Mercurial > vim
view src/getchar.c @ 34971:0cc43bca5bd9 v9.1.0341
patch 9.1.0341: Problem: a few memory leaks are found
Commit: https://github.com/vim/vim/commit/29269a71b5ac8a87c6c4beca35c173a19a2c9398
Author: Christian Brabandt <cb@256bit.org>
Date: Tue Apr 16 22:44:31 2024 +0200
patch 9.1.0341: Problem: a few memory leaks are found
Problem: a few memory leaks are found
(LuMingYinDetect )
Solution: properly free the memory
Fixes the following problems:
- Memory leak in f_maplist()
fixes: #14486
- Memory leak in option.c
fixes: #14485
- Memory leak in f_resolve()
fixes: #14484
- Memory leak in f_autocmd_get()
related: #14474
- Memory leak in dict_extend_func()
fixes: #14477
fixes: #14238
closes: #14517
Signed-off-by: Christian Brabandt <cb@256bit.org>
author | Christian Brabandt <cb@256bit.org> |
---|---|
date | Tue, 16 Apr 2024 23:00:03 +0200 |
parents | bcacdee71db4 |
children | 52db4364a5cd |
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. */ /* * getchar.c: Code related to getting a character from the user or a script * file, manipulations with redo buffer and stuff buffer. */ #include "vim.h" /* * These buffers are used for storing: * - stuffed characters: A command that is translated into another command. * - redo characters: will redo the last change. * - recorded characters: for the "q" command. * * The bytes are stored like in the typeahead buffer: * - K_SPECIAL introduces a special key (two more bytes follow). A literal * K_SPECIAL is stored as K_SPECIAL KS_SPECIAL KE_FILLER. * - CSI introduces a GUI termcap code (also when gui.in_use is FALSE, * otherwise switching the GUI on would make mappings invalid). * A literal CSI is stored as CSI KS_EXTRA KE_CSI. * These translations are also done on multi-byte characters! * * Escaping CSI bytes is done by the system-specific input functions, called * by ui_inchar(). * Escaping K_SPECIAL is done by inchar(). * Un-escaping is done by vgetc(). */ #define MINIMAL_SIZE 20 // minimal size for b_str static buffheader_T redobuff = {{NULL, {NUL}}, NULL, 0, 0}; static buffheader_T old_redobuff = {{NULL, {NUL}}, NULL, 0, 0}; static buffheader_T recordbuff = {{NULL, {NUL}}, NULL, 0, 0}; static int typeahead_char = 0; // typeahead char that's not flushed /* * When block_redo is TRUE the redo buffer will not be changed. * Used by edit() to repeat insertions. */ static int block_redo = FALSE; static int KeyNoremap = 0; // remapping flags /* * Variables used by vgetorpeek() and flush_buffers(). * * typebuf.tb_buf[] contains all characters that are not consumed yet. * typebuf.tb_buf[typebuf.tb_off] is the first valid character. * typebuf.tb_buf[typebuf.tb_off + typebuf.tb_len - 1] is the last valid char. * typebuf.tb_buf[typebuf.tb_off + typebuf.tb_len] must be NUL. * The head of the buffer may contain the result of mappings, abbreviations * and @a commands. The length of this part is typebuf.tb_maplen. * typebuf.tb_silent is the part where <silent> applies. * After the head are characters that come from the terminal. * typebuf.tb_no_abbr_cnt is the number of characters in typebuf.tb_buf that * should not be considered for abbreviations. * Some parts of typebuf.tb_buf may not be mapped. These parts are remembered * in typebuf.tb_noremap[], which is the same length as typebuf.tb_buf and * contains RM_NONE for the characters that are not to be remapped. * typebuf.tb_noremap[typebuf.tb_off] is the first valid flag. * (typebuf has been put in globals.h, because check_termcode() needs it). */ #define RM_YES 0 // tb_noremap: remap #define RM_NONE 1 // tb_noremap: don't remap #define RM_SCRIPT 2 // tb_noremap: remap local script mappings #define RM_ABBR 4 // tb_noremap: don't remap, do abbrev. // typebuf.tb_buf has three parts: room in front (for result of mappings), the // middle for typeahead and room for new characters (which needs to be 3 * // MAXMAPLEN for the Amiga). #define TYPELEN_INIT (5 * (MAXMAPLEN + 3)) static char_u typebuf_init[TYPELEN_INIT]; // initial typebuf.tb_buf static char_u noremapbuf_init[TYPELEN_INIT]; // initial typebuf.tb_noremap static size_t last_recorded_len = 0; // number of last recorded chars #ifdef FEAT_EVAL mapblock_T *last_used_map = NULL; int last_used_sid = -1; #endif static int read_readbuf(buffheader_T *buf, int advance); static void init_typebuf(void); static void may_sync_undo(void); static void free_typebuf(void); static void closescript(void); static void updatescript(int c); static int vgetorpeek(int); static int inchar(char_u *buf, int maxlen, long wait_time); /* * Free and clear a buffer. */ static void free_buff(buffheader_T *buf) { buffblock_T *p, *np; for (p = buf->bh_first.b_next; p != NULL; p = np) { np = p->b_next; vim_free(p); } buf->bh_first.b_next = NULL; buf->bh_curr = NULL; } /* * Return the contents of a buffer as a single string. * K_SPECIAL and CSI in the returned string are escaped. */ static char_u * get_buffcont( buffheader_T *buffer, int dozero) // count == zero is not an error { long_u count = 0; char_u *p = NULL; char_u *p2; char_u *str; buffblock_T *bp; // compute the total length of the string for (bp = buffer->bh_first.b_next; bp != NULL; bp = bp->b_next) count += (long_u)STRLEN(bp->b_str); if ((count > 0 || dozero) && (p = alloc(count + 1)) != NULL) { p2 = p; for (bp = buffer->bh_first.b_next; bp != NULL; bp = bp->b_next) for (str = bp->b_str; *str; ) *p2++ = *str++; *p2 = NUL; } return p; } /* * Return the contents of the record buffer as a single string * and clear the record buffer. * K_SPECIAL and CSI in the returned string are escaped. */ char_u * get_recorded(void) { char_u *p; size_t len; p = get_buffcont(&recordbuff, TRUE); free_buff(&recordbuff); /* * Remove the characters that were added the last time, these must be the * (possibly mapped) characters that stopped the recording. */ len = STRLEN(p); if (len >= last_recorded_len) { len -= last_recorded_len; p[len] = NUL; } /* * When stopping recording from Insert mode with CTRL-O q, also remove the * CTRL-O. */ if (len > 0 && restart_edit != 0 && p[len - 1] == Ctrl_O) p[len - 1] = NUL; return (p); } /* * Return the contents of the redo buffer as a single string. * K_SPECIAL and CSI in the returned string are escaped. */ char_u * get_inserted(void) { return get_buffcont(&redobuff, FALSE); } /* * Add string "s" after the current block of buffer "buf". * K_SPECIAL and CSI should have been escaped already. */ static void add_buff( buffheader_T *buf, char_u *s, long slen) // length of "s" or -1 { buffblock_T *p; long_u len; if (slen < 0) slen = (long)STRLEN(s); if (slen == 0) // don't add empty strings return; if (buf->bh_first.b_next == NULL) // first add to list { buf->bh_space = 0; buf->bh_curr = &(buf->bh_first); } else if (buf->bh_curr == NULL) // buffer has already been read { iemsg(e_add_to_internal_buffer_that_was_already_read_from); return; } else if (buf->bh_index != 0) mch_memmove(buf->bh_first.b_next->b_str, buf->bh_first.b_next->b_str + buf->bh_index, STRLEN(buf->bh_first.b_next->b_str + buf->bh_index) + 1); buf->bh_index = 0; if (buf->bh_space >= (int)slen) { len = (long_u)STRLEN(buf->bh_curr->b_str); vim_strncpy(buf->bh_curr->b_str + len, s, (size_t)slen); buf->bh_space -= slen; } else { if (slen < MINIMAL_SIZE) len = MINIMAL_SIZE; else len = slen; p = alloc(offsetof(buffblock_T, b_str) + len + 1); if (p == NULL) return; // no space, just forget it buf->bh_space = (int)(len - slen); vim_strncpy(p->b_str, s, (size_t)slen); p->b_next = buf->bh_curr->b_next; buf->bh_curr->b_next = p; buf->bh_curr = p; } } /* * Delete "slen" bytes from the end of "buf". * Only works when it was just added. */ static void delete_buff_tail(buffheader_T *buf, int slen) { int len; if (buf->bh_curr == NULL) return; // nothing to delete len = (int)STRLEN(buf->bh_curr->b_str); if (len < slen) return; buf->bh_curr->b_str[len - slen] = NUL; buf->bh_space += slen; } /* * Add number "n" to buffer "buf". */ static void add_num_buff(buffheader_T *buf, long n) { char_u number[32]; sprintf((char *)number, "%ld", n); add_buff(buf, number, -1L); } /* * Add character 'c' to buffer "buf". * Translates special keys, NUL, CSI, K_SPECIAL and multibyte characters. */ static void add_char_buff(buffheader_T *buf, int c) { char_u bytes[MB_MAXBYTES + 1]; int len; int i; char_u temp[4]; if (IS_SPECIAL(c)) len = 1; else len = (*mb_char2bytes)(c, bytes); for (i = 0; i < len; ++i) { if (!IS_SPECIAL(c)) c = bytes[i]; if (IS_SPECIAL(c) || c == K_SPECIAL || c == NUL) { // translate special key code into three byte sequence temp[0] = K_SPECIAL; temp[1] = K_SECOND(c); temp[2] = K_THIRD(c); temp[3] = NUL; } #ifdef FEAT_GUI else if (c == CSI) { // Translate a CSI to a CSI - KS_EXTRA - KE_CSI sequence temp[0] = CSI; temp[1] = KS_EXTRA; temp[2] = (int)KE_CSI; temp[3] = NUL; } #endif else { temp[0] = c; temp[1] = NUL; } add_buff(buf, temp, -1L); } } // First read ahead buffer. Used for translated commands. static buffheader_T readbuf1 = {{NULL, {NUL}}, NULL, 0, 0}; // Second read ahead buffer. Used for redo. static buffheader_T readbuf2 = {{NULL, {NUL}}, NULL, 0, 0}; /* * Get one byte from the read buffers. Use readbuf1 one first, use readbuf2 * if that one is empty. * If advance == TRUE go to the next char. * No translation is done K_SPECIAL and CSI are escaped. */ static int read_readbuffers(int advance) { int c; c = read_readbuf(&readbuf1, advance); if (c == NUL) c = read_readbuf(&readbuf2, advance); return c; } static int read_readbuf(buffheader_T *buf, int advance) { char_u c; buffblock_T *curr; if (buf->bh_first.b_next == NULL) // buffer is empty return NUL; curr = buf->bh_first.b_next; c = curr->b_str[buf->bh_index]; if (advance) { if (curr->b_str[++buf->bh_index] == NUL) { buf->bh_first.b_next = curr->b_next; vim_free(curr); buf->bh_index = 0; } } return c; } /* * Prepare the read buffers for reading (if they contain something). */ static void start_stuff(void) { if (readbuf1.bh_first.b_next != NULL) { readbuf1.bh_curr = &(readbuf1.bh_first); readbuf1.bh_space = 0; } if (readbuf2.bh_first.b_next != NULL) { readbuf2.bh_curr = &(readbuf2.bh_first); readbuf2.bh_space = 0; } } /* * Return TRUE if the stuff buffer is empty. */ int stuff_empty(void) { return (readbuf1.bh_first.b_next == NULL && readbuf2.bh_first.b_next == NULL); } #if defined(FEAT_EVAL) || defined(PROTO) /* * Return TRUE if readbuf1 is empty. There may still be redo characters in * redbuf2. */ int readbuf1_empty(void) { return (readbuf1.bh_first.b_next == NULL); } #endif /* * Set a typeahead character that won't be flushed. */ void typeahead_noflush(int c) { typeahead_char = c; } /* * Remove the contents of the stuff buffer and the mapped characters in the * typeahead buffer (used in case of an error). If "flush_typeahead" is true, * flush all typeahead characters (used when interrupted by a CTRL-C). */ void flush_buffers(flush_buffers_T flush_typeahead) { init_typebuf(); start_stuff(); while (read_readbuffers(TRUE) != NUL) ; if (flush_typeahead == FLUSH_MINIMAL) { // remove mapped characters at the start only typebuf.tb_off += typebuf.tb_maplen; typebuf.tb_len -= typebuf.tb_maplen; #if defined(FEAT_CLIENTSERVER) || defined(FEAT_EVAL) if (typebuf.tb_len == 0) typebuf_was_filled = FALSE; #endif } else { // remove typeahead if (flush_typeahead == FLUSH_INPUT) // We have to get all characters, because we may delete the first // part of an escape sequence. In an xterm we get one char at a // time and we have to get them all. while (inchar(typebuf.tb_buf, typebuf.tb_buflen - 1, 10L) != 0) ; typebuf.tb_off = MAXMAPLEN; typebuf.tb_len = 0; #if defined(FEAT_CLIENTSERVER) || defined(FEAT_EVAL) // Reset the flag that text received from a client or from feedkeys() // was inserted in the typeahead buffer. typebuf_was_filled = FALSE; #endif } typebuf.tb_maplen = 0; typebuf.tb_silent = 0; cmd_silent = FALSE; typebuf.tb_no_abbr_cnt = 0; if (++typebuf.tb_change_cnt == 0) typebuf.tb_change_cnt = 1; } /* * The previous contents of the redo buffer is kept in old_redobuffer. * This is used for the CTRL-O <.