#include #include #include #include #include #include #include #include #include "klib/kvec.h" #include "nvim/api/private/defs.h" #include "nvim/api/private/helpers.h" #include "nvim/arglist.h" #include "nvim/ascii_defs.h" #include "nvim/autocmd.h" #include "nvim/buffer.h" #include "nvim/buffer_defs.h" #include "nvim/charset.h" #include "nvim/cursor.h" #include "nvim/decoration.h" #include "nvim/diff.h" #include "nvim/drawscreen.h" #include "nvim/edit.h" #include "nvim/eval.h" #include "nvim/eval/typval.h" #include "nvim/eval/vars.h" #include "nvim/eval/window.h" #include "nvim/ex_cmds.h" #include "nvim/ex_cmds2.h" #include "nvim/ex_docmd.h" #include "nvim/ex_eval.h" #include "nvim/ex_getln.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/getchar.h" #include "nvim/gettext.h" #include "nvim/globals.h" #include "nvim/grid.h" #include "nvim/hashtab.h" #include "nvim/keycodes.h" #include "nvim/macros_defs.h" #include "nvim/main.h" #include "nvim/map_defs.h" #include "nvim/mapping.h" // IWYU pragma: keep (langmap_adjust_mb) #include "nvim/mark.h" #include "nvim/match.h" #include "nvim/mbyte.h" #include "nvim/memory.h" #include "nvim/message.h" #include "nvim/mouse.h" #include "nvim/move.h" #include "nvim/normal.h" #include "nvim/option.h" #include "nvim/option_defs.h" #include "nvim/option_vars.h" #include "nvim/os/fs.h" #include "nvim/path.h" #include "nvim/plines.h" #include "nvim/pos_defs.h" #include "nvim/quickfix.h" #include "nvim/search.h" #include "nvim/state.h" #include "nvim/statusline.h" #include "nvim/strings.h" #include "nvim/syntax.h" #include "nvim/terminal.h" #include "nvim/types_defs.h" #include "nvim/ui.h" #include "nvim/ui_compositor.h" #include "nvim/undo.h" #include "nvim/vim_defs.h" #include "nvim/window.h" #include "nvim/winfloat.h" #ifdef INCLUDE_GENERATED_DECLARATIONS # include "window.c.generated.h" #endif #define NOWIN ((win_T *)-1) // non-existing window #define ROWS_AVAIL (Rows - p_ch - tabline_height() - global_stl_height()) /// flags for win_enter_ext() typedef enum { WEE_UNDO_SYNC = 0x01, WEE_CURWIN_INVALID = 0x02, WEE_TRIGGER_NEW_AUTOCMDS = 0x04, WEE_TRIGGER_ENTER_AUTOCMDS = 0x08, WEE_TRIGGER_LEAVE_AUTOCMDS = 0x10, } wee_flags_T; static const char e_cannot_split_window_when_closing_buffer[] = N_("E1159: Cannot split a window when closing the buffer"); static char *m_onlyone = N_("Already only one window"); /// When non-zero splitting a window is forbidden. Used to avoid that nasty /// autocommands mess up the window structure. static int split_disallowed = 0; // #define WIN_DEBUG #ifdef WIN_DEBUG /// Call this method to log the current window layout. static void log_frame_layout(frame_T *frame) { DLOG("layout %s, wi: %d, he: %d, wwi: %d, whe: %d, id: %d", frame->fr_layout == FR_LEAF ? "LEAF" : frame->fr_layout == FR_ROW ? "ROW" : "COL", frame->fr_width, frame->fr_height, frame->fr_win == NULL ? -1 : frame->fr_win->w_width, frame->fr_win == NULL ? -1 : frame->fr_win->w_height, frame->fr_win == NULL ? -1 : frame->fr_win->w_id); if (frame->fr_child != NULL) { DLOG("children"); log_frame_layout(frame->fr_child); if (frame->fr_next != NULL) { DLOG("END of children"); } } if (frame->fr_next != NULL) { log_frame_layout(frame->fr_next); } } #endif /// @return the current window, unless in the cmdline window and "prevwin" is /// set, then return "prevwin". win_T *prevwin_curwin(void) FUNC_ATTR_WARN_UNUSED_RESULT { // In cmdwin, the alternative buffer should be used. return is_in_cmdwin() && prevwin != NULL ? prevwin : curwin; } /// If the 'switchbuf' option contains "useopen" or "usetab", then try to jump /// to a window containing "buf". /// Returns the pointer to the window that was jumped to or NULL. win_T *swbuf_goto_win_with_buf(buf_T *buf) { win_T *wp = NULL; if (buf == NULL) { return wp; } // If 'switchbuf' contains "useopen": jump to first window in the current // tab page containing "buf" if one exists. if (swb_flags & SWB_USEOPEN) { wp = buf_jump_open_win(buf); } // If 'switchbuf' contains "usetab": jump to first window in any tab page // containing "buf" if one exists. if (wp == NULL && (swb_flags & SWB_USETAB)) { wp = buf_jump_open_tab(buf); } return wp; } /// all CTRL-W window commands are handled here, called from normal_cmd(). /// /// @param xchar extra char from ":wincmd gx" or NUL void do_window(int nchar, int Prenum, int xchar) { int type = FIND_DEFINE; char cbuf[40]; int Prenum1 = Prenum == 0 ? 1 : Prenum; #define CHECK_CMDWIN \ do { \ if (cmdwin_type != 0) { \ emsg(_(e_cmdwin)); \ return; \ } \ } while (0) switch (nchar) { // split current window in two parts, horizontally case 'S': case Ctrl_S: case 's': CHECK_CMDWIN; reset_VIsual_and_resel(); // stop Visual mode // When splitting the quickfix window open a new buffer in it, // don't replicate the quickfix buffer. if (bt_quickfix(curbuf)) { goto newwindow; } (void)win_split(Prenum, 0); break; // split current window in two parts, vertically case Ctrl_V: case 'v': CHECK_CMDWIN; reset_VIsual_and_resel(); // stop Visual mode // When splitting the quickfix window open a new buffer in it, // don't replicate the quickfix buffer. if (bt_quickfix(curbuf)) { goto newwindow; } (void)win_split(Prenum, WSP_VERT); break; // split current window and edit alternate file case Ctrl_HAT: case '^': CHECK_CMDWIN; reset_VIsual_and_resel(); // stop Visual mode if (buflist_findnr(Prenum == 0 ? curwin->w_alt_fnum : Prenum) == NULL) { if (Prenum == 0) { emsg(_(e_noalt)); } else { semsg(_("E92: Buffer %" PRId64 " not found"), (int64_t)Prenum); } break; } if (!curbuf_locked() && win_split(0, 0) == OK) { (void)buflist_getfile(Prenum == 0 ? curwin->w_alt_fnum : Prenum, 0, GETF_ALT, false); } break; // open new window case Ctrl_N: case 'n': CHECK_CMDWIN; reset_VIsual_and_resel(); // stop Visual mode newwindow: if (Prenum) { // window height vim_snprintf(cbuf, sizeof(cbuf) - 5, "%" PRId64, (int64_t)Prenum); } else { cbuf[0] = NUL; } if (nchar == 'v' || nchar == Ctrl_V) { xstrlcat(cbuf, "v", sizeof(cbuf)); } xstrlcat(cbuf, "new", sizeof(cbuf)); do_cmdline_cmd(cbuf); break; // quit current window case Ctrl_Q: case 'q': reset_VIsual_and_resel(); // stop Visual mode cmd_with_count("quit", cbuf, sizeof(cbuf), Prenum); do_cmdline_cmd(cbuf); break; // close current window case Ctrl_C: case 'c': reset_VIsual_and_resel(); // stop Visual mode cmd_with_count("close", cbuf, sizeof(cbuf), Prenum); do_cmdline_cmd(cbuf); break; // close preview window case Ctrl_Z: case 'z': CHECK_CMDWIN; reset_VIsual_and_resel(); // stop Visual mode do_cmdline_cmd("pclose"); break; // cursor to preview window case 'P': { win_T *wp = NULL; FOR_ALL_WINDOWS_IN_TAB(wp2, curtab) { if (wp2->w_p_pvw) { wp = wp2; break; } } if (wp == NULL) { emsg(_("E441: There is no preview window")); } else { win_goto(wp); } break; } // close all but current window case Ctrl_O: case 'o': CHECK_CMDWIN; reset_VIsual_and_resel(); // stop Visual mode cmd_with_count("only", cbuf, sizeof(cbuf), Prenum); do_cmdline_cmd(cbuf); break; // cursor to next window with wrap around case Ctrl_W: case 'w': // cursor to previous window with wrap around case 'W': CHECK_CMDWIN; if (ONE_WINDOW && Prenum != 1) { // just one window beep_flush(); } else { win_T *wp; if (Prenum) { // go to specified window for (wp = firstwin; --Prenum > 0;) { if (wp->w_next == NULL) { break; } wp = wp->w_next; } } else { if (nchar == 'W') { // go to previous window wp = curwin->w_prev; if (wp == NULL) { wp = lastwin; // wrap around } while (wp != NULL && wp->w_floating && !wp->w_float_config.focusable) { wp = wp->w_prev; } } else { // go to next window wp = curwin->w_next; while (wp != NULL && wp->w_floating && !wp->w_float_config.focusable) { wp = wp->w_next; } if (wp == NULL) { wp = firstwin; // wrap around } } } win_goto(wp); } break; // cursor to window below case 'j': case K_DOWN: case Ctrl_J: CHECK_CMDWIN; win_goto_ver(false, Prenum1); break; // cursor to window above case 'k': case K_UP: case Ctrl_K: CHECK_CMDWIN; win_goto_ver(true, Prenum1); break; // cursor to left window case 'h': case K_LEFT: case Ctrl_H: case K_BS: CHECK_CMDWIN; win_goto_hor(true, Prenum1); break; // cursor to right window case 'l': case K_RIGHT: case Ctrl_L: CHECK_CMDWIN; win_goto_hor(false, Prenum1); break; // move window to new tab page case 'T': CHECK_CMDWIN; if (one_window(curwin)) { msg(_(m_onlyone), 0); } else { tabpage_T *oldtab = curtab; // First create a new tab with the window, then go back to // the old tab and close the window there. win_T *wp = curwin; if (win_new_tabpage(Prenum, NULL) == OK && valid_tabpage(oldtab)) { tabpage_T *newtab = curtab; goto_tabpage_tp(oldtab, true, true); if (curwin == wp) { win_close(curwin, false, false); } if (valid_tabpage(newtab)) { goto_tabpage_tp(newtab, true, true); apply_autocmds(EVENT_TABNEWENTERED, NULL, NULL, false, curbuf); } } } break; // cursor to top-left window case 't': case Ctrl_T: win_goto(firstwin); break; // cursor to bottom-right window case 'b': case Ctrl_B: win_goto(lastwin_nofloating()); break; // cursor to last accessed (previous) window case 'p': case Ctrl_P: if (!win_valid(prevwin)) { beep_flush(); } else { win_goto(prevwin); } break; // exchange current and next window case 'x': case Ctrl_X: CHECK_CMDWIN; win_exchange(Prenum); break; // rotate windows downwards case Ctrl_R: case 'r': CHECK_CMDWIN; reset_VIsual_and_resel(); // stop Visual mode win_rotate(false, Prenum1); // downwards break; // rotate windows upwards case 'R': CHECK_CMDWIN; reset_VIsual_and_resel(); // stop Visual mode win_rotate(true, Prenum1); // upwards break; // move window to the very top/bottom/left/right case 'K': case 'J': case 'H': case 'L': CHECK_CMDWIN; win_totop(Prenum, ((nchar == 'H' || nchar == 'L') ? WSP_VERT : 0) | ((nchar == 'H' || nchar == 'K') ? WSP_TOP : WSP_BOT)); break; // make all windows the same width and/or height case '=': { int mod = cmdmod.cmod_split & (WSP_VERT | WSP_HOR); win_equal(NULL, false, mod == WSP_VERT ? 'v' : mod == WSP_HOR ? 'h' : 'b'); break; } // increase current window height case '+': win_setheight(curwin->w_height + Prenum1); break; // decrease current window height case '-': win_setheight(curwin->w_height - Prenum1); break; // set current window height case Ctrl__: case '_': win_setheight(Prenum ? Prenum : Rows - 1); break; // increase current window width case '>': win_setwidth(curwin->w_width + Prenum1); break; // decrease current window width case '<': win_setwidth(curwin->w_width - Prenum1); break; // set current window width case '|': win_setwidth(Prenum != 0 ? Prenum : Columns); break; // jump to tag and split window if tag exists (in preview window) case '}': CHECK_CMDWIN; if (Prenum) { g_do_tagpreview = Prenum; } else { g_do_tagpreview = (int)p_pvh; } FALLTHROUGH; case ']': case Ctrl_RSB: CHECK_CMDWIN; // Keep visual mode, can select words to use as a tag. if (Prenum) { postponed_split = Prenum; } else { postponed_split = -1; } if (nchar != '}') { g_do_tagpreview = 0; } // Execute the command right here, required when // "wincmd ]" was used in a function. do_nv_ident(Ctrl_RSB, NUL); postponed_split = 0; break; // edit file name under cursor in a new window case 'f': case 'F': case Ctrl_F: { wingotofile: CHECK_CMDWIN; if (check_text_or_curbuf_locked(NULL)) { break; } linenr_T lnum = -1; char *ptr = grab_file_name(Prenum1, &lnum); if (ptr != NULL) { tabpage_T *oldtab = curtab; win_T *oldwin = curwin; setpcmark(); // If 'switchbuf' is set to 'useopen' or 'usetab' and the // file is already opened in a window, then jump to it. win_T *wp = NULL; if ((swb_flags & (SWB_USEOPEN | SWB_USETAB)) && cmdmod.cmod_tab == 0) { wp = swbuf_goto_win_with_buf(buflist_findname_exp(ptr)); } if (wp == NULL && win_split(0, 0) == OK) { RESET_BINDING(curwin); if (do_ecmd(0, ptr, NULL, NULL, ECMD_LASTL, ECMD_HIDE, NULL) == FAIL) { // Failed to open the file, close the window opened for it. win_close(curwin, false, false); goto_tabpage_win(oldtab, oldwin); } else { wp = curwin; } } if (wp != NULL && nchar == 'F' && lnum >= 0) { curwin->w_cursor.lnum = lnum; check_cursor_lnum(curwin); beginline(BL_SOL | BL_FIX); } xfree(ptr); } break; } // Go to the first occurrence of the identifier under cursor along path in a // new window -- webb case 'i': // Go to any match case Ctrl_I: type = FIND_ANY; FALLTHROUGH; case 'd': // Go to definition, using 'define' case Ctrl_D: { CHECK_CMDWIN; size_t len; char *ptr; if ((len = find_ident_under_cursor(&ptr, FIND_IDENT)) == 0) { break; } // Make a copy, if the line was changed it will be freed. ptr = xmemdupz(ptr, len); find_pattern_in_path(ptr, 0, len, true, Prenum == 0, type, Prenum1, ACTION_SPLIT, 1, MAXLNUM); xfree(ptr); curwin->w_set_curswant = true; break; } // Quickfix window only: view the result under the cursor in a new split. case K_KENTER: case CAR: if (bt_quickfix(curbuf)) { qf_view_result(true); } break; // CTRL-W g extended commands case 'g': case Ctrl_G: CHECK_CMDWIN; no_mapping++; allow_keys++; // no mapping for xchar, but allow key codes if (xchar == NUL) { xchar = plain_vgetc(); } LANGMAP_ADJUST(xchar, true); no_mapping--; allow_keys--; (void)add_to_showcmd(xchar); switch (xchar) { case '}': xchar = Ctrl_RSB; if (Prenum) { g_do_tagpreview = Prenum; } else { g_do_tagpreview = (int)p_pvh; } FALLTHROUGH; case ']': case Ctrl_RSB: // Keep visual mode, can select words to use as a tag. if (Prenum) { postponed_split = Prenum; } else { postponed_split = -1; } // Execute the command right here, required when // "wincmd g}" was used in a function. do_nv_ident('g', xchar); postponed_split = 0; break; case 'f': // CTRL-W gf: "gf" in a new tab page case 'F': // CTRL-W gF: "gF" in a new tab page cmdmod.cmod_tab = tabpage_index(curtab) + 1; nchar = xchar; goto wingotofile; case 't': // CTRL-W gt: go to next tab page goto_tabpage(Prenum); break; case 'T': // CTRL-W gT: go to previous tab page goto_tabpage(-Prenum1); break; case TAB: // CTRL-W g: go to last used tab page if (!goto_tabpage_lastused()) { beep_flush(); } break; case 'e': if (curwin->w_floating || !ui_has(kUIMultigrid)) { beep_flush(); break; } FloatConfig config = FLOAT_CONFIG_INIT; config.width = curwin->w_width; config.height = curwin->w_height; config.external = true; Error err = ERROR_INIT; if (!win_new_float(curwin, false, config, &err)) { emsg(err.msg); api_clear_error(&err); beep_flush(); } break; default: beep_flush(); break; } break; default: beep_flush(); break; } } static void cmd_with_count(char *cmd, char *bufp, size_t bufsize, int64_t Prenum) { size_t len = xstrlcpy(bufp, cmd, bufsize); if (Prenum > 0 && len < bufsize) { vim_snprintf(bufp + len, bufsize - len, "%" PRId64, Prenum); } } void win_set_buf(win_T *win, buf_T *buf, bool noautocmd, Error *err) FUNC_ATTR_NONNULL_ALL { tabpage_T *tab = win_find_tabpage(win); // no redrawing and don't set the window title RedrawingDisabled++; if (noautocmd) { block_autocmds(); } switchwin_T switchwin; if (switch_win_noblock(&switchwin, win, tab, false) == FAIL) { api_set_error(err, kErrorTypeException, "Failed to switch to window %d", win->handle); } try_start(); int result = do_buffer(DOBUF_GOTO, DOBUF_FIRST, FORWARD, buf->b_fnum, 0); if (!try_end(err) && result == FAIL) { api_set_error(err, kErrorTypeException, "Failed to set buffer %d", buf->handle); } // If window is not current, state logic will not validate its cursor. // So do it now. validate_cursor(); restore_win_noblock(&switchwin, false); if (noautocmd) { unblock_autocmds(); } RedrawingDisabled--; } /// Return the number of fold columns to display int win_fdccol_count(win_T *wp) { const char *fdc = wp->w_p_fdc; // auto: if (strncmp(fdc, "auto", 4) == 0) { const int fdccol = fdc[4] == ':' ? fdc[5] - '0' : 1; int needed_fdccols = getDeepestNesting(wp); return MIN(fdccol, needed_fdccols); } return fdc[0] - '0'; } void ui_ext_win_position(win_T *wp, bool validate) { wp->w_pos_changed = false; if (!wp->w_floating) { ui_call_win_pos(wp->w_grid_alloc.handle, wp->handle, wp->w_winrow, wp->w_wincol, wp->w_width, wp->w_height); return; } FloatConfig c = wp->w_float_config; if (!c.external) { ScreenGrid *grid = &default_grid; Float row = c.row, col = c.col; if (c.relative == kFloatRelativeWindow) { Error dummy = ERROR_INIT; win_T *win = find_window_by_handle(c.window, &dummy); api_clear_error(&dummy); if (win != NULL) { // When a floating window is anchored to another window, // update the position of its anchored window first. if (win->w_pos_changed && win->w_grid_alloc.chars != NULL && win_valid(win)) { ui_ext_win_position(win, validate); } grid = &win->w_grid; int row_off = 0, col_off = 0; grid_adjust(&grid, &row_off, &col_off); row += row_off; col += col_off; if (c.bufpos.lnum >= 0) { pos_T pos = { c.bufpos.lnum + 1, c.bufpos.col, 0 }; int trow, tcol, tcolc, tcole; textpos2screenpos(win, &pos, &trow, &tcol, &tcolc, &tcole, true); row += trow - 1; col += tcol - 1; } } } wp->w_grid_alloc.zindex = wp->w_float_config.zindex; if (ui_has(kUIMultigrid)) { String anchor = cstr_as_string((char *)float_anchor_str[c.anchor]); if (!c.hide) { ui_call_win_float_pos(wp->w_grid_alloc.handle, wp->handle, anchor, grid->handle, row, col, c.focusable, wp->w_grid_alloc.zindex); } else { ui_call_win_hide(wp->w_grid_alloc.handle); } } else { bool valid = (wp->w_redr_type == 0); if (!valid && !validate) { wp->w_pos_changed = true; return; } // TODO(bfredl): ideally, compositor should work like any multigrid UI // and use standard win_pos events. bool east = c.anchor & kFloatAnchorEast; bool south = c.anchor & kFloatAnchorSouth; int comp_row = (int)row - (south ? wp->w_height_outer : 0); int comp_col = (int)col - (east ? wp->w_width_outer : 0); comp_row += grid->comp_row; comp_col += grid->comp_col; comp_row = MAX(MIN(comp_row, Rows - wp->w_height_outer - (p_ch > 0 ? 1 : 0)), 0); if (!c.fixed || east) { comp_col = MAX(MIN(comp_col, Columns - wp->w_width_outer), 0); } wp->w_winrow = comp_row; wp->w_wincol = comp_col; if (!c.hide) { ui_comp_put_grid(&wp->w_grid_alloc, comp_row, comp_col, wp->w_height_outer, wp->w_width_outer, valid, false); ui_check_cursor_grid(wp->w_grid_alloc.handle); wp->w_grid_alloc.focusable = wp->w_float_config.focusable; if (!valid) { wp->w_grid_alloc.valid = false; redraw_later(wp, UPD_NOT_VALID); } } else { ui_comp_remove_grid(&wp->w_grid_alloc); } } } else { ui_call_win_external_pos(wp->w_grid_alloc.handle, wp->handle); } } void ui_ext_win_viewport(win_T *wp) { // NOTE: The win_viewport command is delayed until the next flush when there are pending updates. // This ensures that the updates and the viewport are sent together. if ((wp == curwin || ui_has(kUIMultigrid)) && wp->w_viewport_invalid && wp->w_redr_type == 0) { const linenr_T line_count = wp->w_buffer->b_ml.ml_line_count; // Avoid ml_get errors when producing "scroll_delta". const linenr_T cur_topline = MIN(wp->w_topline, line_count); const linenr_T cur_botline = MIN(wp->w_botline, line_count); int64_t delta = 0; linenr_T last_topline = wp->w_viewport_last_topline; linenr_T last_botline = wp->w_viewport_last_botline; int last_topfill = wp->w_viewport_last_topfill; int64_t last_skipcol = wp->w_viewport_last_skipcol; if (last_topline > line_count) { delta -= last_topline - line_count; last_topline = line_count; last_topfill = 0; last_skipcol = MAXCOL; } last_botline = MIN(last_botline, line_count); if (cur_topline < last_topline || (cur_topline == last_topline && wp->w_skipcol < last_skipcol)) { if (last_topline > 0 && cur_botline < last_topline) { // Scrolling too many lines: only give an approximate "scroll_delta". delta -= win_text_height(wp, cur_topline, wp->w_skipcol, cur_botline, 0, NULL); delta -= last_topline - cur_botline; } else { delta -= win_text_height(wp, cur_topline, wp->w_skipcol, last_topline, last_skipcol, NULL); } } else if (cur_topline > last_topline || (cur_topline == last_topline && wp->w_skipcol > last_skipcol)) { if (last_botline > 0 && cur_topline > last_botline) { // Scrolling too many lines: only give an approximate "scroll_delta". delta += win_text_height(wp, last_topline, last_skipcol, last_botline, 0, NULL); delta += cur_topline - last_botline; } else { delta += win_text_height(wp, last_topline, last_skipcol, cur_topline, wp->w_skipcol, NULL); } } delta += last_topfill; delta -= wp->w_topfill; linenr_T ev_botline = wp->w_botline; if (ev_botline == line_count + 1 && wp->w_empty_rows == 0) { // TODO(bfredl): The might be more cases to consider, like how does this // interact with incomplete final line? Diff filler lines? ev_botline = line_count; } ui_call_win_viewport(wp->w_grid_alloc.handle, wp->handle, wp->w_topline - 1, ev_botline, wp->w_cursor.lnum - 1, wp->w_cursor.col, line_count, delta); wp->w_viewport_invalid = false; wp->w_viewport_last_topline = wp->w_topline; wp->w_viewport_last_botline = wp->w_botline; wp->w_viewport_last_topfill = wp->w_topfill; wp->w_viewport_last_skipcol = wp->w_skipcol; } } /// If "split_disallowed" is set give an error and return FAIL. /// Otherwise return OK. static int check_split_disallowed(void) { if (split_disallowed > 0) { emsg(_("E242: Can't split a window while closing another")); return FAIL; } if (curwin->w_buffer->b_locked_split) { emsg(_(e_cannot_split_window_when_closing_buffer)); return FAIL; } return OK; } // split the current window, implements CTRL-W s and :split // // "size" is the height or width for the new window, 0 to use half of current // height or width. // // "flags": // WSP_ROOM: require enough room for new window // WSP_VERT: vertical split. // WSP_TOP: open window at the top-left of the screen (help window). // WSP_BOT: open window at the bottom-right of the screen (quickfix window). // WSP_HELP: creating the help window, keep layout snapshot // // return FAIL for failure, OK otherwise int win_split(int size, int flags) { if (check_split_disallowed() == FAIL) { return FAIL; } // When the ":tab" modifier was used open a new tab page instead. if (may_open_tabpage() == OK) { return OK; } // Add flags from ":vertical", ":topleft" and ":botright". flags |= cmdmod.cmod_split; if ((flags & WSP_TOP) && (flags & WSP_BOT)) { emsg(_("E442: Can't split topleft and botright at the same time")); return FAIL; } // When creating the help window make a snapshot of the window layout. // Otherwise clear the snapshot, it's now invalid. if (flags & WSP_HELP) { make_snapshot(SNAP_HELP_IDX); } else { clear_snapshot(curtab, SNAP_HELP_IDX); } return win_split_ins(size, flags, NULL, 0); } /// When "new_wp" is NULL: split the current window in two. /// When "new_wp" is not NULL: insert this window at the far /// top/left/right/bottom. /// @return FAIL for failure, OK otherwise int win_split_ins(int size, int flags, win_T *new_wp, int dir) { win_T *wp = new_wp; // aucmd_win[] should always remain floating if (new_wp != NULL && is_aucmd_win(new_wp)) { return FAIL; } win_T *oldwin; if (flags & WSP_TOP) { oldwin = firstwin; } else if (flags & WSP_BOT || curwin->w_floating) { // can't split float, use last nonfloating window instead oldwin = lastwin_nofloating(); } else { oldwin = curwin; } int need_status = 0; int new_size = size; bool new_in_layout = (new_wp == NULL || new_wp->w_floating); // add a status line when p_ls == 1 and splitting the first window if (one_nonfloat() && p_ls == 1 && oldwin->w_status_height == 0) { if (oldwin->w_height <= p_wmh && new_in_layout) { emsg(_(e_noroom)); return FAIL; } need_status = STATUS_HEIGHT; } bool do_equal = false; int oldwin_height = 0; const int layout = flags & WSP_VERT ? FR_ROW : FR_COL; bool did_set_fraction = false; if (flags & WSP_VERT) { // Check if we are able to split the current window and compute its // width. // Current window requires at least 1 space. int wmw1 = (p_wmw == 0 ? 