rust/Makefile.in

1180 lines
40 KiB
Makefile

######################################################################
# Residual auto-configuration
######################################################################
include config.mk
MKFILES := Makefile config.mk
ifneq ($(MAKE_RESTARTS),)
CFG_INFO := $(info cfg: make restarts: $(MAKE_RESTARTS))
endif
CFG_INFO := $(info cfg: building on $(CFG_OSTYPE) $(CFG_CPUTYPE))
CFG_GCC_CFLAGS := -fno-strict-aliasing
CFG_GCC_LINK_FLAGS :=
CFG_BOOT_FLAGS := $(BOOT_FLAGS)
ifdef CFG_DISABLE_OPTIMIZE
$(info cfg: disabling rustc optimization (CFG_DISABLE_OPTIMIZE))
CFG_RUSTC_FLAGS :=
else
CFG_RUSTC_FLAGS := -O
endif
ifdef SAVE_TEMPS
CFG_RUSTC_FLAGS += --save-temps
endif
ifdef TIME_PASSES
CFG_RUSTC_FLAGS += --time-passes
endif
ifdef NO_TYPESTATE
CFG_RUSTC_FLAGS += --no-typestate
endif
# On Darwin, we need to run dsymutil so the debugging information ends
# up in the right place. On other platforms, it automatically gets
# embedded into the executable, so use a no-op command.
CFG_DSYMUTIL := true
ifeq ($(CFG_OSTYPE), FreeBSD)
CFG_LIB_NAME=lib$(1).so
CFG_GCC_CFLAGS += -fPIC -march=i686 -I/usr/local/include -O2
CFG_GCC_LINK_FLAGS += -shared -fPIC -lpthread -lrt
ifeq ($(CFG_CPUTYPE), x86_64)
CFG_GCC_CFLAGS += -m32
CFG_GCC_LINK_FLAGS += -m32
endif
CFG_UNIXY := 1
CFG_LDENV := LD_LIBRARY_PATH
CFG_DEF_SUFFIX := .bsd.def
endif
ifeq ($(CFG_OSTYPE), Linux)
CFG_LIB_NAME=lib$(1).so
CFG_GCC_CFLAGS += -fPIC -march=i686 -O2
CFG_GCC_LINK_FLAGS += -shared -fPIC -ldl -lpthread -lrt
CFG_GCC_DEF_FLAG := -Wl,--export-dynamic,--dynamic-list=
CFG_GCC_PRE_LIB_FLAGS := -Wl,-whole-archive
CFG_GCC_POST_LIB_FLAGS := -Wl,-no-whole-archive
ifeq ($(CFG_CPUTYPE), x86_64)
CFG_GCC_CFLAGS += -m32
CFG_GCC_LINK_FLAGS += -m32
endif
CFG_UNIXY := 1
CFG_LDENV := LD_LIBRARY_PATH
CFG_DEF_SUFFIX := .linux.def
endif
ifeq ($(CFG_OSTYPE), Darwin)
CFG_LIB_NAME=lib$(1).dylib
CFG_UNIXY := 1
CFG_LDENV := DYLD_LIBRARY_PATH
CFG_GCC_LINK_FLAGS += -dynamiclib -lpthread
CFG_GCC_DEF_FLAG := -Wl,-exported_symbols_list,
# Darwin has a very blurry notion of "64 bit", and claims it's running
# "on an i386" when the whole userspace is 64-bit and the compiler
# emits 64-bit binaries by default. So we just force -m32 here. Smarter
# approaches welcome!
#
# NB: Currently GCC's optimizer breaks rustrt (task-comm-1 hangs) on Darwin.
CFG_GCC_CFLAGS += -m32 -O0
CFG_GCC_LINK_FLAGS += -m32
CFG_DSYMUTIL := dsymutil
CFG_DEF_SUFFIX := .darwin.def
endif
ifneq ($(findstring MINGW,$(CFG_OSTYPE)),)
CFG_WINDOWSY := 1
endif
CFG_LDPATH :=$(CFG_BUILD_DIR)/rt
CFG_LDPATH :=$(CFG_LDPATH):$(CFG_BUILD_DIR)/rustllvm
CFG_TESTLIB=$(dir $(firstword $(1))):$(patsubst .%,%,$(suffix $(1)))
CFG_EXE_TESTLIB=$(call CFG_TESTLIB,$(patsubst %.exe,%,$(1)))
ifdef CFG_WINDOWSY
CFG_INFO := $(info cfg: windows-y environment)
CFG_EXE_SUFFIX := .exe
CFG_LIB_NAME=$(1).dll
CFG_LDPATH :=$(CFG_LDPATH):$(CFG_LLVM_BINDIR)
CFG_LDPATH :=$(CFG_LDPATH):$$PATH
CFG_RUN_TEST=PATH="$(CFG_LDPATH):$(call CFG_EXE_TESTLIB,$(1))" $(1)
CFG_RUN_TARG=PATH="$(CFG_BUILD_DIR)/$(1):$(CFG_LDPATH)" $(2)
CFG_PATH_MUNGE := $(strip perl -i.bak -p \
-e 's@\\(\S)@/\1@go;' \
-e 's@^/([a-zA-Z])/@\1:/@o;')
ifdef CFG_FLEXLINK
CFG_BOOT_NATIVE := 1
endif
CFG_GCC_CFLAGS += -march=i686 -O2
CFG_GCC_LINK_FLAGS += -shared -fPIC
CFG_DEF_SUFFIX := .def
endif
ifdef CFG_UNIXY
CFG_INFO := $(info cfg: unix-y environment)
CFG_PATH_MUNGE := true
CFG_EXE_SUFFIX :=
CFG_LDPATH :=$(CFG_LDPATH):$(CFG_LLVM_LIBDIR)
CFG_RUN_TARG=$(CFG_LDENV)=$(CFG_BUILD_DIR)/$(1):$(CFG_LDPATH) $(2)
CFG_RUN_TEST=\
$(CFG_LDENV)=$(call CFG_TESTLIB,$(1)):$(CFG_LDPATH) \
$(CFG_VALGRIND) $(1)
CFG_BOOT_NATIVE := 1
ifdef MINGW_CROSS
CFG_EXE_SUFFIX := .exe
CFG_LIB_NAME=$(1).dll
CFG_LDPATH :=$(CFG_LDPATH):$(CFG_LLVM_BINDIR)
CFG_LDPATH :=$(CFG_LDPATH):$$PATH
CFG_RUN_TARG=PATH=$(CFG_BUILD_DIR)/$(1):$(CFG_LDPATH) $(2)
CFG_RUN_TEST=PATH=$(CFG_LDPATH):$(call CFG_EXE_TESTLIB,$(1)) $(1)
CFG_INFO := $(info cfg: mingw-cross)
CFG_GCC_CROSS := i586-mingw32msvc-
CFG_BOOT_FLAGS += -t win32-x86-pe
ifdef CFG_VALGRIND
CFG_VALGRIND += wine
endif
CFG_GCC_CFLAGS := -march=i686
CFG_GCC_LINK_FLAGS := -shared
ifeq ($(CFG_CPUTYPE), x86_64)
CFG_GCC_CFLAGS += -m32
CFG_GCC_LINK_FLAGS += -m32
endif
endif
ifdef CFG_VALGRIND
CFG_VALGRIND += --leak-check=full \
--error-exitcode=1 \
--quiet --vex-iropt-level=0 \
--suppressions=$(CFG_SRC_DIR)src/etc/x86.supp
endif
endif
CFG_RUNTIME :=$(call CFG_LIB_NAME,rustrt)
CFG_RUSTLLVM :=$(call CFG_LIB_NAME,rustllvm)
CFG_STDLIB :=$(call CFG_LIB_NAME,std)
ifdef CFG_GCC
CFG_INFO := $(info cfg: using gcc)
CFG_GCC_CFLAGS += -Wall -Werror -fno-rtti -fno-exceptions -g
CFG_GCC_LINK_FLAGS += -g
CFG_COMPILE_C = $(CFG_GCC_CROSS)g++ $(CFG_GCC_CFLAGS) -c -o $(1) $(2)
CFG_DEPEND_C = $(CFG_GCC_CROSS)g++ $(CFG_GCC_CFLAGS) -MT "$(1)" -MM $(2)
CFG_LINK_C = $(CFG_GCC_CROSS)g++ $(CFG_GCC_LINK_FLAGS) -o $(1) \
$(CFG_GCC_DEF_FLAG)$(3) $(2)
else
CFG_ERR := $(error please try on a system with gcc)
endif
ifdef CFG_OCAMLC_OPT
$(info cfg: have ocaml native compiler)
