texinfo/info/search.c - gcc - Git at Google

 /* search.c -- How to search large bodies of text. */

 /* This file is part of GNU Info, a program for reading online documentation
    stored in Info format.

    Copyright (C) 1993, 97 Free Software Foundation, Inc.

    This program is free software; you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation; either version 2, or (at your option)
    any later version.

    This program 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 General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with this program; if not, write to the Free Software
    Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.

    Written by Brian Fox (bfox@ai.mit.edu). */

 #include "info.h"

 #include "search.h"
 #include "nodes.h"

 /* The search functions take two arguments:

      1) a string to search for, and

      2) a pointer to a SEARCH_BINDING which contains the buffer, start,
         and end of the search.

    They return a long, which is the offset from the start of the buffer
    at which the match was found.  An offset of -1 indicates failure. */

 /* A function which makes a binding with buffer and bounds. */
 SEARCH_BINDING *
 make_binding (buffer, start, end)
      char *buffer;
      long start, end;
 {
   SEARCH_BINDING *binding;

   binding = (SEARCH_BINDING *)xmalloc (sizeof (SEARCH_BINDING));
   binding->buffer = buffer;
   binding->start = start;
   binding->end = end;
   binding->flags = 0;

   return (binding);
 }

 /* Make a copy of BINDING without duplicating the data. */
 SEARCH_BINDING *
 copy_binding (binding)
      SEARCH_BINDING *binding;
 {
   SEARCH_BINDING *copy;

   copy = make_binding (binding->buffer, binding->start, binding->end);
   copy->flags = binding->flags;
   return (copy);
 }


 /* **************************************************************** */
 /*                                                                  */
 /*                 The Actual Searching Functions                   */
 /*                                                                  */
 /* **************************************************************** */

 /* Search forwards or backwards for the text delimited by BINDING.
    The search is forwards if BINDING->start is greater than BINDING->end. */
 long
 search (string, binding)
      char *string;
      SEARCH_BINDING *binding;
 {
   long result;

   /* If the search is backwards, then search backwards, otherwise forwards. */
   if (binding->start > binding->end)
     result = search_backward (string, binding);
   else
     result = search_forward (string, binding);

   return (result);
 }

 /* Search forwards for STRING through the text delimited in BINDING. */
 long
 search_forward (string, binding)
      char *string;
      SEARCH_BINDING *binding;
 {
   register int c, i, len;
   register char *buff, *end;
   char *alternate = (char *)NULL;

   len = strlen (string);

   /* We match characters in the search buffer against STRING and ALTERNATE.
      ALTERNATE is a case reversed version of STRING; this is cheaper than
      case folding each character before comparison.   Alternate is only
      used if the case folding bit is turned on in the passed BINDING. */

   if (binding->flags & S_FoldCase)
     {
       alternate = xstrdup (string);

       for (i = 0; i < len; i++)
         {
           if (islower (alternate[i]))
             alternate[i] = toupper (alternate[i]);
           else if (isupper (alternate[i]))
             alternate[i] = tolower (alternate[i]);
         }
     }

   buff = binding->buffer + binding->start;
   end = binding->buffer + binding->end + 1;

   while (buff < (end - len))
     {
       for (i = 0; i < len; i++)
         {
           c = buff[i];

           if ((c != string[i]) && (!alternate || c != alternate[i]))
             break;
         }

       if (!string[i])
         {
           if (alternate)
             free (alternate);
           if (binding->flags & S_SkipDest)
             buff += len;
           return ((long) (buff - binding->buffer));
         }

       buff++;
     }

   if (alternate)
     free (alternate);

   return ((long) -1);
 }

 /* Search for STRING backwards through the text delimited in BINDING. */
 long
 search_backward (input_string, binding)
      char *input_string;
      SEARCH_BINDING *binding;
 {
   register int c, i, len;
   register char *buff, *end;
   char *string;
   char *alternate = (char *)NULL;

   len = strlen (input_string);

   /* Reverse the characters in the search string. */
   string = (char *)xmalloc (1 + len);
   for (c = 0, i = len - 1; input_string[c]; c++, i--)
     string[i] = input_string[c];

   string[c] = '\0';