1 : (int)p_wmw); int needed = wmw1 + 1; if (flags & WSP_ROOM) { needed += (int)p_wiw - wmw1; } int minwidth; int available; if (flags & (WSP_BOT | WSP_TOP)) { minwidth = frame_minwidth(topframe, NOWIN); available = topframe->fr_width; needed += minwidth; } else if (p_ea) { minwidth = frame_minwidth(oldwin->w_frame, NOWIN); frame_T *prevfrp = oldwin->w_frame; for (frame_T *frp = oldwin->w_frame->fr_parent; frp != NULL; frp = frp->fr_parent) { if (frp->fr_layout == FR_ROW) { frame_T *frp2; FOR_ALL_FRAMES(frp2, frp->fr_child) { if (frp2 != prevfrp) { minwidth += frame_minwidth(frp2, NOWIN); } } } prevfrp = frp; } available = topframe->fr_width; needed += minwidth; } else { minwidth = frame_minwidth(oldwin->w_frame, NOWIN); available = oldwin->w_frame->fr_width; needed += minwidth; } if (available < needed && new_in_layout) { emsg(_(e_noroom)); return FAIL; } if (new_size == 0) { new_size = oldwin->w_width / 2; } if (new_size > available - minwidth - 1) { new_size = available - minwidth - 1; } if (new_size < wmw1) { new_size = wmw1; } // if it doesn't fit in the current window, need win_equal() if (oldwin->w_width - new_size - 1 < p_wmw) { do_equal = true; } // We don't like to take lines for the new window from a // 'winfixwidth' window. Take them from a window to the left or right // instead, if possible. Add one for the separator. if (oldwin->w_p_wfw) { win_setwidth_win(oldwin->w_width + new_size + 1, oldwin); } // Only make all windows the same width if one of them (except oldwin) // is wider than one of the split windows. if (!do_equal && p_ea && size == 0 && *p_ead != 'v' && oldwin->w_frame->fr_parent != NULL) { frame_T *frp = oldwin->w_frame->fr_parent->fr_child; while (frp != NULL) { if (frp->fr_win != oldwin && frp->fr_win != NULL && (frp->fr_win->w_width > new_size || frp->fr_win->w_width > (oldwin->w_width - new_size - 1))) { do_equal = true; break; } frp = frp->fr_next; } } } else { // Check if we are able to split the current window and compute its height. // Current window requires at least 1 space plus space for the window bar. int wmh1 = MAX((int)p_wmh, 1) + oldwin->w_winbar_height; int needed = wmh1 + STATUS_HEIGHT; if (flags & WSP_ROOM) { needed += (int)p_wh - wmh1 + oldwin->w_winbar_height; } if (p_ch < 1) { needed += 1; // Adjust for cmdheight=0. } int minheight; int available; if (flags & (WSP_BOT | WSP_TOP)) { minheight = frame_minheight(topframe, NOWIN) + need_status; available = topframe->fr_height; needed += minheight; } else if (p_ea) { minheight = frame_minheight(oldwin->w_frame, NOWIN) + need_status; frame_T *prevfrp = oldwin->w_frame; for (frame_T *frp = oldwin->w_frame->fr_parent; frp != NULL; frp = frp->fr_parent) { if (frp->fr_layout == FR_COL) { frame_T *frp2; FOR_ALL_FRAMES(frp2, frp->fr_child) { if (frp2 != prevfrp) { minheight += frame_minheight(frp2, NOWIN); } } } prevfrp = frp; } available = topframe->fr_height; needed += minheight; } else { minheight = frame_minheight(oldwin->w_frame, NOWIN) + need_status; available = oldwin->w_frame->fr_height; needed += minheight; } if (available < needed && new_in_layout) { emsg(_(e_noroom)); return FAIL; } oldwin_height = oldwin->w_height; if (need_status) { oldwin->w_status_height = STATUS_HEIGHT; oldwin_height -= STATUS_HEIGHT; } if (new_size == 0) { new_size = oldwin_height / 2; } if (new_size > available - minheight - STATUS_HEIGHT) { new_size = available - minheight - STATUS_HEIGHT; } if (new_size < wmh1) { new_size = wmh1; } // if it doesn't fit in the current window, need win_equal() if (oldwin_height - new_size - STATUS_HEIGHT < p_wmh) { do_equal = true; } // We don't like to take lines for the new window from a // 'winfixheight' window. Take them from a window above or below // instead, if possible. if (oldwin->w_p_wfh) { // Set w_fraction now so that the cursor keeps the same relative // vertical position using the old height. set_fraction(oldwin); did_set_fraction = true; win_setheight_win(oldwin->w_height + new_size + STATUS_HEIGHT, oldwin); oldwin_height = oldwin->w_height; if (need_status) { oldwin_height -= STATUS_HEIGHT; } } // Only make all windows the same height if one of them (except oldwin) // is higher than one of the split windows. if (!do_equal && p_ea && size == 0 && *p_ead != 'h' && oldwin->w_frame->fr_parent != NULL) { frame_T *frp = oldwin->w_frame->fr_parent->fr_child; while (frp != NULL) { if (frp->fr_win != oldwin && frp->fr_win != NULL && (frp->fr_win->w_height > new_size || frp->fr_win->w_height > oldwin_height - new_size - STATUS_HEIGHT)) { do_equal = true; break; } frp = frp->fr_next; } } } // allocate new window structure and link it in the window list if ((flags & WSP_TOP) == 0 && ((flags & WSP_BOT) || (flags & WSP_BELOW) || (!(flags & WSP_ABOVE) && ((flags & WSP_VERT) ? p_spr : p_sb)))) { // new window below/right of current one if (new_wp == NULL) { wp = win_alloc(oldwin, false); } else { win_append(oldwin, wp); } } else { if (new_wp == NULL) { wp = win_alloc(oldwin->w_prev, false); } else { win_append(oldwin->w_prev, wp); } } if (new_wp == NULL) { if (wp == NULL) { return FAIL; } new_frame(wp); // make the contents of the new window the same as the current one win_init(wp, curwin, flags); } else if (wp->w_floating) { new_frame(wp); wp->w_floating = false; // non-floating window doesn't store float config or have a border. wp->w_float_config = FLOAT_CONFIG_INIT; CLEAR_FIELD(wp->w_border_adj); } int before; frame_T *curfrp; // Reorganise the tree of frames to insert the new window. if (flags & (WSP_TOP | WSP_BOT)) { if ((topframe->fr_layout == FR_COL && (flags & WSP_VERT) == 0) || (topframe->fr_layout == FR_ROW && (flags & WSP_VERT) != 0)) { curfrp = topframe->fr_child; if (flags & WSP_BOT) { while (curfrp->fr_next != NULL) { curfrp = curfrp->fr_next; } } } else { curfrp = topframe; } before = (flags & WSP_TOP); } else { curfrp = oldwin->w_frame; if (flags & WSP_BELOW) { before = false; } else if (flags & WSP_ABOVE) { before = true; } else if (flags & WSP_VERT) { before = !p_spr; } else { before = !p_sb; } } if (curfrp->fr_parent == NULL || curfrp->fr_parent->fr_layout != layout) { // Need to create a new frame in the tree to make a branch. frame_T *frp = xcalloc(1, sizeof(frame_T)); *frp = *curfrp; curfrp->fr_layout = (char)layout; frp->fr_parent = curfrp; frp->fr_next = NULL; frp->fr_prev = NULL; curfrp->fr_child = frp; curfrp->fr_win = NULL; curfrp = frp; if (frp->fr_win != NULL) { oldwin->w_frame = frp; } else { FOR_ALL_FRAMES(frp, frp->fr_child) { frp->fr_parent = curfrp; } } } frame_T *frp; if (new_wp == NULL) { frp = wp->w_frame; } else { frp = new_wp->w_frame; } frp->fr_parent = curfrp->fr_parent; // Insert the new frame at the right place in the frame list. if (before) { frame_insert(curfrp, frp); } else { frame_append(curfrp, frp); } // Set w_fraction now so that the cursor keeps the same relative // vertical position. if (!did_set_fraction) { set_fraction(oldwin); } wp->w_fraction = oldwin->w_fraction; if (flags & WSP_VERT) { wp->w_p_scr = curwin->w_p_scr; if (need_status) { win_new_height(oldwin, oldwin->w_height - 1); oldwin->w_status_height = need_status; } if (flags & (WSP_TOP | WSP_BOT)) { // set height and row of new window to full height wp->w_winrow = tabline_height(); win_new_height(wp, curfrp->fr_height - (p_ls == 1 || p_ls == 2)); wp->w_status_height = (p_ls == 1 || p_ls == 2); wp->w_hsep_height = 0; } else { // height and row of new window is same as current window wp->w_winrow = oldwin->w_winrow; win_new_height(wp, oldwin->w_height); wp->w_status_height = oldwin->w_status_height; wp->w_hsep_height = oldwin->w_hsep_height; } frp->fr_height = curfrp->fr_height; // "new_size" of the current window goes to the new window, use // one column for the vertical separator win_new_width(wp, new_size); if (before) { wp->w_vsep_width = 1; } else { wp->w_vsep_width = oldwin->w_vsep_width; oldwin->w_vsep_width = 1; } if (flags & (WSP_TOP | WSP_BOT)) { if (flags & WSP_BOT) { frame_add_vsep(curfrp); } // Set width of neighbor frame frame_new_width(curfrp, curfrp->fr_width - (new_size + ((flags & WSP_TOP) != 0)), flags & WSP_TOP, false); } else { win_new_width(oldwin, oldwin->w_width - (new_size + 1)); } if (before) { // new window left of current one wp->w_wincol = oldwin->w_wincol; oldwin->w_wincol += new_size + 1; } else { // new window right of current one wp->w_wincol = oldwin->w_wincol + oldwin->w_width + 1; } frame_fix_width(oldwin); frame_fix_width(wp); } else { const bool is_stl_global = global_stl_height() > 0; // width and column of new window is same as current window if (flags & (WSP_TOP | WSP_BOT)) { wp->w_wincol = 0; win_new_width(wp, Columns); wp->w_vsep_width = 0; } else { wp->w_wincol = oldwin->w_wincol; win_new_width(wp, oldwin->w_width); wp->w_vsep_width = oldwin->w_vsep_width; } frp->fr_width = curfrp->fr_width; // "new_size" of the current window goes to the new window, use // one row for the status line win_new_height(wp, new_size); const int old_status_height = oldwin->w_status_height; if (before) { wp->w_hsep_height = is_stl_global ? 1 : 0; } else { wp->w_hsep_height = oldwin->w_hsep_height; oldwin->w_hsep_height = is_stl_global ? 1 : 0; } if (flags & (WSP_TOP | WSP_BOT)) { int new_fr_height = curfrp->fr_height - new_size; if (is_stl_global) { if (flags & WSP_BOT) { frame_add_hsep(curfrp); } else { new_fr_height -= 1; } } else { if (!((flags & WSP_BOT) && p_ls == 0)) { new_fr_height -= STATUS_HEIGHT; } if (flags & WSP_BOT) { frame_add_statusline(curfrp); } } frame_new_height(curfrp, new_fr_height, flags & WSP_TOP, false); } else { win_new_height(oldwin, oldwin_height - (new_size + STATUS_HEIGHT)); } if (before) { // new window above current one wp->w_winrow = oldwin->w_winrow; if (is_stl_global) { wp->w_status_height = 0; oldwin->w_winrow += wp->w_height + 1; } else { wp->w_status_height = STATUS_HEIGHT; oldwin->w_winrow += wp->w_height + STATUS_HEIGHT; } } else { // new window below current one if (is_stl_global) { wp->w_winrow = oldwin->w_winrow + oldwin->w_height + 1; wp->w_status_height = 0; } else { wp->w_winrow = oldwin->w_winrow + oldwin->w_height + STATUS_HEIGHT; wp->w_status_height = old_status_height; if (!(flags & WSP_BOT)) { oldwin->w_status_height = STATUS_HEIGHT; } } } frame_fix_height(wp); frame_fix_height(oldwin); } if (flags & (WSP_TOP | WSP_BOT)) { (void)win_comp_pos(); } // Both windows need redrawing. Update all status lines, in case they // show something related to the window count or position. redraw_later(wp, UPD_NOT_VALID); redraw_later(oldwin, UPD_NOT_VALID); status_redraw_all(); if (need_status) { msg_row = Rows - 1; msg_col = sc_col; msg_clr_eos_force(); // Old command/ruler may still be there comp_col(); msg_row = Rows - 1; msg_col = 0; // put position back at start of line } // equalize the window sizes. if (do_equal || dir != 0) { win_equal(wp, true, (flags & WSP_VERT) ? (dir == 'v' ? 'b' : 'h') : (dir == 'h' ? 'b' : 'v')); } else if (!is_aucmd_win(wp)) { win_fix_scroll(false); } int i; // Don't change the window height/width to 'winheight' / 'winwidth' if a // size was given. if (flags & WSP_VERT) { i = (int)p_wiw; if (size != 0) { p_wiw = size; } } else { i = (int)p_wh; if (size != 0) { p_wh = size; } } // make the new window the current window win_enter_ext(wp, WEE_TRIGGER_NEW_AUTOCMDS | WEE_TRIGGER_ENTER_AUTOCMDS | WEE_TRIGGER_LEAVE_AUTOCMDS); if (flags & WSP_VERT) { p_wiw = i; } else { p_wh = i; } if (win_valid(oldwin)) { // Send the window positions to the UI oldwin->w_pos_changed = true; } return OK; } // Initialize window "newp" from window "oldp". // Used when splitting a window and when creating a new tab page. // The windows will both edit the same buffer. // WSP_NEWLOC may be specified in flags to prevent the location list from // being copied. void win_init(win_T *newp, win_T *oldp, int flags) { newp->w_buffer = oldp->w_buffer; newp->w_s = &(oldp->w_buffer->b_s); oldp->w_buffer->b_nwindows++; newp->w_cursor = oldp->w_cursor; newp->w_valid = 0; newp->w_curswant = oldp->w_curswant; newp->w_set_curswant = oldp->w_set_curswant; newp->w_topline = oldp->w_topline; newp->w_topfill = oldp->w_topfill; newp->w_leftcol = oldp->w_leftcol; newp->w_pcmark = oldp->w_pcmark; newp->w_prev_pcmark = oldp->w_prev_pcmark; newp->w_alt_fnum = oldp->w_alt_fnum; newp->w_wrow = oldp->w_wrow; newp->w_fraction = oldp->w_fraction; newp->w_prev_fraction_row = oldp->w_prev_fraction_row; copy_jumplist(oldp, newp); if (flags & WSP_NEWLOC) { // Don't copy the location list. newp->w_llist = NULL; newp->w_llist_ref = NULL; } else { copy_loclist_stack(oldp, newp); } newp->w_localdir = (oldp->w_localdir == NULL) ? NULL : xstrdup(oldp->w_localdir); newp->w_prevdir = (oldp->w_prevdir == NULL) ? NULL : xstrdup(oldp->w_prevdir); if (*p_spk != 'c') { if (*p_spk == 't') { newp->w_skipcol = oldp->w_skipcol; } newp->w_botline = oldp->w_botline; newp->w_prev_height = oldp->w_height; newp->w_prev_winrow = oldp->w_winrow; } // copy tagstack and folds for (int i = 0; i < oldp->w_tagstacklen; i++) { taggy_T *tag = &newp->w_tagstack[i]; *tag = oldp->w_tagstack[i]; if (tag->tagname != NULL) { tag->tagname = xstrdup(tag->tagname); } if (tag->user_data != NULL) { tag->user_data = xstrdup(tag->user_data); } } newp->w_tagstackidx = oldp->w_tagstackidx; newp->w_tagstacklen = oldp->w_tagstacklen; // Keep same changelist position in new window. newp->w_changelistidx = oldp->w_changelistidx; copyFoldingState(oldp, newp); win_init_some(newp, oldp); newp->w_winbar_height = oldp->w_winbar_height; } // Initialize window "newp" from window "old". // Only the essential things are copied. static void win_init_some(win_T *newp, win_T *oldp) { // Use the same argument list. newp->w_alist = oldp->w_alist; newp->w_alist->al_refcount++; newp->w_arg_idx = oldp->w_arg_idx; // copy options from existing window win_copy_options(oldp, newp); } /// Check if "win" is a pointer to an existing window in the current tabpage. /// /// @param win window to check bool win_valid(const win_T *win) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT { return tabpage_win_valid(curtab, win); } /// Check if "win" is a pointer to an existing window in tabpage "tp". /// /// @param win window to check static bool tabpage_win_valid(const tabpage_T *tp, const win_T *win) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT { if (win == NULL) { return false; } FOR_ALL_WINDOWS_IN_TAB(wp, tp) { if (wp == win) { return true; } } return false; } // Find window "handle" in the current tab page. // Return NULL if not found. win_T *win_find_by_handle(handle_T handle) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT { FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->handle == handle) { return wp; } } return NULL; } /// Check if "win" is a pointer to an existing window in any tabpage. /// /// @param win window to check bool win_valid_any_tab(win_T *win) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT { if (win == NULL) { return false; } FOR_ALL_TAB_WINDOWS(tp, wp) { if (wp == win) { return true; } } return false; } // Return the number of windows. int win_count(void) { int count = 0; FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { count++; } return count; } /// Make "count" windows on the screen. /// Must be called when there is just one window, filling the whole screen. /// (excluding the command line). /// /// @param vertical split windows vertically if true. /// /// @return actual number of windows on the screen. int make_windows(int count, bool vertical) { int maxcount; if (vertical) { // Each window needs at least 'winminwidth' lines and a separator column. maxcount = (int)(curwin->w_width + curwin->w_vsep_width - (p_wiw - p_wmw)) / ((int)p_wmw + 1); } else { // Each window needs at least 'winminheight' lines. // If statusline isn't global, each window also needs a statusline. // If 'winbar' is set, each window also needs a winbar. maxcount = (int)(curwin->w_height + curwin->w_hsep_height + curwin->w_status_height - (p_wh - p_wmh)) / ((int)p_wmh + STATUS_HEIGHT + global_winbar_height()); } if (maxcount < 2) { maxcount = 2; } if (count > maxcount) { count = maxcount; } // add status line now, otherwise first window will be too big if (count > 1) { last_status(true); } // Don't execute autocommands while creating the windows. Must do that // when putting the buffers in the windows. block_autocmds(); int todo; // todo is number of windows left to create for (todo = count - 1; todo > 0; todo--) { if (vertical) { if (win_split(curwin->w_width - (curwin->w_width - todo) / (todo + 1) - 1, WSP_VERT | WSP_ABOVE) == FAIL) { break; } } else { if (win_split(curwin->w_height - (curwin->w_height - todo * STATUS_HEIGHT) / (todo + 1) - STATUS_HEIGHT, WSP_ABOVE) == FAIL) { break; } } } unblock_autocmds(); // return actual number of windows return count - todo; } // Exchange current and next window static void win_exchange(int Prenum) { if (curwin->w_floating) { emsg(e_floatexchange); return; } if (firstwin == curwin && lastwin_nofloating() == curwin) { // just one window beep_flush(); return; } if (text_or_buf_locked()) { beep_flush(); return; } frame_T *frp; // find window to exchange with if (Prenum) { frp = curwin->w_frame->fr_parent->fr_child; while (frp != NULL && --Prenum > 0) { frp = frp->fr_next; } } else if (curwin->w_frame->fr_next != NULL) { // Swap with next frp = curwin->w_frame->fr_next; } else { // Swap last window in row/col with previous frp = curwin->w_frame->fr_prev; } // We can only exchange a window with another window, not with a frame // containing windows. if (frp == NULL || frp->fr_win == NULL || frp->fr_win == curwin) { return; } win_T *wp = frp->fr_win; // 1. remove curwin from the list. Remember after which window it was in wp2 // 2. insert curwin before wp in the list // if wp != wp2 // 3. remove wp from the list // 4. insert wp after wp2 // 5. exchange the status line height, winbar height, hsep height and vsep width. win_T *wp2 = curwin->w_prev; frame_T *frp2 = curwin->w_frame->fr_prev; if (wp->w_prev != curwin) { win_remove(curwin, NULL); frame_remove(curwin->w_frame); win_append(wp->w_prev, curwin); frame_insert(frp, curwin->w_frame); } if (wp != wp2) { win_remove(wp, NULL); frame_remove(wp->w_frame); win_append(wp2, wp); if (frp2 == NULL) { frame_insert(wp->w_frame->fr_parent->fr_child, wp->w_frame); } else { frame_append(frp2, wp->w_frame); } } int temp = curwin->w_status_height; curwin->w_status_height = wp->w_status_height; wp->w_status_height = temp; temp = curwin->w_vsep_width; curwin->w_vsep_width = wp->w_vsep_width; wp->w_vsep_width = temp; temp = curwin->w_hsep_height; curwin->w_hsep_height = wp->w_hsep_height; wp->w_hsep_height = temp; frame_fix_height(curwin); frame_fix_height(wp); frame_fix_width(curwin); frame_fix_width(wp); (void)win_comp_pos(); // recompute window positions if (wp->w_buffer != curbuf) { reset_VIsual_and_resel(); } else if (VIsual_active) { wp->w_cursor = curwin->w_cursor; } win_enter(wp, true); redraw_later(curwin, UPD_NOT_VALID); redraw_later(wp, UPD_NOT_VALID); } // rotate windows: if upwards true the second window becomes the first one // if upwards false the first window becomes the second one static void win_rotate(bool upwards, int count) { if (curwin->w_floating) { emsg(e_floatexchange); return; } if (count <= 0 || (firstwin == curwin && lastwin_nofloating() == curwin)) { // nothing to do beep_flush(); return; } // Check if all frames in this row/col have one window. frame_T *frp; FOR_ALL_FRAMES(frp, curwin->w_frame->fr_parent->fr_child) { if (frp->fr_win == NULL) { emsg(_("E443: Cannot rotate when another window is split")); return; } } win_T *wp1 = NULL; win_T *wp2 = NULL; while (count--) { if (upwards) { // first window becomes last window // remove first window/frame from the list frp = curwin->w_frame->fr_parent->fr_child; assert(frp != NULL); wp1 = frp->fr_win; win_remove(wp1, NULL); frame_remove(frp); assert(frp->fr_parent->fr_child); // find last frame and append removed window/frame after it for (; frp->fr_next != NULL; frp = frp->fr_next) {} win_append(frp->fr_win, wp1); frame_append(frp, wp1->w_frame); wp2 = frp->fr_win; // previously last window } else { // last window becomes first window // find last window/frame in the list and remove it for (frp = curwin->w_frame; frp->fr_next != NULL; frp = frp->fr_next) {} wp1 = frp->fr_win; wp2 = wp1->w_prev; // will become last window win_remove(wp1, NULL); frame_remove(frp); assert(frp->fr_parent->fr_child); // append the removed window/frame before the first in the list win_append(frp->fr_parent->fr_child->fr_win->w_prev, wp1); frame_insert(frp->fr_parent->fr_child, frp); } // exchange status height, winbar height, hsep height and vsep width of old and new last window int n = wp2->w_status_height; wp2->w_status_height = wp1->w_status_height; wp1->w_status_height = n; n = wp2->w_hsep_height; wp2->w_hsep_height = wp1->w_hsep_height; wp1->w_hsep_height = n; frame_fix_height(wp1); frame_fix_height(wp2); n = wp2->w_vsep_width; wp2->w_vsep_width = wp1->w_vsep_width; wp1->w_vsep_width = n; frame_fix_width(wp1); frame_fix_width(wp2); // recompute w_winrow and w_wincol for all windows (void)win_comp_pos(); } wp1->w_pos_changed = true; wp2->w_pos_changed = true; redraw_all_later(UPD_NOT_VALID); } // Move the current window to the very top/bottom/left/right of the screen. static void win_totop(int size, int flags) { int dir = 0; int height = curwin->w_height; if (firstwin == curwin && lastwin_nofloating() == curwin) { beep_flush(); return; } if (is_aucmd_win(curwin)) { return; } if (check_split_disallowed() == FAIL) { return; } if (curwin->w_floating) { ui_comp_remove_grid(&curwin->w_grid_alloc); if (ui_has(kUIMultigrid)) { curwin->w_pos_changed = true; } else { // No longer a float, a non-multigrid UI shouldn't draw it as such ui_call_win_hide(curwin->w_grid_alloc.handle); win_free_grid(curwin, true); } } else { // Remove the window and frame from the tree of frames. (void)winframe_remove(curwin, &dir, NULL); } win_remove(curwin, NULL); last_status(false); // may need to remove last status line (void)win_comp_pos(); // recompute window positions // Split a window on the desired side and put the window there. (void)win_split_ins(size, flags, curwin, dir); if (!