// 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 // screen.c: code for displaying on the screen // // Output to the screen (console, terminal emulator or GUI window) is minimized // by remembering what is already on the screen, and only updating the parts // that changed. // // The grid_*() functions write to the screen and handle updating grid->lines[]. // // 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, 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, 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(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, 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 NOT_VALID then. // // Commands that move the window position must call redraw_later(wp, 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(NOT_VALID) or redraw_all_later(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 "nvim/log.h" #include "nvim/vim.h" #include "nvim/ascii.h" #include "nvim/arabic.h" #include "nvim/screen.h" #include "nvim/buffer.h" #include "nvim/charset.h" #include "nvim/cursor.h" #include "nvim/cursor_shape.h" #include "nvim/diff.h" #include "nvim/eval.h" #include "nvim/ex_cmds.h" #include "nvim/ex_cmds2.h" #include "nvim/ex_getln.h" #include "nvim/edit.h" #include "nvim/fileio.h" #include "nvim/fold.h" #include "nvim/indent.h" #include "nvim/getchar.h" #include "nvim/highlight.h" #include "nvim/main.h" #include "nvim/mark.h" #include "nvim/extmark.h" #include "nvim/decoration.h" #include "nvim/mbyte.h" #include "nvim/memline.h" #include "nvim/memory.h" #include "nvim/menu.h" #include "nvim/message.h" #include "nvim/misc1.h" #include "nvim/garray.h" #include "nvim/move.h" #include "nvim/normal.h" #include "nvim/option.h" #include "nvim/os_unix.h" #include "nvim/path.h" #include "nvim/popupmnu.h" #include "nvim/quickfix.h" #include "nvim/regexp.h" #include "nvim/search.h" #include "nvim/sign.h" #include "nvim/spell.h" #include "nvim/state.h" #include "nvim/strings.h" #include "nvim/syntax.h" #include "nvim/terminal.h" #include "nvim/ui.h" #include "nvim/ui_compositor.h" #include "nvim/undo.h" #include "nvim/version.h" #include "nvim/window.h" #include "nvim/os/time.h" #include "nvim/api/private/helpers.h" #include "nvim/api/vim.h" #include "nvim/lua/executor.h" #include "nvim/lib/kvec.h" #define MB_FILLER_CHAR '<' /* character used when a double-width character * doesn't fit. */ typedef kvec_withinit_t(DecorProvider *, 4) Providers; // temporary buffer for rendering a single screenline, so it can be // compared with previous contents to calculate smallest delta. // Per-cell attributes static size_t linebuf_size = 0; static schar_T *linebuf_char = NULL; static sattr_T *linebuf_attr = NULL; static match_T search_hl; /* used for 'hlsearch' highlight matching */ StlClickDefinition *tab_page_click_defs = NULL; long tab_page_click_defs_size = 0; // for line_putchar. Contains the state that needs to be remembered from // putting one character to the next. typedef struct { const char *p; int prev_c; // previous Arabic character int prev_c1; // first composing char for prev_c } LineState; #define LINE_STATE(p) { p, 0, 0 } /// Whether to call "ui_call_grid_resize" in win_grid_alloc static bool send_grid_resize = false; static bool conceal_cursor_used = false; static bool redraw_popupmenu = false; static bool msg_grid_invalid = false; static bool resizing = false; #ifdef INCLUDE_GENERATED_DECLARATIONS # include "screen.c.generated.h" #endif #define SEARCH_HL_PRIORITY 0 static char * provider_first_error = NULL; static bool provider_invoke(NS ns_id, const char *name, LuaRef ref, Array args, bool default_true) { Error err = ERROR_INIT; textlock++; provider_active = true; Object ret = nlua_call_ref(ref, name, args, true, &err); provider_active = false; textlock--; if (!ERROR_SET(&err) && api_object_to_bool(ret, "provider %s retval", default_true, &err)) { return true; } if (ERROR_SET(&err)) { const char *ns_name = describe_ns(ns_id); ELOG("error in provider %s:%s: %s", ns_name, name, err.msg); bool verbose_errs = true; // TODO(bfredl): if (verbose_errs && provider_first_error == NULL) { static char errbuf[IOSIZE]; snprintf(errbuf, sizeof errbuf, "%s: %s", ns_name, err.msg); provider_first_error = xstrdup(errbuf); } } api_free_object(ret); return false; } /// Redraw a window later, with update_screen(type). /// /// Set must_redraw only if not already set to a higher value. /// e.g. if must_redraw is CLEAR, type 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 >= 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, 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) { FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_buffer == buf && line >= wp->w_topline && line < wp->w_botline) { redrawWinline(wp, 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, VALID); } } } /* * 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, VALID); } } /* * update all windows that are editing the current buffer */ void update_curbuf(int type) { redraw_curbuf_later(type); update_screen(type); } /// 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. /// /// @param type set to a NOT_VALID to force redraw of entire screen int update_screen(int type) { static int did_intro = FALSE; int did_one; // 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 (!default_grid.chars || resizing) { return FAIL; } // May have postponed updating diffs. if (need_diff_redraw) { diff_redraw(true); } if (must_redraw) { if (type < must_redraw) /* use maximal type */ 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, the screen will be redrawn later or in win_update(). */ must_redraw = 0; } /* Need to update w_lines[]. */ if (curwin->w_lines_valid == 0 && type < NOT_VALID) type = NOT_VALID; /* Postpone the redrawing when it's not needed and when being called * recursively. */ if (!redrawing() || updating_screen) { must_redraw = type; if (type > INVERTED_ALL) { curwin->w_lines_valid = 0; // don't use w_lines[].wl_size now } return FAIL; } 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 >= 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], (int)msg_grid.Columns, false); } } if (msg_use_msgsep()) { msg_grid.throttled = false; // CLEAR is already handled if (type == NOT_VALID && !ui_has(kUIMultigrid) && msg_scrolled) { 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) { wp->w_redr_type = MAX(wp->w_redr_type, NOT_VALID); } if (W_ENDROW(wp) + wp->w_status_height > valid) { wp->w_redr_status = true; } } } msg_grid_set_pos(Rows-p_ch, false); msg_grid_invalid = false; } else if (msg_scrolled > Rows - 5) { // clearing is faster type = CLEAR; } else if (type != CLEAR) { check_for_delay(false); grid_ins_lines(&default_grid, 0, msg_scrolled, Rows, 0, Columns); FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_floating) { continue; } if (wp->w_winrow < msg_scrolled) { if (W_ENDROW(wp) > msg_scrolled && wp->w_redr_type < REDRAW_TOP && wp->w_lines_valid > 0 && wp->w_topline == wp->w_lines[0].wl_lnum) { wp->w_upd_rows = msg_scrolled - wp->w_winrow; wp->w_redr_type = REDRAW_TOP; } else { wp->w_redr_type = NOT_VALID; if (W_ENDROW(wp) + wp->w_status_height <= msg_scrolled) { wp->w_redr_status = TRUE; } } } } redraw_cmdline = TRUE; redraw_tabline = TRUE; } msg_scrolled = 0; msg_scrolled_at_flush = 0; need_wait_return = false; } win_ui_flush(); msg_ext_check_clear(); /* reset cmdline_row now (may have been changed temporarily) */ compute_cmdrow(); /* Check for changed highlighting */ if (need_highlight_changed) highlight_changed(); if (type == CLEAR) { // first clear screen screenclear(); // will reset clear_cmdline cmdline_screen_cleared(); // clear external cmdline state type = 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; } // After disabling msgsep the grid might not have been deallocated yet, // hence we also need to check msg_grid.chars if (type == NOT_VALID && (msg_use_grid() || msg_grid.chars)) { grid_fill(&default_grid, Rows-p_ch, Rows, 0, Columns, ' ', ' ', 0); } ui_comp_set_screen_valid(true); Providers providers; kvi_init(providers); for (size_t i = 0; i < kv_size(decor_providers); i++) { DecorProvider *p = &kv_A(decor_providers, i); if (!p->active) { continue; } bool active; if (p->redraw_start != LUA_NOREF) { FIXED_TEMP_ARRAY(args, 2); args.items[0] = INTEGER_OBJ(display_tick); args.items[1] = INTEGER_OBJ(type); active = provider_invoke(p->ns_id, "start", p->redraw_start, args, true); } else { active = true; } if (active) { kvi_push(providers, p); } } // "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. */ if (curwin->w_redr_type < NOT_VALID && curwin->w_nrwidth != ((curwin->w_p_nu || curwin->w_p_rnu) ? number_width(curwin) : 0)) curwin->w_redr_type = NOT_VALID; /* * Only start redrawing if there is really something to do. */ if (type == INVERTED) update_curswant(); if (curwin->w_redr_type < type && !((type == VALID && curwin->w_lines[0].wl_valid && curwin->w_topfill == curwin->w_old_topfill && curwin->w_botfill == curwin->w_old_botfill && curwin->w_topline == curwin->w_lines[0].wl_lnum) || (type == INVERTED && VIsual_active && curwin->w_old_cursor_lnum == curwin->w_cursor.lnum && curwin->w_old_visual_mode == VIsual_mode && (curwin->w_valid & VALID_VIRTCOL) && curwin->w_old_curswant == curwin->w_curswant) )) curwin->w_redr_type = type; // Redraw the tab pages line if needed. if (redraw_tabline || type >= NOT_VALID) { update_window_hl(curwin, type >= NOT_VALID); FOR_ALL_TABS(tp) { if (tp != curtab) { update_window_hl(tp->tp_curwin, type >= 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 >= NOT_VALID); 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) { for (size_t i = 0; i < kv_size(providers); i++) { DecorProvider *p = kv_A(providers, i); if (p && p->redraw_buf != LUA_NOREF) { FIXED_TEMP_ARRAY(args, 1); args.items[0] = BUFFER_OBJ(buf->handle); provider_invoke(p->ns_id, "buf", p->redraw_buf, args, true); } } buf->b_mod_tick_decor = display_tick; } } } /* * Go from top to bottom through the windows, redrawing the ones that need * it. */ did_one = FALSE; search_hl.rm.regprog = NULL; FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_redr_type == CLEAR && wp->w_floating && wp->w_grid_alloc.chars) { grid_invalidate(&wp->w_grid_alloc); wp->w_redr_type = NOT_VALID; } // reallocate grid if needed. win_grid_alloc(wp); if (wp->w_redr_border || wp->w_redr_type >= 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 after the window to minimize cursor movement */ if (wp->w_redr_status) { win_redr_status(wp); } } end_search_hl(); // May need to redraw the popup menu. if (pum_drawn() && must_redraw_pum) { pum_redraw(); } send_grid_resize = false; /* 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) { showmode(); } /* May put up an introductory message when not editing a file */ if (!did_intro) maybe_intro_message(); did_intro = TRUE; for (size_t i = 0; i < kv_size(providers); i++) { DecorProvider *p = kv_A(providers, i); if (!p->active) { continue; } if (p->redraw_end != LUA_NOREF) { FIXED_TEMP_ARRAY(args, 1); args.items[0] = INTEGER_OBJ(display_tick); provider_invoke(p->ns_id, "end", p->redraw_end, args, true); } } kvi_destroy(providers); // either cmdline is cleared, not drawn or mode is last drawn cmdline_was_last_drawn = false; return OK; } // Return true if the cursor line in window "wp" may be concealed, according // to the 'concealcursor' option. bool conceal_cursor_line(const win_T *wp) FUNC_ATTR_NONNULL_ALL { int c; if (*wp->w_p_cocu == NUL) { return false; } if (get_real_state() & VISUAL) { c = 'v'; } else if (State & INSERT) { c = 'i'; } else if (State & NORMAL) { c = 'n'; } else if (State & CMDLINE) { c = 'c'; } else { return false; } return vim_strchr(wp->w_p_cocu, c) != 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)) { redrawWinline(curwin, curwin->w_cursor.lnum); // Need to recompute cursor column, e.g., when starting Visual mode // without concealing. */ curs_columns(curwin, true); } } /// Whether cursorline is drawn in a special way /// /// If true, both old and new cursorline will need /// to be redrawn when moving cursor within windows. /// TODO(bfredl): VIsual_active shouldn't be needed, but is used to fix a glitch /// caused by scrolling. bool win_cursorline_standout(const win_T *wp) FUNC_ATTR_NONNULL_ALL { return wp->w_p_cul || (wp->w_p_cole > 0 && (VIsual_active || !conceal_cursor_line(wp))); } /* * 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. * NOT_VALID redraw the whole window * SOME_VALID redraw the whole window but do scroll when possible * REDRAW_TOP redraw the top w_upd_rows window lines, otherwise like VALID * INVERTED redraw the changed part of the Visual area * INVERTED_ALL redraw the whole Visual area * 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, Providers *providers) { buf_T *buf = wp->w_buffer; int type; 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 */ int scrolled_down = FALSE; /* TRUE when scrolled down when w_topline got smaller a bit */ bool top_to_mod = false; // redraw above mod_top int row; /* current window row to display */ linenr_T lnum; /* current buffer lnum to display */ int idx; /* current index in w_lines[] */ int srow; /* starting row of the current line */ int eof = FALSE; /* if TRUE, we hit the end of the file */ int didline = FALSE; /* if TRUE, we finished the last line */ int i; long j; static bool recursive = false; // being called recursively const linenr_T old_botline = wp->w_botline; const int old_wrow = wp->w_wrow; const int old_wcol = wp->w_wcol; // Remember what happened to the previous line. #define DID_NONE 1 // didn't update a line #define DID_LINE 2 // updated a normal line #define DID_FOLD 3 // updated a folded line int 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 save_got_int; // 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. buf_signcols(buf); type = wp->w_redr_type; if (type >= NOT_VALID) { wp->w_redr_status = true; wp->w_lines_valid = 0; } // Window is zero-height: nothing to draw. if (wp->w_grid.Rows == 0) { wp->w_redr_type = 0; return; } // Window is zero-width: Only need to draw the separator. if (wp->w_grid.Columns == 0) { // draw the vertical separator right of this window draw_vsep_win(wp, 0); wp->w_redr_type = 0; return; } init_search_hl(wp); /* Force redraw when width of 'number' or 'relativenumber' column * changes. */ i = (wp->w_p_nu || wp->w_p_rnu) ? number_width(wp) : 0; if (wp->w_nrwidth != i) { type = NOT_VALID; wp->w_nrwidth = i; 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 = 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 (search_hl.rm.regprog != NULL && re_multiline(search_hl.rm.regprog)) { top_to_mod = true; } else { const matchitem_T *cur = wp->w_match_head; while (cur != NULL) { if (cur->match.regprog != NULL && re_multiline(cur->match.regprog)) { top_to_mod = true; break; } cur = cur->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 (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 == REDRAW_TOP) { j = 0; for (i = 0; i < wp->w_lines_valid; ++i) { j += wp->w_lines[i].wl_size; if (j >= wp->w_upd_rows) { top_end = j; break; } } if (top_end == 0) /* not found (cannot happen?): redraw everything */ type = NOT_VALID; else /* top area defined, the rest is VALID */ type = 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 == VALID || type == SOME_VALID || type == INVERTED || type == 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. */ 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 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 += diff_check_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); 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 += j) > wp->w_grid.Rows) { wp->w_lines_valid = wp->w_grid.Rows; } 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 */ j = -1; row = 0; for (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 += diff_check_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; } 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; 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 (wp->w_p_diff && bot_start > 0) wp->w_lines[0].wl_size = 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 VALID or INVERTED: redraw all lines. */ mid_start = 0; mid_end = wp->w_grid.Rows; } if (type == SOME_VALID) { /* SOME_VALID: redraw all lines. */ mid_start = 0; mid_end = wp->w_grid.Rows; type = 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 != NOT_VALID)) { linenr_T from, to; if (VIsual_active) { if (VIsual_mode != wp->w_old_visual_mode || type == 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; int save_ve_flags = ve_flags; if (curwin->w_p_lbr) ve_flags = VE_ALL; getvcols(wp, &VIsual, &curwin->w_cursor, &fromc, &toc); ve_flags = save_ve_flags; ++toc; if (curwin->w_curswant == MAXCOL) 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) { lnum = wp->w_topline; idx = 0; 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 = 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; } /* reset got_int, otherwise regexp won't work */ 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); /* * Update all the window rows. */ idx = 0; /* first entry in w_lines[].wl_size */ row = 0; srow = 0; lnum = wp->w_topline; // first line shown in window decor_redraw_reset(buf, &decor_state); Providers line_providers; kvi_init(line_providers); linenr_T knownmax = ((wp->w_valid & VALID_BOTLINE) ? wp->w_botline : (wp->w_topline + wp->w_height_inner)); for (size_t k = 0; k < kv_size(*providers); k++) { DecorProvider *p = kv_A(*providers, k); if (p && p->redraw_win != LUA_NOREF) { FIXED_TEMP_ARRAY(args, 4); args.items[0] = WINDOW_OBJ(wp->handle); args.items[1] = BUFFER_OBJ(buf->handle); // TODO(bfredl): we are not using this, but should be first drawn line? args.items[2] = INTEGER_OBJ(wp->w_topline-1); args.items[3] = INTEGER_OBJ(knownmax); if (provider_invoke(p->ns_id, "win", p->redraw_win, args, true)) { kvi_push(line_providers, p); } } } win_check_ns_hl(wp); 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)))))) { 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 "$". */ if (lnum == mod_top && mod_bot != MAXLNUM && !