zsh/Src/Zle/zle_tricky.c

/*
 * zle_tricky.c - expansion and completion
 *
 * This file is part of zsh, the Z shell.
 *
 * Copyright (c) 1992-1997 Paul Falstad
 * All rights reserved.
 *
 * Permission is hereby granted, without written agreement and without
 * license or royalty fees, to use, copy, modify, and distribute this
 * software and to distribute modified versions of this software for any
 * purpose, provided that the above copyright notice and the following
 * two paragraphs appear in all copies of this software.
 *
 * In no event shall Paul Falstad or the Zsh Development Group be liable
 * to any party for direct, indirect, special, incidental, or consequential
 * damages arising out of the use of this software and its documentation,
 * even if Paul Falstad and the Zsh Development Group have been advised of
 * the possibility of such damage.
 *
 * Paul Falstad and the Zsh Development Group specifically disclaim any
 * warranties, including, but not limited to, the implied warranties of
 * merchantability and fitness for a particular purpose.  The software
 * provided hereunder is on an "as is" basis, and Paul Falstad and the
 * Zsh Development Group have no obligation to provide maintenance,
 * support, updates, enhancements, or modifications.
 *
 */

#include "zle.mdh"
#include "zle_tricky.pro"

/* The main part of ZLE maintains the line being edited as binary data, *
 * but here, where we interface with the lexer and other bits of zsh,   *
 * we need the line metafied.  The technique used is quite simple: on   *
 * entry to the expansion/completion system, we metafy the line in      *
 * place, adjusting ll and cs to match.  All completion and expansion   *
 * is done on the metafied line.  Immediately before returning, the     *
 * line is unmetafied again, changing ll and cs back.  (ll and cs might *
 * have changed during completion, so they can't be merely saved and    *
 * restored.)  The various indexes into the line that are used in this  *
 * file only are not translated: they remain indexes into the metafied  *
 * line.                                                                */

#define inststr(X) inststrlen((X),1,-1)

/* The line before completion was tried. */

/**/
mod_export char *origline;
/**/
mod_export int origcs, origll;

/* Words on the command line, for use in completion */
 
/**/
mod_export int clwsize, clwnum, clwpos;
/**/
mod_export char **clwords;

/* offs is the cursor position within the tokenized *
 * current word after removing nulargs.             */

/**/
mod_export int offs;

/* These control the type of completion that will be done.  They are       *
 * affected by the choice of ZLE command and by relevant shell options.    *
 * usemenu is set to 2 if we have to start automenu and 3 if we have to    *
 * insert a match as if for menucompletion but without really starting it. */

/**/
mod_export int usemenu, useglob;

/* != 0 if we would insert a TAB if we weren't calling a completion widget. */

/**/
mod_export int wouldinstab;

/* != 0 if we are in the middle of a menu completion. May be == 2 to force *
 * menu completion even if using different widgets.                        */

/**/
mod_export int menucmp;

/* Lists of brace-infos before/after cursor (first and last for each). */

/**/
mod_export Brinfo brbeg, lastbrbeg, brend, lastbrend;

/**/
mod_export int nbrbeg, nbrend;

/**/
mod_export char *lastprebr, *lastpostbr;

/* !=0 if we have a valid completion list. */

/**/
mod_export int validlist;

/* Non-zero if we have to redisplay the list of matches. */

/**/
mod_export int showagain = 0;

/* This holds the word we are completing in quoted from. */

static char *qword;

/* This holds the word we are working on without braces removed. */

static char *origword;

/* The quoted prefix/suffix and a flag saying if we want to add the
 * closing quote. */

/**/
mod_export char *qipre, *qisuf, *autoq;

/* This contains the name of the function to call if this is for a new  *
 * style completion. */

/**/
mod_export char *compfunc = NULL;

/* Non-zero if the last completion done was ambiguous (used to find   *
 * out if AUTOMENU should start).  More precisely, it's nonzero after *
 * successfully doing any completion, unless the completion was       *
 * unambiguous and did not cause the display of a completion list.    *
 * From the other point of view, it's nonzero iff AUTOMENU (if set)   *
 * should kick in on another completion.                              *
 *                                                                    *
 * If both AUTOMENU and BASHAUTOLIST are set, then we get a listing   *
 * on the second tab, a` la bash, and then automenu kicks in when     *
 * lastambig == 2.                                                    */

/**/
mod_export int lastambig, bashlistfirst;

/* Arguments for and return value of completion widget. */

/**/
mod_export char **cfargs;
/**/
mod_export int cfret;

/* != 0 if recursive calls to completion are (temporarily) allowed */

/**/
mod_export int comprecursive;

/* Find out if we have to insert a tab (instead of trying to complete). */

/**/
static int
usetab(void)
{
    unsigned char *s = line + cs - 1;

    if (keybuf[0] != '\t' || keybuf[1])
	return 0;
    for (; s >= line && *s != '\n'; s--)
	if (*s != '\t' && *s != ' ')
	    return 0;
    if (compfunc) {
	wouldinstab = 1;

	return 0;
    }
    return 1;
}

/**/
int
completecall(char **args)
{
    cfargs = args;
    cfret = 0;
    compfunc = compwidget->u.comp.func;
    if (compwidget->u.comp.fn(zlenoargs) && !cfret)
	cfret = 1;
    compfunc = NULL;

    return cfret;
}

/**/
int
completeword(char **args)
{
    usemenu = !!isset(MENUCOMPLETE);
    useglob = isset(GLOBCOMPLETE);
    wouldinstab = 0;
    if (c == '\t' && usetab())
	return selfinsert(args);
    else {
	int ret;
	if (lastambig == 1 && isset(BASHAUTOLIST) && !usemenu && !menucmp) {
	    bashlistfirst = 1;
	    ret = docomplete(COMP_LIST_COMPLETE);
	    bashlistfirst = 0;
	    lastambig = 2;
	} else
	    ret = docomplete(COMP_COMPLETE);
	return ret;
    }
}

/**/
mod_export int
menucomplete(char **args)
{
    usemenu = 1;
    useglob = isset(GLOBCOMPLETE);
    wouldinstab = 0;
    if (c == '\t' && usetab())
	return selfinsert(args);
    else
	return docomplete(COMP_COMPLETE);
}

/**/
int
listchoices(char **args)
{
    usemenu = !!isset(MENUCOMPLETE);
    useglob = isset(GLOBCOMPLETE);
    wouldinstab = 0;
    return docomplete(COMP_LIST_COMPLETE);
}

/**/
int
spellword(char **args)
{
    usemenu = useglob = 0;
    wouldinstab = 0;
    return docomplete(COMP_SPELL);
}

/**/
int
deletecharorlist(char **args)
{
    usemenu = !!isset(MENUCOMPLETE);
    useglob = isset(GLOBCOMPLETE);
    wouldinstab = 0;

    if (cs != ll) {
	fixsuffix();
	invalidatelist();
	return deletechar(args);
    }
    return docomplete(COMP_LIST_COMPLETE);
}

/**/
int
expandword(char **args)
{
    usemenu = useglob = 0;
    wouldinstab = 0;
    if (c == '\t' && usetab())
	return selfinsert(args);
    else
	return docomplete(COMP_EXPAND);
}

/**/
int
expandorcomplete(char **args)
{
    usemenu = !!isset(MENUCOMPLETE);
    useglob = isset(GLOBCOMPLETE);
    wouldinstab = 0;
    if (c == '\t' && usetab())
	return selfinsert(args);
    else {
	int ret;
	if (lastambig == 1 && isset(BASHAUTOLIST) && !usemenu && !menucmp) {
	    bashlistfirst = 1;
	    ret = docomplete(COMP_LIST_COMPLETE);
	    bashlistfirst = 0;
	    lastambig = 2;
	} else
	    ret = docomplete(COMP_EXPAND_COMPLETE);
	return ret;
    }
}

/**/
int
menuexpandorcomplete(char **args)
{
    usemenu = 1;
    useglob = isset(GLOBCOMPLETE);
    wouldinstab = 0;
    if (c == '\t' && usetab())
	return selfinsert(args);
    else
	return docomplete(COMP_EXPAND_COMPLETE);
}

/**/
int
listexpand(char **args)
{
    usemenu = !!isset(MENUCOMPLETE);
    useglob = isset(GLOBCOMPLETE);
    wouldinstab = 0;
    return docomplete(COMP_LIST_EXPAND);
}

