Mercurial > vim
view src/fold.c @ 19828:2dc8d3e6993e v8.2.0470
patch 8.2.0470: Test_confirm_cmd_cancel() can fail on a slow system
Commit: https://github.com/vim/vim/commit/7b1b36b1cb744e87adfbef88b7ce26c863b0594a
Author: Bram Moolenaar <Bram@vim.org>
Date: Sat Mar 28 21:48:55 2020 +0100
patch 8.2.0470: Test_confirm_cmd_cancel() can fail on a slow system
Problem: Test_confirm_cmd_cancel() can fail on a slow system.
Solution: Use WaitForAssert(). (Ozaki Kiichi, closes https://github.com/vim/vim/issues/5861)
author | Bram Moolenaar <Bram@vim.org> |
---|---|
date | Sat, 28 Mar 2020 22:00:04 +0100 |
parents | 8f05b3cf8557 |
children | 3af71cbcfdbe |
line wrap: on
line source
/* vi:set ts=8 sts=4 sw=4 noet: * vim600:fdm=marker fdl=1 fdc=3: * * VIM - Vi IMproved by Bram Moolenaar * * Do ":help uganda" in Vim to read copying and usage conditions. * Do ":help credits" in Vim to see a list of people who contributed. * See README.txt for an overview of the Vim source code. */ /* * fold.c: code for folding */ #include "vim.h" #if defined(FEAT_FOLDING) || defined(PROTO) // local declarations. {{{1 // typedef fold_T {{{2 /* * The toplevel folds for each window are stored in the w_folds growarray. * Each toplevel fold can contain an array of second level folds in the * fd_nested growarray. * The info stored in both growarrays is the same: An array of fold_T. */ typedef struct { linenr_T fd_top; // first line of fold; for nested fold // relative to parent linenr_T fd_len; // number of lines in the fold garray_T fd_nested; // array of nested folds char fd_flags; // see below char fd_small; // TRUE, FALSE or MAYBE: fold smaller than // 'foldminlines'; MAYBE applies to nested // folds too } fold_T; #define FD_OPEN 0 // fold is open (nested ones can be closed) #define FD_CLOSED 1 // fold is closed #define FD_LEVEL 2 // depends on 'foldlevel' (nested folds too) #define MAX_LEVEL 20 // maximum fold depth // static functions {{{2 static void newFoldLevelWin(win_T *wp); static int checkCloseRec(garray_T *gap, linenr_T lnum, int level); static int foldFind(garray_T *gap, linenr_T lnum, fold_T **fpp); static int foldLevelWin(win_T *wp, linenr_T lnum); static void checkupdate(win_T *wp); static void setFoldRepeat(linenr_T lnum, long count, int do_open); static linenr_T setManualFold(linenr_T lnum, int opening, int recurse, int *donep); static linenr_T setManualFoldWin(win_T *wp, linenr_T lnum, int opening, int recurse, int *donep); static void foldOpenNested(fold_T *fpr); static void deleteFoldEntry(garray_T *gap, int idx, int recursive); static void foldMarkAdjustRecurse(garray_T *gap, linenr_T line1, linenr_T line2, long amount, long amount_after); static int getDeepestNestingRecurse(garray_T *gap); static int check_closed(win_T *win, fold_T *fp, int *use_levelp, int level, int *maybe_smallp, linenr_T lnum_off); static void checkSmall(win_T *wp, fold_T *fp, linenr_T lnum_off); static void setSmallMaybe(garray_T *gap); static void foldCreateMarkers(linenr_T start, linenr_T end); static void foldAddMarker(linenr_T lnum, char_u *marker, int markerlen); static void deleteFoldMarkers(fold_T *fp, int recursive, linenr_T lnum_off); static void foldDelMarker(linenr_T lnum, char_u *marker, int markerlen); static void foldUpdateIEMS(win_T *wp, linenr_T top, linenr_T bot); static void parseMarker(win_T *wp); static char *e_nofold = N_("E490: No fold found"); /* * While updating the folds lines between invalid_top and invalid_bot have an * undefined fold level. Only used for the window currently being updated. */ static linenr_T invalid_top = (linenr_T)0; static linenr_T invalid_bot = (linenr_T)0; /* * When using 'foldexpr' we sometimes get the level of the next line, which * calls foldlevel() to get the level of the current line, which hasn't been * stored yet. To get around this chicken-egg problem the level of the * previous line is stored here when available. prev_lnum is zero when the * level is not available. */ static linenr_T prev_lnum = 0; static int prev_lnum_lvl = -1; // Flags used for "done" argument of setManualFold. #define DONE_NOTHING 0 #define DONE_ACTION 1 // did close or open a fold #define DONE_FOLD 2 // did find a fold static int foldstartmarkerlen; static char_u *foldendmarker; static int foldendmarkerlen; // Exported folding functions. {{{1 // copyFoldingState() {{{2 /* * Copy that folding state from window "wp_from" to window "wp_to". */ void copyFoldingState(win_T *wp_from, win_T *wp_to) { wp_to->w_fold_manual = wp_from->w_fold_manual; wp_to->w_foldinvalid = wp_from->w_foldinvalid; cloneFoldGrowArray(&wp_from->w_folds, &wp_to->w_folds); } // hasAnyFolding() {{{2 /* * Return TRUE if there may be folded lines in the current window. */ int hasAnyFolding(win_T *win) { // very simple now, but can become more complex later return (win->w_p_fen && (!foldmethodIsManual(win) || win->w_folds.ga_len > 0)); } // hasFolding() {{{2 /* * Return TRUE if line "lnum" in the current window is part of a closed * fold. * When returning TRUE, *firstp and *lastp are set to the first and last * lnum of the sequence of folded lines (skipped when NULL). */ int hasFolding(linenr_T lnum, linenr_T *firstp, linenr_T *lastp) { return hasFoldingWin(curwin, lnum, firstp, lastp, TRUE, NULL); } // hasFoldingWin() {{{2 int hasFoldingWin( win_T *win, linenr_T lnum, linenr_T *firstp, linenr_T *lastp, int cache, // when TRUE: use cached values of window foldinfo_T *infop) // where to store fold info { int had_folded = FALSE; linenr_T first = 0; linenr_T last = 0; linenr_T lnum_rel = lnum; int x; fold_T *fp; int level = 0; int use_level = FALSE; int maybe_small = FALSE; garray_T *gap; int low_level = 0; checkupdate(win); /* * Return quickly when there is no folding at all in this window. */ if (!hasAnyFolding(win)) { if (infop != NULL) infop->fi_level = 0; return FALSE; } if (cache) { /* * First look in cached info for displayed lines. This is probably * the fastest, but it can only be used if the entry is still valid. */ x = find_wl_entry(win, lnum); if (x >= 0) { first = win->w_lines[x].wl_lnum; last = win->w_lines[x].wl_lastlnum; had_folded = win->w_lines[x].wl_folded; } } if (first == 0) { /* * Recursively search for a fold that contains "lnum". */ gap = &win->w_folds; for (;;) { if (!foldFind(gap, lnum_rel, &fp)) break; // Remember lowest level of fold that starts in "lnum". if (lnum_rel == fp->fd_top && low_level == 0) low_level = level + 1; first += fp->fd_top; last += fp->fd_top; // is this fold closed? had_folded = check_closed(win, fp, &use_level, level, &maybe_small, lnum - lnum_rel); if (had_folded) { // Fold closed: Set last and quit loop. last += fp->fd_len - 1; break; } // Fold found, but it's open: Check nested folds. Line number is // relative to containing fold. gap = &fp->fd_nested; lnum_rel -= fp->fd_top; ++level; } } if (!had_folded) { if (infop != NULL) { infop->fi_level = level; infop->fi_lnum = lnum - lnum_rel; infop->fi_low_level = low_level == 0 ? level : low_level; } return FALSE; } if (last > win->w_buffer->b_ml.ml_line_count) last = win->w_buffer->b_ml.ml_line_count; if (lastp != NULL) *lastp = last; if (firstp != NULL) *firstp = first; if (infop != NULL) { infop->fi_level = level + 1; infop->fi_lnum = first; infop->fi_low_level = low_level == 0 ? level + 1 : low_level; } return TRUE; } // foldLevel() {{{2 #ifdef FEAT_EVAL /* * Return fold level at line number "lnum" in the current window. */ static int foldLevel(linenr_T lnum) { // While updating the folds lines between invalid_top and invalid_bot have // an undefined fold level. Otherwise update the folds first. if (invalid_top == (linenr_T)0) checkupdate(curwin); else if (lnum == prev_lnum && prev_lnum_lvl >= 0) return prev_lnum_lvl; else if (lnum >= invalid_top && lnum <= invalid_bot) return -1; // Return quickly when there is no folding at all in this window. if (!hasAnyFolding(curwin)) return 0; return foldLevelWin(curwin, lnum); } #endif // lineFolded() {{{2 /* * Low level function to check if a line is folded. Doesn't use any caching. * Return TRUE if line is folded. * Return FALSE if line is not folded. * Return MAYBE if the line is folded when next to a folded line. */ int lineFolded(win_T *win, linenr_T lnum) { return foldedCount(win, lnum, NULL) != 0; } // foldedCount() {{{2 /* * Count the number of lines that are folded at line number "lnum". * Normally "lnum" is the first line of a possible fold, and the returned * number is the number of lines in the fold. * Doesn't use caching from the displayed window. * Returns number of folded lines from "lnum", or 0 if line is not folded. * When "infop" is not NULL, fills *infop with the fold level info. */ long foldedCount(win_T *win, linenr_T lnum, foldinfo_T *infop) { linenr_T last; if (hasFoldingWin(win, lnum, NULL, &last, FALSE, infop)) return (long)(last - lnum + 1); return 0; } // foldmethodIsManual() {{{2 /* * Return TRUE if 'foldmethod' is "manual" */ int foldmethodIsManual(win_T *wp) { return (wp->w_p_fdm[3] == 'u'); } // foldmethodIsIndent() {{{2 /* * Return TRUE if 'foldmethod' is "indent" */ int foldmethodIsIndent(win_T *wp) { return (wp->w_p_fdm[0] == 'i'); } // foldmethodIsExpr() {{{2 /* * Return TRUE if 'foldmethod' is "expr" */ int foldmethodIsExpr(win_T *wp) { return (wp->w_p_fdm[1] == 'x'); } // foldmethodIsMarker() {{{2 /* * Return TRUE if 'foldmethod' is "marker" */ int foldmethodIsMarker(win_T *wp) { return (wp->w_p_fdm[2] == 'r'); } // foldmethodIsSyntax() {{{2 /* * Return TRUE if 'foldmethod' is "syntax" */ int foldmethodIsSyntax(win_T *wp) { return (wp->w_p_fdm[0] == 's'); } // foldmethodIsDiff() {{{2 /* * Return TRUE if 'foldmethod' is "diff" */ int foldmethodIsDiff(win_T *wp) { return (wp->w_p_fdm[0] == 'd'); } // closeFold() {{{2 /* * Close fold for current window at line "lnum". * Repeat "count" times. */ void closeFold(linenr_T lnum, long count) { setFoldRepeat(lnum, count, FALSE); } // closeFoldRecurse() {{{2 /* * Close fold for current window at line "lnum" recursively. */ void closeFoldRecurse(linenr_T lnum) { (void)setManualFold(lnum, FALSE, TRUE, NULL); } // opFoldRange() {{{2 /* * Open or Close folds for current window in lines "first" to "last". * Used for "zo", "zO", "zc" and "zC" in Visual mode. */ void opFoldRange( linenr_T first, linenr_T last, int opening, // TRUE to open, FALSE to close int recurse, // TRUE to do it recursively int had_visual) // TRUE when Visual selection used { int done = DONE_NOTHING; // avoid error messages linenr_T lnum; linenr_T lnum_next; for (lnum = first; lnum <= last; lnum = lnum_next + 1) { lnum_next = lnum; // Opening one level only: next fold to open is after the one going to // be opened. if (opening && !recurse) (void)hasFolding(lnum, NULL, &lnum_next); (void)setManualFold(lnum, opening, recurse, &done); // Closing one level only: next line to close a fold is after just // closed fold. if (!opening && !recurse) (void)hasFolding(lnum, NULL, &lnum_next); } if (done == DONE_NOTHING) emsg(_(e_nofold)); // Force a redraw to remove the Visual highlighting. if (had_visual) redraw_curbuf_later(INVERTED); } // openFold() {{{2 /* * Open fold for current window at line "lnum". * Repeat "count" times. */ void openFold(linenr_T lnum, long count) { setFoldRepeat(lnum, count, TRUE); } // openFoldRecurse() {{{2 /* * Open fold for current window at line "lnum" recursively. */ void openFoldRecurse(linenr_T lnum) { (void)setManualFold(lnum, TRUE, TRUE, NULL); } // foldOpenCursor() {{{2 /* * Open folds until the cursor line is not in a closed fold. */ void foldOpenCursor(void) { int done; checkupdate(curwin); if (hasAnyFolding(curwin)) for (;;) { done = DONE_NOTHING; (void)setManualFold(curwin->w_cursor.lnum, TRUE, FALSE, &done); if (!