(dollar_vcol >= 0 && mod_bot == mod_top + 1)) { int old_rows = 0; int new_rows = 0; int xtra_rows; linenr_T l; /* 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; } else { /* Able to count old number of rows: Count new window * rows, and may insert/delete lines */ 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; } } 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); 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 = 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 = 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 += 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 && diff_check_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, 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(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); wp->w_lines[idx].wl_folded = foldinfo.fi_lines != 0; wp->w_lines[idx].wl_lastlnum = lnum; did_update = DID_LINE; if (foldinfo.fi_lines > 0) { did_update = DID_FOLD; foldinfo.fi_lines--; wp->w_lines[idx].wl_lastlnum = lnum + foldinfo.fi_lines; } syntax_last_parsed = lnum; } 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 = plines_win(wp, lnum, true); } idx++; break; } if (dollar_vcol == -1) { wp->w_lines[idx].wl_size = row - srow; } idx++; lnum += foldinfo.fi_lines + 1; } else { if (wp->w_p_rnu) { // 'relativenumber' set: The text doesn't need to be drawn, but // the number column nearly always does. foldinfo_T info = fold_info(wp, lnum); (void)win_line(wp, lnum, srow, wp->w_grid.Rows, true, true, info, &line_providers); } // 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; } if (lnum > buf->b_ml.ml_line_count) { eof = TRUE; break; } } /* * End of loop over all window lines. */ 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(syntax_last_parsed + 1); /* * 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(wp->w_hl_attr_normal, 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 (diff_check_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; // Last line isn't finished: Display "@@@" in the last screen line. grid_puts_len(&wp->w_grid, (char_u *)"@@", 2, scr_row, 0, at_attr); grid_fill(&wp->w_grid, scr_row, scr_row + 1, 2, wp->w_grid.Columns, '@', ' ', at_attr); set_empty_rows(wp, srow); wp->w_botline = lnum; } else if (dy_flags & DY_LASTLINE) { // 'display' has "lastline" // Last line isn't finished: Display "@@@" at the end. grid_fill(&wp->w_grid, wp->w_grid.Rows - 1, wp->w_grid.Rows, wp->w_grid.Columns - 3, wp->w_grid.Columns, '@', '@', at_attr); set_empty_rows(wp, srow); wp->w_botline = lnum; } else { win_draw_end(wp, '@', ' ', true, srow, wp->w_grid.Rows, HLF_AT); wp->w_botline = lnum; } } else { if (eof) { // we hit the end of the file wp->w_botline = buf->b_ml.ml_line_count + 1; j = diff_check_fill(wp, wp->w_botline); if (j > 0 && !wp->w_botfill) { // display filler lines at the end of the file if (char2cells(wp->w_p_fcs_chars.diff) > 1) { i = '-'; } else { i = wp->w_p_fcs_chars.diff; } if (row + j > wp->w_grid.Rows) { j = wp->w_grid.Rows - row; } win_draw_end(wp, i, i, true, row, row + (int)j, HLF_DED); row += j; } } else if (dollar_vcol == -1) wp->w_botline = lnum; // make sure the rest of the screen is blank // write the 'eob' character to rows that aren't part of the file. win_draw_end(wp, wp->w_p_fcs_chars.eob, ' ', false, row, wp->w_grid.Rows, HLF_EOB); } kvi_destroy(line_providers); if (wp->w_redr_type >= REDRAW_TOP) { draw_vsep_win(wp, 0); } 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; 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() 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) { const linenr_T old_topline = wp->w_topline; const int new_wcol = wp->w_wcol; recursive = true; curwin->w_valid &= ~VALID_TOPLINE; update_topline(curwin); // may invalidate w_botline again if (old_wcol != new_wcol && (wp->w_valid & (VALID_WCOL|VALID_WROW)) != (VALID_WCOL|VALID_WROW)) { // A win_line() call applied a fix to screen cursor column to // accommodate concealment of cursor line, but in this call to // update_topline() the cursor's row or column got invalidated. // If they are left invalid, setcursor() will recompute them // but there won't be any further win_line() call to re-fix the // column and the cursor will end up misplaced. So we call // cursor validation now and reapply the fix again (or call // win_line() to do it for us). validate_cursor(); if (wp->w_wcol == old_wcol && wp->w_wrow == old_wrow && old_topline == wp->w_topline) { wp->w_wcol = new_wcol; } else { redrawWinline(wp, wp->w_cursor.lnum); } } // New redraw either due to updated topline or due to wcol fix. if (wp->w_redr_type != 0) { // Don't update for changes in buffer again. i = curbuf->b_mod_set; curbuf->b_mod_set = false; j = curbuf->b_mod_xlines; curbuf->b_mod_xlines = 0; win_update(curwin, providers); curbuf->b_mod_set = i; curbuf->b_mod_xlines = j; } // Other windows might have w_redr_type raised in update_topline(). must_redraw = 0; FOR_ALL_WINDOWS_IN_TAB(wwp, curtab) { if (wwp->w_redr_type > must_redraw) { must_redraw = wwp->w_redr_type; } } recursive = false; } } /* restore got_int, unless CTRL-C was hit while redrawing */ if (!got_int) got_int = save_got_int; } // NOLINT(readability/fn_size) /// Returns width of the signcolumn that should be used for the whole window /// /// @param wp window we want signcolumn width from /// @return max width of signcolumn (cell unit) /// /// @note Returns a constant for now but hopefully we can improve neovim so that /// the returned value width adapts to the maximum number of marks to draw /// for the window /// TODO(teto) int win_signcol_width(win_T *wp) { // 2 is vim default value return 2; } /// Call grid_fill() with columns adjusted for 'rightleft' if needed. /// Return the new offset. static int win_fill_end(win_T *wp, int c1, int c2, int off, int width, int row, int endrow, int attr) { int nn = off + width; if (nn > wp->w_grid.Columns) { nn = wp->w_grid.Columns; } if (wp->w_p_rl) { grid_fill(&wp->w_grid, row, endrow, W_ENDCOL(wp) - nn, W_ENDCOL(wp) - off, c1, c2, attr); } else { grid_fill(&wp->w_grid, row, endrow, off, nn, c1, c2, attr); } return nn; } /// Clear lines near the end of the window and mark the unused lines with "c1". /// Use "c2" as filler character. /// When "draw_margin" is true, then draw the sign/fold/number columns. static void win_draw_end(win_T *wp, int c1, int c2, bool draw_margin, int row, int endrow, hlf_T hl) { assert(hl >= 0 && hl < HLF_COUNT); int n = 0; if (draw_margin) { // draw the fold column int fdc = compute_foldcolumn(wp, 0); if (fdc > 0) { n = win_fill_end(wp, ' ', ' ', n, fdc, row, endrow, win_hl_attr(wp, HLF_FC)); } // draw the sign column int count = win_signcol_count(wp); if (count > 0) { n = win_fill_end(wp, ' ', ' ', n, win_signcol_width(wp) * count, row, endrow, win_hl_attr(wp, HLF_SC)); } // draw the number column if ((wp->w_p_nu || wp->w_p_rnu) && vim_strchr(p_cpo, CPO_NUMCOL) == NULL) { n = win_fill_end(wp, ' ', ' ', n, number_width(wp) + 1, row, endrow, win_hl_attr(wp, HLF_N)); } } int attr = hl_combine_attr(wp->w_hl_attr_normal, win_hl_attr(wp, hl)); if (wp->w_p_rl) { grid_fill(&wp->w_grid, row, endrow, wp->w_wincol, W_ENDCOL(wp) - 1 - n, c2, c2, attr); grid_fill(&wp->w_grid, row, endrow, W_ENDCOL(wp) - 1 - n, W_ENDCOL(wp) - n, c1, c2, attr); } else { grid_fill(&wp->w_grid, row, endrow, n, wp->w_grid.Columns, c1, c2, attr); } set_empty_rows(wp, row); } /* * Advance **color_cols and return TRUE when there are columns to draw. */ static int advance_color_col(int vcol, int **color_cols) { while (**color_cols >= 0 && vcol > **color_cols) ++*color_cols; return **color_cols >= 0; } // Compute the width of the foldcolumn. Based on 'foldcolumn' and how much // space is available for window "wp", minus "col". static int compute_foldcolumn(win_T *wp, int col) { int fdc = win_fdccol_count(wp); int wmw = wp == curwin && p_wmw == 0 ? 1 : p_wmw; int wwidth = wp->w_grid.Columns; if (fdc > wwidth - (col + wmw)) { fdc = wwidth - (col + wmw); } return fdc; } /// Put a single char from an UTF-8 buffer into a line buffer. /// /// Handles composing chars and arabic shaping state. static int line_putchar(LineState *s, schar_T *dest, int maxcells, bool rl) { const char_u *p = (char_u *)s->p; int cells = utf_ptr2cells(p); int c_len = utfc_ptr2len(p); int u8c, u8cc[MAX_MCO]; if (cells > maxcells) { return -1; } u8c = utfc_ptr2char(p, u8cc); if (*p < 0x80 && u8cc[0] == 0) { schar_from_ascii(dest[0], *p); s->prev_c = u8c; } else { if (p_arshape && !p_tbidi && arabic_char(u8c)) { // Do Arabic shaping. int pc, pc1, nc; int pcc[MAX_MCO]; int firstbyte = *p; // The idea of what is the previous and next // character depends on 'rightleft'. if (rl) { pc = s->prev_c; pc1 = s->prev_c1; nc = utf_ptr2char(p + c_len); s->prev_c1 = u8cc[0]; } else { pc = utfc_ptr2char(p + c_len, pcc); nc = s->prev_c; pc1 = pcc[0]; } s->prev_c = u8c; u8c = arabic_shape(u8c, &firstbyte, &u8cc[0], pc, pc1, nc); } else { s->prev_c = u8c; } schar_from_cc(dest[0], u8c, u8cc); } if (cells > 1) { dest[1][0] = 0; } s->p += c_len; return cells; } /// Fills the foldcolumn at "p" for window "wp". /// Only to be called when 'foldcolumn' > 0. /// /// @param[out] p Char array to write into /// @param lnum Absolute current line number /// @param closed Whether it is in 'foldcolumn' mode /// /// Assume monocell characters /// @return number of chars added to \param p static size_t fill_foldcolumn( char_u *p, win_T *wp, foldinfo_T foldinfo, linenr_T lnum ) { int i = 0; int level; int first_level; int fdc = compute_foldcolumn(wp, 0); // available cell width size_t char_counter = 0; int symbol = 0; int len = 0; bool closed = foldinfo.fi_lines > 0; // Init to all spaces. memset(p, ' ', MAX_MCO * fdc + 1); level = foldinfo.fi_level; // If the column is too narrow, we start at the lowest level that // fits and use numbers to indicated the depth. first_level = level - fdc - closed + 1; if (first_level < 1) { first_level = 1; } for (i = 0; i < MIN(fdc, level); i++) { if (foldinfo.fi_lnum == lnum && first_level + i >= foldinfo.fi_low_level) { symbol = wp->w_p_fcs_chars.foldopen; } else if (first_level == 1) { symbol = wp->w_p_fcs_chars.foldsep; } else if (first_level + i <= 9) { symbol = '0' + first_level + i; } else { symbol = '>'; } len = utf_char2bytes(symbol, &p[char_counter]); char_counter += len; if (first_level + i >= level) { i++; break; } } if (closed) { if (symbol != 0) { // rollback previous write char_counter -= len; memset(&p[char_counter], ' ', len); } len = utf_char2bytes(wp->w_p_fcs_chars.foldclosed, &p[char_counter]); char_counter += len; } return MAX(char_counter + (fdc-i), (size_t)fdc); } /// Display line "lnum" of window 'wp' on the screen. /// wp->w_virtcol needs to be valid. /// /// @param lnum line to display /// @param startrow first row relative to window grid /// @param endrow last grid row to be redrawn /// @param nochange not updating for changed text /// @param number_only only update the number column /// @param foldinfo fold info for this line /// @param[in, out] providers decoration providers active this line /// items will be disables if they cause errors /// or explicitly return `false`. /// /// @return the number of last row the line occupies. static int win_line(win_T *wp, linenr_T lnum, int startrow, int endrow, bool nochange, bool number_only, foldinfo_T foldinfo, Providers *providers) { int c = 0; // init for GCC long vcol = 0; // virtual column (for tabs) long vcol_sbr = -1; // virtual column after showbreak long vcol_prev = -1; // "vcol" of previous character char_u *line; // current line char_u *ptr; // current position in "line" int row; // row in the window, excl w_winrow ScreenGrid *grid = &wp->w_grid; // grid specfic to the window char_u extra[57]; // sign, line number and 'fdc' must // fit in here int n_extra = 0; // number of extra chars char_u *p_extra = NULL; // string of extra chars, plus NUL char_u *p_extra_free = NULL; // p_extra needs to be freed int c_extra = NUL; // extra chars, all the same int c_final = NUL; // final char, mandatory if set int extra_attr = 0; // attributes when n_extra != 0 static char_u *at_end_str = (char_u *)""; // used for p_extra when displaying // curwin->w_p_lcs_chars.eol at // end-of-line int lcs_eol_one = wp->w_p_lcs_chars.eol; // 'eol' until it's been used int lcs_prec_todo = wp->w_p_lcs_chars.prec; // 'prec' until it's been used bool has_fold = foldinfo.fi_level != 0 && foldinfo.fi_lines > 0; // saved "extra" items for when draw_state becomes WL_LINE (again) int saved_n_extra = 0; char_u *saved_p_extra = NULL; int saved_c_extra = 0; int saved_c_final = 0; int saved_char_attr = 0; int n_attr = 0; /* chars with special attr */ int saved_attr2 = 0; /* char_attr saved for n_attr */ int n_attr3 = 0; /* chars with overruling special attr */ int saved_attr3 = 0; /* char_attr saved for n_attr3 */ int n_skip = 0; /* nr of chars to skip for 'nowrap' */ int fromcol = -10; // start of inverting int tocol = MAXCOL; // end of inverting int fromcol_prev = -2; // start of inverting after cursor bool noinvcur = false; // don't invert the cursor int lnum_in_visual_area = false; pos_T pos; long v; int char_attr = 0; /* attributes for next character */ int attr_pri = FALSE; /* char_attr has priority */ int area_highlighting = FALSE; /* Visual or incsearch highlighting in this line */ int attr = 0; /* attributes for area highlighting */ int area_attr = 0; /* attributes desired by highlighting */ int search_attr = 0; /* attributes desired by 'hlsearch' */ int vcol_save_attr = 0; /* saved attr for 'cursorcolumn' */ int syntax_attr = 0; /* attributes desired by syntax */ int has_syntax = FALSE; /* this buffer has syntax highl. */ int save_did_emsg; int eol_hl_off = 0; // 1 if highlighted char after EOL int draw_color_col = false; // highlight colorcolumn int *color_cols = NULL; // pointer to according columns array bool has_spell = false; // this buffer has spell checking # define SPWORDLEN 150 char_u nextline[SPWORDLEN * 2]; /* text with start of the next line */ int nextlinecol = 0; /* column where nextline[] starts */ int nextline_idx = 0; /* index in nextline[] where next line starts */ int spell_attr = 0; /* attributes desired by spelling */ int word_end = 0; /* last byte with same spell_attr */ static linenr_T checked_lnum = 0; /* line number for "checked_col" */ static int checked_col = 0; /* column in "checked_lnum" up to which * there are no spell errors */ static int cap_col = -1; // column to check for Cap word static linenr_T capcol_lnum = 0; // line number where "cap_col" int cur_checked_col = 0; // checked column for current line int extra_check = 0; // has syntax or linebreak int multi_attr = 0; // attributes desired by multibyte int mb_l = 1; // multi-byte byte length int mb_c = 0; // decoded multi-byte character bool mb_utf8 = false; // screen char is UTF-8 char int u8cc[MAX_MCO]; // composing UTF-8 chars int filler_lines; // nr of filler lines to be drawn int filler_todo; // nr of filler lines still to do + 1 hlf_T diff_hlf = (hlf_T)0; // type of diff highlighting int change_start = MAXCOL; // first col of changed area int change_end = -1; // last col of changed area colnr_T trailcol = MAXCOL; // start of trailing spaces colnr_T leadcol = 0; // start of leading spaces bool need_showbreak = false; // overlong line, skip first x chars sign_attrs_T sattrs[SIGN_SHOW_MAX]; // attributes for signs int num_signs; // number of signs for line int line_attr = 0; // attribute for the whole line int line_attr_lowprio = 0; // low-priority attribute for the line matchitem_T *cur; // points to the match list match_T *shl; // points to search_hl or a match bool shl_flag; // flag to indicate whether search_hl // has been processed or not bool prevcol_hl_flag; // flag to indicate whether prevcol // equals startcol of search_hl or one // of the matches int prev_c = 0; // previous Arabic character int prev_c1 = 0; // first composing char for prev_c bool search_attr_from_match = false; // if search_attr is from :match bool has_decor = false; // this buffer has decoration bool do_virttext = false; // draw virtual text for this line int win_col_offset = 0; // offset for window columns char_u buf_fold[FOLD_TEXT_LEN + 1]; // Hold value returned by get_foldtext bool area_active = false; /* draw_state: items that are drawn in sequence: */ #define WL_START 0 /* nothing done yet */ # define WL_CMDLINE WL_START + 1 /* cmdline window column */ # define WL_FOLD WL_CMDLINE + 1 /* 'foldcolumn' */ # define WL_SIGN WL_FOLD + 1 /* column for signs */ #define WL_NR WL_SIGN + 1 /* line number */ # define WL_BRI WL_NR + 1 /* 'breakindent' */ # define WL_SBR WL_BRI + 1 /* 'showbreak' or 'diff' */ #define WL_LINE WL_SBR + 1 /* text in the line */ int draw_state = WL_START; /* what to draw next */ int syntax_flags = 0; int syntax_seqnr = 0; int prev_syntax_id = 0; int conceal_attr = win_hl_attr(wp, HLF_CONCEAL); int is_concealing = false; int boguscols = 0; ///< nonexistent columns added to ///< force wrapping int vcol_off = 0; ///< offset for concealed characters int did_wcol = false; int match_conc = 0; ///< cchar for match functions int old_boguscols = 0; # define VCOL_HLC (vcol - vcol_off) # define FIX_FOR_BOGUSCOLS \ { \ n_extra += vcol_off; \ vcol -= vcol_off; \ vcol_off = 0; \ col -= boguscols; \ old_boguscols = boguscols; \ boguscols = 0; \ } if (startrow > endrow) /* past the end already! */ return startrow; row = startrow; char *err_text = NULL; buf_T *buf = wp->w_buffer; if (!number_only) { // To speed up the loop below, set extra_check when there is linebreak, // trailing white space and/or syntax processing to be done. extra_check = wp->w_p_lbr; if (syntax_present(wp) && !wp->w_s->b_syn_error && !wp->w_s->b_syn_slow) { // Prepare for syntax highlighting in this line. When there is an // error, stop syntax highlighting. save_did_emsg = did_emsg; did_emsg = false; syntax_start(wp, lnum); if (did_emsg) { wp->w_s->b_syn_error = true; } else { did_emsg = save_did_emsg; if (!wp->w_s->b_syn_slow) { has_syntax = true; extra_check = true; } } } has_decor = decor_redraw_line(wp->w_buffer, lnum-1, &decor_state); for (size_t k = 0; k < kv_size(*providers); k++) { DecorProvider *p = kv_A(*providers, k); if (p && p->redraw_line != LUA_NOREF) { FIXED_TEMP_ARRAY(args, 3); args.items[0] = WINDOW_OBJ(wp->handle); args.items[1] = BUFFER_OBJ(buf->handle); args.items[2] = INTEGER_OBJ(lnum-1); if (provider_invoke(p->ns_id, "line", p->redraw_line, args, true)) { has_decor = true; } else { // return 'false' or error: skip rest of this window kv_A(*providers, k) = NULL; } win_check_ns_hl(wp); } } if (has_decor) { extra_check = true; } if (provider_first_error) { err_text = provider_first_error; provider_first_error = NULL; do_virttext = true; } // Check for columns to display for 'colorcolumn'. color_cols = wp->w_buffer->terminal ? NULL : wp->w_p_cc_cols; if (color_cols != NULL) { draw_color_col = advance_color_col(VCOL_HLC, &color_cols); } if (wp->w_p_spell && !has_fold && *wp->w_s->b_p_spl != NUL && !GA_EMPTY(&wp->w_s->b_langp) && *(char **)(wp->w_s->b_langp.ga_data) != NULL) { // Prepare for spell checking. has_spell = true; extra_check = true; // Get the start of the next line, so that words that wrap to the next // line are found too: "etal.". // Trick: skip a few chars for C/shell/Vim comments nextline[SPWORDLEN] = NUL; if (lnum < wp->w_buffer->b_ml.ml_line_count) { line = ml_get_buf(wp->w_buffer, lnum + 1, false); spell_cat_line(nextline + SPWORDLEN, line, SPWORDLEN); } // When a word wrapped from the previous line the start of the current // line is valid. if (lnum == checked_lnum) { cur_checked_col = checked_col; } checked_lnum = 0; // When there was a sentence end in the previous line may require a // word starting with capital in this line. In line 1 always check // the first word. if (lnum != capcol_lnum) { cap_col = -1; } if (lnum == 1) { cap_col = 0; } capcol_lnum = 0; } // handle Visual active in this window if (VIsual_active && wp->w_buffer == curwin->w_buffer) { pos_T *top, *bot; if (ltoreq(curwin->w_cursor, VIsual)) { // Visual is after curwin->w_cursor top = &curwin->w_cursor; bot = &VIsual; } else { // Visual is before curwin->w_cursor top = &VIsual; bot = &curwin->w_cursor; } lnum_in_visual_area = (lnum >= top->lnum && lnum <= bot->lnum); if (VIsual_mode == Ctrl_V) { // block mode if (lnum_in_visual_area) { fromcol = wp->w_old_cursor_fcol; tocol = wp->w_old_cursor_lcol; } } else { // non-block mode if (lnum > top->lnum && lnum <= bot->lnum) { fromcol = 0; } else if (lnum == top->lnum) { if (VIsual_mode == 'V') { // linewise fromcol = 0; } else { getvvcol(wp, top, (colnr_T *)&fromcol, NULL, NULL); if (gchar_pos(top) == NUL) { tocol = fromcol + 1; } } } if (VIsual_mode != 'V' && lnum == bot->lnum) { if (*p_sel == 'e' && bot->col == 0 && bot->coladd == 0) { fromcol = -10; tocol = MAXCOL; } else if (bot->col == MAXCOL) { tocol = MAXCOL; } else { pos = *bot; if (*p_sel == 'e') { getvvcol(wp, &pos, (colnr_T *)&tocol, NULL, NULL); } else { getvvcol(wp, &pos, NULL, NULL, (colnr_T *)&tocol); tocol++; } } } } // Check if the char under the cursor should be inverted (highlighted). if (!highlight_match && lnum == curwin->w_cursor.lnum && wp == curwin && cursor_is_block_during_visual(*p_sel == 'e')) { noinvcur = true; } // if inverting in this line set area_highlighting if (fromcol >= 0) { area_highlighting = true; attr = win_hl_attr(wp, HLF_V); } // handle 'incsearch' and ":s///c" highlighting } else if (highlight_match && wp == curwin && !has_fold && lnum >= curwin->w_cursor.lnum && lnum <= curwin->w_cursor.lnum + search_match_lines) { if (lnum == curwin->w_cursor.lnum) { getvcol(curwin, &(curwin->w_cursor), (colnr_T *)&fromcol, NULL, NULL); } else { fromcol = 0; } if (lnum == curwin->w_cursor.lnum + search_match_lines) { pos.lnum = lnum; pos.col = search_match_endcol; getvcol(curwin, &pos, (colnr_T *)&tocol, NULL, NULL); } // do at least one character; happens when past end of line if (fromcol == tocol && search_match_endcol) { tocol = fromcol + 1; } area_highlighting = true; attr = win_hl_attr(wp, HLF_I); } } filler_lines = diff_check(wp, lnum); if (filler_lines < 0) { if (filler_lines == -1) { if (diff_find_change(wp, lnum, &change_start, &change_end)) diff_hlf = HLF_ADD; /* added line */ else if (change_start == 0) diff_hlf = HLF_TXD; /* changed text */ else diff_hlf = HLF_CHD; /* changed line */ } else diff_hlf = HLF_ADD; /* added line */ filler_lines = 0; area_highlighting = TRUE; } if (lnum == wp->w_topline) filler_lines = wp->w_topfill; filler_todo = filler_lines; // Cursor line highlighting for 'cursorline' in the current window. if (lnum == wp->w_cursor.lnum) { // Do not show the cursor line when Visual mode is active, because it's // not clear what is selected then. if (wp->w_p_cul && !(wp == curwin && VIsual_active)) { int cul_attr = win_hl_attr(wp, HLF_CUL); HlAttrs ae = syn_attr2entry(cul_attr); // We make a compromise here (#7383): // * low-priority CursorLine if fg is not set // * high-priority ("same as Vim" priority) CursorLine if fg is set if (ae.rgb_fg_color == -1 && ae.cterm_fg_color == 0) { line_attr_lowprio = cul_attr; } else { if (!