Estrella is a lightweight and versatile build tool based on the fantastic esbuild TypeScript and JavaScript compiler.
- Rebuild automatically when source files change
- Build multiple projects at once, in parallel
- TypeScript diagnostics run in parallel
- TypeScript diagnostics are optional even for TypeScript projects
- Ability to remap TSXXXX TypeScript diagnostic severity levels, for example to treat some issues as warnings instead of errors
- Scriptable — run any JavaScript you want as part of your build process
- Can run your program automatically when it's rebuilt
- Well-tested code
- Fast!
See estrella.d.ts for API documentation.
Estrella tries hard to retain the blazing startup speed of esbuild.
Being just a single file, with only a dependency on esbuild,
estrella starts very quickly.
time estrella -help
completes in about 50ms with NodeJS 12.
Building a simple example with time examples/minimal/build.js
completes in about 65ms.
Unlike some other "builders" Estrella does not use a config file or require you to make changes to your package.json file. Instead, Estrella recognizes & embraces the fact that most projects have unique build requirements. You run Estrella from a script (instead of Estrella running a script or config file.) Essentially you create a "build.js", or lolcat.js—name it whatever you want—script in which you invoke estrella. This turns your script into a fully-featured CLI program with access to a rich API exposed by the estrella module.
- Add Estrella to your project:
npm install -D estrella
- Create a
build.js
file in your project directory:
#!/usr/bin/env node
const { build } = require("estrella")
build({
entry: "src/main.ts",
outfile: "out/foo.js",
bundle: true,
// pass any options to esbuild here...
})
Invoke your build script: (assumes chmod +x build.js
has been set)
$ ./build.js -watch
Wrote out/foo.js (419 bytes, 6.84ms)
Watching files for changes...
And that's it for basic use.
See the examples
directory for more examples
which you can use as templates for new projects.
See evanw/esbuild/lib/shared/types.ts for documentation of esbuild options.
If there is a tsconfig.json file in the project directory,
or if build({tsc:true})
is set,
TypeScript's tsc
is run in parallel to esbuild, checking types and providing diagnostics:
$ ./build.js
Wrote out/foo.js (419 bytes, 7.11ms)
src/main.ts:2:7 - warning TS6133: 'count' is declared but its value is never read.
2 let count = 4
~~~~~
TS: OK 1 warning
What tsc
program is run? estrella will ask nodejs to find typescript in node_modules.
If found, tsc
from that package is used. Otherwise, tsc
from the environment PATH is used.
This way there is no hard dependency on typescript for estrella.
estrella allows remapping the severity of TypeScript diagnostics and even filtering
things out completely.
This is particularly useful when you are converting a codebase to a stricter set of rules
but don't want your build to fail. For example, let's say that you enable noImplicitAny
in
your tsconfig.json file. If you just run tsc
on your project, it will fail with errors.
Using estrella these errors can be treated as warnings instead, still making a loud
appearance on screen but not causing an error exit code.
$ ./build.js
Wrote out/foo.js (14.6kb, 11.07ms)
src/main.ts:212:24 - error TS7006: Parameter 'ev' implicitly has an 'any' type.
212 window.onmousemove = ev => { grid.origin = [ev.clientX, ev.clientY] }
~~
TS: 1 error
$ echo $?
1
To make this a warning, add a rule to build()
in your build script:
#!/usr/bin/env node
const { build } = require("estrella")
build({
entry: "src/main.ts",
outfile: "out/foo.js",
bundle: true,
tsrules: {
7006: "WARNING",
}
})
Now if we try to build again:
$ ./build.js
Wrote out/foo.js (14.6kb, 10.42ms)
src/main.ts:212:24 - warning TS7006: Parameter 'ev' implicitly has an 'any' type.
212 window.onmousemove = ev => { grid.origin = [ev.clientX, ev.clientY] }
~~
TS: OK 1 warning
$ echo $?
0
The program exits successfully while still logging the issue.
tsrules
is an object of type { [tscode:number] : "IGNORE"|"INFO"|"WARN"|"ERROR" }
which
maps TS diagnostic codes to:
"IGNORE"
completely ignore and don't even log it."INFO"
log it as information, unless the -quiet flag is set."WARN"
log it as a warning"ERROR"
log it as an error, causing the program's exit code to be !0.
"ERROR"
is the default for most issues.
Too list predefined tsrules, run: node -p 'require("estrella").defaultTSRules'
.
Rules which you provide take precedence, so if there are any predefined rules you'd
like to change, simply set those in your tsrules
object.
In case you need to disable TypeScript diagnostics for a project with a tsconfig.json
file, you can set tslint:false
in your build config:
build({
// your regular options ...
tslint: false,
})
When using estrella as a library from a build script, your build script becomes a program with command-line options:
$ ./build.js -help
usage: ./build.js [options]
options:
-w, -watch Watch source files for changes and rebuild.