(done & DONE_ACTION)) break; } } // newFoldLevel() {{{2 /* * Set new foldlevel for current window. */ void newFoldLevel(void) { newFoldLevelWin(curwin); #ifdef FEAT_DIFF if (foldmethodIsDiff(curwin) && curwin->w_p_scb) { win_T *wp; /* * Set the same foldlevel in other windows in diff mode. */ FOR_ALL_WINDOWS(wp) { if (wp != curwin && foldmethodIsDiff(wp) && wp->w_p_scb) { wp->w_p_fdl = curwin->w_p_fdl; newFoldLevelWin(wp); } } } #endif } static void newFoldLevelWin(win_T *wp) { fold_T *fp; int i; checkupdate(wp); if (wp->w_fold_manual) { // Set all flags for the first level of folds to FD_LEVEL. Following // manual open/close will then change the flags to FD_OPEN or // FD_CLOSED for those folds that don't use 'foldlevel'. fp = (fold_T *)wp->w_folds.ga_data; for (i = 0; i < wp->w_folds.ga_len; ++i) fp[i].fd_flags = FD_LEVEL; wp->w_fold_manual = FALSE; } changed_window_setting_win(wp); } // foldCheckClose() {{{2 /* * Apply 'foldlevel' to all folds that don't contain the cursor. */ void foldCheckClose(void) { if (*p_fcl != NUL) // can only be "all" right now { checkupdate(curwin); if (checkCloseRec(&curwin->w_folds, curwin->w_cursor.lnum, (int)curwin->w_p_fdl)) changed_window_setting(); } } // checkCloseRec() {{{2 static int checkCloseRec(garray_T *gap, linenr_T lnum, int level) { fold_T *fp; int retval = FALSE; int i; fp = (fold_T *)gap->ga_data; for (i = 0; i < gap->ga_len; ++i) { // Only manually opened folds may need to be closed. if (fp[i].fd_flags == FD_OPEN) { if (level <= 0 && (lnum < fp[i].fd_top || lnum >= fp[i].fd_top + fp[i].fd_len)) { fp[i].fd_flags = FD_LEVEL; retval = TRUE; } else retval |= checkCloseRec(&fp[i].fd_nested, lnum - fp[i].fd_top, level - 1); } } return retval; } // foldCreateAllowed() {{{2 /* * Return TRUE if it's allowed to manually create or delete a fold. * Give an error message and return FALSE if not. */ int foldManualAllowed(int create) { if (foldmethodIsManual(curwin) || foldmethodIsMarker(curwin)) return TRUE; if (create) emsg(_("E350: Cannot create fold with current 'foldmethod'")); else emsg(_("E351: Cannot delete fold with current 'foldmethod'")); return FALSE; } // foldCreate() {{{2 /* * Create a fold from line "start" to line "end" (inclusive) in the current * window. */ void foldCreate(linenr_T start, linenr_T end) { fold_T *fp; garray_T *gap; garray_T fold_ga; int i, j; int cont; int use_level = FALSE; int closed = FALSE; int level = 0; linenr_T start_rel = start; linenr_T end_rel = end; if (start > end) { // reverse the range end = start_rel; start = end_rel; start_rel = start; end_rel = end; } // When 'foldmethod' is "marker" add markers, which creates the folds. if (foldmethodIsMarker(curwin)) { foldCreateMarkers(start, end); return; } checkupdate(curwin); // Find the place to insert the new fold. gap = &curwin->w_folds; for (;;) { if (!foldFind(gap, start_rel, &fp)) break; if (fp->fd_top + fp->fd_len > end_rel) { // New fold is completely inside this fold: Go one level deeper. gap = &fp->fd_nested; start_rel -= fp->fd_top; end_rel -= fp->fd_top; if (use_level || fp->fd_flags == FD_LEVEL) { use_level = TRUE; if (level >= curwin->w_p_fdl) closed = TRUE; } else if (fp->fd_flags == FD_CLOSED) closed = TRUE; ++level; } else { // This fold and new fold overlap: Insert here and move some folds // inside the new fold. break; } } i = (int)(fp - (fold_T *)gap->ga_data); if (ga_grow(gap, 1) == OK) { fp = (fold_T *)gap->ga_data + i; ga_init2(&fold_ga, (int)sizeof(fold_T), 10); // Count number of folds that will be contained in the new fold. for (cont = 0; i + cont < gap->ga_len; ++cont) if (fp[cont].fd_top > end_rel) break; if (cont > 0 && ga_grow(&fold_ga, cont) == OK) { // If the first fold starts before the new fold, let the new fold // start there. Otherwise the existing fold would change. if (start_rel > fp->fd_top) start_rel = fp->fd_top; // When last contained fold isn't completely contained, adjust end // of new fold. if (end_rel < fp[cont - 1].fd_top + fp[cont - 1].fd_len - 1) end_rel = fp[cont - 1].fd_top + fp[cont - 1].fd_len - 1; // Move contained folds to inside new fold. mch_memmove(fold_ga.ga_data, fp, sizeof(fold_T) * cont); fold_ga.ga_len += cont; i += cont; // Adjust line numbers in contained folds to be relative to the // new fold. for (j = 0; j < cont; ++j) ((fold_T *)fold_ga.ga_data)[j].fd_top -= start_rel; } // Move remaining entries to after the new fold. if (i < gap->ga_len) mch_memmove(fp + 1, (fold_T *)gap->ga_data + i, sizeof(fold_T) * (gap->ga_len - i)); gap->ga_len = gap->ga_len + 1 - cont; // insert new fold fp->fd_nested = fold_ga; fp->fd_top = start_rel; fp->fd_len = end_rel - start_rel + 1; // We want the new fold to be closed. If it would remain open because // of using 'foldlevel', need to adjust fd_flags of containing folds. if (use_level && !closed && level < curwin->w_p_fdl) closeFold(start, 1L); if (!use_level) curwin->w_fold_manual = TRUE; fp->fd_flags = FD_CLOSED; fp->fd_small = MAYBE; // redraw changed_window_setting(); } } // deleteFold() {{{2 /* * Delete a fold at line "start" in the current window. * When "end" is not 0, delete all folds from "start" to "end". * When "recursive" is TRUE delete recursively. */ void deleteFold( linenr_T start, linenr_T end, int recursive, int had_visual) // TRUE when Visual selection used { garray_T *gap; fold_T *fp; garray_T *found_ga; fold_T *found_fp = NULL; linenr_T found_off = 0; int use_level; int maybe_small = FALSE; int level = 0; linenr_T lnum = start; linenr_T lnum_off; int did_one = FALSE; linenr_T first_lnum = MAXLNUM; linenr_T last_lnum = 0; checkupdate(curwin); while (lnum <= end) { // Find the deepest fold for "start". gap = &curwin->w_folds; found_ga = NULL; lnum_off = 0; use_level = FALSE; for (;;) { if (!foldFind(gap, lnum - lnum_off, &fp)) break; // lnum is inside this fold, remember info found_ga = gap; found_fp = fp; found_off = lnum_off; // if "lnum" is folded, don't check nesting if (check_closed(curwin, fp, &use_level, level, &maybe_small, lnum_off)) break; // check nested folds gap = &fp->fd_nested; lnum_off += fp->fd_top; ++level; } if (found_ga == NULL) { ++lnum; } else { lnum = found_fp->fd_top + found_fp->fd_len + found_off; if (foldmethodIsManual(curwin)) deleteFoldEntry(found_ga, (int)(found_fp - (fold_T *)found_ga->ga_data), recursive); else { if (first_lnum > found_fp->fd_top + found_off) first_lnum = found_fp->fd_top + found_off; if (last_lnum < lnum) last_lnum = lnum; if (!did_one) parseMarker(curwin); deleteFoldMarkers(found_fp, recursive, found_off); } did_one = TRUE; // redraw window changed_window_setting(); } } if (!did_one) { emsg(_(e_nofold)); // Force a redraw to remove the Visual highlighting. if (had_visual) redraw_curbuf_later(INVERTED); } else // Deleting markers may make cursor column invalid. check_cursor_col(); if (last_lnum > 0) changed_lines(first_lnum, (colnr_T)0, last_lnum, 0L); } // clearFolding() {{{2 /* * Remove all folding for window "win". */ void clearFolding(win_T *win) { deleteFoldRecurse(&win->w_folds); win->w_foldinvalid = FALSE; } // foldUpdate() {{{2 /* * Update folds for changes in the buffer of a window. * Note that inserted/deleted lines must have already been taken care of by * calling foldMarkAdjust(). * The changes in lines from top to bot (inclusive). */ void foldUpdate(win_T *wp, linenr_T top, linenr_T bot) { fold_T *fp; if (disable_fold_update > 0) return; #ifdef FEAT_DIFF if (need_diff_redraw) // will update later return; #endif // Mark all folds from top to bot as maybe-small. (void)foldFind(&wp->w_folds, top, &fp); while (fp < (fold_T *)wp->w_folds.ga_data + wp->w_folds.ga_len && fp->fd_top < bot) { fp->fd_small = MAYBE; ++fp; } if (foldmethodIsIndent(wp) || foldmethodIsExpr(wp) || foldmethodIsMarker(wp) #ifdef FEAT_DIFF || foldmethodIsDiff(wp) #endif || foldmethodIsSyntax(wp)) { int save_got_int = got_int; // reset got_int here, otherwise it won't work got_int = FALSE; foldUpdateIEMS(wp, top, bot); got_int |= save_got_int; } } // foldUpdateAll() {{{2 /* * Update all lines in a window for folding. * Used when a fold setting changes or after reloading the buffer. * The actual updating is postponed until fold info is used, to avoid doing * every time a setting is changed or a syntax item is added. */ void foldUpdateAll(win_T *win) { win->w_foldinvalid = TRUE; redraw_win_later(win, NOT_VALID); } // foldMoveTo() {{{2 /* * If "updown" is FALSE: Move to the start or end of the fold. * If "updown" is TRUE: move to fold at the same level. * If not moved return FAIL. */ int foldMoveTo( int updown, int dir, // FORWARD or BACKWARD long count) { long n; int retval = FAIL; linenr_T lnum_off; linenr_T lnum_found; linenr_T lnum; int use_level; int maybe_small; garray_T *gap; fold_T *fp; int level; int last; checkupdate(curwin); // Repeat "count" times. for (n = 0; n < count; ++n) { // Find nested folds. Stop when a fold is closed. The deepest fold // that moves the cursor is used. lnum_off = 0; gap = &curwin->w_folds; use_level = FALSE; maybe_small = FALSE; lnum_found = curwin->w_cursor.lnum; level = 0; last = FALSE; for (;;) { if (!foldFind(gap, curwin->w_cursor.lnum - lnum_off, &fp)) { if (!updown) break; // When moving up, consider a fold above the cursor; when // moving down consider a fold below the cursor. if (dir == FORWARD) { if (fp - (fold_T *)gap->ga_data >= gap->ga_len) break; --fp; } else { if (fp == (fold_T *)gap->ga_data) break; } // don't look for contained folds, they will always move // the cursor too far. last = TRUE; } if (!last) { // Check if this fold is closed. if (check_closed(curwin, fp, &use_level, level, &maybe_small, lnum_off)) last = TRUE; // "[z" and "]z" stop at closed fold if (last && !updown) break; } if (updown) { if (dir == FORWARD) { // to start of next fold if there is one if (fp + 1 - (fold_T *)gap->ga_data < gap->ga_len) { lnum = fp[1].fd_top + lnum_off; if (lnum > curwin->w_cursor.lnum) lnum_found = lnum; } } else { // to end of previous fold if there is one if (fp > (fold_T *)gap->ga_data) { lnum = fp[-1].fd_top + lnum_off + fp[-1].fd_len - 1; if (lnum < curwin->w_cursor.lnum) lnum_found = lnum; } } } else { // Open fold found, set cursor to its start/end and then check // nested folds. if (dir == FORWARD) { lnum = fp->fd_top + lnum_off + fp->fd_len - 1; if (lnum > curwin->w_cursor.lnum) lnum_found = lnum; } else { lnum = fp->fd_top + lnum_off; if (lnum < curwin->w_cursor.lnum) lnum_found = lnum; } } if (last) break; // Check nested folds (if any). gap = &fp->fd_nested; lnum_off += fp->fd_top; ++level; } if (lnum_found != curwin->w_cursor.lnum) { if (retval == FAIL) setpcmark(); curwin->w_cursor.lnum = lnum_found; curwin->w_cursor.col = 0; retval = OK; } else break; } return retval; } // foldInitWin() {{{2 /* * Init the fold info in a new window. */ void foldInitWin(win_T *new_win) { ga_init2(&new_win->w_folds, (int)sizeof(fold_T), 10); } // find_wl_entry() {{{2 /* * Find an entry in the win->w_lines[] array for buffer line "lnum". * Only valid entries are considered (for entries where wl_valid is FALSE the * line number can be wrong). * Returns index of entry or -1 if not found. */ int find_wl_entry(win_T *win, linenr_T lnum) { int i; for (i = 0; i < win->w_lines_valid; ++i) if (win->w_lines[i].wl_valid) { if (lnum < win->w_lines[i].wl_lnum) return -1; if (lnum <= win->w_lines[i].wl_lastlnum) return i; } return -1; } // foldAdjustVisual() {{{2 /* * Adjust the Visual area to include any fold at the start or end completely. */ void foldAdjustVisual(void) { pos_T *start, *end; char_u *ptr; if (!VIsual_active || !hasAnyFolding(curwin)) return; if (LTOREQ_POS(VIsual, curwin->w_cursor)) { start = &VIsual; end = &curwin->w_cursor; } else { start = &curwin->w_cursor; end = &VIsual; } if (hasFolding(start->lnum, &start->lnum, NULL)) start->col = 0; if (hasFolding(end->lnum, NULL, &end->lnum)) { ptr = ml_get(end->lnum); end->col = (colnr_T)STRLEN(ptr); if (end->col > 0 && *p_sel == 'o') --end->col; // prevent cursor from moving on the trail byte if (has_mbyte) mb_adjust_cursor(); } } // cursor_foldstart() {{{2 /* * Move the cursor to the first line of a closed fold. */ void foldAdjustCursor(void) { (void)hasFolding(curwin->w_cursor.lnum, &curwin->w_cursor.lnum, NULL); } // Internal functions for "fold_T" {{{1 // cloneFoldGrowArray() {{{2 /* * Will "clone" (i.e deep copy) a garray_T of folds. * * Return FAIL if the operation cannot be completed, otherwise OK. */ void cloneFoldGrowArray(garray_T *from, garray_T *to) { int i; fold_T *from_p; fold_T *to_p; ga_init2(to, from->ga_itemsize, from->ga_growsize); if (from->ga_len == 0 || ga_grow(to, from->ga_len) == FAIL) return; from_p = (fold_T *)from->ga_data; to_p = (fold_T *)to->ga_data; for (i = 0; i < from->ga_len; i++) { to_p->fd_top = from_p->fd_top; to_p->fd_len = from_p->fd_len; to_p->fd_flags = from_p->fd_flags; to_p->fd_small = from_p->fd_small; cloneFoldGrowArray(&from_p->fd_nested, &to_p->fd_nested); ++to->ga_len; ++from_p; ++to_p; } } // foldFind() {{{2 /* * Search for line "lnum" in folds of growarray "gap". * Set *fpp to the fold struct for the fold that contains "lnum" or * the first fold below it (careful: it can be beyond the end of the array!). * Returns FALSE when there is no fold that contains "lnum". */ static int foldFind(garray_T *gap, linenr_T lnum, fold_T **fpp) { linenr_T low, high; fold_T *fp; int i; /* * Perform a binary search. * "low" is lowest index of possible match. * "high" is highest index of possible match. */ fp = (fold_T *)gap->ga_data; low = 0; high = gap->ga_len - 1; while (low <= high) { i = (low + high) / 2; if (fp[i].fd_top > lnum) // fold below lnum, adjust high high = i - 1; else if (fp[i].fd_top + fp[i].fd_len <= lnum) // fold above lnum, adjust low low = i + 1; else { // lnum is inside this fold *fpp = fp + i; return TRUE; } } *fpp = fp + low; return FALSE; } // foldLevelWin() {{{2 /* * Return fold level at line number "lnum" in window "wp". */ static int foldLevelWin(win_T *wp, linenr_T lnum) { fold_T *fp; linenr_T lnum_rel = lnum; int level = 0; garray_T *gap; // Recursively search for a fold that contains "lnum". gap = &wp->w_folds; for (;;) { if (!foldFind(gap, lnum_rel, &fp)) break; // Check nested folds. Line number is relative to containing fold. gap = &fp->fd_nested; lnum_rel -= fp->fd_top; ++level; } return level; } // checkupdate() {{{2 /* * Check if the folds in window "wp" are invalid and update them if needed. */ static void checkupdate(win_T *wp) { if (wp->w_foldinvalid) { foldUpdate(wp, (linenr_T)1, (linenr_T)MAXLNUM); // will update all wp->w_foldinvalid = FALSE; } } // setFoldRepeat() {{{2 /* * Open or close fold for current window at line "lnum". * Repeat "count" times. */ static void setFoldRepeat(linenr_T lnum, long count, int do_open) { int done; long n; for (n = 0; n < count; ++n) { done = DONE_NOTHING; (void)setManualFold(lnum, do_open, FALSE, &done); if (!(done & DONE_ACTION)) { // Only give an error message when no fold could be opened. if (n == 0 && !(done & DONE_FOLD)) emsg(_(e_nofold)); break; } } } // setManualFold() {{{2 /* * Open or close the fold in the current window which contains "lnum". * Also does this for other windows in diff mode when needed. */ static linenr_T setManualFold( linenr_T lnum, int opening, // TRUE when opening, FALSE when closing int recurse, // TRUE when closing/opening recursive int *donep) { #ifdef FEAT_DIFF if (foldmethodIsDiff(curwin) && curwin->w_p_scb) { win_T *wp; linenr_T dlnum; /* * Do the same operation in other windows in diff mode. Calculate the * line number from the diffs. */ FOR_ALL_WINDOWS(wp) { if (wp != curwin && foldmethodIsDiff(wp) && wp->w_p_scb) { dlnum = diff_lnum_win(curwin->w_cursor.lnum, wp); if (dlnum != 0) (void)setManualFoldWin(wp, dlnum, opening, recurse, NULL); } } } #endif return setManualFoldWin(curwin, lnum, opening, recurse, donep); } // setManualFoldWin() {{{2 /* * Open or close the fold in window "wp" which contains "lnum". * "donep", when not NULL, points to flag that is set to DONE_FOLD when some * fold was found and to DONE_ACTION when some fold was opened or closed. * When "donep" is NULL give an error message when no fold was found for * "lnum", but only if "wp" is "curwin". * Return the line number of the next line that could be closed. * It's only valid when "opening" is TRUE! */ static linenr_T setManualFoldWin( win_T *wp, linenr_T lnum, int opening, // TRUE when opening, FALSE when closing int recurse, // TRUE when closing/opening recursive int *donep) { fold_T *fp; fold_T *fp2; fold_T *found = NULL; int j; int level = 0; int use_level = FALSE; int found_fold = FALSE; garray_T *gap; linenr_T next = MAXLNUM; linenr_T off = 0; int done = 0; checkupdate(wp); /* * Find the fold, open or close it. */ gap = &wp->w_folds; for (;;) { if (!foldFind(gap, lnum, &fp)) { // If there is a following fold, continue there next time. if (fp < (fold_T *)gap->ga_data + gap->ga_len) next = fp->fd_top + off; break; } // lnum is inside this fold found_fold = TRUE; // If there is a following fold, continue there next time. if (fp + 1 < (fold_T *)gap->ga_data + gap->ga_len) next = fp[1].fd_top + off; // Change from level-dependent folding to manual. if (use_level || fp->fd_flags == FD_LEVEL) { use_level = TRUE; if (level >= wp->w_p_fdl) fp->fd_flags = FD_CLOSED; else fp->fd_flags = FD_OPEN; fp2 = (fold_T *)fp->fd_nested.ga_data; for (j = 0; j < fp->fd_nested.ga_len; ++j) fp2[j].fd_flags = FD_LEVEL; } // Simple case: Close recursively means closing the fold. if (!opening && recurse) { if (fp->fd_flags != FD_CLOSED) { done |= DONE_ACTION; fp->fd_flags = FD_CLOSED; } } else if (fp->fd_flags == FD_CLOSED) { // When opening, open topmost closed fold. if (opening) { fp->fd_flags = FD_OPEN; done |= DONE_ACTION; if (recurse) foldOpenNested(fp); } break; } // fold is open, check nested folds found = fp; gap = &fp->fd_nested; lnum -= fp->fd_top; off += fp->fd_top; ++level; } if (found_fold) { // When closing and not recurse, close deepest open fold. if (!opening && found != NULL) { found->fd_flags = FD_CLOSED; done |= DONE_ACTION; } wp->w_fold_manual = TRUE; if (done & DONE_ACTION) changed_window_setting_win(wp); done |= DONE_FOLD; } else if (donep == NULL && wp == curwin) emsg(_(e_nofold)); if (donep != NULL) *donep |= done; return next; } // foldOpenNested() {{{2 /* * Open all nested folds in fold "fpr" recursively. */ static void foldOpenNested(fold_T *fpr) { int i; fold_T *fp; fp = (fold_T *)fpr->fd_nested.ga_data; for (i = 0; i < fpr->fd_nested.ga_len; ++i) { foldOpenNested(&fp[i]); fp[i].fd_flags = FD_OPEN; } } // deleteFoldEntry() {{{2 /* * Delete fold "idx" from growarray "gap". * When "recursive" is TRUE also delete all the folds contained in it. * When "recursive" is FALSE contained folds are moved one level up. */ static void deleteFoldEntry(garray_T *gap, int idx, int recursive) { fold_T *fp; int i; long moved; fold_T *nfp; fp = (fold_T *)gap->ga_data + idx; if (recursive || fp->fd_nested.ga_len == 0) { // recursively delete the contained folds deleteFoldRecurse(&fp->fd_nested); --gap->ga_len; if (idx < gap->ga_len) mch_memmove(fp, fp + 1, sizeof(fold_T) * (gap->ga_len - idx)); } else { // Move nested folds one level up, to overwrite the fold that is // deleted. moved = fp->fd_nested.ga_len; if (ga_grow(gap, (int)(moved - 1)) == OK) { // Get "fp" again, the array may have been reallocated. fp = (fold_T *)gap->ga_data + idx; // adjust fd_top and fd_flags for the moved folds nfp = (fold_T *)fp->fd_nested.ga_data; for (i = 0; i < moved; ++i) { nfp[i].fd_top += fp->fd_top; if (fp->fd_flags == FD_LEVEL) nfp[i].fd_flags = FD_LEVEL; if (fp->fd_small == MAYBE) nfp[i].fd_small = MAYBE; } // move the existing folds down to make room if (idx + 1 < gap->ga_len) mch_memmove(fp + moved, fp + 1, sizeof(fold_T) * (gap->ga_len - (idx + 1))); // move the contained folds one level up mch_memmove(fp, nfp, (size_t)(sizeof(fold_T) * moved)); vim_free(nfp); gap->ga_len += moved - 1; } } } // deleteFoldRecurse() {{{2 /* * Delete nested folds in a fold. */ void deleteFoldRecurse(garray_T *gap) { int i; for (i = 0; i < gap->ga_len; ++i) deleteFoldRecurse(&(((fold_T *)(gap->ga_data))[i].fd_nested)); ga_clear(gap); } // foldMarkAdjust() {{{2 /* * Update line numbers of folds for inserted/deleted lines. */ void foldMarkAdjust( win_T *wp, linenr_T