bin/csh/parse.c

1.1  cgd /*-
1.1  cgd  * Copyright (c) 1980, 1991 The Regents of the University of California.
1.1  cgd  * All rights reserved.
1.1  cgd  *
1.1  cgd  * Redistribution and use in source and binary forms, with or without
1.1  cgd  * modification, are permitted provided that the following conditions
1.1  cgd  * are met:
1.1  cgd  * 1. Redistributions of source code must retain the above copyright
1.1  cgd  *    notice, this list of conditions and the following disclaimer.
1.1  cgd  * 2. Redistributions in binary form must reproduce the above copyright
1.1  cgd  *    notice, this list of conditions and the following disclaimer in the
1.1  cgd  *    documentation and/or other materials provided with the distribution.
1.1  cgd  * 3. All advertising materials mentioning features or use of this software
1.1  cgd  *    must display the following acknowledgement:
1.1  cgd  *	This product includes software developed by the University of
1.1  cgd  *	California, Berkeley and its contributors.
1.1  cgd  * 4. Neither the name of the University nor the names of its contributors
1.1  cgd  *    may be used to endorse or promote products derived from this software
1.1  cgd  *    without specific prior written permission.
1.1  cgd  *
1.1  cgd  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
1.1  cgd  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1  cgd  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1  cgd  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
1.1  cgd  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1  cgd  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1  cgd  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  cgd  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1  cgd  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1  cgd  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1  cgd  * SUCH DAMAGE.
1.1  cgd  */
1.1  cgd
1.1  cgd #ifndef lint
1.1  cgd static char sccsid[] = "@(#)parse.c	5.11 (Berkeley) 6/8/91";
1.1  cgd #endif /* not lint */
1.1  cgd
1.1  cgd #include <sys/types.h>
1.1  cgd #include <stdlib.h>
1.1  cgd #include <string.h>
1.1  cgd #if __STDC__
1.1  cgd # include <stdarg.h>
1.1  cgd #else
1.1  cgd # include <varargs.h>
1.1  cgd #endif
1.1  cgd
1.1  cgd #include "csh.h"
1.1  cgd #include "extern.h"
1.1  cgd
1.1  cgd static void	 asyntax __P((struct wordent *, struct wordent *));
1.1  cgd static void	 asyn0 __P((struct wordent *, struct wordent *));
1.1  cgd static void	 asyn3 __P((struct wordent *, struct wordent *));
1.1  cgd static struct wordent
1.1  cgd 		*freenod __P((struct wordent *, struct wordent *));
1.1  cgd static struct command
1.1  cgd 		*syn0 __P((struct wordent *, struct wordent *, int));
1.1  cgd static struct command
1.1  cgd 		*syn1 __P((struct wordent *, struct wordent *, int));
1.1  cgd static struct command
1.1  cgd 		*syn1a __P((struct wordent *, struct wordent *, int));
1.1  cgd static struct command
1.1  cgd 		*syn1b __P((struct wordent *, struct wordent *, int));
1.1  cgd static struct command
1.1  cgd 		*syn2 __P((struct wordent *, struct wordent *, int));
1.1  cgd static struct command
1.1  cgd 		*syn3 __P((struct wordent *, struct wordent *, int));
1.1  cgd
1.1  cgd #define ALEFT	21		/* max of 20 alias expansions	 */
1.1  cgd #define HLEFT	11		/* max of 10 history expansions	 */
1.1  cgd /*
1.1  cgd  * Perform aliasing on the word list lex
1.1  cgd  * Do a (very rudimentary) parse to separate into commands.
1.1  cgd  * If word 0 of a command has an alias, do it.
1.1  cgd  * Repeat a maximum of 20 times.
