1740 lines
53 KiB
Plaintext
1740 lines
53 KiB
Plaintext
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divert(-1)# -*- Autoconf -*-
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# This file is part of Autoconf.
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# Base M4 layer.
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# Requires GNU M4.
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# Copyright 1999, 2000, 2001 Free Software Foundation, Inc.
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2, or (at your option)
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# any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
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# 02111-1307, USA.
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#
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# As a special exception, the Free Software Foundation gives unlimited
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# permission to copy, distribute and modify the configure scripts that
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# are the output of Autoconf. You need not follow the terms of the GNU
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# General Public License when using or distributing such scripts, even
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# though portions of the text of Autoconf appear in them. The GNU
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# General Public License (GPL) does govern all other use of the material
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# that constitutes the Autoconf program.
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#
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# Certain portions of the Autoconf source text are designed to be copied
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# (in certain cases, depending on the input) into the output of
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# Autoconf. We call these the "data" portions. The rest of the Autoconf
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# source text consists of comments plus executable code that decides which
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# of the data portions to output in any given case. We call these
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# comments and executable code the "non-data" portions. Autoconf never
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# copies any of the non-data portions into its output.
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#
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# This special exception to the GPL applies to versions of Autoconf
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# released by the Free Software Foundation. When you make and
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# distribute a modified version of Autoconf, you may extend this special
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# exception to the GPL to apply to your modified version as well, *unless*
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# your modified version has the potential to copy into its output some
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# of the text that was the non-data portion of the version that you started
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# with. (In other words, unless your change moves or copies text from
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# the non-data portions to the data portions.) If your modification has
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# such potential, you must delete any notice of this special exception
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# to the GPL from your modified version.
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#
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# Written by Akim Demaille.
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#
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# Set the quotes, whatever the current quoting system.
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changequote()
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changequote([, ])
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# Some old m4's don't support m4exit. But they provide
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# equivalent functionality by core dumping because of the
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# long macros we define.
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ifdef([__gnu__], ,
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[errprint(M4sugar requires GNU M4. Install it before installing M4sugar or
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set the M4 environment variable to its path name.)
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m4exit(2)])
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## ------------------------------- ##
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## 1. Simulate --prefix-builtins. ##
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## ------------------------------- ##
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# m4_define
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# m4_defn
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# m4_undefine
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define([m4_define], defn([define]))
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define([m4_defn], defn([defn]))
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define([m4_undefine], defn([undefine]))
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m4_undefine([define])
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m4_undefine([defn])
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m4_undefine([undefine])
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# m4_copy(SRC, DST)
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# -----------------
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# Define DST as the definition of SRC.
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# What's the difference between:
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# 1. m4_copy([from], [to])
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# 2. m4_define([from], [to($@)])
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# Well, obviously 1 is more expansive in space. Maybe 2 is more expansive
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# in time, but because of the space cost of 1, it's not that obvious.
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# Nevertheless, one huge difference is the handling of `$0'. If `from'
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# uses `$0', then with 1, `to''s `$0' is `to', while it is `from' in 2.
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# The user will certainly prefer see `from'.
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m4_define([m4_copy],
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[m4_define([$2], m4_defn([$1]))])
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# m4_rename(SRC, DST)
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# -------------------
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# Rename the macro SRC as DST.
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m4_define([m4_rename],
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[m4_copy([$1], [$2])m4_undefine([$1])])
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# m4_rename_m4(MACRO-NAME)
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# ------------------------
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# Rename MACRO-NAME as m4_MACRO-NAME.
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m4_define([m4_rename_m4],
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[m4_rename([$1], [m4_$1])])
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# m4_copy_unm4(m4_MACRO-NAME)
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# ---------------------------
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# Copy m4_MACRO-NAME as MACRO-NAME.
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m4_define([m4_copy_unm4],
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[m4_copy([$1], m4_patsubst([$1], [^m4_\(.*\)], [[\1]]))])
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# Some m4 internals have names colliding with tokens we might use.
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# Rename them a` la `m4 --prefix-builtins'.
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m4_rename_m4([builtin])
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m4_rename_m4([changecom])
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m4_rename_m4([changequote])
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m4_rename_m4([debugfile])
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m4_rename_m4([debugmode])
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m4_rename_m4([decr])
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m4_undefine([divert])
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m4_rename_m4([divnum])
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m4_rename_m4([dumpdef])
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m4_rename_m4([errprint])
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m4_rename_m4([esyscmd])
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m4_rename_m4([eval])
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m4_rename_m4([format])
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m4_rename_m4([ifdef])
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m4_rename([ifelse], [m4_if])
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m4_rename_m4([include])
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m4_rename_m4([incr])
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m4_rename_m4([index])
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m4_rename_m4([indir])
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m4_rename_m4([len])
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m4_rename([m4exit], [m4_exit])
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m4_rename([m4wrap], [m4_wrap])
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m4_rename_m4([maketemp])
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m4_rename_m4([patsubst])
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m4_undefine([popdef])
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m4_rename_m4([pushdef])
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m4_rename_m4([regexp])
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m4_rename_m4([shift])
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m4_rename_m4([sinclude])
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m4_rename_m4([substr])
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m4_rename_m4([symbols])
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m4_rename_m4([syscmd])
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m4_rename_m4([sysval])
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m4_rename_m4([traceoff])
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m4_rename_m4([traceon])
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m4_rename_m4([translit])
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m4_undefine([undivert])
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## ------------------- ##
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## 2. Error messages. ##
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## ------------------- ##
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# m4_location
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# -----------
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m4_define([m4_location],
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[__file__:__line__])
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# m4_errprintn(MSG)
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# -----------------
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# Same as `errprint', but with the missing end of line.
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m4_define([m4_errprintn],
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[m4_errprint([$1
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])])
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# m4_warning(MSG)
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# ---------------
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# Warn the user.
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m4_define([m4_warning],
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[m4_errprintn(m4_location[: warning: $1])])
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# m4_fatal(MSG, [EXIT-STATUS])
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# ----------------------------
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# Fatal the user. :)
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m4_define([m4_fatal],
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[m4_errprintn(m4_location[: error: $1])dnl
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m4_expansion_stack_dump()dnl
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m4_exit(m4_if([$2],, 1, [$2]))])
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# m4_assert(EXPRESSION, [EXIT-STATUS = 1])
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# ----------------------------------------
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# This macro ensures that EXPRESSION evaluates to true, and exits if
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# EXPRESSION evaluates to false.
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m4_define([m4_assert],
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[m4_if(m4_eval([$1]), 0,
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[m4_fatal([assert failed: $1], [$2])])])
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## ------------- ##
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## 3. Warnings. ##
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## ------------- ##
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# m4_warning_ifelse(CATEGORY, IF-TRUE, IF-FALSE)
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# ----------------------------------------------
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# If the CATEGORY of warnings is enabled, expand IF_TRUE otherwise
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# IF-FALSE.
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#
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# The variable `m4_warnings' contains a comma separated list of
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# warnings which order is the converse from the one specified by
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# the user, i.e., if she specified `-W error,none,obsolete',
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# `m4_warnings' is `obsolete,none,error'. We read it from left to
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# right, and:
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# - if none or noCATEGORY is met, run IF-FALSE
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# - if all or CATEGORY is met, run IF-TRUE
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# - if there is nothing left, run IF-FALSE.
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m4_define([m4_warning_ifelse],
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[_m4_warning_ifelse([$1], [$2], [$3], m4_warnings)])
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# _m4_warning_ifelse(CATEGORY, IF-TRUE, IF-FALSE, WARNING1, ...)
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# --------------------------------------------------------------
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# Implementation of the loop described above.
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m4_define([_m4_warning_ifelse],
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[m4_case([$4],
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[$1], [$2],
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[all], [$2],
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[], [$3],
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[none], [$3],
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[no-$1], [$3],
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[$0([$1], [$2], [$3], m4_shiftn(4, $@))])])
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# _m4_warning_error_ifelse(IF-TRUE, IF-FALSE)
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# -------------------------------------------
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# The same as m4_warning_ifelse, but scan for `error' only.
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m4_define([_m4_warning_error_ifelse],
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[__m4_warning_error_ifelse([$1], [$2], m4_warnings)])
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# __m4_warning_error_ifelse(IF-TRUE, IF-FALSE)
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# --------------------------------------------
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# The same as _m4_warning_ifelse, but scan for `error' only.
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m4_define([__m4_warning_error_ifelse],
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[m4_case([$3],
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[error], [$1],
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[], [$2],
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[no-error], [$2],
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[$0([$1], [$2], m4_shiftn(3, $@))])])
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# _m4_warn(MESSAGE)
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# -----------------
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# Report MESSAGE as a warning, unless the user requested -W error,
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# in which case report a fatal error.
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m4_define([_m4_warn],
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[_m4_warning_error_ifelse([m4_fatal([$1])],
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[m4_warning([$1])])])
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# m4_warn(CATEGORY, MESSAGE)
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# --------------------------
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# Report a MESSAGE to the autoconf user if the CATEGORY of warnings
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# is requested (in fact, not disabled).
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m4_define([m4_warn],
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[m4_warning_ifelse([$1], [_m4_warn([$2])])])
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## ------------------- ##
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## 4. File inclusion. ##
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## ------------------- ##
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# We also want to neutralize include (and sinclude for symmetry),
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# but we want to extend them slightly: warn when a file is included
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# several times. This is in general a dangerous operation because
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# quite nobody quotes the first argument of m4_define.
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#
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# For instance in the following case:
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# m4_define(foo, [bar])
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# then a second reading will turn into
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# m4_define(bar, [bar])
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# which is certainly not what was meant.
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# m4_include_unique(FILE)
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# -----------------------
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# Declare that the FILE was loading; and warn if it has already
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# been included.
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m4_define([m4_include_unique],
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[m4_ifdef([m4_include($1)],
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[m4_warn([syntax], [file `$1' included several times])])dnl
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m4_define([m4_include($1)])])
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# m4_include(FILE)
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# ----------------
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# As the builtin include, but warns against multiple inclusions.
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m4_define([m4_include],
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[m4_include_unique([$1])dnl
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m4_builtin([include], [$1])])
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# m4_sinclude(FILE)
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# -----------------
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# As the builtin sinclude, but warns against multiple inclusions.
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m4_define([m4_sinclude],
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[m4_include_unique([$1])dnl
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m4_builtin([sinclude], [$1])])
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## ------------------------------------ ##
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## 5. Additional branching constructs. ##
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## ------------------------------------ ##
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# Both `m4_ifval' and `m4_ifset' tests against the empty string. The
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# difference is that `m4_ifset' is specialized on macros.
