glib/glib/gpattern.c - nest-cam/4320010/glib - Git at Google

 /* GLIB - Library of useful routines for C programming
  * Copyright (C) 1995-1997, 1999  Peter Mattis, Red Hat, Inc.
  *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation; either
  * version 2 of the License, or (at your option) any later version.
  *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
  *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, see <http://www.gnu.org/licenses/>.
  */

 #include "config.h"

 #include <string.h>

 #include "gpattern.h"

 #include "gmacros.h"
 #include "gmessages.h"
 #include "gmem.h"
 #include "gunicode.h"
 #include "gutils.h"

 /**
  * SECTION:patterns
  * @title: Glob-style pattern matching
  * @short_description: matches strings against patterns containing '*'
  *                     (wildcard) and '?' (joker)
  *
  * The g_pattern_match* functions match a string
  * against a pattern containing '*' and '?' wildcards with similar
  * semantics as the standard glob() function: '*' matches an arbitrary,
  * possibly empty, string, '?' matches an arbitrary character.
  *
  * Note that in contrast to glob(), the '/' character can be matched by
  * the wildcards, there are no '[...]' character ranges and '*' and '?'
  * can not be escaped to include them literally in a pattern.
  *
  * When multiple strings must be matched against the same pattern, it
  * is better to compile the pattern to a #GPatternSpec using
  * g_pattern_spec_new() and use g_pattern_match_string() instead of
  * g_pattern_match_simple(). This avoids the overhead of repeated
  * pattern compilation.
  **/

 /**
  * GPatternSpec:
  *
  * A GPatternSpec struct is the 'compiled' form of a pattern. This
  * structure is opaque and its fields cannot be accessed directly.
  */

 /* keep enum and structure of gpattern.c and patterntest.c in sync */
 typedef enum
 {
   G_MATCH_ALL,       /* "*A?A*" */
   G_MATCH_ALL_TAIL,  /* "*A?AA" */
   G_MATCH_HEAD,      /* "AAAA*" */
   G_MATCH_TAIL,      /* "*AAAA" */
   G_MATCH_EXACT,     /* "AAAAA" */
   G_MATCH_LAST
 } GMatchType;

 struct _GPatternSpec
 {
   GMatchType match_type;
   guint      pattern_length;
   guint      min_length;
   guint      max_length;
   gchar     *pattern;
 };


 /* --- functions --- */
 static inline gboolean
 g_pattern_ph_match (const gchar *match_pattern,
 		    const gchar *match_string,
 		    gboolean    *wildcard_reached_p)
 {
   const gchar *pattern, *string;
   gchar ch;

   pattern = match_pattern;
   string = match_string;

   ch = *pattern;
   pattern++;
   while (ch)
     {
       switch (ch)
 	{
 	case '?':
 	  if (!*string)
 	    return FALSE;
 	  string = g_utf8_next_char (string);
 	  break;

 	case '*':
 	  *wildcard_reached_p = TRUE;
 	  do
 	    {
 	      ch = *pattern;
 	      pattern++;
 	      if (ch == '?')
 		{
 		  if (!*string)
 		    return FALSE;
 		  string = g_utf8_next_char (string);
 		}
 	    }
 	  while (ch == '*' || ch == '?');
 	  if (!ch)
 	    return TRUE;
 	  do
 	    {
               gboolean next_wildcard_reached = FALSE;
 	      while (ch != *string)
 		{
 		  if (!*string)
 		    return FALSE;
 		  string = g_utf8_next_char (string);
 		}
 	      string++;
 	      if (g_pattern_ph_match (pattern, string, &next_wildcard_reached))
 		return TRUE;
               if (next_wildcard_reached)
                 /* the forthcoming pattern substring up to the next wildcard has
                  * been matched, but a mismatch occoured for the rest of the
                  * pattern, following the next wildcard.
                  * there's no need to advance the current match position any
                  * further if the rest pattern will not match.
                  */
 		return FALSE;
 	    }
 	  while (*string);
 	  break;

