gcc/doc/fragments.texi - gcc - Git at Google

 @c Copyright (C) 1988-2021 Free Software Foundation, Inc.
 @c This is part of the GCC manual.
 @c For copying conditions, see the file gcc.texi.

 @node Fragments
 @chapter Makefile Fragments
 @cindex makefile fragment

 When you configure GCC using the @file{configure} script, it will
 construct the file @file{Makefile} from the template file
 @file{Makefile.in}.  When it does this, it can incorporate makefile
 fragments from the @file{config} directory.  These are used to set
 Makefile parameters that are not amenable to being calculated by
 autoconf.  The list of fragments to incorporate is set by
 @file{config.gcc} (and occasionally @file{config.build}
 and @file{config.host}); @xref{System Config}.

 Fragments are named either @file{t-@var{target}} or @file{x-@var{host}},
 depending on whether they are relevant to configuring GCC to produce
 code for a particular target, or to configuring GCC to run on a
 particular host.  Here @var{target} and @var{host} are mnemonics
 which usually have some relationship to the canonical system name, but
 no formal connection.

 If these files do not exist, it means nothing needs to be added for a
 given target or host.  Most targets need a few @file{t-@var{target}}
 fragments, but needing @file{x-@var{host}} fragments is rare.

 @menu
 * Target Fragment:: Writing @file{t-@var{target}} files.
 * Host Fragment::   Writing @file{x-@var{host}} files.
 @end menu

 @node Target Fragment
 @section Target Makefile Fragments
 @cindex target makefile fragment
 @cindex @file{t-@var{target}}

 Target makefile fragments can set these Makefile variables.

 @table @code
 @findex LIBGCC2_CFLAGS
 @item LIBGCC2_CFLAGS
 Compiler flags to use when compiling @file{libgcc2.c}.

 @findex LIB2FUNCS_EXTRA
 @item LIB2FUNCS_EXTRA
 A list of source file names to be compiled or assembled and inserted
 into @file{libgcc.a}.

 @findex CRTSTUFF_T_CFLAGS
 @item CRTSTUFF_T_CFLAGS
 Special flags used when compiling @file{crtstuff.c}.
 @xref{Initialization}.

 @findex CRTSTUFF_T_CFLAGS_S
 @item CRTSTUFF_T_CFLAGS_S
 Special flags used when compiling @file{crtstuff.c} for shared
 linking.  Used if you use @file{crtbeginS.o} and @file{crtendS.o}
 in @code{EXTRA-PARTS}.
 @xref{Initialization}.

 @findex MULTILIB_OPTIONS
 @item MULTILIB_OPTIONS
 For some targets, invoking GCC in different ways produces objects
 that cannot be linked together.  For example, for some targets GCC
 produces both big and little endian code.  For these targets, you must
 arrange for multiple versions of @file{libgcc.a} to be compiled, one for
 each set of incompatible options.  When GCC invokes the linker, it
 arranges to link in the right version of @file{libgcc.a}, based on
 the command line options used.

 The @code{MULTILIB_OPTIONS} macro lists the set of options for which
 special versions of @file{libgcc.a} must be built.  Write options that
 are mutually incompatible side by side, separated by a slash.  Write
 options that may be used together separated by a space.  The build
 procedure will build all combinations of compatible options.

 For example, if you set @code{MULTILIB_OPTIONS} to @samp{m68000/m68020
 msoft-float}, @file{Makefile} will build special versions of
 @file{libgcc.a} using the following sets of options:  @option{-m68000},
 @option{-m68020}, @option{-msoft-float}, @samp{-m68000 -msoft-float}, and
 @samp{-m68020 -msoft-float}.

 @findex MULTILIB_DIRNAMES
 @item MULTILIB_DIRNAMES
 If @code{MULTILIB_OPTIONS} is used, this variable specifies the
 directory names that should be used to hold the various libraries.
 Write one element in @code{MULTILIB_DIRNAMES} for each element in
 @code{MULTILIB_OPTIONS}.  If @code{MULTILIB_DIRNAMES} is not used, the
 default value will be @code{MULTILIB_OPTIONS}, with all slashes treated
 as spaces.

 @code{MULTILIB_DIRNAMES} describes the multilib directories using GCC
 conventions and is applied to directories that are part of the GCC
 installation.  When multilib-enabled, the compiler will add a
 subdirectory of the form @var{prefix}/@var{multilib} before each
 directory in the search path for libraries and crt files.

