// This is an open source non-commercial project. Dear PVS-Studio, please check // it. PVS-Studio Static Code Analyzer for C, C++ and C#: http://www.viva64.com /* * search.c: code for normal mode searching commands */ #include #include #include #include #include /* for INT_MAX on MSVC */ #include "nvim/ascii.h" #include "nvim/vim.h" #include "nvim/search.h" #include "nvim/buffer.h" #include "nvim/charset.h" #include "nvim/cursor.h" #include "nvim/edit.h" #include "nvim/eval.h" #include "nvim/ex_cmds.h" #include "nvim/ex_cmds2.h" #include "nvim/ex_getln.h" #include "nvim/fileio.h" #include "nvim/fold.h" #include "nvim/func_attr.h" #include "nvim/getchar.h" #include "nvim/indent.h" #include "nvim/main.h" #include "nvim/mark.h" #include "nvim/mbyte.h" #include "nvim/memline.h" #include "nvim/memory.h" #include "nvim/message.h" #include "nvim/misc1.h" #include "nvim/move.h" #include "nvim/mouse.h" #include "nvim/normal.h" #include "nvim/option.h" #include "nvim/path.h" #include "nvim/regexp.h" #include "nvim/screen.h" #include "nvim/strings.h" #include "nvim/ui.h" #include "nvim/window.h" #include "nvim/os/time.h" #ifdef INCLUDE_GENERATED_DECLARATIONS # include "search.c.generated.h" #endif // This file contains various searching-related routines. These fall into // three groups: // 1. string searches (for /, ?, n, and N) // 2. character searches within a single line (for f, F, t, T, etc) // 3. "other" kinds of searches like the '%' command, and 'word' searches. // // // String searches // // The string search functions are divided into two levels: // lowest: searchit(); uses a pos_T for starting position and found match. // Highest: do_search(); uses curwin->w_cursor; calls searchit(). // // The last search pattern is remembered for repeating the same search. // This pattern is shared between the :g, :s, ? and / commands. // This is in search_regcomp(). // // The actual string matching is done using a heavily modified version of // Henry Spencer's regular expression library. See regexp.c. // // // // Two search patterns are remembered: One for the :substitute command and // one for other searches. last_idx points to the one that was used the last // time. static struct spat spats[2] = { // Last used search pattern [0] = {NULL, true, false, 0, {'/', false, false, 0L}, NULL}, // Last used substitute pattern [1] = {NULL, true, false, 0, {'/', false, false, 0L}, NULL} }; static int last_idx = 0; /* index in spats[] for RE_LAST */ static char_u lastc[2] = { NUL, NUL }; // last character searched for static Direction lastcdir = FORWARD; // last direction of character search static int last_t_cmd = true; // last search t_cmd static char_u lastc_bytes[MB_MAXBYTES + 1]; static int lastc_bytelen = 1; // >1 for multi-byte char // copy of spats[], for keeping the search patterns while executing autocmds static struct spat saved_spats[2]; static int saved_spats_last_idx = 0; static bool saved_spats_no_hlsearch = false; static char_u *mr_pattern = NULL; // pattern used by search_regcomp() static int mr_pattern_alloced = false; // mr_pattern was allocated /* * Type used by find_pattern_in_path() to remember which included files have * been searched already. */ typedef struct SearchedFile { FILE *fp; /* File pointer */ char_u *name; /* Full name of file */ linenr_T lnum; /* Line we were up to in file */ int matched; /* Found a match in this file */ } SearchedFile; /* * translate search pattern for vim_regcomp() * * pat_save == RE_SEARCH: save pat in spats[RE_SEARCH].pat (normal search cmd) * pat_save == RE_SUBST: save pat in spats[RE_SUBST].pat (:substitute command) * pat_save == RE_BOTH: save pat in both patterns (:global command) * pat_use == RE_SEARCH: use previous search pattern if "pat" is NULL * pat_use == RE_SUBST: use previous substitute pattern if "pat" is NULL * pat_use == RE_LAST: use last used pattern if "pat" is NULL * options & SEARCH_HIS: put search string in history * options & SEARCH_KEEP: keep previous search pattern * * returns FAIL if failed, OK otherwise. */ int search_regcomp( char_u *pat, int pat_save, int pat_use, int options, regmmatch_T *regmatch /* return: pattern and ignore-case flag */ ) { int magic; int i; rc_did_emsg = FALSE; magic = p_magic; /* * If no pattern given, use a previously defined pattern. */ if (pat == NULL || *pat == NUL) { if (pat_use == RE_LAST) i = last_idx; else i = pat_use; if (spats[i].pat == NULL) { /* pattern was never defined */ if (pat_use == RE_SUBST) EMSG(_(e_nopresub)); else EMSG(_(e_noprevre)); rc_did_emsg = TRUE; return FAIL; } pat = spats[i].pat; magic = spats[i].magic; no_smartcase = spats[i].no_scs; } else if (options & SEARCH_HIS) /* put new pattern in history */ add_to_history(HIST_SEARCH, pat, TRUE, NUL); if (mr_pattern_alloced) { xfree(mr_pattern); mr_pattern_alloced = FALSE; } if (curwin->w_p_rl && *curwin->w_p_rlc == 's') { mr_pattern = reverse_text(pat); mr_pattern_alloced = TRUE; } else mr_pattern = pat; /* * Save the currently used pattern in the appropriate place, * unless the pattern should not be remembered. */ if (!(options & SEARCH_KEEP) && !cmdmod.keeppatterns) { /* search or global command */ if (pat_save == RE_SEARCH || pat_save == RE_BOTH) save_re_pat(RE_SEARCH, pat, magic); /* substitute or global command */ if (pat_save == RE_SUBST || pat_save == RE_BOTH) save_re_pat(RE_SUBST, pat, magic); } regmatch->rmm_ic = ignorecase(pat); regmatch->rmm_maxcol = 0; regmatch->regprog = vim_regcomp(pat, magic ? RE_MAGIC : 0); if (regmatch->regprog == NULL) return FAIL; return OK; } /* * Get search pattern used by search_regcomp(). */ char_u *get_search_pat(void) { return mr_pattern; } /* * Reverse text into allocated memory. * Returns the allocated string. * * TODO(philix): move reverse_text() to strings.c */ char_u *reverse_text(char_u *s) FUNC_ATTR_NONNULL_RET { /* * Reverse the pattern. */ size_t len = STRLEN(s); char_u *rev = xmalloc(len + 1); size_t rev_i = len; for (size_t s_i = 0; s_i < len; s_i++) { const int mb_len = utfc_ptr2len(s + s_i); rev_i -= mb_len; memmove(rev + rev_i, s + s_i, mb_len); s_i += mb_len - 1; } rev[len] = NUL; return rev; } void save_re_pat(int idx, char_u *pat, int magic) { if (spats[idx].pat != pat) { free_spat(&spats[idx]); spats[idx].pat = vim_strsave(pat); spats[idx].magic = magic; spats[idx].no_scs = no_smartcase; spats[idx].timestamp = os_time(); spats[idx].additional_data = NULL; last_idx = idx; /* If 'hlsearch' set and search pat changed: need redraw. */ if (p_hls) redraw_all_later(SOME_VALID); set_no_hlsearch(false); } } /* * Save the search patterns, so they can be restored later. * Used before/after executing autocommands and user functions. */ static int save_level = 0; void save_search_patterns(void) { if (save_level++ == 0) { saved_spats[0] = spats[0]; if (spats[0].pat != NULL) saved_spats[0].pat = vim_strsave(spats[0].pat); saved_spats[1] = spats[1]; if (spats[1].pat != NULL) saved_spats[1].pat = vim_strsave(spats[1].pat); saved_spats_last_idx = last_idx; saved_spats_no_hlsearch = no_hlsearch; } } void restore_search_patterns(void) { if (--save_level == 0) { free_spat(&spats[0]); spats[0] = saved_spats[0]; set_vv_searchforward(); free_spat(&spats[1]); spats[1] = saved_spats[1]; last_idx = saved_spats_last_idx; set_no_hlsearch(saved_spats_no_hlsearch); } } static inline void free_spat(struct spat *const spat) { xfree(spat->pat); tv_dict_unref(spat->additional_data); } #if defined(EXITFREE) void free_search_patterns(void) { free_spat(&spats[0]); free_spat(&spats[1]); memset(spats, 0, sizeof(spats)); if (mr_pattern_alloced) { xfree(mr_pattern); mr_pattern_alloced = FALSE; mr_pattern = NULL; } } #endif // copy of spats[RE_SEARCH], for keeping the search patterns while incremental // searching static struct spat saved_last_search_spat; static int did_save_last_search_spat = 0; static int saved_last_idx = 0; static bool saved_no_hlsearch = false; /// Save and restore the search pattern for incremental highlight search /// feature. /// /// It's similar to but different from save_search_patterns() and /// restore_search_patterns(), because the search pattern must be restored when /// cancelling incremental searching even if it's called inside user functions. void save_last_search_pattern(void) { if (++did_save_last_search_spat != 1) { // nested call, nothing to do return; } saved_last_search_spat = spats[RE_SEARCH]; if (spats[RE_SEARCH].pat != NULL) { saved_last_search_spat.pat = vim_strsave(spats[RE_SEARCH].pat); } saved_last_idx = last_idx; saved_no_hlsearch = no_hlsearch; } void restore_last_search_pattern(void) { if (--did_save_last_search_spat > 0) { // nested call, nothing to do return; } if (did_save_last_search_spat != 0) { iemsg("restore_last_search_pattern() called more often than" " save_last_search_pattern()"); return; } xfree(spats[RE_SEARCH].pat); spats[RE_SEARCH] = saved_last_search_spat; saved_last_search_spat.pat = NULL; set_vv_searchforward(); last_idx = saved_last_idx; set_no_hlsearch(saved_no_hlsearch); } char_u *last_search_pattern(void) { return spats[RE_SEARCH].pat; } /* * Return TRUE when case should be ignored for search pattern "pat". * Uses the 'ignorecase' and 'smartcase' options. */ int ignorecase(char_u *pat) { return ignorecase_opt(pat, p_ic, p_scs); } /// As ignorecase() put pass the "ic" and "scs" flags. int ignorecase_opt(char_u *pat, int ic_in, int scs) { int ic = ic_in; if (ic && !no_smartcase && scs && !(ctrl_x_mode_not_default() && curbuf->b_p_inf) ) { ic = !pat_has_uppercase(pat); } no_smartcase = false; return ic; } /// Returns true if pattern `pat` has an uppercase character. bool pat_has_uppercase(char_u *pat) FUNC_ATTR_NONNULL_ALL { char_u *p = pat; while (*p != NUL) { const int l = mb_ptr2len(p); if (l > 1) { if (mb_isupper(utf_ptr2char(p))) { return true; } p += l; } else if (*p == '\\') { if (p[1] == '_' && p[2] != NUL) { // skip "\_X" p += 3; } else if (p[1] == '%' && p[2] != NUL) { // skip "\%X" p += 3; } else if (p[1] != NUL) { // skip "\X" p += 2; } else { p += 1; } } else if (mb_isupper(*p)) { return true; } else { p++; } } return false; } const char *last_csearch(void) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT { return (const char *)lastc_bytes; } int last_csearch_forward(void) { return lastcdir == FORWARD; } int last_csearch_until(void) { return last_t_cmd == TRUE; } void set_last_csearch(int c, char_u *s, int len) { *lastc = c; lastc_bytelen = len; if (len) memcpy(lastc_bytes, s, len); else memset(lastc_bytes, 0, sizeof(lastc_bytes)); } void set_csearch_direction(Direction cdir) { lastcdir = cdir; } void set_csearch_until(int t_cmd) { last_t_cmd = t_cmd; } char_u *last_search_pat(void) { return spats[last_idx].pat; } /* * Reset search direction to forward. For "gd" and "gD" commands. */ void reset_search_dir(void) { spats[0].off.dir = '/'; set_vv_searchforward(); } /* * Set the last search pattern. For ":let @/ =" and ShaDa file. * Also set the saved search pattern, so that this works in an autocommand. */ void set_last_search_pat(const char_u *s, int idx, int magic, int setlast) { free_spat(&spats[idx]); /* An empty string means that nothing should be matched. */ if (*s == NUL) spats[idx].pat = NULL; else spats[idx].pat = (char_u *) xstrdup((char *) s); spats[idx].timestamp = os_time(); spats[idx].additional_data = NULL; spats[idx].magic = magic; spats[idx].no_scs = FALSE; spats[idx].off.dir = '/'; set_vv_searchforward(); spats[idx].off.line = FALSE; spats[idx].off.end = FALSE; spats[idx].off.off = 0; if (setlast) last_idx = idx; if (save_level) { free_spat(&saved_spats[idx]); saved_spats[idx] = spats[0]; if (spats[idx].pat == NULL) saved_spats[idx].pat = NULL; else saved_spats[idx].pat = vim_strsave(spats[idx].pat); saved_spats_last_idx = last_idx; } /* If 'hlsearch' set and search pat changed: need redraw. */ if (p_hls && idx == last_idx && !no_hlsearch) redraw_all_later(SOME_VALID); } /* * Get a regexp program for the last used search pattern. * This is used for highlighting all matches in a window. * Values returned in regmatch->regprog and regmatch->rmm_ic. */ void last_pat_prog(regmmatch_T *regmatch) { if (spats[last_idx].pat == NULL) { regmatch->regprog = NULL; return; } ++emsg_off; /* So it doesn't beep if bad expr */ (void)search_regcomp((char_u *)"", 0, last_idx, SEARCH_KEEP, regmatch); --emsg_off; } /// lowest level search function. /// Search for 'count'th occurrence of pattern "pat" in direction "dir". /// Start at position "pos" and return the found position in "pos". /// /// if (options & SEARCH_MSG) == 0 don't give any messages /// if (options & SEARCH_MSG) == SEARCH_NFMSG don't give 'notfound' messages /// if (options & SEARCH_MSG) == SEARCH_MSG give all messages /// if (options & SEARCH_HIS) put search pattern in history /// if (options & SEARCH_END) return position at end of match /// if (options & SEARCH_START) accept match at pos itself /// if (options & SEARCH_KEEP) keep previous search pattern /// if (options & SEARCH_FOLD) match only once in a closed fold /// if (options & SEARCH_PEEK) check for typed char, cancel search /// if (options & SEARCH_COL) start at pos->col instead of zero /// /// @returns FAIL (zero) for failure, non-zero for success. /// the index of the first matching /// subpattern plus one; one if there was none. int searchit( win_T *win, // window to search in; can be NULL for a // buffer without a window! buf_T *buf, pos_T *pos, pos_T *end_pos, // set to end of the match, unless NULL Direction dir, char_u *pat, long count, int options, int pat_use, // which pattern to use when "pat" is empty searchit_arg_T *extra_arg // optional extra arguments, can be NULL ) { int found; linenr_T lnum; /* no init to shut up Apollo cc */ regmmatch_T regmatch; char_u *ptr; colnr_T matchcol; lpos_T endpos; lpos_T matchpos; int loop; pos_T start_pos; int at_first_line; int extra_col; int start_char_len; int match_ok; long nmatched; int submatch = 0; bool first_match = true; int save_called_emsg = called_emsg; int break_loop = false; linenr_T stop_lnum = 0; // stop after this line number when != 0 proftime_T *tm = NULL; // timeout limit or NULL int *timed_out = NULL; // set when timed out or NULL if (extra_arg != NULL) { stop_lnum = extra_arg->sa_stop_lnum; tm = extra_arg->sa_tm; timed_out = &extra_arg->sa_timed_out; } if (search_regcomp(pat, RE_SEARCH, pat_use, (options & (SEARCH_HIS + SEARCH_KEEP)), ®match) == FAIL) { if ((options & SEARCH_MSG) && !rc_did_emsg) EMSG2(_("E383: Invalid search string: %s"), mr_pattern); return FAIL; } /* * find the string */ called_emsg = FALSE; do { /* loop for count */ // When not accepting a match at the start position set "extra_col" to a // non-zero value. Don't do that when starting at MAXCOL, since MAXCOL + 1 // is zero. if (pos->col == MAXCOL) { start_char_len = 0; } else if (pos->lnum >= 1 && pos->lnum <= buf->b_ml.ml_line_count && pos->col < MAXCOL - 2) { // Watch out for the "col" being MAXCOL - 2, used in a closed fold. ptr = ml_get_buf(buf, pos->lnum, false); if ((int)STRLEN(ptr) <= pos->col) { start_char_len = 1; } else { start_char_len = utfc_ptr2len(ptr + pos->col); } } else { start_char_len = 1; } if (dir == FORWARD) { extra_col = (options & SEARCH_START) ? 