 	default:
 	  if (ch == *string)
 	    string++;
 	  else
 	    return FALSE;
 	  break;
 	}

       ch = *pattern;
       pattern++;
     }

   return *string == 0;
 }

 /**
  * g_pattern_match:
  * @pspec: a #GPatternSpec
  * @string_length: the length of @string (in bytes, i.e. strlen(),
  *     not g_utf8_strlen())
  * @string: the UTF-8 encoded string to match
  * @string_reversed: (allow-none): the reverse of @string or %NULL
  *
  * Matches a string against a compiled pattern. Passing the correct
  * length of the string given is mandatory. The reversed string can be
  * omitted by passing %NULL, this is more efficient if the reversed
  * version of the string to be matched is not at hand, as
  * g_pattern_match() will only construct it if the compiled pattern
  * requires reverse matches.
  *
  * Note that, if the user code will (possibly) match a string against a
  * multitude of patterns containing wildcards, chances are high that
  * some patterns will require a reversed string. In this case, it's
  * more efficient to provide the reversed string to avoid multiple
  * constructions thereof in the various calls to g_pattern_match().
  *
  * Note also that the reverse of a UTF-8 encoded string can in general
  * not be obtained by g_strreverse(). This works only if the string
  * does not contain any multibyte characters. GLib offers the
  * g_utf8_strreverse() function to reverse UTF-8 encoded strings.
  *
  * Returns: %TRUE if @string matches @pspec
  **/
 gboolean
 g_pattern_match (GPatternSpec *pspec,
 		 guint         string_length,
 		 const gchar  *string,
 		 const gchar  *string_reversed)
 {
   g_return_val_if_fail (pspec != NULL, FALSE);
   g_return_val_if_fail (string != NULL, FALSE);

   if (string_length < pspec->min_length ||
       string_length > pspec->max_length)
     return FALSE;

   switch (pspec->match_type)
     {
       gboolean dummy;
     case G_MATCH_ALL:
       return g_pattern_ph_match (pspec->pattern, string, &dummy);
     case G_MATCH_ALL_TAIL:
       if (string_reversed)
 	return g_pattern_ph_match (pspec->pattern, string_reversed, &dummy);
       else
 	{
           gboolean result;
           gchar *tmp;
 	  tmp = g_utf8_strreverse (string, string_length);
 	  result = g_pattern_ph_match (pspec->pattern, tmp, &dummy);
 	  g_free (tmp);
 	  return result;
 	}
     case G_MATCH_HEAD:
       if (pspec->pattern_length == string_length)
 	return strcmp (pspec->pattern, string) == 0;
       else if (pspec->pattern_length)
 	return strncmp (pspec->pattern, string, pspec->pattern_length) == 0;
       else
 	return TRUE;
     case G_MATCH_TAIL:
       if (pspec->pattern_length)
         return strcmp (pspec->pattern, string + (string_length - pspec->pattern_length)) == 0;
       else
 	return TRUE;
     case G_MATCH_EXACT:
       if (pspec->pattern_length != string_length)
         return FALSE;
       else
         return strcmp (pspec->pattern, string) == 0;
     default:
       g_return_val_if_fail (pspec->match_type < G_MATCH_LAST, FALSE);
       return FALSE;
     }
 }

 /**
  * g_pattern_spec_new:
  * @pattern: a zero-terminated UTF-8 encoded string
  *
  * Compiles a pattern to a #GPatternSpec.
  *
  * Returns: a newly-allocated #GPatternSpec
  **/
 GPatternSpec*
 g_pattern_spec_new (const gchar *pattern)
 {
   GPatternSpec *pspec;
   gboolean seen_joker = FALSE, seen_wildcard = FALSE, more_wildcards = FALSE;
   gint hw_pos = -1, tw_pos = -1, hj_pos = -1, tj_pos = -1;
   gboolean follows_wildcard = FALSE;
   guint pending_jokers = 0;
   const gchar *s;
   gchar *d;
   guint i;

   g_return_val_if_fail (pattern != NULL, NULL);

