tests/lib_2/convert/line_splitter_test.dart - sdk.git - Git at Google

 // Copyright (c) 2013, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 // @dart = 2.9

 library line_splitter_test;

 import "package:expect/expect.dart";
 import 'dart:async';
 import 'dart:convert';
 import 'dart:math' as MATH;

 const lineTerminators = const ['\n', '\r', '\r\n'];

 void main() {
   testSimpleConvert();
   testSplit();
   testSplitWithOffsets();
   testManyLines();
   testReadLine1();
   testReadLine2();
   testChunkedConversion();
 }

 void testManyLines() {
   int breakIndex = 0;

   var inputs = const ['line1', 'line2', 'long line 3', ' line 4 ', 'l5'];

   var buffer = inputs.fold(new StringBuffer(), (buff, e) {
     buff.write(e);
     buff.write(lineTerminators[breakIndex]);

     breakIndex++;
     breakIndex = breakIndex % lineTerminators.length;

     return buff;
   });

   var foo = _getLinesSliced(buffer.toString());
   Expect.equals(inputs.join(), foo);
 }

 String _getLinesSliced(String str) {
   String lines;
   var stringSink =
       new StringConversionSink.withCallback((result) => lines = result);
   var sink = new LineSplitter().startChunkedConversion(stringSink);

   const chunkSize = 3;
   var index = 0;
   while (index < str.length) {
     var end = MATH.min(str.length, index + chunkSize);

     sink.addSlice(str, index, end, false);
     index += chunkSize;
   }

   sink.close();
   return lines;
 }

 void testSimpleConvert() {
   var decoder = new LineSplitter();
   for (var lf in lineTerminators) {
     var test = "line1${lf}line2${lf}line3";

     var result = decoder.convert(test);

     Expect.listEquals(['line1', 'line2', 'line3'], result);
   }

   var test = "Line1\nLine2\r\nLine3\rLine4\n\n\n\r\n\r\n\r\r";
   var result = decoder.convert(test);

   Expect.listEquals(
       ['Line1', 'Line2', 'Line3', 'Line4', '', '', '', '', '', ''], result);
 }

 void testReadLine1() {
   var controller = new StreamController<List<int>>(sync: true);
   var stream =
       controller.stream.transform(utf8.decoder).transform(const LineSplitter());

   var stage = 0;
   var done = false;

   void stringData(line) {
     Expect.equals(stage, 0);
     Expect.equals("Line", line);
     stage++;
   }

   void streamClosed() {
     Expect.equals(1, stage);
     done = true;
   }

   stream.listen(stringData, onDone: streamClosed);

   // Note: codeUnits is fine. Text is ASCII.
   controller.add("Line".codeUnits);
   controller.close();
   Expect.isTrue(done, 'should be done by now');
 }

 void testReadLine2() {
   var controller = new StreamController<List<int>>(sync: true);

   var stream =
       controller.stream.transform(utf8.decoder).transform(const LineSplitter());

   var expectedLines = [
     'Line1',
     'Line2',
     'Line3',
     'Line4',
     '',
     '',
     '',
     '',
     '',
     '',
     'Line5',
     'Line6'
   ];

   var index = 0;

   stream.listen((line) {
     Expect.equals(expectedLines[index++], line);
   });

   // Note: codeUnits is fine. Text is ASCII.
   controller.add("Line1\nLine2\r\nLine3\rLi".codeUnits);
   controller.add("ne4\n".codeUnits);
   controller.add("\n\n\r\n\r\n\r\r".codeUnits);
   controller.add("Line5\r".codeUnits);
   controller.add("\nLine6\n".codeUnits);
   controller.close();
   Expect.equals(expectedLines.length, index);
 }

 void testSplit() {
   for (var lf in lineTerminators) {
     var test = "line1${lf}line2${lf}line3";
     var result = LineSplitter.split(test).toList();
     Expect.listEquals(['line1', 'line2', 'line3'], result);
   }

   var test = "Line1\nLine2\r\nLine3\rLine4\n\n\n\r\n\r\n\r\r";
   var result = LineSplitter.split(test).toList();