(State & INSERT) && bt_quickfix(wp->w_buffer) && qf_current_entry(wp) == lnum) { line_attr = hl_combine_attr(cul_attr, line_attr); } else { line_attr = cul_attr; } } } // Update w_last_cursorline even if Visual mode is active. wp->w_last_cursorline = wp->w_cursor.lnum; } memset(sattrs, 0, sizeof(sattrs)); num_signs = buf_get_signattrs(wp->w_buffer, lnum, sattrs); // If this line has a sign with line highlighting set line_attr. // TODO(bfredl, vigoux): this should not take priority over decoration! sign_attrs_T * sattr = sign_get_attr(SIGN_LINEHL, sattrs, 0, 1); if (sattr != NULL) { line_attr = sattr->sat_linehl; } // Highlight the current line in the quickfix window. if (bt_quickfix(wp->w_buffer) && qf_current_entry(wp) == lnum) { line_attr = win_hl_attr(wp, HLF_QFL); } if (line_attr_lowprio || line_attr) { area_highlighting = true; } line = ml_get_buf(wp->w_buffer, lnum, FALSE); ptr = line; if (has_spell && !number_only) { // For checking first word with a capital skip white space. if (cap_col == 0) { cap_col = (int)getwhitecols(line); } /* To be able to spell-check over line boundaries copy the end of the * current line into nextline[]. Above the start of the next line was * copied to nextline[SPWORDLEN]. */ if (nextline[SPWORDLEN] == NUL) { /* No next line or it is empty. */ nextlinecol = MAXCOL; nextline_idx = 0; } else { v = (long)STRLEN(line); if (v < SPWORDLEN) { /* Short line, use it completely and append the start of the * next line. */ nextlinecol = 0; memmove(nextline, line, (size_t)v); STRMOVE(nextline + v, nextline + SPWORDLEN); nextline_idx = v + 1; } else { /* Long line, use only the last SPWORDLEN bytes. */ nextlinecol = v - SPWORDLEN; memmove(nextline, line + nextlinecol, SPWORDLEN); // -V512 nextline_idx = SPWORDLEN + 1; } } } if (wp->w_p_list && !has_fold) { if (wp->w_p_lcs_chars.space || wp->w_p_lcs_chars.trail || wp->w_p_lcs_chars.lead || wp->w_p_lcs_chars.nbsp) { extra_check = true; } // find start of trailing whitespace if (wp->w_p_lcs_chars.trail) { trailcol = (colnr_T)STRLEN(ptr); while (trailcol > (colnr_T)0 && ascii_iswhite(ptr[trailcol - 1])) { trailcol--; } trailcol += (colnr_T) (ptr - line); } // find end of leading whitespace if (wp->w_p_lcs_chars.lead) { leadcol = 0; while (ascii_iswhite(ptr[leadcol])) { leadcol++; } if (ptr[leadcol] == NUL) { // in a line full of spaces all of them are treated as trailing leadcol = (colnr_T)0; } else { // keep track of the first column not filled with spaces leadcol += (colnr_T)(ptr - line) + 1; } } } /* * 'nowrap' or 'wrap' and a single line that doesn't fit: Advance to the * first character to be displayed. */ if (wp->w_p_wrap) v = wp->w_skipcol; else v = wp->w_leftcol; if (v > 0 && !number_only) { char_u *prev_ptr = ptr; while (vcol < v && *ptr != NUL) { c = win_lbr_chartabsize(wp, line, ptr, (colnr_T)vcol, NULL); vcol += c; prev_ptr = ptr; MB_PTR_ADV(ptr); } // When: // - 'cuc' is set, or // - 'colorcolumn' is set, or // - 'virtualedit' is set, or // - the visual mode is active, // the end of the line may be before the start of the displayed part. if (vcol < v && (wp->w_p_cuc || draw_color_col || virtual_active() || (VIsual_active && wp->w_buffer == curwin->w_buffer))) { vcol = v; } /* Handle a character that's not completely on the screen: Put ptr at * that character but skip the first few screen characters. */ if (vcol > v) { vcol -= c; ptr = prev_ptr; // If the character fits on the screen, don't need to skip it. // Except for a TAB. if (utf_ptr2cells(ptr) >= c || *ptr == TAB) { n_skip = v - vcol; } } /* * Adjust for when the inverted text is before the screen, * and when the start of the inverted text is before the screen. */ if (tocol <= vcol) fromcol = 0; else if (fromcol >= 0 && fromcol < vcol) fromcol = vcol; // When w_skipcol is non-zero, first line needs 'showbreak' if (wp->w_p_wrap) { need_showbreak = true; } // When spell checking a word we need to figure out the start of the // word and if it's badly spelled or not. if (has_spell) { size_t len; colnr_T linecol = (colnr_T)(ptr - line); hlf_T spell_hlf = HLF_COUNT; pos = wp->w_cursor; wp->w_cursor.lnum = lnum; wp->w_cursor.col = linecol; len = spell_move_to(wp, FORWARD, TRUE, TRUE, &spell_hlf); /* spell_move_to() may call ml_get() and make "line" invalid */ line = ml_get_buf(wp->w_buffer, lnum, FALSE); ptr = line + linecol; if (len == 0 || (int)wp->w_cursor.col > ptr - line) { /* no bad word found at line start, don't check until end of a * word */ spell_hlf = HLF_COUNT; word_end = (int)(spell_to_word_end(ptr, wp) - line + 1); } else { /* bad word found, use attributes until end of word */ assert(len <= INT_MAX); word_end = wp->w_cursor.col + (int)len + 1; /* Turn index into actual attributes. */ if (spell_hlf != HLF_COUNT) spell_attr = highlight_attr[spell_hlf]; } wp->w_cursor = pos; // Need to restart syntax highlighting for this line. if (has_syntax) { syntax_start(wp, lnum); } } } /* * Correct highlighting for cursor that can't be disabled. * Avoids having to check this for each character. */ if (fromcol >= 0) { if (noinvcur) { if ((colnr_T)fromcol == wp->w_virtcol) { /* highlighting starts at cursor, let it start just after the * cursor */ fromcol_prev = fromcol; fromcol = -1; } else if ((colnr_T)fromcol < wp->w_virtcol) /* restart highlighting after the cursor */ fromcol_prev = wp->w_virtcol; } if (fromcol >= tocol) fromcol = -1; } /* * Handle highlighting the last used search pattern and matches. * Do this for both search_hl and the match list. */ cur = wp->w_match_head; shl_flag = false; while ((cur != NULL || !shl_flag) && !number_only && !has_fold ) { if (!shl_flag) { shl = &search_hl; shl_flag = true; } else { shl = &cur->hl; // -V595 } shl->startcol = MAXCOL; shl->endcol = MAXCOL; shl->attr_cur = 0; shl->is_addpos = false; v = (long)(ptr - line); if (cur != NULL) { cur->pos.cur = 0; } next_search_hl(wp, shl, lnum, (colnr_T)v, shl == &search_hl ? NULL : cur); if (wp->w_s->b_syn_slow) { has_syntax = false; } // Need to get the line again, a multi-line regexp may have made it // invalid. line = ml_get_buf(wp->w_buffer, lnum, false); ptr = line + v; if (shl->lnum != 0 && shl->lnum <= lnum) { if (shl->lnum == lnum) { shl->startcol = shl->rm.startpos[0].col; } else { shl->startcol = 0; } if (lnum == shl->lnum + shl->rm.endpos[0].lnum - shl->rm.startpos[0].lnum) { shl->endcol = shl->rm.endpos[0].col; } else { shl->endcol = MAXCOL; } // Highlight one character for an empty match. if (shl->startcol == shl->endcol) { if (line[shl->endcol] != NUL) { shl->endcol += (*mb_ptr2len)(line + shl->endcol); } else { ++shl->endcol; } } if ((long)shl->startcol < v) { // match at leftcol shl->attr_cur = shl->attr; search_attr = shl->attr; search_attr_from_match = shl != &search_hl; } area_highlighting = true; } if (shl != &search_hl && cur != NULL) cur = cur->next; } unsigned off = 0; // Offset relative start of line int col = 0; // Visual column on screen. if (wp->w_p_rl) { // Rightleft window: process the text in the normal direction, but put // it in linebuf_char[off] from right to left. Start at the // rightmost column of the window. col = grid->Columns - 1; off += col; } // wont highlight after TERM_ATTRS_MAX columns int term_attrs[TERM_ATTRS_MAX] = { 0 }; if (wp->w_buffer->terminal) { terminal_get_line_attributes(wp->w_buffer->terminal, wp, lnum, term_attrs); extra_check = true; } int sign_idx = 0; // Repeat for the whole displayed line. for (;; ) { int has_match_conc = 0; ///< match wants to conceal bool did_decrement_ptr = false; // Skip this quickly when working on the text. if (draw_state != WL_LINE) { if (draw_state == WL_CMDLINE - 1 && n_extra == 0) { draw_state = WL_CMDLINE; if (cmdwin_type != 0 && wp == curwin) { /* Draw the cmdline character. */ n_extra = 1; c_extra = cmdwin_type; c_final = NUL; char_attr = win_hl_attr(wp, HLF_AT); } } if (draw_state == WL_FOLD - 1 && n_extra == 0) { int fdc = compute_foldcolumn(wp, 0); draw_state = WL_FOLD; if (fdc > 0) { // Draw the 'foldcolumn'. Allocate a buffer, "extra" may // already be in use. xfree(p_extra_free); p_extra_free = xmalloc(MAX_MCO * fdc + 1); n_extra = (int)fill_foldcolumn(p_extra_free, wp, foldinfo, lnum); p_extra_free[n_extra] = NUL; p_extra = p_extra_free; c_extra = NUL; c_final = NUL; char_attr = win_hl_attr(wp, HLF_FC); } } // sign column, this is hit until sign_idx reaches count if (draw_state == WL_SIGN - 1 && n_extra == 0) { draw_state = WL_SIGN; /* Show the sign column when there are any signs in this * buffer or when using Netbeans. */ int count = win_signcol_count(wp); if (count > 0) { get_sign_display_info( false, wp, sattrs, row, startrow, filler_lines, filler_todo, count, &c_extra, &c_final, extra, sizeof(extra), &p_extra, &n_extra, &char_attr, &draw_state, &sign_idx); } } if (draw_state == WL_NR - 1 && n_extra == 0) { draw_state = WL_NR; /* Display the absolute or relative line number. After the * first fill with blanks when the 'n' flag isn't in 'cpo' */ if ((wp->w_p_nu || wp->w_p_rnu) && (row == startrow + filler_lines || vim_strchr(p_cpo, CPO_NUMCOL) == NULL)) { // If 'signcolumn' is set to 'number' and a sign is present // in 'lnum', then display the sign instead of the line // number. if (*wp->w_p_scl == 'n' && *(wp->w_p_scl + 1) == 'u' && num_signs > 0) { int count = win_signcol_count(wp); get_sign_display_info( true, wp, sattrs, row, startrow, filler_lines, filler_todo, count, &c_extra, &c_final, extra, sizeof(extra), &p_extra, &n_extra, &char_attr, &draw_state, &sign_idx); } else { if (row == startrow + filler_lines) { // Draw the line number (empty space after wrapping). */ long num; char *fmt = "%*ld "; if (wp->w_p_nu && !wp->w_p_rnu) { // 'number' + 'norelativenumber' num = (long)lnum; } else { // 'relativenumber', don't use negative numbers num = labs((long)get_cursor_rel_lnum(wp, lnum)); if (num == 0 && wp->w_p_nu && wp->w_p_rnu) { // 'number' + 'relativenumber' num = lnum; fmt = "%-*ld "; } } snprintf((char *)extra, sizeof(extra), fmt, number_width(wp), num); if (wp->w_skipcol > 0) { for (p_extra = extra; *p_extra == ' '; p_extra++) { *p_extra = '-'; } } if (wp->w_p_rl) { // reverse line numbers // like rl_mirror(), but keep the space at the end char_u *p2 = skipwhite(extra); p2 = skiptowhite(p2) - 1; for (char_u *p1 = skipwhite(extra); p1 < p2; p1++, p2--) { const int t = *p1; *p1 = *p2; *p2 = t; } } p_extra = extra; c_extra = NUL; c_final = NUL; } else { c_extra = ' '; c_final = NUL; } n_extra = number_width(wp) + 1; char_attr = win_hl_attr(wp, HLF_N); sign_attrs_T *num_sattr = sign_get_attr(SIGN_NUMHL, sattrs, 0, 1); if (num_sattr != NULL) { // :sign defined with "numhl" highlight. char_attr = num_sattr->sat_numhl; } else if ((wp->w_p_cul || wp->w_p_rnu) && lnum == wp->w_cursor.lnum && filler_todo == 0) { // When 'cursorline' is set highlight the line number of // the current line differently. // TODO(vim): Can we use CursorLine instead of CursorLineNr // when CursorLineNr isn't set? char_attr = win_hl_attr(wp, HLF_CLN); } } } } if (draw_state == WL_NR && n_extra == 0) { win_col_offset = off; } if (wp->w_briopt_sbr && draw_state == WL_BRI - 1 && n_extra == 0 && *p_sbr != NUL) { // draw indent after showbreak value draw_state = WL_BRI; } else if (wp->w_briopt_sbr && draw_state == WL_SBR && n_extra == 0) { // after the showbreak, draw the breakindent draw_state = WL_BRI - 1; } // draw 'breakindent': indent wrapped text accordingly if (draw_state == WL_BRI - 1 && n_extra == 0) { draw_state = WL_BRI; // if need_showbreak is set, breakindent also applies if (wp->w_p_bri && (row != startrow || need_showbreak) && filler_lines == 0) { char_attr = 0; if (diff_hlf != (hlf_T)0) { char_attr = win_hl_attr(wp, diff_hlf); if (wp->w_p_cul && lnum == wp->w_cursor.lnum) { char_attr = hl_combine_attr(char_attr, win_hl_attr(wp, HLF_CUL)); } } p_extra = NULL; c_extra = ' '; c_final = NUL; n_extra = get_breakindent_win(wp, ml_get_buf(wp->w_buffer, lnum, false)); if (row == startrow) { n_extra -= win_col_off2(wp); if (n_extra < 0) { n_extra = 0; } } if (wp->w_skipcol > 0 && wp->w_p_wrap && wp->w_briopt_sbr) { need_showbreak = false; } // Correct end of highlighted area for 'breakindent', // required wen 'linebreak' is also set. if (tocol == vcol) { tocol += n_extra; } } } if (draw_state == WL_SBR - 1 && n_extra == 0) { draw_state = WL_SBR; if (filler_todo > 0) { // draw "deleted" diff line(s) if (char2cells(wp->w_p_fcs_chars.diff) > 1) { c_extra = '-'; c_final = NUL; } else { c_extra = wp->w_p_fcs_chars.diff; c_final = NUL; } if (wp->w_p_rl) { n_extra = col + 1; } else { n_extra = grid->Columns - col; } char_attr = win_hl_attr(wp, HLF_DED); } if (*p_sbr != NUL && need_showbreak) { /* Draw 'showbreak' at the start of each broken line. */ p_extra = p_sbr; c_extra = NUL; c_final = NUL; n_extra = (int)STRLEN(p_sbr); char_attr = win_hl_attr(wp, HLF_AT); if (wp->w_skipcol == 0 || !wp->w_p_wrap) { need_showbreak = false; } vcol_sbr = vcol + MB_CHARLEN(p_sbr); /* Correct end of highlighted area for 'showbreak', * required when 'linebreak' is also set. */ if (tocol == vcol) tocol += n_extra; // Combine 'showbreak' with 'cursorline', prioritizing 'showbreak'. if (wp->w_p_cul && lnum == wp->w_cursor.lnum) { char_attr = hl_combine_attr(win_hl_attr(wp, HLF_CUL), char_attr); } } } if (draw_state == WL_LINE - 1 && n_extra == 0) { sign_idx = 0; draw_state = WL_LINE; if (has_decor && row == startrow + filler_lines) { // hide virt_text on text hidden by 'nowrap' decor_redraw_col(wp->w_buffer, vcol, off, true, &decor_state); } if (saved_n_extra) { /* Continue item from end of wrapped line. */ n_extra = saved_n_extra; c_extra = saved_c_extra; c_final = saved_c_final; p_extra = saved_p_extra; char_attr = saved_char_attr; } else { char_attr = 0; } } } // When still displaying '$' of change command, stop at cursor if (((dollar_vcol >= 0 && wp == curwin && lnum == wp->w_cursor.lnum && vcol >= (long)wp->w_virtcol) || (number_only && draw_state > WL_NR)) && filler_todo <= 0) { draw_virt_text(buf, win_col_offset, &col, grid->Columns); grid_put_linebuf(grid, row, 0, col, -grid->Columns, wp->w_p_rl, wp, wp->w_hl_attr_normal, false); // Pretend we have finished updating the window. Except when // 'cursorcolumn' is set. if (wp->w_p_cuc) { row = wp->w_cline_row + wp->w_cline_height; } else { row = grid->Rows; } break; } if (draw_state == WL_LINE && has_fold && vcol == 0 && n_extra == 0 && row == startrow) { char_attr = win_hl_attr(wp, HLF_FL); linenr_T lnume = lnum + foldinfo.fi_lines - 1; memset(buf_fold, ' ', FOLD_TEXT_LEN); p_extra = get_foldtext(wp, lnum, lnume, foldinfo, buf_fold); n_extra = STRLEN(p_extra); if (p_extra != buf_fold) { xfree(p_extra_free); p_extra_free = p_extra; } c_extra = NUL; c_final = NUL; p_extra[n_extra] = NUL; } if (draw_state == WL_LINE && has_fold && col < grid->Columns && n_extra == 0 && row == startrow) { // fill rest of line with 'fold' c_extra = wp->w_p_fcs_chars.fold; c_final = NUL; n_extra = wp->w_p_rl ? (col + 1) : (grid->Columns - col); } if (draw_state == WL_LINE && has_fold && col >= grid->Columns && n_extra != 0 && row == startrow) { // Truncate the folding. n_extra = 0; } if (draw_state == WL_LINE && (area_highlighting || has_spell)) { // handle Visual or match highlighting in this line if (vcol == fromcol || (vcol + 1 == fromcol && n_extra == 0 && utf_ptr2cells(ptr) > 1) || ((int)vcol_prev == fromcol_prev && vcol_prev < vcol // not at margin && vcol < tocol)) { area_attr = attr; // start highlighting if (area_highlighting) { area_active = true; } } else if (area_attr != 0 && (vcol == tocol || (noinvcur && (colnr_T)vcol == wp->w_virtcol))) { area_attr = 0; // stop highlighting area_active = false; } if (!n_extra) { /* * Check for start/end of search pattern match. * After end, check for start/end of next match. * When another match, have to check for start again. * Watch out for matching an empty string! * Do this for 'search_hl' and the match list (ordered by * priority). */ v = (long)(ptr - line); cur = wp->w_match_head; shl_flag = false; while (cur != NULL || !shl_flag) { if (!shl_flag && (cur == NULL || cur->priority > SEARCH_HL_PRIORITY)) { shl = &search_hl; shl_flag = true; } else { shl = &cur->hl; } if (cur != NULL) { cur->pos.cur = 0; } bool pos_inprogress = true; // mark that a position match search is // in progress while (shl->rm.regprog != NULL || (cur != NULL && pos_inprogress)) { if (shl->startcol != MAXCOL && v >= (long)shl->startcol && v < (long)shl->endcol) { int tmp_col = v + utfc_ptr2len(ptr); if (shl->endcol < tmp_col) { shl->endcol = tmp_col; } shl->attr_cur = shl->attr; // Match with the "Conceal" group results in hiding // the match. if (cur != NULL && shl != &search_hl && syn_name2id((char_u *)"Conceal") == cur->hlg_id) { has_match_conc = v == (long)shl->startcol ? 2 : 1; match_conc = cur->conceal_char; } else { has_match_conc = 0; } } else if (v == (long)shl->endcol) { shl->attr_cur = 0; next_search_hl(wp, shl, lnum, (colnr_T)v, shl == &search_hl ? NULL : cur); pos_inprogress = !(cur == NULL || cur->pos.cur == 0); /* Need to get the line again, a multi-line regexp * may have made it invalid. */ line = ml_get_buf(wp->w_buffer, lnum, FALSE); ptr = line + v; if (shl->lnum == lnum) { shl->startcol = shl->rm.startpos[0].col; if (shl->rm.endpos[0].lnum == 0) shl->endcol = shl->rm.endpos[0].col; else shl->endcol = MAXCOL; if (shl->startcol == shl->endcol) { // highlight empty match, try again after it shl->endcol += (*mb_ptr2len)(line + shl->endcol); } // Loop to check if the match starts at the // current position continue; } } break; } if (shl != &search_hl && cur != NULL) cur = cur->next; } /* Use attributes from match with highest priority among * 'search_hl' and the match list. */ search_attr_from_match = false; search_attr = search_hl.attr_cur; cur = wp->w_match_head; shl_flag = false; while (cur != NULL || !shl_flag) { if (!shl_flag && (cur == NULL || cur->priority > SEARCH_HL_PRIORITY)) { shl = &search_hl; shl_flag = true; } else { shl = &cur->hl; } if (shl->attr_cur != 0) { search_attr = shl->attr_cur; search_attr_from_match = shl != &search_hl; } if (shl != &search_hl && cur != NULL) cur = cur->next; } // Only highlight one character after the last column. if (*ptr == NUL && (wp->w_p_list && lcs_eol_one == -1)) { search_attr = 0; } // Do not allow a conceal over EOL otherwise EOL will be missed // and bad things happen. if (*ptr == NUL) { has_match_conc = 0; } } if (diff_hlf != (hlf_T)0) { if (diff_hlf == HLF_CHD && ptr - line >= change_start && n_extra == 0) { diff_hlf = HLF_TXD; // changed text } if (diff_hlf == HLF_TXD && ptr - line > change_end && n_extra == 0) { diff_hlf = HLF_CHD; // changed line } line_attr = win_hl_attr(wp, diff_hlf); // Overlay CursorLine onto diff-mode highlight. if (wp->w_p_cul && lnum == wp->w_cursor.lnum) { line_attr = 0 != line_attr_lowprio // Low-priority CursorLine ? hl_combine_attr(hl_combine_attr(win_hl_attr(wp, HLF_CUL), line_attr), hl_get_underline()) : hl_combine_attr(line_attr, win_hl_attr(wp, HLF_CUL)); } } // Decide which of the highlight attributes to use. attr_pri = true; if (area_attr != 0) { char_attr = hl_combine_attr(line_attr, area_attr); } else if (search_attr != 0) { char_attr = hl_combine_attr(line_attr, search_attr); } // Use line_attr when not in the Visual or 'incsearch' area // (area_attr may be 0 when "noinvcur" is set). else if (line_attr != 0 && ((fromcol == -10 && tocol == MAXCOL) || vcol < fromcol || vcol_prev < fromcol_prev || vcol >= tocol)) { char_attr = line_attr; } else { attr_pri = false; if (has_syntax) { char_attr = syntax_attr; } else { char_attr = 0; } } } // Get the next character to put on the screen. // // The "p_extra" points to the extra stuff that is inserted to // represent special characters (non-printable stuff) and other // things. When all characters are the same, c_extra is used. // If c_final is set, it will compulsorily be used at the end. // "p_extra" must end in a NUL to avoid mb_ptr2len() reads past // "p_extra[n_extra]". // For the '$' of the 'list' option, n_extra == 1, p_extra == "". if (n_extra > 0) { if (c_extra != NUL || (n_extra == 1 && c_final != NUL)) { c = (n_extra == 1 && c_final != NUL) ? c_final : c_extra; mb_c = c; // doesn't handle non-utf-8 multi-byte! if (utf_char2len(c) > 1) { mb_utf8 = true; u8cc[0] = 0; c = 0xc0; } else { mb_utf8 = false; } } else { assert(p_extra != NULL); c = *p_extra; mb_c = c; // If the UTF-8 character is more than one byte: // Decode it into "mb_c". mb_l = utfc_ptr2len(p_extra); mb_utf8 = false; if (mb_l > n_extra) { mb_l = 1; } else if (mb_l > 1) { mb_c = utfc_ptr2char(p_extra, u8cc); mb_utf8 = true; c = 0xc0; } if (mb_l == 0) { // at the NUL at end-of-line mb_l = 1; } // If a double-width char doesn't fit display a '>' in the last column. if ((wp->w_p_rl ? (col <= 0) : (col >= grid->Columns - 1)) && (*mb_char2cells)(mb_c) == 2) { c = '>'; mb_c = c; mb_l = 1; (void)mb_l; multi_attr = win_hl_attr(wp, HLF_AT); // put the pointer back to output the double-width // character at the start of the next line. n_extra++; p_extra--; } else { n_extra -= mb_l - 1; p_extra += mb_l - 1; } p_extra++; } n_extra--; } else if (foldinfo.fi_lines > 0) { // skip writing the buffer line itself c = NUL; XFREE_CLEAR(p_extra_free); } else { int c0; XFREE_CLEAR(p_extra_free); // Get a character from the line itself. c0 = c = *ptr; mb_c = c; // If the UTF-8 character is more than one byte: Decode it // into "mb_c". mb_l = utfc_ptr2len(ptr); mb_utf8 = false; if (mb_l > 1) { mb_c = utfc_ptr2char(ptr, u8cc); // Overlong encoded ASCII or ASCII with composing char // is displayed normally, except a NUL. if (mb_c < 0x80) { c0 = c = mb_c; } mb_utf8 = true; // At start of the line we can have a composing char. // Draw it as a space with a composing char. if (utf_iscomposing(mb_c)) { int i; for (i = MAX_MCO - 1; i > 0; i--) { u8cc[i] = u8cc[i - 1]; } u8cc[0] = mb_c; mb_c = ' '; } } if ((mb_l == 1 && c >= 