use std::cmp::max; use ncurses; use ::{Cursive,Margins}; use event::EventResult; use view::{View,ViewPath,SizeRequest,DimensionRequest}; use view::{Button,SizedView}; use vec::Vec2; use printer::Printer; #[derive(PartialEq)] enum Focus { Content, Button(usize), } pub struct Dialog { content: Box, buttons: Vec>, padding: Margins, borders: Margins, focus: Focus, } impl Dialog { pub fn new(view: V) -> Self { Dialog { content: Box::new(view), buttons: Vec::new(), focus: Focus::Content, padding: Margins::new(1,1,0,0), borders: Margins::new(1,1,1,1), } } pub fn button<'a, F>(mut self, label: &'a str, cb: F) -> Self where F: Fn(&mut Cursive, &ViewPath) + 'static { self.buttons.push(SizedView::new(Button::new(label, cb))); self } } impl View for Dialog { fn draw(&self, printer: &Printer, focused: bool) { let mut height = 0; let mut x = 0; for (i,button) in self.buttons.iter().enumerate().rev() { let size = button.size; let offset = printer.size - self.borders.bot_right() - self.padding.bot_right() - size - Vec2::new(x, 0); // Add some special effect to the focused button button.draw(&printer.sub_printer(offset, size), focused && (self.focus == Focus::Button(i))); x += size.x + 1; height = max(height, size.y+1); } let inner_size = printer.size - Vec2::new(0, height) - self.borders.combined() - self.padding.combined(); self.content.draw(&printer.sub_printer(self.borders.top_left() + self.padding.top_left(), inner_size), focused && self.focus == Focus::Content); printer.print(Vec2::new(0,0), "+"); printer.print(Vec2::new(printer.size.x-1, 0), "+"); printer.print(Vec2::new(0, printer.size.y-1), "+"); printer.print(Vec2::new(printer.size.x-1, printer.size.y-1), "+"); } fn get_min_size(&self, req: SizeRequest) -> Vec2 { let content_req = req.reduced(self.padding.combined() + self.borders.combined()); let content_size = self.content.get_min_size(content_req); let mut buttons_size = Vec2::new(0,0); for button in self.buttons.iter() { let s = button.view.get_min_size(req); buttons_size.x += s.x + 1; buttons_size.y = max(buttons_size.y, s.y + 1); } let inner_size = Vec2::new( max(content_size.x, buttons_size.x), content_size.y + buttons_size.y); inner_size + self.padding.combined() + self.borders.combined() } fn layout(&mut self, mut size: Vec2) { // First layout the buttons size = size - (self.borders.combined() + self.padding.combined()); let req = SizeRequest { w: DimensionRequest::AtMost(size.x), h: DimensionRequest::AtMost(size.y), }; let mut buttons_height = 0; for button in self.buttons.iter_mut().rev() { let size = button.get_min_size(req); buttons_height = max(buttons_height, size.y+1); button.layout(size); } self.content.layout(size - Vec2::new(0, buttons_height)); } fn on_key_event(&mut self, ch: i32) -> EventResult { match self.focus { Focus::Content => match self.content.on_key_event(ch) { EventResult::Ignored if !self.buttons.is_empty() => match ch { ncurses::KEY_DOWN => { self.focus = Focus::Button(0); EventResult::Consumed(None, ViewPath::new()) }, _ => EventResult::Ignored, }, res => res, }, Focus::Button(i) => match self.buttons[i].on_key_event(ch) { EventResult::Ignored => match ch { ncurses::KEY_RIGHT if i+1 < self.buttons.len() => { self.focus = Focus::Button(i+1); EventResult::consume() }, ncurses::KEY_LEFT if i > 0 => { self.focus = Focus::Button(i-1); EventResult::consume() }, _ => EventResult::Ignored, }, res => res, }, } } fn take_focus(&mut self) -> bool { if !self.buttons.is_empty() { self.focus = Focus::Button(0); true } else { self.focus = Focus::Content; self.content.take_focus() } } }