Mercurial > vim
view src/map.c @ 26131:87d8f52d3821 v8.2.3598
patch 8.2.3598: RouterOS filetype is not recognized
Commit: https://github.com/vim/vim/commit/0818ab82e7058145366ebbe759f0b3f74724bdfd
Author: zainin <thexsinner@gmail.com>
Date: Mon Nov 15 21:44:11 2021 +0000
patch 8.2.3598: RouterOS filetype is not recognized
Problem: RouterOS filetype is not recognized.
Solution: Add file and script patterns. (closes https://github.com/vim/vim/issues/9097)
author | Bram Moolenaar <Bram@vim.org> |
---|---|
date | Mon, 15 Nov 2021 22:45:02 +0100 |
parents | 634aed775408 |
children | 7d66d585bffa |
line wrap: on
line source
/* vi:set ts=8 sts=4 sw=4 noet: * * VIM - Vi IMproved by Bram Moolenaar * * Do ":help uganda" in Vim to read copying and usage conditions. * Do ":help credits" in Vim to see a list of people who contributed. * See README.txt for an overview of the Vim source code. */ /* * map.c: functions for maps and abbreviations */ #include "vim.h" /* * List used for abbreviations. */ static mapblock_T *first_abbr = NULL; // first entry in abbrlist /* * Each mapping is put in one of the 256 hash lists, to speed up finding it. */ static mapblock_T *(maphash[256]); static int maphash_valid = FALSE; /* * Make a hash value for a mapping. * "mode" is the lower 4 bits of the State for the mapping. * "c1" is the first character of the "lhs". * Returns a value between 0 and 255, index in maphash. * Put Normal/Visual mode mappings mostly separately from Insert/Cmdline mode. */ #define MAP_HASH(mode, c1) (((mode) & (NORMAL + VISUAL + SELECTMODE + OP_PENDING + TERMINAL)) ? (c1) : ((c1) ^ 0x80)) /* * Get the start of the hashed map list for "state" and first character "c". */ mapblock_T * get_maphash_list(int state, int c) { return maphash[MAP_HASH(state, c)]; } /* * Get the buffer-local hashed map list for "state" and first character "c". */ mapblock_T * get_buf_maphash_list(int state, int c) { return curbuf->b_maphash[MAP_HASH(state, c)]; } int is_maphash_valid(void) { return maphash_valid; } /* * Initialize maphash[] for first use. */ static void validate_maphash(void) { if (!maphash_valid) { CLEAR_FIELD(maphash); maphash_valid = TRUE; } } /* * Delete one entry from the abbrlist or maphash[]. * "mpp" is a pointer to the m_next field of the PREVIOUS entry! */ static void map_free(mapblock_T **mpp) { mapblock_T *mp; mp = *mpp; vim_free(mp->m_keys); vim_free(mp->m_str); vim_free(mp->m_orig_str); *mpp = mp->m_next; vim_free(mp); } /* * Return characters to represent the map mode in an allocated string. * Returns NULL when out of memory. */ static char_u * map_mode_to_chars(int mode) { garray_T mapmode; ga_init2(&mapmode, 1, 7); if ((mode & (INSERT + CMDLINE)) == INSERT + CMDLINE) ga_append(&mapmode, '!'); // :map! else if (mode & INSERT) ga_append(&mapmode, 'i'); // :imap else if (mode & LANGMAP) ga_append(&mapmode, 'l'); // :lmap else if (mode & CMDLINE) ga_append(&mapmode, 'c'); // :cmap else if ((mode & (NORMAL + VISUAL + SELECTMODE + OP_PENDING)) == NORMAL + VISUAL + SELECTMODE + OP_PENDING) ga_append(&mapmode, ' '); // :map else { if (mode & NORMAL) ga_append(&mapmode, 'n'); // :nmap if (mode & OP_PENDING) ga_append(&mapmode, 'o'); // :omap if (mode & TERMINAL) ga_append(&mapmode, 't'); // :tmap if ((mode & (VISUAL + SELECTMODE)) == VISUAL + SELECTMODE) ga_append(&mapmode, 'v'); // :vmap else { if (mode & VISUAL) ga_append(&mapmode, 'x'); // :xmap if (mode & SELECTMODE) ga_append(&mapmode, 's'); // :smap } } ga_append(&mapmode, NUL); return (char_u *)mapmode.ga_data; } static void showmap( mapblock_T *mp, int local) // TRUE for buffer-local map { int len = 1; char_u *mapchars; if (message_filtered(mp->m_keys) && message_filtered(mp->m_str)) return; if (msg_didout || msg_silent != 0) { msg_putchar('\n'); if (got_int) // 'q' typed at MORE prompt return; } mapchars = map_mode_to_chars(mp->m_mode); if (mapchars != NULL) { msg_puts((char *)mapchars); len = (int)STRLEN(mapchars); vim_free(mapchars); } while (++len <= 3) msg_putchar(' '); // Display the LHS. Get length of what we write. len = msg_outtrans_special(mp->m_keys, TRUE, 0); do { msg_putchar(' '); // padd with blanks ++len; } while (len < 12); if (mp->m_noremap == REMAP_NONE) msg_puts_attr("*", HL_ATTR(HLF_8)); else if (mp->m_noremap == REMAP_SCRIPT) msg_puts_attr("&", HL_ATTR(HLF_8)); else msg_putchar(' '); if (local) msg_putchar('@'); else msg_putchar(' '); // Use FALSE below if we only want things like <Up> to show up as such on // the rhs, and not M-x etc, TRUE gets both -- webb if (*mp->m_str == NUL) msg_puts_attr("<Nop>", HL_ATTR(HLF_8)); else { // Remove escaping of CSI, because "m_str" is in a format to be used // as typeahead. char_u *s = vim_strsave(mp->m_str); if (s != NULL) { vim_unescape_csi(s); msg_outtrans_special(s, FALSE, 0); vim_free(s); } } #ifdef FEAT_EVAL if (p_verbose > 0) last_set_msg(mp->m_script_ctx); #endif out_flush(); // show one line at a time } static int map_add( mapblock_T **map_table, mapblock_T **abbr_table, char_u *keys, char_u *rhs, char_u *orig_rhs, int noremap, int nowait, int silent, int mode, int is_abbr, #ifdef FEAT_EVAL int expr, scid_T sid, // -1 to use current_sctx linenr_T lnum, #endif int simplified) { mapblock_T *mp = ALLOC_ONE(mapblock_T); if (mp == NULL) return FAIL; // If CTRL-C has been mapped, don't always use it for Interrupting. if (*keys == Ctrl_C) { if (map_table == curbuf->b_maphash) curbuf->b_mapped_ctrl_c |= mode; else mapped_ctrl_c |= mode; } mp->m_keys = vim_strsave(keys); mp->m_str = vim_strsave(rhs); mp->m_orig_str = vim_strsave(orig_rhs); if (mp->m_keys == NULL || mp->m_str == NULL) { vim_free(mp->m_keys); vim_free(mp->m_str); vim_free(mp->m_orig_str); vim_free(mp); return FAIL; } mp->m_keylen = (int)STRLEN(mp->m_keys); mp->m_noremap = noremap; mp->m_nowait = nowait; mp->m_silent = silent; mp->m_mode = mode; mp->m_simplified = simplified; #ifdef FEAT_EVAL mp->m_expr = expr; if (sid >= 0) { mp->m_script_ctx.sc_sid = sid; mp->m_script_ctx.sc_lnum = lnum; } else { mp->m_script_ctx = current_sctx; mp->m_script_ctx.sc_lnum += SOURCING_LNUM; } #endif // add the new entry in front of the abbrlist or maphash[] list if (is_abbr) { mp->m_next = *abbr_table; *abbr_table = mp; } else { int n = MAP_HASH(mp->m_mode, mp->m_keys[0]); mp->m_next = map_table[n]; map_table[n] = mp; } return OK; } /* * map[!] : show all key mappings * map[!] {lhs} : show key mapping for {lhs} * map[!] {lhs} {rhs} : set key mapping for {lhs} to {rhs} * noremap[!] {lhs} {rhs} : same, but no remapping for {rhs} * unmap[!] {lhs} : remove key mapping for {lhs} * abbr : show all abbreviations * abbr {lhs} : show abbreviations for {lhs} * abbr {lhs} {rhs} : set abbreviation for {lhs} to {rhs} * noreabbr {lhs} {rhs} : same, but no remapping for {rhs} * unabbr {lhs} : remove abbreviation for {lhs} * * maptype: 0 for :map, 1 for :unmap, 2 for noremap. * * arg is pointer to any arguments. Note: arg cannot be a read-only string, * it will be modified. * * for :map mode is NORMAL + VISUAL + SELECTMODE + OP_PENDING * for :map! mode is INSERT + CMDLINE * for :cmap mode is CMDLINE * for :imap mode is INSERT * for :lmap mode is LANGMAP * for :nmap mode is NORMAL * for :vmap mode is VISUAL + SELECTMODE * for :xmap mode is VISUAL * for :smap mode is SELECTMODE * for :omap mode is OP_PENDING * for :tmap mode is TERMINAL * * for :abbr mode is INSERT + CMDLINE * for :iabbr mode is INSERT * for :cabbr mode is CMDLINE * * Return 0 for success * 1 for invalid arguments * 2 for no match * 4 for out of mem * 5 for entry not unique */ int do_map( int maptype, char_u *arg, int mode, int abbrev) // not a mapping but an abbreviation { char_u *keys; mapblock_T *mp, **mpp; char_u *rhs; char_u *p; int n; int len = 0; // init for GCC int hasarg; int haskey; int do_print; int keyround; char_u *keys_buf = NULL; char_u *alt_keys_buf = NULL; char_u *arg_buf = NULL; int retval = 0; int do_backslash; mapblock_T **abbr_table; mapblock_T **map_table; int unique = FALSE; int nowait = FALSE; int silent = FALSE; int special = FALSE; #ifdef FEAT_EVAL int expr = FALSE; #endif int did_simplify = FALSE; int noremap; char_u *orig_rhs; keys = arg; map_table = maphash; abbr_table = &first_abbr; // For ":noremap" don't remap, otherwise do remap. if (maptype == 2) noremap = REMAP_NONE; else noremap = REMAP_YES; // Accept <buffer>, <nowait>, <silent>, <expr> <script> and <unique> in // any order. for (;;) { // Check for "<buffer>": mapping local to buffer. if (STRNCMP(keys, "<buffer>", 8) == 0) { keys = skipwhite(keys + 8); map_table = curbuf->b_maphash; abbr_table = &curbuf->b_first_abbr; continue; } // Check for "<nowait>": don't wait for more characters. if (STRNCMP(keys, "<nowait>", 8) == 0) { keys = skipwhite(keys + 8); nowait = TRUE; continue; } // Check for "<silent>": don't echo commands. if (STRNCMP(keys, "<silent>", 8) == 0) { keys = skipwhite(keys + 8); silent = TRUE; continue; } // Check for "<special>": accept special keys in <> if (STRNCMP(keys, "<special>", 9) == 0) { keys = skipwhite(keys + 9); special = TRUE; continue; } #ifdef FEAT_EVAL // Check for "<script>": remap script-local mappings only if (STRNCMP(keys, "<script>", 8) == 0) { keys = skipwhite(keys + 8); noremap = REMAP_SCRIPT; continue; } // Check for "<expr>": {rhs} is an expression. if (STRNCMP(keys, "<expr>", 6) == 0) { keys = skipwhite(keys + 6); expr = TRUE; continue; } #endif // Check for "<unique>": don't overwrite an existing mapping. if (STRNCMP(keys, "<unique>", 8) == 0) { keys = skipwhite(keys + 8); unique = TRUE; continue; } break; } validate_maphash(); // Find end of keys and skip CTRL-Vs (and backslashes) in it. // Accept backslash like CTRL-V when 'cpoptions' does not contain 'B'. // with :unmap white space is included in the keys, no argument possible. p = keys; do_backslash = (vim_strchr(p_cpo, CPO_BSLASH) == NULL); while (*p && (maptype == 1 || !VIM_ISWHITE(*p))) { if ((p[0] == Ctrl_V || (do_backslash && p[0] == '\\')) && p[1] != NUL) ++p; // skip CTRL-V or backslash ++p; } if (*p != NUL) *p++ = NUL; p = skipwhite(p); rhs = p; hasarg = (*rhs != NUL); haskey = (*keys != NUL); do_print = !haskey || (maptype != 1 && !hasarg); // check for :unmap without argument if (maptype == 1 && !haskey) { retval = 1; goto theend; } // If mapping has been given as ^V<C_UP> say, then replace the term codes // with the appropriate two bytes. If it is a shifted special key, unshift // it too, giving another two bytes. // replace_termcodes() may move the result to allocated memory, which // needs to be freed later (*keys_buf and *arg_buf). // replace_termcodes() also removes CTRL-Vs and sometimes backslashes. // If something like <C-H> is simplified to 0x08 then mark it as simplified // and also add a n entry with a modifier, which will work when // modifyOtherKeys is working. if (haskey) { char_u *new_keys; int flags = REPTERM_FROM_PART | REPTERM_DO_LT; if (special) flags |= REPTERM_SPECIAL; new_keys = replace_termcodes(keys, &keys_buf, flags, &did_simplify); if (did_simplify) (void)replace_termcodes(keys, &alt_keys_buf, flags | REPTERM_NO_SIMPLIFY, NULL); keys = new_keys; } orig_rhs = rhs; if (hasarg) { if (STRICMP(rhs, "<nop>") == 0) // "<Nop>" means nothing rhs = (char_u *)""; else rhs = replace_termcodes(rhs, &arg_buf, REPTERM_DO_LT | (special ? REPTERM_SPECIAL : 0), NULL); } /* * The following is done twice if we have two versions of keys: * "alt_keys_buf" is not NULL. */ for (keyround = 1; keyround <= 2; ++keyround) { int did_it = FALSE; int did_local = FALSE; int round; int hash; int new_hash; if (keyround == 2) { if (alt_keys_buf == NULL) break; keys = alt_keys_buf; } else if (alt_keys_buf != NULL && do_print) // when printing always use the not-simplified map keys = alt_keys_buf; // check arguments and translate function keys if (haskey) { len = (int)STRLEN(keys); if (len > MAXMAPLEN) // maximum length of MAXMAPLEN chars { retval = 1; goto theend; } if (abbrev && maptype != 1) { // If an abbreviation ends in a keyword character, the // rest must be all keyword-char or all non-keyword-char. // Otherwise we won't be able to find the start of it in a // vi-compatible way. if (has_mbyte) { int first, last; int same = -1; first = vim_iswordp(keys); last = first; p = keys + (*mb_ptr2len)(keys); n = 1; while (p < keys + len) { ++n; // nr of (multi-byte) chars last = vim_iswordp(p); // type of last char if (same == -1 && last != first) same = n - 1; // count of same char type p += (*mb_ptr2len)(p); } if (last && n > 2 && same >= 0 && same < n - 1) { retval = 1; goto theend; } } else if (vim_iswordc(keys[len - 1])) // ends in keyword char for (n = 0; n < len - 2; ++n) if (vim_iswordc(keys[n]) != vim_iswordc(keys[len - 2])) { retval = 1; goto theend; } // An abbreviation cannot contain white space. for (n = 0; n < len; ++n) if (VIM_ISWHITE(keys[n])) { retval = 1; goto theend; } } } if (haskey && hasarg && abbrev) // if we will add an abbreviation no_abbr = FALSE; // reset flag that indicates there are // no abbreviations if (do_print) msg_start(); // Check if a new local mapping wasn't already defined globally. if (unique && map_table == curbuf->b_maphash && haskey && hasarg && maptype != 1) { // need to loop over all global hash lists for (hash = 0; hash < 256 && !got_int; ++hash) { if (abbrev) { if (hash != 0) // there is only one abbreviation list break; mp = first_abbr; } else mp = maphash[hash]; for ( ; mp != NULL && !got_int; mp = mp->m_next) { // check entries with the same mode if ((mp->m_mode & mode) != 0 && mp->m_keylen == len && STRNCMP(mp->m_keys, keys, (size_t)len) == 0) { if (abbrev) semsg(_( "E224: global abbreviation already exists for %s"), mp->m_keys); else semsg(_( "E225: global mapping already exists for %s"), mp->m_keys); retval = 5; goto theend; } } } } // When listing global mappings, also list buffer-local ones here. if (map_table != curbuf->b_maphash && !hasarg && maptype != 1) { // need to loop over all global hash lists for (hash = 0; hash < 256 && !got_int; ++hash) { if (abbrev) { if (hash != 0) // there is only one abbreviation list break; mp = curbuf->b_first_abbr; } else mp = curbuf->b_maphash[hash]; for ( ; mp != NULL && !got_int; mp = mp->m_next) { // check entries with the same mode if (!mp->m_simplified && (mp->m_mode & mode) != 0) { if (!haskey) // show all entries { showmap(mp, TRUE); did_local = TRUE; } else { n = mp->m_keylen; if (STRNCMP(mp->m_keys, keys, (size_t)(n < len ? n : len)) == 0) { showmap(mp, TRUE); did_local = TRUE; } } } } } } // Find an entry in the maphash[] list that matches. // For :unmap we may loop two times: once to try to unmap an entry with // a matching 'from' part, a second time, if the first fails, to unmap // an entry with a matching 'to' part. This was done to allow ":ab foo // bar" to be unmapped by typing ":unab foo", where "foo" will be // replaced by "bar" because of the abbreviation. for (round = 0; (round == 0 || maptype == 1) && round <= 1 && !did_it && !got_int; ++round) { // need to loop over all hash lists for (hash = 0; hash < 256 && !got_int; ++hash) { if (abbrev) { if (hash > 0) // there is only one abbreviation list break; mpp = abbr_table; } else mpp = &(map_table[hash]); for (mp = *mpp; mp != NULL && !got_int; mp = *mpp) { if ((mp->m_mode & mode) == 0) { // skip entries with wrong mode mpp = &(mp->m_next); continue; } if (!haskey) // show all entries { if (!mp->m_simplified) { showmap(mp, map_table != maphash); did_it = TRUE; } } else // do we have a match? { if (round) // second round: Try unmap "rhs" string { n = (int)STRLEN(mp->m_str); p = mp->m_str; } else { n = mp->m_keylen; p = mp->m_keys; } if (STRNCMP(p, keys, (size_t)(n < len ? n : len)) == 0) { if (maptype == 1) { // Delete entry. // Only accept a full match. For abbreviations // we ignore trailing space when matching with // the "lhs", since an abbreviation can't have // trailing space. if (n != len && (!abbrev || round || n > len || *skipwhite(keys + n) != NUL)) { mpp = &(mp->m_next); continue; } // We reset the indicated mode bits. If nothing // is left the entry is deleted below. mp->m_mode &= ~mode; did_it = TRUE; // remember we did something } else if (!hasarg) // show matching entry { if (!mp->m_simplified) { showmap(mp, map_table != maphash); did_it = TRUE; } } else if (n != len) // new entry is ambiguous { mpp = &(mp->m_next); continue; } else if (unique) { if (abbrev) semsg(_( "E226: abbreviation already exists for %s"), p); else semsg(_( "E227: mapping already exists for %s"), p); retval = 5; goto theend; } else { // new rhs for existing entry mp->m_mode &= ~mode; // remove mode bits if (mp->m_mode == 0 && !did_it) // reuse entry { char_u *newstr = vim_strsave(rhs); if (newstr == NULL) { retval = 4; // no mem goto theend; } vim_free(mp->m_str); mp->m_str = newstr; vim_free(mp->m_orig_str); mp->m_orig_str = vim_strsave(orig_rhs); mp->m_noremap = noremap; mp->m_nowait = nowait; mp->m_silent = silent; mp->m_mode = mode; mp->m_simplified = did_simplify && keyround == 1; #ifdef FEAT_EVAL mp->m_expr = expr; mp->m_script_ctx = current_sctx; mp->m_script_ctx.sc_lnum += SOURCING_LNUM; #endif did_it = TRUE; } } if (mp->m_mode == 0) // entry can be deleted { map_free(mpp); continue; // continue with *mpp } // May need to put this entry into another hash // list. new_hash = MAP_HASH(mp->m_mode, mp->m_keys[0]); if (!abbrev && new_hash != hash) { *mpp = mp->m_next; mp->m_next = map_table[new_hash]; map_table[new_hash] = mp; continue; // continue with *mpp } } } mpp = &(mp->m_next); } } } if (maptype == 1) { // delete entry if (!did_it) retval = 2; // no match else if (*keys == Ctrl_C) { // If CTRL-C has been unmapped, reuse it for Interrupting. if (map_table == curbuf->b_maphash) curbuf->b_mapped_ctrl_c &= ~mode; else mapped_ctrl_c &= ~mode; } continue; } if (!haskey || !hasarg) { // print entries if (!did_it && !did_local) { if (abbrev) msg(_("No abbreviation found")); else msg(_("No mapping found")); } goto theend; // listing finished } if (did_it) continue; // have added the new entry already // Get here when adding a new entry to the maphash[] list or abbrlist. if (map_add(map_table, abbr_table, keys, rhs, orig_rhs, noremap, nowait, silent, mode, abbrev, #ifdef FEAT_EVAL expr, /* sid */ -1, /* lnum */ 0, #endif did_simplify && keyround == 1) == FAIL) { retval = 4; // no mem goto theend; } } theend: vim_free(keys_buf); vim_free(alt_keys_buf); vim_free(arg_buf); return retval; } /* * Get the mapping mode from the command name. */ static int get_map_mode(char_u **cmdp, int forceit) { char_u *p; int modec; int mode; p = *cmdp; modec = *p++; if (modec == 'i') mode = INSERT; // :imap else if (modec == 'l') mode = LANGMAP; // :lmap else if (modec == 'c') mode = CMDLINE; // :cmap else if (modec == 'n' && *p != 'o') // avoid :noremap mode = NORMAL; // :nmap else if (modec == 'v') mode = VISUAL + SELECTMODE; // :vmap else if (modec == 'x') mode = VISUAL; // :xmap else if (modec == 's') mode = SELECTMODE; // :smap else if (modec == 'o') mode = OP_PENDING; // :omap else if (modec == 't') mode = TERMINAL; // :tmap else { --p; if (forceit) mode = INSERT + CMDLINE; // :map ! else mode = VISUAL + SELECTMODE + NORMAL + OP_PENDING;// :map } *cmdp = p; return mode; } /* * Clear all mappings or abbreviations. * 'abbr' should be FALSE for mappings, TRUE for abbreviations. */ static void map_clear( char_u *cmdp, char_u *arg UNUSED, int forceit, int abbr) { int mode; int local; local = (STRCMP(arg, "<buffer>") == 0); if (!local && *arg != NUL) { emsg(_(e_invarg)); return; } mode = get_map_mode(&cmdp, forceit); map_clear_int(curbuf, mode, local, abbr); } /* * Clear all mappings in "mode". */ void map_clear_int( buf_T *buf, // buffer for local mappings int mode, // mode in which to delete int local, // TRUE for buffer-local mappings int abbr) // TRUE for abbreviations { mapblock_T *mp, **mpp; int hash; int new_hash; validate_maphash(); for (hash = 0; hash < 256; ++hash) { if (abbr) { if (hash > 0) // there is only one abbrlist break; if (local) mpp = &buf->b_first_abbr; else mpp = &first_abbr; } else { if (local) mpp = &buf->b_maphash[hash]; else mpp = &maphash[hash]; } while (*mpp != NULL) { mp = *mpp; if (mp->m_mode & mode) { mp->m_mode &= ~mode; if (mp->m_mode == 0) // entry can be deleted { map_free(mpp); continue; } // May need to put this entry into another hash list. new_hash = MAP_HASH(mp->m_mode, mp->m_keys[0]); if (!abbr && new_hash != hash) { *mpp = mp->m_next; if (local) { mp->m_next = buf->b_maphash[new_hash]; buf->b_maphash[new_hash] = mp; } else { mp->m_next = maphash[new_hash]; maphash[new_hash] = mp; } continue; // continue with *mpp } } mpp = &(mp->m_next); } } } #if defined(FEAT_EVAL) || defined(PROTO) int mode_str2flags(char_u *modechars) { int mode = 0; if (vim_strchr(modechars, 'n') != NULL) mode |= NORMAL; if (vim_strchr(modechars, 'v') != NULL) mode |= VISUAL + SELECTMODE; if (vim_strchr(modechars, 'x') != NULL) mode |= VISUAL; if (vim_strchr(modechars, 's') != NULL) mode |= SELECTMODE; if (vim_strchr(modechars, 'o') != NULL) mode |= OP_PENDING; if (vim_strchr(modechars, 'i') != NULL) mode |= INSERT; if (vim_strchr(modechars, 'l') != NULL) mode |= LANGMAP; if (vim_strchr(modechars, 'c') != NULL) mode |= CMDLINE; return mode; } /* * Return TRUE if a map exists