/* $NetBSD: lex.c,v 1.7 1995/03/21 09:03:07 cgd Exp $ */ /*- * Copyright (c) 1980, 1991, 1993 * The Regents of the University of California. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifndef lint #if 0 static char sccsid[] = "@(#)lex.c 8.1 (Berkeley) 5/31/93"; #else static char rcsid[] = "$NetBSD: lex.c,v 1.7 1995/03/21 09:03:07 cgd Exp $"; #endif #endif /* not lint */ #include #include #include #include #include #include #include #if __STDC__ # include #else # include #endif #include "csh.h" #include "extern.h" /* * These lexical routines read input and form lists of words. * There is some involved processing here, because of the complications * of input buffering, and especially because of history substitution. */ static Char *word __P((void)); static int getC1 __P((int)); static void getdol __P((void)); static void getexcl __P((int)); static struct Hist *findev __P((Char *, bool)); static void setexclp __P((Char *)); static int bgetc __P((void)); static void bfree __P((void)); static struct wordent *gethent __P((int)); static int matchs __P((Char *, Char *)); static int getsel __P((int *, int *, int)); static struct wordent *getsub __P((struct wordent *)); static Char *subword __P((Char *, int, bool *)); static struct wordent *dosub __P((int, struct wordent *, bool)); /* * Peekc is a peek character for getC, peekread for readc. * There is a subtlety here in many places... history routines * will read ahead and then insert stuff into the input stream. * If they push back a character then they must push it behind * the text substituted by the history substitution. On the other * hand in several places we need 2 peek characters. To make this * all work, the history routines read with getC, and make use both * of ungetC and unreadc. The key observation is that the state * of getC at the call of a history reference is such that calls * to getC from the history routines will always yield calls of * readc, unless this peeking is involved. That is to say that during * getexcl the variables lap, exclp, and exclnxt are all zero. * * Getdol invokes history substitution, hence the extra peek, peekd, * which it can ungetD to be before history substitutions. */ static Char peekc = 0, peekd = 0; static Char peekread = 0; /* (Tail of) current word from ! subst */ static Char *exclp = NULL; /* The rest of the ! subst words */ static struct wordent *exclnxt = NULL; /* Count of remaining words in ! subst */ static int exclc = 0; /* "Globp" for alias resubstitution */ Char *alvecp = NULL; int aret = F_SEEK; /* * Labuf implements a general buffer for lookahead during lexical operations. * Text which is to be placed in the input stream can be stuck here. * We stick parsed ahead $ constructs during initial input, * process id's from `$$', and modified variable values (from qualifiers * during expansion in sh.dol.c) here. */ static Char labuf[BUFSIZ]; /* * Lex returns to its caller not only a wordlist (as a "var" parameter) * but also whether a history substitution occurred. This is used in * the main (process) routine to determine whether to echo, and also * when called by the alias routine to determine whether to keep the * argument list. */ static bool hadhist = 0; /* * Avoid alias expansion recursion via \!