/* bind.c * * This file is for functions having to do with key bindings, * descriptions, help commands and startup file. * * Written 11-feb-86 by Daniel Lawrence * Modified by Petri Kutvonen */ #include #include "estruct.h" #include "edef.h" #include "efunc.h" #include "epath.h" #include "line.h" #include "util.h" int help(int f, int n) { /* give me some help!!!! bring up a fake buffer and read the help file into it with view mode */ struct window *wp; /* scaning pointer to windows */ struct buffer *bp; /* buffer pointer to help */ char *fname = NULL; /* ptr to file returned by flook() */ /* first check if we are already here */ bp = bfind("emacs.hlp", FALSE, BFINVS); if (bp == NULL) { fname = flook(pathname[1], FALSE); if (fname == NULL) { mlwrite("(Help file is not online)"); return FALSE; } } /* split the current window to make room for the help stuff */ if (splitwind(FALSE, 1) == FALSE) return FALSE; if (bp == NULL) { /* and read the stuff in */ if (getfile(fname, FALSE) == FALSE) return FALSE; } else swbuffer(bp); /* make this window in VIEW mode, update all mode lines */ curwp->w_bufp->b_mode |= MDVIEW; curwp->w_bufp->b_flag |= BFINVS; wp = wheadp; while (wp != NULL) { wp->w_flag |= WFMODE; wp = wp->w_wndp; } return TRUE; } int deskey(int f, int n) { /* describe the command for a certain key */ int c; /* key to describe */ char *ptr; /* string pointer to scan output strings */ char outseq[NSTRING]; /* output buffer for command sequence */ /* prompt the user to type us a key to describe */ mlwrite(": describe-key "); /* get the command sequence to describe change it to something we can print as well */ cmdstr(c = getckey(FALSE), &outseq[0]); /* and dump it out */ ostring(outseq); ostring(" "); /* find the right ->function */ if ((ptr = getfname(getbind(c))) == NULL) ptr = "Not Bound"; /* output the command sequence */ ostring(ptr); return TRUE; } /* * bindtokey: * add a new key to the key binding table * * int f, n; command arguments [IGNORED] */ int bindtokey(int f, int n) { unsigned int c; /* command key to bind */ fn_t kfunc; /* ptr to the requested function to bind to */ struct key_tab *ktp; /* pointer into the command table */ int found; /* matched command flag */ char outseq[80]; /* output buffer for keystroke sequence */ /* prompt the user to type in a key to bind */ mlwrite(": bind-to-key "); /* get the function name to bind it to */ kfunc = getname(); if (kfunc == NULL) { mlwrite("(No such function)"); return FALSE; } ostring(" "); /* get the command sequence to bind */ c = getckey((kfunc == metafn) || (kfunc == cex) || (kfunc == unarg) || (kfunc == ctrlg)); /* change it to something we can print as well */ cmdstr(c, &outseq[0]); /* and dump it out */ ostring(outseq); /* if the function is a prefix key */ if (kfunc == metafn || kfunc == cex || kfunc == unarg || kfunc == ctrlg) { /* search for an existing binding for the prefix key */ ktp = &keytab[0]; found = FALSE; while (ktp->k_fp != NULL) { if (ktp->k_fp == kfunc) unbindchar(ktp->k_code); ++ktp; } /* reset the appropriate global prefix variable */ if (kfunc == metafn) metac = c; if (kfunc == cex) ctlxc = c; if (kfunc == unarg) reptc = c; if (kfunc == ctrlg) abortc = c; } /* search the table to see if it exists */ ktp = &keytab[0]; found = FALSE; while (ktp->k_fp != NULL) { if (ktp->k_code == c) { found = TRUE; break; } ++ktp; } if (found) { /* it exists, just change it then */ ktp->k_fp = kfunc; } else { /* otherwise we need to add it to the end */ /* if we run out of binding room, bitch */ if (ktp >= &keytab[NBINDS]) { mlwrite("Binding table FULL!"); return