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#
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# In case of arguments of macros, eg $[1], it makes little difference.
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# In the case of a macro `FOO', you don't want to check `m4_ifval(FOO,
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# TRUE)', because if `FOO' expands with commas, there is a shifting of
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# the arguments. So you want to run `m4_ifval([FOO])', but then you just
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# compare the *string* `FOO' against `', which, of course fails.
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#
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# So you want a variation of `m4_ifset' that expects a macro name as $[1].
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# If this macro is both defined and defined to a non empty value, then
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# it runs TRUE etc.
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# m4_ifval(COND, [IF-TRUE], [IF-FALSE])
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# -------------------------------------
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# If COND is not the empty string, expand IF-TRUE, otherwise IF-FALSE.
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# Comparable to m4_ifdef.
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m4_define([m4_ifval],
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[m4_if([$1], [], [$3], [$2])])
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# m4_n(TEXT)
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# ----------
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# If TEXT is not empty, return TEXT and a new line, otherwise nothing.
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m4_define([m4_n],
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|
[m4_if([$1],
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|
[], [],
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[$1
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|
])])
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# m4_ifvaln(COND, [IF-TRUE], [IF-FALSE])
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|
# --------------------------------------
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|||
|
# Same as `m4_ifval', but add an extra newline to IF-TRUE or IF-FALSE
|
|||
|
# unless that argument is empty.
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|||
|
m4_define([m4_ifvaln],
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|
[m4_if([$1],
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|
[], [m4_n([$3])],
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|
[m4_n([$2])])])
|
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|
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|
# m4_ifset(MACRO, [IF-TRUE], [IF-FALSE])
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|||
|
# --------------------------------------
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|||
|
# If MACRO has no definition, or of its definition is the empty string,
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|||
|
# expand IF-FALSE, otherwise IF-TRUE.
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|||
|
m4_define([m4_ifset],
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|||
|
[m4_ifdef([$1],
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|
[m4_if(m4_defn([$1]), [], [$3], [$2])],
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|
[$3])])
|
|||
|
|
|||
|
|
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|
# m4_ifndef(NAME, [IF-NOT-DEFINED], [IF-DEFINED])
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|
# -----------------------------------------------
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|||
|
m4_define([m4_ifndef],
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|||
|
[m4_ifdef([$1], [$3], [$2])])
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|
|
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|
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|
# m4_case(SWITCH, VAL1, IF-VAL1, VAL2, IF-VAL2, ..., DEFAULT)
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|||
|
# -----------------------------------------------------------
|
|||
|
# m4 equivalent of
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|||
|
# switch (SWITCH)
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|||
|
# {
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|||
|
# case VAL1:
|
|||
|
# IF-VAL1;
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|||
|
# break;
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|||
|
# case VAL2:
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|||
|
# IF-VAL2;
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|||
|
# break;
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|||
|
# ...
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|||
|
# default:
|
|||
|
# DEFAULT;
|
|||
|
# break;
|
|||
|
# }.
|
|||
|
# All the values are optional, and the macro is robust to active
|
|||
|
# symbols properly quoted.
|
|||
|
m4_define([m4_case],
|
|||
|
[m4_if([$#], 0, [],
|
|||
|
[$#], 1, [],
|
|||
|
[$#], 2, [$2],
|
|||
|
[$1], [$2], [$3],
|
|||
|
[m4_case([$1], m4_shiftn(3, $@))])])
|
|||
|
|
|||
|
|
|||
|
# m4_match(SWITCH, RE1, VAL1, RE2, VAL2, ..., DEFAULT)
|
|||
|
# ----------------------------------------------------
|
|||
|
# m4 equivalent of
|
|||
|
#
|
|||
|
# if (SWITCH =~ RE1)
|
|||
|
# VAL1;
|
|||
|
# elif (SWITCH =~ RE2)
|
|||
|
# VAL2;
|
|||
|
# elif ...
|
|||
|
# ...
|
|||
|
# else
|
|||
|
# DEFAULT
|
|||
|
#
|
|||
|
# All the values are optional, and the macro is robust to active symbols
|
|||
|
# properly quoted.
|
|||
|
m4_define([m4_match],
|
|||
|
[m4_if([$#], 0, [],
|
|||
|
[$#], 1, [],
|
|||
|
[$#], 2, [$2],
|
|||
|
m4_regexp([$1], [$2]), -1, [m4_match([$1], m4_shiftn(3, $@))],
|
|||
|
[$3])])
|
|||
|
|
|||
|
|
|||
|
|
|||
|
## ---------------------------------------- ##
|
|||
|
## 6. Enhanced version of some primitives. ##
|
|||
|
## ---------------------------------------- ##
|
|||
|
|
|||
|
# m4_do(STRING, ...)
|
|||
|
# ------------------
|
|||
|
# This macro invokes all its arguments (in sequence, of course). It is
|
|||
|
# useful for making your macros more structured and readable by dropping
|
|||
|
# unecessary dnl's and have the macros indented properly.
|
|||
|
m4_define([m4_do],
|
|||
|
[m4_if($#, 0, [],
|
|||
|
$#, 1, [$1],
|
|||
|
[$1[]m4_do(m4_shift($@))])])
|
|||
|
|
|||
|
|
|||
|
# m4_default(EXP1, EXP2)
|
|||
|
# ----------------------
|
|||
|
# Returns EXP1 if non empty, otherwise EXP2.
|
|||
|
m4_define([m4_default],
|
|||
|
[m4_ifval([$1], [$1], [$2])])
|
|||
|
|
|||
|
|
|||
|
# m4_defn(NAME)
|
|||
|
# -------------
|
|||
|
# Unlike to the original, don't tolerate popping something which is
|
|||
|
# undefined.
|
|||
|
m4_define([m4_defn],
|
|||
|
[m4_ifndef([$1],
|
|||
|
[m4_fatal([$0: undefined macro: $1])])dnl
|
|||
|
m4_builtin([defn], $@)])
|
|||
|
|
|||
|
|
|||
|
# _m4_dumpdefs_up(NAME)
|
|||
|
# ---------------------
|
|||
|
m4_define([_m4_dumpdefs_up],
|
|||
|
[m4_ifdef([$1],
|
|||
|
[m4_pushdef([_m4_dumpdefs], m4_defn([$1]))dnl
|
|||
|
m4_dumpdef([$1])dnl
|
|||
|
m4_popdef([$1])dnl
|
|||
|
_m4_dumpdefs_up([$1])])])
|
|||
|
|
|||
|
|
|||
|
# _m4_dumpdefs_down(NAME)
|
|||
|
# -----------------------
|
|||
|
m4_define([_m4_dumpdefs_down],
|
|||
|
[m4_ifdef([_m4_dumpdefs],
|
|||
|
[m4_pushdef([$1], m4_defn([_m4_dumpdefs]))dnl
|
|||
|
m4_popdef([_m4_dumpdefs])dnl
|
|||
|
_m4_dumpdefs_down([$1])])])
|
|||
|
|
|||
|
|
|||
|
# m4_dumpdefs(NAME)
|
|||
|
# -----------------
|
|||
|
# Similar to `m4_dumpdef(NAME)', but if NAME was m4_pushdef'ed, display its
|
|||
|
# value stack (most recent displayed first).
|
|||
|
m4_define([m4_dumpdefs],
|
|||
|
[_m4_dumpdefs_up([$1])dnl
|
|||
|
_m4_dumpdefs_down([$1])])
|
|||
|
|
|||
|
|
|||
|
# m4_popdef(NAME)
|
|||
|
# ---------------
|
|||
|
# Unlike to the original, don't tolerate popping something which is
|
|||
|
# undefined.
|
|||
|
m4_define([m4_popdef],
|
|||
|
[m4_ifndef([$1],
|
|||
|
[m4_fatal([$0: undefined macro: $1])])dnl
|
|||
|
m4_builtin([popdef], $@)])
|
|||
|
|
|||
|
|
|||
|
# m4_quote(STRING)
|
|||
|
# ----------------
|
|||
|
# Return STRING quoted.
|
|||
|
#
|
|||
|
# It is important to realize the difference between `m4_quote(exp)' and
|
|||
|
# `[exp]': in the first case you obtain the quoted *result* of the
|
|||
|
# expansion of EXP, while in the latter you just obtain the string
|
|||
|
# `exp'.
|
|||
|
m4_define([m4_quote], [[$*]])
|
|||
|
m4_define([m4_dquote], [[[$*]]])
|
|||
|
|
|||
|
|
|||
|
# m4_noquote(STRING)
|
|||
|
# ------------------
|
|||
|
# Return the result of ignoring all quotes in STRING and invoking the
|
|||
|
# macros it contains. Amongst other things useful for enabling macro
|
|||
|
# invocations inside strings with [] blocks (for instance regexps and
|
|||
|
# help-strings).
|
|||
|
m4_define([m4_noquote],
|
|||
|
[m4_changequote(-=<{,}>=-)$1-=<{}>=-m4_changequote([,])])
|
|||
|
|
|||
|
|
|||
|
# m4_shiftn(N, ...)
|
|||
|
# -----------------
|
|||
|
# Returns ... shifted N times. Useful for recursive "varargs" constructs.
|
|||
|
m4_define([m4_shiftn],
|
|||
|
[m4_assert(($1 >= 0) && ($# > $1))dnl
|
|||
|
_m4_shiftn($@)])
|
|||
|
|
|||
|
m4_define([_m4_shiftn],
|
|||
|
[m4_if([$1], 0,
|
|||
|
[m4_shift($@)],
|
|||
|
[_m4_shiftn(m4_eval([$1]-1), m4_shift(m4_shift($@)))])])
|
|||
|
|
|||
|
|
|||
|
# m4_undefine(NAME)
|
|||
|
# -----------------
|
|||
|
# Unlike to the original, don't tolerate undefining something which is
|
|||
|
# undefined.
|
|||
|
m4_define([m4_undefine],
|
|||
|
[m4_ifndef([$1],
|
|||
|
[m4_fatal([$0: undefined macro: $1])])dnl
|
|||
|
m4_builtin([undefine], $@)])