0x80) || (mb_l >= 1 && mb_c == 0) || (mb_l > 1 && (!vim_isprintc(mb_c)))) { // Illegal UTF-8 byte: display as . // Non-BMP character : display as ? or fullwidth ?. transchar_hex((char *)extra, mb_c); if (wp->w_p_rl) { // reverse rl_mirror(extra); } p_extra = extra; c = *p_extra; mb_c = mb_ptr2char_adv((const char_u **)&p_extra); mb_utf8 = (c >= 0x80); n_extra = (int)STRLEN(p_extra); c_extra = NUL; c_final = NUL; if (area_attr == 0 && search_attr == 0) { n_attr = n_extra + 1; extra_attr = win_hl_attr(wp, HLF_8); saved_attr2 = char_attr; // save current attr } } else if (mb_l == 0) { // at the NUL at end-of-line mb_l = 1; } else if (p_arshape && !p_tbidi && arabic_char(mb_c)) { // Do Arabic shaping. int pc, pc1, nc; int pcc[MAX_MCO]; // The idea of what is the previous and next // character depends on 'rightleft'. if (wp->w_p_rl) { pc = prev_c; pc1 = prev_c1; nc = utf_ptr2char(ptr + mb_l); prev_c1 = u8cc[0]; } else { pc = utfc_ptr2char(ptr + mb_l, pcc); nc = prev_c; pc1 = pcc[0]; } prev_c = mb_c; mb_c = arabic_shape(mb_c, &c, &u8cc[0], pc, pc1, nc); } else { prev_c = mb_c; } // If a double-width char doesn't fit display a '>' in the // last column; the character is displayed at the start of the // next line. if ((wp->w_p_rl ? (col <= 0) : (col >= grid->Columns - 1)) && (*mb_char2cells)(mb_c) == 2) { c = '>'; mb_c = c; mb_utf8 = false; mb_l = 1; multi_attr = win_hl_attr(wp, HLF_AT); // Put pointer back so that the character will be // displayed at the start of the next line. ptr--; did_decrement_ptr = true; } else if (*ptr != NUL) { ptr += mb_l - 1; } // If a double-width char doesn't fit at the left side display a '<' in // the first column. Don't do this for unprintable characters. if (n_skip > 0 && mb_l > 1 && n_extra == 0) { n_extra = 1; c_extra = MB_FILLER_CHAR; c_final = NUL; c = ' '; if (area_attr == 0 && search_attr == 0) { n_attr = n_extra + 1; extra_attr = win_hl_attr(wp, HLF_AT); saved_attr2 = char_attr; // save current attr } mb_c = c; mb_utf8 = false; mb_l = 1; } ptr++; if (extra_check) { bool can_spell = true; /* Get syntax attribute, unless still at the start of the line * (double-wide char that doesn't fit). */ v = (long)(ptr - line); if (has_syntax && v > 0) { /* Get the syntax attribute for the character. If there * is an error, disable syntax highlighting. */ save_did_emsg = did_emsg; did_emsg = FALSE; syntax_attr = get_syntax_attr((colnr_T)v - 1, has_spell ? &can_spell : NULL, false); if (did_emsg) { wp->w_s->b_syn_error = TRUE; has_syntax = FALSE; } else did_emsg = save_did_emsg; /* Need to get the line again, a multi-line regexp may * have made it invalid. */ line = ml_get_buf(wp->w_buffer, lnum, FALSE); ptr = line + v; if (!attr_pri) { char_attr = syntax_attr; } else { char_attr = hl_combine_attr(syntax_attr, char_attr); } // no concealing past the end of the line, it interferes // with line highlighting. if (c == NUL) { syntax_flags = 0; } else { syntax_flags = get_syntax_info(&syntax_seqnr); } } else if (!attr_pri) { char_attr = 0; } /* Check spelling (unless at the end of the line). * Only do this when there is no syntax highlighting, the * @Spell cluster is not used or the current syntax item * contains the @Spell cluster. */ v = (long)(ptr - line); if (has_spell && v >= word_end && v > cur_checked_col) { spell_attr = 0; if (!attr_pri) { char_attr = syntax_attr; } if (c != 0 && (!has_syntax || can_spell)) { char_u *prev_ptr; char_u *p; int len; hlf_T spell_hlf = HLF_COUNT; prev_ptr = ptr - mb_l; v -= mb_l - 1; /* Use nextline[] if possible, it has the start of the * next line concatenated. */ if ((prev_ptr - line) - nextlinecol >= 0) { p = nextline + ((prev_ptr - line) - nextlinecol); } else { p = prev_ptr; } cap_col -= (int)(prev_ptr - line); size_t tmplen = spell_check(wp, p, &spell_hlf, &cap_col, nochange); assert(tmplen <= INT_MAX); len = (int)tmplen; word_end = v + len; /* In Insert mode only highlight a word that * doesn't touch the cursor. */ if (spell_hlf != HLF_COUNT && (State & INSERT) != 0 && wp->w_cursor.lnum == lnum && wp->w_cursor.col >= (colnr_T)(prev_ptr - line) && wp->w_cursor.col < (colnr_T)word_end) { spell_hlf = HLF_COUNT; spell_redraw_lnum = lnum; } if (spell_hlf == HLF_COUNT && p != prev_ptr && (p - nextline) + len > nextline_idx) { /* Remember that the good word continues at the * start of the next line. */ checked_lnum = lnum + 1; checked_col = (int)((p - nextline) + len - nextline_idx); } /* Turn index into actual attributes. */ if (spell_hlf != HLF_COUNT) spell_attr = highlight_attr[spell_hlf]; if (cap_col > 0) { if (p != prev_ptr && (p - nextline) + cap_col >= nextline_idx) { /* Remember that the word in the next line * must start with a capital. */ capcol_lnum = lnum + 1; cap_col = (int)((p - nextline) + cap_col - nextline_idx); } else /* Compute the actual column. */ cap_col += (int)(prev_ptr - line); } } } if (spell_attr != 0) { if (!attr_pri) char_attr = hl_combine_attr(char_attr, spell_attr); else char_attr = hl_combine_attr(spell_attr, char_attr); } if (wp->w_buffer->terminal) { char_attr = hl_combine_attr(term_attrs[vcol], char_attr); } if (has_decor && v > 0) { bool selected = (area_active || (area_highlighting && noinvcur && (colnr_T)vcol == wp->w_virtcol)); int extmark_attr = decor_redraw_col(wp->w_buffer, (colnr_T)v-1, off, selected, &decor_state); if (extmark_attr != 0) { if (!attr_pri) { char_attr = hl_combine_attr(char_attr, extmark_attr); } else { char_attr = hl_combine_attr(extmark_attr, char_attr); } } } // Found last space before word: check for line break. if (wp->w_p_lbr && c0 == c && vim_isbreak(c) && !vim_isbreak((int)(*ptr))) { int mb_off = utf_head_off(line, ptr - 1); char_u *p = ptr - (mb_off + 1); // TODO: is passing p for start of the line OK? n_extra = win_lbr_chartabsize(wp, line, p, (colnr_T)vcol, NULL) - 1; if (c == TAB && n_extra + col > grid->Columns) { n_extra = tabstop_padding(vcol, wp->w_buffer->b_p_ts, wp->w_buffer->b_p_vts_array) - 1; } c_extra = mb_off > 0 ? MB_FILLER_CHAR : ' '; c_final = NUL; if (ascii_iswhite(c)) { if (c == TAB) /* See "Tab alignment" below. */ FIX_FOR_BOGUSCOLS; if (!wp->w_p_list) { c = ' '; } } } // 'list': change char 160 to 'nbsp' and space to 'space'. if (wp->w_p_list && (((c == 160 || (mb_utf8 && (mb_c == 160 || mb_c == 0x202f))) && curwin->w_p_lcs_chars.nbsp) || (c == ' ' && curwin->w_p_lcs_chars.space && ptr - line >= leadcol && ptr - line <= trailcol))) { c = (c == ' ') ? wp->w_p_lcs_chars.space : wp->w_p_lcs_chars.nbsp; n_attr = 1; extra_attr = win_hl_attr(wp, HLF_0); saved_attr2 = char_attr; // save current attr mb_c = c; if (utf_char2len(c) > 1) { mb_utf8 = true; u8cc[0] = 0; c = 0xc0; } else { mb_utf8 = false; } } if ((trailcol != MAXCOL && ptr > line + trailcol && c == ' ') || (leadcol != 0 && ptr < line + leadcol && c == ' ')) { c = (ptr > line + trailcol) ? wp->w_p_lcs_chars.trail : wp->w_p_lcs_chars.lead; n_attr = 1; extra_attr = win_hl_attr(wp, HLF_0); saved_attr2 = char_attr; // save current attr mb_c = c; if (utf_char2len(c) > 1) { mb_utf8 = true; u8cc[0] = 0; c = 0xc0; } else { mb_utf8 = false; } } } /* * Handling of non-printable characters. */ if (!vim_isprintc(c)) { // when getting a character from the file, we may have to // turn it into something else on the way to putting it on the screen. if (c == TAB && (!wp->w_p_list || wp->w_p_lcs_chars.tab1)) { int tab_len = 0; long vcol_adjusted = vcol; // removed showbreak length // Only adjust the tab_len, when at the first column after the // showbreak value was drawn. if (*p_sbr != NUL && vcol == vcol_sbr && wp->w_p_wrap) { vcol_adjusted = vcol - MB_CHARLEN(p_sbr); } // tab amount depends on current column tab_len = tabstop_padding(vcol_adjusted, wp->w_buffer->b_p_ts, wp->w_buffer->b_p_vts_array) - 1; if (!wp->w_p_lbr || !wp->w_p_list) { n_extra = tab_len; } else { char_u *p; int i; int saved_nextra = n_extra; if (vcol_off > 0) { // there are characters to conceal tab_len += vcol_off; } // boguscols before FIX_FOR_BOGUSCOLS macro from above. if (wp->w_p_lcs_chars.tab1 && old_boguscols > 0 && n_extra > tab_len) { tab_len += n_extra - tab_len; } // if n_extra > 0, it gives the number of chars // to use for a tab, else we need to calculate the width // for a tab int len = (tab_len * mb_char2len(wp->w_p_lcs_chars.tab2)); if (n_extra > 0) { len += n_extra - tab_len; } c = wp->w_p_lcs_chars.tab1; p = xmalloc(len + 1); memset(p, ' ', len); p[len] = NUL; xfree(p_extra_free); p_extra_free = p; for (i = 0; i < tab_len; i++) { if (*p == NUL) { tab_len = i; break; } int lcs = wp->w_p_lcs_chars.tab2; // if tab3 is given, need to change the char // for tab if (wp->w_p_lcs_chars.tab3 && i == tab_len - 1) { lcs = wp->w_p_lcs_chars.tab3; } utf_char2bytes(lcs, p); p += mb_char2len(lcs); n_extra += mb_char2len(lcs) - (saved_nextra > 0 ? 1 : 0); } p_extra = p_extra_free; // n_extra will be increased by FIX_FOX_BOGUSCOLS // macro below, so need to adjust for that here if (vcol_off > 0) { n_extra -= vcol_off; } } { int vc_saved = vcol_off; // Tab alignment should be identical regardless of // 'conceallevel' value. So tab compensates of all // previous concealed characters, and thus resets // vcol_off and boguscols accumulated so far in the // line. Note that the tab can be longer than // 'tabstop' when there are concealed characters. FIX_FOR_BOGUSCOLS; // Make sure, the highlighting for the tab char will be // correctly set further below (effectively reverts the // FIX_FOR_BOGSUCOLS macro. if (n_extra == tab_len + vc_saved && wp->w_p_list && wp->w_p_lcs_chars.tab1) { tab_len += vc_saved; } } mb_utf8 = false; // don't draw as UTF-8 if (wp->w_p_list) { c = (n_extra == 0 && wp->w_p_lcs_chars.tab3) ? wp->w_p_lcs_chars.tab3 : wp->w_p_lcs_chars.tab1; if (wp->w_p_lbr) { c_extra = NUL; /* using p_extra from above */ } else { c_extra = wp->w_p_lcs_chars.tab2; } c_final = wp->w_p_lcs_chars.tab3; n_attr = tab_len + 1; extra_attr = win_hl_attr(wp, HLF_0); saved_attr2 = char_attr; // save current attr mb_c = c; if (utf_char2len(c) > 1) { mb_utf8 = true; u8cc[0] = 0; c = 0xc0; } } else { c_final = NUL; c_extra = ' '; c = ' '; } } else if (c == NUL && (wp->w_p_list || ((fromcol >= 0 || fromcol_prev >= 0) && tocol > vcol && VIsual_mode != Ctrl_V && (wp->w_p_rl ? (col >= 0) : (col < grid->Columns)) && !(noinvcur && lnum == wp->w_cursor.lnum && (colnr_T)vcol == wp->w_virtcol))) && lcs_eol_one > 0) { // Display a '$' after the line or highlight an extra // character if the line break is included. // For a diff line the highlighting continues after the "$". if (diff_hlf == (hlf_T)0 && line_attr == 0 && line_attr_lowprio == 0) { // In virtualedit, visual selections may extend beyond end of line if (area_highlighting && virtual_active() && tocol != MAXCOL && vcol < tocol) { n_extra = 0; } else { p_extra = at_end_str; n_extra = 1; c_extra = NUL; c_final = NUL; } } if (wp->w_p_list && wp->w_p_lcs_chars.eol > 0) { c = wp->w_p_lcs_chars.eol; } else { c = ' '; } lcs_eol_one = -1; ptr--; // put it back at the NUL extra_attr = win_hl_attr(wp, HLF_AT); n_attr = 1; mb_c = c; if (utf_char2len(c) > 1) { mb_utf8 = true; u8cc[0] = 0; c = 0xc0; } else { mb_utf8 = false; // don't draw as UTF-8 } } else if (c != NUL) { p_extra = transchar_buf(wp->w_buffer, c); if (n_extra == 0) { n_extra = byte2cells(c) - 1; } if ((dy_flags & DY_UHEX) && wp->w_p_rl) rl_mirror(p_extra); /* reverse "<12>" */ c_extra = NUL; c_final = NUL; if (wp->w_p_lbr) { char_u *p; c = *p_extra; p = xmalloc(n_extra + 1); memset(p, ' ', n_extra); STRNCPY(p, p_extra + 1, STRLEN(p_extra) - 1); p[n_extra] = NUL; xfree(p_extra_free); p_extra_free = p_extra = p; } else { n_extra = byte2cells(c) - 1; c = *p_extra++; } n_attr = n_extra + 1; extra_attr = win_hl_attr(wp, HLF_8); saved_attr2 = char_attr; // save current attr mb_utf8 = false; // don't draw as UTF-8 } else if (VIsual_active && (VIsual_mode == Ctrl_V || VIsual_mode == 'v') && virtual_active() && tocol != MAXCOL && vcol < tocol && (wp->w_p_rl ? (col >= 0) : (col < grid->Columns))) { c = ' '; ptr--; // put it back at the NUL } } if (wp->w_p_cole > 0 && (wp != curwin || lnum != wp->w_cursor.lnum || conceal_cursor_line(wp)) && ((syntax_flags & HL_CONCEAL) != 0 || has_match_conc > 0) && !(lnum_in_visual_area && vim_strchr(wp->w_p_cocu, 'v') == NULL)) { char_attr = conceal_attr; if ((prev_syntax_id != syntax_seqnr || has_match_conc > 1) && (syn_get_sub_char() != NUL || (has_match_conc && match_conc) || wp->w_p_cole == 1) && wp->w_p_cole != 3) { // First time at this concealed item: display one // character. if (has_match_conc && match_conc) { c = match_conc; } else if (syn_get_sub_char() != NUL) { c = syn_get_sub_char(); } else if (wp->w_p_lcs_chars.conceal != NUL) { c = wp->w_p_lcs_chars.conceal; } else { c = ' '; } prev_syntax_id = syntax_seqnr; if (n_extra > 0) vcol_off += n_extra; vcol += n_extra; if (wp->w_p_wrap && n_extra > 0) { if (wp->w_p_rl) { col -= n_extra; boguscols -= n_extra; } else { boguscols += n_extra; col += n_extra; } } n_extra = 0; n_attr = 0; } else if (n_skip == 0) { is_concealing = TRUE; n_skip = 1; } mb_c = c; if (utf_char2len(c) > 1) { mb_utf8 = true; u8cc[0] = 0; c = 0xc0; } else { mb_utf8 = false; // don't draw as UTF-8 } } else { prev_syntax_id = 0; is_concealing = FALSE; } if (n_skip > 0 && did_decrement_ptr) { // not showing the '>', put pointer back to avoid getting stuck ptr++; } } // end of printing from buffer content /* In the cursor line and we may be concealing characters: correct * the cursor column when we reach its position. */ if (!did_wcol && draw_state == WL_LINE && wp == curwin && lnum == wp->w_cursor.lnum && conceal_cursor_line(wp) && (int)wp->w_virtcol <= vcol + n_skip) { if (wp->w_p_rl) { wp->w_wcol = grid->Columns - col + boguscols - 1; } else { wp->w_wcol = col - boguscols; } wp->w_wrow = row; did_wcol = true; wp->w_valid |= VALID_WCOL|VALID_WROW|VALID_VIRTCOL; } // Don't override visual selection highlighting. if (n_attr > 0 && draw_state == WL_LINE && !search_attr_from_match) { char_attr = hl_combine_attr(char_attr, extra_attr); } // Handle the case where we are in column 0 but not on the first // character of the line and the user wants us to show us a // special character (via 'listchars' option "precedes:". if (lcs_prec_todo != NUL && wp->w_p_list && (wp->w_p_wrap ? (wp->w_skipcol > 0 && row == 0) : wp->w_leftcol > 0) && filler_todo <= 0 && draw_state > WL_NR && c != NUL) { c = wp->w_p_lcs_chars.prec; lcs_prec_todo = NUL; if ((*mb_char2cells)(mb_c) > 1) { // Double-width character being overwritten by the "precedes" // character, need to fill up half the character. c_extra = MB_FILLER_CHAR; c_final = NUL; n_extra = 1; n_attr = 2; extra_attr = win_hl_attr(wp, HLF_AT); } mb_c = c; if (utf_char2len(c) > 1) { mb_utf8 = true; u8cc[0] = 0; c = 0xc0; } else { mb_utf8 = false; // don't draw as UTF-8 } saved_attr3 = char_attr; // save current attr char_attr = win_hl_attr(wp, HLF_AT); // overwriting char_attr n_attr3 = 1; } // At end of the text line or just after the last character. if (c == NUL && eol_hl_off == 0) { long prevcol = (long)(ptr - line) - 1; // we're not really at that column when skipping some text if ((long)(wp->w_p_wrap ? wp->w_skipcol : wp->w_leftcol) > prevcol) { prevcol++; } // Invert at least one char, used for Visual and empty line or // highlight match at end of line. If it's beyond the last // char on the screen, just overwrite that one (tricky!) Not // needed when a '$' was displayed for 'list'. prevcol_hl_flag = false; if (!search_hl.is_addpos && prevcol == (long)search_hl.startcol) { prevcol_hl_flag = true; } else { cur = wp->w_match_head; while (cur != NULL) { if (!cur->hl.is_addpos && prevcol == (long)cur->hl.startcol) { prevcol_hl_flag = true; break; } cur = cur->next; } } if (wp->w_p_lcs_chars.eol == lcs_eol_one && ((area_attr != 0 && vcol == fromcol && (VIsual_mode != Ctrl_V || lnum == VIsual.lnum || lnum == curwin->w_cursor.lnum)) // highlight 'hlsearch' match at end of line || prevcol_hl_flag)) { int n = 0; if (wp->w_p_rl) { if (col < 0) n = 1; } else { if (col >= grid->Columns) { n = -1; } } if (n != 0) { /* At the window boundary, highlight the last character * instead (better than nothing). */ off += n; col += n; } else { // Add a blank character to highlight. schar_from_ascii(linebuf_char[off], ' '); } if (area_attr == 0 && !has_fold) { // Use attributes from match with highest priority among // 'search_hl' and the match list. char_attr = search_hl.attr; cur = wp->w_match_head; shl_flag = false; while (cur != NULL || !shl_flag) { if (!shl_flag && (cur == NULL || cur->priority > SEARCH_HL_PRIORITY)) { shl = &search_hl; shl_flag = true; } else { shl = &cur->hl; } if ((ptr - line) - 1 == (long)shl->startcol && (shl == &search_hl || !shl->is_addpos)) { char_attr = shl->attr; } if (shl != &search_hl && cur != NULL) { cur = cur->next; } } } int eol_attr = char_attr; if (wp->w_p_cul && lnum == wp->w_cursor.lnum) { eol_attr = hl_combine_attr(win_hl_attr(wp, HLF_CUL), eol_attr); } linebuf_attr[off] = eol_attr; if (wp->w_p_rl) { --col; --off; } else { ++col; ++off; } ++vcol; eol_hl_off = 1; } // Highlight 'cursorcolumn' & 'colorcolumn' past end of the line. if (wp->w_p_wrap) { v = wp->w_skipcol; } else { v = wp->w_leftcol; } /* check if line ends before left margin */ if (vcol < v + col - win_col_off(wp)) vcol = v + col - win_col_off(wp); // Get rid of the boguscols now, we want to draw until the right // edge for 'cursorcolumn'. col -= boguscols; // boguscols = 0; // Disabled because value never read after this if (draw_color_col) draw_color_col = advance_color_col(VCOL_HLC, &color_cols); VirtText virt_text = KV_INITIAL_VALUE; bool has_aligned = false; if (err_text) { int hl_err = syn_check_group((char_u *)S_LEN("ErrorMsg")); kv_push(virt_text, ((VirtTextChunk){ .text = err_text, .hl_id = hl_err })); do_virttext = true; } else if (has_decor) { virt_text = decor_redraw_eol(wp->w_buffer, &decor_state, &line_attr, &has_aligned); if (kv_size(virt_text)) { do_virttext = true; } } if (((wp->w_p_cuc && (int)wp->w_virtcol >= VCOL_HLC - eol_hl_off && (int)wp->w_virtcol < grid->Columns * (row - startrow + 1) + v && lnum != wp->w_cursor.lnum) || draw_color_col || line_attr_lowprio || line_attr || diff_hlf != (hlf_T)0 || do_virttext || has_aligned)) { int rightmost_vcol = 0; int i; size_t virt_pos = 0; LineState s = LINE_STATE(""); int virt_attr = 0; // Make sure alignment is the same regardless // if listchars=eol:X is used or not. bool delay_virttext = wp->w_p_lcs_chars.eol == lcs_eol_one && eol_hl_off == 0; if (wp->w_p_cuc) { rightmost_vcol = wp->w_virtcol; } if (draw_color_col) { // determine rightmost colorcolumn to possibly draw for (i = 0; color_cols[i] >= 0; i++) { if (rightmost_vcol < color_cols[i]) { rightmost_vcol = color_cols[i]; } } } int cuc_attr = win_hl_attr(wp, HLF_CUC); int mc_attr = win_hl_attr(wp, HLF_MC); int diff_attr = 0; if (diff_hlf == HLF_TXD) { diff_hlf = HLF_CHD; } if (diff_hlf != 0) { diff_attr = win_hl_attr(wp, diff_hlf); } int base_attr = hl_combine_attr(line_attr_lowprio, diff_attr); if (base_attr || line_attr || has_aligned) { rightmost_vcol = INT_MAX; } int col_stride = wp->w_p_rl ? -1 : 1; while (wp->w_p_rl ? col >= 0 : col < grid->Columns) { int cells = -1; if (do_virttext && !delay_virttext) { if (*s.p == NUL) { if (virt_pos < virt_text.size) { s.p = kv_A(virt_text, virt_pos).text; int hl_id = kv_A(virt_text, virt_pos).hl_id; virt_attr = hl_id > 0 ? syn_id2attr(hl_id) : 0; virt_pos++; } else { do_virttext = false; } } if (*s.p != NUL) { cells = line_putchar(&s, &linebuf_char[off], grid->Columns - col, false); } } delay_virttext = false; if (cells == -1) { schar_from_ascii(linebuf_char[off], ' '); cells = 1; } col += cells * col_stride; if (draw_color_col) { draw_color_col = advance_color_col(VCOL_HLC, &color_cols); } int col_attr = base_attr; if (wp->w_p_cuc && VCOL_HLC == (long)wp->w_virtcol) { col_attr = cuc_attr; } else if (draw_color_col && VCOL_HLC == *color_cols) { col_attr = mc_attr; } if (do_virttext) { col_attr = hl_combine_attr(col_attr, virt_attr); } col_attr = hl_combine_attr(col_attr, line_attr); linebuf_attr[off] = col_attr; if (cells == 2) { linebuf_attr[off+1] = col_attr; } off += cells * col_stride; if (VCOL_HLC >= rightmost_vcol && *s.p == NUL && virt_pos >= virt_text.size) { break; } vcol += cells; } } // TODO(bfredl): integrate with the common beyond-the-end-loop if (wp->w_buffer->terminal) { // terminal buffers may need to highlight beyond the end of the // logical line int n = wp->w_p_rl ? -1 : 1; while (col >= 0 && col < grid->Columns) { schar_from_ascii(linebuf_char[off], ' '); linebuf_attr[off] = vcol >= TERM_ATTRS_MAX ? 