 For example, if @code{MULTILIB_OPTIONS} is set to @samp{m68000/m68020
 msoft-float}, then the default value of @code{MULTILIB_DIRNAMES} is
 @samp{m68000 m68020 msoft-float}.  You may specify a different value if
 you desire a different set of directory names.

 @findex MULTILIB_MATCHES
 @item MULTILIB_MATCHES
 Sometimes the same option may be written in two different ways.  If an
 option is listed in @code{MULTILIB_OPTIONS}, GCC needs to know about
 any synonyms.  In that case, set @code{MULTILIB_MATCHES} to a list of
 items of the form @samp{option=option} to describe all relevant
 synonyms.  For example, @samp{m68000=mc68000 m68020=mc68020}.

 @findex MULTILIB_EXCEPTIONS
 @item MULTILIB_EXCEPTIONS
 Sometimes when there are multiple sets of @code{MULTILIB_OPTIONS} being
 specified, there are combinations that should not be built.  In that
 case, set @code{MULTILIB_EXCEPTIONS} to be all of the switch exceptions
 in shell case syntax that should not be built.

 For example the ARM processor cannot execute both hardware floating
 point instructions and the reduced size THUMB instructions at the same
 time, so there is no need to build libraries with both of these
 options enabled.  Therefore @code{MULTILIB_EXCEPTIONS} is set to:
 @smallexample
 *mthumb/*mhard-float*
 @end smallexample

 @findex MULTILIB_REQUIRED
 @item MULTILIB_REQUIRED
 Sometimes when there are only a few combinations are required, it would
 be a big effort to come up with a @code{MULTILIB_EXCEPTIONS} list to
 cover all undesired ones.  In such a case, just listing all the required
 combinations in @code{MULTILIB_REQUIRED} would be more straightforward.

 The way to specify the entries in @code{MULTILIB_REQUIRED} is same with
 the way used for @code{MULTILIB_EXCEPTIONS}, only this time what are
 required will be specified.  Suppose there are multiple sets of
 @code{MULTILIB_OPTIONS} and only two combinations are required, one
 for ARMv7-M and one for ARMv7-R with hard floating-point ABI and FPU, the
 @code{MULTILIB_REQUIRED} can be set to:
 @smallexample
 @code{MULTILIB_REQUIRED} =  mthumb/march=armv7-m
 @code{MULTILIB_REQUIRED} += march=armv7-r/mfloat-abi=hard/mfpu=vfpv3-d16
 @end smallexample

 The @code{MULTILIB_REQUIRED} can be used together with
 @code{MULTILIB_EXCEPTIONS}.  The option combinations generated from
 @code{MULTILIB_OPTIONS} will be filtered by @code{MULTILIB_EXCEPTIONS}
 and then by @code{MULTILIB_REQUIRED}.

 @findex MULTILIB_REUSE
 @item MULTILIB_REUSE
 Sometimes it is desirable to reuse one existing multilib for different
 sets of options.  Such kind of reuse can minimize the number of multilib
 variants.  And for some targets it is better to reuse an existing multilib
 than to fall back to default multilib when there is no corresponding multilib.
 This can be done by adding reuse rules to @code{MULTILIB_REUSE}.

 A reuse rule is comprised of two parts connected by equality sign.  The left
 part is the option set used to build multilib and the right part is the option
 set that will reuse this multilib.  Both parts should only use options
 specified in @code{MULTILIB_OPTIONS} and the equality signs found in options
 name should be replaced with periods.  An explicit period in the rule can be
 escaped by preceding it with a backslash.  The order of options in the left
 part matters and should be same with those specified in
 @code{MULTILIB_REQUIRED} or aligned with the order in @code{MULTILIB_OPTIONS}.
 There is no such limitation for options in the right part as we don't build
 multilib from them.

 @code{MULTILIB_REUSE} is different from @code{MULTILIB_MATCHES} in that it
 sets up relations between two option sets rather than two options.  Here is an
 example to demo how we reuse libraries built in Thumb mode for applications built
 in ARM mode:
 @smallexample
 @code{MULTILIB_REUSE} = mthumb/march.armv7-r=marm/march.armv7-r
 @end smallexample

 Before the advent of @code{MULTILIB_REUSE}, GCC select multilib by comparing command
 line options with options used to build multilib.  The @code{MULTILIB_REUSE} is
 complementary to that way.  Only when the original comparison matches nothing it will
 work to see if it is OK to reuse some existing multilib.