/**/
mod_export int
reversemenucomplete(char **args)
{
    wouldinstab = 0;
    if (!menucmp)
	return menucomplete(args);

    runhookdef(REVERSEMENUHOOK, NULL);
    return 0;
}

/**/
int
acceptandmenucomplete(char **args)
{
    wouldinstab = 0;
    if (!menucmp)
	return 1;
    runhookdef(ACCEPTCOMPHOOK, NULL);
    return menucomplete(args);
}

/* These are flags saying if we are completing in the command *
 * position, in a redirection, or in a parameter expansion.   */

/**/
mod_export int lincmd, linredir, linarr;

/* The string for the redirection operator. */

/**/
mod_export char *rdstr;

/* This holds the name of the current command (used to find the right *
 * compctl).                                                          */

/**/
mod_export char *cmdstr;

/* This hold the name of the variable we are working on. */

/**/
mod_export char *varname;

/* != 0 if we are in a subscript */

/**/
mod_export int insubscr;

/* Parameter pointer for completing keys of an assoc array. */

/**/
mod_export Param keypm;

/* 1 if we are completing in a quoted string (or inside `...`) */

/**/
mod_export int instring, inbackt;

/* Convenience macro for calling bslashquote() (formerly quotename()). *
 * This uses the instring variable above.                              */

#define quotename(s, e) bslashquote(s, e, instring)

/* Check if the given string is the name of a parameter and if this *
 * parameter is one worth expanding.                                */

/**/
static int
checkparams(char *p)
{
    int t0, n, l = strlen(p), e = 0;
    struct hashnode *hn;

    for (t0 = paramtab->hsize - 1, n = 0; n < 2 && t0 >= 0; t0--)
	for (hn = paramtab->nodes[t0]; n < 2 && hn; hn = hn->next)
	    if (pfxlen(p, hn->nam) == l) {
		n++;
		if (strlen(hn->nam) == l)
		    e = 1;
	    }
    return (n == 1) ? (getsparam(p) != NULL) :
	(!menucmp && e && (!hascompmod || isset(RECEXACT)));
}

/* Check if the given string has wildcards.  The difficulty is that we *
 * have to treat things like job specifications (%...) and parameter   *
 * expressions correctly.                                              */

/**/
static int
cmphaswilds(char *str)
{
    if ((*str == Inbrack || *str == Outbrack) && !str[1])
	return 0;

    /* If a leading % is immediately followed by ?, then don't *
     * treat that ? as a wildcard.  This is so you don't have  *
     * to escape job references such as %?foo.                 */
    if (str[0] == '%' && str[1] ==Quest)
	str += 2;

    for (; *str;) {
	if (*str == String || *str == Qstring) {
	    /* A parameter expression. */

	    if (*++str == Inbrace)
		skipparens(Inbrace, Outbrace, &str);
	    else if (*str == String || *str == Qstring)
		str++;
	    else {
		/* Skip all the things a parameter expression might start *
		 * with (before we come to the parameter name).           */
		for (; *str; str++)
		    if (*str != '^' && *str != Hat &&
			*str != '=' && *str != Equals &&
			*str != '~' && *str != Tilde)
			break;
		if (*str == '#' || *str == Pound)
		    str++;
		/* Star and Quest are parameter names here, not wildcards */
		if (*str == Star || *str == Quest)
		    str++;
	    }
	} else {
	    /* Not a parameter expression so we check for wildcards */
	    if (((*str == Pound || *str == Hat) && isset(EXTENDEDGLOB)) ||
		*str == Star || *str == Bar || *str == Quest ||
		!skipparens(Inbrack, Outbrack, &str) ||
		!skipparens(Inang,   Outang,   &str) ||
		(unset(IGNOREBRACES) &&
		 !skipparens(Inbrace, Outbrace, &str)) ||
		(*str == Inpar && str[1] == ':' &&
		 !skipparens(Inpar, Outpar, &str)))
		return 1;
	    if (*str)
		str++;
	}
    }
    return 0;
}

/* Check if we have to complete a parameter name. */

/**/
char *
parambeg(char *s)
{
    char *p;

    /* Try to find a `$'. */
    for (p = s + offs; p > s && *p != String && *p != Qstring; p--);
    if (*p == String || *p == Qstring) {
	/* Handle $$'s */
	while (p > s && (p[-1] == String || p[-1] == Qstring))
	    p--;
	while ((p[1] == String || p[1] == Qstring) &&
	       (p[2] == String || p[2] == Qstring))
	    p += 2;
    }
    if ((*p == String || *p == Qstring) && p[1] != Inpar && p[1] != Inbrack) {
	/* This is really a parameter expression (not $(...) or $[...]). */
	char *b = p + 1, *e = b;
	int n = 0, br = 1, nest = 0;

	if (*b == Inbrace) {
	    char *tb = b;

	    /* If this is a ${...}, see if we are before the '}'. */
	    if (!skipparens(Inbrace, Outbrace, &tb))
		return NULL;

	    /* Ignore the possible (...) flags. */
	    b++, br++;
	    n = skipparens(Inpar, Outpar, &b);

	    for (tb = p - 1; tb > s && *tb != Outbrace && *tb != Inbrace; tb--);
	    if (tb > s && *tb == Inbrace && (tb[-1] == String || *tb == Qstring))
		nest = 1;
	}

	/* Ignore the stuff before the parameter name. */
	for (; *b; b++)
	    if (*b != '^' && *b != Hat &&
		*b != '=' && *b != Equals &&
		*b != '~' && *b != Tilde)
		break;
	if (*b == '#' || *b == Pound || *b == '+')
	    b++;

	e = b;
	if (br) {
	    while (*e == Dnull)
		e++;
	}
	/* Find the end of the name. */
	if (*e == Quest || *e == Star || *e == String || *e == Qstring ||
	    *e == '?'   || *e == '*'  || *e == '$'    ||
	    *e == '-'   || *e == '!'  || *e == '@')
	    e++;
	else if (idigit(*e))
	    while (idigit(*e))
		e++;
	else if (iident(*e))
	    while (iident(*e))
		e++;

	/* Now make sure that the cursor is inside the name. */
	if (offs <= e - s && offs >= b - s && n <= 0) {
	    if (br) {
		p = e;
		while (*p == Dnull)
		    p++;
	    }
	    /* It is. */
	    return b;
	}
    }
    return NULL;
}

/* The main entry point for completion. */

/**/
static int
docomplete(int lst)
{
    static int active = 0;

    char *s, *ol;
    int olst = lst, chl = 0, ne = noerrs, ocs, ret = 0, dat[2];

    if (active && !comprecursive) {
	zwarn("completion cannot be used recursively (yet)", NULL, 0);
	return 1;
    }
    active = 1;
    comprecursive = 0;
    if (undoing)
	setlastline();

    if (!module_loaded("zsh/complete"))
	load_module("zsh/compctl");

    if (runhookdef(BEFORECOMPLETEHOOK, (void *) &lst)) {
	active = 0;
	return 0;
    }
    /* Expand history references before starting completion.  If anything *
     * changed, do no more.                                               */

    if (doexpandhist()) {
	active = 0;
	return 0;
    }
    metafy_line();

    ocs = cs;
    origline = dupstring((char *) line);
    origcs = cs;
    origll = ll;
    if (!isfirstln && chline != NULL) {
	/* If we are completing in a multi-line buffer (which was not  *
	 * taken from the history), we have to prepend the stuff saved *
	 * in chline to the contents of line.                          */

	ol = dupstring((char *)line);
	/* Make sure that chline is zero-terminated. */
	*hptr = '\0';
	cs = 0;
	inststr(chline);
	chl = cs;
	cs += ocs;
    } else
	ol = NULL;
    inwhat = IN_NOTHING;
    qword = NULL;
    zsfree(qipre);
    qipre = ztrdup("");
    zsfree(qisuf);
    qisuf = ztrdup("");
    zsfree(autoq);
    autoq = NULL;
    /* Get the word to complete.
     * NOTE: get_comp_string() calls pushheap(), but not popheap(). */
    noerrs = 1;
    s = get_comp_string();
    DPUTS(wb < 0 || cs < wb || cs > we,
	  "BUG: 0 <= wb <= cs <= we is not true!");
    noerrs = ne;
    /* For vi mode, reset the start-of-insertion pointer to the beginning *
     * of the word being completed, if it is currently later.  Vi itself  *
     * would never change the pointer in the middle of an insertion, but  *
     * then vi doesn't have completion.  More to the point, this is only  *
     * an emulation.                                                      */
    if (viinsbegin > ztrsub((char *) line + wb, (char *) line))
	viinsbegin = ztrsub((char *) line + wb, (char *) line);
    /* If we added chline to the line buffer, reset the original contents. */
    if (ol) {
	cs -= chl;
	wb -= chl;
	we -= chl;
	if (wb < 0) {
	    strcpy((char *) line, ol);
	    ll = strlen((char *) line);
	    cs = ocs;
	    popheap();
	    unmetafy_line();
	    zsfree(s);
	    zsfree(qword);
	    active = 0;
	    return 1;
	}
	ocs = cs;
	cs = 0;
	foredel(chl);
	cs = ocs;
    }
    freeheap();
    /* Save the lexer state, in case the completion code uses the lexer *
     * somewhere (e.g. when processing a compctl -s flag).              */
    lexsave();
    if (inwhat == IN_ENV)
	lincmd = 0;
    if (s) {
	if (lst == COMP_EXPAND_COMPLETE) {
	    /* Check if we have to do expansion or completion. */
	    char *q = s;