(flags & WSP_VERT)) { win_setheight(height); if (p_ea) { win_equal(curwin, true, 'v'); } } } // Move window "win1" to below/right of "win2" and make "win1" the current // window. Only works within the same frame! void win_move_after(win_T *win1, win_T *win2) { // check if the arguments are reasonable if (win1 == win2) { return; } // check if there is something to do if (win2->w_next != win1) { if (win1->w_frame->fr_parent != win2->w_frame->fr_parent) { iemsg("INTERNAL: trying to move a window into another frame"); return; } // may need to move the status line, window bar, horizontal or vertical separator of the last // window if (win1 == lastwin) { int height = win1->w_prev->w_status_height; win1->w_prev->w_status_height = win1->w_status_height; win1->w_status_height = height; height = win1->w_prev->w_hsep_height; win1->w_prev->w_hsep_height = win1->w_hsep_height; win1->w_hsep_height = height; if (win1->w_prev->w_vsep_width == 1) { // Remove the vertical separator from the last-but-one window, // add it to the last window. Adjust the frame widths. win1->w_prev->w_vsep_width = 0; win1->w_prev->w_frame->fr_width -= 1; win1->w_vsep_width = 1; win1->w_frame->fr_width += 1; } } else if (win2 == lastwin) { int height = win1->w_status_height; win1->w_status_height = win2->w_status_height; win2->w_status_height = height; height = win1->w_hsep_height; win1->w_hsep_height = win2->w_hsep_height; win2->w_hsep_height = height; if (win1->w_vsep_width == 1) { // Remove the vertical separator from win1, add it to the last // window, win2. Adjust the frame widths. win2->w_vsep_width = 1; win2->w_frame->fr_width += 1; win1->w_vsep_width = 0; win1->w_frame->fr_width -= 1; } } win_remove(win1, NULL); frame_remove(win1->w_frame); win_append(win2, win1); frame_append(win2->w_frame, win1->w_frame); (void)win_comp_pos(); // recompute w_winrow for all windows redraw_later(curwin, UPD_NOT_VALID); } win_enter(win1, false); win1->w_pos_changed = true; win2->w_pos_changed = true; } /// Compute maximum number of windows that can fit within "height" in frame "fr". static int get_maximum_wincount(frame_T *fr, int height) { if (fr->fr_layout != FR_COL) { return (height / ((int)p_wmh + STATUS_HEIGHT + frame2win(fr)->w_winbar_height)); } else if (global_winbar_height()) { // If winbar is globally enabled, no need to check each window for it. return (height / ((int)p_wmh + STATUS_HEIGHT + 1)); } frame_T *frp; int total_wincount = 0; // First, try to fit all child frames of "fr" into "height" FOR_ALL_FRAMES(frp, fr->fr_child) { win_T *wp = frame2win(frp); if (height < (p_wmh + STATUS_HEIGHT + wp->w_winbar_height)) { break; } height -= (int)p_wmh + STATUS_HEIGHT + wp->w_winbar_height; total_wincount += 1; } // If we still have enough room for more windows, just use the default winbar height (which is 0) // in order to get the amount of windows that'd fit in the remaining space total_wincount += height / ((int)p_wmh + STATUS_HEIGHT); return total_wincount; } /// Make all windows the same height. /// 'next_curwin' will soon be the current window, make sure it has enough rows. /// /// @param next_curwin pointer to current window to be or NULL /// @param current do only frame with current window /// @param dir 'v' for vertically, 'h' for horizontally, 'b' for both, 0 for using p_ead void win_equal(win_T *next_curwin, bool current, int dir) { if (dir == 0) { dir = (unsigned char)(*p_ead); } win_equal_rec(next_curwin == NULL ? curwin : next_curwin, current, topframe, dir, 0, tabline_height(), Columns, topframe->fr_height); if (!is_aucmd_win(next_curwin)) { win_fix_scroll(true); } } /// Set a frame to a new position and height, spreading the available room /// equally over contained frames. /// The window "next_curwin" (if not NULL) should at least get the size from /// 'winheight' and 'winwidth' if possible. /// /// @param next_curwin pointer to current window to be or NULL /// @param current do only frame with current window /// @param topfr frame to set size off /// @param dir 'v', 'h' or 'b', see win_equal() /// @param col horizontal position for frame /// @param row vertical position for frame /// @param width new width of frame /// @param height new height of frame static void win_equal_rec(win_T *next_curwin, bool current, frame_T *topfr, int dir, int col, int row, int width, int height) { int extra_sep = 0; int totwincount = 0; int next_curwin_size = 0; int room = 0; int has_next_curwin = 0; if (topfr->fr_layout == FR_LEAF) { // Set the width/height of this frame. // Redraw when size or position changes if (topfr->fr_height != height || topfr->fr_win->w_winrow != row || topfr->fr_width != width || topfr->fr_win->w_wincol != col) { topfr->fr_win->w_winrow = row; frame_new_height(topfr, height, false, false); topfr->fr_win->w_wincol = col; frame_new_width(topfr, width, false, false); redraw_all_later(UPD_NOT_VALID); } } else if (topfr->fr_layout == FR_ROW) { topfr->fr_width = width; topfr->fr_height = height; if (dir != 'v') { // equalize frame widths // Compute the maximum number of windows horizontally in this // frame. int n = frame_minwidth(topfr, NOWIN); // add one for the rightmost window, it doesn't have a separator if (col + width == Columns) { extra_sep = 1; } else { extra_sep = 0; } totwincount = (n + extra_sep) / ((int)p_wmw + 1); has_next_curwin = frame_has_win(topfr, next_curwin); // Compute width for "next_curwin" window and room available for // other windows. // "m" is the minimal width when counting p_wiw for "next_curwin". int m = frame_minwidth(topfr, next_curwin); room = width - m; if (room < 0) { next_curwin_size = (int)p_wiw + room; room = 0; } else { next_curwin_size = -1; frame_T *fr; FOR_ALL_FRAMES(fr, topfr->fr_child) { if (!frame_fixed_width(fr)) { continue; } // If 'winfixwidth' set keep the window width if possible. // Watch out for this window being the next_curwin. n = frame_minwidth(fr, NOWIN); int new_size = fr->fr_width; if (frame_has_win(fr, next_curwin)) { room += (int)p_wiw - (int)p_wmw; next_curwin_size = 0; if (new_size < p_wiw) { new_size = (int)p_wiw; } } else { // These windows don't use up room. totwincount -= (n + (fr->fr_next == NULL ? extra_sep : 0)) / ((int)p_wmw + 1); } room -= new_size - n; if (room < 0) { new_size += room; room = 0; } fr->fr_newwidth = new_size; } if (next_curwin_size == -1) { if (!has_next_curwin) { next_curwin_size = 0; } else if (totwincount > 1 && (room + (totwincount - 2)) / (totwincount - 1) > p_wiw) { // Can make all windows wider than 'winwidth', spread // the room equally. next_curwin_size = (int)(room + p_wiw + (totwincount - 1) * p_wmw + (totwincount - 1)) / totwincount; room -= next_curwin_size - (int)p_wiw; } else { next_curwin_size = (int)p_wiw; } } } if (has_next_curwin) { totwincount--; // don't count curwin } } frame_T *fr; FOR_ALL_FRAMES(fr, topfr->fr_child) { int wincount = 1; int new_size; if (fr->fr_next == NULL) { // last frame gets all that remains (avoid roundoff error) new_size = width; } else if (dir == 'v') { new_size = fr->fr_width; } else if (frame_fixed_width(fr)) { new_size = fr->fr_newwidth; wincount = 0; // doesn't count as a sizeable window } else { // Compute the maximum number of windows horiz. in "fr". int n = frame_minwidth(fr, NOWIN); wincount = (n + (fr->fr_next == NULL ? extra_sep : 0)) / ((int)p_wmw + 1); int m = frame_minwidth(fr, next_curwin); bool hnc = has_next_curwin && frame_has_win(fr, next_curwin); if (hnc) { // don't count next_curwin wincount--; } if (totwincount == 0) { new_size = room; } else { new_size = (wincount * room + (totwincount / 2)) / totwincount; } if (hnc) { // add next_curwin size next_curwin_size -= (int)p_wiw - (m - n); if (next_curwin_size < 0) { next_curwin_size = 0; } new_size += next_curwin_size; room -= new_size - next_curwin_size; } else { room -= new_size; } new_size += n; } // Skip frame that is full width when splitting or closing a // window, unless equalizing all frames. if (!current || dir != 'v' || topfr->fr_parent != NULL || (new_size != fr->fr_width) || frame_has_win(fr, next_curwin)) { win_equal_rec(next_curwin, current, fr, dir, col, row, new_size, height); } col += new_size; width -= new_size; totwincount -= wincount; } } else { // topfr->fr_layout == FR_COL topfr->fr_width = width; topfr->fr_height = height; if (dir != 'h') { // equalize frame heights // Compute maximum number of windows vertically in this frame. int n = frame_minheight(topfr, NOWIN); // add one for the bottom window if it doesn't have a statusline or separator if (row + height >= cmdline_row && p_ls == 0) { extra_sep = STATUS_HEIGHT; } else if (global_stl_height() > 0) { extra_sep = 1; } else { extra_sep = 0; } totwincount = get_maximum_wincount(topfr, n + extra_sep); has_next_curwin = frame_has_win(topfr, next_curwin); // Compute height for "next_curwin" window and room available for // other windows. // "m" is the minimal height when counting p_wh for "next_curwin". int m = frame_minheight(topfr, next_curwin); room = height - m; if (room < 0) { // The room is less than 'winheight', use all space for the // current window. next_curwin_size = (int)p_wh + room; room = 0; } else { next_curwin_size = -1; frame_T *fr; FOR_ALL_FRAMES(fr, topfr->fr_child) { if (!frame_fixed_height(fr)) { continue; } // If 'winfixheight' set keep the window height if possible. // Watch out for this window being the next_curwin. n = frame_minheight(fr, NOWIN); int new_size = fr->fr_height; if (frame_has_win(fr, next_curwin)) { room += (int)p_wh - (int)p_wmh; next_curwin_size = 0; if (new_size < p_wh) { new_size = (int)p_wh; } } else { // These windows don't use up room. totwincount -= get_maximum_wincount(fr, (n + (fr->fr_next == NULL ? extra_sep : 0))); } room -= new_size - n; if (room < 0) { new_size += room; room = 0; } fr->fr_newheight = new_size; } if (next_curwin_size == -1) { if (!has_next_curwin) { next_curwin_size = 0; } else if (totwincount > 1 && (room + (totwincount - 2)) / (totwincount - 1) > p_wh) { // can make all windows higher than 'winheight', // spread the room equally. next_curwin_size = (int)(room + p_wh + (totwincount - 1) * p_wmh + (totwincount - 1)) / totwincount; room -= next_curwin_size - (int)p_wh; } else { next_curwin_size = (int)p_wh; } } } if (has_next_curwin) { totwincount--; // don't count curwin } } frame_T *fr; FOR_ALL_FRAMES(fr, topfr->fr_child) { int new_size; int wincount = 1; if (fr->fr_next == NULL) { // last frame gets all that remains (avoid roundoff error) new_size = height; } else if (dir == 'h') { new_size = fr->fr_height; } else if (frame_fixed_height(fr)) { new_size = fr->fr_newheight; wincount = 0; // doesn't count as a sizeable window } else { // Compute the maximum number of windows vert. in "fr". int n = frame_minheight(fr, NOWIN); wincount = get_maximum_wincount(fr, (n + (fr->fr_next == NULL ? extra_sep : 0))); int m = frame_minheight(fr, next_curwin); bool hnc = has_next_curwin && frame_has_win(fr, next_curwin); if (hnc) { // don't count next_curwin wincount--; } if (totwincount == 0) { new_size = room; } else { new_size = (wincount * room + (totwincount / 2)) / totwincount; } if (hnc) { // add next_curwin size next_curwin_size -= (int)p_wh - (m - n); new_size += next_curwin_size; room -= new_size - next_curwin_size; } else { room -= new_size; } new_size += n; } // Skip frame that is full width when splitting or closing a // window, unless equalizing all frames. if (!current || dir != 'h' || topfr->fr_parent != NULL || (new_size != fr->fr_height) || frame_has_win(fr, next_curwin)) { win_equal_rec(next_curwin, current, fr, dir, col, row, width, new_size); } row += new_size; height -= new_size; totwincount -= wincount; } } } void leaving_window(win_T *const win) FUNC_ATTR_NONNULL_ALL { // Only matters for a prompt window. if (!bt_prompt(win->w_buffer)) { return; } // When leaving a prompt window stop Insert mode and perhaps restart // it when entering that window again. win->w_buffer->b_prompt_insert = restart_edit; if (restart_edit != NUL && mode_displayed) { clear_cmdline = true; // unshow mode later } restart_edit = NUL; // When leaving the window (or closing the window) was done from a // callback we need to break out of the Insert mode loop and restart Insert // mode when entering the window again. if (State & MODE_INSERT) { stop_insert_mode = true; if (win->w_buffer->b_prompt_insert == NUL) { win->w_buffer->b_prompt_insert = 'A'; } } } void entering_window(win_T *const win) FUNC_ATTR_NONNULL_ALL { // Only matters for a prompt window. if (!bt_prompt(win->w_buffer)) { return; } // When switching to a prompt buffer that was in Insert mode, don't stop // Insert mode, it may have been set in leaving_window(). if (win->w_buffer->b_prompt_insert != NUL) { stop_insert_mode = false; } // When entering the prompt window restart Insert mode if we were in Insert // mode when we left it and not already in Insert mode. if ((State & MODE_INSERT) == 0) { restart_edit = win->w_buffer->b_prompt_insert; } } void win_init_empty(win_T *wp) { redraw_later(wp, UPD_NOT_VALID); wp->w_lines_valid = 0; wp->w_cursor.lnum = 1; wp->w_curswant = wp->w_cursor.col = 0; wp->w_cursor.coladd = 0; wp->w_pcmark.lnum = 1; // pcmark not cleared but set to line 1 wp->w_pcmark.col = 0; wp->w_prev_pcmark.lnum = 0; wp->w_prev_pcmark.col = 0; wp->w_topline = 1; wp->w_topfill = 0; wp->w_botline = 2; wp->w_s = &wp->w_buffer->b_s; } /// Init the current window "curwin". /// Called when a new file is being edited. void curwin_init(void) { win_init_empty(curwin); } /// Closes all windows for buffer `buf` unless there is only one non-floating window. /// /// @param keep_curwin don't close `curwin` void close_windows(buf_T *buf, bool keep_curwin) { RedrawingDisabled++; // Start from lastwin to close floating windows with the same buffer first. // When the autocommand window is involved win_close() may need to print an error message. for (win_T *wp = lastwin; wp != NULL && (is_aucmd_win(lastwin) || !one_window(wp));) { if (wp->w_buffer == buf && (!keep_curwin || wp != curwin) && !(wp->w_closing || wp->w_buffer->b_locked > 0)) { if (win_close(wp, false, false) == FAIL) { // If closing the window fails give up, to avoid looping forever. break; } // Start all over, autocommands may change the window layout. wp = lastwin; } else { wp = wp->w_prev; } } tabpage_T *nexttp; // Also check windows in other tab pages. for (tabpage_T *tp = first_tabpage; tp != NULL; tp = nexttp) { nexttp = tp->tp_next; if (tp != curtab) { // Start from tp_lastwin to close floating windows with the same buffer first. for (win_T *wp = tp->tp_lastwin; wp != NULL; wp = wp->w_prev) { if (wp->w_buffer == buf && !(wp->w_closing || wp->w_buffer->b_locked > 0)) { win_close_othertab(wp, false, tp); // Start all over, the tab page may be closed and // autocommands may change the window layout. nexttp = first_tabpage; break; } } } } RedrawingDisabled--; } /// Check if "win" is the last non-floating window that exists. bool last_window(win_T *win) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT { return one_window(win) && first_tabpage->tp_next == NULL; } /// Check if "win" is the only non-floating window in the current tabpage. bool one_window(win_T *win) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT { if (win->w_floating) { return false; } bool seen_one = false; FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (!wp->w_floating) { if (seen_one) { return false; } seen_one = true; } } return true; } /// Like ONE_WINDOW but only considers non-floating windows bool one_nonfloat(void) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT { return firstwin->w_next == NULL || firstwin->w_next->w_floating; } /// if wp is the last non-floating window /// /// always false for a floating window bool last_nonfloat(win_T *wp) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT { return wp != NULL && firstwin == wp && !(wp->w_next && !wp->w_floating); } /// Check if floating windows in the current tab can be closed. /// Do not call this when the autocommand window is in use! /// /// @return true if all floating windows can be closed static bool can_close_floating_windows(void) { assert(!is_aucmd_win(lastwin)); for (win_T *wp = lastwin; wp->w_floating; wp = wp->w_prev) { buf_T *buf = wp->w_buffer; int need_hide = (bufIsChanged(buf) && buf->b_nwindows <= 1); if (need_hide && !buf_hide(buf)) { return false; } } return true; } /// @return true if, considering the cmdwin, `win` is safe to close. /// If false and `win` is the cmdwin, it is closed; otherwise, `err` is set. bool can_close_in_cmdwin(win_T *win, Error *err) FUNC_ATTR_NONNULL_ALL { if (cmdwin_type != 0) { if (win == curwin) { cmdwin_result = Ctrl_C; return false; } else if (win == cmdwin_old_curwin) { api_set_error(err, kErrorTypeException, "%s", e_cmdwin); return false; } } return true; } /// Close the possibly last window in a tab page. /// /// @param win window to close /// @param free_buf whether to free the window's current buffer /// @param prev_curtab previous tabpage that will be closed if "win" is the /// last window in the tabpage /// /// @return true when the window was closed already. static bool close_last_window_tabpage(win_T *win, bool free_buf, tabpage_T *prev_curtab) FUNC_ATTR_NONNULL_ARG(1) { if (!ONE_WINDOW) { return false; } buf_T *old_curbuf = curbuf; Terminal *term = win->w_buffer ? win->w_buffer->terminal : NULL; if (term) { // Don't free terminal buffers free_buf = false; } // Closing the last window in a tab page. First go to another tab // page and then close the window and the tab page. This avoids that // curwin and curtab are invalid while we are freeing memory, they may // be used in GUI events. // Don't trigger autocommands yet, they may use wrong values, so do // that below. goto_tabpage_tp(alt_tabpage(), false, true); // save index for tabclosed event char prev_idx[NUMBUFLEN]; snprintf(prev_idx, NUMBUFLEN, "%i", tabpage_index(prev_curtab)); // Safety check: Autocommands may have closed the window when jumping // to the other tab page. if (valid_tabpage(prev_curtab) && prev_curtab->tp_firstwin == win) { win_close_othertab(win, free_buf, prev_curtab); } entering_window(curwin); // Since goto_tabpage_tp above did not trigger *Enter autocommands, do // that now. apply_autocmds(EVENT_WINENTER, NULL, NULL, false, curbuf); apply_autocmds(EVENT_TABENTER, NULL, NULL, false, curbuf); if (old_curbuf != curbuf) { apply_autocmds(EVENT_BUFENTER, NULL, NULL, false, curbuf); } return true; } /// Close the buffer of "win" and unload it if "action" is DOBUF_UNLOAD. /// "action" can also be zero (do nothing). /// "abort_if_last" is passed to close_buffer(): abort closing if all other /// windows are closed. static void win_close_buffer(win_T *win, int action, bool abort_if_last) { // Free independent synblock before the buffer is freed. if (win->w_buffer != NULL) { reset_synblock(win); } // When a quickfix/location list window is closed and the buffer is // displayed in only one window, then unlist the buffer. if (win->w_buffer != NULL && bt_quickfix(win->w_buffer) && win->w_buffer->b_nwindows == 1) { win->w_buffer->b_p_bl = false; } // Close the link to the buffer. if (win->w_buffer != NULL) { bufref_T bufref; set_bufref(&bufref, curbuf); win->w_closing = true; close_buffer(win, win->w_buffer, action, abort_if_last, true); if (win_valid_any_tab(win)) { win->w_closing = false; } // Make sure curbuf is valid. It can become invalid if 'bufhidden' is // "wipe". if (!bufref_valid(&bufref)) { curbuf = firstbuf; } } } // Close window "win". Only works for the current tab page. // If "free_buf" is true related buffer may be unloaded. // // Called by :quit, :close, :xit, :wq and findtag(). // Returns FAIL when the window was not closed. int win_close(win_T *win, bool free_buf, bool force) { tabpage_T *prev_curtab = curtab; frame_T *win_frame = win->w_floating ? NULL : win->w_frame->fr_parent; const bool had_diffmode = win->w_p_diff; if (last_window(win)) { emsg(_("E444: Cannot close last window")); return FAIL; } if (win->w_closing || (win->w_buffer != NULL && win->w_buffer->b_locked > 0)) { return FAIL; // window is already being closed } if (is_aucmd_win(win)) { emsg(_(e_autocmd_close)); return FAIL; } if (lastwin->w_floating && one_window(win)) { if (is_aucmd_win(lastwin)) { emsg(_("E814: Cannot close window, only autocmd window would remain")); return FAIL; } if (force || can_close_floating_windows()) { // close the last window until the there are no floating windows while (lastwin->w_floating) { // `force` flag isn't actually used when closing a floating window. if (win_close(lastwin, free_buf, true) == FAIL) { // If closing the window fails give up, to avoid looping forever. return FAIL; } } } else { emsg(e_floatonly); return FAIL; } } // When closing the last window in a tab page first go to another tab page // and then close the window and the tab page to avoid that curwin and // curtab are invalid while we are freeing memory. if (close_last_window_tabpage(win, free_buf, prev_curtab)) { return FAIL; } bool help_window = false; // When closing the help window, try restoring a snapshot after closing // the window. Otherwise clear the snapshot, it's now invalid. if (bt_help(win->w_buffer)) { help_window = true; } else { clear_snapshot(curtab, SNAP_HELP_IDX); } win_T *wp; bool other_buffer = false; if (win == curwin) { leaving_window(curwin); // Guess which window is going to be the new current window. // This may change because of the autocommands (sigh). if (!win->w_floating) { wp = frame2win(win_altframe(win, NULL)); } else { if (win_valid(prevwin) && prevwin != win) { wp = prevwin; } else { wp = firstwin; } } // Be careful: If autocommands delete the window or cause this window // to be the last one left, return now. if (wp->w_buffer != curbuf) { reset_VIsual_and_resel(); // stop Visual mode other_buffer = true; if (!win_valid(win)) { return FAIL; } win->w_closing = true; apply_autocmds(EVENT_BUFLEAVE, NULL, NULL, false, curbuf); if (!win_valid(win)) { return FAIL; } win->w_closing = false; if (last_window(win)) { return FAIL; } } win->w_closing = true; apply_autocmds(EVENT_WINLEAVE, NULL, NULL, false, curbuf); if (!win_valid(win)) { return FAIL; } win->w_closing = false; if (last_window(win)) { return FAIL; } // autocmds may abort script processing if (aborting()) { return FAIL; } } // Fire WinClosed just before starting to free window-related resources. do_autocmd_winclosed(win); // autocmd may have freed the window already. if (!win_valid_any_tab(win)) { return OK; } win_close_buffer(win, free_buf ? DOBUF_UNLOAD : 0, true); if (only_one_window() && win_valid(win) && win->w_buffer == NULL && (last_window(win) || curtab != prev_curtab || close_last_window_tabpage(win, free_buf, prev_curtab)) && !win->w_floating) { // Autocommands have closed all windows, quit now. Restore // curwin->w_buffer, otherwise writing ShaDa file may fail. if (curwin->w_buffer == NULL) { curwin->w_buffer = curbuf; } getout(0); } // Autocommands may have moved to another tab page. if (curtab != prev_curtab && win_valid_any_tab(win) && win->w_buffer == NULL) { // Need to close the window anyway, since the buffer is NULL. // Don't trigger autocmds with a NULL buffer. block_autocmds(); win_close_othertab(win, false, prev_curtab); unblock_autocmds(); return FAIL; } // Autocommands may have closed the window already, or closed the only // other window or moved to another tab page. if (!win_valid(win) || (!win->w_floating && last_window(win)) || close_last_window_tabpage(win, free_buf, prev_curtab)) { return FAIL; } // Now we are really going to close the window. Disallow any autocommand // to split a window to avoid trouble. split_disallowed++; // let terminal buffers know that this window dimensions may be ignored win->w_closing = true; bool was_floating = win->w_floating; if (ui_has(kUIMultigrid)) { ui_call_win_close(win->w_grid_alloc.handle); } if (win->w_floating) { ui_comp_remove_grid(&win->w_grid_alloc); assert(first_tabpage != NULL); // suppress clang "Dereference of NULL pointer" if (win->w_float_config.external) { for (tabpage_T *tp = first_tabpage; tp != NULL; tp = tp->tp_next) { if (tp == curtab) { continue; } if (tp->tp_curwin == win) { // NB: an autocmd can still abort the closing of this window, // bur carring out this change anyway shouldn't be a catastrophe. tp->tp_curwin = tp->tp_firstwin; } } } } // Free the memory used for the window and get the window that received // the screen space. int dir; wp = win_free_mem(win, &dir, NULL); if (help_window) { // Closing the help window moves the cursor back to the current window // of the snapshot. win_T *prev_win = get_snapshot_curwin(SNAP_HELP_IDX); if (win_valid(prev_win)) { wp = prev_win; } } bool close_curwin = false; // Make sure curwin isn't invalid. It can cause severe trouble when // printing an error message. For win_equal() curbuf needs to be valid // too. if (win == curwin) { curwin = wp; if (wp->w_p_pvw || bt_quickfix(wp->w_buffer)) { // If the cursor goes to the preview or the quickfix window, try // finding another window to go to. while (true) { if (wp->w_next == NULL) { wp = firstwin; } else { wp = wp->w_next; } if (wp == curwin) { break; } if (!wp->w_p_pvw && !bt_quickfix(wp->w_buffer)) { curwin = wp; break; } } } curbuf = curwin->w_buffer; close_curwin = true; // The cursor position may be invalid if the buffer changed after last // using the window. check_cursor(); } if (!was_floating) { // If last window has a status line now and we don't want one, // remove the status line. Do this before win_equal(), because // it may change the height of a window. last_status(false); if (!curwin->w_floating && p_ea && (*p_ead == 'b' || *p_ead == dir)) { // If the frame of the closed window contains the new current window, // only resize that frame. Otherwise resize all windows. win_equal(curwin, curwin->w_frame->fr_parent == win_frame, dir); } else { (void)win_comp_pos(); win_fix_scroll(false); } } if (close_curwin) { win_enter_ext(wp, WEE_CURWIN_INVALID | WEE_TRIGGER_ENTER_AUTOCMDS | WEE_TRIGGER_LEAVE_AUTOCMDS); if (other_buffer) { // careful: after this wp and win may be invalid! apply_autocmds(EVENT_BUFENTER, NULL, NULL, false, curbuf); } } split_disallowed--; // After closing the help window, try restoring the window layout from // before it was opened. if (help_window) { restore_snapshot(SNAP_HELP_IDX, close_curwin); } // If the window had 'diff' set and now there is only one window left in // the tab page with 'diff' set, and "closeoff" is in 'diffopt', then // execute ":diffoff!". if (diffopt_closeoff() && had_diffmode && curtab == prev_curtab) { int diffcount = 0; FOR_ALL_WINDOWS_IN_TAB(dwin, curtab) { if (dwin->w_p_diff) { diffcount++; } } if (diffcount == 1) { do_cmdline_cmd("diffoff!"); } } curwin->w_pos_changed = true; if (!was_floating) { // TODO(bfredl): how about no? redraw_all_later(UPD_NOT_VALID); } return OK; } static void do_autocmd_winclosed(win_T *win) FUNC_ATTR_NONNULL_ALL { static bool recursive = false; if (recursive || !has_event(EVENT_WINCLOSED)) { return; } recursive = true; char winid[NUMBUFLEN]; vim_snprintf(winid, sizeof(winid), "%d", win->handle); apply_autocmds(EVENT_WINCLOSED, winid, winid, false, win->w_buffer); recursive = false; } // Close window "win" in tab page "tp", which is not the current tab page. // This may be the last window in that tab page and result in closing the tab, // thus "tp" may become invalid! // Caller must check if buffer is hidden and whether the tabline needs to be // updated. void win_close_othertab(win_T *win, int free_buf, tabpage_T *tp) { // Get here with win->w_buffer == NULL when win_close() detects the tab page // changed. if (win->w_closing || (win->w_buffer != NULL && win->w_buffer->b_locked > 0)) { return; // window is already being closed } // Fire WinClosed just before starting to free window-related resources. do_autocmd_winclosed(win); // autocmd may have freed the window already. if (!win_valid_any_tab(win)) { return; } if (win->w_buffer != NULL) { // Close the link to the buffer. close_buffer(win, win->w_buffer, free_buf ? DOBUF_UNLOAD : 0, false, true); } tabpage_T *ptp = NULL; // Careful: Autocommands may have closed the tab page or made it the // current tab page. for (ptp = first_tabpage; ptp != NULL && ptp != tp; ptp = ptp->tp_next) {} if (ptp == NULL || tp == curtab) { // If the buffer was removed from the window we have to give it any // buffer. if (win_valid_any_tab(win) && win->w_buffer == NULL) { win->w_buffer = firstbuf; firstbuf->b_nwindows++; win_init_empty(win); } return; } // Autocommands may have closed the window already. { bool found_window = false; FOR_ALL_WINDOWS_IN_TAB(wp, tp) { if (wp == win) { found_window = true; break; } } if (!found_window) { return; } } bool free_tp = false; // When closing the last window in a tab page remove the tab page. if (tp->tp_firstwin == tp->tp_lastwin) { char prev_idx[NUMBUFLEN]; if (has_event(EVENT_TABCLOSED)) { vim_snprintf(prev_idx, NUMBUFLEN, "%i", tabpage_index(tp)); } int h = tabline_height(); if (tp == first_tabpage) { first_tabpage = tp->tp_next; } else { for (ptp = first_tabpage; ptp != NULL && ptp->tp_next != tp; ptp = ptp->tp_next) { // loop } if (ptp == NULL) { internal_error("win_close_othertab()"); return; } ptp->tp_next = tp->tp_next; } free_tp = true; redraw_tabline = true; if (h != tabline_height()) { win_new_screen_rows(); } if (has_event(EVENT_TABCLOSED)) { apply_autocmds(EVENT_TABCLOSED, prev_idx, prev_idx, false, win->w_buffer); } } // Free the memory used for the window. int dir; win_free_mem(win, &dir, tp); if (free_tp) { free_tabpage(tp); } } /// Free the memory used for a window. /// /// @param dirp set to 'v' or 'h' for direction if 'ea' /// @param tp tab page "win" is in, NULL for current /// /// @return a pointer to the window that got the freed up space. static win_T *win_free_mem(win_T *win, int *dirp, tabpage_T *tp) { win_T *wp; tabpage_T *win_tp = tp == NULL ? curtab : tp; if (!win->w_floating) { // Remove the window and its frame from the tree of frames. frame_T *frp = win->w_frame; wp = winframe_remove(win, dirp, tp); xfree(frp); } else { *dirp = 'h'; // Dummy value. if (tp == NULL) { if (win_valid(prevwin) && prevwin != win) { wp = prevwin; } else { wp = firstwin; } } else { if (tabpage_win_valid(tp, tp->tp_prevwin) && tp->tp_prevwin != win) { wp = tp->tp_prevwin; } else { wp = tp->tp_firstwin; } } } win_free(win, tp); // When deleting the current window in the tab, select a new current // window. if (win == win_tp->tp_curwin) { win_tp->tp_curwin = wp; } return wp; } #if defined(EXITFREE) void win_free_all(void) { // avoid an error for switching tabpage with the cmdline window open cmdwin_type = 0; while (first_tabpage->tp_next != NULL) { tabpage_close(true); } while (lastwin != NULL && lastwin->w_floating) { win_T *wp = lastwin; win_remove(lastwin, NULL); int dummy; (void)win_free_mem(wp, &dummy, NULL); for (int i = 0; i < AUCMD_WIN_COUNT; i++) { if (aucmd_win[i].auc_win == wp) { aucmd_win[i].auc_win = NULL; } } } for (int i = 0; i < AUCMD_WIN_COUNT; i++) { if (aucmd_win[i].auc_win != NULL) { int dummy; (void)win_free_mem(aucmd_win[i].auc_win, &dummy, NULL); aucmd_win[i].auc_win = NULL; } } kv_destroy(aucmd_win_vec); while (firstwin != NULL) { int dummy; (void)win_free_mem(firstwin, &dummy, NULL); } // No window should be used after this. Set curwin to NULL to crash // instead of using freed memory. curwin = NULL; } #endif /// Remove a window and its frame from the tree of frames. /// /// @param dirp set to 'v' or 'h' for direction if 'ea' /// @param tp tab page "win" is in, NULL for current /// /// @return a pointer to the window that got the freed up space. win_T *winframe_remove(win_T *win, int *dirp, tabpage_T *tp) { // If there is only one window there is nothing to remove. if (tp == NULL ? ONE_WINDOW : tp->tp_firstwin == tp->tp_lastwin) { return NULL; } frame_T *frp_close = win->w_frame; // Remove the window from its frame. frame_T *frp2 = win_altframe(win, tp); win_T *wp = frame2win(frp2); // Remove this frame from the list of frames. frame_remove(frp_close); if (frp_close->fr_parent->fr_layout == FR_COL) { // When 'winfixheight' is set, try to find another frame in the column // (as close to the closed frame as possible) to distribute the height // to. if (frp2->fr_win != NULL && frp2->fr_win->w_p_wfh) { frame_T *frp = frp_close->fr_prev; frame_T *frp3 = frp_close->fr_next; while (frp != NULL || frp3 != NULL) { if (frp != NULL) { if (!frame_fixed_height(frp)) { frp2 = frp; wp = frame2win(frp2); break; } frp = frp->fr_prev; } if (frp3 != NULL) { if (frp3->fr_win != NULL && !frp3->fr_win->w_p_wfh) { frp2 = frp3; wp = frp3->fr_win; break; } frp3 = frp3->fr_next; } } } frame_new_height(frp2, frp2->fr_height + frp_close->fr_height, frp2 == frp_close->fr_next, false); *dirp = 'v'; } else { // When 'winfixwidth' is set, try to find another frame in the column // (as close to the closed frame as possible) to distribute the width // to. if (frp2->fr_win != NULL && frp2->fr_win->w_p_wfw) { frame_T *frp = frp_close->fr_prev; frame_T *frp3 = frp_close->fr_next; while (frp != NULL || frp3 != NULL) { if (frp != NULL) { if (!frame_fixed_width(frp)) { frp2 = frp; wp = frame2win(frp2); break; } frp = frp->fr_prev; } if (frp3 != NULL) { if (frp3->fr_win != NULL && !frp3->fr_win->w_p_wfw) { frp2 = frp3; wp = frp3->fr_win; break; } frp3 = frp3->fr_next; } } } frame_new_width(frp2, frp2->fr_width + frp_close->fr_width, frp2 == frp_close->fr_next, false); *dirp = 'h'; } // If rows/columns go to a window below/right its positions need to be // updated. Can only be done after the sizes have been updated. if (frp2 == frp_close->fr_next) { int row = win->w_winrow; int col = win->w_wincol; frame_comp_pos(frp2, &row, &col); } if (frp2->fr_next == NULL && frp2->fr_prev == NULL) { // There is no other frame in this list, move its info to the parent // and remove it. frp2->fr_parent->fr_layout = frp2->fr_layout; frp2->fr_parent->fr_child = frp2->fr_child; frame_T *frp; FOR_ALL_FRAMES(frp, frp2->fr_child) { frp->fr_parent = frp2->fr_parent; } frp2->fr_parent->fr_win = frp2->fr_win; if (frp2->fr_win != NULL) { frp2->fr_win->w_frame = frp2->fr_parent; } frp = frp2->fr_parent; if (topframe->fr_child == frp2) { topframe->fr_child = frp; } xfree(frp2); frp2 = frp->fr_parent; if (frp2 != NULL && frp2->fr_layout == frp->fr_layout) { // The frame above the parent has the same layout, have to merge // the frames into this list. if (frp2->fr_child == frp) { frp2->fr_child = frp->fr_child; } assert(frp->fr_child); frp->fr_child->fr_prev = frp->fr_prev; if (frp->fr_prev != NULL) { frp->fr_prev->fr_next = frp->fr_child; } frame_T *frp3; for (frp3 = frp->fr_child;; frp3 = frp3->fr_next) { frp3->fr_parent = frp2; if (frp3->fr_next == NULL) { frp3->fr_next = frp->fr_next; if (frp->fr_next != NULL) { frp->fr_next->fr_prev = frp3; } break; } } if (topframe->fr_child == frp) { topframe->fr_child = frp2; } xfree(frp); } } return wp; } /// If 'splitbelow' or 'splitright' is set, the space goes above or to the left /// by default. Otherwise, the free space goes below or to the right. The /// result is that opening a window and then immediately closing it will /// preserve the initial window layout. The 'wfh' and 'wfw' settings are /// respected when possible. /// /// @param tp tab page "win" is in, NULL for current /// /// @return a pointer to the frame that will receive the empty screen space that /// is left over after "win" is closed. static frame_T *win_altframe(win_T *win, tabpage_T *tp) { if (tp == NULL ? ONE_WINDOW : tp->tp_firstwin == tp->tp_lastwin) { return alt_tabpage()->tp_curwin->w_frame; } frame_T *frp = win->w_frame; if (frp->fr_prev == NULL) { return frp->fr_next; } if (frp->fr_next == NULL) { return frp->fr_prev; } // By default the next window will get the space that was abandoned by this // window frame_T *target_fr = frp->fr_next; frame_T *other_fr = frp->fr_prev; // If this is part of a column of windows and 'splitbelow' is true then the // previous window will get the space. if (frp->fr_parent != NULL && frp->fr_parent->fr_layout == FR_COL && p_sb) { target_fr = frp->fr_prev; other_fr = frp->fr_next; } // If this is part of a row of windows, and 'splitright' is true then the // previous window will get the space. if (frp->fr_parent != NULL && frp->fr_parent->fr_layout == FR_ROW && p_spr) { target_fr = frp->fr_prev; other_fr = frp->fr_next; } // If 'wfh' or 'wfw' is set for the target and not for the alternate // window, reverse the selection. if (frp->fr_parent != NULL && frp->fr_parent->fr_layout == FR_ROW) { if (frame_fixed_width(target_fr) && !frame_fixed_width(other_fr)) { target_fr = other_fr; } } else { if (frame_fixed_height(target_fr) && !frame_fixed_height(other_fr)) { target_fr = other_fr; } } return target_fr; } // Return the tabpage that will be used if the current one is closed. static tabpage_T *alt_tabpage(void) { // Use the next tab page if possible. if (curtab->tp_next != NULL) { return curtab->tp_next; } // Find the last but one tab page. tabpage_T *tp; for (tp = first_tabpage; tp->tp_next != curtab; tp = tp->tp_next) {} return tp; } // Find the left-upper window in frame "frp". win_T *frame2win(frame_T *frp) { while (frp->fr_win == NULL) { frp = frp->fr_child; } return frp->fr_win; } /// Check that the frame "frp" contains the window "wp". /// /// @param frp frame /// @param wp window static bool frame_has_win(const frame_T *frp, const win_T *wp) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT FUNC_ATTR_NONNULL_ARG(1) { if (frp->fr_layout == FR_LEAF) { return frp->fr_win == wp; } const frame_T *p; FOR_ALL_FRAMES(p, frp->fr_child) { if (frame_has_win(p, wp)) { return true; } } return false; } /// Check if current window is at the bottom /// Returns true if there are no windows below current window static bool is_bottom_win(win_T *wp) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT FUNC_ATTR_NONNULL_ALL { for (frame_T *frp = wp->w_frame; frp->fr_parent != NULL; frp = frp->fr_parent) { if (frp->fr_parent->fr_layout == FR_COL && frp->fr_next != NULL) { return false; } } return true; } /// Set a new height for a frame. Recursively sets the height for contained /// frames and windows. Caller must take care of positions. /// /// @param topfirst resize topmost contained frame first. /// @param wfh obey 'winfixheight' when there is a choice; /// may cause the height not to be set. void frame_new_height(frame_T *topfrp, int height, bool topfirst, bool wfh) FUNC_ATTR_NONNULL_ALL { if (topfrp->fr_win != NULL) { // Simple case: just one window. win_T *wp = topfrp->fr_win; if (is_bottom_win(wp)) { wp->w_hsep_height = 0; } win_new_height(wp, height - wp->w_hsep_height - wp->w_status_height); } else if (topfrp->fr_layout == FR_ROW) { frame_T *frp; do { // All frames in this row get the same new height. FOR_ALL_FRAMES(frp, topfrp->fr_child) { frame_new_height(frp, height, topfirst, wfh); if (frp->fr_height > height) { // Could not fit the windows, make the whole row higher. height = frp->fr_height; break; } } } while (frp != NULL); } else { // fr_layout == FR_COL // Complicated case: Resize a column of frames. Resize the bottom // frame first, frames above that when needed. frame_T *frp = topfrp->fr_child; if (wfh) { // Advance past frames with one window with 'wfh' set. while (frame_fixed_height(frp)) { frp = frp->fr_next; if (frp == NULL) { return; // no frame without 'wfh', give up } } } if (!topfirst) { // Find the bottom frame of this column while (frp->fr_next != NULL) { frp = frp->fr_next; } if (wfh) { // Advance back for frames with one window with 'wfh' set. while (frame_fixed_height(frp)) { frp = frp->fr_prev; } } } int extra_lines = height - topfrp->fr_height; if (extra_lines < 0) { // reduce height of contained frames, bottom or top frame first while (frp != NULL) { int h = frame_minheight(frp, NULL); if (frp->fr_height + extra_lines < h) { extra_lines += frp->fr_height - h; frame_new_height(frp, h, topfirst, wfh); } else { frame_new_height(frp, frp->fr_height + extra_lines, topfirst, wfh); break; } if (topfirst) { do { frp = frp->fr_next; } while (wfh && frp != NULL && frame_fixed_height(frp)); } else { do { frp = frp->fr_prev; } while (wfh && frp != NULL && frame_fixed_height(frp)); } // Increase "height" if we could not reduce enough frames. if (frp == NULL) { height -= extra_lines; } } } else if (extra_lines > 0) { // increase height of bottom or top frame frame_new_height(frp, frp->fr_height + extra_lines, topfirst, wfh); } } topfrp->fr_height = height; } /// Return true if height of frame "frp" should not be changed because of /// the 'winfixheight' option. /// /// @param frp frame /// /// @return true if the frame has a fixed height static bool frame_fixed_height(frame_T *frp) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT FUNC_ATTR_NONNULL_ALL { // frame with one window: fixed height if 'winfixheight' set. if (frp->fr_win != NULL) { return frp->fr_win->w_p_wfh; } if (frp->fr_layout == FR_ROW) { // The frame is fixed height if one of the frames in the row is fixed // height. FOR_ALL_FRAMES(frp, frp->fr_child) { if (frame_fixed_height(frp)) { return true; } } return false; } // frp->fr_layout == FR_COL: The frame is fixed height if all of the // frames in the row are fixed height. FOR_ALL_FRAMES(frp, frp->fr_child) { if (!frame_fixed_height(frp)) { return false; } } return true; } /// Return true if width of frame "frp" should not be changed because of /// the 'winfixwidth' option. /// /// @param frp frame /// /// @return true if the frame has a fixed width static bool frame_fixed_width(frame_T *frp) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT FUNC_ATTR_NONNULL_ALL { // frame with one window: fixed width if 'winfixwidth' set. if (frp->fr_win != NULL) { return frp->fr_win->w_p_wfw; } if (frp->fr_layout == FR_COL) { // The frame is fixed width if one of the frames in the row is fixed // width. FOR_ALL_FRAMES(frp, frp->fr_child) { if (frame_fixed_width(frp)) { return true; } } return false; } // frp->fr_layout == FR_ROW: The frame is fixed width if all of the // frames in the row are fixed width. FOR_ALL_FRAMES(frp, frp->fr_child) { if (!frame_fixed_width(frp)) { return false; } } return true; } // Add a status line to windows at the bottom of "frp". // Note: Does not check if there is room! static void frame_add_statusline(frame_T *frp) { if (frp->fr_layout == FR_LEAF) { win_T *wp = frp->fr_win; wp->w_status_height = STATUS_HEIGHT; } else if (frp->fr_layout == FR_ROW) { // Handle all the frames in the row. FOR_ALL_FRAMES(frp, frp->fr_child) { frame_add_statusline(frp); } } else { assert(frp->fr_layout == FR_COL); // Only need to handle the last frame in the column. for (frp = frp->fr_child; frp->fr_next != NULL; frp = frp->fr_next) {} frame_add_statusline(frp); } } /// Set width of a frame. Handles recursively going through contained frames. /// May remove separator line for windows at the right side (for win_close()). /// /// @param leftfirst resize leftmost contained frame first. /// @param wfw obey 'winfixwidth' when there is a choice; /// may cause the width not to be set. static void frame_new_width(frame_T *topfrp, int width, bool leftfirst, bool wfw) { if (topfrp->fr_layout == FR_LEAF) { // Simple case: just one window. win_T *wp = topfrp->fr_win; // Find out if there are any windows right of this one. frame_T *frp; for (frp = topfrp; frp->fr_parent != NULL; frp = frp->fr_parent) { if (frp->fr_parent->fr_layout == FR_ROW && frp->fr_next != NULL) { break; } } if (frp->fr_parent == NULL) { wp->w_vsep_width = 0; } win_new_width(wp, width - wp->w_vsep_width); } else if (topfrp->fr_layout == FR_COL) { frame_T *frp; do { // All frames in this column get the same new width. FOR_ALL_FRAMES(frp, topfrp->fr_child) { frame_new_width(frp, width, leftfirst, wfw); if (frp->fr_width > width) { // Could not fit the windows, make whole column wider. width = frp->fr_width; break; } } } while (frp != NULL); } else { // fr_layout == FR_ROW // Complicated case: Resize a row of frames. Resize the rightmost // frame first, frames left of it when needed. frame_T *frp = topfrp->fr_child; if (wfw) { // Advance past frames with one window with 'wfw' set. while (frame_fixed_width(frp)) { frp = frp->fr_next; if (frp == NULL) { return; // no frame without 'wfw', give up } } } if (!leftfirst) { // Find the rightmost frame of this row while (frp->fr_next != NULL) { frp = frp->fr_next; } if (wfw) { // Advance back for frames with one window with 'wfw' set. while (frame_fixed_width(frp)) { frp = frp->fr_prev; } } } int extra_cols = width - topfrp->fr_width; if (extra_cols < 0) { // reduce frame width, rightmost frame first while (frp != NULL) { int w = frame_minwidth(frp, NULL); if (frp->fr_width + extra_cols < w) { extra_cols += frp->fr_width - w; frame_new_width(frp, w, leftfirst, wfw); } else { frame_new_width(frp, frp->fr_width + extra_cols, leftfirst, wfw); break; } if (leftfirst) { do { frp = frp->fr_next; } while (wfw && frp != NULL && frame_fixed_width(frp)); } else { do { frp = frp->fr_prev; } while (wfw && frp != NULL && frame_fixed_width(frp)); } // Increase "width" if we could not reduce enough frames. if (frp == NULL) { width -= extra_cols; } } } else if (extra_cols > 0) { // increase width of rightmost frame frame_new_width(frp, frp->fr_width + extra_cols, leftfirst, wfw); } } topfrp->fr_width = width; } /// Add the vertical separator to windows at the right side of "frp". /// Note: Does not check if there is room! static void frame_add_vsep(const frame_T *frp) FUNC_ATTR_NONNULL_ARG(1) { if (frp->fr_layout == FR_LEAF) { win_T *wp = frp->fr_win; if (wp->w_vsep_width == 0) { if (wp->w_width > 0) { // don't make it negative wp->w_width--; } wp->w_vsep_width = 1; } } else if (frp->fr_layout == FR_COL) { // Handle all the frames in the column. FOR_ALL_FRAMES(frp, frp->fr_child) { frame_add_vsep(frp); } } else { assert(frp->fr_layout == FR_ROW); // Only need to handle the last frame in the row. frp = frp->fr_child; while (frp->fr_next != NULL) { frp = frp->fr_next; } frame_add_vsep(frp); } } /// Add the horizontal separator to windows at the bottom of "frp". /// Note: Does not check if there is room or whether the windows have a statusline! static void frame_add_hsep(const frame_T *frp) FUNC_ATTR_NONNULL_ARG(1) { if (frp->fr_layout == FR_LEAF) { win_T *wp = frp->fr_win; wp->w_hsep_height = 1; } else if (frp->fr_layout == FR_ROW) { // Handle all the frames in the row. FOR_ALL_FRAMES(frp, frp->fr_child) { frame_add_hsep(frp); } } else { assert(frp->fr_layout == FR_COL); // Only need to handle the last frame in the column. frp = frp->fr_child; while (frp->fr_next != NULL) { frp = frp->fr_next; } frame_add_hsep(frp); } } // Set frame width from the window it contains. static void frame_fix_width(win_T *wp) { wp->w_frame->fr_width = wp->w_width + wp->w_vsep_width; } // Set frame height from the window it contains. static void frame_fix_height(win_T *wp) FUNC_ATTR_NONNULL_ALL { wp->w_frame->fr_height = wp->w_height + wp->w_hsep_height + wp->w_status_height; } /// Compute the minimal height for frame "topfrp". Uses the 'winminheight' option. /// When "next_curwin" isn't NULL, use p_wh for this window. /// When "next_curwin" is NOWIN, don't use at least one line for the current window. static int frame_minheight(frame_T *topfrp, win_T *next_curwin) { int m; if (topfrp->fr_win != NULL) { // Combined height of window bar and separator column or status line. int extra_height = topfrp->fr_win->w_winbar_height + topfrp->fr_win->w_hsep_height + topfrp->fr_win->w_status_height; if (topfrp->fr_win == next_curwin) { m = (int)p_wh + extra_height; } else { m = (int)p_wmh + extra_height; if (topfrp->fr_win == curwin && next_curwin == NULL) { // Current window is minimal one line high. if (p_wmh == 0) { m++; } } } } else if (topfrp->fr_layout == FR_ROW) { // get the minimal height from each frame in this row m = 0; frame_T *frp; FOR_ALL_FRAMES(frp, topfrp->fr_child) { int n = frame_minheight(frp, next_curwin); if (n > m) { m = n; } } } else { // Add up the minimal heights for all frames in this column. m = 0; frame_T *frp; FOR_ALL_FRAMES(frp, topfrp->fr_child) { m += frame_minheight(frp, next_curwin); } } return m; } /// Compute the minimal width for frame "topfrp". /// When "next_curwin" isn't NULL, use p_wiw for this window. /// When "next_curwin" is NOWIN, don't use at least one column for the current /// window. /// /// @param next_curwin use p_wh and p_wiw for next_curwin static int frame_minwidth(frame_T *topfrp, win_T *next_curwin) { int m; if (topfrp->fr_win != NULL) { if (topfrp->fr_win == next_curwin) { m = (int)p_wiw + topfrp->fr_win->w_vsep_width; } else { // window: minimal width of the window plus separator column m = (int)p_wmw + topfrp->fr_win->w_vsep_width; // Current window is minimal one column wide if (p_wmw == 0 && topfrp->fr_win == curwin && next_curwin == NULL) { m++; } } } else if (topfrp->fr_layout == FR_COL) { // get the minimal width from each frame in this column m = 0; frame_T *frp; FOR_ALL_FRAMES(frp, topfrp->fr_child) { int n = frame_minwidth(frp, next_curwin); if (n > m) { m = n; } } } else { // Add up the minimal widths for all frames in this row. m = 0; frame_T *frp; FOR_ALL_FRAMES(frp, topfrp->fr_child) { m += frame_minwidth(frp, next_curwin); } } return m; } /// Try to close all windows except current one. /// Buffers in the other windows become hidden if 'hidden' is set, or '!' is /// used and the buffer was modified. /// /// Used by ":bdel" and ":only". /// /// @param forceit always hide all other windows void close_others(int message, int forceit) { if (curwin->w_floating) { if (message && !autocmd_busy) { emsg(e_floatonly); } return; } if (one_nonfloat() && !lastwin->w_floating) { if (message && !autocmd_busy) { msg(_(m_onlyone), 0); } return; } // Be very careful here: autocommands may change the window layout. win_T *nextwp; for (win_T *wp = firstwin; win_valid(wp); wp = nextwp) { nextwp = wp->w_next; if (wp == curwin) { // don't close current window continue; } // autoccommands messed this one up if (!buf_valid(wp->w_buffer) && win_valid(wp)) { wp->w_buffer = NULL; win_close(wp, false, false); continue; } // Check if it's allowed to abandon this window int r = can_abandon(wp->w_buffer, forceit); if (!win_valid(wp)) { // autocommands messed wp up nextwp = firstwin; continue; } if (!r) { if (message && (p_confirm || (cmdmod.cmod_flags & CMOD_CONFIRM)) && p_write) { dialog_changed(wp->w_buffer, false); if (!win_valid(wp)) { // autocommands messed wp up nextwp = firstwin; continue; } } if (bufIsChanged(wp->w_buffer)) { continue; } } win_close(wp, !buf_hide(wp->w_buffer) && !bufIsChanged(wp->w_buffer), false); } if (message && !ONE_WINDOW) { emsg(_("E445: Other window contains changes")); } } /// Store the relevant window pointers for tab page "tp". To be used before /// use_tabpage(). void unuse_tabpage(tabpage_T *tp) { tp->tp_topframe = topframe; tp->tp_firstwin = firstwin; tp->tp_lastwin = lastwin; tp->tp_curwin = curwin; } /// Set the relevant pointers to use tab page "tp". May want to call /// unuse_tabpage() first. void use_tabpage(tabpage_T *tp) { curtab = tp; topframe = curtab->tp_topframe; firstwin = curtab->tp_firstwin; lastwin = curtab->tp_lastwin; curwin = curtab->tp_curwin; } // Allocate the first window and put an empty buffer in it. // Only called from main(). void win_alloc_first(void) { if (win_alloc_firstwin(NULL) == FAIL) { // allocating first buffer before any autocmds should not fail. abort(); } first_tabpage = alloc_tabpage(); curtab = first_tabpage; unuse_tabpage(first_tabpage); } // Init `aucmd_win[idx]`. This can only be done after the first window // is fully initialized, thus it can't be in win_alloc_first(). void win_alloc_aucmd_win(int idx) { Error err = ERROR_INIT; FloatConfig fconfig = FLOAT_CONFIG_INIT; fconfig.width = Columns; fconfig.height = 5; fconfig.focusable = false; aucmd_win[idx].auc_win = win_new_float(NULL, true, fconfig, &err); aucmd_win[idx].auc_win->w_buffer->b_nwindows--; RESET_BINDING(aucmd_win[idx].auc_win); } // Allocate the first window or the first window in a new tab page. // When "oldwin" is NULL create an empty buffer for it. // When "oldwin" is not NULL copy info from it to the new window. // Return FAIL when something goes wrong (out of memory). static int win_alloc_firstwin(win_T *oldwin) { curwin = win_alloc(NULL, false); if (oldwin == NULL) { // Very first window, need to create an empty buffer for it and // initialize from scratch. curbuf = buflist_new(NULL, NULL, 1, BLN_LISTED); if (curbuf == NULL) { return FAIL; } curwin->w_buffer = curbuf; curwin->w_s = &(curbuf->b_s); curbuf->b_nwindows = 1; // there is one window curwin->w_alist = &global_alist; curwin_init(); // init current window } else { // First window in new tab page, initialize it from "oldwin". win_init(curwin, oldwin, 0); // We don't want cursor- and scroll-binding in the first window. RESET_BINDING(curwin); } new_frame(curwin); topframe = curwin->w_frame; topframe->fr_width = Columns; topframe->fr_height = Rows - (int)p_ch - global_stl_height(); return OK; } // Create a frame for window "wp". static void new_frame(win_T *wp) { frame_T *frp = xcalloc(1, sizeof(frame_T)); wp->w_frame = frp; frp->fr_layout = FR_LEAF; frp->fr_win = wp; } // Initialize the window and frame size to the maximum. void win_init_size(void) { firstwin->w_height = (int)ROWS_AVAIL; firstwin->w_prev_height = (int)ROWS_AVAIL; firstwin->w_height_inner = firstwin->w_height - firstwin->w_winbar_height; firstwin->w_height_outer = firstwin->w_height; firstwin->w_winrow_off = firstwin->w_winbar_height; topframe->fr_height = (int)ROWS_AVAIL; firstwin->w_width = Columns; firstwin->w_width_inner = firstwin->w_width; firstwin->w_width_outer = firstwin->w_width; topframe->fr_width = Columns; } // Allocate a new tabpage_T and init the values. static tabpage_T *alloc_tabpage(void) { static int last_tp_handle = 0; tabpage_T *tp = xcalloc(1, sizeof(tabpage_T)); tp->handle = ++last_tp_handle; pmap_put(int)(&tabpage_handles, tp->handle, tp); // Init t: variables. tp->tp_vars = tv_dict_alloc(); init_var_dict(tp->tp_vars, &tp->tp_winvar, VAR_SCOPE); tp->tp_diff_invalid = true; tp->tp_ch_used = p_ch; return tp; } void free_tabpage(tabpage_T *tp) { pmap_del(int)(&tabpage_handles, tp->handle, NULL); diff_clear(tp); for (int idx = 0; idx < SNAP_COUNT; idx++) { clear_snapshot(tp, idx); } vars_clear(&tp->tp_vars->dv_hashtab); // free all t: variables hash_init(&tp->tp_vars->dv_hashtab); unref_var_dict(tp->tp_vars); if (tp == lastused_tabpage) { lastused_tabpage = NULL; } xfree(tp->tp_localdir); xfree(tp->tp_prevdir); xfree(tp); } /// Create a new tabpage with one window. /// /// It will edit the current buffer, like after :split. /// /// @param after Put new tabpage after tabpage "after", or after the current /// tabpage in case of 0. /// @param filename Will be passed to apply_autocmds(). /// @return Was the new tabpage created successfully? FAIL or OK. int win_new_tabpage(int after, char *filename) { tabpage_T *old_curtab = curtab; if (cmdwin_type != 0) { emsg(_(e_cmdwin)); return FAIL; } tabpage_T *newtp = alloc_tabpage(); // Remember the current windows in this Tab page. if (leave_tabpage(curbuf, true) == FAIL) { xfree(newtp); return FAIL; } newtp->tp_localdir = old_curtab->tp_localdir ? xstrdup(old_curtab->tp_localdir) : NULL; curtab = newtp; // Create a new empty window. if (win_alloc_firstwin(old_curtab->tp_curwin) == OK) { // Make the new Tab page the new topframe. if (after == 1) { // New tab page becomes the first one. newtp->tp_next = first_tabpage; first_tabpage = newtp; } else { tabpage_T *tp = old_curtab; if (after > 0) { // Put new tab page before tab page "after". int n = 2; for (tp = first_tabpage; tp->tp_next != NULL && n < after; tp = tp->tp_next) { n++; } } newtp->tp_next = tp->tp_next; tp->tp_next = newtp; } newtp->tp_firstwin = newtp->tp_lastwin = newtp->tp_curwin = curwin; win_init_size(); firstwin->w_winrow = tabline_height(); firstwin->w_prev_winrow = firstwin->w_winrow; win_comp_scroll(curwin); newtp->tp_topframe = topframe; last_status(false); redraw_all_later(UPD_NOT_VALID); tabpage_check_windows(old_curtab); lastused_tabpage = old_curtab; entering_window(curwin); apply_autocmds(EVENT_WINNEW, NULL, NULL, false, curbuf); apply_autocmds(EVENT_WINENTER, NULL, NULL, false, curbuf); apply_autocmds(EVENT_TABNEW, filename, filename, false, curbuf); apply_autocmds(EVENT_TABENTER, NULL, NULL, false, curbuf); return OK; } // Failed, get back the previous Tab page enter_tabpage(curtab, curbuf, true, true); return FAIL; } // Open a new tab page if ":tab cmd" was used. It will edit the same buffer, // like with ":split". // Returns OK if a new tab page was created, FAIL otherwise. int may_open_tabpage(void) { int n = (cmdmod.cmod_tab == 0) ? postponed_split_tab : cmdmod.cmod_tab; if (n == 0) { return FAIL; } cmdmod.cmod_tab = 0; // reset it to avoid doing it twice postponed_split_tab = 0; int status = win_new_tabpage(n, NULL); if (status == OK) { apply_autocmds(EVENT_TABNEWENTERED, NULL, NULL, false, curbuf); } return status; } // Create up to "maxcount" tabpages with empty windows. // Returns the number of resulting tab pages. int make_tabpages(int maxcount) { int count = maxcount; // Limit to 'tabpagemax' tabs. if (count > p_tpm) { count = (int)p_tpm; } // Don't execute autocommands while creating the tab pages. Must do that // when putting the buffers in the windows. block_autocmds(); int todo; for (todo = count - 1; todo > 0; todo--) { if (win_new_tabpage(0, NULL) == FAIL) { break; } } unblock_autocmds(); // return actual number of tab pages return count - todo; } /// Check that tpc points to a valid tab page. /// /// @param[in] tpc Tabpage to check. bool valid_tabpage(tabpage_T *tpc) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT { FOR_ALL_TABS(tp) { if (tp == tpc) { return true; } } return false; } /// Returns true when `tpc` is valid and at least one window is valid. int valid_tabpage_win(tabpage_T *tpc) { FOR_ALL_TABS(tp) { if (tp == tpc) { FOR_ALL_WINDOWS_IN_TAB(wp, tp) { if (win_valid_any_tab(wp)) { return true; } } return false; } } // shouldn't happen return false; } /// Close tabpage `tab`, assuming it has no windows in it. /// There must be another tabpage or this will crash. void close_tabpage(tabpage_T *tab) { tabpage_T *ptp; if (tab == first_tabpage) { first_tabpage = tab->tp_next; ptp = first_tabpage; } else { for (ptp = first_tabpage; ptp != NULL && ptp->tp_next != tab; ptp = ptp->tp_next) { // do nothing } assert(ptp != NULL); ptp->tp_next = tab->tp_next; } goto_tabpage_tp(ptp, false, false); free_tabpage(tab); } // Find tab page "n" (first one is 1). Returns NULL when not found. tabpage_T *find_tabpage(int n) { tabpage_T *tp; int i = 1; for (tp = first_tabpage; tp != NULL && i != n; tp = tp->tp_next) { i++; } return tp; } // Get index of tab page "tp". First one has index 1. // When not found returns number of tab pages plus one. int tabpage_index(tabpage_T *ftp) { int i = 1; tabpage_T *tp; for (tp = first_tabpage; tp != NULL && tp != ftp; tp = tp->tp_next) { i++; } return i; } /// Prepare for leaving the current tab page. /// When autocommands change "curtab" we don't leave the tab page and return /// FAIL. /// Careful: When OK is returned need to get a new tab page very very soon! /// /// @param new_curbuf what is going to be the new curbuf, /// NULL if unknown. /// @param trigger_leave_autocmds when true trigger *Leave autocommands. static int leave_tabpage(buf_T *new_curbuf, bool trigger_leave_autocmds) { tabpage_T *tp = curtab; leaving_window(curwin); reset_VIsual_and_resel(); // stop Visual mode if (trigger_leave_autocmds) { if (new_curbuf != curbuf) { apply_autocmds(EVENT_BUFLEAVE, NULL, NULL, false, curbuf); if (curtab != tp) { return FAIL; } } apply_autocmds(EVENT_WINLEAVE, NULL, NULL, false, curbuf); if (curtab != tp) { return FAIL; } apply_autocmds(EVENT_TABLEAVE, NULL, NULL, false, curbuf); if (curtab != tp) { return FAIL; } } reset_dragwin(); tp->tp_curwin = curwin; tp->tp_prevwin = prevwin; tp->tp_firstwin = firstwin; tp->tp_lastwin = lastwin; tp->tp_old_Rows_avail = ROWS_AVAIL; if (tp->tp_old_Columns != -1) { tp->tp_old_Columns = Columns; } firstwin = NULL; lastwin = NULL; return OK; } /// Start using tab page "tp". /// Only to be used after leave_tabpage() or freeing the current tab page. /// /// @param trigger_enter_autocmds when true trigger *Enter autocommands. /// @param trigger_leave_autocmds when true trigger *Leave autocommands. static void enter_tabpage(tabpage_T *tp, buf_T *old_curbuf, bool trigger_enter_autocmds, bool trigger_leave_autocmds) { int old_off = tp->tp_firstwin->w_winrow; win_T *next_prevwin = tp->tp_prevwin; tabpage_T *old_curtab = curtab; use_tabpage(tp); if (old_curtab != curtab) { tabpage_check_windows(old_curtab); } // We would like doing the TabEnter event first, but we don't have a // valid current window yet, which may break some commands. // This triggers autocommands, thus may make "tp" invalid. win_enter_ext(tp->tp_curwin, WEE_CURWIN_INVALID | (trigger_enter_autocmds ? WEE_TRIGGER_ENTER_AUTOCMDS : 0) | (trigger_leave_autocmds ? WEE_TRIGGER_LEAVE_AUTOCMDS : 0)); prevwin = next_prevwin; last_status(false); // status line may appear or disappear const int row = win_comp_pos(); // recompute w_winrow for all windows diff_need_scrollbind = true; // Use the stored value of p_ch, so that it can be different for each tab page. if (p_ch != curtab->tp_ch_used) { clear_cmdline = true; if (msg_grid.chars && p_ch < curtab->tp_ch_used) { // TODO(bfredl): a bit expensive, should be enough to invalidate the // region between the old and the new p_ch. grid_invalidate(&msg_grid); } } p_ch = curtab->tp_ch_used; // When cmdheight is changed in a tab page with '-', cmdline_row is // changed but p_ch and tp_ch_used are not changed. Thus we also need to // check cmdline_row. if (row < cmdline_row && cmdline_row <= Rows - p_ch) { clear_cmdline = true; } // If there was a click in a window, it won't be usable for a following // drag. reset_dragwin(); // The tabpage line may have appeared or disappeared, may need to resize the frames for that. // When the Vim window was resized or ROWS_AVAIL changed need to update frame sizes too. if (curtab->tp_old_Rows_avail != ROWS_AVAIL || (old_off != firstwin->w_winrow)) { win_new_screen_rows(); } if (curtab->tp_old_Columns != Columns) { if (starting == 0) { win_new_screen_cols(); // update window widths curtab->tp_old_Columns = Columns; } else { curtab->tp_old_Columns = -1; // update window widths later } } lastused_tabpage = old_curtab; // Apply autocommands after updating the display, when 'rows' and // 'columns' have been set correctly. if (trigger_enter_autocmds) { apply_autocmds(EVENT_TABENTER, NULL, NULL, false, curbuf); if (old_curbuf != curbuf) { apply_autocmds(EVENT_BUFENTER, NULL, NULL, false, curbuf); } } redraw_all_later(UPD_NOT_VALID); } /// tells external UI that windows and inline floats in old_curtab are invisible /// and that floats in curtab is now visible. /// /// External floats are considered independent of tabpages. This is /// implemented by always moving them to curtab. static void tabpage_check_windows(tabpage_T *old_curtab) { win_T *next_wp; for (win_T *wp = old_curtab->tp_firstwin; wp; wp = next_wp) { next_wp = wp->w_next; if (wp->w_floating) { if (wp->w_float_config.external) { win_remove(wp, old_curtab); win_append(lastwin_nofloating(), wp); } else { ui_comp_remove_grid(&wp->w_grid_alloc); } } wp->w_pos_changed = true; } for (win_T *wp = firstwin; wp; wp = wp->w_next) { if (wp->w_floating && !wp->w_float_config.external) { win_config_float(wp, wp->w_float_config); } wp->w_pos_changed = true; } } // Go to tab page "n". For ":tab N" and "Ngt". // When "n" is 9999 go to the last tab page. void goto_tabpage(int n) { if (text_locked()) { // Not allowed when editing the command line. text_locked_msg(); return; } // If there is only one it can't work. if (first_tabpage->tp_next == NULL) { if (n > 1) { beep_flush(); } return; } tabpage_T *tp = NULL; // shut up compiler if (n == 0) { // No count, go to next tab page, wrap around end. if (curtab->tp_next == NULL) { tp = first_tabpage; } else { tp = curtab->tp_next; } } else if (n < 0) { // "gT": go to previous tab page, wrap around end. "N gT" repeats // this N times. tabpage_T *ttp = curtab; for (int i = n; i < 0; i++) { for (tp = first_tabpage; tp->tp_next != ttp && tp->tp_next != NULL; tp = tp->tp_next) {} ttp = tp; } } else if (n == 9999) { // Go to last tab page. for (tp = first_tabpage; tp->tp_next != NULL; tp = tp->tp_next) {} } else { // Go to tab page "n". tp = find_tabpage(n); if (tp == NULL) { beep_flush(); return; } } goto_tabpage_tp(tp, true, true); } /// Go to tabpage "tp". /// Note: doesn't update the GUI tab. /// /// @param trigger_enter_autocmds when true trigger *Enter autocommands. /// @param trigger_leave_autocmds when true trigger *Leave autocommands. void goto_tabpage_tp(tabpage_T *tp, bool trigger_enter_autocmds, bool trigger_leave_autocmds) { if (trigger_enter_autocmds || trigger_leave_autocmds) { CHECK_CMDWIN; } // Don't repeat a message in another tab page. set_keep_msg(NULL, 0); skip_win_fix_scroll = true; if (tp != curtab && leave_tabpage(tp->tp_curwin->w_buffer, trigger_leave_autocmds) == OK) { if (valid_tabpage(tp)) { enter_tabpage(tp, curbuf, trigger_enter_autocmds, trigger_leave_autocmds); } else { enter_tabpage(curtab, curbuf, trigger_enter_autocmds, trigger_leave_autocmds); } } skip_win_fix_scroll = false; } /// Go to the last accessed tab page, if there is one. /// @return true if the tab page is valid, false otherwise. bool goto_tabpage_lastused(void) { if (!valid_tabpage(lastused_tabpage)) { return false; } goto_tabpage_tp(lastused_tabpage, true, true); return true; } // Enter window "wp" in tab page "tp". // Also updates the GUI tab. void goto_tabpage_win(tabpage_T *tp, win_T *wp) { goto_tabpage_tp(tp, true, true); if (curtab == tp && win_valid(wp)) { win_enter(wp, true); } } // Move the current tab page to after tab page "nr". void tabpage_move(int nr) { assert(curtab != NULL); if (first_tabpage->tp_next == NULL) { return; } int n = 1; tabpage_T *tp; for (tp = first_tabpage; tp->tp_next != NULL && n < nr; tp = tp->tp_next) { n++; } if (tp == curtab || (nr > 0 && tp->tp_next != NULL && tp->tp_next == curtab)) { return; } tabpage_T *tp_dst = tp; // Remove the current tab page from the list of tab pages. if (curtab == first_tabpage) { first_tabpage = curtab->tp_next; } else { tp = NULL; FOR_ALL_TABS(tp2) { if (tp2->tp_next == curtab) { tp = tp2; break; } } if (tp == NULL) { // "cannot happen" return; } tp->tp_next = curtab->tp_next; } // Re-insert it at the specified position. if (nr <= 0) { curtab->tp_next = first_tabpage; first_tabpage = curtab; } else { curtab->tp_next = tp_dst->tp_next; tp_dst->tp_next = curtab; } // Need to redraw the tabline. Tab page contents doesn't change. redraw_tabline = true; } // Go to another window. // When jumping to another buffer, stop Visual mode. Do this before // changing windows so we can yank the selection into the '*' register. // When jumping to another window on the same buffer, adjust its cursor // position to keep the same Visual area. void win_goto(win_T *wp) { win_T *owp = curwin; if (text_or_buf_locked()) { beep_flush(); return; } if (wp->w_buffer != curbuf) { reset_VIsual_and_resel(); } else if (VIsual_active) { wp->w_cursor = curwin->w_cursor; } win_enter(wp, true); // Conceal cursor line in previous window, unconceal in current window. if (win_valid(owp) && owp->w_p_cole > 0 && !msg_scrolled) { redrawWinline(owp, owp->w_cursor.lnum); } if (curwin->w_p_cole > 0 && !msg_scrolled) { redrawWinline(curwin, curwin->w_cursor.lnum); } } // Find the tabpage for window "win". tabpage_T *win_find_tabpage(win_T *win) { FOR_ALL_TAB_WINDOWS(tp, wp) { if (wp == win) { return tp; } } return NULL; } /// Get the above or below neighbor window of the specified window. /// /// Returns the specified window if the neighbor is not found. /// Returns the previous window if the specifiecied window is a floating window. /// /// @param up true for the above neighbor /// @param count nth neighbor window /// /// @return found window win_T *win_vert_neighbor(tabpage_T *tp, win_T *wp, bool up, int count) { frame_T *foundfr = wp->w_frame; if (wp->w_floating) { return win_valid(prevwin) && !prevwin->w_floating ? prevwin : firstwin; } while (count--) { frame_T *nfr; // First go upwards in the tree of frames until we find an upwards or // downwards neighbor. frame_T *fr = foundfr; while (true) { if (fr == tp->tp_topframe) { goto end; } if (up) { nfr = fr->fr_prev; } else { nfr = fr->fr_next; } if (fr->fr_parent->fr_layout == FR_COL && nfr != NULL) { break; } fr = fr->fr_parent; } // Now go downwards to find the bottom or top frame in it. while (true) { if (nfr->fr_layout == FR_LEAF) { foundfr = nfr; break; } fr = nfr->fr_child; if (nfr->fr_layout == FR_ROW) { // Find the frame at the cursor row. while (fr->fr_next != NULL && frame2win(fr)->w_wincol + fr->fr_width <= wp->w_wincol + wp->w_wcol) { fr = fr->fr_next; } } if (nfr->fr_layout == FR_COL && up) { while (fr->fr_next != NULL) { fr = fr->fr_next; } } nfr = fr; } } end: return foundfr != NULL ? foundfr->fr_win : NULL; } /// Move to window above or below "count" times. /// /// @param up true to go to win above /// @param count go count times into direction static void win_goto_ver(bool up, int count) { win_T *win = win_vert_neighbor(curtab, curwin, up, count); if (win != NULL) { win_goto(win); } } /// Get the left or right neighbor window of the specified window. /// /// Returns the specified window if the neighbor is not found. /// Returns the previous window if the specifiecied window is a floating window. /// /// @param left true for the left neighbor /// @param count nth neighbor window /// /// @return found window win_T *win_horz_neighbor(tabpage_T *tp, win_T *wp, bool left, int count) { frame_T *foundfr = wp->w_frame; if (wp->w_floating) { return win_valid(prevwin) && !prevwin->w_floating ? prevwin : firstwin; } while (count--) { frame_T *nfr; // First go upwards in the tree of frames until we find a left or // right neighbor. frame_T *fr = foundfr; while (true) { if (fr == tp->tp_topframe) { goto end; } if (left) { nfr = fr->fr_prev; } else { nfr = fr->fr_next; } if (fr->fr_parent->fr_layout == FR_ROW && nfr != NULL) { break; } fr = fr->fr_parent; } // Now go downwards to find the leftmost or rightmost frame in it. while (true) { if (nfr->fr_layout == FR_LEAF) { foundfr = nfr; break; } fr = nfr->fr_child; if (nfr->fr_layout == FR_COL) { // Find the frame at the cursor row. while (fr->fr_next != NULL && frame2win(fr)->w_winrow + fr->fr_height <= wp->w_winrow + wp->w_wrow) { fr = fr->fr_next; } } if (nfr->fr_layout == FR_ROW && left) { while (fr->fr_next != NULL) { fr = fr->fr_next; } } nfr = fr; } } end: return foundfr != NULL ? foundfr->fr_win : NULL; } /// Move to left or right window. /// /// @param left true to go to left window /// @param count go count times into direction static void win_goto_hor(bool left, int count) { win_T *win = win_horz_neighbor(curtab, curwin, left, count); if (win != NULL) { win_goto(win); } } /// Make window `wp` the current window. /// /// @warning Autocmds may close the window immediately, so caller must check /// win_valid(wp). void win_enter(win_T *wp, bool undo_sync) { win_enter_ext(wp, (undo_sync ? WEE_UNDO_SYNC : 0) | WEE_TRIGGER_ENTER_AUTOCMDS | WEE_TRIGGER_LEAVE_AUTOCMDS); } /// Make window "wp" the current window. /// /// @param flags if contains WEE_CURWIN_INVALID, it means curwin has just been /// closed and isn't valid. static void win_enter_ext(win_T *const wp, const int flags) { bool other_buffer = false; const bool curwin_invalid = (flags & WEE_CURWIN_INVALID); if (wp == curwin && !curwin_invalid) { // nothing to do return; } if (!curwin_invalid) { leaving_window(curwin); } if (!curwin_invalid && (flags & WEE_TRIGGER_LEAVE_AUTOCMDS)) { // Be careful: If autocommands delete the window, return now. if (wp->w_buffer != curbuf) { apply_autocmds(EVENT_BUFLEAVE, NULL, NULL, false, curbuf); other_buffer = true; if (!win_valid(wp)) { return; } } apply_autocmds(EVENT_WINLEAVE, NULL, NULL, false, curbuf); if (!win_valid(wp)) { return; } // autocmds may abort script processing if (aborting()) { return; } } // sync undo before leaving the current buffer if ((flags & WEE_UNDO_SYNC) && curbuf != wp->w_buffer) { u_sync(false); } // Might need to scroll the old window before switching, e.g., when the // cursor was moved. if (*p_spk == 