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mirror of https://github.com/RPCS3/llvm-mirror.git synced 2024-11-23 19:23:23 +01:00
llvm-mirror/Makefile.rules
2003-05-30 15:50:31 +00:00

569 lines
20 KiB
Makefile

#===-- Makefile.common - Common make rules for LLVM -------*- makefile -*--====
#
# This file is included by all of the LLVM makefiles. This file defines common
# rules to do things like compile a .cpp file or generate dependancy info.
# These are platform dependant, so this is the file used to specify these
# system dependant operations.
#
# The following functionality can be set by setting incoming variables.
# The variable $(LEVEL) *must* be set:
#
# 1. LEVEL - The level of the current subdirectory from the top of the
# MagicStats view. This level should be expressed as a path, for
# example, ../.. for two levels deep.
#
# 2. DIRS - A list of subdirectories to be built. Fake targets are set up
# so that each of the targets "all", "install", and "clean" each build
# the subdirectories before the local target. DIRS are guaranteed to be
# built in order.
#
# 3. PARALLEL_DIRS - A list of subdirectories to be built, but that may be
# built in any order. All DIRS are built in order before PARALLEL_DIRS are
# built, which are then built in any order.
#
# 4. Source - If specified, this sets the source code filenames. If this
# is not set, it defaults to be all of the .cpp, .c, .y, and .l files
# in the current directory. Also, if you want to build files in addition
# to the local files, you can use the ExtraSource variable
#
# 5. SourceDir - If specified, this specifies a directory that the source files
# are in, if they are not in the current directory. This should include a
# trailing / character.
#
# 6. PROJ_COMPILE - If set to 1, then this makefile can also be used to
# compile other projects using llvm. Note if this option is set then the
# following *must* hold
# PROJLEVEL should be set to the top of the source directory for the
# project files
# LEVEL should be set to the top of LLVM source tree
# LLVM_LIB_DIR should be set to the top of the LLVM build tree
#
#
#===-----------------------------------------------------------------------====
# Configuration file to set paths specific to local installation of LLVM
#
include $(LEVEL)/Makefile.config
# Figure out how to do platform specific stuff on this platform. This is really
# gross and should be autoconfiscated (automake actually), but should hopefully
# work on Linux and solaris (SunOS).
#
UNAME := $(shell uname)
include $(LEVEL)/Makefile.$(UNAME)
ifdef SHARED_LIBRARY
# if SHARED_LIBRARY is specified, the default is to build the dynamic lib
dynamic ::
endif
# Default Rule: Make sure it's also a :: rule
all ::
# Default for install is to at least build everything...
install ::
# Figure out which directory to build stuff into. We want to build into the
# /shared directory by default because it is guaranteed to be local to the
# current machine.
#
ifeq ($(LLVM_OBJ_DIR),.)
BUILD_ROOT = $(LLVM_OBJ_DIR)
ifdef PROJ_COMPILE
BUILD_ROOT_TOP = $(PROJLEVEL)
else
BUILD_ROOT_TOP = $(LEVEL)
endif
else
BUILD_ROOT := $(LLVM_OBJ_DIR)$(patsubst $(HOME)%,%,$(shell pwd))
# Calculate the BUILD_ROOT_TOP variable, which is the top of the llvm/ tree.
# Note that although this is just equal to $(BUILD_ROOT)/$(LEVEL), we cannot use
# this expression because some of the directories on the source tree may not
# exist in the build tree (for example the test/ heirarchy). Thus we evaluate
# the directory to eliminate the ../'s
#
ifdef PROJ_COMPILE
TOP_DIRECTORY := $(shell cd $(PROJLEVEL); pwd)
else
TOP_DIRECTORY := $(shell cd $(LEVEL); pwd)
endif
BUILD_ROOT_TOP := $(LLVM_OBJ_DIR)$(patsubst $(HOME)%,%,$(TOP_DIRECTORY))