0 : start_char_len; } else { extra_col = (options & SEARCH_START) ? start_char_len : 0; } start_pos = *pos; /* remember start pos for detecting no match */ found = 0; /* default: not found */ at_first_line = TRUE; /* default: start in first line */ if (pos->lnum == 0) { /* correct lnum for when starting in line 0 */ pos->lnum = 1; pos->col = 0; at_first_line = FALSE; /* not in first line now */ } /* * Start searching in current line, unless searching backwards and * we're in column 0. * If we are searching backwards, in column 0, and not including the * current position, gain some efficiency by skipping back a line. * Otherwise begin the search in the current line. */ if (dir == BACKWARD && start_pos.col == 0 && (options & SEARCH_START) == 0) { lnum = pos->lnum - 1; at_first_line = FALSE; } else lnum = pos->lnum; for (loop = 0; loop <= 1; ++loop) { /* loop twice if 'wrapscan' set */ for (; lnum > 0 && lnum <= buf->b_ml.ml_line_count; lnum += dir, at_first_line = FALSE) { /* Stop after checking "stop_lnum", if it's set. */ if (stop_lnum != 0 && (dir == FORWARD ? lnum > stop_lnum : lnum < stop_lnum)) break; /* Stop after passing the "tm" time limit. */ if (tm != NULL && profile_passed_limit(*tm)) break; // Look for a match somewhere in line "lnum". colnr_T col = at_first_line && (options & SEARCH_COL) ? pos->col : 0; nmatched = vim_regexec_multi(®match, win, buf, lnum, col, tm, timed_out); // vim_regexec_multi() may clear "regprog" if (regmatch.regprog == NULL) { break; } // Abort searching on an error (e.g., out of stack). if (called_emsg || (timed_out != NULL && *timed_out)) { break; } if (nmatched > 0) { /* match may actually be in another line when using \zs */ matchpos = regmatch.startpos[0]; endpos = regmatch.endpos[0]; submatch = first_submatch(®match); /* "lnum" may be past end of buffer for "\n\zs". */ if (lnum + matchpos.lnum > buf->b_ml.ml_line_count) ptr = (char_u *)""; else ptr = ml_get_buf(buf, lnum + matchpos.lnum, FALSE); /* * Forward search in the first line: match should be after * the start position. If not, continue at the end of the * match (this is vi compatible) or on the next char. */ if (dir == FORWARD && at_first_line) { match_ok = TRUE; /* * When the match starts in a next line it's certainly * past the start position. * When match lands on a NUL the cursor will be put * one back afterwards, compare with that position, * otherwise "/$" will get stuck on end of line. */ while (matchpos.lnum == 0 && (((options & SEARCH_END) && first_match) ? (nmatched == 1 && (int)endpos.col - 1 < (int)start_pos.col + extra_col) : ((int)matchpos.col - (ptr[matchpos.col] == NUL) < (int)start_pos.col + extra_col))) { /* * If vi-compatible searching, continue at the end * of the match, otherwise continue one position * forward. */ if (vim_strchr(p_cpo, CPO_SEARCH) != NULL) { if (nmatched > 1) { /* end is in next line, thus no match in * this line */ match_ok = FALSE; break; } matchcol = endpos.col; // for empty match (matchcol == matchpos.col): advance one char } else { // Prepare to start after first matched character. matchcol = matchpos.col; } if (matchcol == matchpos.col && ptr[matchcol] != NUL) { matchcol += utfc_ptr2len(ptr + matchcol); } if (matchcol == 0 && (options & SEARCH_START)) { break; } if (ptr[matchcol] == NUL || (nmatched = vim_regexec_multi(®match, win, buf, lnum, matchcol, tm, timed_out)) == 0) { match_ok = false; break; } // vim_regexec_multi() may clear "regprog" if (regmatch.regprog == NULL) { break; } matchpos = regmatch.startpos[0]; endpos = regmatch.endpos[0]; submatch = first_submatch(®match); // This while-loop only works with matchpos.lnum == 0. // For bigger values the next line pointer ptr might not be a // buffer line. if (matchpos.lnum != 0) { break; } // Need to get the line pointer again, a multi-line search may // have made it invalid. ptr = ml_get_buf(buf, lnum, false); } if (!match_ok) continue; } if (dir == BACKWARD) { /* * Now, if there are multiple matches on this line, * we have to get the last one. Or the last one before * the cursor, if we're on that line. * When putting the new cursor at the end, compare * relative to the end of the match. */ match_ok = FALSE; for (;; ) { /* Remember a position that is before the start * position, we use it if it's the last match in * the line. Always accept a position after * wrapping around. */ if (loop || ((options & SEARCH_END) ? (lnum + regmatch.endpos[0].lnum < start_pos.lnum || (lnum + regmatch.endpos[0].lnum == start_pos.lnum && (int)regmatch.endpos[0].col - 1 < (int)start_pos.col + extra_col)) : (lnum + regmatch.startpos[0].lnum < start_pos.lnum || (lnum + regmatch.startpos[0].lnum == start_pos.lnum && (int)regmatch.startpos[0].col < (int)start_pos.col + extra_col)))) { match_ok = true; matchpos = regmatch.startpos[0]; endpos = regmatch.endpos[0]; submatch = first_submatch(®match); } else break; // We found a valid match, now check if there is // another one after it. // If vi-compatible searching, continue at the end // of the match, otherwise continue one position // forward. if (vim_strchr(p_cpo, CPO_SEARCH) != NULL) { if (nmatched > 1) { break; } matchcol = endpos.col; // for empty match: advance one char if (matchcol == matchpos.col && ptr[matchcol] != NUL) { matchcol += mb_ptr2len(ptr + matchcol); } } else { // Stop when the match is in a next line. if (matchpos.lnum > 0) { break; } matchcol = matchpos.col; if (ptr[matchcol] != NUL) { matchcol += mb_ptr2len(ptr + matchcol); } } if (ptr[matchcol] == NUL || (nmatched = vim_regexec_multi( ®match, win, buf, lnum + matchpos.lnum, matchcol, tm, timed_out)) == 0) { // If the search timed out, we did find a match // but it might be the wrong one, so that's not // OK. if (tm != NULL && profile_passed_limit(*tm)) { match_ok = false; } break; } // vim_regexec_multi() may clear "regprog" if (regmatch.regprog == NULL) { break; } // Need to get the line pointer again, a // multi-line search may have made it invalid. ptr = ml_get_buf(buf, lnum + matchpos.lnum, false); } /* * If there is only a match after the cursor, skip * this match. */ if (!match_ok) continue; } /* With the SEARCH_END option move to the last character * of the match. Don't do it for an empty match, end * should be same as start then. */ if ((options & SEARCH_END) && !(options & SEARCH_NOOF) && !(matchpos.lnum == endpos.lnum && matchpos.col == endpos.col)) { /* For a match in the first column, set the position * on the NUL in the previous line. */ pos->lnum = lnum + endpos.lnum; pos->col = endpos.col; if (endpos.col == 0) { if (pos->lnum > 1) { /* just in case */ --pos->lnum; pos->col = (colnr_T)STRLEN(ml_get_buf(buf, pos->lnum, FALSE)); } } else { pos->col--; if (pos->lnum <= buf->b_ml.ml_line_count) { ptr = ml_get_buf(buf, pos->lnum, false); pos->col -= utf_head_off(ptr, ptr + pos->col); } } if (end_pos != NULL) { end_pos->lnum = lnum + matchpos.lnum; end_pos->col = matchpos.col; } } else { pos->lnum = lnum + matchpos.lnum; pos->col = matchpos.col; if (end_pos != NULL) { end_pos->lnum = lnum + endpos.lnum; end_pos->col = endpos.col; } } pos->coladd = 0; if (end_pos != NULL) { end_pos->coladd = 0; } found = 1; first_match = false; /* Set variables used for 'incsearch' highlighting. */ search_match_lines = endpos.lnum - matchpos.lnum; search_match_endcol = endpos.col; break; } line_breakcheck(); /* stop if ctrl-C typed */ if (got_int) break; /* Cancel searching if a character was typed. Used for * 'incsearch'. Don't check too often, that would slowdown * searching too much. */ if ((options & SEARCH_PEEK) && ((lnum - pos->lnum) & 0x3f) == 0 && char_avail()) { break_loop = TRUE; break; } if (loop && lnum == start_pos.lnum) break; /* if second loop, stop where started */ } at_first_line = FALSE; // vim_regexec_multi() may clear "regprog" if (regmatch.regprog == NULL) { break; } // Stop the search if wrapscan isn't set, "stop_lnum" is // specified, after an interrupt, after a match and after looping // twice. if (!p_ws || stop_lnum != 0 || got_int || called_emsg || (timed_out != NULL && *timed_out) || break_loop || found || loop) { break; } // // If 'wrapscan' is set we continue at the other end of the file. // If 'shortmess' does not contain 's', we give a message. // This message is also remembered in keep_msg for when the screen // is redrawn. The keep_msg is cleared whenever another message is // written. // if (dir == BACKWARD) { // start second loop at the other end lnum = buf->b_ml.ml_line_count; } else { lnum = 1; } if (!shortmess(SHM_SEARCH) && (options & SEARCH_MSG)) { give_warning((char_u *)_(dir == BACKWARD ? top_bot_msg : bot_top_msg), true); } if (extra_arg != NULL) { extra_arg->sa_wrapped = true; } } if (got_int || called_emsg || (timed_out != NULL && *timed_out) || break_loop ) { break; } } while (--count > 0 && found); // stop after count matches or no match vim_regfree(regmatch.regprog); called_emsg |= save_called_emsg; if (!found) { /* did not find it */ if (got_int) EMSG(_(e_interr)); else if ((options & SEARCH_MSG) == SEARCH_MSG) { if (p_ws) EMSG2(_(e_patnotf2), mr_pattern); else if (lnum == 0) EMSG2(_("E384: search hit TOP without match for: %s"), mr_pattern); else EMSG2(_("E385: search hit BOTTOM without match for: %s"), mr_pattern); } return FAIL; } /* A pattern like "\n\zs" may go past the last line. */ if (pos->lnum > buf->b_ml.ml_line_count) { pos->lnum = buf->b_ml.ml_line_count; pos->col = (int)STRLEN(ml_get_buf(buf, pos->lnum, FALSE)); if (pos->col > 0) --pos->col; } return submatch + 1; } void set_search_direction(int cdir) { spats[0].off.dir = cdir; } static void set_vv_searchforward(void) { set_vim_var_nr(VV_SEARCHFORWARD, (long)(spats[0].off.dir == '/')); } // Return the number of the first subpat that matched. // Return zero if none of them matched. static int first_submatch(regmmatch_T *rp) { int submatch; for (submatch = 1;; ++submatch) { if (rp->startpos[submatch].lnum >= 0) break; if (submatch == 9) { submatch = 0; break; } } return submatch; } /* * Highest level string search function. * Search for the 'count'th occurrence of pattern 'pat' in direction 'dirc' * If 'dirc' is 0: use previous dir. * If 'pat' is NULL or empty : use previous string. * If 'options & SEARCH_REV' : go in reverse of previous dir. * If 'options & SEARCH_ECHO': echo the search command and handle options * If 'options & SEARCH_MSG' : may give error message * If 'options & SEARCH_OPT' : interpret optional flags * If 'options & SEARCH_HIS' : put search pattern in history * If 'options & SEARCH_NOOF': don't add offset to position * If 'options & SEARCH_MARK': set previous context mark * If 'options & SEARCH_KEEP': keep previous search pattern * If 'options & SEARCH_START': accept match at curpos itself * If 'options & SEARCH_PEEK': check for typed char, cancel search * * Careful: If spats[0].off.line == TRUE and spats[0].off.off == 0 this * makes the movement linewise without moving the match position. * * Return 0 for failure, 1 for found, 2 for found and line offset added. */ int do_search( oparg_T *oap, // can be NULL int dirc, // '/' or '?' int search_delim, // delimiter for search, e.g. '%' in s%regex%replacement char_u *pat, long count, int options, searchit_arg_T *sia // optional arguments or NULL ) { pos_T pos; /* position of the last match */ char_u *searchstr; struct soffset old_off; int retval; /* Return value */ char_u *p; long c; char_u *dircp; char_u *strcopy = NULL; char_u *ps; char_u *msgbuf = NULL; size_t len; bool has_offset = false; /* * A line offset is not remembered, this is vi compatible. */ if (spats[0].off.line && vim_strchr(p_cpo, CPO_LINEOFF) != NULL) { spats[0].off.line = FALSE; spats[0].off.off = 0; } /* * Save the values for when (options & SEARCH_KEEP) is used. * (there is no "if ()" around this because gcc wants them initialized) */ old_off = spats[0].off; pos = curwin->w_cursor; /* start searching at the cursor position */ /* * Find out the direction of the search. */ if (dirc == 0) dirc = spats[0].off.dir; else { spats[0].off.dir = dirc; set_vv_searchforward(); } if (options & SEARCH_REV) { if (dirc == '/') dirc = '?'; else dirc = '/'; } /* If the cursor is in a closed fold, don't find another match in the same * fold. */ if (dirc == '/') { if (hasFolding(pos.lnum, NULL, &pos.lnum)) pos.col = MAXCOL - 2; /* avoid overflow when adding 1 */ } else { if (hasFolding(pos.lnum, &pos.lnum, NULL)) pos.col = 0; } /* * Turn 'hlsearch' highlighting back on. */ if (no_hlsearch && !(options & SEARCH_KEEP)) { redraw_all_later(SOME_VALID); set_no_hlsearch(false); } /* * Repeat the search when pattern followed by ';', e.g. "/foo/;?bar". */ for (;; ) { bool show_top_bot_msg = false; searchstr = pat; dircp = NULL; // use previous pattern if (pat == NULL || *pat == NUL || *pat == search_delim) { if (spats[RE_SEARCH].pat == NULL) { // no previous pattern searchstr = spats[RE_SUBST].pat; if (searchstr == NULL) { EMSG(_(e_noprevre)); retval = 0; goto end_do_search; } } else { /* make search_regcomp() use spats[RE_SEARCH].pat */ searchstr = (char_u *)""; } } if (pat != NULL && *pat != NUL) { /* look for (new) offset */ /* * Find end of regular expression. * If there is a matching '/' or '?', toss it. */ ps = strcopy; p = skip_regexp(pat, search_delim, p_magic, &strcopy); if (strcopy != ps) { /* made a copy of "pat" to change "\?" to "?" */ searchcmdlen += (int)(STRLEN(pat) - STRLEN(strcopy)); pat = strcopy; searchstr = strcopy; } if (*p == search_delim) { dircp = p; // remember where we put the NUL *p++ = NUL; } spats[0].off.line = FALSE; spats[0].off.end = FALSE; spats[0].off.off = 0; // Check for a line offset or a character offset. // For get_address (echo off) we don't check for a character // offset, because it is meaningless and the 's' could be a // substitute command. if (*p == '+' || *p == '-' || ascii_isdigit(*p)) { spats[0].off.line = true; } else if ((options & SEARCH_OPT) && (*p == 'e' || *p == 's' || *p == 'b')) { if (*p == 'e') { // end spats[0].off.end = true; } p++; } if (ascii_isdigit(*p) || *p == '+' || *p == '-') { /* got an offset */ /* 'nr' or '+nr' or '-nr' */ if (ascii_isdigit(*p) || ascii_isdigit(*(p + 1))) spats[0].off.off = atol((char *)p); else if (*p == '-') /* single '-' */ spats[0].off.off = -1; else /* single '+' */ spats[0].off.off = 1; ++p; while (ascii_isdigit(*p)) /* skip number */ ++p; } /* compute length of search command for get_address() */ searchcmdlen += (int)(p - pat); pat = p; /* put pat after search command */ } if ((options & SEARCH_ECHO) && messaging() && !msg_silent && (!cmd_silent || !shortmess(SHM_SEARCHCOUNT))) { char_u *trunc; char_u off_buf[40]; size_t off_len = 0; // Compute msg_row early. msg_start(); // Get the offset, so we know how long it is. if (!cmd_silent && (spats[0].off.line || spats[0].off.end || spats[0].off.off)) { p = off_buf; // -V507 *p++ = dirc; if (spats[0].off.end) { *p++ = 'e'; } else if (!spats[0].off.line) { *p++ = 's'; } if (spats[0].off.off > 0 || spats[0].off.line) { *p++ = '+'; } *p = NUL; if (spats[0].off.off != 0 || spats[0].off.line) { snprintf((char *)p, sizeof(off_buf) - 1 - (p - off_buf), "%" PRId64, spats[0].off.off); } off_len = STRLEN(off_buf); } if (*searchstr == NUL) { p = spats[0].pat; } else { p = searchstr; } if (!shortmess(SHM_SEARCHCOUNT) || cmd_silent) { // Reserve enough space for the search pattern + offset + // search stat. Use all the space available, so that the // search state is right aligned. If there is not enough space // msg_strtrunc() will shorten in the middle. if (ui_has(kUIMessages)) { len = 0; // adjusted below } else if (msg_scrolled != 0 && !cmd_silent) { // Use all the columns. len = (Rows - msg_row) * Columns - 1; } else { // Use up to 'showcmd' column. len = (Rows - msg_row - 1) * Columns + sc_col - 1; } if (len < STRLEN(p) + off_len + SEARCH_STAT_BUF_LEN + 3) { len = STRLEN(p) + off_len + SEARCH_STAT_BUF_LEN + 3; } } else { // Reserve enough space for the search pattern + offset. len = STRLEN(p) + off_len + 3; } xfree(msgbuf); msgbuf = xmalloc(len); memset(msgbuf, ' ', len); msgbuf[len - 1] = NUL; // do not fill the msgbuf buffer, if cmd_silent is set, leave it // empty for the search_stat feature. if (!cmd_silent) { msgbuf[0] = dirc; if (utf_iscomposing(utf_ptr2char(p))) { // Use a space to draw the composing char on. msgbuf[1] = ' '; memmove(msgbuf + 2, p, STRLEN(p)); } else { memmove(msgbuf + 1, p, STRLEN(p)); } if (off_len > 0) { memmove(msgbuf + STRLEN(p) + 1, off_buf, off_len); } trunc = msg_strtrunc(msgbuf, true); if (trunc != NULL) { xfree(msgbuf); msgbuf = trunc; } // The search pattern could be shown on the right in rightleft // mode, but the 'ruler' and 'showcmd' area use it too, thus // it would be blanked out again very soon. Show it on the // left, but do reverse the text. if (curwin->w_p_rl && *curwin->w_p_rlc == 's') { char_u *r = reverse_text(trunc != NULL ? trunc : msgbuf); xfree(msgbuf); msgbuf = r; // move reversed text to beginning of buffer while (*r == ' ') { r++; } size_t pat_len = msgbuf + STRLEN(msgbuf) - r; memmove(msgbuf, r, pat_len); // overwrite old text if ((size_t)(r - msgbuf) >= pat_len) { memset(r, ' ', pat_len); } else { memset(msgbuf + pat_len, ' ', r - msgbuf); } } msg_outtrans(msgbuf); msg_clr_eos(); msg_check(); gotocmdline(false); ui_flush(); msg_nowait = true; // don't wait for this message } } /* * If there is a character offset, subtract it from the current * position, so we don't get stuck at "?pat?e+2" or "/pat/s-2". * Skip this if pos.col is near MAXCOL (closed fold). * This is not done for a line offset, because then we would not be vi * compatible. */ if (!spats[0].off.line && spats[0].off.off && pos.col < MAXCOL - 2) { if (spats[0].off.off > 0) { for (c = spats[0].off.off; c; --c) if (decl(&pos) == -1) break; if (c) { /* at start of buffer */ pos.lnum = 0; /* allow lnum == 0 here */ pos.col = MAXCOL; } } else { for (c = spats[0].off.off; c; ++c) if (incl(&pos) == -1) break; if (c) { /* at end of buffer */ pos.lnum = curbuf->b_ml.ml_line_count + 1; pos.col = 0; } } } c = searchit(curwin, curbuf, &pos, NULL, dirc == '/' ? FORWARD : BACKWARD, searchstr, count, (spats[0].off.end * SEARCH_END + (options & (SEARCH_KEEP + SEARCH_PEEK + SEARCH_HIS + SEARCH_MSG + SEARCH_START + ((pat != NULL && *pat == ';') ? 