0 : term_attrs[vcol]; off += n; vcol += n; col += n; } } draw_virt_text(buf, win_col_offset, &col, grid->Columns); grid_put_linebuf(grid, row, 0, col, grid->Columns, wp->w_p_rl, wp, wp->w_hl_attr_normal, false); row++; /* * Update w_cline_height and w_cline_folded if the cursor line was * updated (saves a call to plines() later). */ if (wp == curwin && lnum == curwin->w_cursor.lnum) { curwin->w_cline_row = startrow; curwin->w_cline_height = row - startrow; curwin->w_cline_folded = foldinfo.fi_lines > 0; curwin->w_valid |= (VALID_CHEIGHT|VALID_CROW); conceal_cursor_used = conceal_cursor_line(curwin); } break; } // Show "extends" character from 'listchars' if beyond the line end and // 'list' is set. if (wp->w_p_lcs_chars.ext != NUL && wp->w_p_list && !wp->w_p_wrap && filler_todo <= 0 && (wp->w_p_rl ? col == 0 : col == grid->Columns - 1) && !has_fold && (*ptr != NUL || lcs_eol_one > 0 || (n_extra && (c_extra != NUL || *p_extra != NUL)))) { c = wp->w_p_lcs_chars.ext; char_attr = win_hl_attr(wp, HLF_AT); mb_c = c; if (utf_char2len(c) > 1) { mb_utf8 = true; u8cc[0] = 0; c = 0xc0; } else { mb_utf8 = false; } } // advance to the next 'colorcolumn' if (draw_color_col) { draw_color_col = advance_color_col(VCOL_HLC, &color_cols); } // Highlight the cursor column if 'cursorcolumn' is set. But don't // highlight the cursor position itself. // Also highlight the 'colorcolumn' if it is different than // 'cursorcolumn' // Also highlight the 'colorcolumn' if 'breakindent' and/or 'showbreak' // options are set vcol_save_attr = -1; if ((draw_state == WL_LINE || draw_state == WL_BRI || draw_state == WL_SBR) && !lnum_in_visual_area && search_attr == 0 && area_attr == 0 && filler_todo <= 0) { if (wp->w_p_cuc && VCOL_HLC == (long)wp->w_virtcol && lnum != wp->w_cursor.lnum) { vcol_save_attr = char_attr; char_attr = hl_combine_attr(win_hl_attr(wp, HLF_CUC), char_attr); } else if (draw_color_col && VCOL_HLC == *color_cols) { vcol_save_attr = char_attr; char_attr = hl_combine_attr(win_hl_attr(wp, HLF_MC), char_attr); } } // Apply lowest-priority line attr now, so everything can override it. if (draw_state == WL_LINE) { char_attr = hl_combine_attr(line_attr_lowprio, char_attr); } // Store character to be displayed. // Skip characters that are left of the screen for 'nowrap'. vcol_prev = vcol; if (draw_state < WL_LINE || n_skip <= 0) { // // Store the character. // if (wp->w_p_rl && (*mb_char2cells)(mb_c) > 1) { // A double-wide character is: put first halve in left cell. off--; col--; } if (mb_utf8) { schar_from_cc(linebuf_char[off], mb_c, u8cc); } else { schar_from_ascii(linebuf_char[off], c); } if (multi_attr) { linebuf_attr[off] = multi_attr; multi_attr = 0; } else { linebuf_attr[off] = char_attr; } if ((*mb_char2cells)(mb_c) > 1) { // Need to fill two screen columns. off++; col++; // UTF-8: Put a 0 in the second screen char. linebuf_char[off][0] = 0; if (draw_state > WL_NR && filler_todo <= 0) { vcol++; } // When "tocol" is halfway through a character, set it to the end of // the character, otherwise highlighting won't stop. if (tocol == vcol) { tocol++; } if (wp->w_p_rl) { /* now it's time to backup one cell */ --off; --col; } } if (wp->w_p_rl) { --off; --col; } else { ++off; ++col; } } else if (wp->w_p_cole > 0 && is_concealing) { --n_skip; ++vcol_off; if (n_extra > 0) vcol_off += n_extra; if (wp->w_p_wrap) { /* * Special voodoo required if 'wrap' is on. * * Advance the column indicator to force the line * drawing to wrap early. This will make the line * take up the same screen space when parts are concealed, * so that cursor line computations aren't messed up. * * To avoid the fictitious advance of 'col' causing * trailing junk to be written out of the screen line * we are building, 'boguscols' keeps track of the number * of bad columns we have advanced. */ if (n_extra > 0) { vcol += n_extra; if (wp->w_p_rl) { col -= n_extra; boguscols -= n_extra; } else { col += n_extra; boguscols += n_extra; } n_extra = 0; n_attr = 0; } if ((*mb_char2cells)(mb_c) > 1) { // Need to fill two screen columns. if (wp->w_p_rl) { --boguscols; --col; } else { ++boguscols; ++col; } } if (wp->w_p_rl) { --boguscols; --col; } else { ++boguscols; ++col; } } else { if (n_extra > 0) { vcol += n_extra; n_extra = 0; n_attr = 0; } } } else --n_skip; /* Only advance the "vcol" when after the 'number' or 'relativenumber' * column. */ if (draw_state > WL_NR && filler_todo <= 0 ) ++vcol; if (vcol_save_attr >= 0) char_attr = vcol_save_attr; /* restore attributes after "predeces" in 'listchars' */ if (draw_state > WL_NR && n_attr3 > 0 && --n_attr3 == 0) char_attr = saved_attr3; /* restore attributes after last 'listchars' or 'number' char */ if (n_attr > 0 && draw_state == WL_LINE && --n_attr == 0) char_attr = saved_attr2; /* * At end of screen line and there is more to come: Display the line * so far. If there is no more to display it is caught above. */ if ((wp->w_p_rl ? (col < 0) : (col >= grid->Columns)) && foldinfo.fi_lines == 0 && (*ptr != NUL || filler_todo > 0 || (wp->w_p_list && wp->w_p_lcs_chars.eol != NUL && p_extra != at_end_str) || (n_extra != 0 && (c_extra != NUL || *p_extra != NUL))) ) { bool wrap = wp->w_p_wrap // Wrapping enabled. && filler_todo <= 0 // Not drawing diff filler lines. && lcs_eol_one != -1 // Haven't printed the lcs_eol character. && row != endrow - 1 // Not the last line being displayed. && (grid->Columns == Columns // Window spans the width of the screen, || ui_has(kUIMultigrid)) // or has dedicated grid. && !wp->w_p_rl; // Not right-to-left. int draw_col = col - boguscols; draw_virt_text(buf, win_col_offset, &draw_col, grid->Columns); grid_put_linebuf(grid, row, 0, draw_col, grid->Columns, wp->w_p_rl, wp, wp->w_hl_attr_normal, wrap); if (wrap) { ScreenGrid *current_grid = grid; int current_row = row, dummy_col = 0; // dummy_col unused screen_adjust_grid(¤t_grid, ¤t_row, &dummy_col); // Force a redraw of the first column of the next line. current_grid->attrs[current_grid->line_offset[current_row+1]] = -1; // Remember that the line wraps, used for modeless copy. current_grid->line_wraps[current_row] = true; } boguscols = 0; row++; /* When not wrapping and finished diff lines, or when displayed * '$' and highlighting until last column, break here. */ if ((!wp->w_p_wrap && filler_todo <= 0 ) || lcs_eol_one == -1) break; // When the window is too narrow draw all "@" lines. if (draw_state != WL_LINE && filler_todo <= 0) { win_draw_end(wp, '@', ' ', true, row, wp->w_grid.Rows, HLF_AT); row = endrow; } /* When line got too long for screen break here. */ if (row == endrow) { ++row; break; } col = 0; off = 0; if (wp->w_p_rl) { col = grid->Columns - 1; // col is not used if breaking! off += col; } /* reset the drawing state for the start of a wrapped line */ draw_state = WL_START; saved_n_extra = n_extra; saved_p_extra = p_extra; saved_c_extra = c_extra; saved_c_final = c_final; saved_char_attr = char_attr; n_extra = 0; lcs_prec_todo = wp->w_p_lcs_chars.prec; if (filler_todo <= 0) { need_showbreak = true; } filler_todo--; // When the filler lines are actually below the last line of the // file, don't draw the line itself, break here. if (filler_todo == 0 && wp->w_botfill) { break; } } } /* for every character in the line */ /* After an empty line check first word for capital. */ if (*skipwhite(line) == NUL) { capcol_lnum = lnum + 1; cap_col = 0; } xfree(p_extra_free); xfree(err_text); return row; } void draw_virt_text(buf_T *buf, int col_off, int *end_col, int max_col) { DecorState *state = &decor_state; int right_pos = max_col; for (size_t i = 0; i < kv_size(state->active); i++) { DecorRange *item = &kv_A(state->active, i); if (item->start_row == state->row && kv_size(item->decor.virt_text)) { if (item->win_col == -1) { if (item->decor.virt_text_pos == kVTRightAlign) { right_pos -= item->decor.col; item->win_col = right_pos; } else if (item->decor.virt_text_pos == kVTWinCol) { item->win_col = MAX(item->decor.col+col_off, 0); } } if (item->win_col < 0) { continue; } VirtText vt = item->decor.virt_text; HlMode hl_mode = item->decor.hl_mode; LineState s = LINE_STATE(""); int virt_attr = 0; int col = item->win_col; size_t virt_pos = 0; item->win_col = -2; // deactivate while (col < max_col) { if (!*s.p) { if (virt_pos == kv_size(vt)) { break; } s.p = kv_A(vt, virt_pos).text; int hl_id = kv_A(vt, virt_pos).hl_id; virt_attr = hl_id > 0 ? syn_id2attr(hl_id) : 0; virt_pos++; continue; } int attr; bool through = false; if (hl_mode == kHlModeCombine) { attr = hl_combine_attr(linebuf_attr[col], virt_attr); } else if (hl_mode == kHlModeBlend) { through = (*s.p == ' '); attr = hl_blend_attrs(linebuf_attr[col], virt_attr, &through); } else { attr = virt_attr; } schar_T dummy[2]; int cells = line_putchar(&s, through ? dummy : &linebuf_char[col], max_col-col, false); linebuf_attr[col++] = attr; if (cells > 1) { linebuf_attr[col++] = attr; } } *end_col = MAX(*end_col, col); } } } /// Determine if dedicated window grid should be used or the default_grid /// /// If UI did not request multigrid support, draw all windows on the /// default_grid. /// /// NB: this function can only been used with window grids in a context where /// win_grid_alloc already has been called! /// /// If the default_grid is used, adjust window relative positions to global /// screen positions. void screen_adjust_grid(ScreenGrid **grid, int *row_off, int *col_off) { if ((*grid)->target) { *row_off += (*grid)->row_offset; *col_off += (*grid)->col_offset; *grid = (*grid)->target; } } // Get information needed to display the sign in line 'lnum' in window 'wp'. // If 'nrcol' is TRUE, the sign is going to be displayed in the number column. // Otherwise the sign is going to be displayed in the sign column. // // @param count max number of signs // @param[out] n_extrap number of characters from pp_extra to display // @param[in, out] sign_idxp Index of the displayed sign static void get_sign_display_info( bool nrcol, win_T *wp, sign_attrs_T sattrs[], int row, int startrow, int filler_lines, int filler_todo, int count, int *c_extrap, int *c_finalp, char_u *extra, size_t extra_size, char_u **pp_extra, int *n_extrap, int *char_attrp, int *draw_statep, int *sign_idxp ) { // Draw cells with the sign value or blank. *c_extrap = ' '; *c_finalp = NUL; if (nrcol) { *n_extrap = number_width(wp) + 1; } else { *char_attrp = win_hl_attr(wp, HLF_SC); *n_extrap = win_signcol_width(wp); } if (row == startrow + filler_lines && filler_todo <= 0) { sign_attrs_T *sattr = sign_get_attr(SIGN_TEXT, sattrs, *sign_idxp, count); if (sattr != NULL) { *pp_extra = sattr->sat_text; if (*pp_extra != NULL) { *c_extrap = NUL; *c_finalp = NUL; if (nrcol) { int n, width = number_width(wp) - 2; for (n = 0; n < width; n++) { extra[n] = ' '; } extra[n] = NUL; STRCAT(extra, *pp_extra); STRCAT(extra, " "); *pp_extra = extra; *n_extrap = (int)STRLEN(*pp_extra); } else { int symbol_blen = (int)STRLEN(*pp_extra); // TODO(oni-link): Is sign text already extended to // full cell width? assert((size_t)win_signcol_width(wp) >= mb_string2cells(*pp_extra)); // symbol(s) bytes + (filling spaces) (one byte each) *n_extrap = symbol_blen + (win_signcol_width(wp) - mb_string2cells(*pp_extra)); assert(extra_size > (size_t)symbol_blen); memset(extra, ' ', extra_size); memcpy(extra, *pp_extra, symbol_blen); *pp_extra = extra; (*pp_extra)[*n_extrap] = NUL; } } *char_attrp = sattr->sat_texthl; } } (*sign_idxp)++; if (*sign_idxp < count) { *draw_statep = WL_SIGN - 1; } else { *sign_idxp = 0; } } /* * Check whether the given character needs redrawing: * - the (first byte of the) character is different * - the attributes are different * - the character is multi-byte and the next byte is different * - the character is two cells wide and the second cell differs. */ static int grid_char_needs_redraw(ScreenGrid *grid, int off_from, int off_to, int cols) { return (cols > 0 && ((schar_cmp(linebuf_char[off_from], grid->chars[off_to]) || linebuf_attr[off_from] != grid->attrs[off_to] || (line_off2cells(linebuf_char, off_from, off_from + cols) > 1 && schar_cmp(linebuf_char[off_from + 1], grid->chars[off_to + 1]))) || rdb_flags & RDB_NODELTA)); } /// Move one buffered line to the window grid, but only the characters that /// have actually changed. Handle insert/delete character. /// "coloff" gives the first column on the grid for this line. /// "endcol" gives the columns where valid characters are. /// "clear_width" is the width of the window. It's > 0 if the rest of the line /// needs to be cleared, negative otherwise. /// "rlflag" is TRUE in a rightleft window: /// When TRUE and "clear_width" > 0, clear columns 0 to "endcol" /// When FALSE and "clear_width" > 0, clear columns "endcol" to "clear_width" /// If "wrap" is true, then hint to the UI that "row" contains a line /// which has wrapped into the next row. static void grid_put_linebuf(ScreenGrid *grid, int row, int coloff, int endcol, int clear_width, int rlflag, win_T *wp, int bg_attr, bool wrap) { unsigned off_from; unsigned off_to; unsigned max_off_from; unsigned max_off_to; int col = 0; bool redraw_this; // Does character need redraw? bool redraw_next; // redraw_this for next character bool clear_next = false; int char_cells; // 1: normal char // 2: occupies two display cells int start_dirty = -1, end_dirty = 0; // TODO(bfredl): check all callsites and eliminate // Check for illegal row and col, just in case if (row >= grid->Rows) { row = grid->Rows - 1; } if (endcol > grid->Columns) { endcol = grid->Columns; } screen_adjust_grid(&grid, &row, &coloff); // Safety check. Avoids clang warnings down the call stack. if (grid->chars == NULL || row >= grid->Rows || coloff >= grid->Columns) { DLOG("invalid state, skipped"); return; } off_from = 0; off_to = grid->line_offset[row] + coloff; max_off_from = linebuf_size; max_off_to = grid->line_offset[row] + grid->Columns; if (rlflag) { /* Clear rest first, because it's left of the text. */ if (clear_width > 0) { while (col <= endcol && grid->chars[off_to][0] == ' ' && grid->chars[off_to][1] == NUL && grid->attrs[off_to] == bg_attr ) { ++off_to; ++col; } if (col <= endcol) { grid_fill(grid, row, row + 1, col + coloff, endcol + coloff + 1, ' ', ' ', bg_attr); } } col = endcol + 1; off_to = grid->line_offset[row] + col + coloff; off_from += col; endcol = (clear_width > 0 ? clear_width : -clear_width); } if (bg_attr) { for (int c = col; c < endcol; c++) { linebuf_attr[off_from+c] = hl_combine_attr(bg_attr, linebuf_attr[off_from+c]); } } redraw_next = grid_char_needs_redraw(grid, off_from, off_to, endcol - col); while (col < endcol) { char_cells = 1; if (col + 1 < endcol) { char_cells = line_off2cells(linebuf_char, off_from, max_off_from); } redraw_this = redraw_next; redraw_next = grid_char_needs_redraw(grid, off_from + char_cells, off_to + char_cells, endcol - col - char_cells); if (redraw_this) { if (start_dirty == -1) { start_dirty = col; } end_dirty = col + char_cells; // When writing a single-width character over a double-width // character and at the end of the redrawn text, need to clear out // the right halve of the old character. // Also required when writing the right halve of a double-width // char over the left halve of an existing one if (col + char_cells == endcol && ((char_cells == 1 && grid_off2cells(grid, off_to, max_off_to) > 1) || (char_cells == 2 && grid_off2cells(grid, off_to, max_off_to) == 1 && grid_off2cells(grid, off_to + 1, max_off_to) > 1))) { clear_next = true; } schar_copy(grid->chars[off_to], linebuf_char[off_from]); if (char_cells == 2) { schar_copy(grid->chars[off_to+1], linebuf_char[off_from+1]); } grid->attrs[off_to] = linebuf_attr[off_from]; // For simplicity set the attributes of second half of a // double-wide character equal to the first half. if (char_cells == 2) { grid->attrs[off_to + 1] = linebuf_attr[off_from]; } } off_to += char_cells; off_from += char_cells; col += char_cells; } if (clear_next) { /* Clear the second half of a double-wide character of which the left * half was overwritten with a single-wide character. */ schar_from_ascii(grid->chars[off_to], ' '); end_dirty++; } int clear_end = -1; if (clear_width > 0 && !rlflag) { // blank out the rest of the line // TODO(bfredl): we could cache winline widths while (col < clear_width) { if (grid->chars[off_to][0] != ' ' || grid->chars[off_to][1] != NUL || grid->attrs[off_to] != bg_attr) { grid->chars[off_to][0] = ' '; grid->chars[off_to][1] = NUL; grid->attrs[off_to] = bg_attr; if (start_dirty == -1) { start_dirty = col; end_dirty = col; } else if (clear_end == -1) { end_dirty = endcol; } clear_end = col+1; } col++; off_to++; } } if (clear_width > 0 || wp->w_width != grid->Columns) { // If we cleared after the end of the line, it did not wrap. // For vsplit, line wrapping is not possible. grid->line_wraps[row] = false; } if (clear_end < end_dirty) { clear_end = end_dirty; } if (start_dirty == -1) { start_dirty = end_dirty; } if (clear_end > start_dirty) { ui_line(grid, row, coloff+start_dirty, coloff+end_dirty, coloff+clear_end, bg_attr, wrap); } } /* * Mirror text "str" for right-left displaying. * Only works for single-byte characters (e.g., numbers). */ void rl_mirror(char_u *str) { char_u *p1, *p2; int t; for (p1 = str, p2 = str + STRLEN(str) - 1; p1 < p2; ++p1, --p2) { t = *p1; *p1 = *p2; *p2 = t; } } /* * mark all status lines for redraw; used after first :cd */ void status_redraw_all(void) { FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_status_height) { wp->w_redr_status = true; redraw_later(wp, VALID); } } } /// Marks all status lines of the current buffer for redraw. void status_redraw_curbuf(void) { status_redraw_buf(curbuf); } /// Marks all status lines of the specified buffer for redraw. void status_redraw_buf(buf_T *buf) { FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_status_height != 0 && wp->w_buffer == buf) { wp->w_redr_status = true; redraw_later(wp, 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_redr_status(wp); } } 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); } } /* * Draw the verticap separator right of window "wp" starting with line "row". */ static void draw_vsep_win(win_T *wp, int row) { int hl; int c; if (wp->w_vsep_width) { // draw the vertical separator right of this window c = fillchar_vsep(wp, &hl); grid_fill(&default_grid, wp->w_winrow + row, W_ENDROW(wp), W_ENDCOL(wp), W_ENDCOL(wp) + 1, c, ' ', hl); } } /* * Get the length of an item as it will be shown in the status line. */ static int status_match_len(expand_T *xp, char_u *s) { int len = 0; int emenu = (xp->xp_context == EXPAND_MENUS || xp->xp_context == EXPAND_MENUNAMES); /* Check for menu separators - replace with '|'. */ if (emenu && menu_is_separator(s)) return 1; while (*s != NUL) { s += skip_status_match_char(xp, s); len += ptr2cells(s); MB_PTR_ADV(s); } return len; } /* * Return the number of characters that should be skipped in a status match. * These are backslashes used for escaping. Do show backslashes in help tags. */ static int skip_status_match_char(expand_T *xp, char_u *s) { if ((rem_backslash(s) && xp->xp_context != EXPAND_HELP) || ((xp->xp_context == EXPAND_MENUS || xp->xp_context == EXPAND_MENUNAMES) && (s[0] == '\t' || (s[0] == '\\' && s[1] != NUL))) ) { #ifndef BACKSLASH_IN_FILENAME if (xp->xp_shell && csh_like_shell() && s[1] == '\\' && s[2] == '!') return 2; #endif return 1; } return 0; } /* * Show wildchar matches in the status line. * Show at least the "match" item. * We start at item 'first_match' in the list and show all matches that fit. * * If inversion is possible we use it. Else '=' characters are used. */ void win_redr_status_matches ( expand_T *xp, int num_matches, char_u **matches, /* list of matches */ int match, int showtail ) { #define L_MATCH(m) (showtail ? sm_gettail(matches[m], false) : matches[m]) int row; char_u *buf; int len; int clen; /* length in screen cells */ int fillchar; int attr; int i; int highlight = TRUE; char_u *selstart = NULL; int selstart_col = 0; char_u *selend = NULL; static int first_match = 0; int add_left = FALSE; char_u *s; int emenu; int l; if (matches == NULL) /* interrupted completion? */ return; buf = xmalloc(Columns * MB_MAXBYTES + 1); if (match == -1) { /* don't show match but original text */ match = 0; highlight = FALSE; } /* count 1 for the ending ">" */ clen = status_match_len(xp, L_MATCH(match)) + 3; if (match == 0) first_match = 0; else if (match < first_match) { /* jumping left, as far as we can go */ first_match = match; add_left = TRUE; } else { /* check if match fits on the screen */ for (i = first_match; i < match; ++i) clen += status_match_len(xp, L_MATCH(i)) + 2; if (first_match > 0) clen += 2; // jumping right, put match at the left if ((long)clen > Columns) { first_match = match; /* if showing the last match, we can add some on the left */ clen = 2; for (i = match; i < num_matches; ++i) { clen += status_match_len(xp, L_MATCH(i)) + 2; if ((long)clen >= Columns) { break; } } if (i == num_matches) add_left = TRUE; } } if (add_left) while (first_match > 0) { clen += status_match_len(xp, L_MATCH(first_match - 1)) + 2; if ((long)clen >= Columns) { break; } first_match--; } fillchar = fillchar_status(&attr, curwin); if (first_match == 0) { *buf = NUL; len = 0; } else { STRCPY(buf, "< "); len = 2; } clen = len; i = first_match; while ((long)(clen + status_match_len(xp, L_MATCH(i)) + 2) < Columns) { if (i == match) { selstart = buf + len; selstart_col = clen; } s = L_MATCH(i); /* Check for menu separators - replace with '|' */ emenu = (xp->xp_context == EXPAND_MENUS || xp->xp_context == EXPAND_MENUNAMES); if (emenu && menu_is_separator(s)) { STRCPY(buf + len, transchar('|')); l = (int)STRLEN(buf + len); len += l; clen += l; } else for (; *s != NUL; ++s) { s += skip_status_match_char(xp, s); clen += ptr2cells(s); if ((l = (*mb_ptr2len)(s)) > 1) { STRNCPY(buf + len, s, l); // NOLINT(runtime/printf) s += l - 1; len += l; } else { STRCPY(buf + len, transchar_byte(*s)); len += (int)STRLEN(buf + len); } } if (i == match) selend = buf + len; *(buf + len++) = ' '; *(buf + len++) = ' '; clen += 2; if (++i == num_matches) break; } if (i != num_matches) { *(buf + len++) = '>'; ++clen; } buf[len] = NUL; row = cmdline_row - 1; if (row >= 0) { if (wild_menu_showing == 0 || wild_menu_showing == WM_LIST) { if (msg_scrolled > 0) { /* Put the wildmenu just above the command line. If there is * no room, scroll the screen one line up. */ if (cmdline_row == Rows - 1) { msg_scroll_up(false); msg_scrolled++; } else { cmdline_row++; row++; } wild_menu_showing = WM_SCROLLED; } else { /* Create status line if needed by setting 'laststatus' to 2. * Set 'winminheight' to zero to avoid that the window is * resized. */ if (lastwin->w_status_height == 0) { save_p_ls = p_ls; save_p_wmh = p_wmh; p_ls = 2; p_wmh = 0; last_status(FALSE); } wild_menu_showing = WM_SHOWN; } } // Tricky: wildmenu can be drawn either over a status line, or at empty // scrolled space in the message output ScreenGrid *grid = (wild_menu_showing == WM_SCROLLED) ? &msg_grid_adj : &default_grid; grid_puts(grid, buf, row, 0, attr); if (selstart != NULL && highlight) { *selend = NUL; grid_puts(grid, selstart, row, selstart_col, HL_ATTR(HLF_WM)); } grid_fill(grid, row, row + 1, clen, Columns, fillchar, fillchar, attr); } win_redraw_last_status(topframe); xfree(buf); } /// Redraw the status line of window `wp`. /// /// If inversion is possible we use it. Else '=' characters are used. static void win_redr_status(win_T *wp) { int row; char_u *p; int len; int fillchar; int attr; int this_ru_col; static int busy = FALSE; // May get here recursively when 'statusline' (indirectly) // invokes ":redrawstatus". Simply ignore the call then. if (busy // Also ignore if wildmenu is showing. || (wild_menu_showing != 0 && !ui_has(kUIWildmenu))) { return; } busy = true; wp->w_redr_status = FALSE; if (wp->w_status_height == 0) { // no status line, can only be last window redraw_cmdline = true; } else if (!redrawing()) { // Don't redraw right now, do it later. Don't update status line when // popup menu is visible and may be drawn over it wp->w_redr_status = true; } else if (*p_stl != NUL || *wp->w_p_stl != NUL) { /* redraw custom status line */ redraw_custom_statusline(wp); } else { fillchar = fillchar_status(&attr, wp); get_trans_bufname(wp->w_buffer); p = NameBuff; len = (int)STRLEN(p); if (bt_help(wp->w_buffer) || wp->w_p_pvw || bufIsChanged(wp->w_buffer) || wp->w_buffer->b_p_ro) { *(p + len++) = ' '; } if (bt_help(wp->w_buffer)) { STRCPY(p + len, _("[Help]")); len += (int)STRLEN(p + len); } if (wp->w_p_pvw) { STRCPY(p + len, _("[Preview]")); len += (int)STRLEN(p + len); } if (bufIsChanged(wp->w_buffer)) { STRCPY(p + len, "[+]"); len += 3; } if (wp->w_buffer->b_p_ro) { STRCPY(p + len, _("[RO]")); // len += (int)STRLEN(p + len); // dead assignment } this_ru_col = ru_col - (Columns - wp->w_width); if (this_ru_col < (wp->w_width + 1) / 2) { this_ru_col = (wp->w_width + 1) / 2; } if (this_ru_col <= 1) { p = (char_u *)"<"; // No room for file name! len = 1; } else { int clen = 0, i; // Count total number of display cells. clen = (int)mb_string2cells(p); // Find first character that will fit. // Going from start to end is much faster for DBCS. for (i = 0; p[i] != NUL && clen >= this_ru_col - 1; i += utfc_ptr2len(p + i)) { clen -= utf_ptr2cells(p + i); } len = clen; if (i > 0) { p = p + i - 1; *p = '<'; ++len; } } row = W_ENDROW(wp); grid_puts(&default_grid, p, row, wp->w_wincol, attr); grid_fill(&default_grid, row, row + 1, len + wp->w_wincol, this_ru_col + wp->w_wincol, fillchar, fillchar, attr); if (get_keymap_str(wp, (char_u *)"<%s>", NameBuff, MAXPATHL) && this_ru_col - len > (int)(STRLEN(NameBuff) + 1)) grid_puts(&default_grid, NameBuff, row, (int)(this_ru_col - STRLEN(NameBuff) - 1), attr); win_redr_ruler(wp, TRUE); } /* * May need to draw the character below the vertical separator. */ if (wp->w_vsep_width != 0 && wp->w_status_height != 0 && redrawing()) { if (stl_connected(wp)) { fillchar = fillchar_status(&attr, wp); } else { fillchar = fillchar_vsep(wp, &attr); } grid_putchar(&default_grid, fillchar, W_ENDROW(wp), W_ENDCOL(wp), attr); } busy = FALSE; } /* * Redraw the status line according to 'statusline' and take care of any * errors encountered. */ static void redraw_custom_statusline(win_T *wp) { static int entered = false; int saved_did_emsg = did_emsg; /* When called recursively return. This can happen when the statusline * contains an expression that triggers a redraw. */ if (entered) return; entered = TRUE; did_emsg = false; win_redr_custom(wp, false); if (did_emsg) { // When there is an error disable the statusline, otherwise the // display is messed up with errors and a redraw triggers the problem // again and again. set_string_option_direct("statusline", -1, (char_u *)"", OPT_FREE | (*wp->w_p_stl != NUL ? OPT_LOCAL : OPT_GLOBAL), SID_ERROR); } did_emsg |= saved_did_emsg; entered = false; } /* * Return TRUE if the status line of window "wp" is connected to the status * line of the window right of it. If not, then it's a vertical separator. * Only call if (wp->w_vsep_width != 0). */ int stl_connected(win_T *wp) { frame_T *fr; fr = wp->w_frame; while (fr->fr_parent != NULL) { if (fr->fr_parent->fr_layout == FR_COL) { if (fr->fr_next != NULL) break; } else { if (fr->fr_next != NULL) return TRUE; } fr = fr->fr_parent; } return FALSE; } /* * Get the value to show for the language mappings, active 'keymap'. */ int get_keymap_str ( win_T *wp, char_u *fmt, // format string containing one %s item char_u *buf, // buffer for the result int len // length of buffer ) { char_u *p; if (wp->w_buffer->b_p_iminsert != B_IMODE_LMAP) return FALSE; { buf_T *old_curbuf = curbuf; win_T *old_curwin = curwin; char_u *s; curbuf = wp->w_buffer; curwin = wp; STRCPY(buf, "b:keymap_name"); /* must be writable */ ++emsg_skip; s = p = eval_to_string(buf, NULL, FALSE); --emsg_skip; curbuf = old_curbuf; curwin = old_curwin; if (p == NULL || *p == NUL) { if (wp->w_buffer->b_kmap_state & KEYMAP_LOADED) { p = wp->w_buffer->b_p_keymap; } else { p = (char_u *)"lang"; } } if (vim_snprintf((char *)buf, len, (char *)fmt, p) > len - 1) { buf[0] = NUL; } xfree(s); } return buf[0] != NUL; } /* * Redraw the status line or ruler of window "wp". * When "wp" is NULL redraw the tab pages line from 'tabline'. */ static void win_redr_custom ( win_T *wp, bool draw_ruler ) { static int entered = FALSE; int attr; int curattr; int row; int col = 0; int maxwidth; int width; int n; int len; int fillchar; char_u buf[MAXPATHL]; char_u *stl; char_u *p; stl_hlrec_t *hltab; StlClickRecord *tabtab; int use_sandbox = false; win_T *ewp; int p_crb_save; ScreenGrid *grid = &default_grid; /* There is a tiny chance that this gets called recursively: When * redrawing a status line triggers redrawing the ruler or tabline. * Avoid trouble by not allowing recursion. */ if (entered) return; entered = TRUE; /* setup environment for the task at hand */ if (wp == NULL) { /* Use 'tabline'. Always at the first line of the screen. */ stl = p_tal; row = 0; fillchar = ' '; attr = HL_ATTR(HLF_TPF); maxwidth = Columns; use_sandbox = was_set_insecurely(wp, (char_u *)"tabline", 0); } else { row = W_ENDROW(wp); fillchar = fillchar_status(&attr, wp); maxwidth = wp->w_width; if (draw_ruler) { stl = p_ruf; /* advance past any leading group spec - implicit in ru_col */ if (*stl == '%') { if (*++stl == '-') stl++; if (atoi((char *)stl)) while (ascii_isdigit(*stl)) stl++; if (*stl++ != '(') stl = p_ruf; } col = ru_col - (Columns - wp->w_width); if (col < (wp->w_width + 1) / 2) { col = (wp->w_width + 1) / 2; } maxwidth = wp->w_width - col; if (!wp->w_status_height) { grid = &msg_grid_adj; row = Rows - 1; maxwidth--; // writing in last column may cause scrolling fillchar = ' '; attr = HL_ATTR(HLF_MSG); } use_sandbox = was_set_insecurely(wp, (char_u *)"rulerformat", 0); } else { if (*wp->w_p_stl != NUL) stl = wp->w_p_stl; else stl = p_stl; use_sandbox = was_set_insecurely( wp, (char_u *)"statusline", *wp->w_p_stl == NUL ? 0 : OPT_LOCAL); } col += wp->w_wincol; } if (maxwidth <= 0) goto theend; /* Temporarily reset 'cursorbind', we don't want a side effect from moving * the cursor away and back. */ ewp = wp == NULL ? curwin : wp; p_crb_save = ewp->w_p_crb; ewp->w_p_crb = FALSE; /* Make a copy, because the statusline may include a function call that * might change the option value and free the memory. */ stl = vim_strsave(stl); width = build_stl_str_hl(ewp, buf, sizeof(buf), stl, use_sandbox, fillchar, maxwidth, &hltab, &tabtab); xfree(stl); ewp->w_p_crb = p_crb_save; // Make all characters printable. p = (char_u *)transstr((const char *)buf); len = STRLCPY(buf, p, sizeof(buf)); len = (size_t)len < sizeof(buf) ? len : (int)sizeof(buf) - 1; xfree(p); /* fill up with "fillchar" */ while (width < maxwidth && len < (int)sizeof(buf) - 1) { len += utf_char2bytes(fillchar, buf + len); width++; } buf[len] = NUL; /* * Draw each snippet with the specified highlighting. */ grid_puts_line_start(grid, row); curattr = attr; p = buf; for (n = 0; hltab[n].start != NULL; n++) { int textlen = (int)(hltab[n].start - p); grid_puts_len(grid, p, textlen, row, col, curattr); col += vim_strnsize(p, textlen); p = hltab[n].start; if (hltab[n].userhl == 0) curattr = attr; else if (hltab[n].userhl < 0) curattr = syn_id2attr(-hltab[n].userhl); else if (wp != NULL && wp != curwin && wp->w_status_height != 0) curattr = highlight_stlnc[hltab[n].userhl - 1]; else curattr = highlight_user[hltab[n].userhl - 1]; } // Make sure to use an empty string instead of p, if p is beyond buf + len. grid_puts(grid, p >= buf + len ? (char_u *)"" : p, row, col, curattr); grid_puts_line_flush(false); if (wp == NULL) { // Fill the tab_page_click_defs array for clicking in the tab pages line. col = 0; len = 0; p = buf; StlClickDefinition cur_click_def = { .type = kStlClickDisabled, }; for (n = 0; tabtab[n].start != NULL; n++) { len += vim_strnsize(p, (int)(tabtab[n].start - (char *) p)); while (col < len) { tab_page_click_defs[col++] = cur_click_def; } p = (char_u *) tabtab[n].start; cur_click_def = tabtab[n].def; } while (col < Columns) { tab_page_click_defs[col++] = cur_click_def; } } theend: entered = FALSE; } 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, 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 (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]); } grid_put_schar(grid, irow+adj[0], icol+adj[3], chars[4], attrs[4]); grid_puts_line_flush(false); } } // Low-level functions to manipulate invidual character cells on the // screen grid. /// Put a ASCII character in a screen cell. static void schar_from_ascii(char_u *p, const char c) { p[0] = c; p[1] = 0; } /// Put a unicode character in a screen cell. static int schar_from_char(char_u *p, int c) { int len = utf_char2bytes(c, p); p[len] = NUL; return len; } /// Put a unicode char, and up to MAX_MCO composing chars, in a screen cell. static int schar_from_cc(char_u *p, int c, int u8cc[MAX_MCO]) { int len = utf_char2bytes(c, p); for (int i = 0; i < MAX_MCO; i++) { if (u8cc[i] == 0) { break; } len += utf_char2bytes(u8cc[i], p + len); } p[len] = 0; return len; } /// compare the contents of two screen cells. static int schar_cmp(char_u *sc1, char_u *sc2) { return STRNCMP(sc1, sc2, sizeof(schar_T)); } /// copy the contents of screen cell `sc2` into cell `sc1` static void schar_copy(char_u *sc1, char_u *sc2) { STRLCPY(sc1, sc2, sizeof(schar_T)); } static int line_off2cells(schar_T *line, size_t off, size_t max_off) { return (off + 1 < max_off && line[off + 1][0] == 0) ? 2 : 1; } /// Return number of display cells for char at grid->chars[off]. /// We make sure that the offset used is less than "max_off". static int grid_off2cells(ScreenGrid *grid, size_t off, size_t max_off) { return line_off2cells(grid->chars, off, max_off); } /// Return true if the character at "row"/"col" on the screen is the left side /// of a double-width character. /// /// Caller must make sure "row" and "col" are not invalid! bool grid_lefthalve(ScreenGrid *grid, int row, int col) { screen_adjust_grid(&grid, &row, &col); return grid_off2cells(grid, grid->line_offset[row] + col, grid->line_offset[row] + grid->Columns) > 1; } /// Correct a position on the screen, if it's the right half of a double-wide /// char move it to the left half. Returns the corrected column. int grid_fix_col(ScreenGrid *grid, int col, int row) { int coloff = 0; screen_adjust_grid(&grid, &row, &coloff); col += coloff; if (grid->chars != NULL && col > 0 && grid->chars[grid->line_offset[row] + col][0] == 0) { return col - 1 - coloff; } return col - coloff; } /// output a single character directly to the grid void grid_putchar(ScreenGrid *grid, int c, int row, int col, int attr) { char_u buf[MB_MAXBYTES + 1]; buf[utf_char2bytes(c, buf)] = NUL; grid_puts(grid, buf, row, col, attr); } /// get a single character directly from grid.chars into "bytes[]". /// Also return its attribute in *attrp; void grid_getbytes(ScreenGrid *grid, int row, int col, char_u *bytes, int *attrp) { unsigned off; screen_adjust_grid(&grid, &row, &col); // safety check if (grid->chars != NULL && row < grid->Rows && col < grid->Columns) { off = grid->line_offset[row] + col; *attrp = grid->attrs[off]; schar_copy(bytes, grid->chars[off]); } } /// put string '*text' on the window grid at position 'row' and 'col', with /// attributes 'attr', and update chars[] and attrs[]. /// Note: only outputs within one row, message is truncated at grid boundary! /// Note: if grid, row and/or col is invalid, nothing is done. void grid_puts(ScreenGrid *grid, char_u *text, int row, int col, int attr) { grid_puts_len(grid, text, -1, row, col, attr); } static ScreenGrid *put_dirty_grid = NULL; static int put_dirty_row = -1; static int put_dirty_first = INT_MAX; static int put_dirty_last = 0; /// Start a group of grid_puts_len calls that builds a single grid line. /// /// Must be matched with a grid_puts_line_flush call before moving to /// another line. void grid_puts_line_start(ScreenGrid *grid, int row) { int col = 0; // unused screen_adjust_grid(&grid, &row, &col); assert(put_dirty_row == -1); put_dirty_row = row; put_dirty_grid = grid; } void grid_put_schar(ScreenGrid *grid, int row, int col, char_u *schar, int attr) { assert(put_dirty_row == row); unsigned int off = grid->line_offset[row] + col; if (grid->attrs[off] != attr || schar_cmp(grid->chars[off], schar)) { schar_copy(grid->chars[off], schar); grid->attrs[off] = attr; put_dirty_first = MIN(put_dirty_first, col); // TODO(bfredl): Y U NO DOUBLEWIDTH? put_dirty_last = MAX(put_dirty_last, col+1); } } /// like grid_puts(), but output "text[len]". When "len" is -1 output up to /// a NUL. void grid_puts_len(ScreenGrid *grid, char_u *text, int textlen, int row, int col, int attr) { unsigned off; char_u *ptr = text; int len = textlen; int c; unsigned max_off; int mbyte_blen = 1; int mbyte_cells = 1; int u8c = 0; int u8cc[MAX_MCO]; int clear_next_cell = FALSE; int prev_c = 0; /* previous Arabic character */ int pc, nc, nc1; int pcc[MAX_MCO]; int need_redraw; bool do_flush = false; screen_adjust_grid(&grid, &row, &col); // Safety check. The check for negative row and column is to fix issue // vim/vim#4102. TODO(neovim): find out why row/col could be negative. if (grid->chars == NULL || row >= grid->Rows || row < 0 || col >= grid->Columns || col < 0) { return; } if (put_dirty_row == -1) { grid_puts_line_start(grid, row); do_flush = true; } else { if (grid != put_dirty_grid || row != put_dirty_row) { abort(); } } off = grid->line_offset[row] + col; /* When drawing over the right halve of a double-wide char clear out the * left halve. Only needed in a terminal. */ if (grid != &default_grid && col == 0 && grid_invalid_row(grid, row)) { // redraw the previous cell, make it empty put_dirty_first = -1; put_dirty_last = MAX(put_dirty_last, 1); } max_off = grid->line_offset[row] + grid->Columns; while (col < grid->Columns && (len < 0 || (int)(ptr - text) < len) && *ptr != NUL) { c = *ptr; // check if this is the first byte of a multibyte if (len > 0) { mbyte_blen = utfc_ptr2len_len(ptr, (int)((text + len) - ptr)); } else { mbyte_blen = utfc_ptr2len(ptr); } if (len >= 0) { u8c = utfc_ptr2char_len(ptr, u8cc, (int)((text + len) - ptr)); } else { u8c = utfc_ptr2char(ptr, u8cc); } mbyte_cells = utf_char2cells(u8c); if (p_arshape && !p_tbidi && arabic_char(u8c)) { // Do Arabic shaping. if (len >= 0 && (int)(ptr - text) + mbyte_blen >= len) { // Past end of string to be displayed. nc = NUL; nc1 = NUL; } else { nc = utfc_ptr2char_len(ptr + mbyte_blen, pcc, (int)((text + len) - ptr - mbyte_blen)); nc1 = pcc[0]; } pc = prev_c; prev_c = u8c; u8c = arabic_shape(u8c, &c, &u8cc[0], nc, nc1, pc); } else { prev_c = u8c; } if (col + mbyte_cells > grid->Columns) { // Only 1 cell left, but character requires 2 cells: // display a '>' in the last column to avoid wrapping. */ c = '>'; mbyte_cells = 1; } schar_T buf; schar_from_cc(buf, u8c, u8cc); need_redraw = schar_cmp(grid->chars[off], buf) || (mbyte_cells == 2 && grid->chars[off + 1][0] != 0) || grid->attrs[off] != attr || exmode_active; if (need_redraw) { // When at the end of the text and overwriting a two-cell // character with a one-cell character, need to clear the next // cell. Also when overwriting the left halve of a two-cell char // with the right halve of a two-cell char. Do this only once // (utf8_off2cells() may return 2 on the right halve). if (clear_next_cell) { clear_next_cell = false; } else if ((len < 0 ? ptr[mbyte_blen] == NUL : ptr + mbyte_blen >= text + len) && ((mbyte_cells == 1 && grid_off2cells(grid, off, max_off) > 1) || (mbyte_cells == 2 && grid_off2cells(grid, off, max_off) == 1 && grid_off2cells(grid, off + 1, max_off) > 1))) { clear_next_cell = true; } schar_copy(grid->chars[off], buf); grid->attrs[off] = attr; if (mbyte_cells == 2) { grid->chars[off + 1][0] = 0; grid->attrs[off + 1] = attr; } put_dirty_first = MIN(put_dirty_first, col); put_dirty_last = MAX(put_dirty_last, col+mbyte_cells); } off += mbyte_cells; col += mbyte_cells; ptr += mbyte_blen; if (clear_next_cell) { // This only happens at the end, display one space next. ptr = (char_u *)" "; len = -1; } } if (do_flush) { grid_puts_line_flush(true); } } /// End a group of grid_puts_len calls and send the screen buffer to the UI /// layer. /// /// @param set_cursor Move the visible cursor to the end of the changed region. /// This is a workaround for not yet refactored code paths /// and shouldn't be used in new code. void grid_puts_line_flush(bool set_cursor) { assert(put_dirty_row != -1); if (put_dirty_first < put_dirty_last) { if (set_cursor) { ui_grid_cursor_goto(put_dirty_grid->handle, put_dirty_row, MIN(put_dirty_last, put_dirty_grid->Columns-1)); } if (!put_dirty_grid->throttled) { ui_line(put_dirty_grid, put_dirty_row, put_dirty_first, put_dirty_last, put_dirty_last, 0, false); } else if (put_dirty_grid->dirty_col) { if (put_dirty_last > put_dirty_grid->dirty_col[put_dirty_row]) { put_dirty_grid->dirty_col[put_dirty_row] = put_dirty_last; } } put_dirty_first = INT_MAX; put_dirty_last = 0; } put_dirty_row = -1; put_dirty_grid = NULL; } /* * Prepare for 'hlsearch' highlighting. */ static void start_search_hl(void) { if (p_hls && !no_hlsearch) { end_search_hl(); // just in case it wasn't called before last_pat_prog(&search_hl.rm); // Set the time limit to 'redrawtime'. search_hl.tm = profile_setlimit(p_rdt); } } /* * Clean up for 'hlsearch' highlighting. */ static void end_search_hl(void) { if (search_hl.rm.regprog != NULL) { vim_regfree(search_hl.rm.regprog); search_hl.rm.regprog = NULL; } } /* * Init for calling prepare_search_hl(). */ static void init_search_hl(win_T *wp) FUNC_ATTR_NONNULL_ALL { // Setup for match and 'hlsearch' highlighting. Disable any previous // match matchitem_T *cur = wp->w_match_head; while (cur != NULL) { cur->hl.rm = cur->match; if (cur->hlg_id == 0) cur->hl.attr = 0; else cur->hl.attr = syn_id2attr(cur->hlg_id); cur->hl.buf = wp->w_buffer; cur->hl.lnum = 0; cur->hl.first_lnum = 0; // Set the time limit to 'redrawtime'. cur->hl.tm = profile_setlimit(p_rdt); cur = cur->next; } search_hl.buf = wp->w_buffer; search_hl.lnum = 0; search_hl.first_lnum = 0; search_hl.attr = win_hl_attr(wp, HLF_L); // time limit is set at the toplevel, for all windows } /* * Advance to the match in window "wp" line "lnum" or past it. */ static void prepare_search_hl(win_T *wp, linenr_T lnum) FUNC_ATTR_NONNULL_ALL { matchitem_T *cur; // points to the match list match_T *shl; // points to search_hl or a match bool shl_flag; // flag to indicate whether search_hl // has been processed or not // When using a multi-line pattern, start searching at the top // of the window or just after a closed fold. // Do this both for search_hl and the match list. cur = wp->w_match_head; shl_flag = false; while (cur != NULL || shl_flag == false) { if (shl_flag == false) { shl = &search_hl; shl_flag = true; } else { shl = &cur->hl; // -V595 } if (shl->rm.regprog != NULL && shl->lnum == 0 && re_multiline(shl->rm.regprog)) { if (shl->first_lnum == 0) { for (shl->first_lnum = lnum; shl->first_lnum > wp->w_topline; shl->first_lnum--) { if (hasFoldingWin(wp, shl->first_lnum - 1, NULL, NULL, true, NULL)) { break; } } } if (cur != NULL) { cur->pos.cur = 0; } bool pos_inprogress = true; // mark that a position match search is // in progress int n = 0; while (shl->first_lnum < lnum && (shl->rm.regprog != NULL || (cur != NULL && pos_inprogress))) { next_search_hl(wp, shl, shl->first_lnum, (colnr_T)n, shl == &search_hl ? NULL : cur); pos_inprogress = !