   Expect.listEquals(
       ['Line1', 'Line2', 'Line3', 'Line4', '', '', '', '', '', ''], result);
 }

 void testSplitWithOffsets() {
   for (var lf in lineTerminators) {
     var test = "line1${lf}line2${lf}line3";
     var i2 = 5 + lf.length; // index of "line2".
     Expect.equals(5 + lf.length, i2);

     var result = LineSplitter.split(test, 4).toList();
     Expect.listEquals(['1', 'line2', 'line3'], result);

     result = LineSplitter.split(test, 5).toList();
     Expect.listEquals(['', 'line2', 'line3'], result);

     result = LineSplitter.split(test, i2).toList();
     Expect.listEquals(['line2', 'line3'], result);

     result = LineSplitter.split(test, 0, i2 + 2).toList();
     Expect.listEquals(['line1', 'li'], result);

     result = LineSplitter.split(test, i2, i2 + 5).toList();
     Expect.listEquals(['line2'], result);
   }

   var test = "Line1\nLine2\r\nLine3\rLine4\n\n\n\r\n\r\n\r\r";

   var result = LineSplitter.split(test).toList();

   Expect.listEquals(
       ['Line1', 'Line2', 'Line3', 'Line4', '', '', '', '', '', ''], result);

   test = "a\n\nb\r\nc\n\rd\r\re\r\n\nf\r\n";
   result = LineSplitter.split(test).toList();
   Expect.listEquals(["a", "", "b", "c", "", "d", "", "e", "", "f"], result);
 }

 void testChunkedConversion() {
   // Test any split of this complex string.
   var test = "a\n\nb\r\nc\n\rd\r\re\r\n\nf\rg\nh\r\n";
   var result = ["a", "", "b", "c", "", "d", "", "e", "", "f", "g", "h"];
   for (int i = 0; i < test.length; i++) {
     var output = [];
     var splitter = new LineSplitter();
     var outSink = new ChunkedConversionSink<String>.withCallback(output.addAll);
     var sink = splitter.startChunkedConversion(outSink);
     sink.addSlice(test, 0, i, false);
     sink.addSlice(test, i, test.length, false);
     sink.close();
     Expect.listEquals(result, output);
   }

   // Test the string split into three parts in any way.
   for (int i = 0; i < test.length; i++) {
     for (int j = i; j < test.length; j++) {
       var output = [];
       var splitter = new LineSplitter();
       var outSink =
           new ChunkedConversionSink<String>.withCallback(output.addAll);
       var sink = splitter.startChunkedConversion(outSink);
       sink.addSlice(test, 0, i, false);
       sink.addSlice(test, i, j, false);
       sink.addSlice(test, j, test.length, true);
       Expect.listEquals(result, output);
     }
   }
 }
	// Copyright (c) 2013, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	// @dart = 2.9

	library line_splitter_test;

	import "package:expect/expect.dart";
	import 'dart:async';
	import 'dart:convert';
	import 'dart:math' as MATH;

	const lineTerminators = const ['\n', '\r', '\r\n'];

	void main() {
	testSimpleConvert();
	testSplit();
	testSplitWithOffsets();
	testManyLines();
	testReadLine1();
	testReadLine2();
	testChunkedConversion();
	}

	void testManyLines() {
	int breakIndex = 0;

	var inputs = const ['line1', 'line2', 'long line 3', ' line 4 ', 'l5'];

	var buffer = inputs.fold(new StringBuffer(), (buff, e) {
	buff.write(e);
	buff.write(lineTerminators[breakIndex]);

	breakIndex++;
	breakIndex = breakIndex % lineTerminators.length;

	return buff;
	});

	var foo = _getLinesSliced(buffer.toString());
	Expect.equals(inputs.join(), foo);
	}

	String _getLinesSliced(String str) {
	String lines;
	var stringSink =
	new StringConversionSink.withCallback((result) => lines = result);
	var sink = new LineSplitter().startChunkedConversion(stringSink);

	const chunkSize = 3;
	var index = 0;
	while (index < str.length) {
	var end = MATH.min(str.length, index + chunkSize);

	sink.addSlice(str, index, end, false);
	index += chunkSize;
	}

	sink.close();
	return lines;
	}

	void testSimpleConvert() {
	var decoder = new LineSplitter();
	for (var lf in lineTerminators) {
	var test = "line1${lf}line2${lf}line3";

	var result = decoder.convert(test);

	Expect.listEquals(['line1', 'line2', 'line3'], result);
	}

	var test = "Line1\nLine2\r\nLine3\rLine4\n\n\n\r\n\r\n\r\r";
	var result = decoder.convert(test);

	Expect.listEquals(
	['Line1', 'Line2', 'Line3', 'Line4', '', '', '', '', '', ''], result);
	}

	void testReadLine1() {
	var controller = new StreamController<List<int>>(sync: true);
	var stream =
	controller.stream.transform(utf8.decoder).transform(const LineSplitter());

	var stage = 0;
	var done = false;

	void stringData(line) {
	Expect.equals(stage, 0);
	Expect.equals("Line", line);
	stage++;
	}

	void streamClosed() {
	Expect.equals(1, stage);
	done = true;
	}

	stream.listen(stringData, onDone: streamClosed);