1.1  cgd  */
1.1  cgd static int aleft;
1.1  cgd extern int hleft;
1.1  cgd void
1.1  cgd alias(lex)
1.1  cgd     register struct wordent *lex;
1.1  cgd {
1.1  cgd     jmp_buf osetexit;
1.1  cgd
1.1  cgd     aleft = ALEFT;
1.1  cgd     hleft = HLEFT;
1.1  cgd     getexit(osetexit);
1.1  cgd     (void) setexit();
1.1  cgd     if (haderr) {
1.1  cgd 	resexit(osetexit);
1.1  cgd 	reset();
1.1  cgd     }
1.1  cgd     if (--aleft == 0)
1.1  cgd 	stderror(ERR_ALIASLOOP);
1.1  cgd     asyntax(lex->next, lex);
1.1  cgd     resexit(osetexit);
1.1  cgd }
1.1  cgd
1.1  cgd static void
1.1  cgd asyntax(p1, p2)
1.1  cgd     register struct wordent *p1, *p2;
1.1  cgd {
1.1  cgd     while (p1 != p2)
1.1  cgd 	if (any(";&\n", p1->word[0]))
1.1  cgd 	    p1 = p1->next;
1.1  cgd 	else {
1.1  cgd 	    asyn0(p1, p2);
1.1  cgd 	    return;
1.1  cgd 	}
1.1  cgd }
1.1  cgd
1.1  cgd static void
1.1  cgd asyn0(p1, p2)
1.1  cgd     struct wordent *p1;
1.1  cgd     register struct wordent *p2;
1.1  cgd {
1.1  cgd     register struct wordent *p;
1.1  cgd     register int l = 0;
1.1  cgd
1.1  cgd     for (p = p1; p != p2; p = p->next)
1.1  cgd 	switch (p->word[0]) {
1.1  cgd
1.1  cgd 	case '(':
1.1  cgd 	    l++;
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case ')':
1.1  cgd 	    l--;
1.1  cgd 	    if (l < 0)
1.1  cgd 		stderror(ERR_TOOMANYRP);
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case '>':
1.1  cgd 	    if (p->next != p2 && eq(p->next->word, STRand))
1.1  cgd 		p = p->next;
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case '&':
1.1  cgd 	case '|':
1.1  cgd 	case ';':
1.1  cgd 	case '\n':
1.1  cgd 	    if (l != 0)
1.1  cgd 		continue;
1.1  cgd 	    asyn3(p1, p);
1.1  cgd 	    asyntax(p->next, p2);
1.1  cgd 	    return;
1.1  cgd 	}
1.1  cgd     if (l == 0)
1.1  cgd 	asyn3(p1, p2);
1.1  cgd }
1.1  cgd
1.1  cgd static void
1.1  cgd asyn3(p1, p2)
1.1  cgd     struct wordent *p1;
1.1  cgd     register struct wordent *p2;
1.1  cgd {
1.1  cgd     register struct varent *ap;
1.1  cgd     struct wordent alout;
1.1  cgd     register bool redid;
1.1  cgd
1.1  cgd     if (p1 == p2)
1.1  cgd 	return;
1.1  cgd     if (p1->word[0] == '(') {
1.1  cgd 	for (p2 = p2->prev; p2->word[0] != ')'; p2 = p2->prev)
1.1  cgd 	    if (p2 == p1)
1.1  cgd 		return;
1.1  cgd 	if (p2 == p1->next)
1.1  cgd 	    return;
1.1  cgd 	asyn0(p1->next, p2);
1.1  cgd 	return;
1.1  cgd     }
1.1  cgd     ap = adrof1(p1->word, &aliases);
1.1  cgd     if (ap == 0)
1.1  cgd 	return;
1.1  cgd     alhistp = p1->prev;
1.1  cgd     alhistt = p2;
1.1  cgd     alvec = ap->vec;
1.1  cgd     redid = lex(&alout);
1.1  cgd     alhistp = alhistt = 0;
1.1  cgd     alvec = 0;
1.1  cgd     if (seterr) {
1.1  cgd 	freelex(&alout);
1.1  cgd 	stderror(ERR_OLD);
1.1  cgd     }