FALSE; } ktp->k_code = c; /* add keycode */ ktp->k_fp = kfunc; /* and the function pointer */ ++ktp; /* and make sure the next is null */ ktp->k_code = 0; ktp->k_fp = NULL; } return TRUE; } /* * unbindkey: * delete a key from the key binding table * * int f, n; command arguments [IGNORED] */ int unbindkey(int f, int n) { int c; /* command key to unbind */ char outseq[80]; /* output buffer for keystroke sequence */ /* prompt the user to type in a key to unbind */ mlwrite(": unbind-key "); /* get the command sequence to unbind */ c = getckey(FALSE); /* get a command sequence */ /* change it to something we can print as well */ cmdstr(c, &outseq[0]); /* and dump it out */ ostring(outseq); /* if it isn't bound, bitch */ if (unbindchar(c) == FALSE) { mlwrite("(Key not bound)"); return FALSE; } return TRUE; } /* * unbindchar() * * int c; command key to unbind */ int unbindchar(int c) { struct key_tab *ktp; /* pointer into the command table */ struct key_tab *sktp; /* saved pointer into the command table */ int found; /* matched command flag */ /* search the table to see if the key exists */ ktp = &keytab[0]; found = FALSE; while (ktp->k_fp != NULL) { if (ktp->k_code == c) { found = TRUE; break; } ++ktp; } /* if it isn't bound, bitch */ if (!found) return FALSE; /* save the pointer and scan to the end of the table */ sktp = ktp; while (ktp->k_fp != NULL) ++ktp; --ktp; /* backup to the last legit entry */ /* copy the last entry to the current one */ sktp->k_code = ktp->k_code; sktp->k_fp = ktp->k_fp; /* null out the last one */ ktp->k_code = 0; ktp->k_fp = NULL; return TRUE; } /* describe bindings * bring up a fake buffer and list the key bindings * into it with view mode */ int desbind(int f, int n) #if APROP { buildlist(TRUE, ""); return TRUE; } int apro(int f, int n) { /* Apropos (List functions that match a substring) */ char mstring[NSTRING]; /* string to match cmd names to */ int status; /* status return */ status = mlreply("Apropos string: ", mstring, NSTRING - 1); if (status != TRUE) return status; return buildlist(FALSE, mstring); } /* * build a binding list (limited or full) * * int type; true = full list, false = partial list * char *mstring; match string if a partial list */ int buildlist(int type, char *mstring) #endif { struct window *wp; /* scanning pointer to windows */ struct key_tab *ktp; /* pointer into the command table */ struct name_bind *nptr; /* pointer into the name binding table */ struct buffer *bp; /* buffer to put binding list into */ int cpos; /* current position to use in outseq */ char outseq[80]; /* output buffer for keystroke sequence */ /* split the current window to make room for the binding list */ if (splitwind(FALSE, 1) == FALSE) return FALSE; /* and get a buffer for it */ bp = bfind("*Binding list*", TRUE, 0); if (bp == NULL || bclear(bp) == FALSE) { mlwrite("Can not display binding list"); return FALSE; } /* let us know this is in progress */ mlwrite("(Building binding list)"); /* disconect the current buffer */ if (--curbp->b_nwnd == 0) { /* Last use. */ curbp->b_dotp = curwp->w_dotp; curbp->b_doto = curwp->w_doto; curbp->b_markp = curwp->w_markp; curbp->b_marko = curwp->w_marko; } /* connect the current window to this buffer */ curbp = bp; /* make this buffer current in current window */ bp->b_mode = 0; /* no modes active in binding list */ bp->b_nwnd++; /* mark us as more in use */ wp = curwp; wp->w_bufp = bp; wp->w_linep = bp->b_linep; wp->w_flag = WFHARD | WFFORCE; wp->w_dotp = bp->b_dotp; wp->w_doto = bp->b_doto; wp->w_markp = NULL; wp->w_marko = 0; /* build the contents of