   /* canonicalize pattern and collect necessary stats */
   pspec = g_new (GPatternSpec, 1);
   pspec->pattern_length = strlen (pattern);
   pspec->min_length = 0;
   pspec->max_length = 0;
   pspec->pattern = g_new (gchar, pspec->pattern_length + 1);
   d = pspec->pattern;
   for (i = 0, s = pattern; *s != 0; s++)
     {
       switch (*s)
 	{
 	case '*':
 	  if (follows_wildcard)	/* compress multiple wildcards */
 	    {
 	      pspec->pattern_length--;
 	      continue;
 	    }
 	  follows_wildcard = TRUE;
 	  if (hw_pos < 0)
 	    hw_pos = i;
 	  tw_pos = i;
 	  break;
 	case '?':
 	  pending_jokers++;
 	  pspec->min_length++;
 	  pspec->max_length += 4; /* maximum UTF-8 character length */
 	  continue;
 	default:
 	  for (; pending_jokers; pending_jokers--, i++) {
 	    *d++ = '?';
   	    if (hj_pos < 0)
 	     hj_pos = i;
 	    tj_pos = i;
 	  }
 	  follows_wildcard = FALSE;
 	  pspec->min_length++;
 	  pspec->max_length++;
 	  break;
 	}
       *d++ = *s;
       i++;
     }
   for (; pending_jokers; pending_jokers--) {
     *d++ = '?';
     if (hj_pos < 0)
       hj_pos = i;
     tj_pos = i;
   }
   *d++ = 0;
   seen_joker = hj_pos >= 0;
   seen_wildcard = hw_pos >= 0;
   more_wildcards = seen_wildcard && hw_pos != tw_pos;
   if (seen_wildcard)
     pspec->max_length = G_MAXUINT;

   /* special case sole head/tail wildcard or exact matches */
   if (!seen_joker && !more_wildcards)
     {
       if (pspec->pattern[0] == '*')
 	{
 	  pspec->match_type = G_MATCH_TAIL;
           memmove (pspec->pattern, pspec->pattern + 1, --pspec->pattern_length);
 	  pspec->pattern[pspec->pattern_length] = 0;
 	  return pspec;
 	}
       if (pspec->pattern_length > 0 &&
 	  pspec->pattern[pspec->pattern_length - 1] == '*')
 	{
 	  pspec->match_type = G_MATCH_HEAD;
 	  pspec->pattern[--pspec->pattern_length] = 0;
 	  return pspec;
 	}
       if (!seen_wildcard)
 	{
 	  pspec->match_type = G_MATCH_EXACT;
 	  return pspec;
 	}
     }

   /* now just need to distinguish between head or tail match start */
   tw_pos = pspec->pattern_length - 1 - tw_pos;	/* last pos to tail distance */
   tj_pos = pspec->pattern_length - 1 - tj_pos;	/* last pos to tail distance */
   if (seen_wildcard)
     pspec->match_type = tw_pos > hw_pos ? G_MATCH_ALL_TAIL : G_MATCH_ALL;
   else /* seen_joker */
     pspec->match_type = tj_pos > hj_pos ? G_MATCH_ALL_TAIL : G_MATCH_ALL;
   if (pspec->match_type == G_MATCH_ALL_TAIL) {
     gchar *tmp = pspec->pattern;
     pspec->pattern = g_utf8_strreverse (pspec->pattern, pspec->pattern_length);
     g_free (tmp);
   }
   return pspec;
 }