# */ int hleft; static Char getCtmp; #define getC(f) ((getCtmp = peekc) ? (peekc = 0, getCtmp) : getC1(f)) #define ungetC(c) peekc = c #define ungetD(c) peekd = c int lex(hp) register struct wordent *hp; { register struct wordent *wdp; int c; btell(&lineloc); hp->next = hp->prev = hp; hp->word = STRNULL; hadhist = 0; do c = readc(0); while (c == ' ' || c == '\t'); if (c == HISTSUB && intty) /* ^lef^rit from tty is short !:s^lef^rit */ getexcl(c); else unreadc(c); wdp = hp; /* * The following loop is written so that the links needed by freelex will * be ready and rarin to go even if it is interrupted. */ do { register struct wordent *new; new = (struct wordent *) xmalloc((size_t) sizeof(*wdp)); new->word = 0; new->prev = wdp; new->next = hp; wdp->next = new; wdp = new; wdp->word = word(); } while (wdp->word[0] != '\n'); hp->prev = wdp; return (hadhist); } void prlex(fp, sp0) FILE *fp; struct wordent *sp0; { register struct wordent *sp = sp0->next; for (;;) { (void) fprintf(fp, "%s", vis_str(sp->word)); sp = sp->next; if (sp == sp0) break; if (sp->word[0] != '\n') (void) fputc(' ', fp); } } void copylex(hp, fp) register struct wordent *hp; register struct wordent *fp; { register struct wordent *wdp; wdp = hp; fp = fp->next; do { register struct wordent *new; new = (struct wordent *) xmalloc((size_t) sizeof(*wdp)); new->prev = wdp; new->next = hp; wdp->next = new; wdp = new; wdp->word = Strsave(fp->word); fp = fp->next; } while (wdp->word[0] != '\n'); hp->prev = wdp; } void freelex(vp) register struct wordent *vp; { register struct wordent *fp; while (vp->next != vp) { fp = vp->next; vp->next = fp->next; xfree((ptr_t) fp->word); xfree((ptr_t) fp); } vp->prev = vp; } static Char * word() { register Char c, c1; register Char *wp; Char wbuf[BUFSIZ]; register bool dolflg; register int i; wp = wbuf; i = BUFSIZ - 4; loop: while ((c = getC(DOALL)) == ' ' || c == '\t') continue; if (cmap(c, _META | _ESC)) switch (c) { case '&': case '|': case '<': case '>': *wp++ = c; c1 = getC(DOALL); if (c1 == c) *wp++ = c1; else ungetC(c1); goto ret; case '#': if (intty) break; c = 0; do { c1 = c; c = getC(0); } while (c != '\n'); if (c1 == '\\') goto loop; /* fall into ... */ case ';': case '(': case ')': case '\n': *wp++ = c; goto ret; case '\\': c = getC(0); if (c == '\n') { if (onelflg == 1) onelflg = 2; goto loop; } if (c != HIST) *wp++ = '\\', --i; c |= QUOTE; } c1 = 0; dolflg = DOALL; for (;;) { if (c1) { if (c == c1) { c1 = 0; dolflg = DOALL; } else if (c == '\\') { c = getC(0); if (c == HIST) c |= QUOTE; else { if (c == '\n') /* * if (c1 == '`') c = ' '; else */ c |= QUOTE; ungetC(c); c = '\\'; } } else if (c == '\n') { seterror(ERR_UNMATCHED, c1); ungetC(c); break; } } else if (cmap(c, _META | _QF | _QB | _ESC)) { if (c == '\\') { c = getC(0); if (c == '\n') { if (onelflg == 1) onelflg = 2; break; } if (c != HIST) *wp++ = '\\', --i; c |= QUOTE; } else if (cmap(c, _QF | _QB)) { /* '"` */ c1 = c; dolflg = c == '"' ? DOALL : DOEXCL; } else