/* * zle_main.c - main routines for line editor * * 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_main.pro" #ifdef HAVE_POLL_H # include #endif #if defined(HAVE_POLL) && !defined(POLLIN) && !defined(POLLNORM) # undef HAVE_POLL #endif /* != 0 if in a shell function called from completion, such that read -[cl] * * will work (i.e., the line is metafied, and the above word arrays are OK). */ /**/ mod_export int incompctlfunc; /* != 0 if we are in a new style completion function */ /**/ mod_export int incompfunc; /* != 0 if completion module is loaded */ /**/ mod_export int hascompmod; /* ZLRF_* flags passed to zleread() */ /**/ int zlereadflags; /* != 0 if we're done editing */ /**/ int done; /* location of mark */ /**/ int mark; /* last character pressed */ /**/ int c; /* the bindings for the previous and for this key */ /**/ mod_export Thingy lbindk, bindk; /* insert mode/overwrite mode flag */ /**/ int insmode; /**/ mod_export int eofchar; static int eofsent; static long keytimeout; #if defined(HAVE_SELECT) || defined(HAVE_POLL) /* Terminal baud rate */ static int baud; static long costmult; #endif /* flags associated with last command */ /**/ mod_export int lastcmd; /**/ mod_export Widget compwidget; /* the status line, and its length */ /**/ char *statusline; /**/ int statusll; /* The current history line and cursor position for the top line * * on the buffer stack. */ /**/ int stackhist, stackcs; /* != 0 if we are making undo records */ /**/ int undoing; /* current modifier status */ /**/ mod_export struct modifier zmod; /* Current command prefix status. This is normally 0. Prefixes set * * this to 1. Each time round the main loop, this is checked: if it * * is 0, the modifier status is reset; if it is 1, the modifier * * status is left unchanged, and this flag is reset to 0. The * * effect is that several prefix commands can be executed, and have * * cumulative effect, but any other command execution will clear the * * modifiers. */ /**/ int prefixflag; /* Number of characters waiting to be read by the ungetkeys mechanism */ /**/ int kungetct; /**/ mod_export char *zlenoargs[1] = { NULL }; #ifdef FIONREAD static int delayzsetterm; #endif /* * File descriptors we are watching as well as the terminal fd. * These are all for reading; we don't watch for writes or exceptions. */ /**/ int nwatch; /* Number of fd's we are watching */ /**/ int *watch_fds; /* The list of fds, not terminated! */ /**/ char **watch_funcs; /* The corresponding functions to call, normal array */ /* set up terminal */ /**/ mod_export void zsetterm(void) { struct ttyinfo ti; #if defined(FIONREAD) int val; ioctl(SHTTY, FIONREAD, (char *)&val); if (val) { /* * Problems can occur on some systems when switching from * canonical to non-canonical input. The former is usually * set while running programmes, but the latter is necessary * for zle. If there is input in canonical mode, then we * need to read it without setting up the terminal. Furthermore, * while that input gets processed there may be more input * being typed (i.e. further typeahead). This means that * we can't set up the terminal for zle *at all* until * we are sure there is no more typeahead to come. So * if there is typeahead, we set the flag delayzsetterm. * Then getkey() performs another FIONREAD call; if that is * 0, we have finally used up all the typeahead, and it is * safe to alter the terminal, which we do at that point. */ delayzsetterm = 1; return; } else delayzsetterm = 0; #endif /* sanitize the tty */ #ifdef HAS_TIO shttyinfo.tio.c_lflag |= ICANON | ECHO; # ifdef FLUSHO shttyinfo.tio.c_lflag &= ~FLUSHO; # endif #else /* not HAS_TIO */ shttyinfo.sgttyb.sg_flags = (shttyinfo.sgttyb.sg_flags & ~CBREAK) | ECHO; shttyinfo.lmodes &= ~LFLUSHO; #endif attachtty(mypgrp); ti = shttyinfo; #ifdef HAS_TIO if (unset(FLOWCONTROL)) ti.tio.c_iflag &= ~IXON; ti.tio.c_lflag &= ~(ICANON | ECHO # ifdef FLUSHO | FLUSHO # endif ); # ifdef TAB3 ti.tio.c_oflag &= ~TAB3; # else # ifdef OXTABS ti.tio.c_oflag &= ~OXTABS; # else # ifdef XTABS ti.tio.c_oflag &= ~XTABS; # endif # endif # endif #ifdef ONLCR ti.tio.c_oflag |= ONLCR; #endif ti.tio.c_cc[VQUIT] = # ifdef VDISCARD ti.tio.c_cc[VDISCARD] = # endif # ifdef VSUSP ti.tio.c_cc[VSUSP] = # endif # ifdef VDSUSP ti.tio.c_cc[VDSUSP] = # endif # ifdef VSWTCH ti.tio.c_cc[VSWTCH] = # endif # ifdef VLNEXT ti.tio.c_cc[VLNEXT] = # endif VDISABLEVAL; # if defined(VSTART) && defined(VSTOP) if (unset(FLOWCONTROL)) ti.tio.c_cc[VSTART] = ti.tio.c_cc[VSTOP] = VDISABLEVAL; # endif eofchar = ti.tio.c_cc[VEOF]; ti.tio.c_cc[VMIN] = 1; ti.tio.c_cc[VTIME] = 0; ti.tio.c_iflag |= (INLCR | ICRNL); /* this line exchanges \n and \r; it's changed back in getkey so that the net effect is no change at all inside the shell. This double swap is to allow typeahead in common cases, eg. % bindkey -s '^J' 'echo foo^M' % sleep 10 echo foo <--- typed before sleep returns The shell sees \n instead of \r, since it was changed by the kernel while zsh wasn't looking. Then in getkey() \n is changed back to \r, and it sees "echo foo", as expected. Without the double swap the shell would see "echo foo\n", which is translated to "echo fooecho foo" because of the binding. Note that if you type during the sleep the shell just sees \n, which is translated to \r in getkey(), and you just get another prompt. For type-ahead to work in ALL cases you have to use stty inlcr. Unfortunately it's IMPOSSIBLE to have a general solution if both and are mapped to the same character. The shell could check if there is input and read it before setting it's own terminal modes but if we get a \n we don't know whether to keep it or change to \r :-( */ #else /* not HAS_TIO */ ti.sgttyb.sg_flags = (ti.sgttyb.sg_flags | CBREAK) & ~ECHO & ~XTABS; ti.lmodes &= ~LFLUSHO; eofchar = ti.tchars.t_eofc; ti.tchars.t_quitc = ti.ltchars.t_suspc = ti.ltchars.t_flushc = ti.ltchars.t_dsuspc = ti.ltchars.t_lnextc = -1; #endif #if defined(TTY_NEEDS_DRAINING) && defined(TIOCOUTQ) && defined(HAVE_SELECT) if (baud) { /**/ int n = 0; while ((ioctl(SHTTY, TIOCOUTQ, (char *)&n) >= 0) && n) { struct timeval tv; tv.tv_sec = n / baud; tv.tv_usec = ((n % baud) * 1000000) / baud; select(0, NULL, NULL, NULL, &tv); } } #endif settyinfo(&ti); } static char *kungetbuf; static int kungetsz; /**/ void ungetkey(int ch) { if (kungetct == kungetsz) kungetbuf = realloc(kungetbuf, kungetsz *= 2); kungetbuf[kungetct++] = ch; } /**/ void ungetkeys(char *s, int len) { s += len; while (len--) ungetkey(*--s); } #if defined(pyr) && defined(HAVE_SELECT) static int breakread(int fd, char *buf, int n) { fd_set f; FD_ZERO(&f); FD_SET(fd, &f); return (select(fd + 1, (SELECT_ARG_2_T) & f, NULL, NULL, NULL) == -1 ? EOF : read(fd, buf, n)); } # define read breakread #endif static int raw_getkey(int keytmout, char *cptr) { long exp100ths; int ret; #ifdef HAS_TIO struct ttyinfo ti; #endif #ifndef HAVE_POLL # ifdef HAVE_SELECT fd_set foofd; # endif #endif /* * Handle timeouts and watched fd's. We only do one at once; * key timeouts take precedence. This saves tricky timing * problems with the key timeout. */ if ((nwatch || keytmout) #ifdef FIONREAD && ! delayzsetterm #endif ) { if (!keytmout || keytimeout <= 0) exp100ths = 0; else if (keytimeout > 500) exp100ths = 500; else exp100ths = keytimeout; #if defined(HAVE_SELECT) || defined(HAVE_POLL) if (!keytmout || exp100ths) { int i, errtry = 0, selret; # ifdef HAVE_POLL int poll_timeout; int nfds; struct pollfd *fds; # else int fdmax; struct timeval *tvptr; struct timeval expire_tv; # endif # if defined(HAS_TIO) && defined(sun) /* * Yes, I know this is complicated. Yes, I know we * already have three bits of code to poll the terminal * down below. No, I don't want to do this either. * However, it turns out on certain OSes, specifically * Solaris, that you can't poll typeahead for love nor * money without actually trying to read it. But * if we are trying to select (and we need to if we * are watching other fd's) we won't pick that up. * So we just try and read it without blocking in * the time-honoured (i.e. absurdly baroque) termios * fashion. */ gettyinfo(&ti); ti.tio.c_cc[VMIN] = 0; settyinfo(&ti); ret = read(SHTTY, cptr, 1); ti.tio.c_cc[VMIN] = 1; settyinfo(&ti); if (ret > 0) return 1; # endif # ifdef HAVE_POLL nfds = keytmout ? 1 : 1 + nwatch; /* First pollfd is SHTTY, following are the nwatch fds */ fds = zalloc(sizeof(struct pollfd) * nfds); if (exp100ths) poll_timeout = exp100ths * 10; else poll_timeout = -1; fds[0].fd = SHTTY; /* * POLLIN, POLLIN, POLLIN, * Keep those fd's POLLIN... */ fds[0].events = POLLIN; if (!keytmout) { for (i = 0; i < nwatch; i++) { fds[i+1].fd = watch_fds[i]; fds[i+1].events = POLLIN; } } # else fdmax = SHTTY; tvptr = NULL; if (exp100ths) { expire_tv.tv_sec = exp100ths / 100; expire_tv.tv_usec = (exp100ths % 100) * 10000L; tvptr = &expire_tv; } # endif do { # ifdef HAVE_POLL selret = poll(fds, errtry ? 1 : nfds, poll_timeout); # else FD_ZERO(&foofd); FD_SET(SHTTY, &foofd); if (!keytmout && !errtry) { for (i = 0; i < nwatch; i++) { int fd = watch_fds[i]; FD_SET(fd, &foofd); if (fd > fdmax) fdmax = fd; } } selret = select(fdmax+1, (SELECT_ARG_2_T) & foofd, NULL, NULL, tvptr); # endif /* * Make sure a user interrupt gets passed on straight away. */ if (selret < 0 && errflag) break; /* * Try to avoid errors on our special fd's from * messing up reads from the terminal. Try first * with all fds, then try unsetting the special ones. */ if (selret < 0 && !keytmout && !errtry) { errtry = 1; continue; } if (selret == 0) { /* Special value -2 signals nothing ready */ selret = -2; } if (selret < 0) break; if (!keytmout && nwatch) { /* * Copy the details of the watch fds in case the * user decides to delete one from inside the * handler function. */ int lnwatch = nwatch; int *lwatch_fds = zalloc(lnwatch*sizeof(int)); char **lwatch_funcs = zarrdup(watch_funcs); memcpy(lwatch_fds, watch_fds, lnwatch*sizeof(int)); for (i = 0; i < lnwatch; i++) { if ( # ifdef HAVE_POLL (fds[i+1].revents & POLLIN) # else FD_ISSET(lwatch_fds[i], &foofd) # endif ) { /* Handle the fd. */ LinkList funcargs = znewlinklist(); zaddlinknode(funcargs, ztrdup(lwatch_funcs[i])); { char buf[BDIGBUFSIZE]; convbase(buf, lwatch_fds[i], 10); zaddlinknode(funcargs, ztrdup(buf)); } # ifdef HAVE_POLL # ifdef POLLERR if (fds[i+1].revents & POLLERR) zaddlinknode(funcargs, ztrdup("err")); # endif # ifdef POLLHUP if (fds[i+1].revents & POLLHUP) zaddlinknode(funcargs, ztrdup("hup")); # endif # ifdef POLLNVAL if (fds[i+1].revents & POLLNVAL) zaddlinknode(funcargs, ztrdup("nval")); # endif # endif callhookfunc(lwatch_funcs[i], funcargs); if (errflag) { /* No sensible way of handling errors here */ errflag = 0; /* * Paranoia: don't run the hooks again this * time. */ errtry = 1; } freelinklist(funcargs, freestr); } } /* Function may have invalidated the display. */ if (resetneeded) zrefresh(); zfree(lwatch_fds, lnwatch*sizeof(int)); freearray(lwatch_funcs); } } while (! # ifdef HAVE_POLL (fds[0].revents & POLLIN) # else FD_ISSET(SHTTY, &foofd) # endif ); # ifdef HAVE_POLL zfree(fds, sizeof(struct pollfd) * nfds); # endif if (selret < 0) return selret; } #else # ifdef HAS_TIO ti = shttyinfo; ti.tio.c_lflag &= ~ICANON; ti.tio.c_cc[VMIN] = 0; ti.tio.c_cc[VTIME] = exp100ths / 10; # ifdef HAVE_TERMIOS_H tcsetattr(SHTTY, TCSANOW, &ti.tio); # else ioctl(SHTTY, TCSETA, &ti.tio); # endif ret = read(SHTTY, cptr, 1); # ifdef HAVE_TERMIOS_H tcsetattr(SHTTY, TCSANOW, &shttyinfo.tio); # else ioctl(SHTTY, TCSETA, &shttyinfo.tio); # endif return (ret <= 0) ? ret : *cptr; # endif #endif } ret = read(SHTTY, cptr, 1); return ret; } /**/ mod_export int getkey(int keytmout) { char cc; unsigned int ret; int die = 0, r, icnt = 0; int old_errno = errno, obreaks = breaks; if (kungetct) ret = STOUC(kungetbuf[--kungetct]); else { #ifdef FIONREAD if (delayzsetterm) { int val; ioctl(SHTTY, FIONREAD, (char *)&val); if (!val) zsetterm(); } #endif for (;;) { int q = queue_signal_level(); dont_queue_signals(); r = raw_getkey(keytmout, &cc); restore_queue_signals(q); if (r == -2) /* timeout */ return EOF; if (r == 1) break; if (r == 0) { /* The test for IGNOREEOF was added to make zsh ignore ^Ds that were typed while commands are running. Unfortuantely this caused trouble under at least one system (SunOS 4.1). Here shells that lost their xterm (e.g. if it was killed with -9) didn't fail to read from the terminal but instead happily continued to read EOFs, so that the above read returned with 0, and, with IGNOREEOF set, this caused an infinite loop. The simple way around this was to add the counter (icnt) so that this happens 20 times and than the shell gives up (yes, this is a bit dirty...). */ if ((zlereadflags & ZLRF_IGNOREEOF) && icnt++ < 20) continue; stopmsg = 1; zexit(1, 0); } icnt = 0; if (errno == EINTR) { die = 0; if (!errflag && !retflag && !breaks) continue; errflag = 0; breaks = obreaks; errno = old_errno; return EOF; } else if (errno == EWOULDBLOCK) { fcntl(0, F_SETFL, 0); } else if (errno == EIO && !die) { ret = opts[MONITOR]; opts[MONITOR] = 1; attachtty(mypgrp); zrefresh(); /* kludge! */ opts[MONITOR] = ret; die = 1; } else if (errno != 0) { zerr("error on TTY read: %e", NULL, errno); stopmsg = 1; zexit(1, 0); } } if (cc == '\r') /* undo the exchange of \n and \r determined by */ cc = '\n'; /* zsetterm() */ else if (cc == '\n') cc = '\r'; ret = STOUC(cc); } if (vichgflag) { if (vichgbufptr == vichgbufsz) vichgbuf = realloc(vichgbuf, vichgbufsz *= 2); vichgbuf[vichgbufptr++] = ret; } errno = old_errno; return ret; } /**/ void zlecore(void) { #if !defined(HAVE_POLL) && defined(HAVE_SELECT) struct timeval tv; fd_set foofd; FD_ZERO(&foofd); #endif zrefresh(); while (!done && !errflag) { statusline = NULL; vilinerange = 0; reselectkeymap(); selectlocalmap(NULL); bindk = getkeycmd(); if (!ll && isfirstln && !(zlereadflags & ZLRF_IGNOREEOF) && c == eofchar) { eofsent = 1; break; } if (bindk) { if (execzlefunc(bindk, zlenoargs)) handlefeep(zlenoargs); handleprefixes(); /* for vi mode, make sure the cursor isn't somewhere illegal */ if (invicmdmode() && cs > findbol() && (cs == ll || line[cs] == '\n')) cs--; if (undoing) handleundo(); } else { errflag = 1; break; } #ifdef HAVE_POLL if (baud && !(lastcmd & ZLE_MENUCMP)) { struct pollfd pfd; int to = cost * costmult / 1000; /* milliseconds */ if (to > 500) to = 500; pfd.fd = SHTTY; pfd.events = POLLIN; if (!kungetct && poll(&pfd, 1, to) <= 0) zrefresh(); } else #else # ifdef HAVE_SELECT if (baud && !