1 /// Auto-generated bindings for a pre-instantiated version of a
2 /// component which implements the world `the-world`.
3 ///
4 /// This structure is created through [`TheWorldPre::new`] which
5 /// takes a [`InstancePre`](wasmtime::component::InstancePre) that
6 /// has been created through a [`Linker`](wasmtime::component::Linker).
7 ///
8 /// For more information see [`TheWorld`] as well.
9 pub struct TheWorldPre<T: 'static> {
10     instance_pre: wasmtime::component::InstancePre<T>,
11     indices: TheWorldIndices,
12 }
13 impl<T: 'static> Clone for TheWorldPre<T> {
clone(&self) -> Self14     fn clone(&self) -> Self {
15         Self {
16             instance_pre: self.instance_pre.clone(),
17             indices: self.indices.clone(),
18         }
19     }
20 }
21 impl<_T: 'static> TheWorldPre<_T> {
22     /// Creates a new copy of `TheWorldPre` bindings which can then
23     /// be used to instantiate into a particular store.
24     ///
25     /// This method may fail if the component behind `instance_pre`
26     /// does not have the required exports.
new( instance_pre: wasmtime::component::InstancePre<_T>, ) -> wasmtime::Result<Self>27     pub fn new(
28         instance_pre: wasmtime::component::InstancePre<_T>,
29     ) -> wasmtime::Result<Self> {
30         let indices = TheWorldIndices::new(&instance_pre)?;
31         Ok(Self { instance_pre, indices })
32     }
engine(&self) -> &wasmtime::Engine33     pub fn engine(&self) -> &wasmtime::Engine {
34         self.instance_pre.engine()
35     }
instance_pre(&self) -> &wasmtime::component::InstancePre<_T>36     pub fn instance_pre(&self) -> &wasmtime::component::InstancePre<_T> {
37         &self.instance_pre
38     }
39     /// Instantiates a new instance of [`TheWorld`] within the
40     /// `store` provided.
41     ///
42     /// This function will use `self` as the pre-instantiated
43     /// instance to perform instantiation. Afterwards the preloaded
44     /// indices in `self` are used to lookup all exports on the
45     /// resulting instance.
instantiate( &self, mut store: impl wasmtime::AsContextMut<Data = _T>, ) -> wasmtime::Result<TheWorld>46     pub fn instantiate(
47         &self,
48         mut store: impl wasmtime::AsContextMut<Data = _T>,
49     ) -> wasmtime::Result<TheWorld> {
50         let mut store = store.as_context_mut();
51         let instance = self.instance_pre.instantiate(&mut store)?;
52         self.indices.load(&mut store, &instance)
53     }
54 }
55 impl<_T: Send + 'static> TheWorldPre<_T> {
56     /// Same as [`Self::instantiate`], except with `async`.
instantiate_async( &self, mut store: impl wasmtime::AsContextMut<Data = _T>, ) -> wasmtime::Result<TheWorld>57     pub async fn instantiate_async(
58         &self,
59         mut store: impl wasmtime::AsContextMut<Data = _T>,
60     ) -> wasmtime::Result<TheWorld> {
61         let mut store = store.as_context_mut();
62         let instance = self.instance_pre.instantiate_async(&mut store).await?;
63         self.indices.load(&mut store, &instance)
64     }
65 }
66 /// Auto-generated bindings for index of the exports of
67 /// `the-world`.
68 ///
69 /// This is an implementation detail of [`TheWorldPre`] and can
70 /// be constructed if needed as well.
71 ///
72 /// For more information see [`TheWorld`] as well.
73 #[derive(Clone)]
74 pub struct TheWorldIndices {}
75 /// Auto-generated bindings for an instance a component which
76 /// implements the world `the-world`.
77 ///
78 /// This structure can be created through a number of means
79 /// depending on your requirements and what you have on hand:
80 ///
81 /// * The most convenient way is to use
82 ///   [`TheWorld::instantiate`] which only needs a
83 ///   [`Store`], [`Component`], and [`Linker`].
84 ///
85 /// * Alternatively you can create a [`TheWorldPre`] ahead of
86 ///   time with a [`Component`] to front-load string lookups
87 ///   of exports once instead of per-instantiation. This
88 ///   method then uses [`TheWorldPre::instantiate`] to
89 ///   create a [`TheWorld`].
90 ///
91 /// * If you've instantiated the instance yourself already
92 ///   then you can use [`TheWorld::new`].
93 ///
94 /// These methods are all equivalent to one another and move
95 /// around the tradeoff of what work is performed when.
96 ///
97 /// [`Store`]: wasmtime::Store
98 /// [`Component`]: wasmtime::component::Component
99 /// [`Linker`]: wasmtime::component::Linker
100 pub struct TheWorld {}
101 const _: () = {
102     impl TheWorldIndices {
103         /// Creates a new copy of `TheWorldIndices` bindings which can then
104         /// be used to instantiate into a particular store.
105         ///
106         /// This method may fail if the component does not have the
107         /// required exports.
new<_T>( _instance_pre: &wasmtime::component::InstancePre<_T>, ) -> wasmtime::Result<Self>108         pub fn new<_T>(
109             _instance_pre: &wasmtime::component::InstancePre<_T>,
110         ) -> wasmtime::Result<Self> {
111             let _component = _instance_pre.component();
112             let _instance_type = _instance_pre.instance_type();
113             Ok(TheWorldIndices {})
114         }
115         /// Uses the indices stored in `self` to load an instance
116         /// of [`TheWorld`] from the instance provided.
