mame/makefile

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2007-12-17 16:19:59 +01:00
###########################################################################
#
# makefile
#
# Core makefile for building MAME and derivatives
#
# Copyright (c) Nicola Salmoria and the MAME Team.
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# Visit http://mamedev.org for licensing and usage restrictions.
#
###########################################################################
###########################################################################
################# BEGIN USER-CONFIGURABLE OPTIONS #####################
###########################################################################
#-------------------------------------------------
# specify core target: mame, mess, etc.
# specify subtarget: mame, mess, tiny, etc.
# build rules will be included from
# src/$(TARGET)/$(SUBTARGET).mak
#-------------------------------------------------
ifndef TARGET
TARGET = mame
endif
ifndef SUBTARGET
SUBTARGET = $(TARGET)
endif
#-------------------------------------------------
# specify OSD layer: windows, sdl, etc.
# build rules will be included from
# src/osd/$(OSD)/$(OSD).mak
#-------------------------------------------------
ifndef OSD
ifeq ($(OS),Windows_NT)
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OSD = windows
TARGETOS = win32
else
OSD = sdl
endif
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endif
ifndef CROSS_BUILD_OSD
CROSS_BUILD_OSD = $(OSD)
endif
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#-------------------------------------------------
# specify OS target, which further differentiates
# the underlying OS; supported values are:
# win32, unix, macosx, os2
#-------------------------------------------------
ifndef TARGETOS
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ifeq ($(OS),Windows_NT)
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TARGETOS = win32
else
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ifneq ($(CROSSBUILD),1)
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ifneq ($(OS2_SHELL),)
TARGETOS = os2
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else
UNAME = $(shell uname -a)
ifeq ($(firstword $(filter Linux,$(UNAME))),Linux)
TARGETOS = linux
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endif
ifeq ($(firstword $(filter Solaris,$(UNAME))),Solaris)
TARGETOS = solaris
endif
ifeq ($(firstword $(filter FreeBSD,$(UNAME))),FreeBSD)
TARGETOS = freebsd
endif
ifeq ($(firstword $(filter GNU/kFreeBSD,$(UNAME))),GNU/kFreeBSD)
TARGETOS = freebsd
endif
ifeq ($(firstword $(filter NetBSD,$(UNAME))),NetBSD)
TARGETOS = netbsd
endif
ifeq ($(firstword $(filter OpenBSD,$(UNAME))),OpenBSD)
TARGETOS = openbsd
endif
ifeq ($(firstword $(filter Darwin,$(UNAME))),Darwin)
TARGETOS = macosx
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endif
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ifeq ($(firstword $(filter Haiku,$(UNAME))),Haiku)
TARGETOS = haiku
endif
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ifndef TARGETOS
$(error Unable to detect TARGETOS from uname -a: $(UNAME))
endif
# Autodetect PTR64
ifndef PTR64
ifeq ($(firstword $(filter x86_64,$(UNAME))),x86_64)
PTR64 = 1
endif
ifeq ($(firstword $(filter amd64,$(UNAME))),amd64)
PTR64 = 1
endif
ifeq ($(firstword $(filter ppc64,$(UNAME))),ppc64)
PTR64 = 1
endif
endif
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# Autodetect BIGENDIAN
# MacOSX
ifndef BIGENDIAN
ifneq (,$(findstring Power,$(UNAME)))
BIGENDIAN=1
endif
# Linux
ifneq (,$(findstring ppc,$(UNAME)))
BIGENDIAN=1
endif
endif # BIGENDIAN
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endif # OS/2
endif # CROSS_BUILD
endif # Windows_NT
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endif # TARGET_OS
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ifeq ($(TARGETOS),win32)
# Autodetect PTR64
ifndef PTR64
ifneq (,$(findstring mingw64-w64,$(PATH)))
PTR64=1
endif
endif
endif
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#-------------------------------------------------
# configure name of final executable
#-------------------------------------------------
# uncomment and specify prefix to be added to the name
# PREFIX =
# uncomment and specify suffix to be added to the name
# SUFFIX =
#-------------------------------------------------
# specify architecture-specific optimizations
#-------------------------------------------------
# uncomment and specify architecture-specific optimizations here
# some examples:
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# ARCHOPTS = -march=pentiumpro # optimize for I686
# ARCHOPTS = -march=core2 # optimize for Core 2
# ARCHOPTS = -march=native # optimize for local machine (auto detect)
# ARCHOPTS = -mcpu=G4 # optimize for G4
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# note that we leave this commented by default so that you can
# configure this in your environment and never have to think about it
# ARCHOPTS =
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#-------------------------------------------------
# specify program options; see each option below
# for details
#-------------------------------------------------
# uncomment next line to build a debug version
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# DEBUG = 1
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# uncomment next line to include the internal profiler
# PROFILER = 1
# uncomment the force the universal DRC to always use the C backend
# you may need to do this if your target architecture does not have
# a native backend
# FORCE_DRC_C_BACKEND = 1
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# uncomment next line to build using unix-style libsdl on Mac OS X
