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17.4 Obsolete Macros

Several macros are obsoleted in Autoconf, for various reasons (typically they failed to quote properly, couldn't be extended for more recent issues, etc.). They are still supported, but deprecated: their use should be avoided.

During the jump from Autoconf version 1 to version 2, most of the macros were renamed to use a more uniform and descriptive naming scheme, but their signature did not change. See Macro Names, for a description of the new naming scheme. Below, if there is just the mapping from old names to new names for these macros, the reader is invited to refer to the definition of the new macro for the signature and the description.

— Macro: AC_ALLOCA

AC_FUNC_ALLOCA

— Macro: AC_ARG_ARRAY

removed because of limited usefulness

— Macro: AC_C_CROSS

This macro is obsolete; it does nothing.

— Macro: AC_C_LONG_DOUBLE

If the C compiler supports a working long double type with more range or precision than the double type, define HAVE_LONG_DOUBLE.

You should use AC_TYPE_LONG_DOUBLE or AC_TYPE_LONG_DOUBLE_WIDER instead. See Particular Types.

— Macro: AC_CANONICAL_SYSTEM

Determine the system type and set output variables to the names of the canonical system types. See Canonicalizing, for details about the variables this macro sets.

The user is encouraged to use either AC_CANONICAL_BUILD, or AC_CANONICAL_HOST, or AC_CANONICAL_TARGET, depending on the needs. Using AC_CANONICAL_TARGET is enough to run the two other macros.

— Macro: AC_CHAR_UNSIGNED

AC_C_CHAR_UNSIGNED

— Macro: AC_CHECK_TYPE (type, default)

Autoconf, up to 2.13, used to provide this version of AC_CHECK_TYPE, deprecated because of its flaws. First, although it is a member of the CHECK clan, it does more than just checking. Secondly, missing types are defined using #define, not typedef, and this can lead to problems in the case of pointer types.

This use of AC_CHECK_TYPE is obsolete and discouraged; see Generic Types, for the description of the current macro.

If the type type is not defined, define it to be the C (or C++) builtin type default, e.g., `short int' or `unsigned int'.

This macro is equivalent to:

          AC_CHECK_TYPE([type], [],
            [AC_DEFINE_UNQUOTED([type], [default],
               [Define to `default'
                if <sys/types.h> does not define.])])
     

In order to keep backward compatibility, the two versions of AC_CHECK_TYPE are implemented, selected by a simple heuristics:

  1. If there are three or four arguments, the modern version is used.
  2. If the second argument appears to be a C or C++ type, then the obsolete version is used. This happens if the argument is a C or C++ builtin type or a C identifier ending in `_t', optionally followed by one of `[(* ' and then by a string of zero or more characters taken from the set `[]()* _a-zA-Z0-9'.
  3. If the second argument is spelled with the alphabet of valid C and C++ types, the user is warned and the modern version is used.
  4. Otherwise, the modern version is used.

You are encouraged either to use a valid builtin type, or to use the equivalent modern code (see above), or better yet, to use AC_CHECK_TYPES together with

          #ifndef HAVE_LOFF_T
          typedef loff_t off_t;
          #endif
     
— Macro: AC_CHECKING (feature-description)

Same as `AC_MSG_NOTICE([checking feature-description...]'.

— Macro: AC_COMPILE_CHECK (echo-text, includes, function-body, action-if-true, [action-if-false])

This is an obsolete version of AC_TRY_COMPILE itself replaced by AC_COMPILE_IFELSE (see Running the Compiler), with the addition that it prints `checking for echo-text' to the standard output first, if echo-text is non-empty. Use AC_MSG_CHECKING and AC_MSG_RESULT instead to print messages (see Printing Messages).

— Macro: AC_CONST

AC_C_CONST

— Macro: AC_CROSS_CHECK

Same as AC_C_CROSS, which is obsolete too, and does nothing :-).

— Macro: AC_CYGWIN

Check for the Cygwin environment in which case the shell variable CYGWIN is set to `yes'. Don't use this macro, the dignified means to check the nature of the host is using AC_CANONICAL_HOST. As a matter of fact this macro is defined as:

          AC_REQUIRE([AC_CANONICAL_HOST])[]dnl
          case $host_os in
            *cygwin* ) CYGWIN=yes;;
                   * ) CYGWIN=no;;
          esac
     

Beware that the variable CYGWIN has a special meaning when running Cygwin, and should not be changed. That's yet another reason not to use this macro.