	    if (*q == Equals) {
		/* The word starts with `=', see if we can expand it. */
		q = s + 1;
		if (cmdnamtab->getnode(cmdnamtab, q) || hashcmd(q, pathchecked)) {
		    if (!hascompmod || isset(RECEXACT))
			lst = COMP_EXPAND;
		    else {
			int t0, n = 0;
			struct hashnode *hn;

			for (t0 = cmdnamtab->hsize - 1; t0 >= 0; t0--)
			    for (hn = cmdnamtab->nodes[t0]; hn;
				 hn = hn->next) {
				if (strpfx(q, hn->nam) && findcmd(hn->nam, 0))
				    n++;
				if (n == 2)
				    break;
			    }

			if (n == 1)
			    lst = COMP_EXPAND;
		    }
		}
	    }
	    if (lst == COMP_EXPAND_COMPLETE)
		do {
		    /* Check if there is a parameter expression. */
		    for (; *q && *q != String; q++);
		    if (*q == String && q[1] != Inpar && q[1] != Inbrack) {
			if (*++q == Inbrace) {
			    if (! skipparens(Inbrace, Outbrace, &q) &&
				q == s + cs - wb)
				lst = COMP_EXPAND;
			} else {
			    char *t, sav, sav2;

			    /* Skip the things parameter expressions might *
			     * start with (the things before the parameter *
			     * name).                                      */
			    for (; *q; q++)
				if (*q != '^' && *q != Hat &&
				    *q != '=' && *q != Equals &&
				    *q != '~' && *q != Tilde)
				    break;
			    if ((*q == '#' || *q == Pound || *q == '+') &&
				q[1] != String)
				q++;

			    sav2 = *(t = q);
			    if (*q == Quest || *q == Star || *q == String ||
				*q == Qstring)
				*q = ztokens[*q - Pound], ++q;
			    else if (*q == '?' || *q == '*' || *q == '$' ||
				     *q == '-' || *q == '!' || *q == '@')
				q++;
			    else if (idigit(*q))
				do q++; while (idigit(*q));
			    else
				while (iident(*q))
				    q++;
			    sav = *q;
			    *q = '\0';
			    if (cs - wb == q - s &&
				(idigit(sav2) || checkparams(t)))
				lst = COMP_EXPAND;
			    *q = sav;
			    *t = sav2;
			}
			if (lst != COMP_EXPAND)
			    lst = COMP_COMPLETE;
		    } else
			break;
		} while (q < s + cs - wb);
	    if (lst == COMP_EXPAND_COMPLETE) {
		/* If it is still not clear if we should use expansion or   *
		 * completion and there is a `$' or a backtick in the word, *
		 * than do expansion.                                       */
		for (q = s; *q; q++)
		    if (*q == Tick || *q == Qtick ||
			*q == String || *q == Qstring)
			break;
		lst = *q ? COMP_EXPAND : COMP_COMPLETE;
	    }
	    /* And do expansion if there are wildcards and globcomplete is *
	     * not used.                                                   */
	    if (unset(GLOBCOMPLETE) && cmphaswilds(s))
		lst = COMP_EXPAND;
	}
	if (lincmd && (inwhat == IN_NOTHING))
	    inwhat = IN_CMD;

	if (lst == COMP_SPELL) {
	    char *w = dupstring(origword), *x, *q, *ox;

	    for (q = w; *q; q++)
		if (INULL(*q))
		    *q = Nularg;
	    cs = wb;
	    foredel(we - wb);

	    untokenize(x = ox = dupstring(w));
	    if (*w == Tilde || *w == Equals || *w == String)
		*x = *w;
	    spckword(&x, 0, lincmd, 0);
	    ret = !strcmp(x, ox);

	    untokenize(x);
	    inststr(x);
	} else if (COMP_ISEXPAND(lst)) {
	    /* Do expansion. */
	    char *ol = (olst == COMP_EXPAND ||
                        olst == COMP_EXPAND_COMPLETE) ?
		dupstring((char *)line) : (char *)line;
	    int ocs = cs, ne = noerrs;

	    noerrs = 1;
	    ret = doexpansion(origword, lst, olst, lincmd);
	    lastambig = 0;
	    noerrs = ne;

	    /* If expandorcomplete was invoked and the expansion didn't *
	     * change the command line, do completion.                  */
	    if (olst == COMP_EXPAND_COMPLETE &&
		!strcmp(ol, (char *)line)) {
		cs = ocs;
		errflag = 0;

		if (!compfunc) {
		    char *p;

		    p = s;
		    if (*p == Tilde || *p == Equals)
			p++;
		    for (; *p; p++)
			if (itok(*p)) {
			    if (*p != String && *p != Qstring)
				*p = ztokens[*p - Pound];
			    else if (p[1] == Inbrace)
				p++, skipparens(Inbrace, Outbrace, &p);
			}
		}
		ret = docompletion(s, lst, lincmd);
            } else {
                if (ret)
                    clearlist = 1;
                if (!strcmp(ol, (char *)line)) {
                    /* We may have removed some quotes. For completion, other
                     * parts of the code re-install them, but for expansion
                     * we have to do it here. */
                    cs = 0;
                    foredel(ll);
                    spaceinline(origll);
                    memcpy(line, origline, origll);
                    cs = origcs;
                }
            }
	} else
	    /* Just do completion. */
	    ret = docompletion(s, lst, lincmd);
	zsfree(s);
    } else
	ret = 1;
    /* Reset the lexer state, pop the heap. */
    lexrestore();
    popheap();
    zsfree(qword);
    unmetafy_line();

    dat[0] = lst;
    dat[1] = ret;
    runhookdef(AFTERCOMPLETEHOOK, (void *) dat);

    active = 0;
    return dat[1];
}

/* 1 if we are completing the prefix */
static int comppref;

/* This function inserts an `x' in the command line at the cursor position. *
 *                                                                          *
 * Oh, you want to know why?  Well, if completion is tried somewhere on an  *
 * empty part of the command line, the lexer code would normally not be     *
 * able to give us the `word' we want to complete, since there is no word.  *
 * But we need to call the lexer to find out where we are (and for which    *
 * command we are completing and such things).  So we temporarily add a `x' *
 * (any character without special meaning would do the job) at the cursor   *
 * position, than the lexer gives us the word `x' and its beginning and end *
 * positions and we can remove the `x'.                                     *
 *									    *
 * If we are just completing the prefix (comppref set), we also insert a    *
 * space after the x to end the word.  We never need to remove the space:   *
 * anywhere we are able to retrieve a word for completion it will be	    *
 * discarded as whitespace.  It has the effect of making any suffix	    *
 * referrable to as the next word on the command line when indexing	    *
 * from a completion function.                                              */

/**/
static void
addx(char **ptmp)
{
    int addspace = 0;

    if (!line[cs] || line[cs] == '\n' ||
	(iblank(line[cs]) && (!cs || line[cs-1] != '\\')) ||
	line[cs] == ')' || line[cs] == '`' || line[cs] == '}' ||
	line[cs] == ';' || line[cs] == '|' || line[cs] == '&' ||
	(instring && (line[cs] == '"' || line[cs] == '\'')) ||
	(addspace = (comppref && !iblank(line[cs])))) {
	*ptmp = (char *)line;
	line = (unsigned char *)zhalloc(strlen((char *)line) + 3 + addspace);
	memcpy(line, *ptmp, cs);
	line[cs] = 'x';
	if (addspace)
	    line[cs+1] = ' ';
	strcpy((char *)line + cs + 1 + addspace, (*ptmp) + cs);
	addedx = 1 + addspace;
    } else {
	addedx = 0;
	*ptmp = NULL;
    }
}

/* Like dupstring, but add an extra space at the end of the string. */

/**/
mod_export char *
dupstrspace(const char *str)
{
    int len = strlen((char *)str);
    char *t = (char *) hcalloc(len + 2);
    strcpy(t, str);
    strcpy(t+len, " ");
    return t;
}

