/* * Copyright (C) 1996-2000,2002,2010-2011 Michael R. Elkins * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #if HAVE_CONFIG_H # include "config.h" #endif #include "mutt.h" #include "mutt_menu.h" #include "mutt_curses.h" #include "keymap.h" #include "mapping.h" #include "mutt_crypt.h" #ifdef USE_IMAP #include "imap/imap.h" #endif #ifdef USE_INOTIFY #include "monitor.h" #endif #include #include #include #include "functions.h" const struct mapping_t Menus[] = { { "alias", MENU_ALIAS }, { "attach", MENU_ATTACH }, { "browser", MENU_FOLDER }, { "compose", MENU_COMPOSE }, { "editor", MENU_EDITOR }, { "list", MENU_LIST }, { "index", MENU_MAIN }, { "pager", MENU_PAGER }, { "postpone", MENU_POST }, { "pgp", MENU_PGP }, { "smime", MENU_SMIME }, #ifdef CRYPT_BACKEND_GPGME { "key_select_pgp", MENU_KEY_SELECT_PGP }, { "key_select_smime", MENU_KEY_SELECT_SMIME }, #endif #ifdef MIXMASTER { "mix", MENU_MIX }, #endif { "query", MENU_QUERY }, { "generic", MENU_GENERIC }, { NULL, 0 } }; #define mutt_check_menu(s) mutt_getvaluebyname(s, Menus) static struct mapping_t KeyNames[] = { { "", KEY_PPAGE }, { "", KEY_NPAGE }, { "", KEY_UP }, { "", KEY_DOWN }, { "", KEY_RIGHT }, { "", KEY_LEFT }, { "", KEY_DC }, { "",KEY_BACKSPACE }, { "", KEY_IC }, { "", KEY_HOME }, { "", KEY_END }, { "", '\n' }, { "", '\r' }, #ifdef KEY_ENTER { "", KEY_ENTER }, #else { "", '\n' }, #endif { "", '\033' }, { "", '\t' }, { "", ' ' }, #ifdef KEY_BTAB { "", KEY_BTAB }, #endif #ifdef KEY_NEXT { "", KEY_NEXT }, #endif #ifdef NCURSES_VERSION /* extensions supported by ncurses. values are filled in during initialization */ /* CTRL+key */ { "", -1 }, { "", -1 }, { "", -1 }, { "", -1 }, { "", -1 }, { "", -1 }, { "", -1 }, { "", -1 }, /* SHIFT+key */ { "", -1 }, { "", -1 }, { "", -1 }, { "", -1 }, { "", -1 }, { "", -1 }, { "", -1 }, { "", -1 }, /* ALT+key */ { "", -1 }, { "", -1 }, { "", -1 }, { "", -1 }, { "", -1 }, { "", -1 }, { "", -1 }, { "", -1 }, #endif /* NCURSES_VERSION */ { NULL, 0 } }; /* contains the last key the user pressed */ int LastKey; struct keymap_t *Keymaps[MENU_MAX]; static struct keymap_t *allocKeys (int len, keycode_t *keys) { struct keymap_t *p; p = safe_calloc (1, sizeof (struct keymap_t)); p->len = len; p->keys = safe_malloc (len * sizeof (keycode_t)); memcpy (p->keys, keys, len * sizeof (keycode_t)); return (p); } static int parse_fkey(char *s) { char *t; int n = 0; if (s[0] != '<' || ascii_tolower(s[1]) != 'f') return -1; for (t = s + 2; *t && isdigit((unsigned char) *t); t++) { n *= 10; n += *t - '0'; } if (*t != '>') return -1; else return n; } /* * This function parses the string and uses the octal value as the key * to bind. */ static int parse_keycode (const char *s) { char *endChar; long int result = strtol(s+1, &endChar, 8); /* allow trailing whitespace, eg. < 1001 > */ while (ISSPACE(*endChar)) ++endChar; /* negative keycodes don't make sense, also detect overflow */ if (*endChar != '>' || result < 0 || result == LONG_MAX) { return -1; } return result; } static int parsekeys (const char *str, keycode_t *d, int max) { int n, len = max; char buff[SHORT_STRING]; char c; char *s, *t; strfcpy(buff, str, sizeof(buff)); s = buff; while (*s && len) { *d = '\0'; if (*s == '<' && (t = strchr(s, '>'))) { t++; c = *t; *t = '\0'; if ((n = mutt_getvaluebyname (s, KeyNames)) != -1) { s = t; *d = n; } else if ((n = parse_fkey(s)) > 0) { s = t; *d = KEY_F (n); } else if ((n = parse_keycode(s)) > 0) { s = t; *d = n; } *t = c; } if (!