// This is an open source non-commercial project. Dear PVS-Studio, please check // it. PVS-Studio Static Code Analyzer for C, C++ and C#: http://www.viva64.com // drawscreen.c: Code for updating all the windows on the screen. // This is the top level, drawline.c is the middle and grid.c/screen.c the lower level. // update_screen() is the function that updates all windows and status lines. // It is called from the main loop when must_redraw is non-zero. It may be // called from other places when an immediate screen update is needed. // // The part of the buffer that is displayed in a window is set with: // - w_topline (first buffer line in window) // - w_topfill (filler lines above the first line) // - w_leftcol (leftmost window cell in window), // - w_skipcol (skipped window cells of first line) // // Commands that only move the cursor around in a window, do not need to take // action to update the display. The main loop will check if w_topline is // valid and update it (scroll the window) when needed. // // Commands that scroll a window change w_topline and must call // check_cursor() to move the cursor into the visible part of the window, and // call redraw_later(wp, UPD_VALID) to have the window displayed by update_screen() // later. // // Commands that change text in the buffer must call changed_bytes() or // changed_lines() to mark the area that changed and will require updating // later. The main loop will call update_screen(), which will update each // window that shows the changed buffer. This assumes text above the change // can remain displayed as it is. Text after the change may need updating for // scrolling, folding and syntax highlighting. // // Commands that change how a window is displayed (e.g., setting 'list') or // invalidate the contents of a window in another way (e.g., change fold // settings), must call redraw_later(wp, UPD_NOT_VALID) to have the whole window // redisplayed by update_screen() later. // // Commands that change how a buffer is displayed (e.g., setting 'tabstop') // must call redraw_curbuf_later(UPD_NOT_VALID) to have all the windows for the // buffer redisplayed by update_screen() later. // // Commands that change highlighting and possibly cause a scroll too must call // redraw_later(wp, UPD_SOME_VALID) to update the whole window but still use // scrolling to avoid redrawing everything. But the length of displayed lines // must not change, use UPD_NOT_VALID then. // // Commands that move the window position must call redraw_later(wp, UPD_NOT_VALID). // TODO(neovim): should minimize redrawing by scrolling when possible. // // Commands that change everything (e.g., resizing the screen) must call // redraw_all_later(UPD_NOT_VALID) or redraw_all_later(UPD_CLEAR). // // Things that are handled indirectly: // - When messages scroll the screen up, msg_scrolled will be set and // update_screen() called to redraw. #include #include #include #include #include "klib/kvec.h" #include "nvim/api/private/defs.h" #include "nvim/ascii.h" #include "nvim/autocmd.h" #include "nvim/buffer.h" #include "nvim/charset.h" #include "nvim/cmdexpand.h" #include "nvim/decoration.h" #include "nvim/decoration_provider.h" #include "nvim/diff.h" #include "nvim/drawline.h" #include "nvim/drawscreen.h" #include "nvim/ex_getln.h" #include "nvim/extmark_defs.h" #include "nvim/fold.h" #include "nvim/globals.h" #include "nvim/grid.h" #include "nvim/highlight.h" #include "nvim/highlight_group.h" #include "nvim/insexpand.h" #include "nvim/match.h" #include "nvim/mbyte.h" #include "nvim/memline.h" #include "nvim/message.h" #include "nvim/move.h" #include "nvim/normal.h" #include "nvim/option.h" #include "nvim/plines.h" #include "nvim/popupmenu.h" #include "nvim/pos.h" #include "nvim/profile.h" #include "nvim/regexp.h" #include "nvim/screen.h" #include "nvim/statusline.h" #include "nvim/syntax.h" #include "nvim/terminal.h" #include "nvim/types.h" #include "nvim/ui.h" #include "nvim/ui_compositor.h" #include "nvim/version.h" #include "nvim/vim.h" #include "nvim/window.h" /// corner value flags for hsep_connected and vsep_connected typedef enum { WC_TOP_LEFT = 0, WC_TOP_RIGHT, WC_BOTTOM_LEFT, WC_BOTTOM_RIGHT, } WindowCorner; #ifdef INCLUDE_GENERATED_DECLARATIONS # include "drawscreen.c.generated.h" #endif static bool redraw_popupmenu = false; static bool msg_grid_invalid = false; static bool resizing_autocmd = false; static char *provider_err = NULL; /// Check if the cursor line needs to be redrawn because of 'concealcursor'. /// /// When cursor is moved at the same time, both lines will be redrawn regardless. void conceal_check_cursor_line(void) { bool should_conceal = conceal_cursor_line(curwin); if (curwin->w_p_cole <= 0 || conceal_cursor_used == should_conceal) { return; } redrawWinline(curwin, curwin->w_cursor.lnum); // Need to recompute cursor column, e.g., when starting Visual mode // without concealing. curs_columns(curwin, true); } /// Resize default_grid to Rows and Columns. /// /// Allocate default_grid.chars[] and other grid arrays. /// /// There may be some time between setting Rows and Columns and (re)allocating /// default_grid arrays. This happens when starting up and when /// (manually) changing the screen size. Always use default_grid.rows and /// default_grid.Columns to access items in default_grid.chars[]. Use Rows /// and Columns for positioning text etc. where the final size of the screen is /// needed. /// /// @return whether resizing has been done bool default_grid_alloc(void) { static bool resizing = false; // It's possible that we produce an out-of-memory message below, which // will cause this function to be called again. To break the loop, just // return here. if (resizing) { return false; } resizing = true; // Allocation of the screen buffers is done only when the size changes and // when Rows and Columns have been set and we have started doing full // screen stuff. if ((default_grid.chars != NULL && Rows == default_grid.rows && Columns == default_grid.cols) || Rows == 0 || Columns == 0 || (!full_screen && default_grid.chars == NULL)) { resizing = false; return false; } // We're changing the size of the screen. // - Allocate new arrays for default_grid // - Move lines from the old arrays into the new arrays, clear extra // lines (unless the screen is going to be cleared). // - Free the old arrays. // // If anything fails, make grid arrays NULL, so we don't do anything! // Continuing with the old arrays may result in a crash, because the // size is wrong. grid_alloc(&default_grid, Rows, Columns, true, true); stl_clear_click_defs(tab_page_click_defs, tab_page_click_defs_size); tab_page_click_defs = stl_alloc_click_defs(tab_page_click_defs, Columns, &tab_page_click_defs_size); default_grid.comp_height = Rows; default_grid.comp_width = Columns; default_grid.row_offset = 0; default_grid.col_offset = 0; default_grid.handle = DEFAULT_GRID_HANDLE; resizing = false; return true; } void screenclear(void) { check_for_delay(false); if (starting == NO_SCREEN || default_grid.chars == NULL) { return; } // blank out the default grid for (int i = 0; i < default_grid.rows; i++) { grid_clear_line(&default_grid, default_grid.line_offset[i], default_grid.cols, true); default_grid.line_wraps[i] = false; } ui_call_grid_clear(1); // clear the display ui_comp_set_screen_valid(true); ns_hl_fast = -1; clear_cmdline = false; mode_displayed = false; redraw_all_later(UPD_NOT_VALID); redraw_cmdline = true; redraw_tabline = true; redraw_popupmenu = true; pum_invalidate(); FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_floating) { wp->w_redr_type = UPD_CLEAR; } } if (must_redraw == UPD_CLEAR) { must_redraw = UPD_NOT_VALID; // no need to clear again } compute_cmdrow(); msg_row = cmdline_row; // put cursor on last line for messages msg_col = 0; msg_scrolled = 0; // can't scroll back msg_didany = false; msg_didout = false; if (HL_ATTR(HLF_MSG) > 0 && msg_use_grid() && msg_grid.chars) { grid_invalidate(&msg_grid); msg_grid_validate(); msg_grid_invalid = false; clear_cmdline = true; } } /// Set dimensions of the Nvim application "screen". void screen_resize(int width, int height) { // Avoid recursiveness, can happen when setting the window size causes // another window-changed signal. if (updating_screen || resizing_screen) { return; } if (width < 0 || height < 0) { // just checking... return; } if (State == MODE_HITRETURN || State == MODE_SETWSIZE) { // postpone the resizing State = MODE_SETWSIZE; return; } resizing_screen = true; Rows = height; Columns = width; check_screensize(); int max_p_ch = Rows - min_rows() + 1; if (!ui_has(kUIMessages) && p_ch > 0 && p_ch > max_p_ch) { p_ch = max_p_ch ? max_p_ch : 1; } height = Rows; width = Columns; p_lines = Rows; p_columns = Columns; ui_call_grid_resize(1, width, height); int retry_count = 0; resizing_autocmd = true; // In rare cases, autocommands may have altered Rows or Columns, // so retry to check if we need to allocate the screen again. while (default_grid_alloc()) { // win_new_screensize will recompute floats position, but tell the // compositor to not redraw them yet ui_comp_set_screen_valid(false); if (msg_grid.chars) { msg_grid_invalid = true; } RedrawingDisabled++; win_new_screensize(); // fit the windows in the new sized screen comp_col(); // recompute columns for shown command and ruler RedrawingDisabled--; // Do not apply autocommands more than 3 times to avoid an endless loop // in case applying autocommands always changes Rows or Columns. if (++retry_count > 3) { break; } apply_autocmds(EVENT_VIMRESIZED, NULL, NULL, false, curbuf); } resizing_autocmd = false; redraw_all_later(UPD_CLEAR); if (starting != NO_SCREEN) { maketitle(); changed_line_abv_curs(); invalidate_botline(); // We only redraw when it's needed: // - While at the more prompt or executing an external command, don't // redraw, but position the cursor. // - While editing the command line, only redraw that. TODO: lies // - in Ex mode, don't redraw anything. // - Otherwise, redraw right now, and position the cursor. if (State == MODE_ASKMORE || State == MODE_EXTERNCMD || State == MODE_CONFIRM || exmode_active) { if (msg_grid.chars) { msg_grid_validate(); } // TODO(bfredl): sometimes messes up the output. Implement clear+redraw // also for the pager? (or: what if the pager was just a modal window?) ui_comp_set_screen_valid(true); repeat_message(); } else { if (curwin->w_p_scb) { do_check_scrollbind(true); } if (State & MODE_CMDLINE) { redraw_popupmenu = false; update_screen(); redrawcmdline(); if (pum_drawn()) { cmdline_pum_display(false); } } else { update_topline(curwin); if (pum_drawn()) { // TODO(bfredl): ins_compl_show_pum wants to redraw the screen first. // For now make sure the nested update_screen() won't redraw the // pum at the old position. Try to untangle this later. redraw_popupmenu = false; ins_compl_show_pum(); } update_screen(); if (redrawing()) { setcursor(); } } } ui_flush(); } resizing_screen = false; } /// Redraw the parts of the screen that is marked for redraw. /// /// Most code shouldn't call this directly, rather use redraw_later() and /// and redraw_all_later() to mark parts of the screen as needing a redraw. int update_screen(void) { static bool did_intro = false; bool is_stl_global = global_stl_height() > 0; // Don't do anything if the screen structures are (not yet) valid. // A VimResized autocmd can invoke redrawing in the middle of a resize, // which would bypass the checks in screen_resize for popupmenu etc. if (resizing_autocmd || !default_grid.chars) { return FAIL; } // May have postponed updating diffs. if (need_diff_redraw) { diff_redraw(true); } // Postpone the redrawing when it's not needed and when being called // recursively. if (!redrawing() || updating_screen) { return FAIL; } int type = must_redraw; // must_redraw is reset here, so that when we run into some weird // reason to redraw while busy redrawing (e.g., asynchronous // scrolling), or update_topline() in win_update() will cause a // scroll, or a decoration provider requires a redraw, the screen // will be redrawn later or in win_update(). must_redraw = 0; updating_screen = 1; display_tick++; // let syntax code know we're in a next round of // display updating // Tricky: vim code can reset msg_scrolled behind our back, so need // separate bookkeeping for now. if (msg_did_scroll) { msg_did_scroll = false; msg_scrolled_at_flush = 0; } if (type >= UPD_CLEAR || !default_grid.valid) { ui_comp_set_screen_valid(false); } // if the screen was scrolled up when displaying a message, scroll it down if (msg_scrolled || msg_grid_invalid) { clear_cmdline = true; int valid = MAX(Rows - msg_scrollsize(), 0); if (msg_grid.chars) { // non-displayed part of msg_grid is considered invalid. for (int i = 0; i < MIN(msg_scrollsize(), msg_grid.rows); i++) { grid_clear_line(&msg_grid, msg_grid.line_offset[i], msg_grid.cols, false); } } msg_grid.throttled = false; bool was_invalidated = false; // UPD_CLEAR is already handled if (type == UPD_NOT_VALID && !ui_has(kUIMultigrid) && msg_scrolled) { was_invalidated = ui_comp_set_screen_valid(false); for (int i = valid; i < Rows - p_ch; i++) { grid_clear_line(&default_grid, default_grid.line_offset[i], Columns, false); } FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_floating) { continue; } if (W_ENDROW(wp) > valid) { // TODO(bfredl): too pessimistic. type could be UPD_NOT_VALID // only because windows that are above the separator. wp->w_redr_type = MAX(wp->w_redr_type, UPD_NOT_VALID); } if (!is_stl_global && W_ENDROW(wp) + wp->w_status_height > valid) { wp->w_redr_status = true; } } if (is_stl_global && Rows - p_ch - 1 > valid) { curwin->w_redr_status = true; } } msg_grid_set_pos(Rows - (int)p_ch, false); msg_grid_invalid = false; if (was_invalidated) { // screen was only invalid for the msgarea part. // @TODO(bfredl): using the same "valid" flag // for both messages and floats moving is bit of a mess. ui_comp_set_screen_valid(true); } msg_scrolled = 0; msg_scrolled_at_flush = 0; msg_grid_scroll_discount = 0; need_wait_return = false; } win_ui_flush(true); msg_ext_check_clear(); // reset cmdline_row now (may have been changed temporarily) compute_cmdrow(); bool hl_changed = false; // Check for changed highlighting if (need_highlight_changed) { highlight_changed(); hl_changed = true; } if (type == UPD_CLEAR) { // first clear screen screenclear(); // will reset clear_cmdline // and set UPD_NOT_VALID for each window cmdline_screen_cleared(); // clear external cmdline state type = UPD_NOT_VALID; // must_redraw may be set indirectly, avoid another redraw later must_redraw = 0; } else if (!default_grid.valid) { grid_invalidate(&default_grid); default_grid.valid = true; } // might need to clear space on default_grid for the message area. if (type == UPD_NOT_VALID && clear_cmdline && !ui_has(kUIMessages)) { grid_fill(&default_grid, Rows - (int)p_ch, Rows, 0, Columns, ' ', ' ', 0); } ui_comp_set_screen_valid(true); DecorProviders providers; decor_providers_start(&providers, &provider_err); // "start" callback could have changed highlights for global elements if (win_check_ns_hl(NULL)) { redraw_cmdline = true; redraw_tabline = true; } if (clear_cmdline) { // going to clear cmdline (done below) check_for_delay(false); } // Force redraw when width of 'number' or 'relativenumber' column // changes. // TODO(bfredl): special casing curwin here is SÅ JÄVLA BULL. // Either this should be done for all windows or not at all. if (curwin->w_redr_type < UPD_NOT_VALID && curwin->w_nrwidth != ((curwin->w_p_nu || curwin->w_p_rnu || *curwin->w_p_stc) ? number_width(curwin) : 0)) { curwin->w_redr_type = UPD_NOT_VALID; } // Redraw the tab pages line if needed. if (redraw_tabline || type >= UPD_NOT_VALID) { update_window_hl(curwin, type >= UPD_NOT_VALID); FOR_ALL_TABS(tp) { if (tp != curtab) { update_window_hl(tp->tp_curwin, type >= UPD_NOT_VALID); } } draw_tabline(); } // Correct stored syntax highlighting info for changes in each displayed // buffer. Each buffer must only be done once. FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { update_window_hl(wp, type >= UPD_NOT_VALID || hl_changed); buf_T *buf = wp->w_buffer; if (buf->b_mod_set) { if (buf->b_mod_tick_syn < display_tick && syntax_present(wp)) { syn_stack_apply_changes(buf); buf->b_mod_tick_syn = display_tick; } if (buf->b_mod_tick_decor < display_tick) { decor_providers_invoke_buf(buf, &providers, &provider_err); buf->b_mod_tick_decor = display_tick; } } } // Go from top to bottom through the windows, redrawing the ones that need it. bool did_one = false; screen_search_hl.rm.regprog = NULL; FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_redr_type == UPD_CLEAR && wp->w_floating && wp->w_grid_alloc.chars) { grid_invalidate(&wp->w_grid_alloc); wp->w_redr_type = UPD_NOT_VALID; } win_check_ns_hl(wp); // reallocate grid if needed. win_grid_alloc(wp); if (wp->w_redr_border || wp->w_redr_type >= UPD_NOT_VALID) { win_redr_border(wp); } if (wp->w_redr_type != 0) { if (!did_one) { did_one = true; start_search_hl(); } win_update(wp, &providers); } // redraw status line and window bar after the window to minimize cursor movement if (wp->w_redr_status) { win_redr_winbar(wp); win_redr_status(wp); } } end_search_hl(); // May need to redraw the popup menu. if (pum_drawn() && must_redraw_pum) { win_check_ns_hl(curwin); pum_redraw(); } win_check_ns_hl(NULL); // Reset b_mod_set flags. Going through all windows is probably faster // than going through all buffers (there could be many buffers). FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { wp->w_buffer->b_mod_set = false; } updating_screen = 0; // Clear or redraw the command line. Done last, because scrolling may // mess up the command line. if (clear_cmdline || redraw_cmdline || redraw_mode) { showmode(); } // May put up an introductory message when not editing a file if (!did_intro) { maybe_intro_message(); } did_intro = true; decor_providers_invoke_end(&providers, &provider_err); kvi_destroy(providers); // either cmdline is cleared, not drawn or mode is last drawn cmdline_was_last_drawn = false; return OK; } static void win_border_redr_title(win_T *wp, ScreenGrid *grid, int col) { VirtText title_chunks = wp->w_float_config.title_chunks; for (size_t i = 0; i < title_chunks.size; i++) { char *text = title_chunks.items[i].text; int cell = (int)mb_string2cells(text); int hl_id = title_chunks.items[i].hl_id; int attr = hl_id ? syn_id2attr(hl_id) : 0; grid_puts(grid, text, 0, col, attr); col += cell; } } static void win_redr_border(win_T *wp) { wp->w_redr_border = false; if (!(wp->w_floating && wp->w_float_config.border)) { return; } ScreenGrid *grid = &wp->w_grid_alloc; schar_T *chars = wp->w_float_config.border_chars; int *attrs = wp->w_float_config.border_attr; int *adj = wp->w_border_adj; int irow = wp->w_height_inner + wp->w_winbar_height, icol = wp->w_width_inner; if (adj[0]) { grid_puts_line_start(grid, 0); if (adj[3]) { grid_put_schar(grid, 0, 0, chars[0], attrs[0]); } for (int i = 0; i < icol; i++) { grid_put_schar(grid, 0, i + adj[3], chars[1], attrs[1]); } if (wp->w_float_config.title) { int title_col = 0; int title_width = wp->w_float_config.title_width; AlignTextPos title_pos = wp->w_float_config.title_pos; if (title_pos == kAlignCenter) { title_col = (icol - title_width) / 2 + 1; } else { title_col = title_pos == kAlignLeft ? 1 : icol - title_width + 1; } win_border_redr_title(wp, grid, title_col); } if (adj[1]) { grid_put_schar(grid, 0, icol + adj[3], chars[2], attrs[2]); } grid_puts_line_flush(false); } for (int i = 0; i < irow; i++) { if (adj[3]) { grid_puts_line_start(grid, i + adj[0]); grid_put_schar(grid, i + adj[0], 0, chars[7], attrs[7]); grid_puts_line_flush(false); } if (adj[1]) { int ic = (i == 0 && !adj[0] && chars[2][0]) ? 2 : 3; grid_puts_line_start(grid, i + adj[0]); grid_put_schar(grid, i + adj[0], icol + adj[3], chars[ic], attrs[ic]); grid_puts_line_flush(false); } } if (adj[2]) { grid_puts_line_start(grid, irow + adj[0]); if (adj[3]) { grid_put_schar(grid, irow + adj[0], 0, chars[6], attrs[6]); } for (int i = 0; i < icol; i++) { int ic = (i == 0 && !adj[3] && chars[6][0]) ? 6 : 5; grid_put_schar(grid, irow + adj[0], i + adj[3], chars[ic], attrs[ic]); } if (adj[1]) { grid_put_schar(grid, irow + adj[0], icol + adj[3], chars[4], attrs[4]); } grid_puts_line_flush(false); } } /// Show current cursor info in ruler and various other places /// /// @param always if false, only show ruler if position has changed. void show_cursor_info(bool always) { if (!always && !redrawing()) { return; } win_check_ns_hl(curwin); if ((*p_stl != NUL || *curwin->w_p_stl != NUL) && (curwin->w_status_height || global_stl_height())) { redraw_custom_statusline(curwin); } else { win_redr_ruler(curwin, always); } if (*p_wbr != NUL || *curwin->w_p_wbr != NUL) { win_redr_winbar(curwin); } if (need_maketitle || (p_icon && (stl_syntax & STL_IN_ICON)) || (p_title && (stl_syntax & STL_IN_TITLE))) { maketitle(); } win_check_ns_hl(NULL); // Redraw the tab pages line if needed. if (redraw_tabline) { draw_tabline(); } } static void redraw_win_signcol(win_T *wp) { // If we can compute a change in the automatic sizing of the sign column // under 'signcolumn=auto:X' and signs currently placed in the buffer, better // figuring it out here so we can redraw the entire screen for it. int scwidth = wp->w_scwidth; wp->w_scwidth = win_signcol_count(wp); if (wp->w_scwidth != scwidth) { changed_line_abv_curs_win(wp); } } /// Check if horizontal separator of window "wp" at specified window corner is connected to the /// horizontal separator of another window /// Assumes global statusline is enabled static bool hsep_connected(win_T *wp, WindowCorner corner) { bool before = (corner == WC_TOP_LEFT || corner == WC_BOTTOM_LEFT); int sep_row = (corner == WC_TOP_LEFT || corner == WC_TOP_RIGHT) ? wp->w_winrow - 1 : W_ENDROW(wp); frame_T *fr = wp->w_frame; while (fr->fr_parent != NULL) { if (fr->fr_parent->fr_layout == FR_ROW && (before ? fr->fr_prev : fr->fr_next) != NULL) { fr = before ? fr->fr_prev : fr->fr_next; break; } fr = fr->fr_parent; } if (fr->fr_parent == NULL) { return false; } while (fr->fr_layout != FR_LEAF) { fr = fr->fr_child; if (fr->fr_parent->fr_layout == FR_ROW && before) { while (fr->fr_next != NULL) { fr = fr->fr_next; } } else { while (fr->fr_next != NULL && frame2win(fr)->w_winrow + fr->fr_height < sep_row) { fr = fr->fr_next; } } } return (sep_row == fr->fr_win->w_winrow - 1 || sep_row == W_ENDROW(fr->fr_win)); } /// Check if vertical separator of window "wp" at specified window corner is connected to the /// vertical separator of another window static bool vsep_connected(win_T *wp, WindowCorner corner) { bool before = (corner == WC_TOP_LEFT || corner == WC_TOP_RIGHT); int sep_col = (corner == WC_TOP_LEFT || corner == WC_BOTTOM_LEFT) ? wp->w_wincol - 1 : W_ENDCOL(wp); frame_T *fr = wp->w_frame; while (fr->fr_parent != NULL) { if (fr->fr_parent->fr_layout == FR_COL && (before ? fr->fr_prev : fr->fr_next) != NULL) { fr = before ? fr->fr_prev : fr->fr_next; break; } fr = fr->fr_parent; } if (fr->fr_parent == NULL) { return false; } while (fr->fr_layout != FR_LEAF) { fr = fr->fr_child; if (fr->fr_parent->fr_layout == FR_COL && before) { while (fr->fr_next != NULL) { fr = fr->fr_next; } } else { while (fr->fr_next != NULL && frame2win(fr)->w_wincol + fr->fr_width < sep_col) { fr = fr->fr_next; } } } return (sep_col == fr->fr_win->w_wincol - 1 || sep_col == W_ENDCOL(fr->fr_win)); } /// Draw the vertical separator right of window "wp" static void draw_vsep_win(win_T *wp) { if (!wp->w_vsep_width) { return; } // draw the vertical separator right of this window int hl; int c = fillchar_vsep(wp, &hl); grid_fill(&default_grid, wp->w_winrow, W_ENDROW(wp), W_ENDCOL(wp), W_ENDCOL(wp) + 1, c, ' ', hl); } /// Draw the horizontal separator below window "wp" static void draw_hsep_win(win_T *wp) { if (!wp->w_hsep_height) { return; } // draw the horizontal separator below this window int hl; int c = fillchar_hsep(wp, &hl); grid_fill(&default_grid, W_ENDROW(wp), W_ENDROW(wp) + 1, wp->w_wincol, W_ENDCOL(wp), c, c, hl); } /// Get the separator connector for specified window corner of window "wp" static int get_corner_sep_connector(win_T *wp, WindowCorner corner) { // It's impossible for windows to be connected neither vertically nor horizontally // So if they're not vertically connected, assume they're horizontally connected if (vsep_connected(wp, corner)) { if (hsep_connected(wp, corner)) { return wp->w_p_fcs_chars.verthoriz; } else if (corner == WC_TOP_LEFT || corner == WC_BOTTOM_LEFT) { return wp->w_p_fcs_chars.vertright; } else { return wp->w_p_fcs_chars.vertleft; } } else if (corner == WC_TOP_LEFT || corner == WC_TOP_RIGHT) { return wp->w_p_fcs_chars.horizdown; } else { return wp->w_p_fcs_chars.horizup; } } /// Draw separator connecting characters on the corners of window "wp" static void draw_sep_connectors_win(win_T *wp) { // Don't draw separator connectors unless global statusline is enabled and the window has // either a horizontal or vertical separator if (global_stl_height() == 0 || !(wp->w_hsep_height == 1 || wp->w_vsep_width == 1)) { return; } int hl = win_hl_attr(wp, HLF_C); // Determine which edges of the screen the window is located on so we can avoid drawing separators // on corners contained in those edges bool win_at_top; bool win_at_bottom = wp->w_hsep_height == 0; bool win_at_left; bool win_at_right = wp->w_vsep_width == 0; frame_T *frp; for (frp = wp->w_frame; frp->fr_parent != NULL; frp = frp->fr_parent) { if (frp->fr_parent->fr_layout == FR_COL && frp->fr_prev != NULL) { break; } } win_at_top = frp->fr_parent == NULL; for (frp = wp->w_frame; frp->fr_parent != NULL; frp = frp->fr_parent) { if (frp->fr_parent->fr_layout == FR_ROW && frp->fr_prev != NULL) { break; } } win_at_left = frp->fr_parent == NULL; // Draw the appropriate separator connector in every corner where drawing them is necessary if (!(win_at_top || win_at_left)) { grid_putchar(&default_grid, get_corner_sep_connector(wp, WC_TOP_LEFT), wp->w_winrow - 1, wp->w_wincol - 1, hl); } if (!(win_at_top || win_at_right)) { grid_putchar(&default_grid, get_corner_sep_connector(wp, WC_TOP_RIGHT), wp->w_winrow - 1, W_ENDCOL(wp), hl); } if (!(win_at_bottom || win_at_left)) { grid_putchar(&default_grid, get_corner_sep_connector(wp, WC_BOTTOM_LEFT), W_ENDROW(wp), wp->w_wincol - 1, hl); } if (!(win_at_bottom || win_at_right)) { grid_putchar(&default_grid, get_corner_sep_connector(wp, WC_BOTTOM_RIGHT), W_ENDROW(wp), W_ENDCOL(wp), hl); } } /// Update a single window. /// /// This may cause the windows below it also to be redrawn (when clearing the /// screen or scrolling lines). /// /// How the window is redrawn depends on wp->w_redr_type. Each type also /// implies the one below it. /// UPD_NOT_VALID redraw the whole window /// UPD_SOME_VALID redraw the whole window but do scroll when possible /// UPD_REDRAW_TOP redraw the top w_upd_rows window lines, otherwise like UPD_VALID /// UPD_INVERTED redraw the changed part of the Visual area /// UPD_INVERTED_ALL redraw the whole Visual area /// UPD_VALID 1. scroll up/down to adjust for a changed w_topline /// 2. update lines at the top when scrolled down /// 3. redraw changed text: /// - if wp->w_buffer->b_mod_set set, update lines between /// b_mod_top and b_mod_bot. /// - if wp->w_redraw_top non-zero, redraw lines between /// wp->w_redraw_top and wp->w_redr_bot. /// - continue redrawing when syntax status is invalid. /// 4. if scrolled up, update lines at the bottom. /// This results in three areas that may need updating: /// top: from first row to top_end (when scrolled down) /// mid: from mid_start to mid_end (update inversion or changed text) /// bot: from bot_start to last row (when scrolled up) static void win_update(win_T *wp, DecorProviders *providers) { int top_end = 0; // Below last row of the top area that needs // updating. 0 when no top area updating. int mid_start = 999; // first row of the mid area that needs // updating. 999 when no mid area updating. int mid_end = 0; // Below last row of the mid area that needs // updating. 0 when no mid area updating. int bot_start = 999; // first row of the bot area that needs // updating. 999 when no bot area updating bool scrolled_down = false; // true when scrolled down when w_topline got smaller a bit bool top_to_mod = false; // redraw above mod_top int bot_scroll_start = 999; // first line that needs to be redrawn due to // scrolling. only used for EOB static bool recursive = false; // being called recursively // Remember what happened to the previous line. enum { DID_NONE = 1, // didn't update a line DID_LINE = 2, // updated a normal line DID_FOLD = 3, // updated a folded line } did_update = DID_NONE; linenr_T syntax_last_parsed = 0; // last parsed text line linenr_T mod_top = 0; linenr_T mod_bot = 0; int type = wp->w_redr_type; if (type >= UPD_NOT_VALID) { // TODO(bfredl): should only be implied for CLEAR, not NOT_VALID! wp->w_redr_status = true; wp->w_lines_valid = 0; } // Window is zero-height: Only need to draw the separator if (wp->w_grid.rows == 0) { // draw the horizontal separator below this window draw_hsep_win(wp); draw_sep_connectors_win(wp); wp->w_redr_type = 0; return; } // Window is zero-width: Only need to draw the separator. if (wp->w_grid.cols == 0) { // draw the vertical separator right of this window draw_vsep_win(wp); draw_sep_connectors_win(wp); wp->w_redr_type = 0; return; } buf_T *buf = wp->w_buffer; // reset got_int, otherwise regexp won't work int save_got_int = got_int; got_int = 0; // Set the time limit to 'redrawtime'. proftime_T syntax_tm = profile_setlimit(p_rdt); syn_set_timeout(&syntax_tm); win_extmark_arr.size = 0; decor_redraw_reset(buf, &decor_state); DecorProviders line_providers; decor_providers_invoke_win(wp, providers, &line_providers, &provider_err); redraw_win_signcol(wp); init_search_hl(wp, &screen_search_hl); // Force redraw when width of 'number' or 'relativenumber' column // changes. int nrwidth = (wp->w_p_nu || wp->w_p_rnu || *wp->w_p_stc) ? number_width(wp) : 0; if (wp->w_nrwidth != nrwidth) { type = UPD_NOT_VALID; wp->w_nrwidth = nrwidth; if (buf->terminal) { terminal_check_size(buf->terminal); } } else if (buf->b_mod_set && buf->b_mod_xlines != 0 && wp->w_redraw_top != 0) { // When there are both inserted/deleted lines and specific lines to be // redrawn, w_redraw_top and w_redraw_bot may be invalid, just redraw // everything (only happens when redrawing is off for while). type = UPD_NOT_VALID; } else { // Set mod_top to the first line that needs displaying because of // changes. Set mod_bot to the first line after the changes. mod_top = wp->w_redraw_top; if (wp->w_redraw_bot != 0) { mod_bot = wp->w_redraw_bot + 1; } else { mod_bot = 0; } if (buf->b_mod_set) { if (mod_top == 0 || mod_top > buf->b_mod_top) { mod_top = buf->b_mod_top; // Need to redraw lines above the change that may be