0 : SEARCH_NOOF)))), RE_LAST, sia); if (dircp != NULL) { *dircp = search_delim; // restore second '/' or '?' for normal_cmd() } if (!shortmess(SHM_SEARCH) && ((dirc == '/' && lt(pos, curwin->w_cursor)) || (dirc == '?' && lt(curwin->w_cursor, pos)))) { show_top_bot_msg = true; } if (c == FAIL) { retval = 0; goto end_do_search; } if (spats[0].off.end && oap != NULL) oap->inclusive = true; /* 'e' includes last character */ retval = 1; /* pattern found */ /* * Add character and/or line offset */ if (!(options & SEARCH_NOOF) || (pat != NULL && *pat == ';')) { pos_T org_pos = pos; if (spats[0].off.line) { // Add the offset to the line number. c = pos.lnum + spats[0].off.off; if (c < 1) pos.lnum = 1; else if (c > curbuf->b_ml.ml_line_count) pos.lnum = curbuf->b_ml.ml_line_count; else pos.lnum = c; pos.col = 0; retval = 2; /* pattern found, line offset added */ } else if (pos.col < MAXCOL - 2) { /* just in case */ /* to the right, check for end of file */ c = spats[0].off.off; if (c > 0) { while (c-- > 0) if (incl(&pos) == -1) break; } /* to the left, check for start of file */ else { while (c++ < 0) if (decl(&pos) == -1) break; } } if (!equalpos(pos, org_pos)) { has_offset = true; } } // Show [1/15] if 'S' is not in 'shortmess'. if ((options & SEARCH_ECHO) && messaging() && !msg_silent && c != FAIL && !shortmess(SHM_SEARCHCOUNT) && msgbuf != NULL) { cmdline_search_stat(dirc, &pos, &curwin->w_cursor, show_top_bot_msg, msgbuf, (count != 1 || has_offset || (!(fdo_flags & FDO_SEARCH) && hasFolding(curwin->w_cursor.lnum, NULL, NULL))), SEARCH_STAT_DEF_MAX_COUNT, SEARCH_STAT_DEF_TIMEOUT); } // The search command can be followed by a ';' to do another search. // For example: "/pat/;/foo/+3;?bar" // This is like doing another search command, except: // - The remembered direction '/' or '?' is from the first search. // - When an error happens the cursor isn't moved at all. // Don't do this when called by get_address() (it handles ';' itself). if (!(options & SEARCH_OPT) || pat == NULL || *pat != ';') { break; } dirc = *++pat; search_delim = dirc; if (dirc != '?' && dirc != '/') { retval = 0; EMSG(_("E386: Expected '?' or '/' after ';'")); goto end_do_search; } ++pat; } if (options & SEARCH_MARK) setpcmark(); curwin->w_cursor = pos; curwin->w_set_curswant = TRUE; end_do_search: if ((options & SEARCH_KEEP) || cmdmod.keeppatterns) spats[0].off = old_off; xfree(msgbuf); return retval; } /* * search_for_exact_line(buf, pos, dir, pat) * * Search for a line starting with the given pattern (ignoring leading * white-space), starting from pos and going in direction "dir". "pos" will * contain the position of the match found. Blank lines match only if * ADDING is set. If p_ic is set then the pattern must be in lowercase. * Return OK for success, or FAIL if no line found. */ int search_for_exact_line(buf_T *buf, pos_T *pos, Direction dir, char_u *pat) { linenr_T start = 0; char_u *ptr; char_u *p; if (buf->b_ml.ml_line_count == 0) return FAIL; for (;; ) { pos->lnum += dir; if (pos->lnum < 1) { if (p_ws) { pos->lnum = buf->b_ml.ml_line_count; if (!shortmess(SHM_SEARCH)) give_warning((char_u *)_(top_bot_msg), true); } else { pos->lnum = 1; break; } } else if (pos->lnum > buf->b_ml.ml_line_count) { if (p_ws) { pos->lnum = 1; if (!shortmess(SHM_SEARCH)) give_warning((char_u *)_(bot_top_msg), true); } else { pos->lnum = 1; break; } } if (pos->lnum == start) break; if (start == 0) start = pos->lnum; ptr = ml_get_buf(buf, pos->lnum, FALSE); p = skipwhite(ptr); pos->col = (colnr_T) (p - ptr); /* when adding lines the matching line may be empty but it is not * ignored because we are interested in the next line -- Acevedo */ if ((compl_cont_status & CONT_ADDING) && !(compl_cont_status & CONT_SOL)) { if (mb_strcmp_ic((bool)p_ic, (const char *)p, (const char *)pat) == 0) { return OK; } } else if (*p != NUL) { // Ignore empty lines. // Expanding lines or words. assert(compl_length >= 0); if ((p_ic ? mb_strnicmp(p, pat, (size_t)compl_length) : STRNCMP(p, pat, compl_length)) == 0) return OK; } } return FAIL; } /* * Character Searches */ /* * Search for a character in a line. If "t_cmd" is FALSE, move to the * position of the character, otherwise move to just before the char. * Do this "cap->count1" times. * Return FAIL or OK. */ int searchc(cmdarg_T *cap, int t_cmd) FUNC_ATTR_NONNULL_ALL { int c = cap->nchar; // char to search for Direction dir = cap->arg; // TRUE for searching forward long count = cap->count1; // repeat count int col; char_u *p; int len; int stop = TRUE; if (c != NUL) { /* normal search: remember args for repeat */ if (!KeyStuffed) { /* don't remember when redoing */ *lastc = c; set_csearch_direction(dir); set_csearch_until(t_cmd); lastc_bytelen = utf_char2bytes(c, lastc_bytes); if (cap->ncharC1 != 0) { lastc_bytelen += utf_char2bytes(cap->ncharC1, lastc_bytes + lastc_bytelen); if (cap->ncharC2 != 0) { lastc_bytelen += utf_char2bytes(cap->ncharC2, lastc_bytes + lastc_bytelen); } } } } else { // repeat previous search if (*lastc == NUL && lastc_bytelen == 1) { return FAIL; } if (dir) { // repeat in opposite direction dir = -lastcdir; } else { dir = lastcdir; } t_cmd = last_t_cmd; c = *lastc; /* For multi-byte re-use last lastc_bytes[] and lastc_bytelen. */ /* Force a move of at least one char, so ";" and "," will move the * cursor, even if the cursor is right in front of char we are looking * at. */ if (vim_strchr(p_cpo, CPO_SCOLON) == NULL && count == 1 && t_cmd) stop = FALSE; } if (dir == BACKWARD) cap->oap->inclusive = false; else cap->oap->inclusive = true; p = get_cursor_line_ptr(); col = curwin->w_cursor.col; len = (int)STRLEN(p); while (count--) { for (;; ) { if (dir > 0) { col += utfc_ptr2len(p + col); if (col >= len) { return FAIL; } } else { if (col == 0) { return FAIL; } col -= utf_head_off(p, p + col - 1) + 1; } if (lastc_bytelen == 1) { if (p[col] == c && stop) { break; } } else if (STRNCMP(p + col, lastc_bytes, lastc_bytelen) == 0 && stop) { break; } stop = true; } } if (t_cmd) { // Backup to before the character (possibly double-byte). col -= dir; if (dir < 0) { // Landed on the search char which is lastc_bytelen long. col += lastc_bytelen - 1; } else { // To previous char, which may be multi-byte. col -= utf_head_off(p, p + col); } } curwin->w_cursor.col = col; return OK; } /* * "Other" Searches */ /* * findmatch - find the matching paren or brace * * Improvement over vi: Braces inside quotes are ignored. */ pos_T *findmatch(oparg_T *oap, int initc) { return findmatchlimit(oap, initc, 0, 0); } // Return true if the character before "linep[col]" equals "ch". // Return false if "col" is zero. // Update "*prevcol" to the column of the previous character, unless "prevcol" // is NULL. // Handles multibyte string correctly. static bool check_prevcol(char_u *linep, int col, int ch, int *prevcol) { col--; if (col > 0) { col -= utf_head_off(linep, linep + col); } if (prevcol) { *prevcol = col; } return (col >= 0 && linep[col] == ch) ? true : false; } /* * Raw string start is found at linep[startpos.col - 1]. * Return true if the matching end can be found between startpos and endpos. */ static bool find_rawstring_end(char_u *linep, pos_T *startpos, pos_T *endpos) { char_u *p; char_u *delim_copy; size_t delim_len; linenr_T lnum; for (p = linep + startpos->col + 1; *p && *p != '('; p++) {} delim_len = (p - linep) - startpos->col - 1; delim_copy = vim_strnsave(linep + startpos->col + 1, delim_len); bool found = false; for (lnum = startpos->lnum; lnum <= endpos->lnum; lnum++) { char_u *line = ml_get(lnum); for (p = line + (lnum == startpos->lnum ? startpos->col + 1 : 0); *p; p++) { if (lnum == endpos->lnum && (colnr_T)(p - line) >= endpos->col) { break; } if (*p == ')' && STRNCMP(delim_copy, p + 1, delim_len) == 0 && p[delim_len + 1] == '"') { found = true; break; } } if (found) { break; } } xfree(delim_copy); return found; } /// Check matchpairs option for "*initc". /// If there is a match set "*initc" to the matching character and "*findc" to /// the opposite character. Set "*backwards" to the direction. /// When "switchit" is true swap the direction. static void find_mps_values(int *initc, int *findc, bool *backwards, bool switchit) FUNC_ATTR_NONNULL_ALL { char_u *ptr = curbuf->b_p_mps; while (*ptr != NUL) { if (utf_ptr2char(ptr) == *initc) { if (switchit) { *findc = *initc; *initc = utf_ptr2char(ptr + utfc_ptr2len(ptr) + 1); *backwards = true; } else { *findc = utf_ptr2char(ptr + utfc_ptr2len(ptr) + 1); *backwards = false; } return; } char_u *prev = ptr; ptr += utfc_ptr2len(ptr) + 1; if (utf_ptr2char(ptr) == *initc) { if (switchit) { *findc = *initc; *initc = utf_ptr2char(prev); *backwards = false; } else { *findc = utf_ptr2char(prev); *backwards = true; } return; } ptr += utfc_ptr2len(ptr); if (*ptr == ',') { ptr++; } } } /* * findmatchlimit -- find the matching paren or brace, if it exists within * maxtravel lines of the cursor. A maxtravel of 0 means search until falling * off the edge of the file. * * "initc" is the character to find a match for. NUL means to find the * character at or after the cursor. Special values: * '*' look for C-style comment / * * '/' look for C-style comment / *, ignoring comment-end * '#' look for preprocessor directives * 'R' look for raw string start: R"delim(text)delim" (only backwards) * * flags: FM_BACKWARD search backwards (when initc is '/', '*' or '#') * FM_FORWARD search forwards (when initc is '/', '*' or '#') * FM_BLOCKSTOP stop at start/end of block ({ or } in column 0) * FM_SKIPCOMM skip comments (not implemented yet!) * * "oap" is only used to set oap->motion_type for a linewise motion, it can be * NULL */ pos_T *findmatchlimit(oparg_T *oap, int initc, int flags, int64_t maxtravel) { static pos_T pos; // current search position int findc = 0; // matching brace int count = 0; // cumulative number of braces bool backwards = false; // init for gcc bool raw_string = false; // search for raw string bool inquote = false; // true when inside quotes char_u *ptr; int hash_dir = 0; // Direction searched for # things int comment_dir = 0; // Direction searched for comments int traveled = 0; // how far we've searched so far bool ignore_cend = false; // ignore comment end int match_escaped = 0; // search for escaped match int dir; // Direction to search int comment_col = MAXCOL; // start of / / comment bool lispcomm = false; // inside of Lisp-style comment bool lisp = curbuf->b_p_lisp; // engage Lisp-specific hacks ;) pos = curwin->w_cursor; pos.coladd = 0; char_u *linep = ml_get(pos.lnum); // pointer to current line // vi compatible matching bool cpo_match = (vim_strchr(p_cpo, CPO_MATCH) != NULL); // don't recognize backslashes bool cpo_bsl = (vim_strchr(p_cpo, CPO_MATCHBSL) != NULL); /* Direction to search when initc is '/', '*' or '#' */ if (flags & FM_BACKWARD) dir = BACKWARD; else if (flags & FM_FORWARD) dir = FORWARD; else dir = 0; /* * if initc given, look in the table for the matching character * '/' and '*' are special cases: look for start or end of comment. * When '/' is used, we ignore running backwards into a star-slash, for * "[*" command, we just want to find any comment. */ if (initc == '/' || initc == '*' || initc == 'R') { comment_dir = dir; if (initc == '/') ignore_cend = true; backwards = (dir == FORWARD) ? false : true; raw_string = (initc == 'R'); initc = NUL; } else if (initc != '#' && initc != NUL) { find_mps_values(&initc, &findc, &backwards, true); if (findc == NUL) { return NULL; } } else { /* * Either initc is '#', or no initc was given and we need to look * under the cursor. */ if (initc == '#') { hash_dir = dir; } else { /* * initc was not given, must look for something to match under * or near the cursor. * Only check for special things when 'cpo' doesn't have '%'. */ if (!cpo_match) { /* Are we before or at #if, #else etc.? */ ptr = skipwhite(linep); if (*ptr == '#' && pos.col <= (colnr_T)(ptr - linep)) { ptr = skipwhite(ptr + 1); if ( STRNCMP(ptr, "if", 2) == 0 || STRNCMP(ptr, "endif", 5) == 0 || STRNCMP(ptr, "el", 2) == 0) hash_dir = 1; } /* Are we on a comment? */ else if (linep[pos.col] == '/') { if (linep[pos.col + 1] == '*') { comment_dir = FORWARD; backwards = false; pos.col++; } else if (pos.col > 0 && linep[pos.col - 1] == '*') { comment_dir = BACKWARD; backwards = true; pos.col--; } } else if (linep[pos.col] == '*') { if (linep[pos.col + 1] == '/') { comment_dir = BACKWARD; backwards = true; } else if (pos.col > 0 && linep[pos.col - 1] == '/') { comment_dir = FORWARD; backwards = false; } } } /* * If we are not on a comment or the # at the start of a line, then * look for brace anywhere on this line after the cursor. */ if (!hash_dir && !comment_dir) { /* * Find the brace under or after the cursor. * If beyond the end of the line, use the last character in * the line. */ if (linep[pos.col] == NUL && pos.col) --pos.col; for (;; ) { initc = PTR2CHAR(linep + pos.col); if (initc == NUL) break; find_mps_values(&initc, &findc, &backwards, false); if (findc) { break; } pos.col += utfc_ptr2len(linep + pos.col); } if (!findc) { /* no brace in the line, maybe use " #if" then */ if (!cpo_match && *skipwhite(linep) == '#') hash_dir = 1; else return NULL; } else if (!cpo_bsl) { int col, bslcnt = 0; /* Set "match_escaped" if there are an odd number of * backslashes. */ for (col = pos.col; check_prevcol(linep, col, '\\', &col); ) bslcnt++; match_escaped = (bslcnt & 1); } } } if (hash_dir) { /* * Look for matching #if, #else, #elif, or #endif */ if (oap != NULL) { oap->motion_type = kMTLineWise; // Linewise for this case only } if (initc != '#') { ptr = skipwhite(skipwhite(linep) + 1); if (STRNCMP(ptr, "if", 2) == 0 || STRNCMP(ptr, "el", 2) == 0) hash_dir = 1; else if (STRNCMP(ptr, "endif", 5) == 0) hash_dir = -1; else return NULL; } pos.col = 0; while (!got_int) { if (hash_dir > 0) { if (pos.lnum == curbuf->b_ml.ml_line_count) break; } else if (pos.lnum == 1) break; pos.lnum += hash_dir; linep = ml_get(pos.lnum); line_breakcheck(); /* check for CTRL-C typed */ ptr = skipwhite(linep); if (*ptr != '#') continue; pos.col = (colnr_T) (ptr - linep); ptr = skipwhite(ptr + 1); if (hash_dir > 0) { if (STRNCMP(ptr, "if", 2) == 0) count++; else if (STRNCMP(ptr, "el", 2) == 0) { if (count == 0) return &pos; } else if (STRNCMP(ptr, "endif", 5) == 0) { if (count == 0) return &pos; count--; } } else { if (STRNCMP(ptr, "if", 2) == 0) { if (count == 0) return &pos; count--; } else if (initc == '#' && STRNCMP(ptr, "el", 2) == 0) { if (count == 0) return &pos; } else if (STRNCMP(ptr, "endif", 5) == 0) count++; } } return NULL; } } // This is just guessing: when 'rightleft' is set, search for a matching // paren/brace in the other direction. if (curwin->w_p_rl && vim_strchr((char_u *)"()[]{}<>", initc) != NULL) { backwards = !backwards; } int