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entrypoint | ||
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.swiftformat | ||
.swiftlint.yml | ||
Brewfile | ||
CHANGELOG.md | ||
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LICENSE | ||
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README.md | ||
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package.json |
README.md
carton 📦
Watcher, bundler, and test runner for your SwiftWasm apps
The main goal of carton
is to provide a smooth zero-config experience when developing for WebAssembly.
It currently supports these features with separate commands:
- Creating basic package boilerplate for apps built with SwiftWasm with
carton init
. - Watching the app for source code changes and reloading it in your browser with
carton dev
. - Running your XCTest suite in the full JavaScript/DOM environment with
carton test
. - Optimizing and packaging the app for distribution with
carton bundle
. - Managing SwiftWasm toolchain and SDK installations with
carton sdk
.
Motivation
The main motivation for carton
came after having enough struggles with
webpack.js, trying to make its config file work, looking for appropriate
plugins. At some point the maintainers became convinced that the required use of webpack
in
SwiftWasm projects could limit the wider adoption of SwiftWasm itself. Hopefully, with carton
you
can avoid using webpack
altogether. carton
also simplifies a few other things in your SwiftWasm
development workflow such as toolchain and SDK installations.
Getting started
Requirements
- macOS 11 and Xcode 13.2.1 or later. macOS 10.15 may work, but is untested.
- Swift 5.5 or later and Ubuntu 18.04 or 20.04 for Linux users.
Installation
On macOS carton
can be installed with Homebrew. Make sure you have Homebrew
installed and then run:
brew install swiftwasm/tap/carton
Note If you can't install the latest carton via
brew upgrade swiftwasm/tap/carton
, please tryrm -rf $(brew --prefix)/Library/Taps/swiftwasm/homebrew-tap/ && brew tap swiftwasm/tap
and retry again. Themaster
branch was renamed tomain
, so you need to update your local tap repo.
carton
is also available as a Docker image for Linux. You can pull it with this command:
docker pull ghcr.io/swiftwasm/carton:latest
If Docker images are not suitable for you, you'll have to build carton
from sources on Ubuntu.
Clone the repository and run ./install_ubuntu_deps.sh
in the root directory of the clone. After
that completes successfully, run swift build -c release
, the carton
binary will be located in
the .build/release
directory after that. Unfortunately, other Linux distributions are currently
not supported.
Version compatibility
carton
previously embedded runtime parts of the JavaScriptKit library.
This runtime allows Swift and JavaScript code to interoperate in Node.js and browser environments. Because of how
JavaScriptKit runtime was embedded, older versions of JavaScriptKit were incompatible with different versions of
carton
and vice versa. This incompatibility between different versions was resolved starting with JavaScriptKit 0.15
and carton
0.15. All version combinations of carton
and JavaScriptKit higher than those are compatible with each
other.
You still have to keep in mind that older versions of SwiftWasm may be incompatible with newer carton
. You can follow
the compatibility matrix if you need to use older verions:
carton version |
SwiftWasm version | JavaScriptKit version | Tokamak version |
---|---|---|---|
0.15+ | 5.6 | 0.15+ | 0.10.1+ |
0.14 | 5.6 | 0.14 | 0.10 |
0.13 | 5.5 | 0.13 | 0.9.1 |
0.12.2 | 5.5 | 0.12 | 0.9.1 |
0.12.0 | 5.5 | 0.11 | 0.9.0 |
0.11.0 | 5.4 | 0.10.1 | 0.8.0 |
Usage
The carton init
command initializes a new SwiftWasm project for you (similarly to
swift package init
) with multiple templates available at your choice. carton init --template tokamak
creates a new Tokamak project, while carton init --template basic
(equivalent
to carton init
) creates an empty SwiftWasm project with no dependencies. Also, carton init list-templates
provides a complete list of templates (with only basic
and tokamak
available currently).
The carton dev
command builds your project with the SwiftWasm toolchain and starts an HTTP server
that hosts your WebAssembly executable and a corresponding JavaScript entrypoint that loads it. The
app, reachable at http://127.0.0.1:8080/, will automatically open in your
default web browser. The port that the development server uses can also be controlled with the
--port
option (or -p
for short). You can edit the app source code in your favorite editor and
save it, carton
will immediately rebuild the app and reload all browser tabs that have the app
open. You can also pass a --verbose
flag to keep the build process output available, otherwise
stale output is cleaned up from your terminal screen by default. If you have a custom index.html
page you'd like to use when serving, pass a path to it with a --custom-index-page
option.
The carton test
command runs your test suite in wasmer
, node
or using your default browser. You can switch between these with the --environment
option, passing
either: wasmer
, node
or defaultBrowser
. Code that depends on
JavaScriptKit should pass either --environment node
or
--environment defaultBrowser
options, depending on whether it needs Web APIs to work. Otherwise
the test run will not succeed, since JavaScript environment is not available with --environment wasmer
.