included // in a pattern match. if (syntax_present(wp)) { mod_top -= buf->b_s.b_syn_sync_linebreaks; if (mod_top < 1) { mod_top = 1; } } } if (mod_bot == 0 || mod_bot < buf->b_mod_bot) { mod_bot = buf->b_mod_bot; } // When 'hlsearch' is on and using a multi-line search pattern, a // change in one line may make the Search highlighting in a // previous line invalid. Simple solution: redraw all visible // lines above the change. // Same for a match pattern. if (screen_search_hl.rm.regprog != NULL && re_multiline(screen_search_hl.rm.regprog)) { top_to_mod = true; } else { const matchitem_T *cur = wp->w_match_head; while (cur != NULL) { if (cur->mit_match.regprog != NULL && re_multiline(cur->mit_match.regprog)) { top_to_mod = true; break; } cur = cur->mit_next; } } } if (mod_top != 0 && hasAnyFolding(wp)) { linenr_T lnumt, lnumb; // A change in a line can cause lines above it to become folded or // unfolded. Find the top most buffer line that may be affected. // If the line was previously folded and displayed, get the first // line of that fold. If the line is folded now, get the first // folded line. Use the minimum of these two. // Find last valid w_lines[] entry above mod_top. Set lnumt to // the line below it. If there is no valid entry, use w_topline. // Find the first valid w_lines[] entry below mod_bot. Set lnumb // to this line. If there is no valid entry, use MAXLNUM. lnumt = wp->w_topline; lnumb = MAXLNUM; for (int i = 0; i < wp->w_lines_valid; i++) { if (wp->w_lines[i].wl_valid) { if (wp->w_lines[i].wl_lastlnum < mod_top) { lnumt = wp->w_lines[i].wl_lastlnum + 1; } if (lnumb == MAXLNUM && wp->w_lines[i].wl_lnum >= mod_bot) { lnumb = wp->w_lines[i].wl_lnum; // When there is a fold column it might need updating // in the next line ("J" just above an open fold). if (compute_foldcolumn(wp, 0) > 0) { lnumb++; } } } } (void)hasFoldingWin(wp, mod_top, &mod_top, NULL, true, NULL); if (mod_top > lnumt) { mod_top = lnumt; } // Now do the same for the bottom line (one above mod_bot). mod_bot--; (void)hasFoldingWin(wp, mod_bot, NULL, &mod_bot, true, NULL); mod_bot++; if (mod_bot < lnumb) { mod_bot = lnumb; } } // When a change starts above w_topline and the end is below // w_topline, start redrawing at w_topline. // If the end of the change is above w_topline: do like no change was // made, but redraw the first line to find changes in syntax. if (mod_top != 0 && mod_top < wp->w_topline) { if (mod_bot > wp->w_topline) { mod_top = wp->w_topline; } else if (syntax_present(wp)) { top_end = 1; } } // When line numbers are displayed need to redraw all lines below // inserted/deleted lines. if (mod_top != 0 && buf->b_mod_xlines != 0 && wp->w_p_nu) { mod_bot = MAXLNUM; } } wp->w_redraw_top = 0; // reset for next time wp->w_redraw_bot = 0; // When only displaying the lines at the top, set top_end. Used when // window has scrolled down for msg_scrolled. if (type == UPD_REDRAW_TOP) { long j = 0; for (int i = 0; i < wp->w_lines_valid; i++) { j += wp->w_lines[i].wl_size; if (j >= wp->w_upd_rows) { top_end = (int)j; break; } } if (top_end == 0) { // not found (cannot happen?): redraw everything type = UPD_NOT_VALID; } else { // top area defined, the rest is UPD_VALID type = UPD_VALID; } } // If there are no changes on the screen that require a complete redraw, // handle three cases: // 1: we are off the top of the screen by a few lines: scroll down // 2: wp->w_topline is below wp->w_lines[0].wl_lnum: may scroll up // 3: wp->w_topline is wp->w_lines[0].wl_lnum: find first entry in // w_lines[] that needs updating. if ((type == UPD_VALID || type == UPD_SOME_VALID || type == UPD_INVERTED || type == UPD_INVERTED_ALL) && !wp->w_botfill && !wp->w_old_botfill) { if (mod_top != 0 && wp->w_topline == mod_top && (!wp->w_lines[0].wl_valid || wp->w_topline == wp->w_lines[0].wl_lnum)) { // w_topline is the first changed line and window is not scrolled, // the scrolling from changed lines will be done further down. } else if (wp->w_lines[0].wl_valid && (wp->w_topline < wp->w_lines[0].wl_lnum || (wp->w_topline == wp->w_lines[0].wl_lnum && wp->w_topfill > wp->w_old_topfill))) { // New topline is above old topline: May scroll down. long j; if (hasAnyFolding(wp)) { linenr_T ln; // count the number of lines we are off, counting a sequence // of folded lines as one j = 0; for (ln = wp->w_topline; ln < wp->w_lines[0].wl_lnum; ln++) { j++; if (j >= wp->w_grid.rows - 2) { break; } (void)hasFoldingWin(wp, ln, NULL, &ln, true, NULL); } } else { j = wp->w_lines[0].wl_lnum - wp->w_topline; } if (j < wp->w_grid.rows - 2) { // not too far off int i = plines_m_win(wp, wp->w_topline, wp->w_lines[0].wl_lnum - 1); // insert extra lines for previously invisible filler lines if (wp->w_lines[0].wl_lnum != wp->w_topline) { i += win_get_fill(wp, wp->w_lines[0].wl_lnum) - wp->w_old_topfill; } if (i != 0 && i < wp->w_grid.rows - 2) { // less than a screen off // Try to insert the correct number of lines. // If not the last window, delete the lines at the bottom. // win_ins_lines may fail when the terminal can't do it. win_scroll_lines(wp, 0, i); bot_scroll_start = 0; if (wp->w_lines_valid != 0) { // Need to update rows that are new, stop at the // first one that scrolled down. top_end = i; scrolled_down = true; // Move the entries that were scrolled, disable // the entries for the lines to be redrawn. if ((wp->w_lines_valid += (linenr_T)j) > wp->w_grid.rows) { wp->w_lines_valid = wp->w_grid.rows; } int idx; for (idx = wp->w_lines_valid; idx - j >= 0; idx--) { wp->w_lines[idx] = wp->w_lines[idx - j]; } while (idx >= 0) { wp->w_lines[idx--].wl_valid = false; } } } else { mid_start = 0; // redraw all lines } } else { mid_start = 0; // redraw all lines } } else { // New topline is at or below old topline: May scroll up. // When topline didn't change, find first entry in w_lines[] that // needs updating. // try to find wp->w_topline in wp->w_lines[].wl_lnum long j = -1; int row = 0; for (int i = 0; i < wp->w_lines_valid; i++) { if (wp->w_lines[i].wl_valid && wp->w_lines[i].wl_lnum == wp->w_topline) { j = i; break; } row += wp->w_lines[i].wl_size; } if (j == -1) { // if wp->w_topline is not in wp->w_lines[].wl_lnum redraw all // lines mid_start = 0; } else { // Try to delete the correct number of lines. // wp->w_topline is at wp->w_lines[i].wl_lnum. // If the topline didn't change, delete old filler lines, // otherwise delete filler lines of the new topline... if (wp->w_lines[0].wl_lnum == wp->w_topline) { row += wp->w_old_topfill; } else { row += win_get_fill(wp, wp->w_topline); } // ... but don't delete new filler lines. row -= wp->w_topfill; if (row > 0) { win_scroll_lines(wp, 0, -row); bot_start = wp->w_grid.rows - row; bot_scroll_start = bot_start; } if ((row == 0 || bot_start < 999) && wp->w_lines_valid != 0) { // Skip the lines (below the deleted lines) that are still // valid and don't need redrawing. Copy their info // upwards, to compensate for the deleted lines. Set // bot_start to the first row that needs redrawing. bot_start = 0; int idx = 0; for (;;) { wp->w_lines[idx] = wp->w_lines[j]; // stop at line that didn't fit, unless it is still // valid (no lines deleted) if (row > 0 && bot_start + row + (int)wp->w_lines[j].wl_size > wp->w_grid.rows) { wp->w_lines_valid = idx + 1; break; } bot_start += wp->w_lines[idx++].wl_size; // stop at the last valid entry in w_lines[].wl_size if (++j >= wp->w_lines_valid) { wp->w_lines_valid = idx; break; } } // Correct the first entry for filler lines at the top // when it won't get updated below. if (win_may_fill(wp) && bot_start > 0) { wp->w_lines[0].wl_size = (uint16_t)(plines_win_nofill(wp, wp->w_topline, true) + wp->w_topfill); } } } } // When starting redraw in the first line, redraw all