do_quotes = -1; // check for quotes in current line int at_start; // do_quotes value at start position TriState start_in_quotes = kNone; // start position is in quotes pos_T match_pos; // Where last slash-star was found clearpos(&match_pos); /* backward search: Check if this line contains a single-line comment */ if ((backwards && comment_dir) || lisp ) comment_col = check_linecomment(linep); if (lisp && comment_col != MAXCOL && pos.col > (colnr_T)comment_col) { lispcomm = true; // find match inside this comment } while (!got_int) { /* * Go to the next position, forward or backward. We could use * inc() and dec() here, but that is much slower */ if (backwards) { /* char to match is inside of comment, don't search outside */ if (lispcomm && pos.col < (colnr_T)comment_col) break; if (pos.col == 0) { /* at start of line, go to prev. one */ if (pos.lnum == 1) /* start of file */ break; --pos.lnum; if (maxtravel > 0 && ++traveled > maxtravel) break; linep = ml_get(pos.lnum); pos.col = (colnr_T)STRLEN(linep); /* pos.col on trailing NUL */ do_quotes = -1; line_breakcheck(); /* Check if this line contains a single-line comment */ if (comment_dir || lisp ) comment_col = check_linecomment(linep); /* skip comment */ if (lisp && comment_col != MAXCOL) pos.col = comment_col; } else { pos.col--; pos.col -= utf_head_off(linep, linep + pos.col); } } else { /* forward search */ if (linep[pos.col] == NUL /* at end of line, go to next one */ /* don't search for match in comment */ || (lisp && comment_col != MAXCOL && pos.col == (colnr_T)comment_col) ) { if (pos.lnum == curbuf->b_ml.ml_line_count /* end of file */ /* line is exhausted and comment with it, * don't search for match in code */ || lispcomm ) break; ++pos.lnum; if (maxtravel && traveled++ > maxtravel) break; linep = ml_get(pos.lnum); pos.col = 0; do_quotes = -1; line_breakcheck(); if (lisp) /* find comment pos in new line */ comment_col = check_linecomment(linep); } else { pos.col += utfc_ptr2len(linep + pos.col); } } // If FM_BLOCKSTOP given, stop at a '{' or '}' in column 0. if (pos.col == 0 && (flags & FM_BLOCKSTOP) && (linep[0] == '{' || linep[0] == '}')) { if (linep[0] == findc && count == 0) { // match! return &pos; } break; // out of scope } if (comment_dir) { /* Note: comments do not nest, and we ignore quotes in them */ /* TODO: ignore comment brackets inside strings */ if (comment_dir == FORWARD) { if (linep[pos.col] == '*' && linep[pos.col + 1] == '/') { pos.col++; return &pos; } } else { /* Searching backwards */ /* * A comment may contain / * or / /, it may also start or end * with / * /. Ignore a / * after / / and after *. */ if (pos.col == 0) continue; else if (raw_string) { if (linep[pos.col - 1] == 'R' && linep[pos.col] == '"' && vim_strchr(linep + pos.col + 1, '(') != NULL) { /* Possible start of raw string. Now that we have the * delimiter we can check if it ends before where we * started searching, or before the previously found * raw string start. */ if (!find_rawstring_end(linep, &pos, count > 0 ? &match_pos : &curwin->w_cursor)) { count++; match_pos = pos; match_pos.col--; } linep = ml_get(pos.lnum); /* may have been released */ } } else if ( linep[pos.col - 1] == '/' && linep[pos.col] == '*' && (pos.col == 1 || linep[pos.col - 2] != '*') && (int)pos.col < comment_col) { count++; match_pos = pos; match_pos.col--; } else if (linep[pos.col - 1] == '*' && linep[pos.col] == '/') { if (count > 0) pos = match_pos; else if (pos.col > 1 && linep[pos.col - 2] == '/' && (int)pos.col <= comment_col) pos.col -= 2; else if (ignore_cend) continue; else return NULL; return &pos; } } continue; } /* * If smart matching ('cpoptions' does not contain '%'), braces inside * of quotes are ignored, but only if there is an even number of * quotes in the line. */ if (cpo_match) do_quotes = 0; else if (do_quotes == -1) { /* * Count the number of quotes in the line, skipping \" and '"'. * Watch out for "\\". */ at_start = do_quotes; for (ptr = linep; *ptr; ++ptr) { if (ptr == linep + pos.col + backwards) at_start = (do_quotes & 1); if (*ptr == '"' && (ptr == linep || ptr[-1] != '\'' || ptr[1] != '\'')) ++do_quotes; if (*ptr == '\\' && ptr[1] != NUL) ++ptr; } do_quotes &= 1; /* result is 1 with even number of quotes */ /* * If we find an uneven count, check current line and previous * one for a '\' at the end. */ if (!do_quotes) { inquote = false; if (ptr[-1] == '\\') { do_quotes = 1; if (start_in_quotes == kNone) { // Do we need to use at_start here? inquote = true; start_in_quotes = kTrue; } else if (backwards) { inquote = true; } } if (pos.lnum > 1) { ptr = ml_get(pos.lnum - 1); if (*ptr && *(ptr + STRLEN(ptr) - 1) == '\\') { do_quotes = 1; if (start_in_quotes == kNone) { inquote = at_start; if (inquote) { start_in_quotes = kTrue; } } else if (!backwards) { inquote = true; } } /* ml_get() only keeps one line, need to get linep again */ linep = ml_get(pos.lnum); } } } if (start_in_quotes == kNone) { start_in_quotes = kFalse; } /* * If 'smartmatch' is set: * Things inside quotes are ignored by setting 'inquote'. If we * find a quote without a preceding '\' invert 'inquote'. At the * end of a line not ending in '\' we reset 'inquote'. * * In lines with an uneven number of quotes (without preceding '\') * we do not know which part to ignore. Therefore we only set * inquote if the number of quotes in a line is even, unless this * line or the previous one ends in a '\'. Complicated, isn't it? */ const int c = PTR2CHAR(linep + pos.col); switch (c) { case NUL: /* at end of line without trailing backslash, reset inquote */ if (pos.col == 0 || linep[pos.col - 1] != '\\') { inquote = false; start_in_quotes = kFalse; } break; case '"': /* a quote that is preceded with an odd number of backslashes is * ignored */ if (do_quotes) { int col; for (col = pos.col - 1; col >= 0; --col) if (linep[col] != '\\') break; if ((((int)pos.col - 1 - col) & 1) == 0) { inquote = !inquote; start_in_quotes = kFalse; } } break; /* * If smart matching ('cpoptions' does not contain '%'): * Skip things in single quotes: 'x' or '\x'. Be careful for single * single quotes, eg jon's. Things like '\233' or '\x3f' are not * skipped, there is never a brace in them. * Ignore this when finding matches for `'. */ case '\'': if (!cpo_match && initc != '\'' && findc != '\'') { if (backwards) { if (pos.col > 1) { if (linep[pos.col - 2] == '\'') { pos.col -= 2; break; } else if (linep[pos.col - 2] == '\\' && pos.col > 2 && linep[pos.col - 3] == '\'') { pos.col -= 3; break; } } } else if (linep[pos.col + 1]) { // forward search if (linep[pos.col + 1] == '\\' && linep[pos.col + 2] && linep[pos.col + 3] == '\'') { pos.col += 3; break; } else if (linep[pos.col + 2] == '\'') { pos.col += 2; break; } } } FALLTHROUGH; default: /* * For Lisp skip over backslashed (), {} and []. * (actually, we skip #\( et al) */ if (curbuf->b_p_lisp && vim_strchr((char_u *)"(){}[]", c) != NULL && pos.col > 1 && check_prevcol(linep, pos.col, '\\', NULL) && check_prevcol(linep, pos.col - 1, '#', NULL)) break; /* Check for match outside of quotes, and inside of * quotes when the start is also inside of quotes. */ if ((!inquote || start_in_quotes == kTrue) && (c == initc || c == findc)) { int col, bslcnt = 0; if (!cpo_bsl) { for (col = pos.col; check_prevcol(linep, col, '\\', &col); ) bslcnt++; } /* Only accept a match when 'M' is in 'cpo' or when escaping * is what we expect. */ if (cpo_bsl || (bslcnt & 1) == match_escaped) { if (c == initc) count++; else { if (count == 0) return &pos; count--; } } } } } if (comment_dir == BACKWARD && count > 0) { pos = match_pos; return &pos; } return (pos_T *)NULL; /* never found it */ } /* * Check if line[] contains a / / comment. * Return MAXCOL if not, otherwise return the column. * TODO: skip strings. */ static int check_linecomment(const char_u *line) { const char_u *p = line; // scan from start // skip Lispish one-line comments if (curbuf->b_p_lisp) { if (vim_strchr(p, ';') != NULL) { /* there may be comments */ int in_str = FALSE; /* inside of string */ while ((p = vim_strpbrk(p, (char_u *)"\";")) != NULL) { if (*p == '"') { if (in_str) { if (*(p - 1) != '\\') /* skip escaped quote */ in_str = FALSE; } else if (p == line || ((p - line) >= 2 /* skip #\" form */ && *(p - 1) != '\\' && *(p - 2) != '#')) in_str = TRUE; } else if (!in_str && ((p - line) < 2 || (*(p - 1) != '\\' && *(p - 2) != '#'))) break; /* found! */ ++p; } } else p = NULL; } else while ((p = vim_strchr(p, '/')) != NULL) { /* accept a double /, unless it's preceded with * and followed by *, * because * / / * is an end and start of a C comment */ if (p[1] == '/' && (p == line || p[-1] != '*' || p[2] != '*')) break; ++p; } if (p == NULL) return MAXCOL; return (int)(p - line); } /* * Move cursor briefly to character matching the one under the cursor. * Used for Insert mode and "r" command. * Show the match only if it is visible on the screen. * If there isn't a match, then beep. */ void showmatch( int c // char to show match for ) { pos_T *lpos, save_cursor; pos_T mpos; colnr_T vcol; long *so = curwin->w_p_so >= 0 ? &curwin->w_p_so : &p_so; long *siso = curwin->w_p_siso >= 0 ? &curwin->w_p_siso : &p_siso; long save_so; long save_siso; int save_state; colnr_T save_dollar_vcol; char_u *p; /* * Only show match for chars in the 'matchpairs' option. */ /* 'matchpairs' is "x:y,x:y" */ for (p = curbuf->b_p_mps; *p != NUL; ++p) { if (PTR2CHAR(p) == c && (curwin->w_p_rl ^ p_ri)) break; p += utfc_ptr2len(p) + 1; if (PTR2CHAR(p) == c && !(curwin->w_p_rl ^ p_ri)) { break; } p += utfc_ptr2len(p); if (*p == NUL) { return; } } if (*p == NUL) { return; } if ((lpos = findmatch(NULL, NUL)) == NULL) { // no match, so beep vim_beep(BO_MATCH); } else if (lpos->lnum >= curwin->w_topline && lpos->lnum < curwin->w_botline) { if (!curwin->w_p_wrap) { getvcol(curwin, lpos, NULL, &vcol, NULL); } if (curwin->w_p_wrap || (vcol >= curwin->w_leftcol && vcol < curwin->w_leftcol + curwin->w_width_inner)) { mpos = *lpos; // save the pos, update_screen() may change it save_cursor = curwin->w_cursor; save_so = *so; save_siso = *siso; // Handle "$" in 'cpo': If the ')' is typed on top of the "$", // stop displaying the "$". if (dollar_vcol >= 0 && dollar_vcol == curwin->w_virtcol) { dollar_vcol = -1; } curwin->w_virtcol++; // do display ')' just before "$" update_screen(VALID); // show the new char first save_dollar_vcol = dollar_vcol; save_state = State; State = SHOWMATCH; ui_cursor_shape(); // may show different cursor shape curwin->w_cursor = mpos; // move to matching char *so = 0; // don't use 'scrolloff' here *siso = 0; // don't use 'sidescrolloff' here showruler(false); setcursor(); ui_flush(); /* Restore dollar_vcol(), because setcursor() may call curs_rows() * which resets it if the matching position is in a previous line * and has a higher column number. */ dollar_vcol = save_dollar_vcol; /* * brief pause, unless 'm' is present in 'cpo' and a character is * available. */ if (vim_strchr(p_cpo, CPO_SHOWMATCH) != NULL) { os_delay(p_mat * 100L + 8, true); } else if (!char_avail()) { os_delay(p_mat * 100L + 9, false); } curwin->w_cursor = save_cursor; // restore cursor position *so = save_so; *siso = save_siso; State = save_state; ui_cursor_shape(); // may show different cursor shape } } } // Find the start of the next sentence, searching in the direction specified // by the "dir" argument. The cursor is positioned on the start of the next // sentence when found. If the next sentence is found, return OK. Return FAIL // otherwise. See ":h sentence" for the precise definition of a "sentence" // text object. int findsent(Direction dir, long count) { pos_T pos, tpos; int c; int (*func)(pos_T *); bool noskip = false; // do not skip blanks pos = curwin->w_cursor; if (dir == FORWARD) func = incl; else func = decl; while (count--) { const pos_T prev_pos = pos; // if on an empty line, skip up to a non-empty line if (gchar_pos(&pos) == NUL) { do { if ((*func)(&pos) == -1) { break; } } while (gchar_pos(&pos) == NUL); if (dir == FORWARD) { goto found; } // if on the start of a paragraph or a section and searching forward, // go to the next line } else if (dir == FORWARD && pos.col == 0 && startPS(pos.lnum, NUL, false)) { if (pos.lnum == curbuf->b_ml.ml_line_count) { return FAIL; } pos.lnum++; goto found; } else if (dir == BACKWARD) { decl(&pos); } // go back to the previous non-white non-punctuation character bool found_dot = false; while (c = gchar_pos(&pos), ascii_iswhite(c) || vim_strchr((char_u *)".!?)]\"'", c) != NULL) { tpos = pos; if (decl(&tpos) == -1 || (LINEEMPTY(tpos.lnum) && dir == FORWARD)) { break; } if (found_dot) { break; } if (vim_strchr((char_u *) ".!?", c) != NULL) { found_dot = true; } if (vim_strchr((char_u *) ")]\"'", c) != NULL && vim_strchr((char_u *) ".!?)]\"'", gchar_pos(&tpos)) == NULL) { break; } decl(&pos); } // remember the line where the search started const int startlnum = pos.lnum; const bool cpo_J = vim_strchr(p_cpo, CPO_ENDOFSENT) != NULL; for (;; ) { /* find end of sentence */ c = gchar_pos(&pos); if (c == NUL || (pos.col == 0 && startPS(pos.lnum, NUL, FALSE))) { if (dir == BACKWARD && pos.lnum != startlnum) ++pos.lnum; break; } if (c == '.' || c == '!' || c == '?') { tpos = pos; do if ((c = inc(&tpos)) == -1) break; while (vim_strchr((char_u *)")]\"'", c = gchar_pos(&tpos)) != NULL); if (c == -1 || (!cpo_J && (c == ' ' || c == '\t')) || c == NUL || (cpo_J && (c == ' ' && inc(&tpos) >= 0 && gchar_pos(&tpos) == ' '))) { pos = tpos; if (gchar_pos(&pos) == NUL) /* skip NUL at EOL */ inc(&pos); break; } } if ((*func)(&pos) == -1) { if (count) return FAIL; noskip = true; break; } } found: /* skip white space */ while (!noskip && ((c = gchar_pos(&pos)) == ' ' || c == '\t')) if (incl(&pos) == -1) break; if (equalpos(prev_pos, pos)) { // didn't actually move, advance one character and try again if ((*func)(&pos) == -1) { if (count) { return FAIL; } break; } count++; } } setpcmark(); curwin->w_cursor = pos; return OK; } /* * Find the next paragraph or section in direction 'dir'. * Paragraphs are currently supposed to be separated by empty lines. * If 'what' is NUL we go to the next paragraph. * If 'what' is '{' or '}' we go to the next section. * If 'both' is TRUE also stop at '}'. * Return TRUE if the next paragraph or section was found. */ bool findpar ( bool *pincl, /* Return: true if last char is to be included */ int dir, long count, int what, int both ) { linenr_T curr; bool did_skip; /* true after separating lines have been skipped */ bool first; /* true on first line */ linenr_T fold_first; /* first line of a closed fold */ linenr_T fold_last; /* last line of a closed fold */ bool fold_skipped; /* true if a closed fold was skipped this iteration */ curr = curwin->w_cursor.lnum; while (count--) { did_skip = false; for (first = true;; first = false) { if (*ml_get(curr) != NUL) did_skip = true; /* skip folded lines */ fold_skipped = false; if (first && hasFolding(curr, &fold_first, &fold_last)) { curr = ((dir > 0) ? fold_last : fold_first) + dir; fold_skipped = true; } if (!first && did_skip && startPS(curr, what, both)) break; if (fold_skipped) curr -= dir; if ((curr += dir) < 1 || curr > curbuf->b_ml.ml_line_count) { if (count) return false; curr -= dir; break; } } } setpcmark(); if (both && *ml_get(curr) == '}') /* include line with '}' */ ++curr; curwin->w_cursor.lnum = curr; if (curr == curbuf->b_ml.ml_line_count && what != '}') { char_u *line = ml_get(curr); // Put the cursor on the last character in the last line and make the // motion inclusive. if ((curwin->w_cursor.col = (colnr_T)STRLEN(line)) != 0) { curwin->w_cursor.col--; curwin->w_cursor.col -= utf_head_off(line, line + curwin->w_cursor.col); *pincl = true; } } else curwin->w_cursor.col = 0; return true; } /* * check if the string 's' is a nroff macro that is in option 'opt' */ static int inmacro(char_u *opt, char_u *s) { char_u *macro; for (macro = opt; macro[0]; ++macro) { /* Accept two characters in the option being equal to two characters * in the line. A space in the option matches with a space in the * line or the line