OPT=.opt
else
$(info cfg: have only ocaml bytecode compiler)
endif
ifdef CFG_BOOT_PROFILE
$(info cfg: forcing native bootstrap compiler (CFG_BOOT_PROFILE))
CFG_BOOT_NATIVE := 1
CFG_OCAMLOPT_PROFILE_FLAGS := -p
endif
ifdef CFG_BOOT_DEBUG
$(info cfg: forcing bytecode bootstrap compiler (CFG_BOOT_DEBUG))
CFG_BOOT_NATIVE :=
endif
ifdef CFG_BOOT_NATIVE
$(info cfg: building native bootstrap compiler)
else
$(info cfg: building bytecode bootstrap compiler)
endif
ifdef CFG_DISABLE_VALGRIND
$(info cfg: disabling valgrind (CFG_DISABLE_VALGRIND))
CFG_VALGRIND :=
endif
DOCS :=
ifeq ($(CFG_MAKEINFO),)
$(info cfg: no makeinfo found, omitting doc/rust.html)
else
DOCS += doc/rust.html
endif
ifeq ($(CFG_TEXI2PDF),)
$(info cfg: no texi2pdf found, omitting doc/rust.pdf)
else
ifeq ($(CFG_TEX),)
$(info cfg: no tex found, omitting doc/rust.pdf)
else
DOCS += doc/rust.pdf
endif
endif
ifdef CFG_DISABLE_DOCS
$(info cfg: disabling doc build (CFG_DISABLE_DOCS))
DOCS :=
endif
######################################################################
# Target-and-rule "utility variables"
######################################################################
ifdef VERBOSE
Q :=
E =
else
Q := @
E = echo $(1)
endif
S := $(CFG_SRC_DIR)
X := $(CFG_EXE_SUFFIX)
# Look in doc and src dirs.
VPATH := $(S)doc $(S)src
# Compilers we build, we now know how to run.
BOOT := $(Q)OCAMLRUNPARAM="b1" boot/rustboot$(X) $(CFG_BOOT_FLAGS) -L boot
STAGE0 := $(Q)$(call CFG_RUN_TARG,boot,\
stage0/rustc$(X) $(CFG_RUSTC_FLAGS) -L stage0)
STAGE1 := $(Q)$(call CFG_RUN_TARG,stage0, \
stage1/rustc$(X) $(CFG_RUSTC_FLAGS) -L stage1)
STAGE2 := $(Q)$(call CFG_RUN_TARG,stage1, \
stage2/rustc$(X) $(CFG_RUSTC_FLAGS) -L stage2)
# "Source" files we generate in builddir along the way.
GENERATED := boot/fe/lexer.ml boot/version.ml
# Delete the built-in rules.
.SUFFIXES:
%:: %,v
%:: RCS/%,v
%:: RCS/%
%:: s.%
%:: SCCS/s.%
######################################################################
# Bootstrap compiler variables
######################################################################
# We must list them in link order.
# Nobody calculates the link-order DAG automatically, sadly.
BOOT_MLS := \
$(addsuffix .ml, \
boot/version \
$(addprefix boot/util/, fmt common bits) \
$(addprefix boot/driver/, session) \
$(addprefix boot/fe/, ast token lexer parser \
extfmt pexp item cexp fuzz) \
$(addprefix boot/be/, asm il abi) \
$(addprefix boot/me/, walk semant resolve alias \
simplify type dead layer typestate \
loop layout transutil trans dwarf) \
$(addprefix boot/be/, x86 ra pe elf macho) \
$(addprefix boot/driver/, lib glue main)) \
BOOT_CMOS := $(BOOT_MLS:.ml=.cmo)
BOOT_CMXS := $(BOOT_MLS:.ml=.cmx)
BOOT_OBJS := $(BOOT_MLS:.ml=.o)
BOOT_CMIS := $(BOOT_MLS:.ml=.cmi)
BS := $(S)src/boot
BOOT_ML_DEP_INCS := -I $(BS)/fe -I $(BS)/me \
-I $(BS)/be -I $(BS)/driver \
-I $(BS)/util -I boot
BOOT_ML_INCS := -I boot/fe -I boot/me \
-I boot/be -I boot/driver \
-I boot/util -I boot
BOOT_ML_LIBS := unix.cma nums.cma bigarray.cma
BOOT_ML_NATIVE_LIBS := unix.cmxa nums.cmxa bigarray.cmxa
BOOT_OCAMLC_FLAGS := -g $(BOOT_ML_INCS) -w Ael -warn-error Ael
BOOT_OCAMLOPT_FLAGS := -g $(BOOT_ML_INCS) -w Ael -warn-error Ael
ifdef CFG_FLEXLINK
BOOT_OCAMLOPT_FLAGS += -cclib -L/usr/lib
endif
######################################################################
# Runtime (C++) library variables
######################################################################
RUNTIME_CS := rt/sync/timer.cpp \
rt/sync/sync.cpp \
rt/sync/lock_and_signal.cpp \
rt/rust.cpp \
rt/rust_builtin.cpp \
rt/rust_run_program.cpp \
rt/rust_crate.cpp \
rt/rust_crate_cache.cpp \
rt/rust_crate_reader.cpp \
rt/rust_comm.cpp \
rt/rust_dom.cpp \
rt/rust_task.cpp \
rt/rust_task_list.cpp \
rt/rust_proxy.cpp \
rt/rust_chan.cpp \
rt/rust_port.cpp \
rt/rust_upcall.cpp \
rt/rust_log.cpp \
rt/rust_message.cpp \
rt/rust_timer.cpp \
rt/circular_buffer.cpp \
rt/isaac/randport.cpp \
rt/rust_srv.cpp \
rt/rust_kernel.cpp \
rt/memory_region.cpp \
rt/test/rust_test_harness.cpp \
rt/test/rust_test_runtime.cpp \
rt/test/rust_test_util.cpp
RUNTIME_HDR := rt/globals.h \
rt/rust.h \
rt/rust_dwarf.h \
rt/rust_internal.h \
rt/rust_util.h \
rt/rust_chan.h \
rt/rust_port.h \
rt/rust_dom.h \
rt/rust_task.h \
rt/rust_task_list.h \
rt/rust_proxy.h \
rt/rust_log.h \
rt/rust_message.h \
rt/circular_buffer.h \
rt/util/array_list.h \
rt/util/indexed_list.h \
rt/util/synchronized_indexed_list.h \
rt/util/hash_map.h \
rt/sync/sync.h \
rt/sync/timer.h \
rt/sync/lock_and_signal.h \
rt/sync/lock_free_queue.h \
rt/rust_srv.h \
rt/rust_kernel.h \
rt/memory_region.h \
rt/memory.h \
rt/test/rust_test_harness.h \
rt/test/rust_test_runtime.h \
rt/test/rust_test_util.h
RUNTIME_DEF := rt/rustrt$(CFG_DEF_SUFFIX)
RUNTIME_INCS := -I $(S)src/rt/isaac -I $(S)src/rt/uthash
RUNTIME_OBJS := $(RUNTIME_CS:.cpp=.o)
RUNTIME_LIBS := $(CFG_GCC_POST_LIB_FLAGS)
######################################################################
