// Code to handle tags and the tag stack #include #include #include #include #include #include #include #include "nvim/ascii_defs.h" #include "nvim/autocmd.h" #include "nvim/buffer.h" #include "nvim/charset.h" #include "nvim/cmdexpand.h" #include "nvim/cursor.h" #include "nvim/drawscreen.h" #include "nvim/eval.h" #include "nvim/eval/typval.h" #include "nvim/ex_cmds.h" #include "nvim/ex_cmds_defs.h" #include "nvim/ex_docmd.h" #include "nvim/file_search.h" #include "nvim/fileio.h" #include "nvim/fold.h" #include "nvim/func_attr.h" #include "nvim/garray.h" #include "nvim/gettext.h" #include "nvim/globals.h" #include "nvim/hashtab.h" #include "nvim/help.h" #include "nvim/highlight.h" #include "nvim/input.h" #include "nvim/insexpand.h" #include "nvim/macros_defs.h" #include "nvim/mark.h" #include "nvim/mbyte.h" #include "nvim/memory.h" #include "nvim/message.h" #include "nvim/move.h" #include "nvim/option.h" #include "nvim/option_defs.h" #include "nvim/option_vars.h" #include "nvim/optionstr.h" #include "nvim/os/fs.h" #include "nvim/os/input.h" #include "nvim/os/time.h" #include "nvim/path.h" #include "nvim/pos_defs.h" #include "nvim/quickfix.h" #include "nvim/regexp.h" #include "nvim/runtime.h" #include "nvim/search.h" #include "nvim/state_defs.h" #include "nvim/strings.h" #include "nvim/tag.h" #include "nvim/ui.h" #include "nvim/vim_defs.h" #include "nvim/window.h" // Structure to hold pointers to various items in a tag line. typedef struct tag_pointers { // filled in by parse_tag_line(): char *tagname; // start of tag name (skip "file:") char *tagname_end; // char after tag name char *fname; // first char of file name char *fname_end; // char after file name char *command; // first char of command // filled in by parse_match(): char *command_end; // first char after command char *tag_fname; // file name of the tags file. This is used // when 'tr' is set. char *tagkind; // "kind:" value char *tagkind_end; // end of tagkind char *user_data; // user_data string char *user_data_end; // end of user_data linenr_T tagline; // "line:" value } tagptrs_T; // Structure to hold info about the tag pattern being used. typedef struct { char *pat; // the pattern int len; // length of pat[] char *head; // start of pattern head int headlen; // length of head[] regmatch_T regmatch; // regexp program, may be NULL } pat_T; // The matching tags are first stored in one of the hash tables. In // which one depends on the priority of the match. // ht_match[] is used to find duplicates, ga_match[] to keep them in sequence. // At the end, the matches from ga_match[] are concatenated, to make a list // sorted on priority. enum { MT_ST_CUR = 0, // static match in current file MT_GL_CUR = 1, // global match in current file MT_GL_OTH = 2, // global match in other file MT_ST_OTH = 3, // static match in other file MT_IC_OFF = 4, // add for icase match MT_RE_OFF = 8, // add for regexp match MT_MASK = 7, // mask for printing priority MT_COUNT = 16, }; static char *mt_names[MT_COUNT/2] = { "FSC", "F C", "F ", "FS ", " SC", " C", " ", " S " }; #define NOTAGFILE 99 // return value for jumpto_tag static char *nofile_fname = NULL; // fname for NOTAGFILE error /// Return values used when reading lines from a tags file. typedef enum { TAGS_READ_SUCCESS = 1, TAGS_READ_EOF, TAGS_READ_IGNORE, } tags_read_status_T; /// States used during a tags search typedef enum { TS_START, ///< at start of file TS_LINEAR, ///< linear searching forward, till EOF TS_BINARY, ///< binary searching TS_SKIP_BACK, ///< skipping backwards TS_STEP_FORWARD, ///< stepping forwards } tagsearch_state_T; /// Binary search file offsets in a tags file typedef struct { off_T low_offset; ///< offset for first char of first line that ///< could match off_T high_offset; ///< offset of char after last line that could ///< match off_T curr_offset; ///< Current file offset in search range off_T curr_offset_used; ///< curr_offset used when skipping back off_T match_offset; ///< Where the binary search found a tag int low_char; ///< first char at low_offset int high_char; ///< first char at high_offset } tagsearch_info_T; /// Return values used when matching tags against a pattern. typedef enum { TAG_MATCH_SUCCESS = 1, TAG_MATCH_FAIL, TAG_MATCH_STOP, TAG_MATCH_NEXT, } tagmatch_status_T; /// Arguments used for matching tags read from a tags file against a pattern. typedef struct { int matchoff; ///< tag match offset bool match_re; ///< true if the tag matches a regexp bool match_no_ic; ///< true if the tag matches with case bool has_re; ///< regular expression used bool sortic; ///< tags file sorted ignoring case (foldcase) bool sort_error; ///< tags file not sorted } findtags_match_args_T; /// State information used during a tag search typedef struct { tagsearch_state_T state; ///< tag search state bool stop_searching; ///< stop when match found or error pat_T *orgpat; ///< holds unconverted pattern info char *lbuf; ///< line buffer int lbuf_size; ///< length of lbuf char *tag_fname; ///< name of the tag file FILE *fp; ///< current tags file pointer int flags; ///< flags used for tag search int tag_file_sorted; ///< !_TAG_FILE_SORTED value bool get_searchpat; ///< used for 'showfulltag' bool help_only; ///< only search for help tags bool did_open; ///< did open a tag file int mincount; ///< MAXCOL: find all matches ///< other: minimal number of matches bool linear; ///< do a linear search vimconv_T vimconv; char help_lang[3]; ///< lang of current tags file int help_pri; ///< help language priority char *help_lang_find; ///< lang to be found bool is_txt; ///< flag of file extension int match_count; ///< number of matches found garray_T ga_match[MT_COUNT]; ///< stores matches in sequence hashtab_T ht_match[MT_COUNT]; ///< stores matches by key } findtags_state_T; #ifdef INCLUDE_GENERATED_DECLARATIONS # include "tag.c.generated.h" #endif static const char e_tag_stack_empty[] = N_("E73: Tag stack empty"); static const char e_tag_not_found_str[] = N_("E426: Tag not found: %s"); static const char e_at_bottom_of_tag_stack[] = N_("E555: At bottom of tag stack"); static const char e_at_top_of_tag_stack[] = N_("E556: At top of tag stack"); static const char e_cannot_modify_tag_stack_within_tagfunc[] = N_("E986: Cannot modify the tag stack within tagfunc"); static const char e_invalid_return_value_from_tagfunc[] = N_("E987: Invalid return value from tagfunc"); static const char e_window_unexpectedly_close_while_searching_for_tags[] = N_("E1299: Window unexpectedly closed while searching for tags"); static char *tagmatchname = NULL; // name of last used tag // Tag for preview window is remembered separately, to avoid messing up the // normal tagstack. static taggy_T ptag_entry = { NULL, INIT_FMARK, 0, 0, NULL }; static int tfu_in_use = false; // disallow recursive call of tagfunc static Callback tfu_cb; // 'tagfunc' callback function // Used instead of NUL to separate tag fields in the growarrays. #define TAG_SEP 0x02 /// Reads the 'tagfunc' option value and convert that to a callback value. /// Invoked when the 'tagfunc' option is set. The option value can be a name of /// a function (string), or function() or funcref() or a lambda. const char *did_set_tagfunc(optset_T *args) { buf_T *buf = (buf_T *)args->os_buf; callback_free(&tfu_cb); callback_free(&buf->b_tfu_cb); if (*buf->b_p_tfu == NUL) { return NULL; } if (option_set_callback_func(buf->b_p_tfu, &tfu_cb) == FAIL) { return e_invarg; } callback_copy(&buf->b_tfu_cb, &tfu_cb); return NULL; } #if defined(EXITFREE) void free_tagfunc_option(void) { callback_free(&tfu_cb); } #endif /// Mark the global 'tagfunc' callback with "copyID" so that it is not garbage /// collected. bool set_ref_in_tagfunc(int copyID) { return set_ref_in_callback(&tfu_cb, copyID, NULL, NULL); } /// Copy the global 'tagfunc' callback function to the buffer-local 'tagfunc' /// callback for 'buf'. void set_buflocal_tfu_callback(buf_T *buf) { callback_free(&buf->b_tfu_cb); if (tfu_cb.type != kCallbackNone) { callback_copy(&buf->b_tfu_cb, &tfu_cb); } } /// Jump to tag; handling of tag commands and tag stack /// /// *tag != NUL: ":tag {tag}", jump to new tag, add to tag stack /// /// type == DT_TAG: ":tag [tag]", jump to newer position or same tag again /// type == DT_HELP: like DT_TAG, but don't use regexp. /// type == DT_POP: ":pop" or CTRL-T, jump to old position /// type == DT_NEXT: jump to next match of same tag /// type == DT_PREV: jump to previous match of same tag /// type == DT_FIRST: jump to first match of same tag /// type == DT_LAST: jump to last match of same tag /// type == DT_SELECT: ":tselect [tag]", select tag from a list of all matches /// type == DT_JUMP: ":tjump [tag]", jump to tag or select tag from a list /// type == DT_LTAG: use location list for displaying tag matches /// type == DT_FREE: free cached matches /// /// @param tag tag (pattern) to jump to /// @param forceit :ta with ! /// @param verbose print "tag not found" message void do_tag(char *tag, int type, int count, int forceit, int verbose) { taggy_T *tagstack = curwin->w_tagstack; int tagstackidx = curwin->w_tagstackidx; int tagstacklen = curwin->w_tagstacklen; int cur_match = 0; int cur_fnum = curbuf->b_fnum; int oldtagstackidx = tagstackidx; int prevtagstackidx = tagstackidx; int new_tag = false; int no_regexp = false; int error_cur_match = 0; int save_pos = false; fmark_T saved_fmark; int new_num_matches; char **new_matches; int use_tagstack; int skip_msg = false; char *buf_ffname = curbuf->b_ffname; // name for priority computation int use_tfu = 1; char *tofree = NULL; // remember the matches for the last used tag static int num_matches = 0; static int max_num_matches = 0; // limit used for match search static char **matches = NULL; static int flags; if (tfu_in_use) { emsg(_(e_cannot_modify_tag_stack_within_tagfunc)); return; } #ifdef EXITFREE if (type == DT_FREE) { // remove the list of matches FreeWild(num_matches, matches); num_matches = 0; return; } #endif if (type == DT_HELP) { type = DT_TAG; no_regexp = true; use_tfu = 0; } int prev_num_matches = num_matches; free_string_option(nofile_fname); nofile_fname = NULL; clearpos(&saved_fmark.mark); // shutup gcc 4.0 saved_fmark.fnum = 0; // Don't add a tag to the tagstack if 'tagstack' has been reset. assert(tag != NULL); if (!p_tgst && *tag != NUL) { use_tagstack = false; new_tag = true; if (g_do_tagpreview != 0) { tagstack_clear_entry(&ptag_entry); ptag_entry.tagname = xstrdup(tag); } } else { if (g_do_tagpreview != 0) { use_tagstack = false; } else { use_tagstack = true; } // new pattern, add to the tag stack if (*tag != NUL && (type == DT_TAG || type == DT_SELECT || type == DT_JUMP || type == DT_LTAG)) { if (g_do_tagpreview != 0) { if (ptag_entry.tagname != NULL && strcmp(ptag_entry.tagname, tag) == 0) { // Jumping to same tag: keep the current match, so that // the CursorHold autocommand example works. cur_match = ptag_entry.cur_match; cur_fnum = ptag_entry.cur_fnum; } else { tagstack_clear_entry(&ptag_entry); ptag_entry.tagname = xstrdup(tag); } } else { // If the last used entry is not at the top, delete all tag // stack entries above it. while (tagstackidx < tagstacklen) { tagstack_clear_entry(&tagstack[--tagstacklen]); } // if the tagstack is full: remove oldest entry if (++tagstacklen > TAGSTACKSIZE) { tagstacklen = TAGSTACKSIZE; tagstack_clear_entry(&tagstack[0]); for (int i = 1; i < tagstacklen; i++) { tagstack[i - 1] = tagstack[i]; } tagstackidx--; } // put the tag