117         ///
118         /// Note that at this time this method will additionally
119         /// perform type-checks of all exports.
load( &self, mut store: impl wasmtime::AsContextMut, instance: &wasmtime::component::Instance, ) -> wasmtime::Result<TheWorld>120         pub fn load(
121             &self,
122             mut store: impl wasmtime::AsContextMut,
123             instance: &wasmtime::component::Instance,
124         ) -> wasmtime::Result<TheWorld> {
125             let _ = &mut store;
126             let _instance = instance;
127             Ok(TheWorld {})
128         }
129     }
130     impl TheWorld {
131         /// Convenience wrapper around [`TheWorldPre::new`] and
132         /// [`TheWorldPre::instantiate`].
instantiate<_T>( store: impl wasmtime::AsContextMut<Data = _T>, component: &wasmtime::component::Component, linker: &wasmtime::component::Linker<_T>, ) -> wasmtime::Result<TheWorld>133         pub fn instantiate<_T>(
134             store: impl wasmtime::AsContextMut<Data = _T>,
135             component: &wasmtime::component::Component,
136             linker: &wasmtime::component::Linker<_T>,
137         ) -> wasmtime::Result<TheWorld> {
138             let pre = linker.instantiate_pre(component)?;
139             TheWorldPre::new(pre)?.instantiate(store)
140         }
141         /// Convenience wrapper around [`TheWorldIndices::new`] and
142         /// [`TheWorldIndices::load`].
new( mut store: impl wasmtime::AsContextMut, instance: &wasmtime::component::Instance, ) -> wasmtime::Result<TheWorld>143         pub fn new(
144             mut store: impl wasmtime::AsContextMut,
145             instance: &wasmtime::component::Instance,
146         ) -> wasmtime::Result<TheWorld> {
147             let indices = TheWorldIndices::new(&instance.instance_pre(&store))?;
148             indices.load(&mut store, instance)
149         }
150         /// Convenience wrapper around [`TheWorldPre::new`] and
151         /// [`TheWorldPre::instantiate_async`].
instantiate_async<_T>( store: impl wasmtime::AsContextMut<Data = _T>, component: &wasmtime::component::Component, linker: &wasmtime::component::Linker<_T>, ) -> wasmtime::Result<TheWorld> where _T: Send,152         pub async fn instantiate_async<_T>(
153             store: impl wasmtime::AsContextMut<Data = _T>,
154             component: &wasmtime::component::Component,
155             linker: &wasmtime::component::Linker<_T>,
156         ) -> wasmtime::Result<TheWorld>
157         where
158             _T: Send,
159         {
160             let pre = linker.instantiate_pre(component)?;
161             TheWorldPre::new(pre)?.instantiate_async(store).await
162         }
add_to_linker<T, D>( linker: &mut wasmtime::component::Linker<T>, host_getter: fn(&mut T) -> D::Data<'_>, ) -> wasmtime::Result<()> where D: imports::HostWithStore + Send, for<'a> D::Data<'a>: imports::Host + Send, T: 'static + Send,163         pub fn add_to_linker<T, D>(
164             linker: &mut wasmtime::component::Linker<T>,
165             host_getter: fn(&mut T) -> D::Data<'_>,
166         ) -> wasmtime::Result<()>
167         where
168             D: imports::HostWithStore + Send,
169             for<'a> D::Data<'a>: imports::Host + Send,
170             T: 'static + Send,
171         {
172             imports::add_to_linker::<T, D>(linker, host_getter)?;
173             Ok(())
174         }
175     }
176 };
177 #[allow(clippy::all)]
178 pub mod imports {
179     #[allow(unused_imports)]
180     use wasmtime::component::__internal::Box;
181     pub trait HostWithStore: wasmtime::component::HasData + Send {
y<T: Send>( accessor: &wasmtime::component::Accessor<T, Self>, ) -> impl ::core::future::Future<Output = ()> + Send182         fn y<T: Send>(
183             accessor: &wasmtime::component::Accessor<T, Self>,
184         ) -> impl ::core::future::Future<Output = ()> + Send;
185     }
186     pub trait Host: Send {}
187     impl<_T: Host + ?Sized + Send> Host for &mut _T {}
add_to_linker<T, D>( linker: &mut wasmtime::component::Linker<T>, host_getter: fn(&mut T) -> D::Data<'_>, ) -> wasmtime::Result<()> where D: HostWithStore, for<'a> D::Data<'a>: Host, T: 'static + Send,188     pub fn add_to_linker<T, D>(
189         linker: &mut wasmtime::component::Linker<T>,
190         host_getter: fn(&mut T) -> D::Data<'_>,
191     ) -> wasmtime::Result<()>
192     where
193         D: HostWithStore,
194         for<'a> D::Data<'a>: Host,
195         T: 'static + Send,
196     {
197         let mut inst = linker.instance("imports")?;
198         inst.func_wrap_concurrent(
199             "y",
200             move |caller: &wasmtime::component::Accessor<T>, (): ()| {
201                 wasmtime::component::__internal::Box::pin(async move {
202                     let host = &caller.with_getter(host_getter);
203                     let r = <D as HostWithStore>::y(host).await;
204                     Ok(r)
205                 })
206             },
207         )?;
208         Ok(())
209     }
210 }
211