— Macro: AC_DECL_SYS_SIGLIST

Same as:

          AC_CHECK_DECLS([sys_siglist], [], [],
          [#include <signal.h>
          /* NetBSD declares sys_siglist in unistd.h.  */
          #ifdef HAVE_UNISTD_H
          # include <unistd.h>
          #endif
          ])
     
— Macro: AC_DECL_YYTEXT

Does nothing, now integrated in AC_PROG_LEX.

— Macro: AC_DIR_HEADER

Like calling AC_FUNC_CLOSEDIR_VOID andAC_HEADER_DIRENT, but defines a different set of C preprocessor macros to indicate which header file is found:

Header Old Symbol New Symbol
dirent.h DIRENT HAVE_DIRENT_H
sys/ndir.h SYSNDIR HAVE_SYS_NDIR_H
sys/dir.h SYSDIR HAVE_SYS_DIR_H
ndir.h NDIR HAVE_NDIR_H

— Macro: AC_DYNIX_SEQ

If on DYNIX/ptx, add -lseq to output variable LIBS. This macro used to be defined as

          AC_CHECK_LIB([seq], [getmntent], [LIBS="-lseq $LIBS"])
     

now it is just AC_FUNC_GETMNTENT.

— Macro: AC_EXEEXT

Defined the output variable EXEEXT based on the output of the compiler, which is now done automatically. Typically set to empty string if Posix and `.exe' if a DOS variant.

— Macro: AC_EMXOS2

Similar to AC_CYGWIN but checks for the EMX environment on OS/2 and sets EMXOS2.

— Macro: AC_ERROR

AC_MSG_ERROR

— Macro: AC_FIND_X

AC_PATH_X

— Macro: AC_FIND_XTRA

AC_PATH_XTRA

— Macro: AC_FOREACH

m4_foreach_w

— Macro: AC_FUNC_CHECK

AC_CHECK_FUNC

— Macro: AC_FUNC_WAIT3

If wait3 is found and fills in the contents of its third argument (a `struct rusage *'), which HP-UX does not do, define HAVE_WAIT3.

These days portable programs should use waitpid, not wait3, as wait3 has been removed from Posix.

— Macro: AC_GCC_TRADITIONAL

AC_PROG_GCC_TRADITIONAL

— Macro: AC_GETGROUPS_T

AC_TYPE_GETGROUPS

— Macro: AC_GETLOADAVG

AC_FUNC_GETLOADAVG

— Macro: AC_HAVE_FUNCS

AC_CHECK_FUNCS

— Macro: AC_HAVE_HEADERS

AC_CHECK_HEADERS

— Macro: AC_HAVE_LIBRARY (library, [action-if-found], [action-if-not-found], [other-libraries])

This macro is equivalent to calling AC_CHECK_LIB with a function argument of main. In addition, library can be written as any of `foo', -lfoo, or `libfoo.a'. In all of those cases, the compiler is passed -lfoo. However, library cannot be a shell variable; it must be a literal name.

— Macro: AC_HAVE_POUNDBANG

AC_SYS_INTERPRETER (different calling convention)

— Macro: AC_HEADER_CHECK

AC_CHECK_HEADER

— Macro: AC_HEADER_EGREP

AC_EGREP_HEADER

— Macro: AC_HELP_STRING

AS_HELP_STRING

— Macro: AC_INIT (unique-file-in-source-dir)

Formerly AC_INIT used to have a single argument, and was equivalent to:

          AC_INIT
          AC_CONFIG_SRCDIR(unique-file-in-source-dir)
     
— Macro: AC_INLINE

AC_C_INLINE

— Macro: AC_INT_16_BITS

If the C type int is 16 bits wide, define INT_16_BITS. Use `AC_CHECK_SIZEOF(int)' instead.