endif
#--------------------------------------------------------------------
# Variables derived from configuration options...
#--------------------------------------------------------------------
#BinInstDir=/usr/local/bin
#LibInstDir=/usr/local/lib/xxx
#DocInstDir=/usr/doc/xxx
BURG_OPTS = -I
PURIFY := $(PURIFY) -cache-dir="$(BUILD_ROOT_TOP)/../purifycache" -chain-length="30" -messages=all
ifdef ENABLE_PROFILING
ENABLE_OPTIMIZED = 1
CONFIGURATION := Profile
else
ifdef ENABLE_OPTIMIZED
CONFIGURATION := Release
else
CONFIGURATION := Debug
endif
endif
# Shorthand for commonly accessed directories
# DESTLIBXYZ indicates destination for the libraries built
DESTLIBDEBUG := $(BUILD_ROOT_TOP)/lib/Debug
DESTLIBRELEASE := $(BUILD_ROOT_TOP)/lib/Release
DESTLIBPROFILE := $(BUILD_ROOT_TOP)/lib/Profile
DESTLIBCURRENT := $(BUILD_ROOT_TOP)/lib/$(CONFIGURATION)
ifdef PROJ_COMPILE
#get the llvm libraries from LLVM_LIB_DIR
LLVMLIBDEBUGSOURCE := $(LLVM_LIB_DIR)/lib/Debug
LLVMLIBRELEASESOURCE := $(LLVM_LIB_DIR)/lib/Release
LLVMLIBPROFILESOURCE := $(LLVM_LIB_DIR)/lib/Profile
LLVMLIBCURRENTSOURCE := $(LLVM_LIB_DIR)/lib/$(CONFIGURATION)
PROJLIBDEBUGSOURCE := $(BUILD_ROOT_TOP)/lib/Debug
PROJLIBRELEASESOURCE := $(BUILD_ROOT_TOP)/lib/Release
PROJLIBPROFILESOURCE := $(BUILD_ROOT_TOP)/lib/Profile
PROJLIBCURRENTSOURCE := $(BUILD_ROOT_TOP)/lib/$(CONFIGURATION)
else
#when we are building llvm, destination is same as source
LLVMLIBDEBUGSOURCE := $(BUILD_ROOT_TOP)/lib/Debug
LLVMLIBRELEASESOURCE := $(BUILD_ROOT_TOP)/lib/Release
LLVMLIBPROFILESOURCE := $(BUILD_ROOT_TOP)/lib/Profile
LLVMLIBCURRENTSOURCE := $(BUILD_ROOT_TOP)/lib/$(CONFIGURATION)
endif
TOOLDEBUG := $(BUILD_ROOT_TOP)/tools/Debug
TOOLRELEASE := $(BUILD_ROOT_TOP)/tools/Release
TOOLPROFILE := $(BUILD_ROOT_TOP)/tools/Profile
TOOLCURRENT := $(BUILD_ROOT_TOP)/tools/$(CONFIGURATION)
# Verbosity levels
ifndef VERBOSE
VERB := @
endif
#---------------------------------------------------------
# Compilation options...
#---------------------------------------------------------
# Special tools used while building the LLVM tree. Burg is built as part of the
# utils directory.
#
BURG := $(TOOLCURRENT)/burg
RunBurg := $(BURG) $(BURG_OPTS)
TBLGEN := $(TOOLCURRENT)/tblgen
# Enable this for profiling support with 'gprof'
# This automatically enables optimized builds.
ifdef ENABLE_PROFILING
PROFILE = -pg
endif
#if PROJDIR is defined then we include project include directory
ifndef PROJ_COMPILE
PROJ_INCLUDE = .
else
PROJ_INCLUDE = $(TOP_DIRECTORY)/include
endif
# By default, strip symbol information from executable
ifndef KEEP_SYMBOLS
STRIP = $(PLATFORMSTRIPOPTS)
STRIP_WARN_MSG = "(without symbols) "
endif
# Allow gnu extensions...
CPPFLAGS += -D_GNU_SOURCE
# -Wno-unused-parameter
CompileCommonOpts := -Wall -W -Wwrite-strings -Wno-unused -I$(LEVEL)/include -I$(PROJ_INCLUDE)