# (vs. the native framework port). Normal users should not enable this.
# MACOSX_USE_LIBSDL = 1
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#-------------------------------------------------
# specify build options; see each option below
# for details
#-------------------------------------------------
# uncomment next line if you are building for a 64-bit target
# PTR64 = 1
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# uncomment next line if you are building for a big-endian target
# BIGENDIAN = 1
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# uncomment next line to build expat as part of MAME build
BUILD_EXPAT = 1
# uncomment next line to build zlib as part of MAME build
BUILD_ZLIB = 1
# uncomment next line to build libflac as part of MAME build
BUILD_FLAC = 1
# uncomment next line to build jpeglib as part of MAME build
BUILD_JPEGLIB = 1
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# uncomment next line to include the symbols
# SYMBOLS = 1
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# specify symbols level or leave commented to use the default
# (default is SYMLEVEL = 2 normally; use 1 if you only need backtrace)
# SYMLEVEL = 2
# uncomment next line to dump the symbols to a .sym file
# DUMPSYM = 1
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# uncomment next line to include profiling information from the compiler
# PROFILE = 1
# uncomment next line to generate a link map for exception handling in windows
# MAP = 1
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# uncomment next line to generate verbose build information
# VERBOSE = 1
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# specify optimization level or leave commented to use the default
# (default is OPTIMIZE = 3 normally, or OPTIMIZE = 0 with symbols)
# OPTIMIZE = 3
###########################################################################
################## END USER-CONFIGURABLE OPTIONS ######################
###########################################################################
#-------------------------------------------------
# sanity check the configuration
#-------------------------------------------------
# specify a default optimization level if none explicitly stated
ifndef OPTIMIZE
ifndef SYMBOLS
OPTIMIZE = 3
else
OPTIMIZE = 0
endif
endif
# profiler defaults to on for DEBUG builds
ifdef DEBUG
ifndef PROFILER
PROFILER = 1
endif
endif
# allow gprof profiling as well, which overrides the internal PROFILER
# also enable symbols as it is useless without them
ifdef PROFILE
PROFILER =
SYMBOLS = 1
ifndef SYMLEVEL
SYMLEVEL = 1
endif
endif
# set the symbols level
ifdef SYMBOLS
ifndef SYMLEVEL
SYMLEVEL = 2
endif
endif
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#-------------------------------------------------
# platform-specific definitions
#-------------------------------------------------
# extension for executables
EXE =
ifeq ($(TARGETOS),win32)
EXE = .exe
endif
ifeq ($(TARGETOS),os2)
EXE = .exe
endif
ifndef BUILD_EXE
BUILD_EXE = $(EXE)
endif
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# compiler, linker and utilities
AR = @ar
CC = @gcc
LD = @g++
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MD = -mkdir$(EXE)
RM = @rm -f
OBJDUMP = @objdump
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#-------------------------------------------------
# form the name of the executable
#-------------------------------------------------
# reset all internal prefixes/suffixes
PREFIXSDL =
SUFFIX64 =
SUFFIXDEBUG =
SUFFIXPROFILE =
# Windows SDL builds get an SDL prefix
ifeq ($(OSD),sdl)
ifeq ($(TARGETOS),win32)
PREFIXSDL = sdl
endif
endif
# 64-bit builds get a '64' suffix
ifeq ($(PTR64),1)
SUFFIX64 = 64
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endif
# debug builds just get the 'd' suffix and nothing more
ifdef DEBUG
SUFFIXDEBUG = d
endif
# gprof builds get an addition 'p' suffix
ifdef PROFILE
SUFFIXPROFILE = p
endif
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# the name is just 'target' if no subtarget; otherwise it is
# the concatenation of the two (e.g., mametiny)
ifeq ($(TARGET),$(SUBTARGET))
NAME = $(TARGET)
else
NAME = $(TARGET)$(SUBTARGET)
endif
# fullname is prefix+name+suffix+suffix64+suffixdebug
FULLNAME = $(PREFIX)$(PREFIXSDL)$(NAME)$(SUFFIX)$(SUFFIX64)$(SUFFIXDEBUG)$(SUFFIXPROFILE)
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# add an EXE suffix to get the final emulator name
EMULATOR = $(FULLNAME)$(EXE)
#-------------------------------------------------
# source and object locations
#-------------------------------------------------
# all sources are under the src/ directory
SRC = src
# build the targets in different object dirs, so they can co-exist
OBJ = obj/$(PREFIX)$(OSD)$(SUFFIX)$(SUFFIX64)$(SUFFIXDEBUG)$(SUFFIXPROFILE)