line1, linenr_T line2, long amount, long amount_after) { // If deleting marks from line1 to line2, but not deleting all those // lines, set line2 so that only deleted lines have their folds removed. if (amount == MAXLNUM && line2 >= line1 && line2 - line1 >= -amount_after) line2 = line1 - amount_after - 1; // If appending a line in Insert mode, it should be included in the fold // just above the line. if ((State & INSERT) && amount == (linenr_T)1 && line2 == MAXLNUM) --line1; foldMarkAdjustRecurse(&wp->w_folds, line1, line2, amount, amount_after); } // foldMarkAdjustRecurse() {{{2 static void foldMarkAdjustRecurse( garray_T *gap, linenr_T line1, linenr_T line2, long amount, long amount_after) { fold_T *fp; int i; linenr_T last; linenr_T top; // In Insert mode an inserted line at the top of a fold is considered part // of the fold, otherwise it isn't. if ((State & INSERT) && amount == (linenr_T)1 && line2 == MAXLNUM) top = line1 + 1; else top = line1; // Find the fold containing or just below "line1". (void)foldFind(gap, line1, &fp); /* * Adjust all folds below "line1" that are affected. */ for (i = (int)(fp - (fold_T *)gap->ga_data); i < gap->ga_len; ++i, ++fp) { /* * Check for these situations: * 1 2 3 * 1 2 3 * line1 2 3 4 5 * 2 3 4 5 * 2 3 4 5 * line2 2 3 4 5 * 3 5 6 * 3 5 6 */ last = fp->fd_top + fp->fd_len - 1; // last line of fold // 1. fold completely above line1: nothing to do if (last < line1) continue; // 6. fold below line2: only adjust for amount_after if (fp->fd_top > line2) { if (amount_after == 0) break; fp->fd_top += amount_after; } else { if (fp->fd_top >= top && last <= line2) { // 4. fold completely contained in range if (amount == MAXLNUM) { // Deleting lines: delete the fold completely deleteFoldEntry(gap, i, TRUE); --i; // adjust index for deletion --fp; } else fp->fd_top += amount; } else { if (fp->fd_top < top) { // 2 or 3: need to correct nested folds too foldMarkAdjustRecurse(&fp->fd_nested, line1 - fp->fd_top, line2 - fp->fd_top, amount, amount_after); if (last <= line2) { // 2. fold contains line1, line2 is below fold if (amount == MAXLNUM) fp->fd_len = line1 - fp->fd_top; else fp->fd_len += amount; } else { // 3. fold contains line1 and line2 fp->fd_len += amount_after; } } else { // 5. fold is below line1 and contains line2; need to // correct nested folds too if (amount == MAXLNUM) { foldMarkAdjustRecurse(&fp->fd_nested, line1 - fp->fd_top, line2 - fp->fd_top, amount, amount_after + (fp->fd_top - top)); fp->fd_len -= line2 - fp->fd_top + 1; fp->fd_top = line1; } else { foldMarkAdjustRecurse(&fp->fd_nested, line1 - fp->fd_top, line2 - fp->fd_top, amount, amount_after - amount); fp->fd_len += amount_after - amount; fp->fd_top += amount; } } } } } } // getDeepestNesting() {{{2 /* * Get the lowest 'foldlevel' value that makes the deepest nested fold in the * current window open. */ int getDeepestNesting(void) { checkupdate(curwin); return getDeepestNestingRecurse(&curwin->w_folds); } static int getDeepestNestingRecurse(garray_T *gap) { int i; int level; int maxlevel = 0; fold_T *fp; fp = (fold_T *)gap->ga_data; for (i = 0; i < gap->ga_len; ++i) { level = getDeepestNestingRecurse(&fp[i].fd_nested) + 1; if (level > maxlevel) maxlevel = level; } return maxlevel; } // check_closed() {{{2 /* * Check if a fold is closed and update the info needed to check nested folds. */ static int check_closed( win_T *win, fold_T *fp, int *use_levelp, // TRUE: outer fold had FD_LEVEL int level, // folding depth int *maybe_smallp, // TRUE: outer this had fd_small == MAYBE linenr_T lnum_off) // line number offset for fp->fd_top { int closed = FALSE; // Check if this fold is closed. If the flag is FD_LEVEL this // fold and all folds it contains depend on 'foldlevel'. if (*use_levelp || fp->fd_flags == FD_LEVEL) { *use_levelp = TRUE; if (level >= win->w_p_fdl) closed = TRUE; } else if (fp->fd_flags == FD_CLOSED) closed = TRUE; // Small fold isn't closed anyway. if (fp->fd_small == MAYBE) *maybe_smallp = TRUE; if (closed) { if (*maybe_smallp) fp->fd_small = MAYBE; checkSmall(win, fp, lnum_off); if (fp->fd_small == TRUE) closed = FALSE; } return closed; } // checkSmall() {{{2 /* * Update fd_small field of fold "fp". */ static void checkSmall( win_T *wp, fold_T *fp, linenr_T lnum_off) // offset for fp->fd_top { int count; int n; if (fp->fd_small == MAYBE) { // Mark any nested folds to maybe-small setSmallMaybe(&fp->fd_nested); if (fp->fd_len > curwin->w_p_fml) fp->fd_small = FALSE; else { count = 0; for (n = 0; n < fp->fd_len; ++n) { count += plines_win_nofold(wp, fp->fd_top + lnum_off + n); if (count > curwin->w_p_fml) { fp->fd_small = FALSE; return; } } fp->fd_small = TRUE; } } } // setSmallMaybe() {{{2 /* * Set small flags in "gap" to MAYBE. */ static void setSmallMaybe(garray_T *gap) { int i; fold_T *fp; fp = (fold_T *)gap->ga_data; for (i = 0; i < gap->ga_len; ++i) fp[i].fd_small = MAYBE; } // foldCreateMarkers() {{{2 /* * Create a fold from line "start" to line "end" (inclusive) in the current * window by adding markers. */ static void foldCreateMarkers(linenr_T start, linenr_T end) { if (!curbuf->b_p_ma) { emsg(_(e_modifiable)); return; } parseMarker(curwin); foldAddMarker(start, curwin->w_p_fmr, foldstartmarkerlen); foldAddMarker(end, foldendmarker, foldendmarkerlen); // Update both changes here, to avoid all folds after the start are // changed when the start marker is inserted and the end isn't. changed_lines(start, (colnr_T)0, end, 0L); } // foldAddMarker() {{{2 /* * Add "marker[markerlen]" in 'commentstring' to line "lnum". */ static void foldAddMarker(linenr_T lnum, char_u *marker, int markerlen) { char_u *cms = curbuf->b_p_cms; char_u *line; int line_len; char_u *newline; char_u *p = (char_u *)strstr((char *)curbuf->b_p_cms, "%s"); int line_is_comment = FALSE; // Allocate a new line: old-line + 'cms'-start + marker + 'cms'-end line = ml_get(lnum); line_len = (int)STRLEN(line); if (u_save(lnum - 1, lnum + 1) == OK) { // Check if the line ends with an unclosed comment (void)skip_comment(line, FALSE, FALSE, &line_is_comment); newline = alloc(line_len + markerlen + STRLEN(cms) + 1); if (newline == NULL) return; STRCPY(newline, line); // Append the marker to the end of the line if (p == NULL || line_is_comment) vim_strncpy(newline + line_len, marker, markerlen); else { STRCPY(newline + line_len, cms); STRNCPY(newline + line_len + (p - cms), marker, markerlen); STRCPY(newline + line_len + (p - cms) + markerlen, p + 2); } ml_replace(lnum, newline, FALSE); } } // deleteFoldMarkers() {{{2 /* * Delete the markers for a fold, causing it to be deleted. */ static void deleteFoldMarkers( fold_T *fp, int recursive, linenr_T lnum_off) // offset for fp->fd_top { int i; if (recursive) for (i = 0; i < fp->fd_nested.ga_len; ++i) deleteFoldMarkers((fold_T *)fp->fd_nested.ga_data + i, TRUE, lnum_off + fp->fd_top); foldDelMarker(fp->fd_top + lnum_off, curwin->w_p_fmr, foldstartmarkerlen); foldDelMarker(fp->fd_top + lnum_off + fp->fd_len - 1, foldendmarker, foldendmarkerlen); } // foldDelMarker() {{{2 /* * Delete marker "marker[markerlen]" at the end of line "lnum". * Delete 'commentstring' if it matches. * If the marker is not found, there is no error message. Could be a missing * close-marker. */ static void foldDelMarker(linenr_T lnum, char_u *marker, int markerlen) { char_u *line; char_u *newline; char_u *p; int len; char_u *cms = curbuf->b_p_cms; char_u *cms2; // end marker may be missing and fold extends below the last line if (lnum > curbuf->b_ml.ml_line_count) return; line = ml_get(lnum); for (p = line; *p != NUL; ++p) if (STRNCMP(p, marker, markerlen) == 0) { // Found the marker, include a digit if it's there. len = markerlen; if (VIM_ISDIGIT(p[len])) ++len; if (*cms != NUL) { // Also delete 'commentstring' if it matches. cms2 = (char_u *)strstr((char *)cms, "%s"); if (p - line >= cms2 - cms && STRNCMP(p - (cms2 - cms), cms, cms2 - cms) == 0 && STRNCMP(p + len, cms2 + 2, STRLEN(cms2 + 2)) == 0) { p -= cms2 - cms; len += (int)STRLEN(cms) - 2; } } if (u_save(lnum - 1, lnum + 1) == OK) { // Make new line: text-before-marker + text-after-marker newline = alloc(STRLEN(line) - len + 1); if (newline != NULL) { STRNCPY(newline, line, p - line); STRCPY(newline + (p - line), p + len); ml_replace(lnum, newline, FALSE); } } break; } } // get_foldtext() {{{2 /* * Return the text for a closed fold at line "lnum", with last line "lnume". * When 'foldtext' isn't set puts the result in "buf[FOLD_TEXT_LEN]". * Otherwise the result is in allocated memory. */ char_u * get_foldtext( win_T *wp, linenr_T lnum, linenr_T lnume, foldinfo_T *foldinfo, char_u *buf) { char_u *text = NULL; #ifdef FEAT_EVAL // an error occurred when evaluating 'fdt' setting static int got_fdt_error = FALSE; int save_did_emsg = did_emsg; static win_T *last_wp = NULL; static linenr_T last_lnum = 0; if (last_wp != wp || last_wp == NULL || last_lnum > lnum || last_lnum == 0) // window changed, try evaluating foldtext setting once again got_fdt_error = FALSE; if (!got_fdt_error) // a previous error should not abort evaluating 'foldexpr' did_emsg = FALSE; if (*wp->w_p_fdt != NUL) { char_u dashes[MAX_LEVEL + 2]; win_T *save_curwin; int level; char_u *p; // Set "v:foldstart" and "v:foldend". set_vim_var_nr(VV_FOLDSTART, lnum); set_vim_var_nr(VV_FOLDEND, lnume); // Set "v:folddashes" to a string of "level" dashes. // Set "v:foldlevel" to "level". level = foldinfo->fi_level; if (level > (int)sizeof(dashes) - 1) level = (int)sizeof(dashes) - 1; vim_memset(dashes, '-', (size_t)level); dashes[level] = NUL; set_vim_var_string(VV_FOLDDASHES, dashes, -1); set_vim_var_nr(VV_FOLDLEVEL, (long)level); // skip evaluating foldtext on errors if (!got_fdt_error) { save_curwin = curwin; curwin = wp; curbuf = wp->w_buffer; ++emsg_silent; // handle exceptions, but don't display errors text = eval_to_string_safe(wp->w_p_fdt, NULL, was_set_insecurely((char_u *)"foldtext", OPT_LOCAL)); --emsg_silent; if (text == NULL || did_emsg) got_fdt_error = TRUE; curwin = save_curwin; curbuf = curwin->w_buffer; } last_lnum = lnum; last_wp = wp; set_vim_var_string(VV_FOLDDASHES, NULL, -1); if (!did_emsg && save_did_emsg) did_emsg = save_did_emsg; if (text != NULL) { // Replace unprintable characters, if there are any. But // replace a TAB with a space. for (p = text; *p != NUL; ++p) { int len; if (has_mbyte && (len = (*mb_ptr2len)(p)) > 1) { if (!vim_isprintc((*mb_ptr2char)(p))) break; p += len - 1; } else if (*p == TAB) *p = ' '; else if (ptr2cells(p) > 1) break; } if (*p != NUL) { p = transstr(text); vim_free(text); text = p; } } } if (text == NULL) #endif { long count = (long)(lnume - lnum + 1); vim_snprintf((char *)buf, FOLD_TEXT_LEN, NGETTEXT("+--%3ld