CompileOptimizeOpts := -O3 -DNDEBUG -finline-functions -fshort-enums
# Compile a cpp file, don't link...
Compile := $(CXX) -c $(CPPFLAGS) $(CXXFLAGS) $(CompileCommonOpts)
CompileG := $(Compile) -g -D_DEBUG
CompileO := $(Compile) $(CompileOptimizeOpts) -felide-constructors -fomit-frame-pointer
CompileP := $(Compile) $(CompileOptimizeOpts) -felide-constructors $(PROFILE)
# Compile a c file, don't link...
CompileC := $(CC) -c $(CPPFLAGS) $(CCFLAGS) $(CompileCommonOpts)
CompileCG := $(CompileC) -g -D_DEBUG
CompileCO := $(CompileC) $(CompileOptimizeOpts) -fomit-frame-pointer
CompileCP := $(CompileC) $(CompileOptimizeOpts) $(PROFILE)
# Link final executable
ifdef ENABLE_PURIFY # To enable purify, build with 'gmake ENABLE_PURIFY=1'
Link := $(PURIFY) $(CXX) -static
else
Link := $(CXX)
endif
ifdef PROJ_COMPILE
# include both projlib source and llvmlib source
LinkG := $(Link) -g -L$(PROJLIBDEBUGSOURCE) -L$(LLVMLIBDEBUGSOURCE) $(STRIP)
LinkO := $(Link) -O3 -L$(PROJLIBRELEASESOURCE) -L$(LLVMLIBRELEASESOURCE)
LinkP := $(Link) -O3 -L$(PROJLIBPROFILESOURCE) -L$(LLVMLIBPROFILESOURCE) $(PROFILE)
else
LinkG := $(Link) -g -L$(LLVMLIBDEBUGSOURCE) $(STRIP)
LinkO := $(Link) -O3 -L$(LLVMLIBRELEASESOURCE)
LinkP := $(Link) -O3 -L$(LLVMLIBPROFILESOURCE) $(PROFILE)
endif
# Create one .o file from a bunch of .o files...
Relink = ${LD} -r
# MakeSO - Create a .so file from a .o files...
MakeSO := $(CXX) $(MakeSharedObjectOption)
MakeSOO := $(MakeSO) -O3
MakeSOP := $(MakeSOO) $(PROFILE)
# Create dependancy file from CPP file, send to stdout.
Depend := $(CXX) -MM -I$(LEVEL)/include -I$(PROJ_INCLUDE) $(CPPFLAGS)
DependC := $(CC) -MM -I$(LEVEL)/include -I$(PROJ_INCLUDE) $(CPPFLAGS)
# Archive a bunch of .o files into a .a file...
AR = ${AR_PATH} cq
#----------------------------------------------------------
# Source includes all of the cpp files, and objects are derived from the
# source files...
# The local Makefile can list other Source files via ExtraSource = ...
#
ifndef Source
Source := $(ExtraSource) $(wildcard *.cpp *.c *.y *.l)
endif
Objs := $(sort $(patsubst Debug/%.o, %.o, $(addsuffix .o,$(notdir $(basename $(Source))))))
ObjectsO := $(addprefix $(BUILD_ROOT)/Release/,$(Objs))
ObjectsP := $(addprefix $(BUILD_ROOT)/Profile/,$(Objs))
ObjectsG := $(addprefix $(BUILD_ROOT)/Debug/,$(Objs))
#---------------------------------------------------------
# Handle the DIRS and PARALLEL_DIRS options
#---------------------------------------------------------
ifdef DIRS
all install clean test ::
$(VERB) for dir in ${DIRS}; do \
(cd $$dir; $(MAKE) $@) || exit 1; \
done
endif
# Handle PARALLEL_DIRS
ifdef PARALLEL_DIRS
all :: $(addsuffix /.makeall , $(PARALLEL_DIRS))
install :: $(addsuffix /.makeinstall, $(PARALLEL_DIRS))
clean :: $(addsuffix /.makeclean , $(PARALLEL_DIRS))
test :: $(addsuffix /.maketest , $(PARALLEL_DIRS))
%/.makeall %/.makeinstall %/.makeclean %/.maketest:
$(VERB) cd $(@D); $(MAKE) $(subst $(@D)/.make,,$@)
