//! The main module which contents aliases to necessary items
//! to create a template and implement `update` and `view` functions.
//! Also this module contains declaration of `Component` trait which used
//! to create own UI-components.

mod listener;
mod scope;

pub use listener::*;
pub use scope::Scope;
pub(crate) use scope::{ComponentUpdate, HiddenScope};

use crate::callback::Callback;
use crate::virtual_dom::{VChild, VList, VNode};
use cfg_if::cfg_if;
use cfg_match::cfg_match;
use std::any::TypeId;
use std::cell::RefCell;
use std::fmt;
use std::rc::Rc;
cfg_if! {
    if #[cfg(feature = "std_web")] {
        use stdweb::unstable::TryFrom;
        use stdweb::web::Node;
    } else if #[cfg(feature = "web_sys")] {
        use wasm_bindgen::JsValue;
        use web_sys::Node;
    }
}

/// This type indicates that component should be rendered again.
pub type ShouldRender = bool;

/// An interface of a UI-component. Uses `self` as a model.
pub trait Component: Sized + 'static {
    /// Control message type which `update` loop get.
    type Message: 'static;
    /// Properties type of component implementation.
    type Properties: Properties;
    /// Initialization routine which could use a context.
    fn create(props: Self::Properties, link: ComponentLink<Self>) -> Self;
    /// Called after the component has been attached to the VDOM and it is safe to receive messages
    /// from agents but before the browser updates the screen. If true is returned, the view will
    /// be re-rendered and the user will not see the initial render.
    fn mounted(&mut self) -> ShouldRender {
        false
    }
    /// Called everytime when a messages of `Msg` type received. It also takes a
    /// reference to a context.
    fn update(&mut self, msg: Self::Message) -> ShouldRender;
    /// Called when the component's parent component re-renders and the
    /// component's place in the DOM tree remains unchanged. If the component's
    /// place in the DOM tree changes, calling this method is unnecessary as the
    /// component is recreated from scratch. It defaults to true if not implemented
    /// and Self::Properties is not the unit type `()`.
    fn change(&mut self, _props: Self::Properties) -> ShouldRender {
        TypeId::of::<Self::Properties>() != TypeId::of::<()>()
    }
    /// Called by rendering loop.
    fn view(&self) -> Html;
    /// Called for finalization on the final point of the component's lifetime.
    fn destroy(&mut self) {} // TODO(#941): Replace with `Drop`
}

/// A type which expected as a result of `view` function implementation.
pub type Html = VNode;

/// A type used for accepting children elements in Component::Properties.
///
/// # Example
/// **`model.rs`**
///
/// In this example, the `Wrapper` component is used to wrap other elements.
/// ```
///# use yew::{Children, Html, Properties, Component, ComponentLink, html};
///# #[derive(Clone, Properties)]
///# struct WrapperProps {
///#     children: Children,
///# }
///# struct Wrapper;
///# impl Component for Wrapper{
///#     type Message = ();
///#     type Properties = WrapperProps;
///#     fn create(props: Self::Properties,link: ComponentLink<Self>) -> Self {unimplemented!()}
///#     fn update(&mut self,msg: Self::Message) -> bool {unimplemented!()}
///#     // This is not a valid implementation.  This is done for space convenience.
///#     fn view(&self) -> Html {
/// html! {
///     <Wrapper>
///         <h4>{ "Hi" }</h4>
///         <div>{ "Hello" }</div>
///     </Wrapper>
/// }
///#     }
///# }
/// ```
///
/// **`wrapper.rs`**
///
/// The Wrapper component must define a `children` property in order to wrap other elements. The
/// children property can be used to render the wrapped elements.
/// ```
///# use yew::{Children, Html, Properties, Renderable, Component, ComponentLink, html};
/// #[derive(Clone, Properties)]
/// struct WrapperProps {
///     children: Children,
/// }
///
///# struct Wrapper {props: WrapperProps};
/// impl Component for Wrapper {
///     // ...
///#     type Message = ();
///#     type Properties = WrapperProps;
///#     fn create(props: Self::Properties,link: ComponentLink<Self>) -> Self {unimplemented!()}
///#     fn update(&mut self,msg: Self::Message) -> bool {unimplemented!()}
///     fn view(&self) -> Html {
///         html! {
///             <div id="container">
///                 { self.props.children.render() }
///             </div>
///         }
///     }
/// }
/// ```
pub type Children = ChildrenRenderer<Html>;