/* These functions metafy and unmetafy the ZLE buffer, as described at the *
 * top of this file.  Note that ll and cs are translated.  They *must* be  *
 * called in matching pairs, around all the expansion/completion code.     *
 * Currently, there are four pairs: in history expansion, in the main      *
 * completion function, and one in each of the middle-of-menu-completion   *
 * functions (there's one for each direction).                             */

/**/
mod_export void
metafy_line(void)
{
    int len = ll;
    char *s;

    for (s = (char *) line; s < (char *) line + ll;)
	if (imeta(*s++))
	    len++;
    sizeline(len);
    (void) metafy((char *) line, ll, META_NOALLOC);
    ll = len;
    cs = metalen((char *) line, cs);
}

/**/
mod_export void
unmetafy_line(void)
{
    cs = ztrsub((char *) line + cs, (char *) line);
    (void) unmetafy((char *) line, &ll);
}

/* Free a brinfo list. */

/**/
mod_export void
freebrinfo(Brinfo p)
{
    Brinfo n;

    while (p) {
	n = p->next;
	zsfree(p->str);
	zfree(p, sizeof(*p));

	p = n;
    }
}

/* Duplicate a brinfo list. */

/**/
mod_export Brinfo
dupbrinfo(Brinfo p, Brinfo *last, int heap)
{
    Brinfo ret = NULL, *q = &ret, n = NULL;

    while (p) {
	n = *q = (heap ? (Brinfo) zhalloc(sizeof(*n)) :
		  (Brinfo) zalloc(sizeof(*n)));
	q = &(n->next);

	n->next = NULL;
	n->str = (heap ? dupstring(p->str) : ztrdup(p->str));
	n->pos = p->pos;
	n->qpos = p->qpos;
	n->curpos = p->curpos;

	p = p->next;
    }
    if (last)
	*last = n;

    return ret;
}

/* This is a bit like has_token(), but ignores nulls. */

static int
has_real_token(const char *s)
{
    while (*s) {
	if (itok(*s) && !INULL(*s))
	    return 1;
	s++;
    }
    return 0;
}


/* Lasciate ogni speranza.                                                  *
 * This function is a nightmare.  It works, but I'm sure that nobody really *
 * understands why.  The problem is: to make it cleaner we would need       *
 * changes in the lexer code (and then in the parser, and then...).         */

/**/
static char *
get_comp_string(void)
{
    int t0, tt0, i, j, k, cp, rd, sl, ocs, ins, oins, ia, parct, varq = 0;
    int ona = noaliases;
    char *s = NULL, *linptr, *tmp, *p, *tt = NULL;

    freebrinfo(brbeg);
    freebrinfo(brend);
    brbeg = lastbrbeg = brend = lastbrend = NULL;
    nbrbeg = nbrend = 0;
    zsfree(lastprebr);
    zsfree(lastpostbr);
    lastprebr = lastpostbr = NULL;

    /* This global flag is used to signal the lexer code if it should *
     * expand aliases or not.                                         */
    noaliases = isset(COMPLETEALIASES);

    /* Find out if we are somewhere in a `string', i.e. inside '...', *
     * "...", `...`, or ((...)). Nowadays this is only used to find   *
     * out if we are inside `...`.                                    */

    for (i = j = k = 0, p = (char *)line; p < (char *)line + cs; p++)
	if (*p == '`' && !(k & 1))
	    i++;
	else if (*p == '\"' && !(k & 1) && !(i & 1))
	    j++;
	else if (*p == '\'' && !(j & 1))
	    k++;
	else if (*p == '\\' && p[1] && !(k & 1))
	    p++;
    inbackt = (i & 1);
    instring = 0;
    addx(&tmp);
    linptr = (char *)line;
    pushheap();

 start:
    inwhat = IN_NOTHING;
    /* Now set up the lexer and start it. */
    parbegin = parend = -1;
    lincmd = incmdpos;
    linredir = inredir;
    zsfree(cmdstr);
    cmdstr = NULL;
    zsfree(varname);
    varname = NULL;
    insubscr = 0;
    zleparse = 1;
    clwpos = -1;
    lexsave();
    inpush(dupstrspace((char *) linptr), 0, NULL);
    strinbeg(0);
    i = tt0 = cp = rd = ins = oins = linarr = parct = ia = 0;

    /* This loop is possibly the wrong way to do this.  It goes through *
     * the previously massaged command line using the lexer.  It stores *
     * each token in each command (commands being regarded, roughly, as *
     * being separated by tokens | & &! |& || &&).  The loop stops when *
     * the end of the command containing the cursor is reached.  What   *
     * makes this messy is checking for things like redirections, loops *
    * and whatnot. */

    do {
	lincmd = ((incmdpos && !ins && !incond) || (oins == 2 && i == 2) ||
		  (ins == 3 && i == 1));
	linredir = (inredir && !ins);
	oins = ins;
	/* Get the next token. */
	if (linarr)
	    incmdpos = 0;
	ctxtlex();

	if (tok == LEXERR) {
	    if (!tokstr)
		break;
	    for (j = 0, p = tokstr; *p; p++)
		if (*p == Snull || *p == Dnull)
		    j++;
	    if (j & 1) {
		if (lincmd && strchr(tokstr, '=')) {
		    varq = 1;
		    tok = ENVSTRING;
		} else
		    tok = STRING;
	    }
	} else if (tok == ENVSTRING)
	    varq = 0;
	if (tok == ENVARRAY) {
	    linarr = 1;
	    zsfree(varname);
	    varname = ztrdup(tokstr);
	} else if (tok == INPAR)
	    parct++;
	else if (tok == OUTPAR) {
	    if (parct)
		parct--;
	    else
		linarr = 0;
	}
	if (inredir)
	    rdstr = tokstrings[tok];
	if (tok == DINPAR)
	    tokstr = NULL;

	/* We reached the end. */
	if (tok == ENDINPUT)
	    break;
	if ((ins && (tok == DO || tok == SEPER)) ||
	    (ins == 2 && i == 2) || (ins == 3 && i == 3) ||
	    tok == BAR    || tok == AMPER     ||
	    tok == BARAMP || tok == AMPERBANG ||
	    ((tok == DBAR || tok == DAMPER) && !incond)) {
	    /* This is one of the things that separate commands.  If we  *
	     * already have the things we need (e.g. the token strings), *
	     * leave the loop.                                           */
	    if (tt)
		break;
	    /* Otherwise reset the variables we are collecting data in. */
	    i = tt0 = cp = rd = ins = 0;
	}
	if (lincmd && (tok == STRING || tok == FOR || tok == FOREACH ||
		       tok == SELECT || tok == REPEAT || tok == CASE)) {
	    /* The lexer says, this token is in command position, so *
	     * store the token string (to find the right compctl).   */
	    ins = (tok == REPEAT ? 2 : (tok != STRING));
	    zsfree(cmdstr);
	    cmdstr = ztrdup(tokstr);
	    i = 0;
	}
	if (!zleparse && !tt0) {
	    /* This is done when the lexer reached the word the cursor is on. */
	    tt = tokstr ? dupstring(tokstr) : NULL;
	    /* If we added a `x', remove it. */
	    if (addedx && tt)
		chuck(tt + cs - wb);
	    tt0 = tok;
	    /* Store the number of this word. */
	    clwpos = i;
	    cp = lincmd;
	    rd = linredir;
	    ia = linarr;
	    if (inwhat == IN_NOTHING && incond)
		inwhat = IN_COND;
	} else if (linredir)
	    continue;
	if (incond) {
	    if (tok == DBAR)
		tokstr = "||";
	    else if (tok == DAMPER)
		tokstr = "&&";
	}
	if (!tokstr)
	    continue;
	/* Hack to allow completion after `repeat n do'. */
	if (oins == 2 && !i && !strcmp(tokstr, "do"))
	    ins = 3;
	/* We need to store the token strings of all words (for some of *
	 * the more complicated compctl -x things).  They are stored in *
	 * the clwords array.  Make this array big enough.              */
	if (i + 1 == clwsize) {
	    int n;
	    clwords = (char **)realloc(clwords,
				       (clwsize *= 2) * sizeof(char *));
	    for(n = clwsize; --n > i; )
		clwords[n] = NULL;
	}
	zsfree(clwords[i]);
	/* And store the current token string. */
	clwords[i] = ztrdup(tokstr);
	sl = strlen(tokstr);
	/* Sometimes the lexer gives us token strings ending with *
	 * spaces we delete the spaces.                           */
	while (sl && clwords[i][sl - 1] == ' ' &&
	       (sl < 2 || (clwords[i][sl - 2] != Bnull &&
			   clwords[i][sl - 2] != Meta)))
	    clwords[i][--sl] = '\0';
	/* If this is the word the cursor is in and we added a `x', *
	 * remove it.                                               */
	if (clwpos == i++ && addedx)
	    chuck(&clwords[i - 1][((cs - wb) >= sl) ?
				 (sl - 1) : (cs - wb)]);
    } while (tok != LEXERR && tok != ENDINPUT &&
	     (tok != SEPER || (zleparse && !tt0)));
    /* Calculate the number of words stored in the clwords array. */
    clwnum = (tt || !i) ? i : i - 1;
    zsfree(clwords[clwnum]);
    clwords[clwnum] = NULL;
    t0 = tt0;
    if (ia) {
	lincmd = linredir = 0;
	inwhat = IN_ENV;
    } else {
	lincmd = cp;
	linredir = rd;
    }
    strinend();
    inpop();
    errflag = zleparse = 0;
    if (parbegin != -1) {
	/* We are in command or process substitution if we are not in
	 * a $((...)). */
	if (parend >= 0 && !tmp)
	    line = (unsigned char *) dupstring(tmp = (char *)line);
	linptr = (char *) line + ll + addedx - parbegin + 1;
	if ((linptr - (char *) line) < 3 || *linptr != '(' ||
	    linptr[-1] != '(' || linptr[-2] != '$') {
	    if (parend >= 0) {
		ll -= parend;
		line[ll + addedx] = '\0';
	    }
	    lexrestore();
	    tt = NULL;
	    goto start;
	}
    }