line folded ", "+--%3ld lines folded ", count), count); text = buf; } return text; } // foldtext_cleanup() {{{2 #ifdef FEAT_EVAL /* * Remove 'foldmarker' and 'commentstring' from "str" (in-place). */ static void foldtext_cleanup(char_u *str) { char_u *cms_start; // first part or the whole comment int cms_slen = 0; // length of cms_start char_u *cms_end; // last part of the comment or NULL int cms_elen = 0; // length of cms_end char_u *s; char_u *p; int len; int did1 = FALSE; int did2 = FALSE; // Ignore leading and trailing white space in 'commentstring'. cms_start = skipwhite(curbuf->b_p_cms); cms_slen = (int)STRLEN(cms_start); while (cms_slen > 0 && VIM_ISWHITE(cms_start[cms_slen - 1])) --cms_slen; // locate "%s" in 'commentstring', use the part before and after it. cms_end = (char_u *)strstr((char *)cms_start, "%s"); if (cms_end != NULL) { cms_elen = cms_slen - (int)(cms_end - cms_start); cms_slen = (int)(cms_end - cms_start); // exclude white space before "%s" while (cms_slen > 0 && VIM_ISWHITE(cms_start[cms_slen - 1])) --cms_slen; // skip "%s" and white space after it s = skipwhite(cms_end + 2); cms_elen -= (int)(s - cms_end); cms_end = s; } parseMarker(curwin); for (s = str; *s != NUL; ) { len = 0; if (STRNCMP(s, curwin->w_p_fmr, foldstartmarkerlen) == 0) len = foldstartmarkerlen; else if (STRNCMP(s, foldendmarker, foldendmarkerlen) == 0) len = foldendmarkerlen; if (len > 0) { if (VIM_ISDIGIT(s[len])) ++len; // May remove 'commentstring' start. Useful when it's a double // quote and we already removed a double quote. for (p = s; p > str && VIM_ISWHITE(p[-1]); --p) ; if (p >= str + cms_slen && STRNCMP(p - cms_slen, cms_start, cms_slen) == 0) { len += (int)(s - p) + cms_slen; s = p - cms_slen; } } else if (cms_end != NULL) { if (!did1 && cms_slen > 0 && STRNCMP(s, cms_start, cms_slen) == 0) { len = cms_slen; did1 = TRUE; } else if (!did2 && cms_elen > 0 && STRNCMP(s, cms_end, cms_elen) == 0) { len = cms_elen; did2 = TRUE; } } if (len != 0) { while (VIM_ISWHITE(s[len])) ++len; STRMOVE(s, s + len); } else { MB_PTR_ADV(s); } } } #endif // Folding by indent, expr, marker and syntax. {{{1 // Define "fline_T", passed to get fold level for a line. {{{2 typedef struct { win_T *wp; // window linenr_T lnum; // current line number linenr_T off; // offset between lnum and real line number linenr_T lnum_save; // line nr used by foldUpdateIEMSRecurse() int lvl; // current level (-1 for undefined) int lvl_next; // level used for next line int start; // number of folds that are forced to start at // this line. int end; // level of fold that is forced to end below // this line int had_end; // level of fold that is forced to end above // this line (copy of "end" of prev. line) } fline_T; // Flag is set when redrawing is needed. static int fold_changed; // Function declarations. {{{2 static linenr_T foldUpdateIEMSRecurse(garray_T *gap, int level, linenr_T startlnum, fline_T *flp, void (*getlevel)(fline_T *), linenr_T bot, int topflags); static int foldInsert(garray_T *gap, int i); static void foldSplit(garray_T *gap, int i, linenr_T top, linenr_T bot); static void foldRemove(garray_T *gap, linenr_T top, linenr_T bot); static void foldMerge(fold_T *fp1, garray_T *gap, fold_T *fp2); static void foldlevelIndent(fline_T *flp); #ifdef FEAT_DIFF static void foldlevelDiff(fline_T *flp); #endif static void foldlevelExpr(fline_T *flp); static void foldlevelMarker(fline_T *flp); static void foldlevelSyntax(fline_T *flp); // foldUpdateIEMS() {{{2 /* * Update the folding for window "wp", at least from lines "top" to "bot". * Return TRUE if any folds did change. */ static void foldUpdateIEMS(win_T *wp, linenr_T top, linenr_T bot) { linenr_T start; linenr_T end; fline_T fline; void (*getlevel)(fline_T *); int level; fold_T *fp; // Avoid problems when being called recursively. if (invalid_top != (linenr_T)0) return; if (wp->w_foldinvalid) { // Need to update all folds. top = 1; bot = wp->w_buffer->b_ml.ml_line_count; wp->w_foldinvalid = FALSE; // Mark all folds a maybe-small. setSmallMaybe(&wp->w_folds); } #ifdef FEAT_DIFF // add the context for "diff" folding if (foldmethodIsDiff(wp)) { if (top > diff_context) top -= diff_context; else top = 1; bot += diff_context; } #endif // When deleting lines at the end of the buffer "top" can be past the end // of the buffer. if (top > wp->w_buffer->b_ml.ml_line_count) top = wp->w_buffer->b_ml.ml_line_count; fold_changed = FALSE; fline.wp = wp; fline.off = 0; fline.lvl = 0; fline.lvl_next = -1; fline.start = 0; fline.end = MAX_LEVEL + 1; fline.had_end = MAX_LEVEL + 1; invalid_top = top; invalid_bot = bot; if (foldmethodIsMarker(wp)) { getlevel = foldlevelMarker; // Init marker variables to speed up foldlevelMarker(). parseMarker(wp); // Need to get the level of the line above top, it is used if there is // no marker at the top. if (top > 1) { // Get the fold level at top - 1. level = foldLevelWin(wp, top - 1); // The fold may end just above the top, check for that. fline.lnum = top - 1; fline.lvl = level; getlevel(&fline); // If a fold started here, we already had the level, if it stops // here, we need to use lvl_next. Could also start and end a fold // in the same line. if (fline.lvl > level) fline.lvl = level - (fline.lvl - fline.lvl_next); else fline.lvl = fline.lvl_next; } fline.lnum = top; getlevel(&fline); } else { fline.lnum = top; if (foldmethodIsExpr(wp)) { getlevel = foldlevelExpr; // start one line back, because a "<1" may indicate the end of a // fold in the topline if (top > 1) --fline.lnum; } else if (foldmethodIsSyntax(wp)) getlevel = foldlevelSyntax; #ifdef FEAT_DIFF else if (foldmethodIsDiff(wp)) getlevel = foldlevelDiff; #endif else getlevel = foldlevelIndent; // Backup to a line for which the fold level is defined. Since it's // always defined for line one, we will stop there. fline.lvl = -1; for ( ; !got_int; --fline.lnum) { // Reset lvl_next each time, because it will be set to a value for // the next line, but we search backwards here. fline.lvl_next = -1; getlevel(&fline); if (fline.lvl >= 0) break; } } /* * If folding is defined by the syntax, it is possible that a change in * one line will cause all sub-folds of the current fold to change (e.g., * closing a C-style comment can cause folds in the subsequent lines to * appear). To take that into account we should adjust the value of "bot" * to point to the end of the current fold: */ if (foldlevelSyntax == getlevel) { garray_T *gap = &wp->w_folds; fold_T *fpn = NULL; int current_fdl = 0; linenr_T fold_start_lnum = 0; linenr_T lnum_rel = fline.lnum; while (current_fdl < fline.lvl) { if (!foldFind(gap, lnum_rel, &fpn)) break; ++current_fdl; fold_start_lnum += fpn->fd_top; gap = &fpn->fd_nested; lnum_rel -= fpn->fd_top; } if (fpn != NULL && current_fdl == fline.lvl) { linenr_T fold_end_lnum = fold_start_lnum + fpn->fd_len; if (fold_end_lnum > bot) bot = fold_end_lnum; } } start = fline.lnum; end = bot; // Do at least one line. if (start > end && end < wp->w_buffer->b_ml.ml_line_count) end = start; while (!got_int) { // Always stop at the end of the file ("end" can be past the end of // the file). if (fline.lnum > wp->w_buffer->b_ml.ml_line_count) break; if (fline.lnum > end) { // For "marker", "expr" and "syntax" methods: If a change caused // a fold to be removed, we need to continue at least until where // it ended. if (getlevel != foldlevelMarker && getlevel != foldlevelSyntax && getlevel != foldlevelExpr) break; if ((start <= end && foldFind(&wp->w_folds, end, &fp) && fp->fd_top + fp->fd_len - 1 > end) || (fline.lvl == 0 && foldFind(&wp->w_folds, fline.lnum, &fp) && fp->fd_top < fline.lnum)) end = fp->fd_top + fp->fd_len - 1; else if (getlevel == foldlevelSyntax && foldLevelWin(wp, fline.lnum) != fline.lvl) // For "syntax" method: Compare the foldlevel that the syntax // tells us to the foldlevel from the existing folds. If they // don't match continue updating folds. end = fline.lnum; else break; } // A level 1 fold starts at a line with foldlevel > 0. if (fline.lvl > 0) { invalid_top = fline.lnum; invalid_bot = end; end = foldUpdateIEMSRecurse(&wp->w_folds, 1, start, &fline, getlevel, end, FD_LEVEL); start = fline.lnum; } else { if (fline.lnum == wp->w_buffer->b_ml.ml_line_count) break; ++fline.lnum; fline.lvl = fline.lvl_next; getlevel(&fline); } } // There can't be any folds from start until end now. foldRemove(&wp->w_folds, start, end); // If some fold changed, need to redraw and position cursor. if (fold_changed && wp->w_p_fen) changed_window_setting_win(wp); // If we updated folds past "bot", need to redraw more lines. Don't do // this in other situations, the changed lines will be redrawn anyway and // this method can cause the whole window to be updated. if (end != bot) { if (wp->w_redraw_top == 0 || wp->w_redraw_top > top) wp->w_redraw_top = top; if (wp->w_redraw_bot < end) wp->w_redraw_bot = end; } invalid_top = (linenr_T)0; } // foldUpdateIEMSRecurse() {{{2 /* * Update a fold that starts at "flp->lnum". At this line there is always a * valid foldlevel, and its level >= "level". * "flp" is valid for "flp->lnum" when called and it's valid when returning. * "flp->lnum" is set to the lnum just below the fold, if it ends before * "bot", it's "bot" plus one if the fold continues and it's bigger when using * the marker method and a text change made following folds to change. * When returning, "flp->lnum_save" is the line number that was used to get * the level when the level at "flp->lnum" is invalid. * Remove any folds from "startlnum" up to here at this level. * Recursively update nested folds. * Below line "bot" there are no changes in the text. * "flp->lnum", "flp->lnum_save" and "bot" are relative to the start of the * outer fold. * "flp->off" is the offset to the real line number in the buffer. * * All this would be a lot simpler if all folds in the range would be deleted * and then created again. But we would lose all information about the * folds, even when making changes that don't affect the folding (e.g. "vj~"). * * Returns bot, which may have been increased for lines that also need to be * updated as a result of a detected change in the fold. */ static linenr_T foldUpdateIEMSRecurse( garray_T *gap, int level, linenr_T startlnum, fline_T *flp, void (*getlevel)(fline_T *), linenr_T bot, int topflags) // flags used by containing fold { linenr_T ll; fold_T *fp = NULL; fold_T *fp2; int lvl = level; linenr_T startlnum2 = startlnum; linenr_T firstlnum = flp->lnum; // first lnum we got int i; int finish = FALSE; linenr_T linecount = flp->wp->w_buffer->b_ml.ml_line_count - flp->off; int concat; /* * If using the marker method, the start line is not the start of