having ended. */ if ( (macro[0] == s[0] || (macro[0] == ' ' && (s[0] == NUL || s[0] == ' '))) && (macro[1] == s[1] || ((macro[1] == NUL || macro[1] == ' ') && (s[0] == NUL || s[1] == NUL || s[1] == ' ')))) break; ++macro; if (macro[0] == NUL) break; } return macro[0] != NUL; } /* * startPS: return TRUE if line 'lnum' is the start of a section or paragraph. * If 'para' is '{' or '}' only check for sections. * If 'both' is TRUE also stop at '}' */ int startPS(linenr_T lnum, int para, int both) { char_u *s; s = ml_get(lnum); if (*s == para || *s == '\f' || (both && *s == '}')) { return true; } if (*s == '.' && (inmacro(p_sections, s + 1) || (!para && inmacro(p_para, s + 1)))) { return true; } return false; } /* * The following routines do the word searches performed by the 'w', 'W', * 'b', 'B', 'e', and 'E' commands. */ /* * To perform these searches, characters are placed into one of three * classes, and transitions between classes determine word boundaries. * * The classes are: * * 0 - white space * 1 - punctuation * 2 or higher - keyword characters (letters, digits and underscore) */ static int cls_bigword; /* TRUE for "W", "B" or "E" */ /* * cls() - returns the class of character at curwin->w_cursor * * If a 'W', 'B', or 'E' motion is being done (cls_bigword == TRUE), chars * from class 2 and higher are reported as class 1 since only white space * boundaries are of interest. */ static int cls(void) { int c; c = gchar_cursor(); if (c == ' ' || c == '\t' || c == NUL) { return 0; } c = utf_class(c); // If cls_bigword is TRUE, report all non-blanks as class 1. if (c != 0 && cls_bigword) { return 1; } return c; } /* * fwd_word(count, type, eol) - move forward one word * * Returns FAIL if the cursor was already at the end of the file. * If eol is TRUE, last word stops at end of line (for operators). */ int fwd_word( long count, int bigword, /* "W", "E" or "B" */ int eol ) { int sclass; /* starting class */ int i; int last_line; curwin->w_cursor.coladd = 0; cls_bigword = bigword; while (--count >= 0) { /* When inside a range of folded lines, move to the last char of the * last line. */ if (hasFolding(curwin->w_cursor.lnum, NULL, &curwin->w_cursor.lnum)) { coladvance(MAXCOL); } sclass = cls(); /* * We always move at least one character, unless on the last * character in the buffer. */ last_line = (curwin->w_cursor.lnum == curbuf->b_ml.ml_line_count); i = inc_cursor(); if (i == -1 || (i >= 1 && last_line)) /* started at last char in file */ return FAIL; if (i >= 1 && eol && count == 0) /* started at last char in line */ return OK; /* * Go one char past end of current word (if any) */ if (sclass != 0) while (cls() == sclass) { i = inc_cursor(); if (i == -1 || (i >= 1 && eol && count == 0)) return OK; } /* * go to next non-white */ while (cls() == 0) { /* * We'll stop if we land on a blank line */ if (curwin->w_cursor.col == 0 && *get_cursor_line_ptr() == NUL) break; i = inc_cursor(); if (i == -1 || (i >= 1 && eol && count == 0)) return OK; } } return OK; } /* * bck_word() - move backward 'count' words * * If stop is TRUE and we are already on the start of a word, move one less. * * Returns FAIL if top of the file was reached. */ int bck_word(long count, int bigword, int stop) { int sclass; /* starting class */ curwin->w_cursor.coladd = 0; cls_bigword = bigword; while (--count >= 0) { /* When inside a range of folded lines, move to the first char of the * first line. */ if (hasFolding(curwin->w_cursor.lnum, &curwin->w_cursor.lnum, NULL)) curwin->w_cursor.col = 0; sclass = cls(); if (dec_cursor() == -1) /* started at start of file */ return FAIL; if (!stop || sclass == cls() || sclass == 0) { /* * Skip white space before the word. * Stop on an empty line. */ while (cls() == 0) { if (curwin->w_cursor.col == 0 && LINEEMPTY(curwin->w_cursor.lnum)) { goto finished; } if (dec_cursor() == -1) { // hit start of file, stop here return OK; } } /* * Move backward to start of this word. */ if (skip_chars(cls(), BACKWARD)) return OK; } inc_cursor(); /* overshot - forward one */ finished: stop = FALSE; } return OK; } /* * end_word() - move to the end of the word * * There is an apparent bug in the 'e' motion of the real vi. At least on the * System V Release 3 version for the 80386. Unlike 'b' and 'w', the 'e' * motion crosses blank lines. When the real vi crosses a blank line in an * 'e' motion, the cursor is placed on the FIRST character of the next * non-blank line. The 'E' command, however, works correctly. Since this * appears to be a bug, I have not duplicated it here. * * Returns FAIL if end of the file was reached. * * If stop is TRUE and we are already on the end of a word, move one less. * If empty is TRUE stop on an empty line. */ int end_word(long count, int bigword, int stop, int empty) { int sclass; /* starting class */ curwin->w_cursor.coladd = 0; cls_bigword = bigword; while (--count >= 0) { /* When inside a range of folded lines, move to the last char of the * last line. */ if (hasFolding(curwin->w_cursor.lnum, NULL, &curwin->w_cursor.lnum)) { coladvance(MAXCOL); } sclass = cls(); if (inc_cursor() == -1) return FAIL; /* * If we're in the middle of a word, we just have to move to the end * of it. */ if (cls() == sclass && sclass != 0) { /* * Move forward to end of the current word */ if (skip_chars(sclass, FORWARD)) return FAIL; } else if (!stop || sclass == 0) { /* * We were at the end of a word. Go to the end of the next word. * First skip white space, if 'empty' is TRUE, stop at empty line. */ while (cls() == 0) { if (empty && curwin->w_cursor.col == 0 && LINEEMPTY(curwin->w_cursor.lnum)) { goto finished; } if (inc_cursor() == -1) { // hit end of file, stop here return FAIL; } } /* * Move forward to the end of this word. */ if (skip_chars(cls(), FORWARD)) return FAIL; } dec_cursor(); /* overshot - one char backward */ finished: stop = FALSE; /* we move only one word less */ } return OK; } /* * Move back to the end of the word. * * Returns FAIL if start of the file was reached. */ int bckend_word( long count, int bigword, /* TRUE for "B" */ int eol /* TRUE: stop at end of line. */ ) { int sclass; /* starting class */ int i; curwin->w_cursor.coladd = 0; cls_bigword = bigword; while (--count >= 0) { sclass = cls(); if ((i = dec_cursor()) == -1) return FAIL; if (eol && i == 1) return OK; /* * Move backward to before the start of this word. */ if (sclass != 0) { while (cls() == sclass) if ((i = dec_cursor()) == -1 || (eol && i == 1)) return OK; } /* * Move backward to end of the previous word */ while (cls() == 0) { if (curwin->w_cursor.col == 0 && LINEEMPTY(curwin->w_cursor.lnum)) { break; } if ((i = dec_cursor()) == -1 || (eol && i == 1)) { return OK; } } } return OK; } /* * Skip a row of characters of the same class. * Return TRUE when end-of-file reached, FALSE otherwise. */ static int skip_chars(int cclass, int dir) { while (cls() == cclass) if ((dir == FORWARD ? inc_cursor() : dec_cursor()) == -1) return TRUE; return FALSE; } /* * Go back to the start of the word or the start of white space */ static void back_in_line(void) { int sclass; /* starting class */ sclass = cls(); for (;; ) { if (curwin->w_cursor.col == 0) /* stop at start of line */ break; dec_cursor(); if (cls() != sclass) { /* stop at start of word */ inc_cursor(); break; } } } static void find_first_blank(pos_T *posp) { int c; while (decl(posp) != -1) { c = gchar_pos(posp); if (!ascii_iswhite(c)) { incl(posp); break; } } } /* * Skip count/2 sentences and count/2 separating white spaces. */ static void findsent_forward( long count, int at_start_sent /* cursor is at start of sentence */ ) { while (count--) { findsent(FORWARD, 1L); if (at_start_sent) find_first_blank(&curwin->w_cursor); if (count == 0 || at_start_sent) decl(&curwin->w_cursor); at_start_sent = !at_start_sent; } } /* * Find word under cursor, cursor at end. * Used while an operator is pending, and in Visual mode. */ int current_word( oparg_T *oap, long count, int include, /* TRUE: include word and white space */ int bigword /* FALSE == word, TRUE == WORD */ ) { pos_T start_pos; pos_T pos; bool inclusive = true; int include_white = FALSE; cls_bigword = bigword; clearpos(&start_pos); /* Correct cursor when 'selection' is exclusive */ if (VIsual_active && *p_sel == 'e' && lt(VIsual, curwin->w_cursor)) dec_cursor(); /* * When Visual mode is not active, or when the VIsual area is only one * character, select the word and/or white space under the cursor. */ if (!VIsual_active || equalpos(curwin->w_cursor, VIsual)) { /* * Go to start of current word or white space. */ back_in_line(); start_pos = curwin->w_cursor; /* * If the start is on white space, and white space should be included * (" word"), or start is not on white space, and white space should * not be included ("word"), find end of word. */ if ((cls() == 0) == include) { if (end_word(1L, bigword, TRUE, TRUE) == FAIL) return FAIL; } else { /* * If the start is not on white space, and white space should be * included ("word "), or start is on white space and white * space should not be included (" "), find start of word. * If we end up in the first column of the next line (single char * word) back up to end of the line. */ fwd_word(1L, bigword, TRUE); if (curwin->w_cursor.col == 0) decl(&curwin->w_cursor); else oneleft(); if (include) include_white = TRUE; } if (VIsual_active) { /* should do something when inclusive == false ! */ VIsual = start_pos; redraw_curbuf_later(INVERTED); /* update the inversion */ } else { oap->start = start_pos; oap->motion_type = kMTCharWise; } --count; } /* * When count is still > 0, extend with more objects. */ while (count > 0) { inclusive = true; if (VIsual_active && lt(curwin->w_cursor, VIsual)) { /* * In Visual mode, with cursor at start: move cursor back. */ if (decl(&curwin->w_cursor) == -1) return FAIL; if (include != (cls() != 0)) { if (bck_word(1L, bigword, TRUE) == FAIL) return FAIL; } else { if (bckend_word(1L, bigword, TRUE) == FAIL) return FAIL; (void)incl(&curwin->w_cursor); } } else { /* * Move cursor forward one word and/or white area. */ if (incl(&curwin->w_cursor) == -1) return FAIL; if (include != (cls() == 0)) { if (fwd_word(1L, bigword, TRUE) == FAIL && count > 1) return FAIL; /* * If end is just past a new-line, we don't want to include * the first character on the line. * Put cursor on last char of white. */ if (oneleft() == FAIL) inclusive = false; } else { if (end_word(1L, bigword, TRUE, TRUE) == FAIL) return FAIL; } } --count; } if (include_white && (cls() != 0 || (curwin->w_cursor.col == 0 && !inclusive))) { /* * If we don't include white space at the end, move the start * to include some white space there. This makes "daw" work * better on the last word in a sentence (and "2daw" on last-but-one * word). Also when "2daw" deletes "word." at the end of the line * (cursor is at start of next line). * But don't delete white space at start of line (indent). */ pos = curwin->w_cursor; /* save cursor position */ curwin->w_cursor = start_pos; if (oneleft() == OK) { back_in_line(); if (cls() == 0 && curwin->w_cursor.col > 0) { if (VIsual_active) VIsual = curwin->w_cursor; else oap->start = curwin->w_cursor; } } curwin->w_cursor = pos; /* put cursor back at end */ } if (VIsual_active) { if (*p_sel == 'e' && inclusive && ltoreq(VIsual, curwin->w_cursor)) inc_cursor(); if (VIsual_mode == 'V') { VIsual_mode = 'v'; redraw_cmdline = TRUE; /* show mode later */ } } else oap->inclusive = inclusive; return OK; } /* * Find sentence(s) under the cursor, cursor at end. * When Visual active, extend it by one or more sentences. */ int current_sent(oparg_T *oap, long count, int include) { pos_T start_pos; pos_T pos; int start_blank; int c; int at_start_sent; long ncount; start_pos = curwin->w_cursor; pos = start_pos; findsent(FORWARD, 1L); /* Find start of next sentence. */ /* * When the Visual area is bigger than one character: Extend it. */ if (VIsual_active && !equalpos(start_pos, VIsual)) { extend: if (lt(start_pos, VIsual)) { /* * Cursor at start of Visual area. * Find out where we are: * - in the white space before a sentence * - in a sentence or just after it * - at the start of a sentence */ at_start_sent = TRUE; decl(&pos); while (lt(pos, curwin->w_cursor)) { c = gchar_pos(&pos); if (!ascii_iswhite(c)) { at_start_sent = FALSE; break; } incl(&pos); } if (!at_start_sent) { findsent(BACKWARD, 1L); if (equalpos(curwin->w_cursor, start_pos)) at_start_sent = TRUE; /* exactly at start of sentence */ else /* inside a sentence, go to its end (start of next) */ findsent(FORWARD, 1L); } if (include) /* "as" gets twice as much as "is" */ count *= 2; while (count--) { if (at_start_sent) find_first_blank(&curwin->w_cursor); c = gchar_cursor(); if (!at_start_sent || (!include && !ascii_iswhite(c))) findsent(BACKWARD, 1L); at_start_sent = !at_start_sent; } } else { /* * Cursor at end of Visual area. * Find out where we are: * - just before a sentence * - just before or in the white space before a sentence * - in a sentence */ incl(&pos); at_start_sent = TRUE; if (!equalpos(pos, curwin->w_cursor)) { /* not just before a sentence */ at_start_sent = FALSE; while (lt(pos, curwin->w_cursor)) { c = gchar_pos(&pos); if (!ascii_iswhite(c)) { at_start_sent = TRUE; break; } incl(&pos); } if (at_start_sent) /* in the sentence */ findsent(BACKWARD, 1L); else /* in/before white before a sentence */ curwin->w_cursor = start_pos; } if (include) /* "as" gets twice as much as "is" */ count *= 2; findsent_forward(count, at_start_sent); if (*p_sel == 'e') ++curwin->w_cursor.col; } return OK; } /* * If the cursor started on a blank, check if it is just before the start * of the next sentence. */ while (c = gchar_pos(&pos), ascii_iswhite(c)) incl(&pos); if (equalpos(pos, curwin->w_cursor)) { start_blank = TRUE; find_first_blank(&start_pos); /* go back to first blank */ } else { start_blank = FALSE; findsent(BACKWARD, 1L); start_pos = curwin->w_cursor; } if (include) ncount = count * 2; else { ncount = count; if (start_blank) --ncount; } if (ncount > 0) findsent_forward(ncount, TRUE); else decl(&curwin->w_cursor); if (include) { /* * If the blank in front of the sentence is included, exclude the * blanks at the end of the sentence, go back to the first blank. * If there are no trailing blanks, try to include leading blanks. */ if (start_blank) { find_first_blank(&curwin->w_cursor); c = gchar_pos(&curwin->w_cursor); if (ascii_iswhite(c)) decl(&curwin->w_cursor); } else if (c = gchar_cursor(), !ascii_iswhite(c)) find_first_blank(&start_pos); } if (VIsual_active) { /* Avoid getting stuck with "is" on a single space before a sentence. */ if (equalpos(start_pos, curwin->w_cursor)) goto extend; if (*p_sel == 'e') ++curwin->w_cursor.col; VIsual = start_pos; VIsual_mode = 'v'; redraw_cmdline = true; // show mode later redraw_curbuf_later(INVERTED); // update the inversion } else { /* include a newline after the sentence, if there is one */ if (incl(&curwin->w_cursor) == -1) oap->inclusive = true; else oap->inclusive = false; oap->start = start_pos; oap->motion_type = kMTCharWise; } return OK; } /* * Find block under the cursor, cursor at end. * "what" and "other" are two matching parenthesis/brace/etc. */ int current_block( oparg_T *oap, long count, int include, /* TRUE == include white space */ int what, /* '(', '{', etc. */ int other /* ')', '}', etc. */ ) { pos_T old_pos; pos_T *pos = NULL; pos_T start_pos; pos_T *end_pos; pos_T old_start, old_end; char_u *save_cpo; int sol = FALSE; /* '{' at start of line */ old_pos = curwin->w_cursor; old_end = curwin->w_cursor; /* remember where we started */ old_start = old_end; /* * If we start on '(', '{', ')', '}', etc., use the whole block inclusive. */ if (!VIsual_active || equalpos(VIsual, curwin->w_cursor)) { setpcmark(); if (what == '{') /* ignore indent */ while (inindent(1)) if (inc_cursor() != 0) break; if (gchar_cursor() == what) /* cursor on '(' or '{', move cursor just after it */ ++curwin->w_cursor.col; } else if (lt(VIsual, curwin->w_cursor)) { old_start = VIsual; curwin->w_cursor = VIsual; /* cursor at low end of