that has "str" in the rhs for mode "modechars". * Recognize termcap codes in "str". * Also checks mappings local to the current buffer. */ int map_to_exists(char_u *str, char_u *modechars, int abbr) { char_u *rhs; char_u *buf; int retval; rhs = replace_termcodes(str, &buf, REPTERM_DO_LT, NULL); retval = map_to_exists_mode(rhs, mode_str2flags(modechars), abbr); vim_free(buf); return retval; } #endif /* * Return TRUE if a map exists that has "str" in the rhs for mode "mode". * Also checks mappings local to the current buffer. */ int map_to_exists_mode(char_u *rhs, int mode, int abbr) { mapblock_T *mp; int hash; int exp_buffer = FALSE; validate_maphash(); // Do it twice: once for global maps and once for local maps. for (;;) { for (hash = 0; hash < 256; ++hash) { if (abbr) { if (hash > 0) // there is only one abbr list break; if (exp_buffer) mp = curbuf->b_first_abbr; else mp = first_abbr; } else if (exp_buffer) mp = curbuf->b_maphash[hash]; else mp = maphash[hash]; for (; mp; mp = mp->m_next) { if ((mp->m_mode & mode) && strstr((char *)mp->m_str, (char *)rhs) != NULL) return TRUE; } } if (exp_buffer) break; exp_buffer = TRUE; } return FALSE; } /* * Used below when expanding mapping/abbreviation names. */ static int expand_mapmodes = 0; static int expand_isabbrev = 0; static int expand_buffer = FALSE; /* * Translate an internal mapping/abbreviation representation into the * corresponding external one recognized by :map/:abbrev commands. * Respects the current B/k/< settings of 'cpoption'. * * This function is called when expanding mappings/abbreviations on the * command-line. * * It uses a growarray to build the translation string since the latter can be * wider than the original description. The caller has to free the string * afterwards. * * Returns NULL when there is a problem. */ static char_u * translate_mapping(char_u *str) { garray_T ga; int c; int modifiers; int cpo_bslash; int cpo_special; ga_init(&ga); ga.ga_itemsize = 1; ga.ga_growsize = 40; cpo_bslash = (vim_strchr(p_cpo, CPO_BSLASH) != NULL); cpo_special = (vim_strchr(p_cpo, CPO_SPECI) != NULL); for (; *str; ++str) { c = *str; if (c == K_SPECIAL && str[1] != NUL && str[2] != NUL) { modifiers = 0; if (str[1] == KS_MODIFIER) { str++; modifiers = *++str; c = *++str; } if (c == K_SPECIAL && str[1] != NUL && str[2] != NUL) { if (cpo_special) { ga_clear(&ga); return NULL; } c = TO_SPECIAL(str[1], str[2]); if (c == K_ZERO) // display <Nul> as ^@ c = NUL; str += 2; } if (IS_SPECIAL(c) || modifiers) // special key { if (cpo_special) { ga_clear(&ga); return NULL; } ga_concat(&ga, get_special_key_name(c, modifiers)); continue; // for (str) } } if (c == ' ' || c == '\t' || c == Ctrl_J || c == Ctrl_V || (c == '<' && !cpo_special) || (c == '\\' && !cpo_bslash)) ga_append(&ga, cpo_bslash ? Ctrl_V : '\\'); if (c) ga_append(&ga, c); } ga_append(&ga, NUL); return (char_u *)(ga.ga_data); } /* * Work out what to complete when doing command line completion of mapping * or abbreviation names. */ char_u * set_context_in_map_cmd( expand_T *xp, char_u *cmd, char_u *arg, int forceit, // TRUE if '!' given int isabbrev, // TRUE if abbreviation int isunmap, // TRUE if unmap/unabbrev command cmdidx_T cmdidx) { if (forceit && cmdidx != CMD_map && cmdidx != CMD_unmap) xp->xp_context = EXPAND_NOTHING; else { if (isunmap) expand_mapmodes = get_map_mode(&cmd, forceit || isabbrev); else { expand_mapmodes = INSERT + CMDLINE; if (!isabbrev) expand_mapmodes += VISUAL + SELECTMODE + NORMAL + OP_PENDING; } expand_isabbrev = isabbrev; xp->xp_context = EXPAND_MAPPINGS; expand_buffer = FALSE; for (;;) { if (STRNCMP(arg, "<buffer>", 8) == 0) { expand_buffer = TRUE; arg = skipwhite(arg + 8); continue; } if (STRNCMP(arg, "<unique>", 8) == 0) { arg = skipwhite(arg + 8); continue; } if (STRNCMP(arg, "<nowait>", 8) == 0) { arg = skipwhite(arg + 8); continue; } if (STRNCMP(arg, "<silent>", 8) == 0) { arg = skipwhite(arg + 8); continue; } if (STRNCMP(arg, "<special>", 9) == 0) { arg = skipwhite(arg + 9); continue; } #ifdef FEAT_EVAL if (STRNCMP(arg, "<script>", 8) == 0) { arg = skipwhite(arg + 8); continue; } if (STRNCMP(arg, "<expr>", 6) == 0) { arg = skipwhite(arg + 6); continue; } #endif break; } xp->xp_pattern = arg; } return NULL; } /* * Find all mapping/abbreviation names that match regexp "regmatch"'. * For command line expansion of ":[un]map" and ":[un]abbrev" in all modes. * Return OK if matches found, FAIL otherwise. */ int ExpandMappings( regmatch_T *regmatch, int *num_file, char_u ***file) { mapblock_T *mp; int hash; int count; int round; char_u *p; int i; validate_maphash(); *num_file = 0; // return values in case of FAIL *file = NULL; // round == 1: Count the matches. // round == 2: Build the array to keep the matches. for (round = 1; round <= 2; ++round) { count = 0; for (i = 0; i < 7; ++i) { if (i == 0) p = (char_u *)"<silent>"; else if (i == 1) p = (char_u *)"<unique>"; #ifdef FEAT_EVAL else if (i == 2) p = (char_u *)"<script>"; else if (i == 3) p = (char_u *)"<expr>"; #endif else if (i == 4 && !expand_buffer) p = (char_u *)"<buffer>"; else if (i == 5) p = (char_u *)"<nowait>"; else if (i == 6) p = (char_u *)"<special>"; else continue; if (vim_regexec(regmatch, p, (colnr_T)0)) { if (round == 1) ++count; else (*file)[count++] = vim_strsave(p); } } for (hash = 0; hash < 256; ++hash) { if (expand_isabbrev) { if (hash > 0) // only one abbrev list break; // for (hash) mp = first_abbr; } else if (expand_buffer) mp = curbuf->b_maphash[hash]; else mp = maphash[hash]; for (; mp; mp = mp->m_next) { if (mp->m_mode & expand_mapmodes) { p = translate_mapping(mp->m_keys); if (p != NULL && vim_regexec(regmatch, p, (colnr_T)0)) { if (round == 1) ++count; else { (*file)[count++] = p; p = NULL; } } vim_free(p); } } // for (mp) } // for (hash) if (count == 0) // no match found break; // for (round) if (round == 1) { *file = ALLOC_MULT(char_u *, count); if (*file == NULL) return FAIL; } } // for (round) if (count > 1) { char_u **ptr1; char_u **ptr2; char_u **ptr3; // Sort the matches sort_strings(*file, count); // Remove multiple entries ptr1 = *file; ptr2 = ptr1 + 1; ptr3 = ptr1 + count; while (ptr2 < ptr3) { if (STRCMP(*ptr1, *ptr2)) *++ptr1 = *ptr2++; else { vim_free(*ptr2++); count--; } } } *num_file = count; return (count == 0 ? FAIL : OK); } /* * Check for an abbreviation. * Cursor is at ptr[col]. * When inserting, mincol is where insert started. * For the command line, mincol is what is to be skipped over. * "c" is the character typed before check_abbr was called. It may have * ABBR_OFF added to avoid prepending a CTRL-V to it. * * Historic vi practice: The last character of an abbreviation must be an id * character ([a-zA-Z0-9_]). The characters in front of it must be all id * characters or all non-id characters. This allows for abbr. "#i" to * "#include". * * Vim addition: Allow for abbreviations that end in a non-keyword character. * Then there must be white space before the abbr. * * return TRUE if there is an abbreviation, FALSE if not */ int check_abbr( int c, char_u *ptr, int col, int mincol) { int len; int