*d) { *d = (unsigned char)*s; s++; } d++; len--; } return (max - len); } /* insert a key sequence into the specified map. the map is sorted by ASCII * value (lowest to highest) */ void km_bind (char *s, int menu, int op, char *macro, char *descr) { struct keymap_t *map, *tmp, *last = NULL, *next; keycode_t buf[MAX_SEQ]; int len, pos = 0, lastpos = 0; len = parsekeys (s, buf, MAX_SEQ); map = allocKeys (len, buf); map->op = op; map->macro = safe_strdup (macro); map->descr = safe_strdup (descr); tmp = Keymaps[menu]; while (tmp) { if (pos >= len || pos >= tmp->len) { /* map and tmp match, but have different lengths, so overwrite */ do { len = tmp->eq; next = tmp->next; FREE (&tmp->macro); FREE (&tmp->keys); FREE (&tmp->descr); FREE (&tmp); tmp = next; } while (tmp && len >= pos); map->eq = len; break; } else if (buf[pos] == tmp->keys[pos]) pos++; else if (buf[pos] < tmp->keys[pos]) { /* found location to insert between last and tmp */ map->eq = pos; break; } else /* buf[pos] > tmp->keys[pos] */ { last = tmp; lastpos = pos; if (pos > tmp->eq) pos = tmp->eq; tmp = tmp->next; } } map->next = tmp; if (last) { last->next = map; last->eq = lastpos; } else Keymaps[menu] = map; } void km_bindkey (char *s, int menu, int op) { km_bind (s, menu, op, NULL, NULL); } static int get_op (const struct menu_func_op_t *bindings, const char *start, size_t len) { int i; for (i = 0; bindings[i].name; i++) { if (!ascii_strncasecmp (start, bindings[i].name, len) && mutt_strlen (bindings[i].name) == len) return bindings[i].op; } return OP_NULL; } static char *get_func (const struct menu_func_op_t *bindings, int op) { int i; for (i = 0; bindings[i].name; i++) { if (bindings[i].op == op) return bindings[i].name; } return NULL; } /* Parses s for syntax and adds the whole sequence to * either the macro or unget buffer. This function is invoked by the next * two defines below. */ static void generic_tokenize_push_string (char *s, void (*generic_push) (int, int)) { char *pp, *p = s + mutt_strlen (s) - 1; size_t l; int i, op = OP_NULL; while (p >= s) { /* if we see something like "", look to see if it is a real function name and return the corresponding value */ if (*p == '>') { for (pp = p - 1; pp >= s && *pp != '<'; pp--) ; if (pp >= s) { if ((i = parse_fkey (pp)) > 0) { generic_push (KEY_F (i), 0); p = pp - 1; continue; } l = p - pp + 1; for (i = 0; KeyNames[i].name; i++) { if (!ascii_strncasecmp (pp, KeyNames[i].name, l)) break; } if (KeyNames[i].name) { /* found a match */ generic_push (KeyNames[i].value, 0); p = pp - 1; continue; } /* See if it is a valid command * skip the '<' and the '>' when comparing */ for (i = 0; Menus[i].name; i++) { const struct menu_func_op_t *binding = km_get_table (Menus[i].value); if (binding) { op = get_op (binding, pp + 1, l - 2); if (op != OP_NULL) break; } } if (op != OP_NULL) { generic_push (0, op); p = pp - 1; continue; } } } generic_push ((unsigned char)*p--, 0); /* independent 8 bits chars */ } } /* This should be used for macros, push, and exec commands only. */ #define tokenize_push_macro_string(s) generic_tokenize_push_string (s, mutt_push_macro_event) /* This should be used for other unget operations. */ #define tokenize_unget_string(s) generic_tokenize_push_string (s, mutt_unget_event) static int retry_generic (int menu, keycode_t *keys, int keyslen, int lastkey) { if (menu != MENU_EDITOR && menu != MENU_GENERIC && menu != MENU_PAGER) { if (lastkey) mutt_unget_event (lastkey, 0); for (; keyslen; keyslen--) mutt_unget_event (keys[keyslen - 1], 0); return (km_dokey (MENU_GENERIC)); } if (menu != MENU_EDITOR) { /* probably a good idea to flush input here so we can abort