/// A type used for accepting children elements in Component::Properties and accessing their props.
///
/// # Example
/// **`model.rs`**
///
/// In this example, the `List` component can wrap `ListItem` components.
/// ```
///# use yew::{html, Component, Renderable, Html, ComponentLink, ChildrenWithProps, Properties};
///#
///# #[derive(Clone, Properties)]
///# struct ListProps {
///#     children: ChildrenWithProps<ListItem>,
///# }
///# struct List;
///# impl Component for List {
///#     type Message = ();
///#     type Properties = ListProps;
///#     fn create(props: Self::Properties, link: ComponentLink<Self>) -> Self {unimplemented!()}
///#     fn update(&mut self, msg: Self::Message) -> bool {unimplemented!()}
///#     fn view(&self) -> Html {unimplemented!()}
///# }
///# #[derive(Clone, Properties)]
///# struct ListItemProps {
///#     value: String
///# }
///# struct ListItem;
///# impl Component for ListItem {
///#     type Message = ();
///#     type Properties = ListItemProps;
///#     fn create(props: Self::Properties, link: ComponentLink<Self>) -> Self {unimplemented!()}
///#     fn update(&mut self, msg: Self::Message) -> bool {unimplemented!()}
///#     fn view(&self) -> Html {unimplemented!()}
///# }
///# fn view() -> Html {
/// html!{
///   <List>
///     <ListItem value="a" />
///     <ListItem value="b" />
///     <ListItem value="c" />
///   </List>
/// }
///# }
/// ```
///
/// **`list.rs`**
///
/// The `List` component must define a `children` property in order to wrap the list items. The
/// `children` property can be used to filter, mutate, and render the items.
/// ```
///# use yew::{html, Component, Html, ChildrenWithProps, ComponentLink, Properties};
///#
/// #[derive(Clone, Properties)]
/// struct ListProps {
///     children: ChildrenWithProps<ListItem>,
/// }
///
///# struct List {props: ListProps};
/// impl Component for List {
///#     type Message = ();
///#     type Properties = ListProps;
///#     fn create(props: Self::Properties,link: ComponentLink<Self>) -> Self {unimplemented!()}
///#     fn update(&mut self,msg: Self::Message) -> bool {unimplemented!()}
///     // ...
///     fn view(&self) -> Html {
///         html!{{
///             for self.props.children.iter().map(|mut item| {
///                 item.props.value = format!("item-{}", item.props.value);
///                 item
///             })
///         }}
///     }
/// }
///#
///# #[derive(Clone, Properties)]
///# struct ListItemProps {
///#     #[prop_or_default]
///#     value: String
///# }
///#
///# struct ListItem;
///# impl Component for ListItem {
///#     type Message = ();
///#     type Properties = ListItemProps;
///#     fn create(props: Self::Properties, link: ComponentLink<Self>) -> Self {unimplemented!()}
///#     fn update(&mut self, msg: Self::Message) -> bool {unimplemented!()}
///#     fn view(&self) -> Html {unimplemented!()}
///# }
/// ```
pub type ChildrenWithProps<CHILD> = ChildrenRenderer<VChild<CHILD>>;

/// A type used for rendering children html.
#[derive(Clone)]
pub struct ChildrenRenderer<T> {
    children: Vec<T>,
}

impl<T: PartialEq> PartialEq for ChildrenRenderer<T> {
    fn eq(&self, other: &Self) -> bool {
        self.children == other.children
    }
}

impl<T> ChildrenRenderer<T>
where
    T: Clone + Into<VNode>,
{
    /// Create children
    pub fn new(children: Vec<T>) -> Self {
        Self { children }
    }

    /// Children list is empty
    pub fn is_empty(&self) -> bool {
        self.children.is_empty()
    }

    /// Number of children elements
    pub fn len(&self) -> usize {
        self.children.len()
    }

    /// Build children components and return `Vec`
    pub fn to_vec(&self) -> Vec<T> {
        self.children.clone()
    }