(lastcmd & ZLE_MENUCMP)) { FD_SET(SHTTY, &foofd); tv.tv_sec = 0; if ((tv.tv_usec = cost * costmult) > 500000) tv.tv_usec = 500000; if (!kungetct && select(SHTTY+1, (SELECT_ARG_2_T) & foofd, NULL, NULL, &tv) <= 0) zrefresh(); } else # endif #endif if (!kungetct) zrefresh(); } } /* Read a line. It is returned metafied. */ /**/ unsigned char * zleread(char *lp, char *rp, int flags) { unsigned char *s; int old_errno = errno; int tmout = getiparam("TMOUT"); #if defined(HAVE_POLL) || defined(HAVE_SELECT) baud = getiparam("BAUD"); costmult = (baud) ? 3840000L / baud : 0; #endif /* ZLE doesn't currently work recursively. This is needed in case a * * select loop is used in a function called from ZLE. vared handles * * this differently itself. */ if(zleactive) { char *pptbuf; int pptlen; pptbuf = unmetafy(promptexpand(lp, 0, NULL, NULL), &pptlen); write(2, (WRITE_ARG_2_T)pptbuf, pptlen); free(pptbuf); return (unsigned char *)shingetline(); } keytimeout = getiparam("KEYTIMEOUT"); if (!shout) { if (SHTTY != -1) init_shout(); if (!shout) return NULL; /* We could be smarter and default to a system read. */ /* If we just got a new shout, make sure the terminal is set up. */ if (termflags & TERM_UNKNOWN) init_term(); } fflush(shout); fflush(stderr); intr(); insmode = unset(OVERSTRIKE); eofsent = 0; resetneeded = 0; lpromptbuf = promptexpand(lp, 1, NULL, NULL); pmpt_attr = txtchange; rpromptbuf = promptexpand(rp, 1, NULL, NULL); rpmpt_attr = txtchange; free_prepostdisplay(); zlereadflags = flags; histline = curhist; undoing = 1; line = (unsigned char *)zalloc((linesz = 256) + 2); virangeflag = lastcmd = done = cs = ll = mark = 0; vichgflag = 0; viinsbegin = 0; statusline = NULL; selectkeymap("main", 1); selectlocalmap(NULL); fixsuffix(); if ((s = (unsigned char *)getlinknode(bufstack))) { setline((char *)s); zsfree((char *)s); if (stackcs != -1) { cs = stackcs; stackcs = -1; if (cs > ll) cs = ll; } if (stackhist != -1) { histline = stackhist; stackhist = -1; } } initundo(); if (isset(PROMPTCR)) putc('\r', shout); if (tmout) alarm(tmout); zleactive = 1; resetneeded = 1; errflag = retflag = 0; lastcol = -1; initmodifier(&zmod); prefixflag = 0; zlecore(); statusline = NULL; invalidatelist(); trashzle(); free(lpromptbuf); free(rpromptbuf); zleactive = zlereadflags = lastlistlen = 0; alarm(0); freeundo(); if (eofsent) { free(line); line = NULL; } else { line[ll++] = '\n'; line = (unsigned char *) metafy((char *) line, ll, META_REALLOC); } forget_edits(); errno = old_errno; return line; } /* execute a widget */ /**/ int execzlefunc(Thingy func, char **args) { int r = 0, ret = 0; Widget w; if(func->flags & DISABLED) { /* this thingy is not the name of a widget */ char *nm = niceztrdup(func->nam); char *msg = tricat("No such widget `", nm, "'"); zsfree(nm); showmsg(msg); zsfree(msg); ret = 1; } else if((w = func->widget)->flags & (WIDGET_INT|WIDGET_NCOMP)) { int wflags = w->flags; if (keybuf[0] == eofchar && !keybuf[1] && !ll && isfirstln && (zlereadflags & ZLRF_IGNOREEOF)) { showmsg((!islogin) ? "zsh: use 'exit' to exit." : "zsh: use 'logout' to logout."); ret = 1; } else { if(!(wflags & ZLE_KEEPSUFFIX)) removesuffix(); if(!(wflags & ZLE_MENUCMP)) { fixsuffix(); invalidatelist(); } if (wflags & ZLE_LINEMOVE) vilinerange = 1; if(!(wflags & ZLE_LASTCOL)) lastcol = -1; if (wflags & WIDGET_NCOMP) { int atcurhist = histline == curhist; compwidget = w; ret = completecall(args); if (atcurhist) histline = curhist; } else { queue_signals(); ret = w->u.fn(args); unqueue_signals(); } if (!