macros */ mutt_flushinp (); } return OP_NULL; } /* return values: * >0 function to execute * OP_NULL no function bound to key sequence * -1 error occurred while reading input * -2 a timeout or sigwinch occurred */ int km_dokey (int menu) { event_t tmp; struct keymap_t *map = Keymaps[menu]; int pos = 0; int n = 0; int i; if (!map) return (retry_generic (menu, NULL, 0, 0)); FOREVER { i = Timeout > 0 ? Timeout : 60; #ifdef USE_IMAP /* keepalive may need to run more frequently than Timeout allows */ if (ImapKeepalive) { if (ImapKeepalive >= i) imap_keepalive (); else while (ImapKeepalive && ImapKeepalive < i) { mutt_getch_timeout (ImapKeepalive * 1000); tmp = mutt_getch (); mutt_getch_timeout (-1); /* If a timeout was not received, or the window was resized, exit the * loop now. Otherwise, continue to loop until reaching a total of * $timeout seconds. */ #ifdef USE_INOTIFY if (tmp.ch != -2 || SigWinch || MonitorFilesChanged) #else if (tmp.ch != -2 || SigWinch) #endif goto gotkey; i -= ImapKeepalive; imap_keepalive (); } } #endif mutt_getch_timeout (i * 1000); tmp = mutt_getch(); mutt_getch_timeout (-1); #ifdef USE_IMAP gotkey: #endif /* hide timeouts, but not window resizes, from the line editor. */ if (menu == MENU_EDITOR && tmp.ch == -2 && !SigWinch) continue; LastKey = tmp.ch; if (LastKey < 0) return LastKey; /* do we have an op already? */ if (tmp.op) { char *func = NULL; const struct menu_func_op_t *bindings; /* is this a valid op for this menu? */ if ((bindings = km_get_table (menu)) && (func = get_func (bindings, tmp.op))) return tmp.op; if (menu == MENU_EDITOR && get_func (OpEditor, tmp.op)) return tmp.op; if (menu != MENU_EDITOR && menu != MENU_PAGER && menu != MENU_GENERIC) { /* check generic menu */ bindings = OpGeneric; if ((func = get_func (bindings, tmp.op))) return tmp.op; } /* Sigh. Valid function but not in this context. * Find the literal string and push it back */ for (i = 0; Menus[i].name; i++) { bindings = km_get_table (Menus[i].value); if (bindings) { func = get_func (bindings, tmp.op); if (func) { mutt_unget_event ('>', 0); mutt_unget_string (func); mutt_unget_event ('<', 0); break; } } } /* continue to chew */ if (func) continue; } /* Nope. Business as usual */ while (LastKey > map->keys[pos]) { if (pos > map->eq || !map->next) return (retry_generic (menu, map->keys, pos, LastKey)); map = map->next; } if (LastKey != map->keys[pos]) return (retry_generic (menu, map->keys, pos, LastKey)); if (++pos == map->len) { if (map->op != OP_MACRO) return map->op; /* OPTIGNOREMACROEVENTS turns off processing the MacroEvents buffer * in mutt_getch(). Generating new macro events during that time would * result in undesired behavior once the option is turned off. * * Originally this returned -1, however that results in an unbuffered * username or password prompt being aborted. Returning OP_NULL allows * _mutt_enter_string() to display the keybinding pressed instead. * * It may be unexpected for a macro's keybinding to be returned, * but less so than aborting the prompt. */ if (option (OPTIGNOREMACROEVENTS)) { return OP_NULL; } if (n++ == 10) { mutt_flushinp (); mutt_error _("Macro loop detected."); return -1; } tokenize_push_macro_string (map->macro); map = Keymaps[menu]; pos = 0; } } /* not reached */ } static void create_bindings (const struct menu_op_seq_t *map, int menu) { int i; for (i = 0 ; map[i].op ; i++) if (map[i].seq) km_bindkey (map[i].seq, menu, map[i].op); } static const char *km_keyname (int c) { static char buf[10]; const char *p; if ((p = mutt_getnamebyvalue (c, KeyNames))) return