# rustc LLVM-extensions (C++) library variables
######################################################################
RUSTLLVM_LIB_CS := $(addprefix rustllvm/, \
MachOObjectFile.cpp Passes.cpp)
RUSTLLVM_OBJS_CS := $(addprefix rustllvm/, RustWrapper.cpp)
RUSTLLVM_HDR := rustllvm/include/llvm-c/Object.h
RUSTLLVM_DEF := rustllvm/rustllvm$(CFG_DEF_SUFFIX)
RUSTLLVM_INCS := -iquote $(CFG_LLVM_INCDIR) \
-iquote $(S)src/rustllvm/include
RUSTLLVM_LIB_OBJS := $(RUSTLLVM_LIB_CS:.cpp=.o)
RUSTLLVM_OBJS_OBJS := $(RUSTLLVM_OBJS_CS:.cpp=.o)
######################################################################
# Standard library variables
######################################################################
STDLIB_CRATE := $(S)src/lib/std.rc
STDLIB_INPUTS := $(wildcard $(addprefix $(S)src/lib/,*.rc *.rs */*.rs))
######################################################################
# rustc crate variables
######################################################################
COMPILER_CRATE := $(S)src/comp/rustc.rc
COMPILER_INPUTS := $(wildcard $(addprefix $(S)src/comp/, \
rustc.rc *.rs */*.rs))
######################################################################
# Test dependency variables
######################################################################
LREQ := rt/$(CFG_RUNTIME) rustllvm/$(CFG_RUSTLLVM)
BREQ := boot/rustboot$(X) boot/$(CFG_STDLIB)
SREQ0 := stage0/rustc$(X) $(LREQ) stage0/glue.o stage0/$(CFG_STDLIB)
SREQ1 := stage1/rustc$(X) $(LREQ) stage1/glue.o stage1/$(CFG_STDLIB)
SREQ2 := stage2/rustc$(X) $(LREQ) stage2/glue.o stage2/$(CFG_STDLIB)
######################################################################
# Single-target rules
######################################################################
all: boot/rustboot$(X) \
boot/$(CFG_STDLIB) \
rt/$(CFG_RUNTIME) \
rustllvm/$(CFG_RUSTLLVM) \
stage0/rustc$(X) \
stage0/glue.o \
stage0/$(CFG_STDLIB) \
$(GENERATED) \
$(DOCS)
rt/$(CFG_RUNTIME): $(RUNTIME_OBJS) $(MKFILES) $(RUNTIME_HDR) $(RUNTIME_DEF)
@$(call E, link: $@)
$(Q)$(call CFG_LINK_C,$@,$(RUNTIME_LIBS) $(RUNTIME_OBJS),$(RUNTIME_DEF))
# FIXME: Building a .a is a hack so that we build with both older and newer
# versions of LLVM. In newer versions some of the bits of this library are
# already in LLVM itself, so they are skipped.
rustllvm/rustllvmbits.a: $(RUSTLLVM_LIB_OBJS)
rm -f $@
ar crs $@ $^
# Note: We pass $(CFG_LLVM_LIBS) twice to fix the windows link since
# it has no -whole-archive.
rustllvm/$(CFG_RUSTLLVM): rustllvm/rustllvmbits.a $(RUSTLLVM_OBJS_OBJS) \
$(MKFILES) $(RUSTLLVM_HDR) $(RUSTLLVM_DEF)
@$(call E, link: $@)
$(Q)$(call CFG_LINK_C,$@,$(RUSTLLVM_OBJS_OBJS) \
$(CFG_GCC_PRE_LIB_FLAGS) $(CFG_LLVM_LIBS) \
$(CFG_GCC_POST_LIB_FLAGS) rustllvm/rustllvmbits.a \
$(CFG_LLVM_LIBS) \
$(CFG_LLVM_LDFLAGS),$(RUSTLLVM_DEF))
ifdef CFG_BOOT_NATIVE
boot/rustboot$(X): $(BOOT_CMXS) $(MKFILES)
@$(call E, link: $@)
$(Q)ocamlopt$(OPT) -o $@ $(BOOT_OCAMLOPT_FLAGS) $(BOOT_ML_NATIVE_LIBS) \
$(BOOT_CMXS)
else
boot/rustboot$(X): $(BOOT_CMOS) $(MKFILES)
@$(call E, link: $@)
$(Q)ocamlc$(OPT) -o $@ $(BOOT_OCAMLC_FLAGS) $(BOOT_ML_LIBS) $(BOOT_CMOS)
endif
boot/version.ml: $(MKFILES)
@$(call E, git: $@)
$(Q)(cd $(S) && git log -1 \
--pretty=format:'let version = "prerelease (%h %ci)";;') >$@ || exit 1
boot/$(CFG_STDLIB): $(STDLIB_CRATE) $(STDLIB_INPUTS) \
boot/rustboot$(X) $(MKFILES)
@$(call E, compile: $@)
$(BOOT) -shared -o $@ $<
stage0/std.o: $(STDLIB_CRATE) $(STDLIB_INPUTS) stage0/rustc$(X) $(MKFILES)
@$(call E, compile: $@)
$(STAGE0) -c --shared -o $@ $<
stage0/$(CFG_STDLIB): stage0/std.o stage0/glue.o
@$(call E, link: $@)
$(Q)gcc $(CFG_GCC_CFLAGS) stage0/glue.o $(CFG_GCC_LINK_FLAGS) -o $@ $< \
-Lstage0 -Lrt -lrustrt
stage1/std.o: $(STDLIB_CRATE) $(STDLIB_INPUTS) stage1/rustc$(X) $(MKFILES)
@$(call E, compile: $@)
$(STAGE1) -c --shared -o $@ $<
stage1/$(CFG_STDLIB): stage1/std.o stage1/glue.o
@$(call E, link: $@)
$(Q)gcc $(CFG_GCC_CFLAGS) stage1/glue.o $(CFG_GCC_LINK_FLAGS) -o $@ $< \
-Lstage1 -Lrt -lrustrt
stage2/std.o: $(STDLIB_CRATE) $(STDLIB_INPUTS) stage2/rustc$(X) $(MKFILES)
@$(call E, compile: $@)
$(STAGE2) -c --shared -o $@ $<
stage2/$(CFG_STDLIB): stage2/std.o stage2/glue.o
@$(call E, link: $@)
$(Q)gcc $(CFG_GCC_CFLAGS) stage2/glue.o $(CFG_GCC_LINK_FLAGS) -o $@ $< \
-Lstage2 -Lrt -lrustrt
stage0/rustc$(X): $(COMPILER_CRATE) $(COMPILER_INPUTS) $(BREQ)
@$(call E, compile: $@)
$(BOOT) -minimal -o $@ $<
$(Q)chmod 0755 $@
stage1/rustc.o: $(COMPILER_CRATE) $(COMPILER_INPUTS) $(SREQ0)
@$(call E, compile: $@)
$(STAGE0) -c -o $@ $<
stage2/rustc.o: $(COMPILER_CRATE) $(COMPILER_INPUTS) $(SREQ1)
@$(call E, compile: $@)
$(STAGE1) -c -o $@ $<
stage0/glue.o: stage0/rustc$(X) boot/$(CFG_STDLIB) \
rustllvm/$(CFG_RUSTLLVM) rt/$(CFG_RUNTIME)
@$(call E, generate: $@)
$(STAGE0) -c -o $@ --glue
stage1/glue.o: stage1/rustc$(X) stage0/$(CFG_STDLIB) \
rustllvm/$(CFG_RUSTLLVM) rt/$(CFG_RUNTIME)
@$(call E, generate: $@)
$(STAGE1) -c -o $@ --glue
stage2/glue.o: stage2/rustc$(X) stage1/$(CFG_STDLIB) \
rustllvm/$(CFG_RUSTLLVM) rt/$(CFG_RUNTIME)
@$(call E, generate: $@)