(wflags & ZLE_NOTCOMMAND)) lastcmd = wflags; } r = 1; } else { Shfunc shf = (Shfunc) shfunctab->getnode(shfunctab, w->u.fnnam); Eprog prog = (shf ? shf->funcdef : &dummy_eprog); if(prog == &dummy_eprog) { /* the shell function doesn't exist */ char *nm = niceztrdup(w->u.fnnam); char *msg = tricat("No such shell function `", nm, "'"); zsfree(nm); showmsg(msg); zsfree(msg); ret = 1; } else { int osc = sfcontext, osi = movefd(0), olv = lastval; int oxt = isset(XTRACE); LinkList largs = NULL; if (*args) { largs = newlinklist(); addlinknode(largs, dupstring(w->u.fnnam)); while (*args) addlinknode(largs, dupstring(*args++)); } startparamscope(); makezleparams(0); sfcontext = SFC_WIDGET; opts[XTRACE] = 0; doshfunc(w->u.fnnam, prog, largs, shf->flags, 0); opts[XTRACE] = oxt; ret = lastval; lastval = olv; sfcontext = osc; endparamscope(); lastcmd = 0; r = 1; redup(osi, 0); } } if (r) { unrefthingy(lbindk); refthingy(func); lbindk = func; } return ret; } /* initialise command modifiers */ /**/ static void initmodifier(struct modifier *mp) { mp->flags = 0; mp->mult = 1; mp->tmult = 1; mp->vibuf = 0; } /* Reset command modifiers, unless the command just executed was a prefix. * * Also set zmult, if the multiplier has been amended. */ /**/ static void handleprefixes(void) { if (prefixflag) { prefixflag = 0; if(zmod.flags & MOD_TMULT) { zmod.flags |= MOD_MULT; zmod.mult = zmod.tmult; } } else initmodifier(&zmod); } /* this exports the argument we are currently vared'iting if != NULL */ /**/ mod_export char *varedarg; /* vared: edit (literally) a parameter value */ /**/ static int bin_vared(char *name, char **args, Options ops, int func) { char *s, *t, *ova = varedarg; struct value vbuf; Value v; Param pm = 0; int create = 0, ifl; int type = PM_SCALAR, obreaks = breaks, haso = 0; char *p1 = NULL, *p2 = NULL; FILE *oshout = NULL; if ((interact && unset(USEZLE)) || !strcmp(term, "emacs")) { zwarnnam(name, "ZLE not enabled", NULL, 0); return 1; } if (zleactive) { zwarnnam(name, "ZLE cannot be used recursively (yet)", NULL, 0); return 1; } /* all options are handled as arguments */ while (*args && **args == '-') { while (*++(*args)) switch (**args) { case 'c': /* -c option -- allow creation of the parameter if it doesn't yet exist */ create = 1; break; case 'a': type = PM_ARRAY; break; case 'A': type = PM_HASHED; break; case 'p': /* -p option -- set main prompt string */ if ((*args)[1]) p1 = *args + 1, *args = "" - 1; else if (args[1]) p1 = *(++args), *args = "" - 1; else { zwarnnam(name, "prompt string expected after -%c", NULL, **args); return 1; } break; case 'r': /* -r option -- set right prompt string */ if ((*args)[1]) p2 = *args + 1, *args = "" - 1; else if (args[1]) p2 = *(++args), *args = "" - 1; else { zwarnnam(name, "prompt string expected after -%c", NULL, **args); return 1; } break; case 'h': /* -h option -- enable history */ ops->ind['h'] = 1; break; case 'e': /* -e option -- enable EOF */ ops->ind['e'] = 1; break; default: /* unrecognised option character */ zwarnnam(name, "unknown option: %s", *args, 0); return 1; } args++; } if (type && !create) { zwarnnam(name, "-%s ignored", type == PM_ARRAY ? "a" : "A", 0); } /* check we have a parameter name */ if (!*args) { zwarnnam(name, "missing variable", NULL, 0); return 1; } /* handle non-existent parameter */ s = args[0]; queue_signals(); v = fetchvalue(&vbuf, &s, (!create || type == PM_SCALAR), SCANPM_WANTKEYS|SCANPM_WANTVALS|SCANPM_MATCHMANY); if (!v && !create) { unqueue_signals(); zwarnnam(name, "no such variable: %s", args[0], 0); return 1; } else if (v) { if (v->isarr) { /* Array: check for separators and quote them. */ char **arr = getarrvalue(v), **aptr, **tmparr, **tptr; tptr = tmparr = (char **)zhalloc(sizeof(char *)*(arrlen(arr)+1)); for (aptr = arr; *aptr; aptr++) { int sepcount = 