Tuesday, 12 September 2017

fork-ts-checker-webpack-plugin code clickability

My name is John Reilly and I'm a VS Code addict. There I said it. I'm also a big fan of TypeScript and webpack. I've recently switched to using the awesome fork-ts-checker-webpack-plugin to speed up my builds.

One thing I love is using VS Code both as my editor and my terminal. Using the fork-ts-checker-webpack-plugin I noticed a problem when TypeScript errors showed up in the terminal:

Take a look at the red file location in the console above. What's probably not obvious from the above screenshot is that it is not clickable. I'm used to being able to click on link in the console and bounce straight to the error location. It's a really productive workflow; see a problem, click on it, be taken to the cause, fix it.

I want to click on "C:/source/ts-loader/examples/fork-ts-checker/src/fileWithError.ts(2,7)" and have VS Code open up fileWithError.ts, ideally at line 2 and column 7. But here it's not working. Why?

Well, I initially got this slightly wrong; I thought it was about the formatting of the file path. It is. I thought that having the line number and column number in parentheses after the path (eg "(2,7)") was screwing over VS Code. It isn't. Something else is. Look closely at the screenshot; what do you see? Do you notice how the colour of the line number / column number is different to the path? In the words of Delbert Wilkins: that's crucial.

Yup, the colour change between the path and the line number / column number is the problem. I've submitted a PR to fix this that I hope will get merged. In the meantime you can avoid this issue by dropping this code into your webpack.config.js:


var chalk = require("chalk");
var os = require("os");

function clickableFormatter(message, useColors) {
    var colors = new chalk.constructor({ enabled: useColors });
    var messageColor = message.isWarningSeverity() ? colors.bold.yellow : colors.bold.red;
    var fileAndNumberColor = colors.bold.cyan;
    var codeColor = colors.grey;
    return [
        messageColor(message.getSeverity().toUpperCase() + " in ") +
        fileAndNumberColor(message.getFile() + "(" + message.getLine() + "," + message.getCharacter() + ")") +
        messageColor(':'),

        codeColor(message.getFormattedCode() + ': ') + message.getContent()
    ].join(os.EOL);
};

module.exports = {
    // Other config...
    module: {
        rules: [
            {
                test: /\.tsx?$/,
                loader: 'ts-loader',
                options: { transpileOnly: true }
            }
        ]
    },
    resolve: {
        extensions: [ '.ts', '.tsx', 'js' ]
    },
    plugins: [
        new ForkTsCheckerWebpackPlugin({ formatter: clickableFormatter }) // Here we get our clickability back
    ]
};

With that in place, what do you we have? This:

VS Code clickability; it's a beautiful thing.

Thursday, 7 September 2017

TypeScript + Webpack: Super Pursuit Mode

This post also featured as a webpack Medium publication.

If you're like me then you'll like TypeScript and you'll like module bundling with webpack. You may also like speedy builds. That's completely understandable. The fact of the matter is, you sacrifice a bit of build speed to have webpack in the mix. Wouldn't it be great if we could even up the difference?

I'm the primary maintainer of ts-loader, a TypeScript loader for webpack. Just recently a couple of PRs were submitted that said, in other words: ts-loader is like this:

But it could be like this:

Apologies for the image quality above; there appear to be no high quality pictures out there of KITT in Super Pursuit Mode for me to defame with Garan Jenkin's atrocious puns.

fork-ts-checker-webpack-plugin

"Faster type checking with forked process" read the enticing name of the issue. It turned out to be Piotr OleΕ› (@OlesDev) telling the world about his beautiful creation. He'd put together a mighty fine plugin that can be used alongside ts-loader called the fork-ts-checker-webpack-plugin. The name is a bit of a mouthful but the purpose is mouth-watering. To quote the README, it is a:

Webpack plugin that runs typescript type checker on a separate process.

What does this mean and how does this fit with ts-loader? Well, ts-loader does 2 jobs:

  1. It transpiles your TypeScript into JavaScript and hands it off to webpack
  2. It collects any TypeScript compilation errors and reports them to webpack

What this plugin does is say, "forget about #2 - we've got this." It removes the responsibility for type checking from ts-loader, so the only work ts-loader does is transpilation. In the meantime, the all important type checking is still happening. To be honest, there would be little reason to recommend this approach otherwise. The difference is fork-ts-checker-webpack-plugin is doing the heavy lifting in a separate process. This provides a nice performance boost to your workflow. ts-loader is doing less and that's a good thing.

The approach used here is similar to that employed by awesome-typescript-loader. ATL is another TypeScript loader for webpack by the excellent Stanislav Panferov. ATL also has a technique for performing typechecking in a forked process. fork-ts-checker-webpack-plugin was an effort by Piotr to implement something similar but with improved incremental build performance.

How do we use it? Add fork-ts-checker-webpack-plugin as a devDependency of your project and then amend the webpack.config.js to set ts-loader into transpileOnly mode and drop the plugin into the mix:


var ForkTsCheckerWebpackPlugin = require('fork-ts-checker-webpack-plugin');

var webpackConfig = {
  // other config...
  context: __dirname, // to automatically find tsconfig.json
  module: {
    rules: [
      {
        test: /\.tsx?$/,
        loader: 'ts-loader',
        options: {
          // disable type checker - we will use it in fork plugin
          transpileOnly: true 
        }
      }
    ]
  },
  plugins: [
    new ForkTsCheckerWebpackPlugin()
  ]
};

If you'd like to see an example of how to use the plugin then take a look at a simple example and a more involved one.