1.1  cgd     if (p1->word[0] && eq(p1->word, alout.next->word)) {
1.1  cgd 	Char   *cp = alout.next->word;
1.1  cgd
1.1  cgd 	alout.next->word = Strspl(STRQNULL, cp);
1.1  cgd 	xfree((ptr_t) cp);
1.1  cgd     }
1.1  cgd     p1 = freenod(p1, redid ? p2 : p1->next);
1.1  cgd     if (alout.next != &alout) {
1.1  cgd 	p1->next->prev = alout.prev->prev;
1.1  cgd 	alout.prev->prev->next = p1->next;
1.1  cgd 	alout.next->prev = p1;
1.1  cgd 	p1->next = alout.next;
1.1  cgd 	xfree((ptr_t) alout.prev->word);
1.1  cgd 	xfree((ptr_t) (alout.prev));
1.1  cgd     }
1.1  cgd     reset();			/* throw! */
1.1  cgd }
1.1  cgd
1.1  cgd static struct wordent *
1.1  cgd freenod(p1, p2)
1.1  cgd     register struct wordent *p1, *p2;
1.1  cgd {
1.1  cgd     register struct wordent *retp = p1->prev;
1.1  cgd
1.1  cgd     while (p1 != p2) {
1.1  cgd 	xfree((ptr_t) p1->word);
1.1  cgd 	p1 = p1->next;
1.1  cgd 	xfree((ptr_t) (p1->prev));
1.1  cgd     }
1.1  cgd     retp->next = p2;
1.1  cgd     p2->prev = retp;
1.1  cgd     return (retp);
1.1  cgd }
1.1  cgd
1.1  cgd #define	PHERE	1
1.1  cgd #define	PIN	2
1.1  cgd #define	POUT	4
1.1  cgd #define	PDIAG	8
1.1  cgd
1.1  cgd /*
1.1  cgd  * syntax
1.1  cgd  *	empty
1.1  cgd  *	syn0
1.1  cgd  */
1.1  cgd struct command *
1.1  cgd syntax(p1, p2, flags)
1.1  cgd     register struct wordent *p1, *p2;
1.1  cgd     int     flags;
1.1  cgd {
1.1  cgd
1.1  cgd     while (p1 != p2)
1.1  cgd 	if (any(";&\n", p1->word[0]))
1.1  cgd 	    p1 = p1->next;
1.1  cgd 	else
1.1  cgd 	    return (syn0(p1, p2, flags));
1.1  cgd     return (0);
1.1  cgd }
1.1  cgd
1.1  cgd /*
1.1  cgd  * syn0
1.1  cgd  *	syn1
1.1  cgd  *	syn1 & syntax
1.1  cgd  */
1.1  cgd static struct command *
1.1  cgd syn0(p1, p2, flags)
1.1  cgd     struct wordent *p1, *p2;
1.1  cgd     int     flags;
1.1  cgd {
1.1  cgd     register struct wordent *p;
1.1  cgd     register struct command *t, *t1;
1.1  cgd     int     l;
1.1  cgd
1.1  cgd     l = 0;
1.1  cgd     for (p = p1; p != p2; p = p->next)
1.1  cgd 	switch (p->word[0]) {
1.1  cgd
1.1  cgd 	case '(':
1.1  cgd 	    l++;
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case ')':
1.1  cgd 	    l--;
1.1  cgd 	    if (l < 0)
1.1  cgd 		seterror(ERR_TOOMANYRP);
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case '|':
1.1  cgd 	    if (p->word[1] == '|')
1.1  cgd 		continue;
1.1  cgd 	    /* fall into ... */
1.1  cgd
1.1  cgd 	case '>':
1.1  cgd 	    if (p->next != p2 && eq(p->next->word, STRand))
1.1  cgd 		p = p->next;
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case '&':
1.1  cgd 	    if (l != 0)
1.1  cgd 		break;
1.1  cgd 	    if (p->word[1] == '&')
1.1  cgd 		continue;
1.1  cgd 	    t1 = syn1(p1, p, flags);
1.1  cgd 	    if (t1->t_dtyp == NODE_LIST ||
1.1  cgd 		t1->t_dtyp == NODE_AND ||