 /**
  * g_pattern_spec_free:
  * @pspec: a #GPatternSpec
  *
  * Frees the memory allocated for the #GPatternSpec.
  **/
 void
 g_pattern_spec_free (GPatternSpec *pspec)
 {
   g_return_if_fail (pspec != NULL);

   g_free (pspec->pattern);
   g_free (pspec);
 }

 /**
  * g_pattern_spec_equal:
  * @pspec1: a #GPatternSpec
  * @pspec2: another #GPatternSpec
  *
  * Compares two compiled pattern specs and returns whether they will
  * match the same set of strings.
  *
  * Returns: Whether the compiled patterns are equal
  **/
 gboolean
 g_pattern_spec_equal (GPatternSpec *pspec1,
 		      GPatternSpec *pspec2)
 {
   g_return_val_if_fail (pspec1 != NULL, FALSE);
   g_return_val_if_fail (pspec2 != NULL, FALSE);

   return (pspec1->pattern_length == pspec2->pattern_length &&
 	  pspec1->match_type == pspec2->match_type &&
 	  strcmp (pspec1->pattern, pspec2->pattern) == 0);
 }

 /**
  * g_pattern_match_string:
  * @pspec: a #GPatternSpec
  * @string: the UTF-8 encoded string to match
  *
  * Matches a string against a compiled pattern. If the string is to be
  * matched against more than one pattern, consider using
  * g_pattern_match() instead while supplying the reversed string.
  *
  * Returns: %TRUE if @string matches @pspec
  **/
 gboolean
 g_pattern_match_string (GPatternSpec *pspec,
 			const gchar  *string)
 {
   g_return_val_if_fail (pspec != NULL, FALSE);
   g_return_val_if_fail (string != NULL, FALSE);

   return g_pattern_match (pspec, strlen (string), string, NULL);
 }

 /**
  * g_pattern_match_simple:
  * @pattern: the UTF-8 encoded pattern
  * @string: the UTF-8 encoded string to match
  *
  * Matches a string against a pattern given as a string. If this
  * function is to be called in a loop, it's more efficient to compile
  * the pattern once with g_pattern_spec_new() and call
  * g_pattern_match_string() repeatedly.
  *
  * Returns: %TRUE if @string matches @pspec
  **/
 gboolean
 g_pattern_match_simple (const gchar *pattern,
 			const gchar *string)
 {
   GPatternSpec *pspec;
   gboolean ergo;

   g_return_val_if_fail (pattern != NULL, FALSE);
   g_return_val_if_fail (string != NULL, FALSE);

   pspec = g_pattern_spec_new (pattern);
   ergo = g_pattern_match (pspec, strlen (string), string, NULL);
   g_pattern_spec_free (pspec);

   return ergo;
 }
	/* GLIB - Library of useful routines for C programming
	* Copyright (C) 1995-1997, 1999 Peter Mattis, Red Hat, Inc.
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Lesser General Public
	* License as published by the Free Software Foundation; either
	* version 2 of the License, or (at your option) any later version.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Lesser General Public License for more details.
	*
	* You should have received a copy of the GNU Lesser General Public
	* License along with this library; if not, see <http://www.gnu.org/licenses/>.
	*/

	#include "config.h"

	#include <string.h>

	#include "gpattern.h"

	#include "gmacros.h"
	#include "gmessages.h"
	#include "gmem.h"
	#include "gunicode.h"
	#include "gutils.h"

	/**
	* SECTION:patterns
	* @title: Glob-style pattern matching
	* @short_description: matches strings against patterns containing '*'
	* (wildcard) and '?' (joker)
	*
	* The g_pattern_match* functions match a string
	* against a pattern containing '*' and '?' wildcards with similar
	* semantics as the standard glob() function: '*' matches an arbitrary,
	* possibly empty, string, '?' matches an arbitrary character.
	*
	* Note that in contrast to glob(), the '/' character can be matched by
	* the wildcards, there are no '[...]' character ranges and '*' and '?'
	* can not be escaped to include them literally in a pattern.
	*
	* When multiple strings must be matched against the same pattern, it
	* is better to compile the pattern to a #GPatternSpec using
	* g_pattern_spec_new() and use g_pattern_match_string() instead of
	* g_pattern_match_simple(). This avoids the overhead of repeated
	* pattern compilation.
	**/

	/**
	* GPatternSpec:
	*
	* A GPatternSpec struct is the 'compiled' form of a pattern. This
	* structure is opaque and its fields cannot be accessed directly.
	*/