this window, inserting it line by line */ nptr = &names[0]; while (nptr->n_func != NULL) { /* add in the command name */ strcpy(outseq, nptr->n_name); cpos = strlen(outseq); #if APROP /* if we are executing an apropos command..... */ if (type == FALSE && /* and current string doesn't include the search string */ strinc(outseq, mstring) == FALSE) goto fail; #endif /* search down any keys bound to this */ ktp = &keytab[0]; while (ktp->k_fp != NULL) { if (ktp->k_fp == nptr->n_func) { /* padd out some spaces */ while (cpos < 28) outseq[cpos++] = ' '; /* add in the command sequence */ cmdstr(ktp->k_code, &outseq[cpos]); strcat(outseq, "\n"); /* and add it as a line into the buffer */ if (linstr(outseq) != TRUE) return FALSE; cpos = 0; /* and clear the line */ } ++ktp; } /* if no key was bound, we need to dump it anyway */ if (cpos > 0) { outseq[cpos++] = '\n'; outseq[cpos] = 0; if (linstr(outseq) != TRUE) return FALSE; } fail: /* and on to the next name */ ++nptr; } curwp->w_bufp->b_mode |= MDVIEW; /* put this buffer view mode */ curbp->b_flag &= ~BFCHG; /* don't flag this as a change */ wp->w_dotp = lforw(bp->b_linep); /* back to the beginning */ wp->w_doto = 0; wp = wheadp; /* and update ALL mode lines */ while (wp != NULL) { wp->w_flag |= WFMODE; wp = wp->w_wndp; } mlwrite(""); /* clear the mode line */ return TRUE; } #if APROP /* * does source include sub? * * char *source; string to search in * char *sub; substring to look for */ int strinc(char *source, char *sub) { char *sp; /* ptr into source */ char *nxtsp; /* next ptr into source */ char *tp; /* ptr into substring */ /* for each character in the source string */ sp = source; while (*sp) { tp = sub; nxtsp = sp; /* is the substring here? */ while (*tp) { if (*nxtsp++ != *tp) break; else tp++; } /* yes, return a success */ if (*tp == 0) return TRUE; /* no, onward */ sp++; } return FALSE; } #endif /* * get a command key sequence from the keyboard * * int mflag; going for a meta sequence? */ unsigned int getckey(int mflag) { unsigned int c; /* character fetched */ char tok[NSTRING]; /* command incoming */ /* check to see if we are executing a command line */ if (clexec) { macarg(tok); /* get the next token */ return stock(tok); } /* or the normal way */ if (mflag) c = get1key(); else c = getcmd(); return c; } /* * execute the startup file * * char *sfname; name of startup file (null if default) */ int startup(char *sfname) { char *fname; /* resulting file name to execute */ /* look up the startup file */ if (*sfname != 0) fname = flook(sfname, TRUE); else fname = flook(pathname[0], TRUE); /* if it isn't around, don't sweat it */ if (fname == NULL) return TRUE; /* otherwise, execute the sucker */ return dofile(fname); } /* * Look up the existance of a file along the normal or PATH * environment variable. Look first in the HOME directory if * asked and possible * * char *fname; base file name to search for * int hflag; Look in the HOME environment variable first? */ char *flook(char *fname, int hflag) { char *home; /* path to home directory */ char *path; /* environmental PATH variable */ char *sp; /* pointer into path spec */ int i; /* index */ static char fspec[NSTRING]; /* full path spec to search */ #if ENVFUNC if (hflag) { home = getenv("HOME"); if (home != NULL) { /* build home dir file spec */ strcpy(fspec, home); strcat(fspec, "/"); strcat(fspec, fname); /* and try it out */ if (ffropen(fspec) == FIOSUC) { ffclose(); return fspec; } } } #endif /* always try the current directory first */ if (ffropen(fname) == FIOSUC) { ffclose(); return fname; } #if ENVFUNC /* get