    if (inwhat == IN_MATH)
	s = NULL;
    else if (!t0 || t0 == ENDINPUT) {
	/* There was no word (empty line). */
	s = ztrdup("");
	we = wb = cs;
	clwpos = clwnum;
	t0 = STRING;
    } else if (t0 == STRING) {
	/* We found a simple string. */
	s = ztrdup(clwords[clwpos]);
    } else if (t0 == ENVSTRING) {
	char sav;
	/* The cursor was inside a parameter assignment. */

	if (varq)
	    tt = clwords[clwpos];

	for (s = tt; iident(*s); s++);
	sav = *s;
	*s = '\0';
	zsfree(varname);
	varname = ztrdup(tt);
	*s = sav;
        if (*s == '+')
            s++;
	if (skipparens(Inbrack, Outbrack, &s) > 0 || s > tt + cs - wb) {
	    s = NULL;
	    inwhat = IN_MATH;
	    if ((keypm = (Param) paramtab->getnode(paramtab, varname)) &&
		(keypm->flags & PM_HASHED))
		insubscr = 2;
	    else
		insubscr = 1;
	} else if (*s == '=' && cs > wb + (s - tt)) {
	    s++;
	    wb += s - tt;
	    t0 = STRING;
	    s = ztrdup(s);
	    inwhat = IN_ENV;
	}
	lincmd = 1;
    }
    if (we > ll)
	we = ll;
    tt = (char *)line;
    if (tmp) {
	line = (unsigned char *)tmp;
	ll = strlen((char *)line);
    }
    if (t0 != STRING && inwhat != IN_MATH) {
	if (tmp) {
	    tmp = NULL;
	    linptr = (char *)line;
	    lexrestore();
	    addedx = 0;
	    goto start;
	}
	noaliases = ona;
	lexrestore();
	return NULL;
    }

    noaliases = ona;

    /* Check if we are in an array subscript.  We simply assume that  *
     * we are in a subscript if we are in brackets.  Correct solution *
     * is very difficult.  This is quite close, but gets things like  *
     * foo[_ wrong (note no $).  If we are in a subscript, treat it   *
     * as being in math.                                              */
    if (inwhat != IN_MATH) {
	int i = 0;
	char *nnb = (iident(*s) ? s : s + 1), *nb = NULL, *ne = NULL;
	
	for (tt = s; ++tt < s + cs - wb;)
	    if (*tt == Inbrack) {
		i++;
		nb = nnb;
		ne = tt;
	    } else if (i && *tt == Outbrack)
		i--;
	    else if (!iident(*tt))
		nnb = tt + 1;
	if (i) {
	    inwhat = IN_MATH;
	    insubscr = 1;
	    if (nb < ne) {
		char sav = *ne;
		*ne = '\0';
		zsfree(varname);
		varname = ztrdup(nb);
		*ne = sav;
		if ((keypm = (Param) paramtab->getnode(paramtab, varname)) &&
		    (keypm->flags & PM_HASHED))
		    insubscr = 2;
	    }
	}
    }
    if (inwhat == IN_MATH) {
	if (compfunc || insubscr == 2) {
	    int lev;
	    char *p;

	    for (wb = cs - 1, lev = 0; wb > 0; wb--)
		if (line[wb] == ']' || line[wb] == ')')
		    lev++;
		else if (line[wb] == '[') {
		    if (!lev--)
			break;
		} else if (line[wb] == '(') {
		    if (!lev && line[wb - 1] == '(')
			break;
		    if (lev)
			lev--;
		}
	    p = (char *) line + wb;
	    wb++;
	    if (wb && (*p == '[' || *p == '(') &&
		!skipparens(*p, (*p == '[' ? ']' : ')'), &p)) {
		we = (p - (char *) line) - 1;
		if (insubscr == 2)
		    insubscr = 3;
	    }
	} else {
	    /* In mathematical expression, we complete parameter names  *
	     * (even if they don't have a `$' in front of them).  So we *
	     * have to find that name.                                  */
	    for (we = cs; iident(line[we]); we++);
	    for (wb = cs; --wb >= 0 && iident(line[wb]););
	    wb++;
	}
	zsfree(s);
	s = zalloc(we - wb + 1);
	strncpy(s, (char *) line + wb, we - wb);
	s[we - wb] = '\0';
	if (wb > 2 && line[wb - 1] == '[' && iident(line[wb - 2])) {
	    int i = wb - 3;
	    unsigned char sav = line[wb - 1];

	    while (i >= 0 && iident(line[i]))
		i--;

	    line[wb - 1] = '\0';
	    zsfree(varname);
	    varname = ztrdup((char *) line + i + 1);
	    line[wb - 1] = sav;
	    if ((keypm = (Param) paramtab->getnode(paramtab, varname)) &&
		(keypm->flags & PM_HASHED)) {
		if (insubscr != 3)
		    insubscr = 2;
	    } else
		insubscr = 1;
	}
	parse_subst_string(s);
    }
    /* This variable will hold the current word in quoted form. */
    qword = ztrdup(s);
    offs = cs - wb;
    if ((p = parambeg(s))) {
	for (p = s; *p; p++)
	    if (*p == Dnull)
		*p = '"';
	    else if (*p == Snull)
		*p = '\'';
    } else {
        int level = 0;

        for (p = s; *p; p++) {
            if (level && *p == Snull)
                *p = '\'';
            else if (level && *p == Dnull)
                *p = '"';
            else if ((*p == String || *p == Qstring) && p[1] == Inbrace)
                level++;
            else if (*p == Outbrace)
                level--;
        }
    }
    if ((*s == Snull || *s == Dnull) && !has_real_token(s + 1)) {
	char *q = (*s == Snull ? "'" : "\""), *n = tricat(qipre, q, "");
	int sl = strlen(s);

	instring = (*s == Snull ? 1 : 2);
	zsfree(qipre);
	qipre = n;
	if (sl > 1 && s[sl - 1] == *s) {
	    n = tricat(q, qisuf, "");
	    zsfree(qisuf);
	    qisuf = n;
	}
	autoq = ztrdup(q);
    }
    /* While building the quoted form, we also clean up the command line. */
    for (p = s, tt = qword, i = wb, j = 0; *p; p++, tt++, i++)
	if (INULL(*p)) {
	    if (i < cs)
		offs--;
	    if (*p == Snull && isset(RCQUOTES))
		j = 1-j;
	    if (p[1] || *p != Bnull) {
		if (*p == Bnull) {
		    *tt = '\\';
		    if (cs == i + 1)
			cs++, offs++;
		} else {
		    ocs = cs;
		    cs = i;
		    foredel(1);
		    chuck(tt--);
		    if ((cs = ocs) > i--)
			cs--;
		    we--;
		}
	    } else {
		ocs = cs;
		*tt = '\0';
		cs = we;
		backdel(1);
		if (ocs == we)
		    cs = we - 1;
		else
		    cs = ocs;
		we--;
	    }
	    chuck(p--);
	} else if (j && *p == '\'' && i < cs)
	    offs--;

