A complete and mature WebAssembly runtime for Python based on Wasmer.
- Secure by default. No file, network, or environment access, unless explicitly enabled.
- Fast. Run WebAssembly at near-native speeds.
- Compliant with latest WebAssembly Proposals (SIMD, Reference Types, Threads, ...)
Documentation: browse the detailed API documentation full of examples.
Examples and tutorials: browse the examples/
directory,
it's the best place for a complete introduction!
To install the wasmer
Python package, and let's say the
wasmer_compiler_cranelift
compiler, just run those commands in your shell:
$ pip install wasmer wasmer_compiler_cranelift
from wasmer import engine, Store, Module, Instance
store = Store()
# Let's compile the module to be able to execute it!
module = Module(store, """
(module
(type (func (param i32 i32) (result i32)))
(func (export "sum") (type 0) (param i32) (param i32) (result i32)
local.get 0
local.get 1
i32.add))
""")
# Now the module is compiled, we can instantiate it.
instance = Instance(module)
# Call the exported `sum` function.
result = instance.exports.sum(5, 37)
print(result) # 42!
And then, finally, enjoy by running:
$ python examples/appendices/simple.py
We highly recommend to read the
examples/
directory, which contains a sequence of examples/tutorials. It's the
best place to learn by reading examples.
The wasmer
package brings the required API to execute WebAssembly
modules. In a nutshell, wasmer
compiles the WebAssembly module into
compiled code, and then executes it. wasmer
is designed to work in
various environments and platforms: From nano single-board computers
to large and powerful servers, including more exotic ones. To address
those requirements, Wasmer provides 2 engines and 3 compilers.
Succinctly, an engine is responsible to drive the compilation and
the execution of a WebAssembly module. By extension, a headless
engine can only execute a WebAssembly module, i.e. a module that has
previously been compiled, or compiled, serialized and deserialized. By
default, the wasmer
package comes with 2 headless engines:
wasmer.engine.Universal
, the compiled machine code lives in memory,wasmer.engine.Native
, the compiled machine code lives in a shared object file (.so
,.dylib
, or.dll
), and is natively executed.
Because wasmer
does not embed compilers in its package, engines are
headless, i.e. they can't compile WebAssembly module; they can only
execute them. Compilers live in their own standalone packages. Let's
briefly introduce them:
We generally recommend wasmer_compiler_cranelift
for development
purposes and wasmer_compiler_llvm
in production.
Learn more by reading the documentation of the wasmer.engine
submodule.
We try to provide wheels for as many platforms and architectures as possible. For the moment, here are the supported platforms and architectures:
Platform | Architecture | Triple | Packages | |
---|---|---|---|---|
Linux | amd64 |
x86_64-unknown-linux-gnu |
wasmer |
β |
wasmer_compiler_singlepass |
β | |||
wasmer_compiler_cranelift |
β | |||
wasmer_compiler_llvm |
β | |||
aarch64 |
aarch64-unknown-linux-gnu |
wasmer |
β | |
wasmer_compiler_singlepass |
β 1 | |||
wasmer_compiler_cranelift |
β | |||
wasmer_compiler_llvm |
β | |||
Darwin | amd64 |
x86_64-apple-darwin |
wasmer |
β |
wasmer_compiler_singlepass |
β | |||
wasmer_compiler_cranelift |
β | |||
wasmer_compiler_llvm |
β | |||
Windows | amd64 |
x86_64-pc-windows-msvc |
wasmer |
β |
wasmer_compiler_singlepass |
β | |||
wasmer_compiler_cranelift |
β | |||
wasmer_compiler_llvm |
β 2 |
Notes:
- 1
wasmer_compiler_singlepass
does not supportaarch64
for the moment - 2
wasmer_compiler_llvm
is not packaging properly on Windows for the moment
Wheels are all built for the following Python versions:
- Python 3.7,
- Python 3.8.
- Python 3.9.
- Python 3.10,
Learn about the βfallbackβ py3-none-any
wheel
A special wasmer-$(version)-py3-none-any
wheel is built as a
fallback. The wasmer
library will be installable, but it will raise
an ImportError
exception saying that βWasmer is not available on
this systemβ.
This wheel will be installed if none matches before (learn more by reading the PEP 425, Compatibility Tags for Built Distributions).
The Python extension is written in Rust, with pyo3
and
maturin
.
First, you need to install Rust and Python. We will not make you the
affront to explain to you how to install Python (if you really need,
check pyenv
). For Rust though, we
advise to use rustup
, then:
$ rustup install stable
To set up your environment, you'll need just
, and then, install
the prelude of this project:
$ cargo install just
$ just --list # to learn about all the available recipes
$ just prelude
It will install pyo3
and maturin
for Python and for Rust. It will
also install virtualenv
.
Then, simply run:
$ source .env/bin/activate
$ just build api
$ just build compiler-cranelift
$ python examples/appendices/simple.py
Build all the packages and run the tests:
$ just build-all
$ just test
Quoting the WebAssembly site:
WebAssembly (abbreviated Wasm) is a binary instruction format for a stack-based virtual machine. Wasm is designed as a portable target for compilation of high-level languages like C/C++/Rust, enabling deployment on the web for client and server applications.
About speed:
WebAssembly aims to execute at native speed by taking advantage of common hardware capabilities available on a wide range of platforms.
About safety:
WebAssembly describes a memory-safe, sandboxed execution environment [β¦].
The entire project is under the MIT License. Please read the
LICENSE
file.