> command in insert mode. */ void ResetRedobuff(void) { if (block_redo) return; free_buff(&old_redobuff); old_redobuff = redobuff; redobuff.bh_first.b_next = NULL; } /* * Discard the contents of the redo buffer and restore the previous redo * buffer. */ void CancelRedo(void) { if (block_redo) return; free_buff(&redobuff); redobuff = old_redobuff; old_redobuff.bh_first.b_next = NULL; start_stuff(); while (read_readbuffers(TRUE) != NUL) ; } /* * Save redobuff and old_redobuff to save_redobuff and save_old_redobuff. * Used before executing autocommands and user functions. */ void saveRedobuff(save_redo_T *save_redo) { char_u *s; save_redo->sr_redobuff = redobuff; redobuff.bh_first.b_next = NULL; save_redo->sr_old_redobuff = old_redobuff; old_redobuff.bh_first.b_next = NULL; // Make a copy, so that ":normal ." in a function works. s = get_buffcont(&save_redo->sr_redobuff, FALSE); if (s == NULL) return; add_buff(&redobuff, s, -1L); vim_free(s); } /* * Restore redobuff and old_redobuff from save_redobuff and save_old_redobuff. * Used after executing autocommands and user functions. */ void restoreRedobuff(save_redo_T *save_redo) { free_buff(&redobuff); redobuff = save_redo->sr_redobuff; free_buff(&old_redobuff); old_redobuff = save_redo->sr_old_redobuff; } /* * Append "s" to the redo buffer. * K_SPECIAL and CSI should already have been escaped. */ void AppendToRedobuff(char_u *s) { if (!block_redo) add_buff(&redobuff, s, -1L); } /* * Append to Redo buffer literally, escaping special characters with CTRL-V. * K_SPECIAL and CSI are escaped as well. */ void AppendToRedobuffLit( char_u *str, int len) // length of "str" or -1 for up to the NUL { char_u *s = str; int c; char_u *start; if (block_redo) return; while (len < 0 ? *s != NUL : s - str < len) { // Put a string of normal characters in the redo buffer (that's // faster). start = s; while (*s >= ' ' && *s < DEL && (len < 0 || s - str < len)) ++s; // Don't put '0' or '^' as last character, just in case a CTRL-D is // typed next. if (*s == NUL && (s[-1] == '0' || s[-1] == '^')) --s; if (s > start) add_buff(&redobuff, start, (long)(s - start)); if (*s == NUL || (len >= 0 && s - str >= len)) break; // Handle a special or multibyte character. if (has_mbyte) // Handle composing chars separately. c = mb_cptr2char_adv(&s); else c = *s++; if (c < ' ' || c == DEL || (*s == NUL && (c == '0' || c == '^'))) add_char_buff(&redobuff, Ctrl_V); // CTRL-V '0' must be inserted as CTRL-V 048 if (*s == NUL && c == '0') add_buff(&redobuff, (char_u *)"048", 3L); else add_char_buff(&redobuff, c); } } /* * Append "s" to the redo buffer, leaving 3-byte special key codes unmodified * and escaping other K_SPECIAL and CSI bytes. */ void AppendToRedobuffSpec(char_u *s) { if (block_redo) return; while (*s != NUL) { if (*s == K_SPECIAL && s[1] != NUL && s[2] != NUL) { // Insert special key literally. add_buff(&redobuff, s, 3L); s += 3; } else add_char_buff(&redobuff, mb_cptr2char_adv(&s)); } } /* * Append a character to the redo buffer. * Translates special keys, NUL, CSI, K_SPECIAL and multibyte characters. */ void AppendCharToRedobuff(int c) { if (!block_redo) add_char_buff(&redobuff, c); } /* * Append a number to the redo buffer. */ void AppendNumberToRedobuff(long n) { if (!block_redo) add_num_buff(&redobuff, n); } /* * Append string "s" to the stuff buffer. * CSI and K_SPECIAL must already have been escaped. */ void stuffReadbuff(char_u *s) { add_buff(&readbuf1, s, -1L); } /* * Append string "s" to the redo stuff buffer. * CSI and K_SPECIAL must already have been escaped. */ void stuffRedoReadbuff(char_u *s) { add_buff(&readbuf2, s, -1L); } static void stuffReadbuffLen(char_u *s, long len) { add_buff(&readbuf1, s, len); } #if defined(FEAT_EVAL) || defined(PROTO) /* * Stuff "s" into the stuff buffer, leaving special key codes unmodified and * escaping other K_SPECIAL and CSI bytes. * Change CR, LF and ESC into a space. */ void stuffReadbuffSpec(char_u *s) { int c; while (*s != NUL) { if (*s == K_SPECIAL && s[1] != NUL && s[2] != NUL) { // Insert special key literally. stuffReadbuffLen(s, 3L); s += 3; } else { c = mb_cptr2char_adv(&s); if (c == CAR || c == NL || c == ESC) c = ' '; stuffcharReadbuff(c); } } } #endif /* * Append a character to the stuff buffer. * Translates special keys, NUL, CSI, K_SPECIAL and multibyte characters. */ void stuffcharReadbuff(int c) { add_char_buff(&readbuf1, c); } /* * Append a number to the stuff buffer. */ void stuffnumReadbuff(long n) { add_num_buff(&readbuf1, n); } /* * Stuff a string into the typeahead buffer, such that edit() will insert it * literally ("literally" TRUE) or interpret is as typed characters. */ void stuffescaped(char_u *arg, int literally) { int c; char_u *start; while (*arg != NUL) { // Stuff a sequence of normal ASCII characters, that's fast. Also // stuff K_SPECIAL to get the effect of a special key when "literally" // is TRUE. start = arg; while ((*arg >= ' ' && *arg < DEL) || (*arg == K_SPECIAL && !literally)) ++arg; if (arg > start) stuffReadbuffLen(start, (long)(arg - start)); // stuff a single special character if (*arg != NUL) { if (has_mbyte) c = mb_cptr2char_adv(&arg); else c = *arg++; if (literally && ((c < ' ' && c != TAB) || c == DEL)) stuffcharReadbuff(Ctrl_V); stuffcharReadbuff(c); } } } /* * Read a character from the redo buffer. Translates K_SPECIAL, CSI and * multibyte characters. * The redo buffer is left as it is. * If init is TRUE, prepare for redo, return FAIL if nothing to redo, OK * otherwise. * If old is TRUE, use old_redobuff instead of redobuff. */ static int read_redo(int init, int old_redo) { static buffblock_T *bp; static char_u *p; int c; int n; char_u buf[MB_MAXBYTES + 1]; int i; if (init) { if (old_redo) bp = old_redobuff.bh_first.b_next; else bp = redobuff.bh_first.b_next; if (bp == NULL) return FAIL; p = bp->b_str; return OK; } if ((c = *p) != NUL) { // Reverse the conversion done by add_char_buff() // For a multi-byte character get all the bytes and return the // converted character. if (has_mbyte && (c != K_SPECIAL || p[1] == KS_SPECIAL)) n = MB_BYTE2LEN_CHECK(c); else n = 1; for (i = 0; ; ++i) { if (c == K_SPECIAL) // special key or escaped K_SPECIAL { c = TO_SPECIAL(p[1], p[2]); p += 2; } #ifdef FEAT_GUI if (c == CSI) // escaped CSI p += 2; #endif if (*++p == NUL && bp->b_next != NULL) { bp = bp->b_next; p = bp->b_str; } buf[i] = c; if (i == n - 1) // last byte of a character { if (n != 1) c = (*mb_ptr2char)(buf); break; } c = *p; if (c == NUL) // cannot happen? break; } } return c; } /* * Copy the rest of the redo buffer into the stuff buffer (in a slow way). * If old_redo is TRUE, use old_redobuff instead of redobuff. * The escaped K_SPECIAL and CSI are copied without translation. */ static void copy_redo(int old_redo) { int c; while ((c = read_redo(FALSE, old_redo)) != NUL) add_char_buff(&readbuf2, c); } /* * Stuff the redo buffer into readbuf2. * Insert the redo count into the command. * If "old_redo" is TRUE, the last but one command is repeated * instead of the last command (inserting text). This is used for * CTRL-O <.> in insert mode * * return FAIL for failure, OK otherwise */ int start_redo(long count, int old_redo) { int c; // init the pointers; return if nothing to redo if (read_redo(TRUE, old_redo) == FAIL) return FAIL; c = read_redo(FALSE, old_redo); #ifdef FEAT_EVAL if (c == K_SID) { // Copy the <SID>{sid}; sequence add_char_buff(&readbuf2, c); for (;;) { c = read_redo(FALSE, old_redo); add_char_buff(&readbuf2, c); if (!SAFE_isdigit(c)) break; } c = read_redo(FALSE, old_redo); } #endif // copy the buffer name, if present if (c == '"') { add_buff(&readbuf2, (char_u *)"\"", 1L); c = read_redo(FALSE, old_redo); // if a numbered buffer is used, increment the number if (c >= '1' && c < '9') ++c; add_char_buff(&readbuf2, c); // the expression register should be re-evaluated if (c == '=') { add_char_buff(&readbuf2, CAR); cmd_silent = TRUE; } c = read_redo(FALSE, old_redo); } if (c == 'v') // redo Visual { VIsual = curwin->w_cursor; VIsual_active = TRUE; VIsual_select = FALSE; VIsual_reselect = TRUE; redo_VIsual_busy = TRUE; c = read_redo(FALSE, old_redo); } // try to enter the count (in place of a previous count) if (count) { while (VIM_ISDIGIT(c)) // skip "old" count c = read_redo(FALSE, old_redo); add_num_buff(&readbuf2, count); } // copy the rest from the redo buffer into the stuff buffer add_char_buff(&readbuf2, c); copy_redo(old_redo); return OK; } /* * Repeat the last insert (R, o, O, a, A, i or I command) by stuffing * the redo buffer into readbuf2. * return FAIL for failure, OK otherwise */ int start_redo_ins(void) { int c; if (read_redo(TRUE, FALSE) == FAIL) return FAIL; start_stuff(); // skip the count and the command character while ((c = read_redo(FALSE, FALSE)) != NUL) { if (vim_strchr((char_u *)"AaIiRrOo", c) != NULL) { if (c == 'O' || c == 'o') add_buff(&readbuf2, NL_STR, -1L); break; } } // copy the typed text from the redo buffer into the stuff buffer copy_redo(FALSE); block_redo = TRUE; return OK; } void stop_redo_ins(void) { block_redo = FALSE; } /* * Initialize typebuf.tb_buf to point to typebuf_init. * alloc() cannot be used here: In out-of-memory situations it would * be impossible to type anything. */ static void init_typebuf(void) { if (typebuf.tb_buf != NULL) return; typebuf.tb_buf = typebuf_init; typebuf.tb_noremap = noremapbuf_init; typebuf.tb_buflen = TYPELEN_INIT; typebuf.tb_len = 0; typebuf.tb_off = MAXMAPLEN + 4; typebuf.tb_change_cnt = 1; } /* * Returns TRUE when keys cannot be remapped. */ int noremap_keys(void) { return KeyNoremap & (RM_NONE|RM_SCRIPT); } /* * Insert a string in position 'offset' in the typeahead buffer (for "@r" * and ":normal" command, vgetorpeek() and check_termcode()). * * If "noremap" is REMAP_YES, new string can be mapped again. * If "noremap" is REMAP_NONE, new string cannot be mapped again. * If "noremap" is REMAP_SKIP, first char of new string cannot be mapped again, * but abbreviations are allowed. * If "noremap" is REMAP_SCRIPT, new string cannot be mapped again, except for * script-local mappings. * If "noremap" is > 0, that many characters of the new string cannot be mapped. * * If "nottyped" is TRUE, the string does not return KeyTyped (don't use when * "offset" is non-zero!). * * If "silent" is TRUE, cmd_silent is set when the characters are obtained. * * return FAIL for failure, OK otherwise */ int ins_typebuf( char_u *str, int noremap, int offset, int nottyped, int silent) { char_u *s1, *s2; int newlen; int addlen; int i; int newoff; int val; int nrm; init_typebuf(); if (++typebuf.tb_change_cnt == 0) typebuf.tb_change_cnt = 1; state_no_longer_safe("ins_typebuf()"); addlen = (int)STRLEN(str); if (offset == 0 && addlen <= typebuf.tb_off) { /* * Easy case: there is room in front of typebuf.tb_buf[typebuf.tb_off] */ typebuf.tb_off -= addlen; mch_memmove(typebuf.tb_buf + typebuf.tb_off, str, (size_t)addlen); } else if (typebuf.tb_len == 0 && typebuf.tb_buflen >= addlen + 3 * (MAXMAPLEN + 4)) { /* * Buffer is empty and string fits in the existing buffer. * Leave some space before and after, if possible. */ typebuf.tb_off = (typebuf.tb_buflen - addlen - 3 * (MAXMAPLEN + 4)) / 2; mch_memmove(typebuf.tb_buf + typebuf.tb_off, str, (size_t)addlen); } else { int extra; /* * Need to allocate a new buffer. * In typebuf.tb_buf there must always be room for 3 * (MAXMAPLEN + 4) * characters. We add some extra room to avoid having to allocate too * often. */ newoff = MAXMAPLEN + 4; extra = addlen + newoff + 4 * (MAXMAPLEN + 4); if (typebuf.tb_len > 2147483647 - extra) { // string is getting too long for a 32 bit int emsg(_(e_command_too_complex)); // also calls flush_buffers setcursor(); return FAIL; } newlen = typebuf.tb_len + extra; s1 = alloc(newlen); if (s1 == NULL) // out of memory return FAIL; s2 = alloc(newlen); if (s2 == NULL) // out of memory { vim_free(s1); return FAIL; } typebuf.tb_buflen = newlen; // copy the old chars, before the insertion point mch_memmove(s1 + newoff, typebuf.tb_buf + typebuf.tb_off, (size_t)offset); // copy the new chars mch_memmove(s1 + newoff + offset, str, (size_t)addlen); // copy the old chars, after the insertion point, including the NUL at // the end mch_memmove(s1 + newoff + offset + addlen, typebuf.tb_buf + typebuf.tb_off + offset, (size_t)(typebuf.tb_len - offset + 1)); if (typebuf.tb_buf != typebuf_init) vim_free(typebuf.tb_buf); typebuf.tb_buf = s1; mch_memmove(s2 + newoff, typebuf.tb_noremap + typebuf.tb_off, (size_t)offset); mch_memmove(s2 + newoff + offset + addlen, typebuf.tb_noremap + typebuf.tb_off + offset, (size_t)(typebuf.tb_len - offset)); if (typebuf.tb_noremap != noremapbuf_init) vim_free(typebuf.tb_noremap); typebuf.tb_noremap = s2; typebuf.tb_off = newoff; } typebuf.tb_len += addlen; // If noremap == REMAP_SCRIPT: do remap script-local mappings. if (noremap == REMAP_SCRIPT) val = RM_SCRIPT; else if (noremap == REMAP_SKIP) val = RM_ABBR; else val = RM_NONE; /* * Adjust typebuf.tb_noremap[] for the new characters: * If noremap == REMAP_NONE or REMAP_SCRIPT: new characters are * (sometimes) not remappable * If noremap == REMAP_YES: all the new characters are mappable * If noremap > 0: "noremap" characters are not remappable, the rest * mappable */ if (noremap == REMAP_SKIP) nrm = 1; else if (noremap < 0) nrm = addlen; else nrm = noremap; for (i = 0; i < addlen; ++i) typebuf.tb_noremap[typebuf.tb_off + i + offset] = (--nrm >= 0) ? val : RM_YES; // tb_maplen and tb_silent only remember the length of mapped and/or // silent mappings at the start of the buffer, assuming that a mapped // sequence doesn't result in typed characters. if (nottyped || typebuf.tb_maplen > offset) typebuf.tb_maplen += addlen; if (silent || typebuf.tb_silent > offset) { typebuf.tb_silent += addlen; cmd_silent = TRUE; } if (typebuf.tb_no_abbr_cnt && offset == 0) // and not used for abbrev.s typebuf.tb_no_abbr_cnt += addlen; return OK; } /* * Put character "c" back into the typeahead buffer. * Can be used for a character obtained by vgetc() that needs to be put back. * Uses cmd_silent, KeyTyped and KeyNoremap to restore the flags belonging to * the char. * Returns the length of what was inserted. */ int ins_char_typebuf(int c, int modifiers) { char_u buf[MB_MAXBYTES * 3 + 4]; int len = special_to_buf(c, modifiers, TRUE, buf); buf[len] = NUL; (void)ins_typebuf(buf, KeyNoremap, 0, !KeyTyped, cmd_silent); return len; } /* * Return TRUE if the typeahead buffer was changed (while waiting for a * character to arrive). Happens when a message was received from a client or * from feedkeys(). * But check in a more generic way to avoid trouble: When "typebuf.tb_buf" * changed it was reallocated and the old pointer can no longer be used. * Or "typebuf.tb_off" may have been changed and we would overwrite characters * that was just added. */ int typebuf_changed( int tb_change_cnt) // old value of typebuf.tb_change_cnt { return (tb_change_cnt != 0 && (typebuf.tb_change_cnt != tb_change_cnt #if defined(FEAT_CLIENTSERVER) || defined(FEAT_EVAL) || typebuf_was_filled #endif )); } /* * Return TRUE if there are no characters in the typeahead buffer that have * not been typed (result from a mapping or come from ":normal"). */ int typebuf_typed(void) { return typebuf.tb_maplen == 0; } /* * Return the number of characters that are mapped (or not typed). */ int typebuf_maplen(void) { return typebuf.tb_maplen; } /* * remove "len" characters from typebuf.tb_buf[typebuf.tb_off + offset] */ void del_typebuf(int len, int offset) { int i; if (len == 0) return; // nothing to do typebuf.tb_len -= len; /* * Easy case: Just increase typebuf.tb_off. */ if (offset == 0 && typebuf.tb_buflen - (typebuf.tb_off + len) >= 3 * MAXMAPLEN + 3) typebuf.tb_off += len; /* * Have to move the characters in typebuf.tb_buf[] and typebuf.tb_noremap[] */ else { i = typebuf.tb_off + offset; /* * Leave some extra room at the end to avoid reallocation. */ if (typebuf.tb_off > MAXMAPLEN) { mch_memmove(typebuf.tb_buf + MAXMAPLEN, typebuf.tb_buf + typebuf.tb_off, (size_t)offset); mch_memmove(typebuf.tb_noremap + MAXMAPLEN, typebuf.tb_noremap + typebuf.tb_off, (size_t)offset); typebuf.tb_off = MAXMAPLEN; } // adjust typebuf.tb_buf (include the NUL at the end) mch_memmove(typebuf.tb_buf + typebuf.tb_off + offset, typebuf.tb_buf + i + len, (size_t)(typebuf.tb_len - offset + 1)); // adjust typebuf.tb_noremap[] mch_memmove(typebuf.tb_noremap + typebuf.tb_off + offset, typebuf.tb_noremap + i + len, (size_t)(typebuf.tb_len - offset)); } if (typebuf.tb_maplen > offset) // adjust tb_maplen { if (typebuf.tb_maplen < offset + len) typebuf.tb_maplen = offset; else typebuf.tb_maplen -= len; } if (typebuf.tb_silent > offset) // adjust tb_silent { if (typebuf.tb_silent < offset + len) typebuf.tb_silent = offset; else typebuf.tb_silent -= len; } if (typebuf.tb_no_abbr_cnt > offset) // adjust tb_no_abbr_cnt { if (typebuf.tb_no_abbr_cnt < offset + len) typebuf.tb_no_abbr_cnt = offset; else typebuf.tb_no_abbr_cnt -= len; } #if defined(FEAT_CLIENTSERVER) || defined(FEAT_EVAL) // Reset the flag that text received from a client or from feedkeys() // was inserted in the typeahead buffer. typebuf_was_filled = FALSE; #endif if (++typebuf.tb_change_cnt == 0) typebuf.tb_change_cnt = 1; } /* * Write typed characters to script file. * If recording is on put the character in the record buffer. */ static void gotchars(char_u *chars, int len) { char_u *s = chars; size_t i; int c = NUL; static int prev_c = NUL; static char_u buf[MB_MAXBYTES * 3 + 4]; static size_t buflen = 0; static unsigned pending = 0; static int in_special = FALSE; static int in_mbyte = FALSE; int todo = len; for (; todo--; prev_c = c) { c = buf[buflen++] = *s++; if (pending > 0) pending--; // When receiving a special key sequence, store it until we have all // the bytes and we can decide what to do with it. if ((pending == 0 || in_mbyte) && (c == K_SPECIAL #ifdef FEAT_GUI || c == CSI #endif )) { pending += 2; if (!in_mbyte) in_special = TRUE; } if (pending > 0) continue; if (!in_mbyte) { if (in_special) { in_special = FALSE; if (prev_c == KS_MODIFIER) // When receiving a modifier, wait for the modified key. continue; c = TO_SPECIAL(prev_c, c); if (c == K_FOCUSGAINED || c == K_FOCUSLOST) // Drop K_FOCUSGAINED and K_FOCUSLOST, they are not useful // in a recording. buflen = 0; } // When receiving a multibyte character, store it until we have all // the bytes, so that it won't be split between two buffer blocks, // and delete_buff_tail() will work properly. pending = MB_BYTE2LEN_CHECK(c) - 1; if (pending > 0) { in_mbyte = TRUE; continue; } } else // Stored all bytes of a multibyte character. in_mbyte = FALSE; // Handle one byte at a time; no translation to be done. for (i = 0; i < buflen; ++i) updatescript(buf[i]); if (reg_recording != 0) { buf[buflen] = NUL; add_buff(&recordbuff, buf, (long)buflen); // remember how many chars were last recorded last_recorded_len += buflen; } buflen = 0; } may_sync_undo(); #ifdef FEAT_EVAL // output "debug mode" message next time in debug mode debug_did_msg = FALSE; #endif // Since characters have been typed, consider the following to be in // another mapping. Search string will be kept in history. ++maptick; } /* * Record an <Ignore> key. */ void gotchars_ignore(void) { char_u nop_buf[3] = { K_SPECIAL, KS_EXTRA, KE_IGNORE }; gotchars(nop_buf, 3); } /* * Undo the last gotchars() for "len" bytes. To be used when putting a typed * character back into the typeahead buffer, thus gotchars() will be called * again. * Only affects recorded characters. */ void ungetchars(int len) { if (reg_recording == 0) return; delete_buff_tail(&recordbuff, len); last_recorded_len -= len; } /* * Sync undo. Called when typed characters are obtained from the typeahead * buffer, or when a menu is used. * Do not sync: * - In Insert mode, unless cursor key has been used. * - While reading a script file. * - When no_u_sync is non-zero. */ static void may_sync_undo(void) { if ((!(State & (MODE_INSERT | MODE_CMDLINE)) || arrow_used) && scriptin[curscript] == NULL) u_sync(FALSE); } /* * Make "typebuf" empty and allocate new buffers. * Returns FAIL when out of memory. */ static int alloc_typebuf(void) { typebuf.tb_buf = alloc(TYPELEN_INIT); typebuf.tb_noremap = alloc(TYPELEN_INIT); if (typebuf.tb_buf == NULL || typebuf.tb_noremap == NULL) { free_typebuf(); return FAIL; } typebuf.tb_buflen = TYPELEN_INIT; typebuf.tb_off = MAXMAPLEN + 4; // can insert without realloc typebuf.tb_len = 0; typebuf.tb_maplen = 0; typebuf.tb_silent = 0; typebuf.tb_no_abbr_cnt = 0; if (++typebuf.tb_change_cnt == 0) typebuf.tb_change_cnt = 1; #if defined(FEAT_CLIENTSERVER) || defined(FEAT_EVAL) typebuf_was_filled = FALSE; #endif return OK; } /* * Free the buffers of "typebuf". */ static void free_typebuf(void) { if (typebuf.tb_buf == typebuf_init) internal_error("Free typebuf 1"); else VIM_CLEAR(typebuf.tb_buf); if (typebuf.tb_noremap == noremapbuf_init) internal_error("Free typebuf 2"); else VIM_CLEAR(typebuf.tb_noremap); } /* * When doing ":so! file", the current typeahead needs to be saved, and * restored when "file" has been read completely. */ static typebuf_T saved_typebuf[NSCRIPT]; int save_typebuf(void) { init_typebuf(); saved_typebuf[curscript] = typebuf; // If out of memory: restore typebuf and close file. if (alloc_typebuf() == FAIL) { closescript(); return FAIL; } return OK; } static int old_char = -1; // character put back by vungetc() static int old_mod_mask; // mod_mask for ungotten character static int old_mouse_row; // mouse_row related to old_char static int old_mouse_col; // mouse_col related to old_char static int old_KeyStuffed; // whether old_char was stuffed static int can_get_old_char(void) { // If the old character was not stuffed and characters have been added to // the stuff buffer, need to first get the stuffed characters instead. return old_char != -1 && (old_KeyStuffed || stuff_empty()); } /* * Save all three kinds of typeahead, so that the user must type at a prompt. */ void save_typeahead(tasave_T *tp) { tp->save_typebuf = typebuf; tp->typebuf_valid = (alloc_typebuf() == OK); if (!tp->typebuf_valid) typebuf = tp->save_typebuf; tp->old_char = old_char; tp->old_mod_mask = old_mod_mask; old_char = -1; tp->save_readbuf1 = readbuf1; readbuf1.bh_first.b_next = NULL; tp->save_readbuf2 = readbuf2; readbuf2.bh_first.b_next = NULL; # ifdef USE_INPUT_BUF tp->save_inputbuf = get_input_buf(); # endif } /* * Restore the typeahead to what it was before calling save_typeahead(). * The allocated memory is freed, can only be called once! * When "overwrite" is FALSE input typed later is kept. */ void restore_typeahead(tasave_T *tp, int overwrite UNUSED) { if (tp->typebuf_valid) { free_typebuf(); typebuf = tp->save_typebuf; } old_char = tp->old_char; old_mod_mask = tp->old_mod_mask; free_buff(&readbuf1); readbuf1 = tp->save_readbuf1; free_buff(&readbuf2); readbuf2 = tp->save_readbuf2; # ifdef USE_INPUT_BUF set_input_buf(tp->save_inputbuf, overwrite); # endif } /* * Open a new script file for the ":source!" command. */ void openscript( char_u *name, int directly) // when TRUE execute directly { if (curscript + 1 == NSCRIPT) { emsg(_(e_scripts_nested_too_deep)); return; } // Disallow sourcing a file in the sandbox, the commands would be executed // later, possibly outside of the sandbox. if (check_secure()) return; #ifdef