HappyPack

Not so long ago I didn't know what happyness HappyPack was. "Happiness in the form of faster webpack build times." That's what it is.

HappyPack makes webpack builds faster by allowing you to transform multiple files in parallel.

It does this by spinning up multiple threads, each with their own loaders inside. We wanted to do this with ts-loader; to have multiple instances of ts-loader running. Work can then be divided up across these separate loaders. Isn't multi-threading great?

ts-loader did not initially play nicely with HappyPack; essentially this is because ts-loader touches parts of webpack's API that HappyPack replaces. The entirely wonderful Artem Kozlov submitted a PR which added HappyPack support to ts-loader. Support essentially amounts to switching ts-loader to run in transpileOnly mode and ensuring that there is no attempt to talk to parts of the webpack API that HappyPack removes.

It would be hard to recommend using HappyPack as is because, as with transpileOnly mode you lose all typechecking. Where it becomes worthwhile is where it is combined with the fork-ts-checker-webpack-plugin so you keep the typechecking.

Enough with the chitter chatter; how can we achieve this? Add HappyPack as a devDependency of your project and then amend the webpack.config.js as follows:


var HappyPack = require('happypack');
var ForkTsCheckerWebpackPlugin = require('fork-ts-checker-webpack-plugin');

module.exports = {
    // other config...
    context: __dirname, // to automatically find tsconfig.json
    module: {
        rules: [
            {
                test: /\.tsx?$/,
                exclude: /node_modules/,
                loader: 'happypack/loader?id=ts'
            }
        ]
    },
    plugins: [
        new HappyPack({
            id: 'ts',
            threads: 2,
            loaders: [
                {
                    path: 'ts-loader',
                    query: { happyPackMode: true }
                }
            ]
        }),
        new ForkTsCheckerWebpackPlugin({ checkSyntacticErrors: true })
    ]
};

Note that the ts-loader options are now configured via the HappyPack query and that we're setting ts-loader with the happyPackMode option set.

There's one other thing to note which is important; we're now passing the checkSyntacticErrors option to the fork plugin. This ensures that the plugin checks for both syntactic errors (eg const array = [{} {}];) and semantic errors (eg const x: number = '1';). By default the plugin only checks for semantic errors. This is because when ts-loader is used with transpileOnly set, ts-loader will still report syntactic errors. But when used in happyPackMode it does not.

If you'd like to see an example of how to use HappyPack then once again we have a simple example and a more involved one.

thread-loader + cache-loader

You might have some reservations about using HappyPack. First of all the quirky configuration required makes your webpack config rather less comprehensible. Also, HappyPack is not officially blessed by webpack. It is a side project developed externally from webpack and there's no guarantees that new versions of webpack won't break it. Neither of these are reasons not to use HappyPack but they are things to bear in mind.

What if there were a way to parallelise our builds which dealt with these issues? Well, there is! By using thread-loader and cache-loader in combination you can both feel happy that you're using an official webpack workflow and you can have a config that's less confusing.

What would that config look like? This:


var ForkTsCheckerWebpackPlugin = require('fork-ts-checker-webpack-plugin');

module.exports = {
    // other config...
    context: __dirname, // to automatically find tsconfig.json
    module: {
        rules: {
            test: /\.tsx?$/,
            use: [
                { loader: 'cache-loader' },
                {
                    loader: 'thread-loader',
                    options: {
                        // there should be 1 cpu for the fork-ts-checker-webpack-plugin
                        workers: require('os').cpus().length - 1,
                    },
                },
                {
                    loader: 'ts-loader',
                    options: {
                        happyPackMode: true // IMPORTANT! use happyPackMode mode to speed-up compilation and reduce errors reported to webpack
                    }
                }
            ]
        }
    },
    plugins: [
        new ForkTsCheckerWebpackPlugin({ checkSyntacticErrors: true })
    ]
};

As you can see the configuration is much cleaner than with HappyPack. Interestingly ts-loader still needs to run in "happyPackMode" and that's because thread-loader is essentially behaving in the same fashion as with HappyPack and so ts-loader needs to behave in the same way. Probably ts-loader should have a more generic flag name than "happyPackMode". (Famously, naming things is hard; so if you've a good idea, tell me!)

These loaders are new and so tread carefully. My own experiences have been pretty positive but your mileage may vary. Do note that, as with HappyPack, the thread-loader is highly configurable.

If you'd like to see an example of how to use thread-loader and cache-loader then once again we have a simple example and a more involved one.

All This Could Be Yours...

In this post we're improving build speeds with TypeScript and webpack in 3 ways:

fork-ts-checker-webpack-plugin
With this plugin in play ts-loader only performs transpilation. ts-loader is doing less so the build is faster.
HappyPack
With HappyPack in the mix, the build is parallelised. That parallelisation means the build is faster.
thread-loader / cache-loader
With thread-loader and cache-loader, again the build is parallelised and the build is faster.