the PATH variable */ path = getenv("PATH"); if (path != NULL) while (*path) { /* build next possible file spec */ sp = fspec; while (*path && (*path != PATHCHR)) *sp++ = *path++; /* add a terminating dir separator if we need it */ if (sp != fspec) *sp++ = '/'; *sp = 0; strcat(fspec, fname); /* and try it out */ if (ffropen(fspec) == FIOSUC) { ffclose(); return fspec; } if (*path == PATHCHR) ++path; } #endif /* look it up via the old table method */ for (i = 2; i < ARRAY_SIZE(pathname); i++) { strcpy(fspec, pathname[i]); strcat(fspec, fname); /* and try it out */ if (ffropen(fspec) == FIOSUC) { ffclose(); return fspec; } } return NULL; /* no such luck */ } /* * change a key command to a string we can print out * * int c; sequence to translate * char *seq; destination string for sequence */ void cmdstr(int c, char *seq) { char *ptr; /* pointer into current position in sequence */ ptr = seq; /* apply meta sequence if needed */ if (c & META) { *ptr++ = 'M'; *ptr++ = '-'; } /* apply ^X sequence if needed */ if (c & CTLX) { *ptr++ = '^'; *ptr++ = 'X'; } /* apply SPEC sequence if needed */ if (c & SPEC) { *ptr++ = 'F'; *ptr++ = 'N'; } /* apply control sequence if needed */ if (c & CONTROL) { *ptr++ = '^'; } /* and output the final sequence */ *ptr++ = c & 255; /* strip the prefixes */ *ptr = 0; /* terminate the string */ } /* * This function looks a key binding up in the binding table * * int c; key to find what is bound to it */ int (*getbind(int c))(int, int) { struct key_tab *ktp; ktp = &keytab[0]; /* Look in key table. */ while (ktp->k_fp != NULL) { if (ktp->k_code == c) return ktp->k_fp; ++ktp; } /* no such binding */ return NULL; } /* * getfname: * This function takes a ptr to function and gets the name * associated with it. */ char *getfname(fn_t func) { struct name_bind *nptr; /* pointer into the name binding table */ /* skim through the table, looking for a match */ nptr = &names[0]; while (nptr->n_func != NULL) { if (nptr->n_func == func) return nptr->n_name; ++nptr; } return NULL; } /* * match fname to a function in the names table * and return any match or NULL if none * * char *fname; name to attempt to match */ int (*fncmatch(char *fname)) (int, int) { struct name_bind *ffp; /* pointer to entry in name binding table */ /* scan through the table, returning any match */ ffp = &names[0]; while (ffp->n_func != NULL) { if (strcmp(fname, ffp->n_name) == 0) return ffp->n_func; ++ffp; } return NULL; } /* * stock: * String key name TO Command Key * * char *keyname; name of key to translate to Command key form */ unsigned int stock(char *keyname) { unsigned int c; /* key sequence to return */ /* parse it up */ c = 0; /* first, the META prefix */ if (*keyname == 'M' && *(keyname + 1) == '-') { c = META; keyname += 2; } /* next the function prefix */ if (*keyname == 'F' && *(keyname + 1) == 'N') { c |= SPEC; keyname += 2; } /* control-x as well... (but not with FN) */ if (*keyname == '^' && *(keyname + 1) == 'X' && !(c & SPEC)) { c |= CTLX; keyname += 2; } /* a control char? */ if (*keyname == '^' && *(keyname + 1) != 0) { c |= CONTROL; ++keyname; } if (*keyname < 32) { c |= CONTROL; *keyname += 'A'; } /* make sure we are not lower case (not with function keys) */ if (*keyname >= 'a' && *keyname <= 'z' && !(c & SPEC)) *keyname -= 32; /* the final sequence... */ c |= *keyname; return c; } /* * string key name to binding name.... * * char *skey; name of keey to get binding for */ char *transbind(char *skey) { char *bindname; bindname = getfname(getbind(stock(skey))); if (bindname == NULL) bindname = "ERROR"; return bindname; }