FEAT_EVAL if (ignore_script) // Not reading from script, also don't open one. Warning message? return; #endif if (scriptin[curscript] != NULL) // already reading script ++curscript; // use NameBuff for expanded name expand_env(name, NameBuff, MAXPATHL); if ((scriptin[curscript] = mch_fopen((char *)NameBuff, READBIN)) == NULL) { semsg(_(e_cant_open_file_str), name); if (curscript) --curscript; return; } if (save_typebuf() == FAIL) return; /* * Execute the commands from the file right now when using ":source!" * after ":global" or ":argdo" or in a loop. Also when another command * follows. This means the display won't be updated. Don't do this * always, "make test" would fail. */ if (directly) { oparg_T oa; int oldcurscript; int save_State = State; int save_restart_edit = restart_edit; int save_insertmode = p_im; int save_finish_op = finish_op; int save_msg_scroll = msg_scroll; State = MODE_NORMAL; msg_scroll = FALSE; // no msg scrolling in Normal mode restart_edit = 0; // don't go to Insert mode p_im = FALSE; // don't use 'insertmode' clear_oparg(&oa); finish_op = FALSE; oldcurscript = curscript; do { update_topline_cursor(); // update cursor position and topline normal_cmd(&oa, FALSE); // execute one command (void)vpeekc(); // check for end of file } while (scriptin[oldcurscript] != NULL); State = save_State; msg_scroll = save_msg_scroll; restart_edit = save_restart_edit; p_im = save_insertmode; finish_op = save_finish_op; } } /* * Close the currently active input script. */ static void closescript(void) { free_typebuf(); typebuf = saved_typebuf[curscript]; fclose(scriptin[curscript]); scriptin[curscript] = NULL; if (curscript > 0) --curscript; } #if defined(EXITFREE) || defined(PROTO) void close_all_scripts(void) { while (scriptin[0] != NULL) closescript(); } #endif /* * Return TRUE when reading keys from a script file. */ int using_script(void) { return scriptin[curscript] != NULL; } /* * This function is called just before doing a blocking wait. Thus after * waiting 'updatetime' for a character to arrive. */ void before_blocking(void) { updatescript(0); #ifdef FEAT_EVAL if (may_garbage_collect) garbage_collect(FALSE); #endif } /* * updatescript() is called when a character can be written into the script * file or when we have waited some time for a character (c == 0) * * All the changed memfiles are synced if c == 0 or when the number of typed * characters reaches 'updatecount' and 'updatecount' is non-zero. */ static void updatescript(int c) { static int count = 0; if (c && scriptout) putc(c, scriptout); if (c == 0 || (p_uc > 0 && ++count >= p_uc)) { ml_sync_all(c == 0, TRUE); count = 0; } } /* * Convert "c_arg" plus "modifiers" to merge the effect of modifyOtherKeys into * the character. Also for when the Kitty key protocol is used. */ int merge_modifyOtherKeys(int c_arg, int *modifiers) { int c = c_arg; // CTRL only uses the lower 5 bits of the character. if (*modifiers & MOD_MASK_CTRL) { if ((c >= '`' && c <= 0x7f) || (c >= '@' && c <= '_')) { c &= 0x1f; if (c == NUL) c = K_ZERO; } else if (c == '6') // CTRL-6 is equivalent to CTRL-^ c = 0x1e; #ifdef FEAT_GUI_GTK // These mappings look arbitrary at the first glance, but in fact // resemble quite exactly the behaviour of the GTK+ 1.2 GUI on my // machine. The only difference is BS vs. DEL for CTRL-8 (makes // more sense and is consistent with usual terminal behaviour). else if (c == '2') c = NUL; else if (c >= '3' && c <= '7') c = c ^ 0x28; else if (c == '8') c = BS; else if (c == '?') c = DEL; #endif if (c != c_arg) *modifiers &= ~MOD_MASK_CTRL; } // Alt/Meta sets the 8th bit of the character. if ((*modifiers & (MOD_MASK_META | MOD_MASK_ALT)) && c >= 0 && c <= 127) { // Some terminals (esp. Kitty) do not include Shift in the character. // Apply it here to get consistency across terminals. Only do ASCII // letters, for other characters it depends on the keyboard layout. if ((*modifiers & MOD_MASK_SHIFT) && c >= 'a' && c <= 'z') { c += 'a' - 'A'; *modifiers &= ~MOD_MASK_SHIFT; } c += 0x80; *modifiers &= ~(MOD_MASK_META | MOD_MASK_ALT); } return c; } /* * Get the next input character. * Can return a special key or a multi-byte character. * Can return NUL when called recursively, use safe_vgetc() if that's not * wanted. * This translates escaped K_SPECIAL and CSI bytes to a K_SPECIAL or CSI byte. * Collects the bytes of a multibyte character into the whole character. * Returns the modifiers in the global "mod_mask". */ int vgetc(void) { int c, c2; int n; char_u buf[MB_MAXBYTES + 1]; int i; #ifdef FEAT_EVAL // Do garbage collection when garbagecollect() was called previously and // we are now at the toplevel. if (may_garbage_collect && want_garbage_collect) garbage_collect(FALSE); #endif /* * If a character was put back with vungetc, it was already processed. * Return it directly. */ if (can_get_old_char()) { c = old_char; old_char = -1; mod_mask = old_mod_mask; mouse_row = old_mouse_row; mouse_col = old_mouse_col; } else { // number of characters recorded from the last vgetc() call static size_t last_vgetc_recorded_len = 0; mod_mask = 0; vgetc_mod_mask = 0; vgetc_char = 0; // last_recorded_len can be larger than last_vgetc_recorded_len // if peeking records more last_recorded_len -= last_vgetc_recorded_len; for (;;) // this is done twice if there are modifiers { int did_inc = FALSE; // No mapping after modifier has been read, using an input method // and when a popup window has disabled mapping. if (mod_mask #if defined(FEAT_XIM) && defined(FEAT_GUI_GTK) || im_is_preediting() #endif #if defined(FEAT_PROP_POPUP) || popup_no_mapping() #endif ) { ++no_mapping; ++allow_keys; // mod_mask value may change, remember we did the increment did_inc = TRUE; } c = vgetorpeek(TRUE); if (did_inc) { --no_mapping; --allow_keys; } // Get two extra bytes for special keys, handle modifiers. if (c == K_SPECIAL #ifdef FEAT_GUI || c == CSI #endif ) { int save_allow_keys = allow_keys; ++no_mapping; allow_keys = 0; // make sure BS is not found c2 = vgetorpeek(TRUE); // no mapping for these chars c = vgetorpeek(TRUE); --no_mapping; allow_keys = save_allow_keys; if (c2 == KS_MODIFIER) { mod_mask = c; continue; } c = TO_SPECIAL(c2, c); // K_ESC is used to avoid ambiguity with the single Esc // character that might be the start of an escape sequence. // Convert it back to a single Esc here. if (c == K_ESC) c = ESC; #if defined(FEAT_GUI_MSWIN) && defined(FEAT_MENU) && defined(FEAT_TEAROFF) // Handle K_TEAROFF here, the caller of vgetc() doesn't need to // know that a menu was torn off if ( # ifdef VIMDLL gui.in_use && # endif c == K_TEAROFF) { char_u name[200]; int j; // get menu path, it ends with a <CR> for (j = 0; (c = vgetorpeek(TRUE)) != '\r'; ) { name[j] = c; if (j < 199) ++j; } name[j] = NUL; gui_make_tearoff(name); continue; } #endif #if defined(FEAT_GUI) && defined(FEAT_GUI_GTK) && defined(FEAT_MENU) // GTK: <F10> normally selects the menu, but it's passed until // here to allow mapping it. Intercept and invoke the GTK // behavior if it's not mapped. if (c == K_F10 && gui.menubar != NULL) { gtk_menu_shell_select_first( GTK_MENU_SHELL(gui.menubar), FALSE); continue; } #endif #ifdef FEAT_GUI // Handle focus event here, so that the caller doesn't need to // know about it. Return K_IGNORE so that we loop once (needed // if 'lazyredraw' is set). if (c == K_FOCUSGAINED || c == K_FOCUSLOST) { ui_focus_change(c == K_FOCUSGAINED); c = K_IGNORE; } // Translate K_CSI to CSI. The special key is only used to // avoid it being recognized as the start of a special key. if (c == K_CSI) c = CSI; #endif #ifdef FEAT_EVAL if (c == K_SID) { int j; // Handle <SID>{sid}; Do up to 20 digits for safety. last_used_sid = 0; for (j = 0; j < 20 && SAFE_isdigit(c = vgetorpeek(TRUE)); ++j) last_used_sid = last_used_sid * 10 + (c - '0'); last_used_map = NULL; continue; } #endif } // a keypad or special function key was not mapped, use it like // its ASCII equivalent switch (c) { case K_KPLUS: c = '+'; break; case K_KMINUS: c = '-'; break; case K_KDIVIDE: c = '/'; break; case K_KMULTIPLY: c = '*'; break; case K_KENTER: c = CAR; break; case K_KPOINT: #ifdef MSWIN // Can be either '.' or a ',', // depending on the type of keypad. c = MapVirtualKey(VK_DECIMAL, 2); break; #else c = '.'; break; #endif case K_K0: c = '0'; break; case K_K1: c = '1'; break; case K_K2: c = '2'; break; case K_K3: c = '3'; break; case K_K4: c = '4'; break; case K_K5: c = '5'; break; case K_K6: c = '6'; break; case K_K7: c = '7'; break; case K_K8: c = '8'; break; case K_K9: c = '9'; break; case K_XHOME: case K_ZHOME: if (mod_mask == MOD_MASK_SHIFT) { c = K_S_HOME; mod_mask = 0; } else if (mod_mask == MOD_MASK_CTRL) { c = K_C_HOME; mod_mask = 0; } else c = K_HOME; break; case K_XEND: case K_ZEND: if (mod_mask == MOD_MASK_SHIFT) { c = K_S_END; mod_mask = 0; } else if (mod_mask == MOD_MASK_CTRL) { c = K_C_END; mod_mask = 0; } else c = K_END; break; case K_XUP: c = K_UP; break; case K_XDOWN: c = K_DOWN; break; case K_XLEFT: c = K_LEFT; break; case K_XRIGHT: c = K_RIGHT; break; } // For a multi-byte character get all the bytes and return the // converted character. // Note: This will loop until enough bytes are received! if (has_mbyte && (n = MB_BYTE2LEN_CHECK(c)) > 1) { ++no_mapping; buf[0] = c; for (i = 1; i < n; ++i) { buf[i] = vgetorpeek(TRUE); if (buf[i] == K_SPECIAL #ifdef FEAT_GUI || (buf[i] == CSI) #endif ) { // Must be a K_SPECIAL - KS_SPECIAL - KE_FILLER // sequence, which represents a K_SPECIAL (0x80), // or a CSI - KS_EXTRA - KE_CSI sequence, which // represents a CSI (0x9B), // or a K_SPECIAL - KS_EXTRA - KE_CSI, which is CSI // too. c = vgetorpeek(TRUE); if (vgetorpeek(TRUE) == KE_CSI && c == KS_EXTRA) buf[i] = CSI; } } --no_mapping; c = (*mb_ptr2char)(buf); } if (vgetc_char == 0) { vgetc_mod_mask = mod_mask; vgetc_char = c; } break; } last_vgetc_recorded_len = last_recorded_len; } #ifdef FEAT_EVAL /* * In the main loop "may_garbage_collect" can be set to do garbage * collection in the first next vgetc(). It's disabled after that to * avoid internally used Lists and Dicts to be freed. */ may_garbage_collect = FALSE; #endif #ifdef FEAT_BEVAL_TERM if (c != K_MOUSEMOVE && c != K_IGNORE && c != K_CURSORHOLD) { // Don't trigger 'balloonexpr' unless only the mouse was moved. bevalexpr_due_set = FALSE; ui_remove_balloon(); } #endif #ifdef FEAT_PROP_POPUP // Only filter keys that do not come from ":normal". Keys from feedkeys() // are filtered. if ((!ex_normal_busy || in_feedkeys) && popup_do_filter(c)) { if (c == Ctrl_C) got_int = FALSE; // avoid looping c = K_IGNORE; } #endif // Need to process the character before we know it's safe to do something // else. if (c != K_IGNORE) state_no_longer_safe("key typed"); return c; } /* * Like vgetc(), but never return a NUL when called recursively, get a key * directly from the user (ignoring typeahead). */ int safe_vgetc(void) { int c; c = vgetc(); if (c == NUL) c = get_keystroke(); return c; } /* * Like safe_vgetc(), but loop to handle K_IGNORE. * Also ignore scrollbar events. * Does not handle bracketed paste - do not use the result for commands. */ static int plain_vgetc_nopaste(void) { int c; do c = safe_vgetc(); while (c == K_IGNORE || c == K_VER_SCROLLBAR || c == K_HOR_SCROLLBAR || c == K_MOUSEMOVE); return c; } /* * Like safe_vgetc(), but loop to handle K_IGNORE. * Also ignore scrollbar events. */ int plain_vgetc(void) { int c = plain_vgetc_nopaste(); if (c == K_PS) // Only handle the first pasted character. Drop the rest, since we // don't know what to do with it. c = bracketed_paste(PASTE_ONE_CHAR, FALSE, NULL); return c; } /* * Check if a character is available, such that vgetc() will not block. * If the next character is a special character or multi-byte, the returned * character is not valid!. * Returns NUL if no