name in the tag stack tagstack[tagstackidx].tagname = xstrdup(tag); curwin->w_tagstacklen = tagstacklen; save_pos = true; // save the cursor position below } new_tag = true; } else { if (g_do_tagpreview != 0 ? ptag_entry.tagname == NULL : tagstacklen == 0) { // empty stack emsg(_(e_tag_stack_empty)); goto end_do_tag; } if (type == DT_POP) { // go to older position const bool old_KeyTyped = KeyTyped; if ((tagstackidx -= count) < 0) { emsg(_(e_at_bottom_of_tag_stack)); if (tagstackidx + count == 0) { // We did [num]^T from the bottom of the stack tagstackidx = 0; goto end_do_tag; } // We weren't at the bottom of the stack, so jump all the // way to the bottom now. tagstackidx = 0; } else if (tagstackidx >= tagstacklen) { // count == 0? emsg(_(e_at_top_of_tag_stack)); goto end_do_tag; } // Make a copy of the fmark, autocommands may invalidate the // tagstack before it's used. saved_fmark = tagstack[tagstackidx].fmark; if (saved_fmark.fnum != curbuf->b_fnum) { // Jump to other file. If this fails (e.g. because the // file was changed) keep original position in tag stack. if (buflist_getfile(saved_fmark.fnum, saved_fmark.mark.lnum, GETF_SETMARK, forceit) == FAIL) { tagstackidx = oldtagstackidx; // back to old posn goto end_do_tag; } // A BufReadPost autocommand may jump to the '" mark, but // we don't what that here. curwin->w_cursor.lnum = saved_fmark.mark.lnum; } else { setpcmark(); curwin->w_cursor.lnum = saved_fmark.mark.lnum; } curwin->w_cursor.col = saved_fmark.mark.col; curwin->w_set_curswant = true; check_cursor(); if ((fdo_flags & FDO_TAG) && old_KeyTyped) { foldOpenCursor(); } // remove the old list of matches FreeWild(num_matches, matches); num_matches = 0; tag_freematch(); goto end_do_tag; } if (type == DT_TAG || type == DT_LTAG) { if (g_do_tagpreview != 0) { cur_match = ptag_entry.cur_match; cur_fnum = ptag_entry.cur_fnum; } else { // ":tag" (no argument): go to newer pattern save_pos = true; // save the cursor position below if ((tagstackidx += count - 1) >= tagstacklen) { // Beyond the last one, just give an error message and // go to the last one. Don't store the cursor // position. tagstackidx = tagstacklen - 1; emsg(_(e_at_top_of_tag_stack)); save_pos = false; } else if (tagstackidx < 0) { // must have been count == 0 emsg(_(e_at_bottom_of_tag_stack)); tagstackidx = 0; goto end_do_tag; } cur_match = tagstack[tagstackidx].cur_match; cur_fnum = tagstack[tagstackidx].cur_fnum; } new_tag = true; } else { // go to other matching tag // Save index for when selection is cancelled. prevtagstackidx = tagstackidx; if (g_do_tagpreview != 0) { cur_match = ptag_entry.cur_match; cur_fnum = ptag_entry.cur_fnum; } else { if (--tagstackidx < 0) { tagstackidx = 0; } cur_match = tagstack[tagstackidx].cur_match; cur_fnum = tagstack[tagstackidx].cur_fnum; } switch (type) { case DT_FIRST: cur_match = count - 1; break; case DT_SELECT: case DT_JUMP: case DT_LAST: cur_match = MAXCOL - 1; break; case DT_NEXT: cur_match += count; break; case DT_PREV: cur_match -= count; break; } if (cur_match >= MAXCOL) { cur_match = MAXCOL - 1; } else if (cur_match < 0) { emsg(_("E425: Cannot go before first matching tag")); skip_msg = true; cur_match = 0; cur_fnum = curbuf->b_fnum; } } } if (g_do_tagpreview != 0) { if (type != DT_SELECT && type != DT_JUMP) { ptag_entry.cur_match = cur_match; ptag_entry.cur_fnum = cur_fnum; } } else { // For ":tag [arg]" or ":tselect" remember position before the jump. saved_fmark = tagstack[tagstackidx].fmark; if (save_pos) { tagstack[tagstackidx].fmark.mark = curwin->w_cursor; tagstack[tagstackidx].fmark.fnum = curbuf->b_fnum; } // Curwin will change in the call to jumpto_tag() if ":stag" was // used or an autocommand jumps to another window; store value of // tagstackidx now. curwin->w_tagstackidx = tagstackidx; if (type != DT_SELECT && type != DT_JUMP) { curwin->w_tagstack[tagstackidx].cur_match = cur_match; curwin->w_tagstack[tagstackidx].cur_fnum = cur_fnum; } } } // When not using the current buffer get the name of buffer "cur_fnum". // Makes sure that the tag order doesn't change when using a remembered // position for "cur_match". if (cur_fnum != curbuf->b_fnum) { buf_T *buf = buflist_findnr(cur_fnum); if (buf != NULL) { buf_ffname = buf->b_ffname; } } // Repeat searching for tags, when a file has not been found. while (true) { int other_name; char *name; // When desired match not found yet, try to find it (and others). if (use_tagstack) { // make a copy, the tagstack may change in 'tagfunc' name = xstrdup(tagstack[tagstackidx].tagname); xfree(tofree); tofree = name; } else if (g_do_tagpreview != 0) { name = ptag_entry.tagname; } else { name = tag; } other_name = (tagmatchname == NULL || strcmp(tagmatchname, name) != 0); if (new_tag || (cur_match >= num_matches && max_num_matches != MAXCOL) || other_name) { if (other_name) { xfree(tagmatchname); tagmatchname = xstrdup(name); } if (type == DT_SELECT || type == DT_JUMP || type == DT_LTAG) { cur_match = MAXCOL - 1; } if (type == DT_TAG) { max_num_matches = MAXCOL; } else { max_num_matches = cur_match + 1; } // when the argument starts with '/', use it as a regexp if (!no_regexp && *name == '/') { flags = TAG_REGEXP; name++; } else { flags = TAG_NOIC; } if (verbose) { flags |= TAG_VERBOSE; } if (!use_tfu) { flags |= TAG_NO_TAGFUNC; } if (find_tags(name, &new_num_matches, &new_matches, flags, max_num_matches, buf_ffname) == OK && new_num_matches < max_num_matches) { max_num_matches = MAXCOL; // If less than max_num_matches // found: all matches found. } // A tag function may do anything, which may cause various // information to become invalid. At least check for the tagstack // to still be the same. if (tagstack != curwin->w_tagstack) { emsg(_(e_window_unexpectedly_close_while_searching_for_tags)); FreeWild(new_num_matches, new_matches); break; } // If there already were some matches for the same name, move them // to the start. Avoids that the order changes when using // ":tnext" and jumping to another file. if (!new_tag && !other_name) { int idx = 0; tagptrs_T tagp, tagp2; // Find the position of each old match in the new list. Need // to use parse_match() to find the tag line. for (int j = 0; j < num_matches; j++) { parse_match(matches[j], &tagp); for (int i = idx; i < new_num_matches; i++) { parse_match(new_matches[i], &tagp2); if (strcmp(tagp.tagname, tagp2.tagname) == 0) { char *p = new_matches[i]; for (int k = i; k > idx; k--) { new_matches[k] = new_matches[k - 1]; } new_matches[idx++] = p; break; } } } } FreeWild(num_matches, matches); num_matches = new_num_matches; matches = new_matches; } if (num_matches <= 0) { if (verbose) { semsg(_(e_tag_not_found_str), name); } g_do_tagpreview = 0; } else { bool ask_for_selection = false; if (type == DT_TAG && *tag != NUL) { // If a count is supplied to the ":tag " command, then // jump to count'th matching tag. cur_match = count > 0 ? count - 1 : 0; } else if (type == DT_SELECT || (type == DT_JUMP && num_matches > 1)) { print_tag_list(new_tag, use_tagstack, num_matches, matches); ask_for_selection = true; } else if (type == DT_LTAG) { if (add_llist_tags(tag, num_matches, matches) == FAIL) { goto end_do_tag; } cur_match = 0; // Jump to the first tag } if (ask_for_selection) { // Ask to select a tag from the list. int i = prompt_for_number(NULL); if (i <= 0 || i > num_matches || got_int) { // no valid choice: don't change anything if (use_tagstack) { tagstack[tagstackidx].fmark = saved_fmark; tagstackidx = prevtagstackidx; } break; } cur_match = i - 1; } if (cur_match >= num_matches) { // Avoid giving this error when a file wasn't found and we're // looking for a match in another file, which wasn't found. // There will be an emsg("file doesn't exist") below then. if ((type == DT_NEXT || type == DT_FIRST) && nofile_fname == NULL) { if (num_matches == 1) { emsg(_("E427: There is only one matching tag")); } else { emsg(_("E428: Cannot go beyond last matching tag")); } skip_msg = true; } cur_match = num_matches - 1; } if (use_tagstack) { tagptrs_T tagp2; tagstack[tagstackidx].cur_match = cur_match; tagstack[tagstackidx].cur_fnum = cur_fnum; // store user-provided data originating from tagfunc if (use_tfu && parse_match(matches[cur_match], &tagp2) == OK && tagp2.user_data) { XFREE_CLEAR(tagstack[tagstackidx].user_data); tagstack[tagstackidx].user_data = xmemdupz(tagp2.user_data, (size_t)(tagp2.user_data_end - tagp2.user_data)); } tagstackidx++; } else if (g_do_tagpreview != 0) { ptag_entry.cur_match = cur_match; ptag_entry.cur_fnum = cur_fnum; } // Only when going to try the next match, report that the previous // file didn't exist. Otherwise an emsg() is given below. if (nofile_fname != NULL && error_cur_match != cur_match) { smsg(0, _("File \"%s\" does not exist"), nofile_fname); } int ic = (matches[cur_match][0] & MT_IC_OFF); if (type != DT_TAG && type != DT_SELECT && type != DT_JUMP && (num_matches > 1 || ic) && !skip_msg) { // Give an indication of the number of matching tags snprintf(IObuff, sizeof(IObuff), _("tag %d of %d%s"), cur_match + 1, num_matches, max_num_matches != MAXCOL ? _(" or more") : ""); if (ic) { xstrlcat(IObuff, _(" Using tag with different case!"), IOSIZE); } if ((num_matches > prev_num_matches || new_tag) && num_matches > 1) { msg(IObuff, ic ? HL_ATTR(HLF_W) : 0); msg_scroll = true; // Don't overwrite this message. } else { give_warning(IObuff, ic); } if (ic && !msg_scrolled && msg_silent == 0) { ui_flush(); os_delay(1007, true); } } // Let the SwapExists event know what tag we are jumping to. vim_snprintf(IObuff, IOSIZE, ":ta %s\r", name); set_vim_var_string(VV_SWAPCOMMAND, IObuff, -1); // Jump to the desired match. int i = jumpto_tag(matches[cur_match], forceit, true); set_vim_var_string(VV_SWAPCOMMAND, NULL, -1); if (i == NOTAGFILE) { // File not found: try again with another matching tag if ((type == DT_PREV && cur_match > 0) || ((type == DT_TAG || type == DT_NEXT || type == DT_FIRST) && (max_num_matches != MAXCOL || cur_match < num_matches - 1))) { error_cur_match = cur_match; if (use_tagstack) { tagstackidx--; } if (type == DT_PREV) { cur_match--; } else { type = DT_NEXT; cur_match++; } continue; } semsg(_("E429: File \"%s\" does not exist"), nofile_fname); } else { // We may have jumped to another window, check that // tagstackidx is still valid. if (use_tagstack && tagstackidx > curwin->w_tagstacklen) { tagstackidx = curwin->w_tagstackidx; } } } break; } end_do_tag: // Only store the new index when using the tagstack and it's valid. if (use_tagstack && tagstackidx <= curwin->w_tagstacklen) { curwin->w_tagstackidx = tagstackidx; } postponed_split = 0; // don't split next time g_do_tagpreview = 0; // don't do tag preview next time xfree(tofree); } // List all the matching tags. static void print_tag_list(int new_tag, int use_tagstack, int num_matches, char **matches) { taggy_T *tagstack = curwin->w_tagstack; int tagstackidx = curwin->w_tagstackidx; tagptrs_T tagp; // Assume that the first match indicates how long the tags can // be, and align the file names to that. parse_match(matches[0], &tagp); int taglen = (int)(tagp.tagname_end - tagp.tagname + 2); if (taglen < 18) { taglen = 18; } if (taglen > Columns - 25) { taglen = MAXCOL; } if (msg_col == 0) { msg_didout = false; // overwrite previous message } msg_start(); msg_puts_attr(_(" # pri kind tag"), HL_ATTR(HLF_T)); msg_clr_eos(); taglen_advance(taglen); msg_puts_attr(_("file\n"), HL_ATTR(HLF_T)); for (int i = 0; i < num_matches && !got_int; i++) { parse_match(matches[i], &tagp); if (!new_tag && ( (g_do_tagpreview != 0 && i == ptag_entry.cur_match) || (use_tagstack && i == tagstack[tagstackidx].cur_match))) { *IObuff = '>'; } else { *IObuff = ' '; } vim_snprintf(IObuff + 1, IOSIZE - 1, "%2d %s ", i + 1, mt_names[matches[i][0] & MT_MASK]); msg_puts(IObuff); if (tagp.tagkind != NULL) { msg_outtrans_len(tagp.tagkind, (int)(tagp.tagkind_end - tagp.tagkind), 0); } msg_advance(13); msg_outtrans_len(tagp.tagname, (int)(tagp.tagname_end - tagp.tagname), HL_ATTR(HLF_T)); msg_putchar(' '); taglen_advance(taglen); // Find out the actual file name. If it is long, truncate // it and put "..." in the middle const char *p = tag_full_fname(&tagp); if (p != NULL) { msg_outtrans(p, HL_ATTR(HLF_D)); XFREE_CLEAR(p); } if (msg_col > 0) { msg_putchar('\n'); } if (got_int) { break; } msg_advance(15); // print any extra fields const char *command_end = tagp.command_end; if (command_end != NULL) { p = command_end + 3; while (*p && *p != '\r' && *p != '\n') { while (*p == TAB) { p++; } // skip "file:" without a value (static tag) if (strncmp(p, "file:", 5) == 0 && ascii_isspace(p[5])) { p += 5; continue; } // skip "kind:" and "" if (p == tagp.tagkind || (p + 5 == tagp.tagkind && strncmp(p, "kind:", 5) == 0)) { p = tagp.tagkind_end; continue; } // print all other extra fields int attr = HL_ATTR(HLF_CM); while (*p && *p != '\r' && *p != '\n') { if (msg_col + ptr2cells(p) >= Columns) { msg_putchar('\n'); if (got_int) { break; } msg_advance(15); } p = msg_outtrans_one(p, attr); if (*p == TAB) { msg_puts_attr(" ", attr); break; } if (*p == ':') { attr = 0; } } } if (msg_col > 15) { msg_putchar('\n'); if (got_int) { break; } msg_advance(15); } } else { for (p = tagp.command; *p && *p != '\r' && *p != '\n'; p++) {} command_end = p; } // Put the info (in several lines) at column 15. // Don't display "/^" and "?^". p = tagp.command; if (*p == '/' || *p == '?') { p++; if (*p == '^') { p++; } } // Remove leading whitespace from pattern while (p != command_end && ascii_isspace(*p)) { p++; } while (p != command_end) { if (msg_col + (*p == TAB ? 1 : ptr2cells(p)) > Columns) { msg_putchar('\n'); } if (got_int) { break; } msg_advance(15); // skip backslash used for escaping a command char or // a backslash if (*p == '\\' && (*(p + 1) == *tagp.command || *(p + 1) == '\\')) { p++; } if (*p == TAB) { msg_putchar(' '); p++; } else { p = msg_outtrans_one(p, 0); } // don't display the "$/;\"" and "$?;\"" if (p == command_end - 2 && *p == '$' && *(p + 1) == *tagp.command) { break; } // don't display matching '/' or '?' if (p == command_end - 1 && *p == *tagp.command && (*p == '/' || *p == '?')) { break; } } if (msg_col) { msg_putchar('\n'); } os_breakcheck(); } if (got_int) { got_int = false; // only stop the listing } } /// Add the matching tags to the location list for the current /// window. static int add_llist_tags(char *tag, int num_matches, char **matches) { char tag_name[128 + 1]; tagptrs_T tagp; char *fname = xmalloc(MAXPATHL + 1); char *cmd = xmalloc(CMDBUFFSIZE + 1); list_T *list = tv_list_alloc(0); for (int i = 0; i < num_matches; i++) { dict_T *dict; parse_match(matches[i], &tagp); // Save the tag name int len = (int)(tagp.tagname_end - tagp.tagname); if (len > 128) { len = 128; } xstrlcpy(tag_name, tagp.tagname, (size_t)len + 1); tag_name[len] = NUL; // Save the tag file name char *p = tag_full_fname(&tagp); if (p == NULL) { continue; } xstrlcpy(fname, p, MAXPATHL); XFREE_CLEAR(p); // Get the line number or the search pattern used to locate // the tag. linenr_T lnum = 0; if (isdigit((uint8_t)(*tagp.command))) { // Line number is used to locate the tag lnum = atoi(tagp.command); } else { // Search pattern is used to locate the tag // Locate the end of the command char *cmd_start = tagp.command; char *cmd_end = tagp.command_end; if (cmd_end == NULL) { for (p = tagp.command; *p && *p != '\r' && *p != '\n'; p++) {} cmd_end = p; } // Now, cmd_end points to the character after the // command. Adjust it to point to the last // character of the command. cmd_end--; // Skip the '/' and '?' characters at the // beginning and end of the search pattern. if (*cmd_start == '/' || *cmd_start == '?') { cmd_start++; } if (*cmd_end == '/' || *cmd_end == '?') { cmd_end--; } len = 0; cmd[0] = NUL; // If "^" is present in the tag search pattern, then // copy it first. if (*cmd_start == '^') { STRCPY(cmd, "^"); cmd_start++; len++; } // Precede the tag pattern with \V to make it very // nomagic. STRCAT(cmd, "\\V"); len += 2; int cmd_len = (int)(cmd_end - cmd_start + 1); if (cmd_len > (CMDBUFFSIZE - 5)) { cmd_len = CMDBUFFSIZE - 5; } snprintf(cmd + len, (size_t)(CMDBUFFSIZE + 1 - len), "%.*s", cmd_len, cmd_start); len += cmd_len; if (cmd[len - 1] == '$') { // Replace '$' at the end of the search pattern // with '\$' cmd[len - 1] = '\\'; cmd[len] = '$'; len++; } cmd[len] = NUL; } dict = tv_dict_alloc(); tv_list_append_dict(list, dict); tv_dict_add_str(dict, S_LEN("text"), tag_name); tv_dict_add_str(dict, S_LEN("filename"), fname); tv_dict_add_nr(dict, S_LEN("lnum"), lnum); if (lnum == 0) { tv_dict_add_str(dict, S_LEN("pattern"), cmd); } } vim_snprintf(IObuff, IOSIZE, "ltag %s", tag); set_errorlist(curwin, list, ' ', IObuff, NULL); tv_list_free(list); XFREE_CLEAR(fname); XFREE_CLEAR(cmd); return OK; } // Free cached tags. void tag_freematch(void) { XFREE_CLEAR(tagmatchname); } static void taglen_advance(int l) { if (l == MAXCOL) { msg_putchar('\n'); msg_advance(24); } else { msg_advance(13 + l); } } // Print the tag stack void do_tags(exarg_T *eap) { taggy_T *tagstack = curwin->w_tagstack; int tagstackidx = curwin->w_tagstackidx; int tagstacklen = curwin->w_tagstacklen; // Highlight title msg_puts_title(_("\n # TO tag FROM line in file/text")); for (int i = 0; i < tagstacklen; i++) { if (tagstack[i].tagname != NULL) { char *name = fm_getname(&(tagstack[i].fmark), 30); if (name == NULL) { // file name not available continue; } msg_putchar('\n'); vim_snprintf(IObuff, IOSIZE, "%c%2d %2d %-15s %5" PRIdLINENR " ", i == tagstackidx ? '>' : ' ', i + 1, tagstack[i].cur_match + 1, tagstack[i].tagname, tagstack[i].fmark.mark.lnum); msg_outtrans(IObuff, 0); msg_outtrans(name, tagstack[i].fmark.fnum == curbuf->b_fnum ? HL_ATTR(HLF_D) : 0); xfree(name); } } if (tagstackidx == tagstacklen) { // idx at top of stack msg_puts("\n>"); } } // Compare two strings, for length "len", ignoring case the ASCII way. // return 0 for match, < 0 for smaller, > 0 for bigger // Make sure case is folded to uppercase in comparison (like for 'sort -f') static int tag_strnicmp(char *s1, char *s2, size_t len) { while (len > 0) { int i = TOUPPER_ASC((uint8_t)(*s1)) - TOUPPER_ASC((uint8_t)(*s2)); if (i != 0) { return i; // this character different } if (*s1 == NUL) { break; // strings match until NUL } s1++; s2++; len--; } return 0; // strings match } // Extract info from the tag search pattern "pats->pat". static void prepare_pats(pat_T *pats, int has_re) { pats->head = pats->pat; pats->headlen = pats->len; if (has_re) { // When the pattern starts with '^' or "\\<", binary searching can be // used (much faster). if (pats->pat[0] == '^') { pats->head = pats->pat + 1; } else if (pats->pat[0] == '\\' && pats->pat[1] == '<') { pats->head = pats->pat + 2; } if (pats->head == pats->pat) { pats->headlen = 0; } else { for (pats->headlen = 0; pats->head[pats->headlen] != NUL; pats->headlen++) { if (vim_strchr(magic_isset() ? ".[~*\\$" : "\\$", (uint8_t)pats->head[pats->headlen]) != NULL) { break; } } } if (p_tl != 0 && pats->headlen > p_tl) { // adjust for 'taglength' pats->headlen = (int)p_tl; } } if (has_re) { pats->regmatch.regprog = vim_regcomp(pats->pat, magic_isset() ? RE_MAGIC : 0); } else { pats->regmatch.regprog = NULL; } } /// Call the user-defined function to generate a list of tags used by /// find_tags(). /// /// Return OK if at least 1 tag has been successfully found, /// NOTDONE if the function returns v:null, and FAIL otherwise. /// /// @param pat pattern supplied to the user-defined function /// @param ga the tags will be placed here /// @param match_count here the number of tags found will be placed /// @param flags flags from find_tags (TAG_*) /// @param buf_ffname name of buffer for priority static int find_tagfunc_tags(char *pat, garray_T *ga, int *match_count, int flags, char *buf_ffname) { int ntags = 0; typval_T args[4]; typval_T rettv; char flagString[4]; taggy_T *tag = NULL; if (curwin->w_tagstacklen > 0) { if (curwin->w_tagstackidx == curwin->w_tagstacklen) { tag = &curwin->w_tagstack[curwin->w_tagstackidx - 1]; } else { tag = &curwin->w_tagstack[curwin->w_tagstackidx]; } } if (*curbuf->b_p_tfu == NUL || curbuf->b_tfu_cb.type == kCallbackNone) { return FAIL; } args[0].v_type = VAR_STRING; args[0].vval.v_string = pat; args[1].v_type = VAR_STRING; args[1].vval.v_string = flagString; // create 'info' dict argument dict_T *const d = tv_dict_alloc_lock(VAR_FIXED); if (tag != NULL && tag->user_data != NULL) { tv_dict_add_str(d, S_LEN("user_data"), tag->user_data); } if (buf_ffname != NULL) { tv_dict_add_str(d, S_LEN("buf_ffname"), buf_ffname); } d->dv_refcount++; args[2].v_type = VAR_DICT; args[2].vval.v_dict = d; args[3].v_type = VAR_UNKNOWN; vim_snprintf(flagString, sizeof(flagString), "%s%s%s", g_tag_at_cursor ? "c" : "", flags & TAG_INS_COMP ? "i" : "", flags & TAG_REGEXP ? "r" : ""); pos_T save_pos = curwin->w_cursor; int result = callback_call(&curbuf->b_tfu_cb, 3, args, &rettv); curwin->w_cursor = save_pos; // restore the cursor position d->dv_refcount--; if (result == FAIL) { return FAIL; } if (rettv.v_type == VAR_SPECIAL && rettv.vval.v_special == kSpecialVarNull) { tv_clear(&rettv); return NOTDONE; } if (rettv.v_type != VAR_LIST || !rettv.vval.v_list) { tv_clear(&rettv); emsg(_(e_invalid_return_value_from_tagfunc)); return FAIL; } list_T *taglist = rettv.vval.v_list; TV_LIST_ITER_CONST(taglist, li, { char *res_name; char *res_fname; char *res_cmd; char *res_kind; int has_extra = 0; int name_only = flags & TAG_NAMES; if (TV_LIST_ITEM_TV(li)->v_type != VAR_DICT) { emsg(_(e_invalid_return_value_from_tagfunc)); break; } size_t len = 2; res_name = NULL; res_fname = NULL; res_cmd = NULL; res_kind = NULL; TV_DICT_ITER(TV_LIST_ITEM_TV(li)->vval.v_dict, di, { const char *dict_key = di->di_key; typval_T *tv = &di->di_tv; if (tv->v_type != VAR_STRING || tv->vval.v_string == NULL) { continue; } len += strlen(tv->vval.v_string) + 1; // Space for "\tVALUE" if (!strcmp(dict_key, "name")) { res_name = tv->vval.v_string; continue; } if (!strcmp(dict_key, "filename")) { res_fname = tv->vval.v_string; continue; } if (!strcmp(dict_key, "cmd")) { res_cmd = tv->vval.v_string; continue; } has_extra = 1; if (!strcmp(dict_key, "kind")) { res_kind = tv->vval.v_string; continue; } // Other elements will be stored as "\tKEY:VALUE" // Allocate space for the key and the colon len += strlen(dict_key) + 1; }); if (has_extra) { len += 2; // need space for ;" } if (!res_name || !res_fname || !res_cmd) { emsg(_(e_invalid_return_value_from_tagfunc)); break; } char *const mfp = name_only ? xstrdup(res_name) : xmalloc(len + 2); if (!name_only) { char *p = mfp; *p++ = MT_GL_OTH + 1; // mtt *p++ = TAG_SEP; // no tag file name STRCPY(p, res_name); p += strlen(p); *p++ = TAB; STRCPY(p, res_fname); p += strlen(p); *p++ = TAB; STRCPY(p, res_cmd); p += strlen(p); if (has_extra) { STRCPY(p, ";\""); p += strlen(p); if (res_kind) { *p++ = TAB; STRCPY(p, res_kind); p += strlen(p); } TV_DICT_ITER(TV_LIST_ITEM_TV(li)->vval.v_dict, di, { const char *dict_key = di->di_key; typval_T *tv = &di->di_tv; if (tv->v_type != VAR_STRING || tv->vval.v_string == NULL) { continue; } if (!strcmp(dict_key, "name")) { continue; } if (!strcmp(dict_key, "filename")) { continue; } if (!strcmp(dict_key, "cmd")) { continue; } if (!strcmp(dict_key, "kind")) { continue; } *p++ = TAB; STRCPY(p, dict_key); p += strlen(p); STRCPY(p, ":"); p += strlen(p); STRCPY(p, tv->vval.v_string); p += strlen(p); }); } } // Add all matches because tagfunc should do filtering. ga_grow(ga, 1); ((char **)(ga->ga_data))[ga->ga_len++] = (char *)mfp; ntags++; result = OK; }); tv_clear(&rettv); *match_count = ntags; return result; } /// Initialize the state used by find_tags() static void findtags_state_init(findtags_state_T *st, char *pat, int flags, int mincount) { st->tag_fname = xmalloc(MAXPATHL + 1); st->fp = NULL; st->orgpat = xmalloc(sizeof(pat_T)); st->orgpat->pat = pat; st->orgpat->len = (int)strlen(pat); st->orgpat->regmatch.regprog = NULL; st->flags = flags; st->tag_file_sorted = NUL; st->help_lang_find = NULL; st->is_txt = false; st->did_open = false; st->help_only = (flags & TAG_HELP); st->get_searchpat = false; st->help_lang[0] = NUL; st->help_pri = 0; st->mincount = mincount; st->lbuf_size = LSIZE; st->lbuf = xmalloc((size_t)st->lbuf_size); st->match_count = 0; st->stop_searching = false; for (int mtt = 0; mtt < MT_COUNT; mtt++) { ga_init(&st->ga_match[mtt], sizeof(char *), 100); hash_init(&st->ht_match[mtt]); } } /// Free the state used by find_tags() static void findtags_state_free(findtags_state_T *st) { xfree(st->tag_fname); xfree(st->lbuf); vim_regfree(st->orgpat->regmatch.regprog); xfree(st->orgpat); } /// Initialize the language and priority used for searching tags in a Vim help /// file. /// Returns true to process the help file for tags and false to skip the file. static bool findtags_in_help_init(findtags_state_T *st) { int i; // Keep "en" as the language if the file extension is ".txt" if (st->is_txt) { STRCPY(st->help_lang, "en"); } else { // Prefer help tags according to 'helplang'. Put the two-letter // language name in help_lang[]. i = (int)strlen(st->tag_fname); if (i > 3 && st->tag_fname[i - 3] == '-') { xstrlcpy(st->help_lang, st->tag_fname + i - 2, 3); } else { STRCPY(st->help_lang, "en"); } } // When searching for a specific language skip tags files for other // languages. if (st->help_lang_find != NULL && STRICMP(st->help_lang, st->help_lang_find) != 0) { return false; } // For CTRL-] in a help file prefer a match with the same language. if ((st->flags & TAG_KEEP_LANG) && st->help_lang_find == NULL && curbuf->b_fname != NULL && (i = (int)strlen(curbuf->b_fname)) > 4 && curbuf->b_fname[i - 1] == 'x' && curbuf->b_fname[i - 4] == '.' && STRNICMP(curbuf->b_fname + i - 3, st->help_lang, 2) == 0) { st->help_pri = 0; } else { st->help_pri = 1; char *s; for (s = p_hlg; *s != NUL; s++) { if (STRNICMP(s, st->help_lang, 2) == 0) { break; } st->help_pri++; if ((s = vim_strchr(s, ',')) == NULL) { break; } } if (s == NULL || *s == NUL) { // Language not in 'helplang': use last, prefer English, unless // found already. st->help_pri++; if (STRICMP(st->help_lang, "en") != 0) { st->help_pri++; } } } return true; } /// Use the function set in 'tagfunc' (if configured and enabled) to get the /// tags. /// Return OK if at least 1 tag has been successfully found, NOTDONE if the /// 'tagfunc' is not used or the 'tagfunc' returns v:null and FAIL otherwise. static int findtags_apply_tfu(findtags_state_T *st, char *pat, char *buf_ffname) { const bool use_tfu = ((st->flags & TAG_NO_TAGFUNC) == 0); if (!use_tfu || tfu_in_use || *curbuf->b_p_tfu == NUL) { return NOTDONE; } tfu_in_use = true; int retval = find_tagfunc_tags(pat, st->ga_match, &st->match_count, st->flags, buf_ffname); tfu_in_use = false; return retval; } /// Read the next line from a tags file. /// Returns TAGS_READ_SUCCESS if a tags line is successfully read and should be /// processed. /// Returns TAGS_READ_EOF if the end of file is reached. /// Returns TAGS_READ_IGNORE if the current line should be ignored (used when /// reached end of a emacs included tags file) static tags_read_status_T findtags_get_next_line(findtags_state_T *st, tagsearch_info_T *sinfo_p) { int eof; // For binary search: compute the next offset to use. if (st->state == TS_BINARY) { off_T offset = sinfo_p->low_offset + ((sinfo_p->high_offset - sinfo_p->low_offset) / 2); if (offset == sinfo_p->curr_offset) { return TAGS_READ_EOF; // End the binary search without a match. } else { sinfo_p->curr_offset = offset; } } else if (st->state == TS_SKIP_BACK) { // Skipping back (after a match during binary search). sinfo_p->curr_offset -= st->lbuf_size * 2; if (sinfo_p->curr_offset < 0) { sinfo_p->curr_offset = 0; (void)fseek(st->fp, 0, SEEK_SET); st->state = TS_STEP_FORWARD; } } // When jumping around in the file, first read a line to find the // start of the next line. if (st->state == TS_BINARY || st->state == TS_SKIP_BACK) { // Adjust the search file offset to the correct position sinfo_p->curr_offset_used = sinfo_p->curr_offset; vim_ignored = vim_fseek(st->fp, sinfo_p->curr_offset, SEEK_SET); eof = vim_fgets(st->lbuf, st->lbuf_size, st->fp); if (!eof && sinfo_p->curr_offset != 0) { sinfo_p->curr_offset = vim_ftell(st->fp); if (sinfo_p->curr_offset == sinfo_p->high_offset) { // oops, gone a bit too far; try from low offset vim_ignored = vim_fseek(st->fp, sinfo_p->low_offset, SEEK_SET); sinfo_p->curr_offset = sinfo_p->low_offset; } eof = vim_fgets(st->lbuf, st->lbuf_size, st->fp); } // skip empty and blank lines while (!eof && vim_isblankline(st->lbuf)) { sinfo_p->curr_offset = vim_ftell(st->fp); eof = vim_fgets(st->lbuf, st->lbuf_size, st->fp); } if (eof) { // Hit end of file. Skip backwards. st->state = TS_SKIP_BACK; sinfo_p->match_offset = vim_ftell(st->fp); sinfo_p->curr_offset = sinfo_p->curr_offset_used; return TAGS_READ_IGNORE; } } else { // Not jumping around in the file: Read the next line. // skip empty and blank lines do { eof = vim_fgets(st->lbuf, st->lbuf_size, st->fp); } while (!eof && vim_isblankline(st->lbuf)); if (eof) { return TAGS_READ_EOF; } } return TAGS_READ_SUCCESS; } /// Parse a tags file header line in "st->lbuf". /// Returns true if the current line in st->lbuf is not a tags header line and /// should be parsed as a regular tag line. Returns false if the line is a /// header line and the next header line should be read. static bool findtags_hdr_parse(findtags_state_T *st) { // Header lines in a tags file start with "!_TAG_" if (strncmp(st->lbuf, "!_TAG_", 6) != 0) { // Non-header item before the header, e.g. "!" itself. return true; } // Process the header line. if (strncmp(st->lbuf, "!_TAG_FILE_SORTED\t", 18) == 0) { st->tag_file_sorted = (uint8_t)st->lbuf[18]; } if (strncmp(st->lbuf, "!_TAG_FILE_ENCODING\t", 20) == 0) { // Prepare to convert every line from the specified encoding to // 'encoding'. char *p; for (p = st->lbuf + 20; *p > ' ' && *p < 127; p++) {} *p = NUL; convert_setup(&st->vimconv, st->lbuf + 20, p_enc); } // Read the next line. Unrecognized flags are ignored. return false; } /// Handler to initialize the state when starting to process a new tags file. /// Called in the TS_START state when finding tags from a tags file. /// Returns true if the line read from the tags file should be parsed and /// false if the line should be ignored. static bool findtags_start_state_handler(findtags_state_T *st, bool *sortic, tagsearch_info_T *sinfo_p) { const bool noic = (st->flags & TAG_NOIC); // The header ends when the line sorts below "!_TAG_". When case is // folded lower case letters sort before "_". if (strncmp(st->lbuf, "!_TAG_", 6) <= 0 || (st->lbuf[0] == '!' && ASCII_ISLOWER(st->lbuf[1]))) { return findtags_hdr_parse(st); } // Headers ends. // When there is no tag head, or ignoring case, need to do a // linear search. // When no "!_TAG_" is found, default to binary search. If // the tag file isn't sorted, the second loop will find it. // When "!_TAG_FILE_SORTED" found: start binary search if // flag set. if (st->linear) { st->state = TS_LINEAR; } else if (st->tag_file_sorted == NUL) { st->state = TS_BINARY; } else if (st->tag_file_sorted == '1') { st->state = TS_BINARY; } else if (st->tag_file_sorted == '2') { st->state = TS_BINARY; *sortic = true; st->orgpat->regmatch.rm_ic = (p_ic || !noic); } else { st->state = TS_LINEAR; } if (st->state == TS_BINARY && st->orgpat->regmatch.rm_ic && !*sortic) { // Binary search won't work for ignoring case, use linear // search. st->linear = true; st->state = TS_LINEAR; } // When starting a binary search, get the size of the file and // compute the first offset. if (st->state == TS_BINARY) { if (vim_fseek(st->fp, 0, SEEK_END) != 0) { // can't seek, don't use binary search st->state = TS_LINEAR; } else { // Get the tag file size. // Don't use lseek(), it doesn't work // properly on MacOS Catalina. const off_T filesize = vim_ftell(st->fp); vim_ignored = vim_fseek(st->fp, 0, SEEK_SET); // Calculate the first read offset in the file. Start // the search in the middle of the file. sinfo_p->low_offset = 0; sinfo_p->low_char = 0; sinfo_p->high_offset = filesize; sinfo_p->curr_offset = 0; sinfo_p->high_char = 0xff; } return false; } return true; } /// Parse a tag line read from a tags file. /// Also compares the tag name in "tagpp->tagname" with a search pattern in /// "st->orgpat->head" as a quick check if the tag may match. /// Returns: /// - TAG_MATCH_SUCCESS if the tag may match /// - TAG_MATCH_FAIL if the tag doesn't match /// - TAG_MATCH_NEXT to look for the next matching tag (used in a binary search) /// - TAG_MATCH_STOP if all the tags are processed without a match. /// Uses the values in "margs" for doing the comparison. static tagmatch_status_T findtags_parse_line(findtags_state_T *st, tagptrs_T *tagpp, findtags_match_args_T *margs, tagsearch_info_T *sinfo_p) { int status; // Figure out where the different strings are in this line. // For "normal" tags: Do a quick check if the tag matches. // This speeds up tag searching a lot! if (st->orgpat->headlen) { CLEAR_FIELD(*tagpp); tagpp->tagname = st->lbuf; tagpp->tagname_end = vim_strchr(st->lbuf, TAB); if (tagpp->tagname_end == NULL) { // Corrupted tag line. return TAG_MATCH_FAIL; } // Skip this line if the length of the tag is different and // there is no regexp, or the tag is too short. int cmplen = (int)(tagpp->tagname_end - tagpp->tagname); if (p_tl != 0 && cmplen > p_tl) { // adjust for 'taglength' cmplen = (int)p_tl; } if ((st->flags & TAG_REGEXP) && st->orgpat->headlen < cmplen) { cmplen = st->orgpat->headlen; } else if (st->state == TS_LINEAR && st->orgpat->headlen != cmplen) { return TAG_MATCH_NEXT; } if (st->state == TS_BINARY) { int tagcmp; // Simplistic check for unsorted tags file. int i = (uint8_t)tagpp->tagname[0]; if (margs->sortic) { i = TOUPPER_ASC(tagpp->tagname[0]); } if (i < sinfo_p->low_char || i > sinfo_p->high_char) { margs->sort_error = true; } // Compare the current tag with the searched tag. if (margs->sortic) { tagcmp = tag_strnicmp(tagpp->tagname, st->orgpat->head, (size_t)cmplen); } else { tagcmp = strncmp(tagpp->tagname, st->orgpat->head, (size_t)cmplen); } // A match with a shorter tag means to search forward. // A match with a longer tag means to search backward. if (tagcmp == 0) { if (cmplen < st->orgpat->headlen) { tagcmp = -1; } else if (cmplen > st->orgpat->headlen) { tagcmp = 