0; /* * See if this word contains a separator character * or backslash */ for (t = *aptr; *t; t++) { if (*t == Meta) { if (isep(t[1] ^ 32)) sepcount++; t++; } else if (isep(*t) || *t == '\\') sepcount++; } if (sepcount) { /* Yes, so allocate enough space to quote it. */ char *newstr, *nptr; newstr = zhalloc(strlen(*aptr)+sepcount+1); /* Go through string quoting separators */ for (t = *aptr, nptr = newstr; *t; ) { if (*t == Meta) { if (isep(t[1] ^ 32)) *nptr++ = '\\'; *nptr++ = *t++; } else if (isep(*t) || *t == '\\') *nptr++ = '\\'; *nptr++ = *t++; } *nptr = '\0'; /* Stick this into the array of words to join up */ *tptr++ = newstr; } else *tptr++ = *aptr; /* No, keep original array element */ } *tptr = NULL; s = sepjoin(tmparr, NULL, 0); } else { s = ztrdup(getstrvalue(v)); } unqueue_signals(); } else if (*s) { unqueue_signals(); zwarnnam(name, "invalid parameter name: %s", args[0], 0); return 1; } else { unqueue_signals(); s = ztrdup(s); } if (SHTTY == -1) { /* need to open /dev/tty specially */ if ((SHTTY = open("/dev/tty", O_RDWR|O_NOCTTY)) == -1) { zwarnnam(name, "can't access terminal", NULL, 0); return 1; } oshout = shout; init_shout(); haso = 1; } /* edit the parameter value */ zpushnode(bufstack, s); varedarg = *args; ifl = isfirstln; if (OPT_ISSET(ops,'h')) hbegin(2); isfirstln = OPT_ISSET(ops,'e'); t = (char *) zleread(p1, p2, OPT_ISSET(ops,'h') ? ZLRF_HISTORY : 0); if (OPT_ISSET(ops,'h')) hend(NULL); isfirstln = ifl; varedarg = ova; if (haso) { fclose(shout); /* close(SHTTY) */ shout = oshout; SHTTY = -1; } if (!t || errflag) { /* error in editing */ errflag = 0; breaks = obreaks; return 1; } /* strip off trailing newline, if any */ if (t[strlen(t) - 1] == '\n') t[strlen(t) - 1] = '\0'; /* final assignment of parameter value */ if (create) { unsetparam(args[0]); createparam(args[0], type); } queue_signals(); pm = (Param) paramtab->getnode(paramtab, args[0]); if (pm && (PM_TYPE(pm->flags) & (PM_ARRAY|PM_HASHED))) { char **a; /* * Use spacesplit with fourth argument 1: identify quoted separators, * and unquote. This duplicates the string, so we still need to free. */ a = spacesplit(t, 1, 0, 1); zsfree(t); if (PM_TYPE(pm->flags) == PM_ARRAY) setaparam(args[0], a); else sethparam(args[0], a); } else setsparam(args[0], t); unqueue_signals(); return 0; } /**/ int describekeybriefly(char **args) { char *seq, *str, *msg, *is; Thingy func; if (statusline) return 1; clearlist = 1; statusline = "Describe key briefly: _"; statusll = strlen(statusline); zrefresh(); seq = getkeymapcmd(curkeymap, &func, &str); statusline = NULL; if(!*seq) return 1; msg = bindztrdup(seq); msg = appstr(msg, " is "); if (!func) is = bindztrdup(str); else is = niceztrdup(func->nam); msg = appstr(msg, is); zsfree(is); showmsg(msg); zsfree(msg); return 0; } #define MAXFOUND 4 struct findfunc { Thingy func; int found; char *msg; }; /**/ static void scanfindfunc(char *seq, Thingy func, char *str, void *magic) { struct findfunc *ff = magic; if(func != ff->func) return; if (!ff->found++) ff->msg = appstr(ff->msg, " is on"); if(ff->found <= MAXFOUND) { char *b = bindztrdup(seq); ff->msg = appstr(ff->msg, " "); ff->msg = appstr(ff->msg, b); zsfree(b); } } /**/ int whereis(char **args) { struct findfunc ff; if (!