|
|||
|
|
|||
|
|
|||
|
## -------------------------- ##
|
|||
|
## 7. Implementing m4 loops. ##
|
|||
|
## -------------------------- ##
|
|||
|
|
|||
|
|
|||
|
# m4_for(VARIABLE, FIRST, LAST, [STEP = +/-1], EXPRESSION)
|
|||
|
# --------------------------------------------------------
|
|||
|
# Expand EXPRESSION defining VARIABLE to FROM, FROM + 1, ..., TO.
|
|||
|
# Both limits are included, and bounds are checked for consistency.
|
|||
|
m4_define([m4_for],
|
|||
|
[m4_case(m4_sign(m4_eval($3 - $2)),
|
|||
|
1, [m4_assert(m4_sign(m4_default($4, 1)) == 1)],
|
|||
|
-1, [m4_assert(m4_sign(m4_default($4, -1)) == -1)])dnl
|
|||
|
m4_pushdef([$1], [$2])dnl
|
|||
|
m4_if(m4_eval([$3 > $2]), 1,
|
|||
|
[_m4_for([$1], [$3], m4_default([$4], 1), [$5])],
|
|||
|
[_m4_for([$1], [$3], m4_default([$4], -1), [$5])])dnl
|
|||
|
m4_popdef([$1])])
|
|||
|
|
|||
|
|
|||
|
# _m4_for(VARIABLE, FIRST, LAST, STEP, EXPRESSION)
|
|||
|
# ------------------------------------------------
|
|||
|
# Core of the loop, no consistency checks.
|
|||
|
m4_define([_m4_for],
|
|||
|
[$4[]dnl
|
|||
|
m4_if($1, [$2], [],
|
|||
|
[m4_define([$1], m4_eval($1+[$3]))_m4_for([$1], [$2], [$3], [$4])])])
|
|||
|
|
|||
|
|
|||
|
# Implementing `foreach' loops in m4 is much more tricky than it may
|
|||
|
# seem. Actually, the example of a `foreach' loop in the m4
|
|||
|
# documentation is wrong: it does not quote the arguments properly,
|
|||
|
# which leads to undesired expansions.
|
|||
|
#
|
|||
|
# The example in the documentation is:
|
|||
|
#
|
|||
|
# | # foreach(VAR, (LIST), STMT)
|
|||
|
# | m4_define([foreach],
|
|||
|
# | [m4_pushdef([$1])_foreach([$1], [$2], [$3])m4_popdef([$1])])
|
|||
|
# | m4_define([_arg1], [$1])
|
|||
|
# | m4_define([_foreach],
|
|||
|
# | [m4_if([$2], [()], ,
|
|||
|
# | [m4_define([$1], _arg1$2)$3[]_foreach([$1],
|
|||
|
# | (shift$2),
|
|||
|
# | [$3])])])
|
|||
|
#
|
|||
|
# But then if you run
|
|||
|
#
|
|||
|
# | m4_define(a, 1)
|
|||
|
# | m4_define(b, 2)
|
|||
|
# | m4_define(c, 3)
|
|||
|
# | foreach([f], [([a], [(b], [c)])], [echo f
|
|||
|
# | ])
|
|||
|
#
|
|||
|
# it gives
|
|||
|
#
|
|||
|
# => echo 1
|
|||
|
# => echo (2,3)
|
|||
|
#
|
|||
|
# which is not what is expected.
|
|||
|
#
|
|||
|
# Of course the problem is that many quotes are missing. So you add
|
|||
|
# plenty of quotes at random places, until you reach the expected
|
|||
|
# result. Alternatively, if you are a quoting wizard, you directly
|
|||
|
# reach the following implementation (but if you really did, then
|
|||
|
# apply to the maintenance of m4sugar!).
|
|||
|
#
|
|||
|
# | # foreach(VAR, (LIST), STMT)
|
|||
|
# | m4_define([foreach], [m4_pushdef([$1])_foreach($@)m4_popdef([$1])])
|
|||
|
# | m4_define([_arg1], [[$1]])
|
|||
|
# | m4_define([_foreach],
|
|||
|
# | [m4_if($2, [()], ,
|
|||
|
# | [m4_define([$1], [_arg1$2])$3[]_foreach([$1],
|
|||
|
# | [(shift$2)],
|
|||
|
# | [$3])])])
|
|||
|
#
|
|||
|
# which this time answers
|
|||
|
#
|
|||
|
# => echo a
|
|||
|
# => echo (b
|
|||
|
# => echo c)
|
|||
|
#
|
|||
|
# Bingo!
|
|||
|
#
|
|||
|
# Well, not quite.
|
|||
|
#
|
|||
|
# With a better look, you realize that the parens are more a pain than
|
|||
|
# a help: since anyway you need to quote properly the list, you end up
|
|||
|
# with always using an outermost pair of parens and an outermost pair
|
|||
|
# of quotes. Rejecting the parens both eases the implementation, and
|
|||
|
# simplifies the use:
|
|||
|
#
|
|||
|
# | # foreach(VAR, (LIST), STMT)
|
|||
|
# | m4_define([foreach], [m4_pushdef([$1])_foreach($@)m4_popdef([$1])])
|
|||
|
# | m4_define([_arg1], [$1])
|
|||
|
# | m4_define([_foreach],
|
|||
|
# | [m4_if($2, [], ,
|
|||
|
# | [m4_define([$1], [_arg1($2)])$3[]_foreach([$1],
|
|||
|
# | [shift($2)],
|
|||
|
# | [$3])])])
|
|||
|
#
|
|||
|
#
|
|||
|
# Now, just replace the `$2' with `m4_quote($2)' in the outer `m4_if'
|
|||
|
# to improve robustness, and you come up with a quite satisfactory
|
|||
|
# implementation.
|
|||
|
|
|||
|
|
|||
|
# m4_foreach(VARIABLE, LIST, EXPRESSION)
|
|||
|
# --------------------------------------
|
|||
|
#
|
|||
|
# Expand EXPRESSION assigning each value of the LIST to VARIABLE.
|
|||
|
# LIST should have the form `item_1, item_2, ..., item_n', i.e. the
|
|||
|
# whole list must *quoted*. Quote members too if you don't want them
|
|||
|
# to be expanded.
|
|||
|
#
|
|||
|
# This macro is robust to active symbols:
|
|||
|
# | m4_define(active, [ACT, IVE])
|
|||
|
# | m4_foreach(Var, [active, active], [-Var-])
|
|||
|
# => -ACT--IVE--ACT--IVE-
|
|||
|
#
|
|||
|
# | m4_foreach(Var, [[active], [active]], [-Var-])
|
|||
|
# => -ACT, IVE--ACT, IVE-
|
|||
|
#
|
|||
|
# | m4_foreach(Var, [[[active]], [[active]]], [-Var-])
|
|||
|
# => -active--active-
|
|||
|
m4_define([m4_foreach],
|
|||
|
[m4_pushdef([$1])_m4_foreach($@)m4_popdef([$1])])
|
|||
|
|
|||
|
# Low level macros used to define m4_foreach.
|
|||
|
m4_define([m4_car], [$1])
|
|||
|
m4_define([_m4_foreach],
|
|||
|
[m4_if(m4_quote($2), [], [],
|
|||
|
[m4_define([$1], [m4_car($2)])$3[]_m4_foreach([$1],
|
|||
|
[m4_shift($2)],
|
|||
|
[$3])])])
|
|||
|
|
|||
|
|
|||
|
|
|||
|
## --------------------------- ##
|
|||
|
## 8. More diversion support. ##
|
|||
|
## --------------------------- ##
|
|||
|
|
|||
|
|
|||
|
# _m4_divert(DIVERSION-NAME or NUMBER)
|
|||
|
# ------------------------------------
|
|||
|
# If DIVERSION-NAME is the name of a diversion, return its number,
|
|||
|
# otherwise if is a NUMBER return it.
|
|||
|
m4_define([_m4_divert],
|
|||
|
[m4_ifdef([_m4_divert($1)],
|
|||
|
[m4_indir([_m4_divert($1)])],
|
|||
|
[$1])])
|
|||
|
|
|||
|
# KILL is only used to suppress output.
|
|||
|
m4_define([_m4_divert(KILL)], -1)
|
|||
|
|
|||
|
|
|||
|
# m4_divert(DIVERSION-NAME)
|
|||
|
# -------------------------
|
|||
|
# Change the diversion stream to DIVERSION-NAME.
|
|||
|
m4_define([m4_divert],
|
|||
|
[m4_define([m4_divert_stack],
|
|||
|
m4_location[: $0: $1]m4_ifdef([m4_divert_stack], [
|
|||
|
m4_defn([m4_divert_stack])]))dnl
|
|||
|
m4_builtin([divert], _m4_divert([$1]))dnl
|
|||
|
])
|
|||
|
|
|||
|
|
|||
|
# m4_divert_push(DIVERSION-NAME)
|
|||
|
# ------------------------------
|
|||
|
# Change the diversion stream to DIVERSION-NAME, while stacking old values.
|
|||
|
m4_define([m4_divert_push],
|
|||
|
[m4_pushdef([m4_divert_stack],
|
|||
|
m4_location[: $0: $1]m4_ifdef([m4_divert_stack], [
|
|||
|
m4_defn([m4_divert_stack])]))dnl
|
|||
|
m4_pushdef([_m4_divert_diversion], [$1])dnl
|
|||
|
m4_builtin([divert], _m4_divert(_m4_divert_diversion))dnl
|
|||
|
])
|
|||
|
|
|||
|
|
|||
|
# m4_divert_pop([DIVERSION-NAME])
|
|||
|
# -------------------------------
|
|||
|
# Change the diversion stream to its previous value, unstacking it.
|
|||
|
# If specified, verify we left DIVERSION-NAME.
|
|||
|
m4_define([m4_divert_pop],
|
|||
|
[m4_ifval([$1],
|
|||
|
[m4_if(_m4_divert([$1]), m4_divnum, [],
|
|||
|
[m4_fatal([$0($1): unexpected current diversion: ]m4_divnum)])])dnl
|
|||
|
m4_popdef([_m4_divert_diversion])dnl
|
|||
|
dnl m4_ifndef([_m4_divert_diversion],
|
|||
|
dnl [m4_fatal([too many m4_divert_pop])])dnl
|
|||
|
m4_builtin([divert],
|
|||
|
m4_ifdef([_m4_divert_diversion],
|
|||
|
[_m4_divert(_m4_divert_diversion)], -1))dnl
|
|||
|
m4_popdef([m4_divert_stack])dnl
|
|||
|
])