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#-------------------------------------------------
# compile-time definitions
#-------------------------------------------------
# CR/LF setup: use both on win32/os2, CR only on everything else
DEFS = -DCRLF=2
ifeq ($(TARGETOS),win32)
DEFS = -DCRLF=3
endif
ifeq ($(TARGETOS),os2)
DEFS = -DCRLF=3
endif
# map the INLINE to something digestible by GCC
DEFS += -DINLINE="static inline"
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# define LSB_FIRST if we are a little-endian target
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ifndef BIGENDIAN
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DEFS += -DLSB_FIRST
endif
# define PTR64 if we are a 64-bit target
ifeq ($(PTR64),1)
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DEFS += -DPTR64
endif
# define MAME_DEBUG if we are a debugging build
ifdef DEBUG
DEFS += -DMAME_DEBUG
else
DEFS += -DNDEBUG
endif
# define MAME_PROFILER if we are a profiling build
ifdef PROFILER
DEFS += -DMAME_PROFILER
endif
# define USE_NETWORK if we are a making network enabled build
ifdef USE_NETWORK
DEFS += -DUSE_NETWORK
endif
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Move devices into a proper hierarchy and handle naming and paths consistently for devices, I/O ports, memory regions, memory banks, and memory shares. [Aaron Giles] NOTE: there are likely regressions lurking here, mostly due to devices not being properly found. I have temporarily added more logging to -verbose to help understand what's going on. Please let me know ASAP if anything that is being actively worked on got broken. As before, the driver device is the root device and all other devices are owned by it. Previously all devices were kept in a single master list, and the hierarchy was purely logical. With this change, each device owns its own list of subdevices, and the hierarchy is explicitly manifest. This means when a device is removed, all of its subdevices are automatically removed as well. A side effect of this is that walking the device list is no longer simple. To address this, a new set of iterator classes is provided, which walks the device tree in a depth first manner. There is a general device_iterator class for walking all devices, plus templates for a device_type_iterator and a device_interface_iterator which are used to build iterators for identifying only devices of a given type or with a given interface. Typedefs for commonly-used cases (e.g., screen_device_iterator, memory_interface_iterator) are provided. Iterators can also provide counts, and can perform indexed lookups. All device name lookups are now done relative to another device. The maching_config and running_machine classes now have a root_device() method to get the root of the hierarchy. The existing machine->device("name") is now equivalent to machine->root_device().subdevice("name"). A proper and normalized device path structure is now supported. Device names that start with a colon are treated as absolute paths from the root device. Device names can also use a caret (^) to refer to the owning device. Querying the device's tag() returns the device's full path from the root. A new method basetag() returns just the final tag. The new pathing system is built on top of the device_t::subtag() method, so anyone using that will automatically support the new pathing rules. Each device has its own internal map to cache successful lookups so that subsequent lookups should be very fast. Updated every place I could find that referenced devices, memory regions, I/O ports, memory banks and memory shares to leverage subtag/subdevice (or siblingtag/siblingdevice which are built on top). Removed the device_list class, as it doesn't apply any more. Moved some of its methods into running_machine instead. Simplified the device callback system since the new pathing can describe all of the special-case devices that were previously handled manually. Changed the core output function callbacks to be delegates. Completely rewrote the validity checking mechanism. The validity checker is now a proper C++ class, and temporarily takes over the error and warning outputs. All errors and warnings are collected during a session, and then output in a consistent manner, with an explicit driver and source file listed for each one, as well as additional device and/or I/O port contexts where appropriate. Validity checkers should no longer explicitly output this information, just the error, assuming that the context is provided. Rewrote the software_list_device as a modern device, getting rid of the software_list_config abstraction and simplifying things. Changed the way FLAC compiles so that it works like other external libraries, and also compiles successfully for MSVC builds.