'c' && !curwin_invalid) { update_topline(curwin); } // may have to copy the buffer options when 'cpo' contains 'S' if (wp->w_buffer != curbuf) { buf_copy_options(wp->w_buffer, BCO_ENTER | BCO_NOHELP); } if (!curwin_invalid) { prevwin = curwin; // remember for CTRL-W p curwin->w_redr_status = true; } curwin = wp; curbuf = wp->w_buffer; check_cursor(); if (!virtual_active()) { curwin->w_cursor.coladd = 0; } if (*p_spk == 'c') { changed_line_abv_curs(); // assume cursor position needs updating } else { // Make sure the cursor position is valid, either by moving the cursor // or by scrolling the text. win_fix_cursor(get_real_state() & (MODE_NORMAL|MODE_CMDLINE|MODE_TERMINAL)); } fix_current_dir(); entering_window(curwin); // Careful: autocommands may close the window and make "wp" invalid if (flags & WEE_TRIGGER_NEW_AUTOCMDS) { apply_autocmds(EVENT_WINNEW, NULL, NULL, false, curbuf); } if (flags & WEE_TRIGGER_ENTER_AUTOCMDS) { apply_autocmds(EVENT_WINENTER, NULL, NULL, false, curbuf); if (other_buffer) { apply_autocmds(EVENT_BUFENTER, NULL, NULL, false, curbuf); } } maketitle(); curwin->w_redr_status = true; redraw_tabline = true; if (restart_edit) { redraw_later(curwin, UPD_VALID); // causes status line redraw } // change background color according to NormalNC, // but only if actually defined (otherwise no extra redraw) if (curwin->w_hl_attr_normal != curwin->w_hl_attr_normalnc) { // TODO(bfredl): eventually we should be smart enough // to only recompose the window, not redraw it. redraw_later(curwin, UPD_NOT_VALID); } if (prevwin) { if (prevwin->w_hl_attr_normal != prevwin->w_hl_attr_normalnc) { redraw_later(prevwin, UPD_NOT_VALID); } } // set window height to desired minimal value if (curwin->w_height < p_wh && !curwin->w_p_wfh && !curwin->w_floating) { win_setheight((int)p_wh); } else if (curwin->w_height == 0) { win_setheight(1); } // set window width to desired minimal value if (curwin->w_width < p_wiw && !curwin->w_p_wfw && !curwin->w_floating) { win_setwidth((int)p_wiw); } setmouse(); // in case jumped to/from help buffer // Change directories when the 'acd' option is set. do_autochdir(); } /// Used after making another window the current one: change directory if needed. void fix_current_dir(void) { // New directory is either the local directory of the window, tab or NULL. char *new_dir = curwin->w_localdir ? curwin->w_localdir : curtab->tp_localdir; char cwd[MAXPATHL]; if (os_dirname(cwd, MAXPATHL) != OK) { cwd[0] = NUL; } if (new_dir) { // Window/tab has a local directory: Save current directory as global // (unless that was done already) and change to the local directory. if (globaldir == NULL) { if (cwd[0] != NUL) { globaldir = xstrdup(cwd); } } bool dir_differs = pathcmp(new_dir, cwd, -1) != 0; if (!p_acd && dir_differs) { do_autocmd_dirchanged(new_dir, curwin->w_localdir ? kCdScopeWindow : kCdScopeTabpage, kCdCauseWindow, true); } if (os_chdir(new_dir) == 0) { if (!p_acd && dir_differs) { do_autocmd_dirchanged(new_dir, curwin->w_localdir ? kCdScopeWindow : kCdScopeTabpage, kCdCauseWindow, false); } } last_chdir_reason = NULL; shorten_fnames(true); } else if (globaldir != NULL) { // Window doesn't have a local directory and we are not in the global // directory: Change to the global directory. bool dir_differs = pathcmp(globaldir, cwd, -1) != 0; if (!p_acd && dir_differs) { do_autocmd_dirchanged(globaldir, kCdScopeGlobal, kCdCauseWindow, true); } if (os_chdir(globaldir) == 0) { if (!p_acd && dir_differs) { do_autocmd_dirchanged(globaldir, kCdScopeGlobal, kCdCauseWindow, false); } } XFREE_CLEAR(globaldir); last_chdir_reason = NULL; shorten_fnames(true); } } /// Jump to the first open window that contains buffer "buf", if one exists. /// Returns a pointer to the window found, otherwise NULL. win_T *buf_jump_open_win(buf_T *buf) { if (curwin->w_buffer == buf) { win_enter(curwin, false); return curwin; } FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_buffer == buf) { win_enter(wp, false); return wp; } } return NULL; } /// Jump to the first open window in any tab page that contains buffer "buf", /// if one exists. First search in the windows present in the current tab page. /// @return the found window, or NULL. win_T *buf_jump_open_tab(buf_T *buf) { // First try the current tab page. { win_T *wp = buf_jump_open_win(buf); if (wp != NULL) { return wp; } } FOR_ALL_TABS(tp) { // Skip the current tab since we already checked it. if (tp == curtab) { continue; } FOR_ALL_WINDOWS_IN_TAB(wp, tp) { if (wp->w_buffer == buf) { goto_tabpage_win(tp, wp); // If we the current window didn't switch, // something went wrong. if (curwin != wp) { wp = NULL; } // Return the window we switched to. return wp; } } } // If we made it this far, we didn't find the buffer. return NULL; } /// @param hidden allocate a window structure and link it in the window if // false. win_T *win_alloc(win_T *after, bool hidden) { static int last_win_id = LOWEST_WIN_ID - 1; // allocate window structure and linesizes arrays win_T *new_wp = xcalloc(1, sizeof(win_T)); new_wp->handle = ++last_win_id; pmap_put(int)(&window_handles, new_wp->handle, new_wp); grid_assign_handle(&new_wp->w_grid_alloc); // Init w: variables. new_wp->w_vars = tv_dict_alloc(); init_var_dict(new_wp->w_vars, &new_wp->w_winvar, VAR_SCOPE); // Don't execute autocommands while the window is not properly // initialized yet. gui_create_scrollbar() may trigger a FocusGained // event. block_autocmds(); // link the window in the window list if (!hidden) { win_append(after, new_wp); } new_wp->w_wincol = 0; new_wp->w_width = Columns; // position the display and the cursor at the top of the file. new_wp->w_topline = 1; new_wp->w_topfill = 0; new_wp->w_botline = 2; new_wp->w_cursor.lnum = 1; new_wp->w_scbind_pos = 1; new_wp->w_floating = 0; new_wp->w_float_config = FLOAT_CONFIG_INIT; new_wp->w_viewport_invalid = true; new_wp->w_viewport_last_topline = 1; new_wp->w_ns_hl = -1; // use global option for global-local options new_wp->w_allbuf_opt.wo_so = new_wp->w_p_so = -1; new_wp->w_allbuf_opt.wo_siso = new_wp->w_p_siso = -1; // We won't calculate w_fraction until resizing the window new_wp->w_fraction = 0; new_wp->w_prev_fraction_row = -1; foldInitWin(new_wp); unblock_autocmds(); new_wp->w_next_match_id = 1000; // up to 1000 can be picked by the user return new_wp; } // Free one wininfo_T. void free_wininfo(wininfo_T *wip, buf_T *bp) { if (wip->wi_optset) { clear_winopt(&wip->wi_opt); deleteFoldRecurse(bp, &wip->wi_folds); } xfree(wip); } /// Remove window 'wp' from the window list and free the structure. /// /// @param tp tab page "win" is in, NULL for current static void win_free(win_T *wp, tabpage_T *tp) { pmap_del(int)(&window_handles, wp->handle, NULL); clearFolding(wp); // reduce the reference count to the argument list. alist_unlink(wp->w_alist); // Don't execute autocommands while the window is halfway being deleted. block_autocmds(); clear_winopt(&wp->w_onebuf_opt); clear_winopt(&wp->w_allbuf_opt); xfree(wp->w_p_lcs_chars.multispace); xfree(wp->w_p_lcs_chars.leadmultispace); vars_clear(&wp->w_vars->dv_hashtab); // free all w: variables hash_init(&wp->w_vars->dv_hashtab); unref_var_dict(wp->w_vars); if (prevwin == wp) { prevwin = NULL; } FOR_ALL_TABS(ttp) { if (ttp->tp_prevwin == wp) { ttp->tp_prevwin = NULL; } } xfree(wp->w_lines); for (int i = 0; i < wp->w_tagstacklen; i++) { xfree(wp->w_tagstack[i].tagname); xfree(wp->w_tagstack[i].user_data); } xfree(wp->w_localdir); xfree(wp->w_prevdir); stl_clear_click_defs(wp->w_status_click_defs, wp->w_status_click_defs_size); xfree(wp->w_status_click_defs); stl_clear_click_defs(wp->w_winbar_click_defs, wp->w_winbar_click_defs_size); xfree(wp->w_winbar_click_defs); stl_clear_click_defs(wp->w_statuscol_click_defs, wp->w_statuscol_click_defs_size); xfree(wp->w_statuscol_click_defs); // Remove the window from the b_wininfo lists, it may happen that the // freed memory is re-used for another window. FOR_ALL_BUFFERS(buf) { for (wininfo_T *wip = buf->b_wininfo; wip != NULL; wip = wip->wi_next) { if (wip->wi_win == wp) { wininfo_T *wip2; // If there already is an entry with "wi_win" set to NULL it // must be removed, it would never be used. // Skip "wip" itself, otherwise Coverity complains. for (wip2 = buf->b_wininfo; wip2 != NULL; wip2 = wip2->wi_next) { // `wip2 != wip` to satisfy Coverity. #14884 if (wip2 != wip && wip2->wi_win == NULL) { if (wip2->wi_next != NULL) { wip2->wi_next->wi_prev = wip2->wi_prev; } if (wip2->wi_prev == NULL) { buf->b_wininfo = wip2->wi_next; } else { wip2->wi_prev->wi_next = wip2->wi_next; } free_wininfo(wip2, buf); break; } } wip->wi_win = NULL; } } } // free the border text clear_virttext(&wp->w_float_config.title_chunks); clear_virttext(&wp->w_float_config.footer_chunks); clear_matches(wp); free_jumplist(wp); qf_free_all(wp); xfree(wp->w_p_cc_cols); win_free_grid(wp, false); if (win_valid_any_tab(wp)) { win_remove(wp, tp); } if (autocmd_busy) { wp->w_next = au_pending_free_win; au_pending_free_win = wp; } else { xfree(wp); } unblock_autocmds(); } void win_free_grid(win_T *wp, bool reinit) { if (wp->w_grid_alloc.handle != 0 && ui_has(kUIMultigrid)) { ui_call_grid_destroy(wp->w_grid_alloc.handle); } grid_free(&wp->w_grid_alloc); if (reinit) { // if a float is turned into a split, the grid data structure will be reused CLEAR_FIELD(wp->w_grid_alloc); } } // Append window "wp" in the window list after window "after". void win_append(win_T *after, win_T *wp) { // after NULL is in front of the first win_T *before = after == NULL ? firstwin : after->w_next; wp->w_next = before; wp->w_prev = after; if (after == NULL) { firstwin = wp; } else { after->w_next = wp; } if (before == NULL) { lastwin = wp; } else { before->w_prev = wp; } } /// Remove a window from the window list. /// /// @param tp tab page "win" is in, NULL for current void win_remove(win_T *wp, tabpage_T *tp) { if (wp->w_prev != NULL) { wp->w_prev->w_next = wp->w_next; } else if (tp == NULL) { firstwin = curtab->tp_firstwin = wp->w_next; } else { tp->tp_firstwin = wp->w_next; } if (wp->w_next != NULL) { wp->w_next->w_prev = wp->w_prev; } else if (tp == NULL) { lastwin = curtab->tp_lastwin = wp->w_prev; } else { tp->tp_lastwin = wp->w_prev; } } // Append frame "frp" in a frame list after frame "after". static void frame_append(frame_T *after, frame_T *frp) { frp->fr_next = after->fr_next; after->fr_next = frp; if (frp->fr_next != NULL) { frp->fr_next->fr_prev = frp; } frp->fr_prev = after; } // Insert frame "frp" in a frame list before frame "before". static void frame_insert(frame_T *before, frame_T *frp) { frp->fr_next = before; frp->fr_prev = before->fr_prev; before->fr_prev = frp; if (frp->fr_prev != NULL) { frp->fr_prev->fr_next = frp; } else { frp->fr_parent->fr_child = frp; } } // Remove a frame from a frame list. static void frame_remove(frame_T *frp) { if (frp->fr_prev != NULL) { frp->fr_prev->fr_next = frp->fr_next; } else { frp->fr_parent->fr_child = frp->fr_next; } if (frp->fr_next != NULL) { frp->fr_next->fr_prev = frp->fr_prev; } } void win_new_screensize(void) { static int old_Rows = 0; static int old_Columns = 0; if (old_Rows != Rows) { // If 'window' uses the whole screen, keep it using that. // Don't change it when set with "-w size" on the command line. if (p_window == old_Rows - 1 || (old_Rows == 0 && !option_was_set("window"))) { p_window = Rows - 1; } old_Rows = Rows; win_new_screen_rows(); // update window sizes } if (old_Columns != Columns) { old_Columns = Columns; win_new_screen_cols(); // update window sizes } } /// Called from win_new_screensize() after Rows changed. /// /// This only does the current tab page, others must be done when made active. void win_new_screen_rows(void) { int h = (int)ROWS_AVAIL; if (firstwin == NULL) { // not initialized yet return; } if (h < frame_minheight(topframe, NULL)) { h = frame_minheight(topframe, NULL); } // First try setting the heights of windows with 'winfixheight'. If // that doesn't result in the right height, forget about that option. frame_new_height(topframe, h, false, true); if (!frame_check_height(topframe, h)) { frame_new_height(topframe, h, false, false); } (void)win_comp_pos(); // recompute w_winrow and w_wincol win_reconfig_floats(); // The size of floats might change compute_cmdrow(); curtab->tp_ch_used = p_ch; if (!skip_win_fix_scroll) { win_fix_scroll(true); } } /// Called from win_new_screensize() after Columns changed. void win_new_screen_cols(void) { if (firstwin == NULL) { // not initialized yet return; } // First try setting the widths of windows with 'winfixwidth'. If that // doesn't result in the right width, forget about that option. frame_new_width(topframe, Columns, false, true); if (!frame_check_width(topframe, Columns)) { frame_new_width(topframe, Columns, false, false); } (void)win_comp_pos(); // recompute w_winrow and w_wincol win_reconfig_floats(); // The size of floats might change } /// Make a snapshot of all the window scroll positions and sizes of the current /// tab page. void snapshot_windows_scroll_size(void) { FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { wp->w_last_topline = wp->w_topline; wp->w_last_topfill = wp->w_topfill; wp->w_last_leftcol = wp->w_leftcol; wp->w_last_skipcol = wp->w_skipcol; wp->w_last_width = wp->w_width; wp->w_last_height = wp->w_height; } } static bool did_initial_scroll_size_snapshot = false; void may_make_initial_scroll_size_snapshot(void) { if (!did_initial_scroll_size_snapshot) { did_initial_scroll_size_snapshot = true; snapshot_windows_scroll_size(); } } /// Create a dictionary with information about size and scroll changes in a /// window. /// Returns the dictionary with refcount set to one. /// Returns NULL on internal error. static dict_T *make_win_info_dict(int width, int height, int topline, int topfill, int leftcol, int skipcol) { dict_T *const d = tv_dict_alloc(); d->dv_refcount = 1; // not actually looping, for breaking out on error while (true) { typval_T tv = { .v_lock = VAR_UNLOCKED, .v_type = VAR_NUMBER, }; tv.vval.v_number = width; if (tv_dict_add_tv(d, S_LEN("width"), &tv) == FAIL) { break; } tv.vval.v_number = height; if (tv_dict_add_tv(d, S_LEN("height"), &tv) == FAIL) { break; } tv.vval.v_number = topline; if (tv_dict_add_tv(d, S_LEN("topline"), &tv) == FAIL) { break; } tv.vval.v_number = topfill; if (tv_dict_add_tv(d, S_LEN("topfill"), &tv) == FAIL) { break; } tv.vval.v_number = leftcol; if (tv_dict_add_tv(d, S_LEN("leftcol"), &tv) == FAIL) { break; } tv.vval.v_number = skipcol; if (tv_dict_add_tv(d, S_LEN("skipcol"), &tv) == FAIL) { break; } return d; } tv_dict_unref(d); return NULL; } /// Return values of check_window_scroll_resize(): enum { CWSR_SCROLLED = 1, ///< at least one window scrolled CWSR_RESIZED = 2, ///< at least one window size changed }; /// This function is used for three purposes: /// 1. Goes over all windows in the current tab page and returns: /// 0 no scrolling and no size changes found /// CWSR_SCROLLED at least one window scrolled /// CWSR_RESIZED at least one window changed size /// CWSR_SCROLLED + CWSR_RESIZED both /// "size_count" is set to the nr of windows with size changes. /// "first_scroll_win" is set to the first window with any relevant changes. /// "first_size_win" is set to the first window with size changes. /// /// 2. When the first three arguments are NULL and "winlist" is not NULL, /// "winlist" is set to the list of window IDs with size changes. /// /// 3. When the first three arguments are NULL and "v_event" is not NULL, /// information about changed windows is added to "v_event". static int check_window_scroll_resize(int *size_count, win_T **first_scroll_win, win_T **first_size_win, list_T *winlist, dict_T *v_event) { int result = 0; // int listidx = 0; int tot_width = 0; int tot_height = 0; int tot_topline = 0; int tot_topfill = 0; int tot_leftcol = 0; int tot_skipcol = 0; FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { // Skip floating windows that do not have a snapshot (usually because they are newly-created), // as unlike split windows, creating floating windows do not cause other windows to resize. if (wp->w_floating && wp->w_last_topline == 0) { wp->w_last_topline = wp->w_topline; wp->w_last_topfill = wp->w_topfill; wp->w_last_leftcol = wp->w_leftcol; wp->w_last_skipcol = wp->w_skipcol; wp->w_last_width = wp->w_width; wp->w_last_height = wp->w_height; continue; } const bool size_changed = wp->w_last_width != wp->w_width || wp->w_last_height != wp->w_height; if (size_changed) { result |= CWSR_RESIZED; if (winlist != NULL) { // Add this window to the list of changed windows. typval_T tv = { .v_lock = VAR_UNLOCKED, .v_type = VAR_NUMBER, .vval.v_number = wp->handle, }; // tv_list_set_item(winlist, listidx++, &tv); tv_list_append_owned_tv(winlist, tv); } else if (size_count != NULL) { assert(first_size_win != NULL && first_scroll_win != NULL); (*size_count)++; if (*first_size_win == NULL) { *first_size_win = wp; } // For WinScrolled the first window with a size change is used // even when it didn't scroll. if (*first_scroll_win == NULL) { *first_scroll_win = wp; } } } const bool scroll_changed = wp->w_last_topline != wp->w_topline || wp->w_last_topfill != wp->w_topfill || wp->w_last_leftcol != wp->w_leftcol || wp->w_last_skipcol != wp->w_skipcol; if (scroll_changed) { result |= CWSR_SCROLLED; if (first_scroll_win != NULL && *first_scroll_win == NULL) { *first_scroll_win = wp; } } if ((size_changed || scroll_changed) && v_event != NULL) { // Add info about this window to the v:event dictionary. int width = wp->w_width - wp->w_last_width; int height = wp->w_height - wp->w_last_height; int topline = wp->w_topline - wp->w_last_topline; int topfill = wp->w_topfill - wp->w_last_topfill; int leftcol = wp->w_leftcol - wp->w_last_leftcol; int skipcol = wp->w_skipcol - wp->w_last_skipcol; dict_T *d = make_win_info_dict(width, height, topline, topfill, leftcol, skipcol); if (d == NULL) { break; } char winid[NUMBUFLEN]; int key_len = vim_snprintf(winid, sizeof(winid), "%d", wp->handle); if (tv_dict_add_dict(v_event, winid, (size_t)key_len, d) == FAIL) { tv_dict_unref(d); break; } d->dv_refcount--; tot_width += abs(width); tot_height += abs(height); tot_topline += abs(topline); tot_topfill += abs(topfill); tot_leftcol += abs(leftcol); tot_skipcol += abs(skipcol); } } if (v_event != NULL) { dict_T *alldict = make_win_info_dict(tot_width, tot_height, tot_topline, tot_topfill, tot_leftcol, tot_skipcol); if (alldict != NULL) { if (tv_dict_add_dict(v_event, S_LEN("all"), alldict) == FAIL) { tv_dict_unref(alldict); } else { alldict->dv_refcount--; } } } return result; } /// Trigger WinScrolled and/or WinResized if any window in the current tab page /// scrolled or changed size. void may_trigger_win_scrolled_resized(void) { static bool recursive = false; const bool do_resize = has_event(EVENT_WINRESIZED); const bool do_scroll = has_event(EVENT_WINSCROLLED); if (recursive || !(do_scroll || do_resize) || !did_initial_scroll_size_snapshot) { return; } int size_count = 0; win_T *first_scroll_win = NULL, *first_size_win = NULL; int cwsr = check_window_scroll_resize(&size_count, &first_scroll_win, &first_size_win, NULL, NULL); int trigger_resize = do_resize && size_count > 0; int trigger_scroll = do_scroll && cwsr != 0; if (!trigger_resize && !trigger_scroll) { return; // no relevant changes } list_T *windows_list = NULL; if (trigger_resize) { // Create the list for v:event.windows before making the snapshot. // windows_list = tv_list_alloc_with_items(size_count); windows_list = tv_list_alloc(size_count); (void)check_window_scroll_resize(NULL, NULL, NULL, windows_list, NULL); } dict_T *scroll_dict = NULL; if (trigger_scroll) { // Create the dict with entries for v:event before making the snapshot. scroll_dict = tv_dict_alloc(); scroll_dict->dv_refcount = 1; (void)check_window_scroll_resize(NULL, NULL, NULL, NULL, scroll_dict); } // WinScrolled/WinResized are triggered only once, even when multiple // windows scrolled or changed size. Store the current values before // triggering the event, if a scroll or resize happens as a side effect // then WinScrolled/WinResized is triggered for that later. snapshot_windows_scroll_size(); recursive = true; // If both are to be triggered do WinResized first. if (trigger_resize) { save_v_event_T save_v_event; dict_T *v_event = get_v_event(&save_v_event); if (tv_dict_add_list(v_event, S_LEN("windows"), windows_list) == OK) { tv_dict_set_keys_readonly(v_event); char winid[NUMBUFLEN]; vim_snprintf(winid, sizeof(winid), "%d", first_size_win->handle); apply_autocmds(EVENT_WINRESIZED, winid, winid, false, first_size_win->w_buffer); } restore_v_event(v_event, &save_v_event); } if (trigger_scroll) { save_v_event_T save_v_event; dict_T *v_event = get_v_event(&save_v_event); // Move the entries from scroll_dict to v_event. tv_dict_extend(v_event, scroll_dict, "move"); tv_dict_set_keys_readonly(v_event); tv_dict_unref(scroll_dict); char winid[NUMBUFLEN]; vim_snprintf(winid, sizeof(winid), "%d", first_scroll_win->handle); apply_autocmds(EVENT_WINSCROLLED, winid, winid, false, first_scroll_win->w_buffer); restore_v_event(v_event, &save_v_event); } recursive = false; } // Save the size of all windows in "gap". void win_size_save(garray_T *gap) { ga_init(gap, (int)sizeof(int), 1); ga_grow(gap, win_count() * 2 + 1); // first entry is the total lines available for windows ((int *)gap->ga_data)[gap->ga_len++] = (int)ROWS_AVAIL + global_stl_height() - last_stl_height(false); FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { ((int *)gap->ga_data)[gap->ga_len++] = wp->w_width + wp->w_vsep_width; ((int *)gap->ga_data)[gap->ga_len++] = wp->w_height; } } // Restore window sizes, but only if the number of windows is still the same // and total lines available for windows didn't change. // Does not free the growarray. void win_size_restore(garray_T *gap) FUNC_ATTR_NONNULL_ALL { if (win_count() * 2 + 1 == gap->ga_len && ((int *)gap->ga_data)[0] == ROWS_AVAIL + global_stl_height() - last_stl_height(false)) { // The order matters, because frames contain other frames, but it's // difficult to get right. The easy way out is to do it twice. for (int j = 0; j < 2; j++) { int i = 1; FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { int width = ((int *)gap->ga_data)[i++]; int height = ((int *)gap->ga_data)[i++]; if (!wp->w_floating) { frame_setwidth(wp->w_frame, width); win_setheight_win(height, wp); } } } // recompute the window positions (void)win_comp_pos(); } } // Update the position for all windows, using the width and height of the frames. // Returns the row just after the last window and global statusline (if there is one). int win_comp_pos(void) { int row = tabline_height(); int col = 0; frame_comp_pos(topframe, &row, &col); for (win_T *wp = lastwin; wp && wp->w_floating; wp = wp->w_prev) { // float might be anchored to moved window if (wp->w_float_config.relative == kFloatRelativeWindow) { wp->w_pos_changed = true; } } return row + global_stl_height(); } // Update the position of the windows in frame "topfrp", using the width and // height of the frames. // "*row" and "*col" are the top-left position of the frame. They are updated // to the bottom-right position plus one. static void frame_comp_pos(frame_T *topfrp, int *row, int *col) { win_T *wp = topfrp->fr_win; if (wp != NULL) { if (wp->w_winrow != *row || wp->w_wincol != *col) { // position changed, redraw wp->w_winrow = *row; wp->w_wincol = *col; redraw_later(wp, UPD_NOT_VALID); wp->w_redr_status = true; wp->w_pos_changed = true; } const int h = wp->w_height + wp->w_hsep_height + wp->w_status_height; *row += h > topfrp->fr_height ? topfrp->fr_height : h; *col += wp->w_width + wp->w_vsep_width; } else { int startrow = *row; int startcol = *col; frame_T *frp; FOR_ALL_FRAMES(frp, topfrp->fr_child) { if (topfrp->fr_layout == FR_ROW) { *row = startrow; // all frames are at the same row } else { *col = startcol; // all frames are at the same col } frame_comp_pos(frp, row, col); } } } // Set current window height and take care of repositioning other windows to // fit around it. void win_setheight(int height) { win_setheight_win(height, curwin); } // Set the window height of window "win" and take care of repositioning other // windows to fit around it. void win_setheight_win(int height, win_T *win) { // Always keep current window at least one line high, even when 'winminheight' is zero. // Keep window at least two lines high if 'winbar' is enabled. height = MAX(height, (int)(win == curwin ? MAX(p_wmh, 1) : p_wmh) + win->w_winbar_height); if (win->w_floating) { win->w_float_config.height = height; win_config_float(win, win->w_float_config); redraw_later(win, UPD_VALID); } else { frame_setheight(win->w_frame, height + win->w_hsep_height + win->w_status_height); // recompute the window positions int row = win_comp_pos(); // If there is extra space created between the last window and the command // line, clear it. if (full_screen && msg_scrolled == 0 && row < cmdline_row) { grid_fill(&default_grid, row, cmdline_row, 0, Columns, ' ', ' ', 0); if (msg_grid.chars) { clear_cmdline = true; } } cmdline_row = row; p_ch = MAX(Rows - cmdline_row, 0); curtab->tp_ch_used = p_ch; msg_row = row; msg_col = 0; win_fix_scroll(true); redraw_all_later(UPD_NOT_VALID); redraw_cmdline = true; } } // Set the height of a frame to "height" and take care that all frames and // windows inside it are resized. Also resize frames on the left and right if // the are in the same FR_ROW frame. // // Strategy: // If the frame is part of a FR_COL frame, try fitting the frame in that // frame. If that doesn't work (the FR_COL frame is too small), recursively // go to containing frames to resize them and make room. // If the frame is part of a FR_ROW frame, all frames must be resized as well. // Check for the minimal height of the FR_ROW frame. // At the top level we can also use change the command line height. static void frame_setheight(frame_T *curfrp, int height) { // If the height already is the desired value, nothing to do. if (curfrp->fr_height == height) { return; } if (curfrp->fr_parent == NULL) { // topframe: can only change the command line height // Avoid doing so with external messages. if (ui_has(kUIMessages)) { return; } if (height > ROWS_AVAIL) { // If height is greater than the available space, try to create space for // the frame by reducing 'cmdheight' if possible, while making sure // `cmdheight` doesn't go below 1 if it wasn't set to 0 explicitly. height = (int)MIN(ROWS_AVAIL + p_ch - !p_ch_was_zero, height); } if (height > 0) { frame_new_height(curfrp, height, false, false); } } else if (curfrp->fr_parent->fr_layout == FR_ROW) { // Row of frames: Also need to resize frames left and right of this // one. First check for the minimal height of these. int h = frame_minheight(curfrp->fr_parent, NULL); if (height < h) { height = h; } frame_setheight(curfrp->fr_parent, height); } else { // Column of frames: try to change only frames in this column. int room; // total number of lines available int room_cmdline; // lines available from cmdline int room_reserved; // Do this twice: // 1: compute room available, if it's not enough try resizing the // containing frame. // 2: compute the room available and adjust the height to it. // Try not to reduce the height of a window with 'winfixheight' set. for (int run = 1; run <= 2; run++) { room = 0; room_reserved = 0; frame_T *frp; FOR_ALL_FRAMES(frp, curfrp->fr_parent->fr_child) { if (frp != curfrp && frp->fr_win != NULL && frp->fr_win->w_p_wfh) { room_reserved += frp->fr_height; } room += frp->fr_height; if (frp != curfrp) { room -= frame_minheight(frp, NULL); } } if (curfrp->fr_width != Columns) { room_cmdline = 0; } else { win_T *wp = lastwin_nofloating(); room_cmdline = Rows - (int)p_ch - global_stl_height() - (wp->w_winrow + wp->w_height + wp->w_hsep_height + wp->w_status_height); if (room_cmdline < 0) { room_cmdline = 0; } } if (height <= room + room_cmdline) { break; } if (run == 2 || curfrp->fr_width == Columns) { height = room + room_cmdline; break; } frame_setheight(curfrp->fr_parent, height + frame_minheight(curfrp->fr_parent, NOWIN) - (int)p_wmh - 1); // NOTREACHED } // Compute the number of lines we will take from others frames (can be // negative!). int take = height - curfrp->fr_height; // If there is not enough room, also reduce the height of a window // with 'winfixheight' set. if (height > room + room_cmdline - room_reserved) { room_reserved = room + room_cmdline - height; } // If there is only a 'winfixheight' window and making the // window smaller, need to make the other window taller. if (take < 0 && room - curfrp->fr_height < room_reserved) { room_reserved = 0; } if (take > 0 && room_cmdline > 0) { // use lines from cmdline first if (take < room_cmdline) { room_cmdline = take; } take -= room_cmdline; topframe->fr_height += room_cmdline; } // set the current frame to the new height frame_new_height(curfrp, height, false, false); // First take lines from the frames after the current frame. If // that is not enough, takes lines from frames above the current // frame. for (int run = 0; run < 2; run++) { // 1st run: start with next window // 2nd run: start with prev window frame_T *frp = run == 0 ? curfrp->fr_next : curfrp->fr_prev; while (frp != NULL && take != 0) { int h = frame_minheight(frp, NULL); if (room_reserved > 0 && frp->fr_win != NULL && frp->fr_win->w_p_wfh) { if (room_reserved >= frp->fr_height) { room_reserved -= frp->fr_height; } else { if (frp->fr_height - room_reserved > take) { room_reserved = frp->fr_height - take; } take -= frp->fr_height - room_reserved; frame_new_height(frp, room_reserved, false, false); room_reserved = 0; } } else { if (frp->fr_height - take < h) { take -= frp->fr_height - h; frame_new_height(frp, h, false, false); } else { frame_new_height(frp, frp->fr_height - take, false, false); take = 0; } } if (run == 0) { frp = frp->fr_next; } else { frp = frp->fr_prev; } } } } } // Set current window width and take care of repositioning other windows to // fit around it. void win_setwidth(int width) { win_setwidth_win(width, curwin); } void win_setwidth_win(int width, win_T *wp) { // Always keep current window at least one column wide, even when // 'winminwidth' is zero. if (wp == curwin) { if (width < p_wmw) { width = (int)p_wmw; } if (width == 0) { width = 1; } } else if (width < 0) { width = 0; } if (wp->w_floating) { wp->w_float_config.width = width; win_config_float(wp, wp->w_float_config); redraw_later(wp, UPD_NOT_VALID); } else { frame_setwidth(wp->w_frame, width + wp->w_vsep_width); // recompute the window positions (void)win_comp_pos(); redraw_all_later(UPD_NOT_VALID); } } // Set the width of a frame to "width" and take care that all frames and // windows inside it are resized. Also resize frames above and below if the // are in the same FR_ROW frame. // // Strategy is similar to frame_setheight(). static void frame_setwidth(frame_T *curfrp, int width) { // If the width already is the desired value, nothing to do. if (curfrp->fr_width == width) { return; } if (curfrp->fr_parent == NULL) { // topframe: can't change width return; } if (curfrp->fr_parent->fr_layout == FR_COL) { // Column of frames: Also need to resize frames above and below of // this one. First check for the minimal width of these. int w = frame_minwidth(curfrp->fr_parent, NULL); if (width < w) { width = w; } frame_setwidth(curfrp->fr_parent, width); } else { // Row of frames: try to change only frames in this row. // // Do this twice: // 1: compute room available, if it's not enough try resizing the // containing frame. // 2: compute the room available and adjust the width to it. int room; // total number of lines available int room_reserved; for (int run = 1; run <= 2; run++) { room = 0; room_reserved = 0; frame_T *frp; FOR_ALL_FRAMES(frp, curfrp->fr_parent->fr_child) { if (frp != curfrp && frp->fr_win != NULL && frp->fr_win->w_p_wfw) { room_reserved += frp->fr_width; } room += frp->fr_width; if (frp != curfrp) { room -= frame_minwidth(frp, NULL); } } if (width <= room) { break; } if (run == 2 || curfrp->fr_height >= ROWS_AVAIL) { width = room; break; } frame_setwidth(curfrp->fr_parent, width + frame_minwidth(curfrp->fr_parent, NOWIN) - (int)p_wmw - 1); } // Compute the number of lines we will take from others frames (can be // negative!). int take = width - curfrp->fr_width; // If there is not enough room, also reduce the width of a window // with 'winfixwidth' set. if (width > room - room_reserved) { room_reserved = room - width; } // If there is only a 'winfixwidth' window and making the // window smaller, need to make the other window narrower. if (take < 0 && room - curfrp->fr_width < room_reserved) { room_reserved = 0; } // set the current frame to the new width frame_new_width(curfrp, width, false, false); // First take lines from the frames right of the current frame. If // that is not enough, takes lines from frames left of the current // frame. for (int run = 0; run < 2; run++) { // 1st run: start with next window // 2nd run: start with prev window frame_T *frp = run == 0 ? curfrp->fr_next : curfrp->fr_prev; while (frp != NULL && take != 0) { int w = frame_minwidth(frp, NULL); if (room_reserved > 0 && frp->fr_win != NULL && frp->fr_win->w_p_wfw) { if (room_reserved >= frp->fr_width) { room_reserved -= frp->fr_width; } else { if (frp->fr_width - room_reserved > take) { room_reserved = frp->fr_width - take; } take -= frp->fr_width - room_reserved; frame_new_width(frp, room_reserved, false, false); room_reserved = 0; } } else { if (frp->fr_width - take < w) { take -= frp->fr_width - w; frame_new_width(frp, w, false, false); } else { frame_new_width(frp, frp->fr_width - take, false, false); take = 0; } } if (run == 0) { frp = frp->fr_next; } else { frp = frp->fr_prev; } } } } } // Check 'winminheight' for a valid value and reduce it if needed. const char *did_set_winminheight(optset_T *args FUNC_ATTR_UNUSED) { bool first = true; // loop until there is a 'winminheight' that is possible while (p_wmh > 0) { const int room = Rows - (int)p_ch; const int needed = min_rows(); if (room >= needed) { break; } p_wmh--; if (first) { emsg(_(e_noroom)); first = false; } } return NULL; } // Check 'winminwidth' for a valid value and reduce it if needed. const char *did_set_winminwidth(optset_T *args FUNC_ATTR_UNUSED) { bool first = true; // loop until there is a 'winminheight' that is possible while (p_wmw > 0) { const int room = Columns; const int needed = frame_minwidth(topframe, NULL); if (room >= needed) { break; } p_wmw--; if (first) { emsg(_(e_noroom)); first = false; } } return NULL; } /// Status line of dragwin is dragged "offset" lines down (negative is up). void win_drag_status_line(win_T *dragwin, int offset) { frame_T *fr = dragwin->w_frame; // Avoid changing command line height with external messages. if (fr->fr_next == NULL && ui_has(kUIMessages)) { return; } frame_T *curfr = fr; if (fr != topframe) { // more than one window fr = fr->fr_parent; // When the parent frame is not a column of frames, its parent should // be. if (fr->fr_layout != FR_COL) { curfr = fr; if (fr != topframe) { // only a row of windows, may drag statusline fr = fr->fr_parent; } } } // If this is the last frame in a column, may want to resize the parent // frame instead (go two up to skip a row of frames). while (curfr != topframe && curfr->fr_next == NULL) { if (fr != topframe) { fr = fr->fr_parent; } curfr = fr; if (fr != topframe) { fr = fr->fr_parent; } } int room; const bool up = offset < 0; // if true, drag status line up, otherwise down if (up) { // drag up offset = -offset; // sum up the room of the current frame and above it if (fr == curfr) { // only one window room = fr->fr_height - frame_minheight(fr, NULL); } else { room = 0; for (fr = fr->fr_child;; fr = fr->fr_next) { room += fr->fr_height - frame_minheight(fr, NULL); if (fr == curfr) { break; } } } fr = curfr->fr_next; // put fr at frame that grows } else { // drag down // Only dragging the last status line can reduce p_ch. room = Rows - cmdline_row; if (curfr->fr_next != NULL) { room -= (int)p_ch + global_stl_height(); } else if (!p_ch_was_zero) { room--; } if (room < 0) { room = 0; } // sum up the room of frames below of the current one FOR_ALL_FRAMES(fr, curfr->fr_next) { room += fr->fr_height - frame_minheight(fr, NULL); } fr = curfr; // put fr at window that grows } if (room < offset) { // Not enough room offset = room; // Move as far as we can } if (offset <= 0) { return; } // Grow frame fr by "offset" lines. // Doesn't happen when dragging the last status line up. if (fr != NULL) { frame_new_height(fr, fr->fr_height + offset, up, false); } if (up) { fr = curfr; // current frame gets smaller } else { fr = curfr->fr_next; // next frame gets smaller } // Now make the other frames smaller. while (fr != NULL && offset > 0) { int n = frame_minheight(fr, NULL); if (fr->fr_height - offset <= n) { offset -= fr->fr_height - n; frame_new_height(fr, n, !up, false); } else { frame_new_height(fr, fr->fr_height - offset, !up, false); break; } if (up) { fr = fr->fr_prev; } else { fr = fr->fr_next; } } int row = win_comp_pos(); grid_fill(&default_grid, row, cmdline_row, 0, Columns, ' ', ' ', 0); if (msg_grid.chars) { clear_cmdline = true; } cmdline_row = row; p_ch = MAX(Rows - cmdline_row, p_ch_was_zero ? 0 : 1); curtab->tp_ch_used = p_ch; win_fix_scroll(true); redraw_all_later(UPD_SOME_VALID); showmode(); } // Separator line of dragwin is dragged "offset" lines right (negative is left). void win_drag_vsep_line(win_T *dragwin, int offset) { frame_T *fr = dragwin->w_frame; if (fr == topframe) { // only one window (cannot happen?) return; } frame_T *curfr = fr; fr = fr->fr_parent; // When the parent frame is not a row of frames, its parent should be. if (fr->fr_layout != FR_ROW) { if (fr == topframe) { // only a column of windows (cannot happen?) return; } curfr = fr; fr = fr->fr_parent; } // If this is the last frame in a row, may want to resize a parent // frame instead. while (curfr->fr_next == NULL) { if (fr == topframe) { break; } curfr = fr; fr = fr->fr_parent; if (fr != topframe) { curfr = fr; fr = fr->fr_parent; } } int room; const bool left = offset < 0; // if true, drag separator line left, otherwise right if (left) { // drag left offset = -offset; // sum up the room of the current frame and left of it room = 0; for (fr = fr->fr_child;; fr = fr->fr_next) { room += fr->fr_width - frame_minwidth(fr, NULL); if (fr == curfr) { break; } } fr = curfr->fr_next; // put fr at frame that grows } else { // drag right // sum up the room of frames right of the current one room = 0; FOR_ALL_FRAMES(fr, curfr->fr_next) { room += fr->fr_width - frame_minwidth(fr, NULL); } fr = curfr; // put fr at window that grows } // Not enough room if (room < offset) { offset = room; // Move as far as we can } // No room at all, quit. if (offset <= 0) { return; } if (fr == NULL) { // This can happen when calling win_move_separator() on the rightmost // window. Just don't do anything. return; } // grow frame fr by offset lines frame_new_width(fr, fr->fr_width + offset, left, false); // shrink other frames: current and at the left or at the right if (left) { fr = curfr; // current frame gets smaller } else { fr = curfr->fr_next; // next frame gets smaller } while (fr != NULL && offset > 0) { int n = frame_minwidth(fr, NULL); if (fr->fr_width - offset <= n) { offset -= fr->fr_width - n; frame_new_width(fr, n, !left, false); } else { frame_new_width(fr, fr->fr_width - offset, !left, false); break; } if (left) { fr = fr->fr_prev; } else { fr = fr->fr_next; } } (void)win_comp_pos(); redraw_all_later(UPD_NOT_VALID); } #define FRACTION_MULT 16384 // Set wp->w_fraction for the current w_wrow and w_height. // Has no effect when the window is less than two lines. void set_fraction(win_T *wp) { if (wp->w_height_inner > 1) { // When cursor is in the first line the percentage is computed as if // it's halfway that line. Thus with two lines it is 25%, with three // lines 17%, etc. Similarly for the last line: 75%, 83%, etc. wp->w_fraction = (wp->w_wrow * FRACTION_MULT + FRACTION_MULT / 2) / wp->w_height_inner; } } /// Handle scroll position, depending on 'splitkeep'. Replaces the /// scroll_to_fraction() call from win_new_height() if 'splitkeep' is "screen" /// or "topline". Instead we iterate over all windows in a tabpage and /// calculate the new scroll position. /// TODO(vim): Ensure this also works with wrapped lines. /// Requires a not fully visible cursor line to be allowed at the bottom of /// a window("zb"), probably only when 'smoothscroll' is also set. void win_fix_scroll(int resize) { if (*p_spk == 'c') { return; // 'splitkeep' is "cursor" } skip_update_topline = true; FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { // Skip when window height has not changed or when floating. if (!wp->w_floating && wp->w_height != wp->w_prev_height) { // Cursor position in this window may now be invalid. It is kept // potentially invalid until the window is made the current window. wp->w_do_win_fix_cursor = true; // If window has moved update botline to keep the same screenlines. if (*p_spk == 's' && wp->w_winrow != wp->w_prev_winrow && wp->w_botline - 1 <= wp->w_buffer->b_ml.ml_line_count) { int diff = (wp->w_winrow - wp->w_prev_winrow) + (wp->w_height - wp->w_prev_height); linenr_T lnum = wp->w_cursor.lnum; wp->w_cursor.lnum = wp->w_botline - 1; // Add difference in height and row to botline. if (diff > 0) { cursor_down_inner(wp, diff); } else { cursor_up_inner(wp, -diff); } // Scroll to put the new cursor position at the bottom of the // screen. wp->w_fraction = FRACTION_MULT; scroll_to_fraction(wp, wp->w_prev_height); wp->w_cursor.lnum = lnum; } else if (wp == curwin) { wp->w_valid &= ~VALID_CROW; } invalidate_botline(wp); validate_botline(wp); } wp->w_prev_height = wp->w_height; wp->w_prev_winrow = wp->w_winrow; } skip_update_topline = false; // Ensure cursor is valid when not in normal mode or when resized. if (!(get_real_state() & (MODE_NORMAL|MODE_CMDLINE|MODE_TERMINAL))) { win_fix_cursor(false); } else if (resize) { win_fix_cursor(true); } } /// Make sure the cursor position is valid for 'splitkeep'. /// If it is not, put the cursor position in the jumplist and move it. /// If we are not in normal mode ("normal" is false), make it valid by scrolling /// instead. static void win_fix_cursor(bool normal) { win_T *wp = curwin; if (skip_win_fix_cursor || !wp->w_do_win_fix_cursor || wp->w_buffer->b_ml.ml_line_count < wp->w_height_inner) { return; } wp->w_do_win_fix_cursor = false; // Determine valid cursor range. int so = MIN(wp->w_height_inner / 2, get_scrolloff_value(wp)); linenr_T lnum = wp->w_cursor.lnum; wp->w_cursor.lnum = wp->w_topline; cursor_down_inner(wp, so); linenr_T top = wp->w_cursor.lnum; wp->w_cursor.lnum = wp->w_botline - 1; cursor_up_inner(wp, so); linenr_T bot = wp->w_cursor.lnum; wp->w_cursor.lnum = lnum; // Check if cursor position is above or below valid cursor range. linenr_T nlnum = 0; if (lnum > bot && (wp->w_botline - wp->w_buffer->b_ml.ml_line_count) != 1) { nlnum = bot; } else if (lnum < top && wp->w_topline != 1) { nlnum = (so == wp->w_height_inner / 2) ? bot : top; } if (nlnum != 0) { // Cursor is invalid for current scroll position. if (normal) { // Save to jumplist and set cursor to avoid scrolling. setmark('\''); wp->w_cursor.lnum = nlnum; } else { // Scroll instead when not in normal mode. wp->w_fraction = (nlnum == bot) ? FRACTION_MULT : 0; scroll_to_fraction(wp, wp->w_prev_height); validate_botline(curwin); } } } // Set the height of a window. // "height" excludes any window toolbar. // This takes care of the things inside the window, not what happens to the // window position, the frame or to other windows. void win_new_height(win_T *wp, int height) { // Don't want a negative height. Happens when splitting a tiny window. // Will equalize heights soon to fix it. if (height < 0) { height = 0; } if (wp->w_height == height) { return; // nothing to do } wp->w_height = height; wp->w_pos_changed = true; win_set_inner_size(wp, true); } void scroll_to_fraction(win_T *wp, int prev_height) { int height = wp->w_height_inner; // Don't change w_topline in any of these cases: // - window height is 0 // - 'scrollbind' is set and this isn't the current window // - window height is sufficient to display the whole buffer and first line // is visible. if (height > 0 && (!wp->w_p_scb || wp == curwin) && (height < wp->w_buffer->b_ml.ml_line_count || wp->w_topline > 1)) { // Find a value for w_topline that shows the cursor at the same // relative position in the window as before (more or less). linenr_T lnum = wp->w_cursor.lnum; if (lnum < 1) { // can happen when starting up lnum = 1; } wp->w_wrow = (wp->w_fraction * height - 1) / FRACTION_MULT; int line_size = plines_win_col(wp, lnum, wp->w_cursor.col) - 1; int sline = wp->w_wrow - line_size; if (sline >= 0) { // Make sure the whole cursor line is visible, if possible. const int rows = plines_win(wp, lnum, false); if (sline > wp->w_height_inner - rows) { sline = wp->w_height_inner - rows; wp->w_wrow -= rows - line_size; } } if (sline < 0) { // Cursor line would go off top of screen if w_wrow was this high. // Make cursor line the first line in the window. If not enough // room use w_skipcol; wp->w_wrow = line_size; if (wp->w_wrow >= wp->w_height_inner && (wp->w_width_inner - win_col_off(wp)) > 0) { wp->w_skipcol += wp->w_width_inner - win_col_off(wp); wp->w_wrow--; while (wp->w_wrow >= wp->w_height_inner) { wp->w_skipcol += wp->w_width_inner - win_col_off(wp) + win_col_off2(wp); wp->w_wrow--; } } } else if (sline > 0) { while (sline > 0 && lnum > 1) { (void)hasFoldingWin(wp, lnum, &lnum, NULL, true, NULL); if (lnum == 1) { // first line in buffer is folded line_size = 1; sline--; break; } lnum--; if (lnum == wp->w_topline) { line_size = plines_win_nofill(wp, lnum, true) + wp->w_topfill; } else { line_size = plines_win(wp, lnum, true); } sline -= line_size; } if (sline < 0) { // Line we want at top would go off top of screen. Use next // line instead. (void)hasFoldingWin(wp, lnum, NULL, &lnum, true, NULL); lnum++; wp->w_wrow -= line_size + sline; } else if (sline > 0) { // First line of file reached, use that as topline. lnum = 1; wp->w_wrow -= sline; } } set_topline(wp, lnum); } if (wp == curwin) { curs_columns(wp, false); // validate w_wrow } if (prev_height > 0) { wp->w_prev_fraction_row = wp->w_wrow; } redraw_later(wp, UPD_SOME_VALID); invalidate_botline(wp); } void win_set_inner_size(win_T *wp, bool valid_cursor) { int width = wp->w_width_request; if (width == 0) { width = wp->w_width; } int prev_height = wp->w_height_inner; int height = wp->w_height_request; if (height == 0) { height = wp->w_height - wp->w_winbar_height; } if (height != prev_height) { if (height > 0 && valid_cursor) { if (wp == curwin && *p_spk == 'c') { // w_wrow needs to be valid. When setting 'laststatus' this may // call win_new_height() recursively. validate_cursor(); } if (wp->w_height_inner != prev_height) { return; // Recursive call already changed the size, bail out. } if (wp->w_wrow != wp->w_prev_fraction_row) { set_fraction(wp); } } wp->w_height_inner = height; win_comp_scroll(wp); // There is no point in adjusting the scroll position when exiting. Some // values might be invalid. if (valid_cursor && !exiting && *p_spk == 'c') { wp->w_skipcol = 0; scroll_to_fraction(wp, prev_height); } redraw_later(wp, UPD_SOME_VALID); } if (width != wp->w_width_inner) { wp->w_width_inner = width; wp->w_lines_valid = 0; if (valid_cursor) { changed_line_abv_curs_win(wp); invalidate_botline(wp); if (wp == curwin && *p_spk == 'c') { curs_columns(wp, true); // validate w_wrow } } redraw_later(wp, UPD_NOT_VALID); } if (wp->w_buffer->terminal) { terminal_check_size(wp->w_buffer->terminal); } wp->w_height_outer = (wp->w_height_inner + win_border_height(wp) + wp->w_winbar_height); wp->w_width_outer = (wp->w_width_inner + win_border_width(wp)); wp->w_winrow_off = wp->w_border_adj[0] + wp->w_winbar_height; wp->w_wincol_off = wp->w_border_adj[3]; wp->w_redr_status = true; } /// Set the width of a window. void win_new_width(win_T *wp, int width) { // Should we give an error if width < 0? wp->w_width = width < 0 ? 