wasmer 5.0.2

High-performance WebAssembly runtime
Documentation
# `wasmer` [![Build Status](https://github.com/wasmerio/wasmer/workflows/build/badge.svg?style=flat-square)](https://github.com/wasmerio/wasmer/actions?query=workflow%3Abuild) [![Join Wasmer Slack](https://img.shields.io/static/v1?label=Slack&message=join%20chat&color=brighgreen&style=flat-square)](https://slack.wasmer.io) [![MIT License](https://img.shields.io/github/license/wasmerio/wasmer.svg?style=flat-square)](https://github.com/wasmerio/wasmer/blob/main/LICENSE) [![crates.io](https://img.shields.io/crates/v/wasmer.svg)](https://crates.io/crates/wasmer)

[`Wasmer`](https://wasmer.io/) is the most popular
[WebAssembly](https://webassembly.org/) runtime for Rust. It supports JIT (Just
In Time), AOT (Ahead Of Time) compilation, an experimental interpreter as well
as pluggable compilers suited to your needs.

It's designed to be safe and secure, and runnable in any kind of environment.

## Usage

Here is a small example of using Wasmer to run a WebAssembly module
written with its WAT format (textual format):

```rust
use wasmer::{Store, Module, Instance, Value, imports};

fn main() -> anyhow::Result<()> {
    let module_wat = r#"
    (module
    (type $t0 (func (param i32) (result i32)))
    (func $add_one (export "add_one") (type $t0) (param $p0 i32) (result i32)
        local.get $p0
        i32.const 1
        i32.add))
    "#;

    let mut store = Store::default();
    let module = Module::new(&store, &module_wat)?;
    // The module doesn't import anything, so we create an empty import object.
    let import_object = imports! {};
    let instance = Instance::new(&mut store, &module, &import_object)?;

    let add_one = instance.exports.get_function("add_one")?;
    let result = add_one.call(&mut store, &[Value::I32(42)])?;
    assert_eq!(result[0], Value::I32(43));

    Ok(())
}
```

[Discover the full collection of examples](https://github.com/wasmerio/wasmer/tree/main/examples).

## Features

Wasmer is not only fast, but also designed to be *highly customizable*:

* **Pluggable compilers** — A compiler is used by the engine to
  transform WebAssembly into executable code:
  * [`wasmer-compiler-singlepass`] provides a fast compilation-time
    but an unoptimized runtime speed,
  * [`wasmer-compiler-cranelift`] provides the right balance between
    compilation-time and runtime performance, useful for development,
  * [`wasmer-compiler-llvm`] provides a deeply optimized executable
    code with the fastest runtime speed, ideal for production.

* **Pluggable interpreters** (experimental) - `wamr`, a feature provided by
  the `wasmer` crate, provides binding to the interpreter provided by
  [`WAMR`](https://github.com/bytecodealliance/wasm-micro-runtime). More
  informations about this experimental backend can be found in the [dedicated
  documentation](/docs/en/wamr.md).
 
    
* **Headless mode** — Once a WebAssembly module has been compiled, it
  is possible to serialize it in a file for example, and later execute
  it with Wasmer with headless mode turned on. Headless Wasmer has no
  compiler, which makes it more portable and faster to load. It's
  ideal for constrainted environments.
  
* **Cross-compilation** — Most compilers support cross-compilation. It
  means it possible to pre-compile a WebAssembly module targetting a
  different architecture or platform and serialize it, to then run it
  on the targetted architecture and platform later.

* **Run Wasmer in a JavaScript environment** — With the `js` Cargo
  feature, it is possible to compile a Rust program using Wasmer to
  WebAssembly. In this context, the resulting WebAssembly module will
  expect to run in a JavaScript environment, like a browser, Node.js,
  Deno and so on. In this specific scenario, there is no engines or
  compilers available, it's the one available in the JavaScript
  environment that will be used.

Wasmer ships by default with the Cranelift compiler as its great for
development purposes.  However, we strongly encourage to use the LLVM
compiler in production as it performs about 50% faster, achieving
near-native speeds.

Note: if one wants to use multiple compilers at the same time, it's
also possible! One will need to import them directly via each of the
compiler crates.

Read [the documentation to learn
more](https://wasmerio.github.io/wasmer/crates/doc/wasmer/).

---

Made with ❤️ by the Wasmer team, for the community

[`wasmer-compiler-singlepass`]: https://github.com/wasmerio/wasmer/tree/main/lib/compiler-singlepass
[`wasmer-compiler-cranelift`]: https://github.com/wasmerio/wasmer/tree/main/lib/compiler-cranelift
[`wasmer-compiler-llvm`]: https://github.com/wasmerio/wasmer/tree/main/lib/compiler-llvm