 @findex MULTILIB_EXTRA_OPTS
 @item MULTILIB_EXTRA_OPTS
 Sometimes it is desirable that when building multiple versions of
 @file{libgcc.a} certain options should always be passed on to the
 compiler.  In that case, set @code{MULTILIB_EXTRA_OPTS} to be the list
 of options to be used for all builds.  If you set this, you should
 probably set @code{CRTSTUFF_T_CFLAGS} to a dash followed by it.

 @findex MULTILIB_OSDIRNAMES
 @item MULTILIB_OSDIRNAMES
 If @code{MULTILIB_OPTIONS} is used, this variable specifies
 a list of subdirectory names, that are used to modify the search
 path depending on the chosen multilib.  Unlike @code{MULTILIB_DIRNAMES},
 @code{MULTILIB_OSDIRNAMES} describes the multilib directories using
 operating systems conventions, and is applied to the directories such as
 @code{lib} or those in the @env{LIBRARY_PATH} environment variable.
 The format is either the same as of
 @code{MULTILIB_DIRNAMES}, or a set of mappings.  When it is the same
 as @code{MULTILIB_DIRNAMES}, it describes the multilib directories
 using operating system conventions, rather than GCC conventions.  When it is a set
 of mappings of the form @var{gccdir}=@var{osdir}, the left side gives
 the GCC convention and the right gives the equivalent OS defined
 location.  If the @var{osdir} part begins with a @samp{!},
 GCC will not search in the non-multilib directory and use
 exclusively the multilib directory.  Otherwise, the compiler will
 examine the search path for libraries and crt files twice; the first
 time it will add @var{multilib} to each directory in the search path,
 the second it will not.

 For configurations that support both multilib and multiarch,
 @code{MULTILIB_OSDIRNAMES} also encodes the multiarch name, thus
 subsuming @code{MULTIARCH_DIRNAME}.  The multiarch name is appended to
 each directory name, separated by a colon (e.g.@:
 @samp{../lib32:i386-linux-gnu}).

 Each multiarch subdirectory will be searched before the corresponding OS
 multilib directory, for example @samp{/lib/i386-linux-gnu} before
 @samp{/lib/../lib32}.  The multiarch name will also be used to modify the
 system header search path, as explained for @code{MULTIARCH_DIRNAME}.

 @findex MULTIARCH_DIRNAME
 @item MULTIARCH_DIRNAME
 This variable specifies the multiarch name for configurations that are
 multiarch-enabled but not multilibbed configurations.

 The multiarch name is used to augment the search path for libraries, crt
 files and system header files with additional locations.  The compiler
 will add a multiarch subdirectory of the form
 @var{prefix}/@var{multiarch} before each directory in the library and
 crt search path.  It will also add two directories
 @code{LOCAL_INCLUDE_DIR}/@var{multiarch} and
 @code{NATIVE_SYSTEM_HEADER_DIR}/@var{multiarch}) to the system header
 search path, respectively before @code{LOCAL_INCLUDE_DIR} and
 @code{NATIVE_SYSTEM_HEADER_DIR}.

 @code{MULTIARCH_DIRNAME} is not used for configurations that support
 both multilib and multiarch.  In that case, multiarch names are encoded
 in @code{MULTILIB_OSDIRNAMES} instead.

 More documentation about multiarch can be found at
 @uref{https://wiki.debian.org/Multiarch}.

 @findex SPECS
 @item SPECS
 Unfortunately, setting @code{MULTILIB_EXTRA_OPTS} is not enough, since
 it does not affect the build of target libraries, at least not the
 build of the default multilib.  One possible work-around is to use
 @code{DRIVER_SELF_SPECS} to bring options from the @file{specs} file
 as if they had been passed in the compiler driver command line.
 However, you don't want to be adding these options after the toolchain
 is installed, so you can instead tweak the @file{specs} file that will
 be used during the toolchain build, while you still install the
 original, built-in @file{specs}.  The trick is to set @code{SPECS} to
 some other filename (say @file{specs.install}), that will then be
 created out of the built-in specs, and introduce a @file{Makefile}
 rule to generate the @file{specs} file that's going to be used at
 build time out of your @file{specs.install}.

 @item T_CFLAGS
 These are extra flags to pass to the C compiler.  They are used both
 when building GCC, and when compiling things with the just-built GCC@.
 This variable is deprecated and should not be used.
 @end table

 @node Host Fragment
 @section Host Makefile Fragments
 @cindex host makefile fragment
 @cindex @file{x-@var{host}}

 The use of @file{x-@var{host}} fragments is discouraged.  You should only
 use it for makefile dependencies.
	@c Copyright (C) 1988-2021 Free Software Foundation, Inc.
	@c This is part of the GCC manual.
	@c For copying conditions, see the file gcc.texi.