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# need to ensure FLAC functions are statically linked
ifeq ($(BUILD_FLAC),1)
Move devices into a proper hierarchy and handle naming and paths consistently for devices, I/O ports, memory regions, memory banks, and memory shares. [Aaron Giles] NOTE: there are likely regressions lurking here, mostly due to devices not being properly found. I have temporarily added more logging to -verbose to help understand what's going on. Please let me know ASAP if anything that is being actively worked on got broken. As before, the driver device is the root device and all other devices are owned by it. Previously all devices were kept in a single master list, and the hierarchy was purely logical. With this change, each device owns its own list of subdevices, and the hierarchy is explicitly manifest. This means when a device is removed, all of its subdevices are automatically removed as well. A side effect of this is that walking the device list is no longer simple. To address this, a new set of iterator classes is provided, which walks the device tree in a depth first manner. There is a general device_iterator class for walking all devices, plus templates for a device_type_iterator and a device_interface_iterator which are used to build iterators for identifying only devices of a given type or with a given interface. Typedefs for commonly-used cases (e.g., screen_device_iterator, memory_interface_iterator) are provided. Iterators can also provide counts, and can perform indexed lookups. All device name lookups are now done relative to another device. The maching_config and running_machine classes now have a root_device() method to get the root of the hierarchy. The existing machine->device("name") is now equivalent to machine->root_device().subdevice("name"). A proper and normalized device path structure is now supported. Device names that start with a colon are treated as absolute paths from the root device. Device names can also use a caret (^) to refer to the owning device. Querying the device's tag() returns the device's full path from the root. A new method basetag() returns just the final tag. The new pathing system is built on top of the device_t::subtag() method, so anyone using that will automatically support the new pathing rules. Each device has its own internal map to cache successful lookups so that subsequent lookups should be very fast. Updated every place I could find that referenced devices, memory regions, I/O ports, memory banks and memory shares to leverage subtag/subdevice (or siblingtag/siblingdevice which are built on top). Removed the device_list class, as it doesn't apply any more. Moved some of its methods into running_machine instead. Simplified the device callback system since the new pathing can describe all of the special-case devices that were previously handled manually. Changed the core output function callbacks to be delegates. Completely rewrote the validity checking mechanism. The validity checker is now a proper C++ class, and temporarily takes over the error and warning outputs. All errors and warnings are collected during a session, and then output in a consistent manner, with an explicit driver and source file listed for each one, as well as additional device and/or I/O port contexts where appropriate. Validity checkers should no longer explicitly output this information, just the error, assuming that the context is provided. Rewrote the software_list_device as a modern device, getting rid of the software_list_config abstraction and simplifying things. Changed the way FLAC compiles so that it works like other external libraries, and also compiles successfully for MSVC builds.
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DEFS += -DFLAC__NO_DLL
endif
# define USE_SYSTEM_JPEGLIB if library shipped with MAME is not used
ifneq ($(BUILD_JPEGLIB),1)
DEFS += -DUSE_SYSTEM_JPEGLIB
endif
Move devices into a proper hierarchy and handle naming and paths consistently for devices, I/O ports, memory regions, memory banks, and memory shares. [Aaron Giles] NOTE: there are likely regressions lurking here, mostly due to devices not being properly found. I have temporarily added more logging to -verbose to help understand what's going on. Please let me know ASAP if anything that is being actively worked on got broken. As before, the driver device is the root device and all other devices are owned by it. Previously all devices were kept in a single master list, and the hierarchy was purely logical. With this change, each device owns its own list of subdevices, and the hierarchy is explicitly manifest. This means when a device is removed, all of its subdevices are automatically removed as well. A side effect of this is that walking the device list is no longer simple. To address this, a new set of iterator classes is provided, which walks the device tree in a depth first manner. There is a general device_iterator class for walking all devices, plus templates for a device_type_iterator and a device_interface_iterator which are used to build iterators for identifying only devices of a given type or with a given interface. Typedefs for commonly-used cases (e.g., screen_device_iterator, memory_interface_iterator) are provided. Iterators can also provide counts, and can perform indexed lookups. All device name lookups are now done relative to another device. The maching_config and running_machine classes now have a root_device() method to get the root of the hierarchy. The existing machine->device("name") is now equivalent to machine->root_device().subdevice("name"). A proper and normalized device path structure is now supported. Device names that start with a colon are treated as absolute paths from the root device. Device names can also use a caret (^) to refer to the owning device. Querying the device's tag() returns the device's full path from the root. A new method basetag() returns just the final tag. The new pathing system is built on top of the device_t::subtag() method, so anyone using that will automatically support the new pathing rules. Each device has its own internal map to cache successful lookups so that subsequent lookups should be very fast. Updated every place I could find that referenced devices, memory regions, I/O ports, memory banks and memory shares to leverage subtag/subdevice (or siblingtag/siblingdevice which are built on top). Removed the device_list class, as it doesn't apply any more. Moved some of its methods into running_machine instead. Simplified the device callback system since the new pathing can describe all of the special-case devices that were previously handled manually. Changed the core output function callbacks to be delegates. Completely rewrote the validity checking mechanism. The validity checker is now a proper C++ class, and temporarily takes over the error and warning outputs. All errors and warnings are collected during a session, and then output in a consistent manner, with an explicit driver and source file listed for each one, as well as additional device and/or I/O port contexts where appropriate. Validity checkers should no longer explicitly output this information, just the error, assuming that the context is provided. Rewrote the software_list_device as a modern device, getting rid of the software_list_config abstraction and simplifying things. Changed the way FLAC compiles so that it works like other external libraries, and also compiles successfully for MSVC builds.