1.1  cgd 		t1->t_dtyp == NODE_OR) {
1.1  cgd 		t = (struct command *) xcalloc(1, sizeof(*t));
1.1  cgd 		t->t_dtyp = NODE_PAREN;
1.1  cgd 		t->t_dflg = F_AMPERSAND | F_NOINTERRUPT;
1.1  cgd 		t->t_dspr = t1;
1.1  cgd 		t1 = t;
1.1  cgd 	    }
1.1  cgd 	    else
1.1  cgd 		t1->t_dflg |= F_AMPERSAND | F_NOINTERRUPT;
1.1  cgd 	    t = (struct command *) xcalloc(1, sizeof(*t));
1.1  cgd 	    t->t_dtyp = NODE_LIST;
1.1  cgd 	    t->t_dflg = 0;
1.1  cgd 	    t->t_dcar = t1;
1.1  cgd 	    t->t_dcdr = syntax(p, p2, flags);
1.1  cgd 	    return (t);
1.1  cgd 	}
1.1  cgd     if (l == 0)
1.1  cgd 	return (syn1(p1, p2, flags));
1.1  cgd     seterror(ERR_TOOMANYLP);
1.1  cgd     return (0);
1.1  cgd }
1.1  cgd
1.1  cgd /*
1.1  cgd  * syn1
1.1  cgd  *	syn1a
1.1  cgd  *	syn1a ; syntax
1.1  cgd  */
1.1  cgd static struct command *
1.1  cgd syn1(p1, p2, flags)
1.1  cgd     struct wordent *p1, *p2;
1.1  cgd     int     flags;
1.1  cgd {
1.1  cgd     register struct wordent *p;
1.1  cgd     register struct command *t;
1.1  cgd     int     l;
1.1  cgd
1.1  cgd     l = 0;
1.1  cgd     for (p = p1; p != p2; p = p->next)
1.1  cgd 	switch (p->word[0]) {
1.1  cgd
1.1  cgd 	case '(':
1.1  cgd 	    l++;
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case ')':
1.1  cgd 	    l--;
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case ';':
1.1  cgd 	case '\n':
1.1  cgd 	    if (l != 0)
1.1  cgd 		break;
1.1  cgd 	    t = (struct command *) xcalloc(1, sizeof(*t));
1.1  cgd 	    t->t_dtyp = NODE_LIST;
1.1  cgd 	    t->t_dcar = syn1a(p1, p, flags);
1.1  cgd 	    t->t_dcdr = syntax(p->next, p2, flags);
1.1  cgd 	    if (t->t_dcdr == 0)
1.1  cgd 		t->t_dcdr = t->t_dcar, t->t_dcar = 0;
1.1  cgd 	    return (t);
1.1  cgd 	}
1.1  cgd     return (syn1a(p1, p2, flags));
1.1  cgd }
1.1  cgd
1.1  cgd /*
1.1  cgd  * syn1a
1.1  cgd  *	syn1b
1.1  cgd  *	syn1b || syn1a
1.1  cgd  */
1.1  cgd static struct command *
1.1  cgd syn1a(p1, p2, flags)
1.1  cgd     struct wordent *p1, *p2;
1.1  cgd     int     flags;
1.1  cgd {
1.1  cgd     register struct wordent *p;
1.1  cgd     register struct command *t;
1.1  cgd     register int l = 0;
1.1  cgd
1.1  cgd     for (p = p1; p != p2; p = p->next)
1.1  cgd 	switch (p->word[0]) {
1.1  cgd
1.1  cgd 	case '(':
1.1  cgd 	    l++;
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case ')':
1.1  cgd 	    l--;
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case '|':
1.1  cgd 	    if (p->word[1] != '|')
1.1  cgd 		continue;
1.1  cgd 	    if (l == 0) {
1.1  cgd 		t = (struct command *) xcalloc(1, sizeof(*t));
1.1  cgd 		t->t_dtyp = NODE_OR;
1.1  cgd 		t->t_dcar = syn1b(p1, p, flags);
1.1  cgd 		t->t_dcdr = syn1a(p->next, p2, flags);
1.1  cgd 		t->t_dflg = 0;
1.1  cgd 		return (t);
1.1  cgd 	    }