	@node Fragments
	@chapter Makefile Fragments
	@cindex makefile fragment

	When you configure GCC using the @file{configure} script, it will
	construct the file @file{Makefile} from the template file
	@file{Makefile.in}. When it does this, it can incorporate makefile
	fragments from the @file{config} directory. These are used to set
	Makefile parameters that are not amenable to being calculated by
	autoconf. The list of fragments to incorporate is set by
	@file{config.gcc} (and occasionally @file{config.build}
	and @file{config.host}); @xref{System Config}.

	Fragments are named either @file{t-@var{target}} or @file{x-@var{host}},
	depending on whether they are relevant to configuring GCC to produce
	code for a particular target, or to configuring GCC to run on a
	particular host. Here @var{target} and @var{host} are mnemonics
	which usually have some relationship to the canonical system name, but
	no formal connection.

	If these files do not exist, it means nothing needs to be added for a
	given target or host. Most targets need a few @file{t-@var{target}}
	fragments, but needing @file{x-@var{host}} fragments is rare.

	@menu
	* Target Fragment:: Writing @file{t-@var{target}} files.
	* Host Fragment:: Writing @file{x-@var{host}} files.
	@end menu

	@node Target Fragment
	@section Target Makefile Fragments
	@cindex target makefile fragment
	@cindex @file{t-@var{target}}

	Target makefile fragments can set these Makefile variables.

	@table @code
	@findex LIBGCC2_CFLAGS
	@item LIBGCC2_CFLAGS
	Compiler flags to use when compiling @file{libgcc2.c}.

	@findex LIB2FUNCS_EXTRA
	@item LIB2FUNCS_EXTRA
	A list of source file names to be compiled or assembled and inserted
	into @file{libgcc.a}.

	@findex CRTSTUFF_T_CFLAGS
	@item CRTSTUFF_T_CFLAGS
	Special flags used when compiling @file{crtstuff.c}.
	@xref{Initialization}.

	@findex CRTSTUFF_T_CFLAGS_S
	@item CRTSTUFF_T_CFLAGS_S
	Special flags used when compiling @file{crtstuff.c} for shared
	linking. Used if you use @file{crtbeginS.o} and @file{crtendS.o}
	in @code{EXTRA-PARTS}.
	@xref{Initialization}.

	@findex MULTILIB_OPTIONS
	@item MULTILIB_OPTIONS
	For some targets, invoking GCC in different ways produces objects
	that cannot be linked together. For example, for some targets GCC
	produces both big and little endian code. For these targets, you must
	arrange for multiple versions of @file{libgcc.a} to be compiled, one for
	each set of incompatible options. When GCC invokes the linker, it
	arranges to link in the right version of @file{libgcc.a}, based on
	the command line options used.

	The @code{MULTILIB_OPTIONS} macro lists the set of options for which
	special versions of @file{libgcc.a} must be built. Write options that
	are mutually incompatible side by side, separated by a slash. Write
	options that may be used together separated by a space. The build
	procedure will build all combinations of compatible options.

	For example, if you set @code{MULTILIB_OPTIONS} to @samp{m68000/m68020
	msoft-float}, @file{Makefile} will build special versions of
	@file{libgcc.a} using the following sets of options: @option{-m68000},
	@option{-m68020}, @option{-msoft-float}, @samp{-m68000 -msoft-float}, and
	@samp{-m68020 -msoft-float}.

	@findex MULTILIB_DIRNAMES
	@item MULTILIB_DIRNAMES
	If @code{MULTILIB_OPTIONS} is used, this variable specifies the
	directory names that should be used to hold the various libraries.
	Write one element in @code{MULTILIB_DIRNAMES} for each element in
	@code{MULTILIB_OPTIONS}. If @code{MULTILIB_DIRNAMES} is not used, the
	default value will be @code{MULTILIB_OPTIONS}, with all slashes treated
	as spaces.

	@code{MULTILIB_DIRNAMES} describes the multilib directories using GCC
	conventions and is applied to directories that are part of the GCC
	installation. When multilib-enabled, the compiler will add a
	subdirectory of the form @var{prefix}/@var{multilib} before each
	directory in the search path for libraries and crt files.