p; if (c < 256 && c > -128 && iscntrl ((unsigned char) c)) { if (c < 0) c += 256; if (c < 128) { buf[0] = '^'; buf[1] = (c + '@') & 0x7f; buf[2] = 0; } else snprintf (buf, sizeof (buf), "\\%d%d%d", c >> 6, (c >> 3) & 7, c & 7); } else if (c >= KEY_F0 && c < KEY_F(256)) /* this maximum is just a guess */ sprintf (buf, "", c - KEY_F0); else if (c < 256 && c >= -128 && IsPrint (c)) snprintf (buf, sizeof (buf), "%c", (unsigned char) c); else snprintf (buf, sizeof (buf), "<%ho>", (unsigned short) c); return (buf); } int km_expand_key (char *s, size_t len, struct keymap_t *map) { size_t l; int p = 0; if (!map) return (0); FOREVER { strfcpy (s, km_keyname (map->keys[p]), len); len -= (l = mutt_strlen (s)); if (++p >= map->len || !len) return (1); s += l; } /* not reached */ } struct keymap_t *km_find_func (int menu, int func) { struct keymap_t *map = Keymaps[menu]; for (; map; map = map->next) if (map->op == func) break; return (map); } #ifdef NCURSES_VERSION struct extkey { const char *name; const char *sym; }; static const struct extkey ExtKeys[] = { { "", "kUP5" }, { "", "kUP" }, { "", "kUP3" }, { "", "kDN" }, { "", "kDN3" }, { "", "kDN5" }, { "", "kRIT5" }, { "", "kRIT" }, { "", "kRIT3" }, { "", "kLFT" }, { "", "kLFT3" }, { "", "kLFT5" }, { "", "kHOM" }, { "", "kHOM3" }, { "", "kHOM5" }, { "", "kEND" }, { "", "kEND3" }, { "", "kEND5" }, { "", "kNXT" }, { "", "kNXT3" }, { "", "kNXT5" }, { "", "kPRV" }, { "", "kPRV3" }, { "", "kPRV5" }, { 0, 0 } }; /* Look up Mutt's name for a key and find the ncurses extended name for it */ static const char *find_ext_name(const char *key) { int j; for (j = 0; ExtKeys[j].name; ++j) { if (strcasecmp(key, ExtKeys[j].name) == 0) return ExtKeys[j].sym; } return 0; } #endif /* NCURSES_VERSION */ /* Determine the keycodes for ncurses extended keys and fill in the KeyNames array. * * This function must be called *after* initscr(), or tigetstr() returns -1. This * creates a bit of a chicken-and-egg problem because km_init() is called prior to * start_curses(). This means that the default keybindings can't include any of the * extended keys because they won't be defined until later. */ void init_extended_keys(void) { #ifdef NCURSES_VERSION int j; use_extended_names(TRUE); for (j = 0; KeyNames[j].name; ++j) { if (KeyNames[j].value == -1) { const char *keyname = find_ext_name(KeyNames[j].name); if (keyname) { const char *s = mutt_tigetstr (keyname); if (s && (long)(s) != -1) { int code = key_defined(s); if (code > 0) KeyNames[j].value = code; } } } } #endif } void km_init (void) { memset (Keymaps, 0, sizeof (struct keymap_t *) * MENU_MAX); create_bindings (AttachDefaultBindings, MENU_ATTACH); create_bindings (BrowserDefaultBindings, MENU_FOLDER); create_bindings (ComposeDefaultBindings, MENU_COMPOSE); create_bindings (ListDefaultBindings, MENU_LIST); create_bindings (MainDefaultBindings, MENU_MAIN); create_bindings (PagerDefaultBindings, MENU_PAGER); create_bindings (PostDefaultBindings, MENU_POST); create_bindings (QueryDefaultBindings, MENU_QUERY); create_bindings (AliasDefaultBindings, MENU_ALIAS); if ((WithCrypto & APPLICATION_PGP)) create_bindings (PgpDefaultBindings, MENU_PGP); if ((WithCrypto & APPLICATION_SMIME)) create_bindings (SmimeDefaultBindings, MENU_SMIME); #ifdef CRYPT_BACKEND_GPGME create_bindings (PgpDefaultBindings, MENU_KEY_SELECT_PGP); create_bindings (SmimeDefaultBindings, MENU_KEY_SELECT_SMIME); #endif #ifdef MIXMASTER create_bindings (MixDefaultBindings, MENU_MIX); #endif #ifdef USE_AUTOCRYPT create_bindings (AutocryptAcctDefaultBindings, MENU_AUTOCRYPT_ACCT); #endif