dartle 0.5.0 dartle: ^0.5.0 copied to clipboard
A simple build system written in Dart. Tasks are declared in a regular Dart file.
Dartle #
A simple build system (or task runner, really) written in Dart.
Dartle is designed to integrate well with pub and Dart's own build system, but help with automation tasks not covered by other tools.
It is inspired by Gradle and, loosely, Make.
How to use #
Add dartle
to your dev_dependencies
:
pubspec.yaml
dev_dependencies:
dartle:
Write a dartle build file
dartle.dart
import 'package:dartle/dartle.dart';
final allTasks = [
Task(hello, argsValidator: const ArgsCount.range(min: 0, max: 1)),
Task(bye, dependsOn: const {'hello'}),
Task(clean),
];
main(List<String> args) async =>
run(args, tasks: allTasks.toSet(), defaultTasks: {allTasks[0]});
/// To pass an argument to a task, use a ':' prefix, e.g.:
/// dartle hello :joe
hello(List<String> args) =>
print("Hello ${args.isEmpty ? 'World' : args[0]}!");
/// If no arguments are expected, use `_` as the function parameter.
bye(_) => print("Bye!");
clean(_) => deleteOutputs(allTasks);
Run your build!
In dev mode, use dart
to run the build file directly:
dart dartle.dart
Notice that all
dev_dependencies
can be used in your build! And all Dart tools work with it, including the Observatory and debugger, after all this is just plain Dart!
Once you're done making changes to the build file (at least for a while), run it with dartle
instead:
- Activate
dartle
(only first time)
pub global activate dartle
- Run the build
dartle
This will execute the default tasks in the build file, dartle.dart
, which should be located in the working directory,
after compiling it to native using
dart2native
(if available, otherwise it will use dart --snapshot
) whenever necessary (i.e. every time a change is made to
the build file or pubspec.yaml
).
Selecting tasks #
In the examples above, the defaultTasks
ran because no argument was provided to Dartle.
To run specific task(s), give them as arguments when invoking dartle
:
dartle hello bye
Output:
2019-11-17 14:35:09.597494 - dartle[main] - INFO - Executing 2 tasks out of a total of 3 tasks: 2 tasks selected, 0 due to dependencies
2019-11-17 14:35:09.597619 - dartle[main] - INFO - Running task 'hello'
Hello World!
2019-11-17 14:35:09.597702 - dartle[main] - INFO - Running task 'bye'
Bye!
2019-11-17 14:35:09.597824 - dartle[main] - INFO - Build succeeded in 0 ms
Notice that the
dartle
executable will cache resources to make builds run faster. It uses the.dartle_tool/
directory, in the working directory, to manage the cache. You should not commit the.dartle_tool/
directory into source control.
To provide arguments to a task, provide the argument immediately following the task invocation, prefixing it with :
:
dartle hello :Joe
Prints:
2019-11-17 14:37:26.503476 - dartle[main] - INFO - Executing 1 task out of a total of 3 tasks: 1 task selected, 0 due to dependencies
2019-11-17 14:37:26.503686 - dartle[main] - INFO - Running task 'hello'
Hello Joe!
2019-11-17 14:37:26.504267 - dartle[main] - INFO - Build succeeded in 1 ms
Declaring tasks #
The preferred way to declare a task is by wrapping a top-level function, as shown in the example above.
Basically:
import 'package:dartle/dartle.dart';
final allTasks = {Task(hello)};
main(List<String> args) async => run(args, tasks: allTasks);
hello(_) => print("Hello Dartle!");
This allows the task to run in parallel with other tasks on different Isolate
s (potentially on different CPU cores).
If that's not important, a lambda can be used, but in such case the task's name must be provided explicitly (because lambdas have no name):
import 'package:dartle/dartle.dart';
final allTasks = {Task((_) => print("Hello Dartle!"), name: 'hello')};
main(List<String> args) async => run(args, tasks: allTasks);
A Task's function should only take arguments if it declares an ArgsValidator
, as shown in the example:
Task(hello, argsValidator: const ArgsCount.range(min: 0, max: 1))
...
hello(List<String> args) => ...
A Task will not be executed if its argsValidator
is not satisfied (Dartle will fail the build if that happens).
Task dependencies and run conditions #
A Task can depend on other task(s), so that whenever it runs, its dependencies also run (as long as they are not up-to-date).
In the example above, the bye
task depends on the hello
task:
Task(bye, dependsOn: const {'hello'})
This means that whenever bye
runs, hello
runs first.
Notice that tasks that have no dependencies between themselves can run at the same time - either on the same
Isolate
or in separateIsolates
(use the-p
flag to indicate that tasks may run in differentIsolate
s when possible, i.e. when their action is a top-level function and there's no dependencies with the other tasks).
A task may be skipped if it's up-to-date according to its RunCondition
. The example Dart file demonstrates that:
Task(encodeBase64,
description: 'Encodes input.txt in base64, writing to output.txt',
runCondition: RunOnChanges(
inputs: file('input.txt'),
outputs: file('output.txt'),
))
The above task only runs if at least one of these conditions is true:
output.txt
does not yet exist.- either
input.txt
oroutput.txt
changed since last time this task ran. - the
-f
or--force-tasks
flag is used.
If a RunCondition
is not provided, the task is always considered out-of-date.
To force all tasks to run, use the
-z
or--reset-cache
flag.
Help #
For more help, run dartle -h
. Proper documentation is going to be available soon!