Visual */ } else old_end = VIsual; // Search backwards for unclosed '(', '{', etc.. // Put this position in start_pos. // Ignore quotes here. Keep the "M" flag in 'cpo', as that is what the // user wants. save_cpo = p_cpo; p_cpo = (char_u *)(vim_strchr(p_cpo, CPO_MATCHBSL) != NULL ? "%M" : "%"); while (count-- > 0) { if ((pos = findmatch(NULL, what)) == NULL) { break; } curwin->w_cursor = *pos; start_pos = *pos; // the findmatch for end_pos will overwrite *pos } p_cpo = save_cpo; /* * Search for matching ')', '}', etc. * Put this position in curwin->w_cursor. */ if (pos == NULL || (end_pos = findmatch(NULL, other)) == NULL) { curwin->w_cursor = old_pos; return FAIL; } curwin->w_cursor = *end_pos; // Try to exclude the '(', '{', ')', '}', etc. when "include" is FALSE. // If the ending '}', ')' or ']' is only preceded by indent, skip that // indent. But only if the resulting area is not smaller than what we // started with. while (!include) { incl(&start_pos); sol = (curwin->w_cursor.col == 0); decl(&curwin->w_cursor); while (inindent(1)) { sol = TRUE; if (decl(&curwin->w_cursor) != 0) { break; } } /* * In Visual mode, when the resulting area is not bigger than what we * started with, extend it to the next block, and then exclude again. */ if (!lt(start_pos, old_start) && !lt(old_end, curwin->w_cursor) && VIsual_active) { curwin->w_cursor = old_start; decl(&curwin->w_cursor); if ((pos = findmatch(NULL, what)) == NULL) { curwin->w_cursor = old_pos; return FAIL; } start_pos = *pos; curwin->w_cursor = *pos; if ((end_pos = findmatch(NULL, other)) == NULL) { curwin->w_cursor = old_pos; return FAIL; } curwin->w_cursor = *end_pos; } else break; } if (VIsual_active) { if (*p_sel == 'e') { inc(&curwin->w_cursor); } if (sol && gchar_cursor() != NUL) { inc(&curwin->w_cursor); // include the line break } VIsual = start_pos; VIsual_mode = 'v'; redraw_curbuf_later(INVERTED); /* update the inversion */ showmode(); } else { oap->start = start_pos; oap->motion_type = kMTCharWise; oap->inclusive = false; if (sol) incl(&curwin->w_cursor); else if (ltoreq(start_pos, curwin->w_cursor)) /* Include the character under the cursor. */ oap->inclusive = true; else /* End is before the start (no text in between <>, [], etc.): don't * operate on any text. */ curwin->w_cursor = start_pos; } return OK; } /* * Return TRUE if the cursor is on a "" tag. Ignore "". * When "end_tag" is TRUE return TRUE if the cursor is on "". */ static int in_html_tag(int end_tag) { char_u *line = get_cursor_line_ptr(); char_u *p; int c; int lc = NUL; pos_T pos; for (p = line + curwin->w_cursor.col; p > line; ) { if (*p == '<') { // find '<' under/before cursor break; } MB_PTR_BACK(line, p); if (*p == '>') { // find '>' before cursor break; } } if (*p != '<') { return false; } pos.lnum = curwin->w_cursor.lnum; pos.col = (colnr_T)(p - line); MB_PTR_ADV(p); if (end_tag) { // check that there is a '/' after the '<' return *p == '/'; } /* check that there is no '/' after the '<' */ if (*p == '/') return FALSE; /* check that the matching '>' is not preceded by '/' */ for (;; ) { if (inc(&pos) < 0) return FALSE; c = *ml_get_pos(&pos); if (c == '>') break; lc = c; } return lc != '/'; } /* * Find tag block under the cursor, cursor at end. */ int current_tagblock( oparg_T *oap, long count_arg, bool include // true == include white space ) { long count = count_arg; pos_T old_pos; pos_T start_pos; pos_T end_pos; pos_T old_start, old_end; char_u *p; char_u *cp; int len; bool do_include = include; bool save_p_ws = p_ws; int retval = FAIL; int is_inclusive = true; p_ws = false; old_pos = curwin->w_cursor; old_end = curwin->w_cursor; /* remember where we started */ old_start = old_end; if (!VIsual_active || *p_sel == 'e') decl(&old_end); /* old_end is inclusive */ /* * If we start on "" select that block. */ if (!VIsual_active || equalpos(VIsual, curwin->w_cursor)) { setpcmark(); /* ignore indent */ while (inindent(1)) if (inc_cursor() != 0) break; if (in_html_tag(FALSE)) { /* cursor on start tag, move to its '>' */ while (*get_cursor_pos_ptr() != '>') if (inc_cursor() < 0) break; } else if (in_html_tag(TRUE)) { /* cursor on end tag, move to just before it */ while (*get_cursor_pos_ptr() != '<') if (dec_cursor() < 0) break; dec_cursor(); old_end = curwin->w_cursor; } } else if (lt(VIsual, curwin->w_cursor)) { old_start = VIsual; curwin->w_cursor = VIsual; /* cursor at low end of Visual */ } else old_end = VIsual; again: /* * Search backwards for unclosed "". * Put this position in start_pos. */ for (long n = 0; n < count; n++) { if (do_searchpair( "<[^ \t>/!]\\+\\%(\\_s\\_[^>]\\{-}[^/]>\\|$\\|\\_s\\=>\\)", "", "]*>", BACKWARD, NULL, 0, NULL, (linenr_T)0, 0L) <= 0) { curwin->w_cursor = old_pos; goto theend; } } start_pos = curwin->w_cursor; /* * Search for matching "". First isolate the "aaa". */ inc_cursor(); p = get_cursor_pos_ptr(); for (cp = p; *cp != NUL && *cp != '>' && !ascii_iswhite(*cp); MB_PTR_ADV(cp)) { } len = (int)(cp - p); if (len == 0) { curwin->w_cursor = old_pos; goto theend; } const size_t spat_len = len + 39; char *const spat = xmalloc(spat_len); const size_t epat_len = len + 9; char *const epat = xmalloc(epat_len); snprintf(spat, spat_len, "<%.*s\\>\\%%(\\_s\\_[^>]\\{-}\\_[^/]>\\|\\_s\\?>\\)\\c", len, p); snprintf(epat, epat_len, "\\c", len, p); const int r = do_searchpair(spat, "", epat, FORWARD, NULL, 0, NULL, (linenr_T)0, 0L); xfree(spat); xfree(epat); if (r < 1 || lt(curwin->w_cursor, old_end)) { /* Can't find other end or it's before the previous end. Could be a * HTML tag that doesn't have a matching end. Search backwards for * another starting tag. */ count = 1; curwin->w_cursor = start_pos; goto again; } if (do_include) { // Include up to the '>'. while (*get_cursor_pos_ptr() != '>') { if (inc_cursor() < 0) { break; } } } else { char_u *c = get_cursor_pos_ptr(); // Exclude the '<' of the end tag. // If the closing tag is on new line, do not decrement cursor, but make // operation exclusive, so that the linefeed will be selected if (*c == '<' && !VIsual_active && curwin->w_cursor.col == 0) { // do not decrement cursor is_inclusive = false; } else if (*c == '<') { dec_cursor(); } } end_pos = curwin->w_cursor; if (!do_include) { /* Exclude the start tag. */ curwin->w_cursor = start_pos; while (inc_cursor() >= 0) if (*get_cursor_pos_ptr() == '>') { inc_cursor(); start_pos = curwin->w_cursor; break; } curwin->w_cursor = end_pos; // If we are in Visual mode and now have the same text as before set // "do_include" and try again. if (VIsual_active && equalpos(start_pos, old_start) && equalpos(end_pos, old_end)) { do_include = true; curwin->w_cursor = old_start; count = count_arg; goto again; } } if (VIsual_active) { /* If the end is before the start there is no text between tags, select * the char under the cursor. */ if (lt(end_pos, start_pos)) { curwin->w_cursor = start_pos; } else if (*p_sel == 'e') { inc_cursor(); } VIsual = start_pos; VIsual_mode = 'v'; redraw_curbuf_later(INVERTED); /* update the inversion */ showmode(); } else { oap->start = start_pos; oap->motion_type = kMTCharWise; if (lt(end_pos, start_pos)) { /* End is before the start: there is no text between tags; operate * on an empty area. */ curwin->w_cursor = start_pos; oap->inclusive = false; } else { oap->inclusive = is_inclusive; } } retval = OK; theend: p_ws = save_p_ws; return retval; } int current_par( oparg_T *oap, long count, int include, /* TRUE == include white space */ int type /* 'p' for paragraph, 'S' for section */ ) { linenr_T start_lnum; linenr_T end_lnum; int white_in_front; int dir; int start_is_white; int prev_start_is_white; int retval = OK; int do_white = FALSE; int t; int i; if (type == 'S') /* not implemented yet */ return FAIL; start_lnum = curwin->w_cursor.lnum; /* * When visual area is more than one line: extend it. */ if (VIsual_active && start_lnum != VIsual.lnum) { extend: if (start_lnum < VIsual.lnum) dir = BACKWARD; else dir = FORWARD; for (i = count; --i >= 0; ) { if (start_lnum == (dir == BACKWARD ? 1 : curbuf->b_ml.ml_line_count)) { retval = FAIL; break; } prev_start_is_white = -1; for (t = 0; t < 2; ++t) { start_lnum += dir; start_is_white = linewhite(start_lnum); if (prev_start_is_white == start_is_white) { start_lnum -= dir; break; } for (;; ) { if (start_lnum == (dir == BACKWARD ? 1 : curbuf->b_ml.ml_line_count)) break; if (start_is_white != linewhite(start_lnum + dir) || (!start_is_white && startPS(start_lnum + (dir > 0 ? 1 : 0), 0, 0))) break; start_lnum += dir; } if (!include) break; if (start_lnum == (dir == BACKWARD ? 1 : curbuf->b_ml.ml_line_count)) break; prev_start_is_white = start_is_white; } } curwin->w_cursor.lnum = start_lnum; curwin->w_cursor.col = 0; return retval; } /* * First move back to the start_lnum of the paragraph or white lines */ white_in_front = linewhite(start_lnum); while (start_lnum > 1) { if (white_in_front) { /* stop at first white line */ if (!linewhite(start_lnum - 1)) break; } else { /* stop at first non-white line of start of paragraph */ if (linewhite(start_lnum - 1) || startPS(start_lnum, 0, 0)) break; } --start_lnum; } /* * Move past the end of any white lines. */ end_lnum = start_lnum; while (end_lnum <= curbuf->b_ml.ml_line_count && linewhite(end_lnum)) ++end_lnum; --end_lnum; i = count; if (!include && white_in_front) --i; while (i--) { if (end_lnum == curbuf->b_ml.ml_line_count) return FAIL; if (!include) do_white = linewhite(end_lnum + 1); if (include || !do_white) { ++end_lnum; /* * skip to end of paragraph */ while (end_lnum < curbuf->b_ml.ml_line_count && !linewhite(end_lnum + 1) && !startPS(end_lnum + 1, 0, 0)) ++end_lnum; } if (i == 0 && white_in_front && include) break; /* * skip to end of white lines after paragraph */ if (include || do_white) while (end_lnum < curbuf->b_ml.ml_line_count && linewhite(end_lnum + 1)) ++end_lnum; } /* * If there are no empty lines at the end, try to find some empty lines at * the start (unless that has been done already). */ if (!white_in_front && !linewhite(end_lnum) && include) while (start_lnum > 1 && linewhite(start_lnum - 1)) --start_lnum; if (VIsual_active) { // Problem: when doing "Vipipip" nothing happens in a single white // line, we get stuck there. Trap this here. if (VIsual_mode == 'V' && start_lnum == curwin->w_cursor.lnum) { goto extend; } if (VIsual.lnum != start_lnum) { VIsual.lnum = start_lnum; VIsual.col = 0; } VIsual_mode = 'V'; redraw_curbuf_later(INVERTED); /* update the inversion */ showmode(); } else { oap->start.lnum = start_lnum; oap->start.col = 0; oap->motion_type = kMTLineWise; } curwin->w_cursor.lnum = end_lnum; curwin->w_cursor.col = 0; return OK; } /* * Search quote char from string line[col]. * Quote character escaped by one of the characters in "escape" is not counted * as a quote. * Returns column number of "quotechar" or -1 when not found. */ static int find_next_quote( char_u *line, int col, int quotechar, char_u *escape /* escape characters, can be NULL */ ) { int c; for (;; ) { c = line[col]; if (c == NUL) { return -1; } else if (escape != NULL && vim_strchr(escape, c)) { col++; } else if (c == quotechar) { break; } col += mb_ptr2len(line + col); } return col; } /* * Search backwards in "line" from column "col_start" to find "quotechar". * Quote character escaped by one of the characters in "escape" is not counted * as a quote. * Return the found column or zero. */ static int find_prev_quote( char_u *line, int col_start, int quotechar, char_u *escape /* escape characters, can be NULL */ ) { int n; while (col_start > 0) { col_start--; col_start -= utf_head_off(line, line + col_start); n = 0; if (escape != NULL) while (col_start - n > 0 && vim_strchr(escape, line[col_start - n - 1]) != NULL) ++n; if (n & 1) col_start -= n; /* uneven number of escape chars, skip it */ else if (line[col_start] == quotechar) break; } return col_start; } // Find quote under the cursor, cursor at end. // Returns true if found, else false. bool current_quote( oparg_T *oap, long count, bool include, // true == include quote char int quotechar // Quote character ) FUNC_ATTR_NONNULL_ALL { char_u *line = get_cursor_line_ptr(); int col_end; int col_start = curwin->w_cursor.col; bool inclusive = false; bool vis_empty = true; // Visual selection <= 1 char bool vis_bef_curs = false; // Visual starts before cursor bool did_exclusive_adj = false; // adjusted pos for 'selection' bool inside_quotes = false; // Looks like "i'" done before bool selected_quote = false; // Has quote inside selection int i; bool restore_vis_bef = false; // resotre VIsual on abort // When 'selection' is "exclusive" move the cursor to where it would be // with 'selection' "inclusive", so that the logic is the same for both. // The cursor then is moved forward after adjusting the area. if (VIsual_active) { // this only works within one line if (VIsual.lnum != curwin->w_cursor.lnum) { return false; } vis_bef_curs = lt(VIsual, curwin->w_cursor); vis_empty = equalpos(VIsual, curwin->w_cursor); if (*p_sel == 'e') { if (vis_bef_curs) { dec_cursor(); did_exclusive_adj = true; } else if (!vis_empty) { dec(&VIsual); did_exclusive_adj = true; } vis_empty = equalpos(VIsual, curwin->w_cursor); if (!vis_bef_curs && !vis_empty) { // VIsual needs to be start of Visual selection. pos_T t = curwin->w_cursor; curwin->w_cursor = VIsual; VIsual = t; vis_bef_curs = true; restore_vis_bef = true; } } } if (!vis_empty) { /* Check if the existing selection exactly spans the text inside * quotes. */ if (vis_bef_curs) { inside_quotes = VIsual.col > 0 && line[VIsual.col - 1] == quotechar && line[curwin->w_cursor.col] != NUL && line[curwin->w_cursor.col + 1] == quotechar; i = VIsual.col; col_end = curwin->w_cursor.col; } else { inside_quotes = curwin->w_cursor.col > 0 && line[curwin->w_cursor.col - 1] == quotechar && line[VIsual.col] != NUL && line[VIsual.col + 1] == quotechar; i = curwin->w_cursor.col; col_end = VIsual.col; } /* Find out if we have a quote in the selection. */ while (i <= col_end) if (line[i++] == quotechar) { selected_quote = true; break; } } if (!vis_empty && line[col_start] == quotechar) { /* Already selecting something and on a quote character. Find the * next quoted string. */ if (vis_bef_curs) { /* Assume we are on a closing quote: move to after the next * opening quote. */ col_start = find_next_quote(line, col_start + 1, quotechar, NULL); if (col_start < 0) { goto abort_search; } col_end = find_next_quote(line, col_start + 1, quotechar, curbuf->b_p_qe); if (col_end < 0) { /* We were on a starting quote perhaps? */ col_end = col_start; col_start = curwin->w_cursor.col; } } else { col_end = find_prev_quote(line, col_start, quotechar, NULL); if (line[col_end] != quotechar) { goto abort_search; } col_start = find_prev_quote(line, col_end, quotechar, curbuf->b_p_qe); if (line[col_start] != quotechar) { /* We were on an ending quote perhaps? */ col_start = col_end; col_end = curwin->w_cursor.col; } } } else if (line[col_start] == quotechar || !vis_empty ) { int first_col = col_start; if (!vis_empty) { if (vis_bef_curs) first_col = find_next_quote(line, col_start, quotechar, NULL); else first_col = find_prev_quote(line, col_start, quotechar, NULL); } /* The cursor is on a quote, we don't know if it's the opening or * closing quote. Search from the start of the line to find out. * Also do this when there is a Visual area, a' may leave the cursor * in between two strings. */ col_start = 0; for (;; ) { /* Find open quote character. */ col_start = find_next_quote(line, col_start, quotechar, NULL); if (col_start < 0 || col_start > first_col) { goto abort_search; } // Find close quote character. col_end = find_next_quote(line, col_start + 1, quotechar, curbuf->b_p_qe); if (col_end < 0) { goto abort_search; } // If is cursor between start and end quote character, it is // target text object. if (col_start <= first_col && first_col <= col_end) { break; } col_start = col_end + 1; } } else { /* Search backward for a starting quote. */ col_start = find_prev_quote(line, col_start, quotechar, curbuf->b_p_qe); if (line[col_start] != quotechar) { /* No quote