$(STAGE2) -c -o $@ --glue
# Due to make not wanting to run the same implicit rules twice on the same
# rule tree (implicit-rule recursion prevention, see "Chains of Implicit
# Rules" in GNU Make manual) we have to re-state the %.o and %.s patterns here
# for different directories, to handle cases where (say) a test relies on a
# compiler that relies on a .o file.
stage0/%.o: stage0/%.s
@$(call E, assemble [gcc]: $@)
$(Q)gcc $(CFG_GCC_CFLAGS) -o $@ -c $<
stage1/%.o: stage1/%.s
@$(call E, assemble [gcc]: $@)
$(Q)gcc $(CFG_GCC_CFLAGS) -o $@ -c $<
stage2/%.o: stage2/%.s
@$(call E, assemble [gcc]: $@)
$(Q)gcc $(CFG_GCC_CFLAGS) -o $@ -c $<
stage1/%$(X): stage1/%.o $(SREQ0)
@$(call E, link [gcc]: $@)
$(Q)gcc $(CFG_GCC_CFLAGS) stage0/glue.o -o $@ $< \
-Lstage0 -Lrustllvm -Lrt -lrustrt -lrustllvm -lstd -lm
@# dsymutil sometimes fails or prints a warning, but the
@# program still runs. Since it simplifies debugging other
@# programs, I\'ll live with the noise.
-$(Q)$(CFG_DSYMUTIL) $@
stage2/%$(X): stage2/%.o $(SREQ1)
@$(call E, link [gcc]: $@)
$(Q)gcc $(CFG_GCC_CFLAGS) stage1/glue.o -o $@ $< \
-Lstage1 -Lrustllvm -Lrt -lrustrt -lrustllvm -lstd -lm
@# dsymutil sometimes fails or prints a warning, but the
@# program still runs. Since it simplifies debugging other
@# programs, I\'ll live with the noise.
-$(Q)$(CFG_DSYMUTIL) $@
######################################################################
# Library and boot rules
######################################################################
rt/%.o: rt/%.cpp $(MKFILES)
@$(call E, compile: $@)
$(Q)$(call CFG_COMPILE_C, $@, $(RUNTIME_INCS)) $<
rustllvm/%.o: rustllvm/%.cpp $(MKFILES)
@$(call E, compile: $@)
$(Q)$(call CFG_COMPILE_C, $@, $(CFG_LLVM_CXXFLAGS) $(RUSTLLVM_INCS)) $<
%.cmo: %.ml $(MKFILES)
@$(call E, compile: $@)
$(Q)ocamlc$(OPT) -c -o $@ $(BOOT_OCAMLC_FLAGS) $<
%.cmo: %.cmi $(MKFILES)
%.cmx %.o: %.ml $(MKFILES)
@$(call E, compile: $@)
$(Q)ocamlopt$(OPT) -c -o $@ $(BOOT_OCAMLOPT_FLAGS) $<
%.ml: %.mll $(MKFILES)
@$(call E, lex-gen: $@)
$(Q)ocamllex$(OPT) -q -o $@ $<
%.linux.def: %.def.in $(MKFILES)
@$(call E, def: $@)
$(Q)echo "{" > $@
$(Q)sed 's/.$$/&;/' $< >> $@
$(Q)echo "};" >> $@
%.darwin.def: %.def.in $(MKFILES)
@$(call E, def: $@)
$(Q)sed 's/^./_&/' $< > $@
ifdef CFG_WINDOWSY
%.def: %.def.in $(MKFILES)
@$(call E, def: $@)
$(Q)echo LIBRARY $* > $@
$(Q)echo EXPORTS >> $@
$(Q)sed 's/^./ &/' $< >> $@
endif
######################################################################
# Doc rules
######################################################################
doc/version.texi: $(MKFILES) rust.texi
(cd $(S) && git log -1 \
--pretty=format:'@macro gitversion%n%h %ci%n@end macro%n') >$@
doc/%.pdf: %.texi doc/version.texi
texi2pdf -I doc -o $@ --clean $<
doc/%.html: %.texi doc/version.texi
makeinfo -I doc --html --ifhtml --force --no-split --output=$@ $<
docsnap: doc/rust.pdf
mv $< doc/rust-$(shell date +"%Y-%m-%d")-snap.pdf
######################################################################
# Testing variables
######################################################################
ALL_TEST_INPUTS = $(wildcard $(S)src/test/*/*.rs \
$(S)src/test/*/*/*.rs \
$(S)src/test/*/*.rc)
TEST_XFAILS_BOOT = $(shell grep -l xfail-boot $(ALL_TEST_INPUTS))
TEST_XFAILS_STAGE0 = $(shell grep -l xfail-stage0 $(ALL_TEST_INPUTS))
TEST_XFAILS_STAGE1 = $(shell grep -l xfail-stage1 $(ALL_TEST_INPUTS))
TEST_XFAILS_STAGE2 = $(shell grep -l xfail-stage2 $(ALL_TEST_INPUTS))
ifdef MINGW_CROSS
TEST_XFAILS_BOOT += $(S)src/test/run-pass/native-mod.rc
TEST_XFAILS_STAGE0 += $(S)src/test/run-pass/native-mod.rc
TEST_XFAILS_STAGE1 += $(S)src/test/run-pass/native-mod.rc
TEST_XFAILS_STAGE2 += $(S)src/test/run-pass/native-mod.rc
endif
ifdef CFG_WINDOWSY
TEST_XFAILS_BOOT += $(S)src/test/run-pass/native-mod.rc
TEST_XFAILS_STAGE0 += $(S)src/test/run-pass/native-mod.rc
TEST_XFAILS_STAGE1 += $(S)src/test/run-pass/native-mod.rc
TEST_XFAILS_STAGE2 += $(S)src/test/run-pass/native-mod.rc
endif
BENCH_RS = $(wildcard $(S)src/test/bench/shootout/*.rs) \
$(wildcard $(S)src/test/bench/99-bottles/*.rs)
RPASS_RC = $(wildcard $(S)src/test/run-pass/*.rc)
RPASS_RS = $(wildcard $(S)src/test/run-pass/*.rs) $(BENCH_RS)
RFAIL_RC = $(wildcard $(S)src/test/run-fail/*.rc)
