use std::cell::{RefMut, RefCell}; use std::rc::Rc; use std::sync; use std::sync::Arc; use std::ops::Deref; use cairo; use pangocairo::CairoContextExt; use pango; use pango::{LayoutExt, FontDescription}; use gdk; use gdk::{ModifierType, EventConfigure, EventButton, EventMotion, EventType, EventScroll}; use gdk_sys; use glib; use gtk; use gtk::prelude::*; use neovim_lib::{Neovim, NeovimApi, Value}; use neovim_lib::neovim_api::Tabpage; use settings::{Settings, FontSource}; use ui_model::{UiModel, Cell, Attrs, Color, ModelRect, COLOR_BLACK, COLOR_WHITE, COLOR_RED}; use nvim; use nvim::{RedrawEvents, GuiApi, RepaintMode, ErrorReport}; use input; use input::keyval_to_input_string; use cursor::Cursor; use ui; use ui::UiMutex; use popup_menu::PopupMenu; use tabline::Tabline; const DEFAULT_FONT_NAME: &'static str = "DejaVu Sans Mono 12"; #[derive(PartialEq)] pub enum NvimMode { Normal, Insert, Other, } pub struct State { pub model: UiModel, bg_color: Color, fg_color: Color, sp_color: Color, cur_attrs: Option, pub mode: NvimMode, mouse_enabled: bool, nvim: Option>>, font_desc: FontDescription, cursor: Option, popup_menu: RefCell, settings: Rc>, drawing_area: gtk::DrawingArea, tabs: Tabline, im_context: gtk::IMMulticontext, line_height: Option, char_width: Option, request_resize: bool, resize_timer: Option, parent: sync::Weak>, } impl State { pub fn new(settings: Rc>, parent: &Arc>) -> State { let drawing_area = gtk::DrawingArea::new(); let popup_menu = RefCell::new(PopupMenu::new(&drawing_area)); State { model: UiModel::new(24, 80), nvim: None, cur_attrs: None, bg_color: COLOR_BLACK, fg_color: COLOR_WHITE, sp_color: COLOR_RED, mode: NvimMode::Normal, mouse_enabled: true, font_desc: FontDescription::from_string(DEFAULT_FONT_NAME), cursor: None, popup_menu, settings: settings, drawing_area, tabs: Tabline::new(), im_context: gtk::IMMulticontext::new(), line_height: None, char_width: None, resize_timer: None, request_resize: false, parent: Arc::downgrade(parent), } } pub fn get_foreground(&self) -> &Color { &self.fg_color } pub fn get_background(&self) -> &Color { &self.bg_color } pub fn nvim(&self) -> RefMut { self.nvim.as_ref().unwrap().borrow_mut() } pub fn nvim_clone(&self) -> Rc> { self.nvim.as_ref().unwrap().clone() } fn create_pango_font(&self) -> FontDescription { self.font_desc.clone() } fn colors<'a>(&'a self, cell: &'a Cell) -> (&'a Color, &'a Color) { let bg = if let Some(ref bg) = cell.attrs.background { bg } else { &self.bg_color }; let fg = if let Some(ref fg) = cell.attrs.foreground { fg } else { &self.fg_color }; if cell.attrs.reverse { (fg, bg) } else { (bg, fg) } } pub fn get_font_desc(&self) -> &FontDescription { &self.font_desc } pub fn set_font_desc(&mut self, desc: &str) { self.font_desc = FontDescription::from_string(desc); self.line_height = None; self.char_width = None; } pub fn open_file(&self, path: &str) { let mut nvim = self.nvim(); nvim.command(&format!("e {}", path)).report_err(&mut *nvim); } pub fn cd(&self, path: &str) { let mut nvim = self.nvim(); nvim.command(&format!