If you want to run your test suite on CI or without GUI but on browser, you can pass --headless
flag.
It enables WebDriver-based headless browser testing. Note that you
need to install a WebDriver executable in PATH
before running tests.
You can use the command with a prebuilt test bundle binary instead of building it in carton by passing
--prebuilt-test-bundle-path <your binary path>
.
The carton sdk
command and its subcommands allow you to manage installed SwiftWasm toolchains, but
is rarely needed, as carton dev
installs the recommended version of SwiftWasm automatically.
carton sdk versions
lists all installed versions, and carton sdk local
prints the version
specified for the current project in the .swift-version
file. You can however install SwiftWasm
separately if needed, either by passing an archive URL to carton sdk install
directly, or just
specifying the snapshot version, like carton sdk install wasm-5.3-SNAPSHOT-2020-09-25-a
.
carton dev
can also detect existing installations of swiftenv
, so if you already have SwiftWasm
installed via swiftenv
, you don't have to do anything on top of that to start using carton
.
The carton bundle
command builds your project using the release
configuration (although you can
pass the --debug
flag to it to change that), and copies all required assets to the Bundle
directory. You can then use a static file hosting (e.g. GitHub Pages)
or any other server with support for static files to deploy your application. All resulting bundle
files except index.html
are named by their content hashes to enable cache
busting. As with carton dev
, a custom
index.html
page can be provided through the --custom-index-page
option. You can also pass
--debug-info
flag to preserve names
and DWARF sections in the resulting .wasm
file, as these
are stripped in the release
configuration by default. By default, carton bundle
will run wasm-opt
on the resulting .wasm binary in order to reduce its file size. That behaviour can be disabled (in order
to speed up the build) by appending the --wasm-optimizations none
option.
The carton package
command proxies its subcommands to swift package
invocations on the
currently-installed toolchain. This may be useful in situations where you'd like to generate an
Xcode project file for your app with something like carton package generate-xcodeproj
. It would be
equivalent to swift package generate-xcodeproj
, but invoked with the SwiftWasm toolchain instead
of the toolchain supplied by Xcode.
All commands that delegate to swift build
and swiftc
(namely, dev
, test
, and bundle
)
can be passed -Xswiftc
arguments, which is equivalent to -Xswiftc
in swift build
. All
-Xswiftc
arguments are propagated to swiftc
itself unmodified.
All of these commands and subcommands can be passed a --help
flag that prints usage info and
information about all available options.
How does it work?
carton
bundles a WASI polyfill, which is currently required to run any SwiftWasm code,
and the JavaScriptKit runtime for convenience.
carton
also embeds an HTTP server for previewing your SwiftWasm app directly in a browser.
The development version of the polyfill establishes a helper WebSocket connection to the server, so that
it can reload development browser tabs when rebuilt binary is available. This brings the development
experience closer to Xcode live previews, which you may have previously used when developing SwiftUI apps.
carton
does not require any config files for these basic development scenarios, while some configuration
may be supported in the future, for example for complex asset pipelines if needed. The only requirement
is that your Package.swift
contains at least a single executable product, which then will be compiled
for WebAssembly and served when you start carton dev
in the directory where Package.swift
is located.
carton
is built with Vapor, SwiftNIO,
swift-tools-support-core, and supports both
macOS and Linux. (Many thanks to everyone supporting and maintaining those projects!)
Running carton dev
with the release
configuration
By default carton dev
will compile in the debug
configuration. Add the --release
flag to compile in the release
configuration.
Contributing
Sponsorship
If this tool saved you any amount of time or money, please consider sponsoring the SwiftWasm organization. Or you can sponsor some of our maintainers directly on their personal sponsorship pages: @carson-katri, @kateinoigakukun, and @MaxDesiatov. While some of the sponsorship tiers give you priority support or even consulting time, any amount is appreciated and helps in maintaining the project.
Become a gold or platinum sponsor and contact maintainers to add your logo on our README on Github with a link to your site.
Coding Style
This project uses SwiftFormat and SwiftLint to enforce formatting and coding style. We encourage you to run SwiftFormat within a local clone of the repository in whatever way works best for you either manually or automatically via an Xcode extension, build phase or git pre-commit hook etc.
To guarantee that these tools run before you commit your changes on macOS, you're encouraged to run this once to set up the pre-commit hook:
brew bundle # installs SwiftLint, SwiftFormat and pre-commit
pre-commit install # installs pre-commit hook to run checks before you commit
Refer to the pre-commit documentation page for more details and installation instructions for other platforms.
SwiftFormat and SwiftLint also run on CI for every PR and thus a CI build can fail with incosistent formatting or style. We require CI builds to pass for all PRs before merging.
Code of Conduct
This project adheres to the Contributor Covenant Code of Conduct. By participating, you are expected to uphold this code. Please report unacceptable behavior to hello@swiftwasm.org.