	For example, if @code{MULTILIB_OPTIONS} is set to @samp{m68000/m68020
	msoft-float}, then the default value of @code{MULTILIB_DIRNAMES} is
	@samp{m68000 m68020 msoft-float}. You may specify a different value if
	you desire a different set of directory names.

	@findex MULTILIB_MATCHES
	@item MULTILIB_MATCHES
	Sometimes the same option may be written in two different ways. If an
	option is listed in @code{MULTILIB_OPTIONS}, GCC needs to know about
	any synonyms. In that case, set @code{MULTILIB_MATCHES} to a list of
	items of the form @samp{option=option} to describe all relevant
	synonyms. For example, @samp{m68000=mc68000 m68020=mc68020}.

	@findex MULTILIB_EXCEPTIONS
	@item MULTILIB_EXCEPTIONS
	Sometimes when there are multiple sets of @code{MULTILIB_OPTIONS} being
	specified, there are combinations that should not be built. In that
	case, set @code{MULTILIB_EXCEPTIONS} to be all of the switch exceptions
	in shell case syntax that should not be built.

	For example the ARM processor cannot execute both hardware floating
	point instructions and the reduced size THUMB instructions at the same
	time, so there is no need to build libraries with both of these
	options enabled. Therefore @code{MULTILIB_EXCEPTIONS} is set to:
	@smallexample
	mthumb/mhard-float*
	@end smallexample

	@findex MULTILIB_REQUIRED
	@item MULTILIB_REQUIRED
	Sometimes when there are only a few combinations are required, it would
	be a big effort to come up with a @code{MULTILIB_EXCEPTIONS} list to
	cover all undesired ones. In such a case, just listing all the required
	combinations in @code{MULTILIB_REQUIRED} would be more straightforward.

	The way to specify the entries in @code{MULTILIB_REQUIRED} is same with
	the way used for @code{MULTILIB_EXCEPTIONS}, only this time what are
	required will be specified. Suppose there are multiple sets of
	@code{MULTILIB_OPTIONS} and only two combinations are required, one
	for ARMv7-M and one for ARMv7-R with hard floating-point ABI and FPU, the
	@code{MULTILIB_REQUIRED} can be set to:
	@smallexample
	@code{MULTILIB_REQUIRED} = mthumb/march=armv7-m
	@code{MULTILIB_REQUIRED} += march=armv7-r/mfloat-abi=hard/mfpu=vfpv3-d16
	@end smallexample

	The @code{MULTILIB_REQUIRED} can be used together with
	@code{MULTILIB_EXCEPTIONS}. The option combinations generated from
	@code{MULTILIB_OPTIONS} will be filtered by @code{MULTILIB_EXCEPTIONS}
	and then by @code{MULTILIB_REQUIRED}.

	@findex MULTILIB_REUSE
	@item MULTILIB_REUSE
	Sometimes it is desirable to reuse one existing multilib for different
	sets of options. Such kind of reuse can minimize the number of multilib
	variants. And for some targets it is better to reuse an existing multilib
	than to fall back to default multilib when there is no corresponding multilib.
	This can be done by adding reuse rules to @code{MULTILIB_REUSE}.

	A reuse rule is comprised of two parts connected by equality sign. The left
	part is the option set used to build multilib and the right part is the option
	set that will reuse this multilib. Both parts should only use options
	specified in @code{MULTILIB_OPTIONS} and the equality signs found in options
	name should be replaced with periods. An explicit period in the rule can be
	escaped by preceding it with a backslash. The order of options in the left
	part matters and should be same with those specified in
	@code{MULTILIB_REQUIRED} or aligned with the order in @code{MULTILIB_OPTIONS}.
	There is no such limitation for options in the right part as we don't build
	multilib from them.

	@code{MULTILIB_REUSE} is different from @code{MULTILIB_MATCHES} in that it
	sets up relations between two option sets rather than two options. Here is an
	example to demo how we reuse libraries built in Thumb mode for applications built
	in ARM mode:
	@smallexample
	@code{MULTILIB_REUSE} = mthumb/march.armv7-r=marm/march.armv7-r
	@end smallexample

	Before the advent of @code{MULTILIB_REUSE}, GCC select multilib by comparing command
	line options with options used to build multilib. The @code{MULTILIB_REUSE} is
	complementary to that way. Only when the original comparison matches nothing it will
	work to see if it is OK to reuse some existing multilib.