before the cursor, look after the cursor. */ col_start = find_next_quote(line, col_start, quotechar, NULL); if (col_start < 0) { goto abort_search; } } /* Find close quote character. */ col_end = find_next_quote(line, col_start + 1, quotechar, curbuf->b_p_qe); if (col_end < 0) { goto abort_search; } } // When "include" is true, include spaces after closing quote or before // the starting quote. if (include) { if (ascii_iswhite(line[col_end + 1])) while (ascii_iswhite(line[col_end + 1])) ++col_end; else while (col_start > 0 && ascii_iswhite(line[col_start - 1])) --col_start; } /* Set start position. After vi" another i" must include the ". * For v2i" include the quotes. */ if (!include && count < 2 && (vis_empty || !inside_quotes) ) ++col_start; curwin->w_cursor.col = col_start; if (VIsual_active) { /* Set the start of the Visual area when the Visual area was empty, we * were just inside quotes or the Visual area didn't start at a quote * and didn't include a quote. */ if (vis_empty || (vis_bef_curs && !selected_quote && (inside_quotes || (line[VIsual.col] != quotechar && (VIsual.col == 0 || line[VIsual.col - 1] != quotechar))))) { VIsual = curwin->w_cursor; redraw_curbuf_later(INVERTED); } } else { oap->start = curwin->w_cursor; oap->motion_type = kMTCharWise; } /* Set end position. */ curwin->w_cursor.col = col_end; if ((include || count > 1 /* After vi" another i" must include the ". */ || (!vis_empty && inside_quotes) ) && inc_cursor() == 2) inclusive = true; if (VIsual_active) { if (vis_empty || vis_bef_curs) { // decrement cursor when 'selection' is not exclusive if (*p_sel != 'e') { dec_cursor(); } } else { /* Cursor is at start of Visual area. Set the end of the Visual * area when it was just inside quotes or it didn't end at a * quote. */ if (inside_quotes || (!selected_quote && line[VIsual.col] != quotechar && (line[VIsual.col] == NUL || line[VIsual.col + 1] != quotechar))) { dec_cursor(); VIsual = curwin->w_cursor; } curwin->w_cursor.col = col_start; } if (VIsual_mode == 'V') { VIsual_mode = 'v'; redraw_cmdline = TRUE; /* show mode later */ } } else { /* Set inclusive and other oap's flags. */ oap->inclusive = inclusive; } return true; abort_search: if (VIsual_active && *p_sel == 'e') { if (did_exclusive_adj) { inc_cursor(); } if (restore_vis_bef) { pos_T t = curwin->w_cursor; curwin->w_cursor = VIsual; VIsual = t; } } return false; } /* * Find next search match under cursor, cursor at end. * Used while an operator is pending, and in Visual mode. */ int current_search( long count, bool forward // true for forward, false for backward ) { bool old_p_ws = p_ws; pos_T save_VIsual = VIsual; /* Correct cursor when 'selection' is exclusive */ if (VIsual_active && *p_sel == 'e' && lt(VIsual, curwin->w_cursor)) dec_cursor(); pos_T end_pos; // end position of the pattern match pos_T orig_pos; // position of the cursor at beginning pos_T pos; // position after the pattern int result; // result of various function calls // When searching forward and the cursor is at the start of the Visual // area, skip the first search backward, otherwise it doesn't move. const bool skip_first_backward = forward && VIsual_active && lt(curwin->w_cursor, VIsual); orig_pos = pos = curwin->w_cursor; if (VIsual_active) { // Searching further will extend the match. if (forward) { incl(&pos); } else { decl(&pos); } } // Is the pattern is zero-width?, this time, don't care about the direction int zero_width = is_zero_width(spats[last_idx].pat, true, &curwin->w_cursor, FORWARD); if (zero_width == -1) { return FAIL; // pattern not found } // The trick is to first search backwards and then search forward again, // so that a match at the current cursor position will be correctly // captured. When "forward" is false do it the other way around. for (int i = 0; i < 2; i++) { int dir; if (forward) { if (i == 0 && skip_first_backward) { continue; } dir = i; } else { dir = !i; } int flags = 0; if (!dir && !zero_width) { flags = SEARCH_END; } end_pos = pos; // wrapping should not occur in the first round if (i == 0) { p_ws = false; } result = searchit(curwin, curbuf, &pos, &end_pos, (dir ? FORWARD : BACKWARD), spats[last_idx].pat, i ? count : 1, SEARCH_KEEP | flags, RE_SEARCH, NULL); p_ws = old_p_ws; // First search may fail, but then start searching from the // beginning of the file (cursor might be on the search match) // except when Visual mode is active, so that extending the visual // selection works. if (i == 1 && !result) { // not found, abort */ curwin->w_cursor = orig_pos; if (VIsual_active) VIsual = save_VIsual; return FAIL; } else if (i == 0 && !result) { if (forward) { // try again from start of buffer clearpos(&pos); } else { // try again from end of buffer // searching backwards, so set pos to last line and col pos.lnum = curwin->w_buffer->b_ml.ml_line_count; pos.col = (colnr_T)STRLEN( ml_get(curwin->w_buffer->b_ml.ml_line_count)); } } } pos_T start_pos = pos; if (!VIsual_active) { VIsual = start_pos; } // put the cursor after the match curwin->w_cursor = end_pos; if (lt(VIsual, end_pos) && forward) { if (skip_first_backward) { // put the cursor on the start of the match curwin->w_cursor = pos; } else { // put the cursor on last character of match dec_cursor(); } } else if (VIsual_active && lt(curwin->w_cursor, VIsual) && forward) { curwin->w_cursor = pos; // put the cursor on the start of the match } VIsual_active = true; VIsual_mode = 'v'; if (*p_sel == 'e') { // Correction for exclusive selection depends on the direction. if (forward && ltoreq(VIsual, curwin->w_cursor)) { inc_cursor(); } else if (!forward && ltoreq(curwin->w_cursor, VIsual)) { inc(&VIsual); } } if (fdo_flags & FDO_SEARCH && KeyTyped) { foldOpenCursor(); } may_start_select('c'); setmouse(); redraw_curbuf_later(INVERTED); showmode(); return OK; } /// Check if the pattern is zero-width. /// If move is true, check from the beginning of the buffer, /// else from position "cur". /// "direction" is FORWARD or BACKWARD. /// Returns TRUE, FALSE or -1 for failure. static int is_zero_width(char_u *pattern, int move, pos_T *cur, Direction direction) { regmmatch_T regmatch; int nmatched = 0; int result = -1; pos_T pos; int save_called_emsg = called_emsg; int flag = 0; if (pattern == NULL) { pattern = spats[last_idx].pat; } if (search_regcomp(pattern, RE_SEARCH, RE_SEARCH, SEARCH_KEEP, ®match) == FAIL) return -1; // init startcol correctly regmatch.startpos[0].col = -1; // move to match if (move) { clearpos(&pos); } else { pos = *cur; // accept a match at the cursor position flag = SEARCH_START; } if (searchit(curwin, curbuf, &pos, NULL, direction, pattern, 1, SEARCH_KEEP + flag, RE_SEARCH, NULL) != FAIL) { // Zero-width pattern should match somewhere, then we can check if // start and end are in the same position. called_emsg = false; do { regmatch.startpos[0].col++; nmatched = vim_regexec_multi(®match, curwin, curbuf, pos.lnum, regmatch.startpos[0].col, NULL, NULL); if (nmatched != 0) { break; } } while (regmatch.regprog != NULL && direction == FORWARD ? regmatch.startpos[0].col < pos.col : regmatch.startpos[0].col > pos.col); if (!called_emsg) { result = (nmatched != 0 && regmatch.startpos[0].lnum == regmatch.endpos[0].lnum && regmatch.startpos[0].col == regmatch.endpos[0].col); } } called_emsg |= save_called_emsg; vim_regfree(regmatch.regprog); return result; } /* * return TRUE if line 'lnum' is empty or has white chars only. */ int linewhite(linenr_T lnum) { char_u *p; p = skipwhite(ml_get(lnum)); return *p == NUL; } // Add the search count "[3/19]" to "msgbuf". // See update_search_stat() for other arguments. static void cmdline_search_stat(int dirc, pos_T *pos, pos_T *cursor_pos, bool show_top_bot_msg, char_u *msgbuf, bool recompute, int maxcount, long timeout) { searchstat_T stat; update_search_stat(dirc, pos, cursor_pos, &stat, recompute, maxcount, timeout); if (stat.cur > 0) { char t[SEARCH_STAT_BUF_LEN]; if (curwin->w_p_rl && *curwin->w_p_rlc == 's') { if (stat.incomplete == 1) { vim_snprintf(t, SEARCH_STAT_BUF_LEN, "[?/??]"); } else if (stat.cnt > maxcount && stat.cur > maxcount) { vim_snprintf(t, SEARCH_STAT_BUF_LEN, "[>%d/>%d]", maxcount, maxcount); } else if (stat.cnt > maxcount) { vim_snprintf(t, SEARCH_STAT_BUF_LEN, "[>%d/%d]", maxcount, stat.cur); } else { vim_snprintf(t, SEARCH_STAT_BUF_LEN, "[%d/%d]", stat.cnt, stat.cur); } } else { if (stat.incomplete == 1) { vim_snprintf(t, SEARCH_STAT_BUF_LEN, "[?/??]"); } else if (stat.cnt > maxcount && stat.cur > maxcount) { vim_snprintf(t, SEARCH_STAT_BUF_LEN, "[>%d/>%d]", maxcount, maxcount); } else if (stat.cnt > maxcount) { vim_snprintf(t, SEARCH_STAT_BUF_LEN, "[%d/>%d]", stat.cur, maxcount); } else { vim_snprintf(t, SEARCH_STAT_BUF_LEN, "[%d/%d]", stat.cur, stat.cnt); } } size_t len = strlen(t); if (show_top_bot_msg && len + 2 < SEARCH_STAT_BUF_LEN) { memmove(t + 2, t, len); t[0] = 'W'; t[1] = ' '; len += 2; } memmove(msgbuf + STRLEN(msgbuf) - len, t, len); if (dirc == '?' && stat.cur == maxcount + 1) { stat.cur = -1; } // keep the message even after redraw, but don't put in history msg_hist_off = true; msg_ext_set_kind("search_count"); give_warning(msgbuf, false); msg_hist_off = false; } } // Add the search count information to "stat". // "stat" must not be NULL. // When "recompute" is true always recompute the numbers. // dirc == 0: don't find the next/previous match (only set the result to "stat") // dirc == '/': find the next match // dirc == '?': find the previous match static void update_search_stat(int dirc, pos_T *pos, pos_T *cursor_pos, searchstat_T *stat, bool recompute, int maxcount, long timeout) { int save_ws = p_ws; bool wraparound = false; pos_T p = (*pos); static pos_T lastpos = { 0, 0, 0 }; static int cur = 0; static int cnt = 0; static bool exact_match = false; static int incomplete = 0; static int last_maxcount = SEARCH_STAT_DEF_MAX_COUNT; static int chgtick = 0; static char_u *lastpat = NULL; static buf_T *lbuf = NULL; proftime_T start; memset(stat, 0, sizeof(searchstat_T)); if (dirc == 0 && !recompute && !EMPTY_POS(lastpos)) { stat->cur = cur; stat->cnt = cnt; stat->exact_match = exact_match; stat->incomplete = incomplete; stat->last_maxcount = last_maxcount; return; } last_maxcount = maxcount; wraparound = ((dirc == '?' && lt(lastpos, p)) || (dirc == '/' && lt(p, lastpos))); // If anything relevant changed the count has to be recomputed. // STRNICMP ignores case, but we should not ignore case. // Unfortunately, there is no STRNICMP function. // XXX: above comment should be "no MB_STRCMP function" ? if (!(chgtick == buf_get_changedtick(curbuf) && lastpat != NULL // supress clang/NULL passed as nonnull parameter && STRNICMP(lastpat, spats[last_idx].pat, STRLEN(lastpat)) == 0 && STRLEN(lastpat) == STRLEN(spats[last_idx].pat) && equalpos(lastpos, *cursor_pos) && lbuf == curbuf) || wraparound || cur < 0 || (maxcount > 0 && cur > maxcount) || recompute) { cur = 0; cnt = 0; exact_match = false; incomplete = 0; clearpos(&lastpos); lbuf = curbuf; } if (equalpos(lastpos, *cursor_pos) && !wraparound && (dirc == 0 || dirc == '/' ? cur < cnt : cur > 0)) { cur += dirc == 0 ? 0 : dirc == '/' ? 1 : -1; } else { bool done_search = false; pos_T endpos = { 0, 0, 0 }; p_ws = false; if (timeout > 0) { start = profile_setlimit(timeout); } while (!got_int && searchit(curwin, curbuf, &lastpos, &endpos, FORWARD, NULL, 1, SEARCH_KEEP, RE_LAST, NULL) != FAIL) { done_search = true; // Stop after passing the time limit. if (timeout > 0 && profile_passed_limit(start)) { incomplete = 1; break; } cnt++; if (ltoreq(lastpos, p)) { cur = cnt; if (lt(p, endpos)) { exact_match = true; } } fast_breakcheck(); if (maxcount > 0 && cnt > maxcount) { incomplete = 2; // max count exceeded break; } } if (got_int) { cur = -1; // abort } if (done_search) { xfree(lastpat); lastpat = vim_strsave(spats[last_idx].pat); chgtick = buf_get_changedtick(curbuf); lbuf = curbuf; lastpos = p; } } stat->cur = cur; stat->cnt = cnt; stat->exact_match = exact_match; stat->incomplete = incomplete; stat->last_maxcount = last_maxcount; p_ws = save_ws; } // "searchcount()" function void f_searchcount(typval_T *argvars, typval_T *rettv, FunPtr fptr) { pos_T pos = curwin->w_cursor; char_u *pattern = NULL; int maxcount = SEARCH_STAT_DEF_MAX_COUNT; long timeout = SEARCH_STAT_DEF_TIMEOUT; bool recompute = true; searchstat_T stat; tv_dict_alloc_ret(rettv); if (shortmess(SHM_SEARCHCOUNT)) { // 'shortmess' contains 'S' flag recompute = true; } if (argvars[0].v_type != VAR_UNKNOWN) { dict_T *dict; dictitem_T *di; listitem_T *li; bool error = false; if (argvars[0].v_type != VAR_DICT || argvars[0].vval.v_dict == NULL) { EMSG(_(e_dictreq)); return; } dict = argvars[0].vval.v_dict; di = tv_dict_find(dict, (const char *)"timeout", -1); if (di != NULL) { timeout = (long)tv_get_number_chk(&di->di_tv, &error); if (error) { return; } } di = tv_dict_find(dict, (const char *)"maxcount", -1); if (di != NULL) { maxcount = (int)tv_get_number_chk(&di->di_tv, &error); if (error) { return; } } di = tv_dict_find(dict, (const char *)"recompute", -1); if (di != NULL) { recompute = tv_get_number_chk(&di->di_tv, &error); if (error) { return; } } di = tv_dict_find(dict, (const char *)"pattern", -1); if (di != NULL) { pattern = (char_u *)tv_get_string_chk(&di->di_tv); if (pattern == NULL) { return; } } di = tv_dict_find(dict, (const char *)"pos", -1); if (di != NULL) { if (di->di_tv.v_type != VAR_LIST) { EMSG2(_(e_invarg2), "pos"); return; } if (tv_list_len(di->di_tv.vval.v_list) != 3) { EMSG2(_(e_invarg2), "List format should be [lnum, col, off]"); return; } li = tv_list_find(di->di_tv.vval.v_list, 0L); if (li != NULL) { pos.lnum = tv_get_number_chk(TV_LIST_ITEM_TV(li), &error); if (error) { return; } } li = tv_list_find(di->di_tv.vval.v_list, 1L); if (li != NULL) { pos.col = tv_get_number_chk(TV_LIST_ITEM_TV(li), &error) - 1; if (error) { return; } } li = tv_list_find(di->di_tv.vval.v_list, 2L); if (li != NULL) { pos.coladd = tv_get_number_chk(TV_LIST_ITEM_TV(li), &error); if (error) { return; } } } } save_last_search_pattern(); if (pattern != NULL) { if (*pattern == NUL) { goto the_end; } xfree(spats[last_idx].pat); spats[last_idx].pat = vim_strsave(pattern); } if (spats[last_idx].pat == NULL || *spats[last_idx].pat == NUL) { goto the_end; // the previous pattern was never defined } update_search_stat(0, &pos, &pos, &stat, recompute, maxcount, timeout); tv_dict_add_nr(rettv->vval.v_dict, S_LEN("current"), stat.cur); tv_dict_add_nr(rettv->vval.v_dict, S_LEN("total"), stat.cnt); tv_dict_add_nr(rettv->vval.v_dict, S_LEN("exact_match"), stat.exact_match); tv_dict_add_nr(rettv->vval.v_dict, S_LEN("incomplete"), stat.incomplete); tv_dict_add_nr(rettv->vval.v_dict, S_LEN("maxcount"), stat.last_maxcount); the_end: restore_last_search_pattern(); } /* * Find identifiers or defines in included files. * If p_ic && (compl_cont_status & CONT_SOL) then ptr must be in lowercase. */ void find_pattern_in_path( char_u *ptr, // pointer to search pattern Direction dir, // direction of expansion size_t len, // length of search pattern bool whole, // match whole words only bool skip_comments, // don't match inside comments int type, // Type of search; are we looking for a type? // a macro? long count, int action, // What to do when we find it linenr_T start_lnum, // first line to start searching linenr_T end_lnum // last line for searching ) { SearchedFile *files; /* Stack of included files */ SearchedFile *bigger; /* When we need more space */ int max_path_depth = 50; long match_count = 1; char_u *pat; char_u *new_fname; char_u *curr_fname = curbuf->b_fname; char_u *prev_fname = NULL; linenr_T lnum; int depth; int depth_displayed; /* For type==CHECK_PATH */ int old_files; int already_searched; char_u *file_line; char_u *line; char_u *p; char_u save_char; int define_matched; regmatch_T regmatch; regmatch_T incl_regmatch; regmatch_T def_regmatch; bool matched = false; bool did_show = false; bool found = false; int i; char_u *already = NULL; char_u *startp = NULL; char_u *inc_opt = NULL; win_T *curwin_save = NULL; const int l_g_do_tagpreview = g_do_tagpreview; regmatch.regprog = NULL; incl_regmatch.regprog = NULL; def_regmatch.regprog = NULL; file_line = xmalloc(LSIZE); if (type != CHECK_PATH && type != FIND_DEFINE /* when CONT_SOL is set compare "ptr" with the beginning of the line * is faster than quote_meta/regcomp/regexec "ptr" -- Acevedo */ && !