RFAIL_RS = $(wildcard $(S)src/test/run-fail/*.rs)
CFAIL_RC = $(wildcard $(S)src/test/compile-fail/*.rc)
CFAIL_RS = $(wildcard $(S)src/test/compile-fail/*.rs)
ifdef CHECK_XFAILS
TEST_RPASS_CRATES_BOOT = $(filter $(TEST_XFAILS_BOOT), $(RPASS_RC))
TEST_RPASS_CRATES_STAGE0 = $(filter $(TEST_XFAILS_STAGE0), $(RPASS_RC))
TEST_RPASS_CRATES_STAGE1 = $(filter $(TEST_XFAILS_STAGE1), $(RPASS_RC))
TEST_RPASS_CRATES_STAGE2 = $(filter $(TEST_XFAILS_STAGE2), $(RPASS_RC))
TEST_RPASS_SOURCES_BOOT = $(filter $(TEST_XFAILS_BOOT), $(RPASS_RS))
TEST_RPASS_SOURCES_STAGE0 = $(filter $(TEST_XFAILS_STAGE0), $(RPASS_RS))
TEST_RPASS_SOURCES_STAGE1 = $(filter $(TEST_XFAILS_STAGE1), $(RPASS_RS))
TEST_RPASS_SOURCES_STAGE2 = $(filter $(TEST_XFAILS_STAGE2), $(RPASS_RS))
else
TEST_RPASS_CRATES_BOOT = $(filter-out $(TEST_XFAILS_BOOT), $(RPASS_RC))
TEST_RPASS_CRATES_STAGE0 = $(filter-out $(TEST_XFAILS_STAGE0), $(RPASS_RC))
TEST_RPASS_CRATES_STAGE1 = $(filter-out $(TEST_XFAILS_STAGE1), $(RPASS_RC))
TEST_RPASS_CRATES_STAGE1 = $(filter-out $(TEST_XFAILS_STAGE2), $(RPASS_RC))
TEST_RPASS_SOURCES_BOOT = $(filter-out $(TEST_XFAILS_BOOT), $(RPASS_RS))
TEST_RPASS_SOURCES_STAGE0 = $(filter-out $(TEST_XFAILS_STAGE0), $(RPASS_RS))
TEST_RPASS_SOURCES_STAGE1 = $(filter-out $(TEST_XFAILS_STAGE1), $(RPASS_RS))
TEST_RPASS_SOURCES_STAGE2 = $(filter-out $(TEST_XFAILS_STAGE2), $(RPASS_RS))
endif
TEST_RPASS_EXES_BOOT = \
$(subst $(S)src/,,$(TEST_RPASS_CRATES_BOOT:.rc=.boot$(X))) \
$(subst $(S)src/,,$(TEST_RPASS_SOURCES_BOOT:.rs=.boot$(X)))
TEST_RPASS_EXES_STAGE0 = \
$(subst $(S)src/,,$(TEST_RPASS_CRATES_STAGE0:.rc=.stage0$(X))) \
$(subst $(S)src/,,$(TEST_RPASS_SOURCES_STAGE0:.rs=.stage0$(X)))
TEST_RPASS_EXES_STAGE1 = \
$(subst $(S)src/,,$(TEST_RPASS_CRATES_STAGE1:.rc=.stage1$(X))) \
$(subst $(S)src/,,$(TEST_RPASS_SOURCES_STAGE1:.rs=.stage1$(X)))
TEST_RPASS_EXES_STAGE2 = \
$(subst $(S)src/,,$(TEST_RPASS_CRATES_STAGE1:.rc=.stage2$(X))) \
$(subst $(S)src/,,$(TEST_RPASS_SOURCES_STAGE1:.rs=.stage2$(X)))
TEST_RPASS_OUTS_BOOT = \
$(TEST_RPASS_EXES_BOOT:.boot$(X)=.boot.out)
TEST_RPASS_OUTS_STAGE0 = \
$(TEST_RPASS_EXES_STAGE0:.stage0$(X)=.stage0.out)
TEST_RPASS_OUTS_STAGE1 = \
$(TEST_RPASS_EXES_STAGE1:.stage1$(X)=.stage1.out)
TEST_RPASS_OUTS_STAGE2 = \
$(TEST_RPASS_EXES_STAGE2:.stage2$(X)=.stage2.out)
TEST_RPASS_TMPS_BOOT = \
$(TEST_RPASS_EXES_BOOT:.boot$(X)=.boot$(X).tmp)
TEST_RPASS_TMPS_STAGE0 = \
$(TEST_RPASS_EXES_STAGE0:.stage0$(X)=.stage0$(X).tmp)
TEST_RPASS_TMPS_STAGE1 = \
$(TEST_RPASS_EXES_STAGE1:.stage1$(X)=.stage1$(X).tmp)
TEST_RPASS_TMPS_STAGE2 = \
$(TEST_RPASS_EXES_STAGE2:.stage2$(X)=.stage2$(X).tmp)
TEST_RFAIL_CRATES_BOOT = $(filter-out $(TEST_XFAILS_BOOT), $(RFAIL_RC))
TEST_RFAIL_CRATES_STAGE0 = $(filter-out $(TEST_XFAILS_STAGE0), $(RFAIL_RC))
TEST_RFAIL_CRATES_STAGE1 = $(filter-out $(TEST_XFAILS_STAGE1), $(RFAIL_RC))
TEST_RFAIL_CRATES_STAGE2 = $(filter-out $(TEST_XFAILS_STAGE2), $(RFAIL_RC))
TEST_RFAIL_SOURCES_BOOT = $(filter-out $(TEST_XFAILS_BOOT), $(RFAIL_RS))
TEST_RFAIL_SOURCES_STAGE0 = $(filter-out $(TEST_XFAILS_STAGE0), $(RFAIL_RS))
TEST_RFAIL_SOURCES_STAGE1 = $(filter-out $(TEST_XFAILS_STAGE1), $(RFAIL_RS))
TEST_RFAIL_SOURCES_STAGE2 = $(filter-out $(TEST_XFAILS_STAGE2), $(RFAIL_RS))
TEST_RFAIL_EXES_BOOT = \
$(subst $(S)src/,,$(TEST_RFAIL_CRATES_BOOT:.rc=.boot$(X))) \
$(subst $(S)src/,,$(TEST_RFAIL_SOURCES_BOOT:.rs=.boot$(X)))
TEST_RFAIL_EXES_STAGE0 = \
$(subst $(S)src/,,$(TEST_RFAIL_CRATES_STAGE0:.rc=.stage0$(X))) \
$(subst $(S)src/,,$(TEST_RFAIL_SOURCES_STAGE0:.rs=.stage0$(X)))
TEST_RFAIL_EXES_STAGE1 = \
$(subst $(S)src/,,$(TEST_RFAIL_CRATES_STAGE1:.rc=.stage1$(X))) \
$(subst $(S)src/,,$(TEST_RFAIL_SOURCES_STAGE1:.rs=.stage1$(X)))
TEST_RFAIL_EXES_STAGE2 = \
$(subst $(S)src/,,$(TEST_RFAIL_CRATES_STAGE2:.rc=.stage2$(X))) \
$(subst $(S)src/,,$(TEST_RFAIL_SOURCES_STAGE2:.rs=.stage2$(X)))
TEST_RFAIL_OUTS_BOOT = \
$(TEST_RFAIL_EXES_BOOT:.boot$(X)=.boot.out)
TEST_RFAIL_OUTS_STAGE0 = \
$(TEST_RFAIL_EXES_STAGE0:.stage0$(X)=.stage0.out)
TEST_RFAIL_OUTS_STAGE1 = \
$(TEST_RFAIL_EXES_STAGE0:.stage1$(X)=.stage1.out)
TEST_RFAIL_OUTS_STAGE2 = \
$(TEST_RFAIL_EXES_STAGE0:.stage2$(X)=.stage2.out)
TEST_RFAIL_TMPS_BOOT = \
$(TEST_RFAIL_EXES_BOOT:.boot$(X)=.boot$(X).tmp)
TEST_RFAIL_TMPS_STAGE0 = \
$(TEST_RFAIL_EXES_STAGE0:.stage0$(X)=.stage0$(X).tmp)