1.1  cgd 	    continue;
1.1  cgd 	}
1.1  cgd     return (syn1b(p1, p2, flags));
1.1  cgd }
1.1  cgd
1.1  cgd /*
1.1  cgd  * syn1b
1.1  cgd  *	syn2
1.1  cgd  *	syn2 && syn1b
1.1  cgd  */
1.1  cgd static struct command *
1.1  cgd syn1b(p1, p2, flags)
1.1  cgd     struct wordent *p1, *p2;
1.1  cgd     int     flags;
1.1  cgd {
1.1  cgd     register struct wordent *p;
1.1  cgd     register struct command *t;
1.1  cgd     register int l = 0;
1.1  cgd
1.1  cgd     for (p = p1; p != p2; p = p->next)
1.1  cgd 	switch (p->word[0]) {
1.1  cgd
1.1  cgd 	case '(':
1.1  cgd 	    l++;
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case ')':
1.1  cgd 	    l--;
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case '&':
1.1  cgd 	    if (p->word[1] == '&' && l == 0) {
1.1  cgd 		t = (struct command *) xcalloc(1, sizeof(*t));
1.1  cgd 		t->t_dtyp = NODE_AND;
1.1  cgd 		t->t_dcar = syn2(p1, p, flags);
1.1  cgd 		t->t_dcdr = syn1b(p->next, p2, flags);
1.1  cgd 		t->t_dflg = 0;
1.1  cgd 		return (t);
1.1  cgd 	    }
1.1  cgd 	    continue;
1.1  cgd 	}
1.1  cgd     return (syn2(p1, p2, flags));
1.1  cgd }
1.1  cgd
1.1  cgd /*
1.1  cgd  * syn2
1.1  cgd  *	syn3
1.1  cgd  *	syn3 | syn2
1.1  cgd  *	syn3 |& syn2
1.1  cgd  */
1.1  cgd static struct command *
1.1  cgd syn2(p1, p2, flags)
1.1  cgd     struct wordent *p1, *p2;
1.1  cgd     int     flags;
1.1  cgd {
1.1  cgd     register struct wordent *p, *pn;
1.1  cgd     register struct command *t;
1.1  cgd     register int l = 0;
1.1  cgd     int     f;
1.1  cgd
1.1  cgd     for (p = p1; p != p2; p = p->next)
1.1  cgd 	switch (p->word[0]) {
1.1  cgd
1.1  cgd 	case '(':
1.1  cgd 	    l++;
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case ')':
1.1  cgd 	    l--;
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case '|':
1.1  cgd 	    if (l != 0)
1.1  cgd 		continue;
1.1  cgd 	    t = (struct command *) xcalloc(1, sizeof(*t));
1.1  cgd 	    f = flags | POUT;
1.1  cgd 	    pn = p->next;
1.1  cgd 	    if (pn != p2 && pn->word[0] == '&') {
1.1  cgd 		f |= PDIAG;
1.1  cgd 		t->t_dflg |= F_STDERR;
1.1  cgd 	    }
1.1  cgd 	    t->t_dtyp = NODE_PIPE;
1.1  cgd 	    t->t_dcar = syn3(p1, p, f);
1.1  cgd 	    if (pn != p2 && pn->word[0] == '&')
1.1  cgd 		p = pn;
1.1  cgd 	    t->t_dcdr = syn2(p->next, p2, flags | PIN);
1.1  cgd 	    return (t);
1.1  cgd 	}
1.1  cgd     return (syn3(p1, p2, flags));
1.1  cgd }
1.1  cgd
1.1  cgd static char RELPAR[] = {'<', '>', '(', ')', '\0'};
1.1  cgd
1.1  cgd /*
1.1  cgd  * syn3
1.1  cgd  *	( syn0 ) [ < in  ] [ > out ]
1.1  cgd  *	word word* [ < in ] [ > out ]
1.1  cgd  *	KEYWORD ( word* ) word* [ < in ] [ > out ]
1.1  cgd  *
1.1  cgd  *	KEYWORD = (@ exit foreach if set switch test while)
1.1  cgd  */
1.1  cgd static struct command *
1.1  cgd syn3(p1, p2, flags)