a fold * at the level we're dealing with and the level is non-zero, we must use * the previous fold. But ignore a fold that starts at or below * startlnum, it must be deleted. */ if (getlevel == foldlevelMarker && flp->start <= flp->lvl - level && flp->lvl > 0) { (void)foldFind(gap, startlnum - 1, &fp); if (fp >= ((fold_T *)gap->ga_data) + gap->ga_len || fp->fd_top >= startlnum) fp = NULL; } /* * Loop over all lines in this fold, or until "bot" is hit. * Handle nested folds inside of this fold. * "flp->lnum" is the current line. When finding the end of the fold, it * is just below the end of the fold. * "*flp" contains the level of the line "flp->lnum" or a following one if * there are lines with an invalid fold level. "flp->lnum_save" is the * line number that was used to get the fold level (below "flp->lnum" when * it has an invalid fold level). When called the fold level is always * valid, thus "flp->lnum_save" is equal to "flp->lnum". */ flp->lnum_save = flp->lnum; while (!got_int) { // Updating folds can be slow, check for CTRL-C. line_breakcheck(); // Set "lvl" to the level of line "flp->lnum". When flp->start is set // and after the first line of the fold, set the level to zero to // force the fold to end. Do the same when had_end is set: Previous // line was marked as end of a fold. lvl = flp->lvl; if (lvl > MAX_LEVEL) lvl = MAX_LEVEL; if (flp->lnum > firstlnum && (level > lvl - flp->start || level >= flp->had_end)) lvl = 0; if (flp->lnum > bot && !finish && fp != NULL) { // For "marker" and "syntax" methods: // - If a change caused a nested fold to be removed, we need to // delete it and continue at least until where it ended. // - If a change caused a nested fold to be created, or this fold // to continue below its original end, need to finish this fold. if (getlevel != foldlevelMarker && getlevel != foldlevelExpr && getlevel != foldlevelSyntax) break; i = 0; fp2 = fp; if (lvl >= level) { // Compute how deep the folds currently are, if it's deeper // than "lvl" then some must be deleted, need to update // at least one nested fold. ll = flp->lnum - fp->fd_top; while (foldFind(&fp2->fd_nested, ll, &fp2)) { ++i; ll -= fp2->fd_top; } } if (lvl < level + i) { (void)foldFind(&fp->fd_nested, flp->lnum - fp->fd_top, &fp2); if (fp2 != NULL) bot = fp2->fd_top + fp2->fd_len - 1 + fp->fd_top; } else if (fp->fd_top + fp->fd_len <= flp->lnum && lvl >= level) finish = TRUE; else break; } // At the start of the first nested fold and at the end of the current // fold: check if existing folds at this level, before the current // one, need to be deleted or truncated. if (fp == NULL && (lvl != level || flp->lnum_save >= bot || flp->start != 0 || flp->had_end <= MAX_LEVEL || flp->lnum == linecount)) { /* * Remove or update folds that have lines between startlnum and * firstlnum. */ while (!got_int) { // set concat to 1 if it's allowed to concatenated this fold // with a previous one that touches it. if (flp->start != 0 || flp->had_end <= MAX_LEVEL) concat = 0; else concat = 1; // Find an existing fold to re-use. Preferably one that // includes startlnum, otherwise one that ends just before // startlnum or starts after it. if (foldFind(gap, startlnum, &fp) || (fp < ((fold_T *)gap->ga_data) + gap->ga_len && fp->fd_top <= firstlnum) || foldFind(gap, firstlnum - concat, &fp) || (fp < ((fold_T *)gap->ga_data) + gap->ga_len && ((lvl < level && fp->fd_top < flp->lnum) || (lvl >= level && fp->fd_top <= flp->lnum_save)))) { if (fp->fd_top + fp->fd_len + concat > firstlnum) { // Use existing fold for the new fold. If it starts // before where we started looking, extend it. If it // starts at another line, update nested folds to keep // their position, compensating for the new fd_top. if (fp->fd_top == firstlnum) { // have found a fold beginning where we want } else if (fp->fd_top >= startlnum) { if (fp->fd_top > firstlnum) // like lines are inserted foldMarkAdjustRecurse(&fp->fd_nested, (linenr_T)0, (linenr_T)MAXLNUM, (long)(fp->fd_top - firstlnum), 0L); else // like lines are deleted foldMarkAdjustRecurse(&fp->fd_nested, (linenr_T)0, (long)(firstlnum - fp->fd_top - 1), (linenr_T)MAXLNUM, (long)(fp->fd_top - firstlnum)); fp->fd_len += fp->fd_top - firstlnum; fp->fd_top = firstlnum; fold_changed = TRUE; } else if ((flp->start != 0 && lvl == level) || firstlnum != startlnum) { linenr_T breakstart; linenr_T breakend; /* * Before there was a fold spanning from above * startlnum to below firstlnum. This fold is valid * above startlnum (because we are not updating * that range), but there should now be a break in * it. * If the break is because we are now forced to * start a new fold at the level "level" at line * fline->lnum, then we need to split the fold at * fline->lnum. * If the break is because the range * [startlnum, firstlnum) is now at a lower indent * than "level", we need to split the fold in this * range. * Any splits have to be done recursively. */ if (firstlnum != startlnum) { breakstart = startlnum; breakend = firstlnum; } else { breakstart = flp->lnum; breakend = flp->lnum; } foldRemove(&fp->fd_nested, breakstart - fp->fd_top, breakend - fp->fd_top); i = (int)(fp - (fold_T *)gap->ga_data); foldSplit(gap, i, breakstart, breakend - 1); fp = (fold_T *)gap->ga_data + i + 1; // If using the "marker" or "syntax" method, we // need to continue until the end of the fold is // found. if (getlevel == foldlevelMarker || getlevel == foldlevelExpr || getlevel == foldlevelSyntax) finish = TRUE; } if (fp->fd_top == startlnum && concat) { i = (int)(fp - (fold_T *)gap->ga_data); if (i != 0) { fp2 = fp - 1; if (fp2->fd_top + fp2->fd_len == fp->fd_top) { foldMerge(fp2, gap, fp); fp = fp2; } } } break; } if (fp->fd_top >= startlnum) { // A fold that starts at or after startlnum and stops // before the new fold must be deleted. Continue // looking for the next one. deleteFoldEntry(gap, (int)(fp - (fold_T *)gap->ga_data), TRUE); } else { // A fold has some lines above startlnum, truncate it // to stop just above startlnum. fp->fd_len = startlnum - fp->fd_top; foldMarkAdjustRecurse(&fp->fd_nested, (linenr_T)fp->fd_len, (linenr_T)MAXLNUM, (linenr_T)MAXLNUM, 0L); fold_changed = TRUE; } } else { // Insert new fold. Careful: ga_data may be NULL and it // may change! i = (int)(fp - (fold_T *)gap->ga_data); if (foldInsert(gap, i) != OK) return bot; fp = (fold_T *)gap->ga_data + i; // The new fold continues until bot, unless we find the // end earlier. fp->fd_top = firstlnum; fp->fd_len = bot - firstlnum + 1; // When the containing fold is open, the new fold is open. // The new fold is closed if the fold above it is closed. // The first fold depends on the containing fold. if (topflags == FD_OPEN) { flp->wp->w_fold_manual = TRUE; fp->fd_flags = FD_OPEN; } else if (i <= 0) { fp->fd_flags = topflags; if (topflags != FD_LEVEL) flp->wp->w_fold_manual = TRUE; } else fp->fd_flags = (fp - 1)->fd_flags; fp->fd_small = MAYBE; // If using the "marker", "expr" or "syntax" method, we // need to continue until the end of the fold is found. if (getlevel == foldlevelMarker || getlevel == foldlevelExpr || getlevel == foldlevelSyntax) finish = TRUE; fold_changed = TRUE; break; } } } if (lvl < level || flp->lnum > linecount) { /* * Found a line with a lower foldlevel, this fold ends just above * "flp->lnum". */ break; } /* * The fold includes the line "flp->lnum" and "flp->lnum_save". * Check "fp" for safety. */ if (lvl > level && fp != NULL) { /* * There is a nested fold, handle it recursively. */ // At least do one line (can happen when finish is TRUE). if (bot < flp->lnum) bot = flp->lnum; // Line numbers in the nested fold are relative to the start of // this fold. flp->lnum = flp->lnum_save - fp->fd_top; flp->off += fp->fd_top; i = (int)(fp - (fold_T *)gap->ga_data); bot = foldUpdateIEMSRecurse(&fp->fd_nested, level + 1, startlnum2 - fp->fd_top, flp, getlevel, bot - fp->fd_top, fp->fd_flags); fp = (fold_T *)gap->ga_data + i; flp->lnum += fp->fd_top; flp->lnum_save += fp->fd_top; flp->off -= fp->fd_top; bot += fp->fd_top; startlnum2 = flp->lnum; // This fold may end at the same line, don't incr. flp->lnum. } else { /* * Get the level of the next line, then continue the loop to check * if it ends there. * Skip over undefined lines, to find the foldlevel after it. * For the last line in the file the foldlevel is always valid. */ flp->lnum = flp->lnum_save; ll = flp->lnum + 1; while (!got_int) { // Make the previous level available to foldlevel(). prev_lnum = flp->lnum; prev_lnum_lvl = flp->lvl; if (++flp->lnum > linecount) break; flp->lvl = flp->lvl_next; getlevel(flp); if (flp->lvl >= 0 || flp->had_end <= MAX_LEVEL) break; } prev_lnum = 0; if (flp->lnum > linecount) break; // leave flp->lnum_save to lnum of the line that was used to get // the level, flp->lnum to the lnum of the next line. flp->lnum_save = flp->lnum; flp->lnum = ll; } } if (fp == NULL) // only happens when got_int is set return bot; /* * Get here when: * lvl < level: the folds ends just above "flp->lnum" * lvl >= level: fold continues below "bot" */ // Current fold at least extends until lnum. if (fp->fd_len < flp->lnum - fp->fd_top) { fp->fd_len = flp->lnum - fp->fd_top; fp->fd_small = MAYBE; fold_changed = TRUE; } else if (fp->fd_top + fp->fd_len > linecount) // running into the end of the buffer (deleted last line) fp->fd_len = linecount - fp->fd_top + 1; // Delete contained folds from the end of the last one found until where // we stopped looking. foldRemove(&fp->fd_nested, startlnum2 - fp->fd_top, flp->lnum - 1 - fp->fd_top); if (lvl < level) { // End of fold found, update the length when it got shorter. if (fp->fd_len != flp->lnum - fp->fd_top) { if (fp->fd_top + fp->fd_len - 1 > bot) { // fold continued below bot if (getlevel == foldlevelMarker || getlevel == foldlevelExpr || getlevel == foldlevelSyntax) { // marker method: truncate the fold and make sure the // previously included lines are processed again bot = fp->fd_top + fp->fd_len - 1; fp->fd_len = flp->lnum - fp->fd_top; } else { // indent or expr method: split fold to create a new one // below bot i = (int)(fp - (fold_T *)gap->ga_data); foldSplit(gap, i, flp->lnum, bot); fp = (fold_T *)gap->ga_data + i; } } else fp->fd_len = flp->lnum - fp->fd_top; fold_changed = TRUE; } } // delete following folds that end before the current line for (;;) { fp2 = fp + 1; if (fp2 >= (fold_T *)gap->ga_data + gap->ga_len || fp2->fd_top > flp->lnum) break; if (fp2->fd_top + fp2->fd_len > flp->lnum) { if (fp2->fd_top < flp->lnum) { // Make fold that includes lnum start at lnum. foldMarkAdjustRecurse(&fp2->fd_nested, (linenr_T)0, (long)(flp->lnum - fp2->fd_top - 1), (linenr_T)MAXLNUM, (long)(fp2->fd_top - flp->lnum)); fp2->fd_len -= flp->lnum - fp2->fd_top; fp2->fd_top = flp->lnum; fold_changed = TRUE; } if (lvl >= level) { // merge new fold with existing fold that follows foldMerge(fp, gap, fp2); } break; } fold_changed = TRUE; deleteFoldEntry(gap, (int)(fp2 - (fold_T *)gap->ga_data), TRUE); } // Need to redraw the lines we inspected, which might be further down than // was asked for. if (bot < flp->lnum - 1) bot = flp->lnum - 1; return bot; } // foldInsert() {{{2 /* * Insert a new fold in "gap" at position "i". * Returns OK for success, FAIL for failure. */ static int foldInsert(garray_T *gap, int i) { fold_T *fp; if (ga_grow(gap, 1) != OK) return FAIL; fp = (fold_T *)gap->ga_data + i; if (i < gap->ga_len) mch_memmove(fp + 1, fp, sizeof(fold_T) * (gap->ga_len - i)); ++gap->ga_len; ga_init2(&fp->fd_nested, (int)sizeof(fold_T), 10); return OK; } // foldSplit() {{{2 /* * Split the "i"th fold in "gap", which starts before "top" and ends below * "bot" in two pieces, one ending above "top" and the other starting below * "bot". * The caller must first have taken care of any nested folds from "top" to * "bot"! */ static void foldSplit( garray_T *gap, int i, linenr_T top, linenr_T bot) { fold_T *fp; fold_T *fp2; garray_T *gap1; garray_T *gap2; int idx; int len; // The fold continues below bot, need to split it. if (foldInsert(gap, i + 1) == FAIL) return; fp = (fold_T *)gap->ga_data + i; fp[1].fd_top = bot + 1; fp[1].fd_len = fp->fd_len - (fp[1].fd_top - fp->fd_top); fp[1].fd_flags = fp->fd_flags; fp[1].fd_small = MAYBE; fp->fd_small = MAYBE; // Move nested folds below bot to new fold. There can't be // any between top and bot, they have been removed by the caller. gap1 = &fp->fd_nested; gap2 = &fp[1].fd_nested; (void)(foldFind(gap1, bot + 1 - fp->fd_top, &fp2)); len = (int)((fold_T *)gap1->ga_data + gap1->ga_len - fp2); if (len > 0 && ga_grow(gap2, len) == OK) { for (idx = 0; idx < len; ++idx) { ((fold_T *)gap2->ga_data)[idx] = fp2[idx]; ((fold_T *)gap2->ga_data)[idx].fd_top -= fp[1].fd_top - fp->fd_top; } gap2->ga_len = len; gap1->ga_len -= len; } fp->fd_len = top - fp->fd_top; fold_changed = TRUE; } // foldRemove() {{{2 /* * Remove folds within the range "top" to and including "bot". * Check for these situations: * 1 2 3 * 1 2 3 * top 2 3 4 5 * 2 3 4 5 * bot 2 3 4 5 * 3 5 6 * 3 5 6 * * 1: not changed * 2: truncate to stop above "top" * 3: split in two parts, one stops above "top", other starts below "bot". * 4: deleted * 5: made to start below "bot". * 6: not changed */ static void foldRemove(garray_T *gap, linenr_T top, linenr_T bot) { fold_T *fp = NULL; if (bot < top) return; // nothing to do for (;;) { // Find fold that includes top or a following one. if (foldFind(gap, top, &fp) && fp->fd_top < top) { // 2: or 3: need to delete nested folds foldRemove(&fp->fd_nested, top - fp->fd_top, bot - fp->fd_top); if (fp->fd_top + fp->fd_len - 1 > bot) { // 3: need to split it. foldSplit(gap, (int)(fp - (fold_T *)gap->ga_data), top, bot); } else { // 2: truncate fold at "top". fp->fd_len = top - fp->fd_top; } fold_changed = TRUE; continue; } if (fp >= (fold_T *)(gap->ga_data) + gap->ga_len || fp->fd_top > bot) { // 6: Found a fold below bot, can stop looking. break; } if (fp->fd_top >= top) { // Found an entry below top. fold_changed = TRUE; if (fp->fd_top + fp->fd_len - 1 > bot) { // 5: Make fold that includes bot start below bot. foldMarkAdjustRecurse(&fp->fd_nested, (linenr_T)0, (long)(bot - fp->fd_top), (linenr_T)MAXLNUM, (long)(fp->fd_top - bot - 1)); fp->fd_len -= bot - fp->fd_top + 1; fp->fd_top = bot + 1; break; } // 4: Delete completely contained fold. deleteFoldEntry(gap, (int)(fp - (fold_T *)gap->ga_data), TRUE); } } } // foldReverseOrder() {{{2 static void foldReverseOrder(garray_T *gap, linenr_T start_arg, linenr_T end_arg) { fold_T *left, *right; fold_T tmp; linenr_T start = start_arg; linenr_T end = end_arg; for (; start < end; start++, end--) { left = (fold_T *)gap->ga_data + start; right = (fold_T *)gap->ga_data + end; tmp = *left; *left = *right; *right = tmp; } } // foldMoveRange() {{{2 /* * Move folds within the inclusive range "line1" to "line2" to after "dest" * requires "line1" <= "line2" <= "dest" * * There are the following situations for the first fold at or below line1 - 1. * 1 2 3 4 * 1 2 3 4 * line1 2 3 4 * 2 3 4 5 6 7 * line2 3 4 5 6 7 * 3 4 6 7 8 9 * dest 4 7 8 9 * 4 7 8 10 * 4 7 8 10 * * In the following descriptions, "moved" means moving in the buffer, *and* in * the fold array. * Meanwhile, "shifted" just means moving in the buffer. * 1. not changed * 2. truncated above line1 * 3. length reduced by line2 - line1, folds starting between the end of 3 and * dest are truncated and shifted up * 4. internal folds moved (from [line1, line2] to dest) * 5. moved to dest. * 6. truncated below line2 and moved. * 7. length reduced by line2 - dest, folds starting between line2 and dest are * removed, top is moved down by move_len. * 8. truncated below dest and shifted up. * 9. shifted up * 10. not changed */ static void truncate_fold(fold_T *fp, linenr_T end) { end += 1; foldRemove(&fp->fd_nested, end - fp->fd_top, MAXLNUM); fp->fd_len = end - fp->fd_top; } #define fold_end(fp) ((fp)->fd_top + (fp)->fd_len - 1) #define valid_fold(fp, gap) ((fp) < ((fold_T *)(gap)->ga_data + (gap)->ga_len)) #define fold_index(fp, gap) ((size_t)(fp - ((fold_T *)(gap)->ga_data))) void foldMoveRange(garray_T *gap, linenr_T line1, linenr_T line2, linenr_T dest) { fold_T *fp; linenr_T range_len = line2 - line1 + 1; linenr_T move_len = dest - line2; int at_start = foldFind(gap, line1 - 1, &fp); size_t move_start = 0, move_end = 0, dest_index = 0; if (at_start) { if (fold_end(fp) > dest) { // Case 4 // don't have to change this fold, but have to move nested folds. foldMoveRange(&fp->fd_nested, line1 - fp->fd_top, line2 - fp->fd_top, dest - fp->fd_top); return; } else if (fold_end(fp) > line2) { // Case 3 // Remove nested folds between line1 and line2 & reduce the // length of fold by "range_len". // Folds after this one must be dealt with. foldMarkAdjustRecurse(&fp->fd_nested, line1 - fp->fd_top, line2 - fp->fd_top, MAXLNUM, -range_len); fp->fd_len -= range_len; } else // Case 2 truncate fold, folds after this one must be dealt with. truncate_fold(fp, line1 - 1); // Look at the next fold, and treat that one as if it were the first // after "line1" (because now it is). fp = fp + 1; } if (!valid_fold(fp, gap) || fp->fd_top > dest) { // Case 10 // No folds after "line1" and before "dest" return; } else if (fp->fd_top > line2) { for (; valid_fold(fp, gap) && fold_end(fp) <= dest; fp++) // Case 9. (for all case 9's) -- shift up. fp->fd_top -= range_len; if (valid_fold(fp, gap) && fp->fd_top <= dest) { // Case 8. -- ensure truncated at dest, shift up truncate_fold(fp, dest); fp->fd_top -= range_len; } return; } else if (fold_end(fp) > dest) { // Case 7 -- remove nested folds and shrink foldMarkAdjustRecurse(&fp->fd_nested, line2 + 1 - fp->fd_top, dest - fp->fd_top, MAXLNUM, -move_len); fp->fd_len -= move_len; fp->fd_top += move_len; return; } // Case 5 or 6 // changes rely on whether there are folds between the end of // this fold and "dest". move_start = fold_index(fp, gap); for (; valid_fold(fp, gap) && fp->fd_top <= dest; fp++) { if (fp->fd_top <= line2) { // 1. 2. or 3. if (fold_end(fp) > line2) // 2. or 3., truncate before moving truncate_fold(fp, line2); fp->fd_top += move_len; continue; } // Record index of the first fold after the moved range. if (move_end == 0) move_end = fold_index(fp, gap); if (fold_end(fp) > dest) truncate_fold(fp, dest); fp->fd_top -= range_len; } dest_index = fold_index(fp, gap); /* * All folds are now correct, but not necessarily in the correct order. We * must swap folds in the range [move_end, dest_index) with those in the * range [move_start, move_end). */ if (move_end == 0) // There are no folds after those moved, hence no folds have been moved // out of order. return; foldReverseOrder(gap, (linenr_T)move_start, (linenr_T)dest_index - 1); foldReverseOrder(gap, (linenr_T)move_start, (linenr_T)(move_start + dest_index - move_end - 1)); foldReverseOrder(gap, (linenr_T)(move_start + dest_index - move_end), (linenr_T)(dest_index - 1)); } #undef fold_end #undef valid_fold #undef fold_index // foldMerge() {{{2 /* * Merge two adjacent folds (and the nested ones in them). * This only works correctly when the folds are really adjacent! Thus "fp1" * must end just above "fp2". * The resulting fold is "fp1", nested folds are moved from "fp2" to "fp1". * Fold entry "fp2" in "gap" is deleted. */ static void foldMerge(fold_T *fp1, garray_T *gap, fold_T *fp2) { fold_T *fp3; fold_T *fp4; int idx; garray_T *gap1 = &fp1->fd_nested; garray_T *gap2 = &fp2->fd_nested; // If the last nested fold in fp1 touches the first nested fold in fp2, // merge them recursively. if (foldFind(gap1, fp1->fd_len - 1L, &fp3) && foldFind(gap2, 0L, &fp4)) foldMerge(fp3, gap2, fp4); // Move nested folds in fp2 to the end of fp1. if (gap2->ga_len > 0 && ga_grow(gap1, gap2->ga_len) == OK) { for (idx = 0; idx < gap2->ga_len; ++idx) { ((fold_T *)gap1->ga_data)[gap1->ga_len] = ((fold_T *)gap2->ga_data)[idx]; ((fold_T *)gap1->ga_data)[gap1->ga_len].fd_top += fp1->fd_len; ++gap1->ga_len; } gap2->ga_len = 0; } fp1->fd_len += fp2->fd_len; deleteFoldEntry(gap, (int)(fp2 - (fold_T *)gap->ga_data), TRUE); fold_changed = TRUE; } // foldlevelIndent() {{{2 /* * Low level function to get the foldlevel for the "indent" method. * Doesn't use any caching. * Returns a level of -1 if the foldlevel depends on surrounding lines. */ static void foldlevelIndent(fline_T *flp) { char_u *s; buf_T *buf; linenr_T lnum = flp->lnum + flp->off; buf = flp->wp->w_buffer; s = skipwhite(ml_get_buf(buf, lnum, FALSE)); // empty line or lines starting with a character in 'foldignore': level // depends on surrounding lines if (*s == NUL || vim_strchr(flp->wp->w_p_fdi, *s) != NULL) { // first and last line can't be undefined, use level 0 if (lnum == 1 || lnum == buf->b_ml.ml_line_count) flp->lvl = 0; else flp->lvl = -1; } else flp->lvl = get_indent_buf(buf, lnum) / get_sw_value(buf); if (flp->lvl > flp->wp->w_p_fdn) { flp->lvl = flp->wp->w_p_fdn; if (flp->lvl < 0) flp->lvl = 0; } } // foldlevelDiff() {{{2 #ifdef FEAT_DIFF /* * Low level function to get the foldlevel for the "diff" method. * Doesn't use any caching. */ static void foldlevelDiff(fline_T *flp) { if (diff_infold(flp->wp, flp->lnum + flp->off)) flp->lvl = 1; else flp->lvl = 0; } #endif // foldlevelExpr() {{{2 /* * Low level function to get the foldlevel for the "expr" method. * Doesn't use any caching. * Returns a level of -1 if the foldlevel depends on surrounding