TEST_RFAIL_TMPS_STAGE1 = \
$(TEST_RFAIL_EXES_STAGE1:.stage1$(X)=.stage1$(X).tmp)
TEST_RFAIL_TMPS_STAGE2 = \
$(TEST_RFAIL_EXES_STAGE2:.stage2$(X)=.stage2$(X).tmp)
TEST_CFAIL_CRATES_BOOT = $(filter-out $(TEST_XFAILS_BOOT), $(CFAIL_RC))
TEST_CFAIL_CRATES_STAGE0 = $(filter-out $(TEST_XFAILS_STAGE0), $(CFAIL_RC))
TEST_CFAIL_CRATES_STAGE1 = $(filter-out $(TEST_XFAILS_STAGE1), $(CFAIL_RC))
TEST_CFAIL_CRATES_STAGE2 = $(filter-out $(TEST_XFAILS_STAGE2), $(CFAIL_RC))
TEST_CFAIL_SOURCES_BOOT = $(filter-out $(TEST_XFAILS_BOOT), $(CFAIL_RS))
TEST_CFAIL_SOURCES_STAGE0 = $(filter-out $(TEST_XFAILS_STAGE0), $(CFAIL_RS))
TEST_CFAIL_SOURCES_STAGE1 = $(filter-out $(TEST_XFAILS_STAGE1), $(CFAIL_RS))
TEST_CFAIL_SOURCES_STAGE2 = $(filter-out $(TEST_XFAILS_STAGE2), $(CFAIL_RS))
TEST_CFAIL_EXES_BOOT = \
$(subst $(S)src/,,$(TEST_CFAIL_CRATES_BOOT:.rc=.boot$(X))) \
$(subst $(S)src/,,$(TEST_CFAIL_SOURCES_BOOT:.rs=.boot$(X)))
TEST_CFAIL_EXES_STAGE0 = \
$(subst $(S)src/,,$(TEST_CFAIL_CRATES_STAGE0:.rc=.stage0$(X))) \
$(subst $(S)src/,,$(TEST_CFAIL_SOURCES_STAGE0:.rs=.stage0$(X)))
TEST_CFAIL_EXES_STAGE1 = \
$(subst $(S)src/,,$(TEST_CFAIL_CRATES_STAGE1:.rc=.stage1$(X))) \
$(subst $(S)src/,,$(TEST_CFAIL_SOURCES_STAGE1:.rs=.stage1$(X)))
TEST_CFAIL_EXES_STAGE2 = \
$(subst $(S)src/,,$(TEST_CFAIL_CRATES_STAGE2:.rc=.stage2$(X))) \
$(subst $(S)src/,,$(TEST_CFAIL_SOURCES_STAGE2:.rs=.stage2$(X)))
TEST_CFAIL_OUTS_BOOT = \
$(TEST_CFAIL_EXES_BOOT:.boot$(X)=.boot.out)
TEST_CFAIL_OUTS_STAGE0 = \
$(TEST_CFAIL_EXES_STAGE0:.stage0$(X)=.stage0.out)
TEST_CFAIL_OUTS_STAGE1 = \
$(TEST_CFAIL_EXES_STAGE1:.stage1$(X)=.stage1.out)
TEST_CFAIL_OUTS_STAGE2 = \
$(TEST_CFAIL_EXES_STAGE0:.stage2$(X)=.stage2.out)
TEST_CFAIL_TMPS_BOOT = \
$(TEST_CFAIL_EXES_BOOT:.boot$(X)=.boot$(X).tmp)
TEST_CFAIL_TMPS_STAGE0 = \
$(TEST_CFAIL_EXES_STAGE0:.stage0$(X)=.stage0$(X).tmp)
TEST_CFAIL_TMPS_STAGE1 = \
$(TEST_CFAIL_EXES_STAGE1:.stage1$(X)=.stage1$(X).tmp)
TEST_CFAIL_TMPS_STAGE0 = \
$(TEST_CFAIL_EXES_STAGE2:.stage2$(X)=.stage2$(X).tmp)
ALL_TEST_CRATES = $(TEST_CFAIL_CRATES_BOOT) \
$(TEST_RFAIL_CRATES_BOOT) \
$(TEST_RPASS_CRATES_BOOT) \
$(TEST_CFAIL_CRATES_STAGE0) \
$(TEST_RFAIL_CRATES_STAGE0) \
$(TEST_RPASS_CRATES_STAGE0) \
$(TEST_CFAIL_CRATES_STAGE1) \
$(TEST_RFAIL_CRATES_STAGE1) \
$(TEST_RPASS_CRATES_STAGE1) \
$(TEST_CFAIL_CRATES_STAGE2) \
$(TEST_RFAIL_CRATES_STAGE2) \
$(TEST_RPASS_CRATES_STAGE2)
ALL_TEST_SOURCES = $(TEST_CFAIL_SOURCES_BOOT) \
$(TEST_RFAIL_SOURCES_BOOT) \
$(TEST_RPASS_SOURCES_BOOT) \
$(TEST_CFAIL_SOURCES_STAGE0) \
$(TEST_RFAIL_SOURCES_STAGE0) \
$(TEST_RPASS_SOURCES_STAGE0) \
$(TEST_CFAIL_SOURCES_STAGE1) \
$(TEST_RFAIL_SOURCES_STAGE1) \
$(TEST_RPASS_SOURCES_STAGE1) \
$(TEST_CFAIL_SOURCES_STAGE2) \
$(TEST_RFAIL_SOURCES_STAGE2) \
$(TEST_RPASS_SOURCES_STAGE2)
# The test suite currently relies on logging to validate results so
# make sure that logging uses the default configuration
unexport RUST_LOG
check_nocompile: $(TEST_CFAIL_OUTS_BOOT) \
$(TEST_CFAIL_OUTS_STAGE0)
check: tidy \
$(TEST_RPASS_EXES_BOOT) $(TEST_RFAIL_EXES_BOOT) \
$(TEST_RPASS_OUTS_BOOT) $(TEST_RFAIL_OUTS_BOOT) \
$(TEST_CFAIL_OUTS_BOOT) \
$(TEST_RPASS_EXES_STAGE0) $(TEST_RFAIL_EXES_STAGE0) \
$(TEST_RPASS_OUTS_STAGE0) $(TEST_RFAIL_OUTS_STAGE0) \
$(TEST_CFAIL_OUTS_STAGE0)
# $(TEST_RPASS_EXES_STAGE1) $(TEST_RFAIL_EXES_STAGE1) \
# $(TEST_RPASS_OUTS_STAGE1) $(TEST_RFAIL_OUTS_STAGE1) \
# $(TEST_CFAIL_OUTS_STAGE1) \
# $(TEST_RPASS_EXES_STAGE2) $(TEST_RFAIL_EXES_STAGE2) \
# $(TEST_RPASS_OUTS_STAGE2) $(TEST_RFAIL_OUTS_STAGE2) \
# $(TEST_CFAIL_OUTS_STAGE2)
compile-check: tidy \
$(TEST_RPASS_EXES_BOOT) $(TEST_RFAIL_EXES_BOOT) \
$(TEST_RPASS_EXES_STAGE0) $(TEST_RFAIL_EXES_STAGE0) \
$(TEST_RPASS_EXES_STAGE1) $(TEST_RFAIL_EXES_STAGE1) \
$(TEST_RPASS_EXES_STAGE2) $(TEST_RFAIL_EXES_STAGE2)
######################################################################
# Testing rules
######################################################################
%.stage0$(X): %.stage0.o $(SREQ0)
@$(call E, link [gcc]: $@)
$(Q)gcc $(CFG_GCC_CFLAGS) stage0/glue.o -o $@ $< \
-Lstage0 -Lrt -lrustrt -lstd -lm
@# dsymutil sometimes fails or prints a warning, but the
@# program still runs. Since it simplifies debugging other
@# programs, I\'ll live with the noise.
