Terminal task list
$ npm install --save listr
const execa = require('execa');
const Listr = require('listr');
const tasks = new Listr([
{
title: 'Git',
task: () => {
return new Listr([
{
title: 'Checking git status',
task: () => execa.stdout('git', ['status', '--porcelain']).then(result => {
if (result !== '') {
throw new Error('Unclean working tree. Commit or stash changes first.');
}
})
},
{
title: 'Checking remote history',
task: () => execa.stdout('git', ['rev-list', '--count', '--left-only', '@{u}...HEAD']).then(result => {
if (result !== '0') {
throw new Error('Remote history differ. Please pull changes.');
}
})
}
], {concurrent: true});
}
},
{
title: 'Install package dependencies with Yarn',
task: (ctx, task) => execa('yarn')
.catch(() => {
ctx.yarn = false;
task.skip('Yarn not available, install it via `npm install -g yarn`');
})
},
{
title: 'Install package dependencies with npm',
enabled: ctx => ctx.yarn === false,
task: () => execa('npm', ['install'])
},
{
title: 'Run tests',
task: () => execa('npm', ['test'])
},
{
title: 'Publish package',
task: () => execa('npm', ['publish'])
}
]);
tasks.run().catch(err => {
console.error(err);
});
A task
can return different values. If a task
returns, it means the task was completed successfully. If a task throws an error, the task failed.
const tasks = new Listr([
{
title: 'Success',
task: () => 'Foo'
},
{
title: 'Failure',
task: () => {
throw new Error('Bar')
}
}
]);
A task
can also be async by returning a Promise
. If the promise resolves, the task completed successfully, if it rejects, the task failed.
const tasks = new Listr([
{
title: 'Success',
task: () => Promise.resolve('Foo')
},
{
title: 'Failure',
task: () => Promise.reject(new Error('Bar'))
}
]);
Tip: Always reject a promise with some kind of
Error
object.
A task
can also return an Observable
. The thing about observables is that it can emit multiple values and can be used to show the output of the
task. Please note that only the last line of the output is rendered.
const {Observable} = require('rxjs');
const tasks = new Listr([
{
title: 'Success',
task: () => {
return new Observable(observer => {
observer.next('Foo');
setTimeout(() => {
observer.next('Bar');
}, 2000);
setTimeout(() => {
observer.complete();
}, 4000);
});
}
},
{
title: 'Failure',
task: () => Promise.reject(new Error('Bar'))
}
]);
You can use the Observable
package you feel most comfortable with, like RxJS or zen-observable.
It's also possible to return a ReadableStream
. The stream will be converted to an Observable
and handled as such.
const fs = require('fs');
const split = require('split');
const list = new Listr([
{
title: 'File',
task: () => fs.createReadStream('data.txt', 'utf8')
.pipe(split(/\r?\n/, null, {trailing: false}))
}
]);
Optionally specify a skip
function to determine whether a task can be skipped.
- If the
skip
function returns a truthy value or aPromise
that resolves to a truthy value then the task will be skipped. - If the returned value is a string it will be displayed as the reason for skipping the task.
- If the
skip
function returns a falsey value or aPromise
that resolves to a falsey value then the task will be executed as normal. - If the
skip
function throws or returns aPromise
that rejects, the task (and the whole build) will fail.
const tasks = new Listr([
{
title: 'Task 1',
task: () => Promise.resolve('Foo')
},
{
title: 'Can be skipped',
skip: () => {
if (Math.random() > 0.5) {
return 'Reason for skipping';
}
},
task: () => 'Bar'
},
{
title: 'Task 3',
task: () => Promise.resolve('Bar')
}
]);
Tip: You can still skip a task while already executing the
task
function with the task object.
By default, every task is enabled which means that every task will be executed. However, it's also possible to provide an enabled
function that returns whether the task should be executed or not.
const tasks = new Listr([
{
title: 'Install package dependencies with Yarn',
task: (ctx, task) => execa('yarn')
.catch(() => {
ctx.yarn = false;
task.skip('Yarn not available, install it via `npm install -g yarn`');
})
},
{
title: 'Install package dependencies with npm',
enabled: ctx => ctx.yarn === false,
task: () => execa('npm', ['install'])
}
]);
In the above example, we try to run yarn
first, if that fails we will fall back to npm
. However, at first only the Yarn task will be visible. Because we set the yarn
flag of the context object to false
, the second task will automatically be enabled and will be executed.
Note: This does not work in combination with concurrent tasks.