endif
#---------------------------------------------------------
# Handle the LIBRARYNAME option - used when building libs...
#---------------------------------------------------------
#
# When libraries are built, they are allowed to optionally define the
# DONT_BUILD_RELINKED make variable, which, when defined, prevents a .o file
# from being built for the library. This .o files may then be linked to by a
# tool if the tool does not need (or want) the semantics a .a file provides
# (linking in only object files that are "needed"). If a library is never to
# be used in this way, it is better to define DONT_BUILD_RELINKED, and define
# BUILD_ARCHIVE instead.
#
# Some libraries must be built as .a files (libscalar for example) because if
# it's built as a .o file, then all of the constituent .o files in it will be
# linked into tools (for example gccas) even if they only use one of the parts
# of it. For this reason, sometimes it's useful to use libraries as .a files.
ifdef LIBRARYNAME
# Make sure there isn't any extranous whitespace on the LIBRARYNAME option
LIBRARYNAME := $(strip $(LIBRARYNAME))
LIBNAME_O := $(DESTLIBRELEASE)/lib$(LIBRARYNAME).so
LIBNAME_P := $(DESTLIBPROFILE)/lib$(LIBRARYNAME).so
LIBNAME_G := $(DESTLIBDEBUG)/lib$(LIBRARYNAME).so
LIBNAME_AO := $(DESTLIBRELEASE)/lib$(LIBRARYNAME).a
LIBNAME_AP := $(DESTLIBPROFILE)/lib$(LIBRARYNAME).a
LIBNAME_AG := $(DESTLIBDEBUG)/lib$(LIBRARYNAME).a
LIBNAME_OBJO := $(DESTLIBRELEASE)/$(LIBRARYNAME).o
LIBNAME_OBJP := $(DESTLIBPROFILE)/$(LIBRARYNAME).o
LIBNAME_OBJG := $(DESTLIBDEBUG)/$(LIBRARYNAME).o
# dynamic target builds a shared object version of the library...
dynamic:: $(DESTLIBCURRENT)/lib$(LIBRARYNAME).so
# Does the library want a .o version built?
ifndef DONT_BUILD_RELINKED
all:: $(DESTLIBCURRENT)/$(LIBRARYNAME).o
endif
# Does the library want an archive version built?
ifdef BUILD_ARCHIVE
all:: $(DESTLIBCURRENT)/lib$(LIBRARYNAME).a
endif
$(LIBNAME_O): $(ObjectsO) $(LibSubDirs) $(DESTLIBRELEASE)/.dir
@echo ======= Linking $(LIBRARYNAME) release library =======
$(VERB) $(MakeSOO) -o $@ $(ObjectsO) $(LibSubDirs) $(LibLinkOpts)
$(LIBNAME_P): $(ObjectsP) $(LibSubDirs) $(DESTLIBPROFILE)/.dir
@echo ======= Linking $(LIBRARYNAME) profile library =======
$(VERB) $(MakeSOP) -o $@ $(ObjectsP) $(LibSubDirs) $(LibLinkOpts)
$(LIBNAME_G): $(ObjectsG) $(LibSubDirs) $(DESTLIBDEBUG)/.dir
@echo ======= Linking $(LIBRARYNAME) debug library =======
$(VERB) $(MakeSO) -g -o $@ $(ObjectsG) $(LibSubDirs) $(LibLinkOpts)
$(LIBNAME_AO): $(ObjectsO) $(LibSubDirs) $(DESTLIBRELEASE)/.dir
@echo ======= Linking $(LIBRARYNAME) release library =======
@rm -f $@
$(VERB) $(AR) $@ $(ObjectsO) $(LibSubDirs)
$(LIBNAME_AP): $(ObjectsP) $(LibSubDirs) $(DESTLIBPROFILE)/.dir
@echo ======= Linking $(LIBRARYNAME) profile library =======
@rm -f $@
$(VERB) $(AR) $@ $(ObjectsP) $(LibSubDirs)
$(LIBNAME_AG): $(ObjectsG) $(LibSubDirs) $(DESTLIBDEBUG)/.dir
@echo ======= Linking $(LIBRARYNAME) debug library =======
@rm -f $@
$(VERB) $(AR) $@ $(ObjectsG) $(LibSubDirs)
$(LIBNAME_OBJO): $(ObjectsO) $(LibSubDirs) $(DESTLIBRELEASE)/.dir
@echo "Linking $@"
$(VERB) $(Relink) -o $@ $(ObjectsO) $(LibSubDirs)
$(LIBNAME_OBJP): $(ObjectsP) $(LibSubDirs) $(DESTLIBPROFILE)/.dir
@echo "Linking $@"
$(VERB) $(Relink) -o $@ $(ObjectsP) $(LibSubDirs)
$(LIBNAME_OBJG): $(ObjectsG) $(LibSubDirs) $(DESTLIBDEBUG)/.dir
@echo "Linking $@"
$(VERB) $(Relink) -o $@ $(ObjectsG) $(LibSubDirs)
endif
#------------------------------------------------------------------------
# Create a TAGS database for emacs
#------------------------------------------------------------------------
ifeq ($(LEVEL), .)
