(TAGS_C_SRCS)
#
show:
- @echo '$(VALUE)=$($(VALUE))'
+ @echo '$(VALUE)="$($(VALUE))"'
-#--------------------------------------------------------------------------
-# SGML Documentation
+################################################################################
+#
+# DocBook XML Documentation
#
-.PHONY: dvi ps html pdf rtf
+################################################################################
-ifneq "$(SGML_DOC)" ""
+.PHONY: html html-no-chunks chm HxS fo dvi ps pdf
-# multi-file SGML document: main document name is specified in $(SGML_DOC),
-# sub-documents (.sgml files) listed in $(SGML_SRCS).
+ifneq "$(XML_DOC)" ""
-ifeq "$(SGML_SRCS)" ""
-SGML_SRCS = $(wildcard *.sgml)
+all :: $(XMLDocWays)
+
+# multi-file XML document: main document name is specified in $(XML_DOC),
+# sub-documents (.xml files) listed in $(XML_SRCS).
+
+ifeq "$(XML_SRCS)" ""
+XML_SRCS = $(wildcard *.xml)
endif
-SGML_TEX = $(addsuffix .tex,$(SGML_DOC))
-SGML_DVI = $(addsuffix .dvi,$(SGML_DOC))
-SGML_PS = $(addsuffix .ps,$(SGML_DOC))
-SGML_PDF = $(addsuffix .pdf,$(SGML_DOC))
-SGML_RTF = $(addsuffix .rtf,$(SGML_DOC))
-SGML_HTML = $(addsuffix .html,$(SGML_DOC))
-# HTML output goes in a subdirectory on its own.
-SGML_TEXT = $(addsuffix .txt,$(SGML_DOC))
+XML_HTML = $(addsuffix /index.html,$(basename $(XML_DOC)))
+XML_HTML_NO_CHUNKS = $(addsuffix .html,$(XML_DOC))
+XML_CHM = $(addsuffix .chm,$(XML_DOC))
+XML_HxS = $(addsuffix .HxS,$(XML_DOC))
+XML_FO = $(addsuffix .fo,$(XML_DOC))
+XML_DVI = $(addsuffix .dvi,$(XML_DOC))
+XML_PS = $(addsuffix .ps,$(XML_DOC))
+XML_PDF = $(addsuffix .pdf,$(XML_DOC))
-$(SGML_DVI) $(SGML_PS) $(SGML_HTML) $(SGML_TEXT) $(SGML_PDF) :: $(SGML_SRCS)
+$(XML_HTML) $(XML_NO_CHUNKS_HTML) $(XML_FO) $(XML_DVI) $(XML_PS) $(XML_PDF) :: $(XML_SRCS)
-dvi :: $(SGML_DVI)
-ps :: $(SGML_PS)
-pdf :: $(SGML_PDF)
-rtf :: $(SGML_RTF)
-html :: $(SGML_HTML)
-txt :: $(SGML_TEXT)
+html :: $(XML_HTML)
+html-no-chunks :: $(XML_HTML_NO_CHUNKS)
+chm :: $(XML_CHM)
+HxS :: $(XML_HxS)
+fo :: $(XML_FO)
+dvi :: $(XML_DVI)
+ps :: $(XML_PS)
+pdf :: $(XML_PDF)
-CLEAN_FILES += $(SGML_TEXT) $(SGML_TEX) $(SGML_PS) $(SGML_DVI) $(SGML_PDF) $(SGML_RTF) $(SGML_HTML) $(SGML_DOC)-*.html
-# can't use $(SGML_SRCS) here, it was maybe used elsewhere
+CLEAN_FILES += $(XML_HTML_NO_CHUNKS) $(XML_FO) $(XML_DVI) $(XML_PS) $(XML_PDF)
extraclean ::
- $(RM) -rf DBTOHTML_OUTPUT_*
- $(RM) -rf *.junk/
- $(RM) -rf $(SGML_DOC)
+ $(RM) -rf $(XML_DOC).out $(FPTOOLS_CSS) $(basename $(XML_DOC)) $(basename $(XML_DOC))-htmlhelp
+
+validate ::
+ $(XMLLINT) --valid --noout $(XMLLINT_OPTS) $(XML_DOC).xml
endif
-###########################################
+##############################################################################
#
# Targets: clean
#
-###########################################
+##############################################################################
# we have to be careful about recursion here; since all the clean
# targets are recursive, we don't want to make eg. distclean depend on
@echo 'deletes files that may need special tools to rebuild.'