if (c != '#' || !intty) { ungetC(c); break; } } if (--i > 0) { *wp++ = c; c = getC(dolflg); } else { seterror(ERR_WTOOLONG); wp = &wbuf[1]; break; } } ret: *wp = 0; return (Strsave(wbuf)); } static int getC1(flag) register int flag; { register Char c; while (1) { if ((c = peekc) != '\0') { peekc = 0; return (c); } if (lap) { if ((c = *lap++) == 0) lap = 0; else { if (cmap(c, _META | _QF | _QB)) c |= QUOTE; return (c); } } if ((c = peekd) != '\0') { peekd = 0; return (c); } if (exclp) { if ((c = *exclp++) != '\0') return (c); if (exclnxt && --exclc >= 0) { exclnxt = exclnxt->next; setexclp(exclnxt->word); return (' '); } exclp = 0; exclnxt = 0; } if (exclnxt) { exclnxt = exclnxt->next; if (--exclc < 0) exclnxt = 0; else setexclp(exclnxt->word); continue; } c = readc(0); if (c == '$' && (flag & DODOL)) { getdol(); continue; } if (c == HIST && (flag & DOEXCL)) { getexcl(0); continue; } break; } return (c); } static void getdol() { register Char *np, *ep; Char name[4 * MAXVARLEN + 1]; register int c; int sc; bool special = 0, toolong; np = name, *np++ = '$'; c = sc = getC(DOEXCL); if (any("\t \n", c)) { ungetD(c); ungetC('$' | QUOTE); return; } if (c == '{') *np++ = c, c = getC(DOEXCL); if (c == '#' || c == '?') special++, *np++ = c, c = getC(DOEXCL); *np++ = c; switch (c) { case '<': case '$': case '!': if (special) seterror(ERR_SPDOLLT); *np = 0; addla(name); return; case '\n': ungetD(c); np--; seterror(ERR_NEWLINE); *np = 0; addla(name); return; case '*': if (special) seterror(ERR_SPSTAR); *np = 0; addla(name); return; default: toolong = 0; if (Isdigit(c)) { #ifdef notdef /* let $?0 pass for now */ if (special) { seterror(ERR_DIGIT); *np = 0; addla(name); return; } #endif /* we know that np < &name[4] */ ep = &np[MAXVARLEN]; while ((c = getC(DOEXCL)) != '\0'){ if (!Isdigit(c)) break; if (np < ep) *np++ = c; else toolong = 1; } } else if (letter(c)) { /* we know that np < &name[4] */ ep = &np[MAXVARLEN]; toolong = 0; while ((c = getC(DOEXCL)) != '\0') { /* Bugfix for ${v123x} from Chris Torek, DAS DEC-90. */ if (!letter(c) && !Isdigit(c)) break; if (np < ep) *np++ = c; else toolong = 1; } } else { *np = 0; seterror(ERR_VARILL); addla(name); return; } if (toolong) { seterror(ERR_VARTOOLONG); *np = 0; addla(name); return; } break; } if (c == '[') { *np++ = c; /* * Name up to here is a max of MAXVARLEN + 8. */ ep = &np[2 * MAXVARLEN + 8]; do { /* * Michael Greim: Allow $ expansion to take place in selector * expressions. (limits the number of characters returned) */ c = getC(DOEXCL | DODOL); if (c == '\n') { ungetD(c); np--; seterror(ERR_NLINDEX); *np = 0; addla(name); return; } if (np < ep) *np++ = c; } while (c != ']'); *np = '\0'; if (np >= ep) { seterror(ERR_SELOVFL); addla(name); return; } c = getC(DOEXCL); } /* * Name up to here is a max of 2 * MAXVARLEN + 8. */ if (c == ':') { /* * if the :g modifier is followed by a newline, then error right away! * -strike */ int gmodflag = 0, amodflag = 0; do { *np++ = c, c = getC(DOEXCL); if (c == 'g' || c == 'a') { if (c == 'g') gmodflag++; else amodflag++; *np++ = c; c = getC(DOEXCL); } if ((c == 'g' && !gmodflag) || (c == 'a' && !amodflag)) { if (c == 'g') gmodflag++; else amodflag++; *np++ = c; c = getC(DOEXCL); } *np++ = c; /* scan s// [eichin:19910926.0512EST] */ if (c == 's') { int delimcnt = 2; int delim = getC(0); *np++ = delim; if (!delim || letter(delim) || Isdigit(delim) || any(" \t\n", delim)) { seterror(ERR_BADSUBST); break; } while ((c = getC(0)) != (-1)) { *np++ = c; if(c == delim) delimcnt--; if(!delimcnt) break; } if(delimcnt) { seterror(ERR_BADSUBST); break; } c = 's'; } if (!any("htrqxes", c)) { if ((amodflag || gmodflag) && c == '\n') stderror(ERR_VARSYN); /* strike */ seterror(ERR_VARMOD, c); *np = 0; addla(name); return; } } while ((c = getC(DOEXCL)) == ':'); ungetD(c); } else ungetD(c); if (sc == '{') { c = getC(DOEXCL); if (c != '}') { ungetD(c); seterror(ERR_MISSING, '}'); *np = 0; addla(name); return; } *np++ = c; } *np = 0; addla(name); return; } void addla(cp) Char *cp; { Char buf[BUFSIZ]; if (Strlen(cp) + (lap ? Strlen(lap) : 0) >= (sizeof(labuf) - 4) / sizeof(Char)) { seterror(ERR_EXPOVFL); return; } if (lap) (void) Strcpy(buf, lap); (void) Strcpy(labuf, cp); if (lap) (void) Strcat(labuf, buf); lap = labuf; } static Char lhsb[32]; static Char slhs[32]; static Char rhsb[64]; static int quesarg; static void getexcl(sc) int sc; { register struct wordent *hp, *ip; int left, right, dol; register int c; if (sc == 0) { sc = getC(0); if (sc != '{') { ungetC(sc); sc = 0; } } quesarg = -1; lastev = eventno; hp = gethent(sc); if (hp == 0) return; hadhist = 1; dol = 0; if (hp == alhistp) for (ip = hp->next->next; ip != alhistt; ip = ip->next) dol++; else for (ip = hp->next->next; ip != hp->prev; ip = ip->next) dol++; left = 0, right = dol; if (sc == HISTSUB) { ungetC('s'), unreadc(HISTSUB), c = ':'; goto subst; } c = getC(0); if (!any(":^$*-%", c)) goto subst; left = right = -1; if (c == ':') { c = getC(0); unreadc(c); if (letter(c) || c == '&') { c = ':'; left = 0, right = dol; goto subst; } } else ungetC(c); if (!getsel(&left, &right, dol)) return; c = getC(0); if (c == '*') ungetC(c), c = '-'; if (c == '-') { if (!getsel(&left, &right, dol)) return; c = getC(0); } subst: exclc = right - left + 1; while (--left >= 0) hp = hp->next; if (sc == HISTSUB || c == ':') { do { hp = getsub(hp); c = getC(0); } while (c == ':'); } unreadc(c); if (sc == '{') { c = getC(0); if (c != '}') seterror(ERR_BADBANG); } exclnxt = hp; } static struct wordent * getsub(en) struct wordent *en; { register Char *cp; int delim; register int c; int sc; bool global; Char orhsb[sizeof(rhsb) / sizeof(Char)]; do { exclnxt = 0; global = 0; sc = c = getC(0); if (c == 'g' || c == 'a') { global |= (c == 'g') ? 1 : 2; sc = c = getC(0); } if (((c =='g') && !(global & 1)) || ((c == 'a') && !(global & 2))) { global |= (c == 'g') ? 