tags:
etags -l c++ `find include lib tools -name '*.cpp' -o -name '*.h'`
all:: tags
endif
#------------------------------------------------------------------------
# Handle the TOOLNAME option - used when building tool executables...
#------------------------------------------------------------------------
#
# The TOOLNAME option should be used with a USEDLIBS variable that tells the
# libraries (and the order of the libs) that should be linked to the
# tool. USEDLIBS should contain a list of library names (some with .a extension)
# that are automatically linked in as .o files unless the .a suffix is added.
#
ifdef TOOLNAME
# TOOLEXENAME* - These compute the output filenames to generate...
TOOLEXENAME_G := $(BUILD_ROOT_TOP)/tools/Debug/$(TOOLNAME)
TOOLEXENAME_O := $(BUILD_ROOT_TOP)/tools/Release/$(TOOLNAME)
TOOLEXENAME_P := $(BUILD_ROOT_TOP)/tools/Profile/$(TOOLNAME)
TOOLEXENAMES := $(BUILD_ROOT_TOP)/tools/$(CONFIGURATION)/$(TOOLNAME)
# USED_LIBS_OPTIONS - Compute the options line that add -llib1 -llib2, etc.
ifdef PROJ_COMPILE
PROJ_LIBS_OPTIONS := $(patsubst %.a.o, -l%, $(addsuffix .o, $(USEDLIBS)))
PROJ_LIBS_OPTIONS_G := $(patsubst %.o, $(PROJLIBDEBUGSOURCE)/%.o, $(PROJ_LIBS_OPTIONS))
PROJ_LIBS_OPTIONS_O := $(patsubst %.o, $(PROJLIBRELEASESOURCE)/%.o,$(PROJ_LIBS_OPTIONS))
PROJ_LIBS_OPTIONS_P := $(patsubst %.o, $(PROJLIBPROFILESOURCE)/%.o,$(PROJ_LIBS_OPTIONS))
LLVM_LIBS_OPTIONS := $(patsubst %.a.o, -l%, $(addsuffix .o, $(LLVMLIBS)))
LLVM_LIBS_OPTIONS_G := $(patsubst %.o, $(LLVMLIBDEBUGSOURCE)/%.o, $(LLVM_LIBS_OPTIONS))
LLVM_LIBS_OPTIONS_O := $(patsubst %.o, $(LLVMLIBRELEASESOURCE)/%.o,$(LLVM_LIBS_OPTIONS))
LLVM_LIBS_OPTIONS_P := $(patsubst %.o, $(LLVMLIBPROFILESOURCE)/%.o,$(LLVM_LIBS_OPTIONS))
LIB_OPTS_G := $(LLVM_LIBS_OPTIONS_G) $(PROJ_LIBS_OPTIONS_G)
LIB_OPTS_O := $(LLVM_LIBS_OPTIONS_O) $(PROJ_LIBS_OPTIONS_P)
LIB_OPTS_P := $(LLVM_LIBS_OPTIONS_P) $(PROJ_LIBS_OPTIONS_P)
else
LLVM_LIBS_OPTIONS := $(patsubst %.a.o, -l%, $(addsuffix .o, $(USEDLIBS)))
LLVM_LIBS_OPTIONS_G := $(patsubst %.o, $(LLVMLIBDEBUGSOURCE)/%.o, $(LLVM_LIBS_OPTIONS))
LLVM_LIBS_OPTIONS_O := $(patsubst %.o, $(LLVMLIBRELEASESOURCE)/%.o,$(LLVM_LIBS_OPTIONS))
LLVM_LIBS_OPTIONS_P := $(patsubst %.o, $(LLVMLIBPROFILESOURCE)/%.o,$(LLVM_LIBS_OPTIONS))
LIB_OPTS_G := $(LLVM_LIBS_OPTIONS_G)
LIB_OPTS_O := $(LLVM_LIBS_OPTIONS_O)
LIB_OPTS_P := $(LLVM_LIBS_OPTIONS_P)