1; } } if (tagcmp == 0) { // We've located the tag, now skip back and search // forward until the first matching tag is found. st->state = TS_SKIP_BACK; sinfo_p->match_offset = sinfo_p->curr_offset; return TAG_MATCH_NEXT; } if (tagcmp < 0) { sinfo_p->curr_offset = vim_ftell(st->fp); if (sinfo_p->curr_offset < sinfo_p->high_offset) { sinfo_p->low_offset = sinfo_p->curr_offset; if (margs->sortic) { sinfo_p->low_char = TOUPPER_ASC(tagpp->tagname[0]); } else { sinfo_p->low_char = (uint8_t)tagpp->tagname[0]; } return TAG_MATCH_NEXT; } } if (tagcmp > 0 && sinfo_p->curr_offset != sinfo_p->high_offset) { sinfo_p->high_offset = sinfo_p->curr_offset; if (margs->sortic) { sinfo_p->high_char = TOUPPER_ASC(tagpp->tagname[0]); } else { sinfo_p->high_char = (uint8_t)tagpp->tagname[0]; } return TAG_MATCH_NEXT; } // No match yet and are at the end of the binary search. return TAG_MATCH_STOP; } else if (st->state == TS_SKIP_BACK) { assert(cmplen >= 0); if (mb_strnicmp(tagpp->tagname, st->orgpat->head, (size_t)cmplen) != 0) { st->state = TS_STEP_FORWARD; } else { // Have to skip back more. Restore the curr_offset // used, otherwise we get stuck at a long line. sinfo_p->curr_offset = sinfo_p->curr_offset_used; } return TAG_MATCH_NEXT; } else if (st->state == TS_STEP_FORWARD) { assert(cmplen >= 0); if (mb_strnicmp(tagpp->tagname, st->orgpat->head, (size_t)cmplen) != 0) { if ((off_T)vim_ftell(st->fp) > sinfo_p->match_offset) { return TAG_MATCH_STOP; // past last match } else { return TAG_MATCH_NEXT; // before first match } } } else { // skip this match if it can't match assert(cmplen >= 0); if (mb_strnicmp(tagpp->tagname, st->orgpat->head, (size_t)cmplen) != 0) { return TAG_MATCH_NEXT; } } // Can be a matching tag, isolate the file name and command. tagpp->fname = tagpp->tagname_end + 1; tagpp->fname_end = vim_strchr(tagpp->fname, TAB); if (tagpp->fname_end == NULL) { status = FAIL; } else { tagpp->command = tagpp->fname_end + 1; status = OK; } } else { status = parse_tag_line(st->lbuf, tagpp); } if (status == FAIL) { return TAG_MATCH_FAIL; } return TAG_MATCH_SUCCESS; } /// Initialize the structure used for tag matching. static void findtags_matchargs_init(findtags_match_args_T *margs, int flags) { margs->matchoff = 0; // match offset margs->match_re = false; // match with regexp margs->match_no_ic = false; // matches with case margs->has_re = (flags & TAG_REGEXP); // regexp used margs->sortic = false; // tag file sorted in nocase margs->sort_error = false; // tags file not sorted } /// Compares the tag name in "tagpp->tagname" with a search pattern in /// "st->orgpat->pat". /// Returns true if the tag matches, false if the tag doesn't match. /// Uses the values in "margs" for doing the comparison. static bool findtags_match_tag(findtags_state_T *st, tagptrs_T *tagpp, findtags_match_args_T *margs) { bool match = false; // First try matching with the pattern literally (also when it is // a regexp). int cmplen = (int)(tagpp->tagname_end - tagpp->tagname); if (p_tl != 0 && cmplen > p_tl) { // adjust for 'taglength' cmplen = (int)p_tl; } // if tag length does not match, don't try comparing if (st->orgpat->len != cmplen) { match = false; } else { if (st->orgpat->regmatch.rm_ic) { assert(cmplen >= 0); match = mb_strnicmp(tagpp->tagname, st->orgpat->pat, (size_t)cmplen) == 0; if (match) { margs->match_no_ic = strncmp(tagpp->tagname, st->orgpat->pat, (size_t)cmplen) == 0; } } else { match = strncmp(tagpp->tagname, st->orgpat->pat, (size_t)cmplen) == 0; } } // Has a regexp: Also find tags matching regexp. margs->match_re = false; if (!match && st->orgpat->regmatch.regprog != NULL) { char cc = *tagpp->tagname_end; *tagpp->tagname_end = NUL; match = vim_regexec(&st->orgpat->regmatch, tagpp->tagname, 0); if (match) { margs->matchoff = (int)(st->orgpat->regmatch.startp[0] - tagpp->tagname); if (st->orgpat->regmatch.rm_ic) { st->orgpat->regmatch.rm_ic = false; margs->match_no_ic = vim_regexec(&st->orgpat->regmatch, tagpp->tagname, 0); st->orgpat->regmatch.rm_ic = true; } } *tagpp->tagname_end = cc; margs->match_re = true; } return match; } /// Convert the encoding of a line read from a tags file in "st->lbuf". /// Converting the pattern from 'enc' to the tags file encoding doesn't work, /// because characters are not recognized. The converted line is saved in /// st->lbuf. static void findtags_string_convert(findtags_state_T *st) { char *conv_line = string_convert(&st->vimconv, st->lbuf, NULL); if (conv_line == NULL) { return; } // Copy or swap lbuf and conv_line. int len = (int)strlen(conv_line) + 1; if (len > st->lbuf_size) { xfree(st->lbuf); st->lbuf = conv_line; st->lbuf_size = len; } else { STRCPY(st->lbuf, conv_line); xfree(conv_line); } } /// Add a matching tag found in a tags file to st->ht_match and st->ga_match. static void findtags_add_match(findtags_state_T *st, tagptrs_T *tagpp, findtags_match_args_T *margs, char *buf_ffname, hash_T *hash) { const bool name_only = (st->flags & TAG_NAMES); int mtt; size_t len = 0; size_t mfp_size = 0; bool is_current; // file name matches bool is_static; // current tag line is static char *mfp; // Decide in which array to store this match. is_current = test_for_current(tagpp->fname, tagpp->fname_end, st->tag_fname, buf_ffname); is_static = test_for_static(tagpp); // Decide in which of the sixteen tables to store this match. if (is_static) { if (is_current) { mtt = MT_ST_CUR; } else { mtt = MT_ST_OTH; } } else { if (is_current) { mtt = MT_GL_CUR; } else { mtt = MT_GL_OTH; } } if (st->orgpat->regmatch.rm_ic && !margs->match_no_ic) { mtt += MT_IC_OFF; } if (margs->match_re) { mtt += MT_RE_OFF; } // Add the found match in ht_match[mtt] and ga_match[mtt]. // Store the info we need later, which depends on the kind of // tags we are dealing with. if (st->help_only) { #define ML_EXTRA 3 // Append the help-heuristic number after the tagname, for // sorting it later. The heuristic is ignored for // detecting duplicates. // The format is {tagname}@{lang}NUL{heuristic}NUL *tagpp->tagname_end = NUL; len = (size_t)(tagpp->tagname_end - tagpp->tagname); mfp_size = sizeof(char) + len + 10 + ML_EXTRA + 1; mfp = xmalloc(mfp_size); char *p = mfp; STRCPY(p, tagpp->tagname); p[len] = '@'; STRCPY(p + len + 1, st->help_lang); snprintf(p + len + 1 + ML_EXTRA, mfp_size - (len + 1 + ML_EXTRA), "%06d", help_heuristic(tagpp->tagname, margs->match_re ? margs->matchoff : 0, !margs->match_no_ic) + st->help_pri); *tagpp->tagname_end = TAB; } else if (name_only) { if (st->get_searchpat) { char *temp_end = tagpp->command; if (*temp_end == '/') { while (*temp_end && *temp_end != '\r' && *temp_end != '\n' && *temp_end != '$') { temp_end++; } } if (tagpp->command + 2 < temp_end) { len = (size_t)(temp_end - tagpp->command - 2); mfp = xmalloc(len + 2); xstrlcpy(mfp, tagpp->command + 2, len + 1); } else { mfp = NULL; } st->get_searchpat = false; } else { len = (size_t)(tagpp->tagname_end - tagpp->tagname); mfp = xmalloc(sizeof(char) + len + 1); xstrlcpy(mfp, tagpp->tagname, len + 1); // if wanted, re-read line to get long form too if (State & MODE_INSERT) { st->get_searchpat = p_sft; } } } else { size_t tag_fname_len = strlen(st->tag_fname); // Save the tag in a buffer. // Use 0x02 to separate fields (Can't use NUL, because the // hash key is terminated by NUL). // Emacs tag: <0x02><0x02> // other tag: <0x02><0x02> // without Emacs tags: <0x02> // Here is the "mtt" value plus 1 to avoid NUL. len = tag_fname_len + strlen(st->lbuf) + 3; mfp = xmalloc(sizeof(char) + len + 1); char *p = mfp; p[0] = (char)(mtt + 1); STRCPY(p + 1, st->tag_fname); #ifdef BACKSLASH_IN_FILENAME // Ignore differences in slashes, avoid adding // both path/file and path\file. slash_adjust(p + 1); #endif p[tag_fname_len + 1] = TAG_SEP; char *s = p + 1 + tag_fname_len + 1; STRCPY(s, st->lbuf); } if (mfp != NULL) { hashitem_T *hi; // Don't add identical matches. // "mfp" is used as a hash key, there is a NUL byte to end // the part that matters for comparing, more bytes may // follow after it. E.g. help tags store the priority // after the NUL. *hash = hash_hash(mfp); hi = hash_lookup(&st->ht_match[mtt], mfp, strlen(mfp), *hash); if (HASHITEM_EMPTY(hi)) { hash_add_item(&st->ht_match[mtt], hi, mfp, *hash); GA_APPEND(char *, &st->ga_match[mtt], mfp); st->match_count++; } else { // duplicate tag, drop it xfree(mfp); } } } /// Read and get all the tags from file st->tag_fname. /// Sets "st->stop_searching" to true to stop searching for additional tags. static void findtags_get_all_tags(findtags_state_T *st, findtags_match_args_T *margs, char *buf_ffname) { tagptrs_T tagp; tagsearch_info_T search_info; hash_T hash = 0; // This is only to avoid a compiler warning for using search_info // uninitialised. CLEAR_FIELD(search_info); // Read and parse the lines in the file one by one while (true) { // check for CTRL-C typed, more often when jumping around if (st->state == TS_BINARY || st->state == TS_SKIP_BACK) { line_breakcheck(); } else { fast_breakcheck(); } if ((st->flags & TAG_INS_COMP)) { // Double brackets for gcc ins_compl_check_keys(30, false); } if (got_int || ins_compl_interrupted()) { st->stop_searching = true; break; } // When mincount is TAG_MANY, stop when enough matches have been // found (for completion). if (st->mincount == TAG_MANY && st->match_count >= TAG_MANY) { st->stop_searching = true; break; } if (st->get_searchpat) { goto line_read_in; } int retval = (int)findtags_get_next_line(st, &search_info); if (retval == TAGS_READ_IGNORE) { continue; } if (retval == TAGS_READ_EOF) { break; } line_read_in: if (st->vimconv.vc_type != CONV_NONE) { findtags_string_convert(st); } // When still at the start of the file, check for Emacs tags file // format, and for "not sorted" flag. if (st->state == TS_START) { if (!findtags_start_state_handler(st, &margs->sortic, &search_info)) { continue; } } // When the line is too long the NUL will not be in the // last-but-one byte (see vim_fgets()). // Has been reported for Mozilla JS with extremely long names. // In that case we need to increase lbuf_size. if (st->lbuf[st->lbuf_size - 2] != NUL) { st->lbuf_size *= 2; xfree(st->lbuf); st->lbuf = xmalloc((size_t)st->lbuf_size); if (st->state == TS_STEP_FORWARD || st->state == TS_LINEAR) { // Seek to the same position to read the same line again vim_ignored = vim_fseek(st->fp, search_info.curr_offset, SEEK_SET); } // this will try the same thing again, make sure the offset is // different search_info.curr_offset = 0; continue; } retval = (int)findtags_parse_line(st, &tagp, margs, &search_info); if (retval == TAG_MATCH_NEXT) { continue; } if (retval == TAG_MATCH_STOP) { break; } if (retval == TAG_MATCH_FAIL) { semsg(_("E431: Format error in tags file \"%s\""), st->tag_fname); semsg(_("Before byte %" PRId64), (int64_t)vim_ftell(st->fp)); st->stop_searching = true; return; } // If a match is found, add it to ht_match[] and ga_match[]. if (findtags_match_tag(st, &tagp, margs)) { findtags_add_match(st, &tagp, margs, buf_ffname, &hash); } } // forever } /// Search for tags matching "st->orgpat.pat" in the "st->tag_fname" tags file. /// Information needed to search for the tags is in the "st" state structure. /// The matching tags are returned in "st". If an error is encountered, then /// "st->stop_searching" is set to true. static void findtags_in_file(findtags_state_T *st, int flags, char *buf_ffname) { findtags_match_args_T margs; st->vimconv.vc_type = CONV_NONE; st->tag_file_sorted = NUL; st->fp = NULL; findtags_matchargs_init(&margs, st->flags); // A file that doesn't exist is silently ignored. Only when not a // single file is found, an error message is given (further on). if (curbuf->b_help) { if (!findtags_in_help_init(st)) { return; } } st->fp = os_fopen(st->tag_fname, "r"); if (st->fp == NULL) { return; } if (p_verbose >= 5) { verbose_enter(); smsg(0, _("Searching tags file %s"), st->tag_fname); verbose_leave(); } st->did_open = true; // remember that we found at least one file st->state = TS_START; // we're at the start of the file // Read and parse the lines in the file one by one findtags_get_all_tags(st, &margs, buf_ffname); if (st->fp != NULL) { fclose(st->fp); st->fp = NULL; } if (st->vimconv.vc_type != CONV_NONE) { convert_setup(&st->vimconv, NULL, NULL); } if (margs.sort_error) { semsg(_("E432: Tags file not sorted: %s"), st->tag_fname); } // Stop searching if sufficient tags have been found. if (st->match_count >= st->mincount) { st->stop_searching = true; } } /// Copy the tags found by find_tags() to "matchesp". /// Returns the number of matches copied. static int findtags_copy_matches(findtags_state_T *st, char ***matchesp) { const bool name_only = (st->flags & TAG_NAMES); char **matches; if (st->match_count > 0) { matches = xmalloc((size_t)st->match_count * sizeof(char *)); } else { matches = NULL; } st->match_count = 0; for (int mtt = 0; mtt < MT_COUNT; mtt++) { for (int i = 0; i < st->ga_match[mtt].ga_len; i++) { char *mfp = ((char **)(st->ga_match[mtt].ga_data))[i]; if (matches == NULL) { xfree(mfp); } else { if (!name_only) { // Change mtt back to zero-based. *mfp = (char)(*mfp - 1); // change the TAG_SEP back to NUL for (char *p = mfp + 1; *p != NUL; p++) { if (*p == TAG_SEP) { *p = NUL; } } } matches[st->match_count++] = mfp; } } ga_clear(&st->ga_match[mtt]); hash_clear(&st->ht_match[mtt]); } *matchesp = matches; return st->match_count; } /// find_tags() - search for tags in tags files /// /// Return FAIL if search completely failed (*num_matches will be 0, *matchesp /// will be NULL), OK otherwise. /// /// There is a priority in which type of tag is recognized. /// /// 6. A static or global tag with a full matching tag for the current file. /// 5. A global tag with a full matching tag for another file. /// 4. A static tag with a full matching tag for another file. /// 3. A static or global tag with an ignore-case matching tag for the /// current file. /// 2. A global tag with an ignore-case matching tag for another file. /// 1. A static tag with an ignore-case matching tag for another file. /// /// Tags in an emacs-style tags file are always global. /// /// flags: /// TAG_HELP only search for help tags /// TAG_NAMES only return name of tag /// TAG_REGEXP use "pat" as a regexp /// TAG_NOIC don't always ignore case /// TAG_KEEP_LANG keep language /// TAG_NO_TAGFUNC do not call the 'tagfunc' function /// /// @param pat pattern to search for /// @param num_matches return: number of matches found /// @param matchesp return: array of matches found /// @param mincount MAXCOL: find all matches /// other: minimal number of matches /// @param buf_ffname name of buffer for priority int find_tags(char *pat, int *num_matches, char ***matchesp, int flags, int mincount, char *buf_ffname) { findtags_state_T st; tagname_T tn; // info for get_tagfname() int first_file; // trying first tag file int retval = FAIL; // return value int i; char *saved_pat = NULL; // copy of pat[] int findall = (mincount == MAXCOL || mincount == TAG_MANY); // find all matching tags int has_re = (flags & TAG_REGEXP); // regexp used int noic = (flags & TAG_NOIC); int verbose = (flags & TAG_VERBOSE); int save_p_ic = p_ic; // uncrustify:off // Change the value of 'ignorecase' according to 'tagcase' for the // duration of this function. switch (curbuf->b_tc_flags ? curbuf->b_tc_flags : tc_flags) { case TC_FOLLOWIC: break; case TC_IGNORE: p_ic = true; break; case TC_MATCH: p_ic = false; break; case TC_FOLLOWSCS: p_ic = ignorecase(pat); break; case TC_SMART: p_ic = ignorecase_opt(pat, true, true); break; default: abort(); } // uncrustify:on int help_save = curbuf->b_help; findtags_state_init(&st, pat, flags, mincount); // Initialize a few variables if (st.help_only) { // want tags from help file curbuf->b_help = true; // will be restored later } if (curbuf->b_help) { // When "@ab" is specified use only the "ab" language, otherwise // search all languages. if (st.orgpat->len > 3 && pat[st.orgpat->len - 3] == '@' && ASCII_ISALPHA(pat[st.orgpat->len - 2]) && ASCII_ISALPHA(pat[st.orgpat->len - 1])) { saved_pat = xstrnsave(pat, (size_t)st.orgpat->len - 3); st.help_lang_find = &pat[st.orgpat->len - 2]; st.orgpat->pat = saved_pat; st.orgpat->len -= 3; } } if (p_tl != 0 && st.orgpat->len > p_tl) { // adjust for 'taglength' st.orgpat->len = (int)p_tl; } int save_emsg_off = emsg_off; emsg_off = true; // don't want error for invalid RE here prepare_pats(st.orgpat, has_re); emsg_off = save_emsg_off; if (has_re && st.orgpat->regmatch.regprog == NULL) { goto findtag_end; } retval = findtags_apply_tfu(&st, pat, buf_ffname); if (retval != NOTDONE) { goto findtag_end; } // re-initialize the default return value retval = FAIL; // Set a flag if the file extension is .txt if ((flags & TAG_KEEP_LANG) && st.help_lang_find == NULL && curbuf->b_fname != NULL && (i = (int)strlen(curbuf->b_fname)) > 4 && STRICMP(curbuf->b_fname + i - 4, ".txt") == 0) { st.is_txt = true; } // When finding a specified number of matches, first try with matching // case, so binary search can be used, and try ignore-case matches in a // second loop. // When finding all matches, 'tagbsearch' is off, or there is no fixed // string to look for, ignore case right away to avoid going though the // tags files twice. // When the tag file is case-fold sorted, it is either one or the other. // Only ignore case when TAG_NOIC not used or 'ignorecase' set. st.orgpat->regmatch.rm_ic = ((p_ic || !noic) && (findall || st.orgpat->headlen == 0 || !p_tbs)); for (int round = 1; round <= 2; round++) { st.linear = (st.orgpat->headlen == 0 || !p_tbs || round == 2); // Try tag file names from tags option one by one. for (first_file = true; get_tagfname(&tn, first_file, st.tag_fname) == OK; first_file = false) { findtags_in_file(&st, flags, buf_ffname); if (st.stop_searching) { retval = OK; break; } } // end of for-each-file loop tagname_free(&tn); // stop searching when already did a linear search, or when TAG_NOIC // used, and 'ignorecase' not set or already did case-ignore search if (st.stop_searching || st.linear || (!p_ic && noic) || st.orgpat->regmatch.rm_ic) { break; } // try another time while ignoring case st.orgpat->regmatch.rm_ic = true; } if (!st.stop_searching) { if (!st.did_open && verbose) { // never opened any tags file emsg(_("E433: No tags file")); } retval = OK; // It's OK even when no tag found } findtag_end: findtags_state_free(&st); // Move the matches from the ga_match[] arrays into one list of // matches. When retval == FAIL, free the matches. if (retval == FAIL) { st.match_count = 0; } *num_matches = findtags_copy_matches(&st, matchesp); curbuf->b_help = help_save; xfree(saved_pat); p_ic = save_p_ic; return retval; } static garray_T tag_fnames = GA_EMPTY_INIT_VALUE; // Callback function for finding all "tags" and "tags-??" files in // 'runtimepath' doc directories. static bool found_tagfile_cb(int num_fnames, char **fnames, bool all, void *cookie) { for (int i = 0; i < num_fnames; i++) { char *const tag_fname = xstrdup(fnames[i]); #ifdef BACKSLASH_IN_FILENAME slash_adjust(tag_fname); #endif simplify_filename(tag_fname); GA_APPEND(char *, &tag_fnames, tag_fname); if (!all) { break; } } return num_fnames > 0; } #if defined(EXITFREE) void free_tag_stuff(void) { ga_clear_strings(&tag_fnames); do_tag(NULL, DT_FREE, 0, 0, 0); tag_freematch(); tagstack_clear_entry(&ptag_entry); } #endif /// Get the next name of a tag file from the tag file list. /// For help files, use "tags" file only. /// /// @param tnp holds status info /// @param first true when first file name is wanted /// @param buf pointer to buffer of MAXPATHL chars /// /// @return FAIL if no more tag file names, OK otherwise. int get_tagfname(tagname_T *tnp, int first, char *buf) { char *fname = NULL; if (first) { CLEAR_POINTER(tnp); } if (curbuf->b_help) { // For help files it's done in a completely different way: // Find "doc/tags" and "doc/tags-??" in all directories in // 'runtimepath'. if (first) { ga_clear_strings(&tag_fnames); ga_init(&tag_fnames, (int)sizeof(char *), 10); do_in_runtimepath("doc/tags doc/tags-??", DIP_ALL, found_tagfile_cb, NULL); } if (tnp->tn_hf_idx >= tag_fnames.ga_len) { // Not found in 'runtimepath', use 'helpfile', if it exists and // wasn't used yet, replacing "help.txt" with "tags". if (tnp->tn_hf_idx > tag_fnames.ga_len || *p_hf == NUL) { return FAIL; } tnp->tn_hf_idx++; STRCPY(buf, p_hf); STRCPY(path_tail(buf), "tags"); #ifdef BACKSLASH_IN_FILENAME slash_adjust(buf); #endif simplify_filename(buf); for (int i = 0; i < tag_fnames.ga_len; i++) { if (strcmp(buf, ((char **)(tag_fnames.ga_data))[i]) == 0) { return FAIL; // avoid duplicate file names } } } else { xstrlcpy(buf, ((char **)(tag_fnames.ga_data))[tnp->tn_hf_idx++], MAXPATHL); } return OK; } if (first) { // Init. We make a copy of 'tags', because autocommands may change // the value without notifying us. tnp->tn_tags = xstrdup((*curbuf->b_p_tags != NUL) ? curbuf->b_p_tags : p_tags); tnp->tn_np = tnp->tn_tags; } // Loop until we have found a file name that can be used. // There are two states: // tnp->tn_did_filefind_init == false: setup for next part in 'tags'. // tnp->tn_did_filefind_init == true: find next file in this part. while (true) { if (tnp->tn_did_filefind_init) { fname = vim_findfile(tnp->tn_search_ctx); if (fname != NULL) { break; } tnp->tn_did_filefind_init = false; } else { char *filename = NULL; // Stop when used all parts of 'tags'. if (*tnp->tn_np == NUL) { vim_findfile_cleanup(tnp->tn_search_ctx); tnp->tn_search_ctx = NULL; return FAIL; } // Copy next file name into buf. buf[0] = NUL; (void)copy_option_part(&tnp->tn_np, buf, MAXPATHL - 1, " ,"); char *r_ptr = vim_findfile_stopdir(buf); // move the filename one char forward and truncate the // filepath with a NUL filename = path_tail(buf); STRMOVE(filename + 1, filename); *filename++ = NUL; tnp->tn_search_ctx = vim_findfile_init(buf, filename, r_ptr, 100, false, // don't free visited list FINDFILE_FILE, // we search for a file tnp->tn_search_ctx, true, curbuf->b_ffname); if (tnp->tn_search_ctx != NULL) { tnp->tn_did_filefind_init = true; } } } STRCPY(buf, fname); xfree(fname); return OK; } // Free the contents of a tagname_T that was filled by get_tagfname(). void tagname_free(tagname_T *tnp) { xfree(tnp->tn_tags); vim_findfile_cleanup(tnp->tn_search_ctx); tnp->tn_search_ctx = NULL; ga_clear_strings(&tag_fnames); } /// Parse one line from the tags file. Find start/end of tag name, start/end of /// file name and start of search pattern. /// /// If is_etag is true, tagp->fname and tagp->fname_end are not set. /// /// @param lbuf line to be parsed /// /// @return FAIL if there is a format error in this line, OK otherwise. static int parse_tag_line(char *lbuf, tagptrs_T *tagp) { // Isolate the tagname, from lbuf up to the first white tagp->tagname = lbuf; char *p = vim_strchr(lbuf, TAB); if (p == NULL) { return FAIL; } tagp->tagname_end = p; // Isolate file name, from first to second white space if (*p != NUL) { p++; } tagp->fname = p; p = vim_strchr(p, TAB); if (p == NULL) { return FAIL; } tagp->fname_end = p; // find start of search command, after second white space if (*p != NUL) { p++; } if (*p == NUL) { return FAIL; } tagp->command = p; return OK; } // Check if tagname is a static tag // // Static tags produced by the older ctags program have the format: // 'file:tag file /pattern'. // This is only recognized when both occurrence of 'file' are the same, to // avoid recognizing "string::string" or ":exit". // // Static tags produced by the new ctags program have the format: // 'tag file /pattern/;"file:' " // // Return true if it is a static tag and adjust *tagname to the real tag. // Return false if it is not a static tag. static bool test_for_static(tagptrs_T *tagp) { // Check for new style static tag ":...file:[...]" char *p = tagp->command; while ((p = vim_strchr(p, '\t')) != NULL) { p++; if (strncmp(p, "file:", 5) == 0) { return true; } } return false; } /// @return the length of a matching tag line. static size_t matching_line_len(const char *const lbuf) { const char *p = lbuf + 1; // does the same thing as parse_match() p += strlen(p) + 1; return (size_t)(p - lbuf) + strlen(p); } /// Parse a line from a matching tag. Does not change the line itself. /// /// The line that we get looks like this: /// Emacs tag: /// other tag: /// without Emacs tags: /// /// @param lbuf input: matching line /// @param tagp output: pointers into the line /// /// @return OK or FAIL. static int parse_match(char *lbuf, tagptrs_T *tagp) { tagp->tag_fname = lbuf + 1; lbuf += strlen(tagp->tag_fname) + 2; // Find search pattern and the file name for non-etags. int retval = parse_tag_line(lbuf, tagp); tagp->tagkind = NULL; tagp->user_data = NULL; tagp->tagline = 0; tagp->command_end = NULL; if (retval != OK) { return retval; } // Try to find a kind field: "kind:" or just "" char *p = tagp->command; if (find_extra(&p) == OK) { tagp->command_end = p; if (p > tagp->command && p[-1] == '|') { tagp->command_end = p - 1; // drop trailing bar } p += 2; // skip ";\"" if (*p++ == TAB) { // Accept ASCII alphabetic kind characters and any multi-byte // character. while (ASCII_ISALPHA(*p) || utfc_ptr2len(p) > 1) { if (strncmp(p, "kind:", 5) == 0) { tagp->tagkind = p + 5; } else if (strncmp(p, "user_data:", 10) == 0) { tagp->user_data = p + 10; } else if (strncmp(p, "line:", 5) == 0) { tagp->tagline = atoi(p + 5); } if (tagp->tagkind != NULL && tagp->user_data != NULL) { break; } char *pc = vim_strchr(p, ':'); char *pt = vim_strchr(p, '\t'); if (pc == NULL || (pt != NULL && pc > pt)) { tagp->tagkind = p; } if (pt == NULL) { break; } p = pt; MB_PTR_ADV(p); } } } if (tagp->tagkind != NULL) { for (p = tagp->tagkind; *p && *p != '\t' && *p != '\r' && *p != '\n'; MB_PTR_ADV(p)) {} tagp->tagkind_end = p; } if (tagp->user_data != NULL) { for (p = tagp->user_data; *p && *p != '\t' && *p != '\r' && *p != '\n'; MB_PTR_ADV(p)) {} tagp->user_data_end = p; } return retval; } // Find out the actual file name of a tag. Concatenate the tags file name // with the matching tag file name. // Returns an allocated string. static char *tag_full_fname(tagptrs_T *tagp) { char c = *tagp->fname_end; *tagp->fname_end = NUL; char *fullname = expand_tag_fname(tagp->fname, tagp->tag_fname, false); *tagp->fname_end = c; return fullname; } /// Jump to a tag that has been found in one of the tag files /// /// @param lbuf_arg line from the tags file for this tag /// @param forceit :ta with ! /// @param keep_help keep help flag /// /// @return OK for success, NOTAGFILE when file not found, FAIL otherwise. static int jumpto_tag(const char *lbuf_arg, int forceit, int keep_help) { char *pbuf_end; char *tofree_fname = NULL; tagptrs_T tagp; int retval = FAIL; int getfile_result = GETFILE_UNUSED; int search_options; win_T *curwin_save = NULL; char *full_fname = NULL; const bool old_KeyTyped = KeyTyped; // getting the file may reset it const int l_g_do_tagpreview = g_do_tagpreview; const size_t len = matching_line_len(lbuf_arg) + 1; char *lbuf = xmalloc(len); memmove(lbuf, lbuf_arg, len); char *pbuf = xmalloc(LSIZE); // search pattern buffer // parse the match line into the tagp structure if (parse_match(lbuf, &tagp) == FAIL) { tagp.fname_end = NULL; goto erret; } // truncate the file name, so it can be used as a string *tagp.fname_end = NUL; char *fname = tagp.fname; // copy the command to pbuf[], remove trailing CR/NL char *str = tagp.command; for (pbuf_end = pbuf; *str && *str != '\n' && *str != '\r';) { *pbuf_end++ = *str++; if (pbuf_end - pbuf + 1 >= LSIZE) { break; } } *pbuf_end = NUL; { // Remove the "fieldname:value" stuff; we don't need it here. str = pbuf; if (find_extra(&str) == OK) { pbuf_end = str; *pbuf_end = NUL; } } // Expand file name, when needed (for environment variables). // If 'tagrelative' option set, may change file name. fname = expand_tag_fname(fname, tagp.tag_fname, true); tofree_fname = fname; // free() it later // Check if the file with the tag exists before abandoning the current // file. Also accept a file name for which there is a matching BufReadCmd // autocommand event (e.g., http://sys/file). if (!os_path_exists(fname) && !has_autocmd(EVENT_BUFREADCMD, fname, NULL)) { retval = NOTAGFILE; xfree(nofile_fname); nofile_fname = xstrdup(fname); goto erret; } RedrawingDisabled++; if (l_g_do_tagpreview != 0) { postponed_split = 0; // don't split again below curwin_save = curwin; // Save current window // If we are reusing a window, we may change dir when // entering it (autocommands) so turn the tag filename // into a fullpath if (!curwin->w_p_pvw) { full_fname = FullName_save(fname, false); fname = full_fname; // Make the preview window the current window. // Open a preview window when needed. prepare_tagpreview(true); } } // If it was a CTRL-W CTRL-] command split window now. For ":tab tag" // open a new tab page. if (postponed_split && (swb_flags & (SWB_USEOPEN | SWB_USETAB))) { buf_T *const existing_buf = buflist_findname_exp(fname); if (existing_buf != NULL) { // If 'switchbuf' is set jump to the window containing "buf". if (swbuf_goto_win_with_buf(existing_buf) != NULL) { // We've switched to the buffer, the usual loading of the file // must be skipped. getfile_result = GETFILE_SAME_FILE; } } } if (getfile_result == GETFILE_UNUSED && (postponed_split || cmdmod.cmod_tab != 0)) { if (win_split(postponed_split > 0 ? postponed_split : 0, postponed_split_flags) == FAIL) { RedrawingDisabled--; goto erret; } RESET_BINDING(curwin); } if (keep_help) { // A :ta from a help file will keep the b_help flag set. For ":ptag" // we need to use the flag from the window where we came from. if (l_g_do_tagpreview != 0) { keep_help_flag = bt_help(curwin_save->w_buffer); } else { keep_help_flag = curbuf->b_help; } } if (getfile_result == GETFILE_UNUSED) { // Careful: getfile() may trigger autocommands and call jumpto_tag() // recursively. getfile_result = getfile(0, fname, NULL, true, 0, forceit); } keep_help_flag = false; if (GETFILE_SUCCESS(getfile_result)) { // got to the right file curwin->w_set_curswant = true; postponed_split = 0; const optmagic_T save_magic_overruled = magic_overruled; magic_overruled = OPTION_MAGIC_OFF; // always execute with 'nomagic' // Save value of no_hlsearch, jumping to a tag is not a real search const bool save_no_hlsearch = no_hlsearch; // If 'cpoptions' contains 't', store the search pattern for the "n" // command. If 'cpoptions' does not contain 't', the search pattern // is not stored. if (vim_strchr(p_cpo, CPO_TAGPAT) != NULL) { search_options = 0; } else { search_options = SEARCH_KEEP; } // If the command is a search, try here. // // Reset 'smartcase' for the search, since the search pattern was not // typed by the user. // Only use do_search() when there is a full search command, without // anything following. str = pbuf; if (pbuf[0] == '/' || pbuf[0] == '?') { str = skip_regexp(pbuf + 1, pbuf[0], false) + 1; } if (str > pbuf_end - 1) { // search command with nothing following bool save_p_ws = p_ws; int save_p_ic = p_ic; int save_p_scs = p_scs; p_ws = true; // need 'wrapscan' for backward searches p_ic = false; // don't ignore case now p_scs = false; linenr_T save_lnum = curwin->w_cursor.lnum; if (tagp.tagline > 0) { // start search before line from "line:" field curwin->w_cursor.lnum = tagp.tagline - 1; } else { // start search before first line curwin->w_cursor.lnum = 0; } if (do_search(NULL, pbuf[0], pbuf[0], pbuf + 1, 1, search_options, NULL)) { retval = OK; } else { int found = 1; // try again, ignore case now p_ic = true; if (!do_search(NULL, pbuf[0], pbuf[0], pbuf + 1, 1, search_options, NULL)) { // Failed to find pattern, take a guess: "^func (" found = 2; (void)test_for_static(&tagp); char cc = *tagp.tagname_end; *tagp.tagname_end = NUL; snprintf(pbuf, LSIZE, "^%s\\s\\*(", tagp.tagname); if (!do_search(NULL, '/', '/', pbuf, 1, search_options, NULL)) { // Guess again: "^char * \w_cursor.lnum = save_lnum; } else { // Only give a message when really guessed, not when 'ic' // is set and match found while ignoring case. if (found == 2 || !save_p_ic) { msg(_("E435: Couldn't find tag, just guessing!"), 0); if (!msg_scrolled && msg_silent == 0) { ui_flush(); os_delay(1010, true); } } retval = OK; } } p_ws = save_p_ws; p_ic = save_p_ic; p_scs = save_p_scs; // A search command may have positioned the cursor beyond the end // of the line. May need to correct that here. check_cursor(); } else { const int save_secure = secure; // Setup the sandbox for executing the command from the tags file. secure = 1; sandbox++; curwin->w_cursor.lnum = 1; // start command in line 1 do_cmdline_cmd(pbuf); retval = OK; // When the command has done something that is not allowed make sure // the error message can be seen. if (secure == 2) { wait_return(true); } secure = save_secure; sandbox--; } magic_overruled = save_magic_overruled; // restore no_hlsearch when keeping the old search pattern if (search_options) { set_no_hlsearch(save_no_hlsearch); } // Return OK if jumped to another file (at least we found the file!). if (getfile_result == GETFILE_OPEN_OTHER) { retval = OK; } if (retval == OK) { // For a help buffer: Put the cursor line at the top of the window, // the help subject will be below it. if (curbuf->b_help) { set_topline(curwin, curwin->w_cursor.lnum); } if ((fdo_flags & FDO_TAG) && old_KeyTyped) { foldOpenCursor(); } } if (l_g_do_tagpreview != 0 && curwin != curwin_save && win_valid(curwin_save)) { // Return cursor to where we were validate_cursor(); redraw_later(curwin, UPD_VALID); win_enter(curwin_save, true); } RedrawingDisabled--; } else { RedrawingDisabled--; if (postponed_split) { // close the window win_close(curwin, false, false); postponed_split = 0; } } erret: g_do_tagpreview = 0; // For next time xfree(lbuf); xfree(pbuf); xfree(tofree_fname); xfree(full_fname); return retval; } /// If "expand" is true, expand wildcards in fname. /// If 'tagrelative' option set, change fname (name of file containing tag) /// according to tag_fname (name of tag file containing fname). /// /// @return a pointer to allocated memory. static char *expand_tag_fname(char *fname, char *const tag_fname, const bool expand) { char *p; char *expanded_fname = NULL; expand_T xpc; // Expand file name (for environment variables) when needed. if (expand && path_has_wildcard(fname)) { ExpandInit(&xpc); xpc.xp_context = EXPAND_FILES; expanded_fname = ExpandOne(&xpc, fname, NULL, WILD_LIST_NOTFOUND|WILD_SILENT, WILD_EXPAND_FREE); if (expanded_fname != NULL) { fname = expanded_fname; } } char *retval; if ((p_tr || curbuf->b_help) && !vim_isAbsName(fname) && (p = path_tail(tag_fname)) != tag_fname) { retval = xmalloc(MAXPATHL); STRCPY(retval, tag_fname); xstrlcpy(retval + (p - tag_fname), fname, (size_t)(MAXPATHL - (p - tag_fname))); // Translate names like "src/a/../b/file.c" into "src/b/file.c". simplify_filename(retval); } else { retval = xstrdup(fname); } xfree(expanded_fname); return retval; } /// Check if we have a tag for the buffer with name "buf_ffname". /// This is a bit slow, because of the full path compare in path_full_compare(). /// /// @return true if tag for file "fname" if tag file "tag_fname" is for current /// file. static int test_for_current(char *fname, char *fname_end, char *tag_fname, char *buf_ffname) { int retval = false; if (buf_ffname != NULL) { // if the buffer has a name char c; { c = *fname_end; *fname_end = NUL; } char *fullname = expand_tag_fname(fname, tag_fname, true); retval = (path_full_compare(fullname, buf_ffname, true, true) & kEqualFiles); xfree(fullname); *fname_end = c; } return retval; } // Find the end of the tagaddress. // Return OK if ";\"" is following, FAIL otherwise. static int find_extra(char **pp) { char *str = *pp; char first_char = **pp; // Repeat for addresses separated with ';' while (true) { if (ascii_isdigit(*str)) { str = skipdigits(str + 1); } else if (*str == '/' || *str == '?') { str = skip_regexp(str + 1, *str, false); if (*str != first_char) { str = NULL; } else { str++; } } else { // not a line number or search string, look for terminator. str = strstr(str, "|;\""); if (str != NULL) { str++; break; } } if (str == NULL || *str != ';' || !(ascii_isdigit(str[1]) || str[1] == '/' || str[1] == '?')) { break; } str++; // skip ';' first_char = *str; } if (str != NULL && strncmp(str, ";\"", 2) == 0) { *pp = str; return OK; } return FAIL; } // // Free a single entry in a tag stack // static void tagstack_clear_entry(taggy_T *item) { XFREE_CLEAR(item->tagname); XFREE_CLEAR(item->user_data); } /// @param tagnames expand tag names int expand_tags(int tagnames, char *pat, int *num_file, char ***file) { int extra_flag; size_t name_buf_size = 100; tagptrs_T t_p; int ret; char *name_buf = xmalloc(name_buf_size); if (tagnames) { extra_flag = TAG_NAMES; } else { extra_flag = 0; } if (pat[0] == '/') { ret = find_tags(pat + 1, num_file, file, TAG_REGEXP | extra_flag | TAG_VERBOSE | TAG_NO_TAGFUNC, TAG_MANY, curbuf->b_ffname); } else { ret = find_tags(pat, num_file, file, TAG_REGEXP | extra_flag | TAG_VERBOSE | TAG_NO_TAGFUNC | TAG_NOIC, TAG_MANY, curbuf->b_ffname); } if (ret == OK && !tagnames) { // Reorganize the tags for display and matching as strings of: // "\0\0\0" for (int i = 0; i < *num_file; i++) { size_t len; parse_match((*file)[i], &t_p); len = (size_t)(t_p.tagname_end - t_p.tagname); if (len > name_buf_size - 3) { char *buf; name_buf_size = len + 3; buf = xrealloc(name_buf, name_buf_size); name_buf = buf; } memmove(name_buf, t_p.tagname, len); name_buf[len++] = 0; name_buf[len++] = (t_p.tagkind != NULL && *t_p.tagkind) ? *t_p.tagkind : 'f'; name_buf[len++] = 0; memmove((*file)[i] + len, t_p.fname, (size_t)(t_p.fname_end - t_p.fname)); (*file)[i][len + (size_t)(t_p.fname_end - t_p.fname)] = 0; memmove((*file)[i], name_buf, len); } } xfree(name_buf); return ret; } /// Add a tag field to the dictionary "dict". /// Return OK or FAIL. /// /// @param start start of the value /// @param end after the value; can be NULL static int add_tag_field(dict_T *dict, const char *field_name, const char *start, const char *end) FUNC_ATTR_NONNULL_ARG(1, 2) { int len = 0; // Check that the field name doesn't exist yet. if (tv_dict_find(dict, field_name, -1) != NULL) { if (p_verbose > 0) { verbose_enter(); smsg(0, _("Duplicate field name: %s"), field_name); verbose_leave(); } return FAIL; } char *buf = xmalloc(MAXPATHL); if (start != NULL) { if (end == NULL) { end = start + strlen(start); while (end > start && (end[-1] == '\r' || end[-1] == '\n')) { end--; } } len = (int)(end - start); if (len > MAXPATHL - 1) { len = MAXPATHL - 1; } xstrlcpy(buf, start, (size_t)len + 1); } buf[len] = NUL; int retval = tv_dict_add_str(dict, field_name, strlen(field_name), buf); xfree(buf); return retval; } /// Add the tags matching the specified pattern "pat" to the list "list" /// as a dictionary. Use "buf_fname" for priority, unless NULL. int get_tags(list_T *list, char *pat, char *buf_fname) { int num_matches; char **matches; tagptrs_T tp; int ret = find_tags(pat, &num_matches, &matches, TAG_REGEXP | TAG_NOIC, MAXCOL, buf_fname); if (ret != OK || num_matches <= 0) { return ret; } for (int i = 0; i < num_matches; i++) { if (parse_match(matches[i], &tp) == FAIL) { xfree(matches[i]); continue; } bool is_static = test_for_static(&tp); // Skip pseudo-tag lines. if (strncmp(tp.tagname, "!_TAG_", 6) == 0) { xfree(matches[i]); continue; } dict_T *dict = tv_dict_alloc(); tv_list_append_dict(list, dict); char *full_fname = tag_full_fname(&tp); if (add_tag_field(dict, "name", tp.tagname, tp.tagname_end) == FAIL || add_tag_field(dict, "filename", full_fname, NULL) == FAIL || add_tag_field(dict, "cmd", tp.command, tp.command_end) == FAIL || add_tag_field(dict, "kind", tp.tagkind, tp.tagkind ? tp.tagkind_end : NULL) == FAIL || tv_dict_add_nr(dict, S_LEN("static"), is_static) == FAIL) { ret = FAIL; } xfree(full_fname); if (tp.command_end != NULL) { for (char *p = tp.command_end + 3; *p != NUL && *p != '\n' && *p != '\r'; MB_PTR_ADV(p)) { if (p == tp.tagkind || (p + 5 == tp.tagkind && strncmp(p, "kind:", 5) == 0)) { // skip "kind:" and "" p = tp.tagkind_end - 1; } else if (strncmp(p, "file:", 5) == 0) { // skip "file:" (static tag) p += 4; } else if (!ascii_iswhite(*p)) { char *n; int len; // Add extra field as a dict entry. Fields are // separated by Tabs. n = p; while (*p != NUL && *p >= ' ' && *p < 127 && *p != ':') { p++; } len = (int)(p - n); if (*p == ':' && len > 0) { char *s = ++p; while (*p != NUL && (uint8_t)(*p) >= ' ') { p++; } n[len] = NUL; if (add_tag_field(dict, n, s, p) == FAIL) { ret = FAIL; } n[len] = ':'; } else { // Skip field without colon. while (*p != NUL && (uint8_t)(*p) >= ' ') { p++; } } if (*p == NUL) { break; } } } } xfree(matches[i]); } xfree(matches); return ret; } // Return information about 'tag' in dict 'retdict'. static void get_tag_details(taggy_T *tag, dict_T *retdict) { tv_dict_add_str(retdict, S_LEN("tagname"), tag->tagname); tv_dict_add_nr(retdict, S_LEN("matchnr"), tag->cur_match + 1); tv_dict_add_nr(retdict, S_LEN("bufnr"), tag->cur_fnum); if (tag->user_data) { tv_dict_add_str(retdict, S_LEN("user_data"), tag->user_data); } list_T *pos = tv_list_alloc(4); tv_dict_add_list(retdict, S_LEN("from"), pos); fmark_T *fmark = &tag->fmark; tv_list_append_number(pos, (varnumber_T)(fmark->fnum != -1 ? fmark->fnum : 0)); tv_list_append_number(pos, (varnumber_T)fmark->mark.lnum); tv_list_append_number(pos, (varnumber_T)(fmark->mark.col == MAXCOL ? MAXCOL : fmark->mark.col + 1)); tv_list_append_number(pos, (varnumber_T)fmark->mark.coladd); } // Return the tag stack entries of the specified window 'wp' in dictionary // 'retdict'. void get_tagstack(win_T *wp, dict_T *retdict) { tv_dict_add_nr(retdict, S_LEN("length"), wp->w_tagstacklen); tv_dict_add_nr(retdict, S_LEN("curidx"), wp->w_tagstackidx + 1); list_T *l = tv_list_alloc(2); tv_dict_add_list(retdict, S_LEN("items"), l); for (int i = 0; i < wp->w_tagstacklen; i++) { dict_T *d = tv_dict_alloc(); tv_list_append_dict(l, d); get_tag_details(&wp->w_tagstack[i], d); } } // Free all the entries in the tag stack of the specified window static void tagstack_clear(win_T *wp) { // Free the current tag stack for (int i = 0; i < wp->w_tagstacklen; i++) { tagstack_clear_entry(&wp->w_tagstack[i]); } wp->w_tagstacklen = 0; wp->w_tagstackidx = 0; } // Remove the oldest entry from the tag stack and shift the rest of // the entries to free up the top of the stack. static void tagstack_shift(win_T *wp) { taggy_T *tagstack = wp->w_tagstack; tagstack_clear_entry(&tagstack[0]); for (int i = 1; i < wp->w_tagstacklen; i++) { tagstack[i - 1] = tagstack[i]; } wp->w_tagstacklen--; } /// Push a new item to the tag stack static void tagstack_push_item(win_T *wp, char *tagname, int cur_fnum, int cur_match, pos_T mark, int fnum, char *user_data) { taggy_T *tagstack = wp->w_tagstack; int idx = wp->w_tagstacklen; // top of the stack // if the tagstack is full: remove the oldest entry if (idx >= TAGSTACKSIZE) { tagstack_shift(wp); idx = TAGSTACKSIZE - 1; } wp->w_tagstacklen++; tagstack[idx].tagname = tagname; tagstack[idx].cur_fnum = cur_fnum; tagstack[idx].cur_match = cur_match; if (tagstack[idx].cur_match < 0) { tagstack[idx].cur_match = 0; } tagstack[idx].fmark.mark = mark; tagstack[idx].fmark.fnum = fnum; tagstack[idx].user_data = user_data; } /// Add a list of items to the tag stack in the specified window static void tagstack_push_items(win_T *wp, list_T *l) { dictitem_T *di; char *tagname; pos_T mark; int fnum; // Add one entry at a time to the tag stack for (listitem_T *li = tv_list_first(l); li != NULL; li = TV_LIST_ITEM_NEXT(l, li)) { if (TV_LIST_ITEM_TV(li)->v_type != VAR_DICT || TV_LIST_ITEM_TV(li)->vval.v_dict == NULL) { continue; // Skip non-dict items } dict_T *itemdict = TV_LIST_ITEM_TV(li)->vval.v_dict; // parse 'from' for the cursor position before the tag jump if ((di = tv_dict_find(itemdict, "from", -1)) == NULL) { continue; } if (list2fpos(&di->di_tv, &mark, &fnum, NULL, false) != OK) { continue; } if ((tagname = tv_dict_get_string(itemdict, "tagname", true)) == NULL) { continue; } if (mark.col > 0) { mark.col--; } tagstack_push_item(wp, tagname, (int)tv_dict_get_number(itemdict, "bufnr"), (int)tv_dict_get_number(itemdict, "matchnr") - 1, mark, fnum, tv_dict_get_string(itemdict, "user_data", true)); } } // Set the current index in the tag stack. Valid values are between 0 // and the stack length (inclusive). static void tagstack_set_curidx(win_T *wp, int curidx) { wp->w_tagstackidx = curidx; if (wp->w_tagstackidx < 0) { // sanity check wp->w_tagstackidx = 0; } if (wp->w_tagstackidx > wp->w_tagstacklen) { wp->w_tagstackidx = wp->w_tagstacklen; } } // Set the tag stack entries of the specified window. // 'action' is set to one of: // 'a' for append // 'r' for replace // 't' for truncate int set_tagstack(win_T *wp, const dict_T *d, int action) FUNC_ATTR_NONNULL_ARG(1) { dictitem_T *di; list_T *l = NULL; // not allowed to alter the tag stack entries from inside tagfunc if (tfu_in_use) { emsg(_(e_cannot_modify_tag_stack_within_tagfunc)); return FAIL; } if ((di = tv_dict_find(d, "items", -1)) != NULL) { if (di->di_tv.v_type != VAR_LIST) { emsg(_(e_listreq)); return FAIL; } l = di->di_tv.vval.v_list; } if ((di = tv_dict_find(d, "curidx", -1)) != NULL) { tagstack_set_curidx(wp, (int)tv_get_number(&di->di_tv) - 1); } if (action == 't') { // truncate the stack taggy_T *const tagstack = wp->w_tagstack; const int tagstackidx = wp->w_tagstackidx; int tagstacklen = wp->w_tagstacklen; // delete all the tag stack entries above the current entry while (tagstackidx < tagstacklen) { tagstack_clear_entry(&tagstack[--tagstacklen]); } wp->w_tagstacklen = tagstacklen; } if (l != NULL) { if (action == 'r') { // replace the stack tagstack_clear(wp); } tagstack_push_items(wp, l); // set the current index after the last entry wp->w_tagstackidx = wp->w_tagstacklen; } return OK; }