    zsfree(origword);
    origword = ztrdup(s);

    if (!isset(IGNOREBRACES)) {
	/* Try and deal with foo{xxx etc. */
	char *curs = s + (isset(COMPLETEINWORD) ? offs : strlen(s));
	char *predup = dupstring(s), *dp = predup;
	char *bbeg = NULL, *bend = NULL, *dbeg = NULL;
	char *lastp = NULL, *firsts = NULL;
	int cant = 0, begi = 0, boffs = offs, hascom = 0;

	for (i = 0, p = s; *p; p++, dp++, i++) {
	    /* careful, ${... is not a brace expansion...
	     * we try to get braces after a parameter expansion right,
	     * but this may fail sometimes. sorry.
	     */
	    if (*p == String || *p == Qstring) {
		if (p[1] == Inbrace || p[1] == Inpar || p[1] == Inbrack) {
		    char *tp = p + 1;

		    if (skipparens(*tp, (*tp == Inbrace ? Outbrace :
					 (*tp == Inpar ? Outpar : Outbrack)),
				   &tp)) {
			tt = NULL;
			break;
		    }
		    i += tp - p;
		    dp += tp - p;
		    p = tp;
		} else {
		    char *tp = p + 1;

		    for (; *tp == '^' || *tp == Hat ||
			     *tp == '=' || *tp == Equals ||
			     *tp == '~' || *tp == Tilde ||
			     *tp == '#' || *tp == Pound || *tp == '+';
			 tp++);
		    if (*tp == Quest || *tp == Star || *tp == String ||
			*tp == Qstring || *tp == '?' || *tp == '*' ||
			*tp == '$' || *tp == '-' || *tp == '!' ||
			*tp == '@')
			p++, i++;
		    else {
			if (idigit(*tp))
			    while (idigit(*tp))
				tp++;
			else if (iident(*tp))
			    while (iident(*tp))
				tp++;
			else {
			    tt = NULL;
			    break;
			}
			if (*tp == Inbrace) {
			    cant = 1;
			    break;
			}
			tp--;
			i += tp - p;
			dp += tp - p;
			p = tp;
		    }
		}
	    } else if (p < curs) {
		if (*p == Outbrace) {
		    cant = 1;
		    break;
		}
		if (*p == Inbrace) {
		    char *tp = p;

		    if (!skipparens(Inbrace, Outbrace, &tp)) {
			i += tp - p - 1;
			dp += tp - p - 1;
			p = tp - 1;
			continue;
		    }
		    if (bbeg) {
			Brinfo new;
			int len = bend - bbeg;

			new = (Brinfo) zalloc(sizeof(*new));
			nbrbeg++;

			new->next = NULL;
			if (lastbrbeg)
			    lastbrbeg->next = new;
			else
			    brbeg = new;
			lastbrbeg = new;

			new->next = NULL;
			new->str = dupstrpfx(bbeg, len);
			new->str = ztrdup(bslashquote(new->str, NULL, instring));
			untokenize(new->str);
			new->pos = begi;
			*dbeg = '\0';
			new->qpos = strlen(bslashquote(predup, NULL, instring));
			*dbeg = '{';
			i -= len;
			boffs -= len;
			strcpy(dbeg, dbeg + len);
			dp -= len;
		    }
		    bbeg = lastp = p;
		    dbeg = dp;
		    bend = p + 1;
		    begi = i;
		} else if (*p == Comma && bbeg) {
		    bend = p + 1;
		    hascom = 1;
		}
	    } else {
		if (*p == Inbrace) {
		    char *tp = p;

		    if (!skipparens(Inbrace, Outbrace, &tp)) {
			i += tp - p - 1;
			dp += tp - p - 1;
			p = tp - 1;
			continue;
		    }
		    cant = 1;
		    break;
		}
		if (p == curs) {
		    if (bbeg) {
			Brinfo new;
			int len = bend - bbeg;

			new = (Brinfo) zalloc(sizeof(*new));
			nbrbeg++;

			new->next = NULL;
			if (lastbrbeg)
			    lastbrbeg->next = new;
			else
			    brbeg = new;
			lastbrbeg = new;

			new->str = dupstrpfx(bbeg, len);
			new->str = ztrdup(bslashquote(new->str, NULL, instring));
			untokenize(new->str);
			new->pos = begi;
			*dbeg = '\0';
			new->qpos = strlen(bslashquote(predup, NULL, instring));
			*dbeg = '{';
			i -= len;
			boffs -= len;
			strcpy(dbeg, dbeg + len);
			dp -= len;
		    }
		    bbeg = NULL;
		}
		if (*p == Comma) {
		    if (!bbeg)
			bbeg = p;
		    hascom = 2;
		} else if (*p == Outbrace) {
		    Brinfo new;
		    int len;

		    if (!bbeg)
			bbeg = p;
		    len = p + 1 - bbeg;
		    if (!firsts)
			firsts = p + 1;

		    new = (Brinfo) zalloc(sizeof(*new));
		    nbrend++;

		    if (!lastbrend)
			lastbrend = new;

		    new->next = brend;
		    brend = new;

		    new->str = dupstrpfx(bbeg, len);
		    new->str = ztrdup(bslashquote(new->str, NULL, instring));
		    untokenize(new->str);
		    new->pos = dp - predup - len + 1;
		    new->qpos = len;
		    bbeg = NULL;
		}
	    }
	}
	if (cant) {
	    freebrinfo(brbeg);
	    freebrinfo(brend);
	    brbeg = lastbrbeg = brend = lastbrend = NULL;
	    nbrbeg = nbrend = 0;
	} else {
	    if (p == curs && bbeg) {
		Brinfo new;
		int len = bend - bbeg;

		new = (Brinfo) zalloc(sizeof(*new));
		nbrbeg++;

		new->next = NULL;
		if (lastbrbeg)
		    lastbrbeg->next = new;
		else
		    brbeg = new;
		lastbrbeg = new;

		new->str = dupstrpfx(bbeg, len);
		new->str = ztrdup(bslashquote(new->str, NULL, instring));
		untokenize(new->str);
		new->pos = begi;
		*dbeg = '\0';
		new->qpos = strlen(bslashquote(predup, NULL, instring));
		*dbeg = '{';
		boffs -= len;
		strcpy(dbeg, dbeg + len);
	    }
	    if (brend) {
		Brinfo bp, prev = NULL;
		int p, l;

		for (bp = brend; bp; bp = bp->next) {
		    bp->prev = prev;
		    prev = bp;
		    p = bp->pos;
		    l = bp->qpos;
		    bp->pos = strlen(predup + p + l);
		    bp->qpos = strlen(bslashquote(predup + p + l, NULL, instring));
		    strcpy(predup + p, predup + p + l);
		}
	    }
	    if (hascom) {
		if (lastp) {
		    char sav = *lastp;

		    *lastp = '\0';
		    untokenize(lastprebr = ztrdup(s));
		    *lastp = sav;
		}
		if ((lastpostbr = ztrdup(firsts)))
		    untokenize(lastpostbr);
	    }
	    zsfree(s);
	    s = ztrdup(predup);
	    offs = boffs;
	}
    }
    lexrestore();

    return (char *)s;
}

/* Insert the given string into the command line.  If move is non-zero, *
 * the cursor position is changed and len is the length of the string   *
 * to insert (if it is -1, the length is calculated here).              *
 * The last argument says if we should quote the string.                */

/**/
mod_export int
inststrlen(char *str, int move, int len)
{
    if (!len || !str)
	return 0;
    if (len == -1)
	len = strlen(str);
    spaceinline(len);
    strncpy((char *)(line + cs), str, len);
    if (move)
	cs += len;
    return len;
}