endif
# USED_LIB_PATHS - Compute the path of the libraries used so that tools are
# rebuilt if libraries change. This has to make sure to handle .a/.so and .o
# files seperately.
#
STATICUSEDLIBS := $(patsubst %.a.o, lib%.a, $(addsuffix .o, $(USEDLIBS)))
USED_LIB_PATHS_G := $(addprefix $(DESTLIBDEBUG)/, $(STATICUSEDLIBS))
USED_LIB_PATHS_O := $(addprefix $(DESTLIBRELEASE)/, $(STATICUSEDLIBS))
USED_LIB_PATHS_P := $(addprefix $(DESTLIBPROFILE)/, $(STATICUSEDLIBS))
LINK_OPTS := $(TOOLLINKOPTS) $(PLATFORMLINKOPTS)
# Tell make that we need to rebuild subdirectories before we can link the tool.
# This affects things like LLI which has library subdirectories.
$(USED_LIB_PATHS_G) $(USED_LIB_PATHS_O) $(USED_LIB_PATHS_P): \
$(addsuffix /.makeall, $(PARALLEL_DIRS))
all:: $(TOOLEXENAMES)
clean::
$(VERB) rm -f $(TOOLEXENAMES)
$(TOOLEXENAME_G): $(ObjectsG) $(USED_LIB_PATHS_G) $(TOOLDEBUG)/.dir
@echo ======= Linking $(TOOLNAME) debug executable $(STRIP_WARN_MSG)=======
$(VERB) $(LinkG) -o $@ $(ObjectsG) $(LIB_OPTS_G) $(LINK_OPTS)
$(TOOLEXENAME_O): $(ObjectsO) $(USED_LIB_PATHS_O) $(TOOLRELEASE)/.dir
@echo ======= Linking $(TOOLNAME) release executable =======
$(VERB) $(LinkO) -o $@ $(ObjectsO) $(LIB_OPTS_O) $(LINK_OPTS)
$(TOOLEXENAME_P): $(ObjectsP) $(USED_LIB_PATHS_P) $(TOOLPROFILE)/.dir
@echo ======= Linking $(TOOLNAME) profile executable =======
$(VERB) $(LinkP) -o $@ $(ObjectsP) $(LIB_OPTS_P) $(LINK_OPTS)