create_bindings (EditorDefaultBindings, MENU_EDITOR); create_bindings (GenericDefaultBindings, MENU_GENERIC); } void km_error_key (int menu) { char buf[SHORT_STRING]; struct keymap_t *key; int p, op; key = km_find_func (menu, OP_HELP); if (!key && (menu != MENU_EDITOR) && (menu != MENU_PAGER)) key = km_find_func (MENU_GENERIC, OP_HELP); if (!key) { mutt_error _("Key is not bound."); return; } /* Make sure the key is really the help key in this menu. * * OP_END_COND is used as a barrier to ensure nothing extra * is left in the unget buffer. * * Note that km_expand_key() + tokenize_unget_string() should * not be used here: control sequences are expanded to a form * (e.g. "^H") not recognized by km_dokey(). */ mutt_unget_event (0, OP_END_COND); p = key->len; while (p--) mutt_unget_event (key->keys[p], 0); /* Note, e.g. for the index menu: * bind generic ? noop * bind generic ,a help * bind index ,ab quit * The index keybinding shadows the generic binding. * OP_END_COND will be read and returned as the op. * * bind generic ? noop * bind generic dq help * bind index d delete-message * OP_DELETE will be returned as the op, leaving "q" + OP_END_COND * in the unget buffer. */ op = km_dokey (menu); if (op != OP_END_COND) mutt_flush_unget_to_endcond (); if (op != OP_HELP) { mutt_error _("Key is not bound."); return; } km_expand_key (buf, sizeof(buf), key); mutt_error (_("Key is not bound. Press '%s' for help."), buf); return; } int mutt_parse_push (BUFFER *buf, BUFFER *s, union pointer_long_t udata, BUFFER *err) { int r = 0; mutt_extract_token (buf, s, MUTT_TOKEN_CONDENSE); if (MoreArgs (s)) { strfcpy (err->data, _("push: too many arguments"), err->dsize); r = -1; } else tokenize_push_macro_string (buf->data); return (r); } /* expects to see: ,,... */ static char *parse_keymap (int *menu, BUFFER *s, int maxmenus, int *nummenus, BUFFER *err) { BUFFER buf; int i=0; char *p, *q; mutt_buffer_init (&buf); mutt_buffer_increase_size (&buf, STRING); /* menu name */ mutt_extract_token (&buf, s, 0); p = buf.data; if (MoreArgs (s)) { while (i < maxmenus) { q = strchr(p,','); if (q) *q = '\0'; if ((menu[i] = mutt_check_menu (p)) == -1) { snprintf (err->data, err->dsize, _("%s: no such menu"), p); goto error; } ++i; if (q) p = q+1; else break; } *nummenus=i; /* key sequence */ mutt_extract_token (&buf, s, MUTT_TOKEN_NOLISP); if (!*buf.data) { strfcpy (err->data, _("null key sequence"), err->dsize); } else if (MoreArgs (s)) return (buf.data); } else { strfcpy (err->data, _("too few arguments"), err->dsize); } error: FREE (&buf.data); return (NULL); } static int try_bind (char *key, int menu, char *func, const struct menu_func_op_t *bindings) { int i; for (i = 0; bindings[i].name; i++) if (mutt_strcmp (func, bindings[i].name) == 0) { km_bindkey (key, menu, bindings[i].op); return (0); } return (-1); } const struct menu_func_op_t *km_get_table (int menu) { switch (menu) { case MENU_MAIN: return OpMain; case MENU_GENERIC: return OpGeneric; case MENU_COMPOSE: return OpCompose; case MENU_PAGER: return OpPager; case MENU_POST: return OpPost; case MENU_FOLDER: return OpBrowser; case MENU_ALIAS: return OpAlias; case MENU_ATTACH: return OpAttach; case MENU_EDITOR: return OpEditor; case MENU_QUERY: return OpQuery; case MENU_LIST: return OpList; case MENU_PGP: return (WithCrypto & APPLICATION_PGP)? OpPgp:NULL; #ifdef CRYPT_BACKEND_GPGME case MENU_KEY_SELECT_PGP: return OpPgp; case MENU_KEY_SELECT_SMIME: return OpSmime; #endif #ifdef MIXMASTER case MENU_MIX: return OpMix; #endif #ifdef USE_AUTOCRYPT