— Macro: AC_IRIX_SUN

If on irix (Silicon Graphics Unix), add -lsun to output LIBS. If you were using it to get getmntent, use AC_FUNC_GETMNTENT instead. If you used it for the NIS versions of the password and group functions, use `AC_CHECK_LIB(sun, getpwnam)'. Up to Autoconf 2.13, it used to be

          AC_CHECK_LIB([sun], [getmntent], [LIBS="-lsun $LIBS"])
     

now it is defined as

          AC_FUNC_GETMNTENT
          AC_CHECK_LIB([sun], [getpwnam])
     
— Macro: AC_LANG_C

Same as `AC_LANG([C])'.

— Macro: AC_LANG_CPLUSPLUS

Same as `AC_LANG([C++])'.

— Macro: AC_LANG_FORTRAN77

Same as `AC_LANG([Fortran 77])'.

— Macro: AC_LANG_RESTORE

Select the language that is saved on the top of the stack, as set by AC_LANG_SAVE, remove it from the stack, and call AC_LANG(language).

— Macro: AC_LANG_SAVE

Remember the current language (as set by AC_LANG) on a stack. The current language does not change. AC_LANG_PUSH is preferred.

— Macro: AC_LINK_FILES (source..., dest...)

This is an obsolete version of AC_CONFIG_LINKS. An updated version of:

          AC_LINK_FILES(config/$machine.h config/$obj_format.h,
                        host.h            object.h)
     

is:

          AC_CONFIG_LINKS([host.h:config/$machine.h
                          object.h:config/$obj_format.h])
     
— Macro: AC_LN_S

AC_PROG_LN_S

— Macro: AC_LONG_64_BITS

Define LONG_64_BITS if the C type long int is 64 bits wide. Use the generic macro `AC_CHECK_SIZEOF([long int])' instead.

— Macro: AC_LONG_DOUBLE

If the C compiler supports a working long double type with more range or precision than the double type, define HAVE_LONG_DOUBLE.

You should use AC_TYPE_LONG_DOUBLE or AC_TYPE_LONG_DOUBLE_WIDER instead. See Particular Types.

— Macro: AC_LONG_FILE_NAMES

AC_SYS_LONG_FILE_NAMES

— Macro: AC_MAJOR_HEADER

AC_HEADER_MAJOR

— Macro: AC_MEMORY_H

Used to define NEED_MEMORY_H if the mem functions were defined in memory.h. Today it is equivalent to `AC_CHECK_HEADERS([memory.h])'. Adjust your code to depend upon HAVE_MEMORY_H, not NEED_MEMORY_H; see Standard Symbols.

— Macro: AC_MINGW32

Similar to AC_CYGWIN but checks for the MinGW compiler environment and sets MINGW32.

— Macro: AC_MINUS_C_MINUS_O

AC_PROG_CC_C_O

— Macro: AC_MMAP

AC_FUNC_MMAP

— Macro: AC_MODE_T

AC_TYPE_MODE_T

— Macro: AC_OBJEXT

Defined the output variable OBJEXT based on the output of the compiler, after .c files have been excluded. Typically set to `o' if Posix, `obj' if a DOS variant. Now the compiler checking macros handle this automatically.

— Macro: AC_OBSOLETE (this-macro-name, [suggestion])

Make M4 print a message to the standard error output warning that this-macro-name is obsolete, and giving the file and line number where it was called. this-macro-name should be the name of the macro that is calling AC_OBSOLETE. If suggestion is given, it is printed at the end of the warning message; for example, it can be a suggestion for what to use instead of this-macro-name.

For instance

          AC_OBSOLETE([$0], [; use AC_CHECK_HEADERS(unistd.h) instead])dnl
     

You are encouraged to use AU_DEFUN instead, since it gives better services to the user.

— Macro: AC_OFF_T

AC_TYPE_OFF_T

— Macro: AC_OUTPUT ([file]..., [extra-cmds], [init-cmds])

The use of AC_OUTPUT with argument is deprecated. This obsoleted interface is equivalent to:

          AC_CONFIG_FILES(file...)
          AC_CONFIG_COMMANDS([default],
                             extra-cmds, init-cmds)
          AC_OUTPUT
     
— Macro: AC_OUTPUT_COMMANDS (extra-cmds, [init-cmds])

Specify additional shell commands to run at the end of config.status, and shell commands to initialize any variables from configure. This macro may be called multiple times. It is obsolete, replaced by AC_CONFIG_COMMANDS.