lines. if (mid_start == 0) { mid_end = wp->w_grid.rows; } } else { // Not UPD_VALID or UPD_INVERTED: redraw all lines. mid_start = 0; mid_end = wp->w_grid.rows; } if (type == UPD_SOME_VALID) { // UPD_SOME_VALID: redraw all lines. mid_start = 0; mid_end = wp->w_grid.rows; type = UPD_NOT_VALID; } // check if we are updating or removing the inverted part if ((VIsual_active && buf == curwin->w_buffer) || (wp->w_old_cursor_lnum != 0 && type != UPD_NOT_VALID)) { linenr_T from, to; if (VIsual_active) { if (VIsual_mode != wp->w_old_visual_mode || type == UPD_INVERTED_ALL) { // If the type of Visual selection changed, redraw the whole // selection. Also when the ownership of the X selection is // gained or lost. if (curwin->w_cursor.lnum < VIsual.lnum) { from = curwin->w_cursor.lnum; to = VIsual.lnum; } else { from = VIsual.lnum; to = curwin->w_cursor.lnum; } // redraw more when the cursor moved as well if (wp->w_old_cursor_lnum < from) { from = wp->w_old_cursor_lnum; } if (wp->w_old_cursor_lnum > to) { to = wp->w_old_cursor_lnum; } if (wp->w_old_visual_lnum < from) { from = wp->w_old_visual_lnum; } if (wp->w_old_visual_lnum > to) { to = wp->w_old_visual_lnum; } } else { // Find the line numbers that need to be updated: The lines // between the old cursor position and the current cursor // position. Also check if the Visual position changed. if (curwin->w_cursor.lnum < wp->w_old_cursor_lnum) { from = curwin->w_cursor.lnum; to = wp->w_old_cursor_lnum; } else { from = wp->w_old_cursor_lnum; to = curwin->w_cursor.lnum; if (from == 0) { // Visual mode just started from = to; } } if (VIsual.lnum != wp->w_old_visual_lnum || VIsual.col != wp->w_old_visual_col) { if (wp->w_old_visual_lnum < from && wp->w_old_visual_lnum != 0) { from = wp->w_old_visual_lnum; } if (wp->w_old_visual_lnum > to) { to = wp->w_old_visual_lnum; } if (VIsual.lnum < from) { from = VIsual.lnum; } if (VIsual.lnum > to) { to = VIsual.lnum; } } } // If in block mode and changed column or curwin->w_curswant: // update all lines. // First compute the actual start and end column. if (VIsual_mode == Ctrl_V) { colnr_T fromc, toc; unsigned int save_ve_flags = curwin->w_ve_flags; if (curwin->w_p_lbr) { curwin->w_ve_flags = VE_ALL; } getvcols(wp, &VIsual, &curwin->w_cursor, &fromc, &toc); toc++; curwin->w_ve_flags = save_ve_flags; // Highlight to the end of the line, unless 'virtualedit' has // "block". if (curwin->w_curswant == MAXCOL) { if (get_ve_flags() & VE_BLOCK) { pos_T pos; int cursor_above = curwin->w_cursor.lnum < VIsual.lnum; // Need to find the longest line. toc = 0; pos.coladd = 0; for (pos.lnum = curwin->w_cursor.lnum; cursor_above ? pos.lnum <= VIsual.lnum : pos.lnum >= VIsual.lnum; pos.lnum += cursor_above ? 1 : -1) { colnr_T t; pos.col = (colnr_T)strlen(ml_get_buf(wp->w_buffer, pos.lnum, false)); getvvcol(wp, &pos, NULL, NULL, &t); if (toc < t) { toc = t; } } toc++; } else { toc = MAXCOL; } } if (fromc != wp->w_old_cursor_fcol || toc != wp->w_old_cursor_lcol) { if (from > VIsual.lnum) { from = VIsual.lnum; } if (to < VIsual.lnum) { to = VIsual.lnum; } } wp->w_old_cursor_fcol = fromc; wp->w_old_cursor_lcol = toc; } } else { // Use the line numbers of the old Visual area. if (wp->w_old_cursor_lnum < wp->w_old_visual_lnum) { from = wp->w_old_cursor_lnum; to = wp->w_old_visual_lnum; } else { from = wp->w_old_visual_lnum; to = wp->w_old_cursor_lnum; } } // There is no need to update lines above the top of the window. if (from < wp->w_topline) { from = wp->w_topline; } // If we know the value of w_botline, use it to restrict the update to // the lines that are visible in the window. if (wp->w_valid & VALID_BOTLINE) { if (from >= wp->w_botline) { from = wp->w_botline - 1; } if (to >= wp->w_botline) { to = wp->w_botline - 1; } } // Find the minimal part to be updated. // Watch out for scrolling that made entries in w_lines[] invalid. // E.g., CTRL-U makes the first half of w_lines[] invalid and sets // top_end; need to redraw from top_end to the "to" line. // A middle mouse click with a Visual selection may change the text // above the Visual area and reset wl_valid, do count these for // mid_end (in srow). if (mid_start > 0) { linenr_T lnum = wp->w_topline; int idx = 0; int srow = 0; if (scrolled_down) { mid_start = top_end; } else { mid_start = 0; } while (lnum < from && idx < wp->w_lines_valid) { // find start if (wp->w_lines[idx].wl_valid) { mid_start += wp->w_lines[idx].wl_size; } else if (!scrolled_down) { srow += wp->w_lines[idx].wl_size; } idx++; if (idx < wp->w_lines_valid && wp->w_lines[idx].wl_valid) { lnum = wp->w_lines[idx].wl_lnum; } else { lnum++; } } srow += mid_start; mid_end = wp->w_grid.rows; for (; idx < wp->w_lines_valid; idx++) { // find end if (wp->w_lines[idx].wl_valid && wp->w_lines[idx].wl_lnum >= to + 1) { // Only update until first row of this line mid_end = srow; break; } srow += wp->w_lines[idx].wl_size; } } } if (VIsual_active && buf == curwin->w_buffer) { wp->w_old_visual_mode = (char)VIsual_mode; wp->w_old_cursor_lnum = curwin->w_cursor.lnum; wp->w_old_visual_lnum = VIsual.lnum; wp->w_old_visual_col = VIsual.col; wp->w_old_curswant = curwin->w_curswant; } else { wp->w_old_visual_mode = 0; wp->w_old_cursor_lnum = 0; wp->w_old_visual_lnum = 0; wp->w_old_visual_col = 0; } bool cursorline_standout = win_cursorline_standout(wp); win_check_ns_hl(wp); // Update all the window rows. int idx = 0; // first entry in w_lines[].wl_size int row = 0; // current window row to display int srow = 0; // starting row of the current line linenr_T lnum = wp->w_topline; // first line shown in window bool eof = false; // if true, we hit the end of the file bool didline = false; // if true, we finished the last line for (;;) { // stop updating when reached the end of the window (check for _past_ // the end of the window is at the end of the loop) if (row == wp->w_grid.rows) { didline = true; break; } // stop updating when hit the end of the file if (lnum > buf->b_ml.ml_line_count) { eof = true; break; } // Remember the starting row of the line that is going to be dealt // with. It is used further down when the line doesn't fit. srow = row; // Update a line when it is in an area that needs updating, when it // has changes or w_lines[idx] is invalid. // "bot_start" may be halfway a wrapped line after using // win_scroll_lines(), check if the current line includes it. // When syntax folding is being used, the saved syntax states will // already have been updated, we can't see where the syntax state is // the same again, just update until the end of the window. if (row < top_end || (row >= mid_start && row < mid_end) || top_to_mod || idx >= wp->w_lines_valid || (row + wp->w_lines[idx].wl_size > bot_start) || (mod_top != 0 && (lnum == mod_top || (lnum >= mod_top && (lnum < mod_bot || did_update == DID_FOLD || (did_update == DID_LINE && syntax_present(wp) && ((foldmethodIsSyntax(wp) && hasAnyFolding(wp)) || syntax_check_changed(lnum))) // match in fixed position might need redraw // if lines were inserted or deleted || (wp->w_match_head != NULL && buf->b_mod_xlines != 0))))) || (cursorline_standout && lnum == wp->w_cursor.lnum) || lnum == wp->w_last_cursorline) { if (lnum == mod_top) { top_to_mod = false; } // When at start of changed lines: May scroll following lines // up or down to minimize redrawing. // Don't do this when the change continues until the end. // Don't scroll when dollar_vcol >= 0, keep the "$". // Don't scroll when redrawing the top, scrolled already above. if (lnum == mod_top && mod_bot != MAXLNUM && !