(ff.func = executenamedcommand("Where is: "))) return 1; ff.found = 0; ff.msg = niceztrdup(ff.func->nam); scankeymap(curkeymap, 1, scanfindfunc, &ff); if (!ff.found) ff.msg = appstr(ff.msg, " is not bound to any key"); else if(ff.found > MAXFOUND) ff.msg = appstr(ff.msg, " et al"); showmsg(ff.msg); zsfree(ff.msg); return 0; } /**/ int recursiveedit(char **args) { int locerror; zlecore(); locerror = errflag; errflag = done = 0; return locerror; } /**/ mod_export void trashzle(void) { if (zleactive) { /* This zrefresh() is just to get the main editor display right and * * get the cursor in the right place. For that reason, we disable * * list display (which would otherwise result in infinite * * recursion [at least, it would if zrefresh() didn't have its * * extra `inlist' check]). */ int sl = showinglist; showinglist = 0; trashedzle = 1; zrefresh(); showinglist = sl; moveto(nlnct, 0); if (clearflag && tccan(TCCLEAREOD)) { tcout(TCCLEAREOD); clearflag = listshown = 0; } if (postedit) fprintf(shout, "%s", postedit); fflush(shout); resetneeded = 1; if (!(zlereadflags & ZLRF_NOSETTY)) settyinfo(&shttyinfo); } if (errflag) kungetct = 0; } /* Hook functions. Used to allow access to zle parameters if zle is * active. */ static int zlebeforetrap(Hookdef dummy, void *dat) { if (zleactive) { startparamscope(); makezleparams(1); } return 0; } static int zleaftertrap(Hookdef dummy, void *dat) { if (zleactive) endparamscope(); return 0; } static struct builtin bintab[] = { BUILTIN("bindkey", 0, bin_bindkey, 0, -1, 0, "evaM:ldDANmrsLRp", NULL), BUILTIN("vared", 0, bin_vared, 1, 7, 0, NULL, NULL), BUILTIN("zle", 0, bin_zle, 0, -1, 0, "aAcCDFgGIKlLmMNRU", NULL), }; /* The order of the entries in this table has to match the *HOOK * macros in zle.h */ /**/ mod_export struct hookdef zlehooks[] = { HOOKDEF("list_matches", NULL, 0), HOOKDEF("complete", NULL, 0), HOOKDEF("before_complete", NULL, 0), HOOKDEF("after_complete", NULL, 0), HOOKDEF("accept_completion", NULL, 0), HOOKDEF("reverse_menu", NULL, 0), HOOKDEF("invalidate_list", NULL, 0), }; /**/ int setup_(Module m) { /* Set up editor entry points */ trashzleptr = trashzle; refreshptr = zrefresh; spaceinlineptr = spaceinline; zlereadptr = zleread; zlesetkeymapptr = zlesetkeymap; getkeyptr = getkey; /* initialise the thingies */ init_thingies(); lbindk = NULL; /* miscellaneous initialisations */ stackhist = stackcs = -1; kungetbuf = (char *) zalloc(kungetsz = 32); comprecursive = 0; rdstrs = NULL; /* initialise the keymap system */ init_keymaps(); varedarg = NULL; incompfunc = incompctlfunc = hascompmod = 0; hascompwidgets = 0; clwords = (char **) zcalloc((clwsize = 16) * sizeof(char *)); return 0; } /**/ int boot_(Module m) { addhookfunc("before_trap", (Hookfn) zlebeforetrap); addhookfunc("after_trap", (Hookfn) zleaftertrap); addbuiltins(m->nam, bintab, sizeof(bintab)/sizeof(*bintab)); addhookdefs(m->nam, zlehooks, sizeof(zlehooks)/sizeof(*zlehooks)); return 0; } /**/ int cleanup_(Module m) { if(zleactive) { zerrnam(m->nam, "can't unload the zle module while zle is active", NULL, 0); return 1; } deletehookfunc("before_trap", (Hookfn) zlebeforetrap); deletehookfunc("after_trap", (Hookfn) zleaftertrap); deletebuiltins(m->nam, bintab, sizeof(bintab)/sizeof(*bintab)); deletehookdefs(m->nam, zlehooks, sizeof(zlehooks)/sizeof(*zlehooks)); return 0; } /**/ int finish_(Module m) { int i; unrefthingy(lbindk); cleanup_keymaps(); deletehashtable(thingytab); zfree(vichgbuf, vichgbufsz); zfree(kungetbuf, kungetsz); free_isrch_spots(); if (rdstrs) freelinklist(rdstrs, freestr); zfree(cutbuf.buf, cutbuf.len); if (kring) { for(i = kringsize; i--; ) zfree(kring[i].buf, kring[i].len); zfree(kring, kringsize * sizeof(struct cutbuffer)); } for(i = 35; i--; ) zfree(vibuf[i].buf, vibuf[i].len); /* editor entry points */ trashzleptr = noop_function; refreshptr = noop_function; spaceinlineptr = noop_function_int; zlereadptr = fallback_zleread; zlesetkeymapptr= noop_function_int; getkeyptr = NULL; zfree(clwords, clwsize * sizeof(char *)); return 0; }