("cd {}", path)).report_err(&mut *nvim); } fn request_resize(&mut self) { self.request_resize = true; } fn close_popup_menu(&self) { if self.popup_menu.borrow().is_open() { let mut nvim = self.nvim(); nvim.input("").report_err(&mut *nvim); } } fn queue_draw_area>(&self, rect_list: &Vec) { match (&self.line_height, &self.char_width) { (&Some(line_height), &Some(char_width)) => { for rect in rect_list { let mut rect = rect.as_ref().clone(); // this need to repain also line under curren line // in case underscore or 'g' symbol is go here // right one for italic symbol rect.extend(0, 1, 0, 1); let (x, y, width, height) = rect.to_area(line_height, char_width); self.drawing_area.queue_draw_area(x, y, width, height); } } _ => self.drawing_area.queue_draw(), } } fn im_commit(&self, ch: &str) { if let Some(ref nvim) = self.nvim { input::im_input(&mut *nvim.borrow_mut(), ch); } } } pub struct UiState { mouse_pressed: bool, } impl UiState { pub fn new() -> UiState { UiState { mouse_pressed: false } } } pub struct Shell { pub state: Arc>, ui_state: Rc>, widget: gtk::Box, } impl Shell { pub fn new(settings: Rc>, parent: &Arc>) -> Shell { let shell = Shell { state: Arc::new(UiMutex::new(State::new(settings, parent))), ui_state: Rc::new(RefCell::new(UiState::new())), widget: gtk::Box::new(gtk::Orientation::Vertical, 0), }; let shell_ref = Arc::downgrade(&shell.state); shell.state.borrow_mut().cursor = Some(Cursor::new(shell_ref)); shell } pub fn init(&mut self) { let state = self.state.borrow_mut(); state.drawing_area.set_size_request(500, 300); state.drawing_area.set_hexpand(true); state.drawing_area.set_vexpand(true); state.drawing_area.set_can_focus(true); state.im_context.set_use_preedit(false); self.widget.pack_start(&*state.tabs, false, true, 0); self.widget.pack_start(&state.drawing_area, true, true, 0); state .drawing_area .set_events((gdk_sys::GDK_BUTTON_RELEASE_MASK | gdk_sys::GDK_BUTTON_PRESS_MASK | gdk_sys::GDK_BUTTON_MOTION_MASK | gdk_sys::GDK_SCROLL_MASK) .bits() as i32); let ref_state = self.state.clone(); let ref_ui_state = self.ui_state.clone(); state .drawing_area .connect_button_press_event(move |_, ev| { gtk_button_press(&mut *ref_state.borrow_mut(), &mut *ref_ui_state.borrow_mut(), ev) }); let ref_ui_state = self.ui_state.clone(); state .drawing_area .connect_button_release_event(move |_, _| { gtk_button_release(&mut *ref_ui_state.borrow_mut()) }); let ref_state = self.state.clone(); let ref_ui_state = self.ui_state.clone(); state .drawing_area .connect_motion_notify_event(move |_, ev| { gtk_motion_notify(&mut *ref_state.borrow_mut(), &mut *ref_ui_state.borrow_mut(), ev) }); let ref_state = self.state.clone(); state .drawing_area .connect_draw(move |_, ctx| { let mut state = ref_state.borrow_mut(); let ref_parent = sync::Weak::upgrade(&state.parent).unwrap(); let parent = ref_parent.borrow(); gtk_draw(&*parent, &mut *state, ctx) }); let ref_state = self.state.clone(); state .drawing_area .connect_key_press_event(move |_, ev| { let mut shell = ref_state.borrow_mut(); shell.cursor.as_mut().unwrap().reset_state(); // TODO: improve // GtkIMContext will eat a Shift-Space and not tell us about shift. // Also don't let IME eat any GDK_KEY_KP_ events if !ev.get_state().contains(gdk::SHIFT_MASK) && ev.get_keyval() < gdk_sys::GDK_KEY_KP_Space as u32 && ev.get_keyval() > gdk_sys::GDK_KEY_KP_Divide as u32 && shell.im_context.filter_keypress(ev) { println!