/* Expand the current word. */

/**/
static int
doexpansion(char *s, int lst, int olst, int explincmd)
{
    int ret = 1, first = 1;
    LinkList vl;
    char *ss, *ts;

    pushheap();
    vl = newlinklist();
    ss = dupstring(s);
    /* get_comp_string() leaves these quotes unchanged when they are
     * inside parameter expansions. */
    for (ts = ss; *ts; ts++)
        if (*ts == '"')
            *ts = Dnull;
        else if (*ts == '\'')
            *ts = Snull;
    addlinknode(vl, ss);
    prefork(vl, 0);
    if (errflag)
	goto end;
    if (lst == COMP_LIST_EXPAND || lst == COMP_EXPAND) {
	int ng = opts[NULLGLOB];

	opts[NULLGLOB] = 1;
	globlist(vl, 1);
	opts[NULLGLOB] = ng;
    }
    if (errflag)
	goto end;
    if (empty(vl) || !*(char *)peekfirst(vl))
	goto end;
    if (peekfirst(vl) == (void *) ss ||
	(olst == COMP_EXPAND_COMPLETE &&
	 !nextnode(firstnode(vl)) && *s == Tilde &&
	 (ss = dupstring(s), filesubstr(&ss, 0)) &&
	 !strcmp(ss, (char *)peekfirst(vl)))) {
	/* If expansion didn't change the word, try completion if *
	 * expandorcomplete was called, otherwise, just beep.     */
	if (lst == COMP_EXPAND_COMPLETE)
	    docompletion(s, COMP_COMPLETE, explincmd);
	goto end;
    }
    if (lst == COMP_LIST_EXPAND) {
	/* Only the list of expansions was requested. Restore the 
         * command line. */
        cs = 0;
        foredel(ll);
        spaceinline(origll);
        memcpy(line, origline, origll);
        cs = origcs;
        ret = listlist(vl);
        showinglist = 0;
	goto end;
    }
    /* Remove the current word and put the expansions there. */
    cs = wb;
    foredel(we - wb);
    while ((ss = (char *)ugetnode(vl))) {
	ret = 0;
	ss = quotename(ss, NULL);
	untokenize(ss);
	inststr(ss);
#if 0
	if (olst != COMP_EXPAND_COMPLETE || nonempty(vl) ||
	    (cs && line[cs-1] != '/')) {
#endif
	if (nonempty(vl) || !first) {
	    spaceinline(1);
	    line[cs++] = ' ';
	}
	first = 0;
    }
    end:
    popheap();

    return ret;
}

/**/
static int
docompletion(char *s, int lst, int incmd)
{
    struct compldat dat;

    dat.s = s;
    dat.lst = lst;
    dat.incmd = incmd;

    return runhookdef(COMPLETEHOOK, (void *) &dat);
}

/* Return the length of the common prefix of s and t. */

/**/
mod_export int
pfxlen(char *s, char *t)
{
    int i = 0;

    while (*s && *s == *t)
	s++, t++, i++;
    return i;
}

/* Return the length of the common suffix of s and t. */

#if 0
static int
sfxlen(char *s, char *t)
{
    if (*s && *t) {
	int i = 0;
	char *s2 = s + strlen(s) - 1, *t2 = t + strlen(t) - 1;

	while (s2 >= s && t2 >= t && *s2 == *t2)
	    s2--, t2--, i++;

	return i;
    } else
	return 0;
}
#endif

/* This is strcmp with ignoring backslashes. */

/**/
mod_export int
strbpcmp(char **aa, char **bb)
{
    char *a = *aa, *b = *bb;

    while (*a && *b) {
	if (*a == '\\')
	    a++;
	if (*b == '\\')
	    b++;
	if (*a != *b)
	    break;
	if (*a)
	    a++;
	if (*b)
	    b++;
    }
    if (isset(NUMERICGLOBSORT) && (idigit(*a) || idigit(*b))) {
	for (; a > *aa && idigit(a[-1]); a--, b--);
	if (idigit(*a) && idigit(*b)) {
	    while (*a == '0')
		a++;
	    while (*b == '0')
		b++;
	    for (; idigit(*a) && *a == *b; a++, b++);
	    if (idigit(*a) || idigit(*b)) {
		int cmp = (int) STOUC(*a) - (int) STOUC(*b);

		while (idigit(*a) && idigit(*b))
		    a++, b++;
		if (idigit(*a) && !idigit(*b))
		    return 1;
		if (idigit(*b) && !idigit(*a))
		    return -1;

		return cmp;
	    }
	}
    }
    return (int)(*a - *b);
}

/* This is used to print the strings (e.g. explanations). *
 * It returns the number of lines printed.       */

/**/
mod_export int
printfmt(char *fmt, int n, int dopr, int doesc)
{
    char *p = fmt, nc[DIGBUFSIZE];
    int l = 0, cc = 0, b = 0, s = 0, u = 0, m;

    for (; *p; p++) {
	/* Handle the `%' stuff (%% == %, %n == <number of matches>). */
	if (doesc && *p == '%') {
	    if (*++p) {
		m = 0;
		switch (*p) {
		case '%':
		    if (dopr)
			putc('%', shout);
		    cc++;
		    break;
		case 'n':
		    sprintf(nc, "%d", n);
		    if (dopr)
			fprintf(shout, nc);
		    cc += strlen(nc);
		    break;
		case 'B':
		    b = 1;
		    if (dopr)
			tcout(TCBOLDFACEBEG);
		    break;
		case 'b':
		    b = 0; m = 1;
		    if (dopr)
			tcout(TCALLATTRSOFF);
		    break;
		case 'S':
		    s = 1;
		    if (dopr)
			tcout(TCSTANDOUTBEG);
		    break;
		case 's':
		    s = 0; m = 1;
		    if (dopr)
			tcout(TCSTANDOUTEND);
		    break;
		case 'U':
		    u = 1;
		    if (dopr)
			tcout(TCUNDERLINEBEG);
		    break;
		case 'u':
		    u = 0; m = 1;
		    if (dopr)
			tcout(TCUNDERLINEEND);
		    break;
		case '{':
		    for (p++; *p && (*p != '%' || p[1] != '}'); p++)
			if (dopr)
			    putc(*p, shout);
		    if (*p)
			p++;
		    else
			p--;
		    break;
		}
		if (dopr && m) {
		    if (b)
			tcout(TCBOLDFACEBEG);
		    if (s)
			tcout(TCSTANDOUTBEG);
		    if (u)
			tcout(TCUNDERLINEBEG);
		}
	    } else
		break;
	} else {
	    cc++;
	    if (*p == '\n') {
		if (dopr) {
		    if (tccan(TCCLEAREOL))
			tcout(TCCLEAREOL);
		    else {
			int s = columns - 1 - (cc % columns);

			while (s-- > 0)
			    putc(' ', shout);
		    }
		}
		l += 1 + ((cc - 1) / columns);
		cc = 0;
	    }
	    if (dopr) {
		putc(*p, shout);
                if (!(cc % columns))
                    fputs(" \010", shout);
            }
	}
    }
    if (dopr) {
        if (!(cc % columns))
            fputs(" \010", shout);
	if (tccan(TCCLEAREOL))
	    tcout(TCCLEAREOL);
	else {
	    int s = columns - 1 - (cc % columns);

	    while (s-- > 0)
		putc(' ', shout);
	}
    }
    return l + (cc / columns);
}

/* This is used to print expansions. */

/**/
int
listlist(LinkList l)
{
    int num = countlinknodes(l);
    VARARR(char *, data, (num + 1));
    LinkNode node;
    char **p;
    VARARR(int, lens, num);
    VARARR(int, widths, columns);
    int longest = 0, shortest = columns, totl = 0;
    int len, ncols, nlines, tolast, col, i, max, pack = 0, *lenp;

    for (node = firstnode(l), p = data; node; incnode(node), p++)
	*p = (char *) getdata(node);
    *p = NULL;

    qsort((void *) data, num, sizeof(char *),
	  (int (*) _((const void *, const void *))) strbpcmp);

    for (p = data, lenp = lens; *p; p++, lenp++) {
	len = *lenp = niceztrlen(*p) + 2;
	if (len > longest)
	    longest = len;
	if (len < shortest)
	    shortest = len;
	totl += len;
    }
    if ((ncols = ((columns + 2) / longest))) {
	int tlines = 0, tline, tcols = 0, maxlen, nth, width;

	nlines = (num + ncols - 1) / ncols;

	if (isset(LISTPACKED)) {
	    if (isset(LISTROWSFIRST)) {
		int count, tcol, first, maxlines = 0, llines;

		for (tcols = columns / shortest; tcols > ncols;
		     tcols--) {
		    for (nth = first = maxlen = width = maxlines =
			     llines = tcol = 0,
			     count = num;
			 count > 0; count--) {
			if (!(nth % tcols))
			    llines++;
			if (lens[nth] > maxlen)
			    maxlen = lens[nth];
			nth += tcols;
			tlines++;
			if (nth >= num) {
			    if ((width += maxlen) >= columns)
				break;
			    widths[tcol++] = maxlen;
			    maxlen = 0;
			    nth = ++first;
			    if (llines > maxlines)
				maxlines = llines;
			    llines = 0;
			}
		    }
		    if (nth < num) {
			widths[tcol++] = maxlen;
			width += maxlen;
		    }
		    if (!count && width < columns)
			break;
		}
		if (tcols > ncols)
		    tlines = maxlines;
	    } else {
		for (tlines = ((totl + columns) / columns);
		     tlines < nlines; tlines++) {
		    for (p = data, nth = tline = width =
			     maxlen = tcols = 0;
			 *p; nth++, p++) {
			if (lens[nth] > maxlen)
			    maxlen = lens[nth];
			if (++tline == tlines) {
			    if ((width += maxlen) >= columns)
				break;
			    widths[tcols++] = maxlen;
			    maxlen = tline = 0;
			}
		    }
		    if (tline) {
			widths[tcols++] = maxlen;
			width += maxlen;
		    }
		    if (nth == num && width < columns)
			break;
		}
	    }
	    if ((pack = (tlines < nlines))) {
		nlines = tlines;
		ncols = tcols;
	    }
	}
    } else {
	nlines = 0;
	for (p = data; *p; p++)
	    nlines += 1 + (strlen(*p) / columns);
    }
    /* Set the cursor below the prompt. */
    trashzle();

