wasmer
A complete and mature WebAssembly runtime for Crystal based on Wasmer.
Features
- Easy to use: The
wasmer
API mimics the standard WebAssembly API, - Fast:
wasmer
executes the WebAssembly modules as fast as possible, close to native speed, - Safe: All calls to WebAssembly will be fast, but more importantly, completely safe and sandboxed.
Documentation: browse the detailed API documentation
Examples as tutorials: browser the examples/
directory,
it's the best place for a complete introduction!
NOTE: Shard assumes you have wasmer runtime installed and environment variable
WASMER_DIR
is setup properly, or you will encounter issues during compilation.
Quick Introduction
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. To achieve this, Wasmer (the
original runtime) provides multiple engines and multiple
compilers.
Succinctly, an engine is responsible to drive the compilation (by using a compiler) and the execution of a WebAssembly module. Wasmer comes with many engines and compilers.
Installation
-
Add the dependency to your
shard.yml
:dependencies wasmer-crystal: github: naqvis/wasmer-crystal
-
Run
shards install
And you're ready to get fun!
Usage
require "wasmer"
Example
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.
But for the most eager of you, and we know you're numerous you
mischievous, there is a quick toy program in
examples/appendices/simple.rs
, written in Rust:
#[no_mangle]
pub extern fn sum(x: i32, y: i32) -> i32 {
x + y
}
After compilation to WebAssembly, the
examples/appendices/simple.wasm
binary file is generated.
Then, we can execute it in Crystal:
require "wasmer"
# Let's define the engine, that holds the compiler.
engine = Wasmer::Engine.new
# Let's define the store, that holds the engine, that holds the compiler.
store = Wasmer::Store.new(engine)
# Above two lines are same as invoking below helper method
# store = Wasmer.default_engine.new_store
# Let's compile the module to be able to execute it!
module_ = Wasmer::Module.new store, File.read("#{__DIR__}/simple.wasm")
# Now the module is compiled, we can instantiate it.
instance = Wasmer::Instance.new module_
# get the exported `sum` function
# function methods returns nil if it can't find the requested function. we know its there, so let's add `not_nil!`
sum = instance.function("sum").not_nil!
# Call the exported `sum` function with Crystal standard values. The WebAssembly
# types are inferred and values are casted automatically.
result = sum.call(5, 37)
puts result # => 42
And then, finally, enjoy by running:
$ crystal examples/appendices/simple.cr
Development
To run all tests
crystal spec
What is WebAssembly?
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 […].
License
The entire project is under the MIT License. Please read the LICENSE
file.
Contributing
- Fork it (https://github.com/naqvis/wasmer-crystal/fork)
- Create your feature branch (
git checkout -b my-new-feature
) - Commit your changes (
git commit -am 'Add some feature'
) - Push to the branch (
git push origin my-new-feature
) - Create a new Pull Request
Contributors
- Ali Naqvi - creator and maintainer