("Filter"); Inhibit(true) } else { if let Some(ref nvim) = shell.nvim { input::gtk_key_press(&mut *nvim.borrow_mut(), ev) } else { Inhibit(false) } } }); let ref_state = self.state.clone(); state .drawing_area .connect_key_release_event(move |_, ev| { ref_state.borrow().im_context.filter_keypress(ev); Inhibit(false) }); let ref_state = self.state.clone(); state .drawing_area .connect_scroll_event(move |_, ev| gtk_scroll_event(&mut *ref_state.borrow_mut(), ev)); let ref_state = self.state.clone(); state .drawing_area .connect_focus_in_event(move |_, _| gtk_focus_in(&mut *ref_state.borrow_mut())); let ref_state = self.state.clone(); state .drawing_area .connect_focus_out_event(move |_, _| gtk_focus_out(&mut *ref_state.borrow_mut())); let ref_state = self.state.clone(); state .drawing_area .connect_realize(move |w| { ref_state .borrow() .im_context .set_client_window(w.get_window().as_ref()) }); let ref_state = self.state.clone(); state .im_context .connect_commit(move |_, ch| ref_state.borrow().im_commit(ch)); } #[cfg(unix)] pub fn redraw(&self, mode: &RepaintMode) { self.state.borrow_mut().on_redraw(mode); } #[cfg(unix)] pub fn set_font_desc(&self, font_name: &str) { self.state.borrow_mut().set_font_desc(font_name); } pub fn add_configure_event(&mut self) { let mut state = self.state.borrow_mut(); let ref_state = self.state.clone(); state .drawing_area .connect_configure_event(move |_, ev| gtk_configure_event(&ref_state, ev)); state.cursor.as_mut().unwrap().start(); } pub fn init_nvim(&mut self, nvim_bin_path: Option<&String>) { let nvim = nvim::initialize(self.state.clone(), nvim_bin_path) .expect("Can't start nvim instance"); let mut state = self.state.borrow_mut(); state.nvim = Some(Rc::new(RefCell::new(nvim))); } pub fn grab_focus(&self) { self.state.borrow().drawing_area.grab_focus(); } pub fn open_file(&self, path: &str) { self.state.borrow().open_file(path); } pub fn cd(&self, path: &str) { self.state.borrow().cd(path); } pub fn detach_ui(&mut self) { let state = self.state.borrow(); state.nvim().ui_detach().expect("Error in ui_detach"); } pub fn edit_paste(&self) { let state = self.state.borrow(); let paste_command = if state.mode == NvimMode::Normal { "\"*p" } else { "\"*pa" }; let mut nvim = state.nvim(); nvim.input(paste_command).report_err(&mut *nvim); } pub fn edit_save_all(&self) { let state = self.state.borrow(); let mut nvim = &mut *state.nvim(); nvim.command(":wa").report_err(nvim); } } impl Deref for Shell { type Target = gtk::Box; fn deref(&self) -> >k::Box { &self.widget } } fn gtk_focus_in(state: &mut State) -> Inhibit { state.im_context.focus_in(); state.cursor.as_mut().unwrap().enter_focus(); let point = state.model.cur_point(); state.on_redraw(&RepaintMode::Area(point)); Inhibit(false) } fn gtk_focus_out(state: &mut State) -> Inhibit { state.im_context.focus_out(); state.cursor.as_mut().unwrap().leave_focus(); let point = state.model.cur_point(); state.on_redraw(&RepaintMode::Area(point)); Inhibit(false) } fn gtk_scroll_event(state: &mut State, ev: &EventScroll) -> Inhibit { if !state.mouse_enabled { return Inhibit(false); } state.close_popup_menu(); match ev.as_ref().direction { gdk_sys::GdkScrollDirection::Right => { mouse_input(state, "ScrollWheelRight", ev.get_state(), ev.get_position()) } gdk_sys::GdkScrollDirection::Left => { mouse_input(state, "ScrollWheelLeft", ev.get_state(), ev.get_position()) } gdk_sys::GdkScrollDirection::Up => { mouse_input(state, "ScrollWheelUp", ev.get_state(), ev.get_position()) } gdk_sys::GdkScrollDirection::Down => { mouse_input(state, "ScrollWheelDown", ev.get_state(), ev.get_position()) } _ => (), } Inhibit(false) } fn gtk_button_press(shell: &mut State, ui_state: &mut UiState, ev: &EventButton) -> Inhibit { if ev.get_event_type() != EventType::ButtonPress { return Inhibit(false); } if shell.mouse_enabled { ui_state.mouse_pressed = true; mouse_input(shell, "LeftMouse", ev.get_state(), ev.get_position()); } Inhibit(false) } fn mouse_input(shell: &mut State, input: &str, state: ModifierType, position: (f64, f64)) { if let Some(line_height) = shell.line_height { if let Some(char_width) = shell.char_width { let mut nvim = shell.nvim(); let (x, y) = position; let col = (x / char_width).trunc() as u64; let row = (y / line_height).trunc() as u64; let input_str = format!("{}<{},{}>", keyval_to_input_string(input, state), col, row); nvim.input(&input_str) .expect("Can't send mouse input event"); } } } fn gtk_button_release(ui_state: &mut UiState) -> Inhibit { ui_state.mouse_pressed = false; Inhibit(false) } fn gtk_motion_notify(shell: &mut State, ui_state: &mut UiState, ev: &EventMotion) -> Inhibit { if shell.mouse_enabled && ui_state.mouse_pressed { mouse_input(shell, "LeftDrag", ev.get_state(), ev.get_position()); } Inhibit(false) } fn gtk_draw(parent: &ui::Components, state: &mut State, ctx: &cairo::Context) -> Inhibit { if state.line_height.is_none() { let (width, height) = calc_char_bounds(state, ctx); state.line_height = Some(height as f64); state.char_width = Some(width as f64); } //TODO: to much call of this function let (row, col) = state.model.get_cursor(); let (x, y, width, height) = ModelRect::point(col, row) .to_area(state.line_height.unwrap(), state.char_width.unwrap()); state .im_context .set_cursor_location(&gdk::Rectangle { x, y, width, height, }); draw(state, ctx); request_window_resize(parent, state); Inhibit(false) } #[inline] fn get_model_clip(state: &State, line_height: f64, char_width: f64, clip: (f64, f64, f64, f64)) -> ModelRect { let mut model_clip = ModelRect::from_area(line_height, char_width, clip.0, clip.1, clip.2, clip.3); // in some cases symbols from previous row affect next row // for example underscore symbol or 'g' // also for italic text it is possible that symbol can affect next one // see deference between logical rect and ink rect model_clip.extend(1, 0, 1, 0); state.model.limit_to_model(&mut model_clip); model_clip } #[inline] fn draw_backgound(state: &State, draw_bitmap: &ModelBitamp, ctx: &cairo::Context, line_height: f64, char_width: f64, model_clip: &ModelRect) { let line_x = model_clip.left as f64 * char_width; let mut line_y: f64 = model_clip.top as f64 * line_height; for (line_idx, line) in state.model.clip_model(model_clip) { ctx.move_to(line_x, line_y); for (col_idx, cell) in line.iter() { let current_point = ctx.get_current_point(); if !draw_bitmap.get(col_idx, line_idx) { let (bg, _) = state.colors(cell); if &state.bg_color != bg { ctx.set_source_rgb(bg.0, bg.1, bg.2); ctx.rectangle(current_point.0, current_point.1, char_width, line_height); ctx.fill(); } } ctx.move_to(current_point.0 + char_width, current_point.1); } line_y += line_height; } } fn draw(state: &State, ctx: &cairo::Context) { let layout = ctx.create_pango_layout(); let mut desc = state.create_pango_font(); let mut buf = String::with_capacity(4); let (row, col) = state.model.get_cursor(); let line_height = state.line_height.unwrap(); let char_width = state.char_width.unwrap(); let mut draw_bitmap = ModelBitamp::new(state.model.columns, state.model.rows); ctx.set_source_rgb(state.bg_color.0, state.bg_color.1, state.bg_color.2); ctx.paint(); let clip_rects = &ctx.copy_clip_rectangle_list().rectangles; for clip_idx in 0..clip_rects.len() { let clip = clip_rects.get(clip_idx).unwrap(); let model_clip = get_model_clip(state, line_height, char_width, (clip.x, clip.y, clip.x + clip.width, clip.y + clip.height)); let line_x = model_clip.left as f64 * char_width; let mut line_y: f64 = model_clip.top as f64 * line_height; draw_backgound(state, &draw_bitmap, ctx, line_height, char_width, &model_clip); for (line_idx, line) in state.model.clip_model(&model_clip) { ctx.move_to(line_x, line_y); for (col_idx, cell) in line.iter() { let current_point = ctx.get_current_point(); if !draw_bitmap.get(col_idx, line_idx) { let double_width = line.is_double_width(col_idx); let (bg, fg) = state.colors(cell); if row == line_idx && col == col_idx { state .cursor .as_ref() .unwrap() .draw(ctx, state, char_width, line_height, line_y, double_width, bg); ctx.move_to(current_point.0, current_point.1); } if !cell.ch.is_whitespace() { update_font_description(&mut desc, &cell.attrs); layout.set_font_description(Some(&desc)); buf.clear(); buf.push(cell.ch); layout.set_text(&buf, -1); // correct layout for double_width chars if double_width { let (dw_width, dw_height) = layout.get_pixel_size(); let x_offset = (char_width * 2.0 - dw_width as f64) / 2.0; let y_offset = (line_height - dw_height as f64) / 2.0; ctx.rel_move_to(x_offset, y_offset); } ctx.set_source_rgb(fg.0, fg.1, fg.2); ctx.update_pango_layout(&layout); ctx.show_pango_layout(&layout); } if cell.attrs.underline || cell.attrs.undercurl { // [TODO]: Current gtk-rs bindings does not provide fontmetrics access // so it is not possible to find right position for underline or undercurl position // > update_font_description(&mut desc, &cell.attrs); // > layout.get_context().unwrap().get_metrics(); let top_offset = line_height * 0.9; let sp = if let Some(ref sp) = cell.attrs.special { sp } else { &state.sp_color }; ctx.set_source_rgba(sp.0, sp.1, sp.2, 0.7); if cell.attrs.undercurl { ctx.set_dash(&[4.0, 2.0], 0.0); ctx.set_line_width(2.0); ctx.move_to(current_point.0, line_y + top_offset); ctx.line_to(current_point.0 + char_width, line_y + top_offset); ctx.stroke(); ctx.set_dash(&[], 0.0); } else if cell.attrs.underline { ctx.set_line_width(1.0); ctx.move_to(current_point.0, line_y + top_offset); ctx.line_to(current_point.0 + char_width, line_y + top_offset); ctx.stroke(); } } } ctx.move_to(current_point.0 + char_width, current_point.1); } line_y += line_height; } draw_bitmap.fill_from_model(&model_clip); } } #[inline] fn update_font_description(desc: &mut FontDescription, attrs: &Attrs) { desc.unset_fields(pango::FONT_MASK_STYLE | pango::FONT_MASK_WEIGHT); if attrs.italic { desc.set_style(pango::Style::Italic); } if attrs.bold { desc.set_weight(pango::Weight::Bold); } } fn calc_char_bounds(shell: &State, ctx: &cairo::Context) -> (i32, i32) { let layout = ctx.create_pango_layout(); let desc = shell.create_pango_font(); layout.set_font_description(Some(&desc)); layout.set_text("A", -1); layout.get_pixel_size() } fn request_window_resize(parent: &ui::Components, state: &mut State) { if !state.request_resize { return; } if state.resize_timer.is_some() { return; } state.request_resize = false; let width = state.drawing_area.get_allocated_width(); let