A context object is passed as argument to every skip
and task
function. This allows you to create composable tasks and change the behaviour of your task depending on previous results.
const tasks = new Listr([
{
title: 'Task 1',
skip: ctx => ctx.foo === 'bar',
task: () => Promise.resolve('Foo')
},
{
title: 'Can be skipped',
skip: () => {
if (Math.random() > 0.5) {
return 'Reason for skipping';
}
},
task: ctx => {
ctx.unicorn = 'rainbow';
}
},
{
title: 'Task 3',
task: ctx => Promise.resolve(`${ctx.foo} ${ctx.bar}`)
}
]);
tasks.run({
foo: 'bar'
}).then(ctx => {
console.log(ctx);
//=> {foo: 'bar', unicorn: 'rainbow'}
});
A special task object is passed as second argument to the task
function. This task object lets you change the title while running your task, you can skip it depending on some results or you can update the task's output.
const tasks = new Listr([
{
title: 'Install package dependencies with Yarn',
task: (ctx, task) => execa('yarn')
.catch(() => {
ctx.yarn = false;
task.title = `${task.title} (or not)`;
task.skip('Yarn not available');
})
},
{
title: 'Install package dependencies with npm',
skip: ctx => ctx.yarn !== false && 'Dependencies already installed with Yarn',
task: (ctx, task) => {
task.output = 'Installing dependencies...';
return execa('npm', ['install'])
}
}
]);
tasks.run();
By default, the listr-update-renderer
renderer is used. The renderer updates the state of the tasks every 100ms. When the suspendUpdateRenderer
option is supplied, the state updates can be suspended while the task is running. After the task is completed, the renderer will resume updating the state of the tasks.
const tasks = new Listr([
{
title: 'Encrypt gpg-file',
task: () => execa('gpg', ['-e', 'file']),
options: {suspendUpdateRenderer: true}
},
{
title: 'Remove the unencrypted file',
task: () => execa('rm', ['file'])
}
]);
tasks.run();
The suspendUpdateRenderer
option is useful for tasks which receive user input while running, as without it the input will be ignored by the renderer.
It's possible to write custom renderers for Listr. A renderer is an ES6 class that accepts the tasks that it should render, and the Listr options object. It has two methods, the render
method which is called when it should start rendering, and the end
method. The end
method is called when all the tasks are completed or if a task failed. If a task failed, the error object is passed in via an argument.
class CustomRenderer {
constructor(tasks, options) { }
static get nonTTY() {
return false;
}
render() { }
end(err) { }
}
module.exports = CustomRenderer;
Note: A renderer is not passed through to the subtasks, only to the main task. It is up to you to handle that case.
The nonTTY
property returns a boolean indicating if the renderer supports non-TTY environments. The default for this property is false
if you do not implement it.
Every task is an observable. The task emits three different events and every event is an object with a type
property.
- The state of the task has changed (
STATE
). - The task outputted data (
DATA
). - The task returns a subtask list (
SUBTASKS
). - The task's title changed (
TITLE
). - The task became enabled or disabled (
ENABLED
).
This allows you to flexibly build your UI. Let's render every task that starts executing.
class CustomRenderer {
constructor(tasks, options) {
this._tasks = tasks;
this._options = Object.assign({}, options);
}
static get nonTTY() {
return true;
}
render() {
for (const task of this._tasks) {
task.subscribe(event => {
if (event.type === 'STATE' && task.isPending()) {
console.log(`${task.title} [started]`);
}
});
}
}
end(err) { }
}
module.exports = CustomRenderer;
If you want more complex examples, take a look at the update and verbose renderers.
Type: object[]
List of tasks.
Type: string
Title of the task.
Type: Function
Task function.
Type: Function
Skip function. Read more about skipping tasks.
Any renderer specific options. For instance, when using the update-renderer
, you can pass in all of its options.
Type: boolean
number
Default: false
Set to true
if you want to run tasks in parallel, set to a number to control the concurrency. By default it runs tasks sequentially.
Type: boolean
Default: true
Set to false
if you don't want to stop the execution of other tasks when one or more tasks fail.
Type: string
object
Default: default
Options: default
verbose
silent
Renderer that should be used. You can either pass in the name of the known renderer, or a class of a custom renderer.
Type: string
object
Default: verbose
The renderer that should be used if the main renderer does not support TTY environments. You can either pass in the name of the renderer, or a class of a custom renderer.
Returns the instance.
Type: object
object[]
Task object or multiple task objects.
Start executing the tasks. Returns a Promise
for the context object.
Type: object
Default: Object.create(null)
Initial context object.
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