CONFIGURE_FLAGS_STAGE1 += --flags=stage1
CONFIGURE_FLAGS_STAGE2 += --flags=-stage1
-CONFIGURE_FLAGS_STAGE1 += --flags=-ghci
-
ifeq "$(GhcWithNativeCodeGen)" "YES"
CONFIGURE_FLAGS_STAGE1 += --flags=ncg
CONFIGURE_FLAGS_STAGE2 += --flags=ncg
-else
-CONFIGURE_FLAGS_STAGE1 += --flags=-ncg
-CONFIGURE_FLAGS_STAGE2 += --flags=-ncg
endif
ifeq "$(GhcWithInterpreter)" "YES"
# function which sets the keepCAFs flag for the RTS before any Haskell
# code is run.
CONFIGURE_FLAGS_STAGE2 += --flags=dynlibs
-else
-CONFIGURE_FLAGS_STAGE2 += --flags=-dynlibs
endif
ifeq "$(GhcEnableTablesNextToCode) $(GhcUnregisterised)" "YES NO"
CONFIGURE_FLAGS_STAGE2 += --ghc-option=-DDEBUGGER
endif
-# Enable editline if either:
-# - we're building stage 1 and $(GhcHasEditline)="YES"
+# Enable editline if:
# - we're building stage 2/3, and we have built the editline package
#
# But we don't enable editline on Windows, as Windows terminals have
# editline-like support builtin.
#
-ifeq "$(TARGETPLATFORM)" "i386-unknown-mingw32"
-CONFIGURE_FLAGS_STAGE1 += --flags=-editline
-CONFIGURE_FLAGS_STAGE2 += --flags=-editline
-else
-ifeq "$(GhcHasEditline)" "YES"
-CONFIGURE_FLAGS_STAGE1 += --flags=editline
-else
-CONFIGURE_FLAGS_STAGE1 += --flags=-editline
-endif
+ifneq "$(TARGETPLATFORM)" "i386-unknown-mingw32"
ifeq "$(wildcard $(FPTOOLS_TOP_ABS)/libraries/editline/unbuildable)" ""
CONFIGURE_FLAGS_STAGE2 += --flags=editline
-else
-CONFIGURE_FLAGS_STAGE2 += --flags=-editline
endif
endif
-
-else
-CONFIGURE_FLAGS_STAGE2 += --flags=-ghci
endif
ifeq "$(GhcWithNativeCodeGen)" "NO"
endif
ifeq "$(TargetOS_CPP)" "openbsd"
-COMMON_CONFIGURE_FLAGS += --ld-options="-Xlinker -E"
+COMMON_CONFIGURE_FLAGS += --ld-options=-E
endif
ifeq "$(GhcUnregisterised)" "NO"
endif
endif
+# We need to turn on profiling either if we have been asked to
+# (GhcLibProfiled = YES) or if we want GHC itself to be compiled with
+# profiling enabled (GhcProfiled = YES).
+ifneq "$(GhcLibProfiled) $(GhcProfiled)" "NO NO"
+CONFIGURE_FLAGS_STAGE2 += --enable-library-profiling
+# And if we're profiling GHC then we want lots of SCCs
+ifeq "$(GhcProfiled)" "YES"
+CONFIGURE_FLAGS_STAGE2 += --ghc-option=-auto-all
+endif
+endif
+
ifeq "$(HOSTPLATFORM)" "i386-unknown-mingw32"
# The #include is vital for the via-C route with older compilers, else the C
# compiler doesn't realise that the stcall foreign imports are indeed
CONFIGURE_FLAGS_STAGE3 += $(USE_STAGE2_CONFIGURE_FLAGS)
boot.stage.%: $(PRIMOP_BITS) $(CONFIG_HS) parser/Parser.y
- test -e $(STAGE3_PACKAGE_CONF) || echo "[]" > $(STAGE3_PACKAGE_CONF)
+ test -f $(STAGE3_PACKAGE_CONF) || echo "[]" > $(STAGE3_PACKAGE_CONF)
$(CABAL) configure --distpref dist-stage$* \
$(CONFIGURE_FLAGS_STAGE$*) \
$(INSTALL_DIRS_CONFIGURE_FLAGS) \
$(MAKE) -C ../ghc stage=$*
doc.stage.%:
- $(CABAL) haddock --distpref dist-stage$*
+ $(CABAL) haddock --distpref dist-stage$* \
+ --haddock-option=--optghc=-DSTAGE=$* \
+ --with-haddock=$(FPTOOLS_TOP_ABS)/utils/haddock/install-inplace/bin/haddock
-# XXX We ought to actually install the (stage 2) library
install:
- @:
+ $(INSTALL_PACKAGE) install '$(GHC_PKG_INSTALL_PROG)' '$(DESTDIR)$(datadir)/package.conf' '$(DESTDIR)' '$(prefix)' '$(iprefix)' '$(ibindir)' '$(ilibdir)' '$(ilibexecdir)' '$(idynlibdir)' '$(idatadir)' '$(idocdir)' '$(ihtmldir)' '$(ihaddockdir)' --distpref dist-stage2
# -----------------------------------------------------------------------------
# Create compiler configuration
primop-usage.hs-incl: prelude/primops.txt
$(GENPRIMOP) --usage < $< > $@
+html:
+ $(MAKE) doc stage=2
+
+install-docs:
+ @:
+
#-----------------------------------------------------------------------------
# binary-dist
#
+# Ideally we'd get these from the Cabal file's Install-Includes:
+BINDIST_EXTRAS += HsVersions.h
+ifeq "$(stage)" "1"
+BINDIST_EXTRAS += stage1/ghc_boot_platform.h
+else
+BINDIST_EXTRAS += stage2plus/ghc_boot_platform.h
+endif
+
include $(TOP)/mk/bindist.mk
LIB_DIST_DIR = dist-stage$(stage)