|
|||
|
|
|||
|
|
|||
|
# m4_divert_text(DIVERSION-NAME, CONTENT)
|
|||
|
# ---------------------------------------
|
|||
|
# Output CONTENT into DIVERSION-NAME (which may be a number actually).
|
|||
|
# An end of line is appended for free to CONTENT.
|
|||
|
m4_define([m4_divert_text],
|
|||
|
[m4_divert_push([$1])dnl
|
|||
|
$2
|
|||
|
m4_divert_pop([$1])dnl
|
|||
|
])
|
|||
|
|
|||
|
|
|||
|
# m4_divert_once(DIVERSION-NAME, CONTENT)
|
|||
|
# ---------------------------------------
|
|||
|
# Output once CONTENT into DIVERSION-NAME (which may be a number
|
|||
|
# actually). An end of line is appended for free to CONTENT.
|
|||
|
m4_define([m4_divert_once],
|
|||
|
[m4_expand_once([m4_divert_text([$1], [$2])])])
|
|||
|
|
|||
|
|
|||
|
# m4_undivert(DIVERSION-NAME)
|
|||
|
# ---------------------------
|
|||
|
# Undivert DIVERSION-NAME.
|
|||
|
m4_define([m4_undivert],
|
|||
|
[m4_builtin([undivert], _m4_divert([$1]))])