-$(Q)$(CFG_DSYMUTIL) $@
%.stage1$(X): %.stage1.o $(SREQ1)
@$(call E, link [gcc]: $@)
$(Q)gcc $(CFG_GCC_CFLAGS) stage1/glue.o -o $@ $< \
-Lstage1 -Lrt -lrustrt -lstd -lm
@# dsymutil sometimes fails or prints a warning, but the
@# program still runs. Since it simplifies debugging other
@# programs, I\'ll live with the noise.
-$(Q)$(CFG_DSYMUTIL) $@
%.stage2$(X): %.stage2.o $(SREQ2)
@$(call E, link [gcc]: $@)
$(Q)gcc $(CFG_GCC_CFLAGS) stage2/glue.o -o $@ $< \
-Lstage2 -Lrt -lrustrt -lstd -lm
@# dsymutil sometimes fails or prints a warning, but the
@# program still runs. Since it simplifies debugging other
@# programs, I\'ll live with the noise.
-$(Q)$(CFG_DSYMUTIL) $@
%.boot$(X): %.rs $(BREQ)
@$(call E, compile [boot]: $@)
$(BOOT) -o $@ $<
%.boot$(X): %.rc $(BREQ)
@$(call E, compile [boot]: $@)
$(BOOT) -o $@ $<
%.stage0.o: %.rc $(SREQ0)
@$(call E, compile [stage0]: $@)
$(STAGE0) -c -o $@ $<
%.stage0.o: %.rs $(SREQ0)
@$(call E, compile [stage0]: $@)
$(STAGE0) -c -o $@ $<
%.stage1.o: %.rc $(SREQ1)
@$(call E, compile [stage1]: $@)
$(STAGE1) -c -o $@ $<
%.stage1.o: %.rs $(SREQ1)
@$(call E, compile [stage1]: $@)
$(STAGE1) -c -o $@ $<
%.stage2.o: %.rc $(SREQ2)
@$(call E, compile [stage2]: $@)
$(STAGE2) -c -o $@ $<
%.stage2.o: %.rs $(SREQ2)
@$(call E, compile [stage2]: $@)
$(STAGE2) -c -o $@ $<
# Cancel the implicit .out rule in GNU make.
%.out: %
%.out: %.out.tmp
$(Q)mv $< $@
test/run-pass/%.out.tmp: test/run-pass/%$(X) rt/$(CFG_RUNTIME)
$(Q)rm -f $<.tmp
@$(call E, run: $@)
$(Q)$(call CFG_RUN_TEST, $<) > $@
test/bench/shootout/%.out.tmp: test/bench/shootout/%$(X) \
rt/$(CFG_RUNTIME)
$(Q)rm -f $<.tmp
@$(call E, run: $@)
$(Q)$(call CFG_RUN_TEST, $<) > $@
test/bench/99-bottles/%.out.tmp: test/bench/99-bottles/%$(X) \
rt/$(CFG_RUNTIME)
$(Q)rm -f $<.tmp
@$(call E, run: $@)
$(Q)$(call CFG_RUN_TEST, $<) > $@
test/run-fail/%.out.tmp: test/run-fail/%$(X) \
rt/$(CFG_RUNTIME)
$(Q)rm -f $<.tmp
@$(call E, run: $@)
$(Q)grep -q error-pattern $(S)src/test/run-fail/$(basename $*).rs
$(Q)rm -f $@
$(Q)$(call CFG_RUN_TEST, $<) >$@ 2>&1 ; X=$$? ; \
if [ $$X -eq 0 ] ; then exit 1 ; else exit 0 ; fi
$(Q)grep --text --quiet \
"$$(grep error-pattern $(S)src/test/run-fail/$(basename $*).rs \
| cut -d : -f 2- | tr -d '\n\r')" $@
test/compile-fail/%.boot.out.tmp: test/compile-fail/%.rs $(BREQ)
@$(call E, compile [boot]: $@)
$(Q)grep -q error-pattern $<
$(Q)rm -f $@
$(BOOT) -o $(@:.out=$(X)) $< >$@ 2>&1; test $$? -ne 0
$(Q)grep --text --quiet \
"$$(grep error-pattern $< | cut -d : -f 2- | tr -d '\n\r')" $@
test/compile-fail/%.stage0.out.tmp: test/compile-fail/%.rs $(SREQ0)
@$(call E, compile [stage0]: $@)
$(Q)grep -q error-pattern $<
$(Q)rm -f $@
$(STAGE0) -o $(@:.out=$(X)) $< >$@ 2>&1; test $$? -ne 0
$(Q)grep --text --quiet \
"$$(grep error-pattern $< | cut -d : -f 2- | tr -d '\n\r')" $@
######################################################################
# Auto-dependency
######################################################################
ML_DEPFILES := $(BOOT_MLS:%.ml=%.d)
C_DEPFILES := $(RUNTIME_CS:%.cpp=%.d) $(RUSTLLVM_LIB_CS:%.cpp=%.d) \
$(RUSTLLVM_OBJS_CS:%.cpp=%.d)
rt/%.d: rt/%.cpp $(MKFILES)
@$(call E, dep: $@)
$(Q)$(call CFG_DEPEND_C, $@ \
$(subst $(S)src/,,$(patsubst %.cpp, %.o, $<)), \
$(RUNTIME_INCS)) $< >$@.tmp
$(Q)$(CFG_PATH_MUNGE) $@.tmp
$(Q)rm -f $@.tmp.bak
$(Q)mv $@.tmp $@
rustllvm/%.d: rustllvm/%.cpp $(MKFILES)
@$(call E, dep: $@)
$(Q)$(call CFG_DEPEND_C, $@ \
$(subst $(S)src/,,$(patsubst %.cpp, %.o, $<)), \
$(CFG_LLVM_CXXFLAGS) $(RUSTLLVM_INCS)) $< >$@.tmp
$(Q)$(CFG_PATH_MUNGE) $@.tmp
$(Q)rm -f $@.tmp.bak
$(Q)mv $@.tmp $@
%.d: %.ml $(MKFILES)
@$(call E, dep: $@)
$(Q)ocamldep$(OPT) -slash $(BOOT_ML_DEP_INCS) $< >$@.tmp
$(Q)$(CFG_PATH_MUNGE) $@.tmp
$(Q)rm -f $@.tmp.bak
$(Q)perl -i.bak -pe "s@$(S)src/@@go" $@.tmp
$(Q)rm -f $@.tmp.bak
$(Q)mv $@.tmp $@
%.d: %.mli $(MKFILES)
@$(call E, dep: $@)
$(Q)ocamldep$(OPT) -slash $(BOOT_ML_DEP_INCS) $< >$@.tmp
$(Q)$(CFG_PATH_MUNGE) $@.tmp
$(Q)rm -f $@.tmp.bak
$(Q)perl -i.bak -pe "s@$(S)src/@@go" $@.tmp
$(Q)rm -f $@.tmp.bak
$(Q)mv $@.tmp $@
ifneq ($(MAKECMDGOALS),clean)
-include $(ML_DEPFILES) $(C_DEPFILES)
endif
RUSTBOOT_PROBE := $(wildcard boot/rustboot$(X))
ifneq ($(RUSTBOOT_PROBE),)
CFG_INFO := $(info cfg: using built boot/rustboot$(X) for rust deps)
CRATE_DEPFILES := $(subst $(S)src/,,$(ALL_TEST_CRATES:%.rc=%.d)) \
boot/$(CFG_STDLIB).d \
stage0/rustc$(X).d \
stage0/$(CFG_STDLIB).d
boot/$(CFG_STDLIB).d: $(STDLIB_CRATE) $(STDLIB_INPUTS) \