	/* keep enum and structure of gpattern.c and patterntest.c in sync */
	typedef enum
	{
	G_MATCH_ALL, /* "A?A" */
	G_MATCH_ALL_TAIL, /* "A?AA" /
	G_MATCH_HEAD, /* "AAAA" /
	G_MATCH_TAIL, /* "AAAA" /
	G_MATCH_EXACT, /* "AAAAA" */
	G_MATCH_LAST
	} GMatchType;

	struct _GPatternSpec
	{
	GMatchType match_type;
	guint pattern_length;
	guint min_length;
	guint max_length;
	gchar *pattern;
	};


	/* --- functions --- */
	static inline gboolean
	g_pattern_ph_match (const gchar *match_pattern,
	const gchar *match_string,
	gboolean *wildcard_reached_p)
	{
	const gchar pattern, string;
	gchar ch;

	pattern = match_pattern;
	string = match_string;

	ch = *pattern;
	pattern++;
	while (ch)
	{
	switch (ch)
	{
	case '?':
	if (!*string)
	return FALSE;
	string = g_utf8_next_char (string);
	break;

	case '*':
	*wildcard_reached_p = TRUE;
	do
	{
	ch = *pattern;
	pattern++;
	if (ch == '?')
	{
	if (!*string)
	return FALSE;
	string = g_utf8_next_char (string);
	}
	}
	while (ch == '*' \|\| ch == '?');
	if (!ch)
	return TRUE;
	do
	{
	gboolean next_wildcard_reached = FALSE;
	while (ch != *string)
	{
	if (!*string)
	return FALSE;
	string = g_utf8_next_char (string);
	}
	string++;
	if (g_pattern_ph_match (pattern, string, &next_wildcard_reached))
	return TRUE;
	if (next_wildcard_reached)
	/* the forthcoming pattern substring up to the next wildcard has
	* been matched, but a mismatch occoured for the rest of the
	* pattern, following the next wildcard.
	* there's no need to advance the current match position any
	* further if the rest pattern will not match.
	*/
	return FALSE;
	}
	while (*string);
	break;

	default:
	if (ch == *string)
	string++;
	else
	return FALSE;
	break;
	}

	ch = *pattern;
	pattern++;
	}

	return *string == 0;
	}

	/**
	* g_pattern_match:
	* @pspec: a #GPatternSpec
	* @string_length: the length of @string (in bytes, i.e. strlen(),
	* not g_utf8_strlen())
	* @string: the UTF-8 encoded string to match
	* @string_reversed: (allow-none): the reverse of @string or %NULL
	*
	* Matches a string against a compiled pattern. Passing the correct
	* length of the string given is mandatory. The reversed string can be
	* omitted by passing %NULL, this is more efficient if the reversed
	* version of the string to be matched is not at hand, as
	* g_pattern_match() will only construct it if the compiled pattern
	* requires reverse matches.
	*
	* Note that, if the user code will (possibly) match a string against a
	* multitude of patterns containing wildcards, chances are high that
	* some patterns will require a reversed string. In this case, it's
	* more efficient to provide the reversed string to avoid multiple
	* constructions thereof in the various calls to g_pattern_match().
	*
	* Note also that the reverse of a UTF-8 encoded string can in general
	* not be obtained by g_strreverse(). This works only if the string
	* does not contain any multibyte characters. GLib offers the
	* g_utf8_strreverse() function to reverse UTF-8 encoded strings.
	*
	* Returns: %TRUE if @string matches @pspec
	**/
	gboolean
	g_pattern_match (GPatternSpec *pspec,
	guint string_length,
	const gchar *string,
	const gchar *string_reversed)
	{
	g_return_val_if_fail (pspec != NULL, FALSE);
	g_return_val_if_fail (string != NULL, FALSE);

	if (string_length < pspec->min_length \|\|
	string_length > pspec->max_length)
	return FALSE;