Here is an unrealistic example:

          fubar=27
          AC_OUTPUT_COMMANDS([echo this is extra $fubar, and so on.],
                             [fubar=$fubar])
          AC_OUTPUT_COMMANDS([echo this is another, extra, bit],
                             [echo init bit])
     

Aside from the fact that AC_CONFIG_COMMANDS requires an additional key, an important difference is that AC_OUTPUT_COMMANDS is quoting its arguments twice, unlike AC_CONFIG_COMMANDS. This means that AC_CONFIG_COMMANDS can safely be given macro calls as arguments:

          AC_CONFIG_COMMANDS(foo, [my_FOO()])
     

Conversely, where one level of quoting was enough for literal strings with AC_OUTPUT_COMMANDS, you need two with AC_CONFIG_COMMANDS. The following lines are equivalent:

          AC_OUTPUT_COMMANDS([echo "Square brackets: []"])
          AC_CONFIG_COMMANDS([default], [[echo "Square brackets: []"]])
     
— Macro: AC_PID_T

AC_TYPE_PID_T

— Macro: AC_PREFIX

AC_PREFIX_PROGRAM

— Macro: AC_PROGRAMS_CHECK

AC_CHECK_PROGS

— Macro: AC_PROGRAMS_PATH

AC_PATH_PROGS

— Macro: AC_PROGRAM_CHECK

AC_CHECK_PROG

— Macro: AC_PROGRAM_EGREP

AC_EGREP_CPP

— Macro: AC_PROGRAM_PATH

AC_PATH_PROG

— Macro: AC_REMOTE_TAPE

removed because of limited usefulness

— Macro: AC_RESTARTABLE_SYSCALLS

AC_SYS_RESTARTABLE_SYSCALLS

— Macro: AC_RETSIGTYPE

AC_TYPE_SIGNAL

— Macro: AC_RSH

removed because of limited usefulness

— Macro: AC_SCO_INTL

If on SCO Unix, add -lintl to output variable LIBS. This macro used to do this:

          AC_CHECK_LIB([intl], [strftime], [LIBS="-lintl $LIBS"])
     

Now it just calls AC_FUNC_STRFTIME instead.

— Macro: AC_SETVBUF_REVERSED

AC_FUNC_SETVBUF_REVERSED

— Macro: AC_SET_MAKE

AC_PROG_MAKE_SET

— Macro: AC_SIZEOF_TYPE

AC_CHECK_SIZEOF

— Macro: AC_SIZE_T

AC_TYPE_SIZE_T

— Macro: AC_STAT_MACROS_BROKEN

AC_HEADER_STAT

— Macro: AC_STDC_HEADERS

AC_HEADER_STDC

— Macro: AC_STRCOLL

AC_FUNC_STRCOLL

— Macro: AC_ST_BLKSIZE

AC_CHECK_MEMBERS

— Macro: AC_ST_BLOCKS

AC_STRUCT_ST_BLOCKS

— Macro: AC_ST_RDEV

AC_CHECK_MEMBERS

— Macro: AC_SYS_RESTARTABLE_SYSCALLS

If the system automatically restarts a system call that is interrupted by a signal, define HAVE_RESTARTABLE_SYSCALLS. This macro does not check whether system calls are restarted in general—it checks whether a signal handler installed with signal (but not sigaction) causes system calls to be restarted. It does not check whether system calls can be restarted when interrupted by signals that have no handler.

These days portable programs should use sigaction with SA_RESTART if they want restartable system calls. They should not rely on HAVE_RESTARTABLE_SYSCALLS, since nowadays whether a system call is restartable is a dynamic issue, not a configuration-time issue.

— Macro: AC_SYS_SIGLIST_DECLARED

AC_DECL_SYS_SIGLIST

— Macro: AC_TEST_CPP

AC_TRY_CPP, replaced by AC_PREPROC_IFELSE.

— Macro: AC_TEST_PROGRAM

AC_TRY_RUN, replaced by AC_RUN_IFELSE.