-g, -debug Do not optimize and define DEBUG=true.
-r, -run Run the output file after a successful build.
-sourcemap Generate sourcemap.
-inline-sourcemap Generate inline sourcemap.
-no-color Disable use of colors.
-no-clear Disable clearing of the screen, regardless of TTY status.
-no-diag Disable TypeScript diagnostics.
-color Color terminal output, regardless of TTY status.
-diag Only run TypeScript diagnostics (no esbuild.)
-quiet Only log warnings and errors but nothing else.
-silent Don't log anything, not even errors.
-estrella-version Print version of estrella and exit 0.
-estrella-debug Enable debug logging of estrella itself.
You can define your own custom CLI options and parse arbitrary arguments using the cliopts
object
exported by the estrella module:
#!/usr/bin/env node
const { build, cliopts, file } = require("estrella")
const [ opts, args ] = cliopts.parse(
["c, cat" , "Prints a nice cat."],
["file" , "Show contents of <file>.", "<file>"],
)
opts.cat && console.log(stdoutStyle.pink(ASCII_cat))
if (opts.file) {
console.log(`contents of file ${opts.file}:`)
console.log(await file.read(opts.file, "utf8"))
}
build({ ... })
Ask for help to see your options documented:
./build.js -h
usage: ./build.js [options]
options:
[...common estrella options here...]
-c, -cat Prints a nice cat.
-file=<file> Show contents of <file>.
For a full example, see examples/custom-cli-options
One of the key features of Estrella is its ability to watch source files for changes and rebuild
only the products needed. It does this in cooperation with esbuild which provides "perfect"
information about the source file graph for a given build product (via esbuild.metafile).
Estrella then uses this information to watch the relevant source files for changes and trigger a
rebuild. Either set watch
in your config or pass -watch
on the command line:
$ ./build.js -watch
Wrote out/main.js (341B, 8.03ms)
Watching files for changes...
# [make an edit to a source file]
1 file changed: foo.ts
Wrote out/main.js (341B, 10.18ms)
...
Estrella can run and manage sub processes, making it easy to run and restart your program
upon a successful build. Simply set run
in your config or pass -run
on the command line:
$ ./build.js -run
Hello world
Combining -run
with -watch
makes for a powerful "exploratory programming" setup where
changes to your source files are compiled and the results of running the program shown.
$ ./build.js -watch -run
Wrote out/main.js (341B, 8.21ms)
Running out/main.js [98609]
Hello world
out/main.js exited (0)
# [make an edit to a source file]
1 file changed: message.ts
Wrote out/main.js (341B, 8.21ms)
Running out/main.js [98609]
Hello future
Estrella is good at handling processes and can make a few valuable guarantees:
- A running process is always terminated before Estrella terminates. The only exception to this is if the estrella process is killed with an uncapturable signal like SIGKILL.
- A running process that is restarted is always terminates before a new instance is launched. This is important if your program relies on exclusive access to resources like TCP ports or UNIX sockets.
- Secondary subprocesses spawned by a running process are always terminated when the process Estrella controls is terminated. This guarantee only applies to OSes that support signaling process groups (most POSIX OSes like Linux, macOS, BSD, etc.)
"run" can be configured to run arbitrary commands by specifying run
in your config.
Examples: (effective process invocation in comment)
// build config // effective program invocation
run: true // [node, outfile] (same as `-run` on the command line)
run: ["deno", "file name.js"] // ["deno", "file name.js"]
run: "./prettier foo.js" // runs script "./prettier foo.js" in a shell
When run
is set in your config, the product will be run no matter how you invoke your build
script. If you want to execute a more complex command that just node outfile
while still
only running it when -run
is passed on the command line, conditionally enable run
in your
build script like this:
#!/usr/bin/env node
const { build, cliopts } = require("estrella")
const p = build({
entry: "main.ts",
outfile: "out/main.js",
run: cliopts.run && ["/bin/zsh", "-e", "-c", "echo **/*.ts"],
})
./build.js -run
will run your command as specified
while simply ./build.js
won't cause the program to run.
estrella can build multiple variants of your program at once.
Example build.js
script:
#!/usr/bin/env node
const { build } = require("estrella")
const common = {
entry: "src/main.ts",
bundle: true,
}
build({
...common,
outfile: "out/foo.min.js",
})
build({
...common,
outfile: "out/foo.debug.js",
sourcemap: true,
debug: true,
})
Then run the script to build both an optimized product and a debug product:
$ ./build.js
Wrote out/foo.min.js (445 bytes, 6.67ms)
Wrote out/foo.debug.{js,js.map} (2.4kb, 10.59ms)
TS: OK
TypeScript diagnostics are run for all unique tsconfig.json files (or project directory in the absence of a tsconfig.json file), so in this case we get just one report, as is expected.