   /* We match characters in the search buffer against STRING and ALTERNATE.
      ALTERNATE is a case reversed version of STRING; this is cheaper than
      case folding each character before comparison.   ALTERNATE is only
      used if the case folding bit is turned on in the passed BINDING. */

   if (binding->flags & S_FoldCase)
     {
       alternate = xstrdup (string);

       for (i = 0; i < len; i++)
         {
           if (islower (alternate[i]))
             alternate[i] = toupper (alternate[i]);
           else if (isupper (alternate[i]))
             alternate[i] = tolower (alternate[i]);
         }
     }

   buff = binding->buffer + binding->start - 1;
   end = binding->buffer + binding->end;

   while (buff > (end + len))
     {
       for (i = 0; i < len; i++)
         {
           c = *(buff - i);

           if (c != string[i] && (alternate && c != alternate[i]))
             break;
         }

       if (!string[i])
         {
           free (string);
           if (alternate)
             free (alternate);

           if (binding->flags & S_SkipDest)
             buff -= len;
           return ((long) (1 + (buff - binding->buffer)));
         }

       buff--;
     }

   free (string);
   if (alternate)
     free (alternate);

   return ((long) -1);
 }

 /* Find STRING in LINE, returning the offset of the end of the string.
    Return an offset of -1 if STRING does not appear in LINE.  The search
    is bound by the end of the line (i.e., either NEWLINE or 0). */
 int
 string_in_line (string, line)
      char *string, *line;
 {
   register int end;
   SEARCH_BINDING binding;

   /* Find the end of the line. */
   for (end = 0; line[end] && line[end] != '\n'; end++);

   /* Search for STRING within these confines. */
   binding.buffer = line;
   binding.start = 0;
   binding.end = end;
   binding.flags = S_FoldCase | S_SkipDest;

   return (search_forward (string, &binding));
 }

 /* Return non-zero if STRING is the first text to appear at BINDING. */
 int
 looking_at (string, binding)
      char *string;
      SEARCH_BINDING *binding;
 {
   long search_end;

   search_end = search (string, binding);

   /* If the string was not found, SEARCH_END is -1.  If the string was found,
      but not right away, SEARCH_END is != binding->start.  Otherwise, the
      string was found at binding->start. */
   return (search_end == binding->start);
 }

 /* **************************************************************** */
 /*                                                                  */
 /*                    Small String Searches                         */
 /*                                                                  */
 /* **************************************************************** */

 /* Function names that start with "skip" are passed a string, and return
    an offset from the start of that string.  Function names that start
    with "find" are passed a SEARCH_BINDING, and return an absolute position
    marker of the item being searched for.  "Find" functions return a value
    of -1 if the item being looked for couldn't be found. */

 /* Return the index of the first non-whitespace character in STRING. */
 int
 skip_whitespace (string)
      char *string;
 {
   register int i;

   for (i = 0; string && whitespace (string[i]); i++);
   return (i);
 }

 /* Return the index of the first non-whitespace or newline character in
    STRING. */
 int
 skip_whitespace_and_newlines (string)
      char *string;
 {
   register int i;

   for (i = 0; string && (whitespace (string[i]) || string[i] == '\n'); i++);
   return (i);
 }

 /* Return the index of the first whitespace character in STRING. */
 int
 skip_non_whitespace (string)
      char *string;
 {
   register int i;

   for (i = 0; string && !whitespace (string[i]); i++);
   return (i);
 }

 /* Return the index of the first non-node character in STRING.  Note that
    this function contains quite a bit of hair to ignore periods in some
    special cases.  This is because we here at GNU ship some info files which
    contain nodenames that contain periods.  No such nodename can start with
    a period, or continue with whitespace, newline, or ')' immediately following
    the period.  If second argument NEWLINES_OKAY is non-zero, newlines should
    be skipped while parsing out the nodename specification. */
 int
 skip_node_characters (string, newlines_okay)
      char *string;
      int newlines_okay;
 {
   register int c, i = 0;
   int paren_seen = 0;
   int paren = 0;

   /* Handle special case.  This is when another function has parsed out the
      filename component of the node name, and we just want to parse out the
      nodename proper.  In that case, a period at the start of the nodename
      indicates an empty nodename. */
   if (string && *string == '.')
     return (0);

   if (string && *string == '(')
     {
       paren++;
       paren_seen++;
       i++;
     }

   for (; string && (c = string[i]); i++)
     {
       if (paren)
         {
           if (c == '(')
             paren++;
           else if (c == ')')
             paren--;

           continue;
         }

       /* If the character following the close paren is a space or period,
          then this node name has no more characters associated with it. */
       if (c == '\t' ||
           c == ','  ||
           c == INFO_TAGSEP ||
           ((!newlines_okay) && (c == '\n')) ||
           ((paren_seen && string[i - 1] == ')') &&
            (c == ' ' || c == '.')) ||
           (c == '.' &&
            (
 #if 0
 /* This test causes a node name ending in a period, like `This.', not to
    be found.  The trailing . is stripped.  This occurs in the jargon
    file (`I see no X here.' is a node name).  */
            (!string[i + 1]) ||
 #endif
             (whitespace_or_newline (string[i + 1])) ||
             (string[i + 1] == ')'))))
         break;
     }
   return (i);
 }