scol; // starting column of the abbr. int j; char_u *s; char_u tb[MB_MAXBYTES + 4]; mapblock_T *mp; mapblock_T *mp2; int clen = 0; // length in characters int is_id = TRUE; int vim_abbr; if (typebuf.tb_no_abbr_cnt) // abbrev. are not recursive return FALSE; // no remapping implies no abbreviation, except for CTRL-] if (noremap_keys() && c != Ctrl_RSB) return FALSE; // Check for word before the cursor: If it ends in a keyword char all // chars before it must be keyword chars or non-keyword chars, but not // white space. If it ends in a non-keyword char we accept any characters // before it except white space. if (col == 0) // cannot be an abbr. return FALSE; if (has_mbyte) { char_u *p; p = mb_prevptr(ptr, ptr + col); if (!vim_iswordp(p)) vim_abbr = TRUE; // Vim added abbr. else { vim_abbr = FALSE; // vi compatible abbr. if (p > ptr) is_id = vim_iswordp(mb_prevptr(ptr, p)); } clen = 1; while (p > ptr + mincol) { p = mb_prevptr(ptr, p); if (vim_isspace(*p) || (!vim_abbr && is_id != vim_iswordp(p))) { p += (*mb_ptr2len)(p); break; } ++clen; } scol = (int)(p - ptr); } else { if (!vim_iswordc(ptr[col - 1])) vim_abbr = TRUE; // Vim added abbr. else { vim_abbr = FALSE; // vi compatible abbr. if (col > 1) is_id = vim_iswordc(ptr[col - 2]); } for (scol = col - 1; scol > 0 && !vim_isspace(ptr[scol - 1]) && (vim_abbr || is_id == vim_iswordc(ptr[scol - 1])); --scol) ; } if (scol < mincol) scol = mincol; if (scol < col) // there is a word in front of the cursor { ptr += scol; len = col - scol; mp = curbuf->b_first_abbr; mp2 = first_abbr; if (mp == NULL) { mp = mp2; mp2 = NULL; } for ( ; mp; mp->m_next == NULL ? (mp = mp2, mp2 = NULL) : (mp = mp->m_next)) { int qlen = mp->m_keylen; char_u *q = mp->m_keys; int match; if (vim_strbyte(mp->m_keys, K_SPECIAL) != NULL) { char_u *qe = vim_strsave(mp->m_keys); // might have CSI escaped mp->m_keys if (qe != NULL) { q = qe; vim_unescape_csi(q); qlen = (int)STRLEN(q); } } // find entries with right mode and keys match = (mp->m_mode & State) && qlen == len && !STRNCMP(q, ptr, (size_t)len); if (q != mp->m_keys) vim_free(q); if (match) break; } if (mp != NULL) { // Found a match: // Insert the rest of the abbreviation in typebuf.tb_buf[]. // This goes from end to start. // // Characters 0x000 - 0x100: normal chars, may need CTRL-V, // except K_SPECIAL: Becomes K_SPECIAL KS_SPECIAL KE_FILLER // Characters where IS_SPECIAL() == TRUE: key codes, need // K_SPECIAL. Other characters (with ABBR_OFF): don't use CTRL-V. // // Character CTRL-] is treated specially - it completes the // abbreviation, but is not inserted into the input stream. j = 0; if (c != Ctrl_RSB) { // special key code, split up if (IS_SPECIAL(c) || c == K_SPECIAL) { tb[j++] = K_SPECIAL; tb[j++] = K_SECOND(c); tb[j++] = K_THIRD(c); } else { if (c < ABBR_OFF && (c < ' ' || c > '~')) tb[j++] = Ctrl_V; // special char needs CTRL-V if (has_mbyte) { int newlen; char_u *escaped; // if ABBR_OFF has been added, remove it here if (c >= ABBR_OFF) c -= ABBR_OFF; newlen = (*mb_char2bytes)(c, tb + j); tb[j + newlen] = NUL; // Need to escape K_SPECIAL. escaped = vim_strsave_escape_csi(tb + j); if (escaped != NULL) { newlen = (int)STRLEN(escaped); mch_memmove(tb + j, escaped, newlen); j += newlen; vim_free(escaped); } } else tb[j++] = c; } tb[j] = NUL; // insert the last typed char (void)ins_typebuf(tb, 1, 0, TRUE, mp->m_silent); } #ifdef FEAT_EVAL if (mp->m_expr) s = eval_map_expr(mp->m_str, c); else #endif s = mp->m_str; if (s != NULL) { // insert the to string (void)ins_typebuf(s, mp->m_noremap, 0, TRUE, mp->m_silent); // no abbrev. for these chars typebuf.tb_no_abbr_cnt += (int)STRLEN(s) + j + 1; #ifdef FEAT_EVAL if (mp->m_expr) vim_free(s); #endif } tb[0] = Ctrl_H; tb[1] = NUL; if (has_mbyte) len = clen; // Delete characters instead of bytes while (len-- > 0) // delete the from string (void)ins_typebuf(tb, 1, 0, TRUE, mp->m_silent); return TRUE; } } return FALSE; } #ifdef FEAT_EVAL /* * Evaluate the RHS of a mapping or abbreviations and take care of escaping * special characters. */ char_u * eval_map_expr( char_u *str, int c) // NUL or typed character for abbreviation { char_u *res; char_u *p; char_u *expr; pos_T save_cursor; int save_msg_col; int save_msg_row; // Remove escaping of CSI, because "str" is in a format to be used as // typeahead. expr = vim_strsave(str); if (expr == NULL) return NULL; vim_unescape_csi(expr); // Forbid changing text or using ":normal" to avoid most of the bad side // effects. Also restore the cursor position. ++textwinlock; ++ex_normal_lock; set_vim_var_char(c); // set v:char to the typed character save_cursor = curwin->w_cursor; save_msg_col = msg_col; save_msg_row = msg_row; p = eval_to_string(expr, FALSE); --textwinlock; --ex_normal_lock; curwin->w_cursor = save_cursor; msg_col = save_msg_col; msg_row = save_msg_row; vim_free(expr); if (p == NULL) return NULL; // Escape CSI in the result to be able to use the string as typeahead. res = vim_strsave_escape_csi(p); vim_free(p); return res; } #endif /* * Copy "p" to allocated memory, escaping K_SPECIAL and CSI so that the result * can be put in the typeahead buffer. * Returns NULL when out of memory. */ char_u * vim_strsave_escape_csi(char_u *p) { char_u *res; char_u *s, *d; // Need a buffer to hold up to three times as much. Four in case of an // illegal utf-8 byte: // 0xc0 -> 0xc3 0x80 -> 0xc3 K_SPECIAL KS_SPECIAL KE_FILLER res = alloc(STRLEN(p) * 4 + 1); if (res != NULL) { d = res; for (s = p; *s != NUL; ) { if (s[0] == K_SPECIAL && s[1] != NUL && s[2] != NUL) { // Copy special key unmodified. *d++ = *s++; *d++ = *s++; *d++ = *s++; } else { // Add character, possibly multi-byte to destination, escaping // CSI and K_SPECIAL. Be careful, it can be an illegal byte! d = add_char2buf(PTR2CHAR(s), d); s += MB_CPTR2LEN(s); } } *d = NUL; } return res; } /* * Remove escaping from CSI and K_SPECIAL characters. Reverse of * vim_strsave_escape_csi(). Works in-place. */ void vim_unescape_csi(char_u *p) { char_u *s = p, *d = p; while (*s != NUL) { if (s[0] == K_SPECIAL && s[1] == KS_SPECIAL && s[2] == KE_FILLER) { *d++ = K_SPECIAL; s += 3; } else if ((s[0] == K_SPECIAL || s[0] == CSI) && s[1] == KS_EXTRA && s[2] == (int)KE_CSI) { *d++ = CSI; s += 3; } else *d++ = *s++; } *d = NUL; } /* * Write map commands for the current mappings to an .exrc file. * Return FAIL on error, OK otherwise. */ int makemap( FILE *fd, buf_T *buf) // buffer for local mappings or NULL { mapblock_T *mp; char_u c1, c2, c3; char_u *p; char *cmd; int abbr; int hash; int did_cpo = FALSE; int i; validate_maphash(); // Do the loop twice: Once for mappings, once for abbreviations. // Then loop over all map hash lists. for (abbr = 0; abbr < 2; ++abbr) for (hash = 0; hash < 256; ++hash) { if (abbr) { if (hash > 0) // there is only one abbr list break; if (buf != NULL) mp = buf->b_first_abbr; else mp = first_abbr; } else { if (buf != NULL) mp = buf->b_maphash[hash]; else mp = maphash[hash]; } for ( ; mp; mp = mp->m_next) { // skip script-local mappings if (mp->m_noremap == REMAP_SCRIPT) continue; // skip mappings that contain a <SNR> (script-local