height = state.drawing_area.get_allocated_height(); let request_height = (state.model.rows as f64 * state.line_height.unwrap()) as i32; let request_width = (state.model.columns as f64 * state.char_width.unwrap()) as i32; if width != request_width || height != request_height { let window = parent.window(); let (win_width, win_height) = window.get_size(); let h_border = win_width - width; let v_border = win_height - height; window.resize(request_width + h_border, request_height + v_border); } } fn split_color(indexed_color: u64) -> Color { let r = ((indexed_color >> 16) & 0xff) as f64; let g = ((indexed_color >> 8) & 0xff) as f64; let b = (indexed_color & 0xff) as f64; Color(r / 255.0, g / 255.0, b / 255.0) } fn gtk_configure_event(state: &Arc>, ev: &EventConfigure) -> bool { let (width, height) = ev.get_size(); let mut state_ref = state.borrow_mut(); if let Some(timer) = state_ref.resize_timer { glib::source_remove(timer); } if let Some(line_height) = state_ref.line_height { if let Some(char_width) = state_ref.char_width { let state = state.clone(); state_ref.resize_timer = Some(glib::timeout_add(250, move || { let mut state_ref = state.borrow_mut(); state_ref.resize_timer = None; let rows = (height as f64 / line_height).trunc() as usize; let columns = (width as f64 / char_width).trunc() as usize; if state_ref.model.rows != rows || state_ref.model.columns != columns { if let Err(err) = state_ref.nvim().ui_try_resize(columns as u64, rows as u64) { println!("Error trying resize nvim {}", err); } } Continue(false) })); } } false } impl RedrawEvents for State { fn on_cursor_goto(&mut self, row: u64, col: u64) -> RepaintMode { RepaintMode::AreaList(self.model.set_cursor(row as usize, col as usize)) } fn on_put(&mut self, text: &str) -> RepaintMode { RepaintMode::Area(self.model.put(text, self.cur_attrs.as_ref())) } fn on_clear(&mut self) -> RepaintMode { self.model.clear(); RepaintMode::All } fn on_eol_clear(&mut self) -> RepaintMode { RepaintMode::Area(self.model.eol_clear()) } fn on_resize(&mut self, columns: u64, rows: u64) -> RepaintMode { self.model = UiModel::new(rows, columns); self.request_resize(); RepaintMode::All } fn on_redraw(&self, mode: &RepaintMode) { match mode { &RepaintMode::All => self.drawing_area.queue_draw(), &RepaintMode::Area(ref rect) => self.queue_draw_area(&vec![rect]), &RepaintMode::AreaList(ref list) => self.queue_draw_area(&list.list), &RepaintMode::Nothing => (), } } fn on_set_scroll_region(&mut self, top: u64, bot: u64, left: u64, right: u64) -> RepaintMode { self.model.set_scroll_region(top, bot, left, right); RepaintMode::Nothing } fn on_scroll(&mut self, count: i64) -> RepaintMode { RepaintMode::Area(self.model.scroll(count)) } fn on_highlight_set(&mut self, attrs: &Vec<(Value, Value)>) -> RepaintMode { let mut model_attrs = Attrs::new(); for &(ref key_val, ref val) in attrs { if let Some(key) = key_val.as_str() { match key { "foreground" => { if let Some(fg) = val.as_u64() { model_attrs.foreground = Some(split_color(fg)); } } "background" => { if let Some(bg) = val.as_u64() { model_attrs.background = Some(split_color(bg)); } } "special" => { if let Some(bg) = val.as_u64() { model_attrs.special = Some(split_color(bg)); } } "reverse" => model_attrs.reverse = true, "bold" => model_attrs.bold = true, "italic" => model_attrs.italic = true, "underline" => model_attrs.underline = true, "undercurl" => model_attrs.undercurl = true, attr_key => println!