 /* **************************************************************** */
 /*                                                                  */
 /*                   Searching FILE_BUFFER's                        */
 /*                                                                  */
 /* **************************************************************** */

 /* Return the absolute position of the first occurence of a node separator in
    BINDING-buffer.  The search starts at BINDING->start.  Return -1 if no node
    separator was found. */
 long
 find_node_separator (binding)
      SEARCH_BINDING *binding;
 {
   register long i;
   char *body;

   body = binding->buffer;

   /* A node is started by [^L]^_[^L]\n.  That is to say, the C-l's are
      optional, but the DELETE and NEWLINE are not.  This separator holds
      true for all separated elements in an Info file, including the tags
      table (if present) and the indirect tags table (if present). */
   for (i = binding->start; i < binding->end - 1; i++)
     if (((body[i] == INFO_FF && body[i + 1] == INFO_COOKIE) &&
          (body[i + 2] == '\n' ||
           (body[i + 2] == INFO_FF && body[i + 3] == '\n'))) ||
         ((body[i] == INFO_COOKIE) &&
          (body[i + 1] == '\n' ||
           (body[i + 1] == INFO_FF && body[i + 2] == '\n'))))
       return (i);
   return (-1);
 }

 /* Return the length of the node separator characters that BODY is
    currently pointing at. */
 int
 skip_node_separator (body)
      char *body;
 {
   register int i;

   i = 0;

   if (body[i] == INFO_FF)
     i++;

   if (body[i++] != INFO_COOKIE)
     return (0);

   if (body[i] == INFO_FF)
     i++;

   if (body[i++] != '\n')
     return (0);

   return (i);
 }

 /* Return the number of characters from STRING to the start of
    the next line. */
 int
 skip_line (string)
      char *string;
 {
   register int i;

   for (i = 0; string && string[i] && string[i] != '\n'; i++);

   if (string[i] == '\n')
     i++;

   return (i);
 }

 /* Return the absolute position of the beginning of a tags table in this
    binding starting the search at binding->start. */
 long
 find_tags_table (binding)
      SEARCH_BINDING *binding;
 {
   SEARCH_BINDING search;
   long position;

   search.buffer = binding->buffer;
   search.start = binding->start;
   search.end = binding->end;
   search.flags = S_FoldCase;

   while ((position = find_node_separator (&search)) != -1 )
     {
       search.start = position;
       search.start += skip_node_separator (search.buffer + search.start);

       if (looking_at (TAGS_TABLE_BEG_LABEL, &search))
         return (position);
     }
   return (-1);
 }

 /* Return the absolute position of the node named NODENAME in BINDING.
    This is a brute force search, and we wish to avoid it when possible.
    This function is called when a tag (indirect or otherwise) doesn't
    really point to the right node.  It returns the absolute position of
    the separator preceding the node. */
 long
 find_node_in_binding (nodename, binding)
      char *nodename;
      SEARCH_BINDING *binding;
 {
   long position;
   int offset, namelen;
   SEARCH_BINDING search;

   namelen = strlen (nodename);

   search.buffer = binding->buffer;
   search.start = binding->start;
   search.end = binding->end;
   search.flags = 0;

   while ((position = find_node_separator (&search)) != -1)
     {
       search.start = position;
       search.start += skip_node_separator (search.buffer + search.start);

       offset = string_in_line (INFO_NODE_LABEL, search.buffer + search.start);

       if (offset == -1)
         continue;

       search.start += offset;
       search.start += skip_whitespace (search.buffer + search.start);
       offset = skip_node_characters
         (search.buffer + search.start, DONT_SKIP_NEWLINES);

       /* Notice that this is an exact match.  You cannot grovel through
          the buffer with this function looking for random nodes. */
        if ((offset == namelen) &&
            (search.buffer[search.start] == nodename[0]) &&
            (strncmp (search.buffer + search.start, nodename, offset) == 0))
          return (position);
     }
   return (-1);
 }
	/* search.c -- How to search large bodies of text. */

	/* This file is part of GNU Info, a program for reading online documentation
	stored in Info format.