thing), // they probably don't work when loaded again for (p = mp->m_str; *p != NUL; ++p) if (p[0] == K_SPECIAL && p[1] == KS_EXTRA && p[2] == (int)KE_SNR) break; if (*p != NUL) continue; // It's possible to create a mapping and then ":unmap" certain // modes. We recreate this here by mapping the individual // modes, which requires up to three of them. c1 = NUL; c2 = NUL; c3 = NUL; if (abbr) cmd = "abbr"; else cmd = "map"; switch (mp->m_mode) { case NORMAL + VISUAL + SELECTMODE + OP_PENDING: break; case NORMAL: c1 = 'n'; break; case VISUAL: c1 = 'x'; break; case SELECTMODE: c1 = 's'; break; case OP_PENDING: c1 = 'o'; break; case NORMAL + VISUAL: c1 = 'n'; c2 = 'x'; break; case NORMAL + SELECTMODE: c1 = 'n'; c2 = 's'; break; case NORMAL + OP_PENDING: c1 = 'n'; c2 = 'o'; break; case VISUAL + SELECTMODE: c1 = 'v'; break; case VISUAL + OP_PENDING: c1 = 'x'; c2 = 'o'; break; case SELECTMODE + OP_PENDING: c1 = 's'; c2 = 'o'; break; case NORMAL + VISUAL + SELECTMODE: c1 = 'n'; c2 = 'v'; break; case NORMAL + VISUAL + OP_PENDING: c1 = 'n'; c2 = 'x'; c3 = 'o'; break; case NORMAL + SELECTMODE + OP_PENDING: c1 = 'n'; c2 = 's'; c3 = 'o'; break; case VISUAL + SELECTMODE + OP_PENDING: c1 = 'v'; c2 = 'o'; break; case CMDLINE + INSERT: if (!abbr) cmd = "map!"; break; case CMDLINE: c1 = 'c'; break; case INSERT: c1 = 'i'; break; case LANGMAP: c1 = 'l'; break; case TERMINAL: c1 = 't'; break; default: iemsg(_("E228: makemap: Illegal mode")); return FAIL; } do // do this twice if c2 is set, 3 times with c3 { // When outputting <> form, need to make sure that 'cpo' // is set to the Vim default. if (!did_cpo) { if (*mp->m_str == NUL) // will use <Nop> did_cpo = TRUE; else for (i = 0; i < 2; ++i) for (p = (i ? mp->m_str : mp->m_keys); *p; ++p) if (*p == K_SPECIAL || *p == NL) did_cpo = TRUE; if (did_cpo) { if (fprintf(fd, "let s:cpo_save=&cpo") < 0 || put_eol(fd) < 0 || fprintf(fd, "set cpo&vim") < 0 || put_eol(fd) < 0) return FAIL; } } if (c1 && putc(c1, fd) < 0) return FAIL; if (mp->m_noremap != REMAP_YES && fprintf(fd, "nore") < 0) return FAIL; if (fputs(cmd, fd) < 0) return FAIL; if (buf != NULL && fputs(" <buffer>", fd) < 0) return FAIL; if (mp->m_nowait && fputs(" <nowait>", fd) < 0) return FAIL; if (mp->m_silent && fputs(" <silent>", fd) < 0) return FAIL; #ifdef FEAT_EVAL if (mp->m_noremap == REMAP_SCRIPT && fputs("<script>", fd) < 0) return FAIL; if (mp->m_expr && fputs(" <expr>", fd) < 0) return FAIL; #endif if ( putc(' ', fd) < 0 || put_escstr(fd, mp->m_keys, 0) == FAIL || putc(' ', fd) < 0 || put_escstr(fd, mp->m_str, 1) == FAIL || put_eol(fd) < 0) return FAIL; c1 = c2; c2 = c3; c3 = NUL; } while (c1 != NUL); } } if (did_cpo) if (fprintf(fd, "let &cpo=s:cpo_save") < 0 || put_eol(fd) < 0 || fprintf(fd, "unlet s:cpo_save") < 0 || put_eol(fd) < 0) return FAIL; return OK; } /* * write escape string to file * "what": 0 for :map lhs, 1 for :map rhs, 2 for :set * * return FAIL for failure, OK otherwise */ int put_escstr(FILE *fd, char_u *strstart, int what) { char_u *str = strstart; int c; int modifiers; // :map xx <Nop> if (*str == NUL && what == 1) { if (fprintf(fd, "<Nop>") < 0) return FAIL; return OK; } for ( ; *str != NUL; ++str) { char_u *p; // Check for a multi-byte character, which may contain escaped // K_SPECIAL and CSI bytes p = mb_unescape(&str); if (p != NULL) { while (*p != NUL) if (fputc(*p++, fd) < 0) return FAIL; --str; continue; } c = *str; // Special key codes have to be translated to be able to make sense // when they are read back. if (c == K_SPECIAL && what != 2) { modifiers = 0; if (str[1] == KS_MODIFIER) { modifiers = str[2]; str += 3; c = *str; } if (c == K_SPECIAL) { c = TO_SPECIAL(str[1], str[2]); str += 2; } if (IS_SPECIAL(c) || modifiers) // special key { if (fputs((char *)get_special_key_name(c, modifiers), fd) < 0) return FAIL; continue; } } // A '\n' in a map command should be written as <NL>. // A '\n' in a set command should be written as \^V^J. if (c == NL) { if (what == 2) { if (fprintf(fd, IF_EB("\\\026\n", "\\" CTRL_V_STR "\n")) < 0) return FAIL; } else { if (fprintf(fd, "<NL>") < 0) return FAIL; } continue; } // Some characters have to be escaped with CTRL-V to // prevent them from misinterpreted in DoOneCmd(). // A space, Tab and '"' has to be escaped with a backslash to // prevent it to be misinterpreted in do_set(). // A space has to be escaped with a CTRL-V when it's at the start of a // ":map" rhs. // A '<' has to be escaped with a CTRL-V to prevent it being // interpreted as the start of a special key name. // A space in the lhs of a :map needs a CTRL-V. if (what == 2 && (VIM_ISWHITE(c) || c == '"' || c == '\\')) { if (putc('\\', fd) < 0) return FAIL; } else if (c < ' ' || c > '~' || c == '|' || (what == 0 && c == ' ') || (what == 1 && str == strstart && c == ' ') || (what != 2 && c == '<')) { if (putc(Ctrl_V, fd) < 0) return FAIL; } if (putc(c, fd) < 0) return FAIL; } return OK; } /* * Check all mappings for the presence of special key codes. * Used after ":set term=xxx". */ void check_map_keycodes(void) { mapblock_T *mp; char_u *p; int i; char_u buf[3]; int abbr; int hash; buf_T *bp; ESTACK_CHECK_DECLARATION validate_maphash(); // avoids giving error messages estack_push(ETYPE_INTERNAL, (char_u *)"mappings", 0); ESTACK_CHECK_SETUP // Do this once for each buffer, and then once for global // mappings/abbreviations with bp == NULL for (bp = firstbuf; ; bp = bp->b_next) { // Do the loop twice: Once for mappings, once for abbreviations. // Then loop over all map hash lists. for (abbr = 0; abbr <= 1; ++abbr) for (hash = 0; hash < 256; ++hash) { if (abbr) { if (hash) // there is only one abbr list break; if (bp != NULL) mp = bp->b_first_abbr; else mp = first_abbr; } else { if (bp != NULL) mp = bp->b_maphash[hash]; else mp = maphash[hash]; } for ( ; mp != NULL; mp = mp->m_next) { for (i = 0; i <= 1; ++i) // do this twice { if (i == 0) p = mp->m_keys; // once for the "from" part else p = mp->m_str; // and once for the "to" part while (*p) { if (*p == K_SPECIAL) { ++p; if (*p < 128) // for "normal" tcap entries { buf[0] = p[0]; buf[1] = p[1]; buf[2] = NUL; (void)add_termcap_entry(buf, FALSE); } ++p; } ++p; } } } } if (bp == NULL) break; } ESTACK_CHECK_NOW estack_pop(); } #if defined(FEAT_EVAL) || defined(PROTO) /* * Check the string "keys" against the lhs of all mappings. * Return pointer to rhs of mapping (mapblock->m_str). * NULL when no mapping found. */ char_u * check_map( char_u *keys, int mode, int exact, // require exact match int ign_mod, // ignore preceding modifier int abbr, // do abbreviations mapblock_T **mp_ptr, // return: pointer to mapblock or NULL int *local_ptr) // return: buffer-local mapping or NULL { int hash; int len, minlen; mapblock_T *mp; char_u *s; int local; validate_maphash(); len = (int)STRLEN(keys); for (local = 1; local >= 0; --local) // loop over all hash lists for (hash = 0; hash < 256; ++hash) { if (abbr) { if (hash > 0) // there is only one list. break; if (local) mp = curbuf->b_first_abbr; else mp = first_abbr; } else if (local) mp = curbuf->b_maphash[hash]; else mp = maphash[hash]; for ( ; mp != NULL; mp = mp->m_next) { // skip entries with wrong mode, wrong length and not matching // ones if ((mp->m_mode & mode) && (!exact || mp->m_keylen == len)) { if (len > mp->m_keylen) minlen = mp->m_keylen; else minlen = len; s = mp->m_keys; if (ign_mod && s[0] == K_SPECIAL && s[1] == KS_MODIFIER && s[2] != NUL) { s += 3; if (len > mp->m_keylen - 3) minlen = mp->m_keylen - 3; } if (STRNCMP(s, keys, minlen) == 0) { if (mp_ptr != NULL) *mp_ptr = mp; if (local_ptr != NULL) *local_ptr = local; return mp->m_str; } } } } return NULL; } static void get_maparg(typval_T *argvars, typval_T *rettv, int exact) { char_u *keys; char_u *keys_simplified; char_u *which; char_u buf[NUMBUFLEN]; char_u *keys_buf = NULL; char_u *alt_keys_buf = NULL; int did_simplify = FALSE; char_u *rhs; int mode; int abbr = FALSE; int get_dict = FALSE; mapblock_T *mp; mapblock_T *mp_simplified = NULL; int buffer_local; int flags = REPTERM_FROM_PART | REPTERM_DO_LT; // return empty string for failure rettv->v_type = VAR_STRING; rettv->vval.v_string = NULL; keys = tv_get_string(&argvars[0]); if (*keys == NUL) return; if (argvars[1].v_type != VAR_UNKNOWN) { which = tv_get_string_buf_chk(&argvars[1], buf); if (argvars[2].v_type != VAR_UNKNOWN) { abbr = (int)tv_get_bool(&argvars[2]); if (argvars[3].v_type != VAR_UNKNOWN) get_dict = (int)tv_get_bool(&argvars[3]); } } else which = (char_u *)""; if (which == NULL) return; mode = get_map_mode(&which, 0); keys_simplified = replace_termcodes(keys, &keys_buf, flags, &did_simplify); rhs = check_map(keys_simplified, mode, exact, FALSE, abbr, &mp, &buffer_local); if (did_simplify) { // When the lhs is being simplified the not-simplified keys are // preferred for printing, like in do_map(). // The "rhs" and "buffer_local" values are not expected to change. mp_simplified = mp; (void)replace_termcodes(keys, &alt_keys_buf, flags | REPTERM_NO_SIMPLIFY, NULL); rhs = check_map(alt_keys_buf, mode, exact, FALSE, abbr, &mp, &buffer_local); } if (!get_dict) { // Return a string. if (rhs != NULL) { if (*rhs == NUL) rettv->vval.v_string = vim_strsave((char_u *)"<Nop>"); else rettv->vval.v_string = str2special_save(rhs, FALSE); } } else if (rettv_dict_alloc(rettv) != FAIL && rhs != NULL) { // Return a dictionary. char_u *lhs = str2special_save(mp->m_keys, TRUE); char_u *mapmode = map_mode_to_chars(mp->m_mode); dict_T *dict = rettv->vval.v_dict; dict_add_string(dict, "lhs", lhs); vim_free(lhs); dict_add_string(dict, "lhsraw", mp->m_keys); if (did_simplify) // Also add the value for the simplified entry. dict_add_string(dict, "lhsrawalt", mp_simplified->m_keys); dict_add_string(dict, "rhs", mp->m_orig_str); dict_add_number(dict, "noremap", mp->m_noremap ? 1L : 0L); dict_add_number(dict, "script", mp->m_noremap == REMAP_SCRIPT ? 1L : 0L); dict_add_number(dict, "expr", mp->m_expr ? 1L : 0L); dict_add_number(dict, "silent", mp->m_silent ? 1L : 0L); dict_add_number(dict, "sid", (long)mp->m_script_ctx.sc_sid); dict_add_number(dict, "lnum", (long)mp->m_script_ctx.sc_lnum); dict_add_number(dict, "buffer", (long)buffer_local); dict_add_number(dict, "nowait", mp->m_nowait ? 1L : 0L); dict_add_string(dict, "mode", mapmode); vim_free(mapmode); } vim_free(keys_buf); vim_free(alt_keys_buf); } /* * "maparg()" function */ void f_maparg(typval_T *argvars, typval_T *rettv) { if (in_vim9script() && (check_for_string_arg(argvars, 0) == FAIL || check_for_opt_string_arg(argvars, 1) == FAIL || (argvars[1].v_type != VAR_UNKNOWN && (check_for_opt_bool_arg(argvars, 2) == FAIL || (argvars[2].v_type != VAR_UNKNOWN && check_for_opt_bool_arg(argvars, 3) == FAIL))))) return; get_maparg(argvars, rettv, TRUE); } /* * "mapcheck()" function */ void f_mapcheck(typval_T *argvars, typval_T *rettv) { if (in_vim9script() && (check_for_string_arg(argvars, 0) == FAIL || check_for_opt_string_arg(argvars, 1) == FAIL || (argvars[1].v_type != VAR_UNKNOWN && check_for_opt_bool_arg(argvars, 2) == FAIL))) return; get_maparg(argvars, rettv, FALSE); } /* * "mapset()" function */ void f_mapset(typval_T *argvars, typval_T *rettv UNUSED) { char_u *keys_buf = NULL; char_u *which; int mode; char_u buf[NUMBUFLEN]; int is_abbr; dict_T *d; char_u *lhs; char_u *lhsraw; char_u *lhsrawalt; char_u *rhs; char_u *orig_rhs; char_u *arg_buf = NULL; int noremap; int expr; int silent; int buffer; scid_T sid; linenr_T lnum; mapblock_T **map_table = maphash; mapblock_T **abbr_table = &first_abbr; int nowait; char_u *arg; if (in_vim9script() && (check_for_string_arg(argvars, 0) == FAIL || check_for_bool_arg(argvars, 1) == FAIL || check_for_dict_arg(argvars, 2) == FAIL)) return; which = tv_get_string_buf_chk(&argvars[0], buf); if (which == NULL) return; mode = get_map_mode(&which, 0); is_abbr = (int)tv_get_bool(&argvars[1]); if (argvars[2].v_type != VAR_DICT) { emsg(_(e_dictkey)); return; } d = argvars[2].vval.v_dict; // Get the values in the same order as above in get_maparg(). lhs = dict_get_string(d, (char_u *)"lhs", FALSE); lhsraw = dict_get_string(d, (char_u *)"lhsraw", FALSE); lhsrawalt = dict_get_string(d, (char_u *)"lhsrawalt", FALSE); rhs = dict_get_string(d, (char_u *)"rhs", FALSE); if (lhs == NULL || lhsraw == NULL || rhs == NULL) { emsg(_("E460: entries missing in mapset() dict argument")); return; } orig_rhs = rhs; rhs = replace_termcodes(rhs, &arg_buf, REPTERM_DO_LT | REPTERM_SPECIAL, NULL); noremap = dict_get_number(d, (char_u *)"noremap") ? REMAP_NONE: 0; if (dict_get_number(d, (char_u *)"script") != 0) noremap = REMAP_SCRIPT; expr = dict_get_number(d, (char_u *)"expr") != 0; silent = dict_get_number(d, (char_u *)"silent") != 0; sid = dict_get_number(d, (char_u *)"sid"); lnum = dict_get_number(d, (char_u *)"lnum"); buffer = dict_get_number(d, (char_u *)"buffer"); nowait = dict_get_number(d, (char_u *)"nowait") != 0; // mode from the dict is not used if (buffer) { map_table = curbuf->b_maphash; abbr_table = &curbuf->b_first_abbr; } // Delete any existing mapping for this lhs and mode. if (buffer) { arg = alloc(STRLEN(lhs) + STRLEN("<buffer>") + 1); if (arg == NULL) return; STRCPY(arg, "<buffer>"); STRCPY(arg + 8, lhs); } else { arg = vim_strsave(lhs); if (arg == NULL) return; } do_map(1, arg, mode, is_abbr); vim_free(arg); (void)map_add(map_table, abbr_table, lhsraw, rhs, orig_rhs, noremap, nowait, silent, mode, is_abbr, expr, sid, lnum, 0); if (lhsrawalt != NULL) (void)map_add(map_table, abbr_table, lhsrawalt, rhs, orig_rhs, noremap, nowait, silent, mode, is_abbr, expr, sid, lnum, 1); vim_free(keys_buf); vim_free(arg_buf); } #endif #if defined(MSWIN) || defined(MACOS_X) # define VIS_SEL (VISUAL+SELECTMODE) // abbreviation /* * Default mappings for some often used keys. */ struct initmap { char_u *arg; int mode; }; # ifdef FEAT_GUI_MSWIN // Use the Windows (CUA) keybindings. (GUI) static struct initmap initmappings[] = { // paste, copy and cut {(char_u *)"<S-Insert> \"*P", NORMAL}, {(char_u *)"<S-Insert> \"-d\"*P", VIS_SEL}, {(char_u *)"<S-Insert> <C-R><C-O>*", INSERT+CMDLINE}, {(char_u *)"<C-Insert> \"*y", VIS_SEL}, {(char_u *)"<S-Del> \"*d", VIS_SEL}, {(char_u *)"<C-Del> \"*d", VIS_SEL}, {(char_u *)"<C-X> \"*d", VIS_SEL}, // Missing: CTRL-C (cancel) and CTRL-V (block selection) }; # endif # if defined(MSWIN) && (!defined(FEAT_GUI) || defined(VIMDLL)) // Use the Windows (CUA) keybindings. (Console) static struct initmap cinitmappings[] = { {(char_u *)"\316w <C-Home>", NORMAL+VIS_SEL}, {(char_u *)"\316w <C-Home>", INSERT+CMDLINE}, {(char_u *)"\316u <C-End>", NORMAL+VIS_SEL}, {(char_u *)"\316u <C-End>", INSERT+CMDLINE}, // paste, copy and cut # ifdef FEAT_CLIPBOARD {(char_u *)"\316\324 \"*P", NORMAL}, // SHIFT-Insert is "*P {(char_u *)"\316\324 \"-d\"*P", VIS_SEL}, // SHIFT-Insert is "-d"*P {(char_u *)"\316\324 \022\017*", INSERT}, // SHIFT-Insert is ^R^O* {(char_u *)"\316\325 \"*y", VIS_SEL}, // CTRL-Insert is "*y {(char_u *)"\316\327 \"*d", VIS_SEL}, // SHIFT-Del is "*d {(char_u *)"\316\330 \"*d", VIS_SEL}, // CTRL-Del is "*d {(char_u *)"\030 \"*d", VIS_SEL}, // CTRL-X is "*d # else {(char_u *)"\316\324 P", NORMAL}, // SHIFT-Insert is P {(char_u *)"\316\324 \"-dP", VIS_SEL}, // SHIFT-Insert is "-dP {(char_u *)"\316\324 \022\017\"", INSERT}, // SHIFT-Insert is ^R^O" {(char_u *)"\316\325 y", VIS_SEL}, // CTRL-Insert is y {(char_u *)"\316\327 d", VIS_SEL}, // SHIFT-Del is d {(char_u *)"\316\330 d", VIS_SEL}, // CTRL-Del is d # endif }; # endif # if defined(MACOS_X) static struct initmap initmappings[] = { // Use the Standard MacOS binding. // paste, copy and cut {(char_u *)"<D-v> \"*P", NORMAL}, {(char_u *)"<D-v> \"-d\"*P", VIS_SEL}, {(char_u *)"<D-v> <C-R>*", INSERT+CMDLINE}, {(char_u *)"<D-c> \"*y", VIS_SEL}, {(char_u *)"<D-x> \"*d", VIS_SEL}, {(char_u *)"<Backspace> \"-d", VIS_SEL}, }; # endif # undef VIS_SEL #endif /* * Set up default mappings. */ void init_mappings(void) { #if defined(MSWIN) || defined(MACOS_X) int i; # if defined(MSWIN) && (!defined(FEAT_GUI_MSWIN) || defined(VIMDLL)) # ifdef VIMDLL if (!gui.starting) # endif { for (i = 0; i < (int)ARRAY_LENGTH(cinitmappings); ++i) add_map(cinitmappings[i].arg, cinitmappings[i].mode); } # endif # if defined(FEAT_GUI_MSWIN) || defined(MACOS_X) for (i = 0; i < (int)ARRAY_LENGTH(initmappings); ++i) add_map(initmappings[i].arg, initmappings[i].mode); # endif #endif } #if defined(MSWIN) || defined(FEAT_CMDWIN) || defined(MACOS_X) \ || defined(PROTO) /* * Add a mapping "map" for mode "mode". * Need to put string in allocated memory, because do_map() will modify it. */ void add_map(char_u *map, int mode) { char_u *s; char_u *cpo_save = p_cpo; p_cpo = empty_option; // Allow <> notation s = vim_strsave(map); if (s != NULL) { (void)do_map(0, s, mode, FALSE); vim_free(s); } p_cpo = cpo_save; } #endif #if defined(FEAT_LANGMAP) || defined(PROTO) /* * Any character has an equivalent 'langmap' character. This is used for * keyboards that have a special language mode that sends characters above * 128 (although other characters can be translated too). The "to" field is a * Vim command character. This avoids having to switch the keyboard back to * ASCII mode when leaving Insert mode. * * langmap_mapchar[] maps any of 256 chars to an ASCII char used for Vim * commands. * langmap_mapga.ga_data is a sorted table of langmap_entry_T. This does the * same as langmap_mapchar[] for characters >= 256. * * Use growarray for 'langmap' chars >= 256 */ typedef struct { int from; int to; } langmap_entry_T; static garray_T langmap_mapga; /* * Search for an entry in "langmap_mapga" for "from". If found set the "to" * field. If not found insert a new entry at the appropriate location. */ static void langmap_set_entry(int from, int to) { langmap_entry_T *entries = (langmap_entry_T *)(langmap_mapga.ga_data); int a = 0; int b = langmap_mapga.ga_len; // Do a binary search for an existing entry. while (a != b) { int i = (a + b) / 2; int d = entries[i].from - from; if (d == 0) { entries[i].to = to; return; } if (d < 0) a = i + 1; else b = i; } if (ga_grow(&langmap_mapga, 1) != OK) return; // out of memory // insert new entry at position "a" entries = (langmap_entry_T *)(langmap_mapga.ga_data) + a; mch_memmove(entries + 1, entries, (langmap_mapga.ga_len - a) * sizeof(langmap_entry_T)); ++langmap_mapga.ga_len; entries[0].from = from; entries[0].to = to; } /* * Apply 'langmap' to multi-byte character "c" and return the result. */ int langmap_adjust_mb(int c) { langmap_entry_T *entries = (langmap_entry_T *)(langmap_mapga.ga_data); int a = 0; int b = langmap_mapga.ga_len; while (a != b) { int i = (a + b) / 2; int d = entries[i].from - c; if (d == 0) return entries[i].to; // found matching entry if (d < 0) a = i + 1; else b = i; } return c; // no entry found, return "c" unmodified } void langmap_init(void) { int i; for (i = 0; i < 256; i++) langmap_mapchar[i] = i; // we init with a one-to-one map ga_init2(&langmap_mapga, sizeof(langmap_entry_T), 8); } /* * Called when langmap option is set; the language map can be * changed at any time! */ void langmap_set(void) { char_u *p; char_u *p2; int from, to; ga_clear(&langmap_mapga); // clear the previous map first langmap_init(); // back to one-to-one map for (p = p_langmap; p[0] != NUL; ) { for (p2 = p; p2[0] != NUL && p2[0] != ',' && p2[0] != ';'; MB_PTR_ADV(p2)) { if (p2[0] == '\\' && p2[1] != NUL) ++p2; } if (p2[0] == ';') ++p2; // abcd;ABCD form, p2 points to A else p2 = NULL; // aAbBcCdD form, p2 is NULL while (p[0]) { if (p[0] == ',') { ++p; break; } if (p[0] == '\\' && p[1] != NUL) ++p; from = (*mb_ptr2char)(p); to = NUL; if (p2 == NULL) { MB_PTR_ADV(p); if (p[0] != ',') { if (p[0] == '\\') ++p; to = (*mb_ptr2char)(p); } } else { if (p2[0] != ',') { if (p2[0] == '\\') ++p2; to = (*mb_ptr2char)(p2); } } if (to == NUL) { semsg(_("E357: 'langmap': Matching character missing for %s"), transchar(from)); return; } if (from >= 256) langmap_set_entry(from, to); else langmap_mapchar[from & 255] = to; // Advance to next pair MB_PTR_ADV(p); if (p2 != NULL) { MB_PTR_ADV(p2); if (*p == ';') { p = p2; if (p[0] != NUL) { if (p[0] != ',') { semsg(_("E358: 'langmap': Extra characters after semicolon: %s"), p); return; } ++p; } break; } } } } } #endif static void do_exmap(exarg_T *eap, int isabbrev) { int mode; char_u *cmdp; cmdp = eap->cmd; mode = get_map_mode(&cmdp, eap->forceit || isabbrev); switch (do_map((*cmdp == 'n') ? 2 : (*cmdp == 'u'), eap->arg, mode, isabbrev)) { case 1: emsg(_(e_invarg)); break; case 2: emsg((isabbrev ? _(e_no_such_abbreviation) : _(e_no_such_mapping))); break; } } /* * ":abbreviate" and friends. */ void ex_abbreviate(exarg_T *eap) { do_exmap(eap, TRUE); // almost the same as mapping } /* * ":map" and friends. */ void ex_map(exarg_T *eap) { // If we are sourcing .exrc or .vimrc in current directory we // print the mappings for security reasons. if (secure) { secure = 2; msg_outtrans(eap->cmd); msg_putchar('\n'); } do_exmap(eap, FALSE); } /* * ":unmap" and friends. */ void ex_unmap(exarg_T *eap) { do_exmap(eap, FALSE); } /* * ":mapclear" and friends. */ void ex_mapclear(exarg_T *eap) { map_clear(eap->cmd, eap->arg, eap->forceit, FALSE); } /* * ":abclear" and friends. */ void ex_abclear(exarg_T *eap) { map_clear(eap->cmd, eap->arg, TRUE, TRUE); }