1.1  cgd     struct wordent *p1, *p2;
1.1  cgd     int     flags;
1.1  cgd {
1.1  cgd     register struct wordent *p;
1.1  cgd     struct wordent *lp, *rp;
1.1  cgd     register struct command *t;
1.1  cgd     register int l;
1.1  cgd     Char  **av;
1.1  cgd     int     n, c;
1.1  cgd     bool    specp = 0;
1.1  cgd
1.1  cgd     if (p1 != p2) {
1.1  cgd 	p = p1;
1.1  cgd again:
1.1  cgd 	switch (srchx(p->word)) {
1.1  cgd
1.1  cgd 	case T_ELSE:
1.1  cgd 	    p = p->next;
1.1  cgd 	    if (p != p2)
1.1  cgd 		goto again;
1.1  cgd 	    break;
1.1  cgd
1.1  cgd 	case T_EXIT:
1.1  cgd 	case T_FOREACH:
1.1  cgd 	case T_IF:
1.1  cgd 	case T_LET:
1.1  cgd 	case T_SET:
1.1  cgd 	case T_SWITCH:
1.1  cgd 	case T_WHILE:
1.1  cgd 	    specp = 1;
1.1  cgd 	    break;
1.1  cgd 	}
1.1  cgd     }
1.1  cgd     n = 0;
1.1  cgd     l = 0;
1.1  cgd     for (p = p1; p != p2; p = p->next)
1.1  cgd 	switch (p->word[0]) {
1.1  cgd
1.1  cgd 	case '(':
1.1  cgd 	    if (specp)
1.1  cgd 		n++;
1.1  cgd 	    l++;
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case ')':
1.1  cgd 	    if (specp)
1.1  cgd 		n++;
1.1  cgd 	    l--;
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case '>':
1.1  cgd 	case '<':
1.1  cgd 	    if (l != 0) {
1.1  cgd 		if (specp)
1.1  cgd 		    n++;
1.1  cgd 		continue;
1.1  cgd 	    }
1.1  cgd 	    if (p->next == p2)
1.1  cgd 		continue;
1.1  cgd 	    if (any(RELPAR, p->next->word[0]))
1.1  cgd 		continue;
1.1  cgd 	    n--;
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	default:
1.1  cgd 	    if (!specp && l != 0)
1.1  cgd 		continue;
1.1  cgd 	    n++;
1.1  cgd 	    continue;
1.1  cgd 	}
1.1  cgd     if (n < 0)
1.1  cgd 	n = 0;
1.1  cgd     t = (struct command *) xcalloc(1, sizeof(*t));
1.1  cgd     av = (Char **) xcalloc((size_t) (n + 1), sizeof(Char **));
1.1  cgd     t->t_dcom = av;
1.1  cgd     n = 0;
1.1  cgd     if (p2->word[0] == ')')
1.1  cgd 	t->t_dflg = F_NOFORK;
1.1  cgd     lp = 0;
1.1  cgd     rp = 0;
1.1  cgd     l = 0;
1.1  cgd     for (p = p1; p != p2; p = p->next) {
1.1  cgd 	c = p->word[0];
1.1  cgd 	switch (c) {
1.1  cgd
1.1  cgd 	case '(':
1.1  cgd 	    if (l == 0) {
1.1  cgd 		if (lp != 0 && !specp)
1.1  cgd 		    seterror(ERR_BADPLP);
1.1  cgd 		lp = p->next;
1.1  cgd 	    }
1.1  cgd 	    l++;
1.1  cgd 	    goto savep;
1.1  cgd
1.1  cgd 	case ')':
1.1  cgd 	    l--;
1.1  cgd 	    if (l == 0)
1.1  cgd 		rp = p;
1.1  cgd 	    goto savep;
1.1  cgd
1.1  cgd 	case '>':
1.1  cgd 	    if (l != 0)
1.1  cgd 		goto savep;
1.1  cgd 	    if (p->word[1] == '>')
1.1  cgd 		t->t_dflg |= F_APPEND;
1.1  cgd 	    if (p->next != p2 && eq(p->next->word, STRand)) {
1.1  cgd 		t->t_dflg |= F_STDERR, p = p->next;
1.1  cgd 		if (flags & (POUT | PDIAG)) {
1.1  cgd 		    seterror(ERR_OUTRED);