	Copyright (C) 1993, 97 Free Software Foundation, Inc.

	This program is free software; you can redistribute it and/or modify
	it under the terms of the GNU General Public License as published by
	the Free Software Foundation; either version 2, or (at your option)
	any later version.

	This program 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 General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with this program; if not, write to the Free Software
	Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.

	Written by Brian Fox (bfox@ai.mit.edu). */

	#include "info.h"

	#include "search.h"
	#include "nodes.h"

	/* The search functions take two arguments:

	1) a string to search for, and

	2) a pointer to a SEARCH_BINDING which contains the buffer, start,
	and end of the search.

	They return a long, which is the offset from the start of the buffer
	at which the match was found. An offset of -1 indicates failure. */

	/* A function which makes a binding with buffer and bounds. */
	SEARCH_BINDING *
	make_binding (buffer, start, end)
	char *buffer;
	long start, end;
	{
	SEARCH_BINDING *binding;

	binding = (SEARCH_BINDING *)xmalloc (sizeof (SEARCH_BINDING));
	binding->buffer = buffer;
	binding->start = start;
	binding->end = end;
	binding->flags = 0;

	return (binding);
	}

	/* Make a copy of BINDING without duplicating the data. */
	SEARCH_BINDING *
	copy_binding (binding)
	SEARCH_BINDING *binding;
	{
	SEARCH_BINDING *copy;

	copy = make_binding (binding->buffer, binding->start, binding->end);
	copy->flags = binding->flags;
	return (copy);
	}


	/* **************************************************************** */
	/* */
	/* The Actual Searching Functions */
	/* */
	/* **************************************************************** */

	/* Search forwards or backwards for the text delimited by BINDING.
	The search is forwards if BINDING->start is greater than BINDING->end. */
	long
	search (string, binding)
	char *string;
	SEARCH_BINDING *binding;
	{
	long result;

	/* If the search is backwards, then search backwards, otherwise forwards. */
	if (binding->start > binding->end)
	result = search_backward (string, binding);
	else
	result = search_forward (string, binding);

	return (result);
	}

	/* Search forwards for STRING through the text delimited in BINDING. */
	long
	search_forward (string, binding)
	char *string;
	SEARCH_BINDING *binding;
	{
	register int c, i, len;
	register char buff, end;
	char alternate = (char )NULL;

	len = strlen (string);

	/* We match characters in the search buffer against STRING and ALTERNATE.
	ALTERNATE is a case reversed version of STRING; this is cheaper than
	case folding each character before comparison. Alternate is only
	used if the case folding bit is turned on in the passed BINDING. */

	if (binding->flags & S_FoldCase)
	{
	alternate = xstrdup (string);

	for (i = 0; i < len; i++)
	{
	if (islower (alternate[i]))
	alternate[i] = toupper (alternate[i]);
	else if (isupper (alternate[i]))
	alternate[i] = tolower (alternate[i]);
	}
	}

	buff = binding->buffer + binding->start;
	end = binding->buffer + binding->end + 1;

	while (buff < (end - len))
	{
	for (i = 0; i < len; i++)
	{
	c = buff[i];

	if ((c != string[i]) && (!alternate \|\| c != alternate[i]))
	break;
	}

	if (!string[i])
	{
	if (alternate)
	free (alternate);
	if (binding->flags & S_SkipDest)
	buff += len;
	return ((long) (buff - binding->buffer));
	}

	buff++;
	}

	if (alternate)
	free (alternate);

	return ((long) -1);
	}

	/* Search for STRING backwards through the text delimited in BINDING. */
	long
	search_backward (input_string, binding)
	char *input_string;
	SEARCH_BINDING *binding;
	{
	register int c, i, len;
	register char buff, end;
	char *string;
	char alternate = (char )NULL;

	len = strlen (input_string);

	/* Reverse the characters in the search string. */
	string = (char *)xmalloc (1 + len);
	for (c = 0, i = len - 1; input_string[c]; c++, i--)
	string[i] = input_string[c];

	string[c] = '\0';