|
|||
|
|
|||
|
|
|||
|
|
|||
|
|
|||
|
## -------------------------------------------- ##
|
|||
|
## 8. Defining macros with bells and whistles. ##
|
|||
|
## -------------------------------------------- ##
|
|||
|
|
|||
|
# `m4_defun' is basically `m4_define' but it equips the macro with the
|
|||
|
# needed machinery for `m4_require'. A macro must be m4_defun'd if
|
|||
|
# either it is m4_require'd, or it m4_require's.
|
|||
|
#
|
|||
|
# Two things deserve attention and are detailed below:
|
|||
|
# 1. Implementation of m4_require
|
|||
|
# 2. Keeping track of the expansion stack
|
|||
|
#
|
|||
|
# 1. Implementation of m4_require
|
|||
|
# ===============================
|
|||
|
#
|
|||
|
# Of course m4_defun AC_PROVIDE's the macro, so that a macro which has
|
|||
|
# been expanded is not expanded again when m4_require'd, but the
|
|||
|
# difficult part is the proper expansion of macros when they are
|
|||
|
# m4_require'd.
|
|||
|
#
|
|||
|
# The implementation is based on two ideas, (i) using diversions to
|
|||
|
# prepare the expansion of the macro and its dependencies (by Fran<61>ois
|
|||
|
# Pinard), and (ii) expand the most recently m4_require'd macros _after_
|
|||
|
# the previous macros (by Axel Thimm).
|
|||
|
#
|
|||
|
#
|
|||
|
# The first idea: why using diversions?
|
|||
|
# -------------------------------------
|
|||
|
#
|
|||
|
# When a macro requires another, the other macro is expanded in new
|
|||
|
# diversion, GROW. When the outer macro is fully expanded, we first
|
|||
|
# undivert the most nested diversions (GROW - 1...), and finally
|
|||
|
# undivert GROW. To understand why we need several diversions,
|
|||
|
# consider the following example:
|
|||
|
#
|
|||
|
# | m4_defun([TEST1], [Test...REQUIRE([TEST2])1])
|
|||
|
# | m4_defun([TEST2], [Test...REQUIRE([TEST3])2])
|
|||
|
# | m4_defun([TEST3], [Test...3])
|
|||
|
#
|
|||
|
# Because m4_require is not required to be first in the outer macros, we
|
|||
|
# must keep the expansions of the various level of m4_require separated.
|
|||
|
# Right before executing the epilogue of TEST1, we have:
|
|||
|
#
|
|||
|
# GROW - 2: Test...3
|
|||
|
# GROW - 1: Test...2
|
|||
|
# GROW: Test...1
|
|||
|
# BODY:
|
|||
|
#
|
|||
|
# Finally the epilogue of TEST1 undiverts GROW - 2, GROW - 1, and
|
|||
|
# GROW into the regular flow, BODY.
|
|||
|
#
|
|||
|
# GROW - 2:
|
|||
|
# GROW - 1:
|
|||
|
# GROW:
|
|||
|
# BODY: Test...3; Test...2; Test...1
|
|||
|
#
|
|||
|
# (The semicolons are here for clarification, but of course are not
|
|||
|
# emitted.) This is what Autoconf 2.0 (I think) to 2.13 (I'm sure)
|
|||
|
# implement.
|
|||
|
#
|
|||
|
#
|
|||
|
# The second idea: first required first out
|
|||
|
# -----------------------------------------
|
|||
|
#
|
|||
|
# The natural implementation of the idea above is buggy and produces
|
|||
|
# very surprising results in some situations. Let's consider the
|
|||
|
# following example to explain the bug:
|
|||
|
#
|
|||
|
# | m4_defun([TEST1], [REQUIRE([TEST2a])REQUIRE([TEST2b])])
|
|||
|
# | m4_defun([TEST2a], [])
|
|||
|
# | m4_defun([TEST2b], [REQUIRE([TEST3])])
|
|||
|
# | m4_defun([TEST3], [REQUIRE([TEST2a])])
|
|||
|
# |
|
|||
|
# | AC_INIT
|
|||
|
# | TEST1
|
|||
|
#
|
|||
|
# The dependencies between the macros are:
|
|||
|
#
|
|||
|
# 3 --- 2b
|
|||
|
# / \ is m4_require'd by
|
|||
|
# / \ left -------------------- right
|
|||
|
# 2a ------------ 1
|
|||
|
#
|
|||
|
# If you strictly apply the rules given in the previous section you get:
|
|||
|
#
|
|||
|
# GROW - 2: TEST3
|
|||
|
# GROW - 1: TEST2a; TEST2b
|
|||
|
# GROW: TEST1
|
|||
|
# BODY:
|
|||
|
#
|
|||
|
# (TEST2a, although required by TEST3 is not expanded in GROW - 3
|
|||
|
# because is has already been expanded before in GROW - 1, so it has
|
|||
|
# been AC_PROVIDE'd, so it is not expanded again) so when you undivert
|
|||
|
# the stack of diversions, you get:
|
|||
|
#
|
|||
|
# GROW - 2:
|
|||
|
# GROW - 1:
|
|||
|
# GROW:
|
|||
|
# BODY: TEST3; TEST2a; TEST2b; TEST1
|
|||
|
#
|
|||
|
# i.e., TEST2a is expanded after TEST3 although the latter required the
|
|||
|
# former.
|
|||
|
#
|
|||
|
# Starting from 2.50, uses an implementation provided by Axel Thimm.
|
|||
|
# The idea is simple: the order in which macros are emitted must be the
|
|||
|
# same as the one in which macro are expanded. (The bug above can
|
|||
|
# indeed be described as: a macro has been AC_PROVIDE'd, but it is
|
|||
|
# emitted after: the lack of correlation between emission and expansion
|
|||
|
# order is guilty).
|
|||
|
#
|
|||
|
# How to do that? You keeping the stack of diversions to elaborate the
|
|||
|
# macros, but each time a macro is fully expanded, emit it immediately.
|
|||
|
#
|
|||
|
# In the example above, when TEST2a is expanded, but it's epilogue is
|
|||
|
# not run yet, you have:
|
|||
|
#
|
|||
|
# GROW - 2:
|
|||
|
# GROW - 1: TEST2a
|
|||
|
# GROW: Elaboration of TEST1
|
|||
|
# BODY:
|
|||
|
#
|
|||
|
# The epilogue of TEST2a emits it immediately:
|
|||
|
#
|
|||
|
# GROW - 2:
|
|||
|
# GROW - 1:
|
|||
|
# GROW: Elaboration of TEST1
|
|||
|
# BODY: TEST2a
|
|||
|
#
|
|||
|
# TEST2b then requires TEST3, so right before the epilogue of TEST3, you
|
|||
|
# have:
|
|||
|
#
|
|||
|
# GROW - 2: TEST3
|
|||
|
# GROW - 1: Elaboration of TEST2b
|
|||
|
# GROW: Elaboration of TEST1
|
|||
|
# BODY: TEST2a
|
|||
|
#
|
|||
|
# The epilogue of TEST3 emits it:
|
|||
|
#
|
|||
|
# GROW - 2:
|
|||
|
# GROW - 1: Elaboration of TEST2b
|
|||
|
# GROW: Elaboration of TEST1
|
|||
|
# BODY: TEST2a; TEST3
|
|||
|
#
|
|||
|
# TEST2b is now completely expanded, and emitted:
|
|||
|
#
|
|||
|
# GROW - 2:
|
|||
|
# GROW - 1:
|
|||
|
# GROW: Elaboration of TEST1
|
|||
|
# BODY: TEST2a; TEST3; TEST2b
|
|||
|
#
|
|||
|
# and finally, TEST1 is finished and emitted:
|
|||
|
#
|
|||
|
# GROW - 2:
|
|||
|
# GROW - 1:
|
|||
|
# GROW:
|
|||
|
# BODY: TEST2a; TEST3; TEST2b: TEST1
|
|||
|
#
|
|||
|
# The idea, is simple, but the implementation is a bit evolved. If you
|
|||
|
# are like me, you will want to see the actual functioning of this
|
|||
|
# implementation to be convinced. The next section gives the full
|
|||
|
# details.
|
|||
|
#
|
|||
|
#
|
|||
|
# The Axel Thimm implementation at work
|
|||
|
# -------------------------------------
|
|||
|
#
|
|||
|
# We consider the macros above, and this configure.ac:
|
|||
|
#
|
|||
|
# AC_INIT
|
|||
|
# TEST1
|
|||
|
#
|
|||
|
# You should keep the definitions of _m4_defun_pro, _m4_defun_epi, and
|
|||
|
# m4_require at hand to follow the steps.
|
|||
|
#
|
|||
|
# This implements tries not to assume that of the current diversion is
|
|||
|
# BODY, so as soon as a macro (m4_defun'd) is expanded, we first
|
|||
|
# record the current diversion under the name _m4_divert_dump (denoted
|
|||
|
# DUMP below for short). This introduces an important difference with
|
|||
|
# the previous versions of Autoconf: you cannot use m4_require if you
|
|||
|
# were not inside an m4_defun'd macro, and especially, you cannot
|
|||
|
# m4_require directly from the top level.
|
|||
|
#
|
|||
|
# We have not tried to simulate the old behavior (better yet, we
|
|||
|
# diagnose it), because it is too dangerous: a macro m4_require'd from
|
|||
|
# the top level is expanded before the body of `configure', i.e., before
|
|||
|
# any other test was run. I let you imagine the result of requiring
|
|||
|
# AC_STDC_HEADERS for instance, before AC_PROG_CC was actually run....
|
|||
|
#
|
|||
|
# After AC_INIT was run, the current diversion is BODY.
|
|||
|
# * AC_INIT was run
|
|||
|
# DUMP: undefined
|
|||
|
# diversion stack: BODY |-
|
|||
|
#
|
|||
|
# * TEST1 is expanded
|
|||
|
# The prologue of TEST1 sets AC_DIVERSION_DUMP, which is the diversion
|
|||
|
# where the current elaboration will be dumped, to the current
|
|||
|
# diversion. It also m4_divert_push to GROW, where the full
|
|||
|
# expansion of TEST1 and its dependencies will be elaborated.
|
|||
|
# DUMP: BODY
|
|||
|
# BODY: empty
|
|||
|
# diversions: GROW, BODY |-
|
|||
|
#
|
|||
|
# * TEST1 requires TEST2a: prologue
|
|||
|
# m4_require m4_divert_pushes another temporary diversion GROW - 1 (in
|
|||
|
# fact, the diversion whose number is one less than the current
|
|||
|
# diversion), and expands TEST2a in there.
|
|||
|
# DUMP: BODY
|
|||
|
# BODY: empty
|
|||
|
# diversions: GROW-1, GROW, BODY |-
|
|||
|
#
|
|||
|
# * TEST2a is expanded.
|
|||
|
# Its prologue pushes the current diversion again.
|
|||
|
# DUMP: BODY
|
|||
|
# BODY: empty
|
|||
|
# diversions: GROW - 1, GROW - 1, GROW, BODY |-
|
|||
|
# It is expanded in GROW - 1, and GROW - 1 is popped by the epilogue
|
|||
|
# of TEST2a.
|
|||
|
# DUMP: BODY
|
|||
|
# BODY: nothing
|
|||
|
# GROW - 1: TEST2a
|
|||
|
# diversions: GROW - 1, GROW, BODY |-
|
|||
|
#
|
|||
|
# * TEST1 requires TEST2a: epilogue
|
|||
|
# The content of the current diversion is appended to DUMP (and removed
|
|||
|
# from the current diversion). A diversion is popped.
|
|||
|
# DUMP: BODY
|
|||
|
# BODY: TEST2a
|
|||
|
# diversions: GROW, BODY |-
|
|||
|
#
|
|||
|
# * TEST1 requires TEST2b: prologue
|
|||
|
# m4_require pushes GROW - 1 and expands TEST2b.
|
|||
|
# DUMP: BODY
|
|||
|
# BODY: TEST2a
|
|||
|
# diversions: GROW - 1, GROW, BODY |-
|
|||
|
#
|
|||
|
# * TEST2b is expanded.
|
|||
|
# Its prologue pushes the current diversion again.
|
|||
|
# DUMP: BODY
|
|||
|
# BODY: TEST2a
|
|||
|
# diversions: GROW - 1, GROW - 1, GROW, BODY |-
|
|||
|
# The body is expanded here.
|
|||
|
#
|
|||
|
# * TEST2b requires TEST3: prologue
|
|||
|
# m4_require pushes GROW - 2 and expands TEST3.
|
|||
|
# DUMP: BODY
|
|||
|
# BODY: TEST2a
|
|||
|
# diversions: GROW - 2, GROW - 1, GROW - 1, GROW, BODY |-
|
|||
|
#
|
|||
|
# * TEST3 is expanded.
|
|||
|
# Its prologue pushes the current diversion again.
|
|||
|
# DUMP: BODY
|
|||
|
# BODY: TEST2a
|
|||
|
# diversions: GROW-2, GROW-2, GROW-1, GROW-1, GROW, BODY |-
|
|||
|
# TEST3 requires TEST2a, but TEST2a has already been AC_PROVIDE'd, so
|
|||
|
# nothing happens. It's body is expanded here, and its epilogue pops a
|
|||
|
# diversion.
|
|||
|
# DUMP: BODY
|
|||
|
# BODY: TEST2a
|
|||
|
# GROW - 2: TEST3
|
|||
|
# diversions: GROW - 2, GROW - 1, GROW - 1, GROW, BODY |-
|
|||
|
#
|
|||
|
# * TEST2b requires TEST3: epilogue
|
|||
|
# The current diversion is appended to DUMP, and a diversion is popped.
|
|||
|
# DUMP: BODY
|
|||
|
# BODY: TEST2a; TEST3
|
|||
|
# diversions: GROW - 1, GROW - 1, GROW, BODY |-
|
|||
|
# The content of TEST2b is expanded here.
|
|||
|
# DUMP: BODY
|
|||
|
# BODY: TEST2a; TEST3
|
|||
|
# GROW - 1: TEST2b,
|
|||
|
# diversions: GROW - 1, GROW - 1, GROW, BODY |-
|
|||
|
# The epilogue of TEST2b pops a diversion.
|
|||
|
# DUMP: BODY
|
|||
|
# BODY: TEST2a; TEST3
|
|||
|
# GROW - 1: TEST2b,
|
|||
|
# diversions: GROW - 1, GROW, BODY |-
|
|||
|
#
|
|||
|
# * TEST1 requires TEST2b: epilogue
|
|||
|
# The current diversion is appended to DUMP, and a diversion is popped.
|
|||
|
# DUMP: BODY
|
|||
|
# BODY: TEST2a; TEST3; TEST2b
|
|||
|
# diversions: GROW, BODY |-
|
|||
|
#
|
|||
|
# * TEST1 is expanded: epilogue
|
|||
|
# TEST1's own content is in GROW, and it's epilogue pops a diversion.
|
|||
|
# DUMP: BODY
|
|||
|
# BODY: TEST2a; TEST3; TEST2b
|
|||
|
# GROW: TEST1
|
|||
|
# diversions: BODY |-
|
|||
|
# Here, the epilogue of TEST1 notices the elaboration is done because
|
|||
|
# DUMP and the current diversion are the same, it then undiverts
|
|||
|
# GROW by hand, and undefines DUMP.
|
|||
|
# DUMP: undefined
|
|||
|
# BODY: TEST2a; TEST3; TEST2b; TEST1
|
|||
|
# diversions: BODY |-
|
|||
|
#
|
|||
|
#
|
|||
|
# 2. Keeping track of the expansion stack
|
|||
|
# =======================================
|
|||
|
#
|
|||
|
# When M4 expansion goes wrong it is often extremely hard to find the
|
|||
|
# path amongst macros that drove to the failure. What is needed is
|
|||
|
# the stack of macro `calls'. One could imagine that GNU M4 would
|
|||
|
# maintain a stack of macro expansions, unfortunately it doesn't, so
|
|||
|
# we do it by hand. This is of course extremely costly, but the help
|
|||
|
# this stack provides is worth it. Nevertheless to limit the
|
|||
|
# performance penalty this is implemented only for m4_defun'd macros,
|
|||
|
# not for define'd macros.
|
|||
|
#
|
|||
|
# The scheme is simplistic: each time we enter an m4_defun'd macros,
|
|||
|
# we prepend its name in m4_expansion_stack, and when we exit the
|
|||
|
# macro, we remove it (thanks to pushdef/popdef).
|
|||
|
#
|
|||
|
# In addition, we want to use the expansion stack to detect circular
|
|||
|
# m4_require dependencies. This means we need to browse the stack to
|
|||
|
# check whether a macro being expanded is m4_require'd. For ease of
|
|||
|
# implementation, and certainly for the benefit of performances, we
|
|||
|
# don't browse the m4_expansion_stack, rather each time we expand a
|
|||
|
# macro FOO we define _m4_expanding(FOO). Then m4_require(BAR) simply
|
|||
|
# needs to check whether _m4_expanding(BAR) is defined to diagnose a
|
|||
|
# circular dependency.
|
|||
|
#
|
|||
|
# To improve the diagnostic, in addition to keeping track of the stack
|
|||
|
# of macro calls, m4_expansion_stack also records the m4_require
|
|||
|
# stack. Note that therefore an m4_defun'd macro being required will
|
|||
|
# appear twice in the stack: the first time because it is required,
|
|||
|
# the second because it is expanded. We can avoid this, but it has
|
|||
|
# two small drawbacks: (i) the implementation is slightly more
|
|||
|
# complex, and (ii) it hides the difference between define'd macros
|
|||
|
# (which don't appear in m4_expansion_stack) and m4_defun'd macros
|
|||
|
# (which do). The more debugging information, the better.
|
|||
|
|
|||
|
|
|||
|
# m4_expansion_stack_push(TEXT)
|
|||
|
# -----------------------------
|
|||
|
m4_define([m4_expansion_stack_push],
|
|||
|
[m4_pushdef([m4_expansion_stack],
|
|||
|
[$1]m4_ifdef([m4_expansion_stack], [
|
|||
|
m4_defn([m4_expansion_stack])]))])
|
|||
|
|
|||
|
|
|||
|
# m4_expansion_stack_pop
|
|||
|
# ----------------------
|
|||
|
# Dump the expansion stack.
|
|||
|
m4_define([m4_expansion_stack_pop],
|
|||
|
[m4_popdef([m4_expansion_stack])])
|
|||
|
|
|||
|
|
|||
|
# m4_expansion_stack_dump
|
|||
|
# -----------------------
|
|||
|
# Dump the expansion stack.
|
|||
|
m4_define([m4_expansion_stack_dump],
|
|||
|
[m4_ifdef([m4_expansion_stack],
|
|||
|
[m4_errprintn(m4_defn([m4_expansion_stack]))])dnl
|
|||
|
m4_errprintn(m4_location[: the top level])])