character is available. */ int vpeekc(void) { if (can_get_old_char()) return old_char; return vgetorpeek(FALSE); } #if defined(FEAT_TERMRESPONSE) || defined(FEAT_TERMINAL) || defined(PROTO) /* * Like vpeekc(), but don't allow mapping. Do allow checking for terminal * codes. */ int vpeekc_nomap(void) { int c; ++no_mapping; ++allow_keys; c = vpeekc(); --no_mapping; --allow_keys; return c; } #endif /* * Check if any character is available, also half an escape sequence. * Trick: when no typeahead found, but there is something in the typeahead * buffer, it must be an ESC that is recognized as the start of a key code. */ int vpeekc_any(void) { int c; c = vpeekc(); if (c == NUL && typebuf.tb_len > 0) c = ESC; return c; } /* * Call vpeekc() without causing anything to be mapped. * Return TRUE if a character is available, FALSE otherwise. */ int char_avail(void) { int retval; #ifdef FEAT_EVAL // When test_override("char_avail", 1) was called pretend there is no // typeahead. if (disable_char_avail_for_testing) return FALSE; #endif ++no_mapping; retval = vpeekc(); --no_mapping; return (retval != NUL); } #if defined(FEAT_EVAL) || defined(PROTO) /* * "getchar()" and "getcharstr()" functions */ static void getchar_common(typval_T *argvars, typval_T *rettv) { varnumber_T n; int error = FALSE; if (in_vim9script() && check_for_opt_bool_arg(argvars, 0) == FAIL) return; #ifdef MESSAGE_QUEUE // vpeekc() used to check for messages, but that caused problems, invoking // a callback where it was not expected. Some plugins use getchar(1) in a // loop to await a message, therefore make sure we check for messages here. parse_queued_messages(); #endif // Position the cursor. Needed after a message that ends in a space. windgoto(msg_row, msg_col); ++no_mapping; ++allow_keys; for (;;) { if (argvars[0].v_type == VAR_UNKNOWN) // getchar(): blocking wait. n = plain_vgetc_nopaste(); else if (tv_get_bool_chk(&argvars[0], &error)) // getchar(1): only check if char avail n = vpeekc_any(); else if (error || vpeekc_any() == NUL) // illegal argument or getchar(0) and no char avail: return zero n = 0; else // getchar(0) and char avail() != NUL: get a character. // Note that vpeekc_any() returns K_SPECIAL for K_IGNORE. n = safe_vgetc(); if (n == K_IGNORE || n == K_MOUSEMOVE || n == K_VER_SCROLLBAR || n == K_HOR_SCROLLBAR) continue; break; } --no_mapping; --allow_keys; set_vim_var_nr(VV_MOUSE_WIN, 0); set_vim_var_nr(VV_MOUSE_WINID, 0); set_vim_var_nr(VV_MOUSE_LNUM, 0); set_vim_var_nr(VV_MOUSE_COL, 0); rettv->vval.v_number = n; if (n != 0 && (IS_SPECIAL(n) || mod_mask != 0)) { char_u temp[10]; // modifier: 3, mbyte-char: 6, NUL: 1 int i = 0; // Turn a special key into three bytes, plus modifier. if (mod_mask != 0) { temp[i++] = K_SPECIAL; temp[i++] = KS_MODIFIER; temp[i++] = mod_mask; } if (IS_SPECIAL(n)) { temp[i++] = K_SPECIAL; temp[i++] = K_SECOND(n); temp[i++] = K_THIRD(n); } else if (has_mbyte) i += (*mb_char2bytes)(n, temp + i); else temp[i++] = n; temp[i++] = NUL; rettv->v_type = VAR_STRING; rettv->vval.v_string = vim_strsave(temp); if (is_mouse_key(n)) { int row = mouse_row; int col = mouse_col; win_T *win; linenr_T lnum; win_T *wp; int winnr = 1; if (row >= 0 && col >= 0) { // Find the window at the mouse coordinates and compute the // text position. win = mouse_find_win(&row, &col, FIND_POPUP); if (win == NULL) return; (void)mouse_comp_pos(win, &row, &col, &lnum, NULL); #ifdef FEAT_PROP_POPUP if (WIN_IS_POPUP(win)) winnr = 0; else #endif for (wp = firstwin; wp != win && wp != NULL; wp = wp->w_next) ++winnr; set_vim_var_nr(VV_MOUSE_WIN, winnr); set_vim_var_nr(VV_MOUSE_WINID, win->w_id); set_vim_var_nr(VV_MOUSE_LNUM, lnum); set_vim_var_nr(VV_MOUSE_COL, col + 1); } } } } /* * "getchar()" function */ void f_getchar(typval_T *argvars, typval_T *rettv) { getchar_common(argvars, rettv); } /* * "getcharstr()" function */ void f_getcharstr(typval_T *argvars, typval_T *rettv) { getchar_common(argvars, rettv); if (rettv->v_type != VAR_NUMBER) return; char_u temp[7]; // mbyte-char: 6, NUL: 1 varnumber_T n = rettv->vval.v_number; int i = 0; if (n != 0) { if (has_mbyte) i += (*mb_char2bytes)(n, temp + i); else temp[i++] = n; } temp[i++] = NUL; rettv->v_type = VAR_STRING; rettv->vval.v_string = vim_strsave(temp); } /* * "getcharmod()" function */ void f_getcharmod(typval_T *argvars UNUSED, typval_T *rettv) { rettv->vval.v_number = mod_mask; } #endif // FEAT_EVAL #if defined(MESSAGE_QUEUE) || defined(PROTO) # define MAX_REPEAT_PARSE 8 /* * Process messages that have been queued for netbeans or clientserver. * Also check if any jobs have ended. * These functions can call arbitrary Vim script and should only be called when * it is safe to do so. */ void parse_queued_messages(void) { int old_curwin_id; int old_curbuf_fnum; int i; int save_may_garbage_collect = may_garbage_collect; static int entered = 0; int was_safe = get_was_safe_state(); // Do not handle messages while redrawing, because it may cause buffers to // change or be wiped while they are being redrawn. // Also bail out when parsing messages was explicitly disabled. if (updating_screen || dont_parse_messages) return; // If memory allocation fails during startup we'll exit but curbuf or // curwin could be NULL. if (curbuf == NULL || curwin == NULL) return; old_curbuf_fnum = curbuf->b_fnum; old_curwin_id = curwin->w_id; ++entered; // may_garbage_collect is set in main_loop() to do garbage collection when // blocking to wait on a character. We don't want that while parsing // messages, a callback may invoke vgetc() while lists and dicts are in use // in the call stack. may_garbage_collect = FALSE; // Loop when a job ended, but don't keep looping forever. for (i = 0; i < MAX_REPEAT_PARSE; ++i) { // For Win32 mch_breakcheck() does not check for input, do it here. # if (defined(MSWIN) || defined(__HAIKU__)) && defined(FEAT_JOB_CHANNEL) channel_handle_events(FALSE); # endif # ifdef FEAT_NETBEANS_INTG // Process the queued netbeans messages. netbeans_parse_messages(); # endif # ifdef FEAT_JOB_CHANNEL // Write any buffer lines still to be written. channel_write_any_lines(); // Process the messages queued on channels. channel_parse_messages(); # endif # if defined(FEAT_CLIENTSERVER) && defined(FEAT_X11) // Process the queued clientserver messages. server_parse_messages(); # endif # ifdef FEAT_JOB_CHANNEL // Check if any jobs have ended. If so, repeat the above to handle // changes, e.g. stdin may have been closed. if (job_check_ended()) continue; # endif # ifdef FEAT_TERMINAL free_unused_terminals(); # endif # ifdef FEAT_SOUND_MACOSX process_cfrunloop(); # endif # ifdef FEAT_SOUND_CANBERRA if (has_sound_callback_in_queue()) invoke_sound_callback(); # endif #ifdef SIGUSR1 if (got_sigusr1) { apply_autocmds(EVENT_SIGUSR1, NULL, NULL, FALSE, curbuf); got_sigusr1 = FALSE; } #endif break; } // When not nested we'll go back to waiting for a typed character. If it // was safe before then this triggers a SafeStateAgain autocommand event. if (entered == 1 && was_safe) may_trigger_safestateagain(); may_garbage_collect = save_may_garbage_collect; // If the current window or buffer changed we need to bail out of the // waiting loop. E.g. when a job exit callback closes the terminal window. if (curwin->w_id != old_curwin_id || curbuf->b_fnum != old_curbuf_fnum) ins_char_typebuf(K_IGNORE, 0); --entered; } #endif typedef enum { map_result_fail, // failed, break loop map_result_get, // get a character from typeahead map_result_retry, // try to map again map_result_nomatch // no matching mapping, get char } map_result_T; /* * Check if the bytes at the start of the typeahead buffer are a character used * in Insert mode completion. This includes the form with a CTRL modifier. */ static int at_ins_compl_key(void) { char_u *p = typebuf.tb_buf + typebuf.tb_off; int c = *p; if (typebuf.tb_len > 3 && (c == K_SPECIAL || c == CSI) // CSI is used by the GUI && p[1] == KS_MODIFIER && (p[2] & MOD_MASK_CTRL)) c = p[3] & 0x1f; return (ctrl_x_mode_not_default() && vim_is_ctrl_x_key(c)) || (compl_status_local() && (c == Ctrl_N || c == Ctrl_P)); } /* * Check if typebuf.tb_buf[] contains a modifier plus key that can be changed * into just a key, apply that. * Check from typebuf.tb_buf[typebuf.tb_off] to typebuf.tb_buf[typebuf.tb_off * + "max_offset"]. * Return the length of the replaced bytes, 0 if nothing changed, -1 for error. */ static int check_simplify_modifier(int max_offset) { int offset; char_u *tp; for (offset = 0; offset < max_offset; ++offset) { if (offset + 3 >= typebuf.tb_len) break; tp = typebuf.tb_buf + typebuf.tb_off + offset; if ((tp[0] == K_SPECIAL || tp[0] == CSI) && tp[1] == KS_MODIFIER) { // A modifier was not used for a mapping, apply it to ASCII keys. // Shift would already have been applied. int modifier = tp[2]; int c = tp[3]; int new_c = merge_modifyOtherKeys(c, &modifier); if (new_c != c) { char_u new_string[MB_MAXBYTES]; int len; if (offset == 0) { // At the start: remember the character and mod_mask before // merging, in some cases, e.g. at the hit-return prompt, // they are put back in the typeahead buffer. vgetc_char = c; vgetc_mod_mask = tp[2]; } if (IS_SPECIAL(new_c)) { new_string[0] = K_SPECIAL; new_string[1] = K_SECOND(new_c); new_string[2] = K_THIRD(new_c); len = 3; } else len = mb_char2bytes(new_c, new_string); if (modifier == 0) { if (put_string_in_typebuf(offset, 4, new_string, len, NULL, 0, NULL) == FAIL) return -1; } else { tp[2] = modifier; if (put_string_in_typebuf(offset + 3, 1, new_string, len, NULL, 0, NULL) == FAIL) return -1; } return len; } } } return 0; } /* * Return TRUE if the terminal sends modifiers with various keys. This is when * modifyOtherKeys level 2 is enabled or the kitty keyboard protocol is * enabled. */ int key_protocol_enabled(void) { // If xterm has responded to XTQMODKEYS it overrules seenModifyOtherKeys. int using_mok = modify_otherkeys_state != MOKS_INITIAL ? modify_otherkeys_state == MOKS_ENABLED : seenModifyOtherKeys; return using_mok || kitty_protocol_state == KKPS_ENABLED; } /* * Handle mappings in the typeahead buffer. * - When something was mapped, return map_result_retry for recursive mappings. * - When nothing mapped and typeahead has a character: return map_result_get. * - When there is no match yet, return map_result_nomatch, need to get more * typeahead. * - On failure (out of memory) return map_result_fail. */ static int handle_mapping( int *keylenp, int *timedout, int *mapdepth) { mapblock_T *mp = NULL; mapblock_T *mp2; mapblock_T *mp_match; int mp_match_len = 0; int max_mlen = 0; int want_termcode = 0; // 1 if termcode expected after max_mlen int tb_c1; int mlen; #ifdef FEAT_LANGMAP int nolmaplen; #endif int keylen = *keylenp; int i; int local_State = get_real_state(); int is_plug_map = FALSE; // If typeahead starts with <Plug> then remap, even for a "noremap" mapping. if (typebuf.tb_len >= 3 && typebuf.tb_buf[typebuf.tb_off] == K_SPECIAL && typebuf.tb_buf[typebuf.tb_off + 1] == KS_EXTRA && typebuf.tb_buf[typebuf.tb_off + 2] == KE_PLUG) is_plug_map = TRUE; /* * Check for a mappable key sequence. * Walk through one maphash[] list until we find an entry that matches. * * Don't look for mappings if: * - no_mapping set: mapping disabled (e.g. for CTRL-V) * - maphash_valid not set: no mappings present. * - typebuf.tb_buf[typebuf.tb_off] should not be remapped * - in insert or cmdline mode and 'paste' option set * - waiting for "hit return to continue" and CR or SPACE typed * - waiting for a char with --more-- * - in Ctrl-X mode, and we get a valid char for that mode */ tb_c1 = typebuf.tb_buf[typebuf.tb_off]; if (no_mapping == 0 && is_maphash_valid() && (no_zero_mapping == 0 || tb_c1 != '0') && (typebuf.tb_maplen == 0 || is_plug_map || (p_remap && (typebuf.tb_noremap[typebuf.tb_off] & (RM_NONE|RM_ABBR)) == 0)) && !