(cur == NULL || cur->pos.cur == 0); if (shl->lnum != 0) { shl->first_lnum = shl->lnum + shl->rm.endpos[0].lnum - shl->rm.startpos[0].lnum; n = shl->rm.endpos[0].col; } else { ++shl->first_lnum; n = 0; } } } if (shl != &search_hl && cur != NULL) cur = cur->next; } } /* * Search for a next 'hlsearch' or match. * Uses shl->buf. * Sets shl->lnum and shl->rm contents. * Note: Assumes a previous match is always before "lnum", unless * shl->lnum is zero. * Careful: Any pointers for buffer lines will become invalid. */ static void next_search_hl ( win_T *win, match_T *shl, /* points to search_hl or a match */ linenr_T lnum, colnr_T mincol, /* minimal column for a match */ matchitem_T *cur /* to retrieve match positions if any */ ) FUNC_ATTR_NONNULL_ARG(2) { linenr_T l; colnr_T matchcol; long nmatched = 0; int save_called_emsg = called_emsg; // for :{range}s/pat only highlight inside the range if (lnum < search_first_line || lnum > search_last_line) { shl->lnum = 0; return; } if (shl->lnum != 0) { // Check for three situations: // 1. If the "lnum" is below a previous match, start a new search. // 2. If the previous match includes "mincol", use it. // 3. Continue after the previous match. l = shl->lnum + shl->rm.endpos[0].lnum - shl->rm.startpos[0].lnum; if (lnum > l) shl->lnum = 0; else if (lnum < l || shl->rm.endpos[0].col > mincol) return; } /* * Repeat searching for a match until one is found that includes "mincol" * or none is found in this line. */ called_emsg = FALSE; for (;; ) { // Stop searching after passing the time limit. if (profile_passed_limit(shl->tm)) { shl->lnum = 0; /* no match found in time */ break; } // Three situations: // 1. No useful previous match: search from start of line. // 2. Not Vi compatible or empty match: continue at next character. // Break the loop if this is beyond the end of the line. // 3. Vi compatible searching: continue at end of previous match. if (shl->lnum == 0) { matchcol = 0; } else if (vim_strchr(p_cpo, CPO_SEARCH) == NULL || (shl->rm.endpos[0].lnum == 0 && shl->rm.endpos[0].col <= shl->rm.startpos[0].col)) { char_u *ml; matchcol = shl->rm.startpos[0].col; ml = ml_get_buf(shl->buf, lnum, FALSE) + matchcol; if (*ml == NUL) { ++matchcol; shl->lnum = 0; break; } matchcol += mb_ptr2len(ml); } else { matchcol = shl->rm.endpos[0].col; } shl->lnum = lnum; if (shl->rm.regprog != NULL) { // Remember whether shl->rm is using a copy of the regprog in // cur->match. bool regprog_is_copy = (shl != &search_hl && cur != NULL && shl == &cur->hl && cur->match.regprog == cur->hl.rm.regprog); int timed_out = false; nmatched = vim_regexec_multi(&shl->rm, win, shl->buf, lnum, matchcol, &(shl->tm), &timed_out); // Copy the regprog, in case it got freed and recompiled. if (regprog_is_copy) { cur->match.regprog = cur->hl.rm.regprog; } if (called_emsg || got_int || timed_out) { // Error while handling regexp: stop using this regexp. if (shl == &search_hl) { // don't free regprog in the match list, it's a copy vim_regfree(shl->rm.regprog); set_no_hlsearch(true); } shl->rm.regprog = NULL; shl->lnum = 0; got_int = FALSE; // avoid the "Type :quit to exit Vim" message break; } } else if (cur != NULL) { nmatched = next_search_hl_pos(shl, lnum, &(cur->pos), matchcol); } if (nmatched == 0) { shl->lnum = 0; // no match found break; } if (shl->rm.startpos[0].lnum > 0 || shl->rm.startpos[0].col >= mincol || nmatched > 1 || shl->rm.endpos[0].col > mincol) { shl->lnum += shl->rm.startpos[0].lnum; break; // useful match found } // Restore called_emsg for assert_fails(). called_emsg = save_called_emsg; } } /// If there is a match fill "shl" and return one. /// Return zero otherwise. static int next_search_hl_pos( match_T *shl, // points to a match linenr_T lnum, posmatch_T *posmatch, // match positions colnr_T mincol // minimal column for a match ) FUNC_ATTR_NONNULL_ALL { int i; int found = -1; shl->lnum = 0; for (i = posmatch->cur; i < MAXPOSMATCH; i++) { llpos_T *pos = &posmatch->pos[i]; if (pos->lnum == 0) { break; } if (pos->len == 0 && pos->col < mincol) { continue; } if (pos->lnum == lnum) { if (found >= 0) { // if this match comes before the one at "found" then swap // them if (pos->col < posmatch->pos[found].col) { llpos_T tmp = *pos; *pos = posmatch->pos[found]; posmatch->pos[found] = tmp; } } else { found = i; } } } posmatch->cur = 0; if (found >= 0) { colnr_T start = posmatch->pos[found].col == 0 ? 0: posmatch->pos[found].col - 1; colnr_T end = posmatch->pos[found].col == 0 ? MAXCOL : start + posmatch->pos[found].len; shl->lnum = lnum; shl->rm.startpos[0].lnum = 0; shl->rm.startpos[0].col = start; shl->rm.endpos[0].lnum = 0; shl->rm.endpos[0].col = end; shl->is_addpos = true; posmatch->cur = found + 1; return 1; } return 0; } /// Fill the grid from 'start_row' to 'end_row', from 'start_col' to 'end_col' /// with character 'c1' in first column followed by 'c2' in the other columns. /// Use attributes 'attr'. void grid_fill(ScreenGrid *grid, int start_row, int end_row, int start_col, int end_col, int c1, int c2, int attr) { schar_T sc; int row_off = 0, col_off = 0; screen_adjust_grid(&grid, &row_off, &col_off); start_row += row_off; end_row += row_off; start_col += col_off; end_col += col_off; // safety check if (end_row > grid->Rows) { end_row = grid->Rows; } if (end_col > grid->Columns) { end_col = grid->Columns; } // nothing to do if (start_row >= end_row || start_col >= end_col) { return; } for (int row = start_row; row < end_row; row++) { // When drawing over the right halve of a double-wide char clear // out the left halve. When drawing over the left halve of a // double wide-char clear out the right halve. Only needed in a // terminal. if (start_col > 0 && grid_fix_col(grid, start_col, row) != start_col) { grid_puts_len(grid, (char_u *)" ", 1, row, start_col - 1, 0); } if (end_col < grid->Columns && grid_fix_col(grid, end_col, row) != end_col) { grid_puts_len(grid, (char_u *)" ", 1, row, end_col, 0); } // if grid was resized (in ext_multigrid mode), the UI has no redraw updates // for the newly resized grid. It is better mark everything as dirty and // send all the updates. int dirty_first = INT_MAX; int dirty_last = 0; int col = start_col; schar_from_char(sc, c1); int lineoff = grid->line_offset[row]; for (col = start_col; col < end_col; col++) { int off = lineoff + col; if (schar_cmp(grid->chars[off], sc) || grid->attrs[off] != attr) { schar_copy(grid->chars[off], sc); grid->attrs[off] = attr; if (dirty_first == INT_MAX) { dirty_first = col; } dirty_last = col+1; } if (col == start_col) { schar_from_char(sc, c2); } } if (dirty_last > dirty_first) { // TODO(bfredl): support a cleared suffix even with a batched line? if (put_dirty_row == row) { put_dirty_first = MIN(put_dirty_first, dirty_first); put_dirty_last = MAX(put_dirty_last, dirty_last); } else if (grid->throttled) { // Note: assumes msg_grid is the only throttled grid assert(grid == &msg_grid); int dirty = 0; if (attr != HL_ATTR(HLF_MSG) || c2 != ' ') { dirty = dirty_last; } else if (c1 != ' ') { dirty = dirty_first + 1; } if (grid->dirty_col && dirty > grid->dirty_col[row]) { grid->dirty_col[row] = dirty; } } else { int last = c2 != ' ' ? dirty_last : dirty_first + (c1 != ' '); ui_line(grid, row, dirty_first, last, dirty_last, attr, false); } } if (end_col == grid->Columns) { grid->line_wraps[row] = false; } } } /* * Check if there should be a delay. Used before clearing or redrawing the * screen or the command line. */ void check_for_delay(int check_msg_scroll) { if ((emsg_on_display || (check_msg_scroll && msg_scroll)) && !did_wait_return && emsg_silent == 0) { ui_flush(); os_delay(1006L, true); emsg_on_display = false; if (check_msg_scroll) { msg_scroll = false; } } } /// (Re)allocates a window grid if size changed while in ext_multigrid mode. /// Updates size, offsets and handle for the grid regardless. /// /// If "doclear" is true, don't try to copy from the old grid rather clear the /// resized grid. void win_grid_alloc(win_T *wp) { ScreenGrid *grid = &wp->w_grid; ScreenGrid *grid_allocated = &wp->w_grid_alloc; int rows = wp->w_height_inner; int cols = wp->w_width_inner; int total_rows = wp->w_height_outer; int total_cols = wp->w_width_outer; bool want_allocation = ui_has(kUIMultigrid) || wp->w_floating; bool has_allocation = (grid_allocated->chars != NULL); if (grid->Rows != rows) { wp->w_lines_valid = 0; xfree(wp->w_lines); wp->w_lines = xcalloc(rows+1, sizeof(wline_T)); } int was_resized = false; if (want_allocation && (!has_allocation || grid_allocated->Rows != total_rows || grid_allocated->Columns != total_cols)) { grid_alloc(grid_allocated, total_rows, total_cols, wp->w_grid_alloc.valid, false); grid_allocated->valid = true; if (wp->w_floating && wp->w_float_config.border) { wp->w_redr_border = true; } was_resized = true; } else if (!want_allocation && has_allocation) { // Single grid mode, all rendering will be redirected to default_grid. // Only keep track of the size and offset of the window. grid_free(grid_allocated); grid_allocated->valid = false; was_resized = true; } else if (want_allocation && has_allocation && !wp->w_grid_alloc.valid) { grid_invalidate(grid_allocated); grid_allocated->valid = true; } grid->Rows = rows; grid->Columns = cols; if (want_allocation) { grid->target = grid_allocated; grid->row_offset = wp->w_border_adj[0]; grid->col_offset = wp->w_border_adj[3]; } else { grid->target = &default_grid; grid->row_offset = wp->w_winrow; grid->col_offset = wp->w_wincol; } // send grid resize event if: // - a grid was just resized // - screen_resize was called and all grid sizes must be sent // - the UI wants multigrid event (necessary) if ((send_grid_resize || was_resized) && want_allocation) { ui_call_grid_resize(grid_allocated->handle, grid_allocated->Columns, grid_allocated->Rows); } } /// assign a handle to the grid. The grid need not be allocated. void grid_assign_handle(ScreenGrid *grid) { static int last_grid_handle = DEFAULT_GRID_HANDLE; // only assign a grid handle if not already if (grid->handle == 0) { grid->handle = ++last_grid_handle; } } /// Resize the screen 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 shell 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 shell is /// needed. void screenalloc(void) { // 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; } resizing = true; int retry_count = 0; retry: // 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.Columns ) || Rows == 0 || Columns == 0 || (!full_screen && default_grid.chars == NULL)) { resizing = false; return; } /* * Note that the window sizes are updated before reallocating the arrays, * thus we must not redraw here! */ ++RedrawingDisabled; // win_new_shellsize 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; } win_new_shellsize(); /* fit the windows in the new sized shell */ comp_col(); /* recompute columns for shown command and ruler */ // 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); StlClickDefinition *new_tab_page_click_defs = xcalloc( (size_t)Columns, sizeof(*new_tab_page_click_defs)); clear_tab_page_click_defs(tab_page_click_defs, tab_page_click_defs_size); xfree(tab_page_click_defs); tab_page_click_defs = new_tab_page_click_defs; tab_page_click_defs_size = Columns; 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; must_redraw = CLEAR; // need to clear the screen later RedrawingDisabled--; /* * Do not apply autocommands more than 3 times to avoid an endless loop * in case applying autocommands always changes Rows or Columns. */ if (starting == 0 && ++retry_count <= 3) { apply_autocmds(EVENT_VIMRESIZED, NULL, NULL, FALSE, curbuf); /* In rare cases, autocommands may have altered Rows or Columns, * jump back to check if we need to allocate the screen again. */ goto retry; } resizing = false; } void grid_alloc(ScreenGrid *grid, int rows, int columns, bool copy, bool valid) { int new_row; ScreenGrid new = *grid; assert(rows >= 0 && columns >= 0); size_t ncells = (size_t)rows * columns; new.chars = xmalloc(ncells * sizeof(schar_T)); new.attrs = xmalloc(ncells * sizeof(sattr_T)); new.line_offset = xmalloc((size_t)(rows * sizeof(unsigned))); new.line_wraps = xmalloc((size_t)(rows * sizeof(char_u))); new.Rows = rows; new.Columns = columns; for (new_row = 0; new_row < new.Rows; new_row++) { new.line_offset[new_row] = new_row * new.Columns; new.line_wraps[new_row] = false; grid_clear_line(&new, new.line_offset[new_row], columns, valid); if (copy) { // If the screen is not going to be cleared, copy as much as // possible from the old screen to the new one and clear the rest // (used when resizing the window at the "--more--" prompt or when // executing an external command, for the GUI). if (new_row < grid->Rows && grid->chars != NULL) { int len = MIN(grid->Columns, new.Columns); memmove(new.chars + new.line_offset[new_row], grid->chars + grid->line_offset[new_row], (size_t)len * sizeof(schar_T)); memmove(new.attrs + new.line_offset[new_row], grid->attrs + grid->line_offset[new_row], (size_t)len * sizeof(sattr_T)); } } } grid_free(grid); *grid = new; // Share a single scratch buffer for all grids, by // ensuring it is as wide as the widest grid. if (linebuf_size < (size_t)columns) { xfree(linebuf_char); xfree(linebuf_attr); linebuf_char = xmalloc(columns * sizeof(schar_T)); linebuf_attr = xmalloc(columns * sizeof(sattr_T)); linebuf_size = columns; } } void grid_free(ScreenGrid *grid) { xfree(grid->chars); xfree(grid->attrs); xfree(grid->line_offset); xfree(grid->line_wraps); grid->chars = NULL; grid->attrs = NULL; grid->line_offset = NULL; grid->line_wraps = NULL; } /// Doesn't allow reinit, so must only be called by free_all_mem! void screen_free_all_mem(void) { grid_free(&default_grid); xfree(linebuf_char); xfree(linebuf_attr); } /// Clear tab_page_click_defs table /// /// @param[out] tpcd Table to clear. /// @param[in] tpcd_size Size of the table. void clear_tab_page_click_defs(StlClickDefinition *const tpcd, const long tpcd_size) { if (tpcd != NULL) { for (long i = 0; i < tpcd_size; i++) { if (i == 0 || tpcd[i].func != tpcd[i - 1].func) { xfree(tpcd[i].func); } } memset(tpcd, 0, (size_t) tpcd_size * sizeof(tpcd[0])); } } void screenclear(void) { check_for_delay(false); screenalloc(); // allocate screen buffers if size changed int i; if (starting == NO_SCREEN || default_grid.chars == NULL) { return; } // blank out the default grid for (i = 0; i < default_grid.Rows; i++) { grid_clear_line(&default_grid, default_grid.line_offset[i], (int)default_grid.Columns, true); default_grid.line_wraps[i] = false; } ui_call_grid_clear(1); // clear the display ui_comp_set_screen_valid(true); clear_cmdline = false; mode_displayed = false; redraw_all_later(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 = CLEAR; } } if (must_redraw == CLEAR) { must_redraw = 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; } } /// clear a line in the grid starting at "off" until "width" characters /// are cleared. void grid_clear_line(ScreenGrid *grid, unsigned off, int width, bool valid) { for (int col = 0; col < width; col++) { schar_from_ascii(grid->chars[off + col], ' '); } int fill = valid ? 0 : -1; (void)memset(grid->attrs + off, fill, (size_t)width * sizeof(sattr_T)); } void grid_invalidate(ScreenGrid *grid) { (void)memset(grid->attrs, -1, grid->Rows * grid->Columns * sizeof(sattr_T)); } bool grid_invalid_row(ScreenGrid *grid, int row) { return grid->attrs[grid->line_offset[row]] < 0; } /// Copy part of a grid line for vertically split window. static void linecopy(ScreenGrid *grid, int to, int from, int col, int width) { unsigned off_to = grid->line_offset[to] + col; unsigned off_from = grid->line_offset[from] + col; memmove(grid->chars + off_to, grid->chars + off_from, width * sizeof(schar_T)); memmove(grid->attrs + off_to, grid->attrs + off_from, width * sizeof(sattr_T)); } /* * Set cursor to its position in the current window. */ void setcursor(void) { if (redrawing()) { validate_cursor(); ScreenGrid *grid = &curwin->w_grid; int row = curwin->w_wrow; int col = curwin->w_wcol; if (curwin->w_p_rl) { // With 'rightleft' set and the cursor on a double-wide character, // position it on the leftmost column. col = curwin->w_width_inner - curwin->w_wcol - ((utf_ptr2cells(get_cursor_pos_ptr()) == 2 && vim_isprintc(gchar_cursor())) ? 2 : 1); } screen_adjust_grid(&grid, &row, &col); ui_grid_cursor_goto(grid->handle, row, col); } } /// Scroll 'line_count' lines at 'row' in window 'wp'. /// /// Positive `line_count' means scrolling down, so that more space is available /// at 'row'. Negative `line_count` implies deleting lines at `row`. void win_scroll_lines(win_T *wp, int row, int line_count) { if (!redrawing() || line_count == 0) { return; } // No lines are being moved, just draw over the entire area if (row + abs(line_count) >= wp->w_grid.Rows) { return; } if (line_count < 0) { grid_del_lines(&wp->w_grid, row, -line_count, wp->w_grid.Rows, 0, wp->w_grid.Columns); } else { grid_ins_lines(&wp->w_grid, row, line_count, wp->w_grid.Rows, 0, wp->w_grid.Columns); } } /* * The rest of the routines in this file perform screen manipulations. The * given operation is performed physically on the screen. The corresponding * change is also made to the internal screen image. In this way, the editor * anticipates the effect of editing changes on the appearance of the screen. * That way, when we call screenupdate a complete redraw isn't usually * necessary. Another advantage is that we can keep adding code to anticipate * screen changes, and in the meantime, everything still works. */ /// insert lines on the screen and move the existing lines down /// 'line_count' is the number of lines to be inserted. /// 'end' is the line after the scrolled part. Normally it is Rows. /// 'col' is the column from with we start inserting. // /// 'row', 'col' and 'end' are relative to the start of the region. void grid_ins_lines(ScreenGrid *grid, int row, int line_count, int end, int col, int width) { int i; int j; unsigned temp; int row_off = 0; screen_adjust_grid(&grid, &row_off, &col); row += row_off; end += row_off; if (line_count <= 0) { return; } // Shift line_offset[] line_count down to reflect the inserted lines. // Clear the inserted lines. for (i = 0; i < line_count; i++) { if (width != grid->Columns) { // need to copy part of a line j = end - 1 - i; while ((j -= line_count) >= row) { linecopy(grid, j + line_count, j, col, width); } j += line_count; grid_clear_line(grid, grid->line_offset[j] + col, width, false); grid->line_wraps[j] = false; } else { j = end - 1 - i; temp = grid->line_offset[j]; while ((j -= line_count) >= row) { grid->line_offset[j + line_count] = grid->line_offset[j]; grid->line_wraps[j + line_count] = grid->line_wraps[j]; } grid->line_offset[j + line_count] = temp; grid->line_wraps[j + line_count] = false; grid_clear_line(grid, temp, (int)grid->Columns, false); } } if (!grid->throttled) { ui_call_grid_scroll(grid->handle, row, end, col, col+width, -line_count, 0); } return; } /// delete lines on the screen and move lines up. /// 'end' is the line after the scrolled part. Normally it is Rows. /// When scrolling region used 'off' is the offset from the top for the region. /// 'row' and 'end' are relative to the start of the region. void grid_del_lines(ScreenGrid *grid, int row, int line_count, int end, int col, int width) { int j; int i; unsigned temp; int row_off = 0; screen_adjust_grid(&grid, &row_off, &col); row += row_off; end += row_off; if (line_count <= 0) { return; } // Now shift line_offset[] line_count up to reflect the deleted lines. // Clear the inserted lines. for (i = 0; i < line_count; i++) { if (width != grid->Columns) { // need to copy part of a line j = row + i; while ((j += line_count) <= end - 1) { linecopy(grid, j - line_count, j, col, width); } j -= line_count; grid_clear_line(grid, grid->line_offset[j] + col, width, false); grid->line_wraps[j] = false; } else { // whole width, moving the line pointers is faster j = row + i; temp = grid->line_offset[j]; while ((j += line_count) <= end - 1) { grid->line_offset[j - line_count] = grid->line_offset[j]; grid->line_wraps[j - line_count] = grid->line_wraps[j]; } grid->line_offset[j - line_count] = temp; grid->line_wraps[j - line_count] = false; grid_clear_line(grid, temp, (int)grid->Columns, false); } } if (!grid->throttled) { ui_call_grid_scroll(grid->handle, row, end, col, col+width, line_count, 0); } return; } // Show the current mode and ruler. // // If clear_cmdline is TRUE, clear the rest of the cmdline. // If clear_cmdline is FALSE there may be a message there that needs to be // cleared only if a mode is shown. // Return the length of the message (0 if no message). int showmode(void) { int need_clear; int length = 0; int do_mode; int attr; int nwr_save; int sub_attr; if (ui_has(kUIMessages) && clear_cmdline) { msg_ext_clear(true); } // don't make non-flushed message part of the showmode msg_ext_ui_flush(); msg_grid_validate(); do_mode = ((p_smd && msg_silent == 0) && ((State & TERM_FOCUS) || (State & INSERT) || restart_edit || VIsual_active)); if (do_mode || reg_recording != 0) { // Don't show mode right now, when not redrawing or inside a mapping. // Call char_avail() only when we are going to show something, because // it takes a bit of time. if (!redrawing() || (char_avail() && !KeyTyped) || msg_silent != 0) { redraw_cmdline = TRUE; /* show mode later */ return 0; } nwr_save = need_wait_return; /* wait a bit before overwriting an important message */ check_for_delay(FALSE); /* if the cmdline is more than one line high, erase top lines */ need_clear = clear_cmdline; if (clear_cmdline && cmdline_row < Rows - 1) { msg_clr_cmdline(); // will reset clear_cmdline } /* Position on the last line in the window, column 0 */ msg_pos_mode(); attr = HL_ATTR(HLF_CM); // Highlight mode // When the screen is too narrow to show the entire mode messsage, // avoid scrolling and truncate instead. msg_no_more = true; int save_lines_left = lines_left; lines_left = 0; if (do_mode) { MSG_PUTS_ATTR("--", attr); // CTRL-X in Insert mode if (edit_submode != NULL && !shortmess(SHM_COMPLETIONMENU)) { // These messages can get long, avoid a wrap in a narrow window. // Prefer showing edit_submode_extra. With external messages there // is no imposed limit. if (ui_has(kUIMessages)) { length = INT_MAX; } else { length = (Rows - msg_row) * Columns - 3; } if (edit_submode_extra != NULL) { length -= vim_strsize(edit_submode_extra); } if (length > 0) { if (edit_submode_pre != NULL) length -= vim_strsize(edit_submode_pre); if (length - vim_strsize(edit_submode) > 0) { if (edit_submode_pre != NULL) { msg_puts_attr((const char *)edit_submode_pre, attr); } msg_puts_attr((const char *)edit_submode, attr); } if (edit_submode_extra != NULL) { MSG_PUTS_ATTR(" ", attr); // Add a space in between. if ((int)edit_submode_highl < (int)HLF_COUNT) { sub_attr = win_hl_attr(curwin, edit_submode_highl); } else { sub_attr = attr; } msg_puts_attr((const char *)edit_submode_extra, sub_attr); } } } else { if (State & TERM_FOCUS) { MSG_PUTS_ATTR(_(" TERMINAL"), attr); } else if (State & VREPLACE_FLAG) MSG_PUTS_ATTR(_(" VREPLACE"), attr); else if (State & REPLACE_FLAG) MSG_PUTS_ATTR(_(" REPLACE"), attr); else if (State & INSERT) { if (p_ri) MSG_PUTS_ATTR(_(" REVERSE"), attr); MSG_PUTS_ATTR(_(" INSERT"), attr); } else if (restart_edit == 'I' || restart_edit == 'i' || restart_edit == 'a') { MSG_PUTS_ATTR(_(" (insert)"), attr); } else if (restart_edit == 'R') { MSG_PUTS_ATTR(_(" (replace)"), attr); } else if (restart_edit == 'V') { MSG_PUTS_ATTR(_(" (vreplace)"), attr); } if (p_hkmap) { MSG_PUTS_ATTR(_(" Hebrew"), attr); } if (State & LANGMAP) { if (curwin->w_p_arab) { MSG_PUTS_ATTR(_(" Arabic"), attr); } else if (get_keymap_str(curwin, (char_u *)" (%s)", NameBuff, MAXPATHL)) { MSG_PUTS_ATTR(NameBuff, attr); } } if ((State & INSERT) && p_paste) MSG_PUTS_ATTR(_(" (paste)"), attr); if (VIsual_active) { char *p; /* Don't concatenate separate words to avoid translation * problems. */ switch ((VIsual_select ? 4 : 0) + (VIsual_mode == Ctrl_V) * 2 + (VIsual_mode == 'V')) { case 0: p = N_(" VISUAL"); break; case 1: p = N_(" VISUAL LINE"); break; case 2: p = N_(" VISUAL BLOCK"); break; case 4: p = N_(" SELECT"); break; case 5: p = N_(" SELECT LINE"); break; default: p = N_(" SELECT BLOCK"); break; } MSG_PUTS_ATTR(_(p), attr); } MSG_PUTS_ATTR(" --", attr); } need_clear = TRUE; } if (reg_recording != 0 && edit_submode == NULL // otherwise it gets too long ) { recording_mode(attr); need_clear = true; } mode_displayed = TRUE; if (need_clear || clear_cmdline) msg_clr_eos(); msg_didout = FALSE; /* overwrite this message */ length = msg_col; msg_col = 0; msg_no_more = false; lines_left = save_lines_left; need_wait_return = nwr_save; // never ask for hit-return for this } else if (clear_cmdline && msg_silent == 0) { // Clear the whole command line. Will reset "clear_cmdline". msg_clr_cmdline(); } // NB: also handles clearing the showmode if it was emtpy or disabled msg_ext_flush_showmode(); /* In Visual mode the size of the selected area must be redrawn. */ if (VIsual_active) clear_showcmd(); // If the last window has no status line, the ruler is after the mode // message and must be redrawn win_T *last = lastwin_nofloating(); if (redrawing() && last->w_status_height == 0) { win_redr_ruler(last, true); } redraw_cmdline = false; clear_cmdline = false; return length; } /* * Position for a mode message. */ static void msg_pos_mode(void) { msg_col = 0; msg_row = Rows - 1; } /// Delete mode message. Used when ESC is typed which is expected to end /// Insert mode (but Insert mode didn't end yet!). /// Caller should check "mode_displayed". void unshowmode(bool force) { // Don't delete it right now, when not redrawing or inside a mapping. if (!redrawing() || (!force && char_avail() && !KeyTyped)) { redraw_cmdline = true; // delete mode later } else { clearmode(); } } // Clear the mode message. void clearmode(void) { const int save_msg_row = msg_row; const int save_msg_col = msg_col; msg_ext_ui_flush(); msg_pos_mode(); if (reg_recording != 0) { recording_mode(HL_ATTR(HLF_CM)); } msg_clr_eos(); msg_ext_flush_showmode(); msg_col = save_msg_col; msg_row = save_msg_row; } static void recording_mode(int attr) { MSG_PUTS_ATTR(_("recording"), attr); if (!shortmess(SHM_RECORDING)) { char_u s[4]; snprintf((char *)s, ARRAY_SIZE(s), " @%c", reg_recording); MSG_PUTS_ATTR(s, attr); } } /* * Draw the tab pages line at the top of the Vim window. */ void draw_tabline(void) { int tabcount = 0; int tabwidth = 0; int col = 0; int scol = 0; int attr; win_T *wp; win_T *cwp; int wincount; int modified; int c; int len; int attr_nosel = HL_ATTR(HLF_TP); int attr_fill = HL_ATTR(HLF_TPF); char_u *p; int room; int use_sep_chars = (t_colors < 8 ); if (default_grid.chars == NULL) { return; } redraw_tabline = false; if (ui_has(kUITabline)) { ui_ext_tabline_update(); return; } if (tabline_height() < 1) return; // Init TabPageIdxs[] to zero: Clicking outside of tabs has no effect. assert(Columns == tab_page_click_defs_size); clear_tab_page_click_defs(tab_page_click_defs, tab_page_click_defs_size); /* Use the 'tabline' option if it's set. */ if (*p_tal != NUL) { int saved_did_emsg = did_emsg; // Check for an error. If there is one we would loop in redrawing the // screen. Avoid that by making 'tabline' empty. did_emsg = false; win_redr_custom(NULL, false); if (did_emsg) { set_string_option_direct("tabline", -1, (char_u *)"", OPT_FREE, SID_ERROR); } did_emsg |= saved_did_emsg; } else { FOR_ALL_TABS(tp) { ++tabcount; } if (tabcount > 0) { tabwidth = (Columns - 1 + tabcount / 2) / tabcount; } if (tabwidth < 6) { tabwidth = 6; } attr = attr_nosel; tabcount = 0; FOR_ALL_TABS(tp) { if (col >= Columns - 4) { break; } scol = col; if (tp == curtab) { cwp = curwin; wp = firstwin; } else { cwp = tp->tp_curwin; wp = tp->tp_firstwin; } if (tp->tp_topframe == topframe) { attr = win_hl_attr(cwp, HLF_TPS); } if (use_sep_chars && col > 0) { grid_putchar(&default_grid, '|', 0, col++, attr); } if (tp->tp_topframe != topframe) { attr = win_hl_attr(cwp, HLF_TP); } grid_putchar(&default_grid, ' ', 0, col++, attr); modified = false; for (wincount = 0; wp != NULL; wp = wp->w_next, ++wincount) { if (bufIsChanged(wp->w_buffer)) { modified = true; } } if (modified || wincount > 1) { if (wincount > 1) { vim_snprintf((char *)NameBuff, MAXPATHL, "%d", wincount); len = (int)STRLEN(NameBuff); if (col + len >= Columns - 3) { break; } grid_puts_len(&default_grid, NameBuff, len, 0, col, hl_combine_attr(attr, win_hl_attr(cwp, HLF_T))); col += len; } if (modified) { grid_puts_len(&default_grid, (char_u *)"+", 1, 0, col++, attr); } grid_putchar(&default_grid, ' ', 0, col++, attr); } room = scol - col + tabwidth - 1; if (room > 0) { /* Get buffer name in NameBuff[] */ get_trans_bufname(cwp->w_buffer); (void)shorten_dir(NameBuff); len = vim_strsize(NameBuff); p = NameBuff; while (len > room) { len -= ptr2cells(p); MB_PTR_ADV(p); } if (len > Columns - col - 1) { len = Columns - col - 1; } grid_puts_len(&default_grid, p, (int)STRLEN(p), 0, col, attr); col += len; } grid_putchar(&default_grid, ' ', 0, col++, attr); // Store the tab page number in tab_page_click_defs[], so that // jump_to_mouse() knows where each one is. tabcount++; while (scol < col) { tab_page_click_defs[scol++] = (StlClickDefinition) { .type = kStlClickTabSwitch, .tabnr = tabcount, .func = NULL, }; } } if (use_sep_chars) c = '_'; else c = ' '; grid_fill(&default_grid, 0, 1, col, Columns, c, c, attr_fill); /* Put an "X" for closing the current tab if there are several. */ if (first_tabpage->tp_next != NULL) { grid_putchar(&default_grid, 'X', 0, Columns - 1, attr_nosel); tab_page_click_defs[Columns - 1] = (StlClickDefinition) { .type = kStlClickTabClose, .tabnr = 999, .func = NULL, }; } } /* Reset the flag here again, in case evaluating 'tabline' causes it to be * set. */ redraw_tabline = FALSE; } void ui_ext_tabline_update(void) { Array tabs = ARRAY_DICT_INIT; FOR_ALL_TABS(tp) { Dictionary tab_info = ARRAY_DICT_INIT; PUT(tab_info, "tab", TABPAGE_OBJ(tp->handle)); win_T *cwp = (tp == curtab) ? curwin : tp->tp_curwin; get_trans_bufname(cwp->w_buffer); PUT(tab_info, "name", STRING_OBJ(cstr_to_string((char *)NameBuff))); ADD(tabs, DICTIONARY_OBJ(tab_info)); } Array buffers = ARRAY_DICT_INIT; FOR_ALL_BUFFERS(buf) { // Do not include unlisted buffers if (!buf->b_p_bl) { continue; } Dictionary buffer_info = ARRAY_DICT_INIT; PUT(buffer_info, "buffer", BUFFER_OBJ(buf->handle)); get_trans_bufname(buf); PUT(buffer_info, "name", STRING_OBJ(cstr_to_string((char *)NameBuff))); ADD(buffers, DICTIONARY_OBJ(buffer_info)); } ui_call_tabline_update(curtab->handle, tabs, curbuf->handle, buffers); } /* * Get buffer name for "buf" into NameBuff[]. * Takes care of special buffer names and translates special characters. */ void get_trans_bufname(buf_T *buf) { if (buf_spname(buf) != NULL) STRLCPY(NameBuff, buf_spname(buf), MAXPATHL); else home_replace(buf, buf->b_fname, NameBuff, MAXPATHL, TRUE); trans_characters(NameBuff, MAXPATHL); } /* * Get the character to use in a status line. Get its attributes in "*attr". */ static int fillchar_status(int *attr, win_T *wp) { int fill; bool is_curwin = (wp == curwin); if (is_curwin) { *attr = win_hl_attr(wp, HLF_S); fill = wp->w_p_fcs_chars.stl; } else { *attr = win_hl_attr(wp, HLF_SNC); fill = wp->w_p_fcs_chars.stlnc; } /* Use fill when there is highlighting, and highlighting of current * window differs, or the fillchars differ, or this is not the * current window */ if (*attr != 0 && ((win_hl_attr(wp, HLF_S) != win_hl_attr(wp, HLF_SNC) || !is_curwin || ONE_WINDOW) || (wp->w_p_fcs_chars.stl != wp->w_p_fcs_chars.stlnc))) { return fill; } if (is_curwin) { return '^'; } return '='; } /* * Get the character to use in a separator between vertically split windows. * Get its attributes in "*attr". */ static int fillchar_vsep(win_T *wp, int *attr) { *attr = win_hl_attr(wp, HLF_C); return wp->w_p_fcs_chars.vert; } /* * Return TRUE if redrawing should currently be done. */ int redrawing(void) { return !RedrawingDisabled && !(p_lz && char_avail() && !KeyTyped && !do_redraw); } /* * Return TRUE if printing messages should currently be done. */ int messaging(void) { return !(p_lz && char_avail() && !KeyTyped); } /* * Show current status info in ruler and various other places * If always is FALSE, only show ruler if position has changed. */ void showruler(int always) { if (!always && !redrawing()) return; if ((*p_stl != NUL || *curwin->w_p_stl != NUL) && curwin->w_status_height) { redraw_custom_statusline(curwin); } else { win_redr_ruler(curwin, always); } if (need_maketitle || (p_icon && (stl_syntax & STL_IN_ICON)) || (p_title && (stl_syntax & STL_IN_TITLE)) ) maketitle(); /* Redraw the tab pages line if needed. */ if (redraw_tabline) draw_tabline(); } static void win_redr_ruler(win_T *wp, int always) { static bool did_show_ext_ruler = false; // If 'ruler' off or redrawing disabled, don't do anything if (!p_ru) { return; } /* * Check if cursor.lnum is valid, since win_redr_ruler() may be called * after deleting lines, before cursor.lnum is corrected. */ if (wp->w_cursor.lnum > wp->w_buffer->b_ml.ml_line_count) return; // Don't draw the ruler while doing insert-completion, it might overwrite // the (long) mode message. if (wp == lastwin && lastwin->w_status_height == 0) { if (edit_submode != NULL) { return; } } if (*p_ruf) { int save_called_emsg = called_emsg; called_emsg = false; win_redr_custom(wp, true); if (called_emsg) { set_string_option_direct("rulerformat", -1, (char_u *)"", OPT_FREE, SID_ERROR); } called_emsg |= save_called_emsg; return; } /* * Check if not in Insert mode and the line is empty (will show "0-1"). */ int empty_line = FALSE; if (!(State & INSERT) && *ml_get_buf(wp->w_buffer, wp->w_cursor.lnum, FALSE) == NUL) empty_line = TRUE; /* * Only draw the ruler when something changed. */ validate_virtcol_win(wp); if ( redraw_cmdline || always || wp->w_cursor.lnum != wp->w_ru_cursor.lnum || wp->w_cursor.col != wp->w_ru_cursor.col || wp->w_virtcol != wp->w_ru_virtcol || wp->w_cursor.coladd != wp->w_ru_cursor.coladd || wp->w_topline != wp->w_ru_topline || wp->w_buffer->b_ml.ml_line_count != wp->w_ru_line_count || wp->w_topfill != wp->w_ru_topfill || empty_line != wp->w_ru_empty) { int width; int row; int fillchar; int attr; int off; bool part_of_status = false; if (wp->w_status_height) { row = W_ENDROW(wp); fillchar = fillchar_status(&attr, wp); off = wp->w_wincol; width = wp->w_width; part_of_status = true; } else { row = Rows - 1; fillchar = ' '; attr = HL_ATTR(HLF_MSG); width = Columns; off = 0; } // In list mode virtcol needs to be recomputed colnr_T virtcol = wp->w_virtcol; if (wp->w_p_list && wp->w_p_lcs_chars.tab1 == NUL) { wp->w_p_list = false; getvvcol(wp, &wp->w_cursor, NULL, &virtcol, NULL); wp->w_p_list = true; } #define RULER_BUF_LEN 70 char_u buffer[RULER_BUF_LEN]; /* * Some sprintfs return the length, some return a pointer. * To avoid portability problems we use strlen() here. */ vim_snprintf((char *)buffer, RULER_BUF_LEN, "%" PRId64 ",", (wp->w_buffer->b_ml.ml_flags & ML_EMPTY) ? (int64_t)0L : (int64_t)wp->w_cursor.lnum); size_t len = STRLEN(buffer); col_print(buffer + len, RULER_BUF_LEN - len, empty_line ? 0 : (int)wp->w_cursor.col + 1, (int)virtcol + 1); /* * Add a "50%" if there is room for it. * On the last line, don't print in the last column (scrolls the * screen up on some terminals). */ int i = (int)STRLEN(buffer); get_rel_pos(wp, buffer + i + 1, RULER_BUF_LEN - i - 1); int o = i + vim_strsize(buffer + i + 1); if (wp->w_status_height == 0) { // can't use last char of screen o++; } int this_ru_col = ru_col - (Columns - width); if (this_ru_col < 0) { this_ru_col = 0; } // Never use more than half the window/screen width, leave the other half // for the filename. if (this_ru_col < (width + 1) / 2) { this_ru_col = (width + 1) / 2; } if (this_ru_col + o < width) { // Need at least 3 chars left for get_rel_pos() + NUL. while (this_ru_col + o < width && RULER_BUF_LEN > i + 4) { i += utf_char2bytes(fillchar, buffer + i); o++; } get_rel_pos(wp, buffer + i, RULER_BUF_LEN - i); } if (ui_has(kUIMessages) && !part_of_status) { Array content = ARRAY_DICT_INIT; Array chunk = ARRAY_DICT_INIT; ADD(chunk, INTEGER_OBJ(attr)); ADD(chunk, STRING_OBJ(cstr_to_string((char *)buffer))); ADD(content, ARRAY_OBJ(chunk)); ui_call_msg_ruler(content); did_show_ext_ruler = true; } else { if (did_show_ext_ruler) { ui_call_msg_ruler((Array)ARRAY_DICT_INIT); did_show_ext_ruler = false; } // Truncate at window boundary. o = 0; for (i = 0; buffer[i] != NUL; i += utfc_ptr2len(buffer + i)) { o += utf_ptr2cells(buffer + i); if (this_ru_col + o > width) { buffer[i] = NUL; break; } } ScreenGrid *grid = part_of_status ? &default_grid : &msg_grid_adj; grid_puts(grid, buffer, row, this_ru_col + off, attr); grid_fill(grid, row, row + 1, this_ru_col + off + (int)STRLEN(buffer), off + width, fillchar, fillchar, attr); } wp->w_ru_cursor = wp->w_cursor; wp->w_ru_virtcol = wp->w_virtcol; wp->w_ru_empty = empty_line; wp->w_ru_topline = wp->w_topline; wp->w_ru_line_count = wp->w_buffer->b_ml.ml_line_count; wp->w_ru_topfill = wp->w_topfill; } } /* * Return the width of the 'number' and 'relativenumber' column. * Caller may need to check if 'number' or 'relativenumber' is set. * Otherwise it depends on 'numberwidth' and the line count. */ int number_width(win_T *wp) { int n; linenr_T lnum; if (wp->w_p_rnu && !wp->w_p_nu) { // cursor line shows "0" lnum = wp->w_height_inner; } else { // cursor line shows absolute line number lnum = wp->w_buffer->b_ml.ml_line_count; } if (lnum == wp->w_nrwidth_line_count) return wp->w_nrwidth_width; wp->w_nrwidth_line_count = lnum; n = 0; do { lnum /= 10; ++n; } while (lnum > 0); // 'numberwidth' gives the minimal width plus one if (n < wp->w_p_nuw - 1) { n = wp->w_p_nuw - 1; } // If 'signcolumn' is set to 'number' and there is a sign to display, then // the minimal width for the number column is 2. if (n < 2 && (wp->w_buffer->b_signlist != NULL) && (*wp->w_p_scl == 'n' && *(wp->w_p_scl + 1) == 'u')) { n = 2; } wp->w_nrwidth_width = n; return n; } /// Set dimensions of the Nvim application "shell". void screen_resize(int width, int height) { static int busy = FALSE; // Avoid recursiveness, can happen when setting the window size causes // another window-changed signal. if (updating_screen || busy) { return; } if (width < 0 || height < 0) /* just checking... */ return; if (State == HITRETURN || State == SETWSIZE) { /* postpone the resizing */ State = SETWSIZE; return; } /* curwin->w_buffer can be NULL when we are closing a window and the * buffer has already been closed and removing a scrollbar causes a resize * event. Don't resize then, it will happen after entering another buffer. */ if (curwin->w_buffer == NULL) return; ++busy; Rows = height; Columns = width; check_shellsize(); int max_p_ch = Rows - min_rows() + 1; if (!ui_has(kUIMessages) && 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); send_grid_resize = true; /* The window layout used to be adjusted here, but it now happens in * screenalloc() (also invoked from screenclear()). That is because the * "busy" check above may skip this, but not screenalloc(). */ if (State != ASKMORE && State != EXTERNCMD && State != CONFIRM) { screenclear(); } 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. * - in Ex mode, don't redraw anything. * - Otherwise, redraw right now, and position the cursor. * Always need to call update_screen() or screenalloc(), to make * sure Rows/Columns and the size of the screen is correct! */ if (State == ASKMORE || State == EXTERNCMD || State == CONFIRM || exmode_active) { screenalloc(); 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 & CMDLINE) { redraw_popupmenu = false; update_screen(NOT_VALID); 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(0) won't redraw the // pum at the old position. Try to untangle this later. redraw_popupmenu = false; ins_compl_show_pum(); } update_screen(NOT_VALID); if (redrawing()) { setcursor(); } } } ui_flush(); } busy--; } /// Check if the new Nvim application "shell" dimensions are valid. /// Correct it if it's too small or way too big. void check_shellsize(void) { if (Rows < min_rows()) { // need room for one window and command line Rows = min_rows(); } limit_screen_size(); } // Limit Rows and Columns to avoid an overflow in Rows * Columns. void limit_screen_size(void) { if (Columns < MIN_COLUMNS) { Columns = MIN_COLUMNS; } else if (Columns > 10000) { Columns = 10000; } if (Rows > 1000) { Rows = 1000; } } void win_new_shellsize(void) { static long old_Rows = 0; static long 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 && p_window == 0)) { p_window = Rows - 1; } old_Rows = Rows; shell_new_rows(); // update window sizes } if (old_Columns != Columns) { old_Columns = Columns; shell_new_columns(); // update window sizes } } win_T *get_win_by_grid_handle(handle_T handle) { FOR_ALL_WINDOWS_IN_TAB(wp, curtab) { if (wp->w_grid_alloc.handle == handle) { return wp; } } return NULL; }