2012-01-24 21:18:55 +01:00
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#-------------------------------------------------
# compile flags
# CCOMFLAGS are common flags
# CONLYFLAGS are flags only used when compiling for C
# CPPONLYFLAGS are flags only used when compiling for C++
# COBJFLAGS are flags only used when compiling for Objective-C(++)
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#-------------------------------------------------
# start with empties for everything
CCOMFLAGS =
CONLYFLAGS =
COBJFLAGS =
CPPONLYFLAGS =
# CFLAGS is defined based on C or C++ targets
# (remember, expansion only happens when used, so doing it here is ok)
CFLAGS = $(CCOMFLAGS) $(CPPONLYFLAGS)
# we compile C-only to C89 standard with GNU extensions
# we compile C++ code to C++98 standard with GNU extensions
CONLYFLAGS += -std=gnu89
CPPONLYFLAGS += -x c++ -std=gnu++98
COBJFLAGS += -x objective-c++
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# this speeds it up a bit by piping between the preprocessor/compiler/assembler
CCOMFLAGS += -pipe
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# add -g if we need symbols, and ensure we have frame pointers
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ifdef SYMBOLS
CCOMFLAGS += -g$(SYMLEVEL) -fno-omit-frame-pointer
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endif
# add -v if we need verbose build information
ifdef VERBOSE
CCOMFLAGS += -v
endif
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# add profiling information for the compiler
ifdef PROFILE
CCOMFLAGS += -pg
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endif
# add the optimization flag
CCOMFLAGS += -O$(OPTIMIZE)
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# add the error warning flag
ifndef NOWERROR
CCOMFLAGS += -Werror
endif
# if we are optimizing, include optimization options
ifneq ($(OPTIMIZE),0)
CCOMFLAGS += -fno-strict-aliasing $(ARCHOPTS)
endif
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# add a basic set of warnings
CCOMFLAGS += \
-Wall \
-Wcast-align \
-Wundef \
-Wformat-security \
-Wwrite-strings \
-Wno-sign-compare \
-Wno-conversion
# warnings only applicable to C compiles
CONLYFLAGS += \
-Wpointer-arith \
-Wbad-function-cast \
-Wstrict-prototypes
# warnings only applicable to OBJ-C compiles
COBJFLAGS += \
-Wpointer-arith
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# warnings only applicable to C++ compiles
CPPONLYFLAGS += \
-Woverloaded-virtual
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#-------------------------------------------------
# include paths
#-------------------------------------------------
# add core include paths
INCPATH += \
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-I$(SRC)/$(TARGET) \
-I$(OBJ)/$(TARGET)/layout \
-I$(SRC)/emu \
-I$(OBJ)/emu \
-I$(OBJ)/emu/layout \
-I$(SRC)/lib/util \
-I$(SRC)/lib \
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-I$(SRC)/osd \
-I$(SRC)/osd/$(OSD) \
#-------------------------------------------------
# archiving flags
#-------------------------------------------------
# Default to something reasonable for all platforms
ARFLAGS = -cr
# Deal with macosx brain damage if COMMAND_MODE is in
# the luser's environment:
ifeq ($(TARGETOS),macosx)
ifeq ($(COMMAND_MODE),"legacy")
ARFLAGS = -crs
endif
endif
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#-------------------------------------------------
# linking flags
#-------------------------------------------------
# LDFLAGS are used generally; LDFLAGSEMULATOR are additional
# flags only used when linking the core emulator
LDFLAGS =
ifneq ($(TARGETOS),macosx)
ifneq ($(TARGETOS),os2)
ifneq ($(TARGETOS),solaris)
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LDFLAGS = -Wl,--warn-common
endif
endif
endif
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LDFLAGSEMULATOR =
# add profiling information for the linker
ifdef PROFILE
LDFLAGS += -pg
endif
# strip symbols and other metadata in non-symbols and non profiling builds
ifndef SYMBOLS
ifneq ($(TARGETOS),macosx)
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LDFLAGS += -s
endif
endif
# output a map file (emulator only)
ifdef MAP
LDFLAGSEMULATOR += -Wl,-Map,$(FULLNAME).map
endif