("unknown attribute {}", attr_key), }; } else { panic!("attr key must be string"); } } self.cur_attrs = Some(model_attrs); RepaintMode::Nothing } fn on_update_bg(&mut self, bg: i64) -> RepaintMode { if bg >= 0 { self.bg_color = split_color(bg as u64); } else { self.bg_color = COLOR_BLACK; } RepaintMode::Nothing } fn on_update_fg(&mut self, fg: i64) -> RepaintMode { if fg >= 0 { self.fg_color = split_color(fg as u64); } else { self.fg_color = COLOR_WHITE; } RepaintMode::Nothing } fn on_update_sp(&mut self, sp: i64) -> RepaintMode { if sp >= 0 { self.sp_color = split_color(sp as u64); } else { self.sp_color = COLOR_RED; } RepaintMode::Nothing } fn on_mode_change(&mut self, mode: &str) -> RepaintMode { match mode { "normal" => self.mode = NvimMode::Normal, "insert" => self.mode = NvimMode::Insert, _ => self.mode = NvimMode::Other, } RepaintMode::Area(self.model.cur_point()) } fn on_mouse(&mut self, on: bool) -> RepaintMode { self.mouse_enabled = on; RepaintMode::Nothing } fn on_busy(&mut self, busy: bool) -> RepaintMode { if busy { self.cursor.as_mut().unwrap().busy_on(); } else { self.cursor.as_mut().unwrap().busy_off(); } RepaintMode::Area(self.model.cur_point()) } fn popupmenu_show(&mut self, menu: &Vec>, selected: i64, row: u64, col: u64) -> RepaintMode { match (&self.line_height, &self.char_width) { (&Some(line_height), &Some(char_width)) => { let point = ModelRect::point(col as usize, row as usize); let (x, y, width, height) = point.to_area(line_height, char_width); self.popup_menu .borrow_mut() .show(&self, menu, selected, x, y, width, height); } _ => (), }; RepaintMode::Nothing } fn popupmenu_hide(&mut self) -> RepaintMode { self.popup_menu.borrow_mut().hide(); RepaintMode::Nothing } fn popupmenu_select(&mut self, selected: i64) -> RepaintMode { self.popup_menu.borrow().select(selected); RepaintMode::Nothing } fn tabline_update(&mut self, selected: Tabpage, tabs: Vec<(Tabpage, Option<&str>)>) -> RepaintMode { self.tabs .update_tabs(&self.nvim.as_ref().unwrap(), &selected, &tabs); RepaintMode::Nothing } } impl GuiApi for State { fn set_font(&mut self, font_desc: &str) { self.set_font_desc(font_desc); self.request_resize(); let mut settings = self.settings.borrow_mut(); settings.set_font_source(FontSource::Rpc); } } pub struct ModelBitamp { words_for_cols: usize, model: Vec, } impl ModelBitamp { pub fn new(cols: usize, rows: usize) -> ModelBitamp { let words_for_cols = cols / 64 + 1; ModelBitamp { words_for_cols: words_for_cols, model: vec![0; rows * words_for_cols], } } fn fill_from_model(&mut self, rect: &ModelRect) { for row in rect.top..rect.bot + 1 { let row_pos = self.words_for_cols * row; for col in rect.left..rect.right + 1 { let col_pos = col / 64; let col_offset = col % 64; self.model[row_pos + col_pos] |= 1 << col_offset; } } } #[inline] fn get(&self, col: usize, row: usize) -> bool { let row_pos = self.words_for_cols * row; let col_pos = col / 64; let col_offset = col % 64; self.model[row_pos + col_pos] & (1 << col_offset) != 0 } } #[cfg(test)] mod tests { use super::*; #[test] fn test_bitmap() { let mut bitmap = ModelBitamp::new(80, 24); bitmap.fill_from_model(&ModelRect::new(22, 22, 63, 68)); assert_eq!(true, bitmap.get(63, 22)); assert_eq!(true, bitmap.get(68, 22)); assert_eq!(false, bitmap.get(62, 22)); } }