rm -f $(MOSTLY_CLEAN_FILES) $(CLEAN_FILES) $(DIST_CLEAN_FILES) $(MAINTAINER_CLEAN_FILES)
-#################################################################################
+################################################################################
#
# Way management
#
-#################################################################################
+################################################################################
# Here is the ingenious jiggery pokery that allows you to build multiple versions
# of a program in a single build tree.
# Expects: $(WAYS) the possible "way" strings to one of
# which $(way) will be set
+ifneq "$(way)" ""
+ifeq "$(findstring $(way), $(WAYS))" ""
+$(error Unknown way $(way) of $(WAYS))
+endif
+endif
# So how does $(way) ever get set to anything? Answer, we recursively
# invoke make, setting $(way) on the command line.
FPTOOLS_SUFFIXES := o hi hc
WAY_TARGETS = $(foreach way,$(WAYS),$(foreach suffix, $(FPTOOLS_SUFFIXES), %.$(way)_$(suffix)))
-LIB_WAY_TARGETS = $(foreach way,$(WAYS),%_$(way).a %_$(way))
+LIB_WAY_TARGETS = $(foreach way,$(filter-out %dyn,$(WAYS)), %_$(way).a)
+LIB_WAY_TARGETS_DYN = $(foreach way,$(filter %dyn,$(WAYS)), %$(subst dyn,-ghc$(ProjectVersion),$(subst _dyn,dyn,$(way)))$(soext))
# $@ will be something like Foo.p_o
# $(suffix $@) returns .p_o
$(LIB_WAY_TARGETS) :
$(MAKE) $(MFLAGS) $@ way=$(subst .,,$(suffix $(subst _,.,$(basename $@))))
+$(LIB_WAY_TARGETS_DYN) :
+ $(MAKE) $(MFLAGS) $@ way=$(patsubst _dyn,dyn,$(subst .,,$(suffix $(subst _,.,$(basename $(subst -ghc$(ProjectVersion),,$@)))))_dyn)
+
endif # if way
-ifneq "$(WAYS)" ""
+# -------------------------------------------------------------------------
+# Object and interface files have suffixes tagged with their ways
+
+ifneq "$(way)" ""
+SRC_HC_OPTS += -hisuf $(way_)hi -hcsuf $(way_)hc -osuf $(way_)o
+endif
+
+# -------------------------------------------------------------------------
+# Rules to invoke the current target recursively for each way
+
+ifneq "$(strip $(WAYS))" ""
ifeq "$(way)" ""
# NB: the targets exclude
# since these are way-independent
all docs TAGS clean distclean mostlyclean maintainer-clean install ::
@echo "------------------------------------------------------------------------"
- @echo "===fptools== Recursively making \`$@' for ways: $(WAYS) ..."
+ @echo "== Recursively making \`$@' for ways: $(WAYS) ..."
@echo "PWD = $(shell pwd)"
@echo "------------------------------------------------------------------------"
# Don't rely on -e working, instead we check exit return codes from sub-makes.
- @case '${MFLAGS}' in *-[ik]*) x_on_err=0;; *-r*[ik]*) x_on_err=0;; *) x_on_err=1;; esac; \
+ case '${MFLAGS}' in *-[ik]*) x_on_err=0;; *-r*[ik]*) x_on_err=0;; *) x_on_err=1;; esac; \
for i in $(WAYS) ; do \
echo "------------------------------------------------------------------------"; \
- echo "==fptools== $(MAKE) way=$$i $@;"; \
+ echo "== $(MAKE) way=$$i $@;"; \
echo "PWD = $(shell pwd)"; \
echo "------------------------------------------------------------------------"; \
$(MAKE) way=$$i --no-print-directory $(MFLAGS) $@ ; \
if [ $$? -eq 0 ] ; then true; else exit $$x_on_err; fi; \
done
@echo "------------------------------------------------------------------------"
- @echo "===fptools== Finished recursively making \`$@' for ways: $(WAYS) ..."
+ @echo "== Finished recursively making \`$@' for ways: $(WAYS) ..."
@echo "PWD = $(shell pwd)"
@echo "------------------------------------------------------------------------"
endif
endif
+
+include $(TOP)/mk/recurse.mk
+
+# -----------------------------------------------------------------------------
+# Further cleaning
+
+# Sometimes we want to clean things only after the recursve cleaning
+# has heppened (eg. if the files we're about to remove would affect
+# the recursive traversal).
+
+distclean::
+ rm -f $(LATE_DIST_CLEAN_FILES)
+
+maintainer-clean::
+ rm -f $(LATE_DIST_CLEAN_FILES)
+