#-------------------------------------------------
# define the standard object directory; other
# projects can add their object directories to
# this variable
#-------------------------------------------------
OBJDIRS = $(OBJ) $(OBJ)/$(TARGET)/$(SUBTARGET)
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#-------------------------------------------------
# define standard libarires for CPU and sounds
#-------------------------------------------------
LIBEMU = $(OBJ)/libemu.a
LIBCPU = $(OBJ)/$(TARGET)/$(SUBTARGET)/libcpu.a
LIBDASM = $(OBJ)/$(TARGET)/$(SUBTARGET)/libdasm.a
LIBSOUND = $(OBJ)/$(TARGET)/$(SUBTARGET)/libsound.a
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LIBUTIL = $(OBJ)/libutil.a
LIBOCORE = $(OBJ)/libocore.a
LIBOSD = $(OBJ)/libosd.a
VERSIONOBJ = $(OBJ)/version.o
EMUINFOOBJ = $(OBJ)/$(TARGET)/$(TARGET).o
DRIVLISTSRC = $(OBJ)/$(TARGET)/$(SUBTARGET)/drivlist.c
DRIVLISTOBJ = $(OBJ)/$(TARGET)/$(SUBTARGET)/drivlist.o
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#-------------------------------------------------
# either build or link against the included
# libraries
#-------------------------------------------------
# start with an empty set of libs
LIBS =
# add expat XML library
ifeq ($(BUILD_EXPAT),1)
INCPATH += -I$(SRC)/lib/expat
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EXPAT = $(OBJ)/libexpat.a
else
LIBS += -lexpat
EXPAT =
endif
# add ZLIB compression library
ifeq ($(BUILD_ZLIB),1)
INCPATH += -I$(SRC)/lib/zlib
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ZLIB = $(OBJ)/libz.a
else
LIBS += -lz
ZLIB =
endif
# add flac library
ifeq ($(BUILD_FLAC),1)
INCPATH += -I$(SRC)/lib/util
FLAC_LIB = $(OBJ)/libflac.a
# $(OBJ)/libflac++.a
else
LIBS += -lFLAC
FLAC_LIB =
endif
# add jpeglib image library
ifeq ($(BUILD_JPEGLIB),1)
INCPATH += -I$(SRC)/lib/libjpeg
JPEG_LIB = $(OBJ)/libjpeg.a
else
LIBS += -ljpeg
JPEG_LIB =
endif
# add SoftFloat floating point emulation library
SOFTFLOAT = $(OBJ)/libsoftfloat.a
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# add formats emulation library
FORMATS_LIB = $(OBJ)/libformats.a
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#-------------------------------------------------
# 'default' target needs to go here, before the
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# include files which define additional targets
#-------------------------------------------------
default: maketree buildtools emulator
all: default tools
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7Z_LIB = $(OBJ)/lib7z.a
#-------------------------------------------------
# defines needed by multiple make files
#-------------------------------------------------
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BUILDSRC = $(SRC)/build
BUILDOBJ = $(OBJ)/build
BUILDOUT = $(BUILDOBJ)
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#-------------------------------------------------
# include the various .mak files
#-------------------------------------------------
# include OSD-specific rules first
include $(SRC)/osd/$(OSD)/$(OSD).mak
# then the various core pieces
include $(SRC)/build/build.mak
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include $(SRC)/$(TARGET)/$(SUBTARGET).mak
-include $(SRC)/$(TARGET)/osd/$(OSD)/$(OSD).mak
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include $(SRC)/emu/emu.mak
include $(SRC)/lib/lib.mak
-include $(SRC)/osd/$(CROSS_BUILD_OSD)/build.mak
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include $(SRC)/tools/tools.mak
# combine the various definitions to one
CCOMFLAGS += $(INCPATH)
CDEFS = $(DEFS)
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#-------------------------------------------------
# primary targets
#-------------------------------------------------
emulator: maketree $(BUILD) $(EMULATOR)
buildtools: maketree $(BUILD)
tools: maketree $(TOOLS)
maketree: $(sort $(OBJDIRS))
clean: $(OSDCLEAN)
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@echo Deleting object tree $(OBJ)...
$(RM) -r $(OBJ)
@echo Deleting $(EMULATOR)...
$(RM) $(EMULATOR)
@echo Deleting $(TOOLS)...
$(RM) $(TOOLS)
ifdef MAP
@echo Deleting $(FULLNAME).map...
$(RM) $(FULLNAME).map
endif
ifdef SYMBOLS
@echo Deleting $(FULLNAME).sym...