In fact, since estrella is just a simple library, you can really do whatever you want in your build script.
Setting onStart
and/or onEnd
in a build config allows you to hook into the esbuild cycle.
onStart(config, changedFiles)
is called when a build starts and onEnd(config, result)
when a build finishes.
This works in both -watch
mode and regular "one shot" mode.
These callbacks can optionally be async (i.e. return a Promise) which estrella will await. This gives you the ability to perform detailed pre-processing and post-processing, like requesting some stuff from the internet.
Example build script using onEnd
to show desktop notifications with
node-notifier in watch mode:
#!/usr/bin/env node
const { build } = require("estrella")
const notifier = require("node-notifier")
build({
entry: "src/main.ts",
outfile: "out/foo.js",
onEnd(config, result) {
config.watch && notifier.notify({
title: config.title,
message: result.errors.length > 0 ?
`Build failed with ${result.errors.length} errors` :
`Build succeeded`
})
},
})
estrella comes with functions for scanning and watching any files or directories for changes, making it easy to work with other source files not handled by esbuild. Like for example CSS or code generation.
Example build script:
#!/usr/bin/env node
const { build, scandir, watch, cliopts } = require("estrella")
build({
entry: "src/main.ts",
outfile: "out/foo.js",
})
function generateCode(file) {
console.log(`generate ${file} -> ${file}.js`)
// replace with actual logic
}
// generate all files initially
const dir = "src", filter = /\..*$/i
scandir(dir, filter, {recursive:true}).then(files => {
files.map(generateCode)
// in watch mode, generate files as they change
cliopts.watch && watch(dir, {filter, recursive:true}, changes => {
changes.map(c => generateCode(c.name))
})
})
Say you are building a website. You may want to run a HTTP server while in watch mode which automatically reloads your website as you develop it. Simply run a web server like serve-http in your build script:
#!/usr/bin/env node
const { build, cliopts } = require("estrella")
build({
entry: "src/main.ts",
outfile: "docs/app.js",
})
// Run a local web server with livereload when -watch is set
cliopts.watch && require("serve-http").createServer({
port: 8181,
pubdir: require("path").join(__dirname, "docs"),
})
Now when you run your build script in watch mode a web server is run as well:
$ ./build.js -w
serving ./ at http://localhost:8181/
Wrote docs/app.js (914 bytes, 12.44ms)
TS: OK
estrella can also be used directly as a program:
$ estrella src/foo.ts -o foo.js
Wrote foo.js (222 bytes, 7.91ms)
TS: OK
$ estrella -h
usage: estrella [options] <srcfile> ...
options:
-w, -watch Watch source files for changes and rebuild.
-g, -debug Do not optimize and define DEBUG=true.
-r, -run Run the output file after a successful build.
-sourcemap Generate sourcemap.
-inline-sourcemap Generate inline sourcemap.
-no-color Disable use of colors.
-no-clear Disable clearing of the screen, regardless of TTY status.
-no-diag Disable TypeScript diagnostics.
-color Color terminal output, regardless of TTY status.
-diag Only run TypeScript diagnostics (no esbuild.)
-quiet Only log warnings and errors but nothing else.
-silent Don't log anything, not even errors.
-estrella-version Print version of estrella and exit 0.
-estrella-debug Enable debug logging of estrella itself.
-o=,-outfile=<file> Write output to <file> instead of stdout.
-bundle Include all dependencies.
-minify Simplify and compress generated code.
-outdir=<dir> Write output to <dir> instead of stdout.
-esbuild=<json> Pass arbitrary JSON to esbuild's build function.
<srcfile> is a filename, or "-" for stdin.
See estrella -h
for more details.
Like any respectable compiler, Estrella of course builds itself.
Setup instructions:
git clone https://github.com/rsms/estrella.git
cd estrella
npm install
Build instructions:
- Build debug products:
./build.js -g
(add-w
for incremental compilation) - Build release products:
./build.js
(add-w
for incremental compilation) - Build release products and run all tests:
./test/test.sh
(ornpm test
) - Build debug products and run all tests:
./test/test.sh -debug
Contributions are very welcome! When contributing, please follow these guidelines:
- Use welcoming and inclusive language
- Be respectful of differing viewpoints and experiences
- Gracefully accept constructive criticism
- Focus on what is best for the community
- Show empathy towards other community members
Types of contributions and how best to make them:
-
Proposal for a new feature: Open an issue and start a conversion. Please do not create a PR until we've had time to discuss how to best approach the change.
-
Fix for a bug: Please open a PR with your fix and if you can, include a test that fails without your change but passes with it.
-
Minor changes like spelling mistakes: Open an issue and point out the concern. Please do not create a PR for small things like spelling mistakes.
Thank you for being a great person & contributor!