GHC_PROG=$(odir)/ghc-$(ProjectVersion)
endif
-ifneq "$(stage)" "2"
+ifeq "$(stage)" "1"
HS_PROG = $(GHC_PROG)
endif
@echo "cHscIfaceFileVersion = \"$(HscIfaceFileVersion)\"" >> $(CONFIG_HS)
@echo "cGhcWithNativeCodeGen = \"$(GhcWithNativeCodeGen)\"" >> $(CONFIG_HS)
@echo "cGhcUnregisterised = \"$(GhcUnregisterised)\"" >> $(CONFIG_HS)
+ @echo "cGhcEnableTablesNextToCode = \"$(GhcEnableTablesNextToCode)\"" >> $(CONFIG_HS)
@echo "cLeadingUnderscore = \"$(LeadingUnderscore)\"" >> $(CONFIG_HS)
@echo "cRAWCPP_FLAGS = \"$(RAWCPP_FLAGS)\"" >> $(CONFIG_HS)
@echo "cGCC = \"$(WhatGccIsCalled)\"" >> $(CONFIG_HS)
ifeq "$(GhcWithInterpreter) $(bootstrapped)" "YES YES"
# Yes, include the interepreter, readline, and Template Haskell extensions
-SRC_HC_OPTS += -DGHCI -DBREAKPOINT -package template-haskell
+SRC_HC_OPTS += -DGHCI -package template-haskell
PKG_DEPENDS += template-haskell
+# Should GHCI be building info tables in the TABLES_NEXT_TO_CODE style
+# or not?
+ifeq "$(GhcEnableTablesNextToCode) $(GhcUnregisterised)" "YES NO"
+SRC_HC_OPTS += -DGHCI_TABLES_NEXT_TO_CODE
+endif
+
+ifneq "$(GhcNotThreaded)" "YES"
# Use threaded RTS with GHCi, so threads don't get blocked at the prompt.
SRC_HC_OPTS += -threaded
+endif
ALL_DIRS += ghci
PKG_DEPENDS += Cabal
endif
-# We use Text.Regex which is in regex-compat with GHC 6.6+
-ifeq "$(bootstrapped)" "YES"
-SRC_HC_OPTS += -package regex-compat
-PKG_DEPENDS += regex-compat
-else
-ifeq "$(ghc_ge_605)" "YES"
-SRC_HC_OPTS += -package regex-compat
-endif
-endif
-
ifeq "$(ghc_ge_603)" "YES"
# Ignore lang, to avoid potential clash with the Generics module if
# lang happens to be a dependency of some exposed package in the local
# (On other system, -W isn't a pwd flag at all.)
ifeq "$(TARGETPLATFORM)" "i386-unknown-mingw32"
-# MSys
-SCRIPT_SHELL = $(shell cd /bin; pwd -W)/sh
+all :: $(odir)/ghc-inplace.bat ghc-inplace.bat
+CLEAN_FILES += $(odir)/ghc-inplace.bat ghc-inplace.bat
+endif
+
+ifeq "$(TARGETPLATFORM)" "i386-unknown-mingw32"
+# MSys (...and cygwin with a mingw toolchain)
+SCRIPT_SHELL = $(shell cd /bin; pwd -W 2>/dev/null || echo "/bin")/sh
else
# Cygwin and Unix
SCRIPT_SHELL = /bin/sh
endif
-# Note 2
+# MSys Note 2
# On MSys, we must use the following script for ghc-inplace:
# exec /c/darcs/fc-branch-2/compiler/stage1/ghc -Bc:/darcs/fc-branch-2 "$@"
# That is,
# Re exec, see note 2 above
chmod 755 $@
+# MSys Note 3
+# When we generate a .bat file, we must also use the form
+# @call c:\darcs\fc-branch-2\compiler\stage1\ghc-inplace
+# else the cmd shell gets confused; indeed it seems to simply hang
+# Hence the use of $(FPTOOLS_TOP_ABS_PLATFORM) here, just like MSys Note 2
+
+ifeq "$(TARGETPLATFORM)" "i386-unknown-mingw32"
+ghc-inplace.bat $(odir)/ghc-inplace.bat: $(GHC_PROG)
+ @$(RM) $@
+ echo '@call $(subst /,\,$(FPTOOLS_TOP_ABS_PLATFORM)/$(GHC_COMPILER_DIR_REL)/$(GHC_PROG)) -B$(FPTOOLS_TOP_ABS_PLATFORM) %*' >> $@
+ chmod 755 $@
+endif
+
ghc-inplace : stage1/ghc-inplace
$(RM) -f $@ && $(LN_S) $< $@
#-----------------------------------------------------------------------------
# Building the GHC package
-# The GHC package is made from the stage 2 build. Fortunately the
-# package build system framework more or less does the right thing for
-# us here.
-
-# All this section is stage-2 only!
-ifeq "$(stage)" "2"
+# The GHC package is made from the stage 2 build and later.
+# Fortunately the package build system framework more or less does the
+# right thing for us here.
+ifneq "$(findstring $(stage), 2 3)" ""
PACKAGE = ghc
HIERARCHICAL_LIB = NO
VERSION = $(ProjectVersion)
PKG_DEPENDS += base haskell98
PACKAGE_CPP_OPTS += -DPKG_DEPENDS='$(PKG_DEPENDS)'
+PACKAGE_CPP_OPTS += -DSTAGE='"$(stage)"'
# Omit Main from the library, the client will want to plug their own Main in
LIBOBJS = $(filter-out $(odir)/main/Main.o $(odir)/parser/hschooks.o, $(OBJS))
# Haddock can't handle recursive modules currently, so we disable it for now.
NO_HADDOCK_DOCS = YES
+# Tell package.mk not to set $(HC)
+NO_SET_HC = YES
+
# The stage 2 GHC binary itself is built by compiling main/Main.hs
# (the same as used in stage 1) against the GHC package.
#
all :: $(GHC_PROG)
-$(GHC_PROG) : libHS$(PACKAGE)$(_way).a main/Main.hs
+# The stage 2 and stage 3 package.conf.in files are different, because they
+# point to either the stage2/ or stage3/ dirs in import-dirs. Hence before
+# linking the ghc binary we must install the correct version of the package
+# configuration. Yeuch... maybe one day this will all be done more cleanly.
+STAMP_PKG_CONF = $(GHC_DRIVER_DIR)/stamp-pkg-conf-$(PACKAGE)
+
+ifeq "$(GhcBuildDylibs)" "YES"
+ifeq "$(darwin_TARGET_OS)" "1"
+GhcLibraryName=libHS$(PACKAGE)$(_way)_dyn.dylib
+else
+GhcLibraryName=libHS$(PACKAGE)$(_way)_dyn.so
+endif
+else
+GhcLibraryName=libHS$(PACKAGE)$(_way).a
+endif
+
+$(GHC_PROG) : $(GhcLibraryName) main/Main.hs
+ $(RM) package.conf.inplace
+ $(RM) $(STAMP_PKG_CONF)
+ $(MAKE) $(STAMP_PKG_CONF)
$(MAKE) -f Makefile.ghcbin $(MFLAGS) HS_PROG=$(GHC_PROG) $@
# Propagate standard targets to Makefile.ghcbin