	// Note: codeUnits is fine. Text is ASCII.
	controller.add("Line".codeUnits);
	controller.close();
	Expect.isTrue(done, 'should be done by now');
	}

	void testReadLine2() {
	var controller = new StreamController<List<int>>(sync: true);

	var stream =
	controller.stream.transform(utf8.decoder).transform(const LineSplitter());

	var expectedLines = [
	'Line1',
	'Line2',
	'Line3',
	'Line4',
	'',
	'',
	'',
	'',
	'',
	'',
	'Line5',
	'Line6'
	];

	var index = 0;

	stream.listen((line) {
	Expect.equals(expectedLines[index++], line);
	});

	// Note: codeUnits is fine. Text is ASCII.
	controller.add("Line1\nLine2\r\nLine3\rLi".codeUnits);
	controller.add("ne4\n".codeUnits);
	controller.add("\n\n\r\n\r\n\r\r".codeUnits);
	controller.add("Line5\r".codeUnits);
	controller.add("\nLine6\n".codeUnits);
	controller.close();
	Expect.equals(expectedLines.length, index);
	}

	void testSplit() {
	for (var lf in lineTerminators) {
	var test = "line1${lf}line2${lf}line3";
	var result = LineSplitter.split(test).toList();
	Expect.listEquals(['line1', 'line2', 'line3'], result);
	}

	var test = "Line1\nLine2\r\nLine3\rLine4\n\n\n\r\n\r\n\r\r";
	var result = LineSplitter.split(test).toList();

	Expect.listEquals(
	['Line1', 'Line2', 'Line3', 'Line4', '', '', '', '', '', ''], result);
	}

	void testSplitWithOffsets() {
	for (var lf in lineTerminators) {
	var test = "line1${lf}line2${lf}line3";
	var i2 = 5 + lf.length; // index of "line2".
	Expect.equals(5 + lf.length, i2);

	var result = LineSplitter.split(test, 4).toList();
	Expect.listEquals(['1', 'line2', 'line3'], result);

	result = LineSplitter.split(test, 5).toList();
	Expect.listEquals(['', 'line2', 'line3'], result);

	result = LineSplitter.split(test, i2).toList();
	Expect.listEquals(['line2', 'line3'], result);

	result = LineSplitter.split(test, 0, i2 + 2).toList();
	Expect.listEquals(['line1', 'li'], result);

	result = LineSplitter.split(test, i2, i2 + 5).toList();
	Expect.listEquals(['line2'], result);
	}

	var test = "Line1\nLine2\r\nLine3\rLine4\n\n\n\r\n\r\n\r\r";

	var result = LineSplitter.split(test).toList();

	Expect.listEquals(
	['Line1', 'Line2', 'Line3', 'Line4', '', '', '', '', '', ''], result);

	test = "a\n\nb\r\nc\n\rd\r\re\r\n\nf\r\n";
	result = LineSplitter.split(test).toList();
	Expect.listEquals(["a", "", "b", "c", "", "d", "", "e", "", "f"], result);
	}

	void testChunkedConversion() {
	// Test any split of this complex string.
	var test = "a\n\nb\r\nc\n\rd\r\re\r\n\nf\rg\nh\r\n";
	var result = ["a", "", "b", "c", "", "d", "", "e", "", "f", "g", "h"];
	for (int i = 0; i < test.length; i++) {
	var output = [];
	var splitter = new LineSplitter();
	var outSink = new ChunkedConversionSink<String>.withCallback(output.addAll);
	var sink = splitter.startChunkedConversion(outSink);
	sink.addSlice(test, 0, i, false);
	sink.addSlice(test, i, test.length, false);
	sink.close();
	Expect.listEquals(result, output);
	}

	// Test the string split into three parts in any way.
	for (int i = 0; i < test.length; i++) {
	for (int j = i; j < test.length; j++) {
	var output = [];
	var splitter = new LineSplitter();
	var outSink =
	new ChunkedConversionSink<String>.withCallback(output.addAll);
	var sink = splitter.startChunkedConversion(outSink);
	sink.addSlice(test, 0, i, false);
	sink.addSlice(test, i, j, false);
	sink.addSlice(test, j, test.length, true);
	Expect.listEquals(result, output);
	}
	}
	}