(p_paste && (State & (MODE_INSERT | MODE_CMDLINE))) && !(State == MODE_HITRETURN && (tb_c1 == CAR || tb_c1 == ' ')) && State != MODE_ASKMORE && State != MODE_CONFIRM && !at_ins_compl_key()) { #ifdef FEAT_GUI if (gui.in_use && tb_c1 == CSI && typebuf.tb_len >= 2 && typebuf.tb_buf[typebuf.tb_off + 1] == KS_MODIFIER) { // The GUI code sends CSI KS_MODIFIER {flags}, but mappings expect // K_SPECIAL KS_MODIFIER {flags}. tb_c1 = K_SPECIAL; } #endif #ifdef FEAT_LANGMAP if (tb_c1 == K_SPECIAL) nolmaplen = 2; else { LANGMAP_ADJUST(tb_c1, (State & (MODE_CMDLINE | MODE_INSERT)) == 0 && get_real_state() != MODE_SELECT); nolmaplen = 0; } #endif // First try buffer-local mappings. mp = get_buf_maphash_list(local_State, tb_c1); mp2 = get_maphash_list(local_State, tb_c1); if (mp == NULL) { // There are no buffer-local mappings. mp = mp2; mp2 = NULL; } /* * Loop until a partly matching mapping is found or all (local) * mappings have been checked. * The longest full match is remembered in "mp_match". * A full match is only accepted if there is no partly match, so "aa" * and "aaa" can both be mapped. */ mp_match = NULL; mp_match_len = 0; for ( ; mp != NULL; mp->m_next == NULL ? (mp = mp2, mp2 = NULL) : (mp = mp->m_next)) { // Only consider an entry if the first character matches and it is // for the current state. // Skip ":lmap" mappings if keys were mapped. if (mp->m_keys[0] == tb_c1 && (mp->m_mode & local_State) && !(mp->m_simplified && key_protocol_enabled() && typebuf.tb_maplen == 0) && ((mp->m_mode & MODE_LANGMAP) == 0 || typebuf.tb_maplen == 0)) { #ifdef FEAT_LANGMAP int nomap = nolmaplen; int modifiers = 0; #endif // find the match length of this mapping for (mlen = 1; mlen < typebuf.tb_len; ++mlen) { int c2 = typebuf.tb_buf[typebuf.tb_off + mlen]; #ifdef FEAT_LANGMAP if (nomap > 0) { if (nomap == 2 && c2 == KS_MODIFIER) modifiers = 1; else if (nomap == 1 && modifiers == 1) modifiers = c2; --nomap; } else { if (c2 == K_SPECIAL) nomap = 2; else if (merge_modifyOtherKeys(c2, &modifiers) == c2) // Only apply 'langmap' if merging modifiers into // the key will not result in another character, // so that 'langmap' behaves consistently in // different terminals and GUIs. LANGMAP_ADJUST(c2, TRUE); modifiers = 0; } #endif if (mp->m_keys[mlen] != c2) break; } // Don't allow mapping the first byte(s) of a multi-byte char. // Happens when mapping <M-a> and then changing 'encoding'. // Beware that 0x80 is escaped. { char_u *p1 = mp->m_keys; char_u *p2 = mb_unescape(&p1); if (has_mbyte && p2 != NULL && MB_BYTE2LEN(tb_c1) > mb_ptr2len(p2)) mlen = 0; } // Check an entry whether it matches. // - Full match: mlen == keylen // - Partly match: mlen == typebuf.tb_len keylen = mp->m_keylen; if (mlen == keylen || (mlen == typebuf.tb_len && typebuf.tb_len < keylen)) { char_u *s; int n; // If only script-local mappings are allowed, check if the // mapping starts with K_SNR. s = typebuf.tb_noremap + typebuf.tb_off; if (*s == RM_SCRIPT && (mp->m_keys[0] != K_SPECIAL || mp->m_keys[1] != KS_EXTRA || mp->m_keys[2] != KE_SNR)) continue; // If one of the typed keys cannot be remapped, skip the // entry. for (n = mlen; --n >= 0; ) if (*s++ & (RM_NONE|RM_ABBR)) break; if (!is_plug_map && n >= 0) continue; if (keylen > typebuf.tb_len) { if (!*timedout && !(mp_match != NULL && mp_match->m_nowait)) { // break at a partly match keylen = KEYLEN_PART_MAP; break; } } else if (keylen > mp_match_len) { // found a longer match mp_match = mp; mp_match_len = keylen; } } else // No match; may have to check for termcode at next // character. If the first character that didn't match is // K_SPECIAL then check for a termcode. This isn't perfect // but should work in most cases. if (max_mlen < mlen) { max_mlen = mlen; want_termcode = mp->m_keys[mlen] == K_SPECIAL; } else if (max_mlen == mlen && mp->m_keys[mlen] == K_SPECIAL) want_termcode = 1; } } // If no partly match found, use the longest full match. if (keylen != KEYLEN_PART_MAP && mp_match != NULL) { mp = mp_match; keylen = mp_match_len; } } /* * Check for match with 'pastetoggle' */ if (*p_pt != NUL && mp == NULL && (State & (MODE_INSERT | MODE_NORMAL))) { for (mlen = 0; mlen < typebuf.tb_len && p_pt[mlen]; ++mlen) if (p_pt[mlen] != typebuf.tb_buf[typebuf.tb_off + mlen]) break; if (p_pt[mlen] == NUL) // match { // write chars to script file(s) if (mlen > typebuf.tb_maplen) gotchars(typebuf.tb_buf + typebuf.tb_off + typebuf.tb_maplen, mlen - typebuf.tb_maplen); del_typebuf(mlen, 0); // remove the chars set_option_value_give_err((char_u *)"paste", (long)!p_paste, NULL, 0); if (!(State & MODE_INSERT)) { msg_col = 0; msg_row = Rows - 1; msg_clr_eos(); // clear ruler } status_redraw_all(); redraw_statuslines(); showmode(); setcursor(); *keylenp = keylen; return map_result_retry; } // Need more chars for partly match. if (mlen == typebuf.tb_len) keylen = KEYLEN_PART_KEY; else if (max_mlen < mlen) // no match, may have to check for termcode at next character max_mlen = mlen + 1; } // May check for a terminal code when there is no mapping or only a partial // mapping. Also check if there is a full mapping with <Esc>, unless timed // out, since that is nearly always a partial match with a terminal code. if ((mp == NULL || max_mlen + want_termcode > mp_match_len || (mp_match_len == 1 && *mp->m_keys == ESC && !*timedout)) && keylen != KEYLEN_PART_MAP) { int save_keylen = keylen; /* * When no matching mapping found or found a non-matching mapping that * matches at least what the matching mapping matched: * Check if we have a terminal code, when: * - mapping is allowed, * - keys have not been mapped, * - and not an ESC sequence, not in insert mode or p_ek is on, * - and when not timed out, */ if (no_mapping == 0 || allow_keys != 0) { if ((typebuf.tb_maplen == 0 || (p_remap && typebuf.tb_noremap[ typebuf.tb_off] == RM_YES)) && !*timedout) keylen = check_termcode(max_mlen + 1, NULL, 0, NULL); else keylen = 0; // If no termcode matched but 'pastetoggle' matched partially // it's like an incomplete key sequence. if (keylen == 0 && save_keylen == KEYLEN_PART_KEY && !*timedout) keylen = KEYLEN_PART_KEY; // If no termcode matched, try to include the modifier into the // key. This is for when modifyOtherKeys is working. #ifdef FEAT_TERMINAL check_no_reduce_keys(); // may update the no_reduce_keys flag #endif if (keylen == 0 && !no_reduce_keys) { keylen = check_simplify_modifier(max_mlen + 1); if (keylen < 0) // ins_typebuf() failed return map_result_fail; } // When getting a partial match, but the last characters were not // typed, don't wait for a typed character to complete the // termcode. This helps a lot when a ":normal" command ends in an // ESC. if (keylen < 0 && typebuf.tb_len == typebuf.tb_maplen) keylen = 0; } else keylen = 0; if (keylen == 0) // no matching terminal code { #ifdef AMIGA // check for window bounds report if (typebuf.tb_maplen == 0 && (typebuf.tb_buf[ typebuf.tb_off] & 0xff) == CSI) { char_u *s; for (s = typebuf.tb_buf + typebuf.tb_off + 1; s < typebuf.tb_buf + typebuf.tb_off + typebuf.tb_len && (VIM_ISDIGIT(*s) || *s == ';' || *s == ' '); ++s) ; if (*s == 'r' || *s == '|') // found one { del_typebuf( (int)(s + 1 - (typebuf.tb_buf + typebuf.tb_off)), 0); // get size and redraw screen shell_resized(); *keylenp = keylen; return map_result_retry; } if (*s == NUL) // need more characters keylen = KEYLEN_PART_KEY; } if (keylen >= 0) #endif // When there was a matching mapping and no termcode could be // replaced after another one, use that mapping (loop around). // If there was no mapping at all use the character from the // typeahead buffer right here. if (mp == NULL) { *keylenp = keylen; return map_result_get; // get character from typeahead } } if (keylen > 0) // full matching terminal code { #if defined(FEAT_GUI) && defined(FEAT_MENU) if (typebuf.tb_len >= 2 && typebuf.tb_buf[typebuf.tb_off] == K_SPECIAL && typebuf.tb_buf[typebuf.tb_off + 1] == KS_MENU) { int idx; // Using a menu may cause a break in undo! It's like using // gotchars(), but without recording or writing to a script // file. may_sync_undo(); del_typebuf(3, 0); idx = get_menu_index(current_menu, local_State); if (idx != MENU_INDEX_INVALID) { // In Select mode and a Visual mode menu is used: Switch // to Visual mode temporarily. Append K_SELECT to switch // back to Select mode. if (VIsual_active && VIsual_select && (current_menu->modes & MODE_VISUAL)) { VIsual_select = FALSE; (void)ins_typebuf(K_SELECT_STRING, REMAP_NONE, 0, TRUE, FALSE); } ins_typebuf(current_menu->strings[idx], current_menu->noremap[idx], 0, TRUE, current_menu->silent[idx]); } } #endif // FEAT_GUI && FEAT_MENU *keylenp = keylen; return map_result_retry; // try mapping again } // Partial match: get some more characters. When a matching mapping // was found use that one. if (mp == NULL || keylen < 0) keylen = KEYLEN_PART_KEY; else keylen = mp_match_len; } /* * complete match */ if (keylen >= 0 && keylen <= typebuf.tb_len) { char_u *map_str; #ifdef FEAT_EVAL int save_m_expr; int save_m_noremap; int save_m_silent; char_u *save_m_keys; #else # define save_m_noremap mp->m_noremap # define save_m_silent mp->m_silent #endif // write chars to script file(s) if (keylen > typebuf.tb_maplen) gotchars(typebuf.tb_buf + typebuf.tb_off + typebuf.tb_maplen, keylen - typebuf.tb_maplen); cmd_silent = (typebuf.tb_silent > 0); del_typebuf(keylen, 0); // remove the mapped keys /* * Put the replacement string in front of mapstr. * The depth check catches ":map x y" and ":map y x". */ if (++*mapdepth >= p_mmd) { emsg(_(e_recursive_mapping)); if (State & MODE_CMDLINE) redrawcmdline(); else setcursor(); flush_buffers(FLUSH_MINIMAL); *mapdepth = 0; // for next one *keylenp = keylen; return map_result_fail; } /* * In Select mode and a Visual mode mapping is used: Switch to Visual * mode temporarily. Append K_SELECT to switch back to Select mode. */ if (VIsual_active && VIsual_select && (mp->m_mode & MODE_VISUAL)) { VIsual_select = FALSE; (void)ins_typebuf(K_SELECT_STRING, REMAP_NONE, 0, TRUE, FALSE); } #ifdef FEAT_EVAL // Copy the values from *mp that are used, because evaluating the // expression may invoke a function that redefines the mapping, thereby // making *mp invalid. save_m_expr = mp->m_expr; save_m_noremap = mp->m_noremap; save_m_silent = mp->m_silent; save_m_keys = NULL; // only saved when needed /* * Handle ":map <expr>": evaluate the {rhs} as an expression. Also * save and restore the command line for "normal :". */ if (mp->m_expr) { int save_vgetc_busy = vgetc_busy; int save_may_garbage_collect = may_garbage_collect; int was_screen_col = screen_cur_col; int was_screen_row = screen_cur_row; int prev_did_emsg = did_emsg; vgetc_busy = 0; may_garbage_collect = FALSE; save_m_keys = vim_strsave(mp->m_keys); map_str = eval_map_expr(mp, NUL); // The mapping may do anything, but we expect it to take care of // redrawing. Do put the cursor back where it was. windgoto(was_screen_row, was_screen_col); out_flush(); // If an error was displayed and the expression returns an empty // string, generate a <Nop> to allow for a redraw. if (prev_did_emsg != did_emsg && (map_str == NULL || *map_str == NUL)) { char_u buf[4]; vim_free(map_str); buf[0] = K_SPECIAL; buf[1] = KS_EXTRA; buf[2] = KE_IGNORE; buf[3] = NUL; map_str = vim_strsave(buf); if (State & MODE_CMDLINE) { // redraw the command below the error msg_didout = TRUE; if (msg_row < cmdline_row) msg_row = cmdline_row; redrawcmd(); } } vgetc_busy = save_vgetc_busy; may_garbage_collect = save_may_garbage_collect; } else #endif map_str = mp->m_str; /* * Insert the 'to' part in the typebuf.tb_buf. * If 'from' field is the same as the start of the 'to' field, don't * remap the first character (but do allow abbreviations). * If m_noremap is set, don't remap the whole 'to' part. */ if (map_str == NULL) i = FAIL; else { int noremap; #ifdef FEAT_EVAL last_used_map = mp; last_used_sid = -1; #endif if (save_m_noremap != REMAP_YES) noremap = save_m_noremap; else if ( #ifdef FEAT_EVAL STRNCMP(map_str, save_m_keys != NULL ? save_m_keys : mp->m_keys, (size_t)keylen) #else STRNCMP(map_str, mp->m_keys, (size_t)keylen) #endif != 0) noremap = REMAP_YES; else noremap = REMAP_SKIP; i = ins_typebuf(map_str, noremap, 0, TRUE, cmd_silent || save_m_silent); #ifdef FEAT_EVAL if (save_m_expr) vim_free(map_str); #endif } #ifdef FEAT_EVAL vim_free(save_m_keys); #endif *keylenp = keylen; if (i == FAIL) return map_result_fail; return map_result_retry; } *keylenp = keylen; return map_result_nomatch; } /* * unget one character (can only be done once!) * If the character was stuffed, vgetc() will get it next time it is called. * Otherwise vgetc() will only get it when the stuff buffer is empty. */ void vungetc(int c) { old_char = c; old_mod_mask = mod_mask; old_mouse_row = mouse_row; old_mouse_col = mouse_col; old_KeyStuffed = KeyStuffed; } /* * When peeking and not getting a character, reg_executing cannot be cleared * yet, so set a flag to clear it later. */ static void check_end_reg_executing(int advance) { if (reg_executing != 0 && (typebuf.tb_maplen == 0 || pending_end_reg_executing)) { if (advance) { reg_executing = 0; pending_end_reg_executing = FALSE; } else pending_end_reg_executing = TRUE; } } /* * Get a byte: * 1. from the stuffbuffer * This is used for abbreviated commands like "D" -> "d$". * Also used to redo a command for ".". * 2. from the typeahead buffer * Stores text obtained previously but not used yet. * Also stores the result of mappings. * Also used for the ":normal" command. * 3. from the user * This may do a blocking wait if "advance" is TRUE. * * if "advance" is TRUE (vgetc()): * Really get the character. * KeyTyped is set to TRUE in the case the user typed the key. * KeyStuffed is TRUE if the character comes from the stuff buffer. * if "advance" is FALSE (vpeekc()): * Just look whether there is a character available. * Return NUL if not. * * When "no_mapping" is zero, checks for mappings in the current mode. * Only returns one byte (of a multi-byte character). * K_SPECIAL and CSI may be escaped, need to get two more bytes then. */ static int vgetorpeek(int advance) { int c; int timedout = FALSE; // waited for more than 'timeoutlen' // for mapping to complete or // 'ttimeoutlen' for complete key code int mapdepth = 0; // check for recursive mapping int mode_deleted = FALSE; // set when mode has been deleted int new_wcol, new_wrow; #ifdef FEAT_GUI int shape_changed = FALSE; // adjusted cursor shape #endif int n; int old_wcol, old_wrow; int wait_tb_len; /* * This function doesn't work very well when called recursively. This may * happen though, because of: * 1. The call to add_to_showcmd(). char_avail() is then used to check if * there is a character available, which calls this function. In that * case we must return NUL, to indicate no character is available. * 2. A GUI callback function writes to the screen, causing a * wait_return(). * Using ":normal" can also do this, but it saves the typeahead buffer, * thus it should be OK. But don't get a key from the user then. */ if (vgetc_busy > 0 && ex_normal_busy == 0) return NUL; ++vgetc_busy; if (advance) { KeyStuffed = FALSE; typebuf_was_empty = FALSE; } init_typebuf(); start_stuff(); check_end_reg_executing(advance); do { /* * get a character: 1. from the stuffbuffer */ if (typeahead_char != 0) { c = typeahead_char; if (advance) typeahead_char = 0; } else c = read_readbuffers(advance); if (c != NUL && !got_int) { if (advance) { // KeyTyped = FALSE; When the command that stuffed something // was typed, behave like the stuffed command was typed. // needed for CTRL-W CTRL-] to open a fold, for example. KeyStuffed = TRUE; } if (typebuf.tb_no_abbr_cnt == 0) typebuf.tb_no_abbr_cnt = 1; // no abbreviations now } else { /* * Loop until we either find a matching mapped key, or we * are sure that it is not a mapped key. * If a mapped key sequence is found we go back to the start to * try re-mapping. */ for (;;) { long wait_time; int keylen = 0; int showcmd_idx; check_end_reg_executing(advance); /* * ui_breakcheck() is slow, don't use it too often when * inside a mapping. But call it each time for typed * characters. */ if (typebuf.tb_maplen) line_breakcheck(); else ui_breakcheck(); // check for CTRL-C if (got_int) { // flush all input c = inchar(typebuf.tb_buf, typebuf.tb_buflen - 1, 0L); /* * If inchar() returns TRUE (script file was active) or we * are inside a mapping, get out of Insert mode. * Otherwise we behave like having gotten a CTRL-C. * As a result typing CTRL-C in insert mode will * really insert a CTRL-C. */ if ((c || typebuf.tb_maplen) && (State & (MODE_INSERT | MODE_CMDLINE))) c = ESC; else c = Ctrl_C; flush_buffers(FLUSH_INPUT); // flush all typeahead if (advance) { // Also record this character, it might be needed to // get out of Insert mode. *typebuf.tb_buf = c; gotchars(typebuf.tb_buf, 1); } cmd_silent = FALSE; break; } else if (typebuf.tb_len > 0) { /* * Check for a mapping in "typebuf". */ map_result_T result = handle_mapping( &keylen, &timedout, &mapdepth); if (result == map_result_retry) // try mapping again continue; if (result == map_result_fail) { // failed, use the outer loop c = -1; break; } if (result == map_result_get) { /* * get a character: 2. from the typeahead buffer */ c = typebuf.tb_buf[typebuf.tb_off]; if (advance) // remove chars from typebuf { cmd_silent = (typebuf.tb_silent > 0); if (typebuf.tb_maplen > 0) KeyTyped = FALSE; else { KeyTyped = TRUE; // write char to script file(s) gotchars(typebuf.tb_buf + typebuf.tb_off, 1); } KeyNoremap = typebuf.tb_noremap[typebuf.tb_off]; del_typebuf(1, 0); } break; // got character, break the for loop } // not enough characters, get more } /* * get a character: 3. from the user - handle <Esc> in Insert mode */ /* * Special case: if we get an <ESC> in Insert mode and there * are no more characters at once, we pretend to go out of * Insert mode. This prevents the one second delay after * typing an <ESC>. If we get something after all, we may * have to redisplay the mode. That the cursor is in the wrong * place does not matter. * Do not do this if the kitty keyboard protocol is used, every * <ESC> is the start of an escape sequence then. */ c = 0; new_wcol = curwin->w_wcol; new_wrow = curwin->w_wrow; if ( advance && typebuf.tb_len == 1 && typebuf.tb_buf[typebuf.tb_off] == ESC && !no_mapping && kitty_protocol_state != KKPS_ENABLED && ex_normal_busy == 0 && typebuf.tb_maplen == 0 && (State & MODE_INSERT) && (p_timeout || (keylen == KEYLEN_PART_KEY && p_ttimeout)) && (c = inchar(typebuf.tb_buf + typebuf.tb_off + typebuf.tb_len, 3, 25L)) == 0) { colnr_T col = 0; char_u *ptr; if (mode_displayed) { unshowmode(TRUE); mode_deleted = TRUE; } #ifdef FEAT_GUI // may show a different cursor shape if (gui.in_use && State != MODE_NORMAL && !cmd_silent) { int save_State; save_State = State; State = MODE_NORMAL; gui_update_cursor(TRUE, FALSE); State = save_State; shape_changed = TRUE; } #endif validate_cursor(); old_wcol = curwin->w_wcol; old_wrow = curwin->w_wrow; // move cursor left, if possible if (curwin->w_cursor.col != 0) { if (curwin->w_wcol > 0) { // After auto-indenting and no text is following, // we are expecting to truncate the trailing // white-space, so find the last non-white // character -- webb if (did_ai && *skipwhite(ml_get_curline() + curwin->w_cursor.col) == NUL) { chartabsize_T cts; curwin->w_wcol = 0; ptr = ml_get_curline(); init_chartabsize_arg(&cts, curwin, curwin->w_cursor.lnum, 0, ptr, ptr); while (cts.cts_ptr < ptr + curwin->w_cursor.col) { if (!VIM_ISWHITE(*cts.cts_ptr)) curwin->w_wcol = cts.cts_vcol; cts.cts_vcol += lbr_chartabsize(&cts); if (has_mbyte) cts.cts_ptr += (*mb_ptr2len)(cts.cts_ptr); else ++cts.cts_ptr; } clear_chartabsize_arg(&cts); curwin->w_wrow = curwin->w_cline_row + curwin->w_wcol / curwin->w_width; curwin->w_wcol %= curwin->w_width; curwin->w_wcol += curwin_col_off(); col = 0; // no correction needed } else { --curwin->w_wcol; col = curwin->w_cursor.col - 1; } } else if (curwin->w_p_wrap && curwin->w_wrow) { --curwin->w_wrow; curwin->w_wcol = curwin->w_width - 1; col = curwin->w_cursor.col - 1; } if (has_mbyte && col > 0 && curwin->w_wcol > 0) { // Correct when the cursor is on the right halve // of a double-wide character. ptr = ml_get_curline(); col -= (*mb_head_off)(ptr, ptr + col); if ((*mb_ptr2cells)(ptr + col) > 1) --curwin->w_wcol; } } setcursor(); out_flush(); new_wcol = curwin->w_wcol; new_wrow = curwin->w_wrow; curwin->w_wcol = old_wcol; curwin->w_wrow = old_wrow; } if (c < 0) continue; // end of input script reached // Allow mapping for just typed characters. When we get here c // is the number of extra bytes and typebuf.tb_len is 1. for (n = 1; n <= c; ++n) typebuf.tb_noremap[typebuf.tb_off + n] = RM_YES; typebuf.tb_len += c; // buffer full, don't map if (typebuf.tb_len >= typebuf.tb_maplen + MAXMAPLEN) { timedout = TRUE; continue; } if (ex_normal_busy > 0) { static int tc = 0; // No typeahead left and inside ":normal". Must return // something to avoid getting stuck. When an incomplete // mapping is present, behave like it timed out. if (typebuf.tb_len > 0) { timedout = TRUE; continue; } // When 'insertmode' is set, ESC just beeps in Insert // mode. Use CTRL-L to make edit() return. // For the command line only CTRL-C always breaks it. // For the cmdline window: Alternate between ESC and // CTRL-C: ESC for most situations and CTRL-C to close the // cmdline window. if (p_im && (State & MODE_INSERT)) c = Ctrl_L; #ifdef FEAT_TERMINAL else if (terminal_is_active()) c = K_CANCEL; #endif else if ((State & MODE_CMDLINE) || (cmdwin_type > 0 && tc == ESC)) c = Ctrl_C; else c = ESC; tc = c; // set a flag to indicate this wasn't a normal char if (advance) typebuf_was_empty = TRUE; // return from main_loop() if (pending_exmode_active) exmode_active = EXMODE_NORMAL; // no chars to block abbreviation for typebuf.tb_no_abbr_cnt = 0; break; } /* * get a character: 3. from the user - update display */ // In insert mode a screen update is skipped when characters // are still available. But when those available characters // are part of a mapping, and we are going to do a blocking // wait here. Need to update the screen to display the // changed text so far. Also for when 'lazyredraw' is set and // redrawing was postponed because there was something in the // input buffer (e.g., termresponse). if (((State & MODE_INSERT) != 0 || p_lz) && (State & MODE_CMDLINE) == 0 && advance && must_redraw != 0 && !need_wait_return) { update_screen(0); setcursor(); // put cursor back where it belongs } /* * If we have a partial match (and are going to wait for more * input from the user), show the partially matched characters * to the user with showcmd. */ showcmd_idx = 0; int showing_partial = FALSE; if (typebuf.tb_len > 0 && advance && !exmode_active) { if (((State & (MODE_NORMAL | MODE_INSERT)) || State == MODE_LANGMAP) && State != MODE_HITRETURN) { // this looks nice when typing a dead character map if (State & MODE_INSERT && ptr2cells(typebuf.tb_buf + typebuf.tb_off + typebuf.tb_len - 1) == 1) { edit_putchar(typebuf.tb_buf[typebuf.tb_off + typebuf.tb_len - 1], FALSE); setcursor(); // put cursor back where it belongs showing_partial = TRUE; } // need to use the col and row from above here old_wcol = curwin->w_wcol; old_wrow = curwin->w_wrow; curwin->w_wcol = new_wcol; curwin->w_wrow = new_wrow; push_showcmd(); if (typebuf.tb_len > SHOWCMD_COLS) showcmd_idx = typebuf.tb_len - SHOWCMD_COLS; while (showcmd_idx < typebuf.tb_len) (void)add_to_showcmd( typebuf.tb_buf[typebuf.tb_off + showcmd_idx++]); curwin->w_wcol = old_wcol; curwin->w_wrow = old_wrow; } // This looks nice when typing a dead character map. // There is no actual command line for get_number(). if ((State & MODE_CMDLINE) && get_cmdline_info()->cmdbuff != NULL #if defined(FEAT_CRYPT) || defined(FEAT_EVAL) && cmdline_star == 0 #endif && ptr2cells(typebuf.tb_buf + typebuf.tb_off + typebuf.tb_len - 1) == 1) { putcmdline(typebuf.tb_buf[typebuf.tb_off + typebuf.tb_len - 1], FALSE); showing_partial = TRUE; } } /* * get a character: 3. from the user - get it */ if (typebuf.tb_len == 0) // timedout may have been set if a mapping with empty RHS // fully matched while longer mappings timed out. timedout = FALSE; if (advance) { if (typebuf.tb_len == 0 || !