use unicode_segmentation::UnicodeSegmentation; use unicode_width::UnicodeWidthStr; use With; use direction::Direction; use theme::{ColorStyle, Effect}; use vec::Vec2; use view::{IdView, View}; use event::*; use Printer; /// Input box where the user can enter and edit text. pub struct EditView { /// Current content. content: String, /// Cursor position in the content, in bytes. cursor: usize, /// Minimum layout length asked to the parent. min_length: usize, /// Number of bytes to skip at the beginning of the content. /// /// (When the content is too long for the display, we hide part of it) offset: usize, /// Last display length, to know the possible offset range last_length: usize, enabled: bool, } new_default!(EditView); impl EditView { /// Creates a new, empty edit view. pub fn new() -> Self { EditView { content: String::new(), cursor: 0, offset: 0, min_length: 1, last_length: 0, // scrollable: false, enabled: true, } } /// Disables this view. /// /// A disabled view cannot be selected. pub fn disable(&mut self) { self.enabled = false; } /// Disables this view. /// /// Chainable variant. pub fn disabled(self) -> Self { self.with(Self::disable) } /// Re-enables this view. pub fn enable(&mut self) { self.enabled = true; } /// Enable or disable this view. pub fn set_enabled(&mut self, enabled: bool) { self.enabled = enabled; } /// Returns `true` if this view is enabled. pub fn is_enabled(&self) -> bool { self.enabled } /// Replace the entire content of the view with the given one. pub fn set_content(&mut self, content: &str) { self.offset = 0; self.content = content.to_string(); } /// Get the current text. pub fn get_content(&self) -> &str { &self.content } /// Sets the current content to the given value. /// /// Convenient chainable method. pub fn content(mut self, content: &str) -> Self { self.set_content(content); self } /// Sets the minimum length for this view. /// (This applies to the layout, not the content.) pub fn min_length(mut self, min_length: usize) -> Self { self.min_length = min_length; self } /// Wraps this view into an IdView with the given id. pub fn with_id(self, label: &str) -> IdView { IdView::new(label, self) } } impl View for EditView { fn draw(&self, printer: &Printer) { assert!(printer.size.x == self.last_length, "Was promised {}, received {}", self.last_length, printer.size.x); let width = self.content.width(); printer.with_color(ColorStyle::Secondary, |printer| { let effect = if self.enabled { Effect::Reverse } else { Effect::Simple }; printer.with_effect(effect, |printer| { if width < self.last_length { // No problem, everything fits. printer.print((0, 0), &self.content); printer.print_hline((width, 0), printer.size.x - width, "_"); } else { let content = &self.content[self.offset..]; let display_bytes = content.graphemes(true) .scan(0, |w, g| { *w += g.width(); if *w > self.last_length { None } else { Some(g) } }) .map(|g| g.len()) .fold(0, |a, b| a + b); let content = &content[..display_bytes]; printer.print((0, 0), content); let width = content.width(); if width < self.last_length { printer.print_hline((width, 0), self.last_length - width, "_"); } } }); // Now print cursor if printer.focused { let c = if self.cursor == self.content.len() { "_" } else { // Get the char from the string... Is it so hard? self.content[self.cursor..] .graphemes(true) .next() .expect(&format!("Found no char at cursor {} in {}", self.cursor, self.content)) }; let offset = self.content[self.offset..self.cursor].width(); printer.print((offset, 0), c); } }); } fn layout(&mut self, size: Vec2) { self.last_length = size.x; } fn get_min_size(&mut self, _: Vec2) -> Vec2 { Vec2::new(self.min_length, 1) } fn take_focus(&mut self, _: Direction) -> bool { self.enabled } fn on_event(&mut self, event: Event) -> EventResult { match event { Event::Char(ch) => { // Find the byte index of the char at self.cursor self.content.insert(self.cursor, ch); self.cursor += ch.len_utf8(); } // TODO: handle ctrl-key? Event::Key(Key::Home) => self.cursor = 0, Event::Key(Key::End) => self.cursor = self.content.len(), Event::Key(Key::Left) if self.cursor > 0 => { let len = self.content[..self.cursor] .graphemes(true) .last() .unwrap() .len(); self.cursor -= len; } Event::Key(Key::Right) if self.cursor < self.content.len() => { let len = self.content[self.cursor..] .graphemes(true) .next() .unwrap() .len(); self.cursor += len; } Event::Key(Key::Backspace) if self.cursor > 0 => { let len = self.content[..self.cursor] .graphemes(true) .last() .unwrap() .len(); self.cursor -= len; self.content.remove(self.cursor); } Event::Key(Key::Del) if self.cursor < self.content.len() => { self.content.remove(self.cursor); } _ => return EventResult::Ignored, } // Keep cursor in [offset, offset+last_length] by changing offset // So keep offset in [last_length-cursor,cursor] // Also call this on resize, // but right now it is an event like any other if self.cursor < self.offset { self.offset = self.cursor; } else { // So we're against the right wall. // Let's find how much space will be taken by the selection // (either a char, or _) let c_len = self.content[self.cursor..] .graphemes(true) .map(|g| g.width()) .next() .unwrap_or(1); // Now, we have to fit self.content[..self.cursor] // into self.last_length - c_len. let available = self.last_length - c_len; // Look at the content before the cursor (we will print its tail). // From the end, count the length until we reach `available`. // Then sum the byte lengths. let tail_bytes = tail_bytes(&self.content[self.offset..self.cursor], available); self.offset = self.cursor - tail_bytes; assert!(self.cursor >= self.offset); } // If we have too much space if self.content[self.offset..].width() < self.last_length { let tail_bytes = tail_bytes(&self.content, self.last_length - 1); self.offset = self.content.len() - tail_bytes; } EventResult::Consumed(None) } } // Return the number of bytes, from the end of text, // which constitute the longest tail that fits in the given width. fn tail_bytes(text: &str, width: usize) -> usize { text.graphemes(true) .rev() .scan(0, |w, g| { *w += g.width(); if *w > width { None } else { Some(g) } }) .map(|g| g.len()) .fold(0, |a, b| a + b) }