	@findex MULTILIB_EXTRA_OPTS
	@item MULTILIB_EXTRA_OPTS
	Sometimes it is desirable that when building multiple versions of
	@file{libgcc.a} certain options should always be passed on to the
	compiler. In that case, set @code{MULTILIB_EXTRA_OPTS} to be the list
	of options to be used for all builds. If you set this, you should
	probably set @code{CRTSTUFF_T_CFLAGS} to a dash followed by it.

	@findex MULTILIB_OSDIRNAMES
	@item MULTILIB_OSDIRNAMES
	If @code{MULTILIB_OPTIONS} is used, this variable specifies
	a list of subdirectory names, that are used to modify the search
	path depending on the chosen multilib. Unlike @code{MULTILIB_DIRNAMES},
	@code{MULTILIB_OSDIRNAMES} describes the multilib directories using
	operating systems conventions, and is applied to the directories such as
	@code{lib} or those in the @env{LIBRARY_PATH} environment variable.
	The format is either the same as of
	@code{MULTILIB_DIRNAMES}, or a set of mappings. When it is the same
	as @code{MULTILIB_DIRNAMES}, it describes the multilib directories
	using operating system conventions, rather than GCC conventions. When it is a set
	of mappings of the form @var{gccdir}=@var{osdir}, the left side gives
	the GCC convention and the right gives the equivalent OS defined
	location. If the @var{osdir} part begins with a @samp{!},
	GCC will not search in the non-multilib directory and use
	exclusively the multilib directory. Otherwise, the compiler will
	examine the search path for libraries and crt files twice; the first
	time it will add @var{multilib} to each directory in the search path,
	the second it will not.

	For configurations that support both multilib and multiarch,
	@code{MULTILIB_OSDIRNAMES} also encodes the multiarch name, thus
	subsuming @code{MULTIARCH_DIRNAME}. The multiarch name is appended to
	each directory name, separated by a colon (e.g.@:
	@samp{../lib32:i386-linux-gnu}).

	Each multiarch subdirectory will be searched before the corresponding OS
	multilib directory, for example @samp{/lib/i386-linux-gnu} before
	@samp{/lib/../lib32}. The multiarch name will also be used to modify the
	system header search path, as explained for @code{MULTIARCH_DIRNAME}.

	@findex MULTIARCH_DIRNAME
	@item MULTIARCH_DIRNAME
	This variable specifies the multiarch name for configurations that are
	multiarch-enabled but not multilibbed configurations.

	The multiarch name is used to augment the search path for libraries, crt
	files and system header files with additional locations. The compiler
	will add a multiarch subdirectory of the form
	@var{prefix}/@var{multiarch} before each directory in the library and
	crt search path. It will also add two directories
	@code{LOCAL_INCLUDE_DIR}/@var{multiarch} and
	@code{NATIVE_SYSTEM_HEADER_DIR}/@var{multiarch}) to the system header
	search path, respectively before @code{LOCAL_INCLUDE_DIR} and
	@code{NATIVE_SYSTEM_HEADER_DIR}.

	@code{MULTIARCH_DIRNAME} is not used for configurations that support
	both multilib and multiarch. In that case, multiarch names are encoded
	in @code{MULTILIB_OSDIRNAMES} instead.

	More documentation about multiarch can be found at
	@uref{https://wiki.debian.org/Multiarch}.

	@findex SPECS
	@item SPECS
	Unfortunately, setting @code{MULTILIB_EXTRA_OPTS} is not enough, since
	it does not affect the build of target libraries, at least not the
	build of the default multilib. One possible work-around is to use
	@code{DRIVER_SELF_SPECS} to bring options from the @file{specs} file
	as if they had been passed in the compiler driver command line.
	However, you don't want to be adding these options after the toolchain
	is installed, so you can instead tweak the @file{specs} file that will
	be used during the toolchain build, while you still install the
	original, built-in @file{specs}. The trick is to set @code{SPECS} to
	some other filename (say @file{specs.install}), that will then be
	created out of the built-in specs, and introduce a @file{Makefile}
	rule to generate the @file{specs} file that's going to be used at
	build time out of your @file{specs.install}.

	@item T_CFLAGS
	These are extra flags to pass to the C compiler. They are used both
	when building GCC, and when compiling things with the just-built GCC@.
	This variable is deprecated and should not be used.
	@end table

	@node Host Fragment
	@section Host Makefile Fragments
	@cindex host makefile fragment
	@cindex @file{x-@var{host}}

	The use of @file{x-@var{host}} fragments is discouraged. You should only
	use it for makefile dependencies.