1 : 2; sc = c = getC(0); } switch (c) { case 'p': justpr++; return (en); case 'x': case 'q': global |= 1; /* fall into ... */ case 'h': case 'r': case 't': case 'e': break; case '&': if (slhs[0] == 0) { seterror(ERR_NOSUBST); return (en); } (void) Strcpy(lhsb, slhs); break; #ifdef notdef case '~': if (lhsb[0] == 0) goto badlhs; break; #endif case 's': delim = getC(0); if (letter(delim) || Isdigit(delim) || any(" \t\n", delim)) { unreadc(delim); lhsb[0] = 0; seterror(ERR_BADSUBST); return (en); } cp = lhsb; for (;;) { c = getC(0); if (c == '\n') { unreadc(c); break; } if (c == delim) break; if (cp > &lhsb[sizeof(lhsb) / sizeof(Char) - 2]) { lhsb[0] = 0; seterror(ERR_BADSUBST); return (en); } if (c == '\\') { c = getC(0); if (c != delim && c != '\\') *cp++ = '\\'; } *cp++ = c; } if (cp != lhsb) *cp++ = 0; else if (lhsb[0] == 0) { seterror(ERR_LHS); return (en); } cp = rhsb; (void) Strcpy(orhsb, cp); for (;;) { c = getC(0); if (c == '\n') { unreadc(c); break; } if (c == delim) break; #ifdef notdef if (c == '~') { if (&cp[Strlen(orhsb)] > &rhsb[sizeof(rhsb) / sizeof(Char) - 2]) goto toorhs; (void) Strcpy(cp, orhsb); cp = Strend(cp); continue; } #endif if (cp > &rhsb[sizeof(rhsb) / sizeof(Char) - 2]) { seterror(ERR_RHSLONG); return (en); } if (c == '\\') { c = getC(0); if (c != delim /* && c != '~' */ ) *cp++ = '\\'; } *cp++ = c; } *cp++ = 0; break; default: if (c == '\n') unreadc(c); seterror(ERR_BADBANGMOD, c); return (en); } (void) Strcpy(slhs, lhsb); if (exclc) en = dosub(sc, en, global); } while ((c = getC(0)) == ':'); unreadc(c); return (en); } static struct wordent * dosub(sc, en, global) int sc; struct wordent *en; bool global; { struct wordent lexi; bool didsub = 0, didone = 0; struct wordent *hp = &lexi; register struct wordent *wdp; register int i = exclc; wdp = hp; while (--i >= 0) { register struct wordent *new = (struct wordent *) xcalloc(1, sizeof *wdp); new->word = 0; new->prev = wdp; new->next = hp; wdp->next = new; wdp = new; en = en->next; if (en->word) { Char *tword, *otword; if ((global & 1) || didsub == 0) { tword = subword(en->word, sc, &didone); if (didone) didsub = 1; if (global & 2) { while (didone && tword != STRNULL) { otword = tword; tword = subword(otword, sc, &didone); if (Strcmp(tword, otword) == 0) { xfree((ptr_t) otword); break; } else xfree((ptr_t) otword); } } } else tword = Strsave(en->word); wdp->word = tword; } } if (didsub == 0) seterror(ERR_MODFAIL); hp->prev = wdp; return (&enthist(-1000, &lexi, 0)->Hlex); } static Char * subword(cp, type, adid) Char *cp; int type; bool *adid; { Char wbuf[BUFSIZ]; register Char *wp, *mp, *np; register int i; *adid = 0; switch (type) { case 'r': case 'e': case 'h': case 't': case 'q': case 'x': wp = domod(cp, type); if (wp == 0) return (Strsave(cp)); *adid = 1; return (wp); default: wp = wbuf; i = BUFSIZ - 4; for (mp = cp; *mp; mp++) if (matchs(mp, lhsb)) { for (np = cp; np < mp;) *wp++ = *np++, --i; for (np = rhsb; *np; np++) switch (*np) { case '\\': if (np[1] == '&') np++; /* fall into ... */ default: if (--i < 0) { seterror(ERR_SUBOVFL); return (STRNULL); } *wp++ = *np; continue; case '&': i -= Strlen(lhsb); if (i < 0) { seterror(ERR_SUBOVFL); return (STRNULL); } *wp = 0; (void) Strcat(wp, lhsb); wp = Strend(wp); continue; } mp += Strlen(lhsb); i -= Strlen(mp); if (i < 0) { seterror(ERR_SUBOVFL); return (STRNULL); } *wp = 0; (void) Strcat(wp, mp); *adid = 1; return (Strsave(wbuf)); } return (Strsave(cp)); } } Char * domod(cp, type) Char *cp; int type; { register Char *wp, *xp; register int c; switch (type) { case 'x': case 'q': wp = Strsave(cp); for (xp = wp; (c = *xp) != '\0'; xp++) if ((c != ' ' && c != '\t') || type == 'q') *xp |= QUOTE; return (wp); case 'h': case 't': if (!any(short2str(cp), '/')) return (type == 't' ? Strsave(cp) : 0); wp = Strend(cp); while (*--wp != '/') continue; if (type == 'h') xp = Strsave(cp), xp[wp - cp] = 0; else xp = Strsave(wp + 1); return (xp); case 'e': case 'r': wp = Strend(cp); for (wp--; wp >= cp && *wp != '/'; wp--) if (*wp == '.') { if (type == 'e') xp = Strsave(wp + 1); else xp = Strsave(cp), xp[wp - cp] = 0; return (xp); } return (Strsave(type == 'e' ? STRNULL : cp)); default: break; } return (0); } static int matchs(str, pat) register Char *str, *pat; { while (*str && *pat && *str == *pat) str++, pat++; return (*pat == 0); } static int getsel(al, ar, dol) register int *al, *ar; int dol; { register int c = getC(0); register int i; bool first = *al < 0; switch (c) { case '%': if (quesarg == -1) { seterror(ERR_BADBANGARG); return (0); } if (*al < 0) *al = quesarg; *ar = quesarg; break; case '-': if (*al < 0) { *al = 0; *ar = dol - 1; unreadc(c); } return (1); case '^': if (*al < 0) *al = 1; *ar = 1; break; case '$': if (*al < 0) *al = dol; *ar = dol; break; case '*': if (*al < 0) *al = 1; *ar = dol; if (*ar < *al) { *ar = 0; *al = 1; return (1); } break; default: if (Isdigit(c)) { i = 0; while (Isdigit(c)) { i = i * 10 + c - '0'; c = getC(0); } if (i < 0) i = dol + 1; if (*al < 0) *al = i; *ar = i; } else if (*al < 0) *al = 0, *ar = dol; else *ar = dol - 1; unreadc(c); break; } if (first) { c = getC(0); unreadc(c); if (any("-$*", c)) return (1); } if (*al > *ar || *ar > dol) { seterror(ERR_BADBANGARG); return (0); } return (1); } static struct wordent * gethent(sc) int sc; { register struct Hist *hp; register Char *np; register int c; int event; bool back = 0; c = sc == HISTSUB ? HIST : getC(0); if (c == HIST) { if (alhistp) return (alhistp); event = eventno; } else switch (c) { case ':': case '^': case '$': case '*': case '%': ungetC(c); if (lastev == eventno && alhistp) return (alhistp); event = lastev; break; case '#': /* !# is command being typed in (mrh) */ if (--hleft == 0) { seterror(ERR_HISTLOOP); return (0); } else return (¶ml); /* NOTREACHED */ case '-': back = 1; c = getC(0); /* FALLSTHROUGH */ default: if (any("(=~", c)) { unreadc(c); ungetC(HIST); return (0); } np = lhsb; event = 0; while (!cmap(c, _ESC | _META | _QF | _QB) && !any("${}:", c)) { if (event != -1 && Isdigit(c)) event = event * 10 + c - '0'; else event = -1; if (np < &lhsb[sizeof(lhsb) / sizeof(Char) - 2]) *np++ = c; c = getC(0); } unreadc(c); if (np == lhsb) { ungetC(HIST); return (0); } *np++ = 0; if (event != -1) { /* * History had only digits */ if (back) event = eventno + (alhistp == 0) - (event ? event : 0); break; } hp = findev(lhsb, 0); if (hp) lastev = hp->Hnum; return (&hp->Hlex); case '?': np = lhsb; for (;;) { c = getC(0); if (c == '\n') { unreadc(c); break; } if (c == '?') break; if (np < &lhsb[sizeof(lhsb) / sizeof(Char) - 2]) *np++ = c; } if (np == lhsb) { if (lhsb[0] == 0) { seterror(ERR_NOSEARCH); return (0); } } else *np++ = 0; hp = findev(lhsb, 1); if (hp) lastev = hp->Hnum; return (&hp->Hlex); } for (hp = Histlist.Hnext; hp; hp = hp->Hnext) if (hp->Hnum == event) { hp->Href = eventno; lastev = hp->Hnum; return (&hp->Hlex); } np = putn(event); seterror(ERR_NOEVENT, vis_str(np)); return (0); } static struct Hist * findev(cp, anyarg) Char *cp; bool anyarg; { register struct Hist *hp; for (hp = Histlist.Hnext; hp; hp = hp->Hnext) { Char *dp; register Char *p, *q; register struct wordent *lp = hp->Hlex.next; int argno = 0; /* * The entries added by alias substitution don't have a newline but do * have a negative event number. Savehist() trims off these entries, * but it happens before alias expansion, too early to delete those * from the previous command. */ if (hp->Hnum < 0) continue; if (lp->word[0] == '\n') continue; if (!anyarg) { p = cp; q = lp->word; do if (!*p) return (hp); while (*p++ == *q++); continue; } do { for (dp = lp->word; *dp; dp++) { p = cp; q = dp; do if (!*p) { quesarg = argno; return (hp); } while (*p++ == *q++); } lp = lp->next; argno++; } while (lp->word[0] != '\n'); } seterror(ERR_NOEVENT, vis_str(cp)); return (0); } static void setexclp(cp) register Char *cp; { if (cp && cp[0] == '\n') return; exclp = cp; } void unreadc(c) int c; { peekread = c; } int readc(wanteof) bool wanteof; { register int c; static sincereal; aret = F_SEEK; if ((c = peekread) != '\0') { peekread = 0; return (c); } top: aret = F_SEEK; if (alvecp) { aret = A_SEEK; if ((c = *alvecp++) != '\0') return (c); if (alvec && *alvec) { alvecp = *alvec++; return (' '); } else { aret = F_SEEK; alvecp = NULL; return('\n'); } } if (alvec) { if ((alvecp = *alvec) != '\0') { alvec++; goto top; } /* Infinite source! */ return ('\n'); } if (evalp) { aret = E_SEEK; if ((c = *evalp++) != '\0') return (c); if (evalvec && *evalvec) { evalp = *evalvec++; return (' '); } aret = F_SEEK; evalp = 0; } if (evalvec) { if (evalvec == (Char **) 1) { doneinp = 1; reset(); } if ((evalp = *evalvec) != '\0') { evalvec++; goto top; } evalvec = (Char **) 1; return ('\n'); } do { if (arginp == (Char *) 1 || onelflg == 1) { if (wanteof) return (-1); exitstat(); } if (arginp) { if ((c = *arginp++) == 0) { arginp = (Char *) 1; return ('\n'); } return (c); } reread: c = bgetc(); if (c < 0) { struct termios tty; if (wanteof) return (-1); /* was isatty but raw with ignoreeof yields problems */ if (tcgetattr(SHIN, &tty) == 0 && (tty.c_lflag & ICANON)) { /* was 'short' for FILEC */ int ctpgrp; if (++sincereal > 25) goto oops; if (tpgrp != -1 && (ctpgrp = tcgetpgrp(FSHTTY)) != -1 && tpgrp != ctpgrp) { (void) tcsetpgrp(FSHTTY, tpgrp); (void) killpg((pid_t) ctpgrp, SIGHUP); (void) fprintf(csherr, "Reset tty pgrp from %d to %d\n", ctpgrp, tpgrp); goto reread; } if (adrof(STRignoreeof)) { if (loginsh) (void) fprintf(csherr,"\nUse \"logout\" to logout.\n"); else (void) fprintf(csherr,"\nUse \"exit\" to leave csh.