	switch (pspec->match_type)
	{
	gboolean dummy;
	case G_MATCH_ALL:
	return g_pattern_ph_match (pspec->pattern, string, &dummy);
	case G_MATCH_ALL_TAIL:
	if (string_reversed)
	return g_pattern_ph_match (pspec->pattern, string_reversed, &dummy);
	else
	{
	gboolean result;
	gchar *tmp;
	tmp = g_utf8_strreverse (string, string_length);
	result = g_pattern_ph_match (pspec->pattern, tmp, &dummy);
	g_free (tmp);
	return result;
	}
	case G_MATCH_HEAD:
	if (pspec->pattern_length == string_length)
	return strcmp (pspec->pattern, string) == 0;
	else if (pspec->pattern_length)
	return strncmp (pspec->pattern, string, pspec->pattern_length) == 0;
	else
	return TRUE;
	case G_MATCH_TAIL:
	if (pspec->pattern_length)
	return strcmp (pspec->pattern, string + (string_length - pspec->pattern_length)) == 0;
	else
	return TRUE;
	case G_MATCH_EXACT:
	if (pspec->pattern_length != string_length)
	return FALSE;
	else
	return strcmp (pspec->pattern, string) == 0;
	default:
	g_return_val_if_fail (pspec->match_type < G_MATCH_LAST, FALSE);
	return FALSE;
	}
	}

	/**
	* g_pattern_spec_new:
	* @pattern: a zero-terminated UTF-8 encoded string
	*
	* Compiles a pattern to a #GPatternSpec.
	*
	* Returns: a newly-allocated #GPatternSpec
	**/
	GPatternSpec*
	g_pattern_spec_new (const gchar *pattern)
	{
	GPatternSpec *pspec;
	gboolean seen_joker = FALSE, seen_wildcard = FALSE, more_wildcards = FALSE;
	gint hw_pos = -1, tw_pos = -1, hj_pos = -1, tj_pos = -1;
	gboolean follows_wildcard = FALSE;
	guint pending_jokers = 0;
	const gchar *s;
	gchar *d;
	guint i;

	g_return_val_if_fail (pattern != NULL, NULL);

	/* canonicalize pattern and collect necessary stats */
	pspec = g_new (GPatternSpec, 1);
	pspec->pattern_length = strlen (pattern);
	pspec->min_length = 0;
	pspec->max_length = 0;
	pspec->pattern = g_new (gchar, pspec->pattern_length + 1);
	d = pspec->pattern;
	for (i = 0, s = pattern; *s != 0; s++)
	{
	switch (*s)
	{
	case '*':
	if (follows_wildcard) /* compress multiple wildcards */
	{
	pspec->pattern_length--;
	continue;
	}
	follows_wildcard = TRUE;
	if (hw_pos < 0)
	hw_pos = i;
	tw_pos = i;
	break;
	case '?':
	pending_jokers++;
	pspec->min_length++;
	pspec->max_length += 4; /* maximum UTF-8 character length */
	continue;
	default:
	for (; pending_jokers; pending_jokers--, i++) {
	*d++ = '?';
	if (hj_pos < 0)
	hj_pos = i;
	tj_pos = i;
	}
	follows_wildcard = FALSE;
	pspec->min_length++;
	pspec->max_length++;
	break;
	}
	d++ = s;
	i++;
	}
	for (; pending_jokers; pending_jokers--) {
	*d++ = '?';
	if (hj_pos < 0)
	hj_pos = i;
	tj_pos = i;
	}
	*d++ = 0;
	seen_joker = hj_pos >= 0;
	seen_wildcard = hw_pos >= 0;
	more_wildcards = seen_wildcard && hw_pos != tw_pos;
	if (seen_wildcard)
	pspec->max_length = G_MAXUINT;