    tolast = ((zmult == 1) == !!isset(ALWAYSLASTPROMPT));
    clearflag = (isset(USEZLE) && !termflags && tolast);

    max = getiparam("LISTMAX");
    if ((max && num > max) || (!max && nlines > lines)) {
	int qup, l;

	zsetterm();
	l = (num > 0 ?
	     fprintf(shout, "zsh: do you wish to see all %d possibilities (%d lines)? ",
		     num, nlines) :
	     fprintf(shout, "zsh: do you wish to see all %d lines? ", nlines));
	qup = ((l + columns - 1) / columns) - 1;
	fflush(shout);
	if (getzlequery(1) != 'y') {
	    if (clearflag) {
		putc('\r', shout);
		tcmultout(TCUP, TCMULTUP, qup);
		if (tccan(TCCLEAREOD))
		    tcout(TCCLEAREOD);
		tcmultout(TCUP, TCMULTUP, nlnct);
	    } else
		putc('\n', shout);
	    return 1;
	}
	if (clearflag) {
	    putc('\r', shout);
	    tcmultout(TCUP, TCMULTUP, qup);
	    if (tccan(TCCLEAREOD))
		tcout(TCCLEAREOD);
	} else
	    putc('\n', shout);
	settyinfo(&shttyinfo);
    }
    lastlistlen = (clearflag ? nlines : 0);

    if (ncols) {
	if (isset(LISTROWSFIRST)) {
	    for (col = 1, p = data, lenp = lens; *p;
		 p++, lenp++, col++) {
		nicezputs(*p, shout);
		if (col == ncols) {
		    col = 0;
		    if (p[1])
			putc('\n', shout);
		} else {
		    if ((i = (pack ? widths[col - 1] : longest) - *lenp + 2) > 0)
			while (i--)
			    putc(' ', shout);
		}
	    }
	} else {
	    char **f;
	    int *fl, line;

	    for (f = data, fl = lens, line = 0; line < nlines;
		 f++, fl++, line++) {
		for (col = 1, p = f, lenp = fl; *p; col++) {
		    nicezputs(*p, shout);
		    if (col == ncols)
			break;
		    if ((i = (pack ? widths[col - 1] : longest) - *lenp + 2) > 0)
			while (i--)
			    putc(' ', shout);
		    for (i = nlines; i && *p; i--, p++, lenp++);
		}
		if (line + 1 < nlines)
		    putc('\n', shout);
	    }
	}
    } else {
	for (p = data; *p; p++) {
	    nicezputs(*p, shout);
	    putc('\n', shout);
	}
    }
    if (clearflag) {
	if ((nlines += nlnct - 1) < lines) {
	    tcmultout(TCUP, TCMULTUP, nlines);
	    showinglist = -1;
	} else
	    clearflag = 0, putc('\n', shout);
    } else
	putc('\n', shout);

    if (listshown)
	showagain = 1;

    return !num;
}

/* Expand the history references. */

/**/
int
doexpandhist(void)
{
    unsigned char *ol;
    int oll, ocs, ne = noerrs, err, ona = noaliases;

    pushheap();
    metafy_line();
    oll = ll;
    ocs = cs;
    ol = (unsigned char *)dupstring((char *)line);
    expanding = 1;
    excs = cs;
    ll = cs = 0;
    lexsave();
    /* We push ol as it will remain unchanged */
    inpush((char *) ol, 0, NULL);
    strinbeg(1);
    noaliases = 1;
    noerrs = 1;
    exlast = inbufct;
    do {
	ctxtlex();
    } while (tok != ENDINPUT && tok != LEXERR);
    while (!lexstop)
	hgetc();
    /* We have to save errflags because it's reset in lexrestore. Since  *
     * noerrs was set to 1 errflag is true if there was a habort() which *
     * means that the expanded string is unusable.                       */
    err = errflag;
    noerrs = ne;
    noaliases = ona;
    strinend();
    inpop();
    zleparse = 0;
    lexrestore();
    expanding = 0;

    if (!err) {
	cs = excs;
	if (strcmp((char *)line, (char *)ol)) {
	    unmetafy_line();
	    /* For vi mode -- reset the beginning-of-insertion pointer   *
	     * to the beginning of the line.  This seems a little silly, *
	     * if we are, for example, expanding "exec !!".              */
	    if (viinsbegin > findbol())
		viinsbegin = findbol();
	    popheap();
	    return 1;
	}
    }

    strcpy((char *)line, (char *)ol);
    ll = oll;
    cs = ocs;
    unmetafy_line();

    popheap();

    return 0;
}

/**/
int
magicspace(char **args)
{
    char *bangq;
    int ret;
    c = ' ';
    for (bangq = (char *)line; (bangq = strchr(bangq, bangchar)); bangq += 2)
	if (bangq[1] == '"' && (bangq == (char *)line || bangq[-1] != '\\'))
	    break;
    if (!(ret = selfinsert(args)) && (!bangq || bangq + 2 > (char *)line + cs))
	doexpandhist();
    return ret;
}

/**/
int
expandhistory(char **args)
{
    if (!doexpandhist())
	return 1;
    return 0;
}

static int cmdwb, cmdwe;

/**/
static char *
getcurcmd(void)
{
    int curlincmd;
    char *s = NULL;

    zleparse = 2;
    lexsave();
    metafy_line();
    inpush(dupstrspace((char *) line), 0, NULL);
    unmetafy_line();
    strinbeg(1);
    pushheap();
    do {
	curlincmd = incmdpos;
	ctxtlex();
	if (tok == ENDINPUT || tok == LEXERR)
	    break;
	if (tok == STRING && curlincmd) {
	    zsfree(s);
	    s = ztrdup(tokstr);
	    cmdwb = ll - wordbeg;
	    cmdwe = ll + 1 - inbufct;
	}
    }
    while (tok != ENDINPUT && tok != LEXERR && zleparse);
    popheap();
    strinend();
    inpop();
    errflag = zleparse = 0;
    lexrestore();

    return s;
}

/**/
int
processcmd(char **args)
{
    char *s;
    int m = zmult;

    s = getcurcmd();
    if (!s)
	return 1;
    zmult = 1;
    pushline(zlenoargs);
    zmult = m;
    inststr(bindk->nam);
    inststr(" ");
    untokenize(s);

    inststr(quotename(s, NULL));

    zsfree(s);
    done = 1;
    return 0;
}

/**/
int
expandcmdpath(char **args)
{
    int oldcs = cs, na = noaliases;
    char *s, *str;

    noaliases = 1;
    s = getcurcmd();
    noaliases = na;
    if (!s || cmdwb < 0 || cmdwe < cmdwb)
	return 1;
    str = findcmd(s, 1);
    zsfree(s);
    if (!str)
	return 1;
    cs = cmdwb;
    foredel(cmdwe - cmdwb);
    spaceinline(strlen(str));
    strncpy((char *)line + cs, str, strlen(str));
    cs = oldcs;
    if (cs >= cmdwe - 1)
	cs += cmdwe - cmdwb + strlen(str);
    if (cs > ll)
	cs = ll;
    return 0;
}

/* Extra function added by AR Iano-Fletcher. */
/* This is a expand/complete in the vein of wash. */

/**/
int
expandorcompleteprefix(char **args)
{
    int ret;

    comppref = 1;
    ret = expandorcomplete(args);
    if (cs && line[cs - 1] == ' ')
        makesuffixstr(NULL, "\\-", 0);
    comppref = 0;
    return ret;
}

/**/
int
endoflist(char **args)
{
    if (lastlistlen > 0) {
	int i;

	clearflag = 0;
	trashzle();

	for (i = lastlistlen; i > 0; i--)
	    putc('\n', shout);

	showinglist = lastlistlen = 0;

	if (sfcontext)
	    zrefresh();

	return 0;
    }
    return 1;
}