Build Status Coverage Status

This package provides an way of generating files using Dart code, outside of pub. These files are generated directly on disk in the current package folder, and rebuilds are incremental.

Running Builds

In order to run a build, you write a script which uses one of the three top level functions defined by this library:

  • build: Runs a single build and exits.
  • watch: Continuously runs builds as you edit files.
  • serve: Same as watch, but also provides a basic file server which blocks if there are ongoing builds.

All three of these methods have a single required argument, a PhaseGroup. This is conceptually just a List<Phase> with some helper methods. Each of these Phases runs sequentially, and blocks until the previous Phase is completed.

A single Phase may be composed of one or more BuildActions, which are just a combination of a single Builder and a single InputSet. The Builder is what will actually generate outputs, and the InputSet determines what the primary inputs to that Builder will be. All BuildActions in a Phase can be ran at the same time, and cannot read in the outputs of any other BuildAction in the same Phase.

Lets look at a very simple example, with a single BuildAction. You can ignore the CopyBuilder for now, just know that its a Builder which copies files:

import 'package:build/build.dart';

main() async {
  /// The [PhaseGroup#singleAction] constructor is a shorthand for:
  ///   new PhaseGroup().newPhase().addAction(builder, inputSet);
  await build(new PhaseGroup.singleAction(
      new CopyBuilder('.copy'), new InputSet('my_package', ['lib/*.dart'])));

The above example would copy all *.dart files directly under lib to corresponding *.dart.copy files. Each time you run a build, it will check for any changes to the input files, and rerun the CopyBuilder only for the inputs that actually changed.

You can add as many actions as you want to the first phase using the addAction method, and they will all run at the same time. For example, you could make multiple copies:

main() async {
  var inputs = new InputSet('my_package', ['lib/*.dart']);
  await build(new PhaseGroup().newPhase()
      ..addAction(new CopyBuilder('.copy1'), inputs)
      ..addAction(new CopyBuilder('.copy2'), inputs));

Lets say however, that you want to make a copy of one of your copies. Since no action can read outputs of another action in the same phase, you need to add an additional Phase:

main() async {
  var phases = new PhaseGroup();
      new CopyBuilder('.copy'), new InputSet('my_package', ['lib/*.dart']));
      new CopyBuilder('.bak'), new InputSet('my_package', ['lib/*.dart.copy']));

  await build(phases);

This time, all the *.dart.copy files will be created first, and then the next Phase will read those in and create additional *.dart.copy.bak files. You can add as many phases as you want, but in general it's better to add more actions to a single phase since they can run at the same time.

Note: Any time you change your build script (or any of its dependencies), the next build will be a full rebuild. This is because the system has no way of knowing how that change may have affected the outputs.


Valid inputs follow the general dart package rules. You can read any files under the top level lib folder any package dependency, and you can read all files from the current package.

In general it is best to be as specific as possible with your InputSets, because all matching files will be provided to declareOutputs.


You may only output files in the current package, but anywhere in the current package is allowed.

You are not allowed to overwrite existing files, only create new ones.

Outputs from previous builds will not be treated as inputs to later ones.

Source control

This package creates a top level .dart_tool folder in your package, which should not be submitted to your source control repo (likely this just means adding '.dart_tool' to your '.gitignore' file).

When it comes to generated files it is generally best to not submit them to source control, but a specific Builder may provide a recommendation otherwise.

It should be noted that if you do submit generated files to your repo then when you change branches or merge in changes you may get a warning on your next build about declared outputs that already exist. This will be followed up with a prompt to delete those files. You can type l to list the files, and then type y to delete them if everything looks correct. If you think something is wrong you can type n to abandon the build without taking any action.

Publishing packages

In general generated files should be published with your package, but this may not always be the case. Some Builders may provide a recommendation for this as well.

Implementing your own Builders

If you have written a pub Transformer in the past, then the Builderapi should be familiar to you. The main difference is that Builders must always declare their outputs, similar to a DeclaringTransformer.

The basic api looks like this:

abstract class Builder {
  /// You can only output files in `build` that you declare here. You are not
  /// required to output all of these files, but no other [Builder] is allowed
  /// to declare the same outputs.
  List<AssetId> declareOutputs(AssetId input);

  /// Similar to `Transformer.apply`. This is where you build and output files.
  Future build(BuildStep buildStep);

Building on the example in Running Builds, here is an implementation of a Builder which just copies files to other files with the same name, but an additional extension:

/// A really simple [Builder], it just makes copies!
class CopyBuilder implements Builder {
  final String extension;


  Future build(BuildStep buildStep) async {
    /// Each [buildStep] has just one input. This is a fully realized [Asset]
    /// with its [stringContents] already available.
    var input = buildStep.input;

    /// Create a new [Asset], with the new [AssetId].
    var copy = new Asset(_copiedId(, input.stringContents);

    /// Write out the [Asset].
    /// There is no need to `await` here, the system handles waiting on these
    /// files as necessary before advancing to the next phase.

  /// Declare your outputs, just one file in this case.
  List<AssetId> declareOutputs(AssetId inputId) => [_copiedId(inputId)];

  AssetId _copiedId(AssetId inputId) => inputId.addExtension('$extension');

It should be noted that you should never touch the file system directly. Go through the buildStep#readAsString and buildStep#writeAsString methods in order to read and write assets. This is what enables the package to track all of your dependencies and do incremental rebuilds. It is also what enables your Builder to run on different environments.

Using the analyzer (experimental)

If you need to do analyzer resolution, you can use the BuildStep#resolve method. This makes sure that all Builders in the system share the same analysis context, which greatly speeds up the overall system when multiple Builders are doing resolution. Additionally, it handles for you making the analyzer work in an async environment.

This Resolver has the exact same api as the one from code_transformers, so migrating to it should be easy if you have used code_transformers in the past.

Here is an example of a Builder which uses the resolve method:

class ResolvingCopyBuilder {
  Future build(BuildStep buildStep) {
    /// Resolves all libraries reachable from the primary input.
    var resolver = await buildStep.resolve(;
    /// Get a [LibraryElement] by asset id.
    var entryLib = resolver.getLibrary(;
    /// Or get a [LibraryElement] by name.
    var otherLib = resolver.getLibraryByName('my.library');

    /// **IMPORTANT**: If you don't release a resolver, your builds will hang.

  /// Declare outputs as well....

Once you have gotten a LibraryElement using one of the methods on Resolver, you are now just using the regular analyzer package to explore your app.

Important Note: As shown in the code above, you must call release on your resolver when you are done. If you don't then the next call to resolve will never complete.

Features and bugs

Please file feature requests and bugs at the issue tracker.