|
|||
|
|
|||
|
|
|||
|
# _m4_divert(GROW)
|
|||
|
# ----------------
|
|||
|
# This diversion is used by the m4_defun/m4_require machinery. It is
|
|||
|
# important to keep room before GROW because for each nested
|
|||
|
# AC_REQUIRE we use an additional diversion (i.e., two m4_require's
|
|||
|
# will use GROW - 2. More than 3 levels has never seemed to be
|
|||
|
# needed.)
|
|||
|
#
|
|||
|
# ...
|
|||
|
# - GROW - 2
|
|||
|
# m4_require'd code, 2 level deep
|
|||
|
# - GROW - 1
|
|||
|
# m4_require'd code, 1 level deep
|
|||
|
# - GROW
|
|||
|
# m4_defun'd macros are elaborated here.
|
|||
|
|
|||
|
m4_define([_m4_divert(GROW)], 10000)
|
|||
|
|
|||
|
|
|||
|
# _m4_defun_pro(MACRO-NAME)
|
|||
|
# -------------------------
|
|||
|
# The prologue for Autoconf macros.
|
|||
|
m4_define([_m4_defun_pro],
|
|||
|
[m4_expansion_stack_push(m4_defn([m4_location($1)])[: $1 is expanded from...])dnl
|
|||
|
m4_pushdef([_m4_expanding($1)])dnl
|
|||
|
m4_ifdef([_m4_divert_dump],
|
|||
|
[m4_divert_push(m4_defn([_m4_divert_diversion]))],
|
|||
|
[m4_copy([_m4_divert_diversion], [_m4_divert_dump])dnl
|
|||
|
m4_divert_push([GROW])])dnl
|
|||
|
])
|
|||
|
|
|||
|
|
|||
|
# _m4_defun_epi(MACRO-NAME)
|
|||
|
# -------------------------
|
|||
|
# The Epilogue for Autoconf macros. MACRO-NAME only helps tracing
|
|||
|
# the PRO/EPI pairs.
|
|||
|
m4_define([_m4_defun_epi],
|
|||
|
[m4_divert_pop()dnl
|
|||
|
m4_if(_m4_divert_dump, _m4_divert_diversion,
|
|||
|
[m4_undivert([GROW])dnl
|
|||
|
m4_undefine([_m4_divert_dump])])dnl
|
|||
|
m4_expansion_stack_pop()dnl
|
|||
|
m4_popdef([_m4_expanding($1)])dnl
|
|||
|
m4_provide([$1])dnl
|
|||
|
])
|
|||
|
|
|||
|
|
|||
|
# m4_defun(NAME, EXPANSION)
|
|||
|
# -------------------------
|
|||
|
# Define a macro which automatically provides itself. Add machinery
|
|||
|
# so the macro automatically switches expansion to the diversion
|
|||
|
# stack if it is not already using it. In this case, once finished,
|
|||
|
# it will bring back all the code accumulated in the diversion stack.
|
|||
|
# This, combined with m4_require, achieves the topological ordering of
|
|||
|
# macros. We don't use this macro to define some frequently called
|
|||
|
# macros that are not involved in ordering constraints, to save m4
|
|||
|
# processing.
|
|||
|
m4_define([m4_defun],
|
|||
|
[m4_define([m4_location($1)], m4_location)dnl
|
|||
|
m4_define([$1],
|
|||
|
[_m4_defun_pro([$1])$2[]_m4_defun_epi([$1])])])
|
|||
|
|
|||
|
|
|||
|
# m4_defun_once(NAME, EXPANSION)
|
|||
|
# ------------------------------
|
|||
|
# As m4_defun, but issues the EXPANSION only once, and warns if used
|
|||
|
# several times.
|
|||
|
m4_define([m4_defun_once],
|
|||
|
[m4_define([m4_location($1)], m4_location)dnl
|
|||
|
m4_define([$1],
|
|||
|
[m4_provide_ifelse([$1],
|
|||
|
[m4_warn([syntax], [$1 invoked multiple times])],
|
|||
|
[_m4_defun_pro([$1])$2[]_m4_defun_epi([$1])])])])
|
|||
|
|
|||
|
|
|||
|
# m4_pattern_forbid(ERE)
|
|||
|
# ----------------------
|
|||
|
# Declare that no token matching the extended regular expression ERE
|
|||
|
# should be seen in the output but if...
|
|||
|
m4_define([m4_pattern_forbid],
|
|||
|
[m4_file_append(m4_defn([m4_tmpdir])/forbidden.rx, [$1])])
|
|||
|
|
|||
|
|
|||
|
# m4_pattern_allow(ERE)
|
|||
|
# ---------------------
|
|||
|
# ... but if that token matches the extended regular expression ERE.
|
|||
|
m4_define([m4_pattern_allow],
|
|||
|
[m4_file_append(m4_defn([m4_tmpdir])/allowed.rx, [$1])])
|
|||
|
|
|||
|
|
|||
|
## ----------------------------- ##
|
|||
|
## Dependencies between macros. ##
|
|||
|
## ----------------------------- ##
|
|||
|
|
|||
|
|
|||
|
# m4_before(THIS-MACRO-NAME, CALLED-MACRO-NAME)
|
|||
|
# ---------------------------------------------
|
|||
|
m4_define([m4_before],
|
|||
|
[m4_provide_ifelse([$2],
|
|||
|
[m4_warn([syntax], [$2 was called before $1])])])
|
|||
|
|
|||
|
|
|||
|
# m4_require(NAME-TO-CHECK, [BODY-TO-EXPAND = NAME-TO-CHECK])
|
|||
|
# -----------------------------------------------------------
|
|||
|
# If NAME-TO-CHECK has never been expanded (actually, if it is not
|
|||
|
# m4_provide'd), expand BODY-TO-EXPAND *before* the current macro
|
|||
|
# expansion. Once expanded, emit it in _m4_divert_dump. Keep track
|
|||
|
# of the m4_require chain in m4_expansion_stack.
|
|||
|
#
|
|||
|
# The normal cases are:
|
|||
|
#
|
|||
|
# - NAME-TO-CHECK == BODY-TO-EXPAND
|
|||
|
# Which you can use for regular macros with or without arguments, e.g.,
|
|||
|
# m4_require([AC_PROG_CC], [AC_PROG_CC])
|
|||
|
# m4_require([AC_CHECK_HEADERS(limits.h)], [AC_CHECK_HEADERS(limits.h)])
|
|||
|
# which is just the same as
|
|||
|
# m4_require([AC_PROG_CC])
|
|||
|
# m4_require([AC_CHECK_HEADERS(limits.h)])
|
|||
|
#
|
|||
|
# - BODY-TO-EXPAND == m4_indir([NAME-TO-CHECK])
|
|||
|
# In the case of macros with irregular names. For instance:
|
|||
|
# m4_require([AC_LANG_COMPILER(C)], [indir([AC_LANG_COMPILER(C)])])
|
|||
|
# which means `if the macro named `AC_LANG_COMPILER(C)' (the parens are
|
|||
|
# part of the name, it is not an argument) has not been run, then
|
|||
|
# call it.'
|
|||
|
# Had you used
|
|||
|
# m4_require([AC_LANG_COMPILER(C)], [AC_LANG_COMPILER(C)])
|
|||
|
# then m4_require would have tried to expand `AC_LANG_COMPILER(C)', i.e.,
|
|||
|
# call the macro `AC_LANG_COMPILER' with `C' as argument.
|
|||
|
#
|
|||
|
# You could argue that `AC_LANG_COMPILER', when it receives an argument
|
|||
|
# such as `C' should dispatch the call to `AC_LANG_COMPILER(C)'. But this
|
|||
|
# `extension' prevents `AC_LANG_COMPILER' from having actual arguments that
|
|||
|
# it passes to `AC_LANG_COMPILER(C)'.
|
|||
|
m4_define([m4_require],
|
|||
|
[m4_expansion_stack_push(m4_location[: $1 is required by...])dnl
|
|||
|
m4_ifdef([_m4_expanding($1)],
|
|||
|
[m4_fatal([$0: circular dependency of $1])])dnl
|
|||
|
m4_ifndef([_m4_divert_dump],
|
|||
|
[m4_fatal([$0: cannot be used outside of an m4_defun'd macro])])dnl
|
|||
|
m4_provide_ifelse([$1],
|
|||
|
[],
|
|||
|
[m4_divert_push(m4_eval(m4_divnum - 1))dnl
|
|||
|
m4_default([$2], [$1])
|
|||
|
m4_divert(m4_defn([_m4_divert_dump]))dnl
|
|||
|
m4_undivert(m4_defn([_m4_divert_diversion]))dnl
|
|||
|
m4_divert_pop(m4_defn([_m4_divert_dump]))])dnl
|
|||
|
m4_provide_ifelse([$1],
|
|||
|
[],
|
|||
|
[m4_warn([syntax],
|
|||
|
[$1 is m4_require'd but is not m4_defun'd])])dnl
|
|||
|
m4_expansion_stack_pop()dnl
|
|||
|
])
|
|||
|
|
|||
|
|
|||
|
# m4_expand_once(TEXT, [WITNESS = TEXT])
|
|||
|
# --------------------------------------
|
|||
|
# If TEXT has never been expanded, expand it *here*. Use WITNESS as
|
|||
|
# as a memory that TEXT has already been expanded.
|
|||
|
m4_define([m4_expand_once],
|
|||
|
[m4_provide_ifelse(m4_ifval([$2], [[$2]], [[$1]]),
|
|||
|
[],
|
|||
|
[m4_provide(m4_ifval([$2], [[$2]], [[$1]]))[]$1])])
|
|||
|
|
|||
|
|
|||
|
# m4_provide(MACRO-NAME)
|
|||
|
# ----------------------
|
|||
|
m4_define([m4_provide],
|
|||
|
[m4_define([m4_provide($1)])])
