//! Base elements required to build views. //! //! Views are the main building blocks of your UI. //! //! A view can delegate part or all of its responsabilities to child views, //! forming a view tree. The root of this tree is a `StackView` handled //! directly by the `Cursive` element. //! //! # Layout //! //! The layout phase is when the size and location of each view is computed. //! //! Each view is given an area of the screen by the `View::layout()` method. //! With this, the view is free to plan its content, including calling //! `View::layout()` on its own children. //! //! In order to determine how much space should be given each child, parents //! can use `View::required_size()` on them. //! //! //! ### Contracts //! //! When building new Views, you should respect these contracts: //! //! * By default, `View::layout()` should be called before any call to //! `View::draw()` with the same available size. The only exceptions is //! when both following conditions are met: //! * The available size has not changed since the last call to //! `View::layout()` //! * `View::needs_relayout()` returns `false` //! //! In this case, it is safe to omit the call to `View::layout()`. //! //! * The value returned by `required_size` should be an actually viable size, //! no matter what the request is. This means calling `View::layout()` with //! a size returned by `required_size` is **never** an error. #[macro_use] mod view_wrapper; // Essentials components mod position; mod size_cache; mod size_constraint; mod view_path; // Helper bases mod scroll; mod identifiable; mod boxable; pub use self::boxable::Boxable; pub use self::identifiable::Identifiable; pub use self::position::{Offset, Position}; pub use self::scroll::{ScrollBase, ScrollStrategy}; pub use self::size_cache::SizeCache; pub use self::size_constraint::SizeConstraint; pub use self::view_path::ViewPath; pub use self::view_wrapper::ViewWrapper; use Printer; use direction::Direction; use event::{Event, EventResult}; use std::any::Any; use vec::Vec2; use views::IdView; /// A view that can be downcasted to its concrete type. pub trait AnyView: View { /// Downcast self to a `Any`. fn as_any(&self) -> &Any; /// Downcast self to a mutable `Any`. fn as_any_mut(&mut self) -> &mut Any; /// Returns a boxed any from a boxed self. /// /// Can be used before `Box::downcast()`. /// /// # Examples /// /// ```rust /// # use cursive::views::TextView; /// # use cursive::view::AnyView; /// # fn main() { /// let boxed: Box = Box::new(TextView::new("text")); /// let text: Box = boxed.as_boxed_any().downcast().unwrap(); /// # } /// ``` fn as_boxed_any(self: Box) -> Box; } impl AnyView for T { /// Downcast self to a `Any`. fn as_any(&self) -> &Any { self } /// Downcast self to a mutable `Any`. fn as_any_mut(&mut self) -> &mut Any { self } fn as_boxed_any(self: Box) -> Box { self } } /// Main trait defining a view behaviour. pub trait View: Any { /// Called when a key was pressed. /// /// Default implementation just ignores it. fn on_event(&mut self, Event) -> EventResult { EventResult::Ignored } /// Returns the minimum size the view requires with the given restrictions. /// /// If the view is flexible (it has multiple size options), it can try /// to return one that fits the given `constraint`. /// It's also fine to ignore it and return a fixed value. /// /// Default implementation always return `(1,1)`. fn required_size(&mut self, constraint: Vec2) -> Vec2 { let _ = constraint; Vec2::new(1, 1) } /// Returns `true` if the view content changed since last layout phase. /// /// This is mostly an optimisation for views where the layout phase is /// expensive. /// /// * Views can ignore it and always return true (default implementation). /// They will always be assumed to have changed. /// * View Groups can ignore it and always re-layout their children. /// * If they call `required_size` or `layout` with stable parameters, /// the children may cache the result themselves and speed up the /// process anyway. fn needs_relayout(&self) -> bool { true } /// Called once the size for this view has been decided, /// /// View groups should propagate the information to their children. fn layout(&mut self, Vec2) {} /// Draws the view with the given printer (includes bounds) and focus. fn draw(&self, printer: &Printer); /// Runs a closure on the view identified by the given selector. /// /// See [`Finder::call_on`] for a nicer interface, implemented for all /// views. /// /// [`Finder::call_on`]: trait.Finder.html#method.call_on /// /// If the selector doesn't find a match, the closure will not be run. /// /// Default implementation is a no-op. fn call_on_any<'a>(&mut self, _: &Selector, _: Box) { // TODO: FnMut -> FnOnce once it works } /// Moves the focus to the view identified by the given selector. /// /// Returns `Ok(())` if the view was found and selected. /// /// Default implementation simply returns `Err(())`. fn focus_view(&mut self, &Selector) -> Result<(), ()> { Err(()) } /// This view is offered focus. Will it take it? /// /// `source` indicates where the focus comes from. /// When the source is unclear, `Front` is usually used. /// /// Default implementation always return `false`. fn take_focus(&mut self, source: Direction) -> bool { let _ = source; false } } /// Provides `call_on` to views. /// /// This trait is mostly a wrapper around [`View::call_on_any`]. /// /// It provides a nicer interface to find a view when you know its type. /// /// [`View::call_on_any`]: ./trait.View.html#method.call_on_any pub trait Finder { /// Tries to find the view pointed to by the given selector. /// /// If the view is not found, or if it is not of the asked type, /// it returns None. fn call_on(&mut self, sel: &Selector, callback: F) -> Option where V: View + Any, F: FnOnce(&mut V) -> R; /// Convenient method to use `call_on` with a `view::Selector::Id`. fn find_id(&mut self, id: &str, callback: F) -> Option where V: View + Any, F: FnOnce(&mut V) -> R, { self.call_on(&Selector::Id(id), callback) } } impl Finder for T { fn call_on(&mut self, sel: &Selector, callback: F) -> Option where V: View + Any, F: FnOnce(&mut V) -> R, { let mut result = None; { let result_ref = &mut result; let mut callback = Some(callback); let callback = |v: &mut Any| { if let Some(callback) = callback.take() { if v.is::() { *result_ref = v.downcast_mut::().map(|v| callback(v)); } else if v.is::>() { *result_ref = v.downcast_mut::>() .and_then(|v| v.with_view_mut(callback)); } } }; self.call_on_any(sel, Box::new(callback)); } result } } /// Selects a single view (if any) in the tree. pub enum Selector<'a> { /// Selects a view from its ID. Id(&'a str), /// Selects a view from its path. Path(&'a ViewPath), }