	/* special case sole head/tail wildcard or exact matches */
	if (!seen_joker && !more_wildcards)
	{
	if (pspec->pattern[0] == '*')
	{
	pspec->match_type = G_MATCH_TAIL;
	memmove (pspec->pattern, pspec->pattern + 1, --pspec->pattern_length);
	pspec->pattern[pspec->pattern_length] = 0;
	return pspec;
	}
	if (pspec->pattern_length > 0 &&
	pspec->pattern[pspec->pattern_length - 1] == '*')
	{
	pspec->match_type = G_MATCH_HEAD;
	pspec->pattern[--pspec->pattern_length] = 0;
	return pspec;
	}
	if (!seen_wildcard)
	{
	pspec->match_type = G_MATCH_EXACT;
	return pspec;
	}
	}

	/* now just need to distinguish between head or tail match start */
	tw_pos = pspec->pattern_length - 1 - tw_pos; /* last pos to tail distance */
	tj_pos = pspec->pattern_length - 1 - tj_pos; /* last pos to tail distance */
	if (seen_wildcard)
	pspec->match_type = tw_pos > hw_pos ? G_MATCH_ALL_TAIL : G_MATCH_ALL;
	else /* seen_joker */
	pspec->match_type = tj_pos > hj_pos ? G_MATCH_ALL_TAIL : G_MATCH_ALL;
	if (pspec->match_type == G_MATCH_ALL_TAIL) {
	gchar *tmp = pspec->pattern;
	pspec->pattern = g_utf8_strreverse (pspec->pattern, pspec->pattern_length);
	g_free (tmp);
	}
	return pspec;
	}

	/**
	* g_pattern_spec_free:
	* @pspec: a #GPatternSpec
	*
	* Frees the memory allocated for the #GPatternSpec.
	**/
	void
	g_pattern_spec_free (GPatternSpec *pspec)
	{
	g_return_if_fail (pspec != NULL);

	g_free (pspec->pattern);
	g_free (pspec);
	}

	/**
	* g_pattern_spec_equal:
	* @pspec1: a #GPatternSpec
	* @pspec2: another #GPatternSpec
	*
	* Compares two compiled pattern specs and returns whether they will
	* match the same set of strings.
	*
	* Returns: Whether the compiled patterns are equal
	**/
	gboolean
	g_pattern_spec_equal (GPatternSpec *pspec1,
	GPatternSpec *pspec2)
	{
	g_return_val_if_fail (pspec1 != NULL, FALSE);
	g_return_val_if_fail (pspec2 != NULL, FALSE);

	return (pspec1->pattern_length == pspec2->pattern_length &&
	pspec1->match_type == pspec2->match_type &&
	strcmp (pspec1->pattern, pspec2->pattern) == 0);
	}

	/**
	* g_pattern_match_string:
	* @pspec: a #GPatternSpec
	* @string: the UTF-8 encoded string to match
	*
	* Matches a string against a compiled pattern. If the string is to be
	* matched against more than one pattern, consider using
	* g_pattern_match() instead while supplying the reversed string.
	*
	* Returns: %TRUE if @string matches @pspec
	**/
	gboolean
	g_pattern_match_string (GPatternSpec *pspec,
	const gchar *string)
	{
	g_return_val_if_fail (pspec != NULL, FALSE);
	g_return_val_if_fail (string != NULL, FALSE);

	return g_pattern_match (pspec, strlen (string), string, NULL);
	}

	/**
	* g_pattern_match_simple:
	* @pattern: the UTF-8 encoded pattern
	* @string: the UTF-8 encoded string to match
	*
	* Matches a string against a pattern given as a string. If this
	* function is to be called in a loop, it's more efficient to compile
	* the pattern once with g_pattern_spec_new() and call
	* g_pattern_match_string() repeatedly.
	*
	* Returns: %TRUE if @string matches @pspec
	**/
	gboolean
	g_pattern_match_simple (const gchar *pattern,
	const gchar *string)
	{
	GPatternSpec *pspec;
	gboolean ergo;

	g_return_val_if_fail (pattern != NULL, FALSE);
	g_return_val_if_fail (string != NULL, FALSE);

	pspec = g_pattern_spec_new (pattern);
	ergo = g_pattern_match (pspec, strlen (string), string, NULL);
	g_pattern_spec_free (pspec);

	return ergo;
	}