(compl_cont_status & CONT_SOL) ) { pat = xmalloc(len + 5); assert(len <= INT_MAX); sprintf((char *)pat, whole ? "\\<%.*s\\>" : "%.*s", (int)len, ptr); /* ignore case according to p_ic, p_scs and pat */ regmatch.rm_ic = ignorecase(pat); regmatch.regprog = vim_regcomp(pat, p_magic ? RE_MAGIC : 0); xfree(pat); if (regmatch.regprog == NULL) goto fpip_end; } inc_opt = (*curbuf->b_p_inc == NUL) ? p_inc : curbuf->b_p_inc; if (*inc_opt != NUL) { incl_regmatch.regprog = vim_regcomp(inc_opt, p_magic ? RE_MAGIC : 0); if (incl_regmatch.regprog == NULL) goto fpip_end; incl_regmatch.rm_ic = FALSE; /* don't ignore case in incl. pat. */ } if (type == FIND_DEFINE && (*curbuf->b_p_def != NUL || *p_def != NUL)) { def_regmatch.regprog = vim_regcomp(*curbuf->b_p_def == NUL ? p_def : curbuf->b_p_def, p_magic ? RE_MAGIC : 0); if (def_regmatch.regprog == NULL) goto fpip_end; def_regmatch.rm_ic = FALSE; /* don't ignore case in define pat. */ } files = xcalloc(max_path_depth, sizeof(SearchedFile)); old_files = max_path_depth; depth = depth_displayed = -1; lnum = start_lnum; if (end_lnum > curbuf->b_ml.ml_line_count) end_lnum = curbuf->b_ml.ml_line_count; if (lnum > end_lnum) /* do at least one line */ lnum = end_lnum; line = ml_get(lnum); for (;; ) { if (incl_regmatch.regprog != NULL && vim_regexec(&incl_regmatch, line, (colnr_T)0)) { char_u *p_fname = (curr_fname == curbuf->b_fname) ? curbuf->b_ffname : curr_fname; if (inc_opt != NULL && strstr((char *)inc_opt, "\\zs") != NULL) /* Use text from '\zs' to '\ze' (or end) of 'include'. */ new_fname = find_file_name_in_path(incl_regmatch.startp[0], (size_t)(incl_regmatch.endp[0] - incl_regmatch.startp[0]), FNAME_EXP|FNAME_INCL|FNAME_REL, 1L, p_fname); else /* Use text after match with 'include'. */ new_fname = file_name_in_line(incl_regmatch.endp[0], 0, FNAME_EXP|FNAME_INCL|FNAME_REL, 1L, p_fname, NULL); already_searched = FALSE; if (new_fname != NULL) { // Check whether we have already searched in this file for (i = 0;; i++) { if (i == depth + 1) { i = old_files; } if (i == max_path_depth) { break; } if (path_full_compare(new_fname, files[i].name, true, true) & kEqualFiles) { if (type != CHECK_PATH && action == ACTION_SHOW_ALL && files[i].matched) { msg_putchar('\n'); // cursor below last one */ if (!got_int) { // don't display if 'q' typed at "--more--" // message msg_home_replace_hl(new_fname); MSG_PUTS(_(" (includes previously listed match)")); prev_fname = NULL; } } XFREE_CLEAR(new_fname); already_searched = true; break; } } } if (type == CHECK_PATH && (action == ACTION_SHOW_ALL || (new_fname == NULL && !already_searched))) { if (did_show) { msg_putchar('\n'); // cursor below last one } else { gotocmdline(true); // cursor at status line MSG_PUTS_TITLE(_("--- Included files ")); if (action != ACTION_SHOW_ALL) { MSG_PUTS_TITLE(_("not found ")); } MSG_PUTS_TITLE(_("in path ---\n")); } did_show = true; while (depth_displayed < depth && !got_int) { ++depth_displayed; for (i = 0; i < depth_displayed; i++) MSG_PUTS(" "); msg_home_replace(files[depth_displayed].name); MSG_PUTS(" -->\n"); } if (!got_int) { /* don't display if 'q' typed for "--more--" message */ for (i = 0; i <= depth_displayed; i++) MSG_PUTS(" "); if (new_fname != NULL) { /* using "new_fname" is more reliable, e.g., when * 'includeexpr' is set. */ msg_outtrans_attr(new_fname, HL_ATTR(HLF_D)); } else { /* * Isolate the file name. * Include the surrounding "" or <> if present. */ if (inc_opt != NULL && strstr((char *)inc_opt, "\\zs") != NULL) { /* pattern contains \zs, use the match */ p = incl_regmatch.startp[0]; i = (int)(incl_regmatch.endp[0] - incl_regmatch.startp[0]); } else { /* find the file name after the end of the match */ for (p = incl_regmatch.endp[0]; *p && !vim_isfilec(*p); p++) ; for (i = 0; vim_isfilec(p[i]); i++) ; } if (i == 0) { /* Nothing found, use the rest of the line. */ p = incl_regmatch.endp[0]; i = (int)STRLEN(p); } /* Avoid checking before the start of the line, can * happen if \zs appears in the regexp. */ else if (p > line) { if (p[-1] == '"' || p[-1] == '<') { --p; ++i; } if (p[i] == '"' || p[i] == '>') ++i; } save_char = p[i]; p[i] = NUL; msg_outtrans_attr(p, HL_ATTR(HLF_D)); p[i] = save_char; } if (new_fname == NULL && action == ACTION_SHOW_ALL) { if (already_searched) MSG_PUTS(_(" (Already listed)")); else MSG_PUTS(_(" NOT FOUND")); } } ui_flush(); /* output each line directly */ } if (new_fname != NULL) { /* Push the new file onto the file stack */ if (depth + 1 == old_files) { bigger = xmalloc(max_path_depth * 2 * sizeof(SearchedFile)); for (i = 0; i <= depth; i++) bigger[i] = files[i]; for (i = depth + 1; i < old_files + max_path_depth; i++) { bigger[i].fp = NULL; bigger[i].name = NULL; bigger[i].lnum = 0; bigger[i].matched = FALSE; } for (i = old_files; i < max_path_depth; i++) bigger[i + max_path_depth] = files[i]; old_files += max_path_depth; max_path_depth *= 2; xfree(files); files = bigger; } if ((files[depth + 1].fp = os_fopen((char *)new_fname, "r")) == NULL) { xfree(new_fname); } else { if (++depth == old_files) { // Something wrong. We will forget one of our already visited files // now. xfree(files[old_files].name); ++old_files; } files[depth].name = curr_fname = new_fname; files[depth].lnum = 0; files[depth].matched = FALSE; if (action == ACTION_EXPAND) { msg_hist_off = true; // reset in msg_trunc_attr() vim_snprintf((char *)IObuff, IOSIZE, _("Scanning included file: %s"), (char *)new_fname); msg_trunc_attr(IObuff, true, HL_ATTR(HLF_R)); } else if (p_verbose >= 5) { verbose_enter(); smsg(_("Searching included file %s"), (char *)new_fname); verbose_leave(); } } } } else { /* * Check if the line is a define (type == FIND_DEFINE) */ p = line; search_line: define_matched = FALSE; if (def_regmatch.regprog != NULL && vim_regexec(&def_regmatch, line, (colnr_T)0)) { /* * Pattern must be first identifier after 'define', so skip * to that position before checking for match of pattern. Also * don't let it match beyond the end of this identifier. */ p = def_regmatch.endp[0]; while (*p && !vim_iswordc(*p)) p++; define_matched = TRUE; } /* * Look for a match. Don't do this if we are looking for a * define and this line didn't match define_prog above. */ if (def_regmatch.regprog == NULL || define_matched) { if (define_matched || (compl_cont_status & CONT_SOL) ) { /* compare the first "len" chars from "ptr" */ startp = skipwhite(p); if (p_ic) { matched = !mb_strnicmp(startp, ptr, len); } else matched = !STRNCMP(startp, ptr, len); if (matched && define_matched && whole && vim_iswordc(startp[len])) matched = false; } else if (regmatch.regprog != NULL && vim_regexec(®match, line, (colnr_T)(p - line))) { matched = true; startp = regmatch.startp[0]; // Check if the line is not a comment line (unless we are // looking for a define). A line starting with "# define" // is not considered to be a comment line. if (skip_comments) { if ((*line != '#' || STRNCMP(skipwhite(line + 1), "define", 6) != 0) && get_leader_len(line, NULL, false, true)) { matched = false; } /* * Also check for a "/ *" or "/ /" before the match. * Skips lines like "int backwards; / * normal index * * /" when looking for "normal". * Note: Doesn't skip "/ *" in comments. */ p = skipwhite(line); if (matched || (p[0] == '/' && p[1] == '*') || p[0] == '*') for (p = line; *p && p < startp; ++p) { if (matched && p[0] == '/' && (p[1] == '*' || p[1] == '/')) { matched = false; // After "//" all text is comment if (p[1] == '/') { break; } p++; } else if (!matched && p[0] == '*' && p[1] == '/') { // Can find match after "* /". matched = true; p++; } } } } } } if (matched) { if (action == ACTION_EXPAND) { bool cont_s_ipos = false; char_u *aux; if (depth == -1 && lnum == curwin->w_cursor.lnum) break; found = true; aux = p = startp; if (compl_cont_status & CONT_ADDING) { p += compl_length; if (vim_iswordp(p)) goto exit_matched; p = find_word_start(p); } p = find_word_end(p); i = (int)(p - aux); if ((compl_cont_status & CONT_ADDING) && i == compl_length) { /* IOSIZE > compl_length, so the STRNCPY works */ STRNCPY(IObuff, aux, i); /* Get the next line: when "depth" < 0 from the current * buffer, otherwise from the included file. Jump to * exit_matched when past the last line. */ if (depth < 0) { if (lnum >= end_lnum) goto exit_matched; line = ml_get(++lnum); } else if (vim_fgets(line = file_line, LSIZE, files[depth].fp)) goto exit_matched; /* we read a line, set "already" to check this "line" later * if depth >= 0 we'll increase files[depth].lnum far * bellow -- Acevedo */ already = aux = p = skipwhite(line); p = find_word_start(p); p = find_word_end(p); if (p > aux) { if (*aux != ')' && IObuff[i-1] != TAB) { if (IObuff[i-1] != ' ') IObuff[i++] = ' '; /* IObuf =~ "\(\k\|\i\).* ", thus i >= 2*/ if (p_js && (IObuff[i-2] == '.' || IObuff[i-2] == '?' || IObuff[i-2] == '!')) { IObuff[i++] = ' '; } } /* copy as much as possible of the new word */ if (p - aux >= IOSIZE - i) p = aux + IOSIZE - i - 1; STRNCPY(IObuff + i, aux, p - aux); i += (int)(p - aux); cont_s_ipos = true; } IObuff[i] = NUL; aux = IObuff; if (i == compl_length) goto exit_matched; } const int add_r = ins_compl_add_infercase( aux, i, p_ic, curr_fname == curbuf->b_fname ? NULL : curr_fname, dir, cont_s_ipos); if (add_r == OK) { // if dir was BACKWARD then honor it just once dir = FORWARD; } else if (add_r == FAIL) { break; } } else if (action == ACTION_SHOW_ALL) { found = true; if (!did_show) { gotocmdline(true); // cursor at status line } if (curr_fname != prev_fname) { if (did_show) msg_putchar('\n'); /* cursor below last one */ if (!got_int) /* don't display if 'q' typed at "--more--" message */ msg_home_replace_hl(curr_fname); prev_fname = curr_fname; } did_show = true; if (!got_int) { show_pat_in_path(line, type, true, action, (depth == -1) ? NULL : files[depth].fp, (depth == -1) ? &lnum : &files[depth].lnum, match_count++); } /* Set matched flag for this file and all the ones that * include it */ for (i = 0; i <= depth; ++i) files[i].matched = TRUE; } else if (--count <= 0) { found = true; if (depth == -1 && lnum == curwin->w_cursor.lnum && l_g_do_tagpreview == 0) { EMSG(_("E387: Match is on current line")); } else if (action == ACTION_SHOW) { show_pat_in_path(line, type, did_show, action, (depth == -1) ? NULL : files[depth].fp, (depth == -1) ? &lnum : &files[depth].lnum, 1L); did_show = true; } else { /* ":psearch" uses the preview window */ if (l_g_do_tagpreview != 0) { curwin_save = curwin; prepare_tagpreview(true); } if (action == ACTION_SPLIT) { if (win_split(0, 0) == FAIL) break; RESET_BINDING(curwin); } if (depth == -1) { // match in current file if (l_g_do_tagpreview != 0) { if (!GETFILE_SUCCESS(getfile(curwin_save->w_buffer->b_fnum, NULL, NULL, true, lnum, false))) { break; // failed to jump to file } } else { setpcmark(); } curwin->w_cursor.lnum = lnum; check_cursor(); } else { if (!GETFILE_SUCCESS(getfile(0, files[depth].name, NULL, true, files[depth].lnum, false))) { break; // failed to jump to file } // autocommands may have changed the lnum, we don't // want that here curwin->w_cursor.lnum = files[depth].lnum; } } if (action != ACTION_SHOW) { curwin->w_cursor.col = (colnr_T)(startp - line); curwin->w_set_curswant = TRUE; } if (l_g_do_tagpreview != 0 && curwin != curwin_save && win_valid(curwin_save)) { /* Return cursor to where we were */ validate_cursor(); redraw_later(curwin, VALID); win_enter(curwin_save, true); } break; } exit_matched: matched = false; // look for other matches in the rest of the line if we // are not at the end of it already if (def_regmatch.regprog == NULL && action == ACTION_EXPAND && !(compl_cont_status & CONT_SOL) && *startp != NUL && *(p = startp + utfc_ptr2len(startp)) != NUL) { goto search_line; } } line_breakcheck(); if (action == ACTION_EXPAND) ins_compl_check_keys(30, false); if (got_int || compl_interrupted) break; /* * Read the next line. When reading an included file and encountering * end-of-file, close the file and continue in the file that included * it. */ while (depth >= 0 && !already && vim_fgets(line = file_line, LSIZE, files[depth].fp)) { fclose(files[depth].fp); --old_files; files[old_files].name = files[depth].name; files[old_files].matched = files[depth].matched; --depth; curr_fname = (depth == -1) ? curbuf->b_fname : files[depth].name; if (depth < depth_displayed) depth_displayed = depth; } if (depth >= 0) { /* we could read the line */ files[depth].lnum++; /* Remove any CR and LF from the line. */ i = (int)STRLEN(line); if (i > 0 && line[i - 1] == '\n') line[--i] = NUL; if (i > 0 && line[i - 1] == '\r') line[--i] = NUL; } else if (!already) { if (++lnum > end_lnum) break; line = ml_get(lnum); } already = NULL; } /* End of big for (;;) loop. */ /* Close any files that are still open. */ for (i = 0; i <= depth; i++) { fclose(files[i].fp); xfree(files[i].name); } for (i = old_files; i < max_path_depth; i++) xfree(files[i].name); xfree(files); if (type == CHECK_PATH) { if (!did_show) { if (action != ACTION_SHOW_ALL) MSG(_("All included files were found")); else MSG(_("No included files")); } } else if (!found && action != ACTION_EXPAND ) { if (got_int || compl_interrupted) EMSG(_(e_interr)); else if (type == FIND_DEFINE) EMSG(_("E388: Couldn't find definition")); else EMSG(_("E389: Couldn't find pattern")); } if (action == ACTION_SHOW || action == ACTION_SHOW_ALL) msg_end(); fpip_end: xfree(file_line); vim_regfree(regmatch.regprog); vim_regfree(incl_regmatch.regprog); vim_regfree(def_regmatch.regprog); } static void show_pat_in_path(char_u *line, int type, bool did_show, int action, FILE *fp, linenr_T *lnum, long count) FUNC_ATTR_NONNULL_ARG(1, 6) { char_u *p; if (did_show) { msg_putchar('\n'); // cursor below last one } else if (!msg_silent) { gotocmdline(true); // cursor at status line } if (got_int) { // 'q' typed at "--more--" message return; } for (;; ) { p = line + STRLEN(line) - 1; if (fp != NULL) { /* We used fgets(), so get rid of newline at end */ if (p >= line && *p == '\n') --p; if (p >= line && *p == '\r') --p; *(p + 1) = NUL; } if (action == ACTION_SHOW_ALL) { snprintf((char *)IObuff, IOSIZE, "%3ld: ", count); // Show match nr. msg_puts((const char *)IObuff); snprintf((char *)IObuff, IOSIZE, "%4ld", *lnum); // Show line nr. // Highlight line numbers. msg_puts_attr((const char *)IObuff, HL_ATTR(HLF_N)); msg_puts(" "); } msg_prt_line(line, FALSE); ui_flush(); /* show one line at a time */ /* Definition continues until line that doesn't end with '\' */ if (got_int || type != FIND_DEFINE || p < line || *p != '\\') break; if (fp != NULL) { if (vim_fgets(line, LSIZE, fp)) /* end of file */ break; ++*lnum; } else { if (++*lnum > curbuf->b_ml.ml_line_count) break; line = ml_get(*lnum); } msg_putchar('\n'); } } /// Get last search pattern void get_search_pattern(SearchPattern *const pat) { memcpy(pat, &(spats[0]), sizeof(spats[0])); } /// Get last substitute pattern void get_substitute_pattern(SearchPattern *const pat) { memcpy(pat, &(spats[1]), sizeof(spats[1])); memset(&(pat->off), 0, sizeof(pat->off)); } /// Set last search pattern void set_search_pattern(const SearchPattern pat) { free_spat(&spats[0]); memcpy(&(spats[0]), &pat, sizeof(spats[0])); set_vv_searchforward(); } /// Set last substitute pattern void set_substitute_pattern(const SearchPattern pat) { free_spat(&spats[1]); memcpy(&(spats[1]), &pat, sizeof(spats[1])); memset(&(spats[1].off), 0, sizeof(spats[1].off)); } /// Set last used search pattern /// /// @param[in] is_substitute_pattern If true set substitute pattern as last /// used. Otherwise sets search pattern. void set_last_used_pattern(const bool is_substitute_pattern) { last_idx = (is_substitute_pattern ? 1 : 0); } /// Returns true if search pattern was the last used one bool search_was_last_used(void) { return last_idx == 0; }