(dollar_vcol >= 0 && mod_bot == mod_top + 1) && row >= top_end) { int old_rows = 0; int new_rows = 0; int xtra_rows; linenr_T l; int i; // Count the old number of window rows, using w_lines[], which // should still contain the sizes for the lines as they are // currently displayed. for (i = idx; i < wp->w_lines_valid; i++) { // Only valid lines have a meaningful wl_lnum. Invalid // lines are part of the changed area. if (wp->w_lines[i].wl_valid && wp->w_lines[i].wl_lnum == mod_bot) { break; } old_rows += wp->w_lines[i].wl_size; if (wp->w_lines[i].wl_valid && wp->w_lines[i].wl_lastlnum + 1 == mod_bot) { // Must have found the last valid entry above mod_bot. // Add following invalid entries. i++; while (i < wp->w_lines_valid && !wp->w_lines[i].wl_valid) { old_rows += wp->w_lines[i++].wl_size; } break; } } if (i >= wp->w_lines_valid) { // We can't find a valid line below the changed lines, // need to redraw until the end of the window. // Inserting/deleting lines has no use. bot_start = 0; bot_scroll_start = 0; } else { // Able to count old number of rows: Count new window // rows, and may insert/delete lines long j = idx; for (l = lnum; l < mod_bot; l++) { if (hasFoldingWin(wp, l, NULL, &l, true, NULL)) { new_rows++; } else if (l == wp->w_topline) { new_rows += plines_win_nofill(wp, l, true) + wp->w_topfill; } else { new_rows += plines_win(wp, l, true); } j++; if (new_rows > wp->w_grid.rows - row - 2) { // it's getting too much, must redraw the rest new_rows = 9999; break; } } xtra_rows = new_rows - old_rows; if (xtra_rows < 0) { // May scroll text up. If there is not enough // remaining text or scrolling fails, must redraw the // rest. If scrolling works, must redraw the text // below the scrolled text. if (row - xtra_rows >= wp->w_grid.rows - 2) { mod_bot = MAXLNUM; } else { win_scroll_lines(wp, row, xtra_rows); bot_start = wp->w_grid.rows + xtra_rows; bot_scroll_start = bot_start; } } else if (xtra_rows > 0) { // May scroll text down. If there is not enough // remaining text of scrolling fails, must redraw the // rest. if (row + xtra_rows >= wp->w_grid.rows - 2) { mod_bot = MAXLNUM; } else { win_scroll_lines(wp, row + old_rows, xtra_rows); bot_scroll_start = 0; if (top_end > row + old_rows) { // Scrolled the part at the top that requires // updating down. top_end += xtra_rows; } } } // When not updating the rest, may need to move w_lines[] // entries. if (mod_bot != MAXLNUM && i != j) { if (j < i) { int x = row + new_rows; // move entries in w_lines[] upwards for (;;) { // stop at last valid entry in w_lines[] if (i >= wp->w_lines_valid) { wp->w_lines_valid = (int)j; break; } wp->w_lines[j] = wp->w_lines[i]; // stop at a line that won't fit if (x + (int)wp->w_lines[j].wl_size > wp->w_grid.rows) { wp->w_lines_valid = (int)j + 1; break; } x += wp->w_lines[j++].wl_size; i++; } if (bot_start > x) { bot_start = x; } } else { // j > i // move entries in w_lines[] downwards j -= i; wp->w_lines_valid += (linenr_T)j; if (wp->w_lines_valid > wp->w_grid.rows) { wp->w_lines_valid = wp->w_grid.rows; } for (i = wp->w_lines_valid; i - j >= idx; i--) { wp->w_lines[i] = wp->w_lines[i - j]; } // The w_lines[] entries for inserted lines are // now invalid, but wl_size may be used above. // Reset to zero. while (i >= idx) { wp->w_lines[i].wl_size = 0; wp->w_lines[i--].wl_valid = false; } } } } } // When lines are folded, display one line for all of them. // Otherwise, display normally (can be several display lines when // 'wrap' is on). foldinfo_T foldinfo = fold_info(wp, lnum); if (foldinfo.fi_lines == 0 && idx < wp->w_lines_valid && wp->w_lines[idx].wl_valid && wp->w_lines[idx].wl_lnum == lnum && lnum > wp->w_topline && !(dy_flags & (DY_LASTLINE | DY_TRUNCATE)) && srow + wp->w_lines[idx].wl_size > wp->w_grid.rows && win_get_fill(wp, lnum) == 0) { // This line is not going to fit. Don't draw anything here, // will draw "@ " lines below. row = wp->w_grid.rows + 1; } else { prepare_search_hl(wp, &screen_search_hl, lnum); // Let the syntax stuff know we skipped a few lines. if (syntax_last_parsed != 0 && syntax_last_parsed + 1 < lnum && syntax_present(wp)) { syntax_end_parsing(wp, syntax_last_parsed + 1); } // Display one line row = win_line(wp, lnum, srow, foldinfo.fi_lines ? srow : wp->w_grid.rows, mod_top == 0, false, foldinfo, &line_providers, &provider_err); if (foldinfo.fi_lines == 0) { wp->w_lines[idx].wl_folded = false; wp->w_lines[idx].wl_lastlnum = lnum; did_update = DID_LINE; syntax_last_parsed = lnum; } else { foldinfo.fi_lines--; wp->w_lines[idx].wl_folded = true; wp->w_lines[idx].wl_lastlnum = lnum + foldinfo.fi_lines; did_update = DID_FOLD; } } wp->w_lines[idx].wl_lnum = lnum; wp->w_lines[idx].wl_valid = true; if (row > wp->w_grid.rows) { // past end of grid // we may need the size of that too long line later on if (dollar_vcol == -1) { wp->w_lines[idx].wl_size = (uint16_t)plines_win(wp, lnum, true); } idx++; break; } if (dollar_vcol == -1) { wp->w_lines[idx].wl_size = (uint16_t)(row - srow); } idx++; lnum += foldinfo.fi_lines + 1; } else { if (wp->w_p_rnu && wp->w_last_cursor_lnum_rnu != wp->w_cursor.lnum) { // 'relativenumber' set and cursor moved vertically: The // text doesn't need to be drawn, but the number column does. foldinfo_T info = fold_info(wp, lnum); (void)win_line(wp, lnum, srow, wp->w_grid.rows, true, true, info, &line_providers, &provider_err); } // This line does not need to be drawn, advance to the next one. row += wp->w_lines[idx++].wl_size; if (row > wp->w_grid.rows) { // past end of screen break; } lnum = wp->w_lines[idx - 1].wl_lastlnum + 1; did_update = DID_NONE; } // 'statuscolumn' width has changed or errored, start from the top. if (wp->w_redr_statuscol) { wp->w_redr_statuscol = false; idx = 0; row = 0; lnum = wp->w_topline; wp->w_lines_valid = 0; wp->w_valid &= ~VALID_WCOL; decor_providers_invoke_win(wp, providers, &line_providers, &provider_err); continue; } if (lnum > buf->b_ml.ml_line_count) { eof = true; break; } } // End of loop over all window lines. // Now that the window has been redrawn with the old and new cursor line, // update w_last_cursorline. wp->w_last_cursorline = cursorline_standout ? wp->w_cursor.lnum : 0; wp->w_last_cursor_lnum_rnu = wp->w_p_rnu ? wp->w_cursor.lnum : 0; if (idx > wp->w_lines_valid) { wp->w_lines_valid = idx; } // Let the syntax stuff know we stop parsing here. if (syntax_last_parsed != 0 && syntax_present(wp)) { syntax_end_parsing(wp, syntax_last_parsed + 1); } const linenr_T old_botline = wp->w_botline; // If we didn't hit the end of the file, and we didn't finish the last // line we were working on, then the line didn't fit. wp->w_empty_rows = 0; wp->w_filler_rows = 0; if (!eof && !didline) { int at_attr = hl_combine_attr(win_bg_attr(wp), win_hl_attr(wp, HLF_AT)); if (lnum == wp->w_topline) { // Single line that does not fit! // Don't overwrite it, it can be edited. wp->w_botline = lnum + 1; } else if (win_get_fill(wp, lnum) >= wp->w_grid.rows - srow) { // Window ends in filler lines. wp->w_botline = lnum; wp->w_filler_rows = wp->w_grid.rows - srow; } else if (dy_flags & DY_TRUNCATE) { // 'display' has "truncate" int scr_row = wp->w_grid.rows - 1; int symbol = wp->w_p_fcs_chars.lastline; char fillbuf[12]; // 2 characters of 6 bytes int charlen = utf_char2bytes(symbol, &fillbuf[0]); utf_char2bytes(symbol, &fillbuf[charlen]); // Last line isn't finished: Display "@@@" in the last screen line. grid_puts_len(&wp->w_grid, fillbuf, MIN(wp->w_grid.cols, 2) * charlen, scr_row, 0, at_attr); grid_fill(&wp->w_grid, scr_row, scr_row + 1, 2, wp->w_grid.cols, symbol, ' ', at_attr); set_empty_rows(wp, srow); wp->w_botline = lnum; } else if (dy_flags & DY_LASTLINE) { // 'display' has "lastline" int start_col = wp->w_grid.cols - 3; int symbol = wp->w_p_fcs_chars.lastline; // Last line isn't finished: Display "@@@" at the end. grid_fill(&wp->w_grid, wp->w_grid.rows - 1, wp->w_grid.rows, MAX(start_col, 