0 : width; wp->w_pos_changed = true; win_set_inner_size(wp, true); } void win_comp_scroll(win_T *wp) { const OptInt old_w_p_scr = wp->w_p_scr; wp->w_p_scr = wp->w_height_inner / 2; if (wp->w_p_scr == 0) { wp->w_p_scr = 1; } if (wp->w_p_scr != old_w_p_scr) { // Used by "verbose set scroll". wp->w_p_script_ctx[WV_SCROLL].script_ctx.sc_sid = SID_WINLAYOUT; wp->w_p_script_ctx[WV_SCROLL].script_ctx.sc_lnum = 0; } } /// command_height: called whenever p_ch has been changed. void command_height(void) { int old_p_ch = (int)curtab->tp_ch_used; // Use the value of p_ch that we remembered. This is needed for when the // GUI starts up, we can't be sure in what order things happen. And when // p_ch was changed in another tab page. curtab->tp_ch_used = p_ch; // Update cmdline_row to what it should be: just below the last window. cmdline_row = topframe->fr_height + tabline_height() + global_stl_height(); // If cmdline_row is smaller than what it is supposed to be for 'cmdheight' // then set old_p_ch to what it would be, so that the windows get resized // properly for the new value. if (cmdline_row < Rows - p_ch) { old_p_ch = Rows - cmdline_row; } // Find bottom frame with width of screen. frame_T *frp = lastwin_nofloating()->w_frame; while (frp->fr_width != Columns && frp->fr_parent != NULL) { frp = frp->fr_parent; } // Avoid changing the height of a window with 'winfixheight' set. while (frp->fr_prev != NULL && frp->fr_layout == FR_LEAF && frp->fr_win->w_p_wfh) { frp = frp->fr_prev; } if (starting != NO_SCREEN) { cmdline_row = Rows - (int)p_ch; if (p_ch > old_p_ch) { // p_ch got bigger while (p_ch > old_p_ch) { if (frp == NULL) { emsg(_(e_noroom)); p_ch = old_p_ch; curtab->tp_ch_used = p_ch; cmdline_row = Rows - (int)p_ch; break; } int h = frp->fr_height - frame_minheight(frp, NULL); if (h > p_ch - old_p_ch) { h = (int)p_ch - old_p_ch; } old_p_ch += h; frame_add_height(frp, -h); frp = frp->fr_prev; } // Recompute window positions. (void)win_comp_pos(); // clear the lines added to cmdline if (full_screen) { grid_fill(&default_grid, cmdline_row, Rows, 0, Columns, ' ', ' ', 0); } msg_row = cmdline_row; redraw_cmdline = true; return; } if (msg_row < cmdline_row) { msg_row = cmdline_row; } redraw_cmdline = true; } frame_add_height(frp, (int)(old_p_ch - p_ch)); // Recompute window positions. if (frp != lastwin->w_frame) { (void)win_comp_pos(); } } // Resize frame "frp" to be "n" lines higher (negative for less high). // Also resize the frames it is contained in. static void frame_add_height(frame_T *frp, int n) { frame_new_height(frp, frp->fr_height + n, false, false); while (true) { frp = frp->fr_parent; if (frp == NULL) { break; } frp->fr_height += n; } } // Get the file name at the cursor. // If Visual mode is active, use the selected text if it's in one line. // Returns the name in allocated memory, NULL for failure. char *grab_file_name(int count, linenr_T *file_lnum) { int options = FNAME_MESS | FNAME_EXP | FNAME_REL | FNAME_UNESC; if (VIsual_active) { size_t len; char *ptr; if (get_visual_text(NULL, &ptr, &len) == FAIL) { return NULL; } // Only recognize ":123" here if (file_lnum != NULL && ptr[len] == ':' && isdigit((uint8_t)ptr[len + 1])) { char *p = ptr + len + 1; *file_lnum = getdigits_int32(&p, false, 0); } return find_file_name_in_path(ptr, len, options, count, curbuf->b_ffname); } return file_name_at_cursor(options | FNAME_HYP, count, file_lnum); } // Return the file name under or after the cursor. // // The 'path' option is searched if the file name is not absolute. // The string returned has been alloc'ed and should be freed by the caller. // NULL is returned if the file name or file is not found. // // options: // FNAME_MESS give error messages // FNAME_EXP expand to path // FNAME_HYP check for hypertext link // FNAME_INCL apply "includeexpr" char *file_name_at_cursor(int options, int count, linenr_T *file_lnum) { return file_name_in_line(get_cursor_line_ptr(), curwin->w_cursor.col, options, count, curbuf->b_ffname, file_lnum); } /// @param rel_fname file we are searching relative to /// @param file_lnum line number after the file name /// /// @return the name of the file under or after ptr[col]. Otherwise like file_name_at_cursor(). char *file_name_in_line(char *line, int col, int options, int count, char *rel_fname, linenr_T *file_lnum) { // search forward for what could be the start of a file name char *ptr = line + col; while (*ptr != NUL && !vim_isfilec((uint8_t)(*ptr))) { MB_PTR_ADV(ptr); } if (*ptr == NUL) { // nothing found if (options & FNAME_MESS) { emsg(_("E446: No file name under cursor")); } return NULL; } size_t len; bool in_type = true; bool is_url = false; // Search backward for first char of the file name. // Go one char back to ":" before "//", or to the drive letter before ":\" (even if ":" // is not in 'isfname'). while (ptr > line) { if ((len = (size_t)(utf_head_off(line, ptr - 1))) > 0) { ptr -= len + 1; } else if (vim_isfilec((uint8_t)ptr[-1]) || ((options & FNAME_HYP) && path_is_url(ptr - 1))) { ptr--; } else { break; } } // Search forward for the last char of the file name. // Also allow ":/" when ':' is not in 'isfname'. len = path_has_drive_letter(ptr) ? 2 : 0; while (vim_isfilec((uint8_t)ptr[len]) || (ptr[len] == '\\' && ptr[len + 1] == ' ') || ((options & FNAME_HYP) && path_is_url(ptr + len)) || (is_url && vim_strchr(":?&=", (uint8_t)ptr[len]) != NULL)) { // After type:// we also include :, ?, & and = as valid characters, so that // http://google.com:8080?q=this&that=ok works. if ((ptr[len] >= 'A' && ptr[len] <= 'Z') || (ptr[len] >= 'a' && ptr[len] <= 'z')) { if (in_type && path_is_url(ptr + len + 1)) { is_url = true; } } else { in_type = false; } if (ptr[len] == '\\' && ptr[len + 1] == ' ') { // Skip over the "\" in "\ ". len++; } len += (size_t)(utfc_ptr2len(ptr + len)); } // If there is trailing punctuation, remove it. // But don't remove "..", could be a directory name. if (len > 2 && vim_strchr(".,:;!", (uint8_t)ptr[len - 1]) != NULL && ptr[len - 2] != '.') { len--; } if (file_lnum != NULL) { const char *line_english = " line "; const char *line_transl = _(line_msg); // Get the number after the file name and a separator character. // Also accept " line 999" with and without the same translation as // used in last_set_msg(). char *p = ptr + len; if (strncmp(p, line_english, strlen(line_english)) == 0) { p += strlen(line_english); } else if (strncmp(p, line_transl, strlen(line_transl)) == 0) { p += strlen(line_transl); } else { p = skipwhite(p); } if (*p != NUL) { if (!isdigit((uint8_t)(*p))) { p++; // skip the separator } p = skipwhite(p); if (isdigit((uint8_t)(*p))) { *file_lnum = (linenr_T)getdigits_long(&p, false, 0); } } } return find_file_name_in_path(ptr, len, options, count, rel_fname); } /// Add or remove a status line from window(s), according to the /// value of 'laststatus'. /// /// @param morewin pretend there are two or more windows if true. void last_status(bool morewin) { // Don't make a difference between horizontal or vertical split. last_status_rec(topframe, last_stl_height(morewin) > 0, global_stl_height() > 0); } // Remove status line from window, replacing it with a horizontal separator if needed. static void win_remove_status_line(win_T *wp, bool add_hsep) { wp->w_status_height = 0; if (add_hsep) { wp->w_hsep_height = 1; } else { win_new_height(wp, wp->w_height + STATUS_HEIGHT); } comp_col(); stl_clear_click_defs(wp->w_status_click_defs, wp->w_status_click_defs_size); xfree(wp->w_status_click_defs); wp->w_status_click_defs_size = 0; wp->w_status_click_defs = NULL; } // Look for a horizontally resizable frame, starting with frame "fr". // Returns NULL if there are no resizable frames. static frame_T *find_horizontally_resizable_frame(frame_T *fr) { frame_T *fp = fr; while (fp->fr_height <= frame_minheight(fp, NULL)) { if (fp == topframe) { return NULL; } // In a column of frames: go to frame above. If already at // the top or in a row of frames: go to parent. if (fp->fr_parent->fr_layout == FR_COL && fp->fr_prev != NULL) { fp = fp->fr_prev; } else { fp = fp->fr_parent; } } return fp; } // Look for resizable frames and take lines from them to make room for the statusline. // @return Success or failure. static bool resize_frame_for_status(frame_T *fr) { win_T *wp = fr->fr_win; frame_T *fp = find_horizontally_resizable_frame(fr); if (fp == NULL) { emsg(_(e_noroom)); return false; } else if (fp != fr) { frame_new_height(fp, fp->fr_height - 1, false, false); frame_fix_height(wp); (void)win_comp_pos(); } else { win_new_height(wp, wp->w_height - 1); } return true; } // Look for resizable frames and take lines from them to make room for the winbar. // @return Success or failure. static bool resize_frame_for_winbar(frame_T *fr) { win_T *wp = fr->fr_win; frame_T *fp = find_horizontally_resizable_frame(fr); if (fp == NULL || fp == fr) { emsg(_(e_noroom)); return false; } frame_new_height(fp, fp->fr_height - 1, false, false); win_new_height(wp, wp->w_height + 1); frame_fix_height(wp); (void)win_comp_pos(); return true; } static void last_status_rec(frame_T *fr, bool statusline, bool is_stl_global) { if (fr->fr_layout == FR_LEAF) { win_T *wp = fr->fr_win; bool is_last = is_bottom_win(wp); if (is_last) { if (wp->w_status_height != 0 && (!statusline || is_stl_global)) { win_remove_status_line(wp, false); } else if (wp->w_status_height == 0 && !is_stl_global && statusline) { // Add statusline to window if needed wp->w_status_height = STATUS_HEIGHT; if (!resize_frame_for_status(fr)) { return; } comp_col(); } // Set prev_height when difference is due to 'laststatus'. if (abs(wp->w_height - wp->w_prev_height) == 1) { wp->w_prev_height = wp->w_height; } } else if (wp->w_status_height != 0 && is_stl_global) { // If statusline is global and the window has a statusline, replace it with a horizontal // separator win_remove_status_line(wp, true); } else if (wp->w_status_height == 0 && !is_stl_global) { // If statusline isn't global and the window doesn't have a statusline, re-add it wp->w_status_height = STATUS_HEIGHT; wp->w_hsep_height = 0; comp_col(); } } else { // For a column or row frame, recursively call this function for all child frames frame_T *fp; FOR_ALL_FRAMES(fp, fr->fr_child) { last_status_rec(fp, statusline, is_stl_global); } } } /// Add or remove window bar from window "wp". /// /// @param make_room Whether to resize frames to make room for winbar. /// @param valid_cursor Whether the cursor is valid and should be used while /// resizing. /// /// @return Success status. int set_winbar_win(win_T *wp, bool make_room, bool valid_cursor) { // Require the local value to be set in order to show winbar on a floating window. int winbar_height = wp->w_floating ? ((*wp->w_p_wbr != NUL) ? 1 : 0) : ((*p_wbr != NUL || *wp->w_p_wbr != NUL) ? 1 : 0); if (wp->w_winbar_height != winbar_height) { if (winbar_height == 1 && wp->w_height_inner <= 1) { if (wp->w_floating) { emsg(_(e_noroom)); return NOTDONE; } else if (!make_room || !resize_frame_for_winbar(wp->w_frame)) { return FAIL; } } wp->w_winbar_height = winbar_height; win_set_inner_size(wp, valid_cursor); if (winbar_height == 0) { // When removing winbar, deallocate the w_winbar_click_defs array stl_clear_click_defs(wp->w_winbar_click_defs, wp->w_winbar_click_defs_size); xfree(wp->w_winbar_click_defs); wp->w_winbar_click_defs_size = 0; wp->w_winbar_click_defs = NULL; } } return OK; } /// Add or remove window bars from all windows in tab depending on the value of 'winbar'. /// /// @param make_room Whether to resize frames to make room for winbar. void set_winbar(bool make_room) { FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (set_winbar_win(wp, make_room, true) == FAIL) { break; } } } /// Return the number of lines used by the tab page line. int tabline_height(void) { if (ui_has(kUITabline)) { return 0; } assert(first_tabpage); switch (p_stal) { case 0: return 0; case 1: return (first_tabpage->tp_next == NULL) ? 0 : 1; } return 1; } /// Return the number of lines used by default by the window bar. int global_winbar_height(void) { return *p_wbr != NUL ? 1 : 0; } /// Return the number of lines used by the global statusline int global_stl_height(void) { return (p_ls == 3) ? STATUS_HEIGHT : 0; } /// Return the height of the last window's statusline, or the global statusline if set. /// /// @param morewin pretend there are two or more windows if true. int last_stl_height(bool morewin) { return (p_ls > 1 || (p_ls == 1 && (morewin || !one_nonfloat()))) ? STATUS_HEIGHT : 0; } /// Return the minimal number of rows that is needed on the screen to display /// the current number of windows. int min_rows(void) { if (firstwin == NULL) { // not initialized yet return MIN_LINES; } int total = 0; FOR_ALL_TABS(tp) { int n = frame_minheight(tp->tp_topframe, NULL); if (total < n) { total = n; } } total += tabline_height() + global_stl_height(); if (p_ch > 0) { total += 1; // count the room for the command line } return total; } /// Check that there is only one window (and only one tab page), not counting a /// help or preview window, unless it is the current window. Does not count /// "aucmd_win". Does not count floats unless it is current. bool only_one_window(void) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT { // If there is another tab page there always is another window. if (first_tabpage->tp_next != NULL) { return false; } int count = 0; FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_buffer != NULL && (!((bt_help(wp->w_buffer) && !bt_help(curbuf)) || wp->w_floating || wp->w_p_pvw) || wp == curwin) && !is_aucmd_win(wp)) { count++; } } return count <= 1; } /// Implementation of check_lnums() and check_lnums_nested(). static void check_lnums_both(bool do_curwin, bool nested) { FOR_ALL_TAB_WINDOWS(tp, wp) { if ((do_curwin || wp != curwin) && wp->w_buffer == curbuf) { if (!nested) { // save the original cursor position and topline wp->w_save_cursor.w_cursor_save = wp->w_cursor; wp->w_save_cursor.w_topline_save = wp->w_topline; } bool need_adjust = wp->w_cursor.lnum > curbuf->b_ml.ml_line_count; if (need_adjust) { wp->w_cursor.lnum = curbuf->b_ml.ml_line_count; } if (need_adjust || !nested) { // save the (corrected) cursor position wp->w_save_cursor.w_cursor_corr = wp->w_cursor; } need_adjust = wp->w_topline > curbuf->b_ml.ml_line_count; if (need_adjust) { wp->w_topline = curbuf->b_ml.ml_line_count; } if (need_adjust || !nested) { // save the (corrected) topline wp->w_save_cursor.w_topline_corr = wp->w_topline; } } } } /// Correct the cursor line number in other windows. Used after changing the /// current buffer, and before applying autocommands. /// /// @param do_curwin when true, also check current window. void check_lnums(bool do_curwin) { check_lnums_both(do_curwin, false); } /// Like check_lnums() but for when check_lnums() was already called. void check_lnums_nested(bool do_curwin) { check_lnums_both(do_curwin, true); } /// Reset cursor and topline to its stored values from check_lnums(). /// check_lnums() must have been called first! void reset_lnums(void) { FOR_ALL_TAB_WINDOWS(tp, wp) { if (wp->w_buffer == curbuf) { // Restore the value if the autocommand didn't change it and it was set. // Note: This triggers e.g. on BufReadPre, when the buffer is not yet // loaded, so cannot validate the buffer line if (equalpos(wp->w_save_cursor.w_cursor_corr, wp->w_cursor) && wp->w_save_cursor.w_cursor_save.lnum != 0) { wp->w_cursor = wp->w_save_cursor.w_cursor_save; } if (wp->w_save_cursor.w_topline_corr == wp->w_topline && wp->w_save_cursor.w_topline_save != 0) { wp->w_topline = wp->w_save_cursor.w_topline_save; } if (wp->w_save_cursor.w_topline_save > wp->w_buffer->b_ml.ml_line_count) { wp->w_valid &= ~VALID_TOPLINE; } } } } // A snapshot of the window sizes, to restore them after closing the help // window. // Only these fields are used: // fr_layout // fr_width // fr_height // fr_next // fr_child // fr_win (only valid for the old curwin, NULL otherwise) // Create a snapshot of the current frame sizes. void make_snapshot(int idx) { clear_snapshot(curtab, idx); make_snapshot_rec(topframe, &curtab->tp_snapshot[idx]); } static void make_snapshot_rec(frame_T *fr, frame_T **frp) { *frp = xcalloc(1, sizeof(frame_T)); (*frp)->fr_layout = fr->fr_layout; (*frp)->fr_width = fr->fr_width; (*frp)->fr_height = fr->fr_height; if (fr->fr_next != NULL) { make_snapshot_rec(fr->fr_next, &((*frp)->fr_next)); } if (fr->fr_child != NULL) { make_snapshot_rec(fr->fr_child, &((*frp)->fr_child)); } if (fr->fr_layout == FR_LEAF && fr->fr_win == curwin) { (*frp)->fr_win = curwin; } } // Remove any existing snapshot. static void clear_snapshot(tabpage_T *tp, int idx) { clear_snapshot_rec(tp->tp_snapshot[idx]); tp->tp_snapshot[idx] = NULL; } static void clear_snapshot_rec(frame_T *fr) { if (fr == NULL) { return; } clear_snapshot_rec(fr->fr_next); clear_snapshot_rec(fr->fr_child); xfree(fr); } /// Traverse a snapshot to find the previous curwin. static win_T *get_snapshot_curwin_rec(frame_T *ft) { win_T *wp; if (ft->fr_next != NULL) { if ((wp = get_snapshot_curwin_rec(ft->fr_next)) != NULL) { return wp; } } if (ft->fr_child != NULL) { if ((wp = get_snapshot_curwin_rec(ft->fr_child)) != NULL) { return wp; } } return ft->fr_win; } /// @return the current window stored in the snapshot or NULL. static win_T *get_snapshot_curwin(int idx) { if (curtab->tp_snapshot[idx] == NULL) { return NULL; } return get_snapshot_curwin_rec(curtab->tp_snapshot[idx]); } /// Restore a previously created snapshot, if there is any. /// This is only done if the screen size didn't change and the window layout is /// still the same. /// /// @param close_curwin closing current window void restore_snapshot(int idx, int close_curwin) { if (curtab->tp_snapshot[idx] != NULL && curtab->tp_snapshot[idx]->fr_width == topframe->fr_width && curtab->tp_snapshot[idx]->fr_height == topframe->fr_height && check_snapshot_rec(curtab->tp_snapshot[idx], topframe) == OK) { win_T *wp = restore_snapshot_rec(curtab->tp_snapshot[idx], topframe); (void)win_comp_pos(); if (wp != NULL && close_curwin) { win_goto(wp); } redraw_all_later(UPD_NOT_VALID); } clear_snapshot(curtab, idx); } /// Check if frames "sn" and "fr" have the same layout, same following frames /// and same children. And the window pointer is valid. static int check_snapshot_rec(frame_T *sn, frame_T *fr) { if (sn->fr_layout != fr->fr_layout || (sn->fr_next == NULL) != (fr->fr_next == NULL) || (sn->fr_child == NULL) != (fr->fr_child == NULL) || (sn->fr_next != NULL && check_snapshot_rec(sn->fr_next, fr->fr_next) == FAIL) || (sn->fr_child != NULL && check_snapshot_rec(sn->fr_child, fr->fr_child) == FAIL) || (sn->fr_win != NULL && !win_valid(sn->fr_win))) { return FAIL; } return OK; } // Copy the size of snapshot frame "sn" to frame "fr". Do the same for all // following frames and children. // Returns a pointer to the old current window, or NULL. static win_T *restore_snapshot_rec(frame_T *sn, frame_T *fr) { win_T *wp = NULL; fr->fr_height = sn->fr_height; fr->fr_width = sn->fr_width; if (fr->fr_layout == FR_LEAF) { frame_new_height(fr, fr->fr_height, false, false); frame_new_width(fr, fr->fr_width, false, false); wp = sn->fr_win; } if (sn->fr_next != NULL) { win_T *wp2 = restore_snapshot_rec(sn->fr_next, fr->fr_next); if (wp2 != NULL) { wp = wp2; } } if (sn->fr_child != NULL) { win_T *wp2 = restore_snapshot_rec(sn->fr_child, fr->fr_child); if (wp2 != NULL) { wp = wp2; } } return wp; } /// Check that "topfrp" and its children are at the right height. /// /// @param topfrp top frame pointer /// @param height expected height static bool frame_check_height(const frame_T *topfrp, int height) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT FUNC_ATTR_NONNULL_ALL { if (topfrp->fr_height != height) { return false; } if (topfrp->fr_layout == FR_ROW) { const frame_T *frp; FOR_ALL_FRAMES(frp, topfrp->fr_child) { if (frp->fr_height != height) { return false; } } } return true; } /// Check that "topfrp" and its children are at the right width. /// /// @param topfrp top frame pointer /// @param width expected width static bool frame_check_width(const frame_T *topfrp, int width) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT FUNC_ATTR_NONNULL_ALL { if (topfrp->fr_width != width) { return false; } if (topfrp->fr_layout == FR_COL) { const frame_T *frp; FOR_ALL_FRAMES(frp, topfrp->fr_child) { if (frp->fr_width != width) { return false; } } } return true; } /// Simple int comparison function for use with qsort() static int int_cmp(const void *a, const void *b) { return *(const int *)a - *(const int *)b; } /// Handle setting 'colorcolumn' or 'textwidth' in window "wp". /// /// @return error message, NULL if it's OK. const char *check_colorcolumn(win_T *wp) { if (wp->w_buffer == NULL) { return NULL; // buffer was closed } unsigned count = 0; int color_cols[256]; for (char *s = wp->w_p_cc; *s != NUL && count < 255;) { int col; if (*s == '-' || *s == '+') { // -N and +N: add to 'textwidth' col = (*s == '-') ? -1 : 1; s++; if (!ascii_isdigit(*s)) { return e_invarg; } col = col * getdigits_int(&s, true, 0); if (wp->w_buffer->b_p_tw == 0) { goto skip; // 'textwidth' not set, skip this item } assert((col >= 0 && wp->w_buffer->b_p_tw <= INT_MAX - col && wp->w_buffer->b_p_tw + col >= INT_MIN) || (col < 0 && wp->w_buffer->b_p_tw >= INT_MIN - col && wp->w_buffer->b_p_tw + col <= INT_MAX)); col += (int)wp->w_buffer->b_p_tw; if (col < 0) { goto skip; } } else if (ascii_isdigit(*s)) { col = getdigits_int(&s, true, 0); } else { return e_invarg; } color_cols[count++] = col - 1; // 1-based to 0-based skip: if (*s == NUL) { break; } if (*s != ',') { return e_invarg; } if (*++s == NUL) { return e_invarg; // illegal trailing comma as in "set cc=80," } } xfree(wp->w_p_cc_cols); if (count == 0) { wp->w_p_cc_cols = NULL; } else { wp->w_p_cc_cols = xmalloc(sizeof(int) * (count + 1)); // sort the columns for faster usage on screen redraw inside // win_line() qsort(color_cols, count, sizeof(int), int_cmp); int j = 0; for (unsigned i = 0; i < count; i++) { // skip duplicates if (j == 0 || wp->w_p_cc_cols[j - 1] != color_cols[i]) { wp->w_p_cc_cols[j++] = color_cols[i]; } } wp->w_p_cc_cols[j] = -1; // end marker } return NULL; // no error } void win_get_tabwin(handle_T id, int *tabnr, int *winnr) { *tabnr = 0; *winnr = 0; int tnum = 1, wnum = 1; FOR_ALL_TABS(tp) { FOR_ALL_WINDOWS_IN_TAB(wp, tp) { if (wp->handle == id) { *winnr = wnum; *tabnr = tnum; return; } wnum++; } tnum++; wnum = 1; } } void win_ui_flush(bool validate) { FOR_ALL_TAB_WINDOWS(tp, wp) { if (wp->w_pos_changed && wp->w_grid_alloc.chars != NULL) { if (tp == curtab) { ui_ext_win_position(wp, validate); } else { ui_call_win_hide(wp->w_grid_alloc.handle); wp->w_pos_changed = false; } } if (tp == curtab) { ui_ext_win_viewport(wp); } } } win_T *lastwin_nofloating(void) { win_T *res = lastwin; while (res->w_floating) { res = res->w_prev; } return res; }