use Printer; use With; use XY; use align::*; use direction::Direction; use event::*; use unicode_width::UnicodeWidthStr; use utils::{LinesIterator, Row}; use vec::Vec2; use view::{ScrollBase, ScrollStrategy, SizeCache, View}; /// A simple view showing a fixed text pub struct TextView { content: String, rows: Vec, align: Align, // If `false`, disable scrolling. scrollable: bool, // ScrollBase make many scrolling-related things easier scrollbase: ScrollBase, scroll_strategy: ScrollStrategy, last_size: Option>, width: Option, } // If the last character is a newline, strip it. fn strip_last_newline(content: &str) -> &str { if content.ends_with('\n') { &content[..content.len() - 1] } else { content } } impl TextView { /// Creates a new TextView with the given content. pub fn new>(content: S) -> Self { let content = content.into(); TextView { content: content, rows: Vec::new(), scrollable: true, scrollbase: ScrollBase::new(), scroll_strategy: ScrollStrategy::KeepRow, align: Align::top_left(), last_size: None, width: None, } } /// Creates a new empty `TextView`. pub fn empty() -> Self { TextView::new("") } /// Enable or disable the view's scrolling capabilities. /// /// When disabled, the view will never attempt to scroll /// (and will always ask for the full height). pub fn set_scrollable(&mut self, scrollable: bool) { self.scrollable = scrollable; } /// Enable or disable the view's scrolling capabilities. /// /// When disabled, the view will never attempt to scroll /// (and will always ask for the full height). /// /// Chainable variant. pub fn scrollable(self, scrollable: bool) -> Self { self.with(|s| s.set_scrollable(scrollable)) } /// Sets the horizontal alignment for this view. pub fn h_align(mut self, h: HAlign) -> Self { self.align.h = h; self } /// Sets the vertical alignment for this view. pub fn v_align(mut self, v: VAlign) -> Self { self.align.v = v; self } /// Sets the alignment for this view. pub fn align(mut self, a: Align) -> Self { self.align = a; self } /// Center the text horizontally and vertically inside the view. pub fn center(mut self) -> Self { self.align = Align::center(); self } /// Replace the text in this view. /// /// Chainable variant. pub fn content>(self, content: S) -> Self { self.with(|s| s.set_content(content)) } /// Replace the text in this view. pub fn set_content>(&mut self, content: S) { let content = content.into(); self.content = content; self.invalidate(); } /// Append content to the end of a TextView. pub fn append_content(&mut self, content: &str) { self.content.push_str(content); self.invalidate(); } /// Returns the current text in this view. pub fn get_content(&self) -> &str { &self.content } fn is_cache_valid(&self, size: Vec2) -> bool { match self.last_size { None => false, Some(ref last) => last.x.accept(size.x) && last.y.accept(size.y), } } /// Defines the way scrolling is adjusted on content or size change. /// /// The scroll strategy defines how the scrolling position is adjusted /// when the size of the view or the content change. /// /// It is reset to `ScrollStrategy::KeepRow` whenever the user scrolls /// manually. pub fn set_scroll_strategy(&mut self, strategy: ScrollStrategy) { self.scroll_strategy = strategy; self.adjust_scroll(); } /// Defines the way scrolling is adjusted on content or size change. /// /// Chainable variant. pub fn scroll_strategy(self, strategy: ScrollStrategy) -> Self { self.with(|s| s.set_scroll_strategy(strategy)) } // Apply the scrolling strategy to the current scroll position. // // Called when computing rows and when applying a new strategy. fn adjust_scroll(&mut self) { match self.scroll_strategy { ScrollStrategy::StickToTop => self.scrollbase.scroll_top(), ScrollStrategy::StickToBottom => self.scrollbase.scroll_bottom(), ScrollStrategy::KeepRow => (), }; } fn compute_rows(&mut self, size: Vec2) { if self.is_cache_valid(size) { return; } // Completely bust the cache // Just in case we fail, we don't want to leave a bad cache. self.last_size = None; if size.x == 0 { // Nothing we can do at this point. return; } // First attempt: naively hope that we won't need a scrollbar_width // (This means we try to use the entire available width for text). self.rows = LinesIterator::new(strip_last_newline(&self.content), size.x) .collect(); // Width taken by the scrollbar. Without a scrollbar, it's 0. let mut scrollbar_width = 0; if self.scrollable && self.rows.len() > size.y { // We take 1 column for the bar itself + 1 spacing column scrollbar_width = 2; // If we're too high, include a scrollbar_width let available = match size.x.checked_sub(scrollbar_width) { Some(s) => s, None => return, }; self.rows = LinesIterator::new(&self.content, available).collect(); if self.rows.is_empty() && !self.content.is_empty() { // We have some content, we we didn't find any row for it? // This probably means we couldn't even make a single row // (for instance we only have 1 column and we have a wide character). return; } } // Desired width, including the scrollbar_width. self.width = self.rows .iter() .map(|row| row.width) .max() .map(|w| w + scrollbar_width); // The entire "virtual" size (includes all rows) let mut my_size = Vec2::new(self.width.unwrap_or(0), self.rows.len()); // If we're scrolling, cap the the available size. if self.scrollable && my_size.y > size.y { my_size.y = size.y; } // Build a fresh cache. self.last_size = Some(SizeCache::build(my_size, size)); // Adjust scrolling, in case we're sticking to the bottom for instance. self.scrollbase.set_heights(size.y, self.rows.len()); self.adjust_scroll(); } // Invalidates the cache, so next call will recompute everything. fn invalidate(&mut self) { self.last_size = None; } } impl View for TextView { fn draw(&self, printer: &Printer) { let h = self.rows.len(); // If the content is smaller than the view, align it somewhere. let offset = self.align.v.get_offset(h, printer.size.y); let printer = &printer.offset((0, offset), true); self.scrollbase.draw(printer, |printer, i| { let row = &self.rows[i]; let text = &self.content[row.start..row.end]; let l = text.width(); let x = self.align.h.get_offset(l, printer.size.x); printer.print((x, 0), text); }); } fn on_event(&mut self, event: Event) -> EventResult { if !self.scrollbase.scrollable() { return EventResult::Ignored; } // We know we are scrollable, otherwise the event would just be ignored. match event { Event::Key(Key::Home) => self.scrollbase.scroll_top(), Event::Key(Key::End) => self.scrollbase.scroll_bottom(), Event::Key(Key::Up) if self.scrollbase.can_scroll_up() => { self.scrollbase.scroll_up(1) } Event::Key(Key::Down) if self.scrollbase.can_scroll_down() => { self.scrollbase.scroll_down(1) } Event::Mouse { event: MouseEvent::WheelDown, position: _, offset: _, } if self.scrollbase.can_scroll_down() => { self.scrollbase.scroll_down(5) } Event::Mouse { event: MouseEvent::WheelUp, position: _, offset: _, } if self.scrollbase.can_scroll_up() => { self.scrollbase.scroll_up(5) } Event::Mouse { event: MouseEvent::Press(MouseButton::Left), position, offset, } if position .checked_sub(offset) .and_then(|position| { self.width.map( |width| self.scrollbase.start_drag(position, width), ) }) .unwrap_or(false) => { // Only consume the event if the mouse hits the scrollbar. // Start scroll drag at the given position. } Event::Mouse { event: MouseEvent::Hold(MouseButton::Left), position, offset, } => { // If the mouse is dragged, we always consume the event. position .checked_sub(offset) .map(|position| self.scrollbase.drag(position)); } Event::Mouse { event: MouseEvent::Release(MouseButton::Left), position: _, offset: _, } => { self.scrollbase.release_grab(); } Event::Key(Key::PageDown) => self.scrollbase.scroll_down(10), Event::Key(Key::PageUp) => self.scrollbase.scroll_up(10), _ => return EventResult::Ignored, } // We just scrolled manually, so reset the scroll strategy. self.scroll_strategy = ScrollStrategy::KeepRow; EventResult::Consumed(None) } fn needs_relayout(&self) -> bool { self.last_size.is_none() } fn required_size(&mut self, size: Vec2) -> Vec2 { self.compute_rows(size); // This is what we'd like let mut ideal = Vec2::new(self.width.unwrap_or(0), self.rows.len()); if self.scrollable && ideal.y > size.y { ideal.y = size.y; } ideal } fn take_focus(&mut self, _: Direction) -> bool { self.scrollbase.scrollable() } fn layout(&mut self, size: Vec2) { // Compute the text rows. self.compute_rows(size); self.scrollbase.set_heights(size.y, self.rows.len()); } }