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Sven Kanoldt
Sven Kanoldt

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Dart IO - Streaming Strings in a Nutshell

Starting Point

Let's start with the example from the io-library-tour on Streaming file Contents:

import 'dart:async';
import 'dart:io';
import 'dart:convert';

Future main() async {
  var config = File('config.txt');
  Stream<List<int>> inputStream = config.openRead();

  var lines = inputStream
      .transform(utf8.decoder)
      .transform(LineSplitter());
  try {
    await for (var line in lines) {
      print('Got ${line.length} characters from stream');
    }
    print('file is now closed');
  } catch (e) {
    print(e);
  }
}
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What you can see there is that a 'config.txt' file is processed in a streamed fashion. As part of the processing there are 2 transformations going on.

  1. utf8.decoder that converts a list of unsigned 8-bit integers to a string
  2. LineSplitter that splits the one string into single pieces line by line

The await for will then process the stream basically line by line, where as the EOL-String is part of the yielded list.

Let's dive in

So how is this transform working? For this we going to write a small transformator that will transform every string
to a UPPER CASED string.

Cool, how to start this?

Let's check the API for transform on Stream. There we find a StreamTransformer<T, S> that needs to be passed over. But after checking we figure out that there is higher level concept that implements this interface and simplifies a lot. It's called a Converter<S, T>. So our implementation could like this:

class UpperCase extends Converter<String, String> {
  @override
  String convert(String input) => input.toUpperCase();
}
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Well, that was easy! Let's run the whole program and check how it looks:

import 'dart:async';
import 'dart:io';
import 'dart:convert';

class UpperCase extends Converter<String, String> {
  @override
  String convert(String input) => input.toUpperCase();
}

Future main() async {
  var config = File(Platform.script.toFilePath());
  Stream<List<int>> inputStream = config.openRead();

  var lines = inputStream
      .transform(utf8.decoder)
      .transform(LineSplitter())
      .transform(UpperCase());
  try {
    await for (var line in lines) {
      print('Got ${line.length} characters from stream');
      print(line);
    }
    print('file is now closed');
  } catch (e) {
    print(e);
  }
}
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$ dart io_expedition_iter0.dart

Unsupported operation: This converter does not support chunked conversions: Instance of 'UpperCase'
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Oooops!

What the hell are chunked conversions?

Let's find out where this exception is originated. That is Converter<S, T>:

  /**
   * Starts a chunked conversion.
   *
   * The returned sink serves as input for the long-running conversion. The
   * given [sink] serves as output.
   */
  Sink<S> startChunkedConversion(Sink<T> sink) {
    throw new UnsupportedError(
        "This converter does not support chunked conversions: $this");
  }
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It shows us at least that for some reason a Converter seems to operate in 2 ways:

  • like normal where only the convert method is involved
  • like chunked

The doc block indicates that this is for long-running conversion used. Still unclear how or why this is the choosen path by the runtime.

Let's focus on how to solve that

As you can see from the signature a Sink<S> is expected to be returned. In our case a Sink<String> that is simply a destination for sending Strings to. So let's intercept the streaming with a small decorator class like below:

class UpperCaseConversionSink extends StringConversionSinkBase {
  EventSink<String> wrapped;

  UpperCaseConversionSink(this.wrapped);

  @override
  void addSlice(String str, int start, int end, bool isLast) {
    wrapped.add(str.toUpperCase());
  }

  @override
  void close() {
    wrapped.close();
  }
}
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and let's implement the start of chunked conversion in the UpperCase Converter like this:

  @override
  Sink<String> startChunkedConversion(Sink<String> sink) {
    return UpperCaseConversionSink(sink);
  }
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$ dart io_expedition_iter1.dart

Got 19 characters from stream
LIBRARY IO_TESTING;
Got 0 characters from stream

Got 20 characters from stream
IMPORT 'DART:ASYNC';
Got 17 characters from stream
IMPORT 'DART:IO';
Got 22 characters from stream

# [...]
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Nice! That works.

Let's refactor a bit

As you can see the small decorator sink UpperCaseConversionSink has now also knowledge about the conversion technique as well as the UpperCase converter itself. That duplication can be cleaned by introducing a more generic sink that accepts a converter and delegates the concrete conversion back to the converter. Let's see how this might looks:

class StringEventConverterSink extends StringConversionSinkBase {
  EventSink<String> innerSink;
  Converter<String, String> converter;

  // [sink] is wrapped and [converter] knows about the concrete conversion algorithm
  StringEventConverterSink(Sink<String> sink, Converter<String, String> converter) {
    this.innerSink = sink;
    this.converter = converter;
  }

  @override
  void addSlice(String str, int start, int end, bool isLast) {
    innerSink.add(converter.convert(str));
  }

  @override
  void close() {
    innerSink.close();
  }
}
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the usage of this looks then like:

class UpperCaseConverter extends Converter<String, String> {
  @override
  String convert(String input) => input.toUpperCase();

  @override
  Sink<String> startChunkedConversion(Sink<String> sink) {
    return StringEventConverterSink(sink, this);
  }
}
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The full final code can be found on my github page.

What about closures

Sure, we can even simplify further and make the Converter itself more generic in a way that it only accepts a closure to do the job. So that our usage would look as simple as this

  .transform(StringConverter((String x) => x.toUpperCase()));
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So we will introduce a generic StringConverter that accepts this closure:

class StringConverter extends Converter<String, String> {
  String Function(String x) convertFunction;

  StringConverter(this.convertFunction);

  @override
  String convert(String input) => 
      convertFunction(input);

  @override
  Sink<String> startChunkedConversion(Sink<String> sink) => 
      StringEventConverterSink(sink, this);
}
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The full code is on my github page too

Round up

  • Dart streams come with build in support for transformators
  • Converter are used for those transformations
  • Long running transformations are processed in chunks
  • String chunk processing can be achieved by subclassing from StringConversionSinkBase
  • Decorator pattern can help to intercept with the source and destination sink
  • Converter can be passed over to the interceptors to keep the logic in one place
  • Even closures can be used to simplify things further

For me the only open question is: dow does Dart decide whether a conversion can happen direct or in a chunked fashion.

If you can clarify this, feel free to leave a comment or share resources that illustrate that further.

Thanks for reading

$ dart --version
Dart VM version: 2.0.0 (Fri Aug 3 10:53:23 2018 +0200) on "macos_x64"
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