endif
#---------------------------------------------------------
.PRECIOUS: $(BUILD_ROOT)/Depend/.dir
.PRECIOUS: $(BUILD_ROOT)/Debug/.dir $(BUILD_ROOT)/Release/.dir
# Create .o files in the ObjectFiles directory from the .cpp and .c files...
$(BUILD_ROOT)/Release/%.o: $(SourceDir)%.cpp $(BUILD_ROOT)/Release/.dir
@echo "Compiling $<"
$(VERB) $(CompileO) $< -o $@
$(BUILD_ROOT)/Release/%.o: $(SourceDir)%.c $(BUILD_ROOT)/Release/.dir
$(VERB) $(CompileCO) $< -o $@
$(BUILD_ROOT)/Profile/%.o: $(SourceDir)%.cpp $(BUILD_ROOT)/Profile/.dir
@echo "Compiling $<"
$(VERB) $(CompileP) $< -o $@
$(BUILD_ROOT)/Profile/%.o: $(SourceDir)%.c $(BUILD_ROOT)/Profile/.dir
@echo "Compiling $<"
$(VERB) $(CompileCP) $< -o $@
$(BUILD_ROOT)/Debug/%.o: $(SourceDir)%.cpp $(BUILD_ROOT)/Debug/.dir
@echo "Compiling $<"
$(VERB) $(CompileG) $< -o $@
$(BUILD_ROOT)/Debug/%.o: $(SourceDir)%.c $(BUILD_ROOT)/Debug/.dir
$(VERB) $(CompileCG) $< -o $@
#
# Rules for building lex/yacc files
#
LEX_FILES = $(filter %.l, $(Source))
LEX_OUTPUT = $(LEX_FILES:%.l=%.cpp)
YACC_FILES = $(filter %.y, $(Source))
YACC_OUTPUT = $(addprefix $(YACC_FILES:%.y=%), .h .cpp .output)
.PRECIOUS: $(LEX_OUTPUT) $(YACC_OUTPUT)
# Create a .cpp source file from a flex input file... this uses sed to cut down
# on the warnings emited by GCC...
#
# The last line is a gross hack to work around flex aparently not being able to
# resize the buffer on a large token input. Currently, for uninitialized string
# buffers in LLVM we can generate very long tokens, so this is a hack around it.
# FIXME. (f.e. char Buffer[10000]; )
#
%.cpp: %.l
$(FLEX) -t $< | sed '/^find_rule/d' | \
sed 's/void yyunput/inline void yyunput/' | \
sed 's/void \*yy_flex_realloc/inline void *yy_flex_realloc/' | \
sed 's/#define YY_BUF_SIZE 16384/#define YY_BUF_SIZE (16384*64)/' > $@
# Rule for building the bison parsers...
%.c: %.y # Cancel built-in rules for yacc
%.h: %.y # Cancel built-in rules for yacc
%.cpp %.h : %.y
@echo Bison\'ing $<...
$(VERB) $(BISON) -v -d -p $(<:%Parser.y=%) $*.y
$(VERB) mv -f $*.tab.c $*.cpp
$(VERB) mv -f $*.tab.h $*.h
# To create the directories...
%/.dir:
$(VERB) mkdir -p $*
@date > $@
# To create postscript files from dot files...
%.ps: %.dot
dot -Tps < $< > $@
# 'make clean' nukes the tree
clean::
$(VERB) rm -rf $(BUILD_ROOT)/Debug $(BUILD_ROOT)/Release $(BUILD_ROOT)/Profile $(BUILD_ROOT)/Depend
$(VERB) rm -f core core.[0-9][0-9]* *.o *.d *.so *~ *.flc
$(VERB) rm -f $(LEX_OUTPUT) $(YACC_OUTPUT)
# If dependencies were generated for the file that included this file,
# include the dependancies now...
#
SourceBaseNames := $(basename $(notdir $(filter-out Debug/%, $(Source))))
SourceDepend := $(SourceBaseNames:%=$(BUILD_ROOT)/Depend/%.d)
# Create dependencies for the *.cpp files...
#$(SourceDepend): \x
$(BUILD_ROOT)/Depend/%.d: $(SourceDir)%.cpp $(BUILD_ROOT)/Depend/.dir
$(VERB) $(Depend) $< | sed 's|$*\.o *|$(BUILD_ROOT)/Release/& $(BUILD_ROOT)/Profile/& $(BUILD_ROOT)/Debug/& $(BUILD_ROOT)/Depend/$(@F)|g' > $@
# Create dependencies for the *.c files...
#$(SourceDepend): \x
$(BUILD_ROOT)/Depend/%.d: $(SourceDir)%.c $(BUILD_ROOT)/Depend/.dir
$(VERB) $(DependC) $< | sed 's|$*\.o *|Release/& Profile/& Debug/& Depend/$(@F)|g' > $@
ifneq ($(SourceDepend),)
-include $(SourceDepend)
endif