0), wp->w_grid.cols, symbol, symbol, at_attr); set_empty_rows(wp, srow); wp->w_botline = lnum; } else { win_draw_end(wp, wp->w_p_fcs_chars.lastline, ' ', true, srow, wp->w_grid.rows, HLF_AT); set_empty_rows(wp, srow); wp->w_botline = lnum; } } else { if (eof) { // we hit the end of the file wp->w_botline = buf->b_ml.ml_line_count + 1; long j = win_get_fill(wp, wp->w_botline); if (j > 0 && !wp->w_botfill && row < wp->w_grid.rows) { // Display filler text below last line. win_line() will check // for ml_line_count+1 and only draw filler lines foldinfo_T info = { 0 }; row = win_line(wp, wp->w_botline, row, wp->w_grid.rows, false, false, info, &line_providers, &provider_err); } } else if (dollar_vcol == -1) { wp->w_botline = lnum; } // Make sure the rest of the screen is blank. // write the "eob" character from 'fillchars' to rows that aren't part // of the file. // TODO(bfredl): just keep track of the valid EOB area from last redraw? int lastline = bot_scroll_start; if (mid_end >= row) { lastline = MIN(lastline, mid_start); } // if (mod_bot > buf->b_ml.ml_line_count + 1) { if (mod_bot > buf->b_ml.ml_line_count) { lastline = 0; } win_draw_end(wp, wp->w_p_fcs_chars.eob, ' ', false, MAX(lastline, row), wp->w_grid.rows, HLF_EOB); set_empty_rows(wp, row); } kvi_destroy(line_providers); if (wp->w_redr_type >= UPD_REDRAW_TOP) { draw_vsep_win(wp); draw_hsep_win(wp); draw_sep_connectors_win(wp); } syn_set_timeout(NULL); // Reset the type of redrawing required, the window has been updated. wp->w_redr_type = 0; wp->w_old_topfill = wp->w_topfill; wp->w_old_botfill = wp->w_botfill; // Send win_extmarks if needed for (size_t n = 0; n < kv_size(win_extmark_arr); n++) { ui_call_win_extmark(wp->w_grid_alloc.handle, wp->handle, kv_A(win_extmark_arr, n).ns_id, (Integer)kv_A(win_extmark_arr, n).mark_id, kv_A(win_extmark_arr, n).win_row, kv_A(win_extmark_arr, n).win_col); } if (dollar_vcol == -1) { // There is a trick with w_botline. If we invalidate it on each // change that might modify it, this will cause a lot of expensive // calls to plines_win() in update_topline() each time. Therefore the // value of w_botline is often approximated, and this value is used to // compute the value of w_topline. If the value of w_botline was // wrong, check that the value of w_topline is correct (cursor is on // the visible part of the text). If it's not, we need to redraw // again. Mostly this just means scrolling up a few lines, so it // doesn't look too bad. Only do this for the current window (where // changes are relevant). wp->w_valid |= VALID_BOTLINE; wp->w_viewport_invalid = true; if (wp == curwin && wp->w_botline != old_botline && !recursive) { recursive = true; curwin->w_valid &= ~VALID_TOPLINE; update_topline(curwin); // may invalidate w_botline again if (must_redraw != 0) { // Don't update for changes in buffer again. int mod_set = curbuf->b_mod_set; curbuf->b_mod_set = false; win_update(curwin, providers); must_redraw = 0; curbuf->b_mod_set = mod_set; } recursive = false; } } // restore got_int, unless CTRL-C was hit while redrawing if (!got_int) { got_int = save_got_int; } } /// Redraw a window later, with wp->w_redr_type >= type. /// /// Set must_redraw only if not already set to a higher value. /// e.g. if must_redraw is UPD_CLEAR, type UPD_NOT_VALID will do nothing. void redraw_later(win_T *wp, int type) FUNC_ATTR_NONNULL_ALL { if (!exiting && wp->w_redr_type < type) { wp->w_redr_type = type; if (type >= UPD_NOT_VALID) { wp->w_lines_valid = 0; } if (must_redraw < type) { // must_redraw is the maximum of all windows must_redraw = type; } } } /// Mark all windows to be redrawn later. void redraw_all_later(int type) { FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { redraw_later(wp, type); } // This may be needed when switching tabs. if (must_redraw < type) { must_redraw = type; } } void screen_invalidate_highlights(void) { FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { redraw_later(wp, UPD_NOT_VALID); wp->w_grid_alloc.valid = false; } } /// Mark all windows that are editing the current buffer to be updated later. void redraw_curbuf_later(int type) { redraw_buf_later(curbuf, type); } void redraw_buf_later(buf_T *buf, int type) { FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_buffer == buf) { redraw_later(wp, type); } } } void redraw_buf_line_later(buf_T *buf, linenr_T line, bool force) { FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_buffer == buf) { redrawWinline(wp, MIN(line, buf->b_ml.ml_line_count)); if (force && line > buf->b_ml.ml_line_count) { wp->w_redraw_bot = line; } } } } void redraw_buf_range_later(buf_T *buf, linenr_T firstline, linenr_T lastline) { FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_buffer == buf && lastline >= wp->w_topline && firstline < wp->w_botline) { if (wp->w_redraw_top == 0 || wp->w_redraw_top > firstline) { wp->w_redraw_top = firstline; } if (wp->w_redraw_bot == 0 || wp->w_redraw_bot < lastline) { wp->w_redraw_bot = lastline; } redraw_later(wp, UPD_VALID); } } } /// called when the status bars for the buffer 'buf' need to be updated void redraw_buf_status_later(buf_T *buf) { FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_buffer == buf && (wp->w_status_height || (wp == curwin && global_stl_height()) || wp->w_winbar_height)) { wp->w_redr_status = true; if (must_redraw < UPD_VALID) { must_redraw = UPD_VALID; } } } } /// Mark all status lines and window bars for redraw; used after first :cd void status_redraw_all(void) { bool is_stl_global = global_stl_height() != 0; FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if ((!is_stl_global && wp->w_status_height) || (is_stl_global && wp == curwin) || wp->w_winbar_height) { wp->w_redr_status = true; redraw_later(wp, UPD_VALID); } } } /// Marks all status lines and window bars of the current buffer for redraw. void status_redraw_curbuf(void) { status_redraw_buf(curbuf); } /// Marks all status lines and window bars of the given buffer for redraw. void status_redraw_buf(buf_T *buf) { bool is_stl_global = global_stl_height() != 0; FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_buffer == buf && ((!is_stl_global && wp->w_status_height) || (is_stl_global && wp == curwin) || wp->w_winbar_height)) { wp->w_redr_status = true; redraw_later(wp, UPD_VALID); } } } /// Redraw all status lines that need to be redrawn. void redraw_statuslines(void) { FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_redr_status) { win_check_ns_hl(wp); win_redr_winbar(wp); win_redr_status(wp); } } win_check_ns_hl(NULL); if (redraw_tabline) { draw_tabline(); } } /// Redraw all status lines at the bottom of frame "frp". void win_redraw_last_status(const frame_T *frp) FUNC_ATTR_NONNULL_ARG(1) { if (frp->fr_layout == FR_LEAF) { frp->fr_win->w_redr_status = true; } else if (frp->fr_layout == FR_ROW) { FOR_ALL_FRAMES(frp, frp->fr_child) { win_redraw_last_status(frp); } } else { assert(frp->fr_layout == FR_COL); frp = frp->fr_child; while (frp->fr_next != NULL) { frp = frp->fr_next; } win_redraw_last_status(frp); } } /// Changed something in the current window, at buffer line "lnum", that /// requires that line and possibly other lines to be redrawn. /// Used when entering/leaving Insert mode with the cursor on a folded line. /// Used to remove the "$" from a change command. /// Note that when also inserting/deleting lines w_redraw_top and w_redraw_bot /// may become invalid and the whole window will have to be redrawn. void redrawWinline(win_T *wp, linenr_T lnum) FUNC_ATTR_NONNULL_ALL { if (lnum >= wp->w_topline && lnum < wp->w_botline) { if (wp->w_redraw_top == 0 || wp->w_redraw_top > lnum) { wp->w_redraw_top = lnum; } if (wp->w_redraw_bot == 0 || wp->w_redraw_bot < lnum) { wp->w_redraw_bot = lnum; } redraw_later(wp, UPD_VALID); } }