$(MKFILES) boot/rustboot$(X)
@$(call E, dep: $@)
$(BOOT) -o $(patsubst %.d,%$(X),$@) -shared -rdeps $< >$@.tmp
$(Q)$(CFG_PATH_MUNGE) $@.tmp
$(Q)rm -f $@.tmp.bak
$(Q)mv $@.tmp $@
stage0/rustc$(X).d: $(COMPILER_CRATE) $(COMPILER_INPUTS) \
$(STDLIB_CRATE) $(MKFILES) boot/rustboot$(X)
@$(call E, dep: $@)
$(BOOT) -o $(patsubst %.d,%$(X),$@) -shared -rdeps $< >$@.tmp
$(Q)$(CFG_PATH_MUNGE) $@.tmp
$(Q)rm -f $@.tmp.bak
$(Q)mv $@.tmp $@
%.d: %.rc $(MKFILES) boot/rustboot$(X)
@$(call E, dep: $@)
$(BOOT) -o $(patsubst %.d,%$(X),$@) -rdeps $< >$@.tmp
$(Q)$(CFG_PATH_MUNGE) $@.tmp
$(Q)rm -f $@.tmp.bak
$(Q)mv $@.tmp $@
ifneq ($(MAKECMDGOALS),clean)
-include $(CRATE_DEPFILES)
endif
endif
depend: boot/rustboot$(X) $(CRATE_DEPFILES) $(ML_DEPFILES) $(C_DEPFILES)
######################################################################
# Re-configuration
######################################################################
config.mk: $(S)configure $(S)Makefile.in
@$(call E, cfg: reconfiguring)
$(S)configure $(CFG_CONFIGURE_ARGS)
######################################################################
# Distribution
######################################################################
PKG_NAME := rust
PKG_VER = $(shell date +"%Y-%m-%d")-snap
PKG_DIR = $(PKG_NAME)-$(PKG_VER)
PKG_TAR = $(PKG_DIR).tar.gz
PKG_3RDPARTY := rt/valgrind.h rt/memcheck.h \
rt/isaac/rand.h rt/isaac/standard.h \
rt/uthash/uthash.h rt/uthash/utlist.h \
rt/bigint/bigint.h rt/bigint/bigint_int.cpp \
rt/bigint/bigint_ext.cpp rt/bigint/low_primes.h
PKG_FILES = \
$(wildcard $(S)src/etc/*.*) \
$(S)LICENSE.txt $(S)README \
$(S)configure $(S)Makefile.in \
$(addprefix $(S)src/, \
README boot/README comp/README \
$(filter-out $(GENERATED), $(BOOT_MLS)) \
$(RUNTIME_CS) $(RUNTIME_HDR) \
$(RUSTLLVM_LIB_CS) $(RUSTLLVM_OBJS_CS) \
$(RUSTLLVM_HDR) \
$(PKG_3RDPARTY)) \
$(GENERATED) \
$(S)src/boot/fe/lexer.ml \
$(COMPILER_INPUTS) \
$(STDLIB_INPUTS) \
$(ALL_TEST_INPUTS) \
$(GENERATED)
dist: $(PKG_TAR)
$(PKG_TAR): $(GENERATED)
@$(call E, making dist dir)
$(Q)rm -Rf dist
$(Q)mkdir -p dist/$(PKG_DIR)
$(Q)tar -c $(PKG_FILES) | tar -x -C dist/$(PKG_DIR)
$(Q)tar -czf $(PKG_TAR) -C dist $(PKG_DIR)
$(Q)rm -Rf dist
distcheck: $(PKG_TAR)
$(Q)rm -Rf dist
$(Q)mkdir -p dist
@$(call E, unpacking $(PKG_TAR) in dist/$(PKG_DIR))
$(Q)cd dist && tar -xzf ../$(PKG_TAR)
@$(call E, configuring in dist/$(PKG_DIR)-build)
$(Q)mkdir -p dist/$(PKG_DIR)-build
$(Q)cd dist/$(PKG_DIR)-build && ../$(PKG_DIR)/configure
@$(call E, making 'check' in dist/$(PKG_DIR)-build)
$(Q)make -C dist/$(PKG_DIR)-build check
@$(call E, making 'clean' in dist/$(PKG_DIR)-build)
$(Q)make -C dist/$(PKG_DIR)-build clean
$(Q)rm -Rf dist
@echo
@echo -----------------------------------------------
@echo $(PKG_TAR) ready for distribution
@echo -----------------------------------------------
######################################################################
# Cleanup
######################################################################
.PHONY: clean
tidy:
@$(call E, check: formatting)
$(Q)echo \
$(filter-out $(GENERATED) $(addprefix $(S)src/, $(GENERATED)) \
$(addprefix $(S)src/, $(RUSTLLVM_LIB_CS) $(RUSTLLVM_OBJS_CS) \
$(RUSTLLVM_HDR) $(PKG_3RDPARTY)) \
$(S)src/etc/%, $(PKG_FILES)) \
| xargs -n 10 python $(S)src/etc/tidy.py
clean:
@$(call E, cleaning)
$(Q)rm -f $(RUNTIME_OBJS) $(RUNTIME_DEF)
$(Q)rm -f $(RUSTLLVM_LIB_OBJS) $(RUSTLLVM_OBJS_OBJS) $(RUSTLLVM_DEF)
$(Q)rm -f $(BOOT_CMOS) $(BOOT_CMIS) $(BOOT_CMXS) $(BOOT_OBJS)
$(Q)rm -f $(ML_DEPFILES) $(C_DEPFILES) $(CRATE_DEPFILES)
$(Q)rm -f $(ML_DEPFILES:%.d=%.d.tmp)
$(Q)rm -f $(C_DEPFILES:%.d=%.d.tmp)
$(Q)rm -f $(CRATE_DEPFILES:%.d=%.d.tmp)
$(Q)rm -f $(GENERATED)
$(Q)rm -f boot/rustboot$(X) boot/$(CFG_STDLIB)
$(Q)rm -f stage0/rustc$(X) stage0/$(CFG_STDLIB) stage0/glue*
$(Q)rm -f stage1/rustc$(X) stage1/$(CFG_STDLIB) stage1/glue*
$(Q)rm -f stage2/rustc$(X) stage2/$(CFG_STDLIB) stage2/glue*
$(Q)rm -f rustllvm/$(CFG_RUSTLLVM) rt/$(CFG_RUNTIME)
$(Q)rm -Rf $(PKG_NAME)-*.tar.gz dist
$(Q)rm -f $(foreach ext,cmx cmi cmo cma bc o a d exe,\
$(wildcard boot/*/*.$(ext) boot/*/*/*.$(ext)))
$(Q)rm -f $(foreach ext,o a d bc s exe,$(wildcard stage*/*.$(ext)))
$(Q)rm -Rf $(foreach ext,out out.tmp \
boot$(X) stage0$(X) stage1$(X) stage2$(X) \
bc o s exe dSYM, \
$(wildcard test/*/*.$(ext) test/bench/*/*.$(ext)))
$(Q)rm -Rf $(foreach ext, \
aux cp fn ky log pdf html pg toc tp vr cps, \
$(wildcard doc/*.$(ext)))
$(Q)rm -Rf doc/version.texi