(p_timeout || (p_ttimeout && keylen == KEYLEN_PART_KEY))) // blocking wait wait_time = -1L; else if (keylen == KEYLEN_PART_KEY && p_ttm >= 0) wait_time = p_ttm; else wait_time = p_tm; } else wait_time = 0; wait_tb_len = typebuf.tb_len; c = inchar(typebuf.tb_buf + typebuf.tb_off + typebuf.tb_len, typebuf.tb_buflen - typebuf.tb_off - typebuf.tb_len - 1, wait_time); if (showcmd_idx != 0) pop_showcmd(); if (showing_partial) { if (State & MODE_INSERT) edit_unputchar(); if ((State & MODE_CMDLINE) && get_cmdline_info()->cmdbuff != NULL) unputcmdline(); else setcursor(); // put cursor back where it belongs } if (c < 0) continue; // end of input script reached if (c == NUL) // no character available { if (!advance) break; if (wait_tb_len > 0) // timed out { timedout = TRUE; continue; } } else { // allow mapping for just typed characters while (typebuf.tb_buf[typebuf.tb_off + typebuf.tb_len] != NUL) typebuf.tb_noremap[typebuf.tb_off + typebuf.tb_len++] = RM_YES; #ifdef HAVE_INPUT_METHOD // Get IM status right after getting keys, not after the // timeout for a mapping (focus may be lost by then). vgetc_im_active = im_get_status(); #endif } } // for (;;) } // if (!character from stuffbuf) // if advance is FALSE don't loop on NULs } while ((c < 0 && c != K_CANCEL) || (advance && c == NUL)); /* * The "INSERT" message is taken care of here: * if we return an ESC to exit insert mode, the message is deleted * if we don't return an ESC but deleted the message before, redisplay it */ if (advance && p_smd && msg_silent == 0 && (State & MODE_INSERT)) { if (c == ESC && !mode_deleted && !no_mapping && mode_displayed) { if (typebuf.tb_len && !KeyTyped) redraw_cmdline = TRUE; // delete mode later else unshowmode(FALSE); } else if (c != ESC && mode_deleted) { if (typebuf.tb_len && !KeyTyped) redraw_cmdline = TRUE; // show mode later else showmode(); } } #ifdef FEAT_GUI // may unshow different cursor shape if (gui.in_use && shape_changed) gui_update_cursor(TRUE, FALSE); #endif if (timedout && c == ESC) { // When recording there will be no timeout. Add an <Ignore> after the // ESC to avoid that it forms a key code with following characters. gotchars_ignore(); } --vgetc_busy; return c; } /* * inchar() - get one character from * 1. a scriptfile * 2. the keyboard * * As many characters as we can get (up to 'maxlen') are put in "buf" and * NUL terminated (buffer length must be 'maxlen' + 1). * Minimum for "maxlen" is 3!!!! * * "tb_change_cnt" is the value of typebuf.tb_change_cnt if "buf" points into * it. When typebuf.tb_change_cnt changes (e.g., when a message is received * from a remote client) "buf" can no longer be used. "tb_change_cnt" is 0 * otherwise. * * If we got an interrupt all input is read until none is available. * * If wait_time == 0 there is no waiting for the char. * If wait_time == n we wait for n msec for a character to arrive. * If wait_time == -1 we wait forever for a character to arrive. * * Return the number of obtained characters. * Return -1 when end of input script reached. */ static int inchar( char_u *buf, int maxlen, long wait_time) // milliseconds { int len = 0; // init for GCC int retesc = FALSE; // return ESC with gotint int script_char; int tb_change_cnt = typebuf.tb_change_cnt; if (wait_time == -1L || wait_time > 100L) // flush output before waiting { cursor_on(); out_flush_cursor(FALSE, FALSE); #if defined(FEAT_GUI) && defined(FEAT_MOUSESHAPE) if (gui.in_use && postponed_mouseshape) update_mouseshape(-1); #endif } /* * Don't reset these when at the hit-return prompt, otherwise a endless * recursive loop may result (write error in swapfile, hit-return, timeout * on char wait, flush swapfile, write error....). */ if (State != MODE_HITRETURN) { did_outofmem_msg = FALSE; // display out of memory message (again) did_swapwrite_msg = FALSE; // display swap file write error again } undo_off = FALSE; // restart undo now /* * Get a character from a script file if there is one. * If interrupted: Stop reading script files, close them all. */ script_char = -1; while (scriptin[curscript] != NULL && script_char < 0 #ifdef FEAT_EVAL && !ignore_script #endif ) { #ifdef MESSAGE_QUEUE parse_queued_messages(); #endif if (got_int || (script_char = getc(scriptin[curscript])) < 0) { // Reached EOF. // Careful: closescript() frees typebuf.tb_buf[] and buf[] may // point inside typebuf.tb_buf[]. Don't use buf[] after this! closescript(); /* * When reading script file is interrupted, return an ESC to get * back to normal mode. * Otherwise return -1, because typebuf.tb_buf[] has changed. */ if (got_int) retesc = TRUE; else return -1; } else { buf[0] = script_char; len = 1; } } if (script_char < 0) // did not get a character from script { /* * If we got an interrupt, skip all previously typed characters and * return TRUE if quit reading script file. * Stop reading typeahead when a single CTRL-C was read, * fill_input_buf() returns this when not able to read from stdin. * Don't use buf[] here, closescript() may have freed typebuf.tb_buf[] * and buf may be pointing inside typebuf.tb_buf[]. */ if (got_int) { #define DUM_LEN (MAXMAPLEN * 3 + 3) char_u dum[DUM_LEN + 1]; for (;;) { len = ui_inchar(dum, DUM_LEN, 0L, 0); if (len == 0 || (len == 1 && dum[0] == Ctrl_C)) break; } return retesc; } /* * Always flush the output characters when getting input characters * from the user and not just peeking. */ if (wait_time == -1L || wait_time > 10L) out_flush(); /* * Fill up to a third of the buffer, because each character may be * tripled below. */ len = ui_inchar(buf, maxlen / 3, wait_time, tb_change_cnt); } // If the typebuf was changed further down, it is like nothing was added by // this call. if (typebuf_changed(tb_change_cnt)) return 0; // Note the change in the typeahead buffer, this matters for when // vgetorpeek() is called recursively, e.g. using getchar(1) in a timer // function. if (len > 0 && ++typebuf.tb_change_cnt == 0) typebuf.tb_change_cnt = 1; return fix_input_buffer(buf, len); } /* * Fix typed characters for use by vgetc() and check_termcode(). * "buf[]" must have room to triple the number of bytes! * Returns the new length. */ int fix_input_buffer(char_u *buf, int len) { int i; char_u *p = buf; /* * Two characters are special: NUL and K_SPECIAL. * When compiled With the GUI CSI is also special. * Replace NUL by K_SPECIAL KS_ZERO KE_FILLER * Replace K_SPECIAL by K_SPECIAL KS_SPECIAL KE_FILLER * Replace CSI by K_SPECIAL KS_EXTRA KE_CSI */ for (i = len; --i >= 0; ++p) { #ifdef FEAT_GUI // When the GUI is used any character can come after a CSI, don't // escape it. if (gui.in_use && p[0] == CSI && i >= 2) { p += 2; i -= 2; } # ifndef MSWIN // When not on MS-Windows and the GUI is not used CSI needs to be // escaped. else if (!gui.in_use && p[0] == CSI) { mch_memmove(p + 3, p + 1, (size_t)i); *p++ = K_SPECIAL; *p++ = KS_EXTRA; *p = (int)KE_CSI; len += 2; } # endif else #endif if (p[0] == NUL || (p[0] == K_SPECIAL // timeout may generate K_CURSORHOLD && (i < 2 || p[1] != KS_EXTRA || p[2] != (int)KE_CURSORHOLD) #if defined(MSWIN) && (!defined(FEAT_GUI) || defined(VIMDLL)) // Win32 console passes modifiers && ( # ifdef VIMDLL gui.in_use || # endif (i < 2 || p[1] != KS_MODIFIER)) #endif )) { mch_memmove(p + 3, p + 1, (size_t)i); p[2] = K_THIRD(p[0]); p[1] = K_SECOND(p[0]); p[0] = K_SPECIAL; p += 2; len += 2; } } *p = NUL; // add trailing NUL return len; } #if defined(USE_INPUT_BUF) || defined(PROTO) /* * Return TRUE when bytes are in the input buffer or in the typeahead buffer. * Normally the input buffer would be sufficient, but the server_to_input_buf() * or feedkeys() may insert characters in the typeahead buffer while we are * waiting for input to arrive. */ int input_available(void) { return (!vim_is_input_buf_empty() # if defined(FEAT_CLIENTSERVER) || defined(FEAT_EVAL) || typebuf_was_filled # endif ); } #endif /* * Function passed to do_cmdline() to get the command after a <Cmd> key from * typeahead. */ static char_u * getcmdkeycmd( int promptc UNUSED, void *cookie UNUSED, int indent UNUSED, getline_opt_T do_concat UNUSED) { garray_T line_ga; int c1 = -1; int c2; int cmod = 0; int aborted = FALSE; ga_init2(&line_ga, 1, 32); // no mapping for these characters no_mapping++; got_int = FALSE; while (c1 != NUL && !aborted) { if (ga_grow(&line_ga, 32) == FAIL) { aborted = TRUE; break; } if (vgetorpeek(FALSE) == NUL) { // incomplete <Cmd> is an error, because there is not much the user // could do in this state. emsg(_(e_cmd_mapping_must_end_with_cr)); aborted = TRUE; break; } // Get one character at a time. c1 = vgetorpeek(TRUE); // Get two extra bytes for special keys if (c1 == K_SPECIAL) { c1 = vgetorpeek(TRUE); c2 = vgetorpeek(TRUE); if (c1 == KS_MODIFIER) { cmod = c2; continue; } c1 = TO_SPECIAL(c1, c2); // K_ESC is used to avoid ambiguity with the single Esc character // that might be the start of an escape sequence. Convert it back // to a single Esc here. if (c1 == K_ESC) c1 = ESC; } if (got_int) aborted = TRUE; else if (c1 == '\r' || c1 == '\n') c1 = NUL; // end the line else if (c1 == ESC) aborted = TRUE; else if (c1 == K_COMMAND || c1 == K_SCRIPT_COMMAND) { // give a nicer error message for this special case emsg(_(e_cmd_mapping_must_end_with_cr_before_second_cmd)); aborted = TRUE; } else if (c1 == K_SNR) { ga_concat(&line_ga, (char_u *)"<SNR>"); } else { if (cmod != 0) { ga_append(&line_ga, K_SPECIAL); ga_append(&line_ga, KS_MODIFIER); ga_append(&line_ga, cmod); } if (IS_SPECIAL(c1)) { ga_append(&line_ga, K_SPECIAL); ga_append(&line_ga, K_SECOND(c1)); ga_append(&line_ga, K_THIRD(c1)); } else ga_append(&line_ga, c1); } cmod = 0; } no_mapping--; if (aborted) ga_clear(&line_ga); return (char_u *)line_ga.ga_data; } #if defined(FEAT_EVAL) || defined(PROTO) /* * If there was a mapping we get its SID. Otherwise, use "last_used_sid", it * is set when redo'ing. * Put this SID in the redo buffer, so that "." will use the same script * context. */ void may_add_last_used_map_to_redobuff(void) { char_u buf[3 + 20]; int sid = -1; if (last_used_map != NULL) sid = last_used_map->m_script_ctx.sc_sid; if (sid < 0) sid = last_used_sid; if (sid < 0) return; // <K_SID>{nr}; buf[0] = K_SPECIAL; buf[1] = KS_EXTRA; buf[2] = KE_SID; vim_snprintf((char *)buf + 3, 20, "%d;", sid); add_buff(&redobuff, buf, -1L); } #endif int do_cmdkey_command(int key UNUSED, int flags) { int res; #ifdef FEAT_EVAL sctx_T save_current_sctx = {-1, 0, 0, 0}; if (key == K_SCRIPT_COMMAND && (last_used_map != NULL || SCRIPT_ID_VALID(last_used_sid))) { save_current_sctx = current_sctx; if (last_used_map != NULL) current_sctx = last_used_map->m_script_ctx; else { current_sctx.sc_sid = last_used_sid; current_sctx.sc_lnum = 0; current_sctx.sc_version = SCRIPT_ITEM(last_used_sid)->sn_version; } } #endif res = do_cmdline(NULL, getcmdkeycmd, NULL, flags); #ifdef FEAT_EVAL if (save_current_sctx.sc_sid >= 0) current_sctx = save_current_sctx; #endif return res; } #if defined(FEAT_EVAL) || defined(PROTO) void reset_last_used_map(mapblock_T *mp) { if (last_used_map != mp) return; last_used_map = NULL; last_used_sid = -1; } #endif