— Macro: AC_TIMEZONE

AC_STRUCT_TIMEZONE

— Macro: AC_TIME_WITH_SYS_TIME

AC_HEADER_TIME

— Macro: AC_TRY_COMPILE (includes, function-body, [action-if-true], [action-if-false])

Same as:

          AC_COMPILE_IFELSE(
            [AC_LANG_PROGRAM([[includes]],
               [[function-body]])],
            [action-if-true],
            [action-if-false])
     

See Running the Compiler.

This macro double quotes both includes and function-body.

For C and C++, includes is any #include statements needed by the code in function-body (includes is ignored if the currently selected language is Fortran or Fortran 77). The compiler and compilation flags are determined by the current language (see Language Choice).

— Macro: AC_TRY_CPP (input, [action-if-true], [action-if-false])

Same as:

          AC_PREPROC_IFELSE(
            [AC_LANG_SOURCE([[input]])],
            [action-if-true],
            [action-if-false])
     

See Running the Preprocessor.

This macro double quotes the input.

— Macro: AC_TRY_LINK (includes, function-body, [action-if-true], [action-if-false])

Same as:

          AC_LINK_IFELSE(
            [AC_LANG_PROGRAM([[includes]],
               [[function-body]])],
            [action-if-true],
            [action-if-false])
     

See Running the Compiler.

This macro double quotes both includes and function-body.

Depending on the current language (see Language Choice), create a test program to see whether a function whose body consists of function-body can be compiled and linked. If the file compiles and links successfully, run shell commands action-if-found, otherwise run action-if-not-found.

This macro double quotes both includes and function-body.

For C and C++, includes is any #include statements needed by the code in function-body (includes is ignored if the currently selected language is Fortran or Fortran 77). The compiler and compilation flags are determined by the current language (see Language Choice), and in addition LDFLAGS and LIBS are used for linking.

— Macro: AC_TRY_LINK_FUNC (function, [action-if-found], [action-if-not-found])

This macro is equivalent to `AC_LINK_IFELSE([AC_LANG_CALL([], [function])], [action-if-found], [action-if-not-found])'.

— Macro: AC_TRY_RUN (program, [action-if-true], [action-if-false], [action-if-cross-compiling])

Same as:

          AC_RUN_IFELSE(
            [AC_LANG_SOURCE([[program]])],
            [action-if-true],
            [action-if-false],
            [action-if-cross-compiling])
     

See Runtime.

— Macro: AC_UID_T

AC_TYPE_UID_T

— Macro: AC_UNISTD_H

Same as `AC_CHECK_HEADERS([unistd.h])'.

— Macro: AC_USG

Define USG if the BSD string functions are defined in strings.h. You should no longer depend upon USG, but on HAVE_STRING_H; see Standard Symbols.

— Macro: AC_UTIME_NULL

AC_FUNC_UTIME_NULL

— Macro: AC_VALIDATE_CACHED_SYSTEM_TUPLE ([cmd])

If the cache file is inconsistent with the current host, target and build system types, it used to execute cmd or print a default error message. This is now handled by default.

— Macro: AC_VERBOSE (result-description)

AC_MSG_RESULT.

— Macro: AC_VFORK

AC_FUNC_VFORK

— Macro: AC_VPRINTF

AC_FUNC_VPRINTF

— Macro: AC_WAIT3

AC_FUNC_WAIT3

— Macro: AC_WARN

AC_MSG_WARN

— Macro: AC_WORDS_BIGENDIAN

AC_C_BIGENDIAN

— Macro: AC_XENIX_DIR

This macro used to add -lx to output variable LIBS if on Xenix. Also, if dirent.h is being checked for, added -ldir to LIBS. Now it is merely an alias of AC_HEADER_DIRENT instead, plus some code to detect whether running xenix on which you should not depend:

          AC_MSG_CHECKING([for Xenix])
          AC_EGREP_CPP([yes],
          [#if defined M_XENIX && !defined M_UNIX
            yes
          #endif],
                       [AC_MSG_RESULT([yes]); XENIX=yes],
                       [AC_MSG_RESULT([no]); XENIX=])
     
— Macro: AC_YYTEXT_POINTER

AC_DECL_YYTEXT