	/* We match characters in the search buffer against STRING and ALTERNATE.
	ALTERNATE is a case reversed version of STRING; this is cheaper than
	case folding each character before comparison. ALTERNATE is only
	used if the case folding bit is turned on in the passed BINDING. */

	if (binding->flags & S_FoldCase)
	{
	alternate = xstrdup (string);

	for (i = 0; i < len; i++)
	{
	if (islower (alternate[i]))
	alternate[i] = toupper (alternate[i]);
	else if (isupper (alternate[i]))
	alternate[i] = tolower (alternate[i]);
	}
	}

	buff = binding->buffer + binding->start - 1;
	end = binding->buffer + binding->end;

	while (buff > (end + len))
	{
	for (i = 0; i < len; i++)
	{
	c = *(buff - i);

	if (c != string[i] && (alternate && c != alternate[i]))
	break;
	}

	if (!string[i])
	{
	free (string);
	if (alternate)
	free (alternate);

	if (binding->flags & S_SkipDest)
	buff -= len;
	return ((long) (1 + (buff - binding->buffer)));
	}

	buff--;
	}

	free (string);
	if (alternate)
	free (alternate);

	return ((long) -1);
	}

	/* Find STRING in LINE, returning the offset of the end of the string.
	Return an offset of -1 if STRING does not appear in LINE. The search
	is bound by the end of the line (i.e., either NEWLINE or 0). */
	int
	string_in_line (string, line)
	char string, line;
	{
	register int end;
	SEARCH_BINDING binding;

	/* Find the end of the line. */
	for (end = 0; line[end] && line[end] != '\n'; end++);

	/* Search for STRING within these confines. */
	binding.buffer = line;
	binding.start = 0;
	binding.end = end;
	binding.flags = S_FoldCase \| S_SkipDest;

	return (search_forward (string, &binding));
	}

	/* Return non-zero if STRING is the first text to appear at BINDING. */
	int
	looking_at (string, binding)
	char *string;
	SEARCH_BINDING *binding;
	{
	long search_end;

	search_end = search (string, binding);

	/* If the string was not found, SEARCH_END is -1. If the string was found,
	but not right away, SEARCH_END is != binding->start. Otherwise, the
	string was found at binding->start. */
	return (search_end == binding->start);
	}

	/* **************************************************************** */
	/* */
	/* Small String Searches */
	/* */
	/* **************************************************************** */

	/* Function names that start with "skip" are passed a string, and return
	an offset from the start of that string. Function names that start
	with "find" are passed a SEARCH_BINDING, and return an absolute position
	marker of the item being searched for. "Find" functions return a value
	of -1 if the item being looked for couldn't be found. */

	/* Return the index of the first non-whitespace character in STRING. */
	int
	skip_whitespace (string)
	char *string;
	{
	register int i;

	for (i = 0; string && whitespace (string[i]); i++);
	return (i);
	}

	/* Return the index of the first non-whitespace or newline character in
	STRING. */
	int
	skip_whitespace_and_newlines (string)
	char *string;
	{
	register int i;

	for (i = 0; string && (whitespace (string[i]) \|\| string[i] == '\n'); i++);
	return (i);
	}

	/* Return the index of the first whitespace character in STRING. */
	int
	skip_non_whitespace (string)
	char *string;
	{
	register int i;

	for (i = 0; string && !whitespace (string[i]); i++);
	return (i);
	}

	/* Return the index of the first non-node character in STRING. Note that
	this function contains quite a bit of hair to ignore periods in some
	special cases. This is because we here at GNU ship some info files which
	contain nodenames that contain periods. No such nodename can start with
	a period, or continue with whitespace, newline, or ')' immediately following
	the period. If second argument NEWLINES_OKAY is non-zero, newlines should
	be skipped while parsing out the nodename specification. */
	int
	skip_node_characters (string, newlines_okay)
	char *string;
	int newlines_okay;
	{
	register int c, i = 0;
	int paren_seen = 0;
	int paren = 0;

	/* Handle special case. This is when another function has parsed out the
	filename component of the node name, and we just want to parse out the
	nodename proper. In that case, a period at the start of the nodename
	indicates an empty nodename. */
	if (string && *string == '.')
	return (0);

	if (string && *string == '(')
	{
	paren++;
	paren_seen++;
	i++;
	}

	for (; string && (c = string[i]); i++)
	{
	if (paren)
	{
	if (c == '(')
	paren++;
	else if (c == ')')
	paren--;

	continue;
	}

	/* If the character following the close paren is a space or period,
	then this node name has no more characters associated with it. */
	if (c == '\t' \|\|
	c == ',' \|\|
	c == INFO_TAGSEP \|\|
	((!newlines_okay) && (c == '\n')) \|\|
	((paren_seen && string[i - 1] == ')') &&
	(c == ' ' \|\| c == '.')) \|\|
	(c == '.' &&
	(
	#if 0
	/* This test causes a node name ending in a period, like `This.', not to
	be found. The trailing . is stripped. This occurs in the jargon
	file (`I see no X here.' is a node name). */
	(!string[i + 1]) \|\|
	#endif
	(whitespace_or_newline (string[i + 1])) \|\|
	(string[i + 1] == ')'))))
	break;
	}
	return (i);
	}