    /// Render children components and return `Iterator`
    pub fn iter(&self) -> impl Iterator<Item = T> {
        self.to_vec().into_iter()
    }
}

impl<T> Default for ChildrenRenderer<T> {
    fn default() -> Self {
        Self {
            children: Vec::new(),
        }
    }
}

impl<T> fmt::Debug for ChildrenRenderer<T> {
    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
        f.write_str("ChildrenRenderer<_>")
    }
}

impl<T> Renderable for ChildrenRenderer<T>
where
    T: Clone + Into<VNode>,
{
    fn render(&self) -> Html {
        VList::new_with_children(self.iter().map(|c| c.into()).collect()).into()
    }
}

/// Wrapped Node reference for later use in Component lifecycle methods.
///
/// # Example
/// Focus an `<input>` element on mount.
/// ```
/// #[cfg(feature = "std_web")]
/// use stdweb::web::{html_element::InputElement, IHtmlElement};
/// #[cfg(feature = "web_sys")]
/// use web_sys::HtmlInputElement as InputElement;
///# use yew::prelude::*;
///
/// pub struct Input {
///     node_ref: NodeRef,
/// }
///
/// impl Component for Input {
///     type Message = ();
///     type Properties = ();
///
///     fn create(_: Self::Properties, _: ComponentLink<Self>) -> Self {
///         Input {
///             node_ref: NodeRef::default(),
///         }
///     }
///
///     fn mounted(&mut self) -> ShouldRender {
///         if let Some(input) = self.node_ref.cast::<InputElement>() {
///             input.focus();
///         }
///         false
///     }
///
///     fn update(&mut self, _: Self::Message) -> ShouldRender {
///         false
///     }
///
///     fn view(&self) -> Html {
///         html! {
///             <input ref=self.node_ref.clone() type="text" />
///         }
///     }
/// }
#[derive(PartialEq, Debug, Default, Clone)]
pub struct NodeRef(Rc<RefCell<NodeRefInner>>);

#[derive(PartialEq, Debug, Default, Clone)]
struct NodeRefInner {
    node: Option<Node>,
    link: Option<NodeRef>,
}

impl NodeRef {
    /// Get the wrapped Node reference if it exists
    pub fn get(&self) -> Option<Node> {
        let inner = self.0.borrow();
        inner.node.clone().or_else(|| inner.link.as_ref()?.get())
    }

    /// Try converting the node reference into another form
    pub fn cast<
        #[cfg(feature = "std_web")] INTO: TryFrom<Node>,
        #[cfg(feature = "web_sys")] INTO: AsRef<Node> + From<JsValue>,
    >(
        &self,
    ) -> Option<INTO> {
        let node = self.get();
        cfg_match! {
            feature = "std_web" => node.and_then(|node| INTO::try_from(node).ok()),
            feature = "web_sys" => node.map(Into::into).map(INTO::from),
        }
    }

    /// Place a Node in a reference for later use
    pub(crate) fn set(&self, node: Option<Node>) {
        self.0.borrow_mut().node = node;
    }

    /// Link a downstream `NodeRef`
    pub(crate) fn link(&self, node_ref: Self) {
        self.0.borrow_mut().link = Some(node_ref);
    }
}

/// Trait for rendering virtual DOM elements
pub trait Renderable {
    /// Called by rendering loop.
    fn render(&self) -> Html;
}

impl<COMP: Component> Renderable for COMP {
    fn render(&self) -> Html {
        self.view()
    }
}

/// Trait for building properties for a component
pub trait Properties: Clone {
    /// Builder that will be used to construct properties
    type Builder;

    /// Entrypoint for building properties
    fn builder() -> Self::Builder;
}

/// Builder for when a component has no properties
#[derive(Debug)]
#[doc(hidden)]
pub struct EmptyBuilder;

impl Properties for () {
    type Builder = EmptyBuilder;

    fn builder() -> Self::Builder {
        EmptyBuilder
    }
}

impl EmptyBuilder {
    /// Build empty properties
    pub fn build(self) {}
}

/// Link to component's scope for creating callbacks.
pub type ComponentLink<COMP> = Scope<COMP>;

/// A bridging type for checking `href` attribute value.
#[derive(Debug)]
pub struct Href {
    link: String,
}

impl From<String> for Href {
    fn from(link: String) -> Self {
        Href { link }
    }
}

impl<'a> From<&'a str> for Href {
    fn from(link: &'a str) -> Self {
        Href {
            link: link.to_owned(),
        }
    }
}

impl ToString for Href {
    fn to_string(&self) -> String {
        self.link.to_owned()
    }
}