$(RM) $(FULLNAME).sym
endif
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checkautodetect:
@echo TARGETOS=$(TARGETOS)
@echo PTR64=$(PTR64)
@echo BIGENDIAN=$(BIGENDIAN)
@echo UNAME="$(UNAME)"
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#-------------------------------------------------
# directory targets
#-------------------------------------------------
$(sort $(OBJDIRS)):
$(MD) -p $@
#-------------------------------------------------
# executable targets and dependencies
#-------------------------------------------------
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ifndef EXECUTABLE_DEFINED
$(EMULATOR): $(EMUINFOOBJ) $(DRIVLISTOBJ) $(DRVLIBS) $(LIBOSD) $(LIBCPU) $(LIBEMU) $(LIBDASM) $(LIBSOUND) $(LIBUTIL) $(EXPAT) $(SOFTFLOAT) $(JPEG_LIB) $(FLAC_LIB) $(7Z_LIB) $(FORMATS_LIB) $(ZLIB) $(LIBOCORE) $(RESFILE)
Major CHD/chdman update. The CHD version number has been increased from 4 to 5. This means any diff CHDs will no longer work. If you absolutely need to keep the data for any existing ones you have, find both the diff CHD and the original CHD for the game in question and upgrade using these commands: rename diff\game.dif diff\game-old.dif chdman copy -i diff\game-old.dif -ip roms\game.chd -o diff\game.dif -op roms\game.chd -c none Specifics regarding this change: Defined a new CHD version 5. New features/behaviors of this version: - support for up to 4 codecs; each block can use 1 of the 4 - new LZMA codec, which tends to do better than zlib overall - new FLAC codec, primarily used for CDs (but can be applied anywhere) - upgraded AVHuff codec now uses FLAC for encoding audio - new Huffman codec, used to catch more nearly-uncompressable blocks - compressed CHDs now use a compressed map for significant savings - CHDs now are aware of a "unit" size; each hunk holds 1 or more units (in general units map to sectors for hard disks/CDs) - diff'ing against a parent now diffs at the unit level, greatly improving compression Rewrote and modernized chd.c. CHD versions prior to 3 are unsupported, and version 3/4 CHDs are only supported for reading. Creating a new CHD now leaves the file open. Added methods to read and write at the unit and byte level, removing the need to handle this manually. Added metadata access methods that pass astrings and dynamic_buffers to simplify the interfaces. A companion class chd_compressor now implements full multithreaded compression, analyzing and compressing multiple hunks independently in parallel. Split the codec implementations out into a separate file chdcodec.* Updated harddisk.c and cdrom.c to rely on the caching/byte-level read/ write capabilities of the chd_file class. cdrom.c (and chdman) now also pad CDs to 4-frame boundaries instead of hunk boundaries, ensuring that the same SHA1 hashes are produced regardless of the hunk size. Rewrote chdman.exe entirely, switching from positional parameters to proper options. Use "chdman help" to get a list of commands, and "chdman help <command>" to get help for any particular command. Many redundant commands were removed now that additional flexibility is available. Some basic mappings: Old: chdman -createblankhd <out.chd> <cyls> <heads> <secs> New: chdman createhd -o <out.chd> -chs <cyls>,<heads>,<secs> Old: chdman -createuncomphd <in.raw> <out.chd> .... New: chdman createhd -i <in.raw> -o <out.chd> -c none .... Old: chdman -verifyfix <in.chd> New: chdman verify -i <in.chd> -f Old: chdman -merge <parent.chd> <diff.chd> <out.chd> New: chdman copy -i <diff.chd> -ip <parent.chd> -o <out.chd> Old: chdman -diff <parent.chd> <compare.chd> <diff.chd> New: chdman copy -i <compare.chd> -o <diff.chd> -op <parent.chd> Old: chdman -update <in.chd> <out.chd> New: chdman copy -i <in.chd> -o <out.chd> Added new core file coretmpl.h to hold core template classes. For now just one class, dynamic_array<> is defined, which acts like an array of a given object but which can be appended to and/or resized. Also defines dynamic_buffer as dynamic_array<UINT8> for holding an arbitrary buffer of bytes. Expect to see these used a lot. Added new core helper hashing.c/.h which defines classes for each of the common hashing methods and creator classes to wrap the computation of these hashes. A future work item is to reimplement the core emulator hashing code using these. Split bit buffer helpers out into C++ classes and into their own public header in bitstream.h. Updated huffman.c/.h to C++, and changed the interface to make it more flexible to use in nonstandard ways. Also added huffman compression of the static tree for slightly better compression rates. Created flac.c/.h as simplified C++ wrappers around the FLAC interface. A future work item is to convert the samples sound device to a modern device and leverage this for reading FLAC files. Renamed avcomp.* to avhuff.*, updated to C++, and added support for FLAC as the audio encoding mechanism. The old huffman audio is still supported for decode only. Added a variant of core_fload that loads to a dynamic_buffer. Tweaked winwork.c a bit to not limit the maximum number of processors unless the work queue was created with the WORK_QUEUE_FLAG_HIGH_FREQ option. Further adjustments here are likely going to be necessary. Fixed bug in aviio.c which caused errors when reading some AVI files.
2012-02-16 10:47:18 +01:00
$(CC) $(CDEFS) $(CFLAGS) -c $(SRC)/version.c -o $(VERSIONOBJ)
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@echo Linking $@...
