The pool package exposes a Pool class which makes it easy to manage a limited
pool of resources.
The easiest way to use a pool is by calling withResource. This runs a callback
and returns its result, but only once there aren't too many other callbacks
currently running.
// Create a Pool that will only allocate 10 resources at once. After 30 seconds
// of inactivity with all resources checked out, the pool will throw an error.
final pool = new Pool(10, timeout: new Duration(seconds: 30));
Future<String> readFile(String path) {
// Since the call to [File.readAsString] is within [withResource], no more
// than ten files will be open at once.
return pool.withResource(() => new File(path).readAsString());
}For more fine-grained control, the user can also explicitly request generic
PoolResource objects that can later be released back into the pool. This is
what withResource does under the covers: requests a resource, then releases it
once the callback completes.
Pool ensures that only a limited number of resources are allocated at once.
It's the caller's responsibility to ensure that the corresponding physical
resource is only consumed when a PoolResource is allocated.
class PooledFile implements RandomAccessFile {
final RandomAccessFile _file;
final PoolResource _resource;
static Future<PooledFile> open(String path) {
return pool.request().then((resource) {
return new File(path).open().then((file) {
return new PooledFile._(file, resource);
});
});
}
PooledFile(this._file, this._resource);
// ...
Future<RandomAccessFile> close() {
return _file.close.then((_) {
_resource.release();
return this;
});
}
}