lines. */ static void foldlevelExpr(fline_T *flp) { #ifndef FEAT_EVAL flp->start = FALSE; flp->lvl = 0; #else win_T *win; int n; int c; linenr_T lnum = flp->lnum + flp->off; int save_keytyped; win = curwin; curwin = flp->wp; curbuf = flp->wp->w_buffer; set_vim_var_nr(VV_LNUM, lnum); flp->start = 0; flp->had_end = flp->end; flp->end = MAX_LEVEL + 1; if (lnum <= 1) flp->lvl = 0; // KeyTyped may be reset to 0 when calling a function which invokes // do_cmdline(). To make 'foldopen' work correctly restore KeyTyped. save_keytyped = KeyTyped; n = (int)eval_foldexpr(flp->wp->w_p_fde, &c); KeyTyped = save_keytyped; switch (c) { // "a1", "a2", .. : add to the fold level case 'a': if (flp->lvl >= 0) { flp->lvl += n; flp->lvl_next = flp->lvl; } flp->start = n; break; // "s1", "s2", .. : subtract from the fold level case 's': if (flp->lvl >= 0) { if (n > flp->lvl) flp->lvl_next = 0; else flp->lvl_next = flp->lvl - n; flp->end = flp->lvl_next + 1; } break; // ">1", ">2", .. : start a fold with a certain level case '>': flp->lvl = n; flp->lvl_next = n; flp->start = 1; break; // "<1", "<2", .. : end a fold with a certain level case '<': flp->lvl_next = n - 1; flp->end = n; break; // "=": No change in level case '=': flp->lvl_next = flp->lvl; break; // "-1", "0", "1", ..: set fold level default: if (n < 0) // Use the current level for the next line, so that "a1" // will work there. flp->lvl_next = flp->lvl; else flp->lvl_next = n; flp->lvl = n; break; } // If the level is unknown for the first or the last line in the file, use // level 0. if (flp->lvl < 0) { if (lnum <= 1) { flp->lvl = 0; flp->lvl_next = 0; } if (lnum == curbuf->b_ml.ml_line_count) flp->lvl_next = 0; } curwin = win; curbuf = curwin->w_buffer; #endif } // parseMarker() {{{2 /* * Parse 'foldmarker' and set "foldendmarker", "foldstartmarkerlen" and * "foldendmarkerlen". * Relies on the option value to have been checked for correctness already. */ static void parseMarker(win_T *wp) { foldendmarker = vim_strchr(wp->w_p_fmr, ','); foldstartmarkerlen = (int)(foldendmarker++ - wp->w_p_fmr); foldendmarkerlen = (int)STRLEN(foldendmarker); } // foldlevelMarker() {{{2 /* * Low level function to get the foldlevel for the "marker" method. * "foldendmarker", "foldstartmarkerlen" and "foldendmarkerlen" must have been * set before calling this. * Requires that flp->lvl is set to the fold level of the previous line! * Careful: This means you can't call this function twice on the same line. * Doesn't use any caching. * Sets flp->start when a start marker was found. */ static void foldlevelMarker(fline_T *flp) { char_u *startmarker; int cstart; int cend; int start_lvl = flp->lvl; char_u *s; int n; // cache a few values for speed startmarker = flp->wp->w_p_fmr; cstart = *startmarker; ++startmarker; cend = *foldendmarker; // Default: no start found, next level is same as current level flp->start = 0; flp->lvl_next = flp->lvl; s = ml_get_buf(flp->wp->w_buffer, flp->lnum + flp->off, FALSE); while (*s) { if (*s == cstart && STRNCMP(s + 1, startmarker, foldstartmarkerlen - 1) == 0) { // found startmarker: set flp->lvl s += foldstartmarkerlen; if (VIM_ISDIGIT(*s)) { n = atoi((char *)s); if (n > 0) { flp->lvl = n; flp->lvl_next = n; if (n <= start_lvl) flp->start = 1; else flp->start = n - start_lvl; } } else { ++flp->lvl; ++flp->lvl_next; ++flp->start; } } else if (*s == cend && STRNCMP(s + 1, foldendmarker + 1, foldendmarkerlen - 1) == 0) { // found endmarker: set flp->lvl_next s += foldendmarkerlen; if (VIM_ISDIGIT(*s)) { n = atoi((char *)s); if (n > 0) { flp->lvl = n; flp->lvl_next = n - 1; // never start a fold with an end marker if (flp->lvl_next > start_lvl) flp->lvl_next = start_lvl; } } else --flp->lvl_next; } else MB_PTR_ADV(s); } // The level can't go negative, must be missing a start marker. if (flp->lvl_next < 0) flp->lvl_next = 0; } // foldlevelSyntax() {{{2 /* * Low level function to get the foldlevel for the "syntax" method. * Doesn't use any caching. */ static void foldlevelSyntax(fline_T *flp) { #ifndef FEAT_SYN_HL flp->start = 0; flp->lvl = 0; #else linenr_T lnum = flp->lnum + flp->off; int n; // Use the maximum fold level at the start of this line and the next. flp->lvl = syn_get_foldlevel(flp->wp, lnum); flp->start = 0; if (lnum < flp->wp->w_buffer->b_ml.ml_line_count) { n = syn_get_foldlevel(flp->wp, lnum + 1); if (n > flp->lvl) { flp->start = n - flp->lvl; // fold(s) start here flp->lvl = n; } } #endif } // functions for storing the fold state in a View {{{1 // put_folds() {{{2 #if defined(FEAT_SESSION) || defined(PROTO) static int put_folds_recurse(FILE *fd, garray_T *gap, linenr_T off); static int put_foldopen_recurse(FILE *fd, win_T *wp, garray_T *gap, linenr_T off); static int put_fold_open_close(FILE *fd, fold_T *fp, linenr_T off); /* * Write commands to "fd" to restore the manual folds in window "wp". * Return FAIL if writing fails. */ int put_folds(FILE *fd, win_T *wp) { if (foldmethodIsManual(wp)) { if (put_line(fd, "silent! normal! zE") == FAIL || put_folds_recurse(fd, &wp->w_folds, (linenr_T)0) == FAIL) return FAIL; } // If some folds are manually opened/closed, need to restore that. if (wp->w_fold_manual) return put_foldopen_recurse(fd, wp, &wp->w_folds, (linenr_T)0); return OK; } // put_folds_recurse() {{{2 /* * Write commands to "fd" to recreate manually created folds. * Returns FAIL when writing failed. */ static int put_folds_recurse(FILE *fd, garray_T *gap, linenr_T off) { int i; fold_T *fp; fp = (fold_T *)gap->ga_data; for (i = 0; i < gap->ga_len; i++) { // Do nested folds first, they will be created closed. if (put_folds_recurse(fd, &fp->fd_nested, off + fp->fd_top) == FAIL) return FAIL; if (fprintf(fd, "%ld,%ldfold", fp->fd_top + off, fp->fd_top + off + fp->fd_len - 1) < 0 || put_eol(fd) == FAIL) return FAIL; ++fp; } return OK; } // put_foldopen_recurse() {{{2 /* * Write commands to "fd" to open and close manually opened/closed folds. * Returns FAIL when writing failed. */ static int put_foldopen_recurse( FILE *fd, win_T *wp, garray_T *gap, linenr_T off) { int i; int level; fold_T *fp; fp = (fold_T *)gap->ga_data; for (i = 0; i < gap->ga_len; i++) { if (fp->fd_flags != FD_LEVEL) { if (fp->fd_nested.ga_len > 0) { // open nested folds while this fold is open if (fprintf(fd, "%ld", fp->fd_top + off) < 0 || put_eol(fd) == FAIL || put_line(fd, "normal! zo") == FAIL) return FAIL; if (put_foldopen_recurse(fd, wp, &fp->fd_nested, off + fp->fd_top) == FAIL) return FAIL; // close the parent when needed if (fp->fd_flags == FD_CLOSED) { if (put_fold_open_close(fd, fp, off) == FAIL) return FAIL; } } else { // Open or close the leaf according to the window foldlevel. // Do not close a leaf that is already closed, as it will close // the parent. level = foldLevelWin(wp, off + fp->fd_top); if ((fp->fd_flags == FD_CLOSED && wp->w_p_fdl >= level) || (fp->fd_flags != FD_CLOSED && wp->w_p_fdl < level)) if (put_fold_open_close(fd, fp, off) == FAIL) return FAIL; } } ++fp; } return OK; } // put_fold_open_close() {{{2 /* * Write the open or close command to "fd". * Returns FAIL when writing failed. */ static int put_fold_open_close(FILE *fd, fold_T *fp, linenr_T off) { if (fprintf(fd, "%ld", fp->fd_top + off) < 0 || put_eol(fd) == FAIL || fprintf(fd, "normal! z%c", fp->fd_flags == FD_CLOSED ? 'c' : 'o') < 0 || put_eol(fd) == FAIL) return FAIL; return OK; } #endif // FEAT_SESSION // }}}1 #endif // defined(FEAT_FOLDING) || defined(PROTO) #if defined(FEAT_EVAL) || defined(PROTO) /* * "foldclosed()" and "foldclosedend()" functions */ static void foldclosed_both( typval_T *argvars UNUSED, typval_T *rettv, int end UNUSED) { # ifdef FEAT_FOLDING linenr_T lnum; linenr_T first, last; lnum = tv_get_lnum(argvars); if (lnum >= 1 && lnum <= curbuf->b_ml.ml_line_count) { if (hasFoldingWin(curwin, lnum, &first, &last, FALSE, NULL)) { if (end) rettv->vval.v_number = (varnumber_T)last; else rettv->vval.v_number = (varnumber_T)first; return; } } #endif rettv->vval.v_number = -1; } /* * "foldclosed()" function */ void f_foldclosed(typval_T *argvars, typval_T *rettv) { foldclosed_both(argvars, rettv, FALSE); } /* * "foldclosedend()" function */ void f_foldclosedend(typval_T *argvars, typval_T *rettv) { foldclosed_both(argvars, rettv, TRUE); } /* * "foldlevel()" function */ void f_foldlevel(typval_T *argvars UNUSED, typval_T *rettv UNUSED) { # ifdef FEAT_FOLDING linenr_T lnum; lnum = tv_get_lnum(argvars); if (lnum >= 1 && lnum <= curbuf->b_ml.ml_line_count) rettv->vval.v_number = foldLevel(lnum); # endif } /* * "foldtext()" function */ void f_foldtext(typval_T *argvars UNUSED, typval_T *rettv) { # ifdef FEAT_FOLDING linenr_T foldstart; linenr_T foldend; char_u *dashes; linenr_T lnum; char_u *s; char_u *r; int len; char *txt; long count; # endif rettv->v_type = VAR_STRING; rettv->vval.v_string = NULL; # ifdef FEAT_FOLDING foldstart = (linenr_T)get_vim_var_nr(VV_FOLDSTART); foldend = (linenr_T)get_vim_var_nr(VV_FOLDEND); dashes = get_vim_var_str(VV_FOLDDASHES); if (foldstart > 0 && foldend <= curbuf->b_ml.ml_line_count && dashes != NULL) { // Find first non-empty line in the fold. for (lnum = foldstart; lnum < foldend; ++lnum) if (!linewhite(lnum)) break; // Find interesting text in this line. s = skipwhite(ml_get(lnum)); // skip C comment-start if (s[0] == '/' && (s[1] == '*' || s[1] == '/')) { s = skipwhite(s + 2); if (*skipwhite(s) == NUL && lnum + 1 < (linenr_T)get_vim_var_nr(VV_FOLDEND)) { s = skipwhite(ml_get(lnum + 1)); if (*s == '*') s = skipwhite(s + 1); } } count = (long)(foldend - foldstart + 1); txt = NGETTEXT("+-%s%3ld line: ", "+-%s%3ld lines: ", count); r = alloc(STRLEN(txt) + STRLEN(dashes) // for %s + 20 // for %3ld + STRLEN(s)); // concatenated if (r != NULL) { sprintf((char *)r, txt, dashes, count); len = (int)STRLEN(r); STRCAT(r, s); // remove 'foldmarker' and 'commentstring' foldtext_cleanup(r + len); rettv->vval.v_string = r; } } # endif } /* * "foldtextresult(lnum)" function */ void f_foldtextresult(typval_T *argvars UNUSED, typval_T *rettv) { # ifdef FEAT_FOLDING linenr_T lnum; char_u *text; char_u buf[FOLD_TEXT_LEN]; foldinfo_T foldinfo; int fold_count; static int entered = FALSE; # endif rettv->v_type = VAR_STRING; rettv->vval.v_string = NULL; # ifdef FEAT_FOLDING if (entered) return; // reject recursive use entered = TRUE; lnum = tv_get_lnum(argvars); // treat illegal types and illegal string values for {lnum} the same if (lnum < 0) lnum = 0; fold_count = foldedCount(curwin, lnum, &foldinfo); if (fold_count > 0) { text = get_foldtext(curwin, lnum, lnum + fold_count - 1, &foldinfo, buf); if (text == buf) text = vim_strsave(text); rettv->vval.v_string = text; } entered = FALSE; # endif } #endif // FEAT_EVAL