$(LD) $(LDFLAGS) $(LDFLAGSEMULATOR) $(VERSIONOBJ) $^ $(LIBS) -o $@
ifeq ($(TARGETOS),win32)
ifdef SYMBOLS
ifndef MSVC_BUILD
$(OBJDUMP) --section=.text --line-numbers --syms --demangle $@ >$(FULLNAME).sym
endif
endif
endif
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endif
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#-------------------------------------------------
# generic rules
#-------------------------------------------------
$(OBJ)/%.o: $(SRC)/%.c | $(OSPREBUILD)
@echo Compiling $<...
$(CC) $(CDEFS) $(CFLAGS) -c $< -o $@
$(OBJ)/%.pp: $(SRC)/%.c | $(OSPREBUILD)
@echo Compiling $<...
$(CC) $(CDEFS) $(CFLAGS) -E $< -o $@
$(OBJ)/%.s: $(SRC)/%.c | $(OSPREBUILD)
@echo Compiling $<...
$(CC) $(CDEFS) $(CFLAGS) -S $< -o $@
$(OBJ)/%.lh: $(SRC)/%.lay $(FILE2STR_TARGET)
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@echo Converting $<...
@$(FILE2STR) $< $@ layout_$(basename $(notdir $<))
$(OBJ)/%.fh: $(SRC)/%.png $(PNG2BDC_TARGET) $(FILE2STR_TARGET)
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@echo Converting $<...
@$(PNG2BDC) $< $(OBJ)/temp.bdc
@$(FILE2STR) $(OBJ)/temp.bdc $@ font_$(basename $(notdir $<)) UINT8
(Big tangle of changes that all happened as I was looking into the ROM loader rewrite, which is still in progress....) Replaced mamedriv.c with a new driver list mechanism that is generated by the build tools. The emulator core now expects the presence of a file called src/$(TARGET)/$(SUBTARGET).lst which is just a raw list of driver names, one per line. C and C++ comments are still permitted. This file is parsed by a new build tool makelist which extracts the driver names, sorts them, and generates a file called drivlist.c, which is consumed by the core. [Aaron Giles] Added new osdcore function osd_malloc_array() which is identical to osd_malloc() but obviously hints that the underlying allocation is for an array. Updated all callers to use the appropriate form. Modified the Windows allocator to only use guard pages for array-style allocations, allowing us to enable them once again in debug builds. [Aaron Giles] Created new static class driver_list to wrap accesses to the list of available drivers. Improved speed of driver lookups by relying on the presorting done by makelist. [Aaron Giles] Created helper class driver_enumerator as a helper for iterating through the list of drivers. This class supports basic filtering and iteration, and also serves as a temporary cache of machine_configs. [Aaron Giles] Created cli_frontend object to wrap all the CLI handling code in clifront.c. Updated/simplified all the code to take advantage of the driver_enumerator. [Aaron Giles] Created media_auditor object to wrap all the auditing functions in audit.c. Updated all users to the new interface. Note that the new auditing mechanism is slightly out of sync with the romload code in terms of finding ROMs owned by devices, so it may mis-report some issues until the new ROM loading code is in. [Aaron Giles] Added concept of a per-device searchpath. For most devices, their searchpath is just the short name of the device. For driver_devices, the searchpath is driver[;parent[;bios]]. This searchpath will eventually be used by the rom loader to find ROMs. For now it is used by the media auditor only. [Aaron Giles] Created info_xml_creator object to wrap all the info generation functions in info.c. Converted the file to C++ and cleaned up the input processing code. [Aaron Giles] (not for whatsnew ... Known issues: auditing of CHDs appears busted, and debug builds report unfreed memory if you use the built-in game picker)
2011-04-13 22:31:00 +02:00
$(DRIVLISTOBJ): $(DRIVLISTSRC)
@echo Compiling $<...
$(CC) $(CDEFS) $(CFLAGS) -c $< -o $@
$(DRIVLISTSRC): $(SRC)/$(TARGET)/$(SUBTARGET).lst $(MAKELIST_TARGET)
@echo Building driver list $<...
@$(MAKELIST) $< >$@
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$(OBJ)/%.a:
@echo Archiving $@...
$(RM) $@
$(AR) $(ARFLAGS) $@ $^
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ifeq ($(TARGETOS),macosx)
$(OBJ)/%.o: $(SRC)/%.m | $(OSPREBUILD)
@echo Objective-C compiling $<...
$(CC) $(CDEFS) $(COBJFLAGS) $(CCOMFLAGS) -c $< -o $@
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endif
#-------------------------------------------------
# optional dependencies file
#-------------------------------------------------
-include depend_$(TARGET).mak