\n"); reset(); } if (chkstop == 0) panystop(1); } oops: doneinp = 1; reset(); } sincereal = 0; if (c == '\n' && onelflg) onelflg--; } while (c == 0); return (c); } static int bgetc() { register int buf, off, c; #ifdef FILEC register int numleft = 0, roomleft; Char ttyline[BUFSIZ]; #endif char tbuf[BUFSIZ + 1]; if (cantell) { if (fseekp < fbobp || fseekp > feobp) { fbobp = feobp = fseekp; (void) lseek(SHIN, fseekp, L_SET); } if (fseekp == feobp) { int i; fbobp = feobp; do c = read(SHIN, tbuf, BUFSIZ); while (c < 0 && errno == EINTR); if (c <= 0) return (-1); for (i = 0; i < c; i++) fbuf[0][i] = (unsigned char) tbuf[i]; feobp += c; } c = fbuf[0][fseekp - fbobp]; fseekp++; return (c); } again: buf = (int) fseekp / BUFSIZ; if (buf >= fblocks) { register Char **nfbuf = (Char **) xcalloc((size_t) (fblocks + 2), sizeof(Char **)); if (fbuf) { (void) blkcpy(nfbuf, fbuf); xfree((ptr_t) fbuf); } fbuf = nfbuf; fbuf[fblocks] = (Char *) xcalloc(BUFSIZ, sizeof(Char)); fblocks++; if (!intty) goto again; } if (fseekp >= feobp) { buf = (int) feobp / BUFSIZ; off = (int) feobp % BUFSIZ; roomleft = BUFSIZ - off; #ifdef FILEC roomleft = BUFSIZ - off; for (;;) { if (filec && intty) { c = numleft ? numleft : tenex(ttyline, BUFSIZ); if (c > roomleft) { /* start with fresh buffer */ feobp = fseekp = fblocks * BUFSIZ; numleft = c; goto again; } if (c > 0) memcpy(fbuf[buf] + off, ttyline, c * sizeof(Char)); numleft = 0; } else { #endif c = read(SHIN, tbuf, roomleft); if (c > 0) { int i; Char *ptr = fbuf[buf] + off; for (i = 0; i < c; i++) ptr[i] = (unsigned char) tbuf[i]; } #ifdef FILEC } #endif if (c >= 0) break; if (errno == EWOULDBLOCK) { int off = 0; (void) ioctl(SHIN, FIONBIO, (ioctl_t) & off); } else if (errno != EINTR) break; } if (c <= 0) return (-1); feobp += c; #ifndef FILEC goto again; #else if (filec && !intty) goto again; #endif } c = fbuf[buf][(int) fseekp % BUFSIZ]; fseekp++; return (c); } static void bfree() { register int sb, i; if (cantell) return; if (whyles) return; sb = (int) (fseekp - 1) / BUFSIZ; if (sb > 0) { for (i = 0; i < sb; i++) xfree((ptr_t) fbuf[i]); (void) blkcpy(fbuf, &fbuf[sb]); fseekp -= BUFSIZ * sb; feobp -= BUFSIZ * sb; fblocks -= sb; } } void bseek(l) struct Ain *l; { switch (aret = l->type) { case E_SEEK: evalvec = l->a_seek; evalp = l->c_seek; return; case A_SEEK: alvec = l->a_seek; alvecp = l->c_seek; return; case F_SEEK: fseekp = l->f_seek; return; default: (void) fprintf(csherr, "Bad seek type %d\n", aret); abort(); } } void btell(l) struct Ain *l; { switch (l->type = aret) { case E_SEEK: l->a_seek = evalvec; l->c_seek = evalp; return; case A_SEEK: l->a_seek = alvec; l->c_seek = alvecp; return; case F_SEEK: l->f_seek = fseekp; l->a_seek = NULL; return; default: (void) fprintf(csherr, "Bad seek type %d\n", aret); abort(); } } void btoeof() { (void) lseek(SHIN, (off_t) 0, L_XTND); aret = F_SEEK; fseekp = feobp; alvec = NULL; alvecp = NULL; evalvec = NULL; evalp = NULL; wfree(); bfree(); } void settell() { cantell = 0; if (arginp || onelflg || intty) return; if (lseek(SHIN, (off_t) 0, L_INCR) < 0 || errno == ESPIPE) return; fbuf = (Char **) xcalloc(2, sizeof(Char **)); fblocks = 1; fbuf[0] = (Char *) xcalloc(BUFSIZ, sizeof(Char)); fseekp = fbobp = feobp = lseek(SHIN, (off_t) 0, L_INCR); cantell = 1; }