|
|||
|
|
|||
|
|
|||
|
# m4_provide_ifelse(MACRO-NAME, IF-PROVIDED, IF-NOT-PROVIDED)
|
|||
|
# -----------------------------------------------------------
|
|||
|
# If MACRO-NAME is provided do IF-PROVIDED, else IF-NOT-PROVIDED.
|
|||
|
# The purpose of this macro is to provide the user with a means to
|
|||
|
# check macros which are provided without letting her know how the
|
|||
|
# information is coded.
|
|||
|
m4_define([m4_provide_ifelse],
|
|||
|
[m4_ifdef([m4_provide($1)],
|
|||
|
[$2], [$3])])
|
|||
|
|
|||
|
|
|||
|
## -------------------- ##
|
|||
|
## 9. Text processing. ##
|
|||
|
## -------------------- ##
|
|||
|
|
|||
|
# m4_cr_letters
|
|||
|
# m4_cr_LETTERS
|
|||
|
# m4_cr_Letters
|
|||
|
# -------------
|
|||
|
m4_define([m4_cr_letters], [abcdefghijklmnopqrstuvwxyz])
|
|||
|
m4_define([m4_cr_LETTERS], [ABCDEFGHIJKLMNOPQRSTUVWXYZ])
|
|||
|
m4_define([m4_cr_Letters],
|
|||
|
m4_defn([m4_cr_letters])dnl
|
|||
|
m4_defn([m4_cr_LETTERS])dnl
|
|||
|
)
|
|||
|
|
|||
|
# m4_cr_digits
|
|||
|
# ------------
|
|||
|
m4_define([m4_cr_digits], [0123456789])
|
|||
|
|
|||
|
|
|||
|
# m4_cr_symbols1 & m4_cr_symbols2
|
|||
|
# -------------------------------
|
|||
|
m4_define([m4_cr_symbols1],
|
|||
|
m4_defn([m4_cr_Letters])dnl
|
|||
|
_)
|
|||
|
|
|||
|
m4_define([m4_cr_symbols2],
|
|||
|
m4_defn([m4_cr_symbols1])dnl
|
|||
|
m4_defn([m4_cr_digits])dnl
|
|||
|
)
|
|||
|
|
|||
|
|
|||
|
# m4_re_string
|
|||
|
# ------------
|
|||
|
# Regexp for `[a-zA-Z_0-9]*'
|
|||
|
m4_define([m4_re_string],
|
|||
|
m4_dquote(m4_defn([m4_cr_symbols2]))dnl
|
|||
|
[*]dnl
|
|||
|
)
|
|||
|
|
|||
|
|
|||
|
# m4_re_word
|
|||
|
# ----------
|
|||
|
# Regexp for `[a-zA-Z_][a-zA-Z_0-9]*'
|
|||
|
m4_define([m4_re_word],
|
|||
|
m4_dquote(m4_defn([m4_cr_symbols1]))dnl
|
|||
|
m4_defn([m4_re_string])dnl
|
|||
|
)
|
|||
|
|
|||
|
# m4_tolower(STRING)
|
|||
|
# m4_toupper(STRING)
|
|||
|
# ------------------
|
|||
|
# These macros lowercase and uppercase strings.
|
|||
|
m4_define([m4_tolower],
|
|||
|
[m4_translit([$1],
|
|||
|
[ABCDEFGHIJKLMNOPQRSTUVWXYZ],
|
|||
|
[abcdefghijklmnopqrstuvwxyz])])
|
|||
|
|
|||
|
m4_define([m4_toupper],
|
|||
|
[m4_translit([$1],
|
|||
|
[abcdefghijklmnopqrstuvwxyz],
|
|||
|
[ABCDEFGHIJKLMNOPQRSTUVWXYZ])])
|
|||
|
|
|||
|
|
|||
|
# m4_split(STRING, [REGEXP])
|
|||
|
# --------------------------
|
|||
|
#
|
|||
|
# Split STRING into an m4 list of quoted elements. The elements are
|
|||
|
# quoted with [ and ]. Beginning spaces and end spaces *are kept*.
|
|||
|
# Use m4_strip to remove them.
|
|||
|
#
|
|||
|
# REGEXP specifies where to split. Default is [\t ]+.
|
|||
|
#
|
|||
|
# Pay attention to the m4_changequotes. Inner m4_changequotes exist for
|
|||
|
# obvious reasons (we want to insert square brackets). Outer
|
|||
|
# m4_changequotes are needed because otherwise the m4 parser, when it
|
|||
|
# sees the closing bracket we add to the result, believes it is the
|
|||
|
# end of the body of the macro we define.
|
|||
|
#
|
|||
|
# Also, notice that $1 is quoted twice, since we want the result to
|
|||
|
# be quoted. Then you should understand that the argument of
|
|||
|
# patsubst is ``STRING'' (i.e., with additional `` and '').
|
|||
|
#
|
|||
|
# This macro is safe on active symbols, i.e.:
|
|||
|
# m4_define(active, ACTIVE)
|
|||
|
# m4_split([active active ])end
|
|||
|
# => [active], [active], []end
|
|||
|
|
|||
|
m4_changequote(<<, >>)
|
|||
|
m4_define(<<m4_split>>,
|
|||
|
<<m4_changequote(``, '')dnl
|
|||
|
[dnl Can't use m4_default here instead of m4_if, because m4_default uses
|
|||
|
dnl [ and ] as quotes.
|
|||
|
m4_patsubst(````$1'''',
|
|||
|
m4_if(``$2'',, ``[ ]+'', ``$2''),
|
|||
|
``], ['')]dnl
|
|||
|
m4_changequote([, ])>>)
|
|||
|
m4_changequote([, ])
|
|||
|
|
|||
|
|
|||
|
|
|||
|
# m4_flatten(STRING)
|
|||
|
# ------------------
|
|||
|
# If STRING contains end of lines, replace them with spaces. If there
|
|||
|
# are backslashed end of lines, remove them. This macro is safe with
|
|||
|
# active symbols.
|
|||
|
# m4_define(active, ACTIVE)
|
|||
|
# m4_flatten([active
|
|||
|
# act\
|
|||
|
# ive])end
|
|||
|
# => active activeend
|
|||
|
m4_define([m4_flatten],
|
|||
|
[m4_translit(m4_patsubst([[[$1]]], [\\
|
|||
|
]), [
|
|||
|
], [ ])])
|
|||
|
|
|||
|
|
|||
|
# m4_strip(STRING)
|
|||
|
# ----------------
|
|||
|
# Expands into STRING with tabs and spaces singled out into a single
|
|||
|
# space, and removing leading and trailing spaces.
|
|||
|
#
|
|||
|
# This macro is robust to active symbols.
|
|||
|
# m4_define(active, ACTIVE)
|
|||
|
# m4_strip([ active active ])end
|
|||
|
# => active activeend
|
|||
|
#
|
|||
|
# This macro is fun! Because we want to preserve active symbols, STRING
|
|||
|
# must be quoted for each evaluation, which explains there are 4 levels
|
|||
|
# of brackets around $1 (don't forget that the result must be quoted
|
|||
|
# too, hence one more quoting than applications).
|
|||
|
#
|
|||
|
# Then notice the patsubst of the middle: it is in charge of removing
|
|||
|
# the leading space. Why not just `patsubst(..., [^ ])'? Because this
|
|||
|
# macro will receive the output of the preceding patsubst, i.e. more or
|
|||
|
# less [[STRING]]. So if there is a leading space in STRING, then it is
|
|||
|
# the *third* character, since there are two leading `['; Equally for
|
|||
|
# the outer patsubst.
|
|||
|
m4_define([m4_strip],
|
|||
|
[m4_patsubst(m4_patsubst(m4_patsubst([[[[$1]]]],
|
|||
|
[[ ]+], [ ]),
|
|||
|
[^\(..\) ], [\1]),
|
|||
|
[ \(.\)$], [\1])])
|
|||
|
|
|||
|
|
|||
|
# m4_normalize(STRING)
|
|||
|
# --------------------
|
|||
|
# Apply m4_flatten and m4_strip to STRING.
|
|||
|
#
|
|||
|
# The argument is quoted, so that the macro is robust to active symbols:
|
|||
|
#
|
|||
|
# m4_define(active, ACTIVE)
|
|||
|
# m4_normalize([ act\
|
|||
|
# ive
|
|||
|
# active ])end
|
|||
|
# => active activeend
|
|||
|
|
|||
|
m4_define([m4_normalize],
|
|||
|
[m4_strip(m4_flatten([$1]))])
|
|||
|
|
|||
|
|
|||
|
|
|||
|
# m4_join(SEP, ARG1, ARG2...)
|
|||
|
# ---------------------------
|
|||
|
# Produce ARG1SEPARG2...SEPARGn.
|
|||
|
m4_defun([m4_join],
|
|||
|
[m4_case([$#],
|
|||
|
[1], [],
|
|||
|
[2], [[$2]],
|
|||
|
[[$2][$1]m4_join([$1], m4_shift(m4_shift($@)))])])
|
|||
|
|
|||
|
|
|||
|
|
|||
|
# m4_append(MACRO-NAME, STRING)
|
|||
|
# -----------------------------
|
|||
|
# Redefine MACRO-NAME to hold its former content plus STRING at the
|
|||
|
# end. It is valid to use this macro with MACRO-NAME undefined.
|
|||
|
#
|
|||
|
# This macro is robust to active symbols. It can be used to grow
|
|||
|
# strings.
|
|||
|
#
|
|||
|
# | m4_define(active, ACTIVE)
|
|||
|
# | m4_append([sentence], [This is an])
|
|||
|
# | m4_append([sentence], [ active ])
|
|||
|
# | m4_append([sentence], [symbol.])
|
|||
|
# | sentence
|
|||
|
# | m4_undefine([active])dnl
|
|||
|
# | sentence
|
|||
|
# => This is an ACTIVE symbol.
|
|||
|
# => This is an active symbol.
|
|||
|
#
|
|||
|
# It can be used to define hooks.
|
|||
|
#
|
|||
|
# | m4_define(active, ACTIVE)
|
|||
|
# | m4_append([hooks], [m4_define([act1], [act2])])
|
|||
|
# | m4_append([hooks], [m4_define([act2], [active])])
|
|||
|
# | m4_undefine([active])
|
|||
|
# | act1
|
|||
|
# | hooks
|
|||
|
# | act1
|
|||
|
# => act1
|
|||
|
# =>
|
|||
|
# => active
|
|||
|
m4_define([m4_append],
|
|||
|
[m4_define([$1],
|
|||
|
m4_ifdef([$1], [m4_defn([$1])])[$2])])
|
|||
|
|
|||
|
|
|||
|
# m4_list_append(MACRO-NAME, STRING)
|
|||
|
# ----------------------------------
|
|||
|
# Same as `m4_append', but each element is separated by `, '.
|
|||
|
m4_define([m4_list_append],
|
|||
|
[m4_define([$1],
|
|||
|
m4_ifdef([$1], [m4_defn([$1]), ])[$2])])
|
|||
|
|
|||
|
|
|||
|
# m4_foreach_quoted(VARIABLE, LIST, EXPRESSION)
|
|||
|
# ---------------------------------------------
|
|||
|
# FIXME: This macro should not exists. Currently it's used only in
|
|||
|
# m4_wrap, which needs to be rewritten. But it's godam hard.
|
|||
|
m4_define([m4_foreach_quoted],
|
|||
|
[m4_pushdef([$1], [])_m4_foreach_quoted($@)m4_popdef([$1])])
|
|||
|
|
|||
|
# Low level macros used to define m4_foreach.
|
|||
|
m4_define([m4_car_quoted], [[$1]])
|
|||
|
m4_define([_m4_foreach_quoted],
|
|||
|
[m4_if($2, [()], ,
|
|||
|
[m4_define([$1], [m4_car_quoted$2])$3[]_m4_foreach_quoted([$1],
|
|||
|
[(m4_shift$2)],
|
|||
|
[$3])])])