1.1  cgd 		    continue;
1.1  cgd 		}
1.1  cgd 	    }
1.1  cgd 	    if (p->next != p2 && eq(p->next->word, STRbang))
1.1  cgd 		t->t_dflg |= F_OVERWRITE, p = p->next;
1.1  cgd 	    if (p->next == p2) {
1.1  cgd 		seterror(ERR_MISRED);
1.1  cgd 		continue;
1.1  cgd 	    }
1.1  cgd 	    p = p->next;
1.1  cgd 	    if (any(RELPAR, p->word[0])) {
1.1  cgd 		seterror(ERR_MISRED);
1.1  cgd 		continue;
1.1  cgd 	    }
1.1  cgd 	    if ((flags & POUT) && (flags & PDIAG) == 0 || t->t_drit)
1.1  cgd 		seterror(ERR_OUTRED);
1.1  cgd 	    else
1.1  cgd 		t->t_drit = Strsave(p->word);
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd 	case '<':
1.1  cgd 	    if (l != 0)
1.1  cgd 		goto savep;
1.1  cgd 	    if (p->word[1] == '<')
1.1  cgd 		t->t_dflg |= F_READ;
1.1  cgd 	    if (p->next == p2) {
1.1  cgd 		seterror(ERR_MISRED);
1.1  cgd 		continue;
1.1  cgd 	    }
1.1  cgd 	    p = p->next;
1.1  cgd 	    if (any(RELPAR, p->word[0])) {
1.1  cgd 		seterror(ERR_MISRED);
1.1  cgd 		continue;
1.1  cgd 	    }
1.1  cgd 	    if ((flags & PHERE) && (t->t_dflg & F_READ))
1.1  cgd 		seterror(ERR_REDPAR);
1.1  cgd 	    else if ((flags & PIN) || t->t_dlef)
1.1  cgd 		seterror(ERR_INRED);
1.1  cgd 	    else
1.1  cgd 		t->t_dlef = Strsave(p->word);
1.1  cgd 	    continue;
1.1  cgd
1.1  cgd     savep:
1.1  cgd 	    if (!specp)
1.1  cgd 		continue;
1.1  cgd 	default:
1.1  cgd 	    if (l != 0 && !specp)
1.1  cgd 		continue;
1.1  cgd 	    if (seterr == 0)
1.1  cgd 		av[n] = Strsave(p->word);
1.1  cgd 	    n++;
1.1  cgd 	    continue;
1.1  cgd 	}
1.1  cgd     }
1.1  cgd     if (lp != 0 && !specp) {
1.1  cgd 	if (n != 0)
1.1  cgd 	    seterror(ERR_BADPLPS);
1.1  cgd 	t->t_dtyp = NODE_PAREN;
1.1  cgd 	t->t_dspr = syn0(lp, rp, PHERE);
1.1  cgd     }
1.1  cgd     else {
1.1  cgd 	if (n == 0)
1.1  cgd 	    seterror(ERR_NULLCOM);
1.1  cgd 	t->t_dtyp = NODE_COMMAND;
1.1  cgd     }
1.1  cgd     return (t);
1.1  cgd }
1.1  cgd
1.1  cgd void
1.1  cgd freesyn(t)
1.1  cgd     register struct command *t;
1.1  cgd {
1.1  cgd     register Char **v;
1.1  cgd
1.1  cgd     if (t == 0)
1.1  cgd 	return;
1.1  cgd     switch (t->t_dtyp) {
1.1  cgd
1.1  cgd     case NODE_COMMAND:
1.1  cgd 	for (v = t->t_dcom; *v; v++)
1.1  cgd 	    xfree((ptr_t) * v);
1.1  cgd 	xfree((ptr_t) (t->t_dcom));
1.1  cgd 	xfree((ptr_t) t->t_dlef);
1.1  cgd 	xfree((ptr_t) t->t_drit);
1.1  cgd 	break;
1.1  cgd     case NODE_PAREN:
1.1  cgd 	freesyn(t->t_dspr);
1.1  cgd 	xfree((ptr_t) t->t_dlef);
1.1  cgd 	xfree((ptr_t) t->t_drit);
1.1  cgd 	break;
1.1  cgd
1.1  cgd     case NODE_AND:
1.1  cgd     case NODE_OR:
1.1  cgd     case NODE_PIPE:
1.1  cgd     case NODE_LIST:
1.1  cgd 	freesyn(t->t_dcar), freesyn(t->t_dcdr);
1.1  cgd 	break;
1.1  cgd     }
1.1  cgd     xfree((ptr_t) t);
1.1  cgd }