Inheritance - The wasm-bindgen Guide (original) (raw)

1. Introduction
2. 1. Examples
3. 1. 1.1. Hello, World!
   2. 1.2. Using console.log
   3. 1.3. Small Wasm files
   4. 1.4. Without a Bundler
   5. 1.5. Synchronous Instantiation
   6. 1.6. Importing functions from JS
   7. 1.7. Working with char
   8. 1.8. js-sys: WebAssembly in WebAssembly
   9. 1.9. web-sys: DOM hello world
   10. 1.10. web-sys: Closures
   11. 1.11. web-sys: performance.now
   12. 1.12. web-sys: using fetch
   13. 1.13. web-sys: Weather report
   14. 1.14. web-sys: canvas hello world
   15. 1.15. web-sys: canvas Julia set
   16. 1.16. web-sys: WebAudio
   17. 1.17. web-sys: WebGL
   18. 1.18. web-sys: WebSockets
   19. 1.19. web-sys: WebRTC DataChannel
   20. 1.20. web-sys: requestAnimationFrame
   21. 1.21. web-sys: A Simple Paint Program
   22. 1.22. web-sys: Wasm in Web Worker
   23. 1.23. Parallel Raytracing
   24. 1.24. Wasm Audio Worklet
   25. 1.25. web-sys: A TODO MVC App
4. 2. Reference
5. 1. 2.1. Deployment
   2. 2.2. JS snippets
   3. 2.3. Static JS Objects
   4. 2.4. Passing Rust Closures to JS
   5. 2.5. Receiving JS Closures in Rust
   6. 2.6. Promises and Futures
   7. 2.7. Iterating over JS Values
   8. 2.8. Arbitrary Data with Serde
   9. 2.9. Accessing Properties of Untyped JS Values
   10. 2.10. Working with Duck-Typed Interfaces
   11. 2.11. Command Line Interface
   12. 2.12. Optimizing for Size
   13. 2.13. Supported Rust Targets
   14. 2.14. Supported Browsers
   15. 2.15. Support for Weak References
   16. 2.16. Support for Reference Types
   17. 2.17. Supported Types
   18. 1. 2.17.1. Imported JavaScript Types
       2. 2.17.2. Exported Rust Types
       3. 2.17.3. JsValue
       4. 2.17.4. Box<[T]> and Vec
       5. 2.17.5. *const T and *mut T
       6. 2.17.6. NonNull
       7. 2.17.7. Numbers
       8. 2.17.8. bool
       9. 2.17.9. char
       10. 2.17.10. str
       11. 2.17.11. String
       12. 2.17.12. Number Slices
       13. 2.17.13. Boxed Number Slices
       14. 2.17.14. Result<T, E>
   19. 2.18. #[wasm_bindgen] Attributes
   20. 1. 2.18.1. On JavaScript Imports
       2. 1. 2.18.1.1. catch
             1. 2.18.1.2. constructor
             2. 2.18.1.3. extends
             3. 2.18.1.4. getter and setter
             4. 2.18.1.5. final
             5. 2.18.1.6. indexing_getter, indexing_setter, and indexing_deleter
             6. 2.18.1.7. js_class = "Blah"
             7. 2.18.1.8. js_name
             8. 2.18.1.9. js_namespace
             9. 2.18.1.10. method
             10. 2.18.1.11. module = "blah"
             11. 2.18.1.12. raw_module = "blah"
             12. 2.18.1.13. no_deref
             13. 2.18.1.14. static_method_of = Blah
             14. 2.18.1.15. structural
             15. 2.18.1.16. typescript_type
             16. 2.18.1.17. variadic
             17. 2.18.1.18. vendor_prefix
       3. 2.18.2. On Rust Exports
       4. 1. 2.18.2.1. constructor
             1. 2.18.2.2. js_name = Blah
             2. 2.18.2.3. js_class = Blah
             3. 2.18.2.4. readonly
             4. 2.18.2.5. skip
             5. 2.18.2.6. skip_jsdoc
             6. 2.18.2.7. start
             7. 2.18.2.8. main
             8. 2.18.2.9. typescript_custom_section
             9. 2.18.2.10. getter and setter
             10. 2.18.2.11. inspectable
             11. 2.18.2.12. skip_typescript
             12. 2.18.2.13. getter_with_clone
             13. 2.18.2.14. unchecked_return_type and unchecked_param_type
             14. 2.18.2.15. return_description and param_description
6. 3. web-sys
7. 1. 3.1. Using web-sys
   2. 3.2. Cargo Features
   3. 3.3. Function Overloads
   4. 3.4. Type Translations
   5. 3.5. Inheritance
   6. 3.6. Unstable APIs
8. 4. Testing with wasm-bindgen-test
9. 1. 4.1. Usage
   2. 4.2. Writing Asynchronous Tests
   3. 4.3. Testing in Headless Browsers
   4. 4.4. Continuous Integration
   5. 4.5. Coverage (Experimental)
10. 5. Contributing to wasm-bindgen
11. 1. 5.1. Testing
12. 5.2. Internal Design
13. 1. 5.2.1. JS Objects in Rust
       1. 5.2.2. Exporting a function to JS
       2. 5.2.3. Exporting a struct to JS
       3. 5.2.4. Importing a function from JS
       4. 5.2.5. Importing a class from JS
       5. 5.2.6. Rust Type conversions
       6. 5.2.7. Types in wasm-bindgen
14. 5.3. js-sys
15. 1. 5.3.1. Testing
       1. 5.3.2. Adding More APIs
16. 5.4. web-sys
17. 1. 5.4.1. Overview
       1. 5.4.2. Testing
       2. 5.4.3. Logging
       3. 5.4.4. Supporting More Web APIs
18. 5.5. Publishing
19. 5.6. Team

The `wasm-bindgen` Guide

Inheritance in web-sys

Inheritance between JS classes is the bread and butter of how the DOM works on the web, and as a result it's quite important for web-sys to provide access to this inheritance hierarchy as well! There are few ways you can access the inheritance hierarchy when using web-sys.

Accessing parent classes using Deref

Like smart pointers in Rust, all types in web_sys implement Deref to their parent JS class. This means, for example, if you have a web_sys::Element you can create a web_sys::Node from that implicitly:

# #![allow(unused_variables)]
#fn main() {
let element: &Element = ...;

element.append_child(..); // call a method on `Node`

method_expecting_a_node(&element); // coerce to `&Node` implicitly

let node: &Node = &element; // explicitly coerce to `&Node`
#}

Using Deref allows ergonomic transitioning up the inheritance hierarchy to the parent class and beyond, giving you access to all the methods using the .operator.

Accessing parent classes using AsRef

In addition to Deref, the AsRef trait is implemented for all types inweb_sys for all types in the inheritance hierarchy. For example for theHtmlAnchorElement type you'll find:

# #![allow(unused_variables)]
#fn main() {
impl AsRef<HtmlElement> for HtmlAnchorElement
impl AsRef<Element> for HtmlAnchorElement
impl AsRef<Node> for HtmlAnchorElement
impl AsRef<EventTarget> for HtmlAnchorElement
impl AsRef<Object> for HtmlAnchorElement
impl AsRef<JsValue> for HtmlAnchorElement
#}

You can use .as_ref() to explicitly get a reference to any parent class from from a type in web_sys. Note that because of the number of AsRefimplementations you'll likely need to have type inference guidance as well.

Accessing child classes using JsCast

Finally the wasm_bindgen::JsCast trait can be used to implement all manner of casts between types. It supports static unchecked casts between types as well as dynamic runtime-checked casts (using instanceof) between types.

More documentation about this can be found on the trait itself