|
|||
|
|
|||
|
|
|||
|
# m4_text_wrap(STRING, [PREFIX], [FIRST-PREFIX], [WIDTH])
|
|||
|
# -------------------------------------------------------
|
|||
|
# Expands into STRING wrapped to hold in WIDTH columns (default = 79).
|
|||
|
# If prefix is set, each line is prefixed with it. If FIRST-PREFIX is
|
|||
|
# specified, then the first line is prefixed with it. As a special
|
|||
|
# case, if the length of the first prefix is greater than that of
|
|||
|
# PREFIX, then FIRST-PREFIX will be left alone on the first line.
|
|||
|
#
|
|||
|
# Typical outputs are:
|
|||
|
#
|
|||
|
# m4_text_wrap([Short string */], [ ], [/* ], 20)
|
|||
|
# => /* Short string */
|
|||
|
#
|
|||
|
# m4_text_wrap([Much longer string */], [ ], [/* ], 20)
|
|||
|
# => /* Much longer
|
|||
|
# => string */
|
|||
|
#
|
|||
|
# m4_text_wrap([Short doc.], [ ], [ --short ], 30)
|
|||
|
# => --short Short doc.
|
|||
|
#
|
|||
|
# m4_text_wrap([Short doc.], [ ], [ --too-wide ], 30)
|
|||
|
# => --too-wide
|
|||
|
# => Short doc.
|
|||
|
#
|
|||
|
# m4_text_wrap([Super long documentation.], [ ], [ --too-wide ], 30)
|
|||
|
# => --too-wide
|
|||
|
# => Super long
|
|||
|
# => documentation.
|
|||
|
#
|
|||
|
# FIXME: there is no checking of a longer PREFIX than WIDTH, but do
|
|||
|
# we really want to bother with people trying each single corner
|
|||
|
# of a software?
|
|||
|
#
|
|||
|
# This macro does not leave a trailing space behind the last word,
|
|||
|
# what complicates it a bit. The algorithm is stupid simple: all the
|
|||
|
# words are preceded by m4_Separator which is defined to empty for the
|
|||
|
# first word, and then ` ' (single space) for all the others.
|
|||
|
m4_define([m4_text_wrap],
|
|||
|
[m4_pushdef([m4_Prefix], m4_default([$2], []))dnl
|
|||
|
m4_pushdef([m4_Prefix1], m4_default([$3], [m4_Prefix]))dnl
|
|||
|
m4_pushdef([m4_Width], m4_default([$4], 79))dnl
|
|||
|
m4_pushdef([m4_Cursor], m4_len(m4_Prefix1))dnl
|
|||
|
m4_pushdef([m4_Separator], [])dnl
|
|||
|
m4_Prefix1[]dnl
|
|||
|
m4_if(m4_eval(m4_Cursor > m4_len(m4_Prefix)),
|
|||
|
1, [m4_define([m4_Cursor], m4_len(m4_Prefix))
|
|||
|
m4_Prefix])[]dnl
|
|||
|
m4_foreach_quoted([m4_Word], (m4_split(m4_normalize([$1]))),
|
|||
|
[m4_define([m4_Cursor], m4_eval(m4_Cursor + len(m4_Word) + 1))dnl
|
|||
|
dnl New line if too long, else insert a space unless it is the first
|
|||
|
dnl of the words.
|
|||
|
m4_if(m4_eval(m4_Cursor > m4_Width),
|
|||
|
1, [m4_define([m4_Cursor],
|
|||
|
m4_eval(m4_len(m4_Prefix) + m4_len(m4_Word) + 1))]
|
|||
|
m4_Prefix,
|
|||
|
[m4_Separator])[]dnl
|
|||
|
m4_Word[]dnl
|
|||
|
m4_define([m4_Separator], [ ])])dnl
|
|||
|
m4_popdef([m4_Separator])dnl
|
|||
|
m4_popdef([m4_Cursor])dnl
|
|||
|
m4_popdef([m4_Width])dnl
|
|||
|
m4_popdef([m4_Prefix1])dnl
|
|||
|
m4_popdef([m4_Prefix])dnl
|
|||
|
])
|
|||
|
|
|||
|
|
|||
|
|
|||
|
## ----------------------- ##
|
|||
|
## 10. Number processing. ##
|
|||
|
## ----------------------- ##
|
|||
|
|
|||
|
# m4_sign(A)
|
|||
|
# ----------
|
|||
|
#
|
|||
|
# The sign of the integer A.
|
|||
|
m4_define([m4_sign],
|
|||
|
[m4_match([$1],
|
|||
|
[^-], -1,
|
|||
|
[^0+], 0,
|
|||
|
1)])
|
|||
|
|
|||
|
# m4_cmp(A, B)
|
|||
|
# ------------
|
|||
|
#
|
|||
|
# Compare two integers.
|
|||
|
# A < B -> -1
|
|||
|
# A = B -> 0
|
|||
|
# A > B -> 1
|
|||
|
m4_define([m4_cmp],
|
|||
|
[m4_sign(m4_eval([$1 - $2]))])
|
|||
|
|
|||
|
|
|||
|
# m4_list_cmp(A, B)
|
|||
|
# -----------------
|
|||
|
#
|
|||
|
# Compare the two lists of integers A and B. For instance:
|
|||
|
# m4_list_cmp((1, 0), (1)) -> 0
|
|||
|
# m4_list_cmp((1, 0), (1, 0)) -> 0
|
|||
|
# m4_list_cmp((1, 2), (1, 0)) -> 1
|
|||
|
# m4_list_cmp((1, 2, 3), (1, 2)) -> 1
|
|||
|
# m4_list_cmp((1, 2, -3), (1, 2)) -> -1
|
|||
|
# m4_list_cmp((1, 0), (1, 2)) -> -1
|
|||
|
# m4_list_cmp((1), (1, 2)) -> -1
|
|||
|
m4_define([m4_list_cmp],
|
|||
|
[m4_if([$1$2], [()()], 0,
|
|||
|
[$1], [()], [m4_list_cmp((0), [$2])],
|
|||
|
[$2], [()], [m4_list_cmp([$1], (0))],
|
|||
|
[m4_case(m4_cmp(m4_car$1, m4_car$2),
|
|||
|
-1, -1,
|
|||
|
1, 1,
|
|||
|
0, [m4_list_cmp((m4_shift$1), (m4_shift$2))])])])
|
|||
|
|
|||
|
|
|||
|
|
|||
|
## ------------------------ ##
|
|||
|
## 11. Version processing. ##
|
|||
|
## ------------------------ ##
|
|||
|
|
|||
|
|
|||
|
# m4_version_unletter(VERSION)
|
|||
|
# ----------------------------
|
|||
|
# Normalize beta version numbers with letters to numbers only for comparison.
|
|||
|
#
|
|||
|
# Nl -> (N+1).-1.(l#)
|
|||
|
#
|
|||
|
#i.e., 2.14a -> 2.15.-1.1, 2.14b -> 2.15.-1.2, etc.
|
|||
|
# This macro is absolutely not robust to active macro, it expects
|
|||
|
# reasonable version numbers and is valid up to `z', no double letters.
|
|||
|
m4_define([m4_version_unletter],
|
|||
|
[m4_translit(m4_patsubst(m4_patsubst(m4_patsubst([$1],
|
|||
|
[\([0-9]+\)\([abcdefghi]\)],
|
|||
|
[m4_eval(\1 + 1).-1.\2]),
|
|||
|
[\([0-9]+\)\([jklmnopqrs]\)],
|
|||
|
[m4_eval(\1 + 1).-1.1\2]),
|
|||
|
[\([0-9]+\)\([tuvwxyz]\)],
|
|||
|
[m4_eval(\1 + 1).-1.2\2]),
|
|||
|
[abcdefghijklmnopqrstuvwxyz],
|
|||
|
[12345678901234567890123456])])
|
|||
|
|
|||
|
|
|||
|
# m4_version_compare(VERSION-1, VERSION-2)
|
|||
|
# ----------------------------------------
|
|||
|
# Compare the two version numbers and expand into
|
|||
|
# -1 if VERSION-1 < VERSION-2
|
|||
|
# 0 if =
|
|||
|
# 1 if >
|
|||
|
m4_define([m4_version_compare],
|
|||
|
[m4_list_cmp((m4_split(m4_version_unletter([$1]), [\.])),
|
|||
|
(m4_split(m4_version_unletter([$2]), [\.])))])
|
|||
|
|
|||
|
|
|||
|
|
|||
|
## ------------------- ##
|
|||
|
## 12. File handling. ##
|
|||
|
## ------------------- ##
|
|||
|
|
|||
|
|
|||
|
# It is a real pity that M4 comes with no macros to bind a diversion
|
|||
|
# to a file. So we have to deal without, which makes us a lot more
|
|||
|
# fragile that we should.
|
|||
|
|
|||
|
|
|||
|
# m4_file_append(FILE-NAME, CONTENT)
|
|||
|
# ----------------------------------
|
|||
|
m4_define([m4_file_append],
|
|||
|
[m4_syscmd([cat >>$1 <<_m4eof
|
|||
|
$2
|
|||
|
_m4eof
|
|||
|
])
|
|||
|
m4_if(m4_sysval, [0], [],
|
|||
|
[m4_fatal([$0: cannot write: $1])])])
|
|||
|
|
|||
|
|
|||
|
|
|||
|
## ------------------------ ##
|
|||
|
## 13. Setting M4sugar up. ##
|
|||
|
## ------------------------ ##
|
|||
|
|
|||
|
|
|||
|
# m4_init
|
|||
|
# -------
|
|||
|
m4_define([m4_init],
|
|||
|
[# We need a tmp directory.
|
|||
|
m4_ifndef([m4_tmpdir],
|
|||
|
[m4_define([m4_tmpdir], [/tmp])])
|
|||
|
|
|||
|
# M4sugar reserves `m4_[A-Za-z0-9_]*'. We'd need \b and +,
|
|||
|
# but they are not portable.
|
|||
|
m4_pattern_forbid([^m4_])
|
|||
|
m4_pattern_forbid([^dnl$])
|
|||
|
|
|||
|
# Check the divert push/pop perfect balance.
|
|||
|
m4_wrap([m4_ifdef([_m4_divert_diversion],
|
|||
|
[m4_fatal([$0: unbalanced m4_divert_push:]
|
|||
|
m4_defn([m4_divert_stack]))])[]])
|
|||
|
|
|||
|
m4_divert_push([KILL])
|
|||
|
m4_wrap([m4_divert_pop([KILL])[]])
|
|||
|
])
|