	/* **************************************************************** */
	/* */
	/* Searching FILE_BUFFER's */
	/* */
	/* **************************************************************** */

	/* Return the absolute position of the first occurence of a node separator in
	BINDING-buffer. The search starts at BINDING->start. Return -1 if no node
	separator was found. */
	long
	find_node_separator (binding)
	SEARCH_BINDING *binding;
	{
	register long i;
	char *body;

	body = binding->buffer;

	/* A node is started by [^L]^_[^L]\n. That is to say, the C-l's are
	optional, but the DELETE and NEWLINE are not. This separator holds
	true for all separated elements in an Info file, including the tags
	table (if present) and the indirect tags table (if present). */
	for (i = binding->start; i < binding->end - 1; i++)
	if (((body[i] == INFO_FF && body[i + 1] == INFO_COOKIE) &&
	(body[i + 2] == '\n' \|\|
	(body[i + 2] == INFO_FF && body[i + 3] == '\n'))) \|\|
	((body[i] == INFO_COOKIE) &&
	(body[i + 1] == '\n' \|\|
	(body[i + 1] == INFO_FF && body[i + 2] == '\n'))))
	return (i);
	return (-1);
	}

	/* Return the length of the node separator characters that BODY is
	currently pointing at. */
	int
	skip_node_separator (body)
	char *body;
	{
	register int i;

	i = 0;

	if (body[i] == INFO_FF)
	i++;

	if (body[i++] != INFO_COOKIE)
	return (0);

	if (body[i] == INFO_FF)
	i++;

	if (body[i++] != '\n')
	return (0);

	return (i);
	}

	/* Return the number of characters from STRING to the start of
	the next line. */
	int
	skip_line (string)
	char *string;
	{
	register int i;

	for (i = 0; string && string[i] && string[i] != '\n'; i++);

	if (string[i] == '\n')
	i++;

	return (i);
	}

	/* Return the absolute position of the beginning of a tags table in this
	binding starting the search at binding->start. */
	long
	find_tags_table (binding)
	SEARCH_BINDING *binding;
	{
	SEARCH_BINDING search;
	long position;

	search.buffer = binding->buffer;
	search.start = binding->start;
	search.end = binding->end;
	search.flags = S_FoldCase;

	while ((position = find_node_separator (&search)) != -1 )
	{
	search.start = position;
	search.start += skip_node_separator (search.buffer + search.start);

	if (looking_at (TAGS_TABLE_BEG_LABEL, &search))
	return (position);
	}
	return (-1);
	}

	/* Return the absolute position of the node named NODENAME in BINDING.
	This is a brute force search, and we wish to avoid it when possible.
	This function is called when a tag (indirect or otherwise) doesn't
	really point to the right node. It returns the absolute position of
	the separator preceding the node. */
	long
	find_node_in_binding (nodename, binding)
	char *nodename;
	SEARCH_BINDING *binding;
	{
	long position;
	int offset, namelen;
	SEARCH_BINDING search;

	namelen = strlen (nodename);

	search.buffer = binding->buffer;
	search.start = binding->start;
	search.end = binding->end;
	search.flags = 0;

	while ((position = find_node_separator (&search)) != -1)
	{
	search.start = position;
	search.start += skip_node_separator (search.buffer + search.start);

	offset = string_in_line (INFO_NODE_LABEL, search.buffer + search.start);

	if (offset == -1)
	continue;

	search.start += offset;
	search.start += skip_whitespace (search.buffer + search.start);
	offset = skip_node_characters
	(search.buffer + search.start, DONT_SKIP_NEWLINES);

	/* Notice that this is an exact match. You cannot grovel through
	the buffer with this function looking for random nodes. */
	if ((offset == namelen) &&
	(search.buffer[search.start] == nodename[0]) &&
	(strncmp (search.buffer + search.start, nodename, offset) == 0))
	return (position);
	}
	return (-1);
	}