case MENU_AUTOCRYPT_ACCT: return OpAutocryptAcct; #endif } return NULL; } /* bind menu-name '' function-name */ int mutt_parse_bind (BUFFER *buf, BUFFER *s, union pointer_long_t udata, BUFFER *err) { const struct menu_func_op_t *bindings = NULL; char *key; int menu[sizeof(Menus)/sizeof(struct mapping_t)-1], r = 0, nummenus, i; if ((key = parse_keymap (menu, s, sizeof (menu)/sizeof (menu[0]), &nummenus, err)) == NULL) return (-1); /* function to execute */ mutt_extract_token (buf, s, 0); if (MoreArgs (s)) { strfcpy (err->data, _("bind: too many arguments"), err->dsize); r = -1; } else if (ascii_strcasecmp ("noop", buf->data) == 0) { for (i = 0; i < nummenus; ++i) { km_bindkey (key, menu[i], OP_NULL); /* the `unbind' command */ } } else { for (i = 0; i < nummenus; ++i) { /* First check the "generic" list of commands */ if (menu[i] == MENU_PAGER || menu[i] == MENU_EDITOR || menu[i] == MENU_GENERIC || try_bind (key, menu[i], buf->data, OpGeneric) != 0) { /* Now check the menu-specific list of commands (if they exist) */ bindings = km_get_table (menu[i]); if (bindings && try_bind (key, menu[i], buf->data, bindings) != 0) { snprintf (err->data, err->dsize, _("%s: no such function in map"), buf->data); r = -1; } } } } FREE (&key); return (r); } /* macro */ int mutt_parse_macro (BUFFER *buf, BUFFER *s, union pointer_long_t udata, BUFFER *err) { int menu[sizeof(Menus)/sizeof(struct mapping_t)-1], r = -1, nummenus, i; char *seq = NULL; char *key; if ((key = parse_keymap (menu, s, sizeof (menu) / sizeof (menu[0]), &nummenus, err)) == NULL) return (-1); mutt_extract_token (buf, s, MUTT_TOKEN_CONDENSE); /* make sure the macro sequence is not an empty string */ if (!*buf->data) { strfcpy (err->data, _("macro: empty key sequence"), err->dsize); } else { if (MoreArgs (s)) { seq = safe_strdup (buf->data); mutt_extract_token (buf, s, MUTT_TOKEN_CONDENSE); if (MoreArgs (s)) { strfcpy (err->data, _("macro: too many arguments"), err->dsize); } else { for (i = 0; i < nummenus; ++i) { km_bind (key, menu[i], OP_MACRO, seq, buf->data); r = 0; } } FREE (&seq); } else { for (i = 0; i < nummenus; ++i) { km_bind (key, menu[i], OP_MACRO, buf->data, NULL); r = 0; } } } FREE (&key); return (r); } /* exec function-name */ int mutt_parse_exec (BUFFER *buf, BUFFER *s, union pointer_long_t udata, BUFFER *err) { int ops[128]; int nops = 0; const struct menu_func_op_t *bindings = NULL; char *function; if (!MoreArgs (s)) { strfcpy (err->data, _("exec: no arguments"), err->dsize); return (-1); } do { mutt_extract_token (buf, s, 0); function = buf->data; if ((bindings = km_get_table (CurrentMenu)) == NULL && CurrentMenu != MENU_PAGER) bindings = OpGeneric; ops[nops] = get_op (bindings, function, mutt_strlen(function)); if (ops[nops] == OP_NULL && CurrentMenu != MENU_PAGER && CurrentMenu != MENU_GENERIC) { ops[nops] = get_op (OpGeneric, function, mutt_strlen(function)); } if (ops[nops] == OP_NULL) { mutt_flushinp (); mutt_error (_("%s: no such function"), function); return (-1); } nops++; } while (MoreArgs(s) && nops < sizeof(ops)/sizeof(ops[0])); while (nops) mutt_push_macro_event (0, ops[--nops]); return 0; } /* * prompts the user to enter a keystroke, and displays the octal value back * to the user. */ void mutt_what_key (void) { int ch; mutt_window_mvprintw (MuttMessageWindow, 0, 0, _("Enter keys (^G to abort): ")); do { ch = getch(); if (ch != ERR && ch != ctrl ('G')) { mutt_message(_("Char = %s, Octal = %o, Decimal = %d"), km_keyname(ch), ch, ch); } } while (ch != ERR && ch != ctrl ('G')); mutt_flushinp(); mutt_clear_error(); }