tests/lib_2/convert/chunked_conversion_utf88_test.dart - sdk - 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 utf8_test;

 import "package:expect/expect.dart";
 import 'dart:convert';

 List<int> encode(String str) {
   List<int> bytes;
   var byteSink =
       new ByteConversionSink.withCallback((result) => bytes = result);
   var stringConversionSink = new Utf8Encoder().startChunkedConversion(byteSink);
   stringConversionSink.add(str);
   stringConversionSink.close();
   return bytes;
 }

 List<int> encode2(String str) {
   List<int> bytes;
   var byteSink =
       new ByteConversionSink.withCallback((result) => bytes = result);
   var stringConversionSink = new Utf8Encoder().startChunkedConversion(byteSink);
   ClosableStringSink stringSink = stringConversionSink.asStringSink();
   stringSink.write(str);
   stringSink.close();
   return bytes;
 }

 List<int> encode3(String str) {
   List<int> bytes;
   var byteSink =
       new ByteConversionSink.withCallback((result) => bytes = result);
   var stringConversionSink = new Utf8Encoder().startChunkedConversion(byteSink);
   ClosableStringSink stringSink = stringConversionSink.asStringSink();
   str.codeUnits.forEach(stringSink.writeCharCode);
   stringSink.close();
   return bytes;
 }

 List<int> encode4(String str) {
   List<int> bytes;
   var byteSink =
       new ByteConversionSink.withCallback((result) => bytes = result);
   var stringConversionSink = new Utf8Encoder().startChunkedConversion(byteSink);
   ClosableStringSink stringSink = stringConversionSink.asStringSink();
   str.runes.forEach(stringSink.writeCharCode);
   stringSink.close();
   return bytes;
 }

 List<int> encode5(String str) {
   List<int> bytes;
   var byteSink =
       new ByteConversionSink.withCallback((result) => bytes = result);
   var stringConversionSink = new Utf8Encoder().startChunkedConversion(byteSink);
   ByteConversionSink inputByteSink = stringConversionSink.asUtf8Sink(false);
   List<int> tmpBytes = utf8.encode(str);
   inputByteSink.add(tmpBytes);
   inputByteSink.close();
   return bytes;
 }

 List<int> encode6(String str) {
   List<int> bytes;
   var byteSink =
       new ByteConversionSink.withCallback((result) => bytes = result);
   var stringConversionSink = new Utf8Encoder().startChunkedConversion(byteSink);
   ByteConversionSink inputByteSink = stringConversionSink.asUtf8Sink(false);
   List<int> tmpBytes = utf8.encode(str);
   tmpBytes.forEach((b) => inputByteSink.addSlice([0, b, 1], 1, 2, false));
   inputByteSink.close();
   return bytes;
 }

 List<int> encode7(String str) {
   List<int> bytes;
   var byteSink =
       new ByteConversionSink.withCallback((result) => bytes = result);
   var stringConversionSink = new Utf8Encoder().startChunkedConversion(byteSink);
   stringConversionSink.addSlice("1" + str + "2", 1, str.length + 1, false);
   stringConversionSink.close();
   return bytes;
 }

 int _nextPowerOf2(v) {
   assert(v > 0);
   v--;
   v |= v >> 1;
   v |= v >> 2;
   v |= v >> 4;
   v |= v >> 8;
   v |= v >> 16;
   v++;
   return v;
 }

 runTest(test) {
   List<int> bytes = test[0];
   String string = test[1];
   Expect.listEquals(bytes, encode(string));
   Expect.listEquals(bytes, encode2(string));
   Expect.listEquals(bytes, encode3(string));
   Expect.listEquals(bytes, encode4(string));
   Expect.listEquals(bytes, encode5(string));
   Expect.listEquals(bytes, encode6(string));
   Expect.listEquals(bytes, encode7(string));
 }

 main() {
   const LEADING_SURROGATE = 0xd801;
   const TRAILING_SURROGATE = 0xdc12;
   const UTF8_ENCODING = const [0xf0, 0x90, 0x90, 0x92];
   const UTF8_REPLACEMENT = const [0xef, 0xbf, 0xbd];
   const CHAR_A = 0x61;

   // Test surrogates at all kinds of locations.
   var codeUnits = <int>[];
   for (int i = 0; i < 2049; i++) {
     // Invariant: codeUnits[0..i - 1] is filled with CHAR_A (character 'a').
     codeUnits.length = i + 1;
     codeUnits[i] = CHAR_A;

     // Only test for problem zones, close to powers of two.
     if (i > 20 && _nextPowerOf2(i - 2) - i > 10) continue;

     codeUnits[i] = LEADING_SURROGATE;
     var str = new String.fromCharCodes(codeUnits);
     var bytes = new List.filled(i + 3, CHAR_A);
     bytes[i] = UTF8_REPLACEMENT[0];
     bytes[i + 1] = UTF8_REPLACEMENT[1];
     bytes[i + 2] = UTF8_REPLACEMENT[2];
     runTest([bytes, str]);

     codeUnits[i] = TRAILING_SURROGATE;
     str = new String.fromCharCodes(codeUnits);
     bytes = new List.filled(i + 3, CHAR_A);
     bytes[i] = UTF8_REPLACEMENT[0];
     bytes[i + 1] = UTF8_REPLACEMENT[1];
     bytes[i + 2] = UTF8_REPLACEMENT[2];
     runTest([bytes, str]);

     codeUnits.length = i + 2;
     codeUnits[i] = LEADING_SURROGATE;
     codeUnits[i + 1] = TRAILING_SURROGATE;
     str = new String.fromCharCodes(codeUnits);
     bytes = new List.filled(i + 4, CHAR_A);
     bytes[i] = UTF8_ENCODING[0];
     bytes[i + 1] = UTF8_ENCODING[1];
     bytes[i + 2] = UTF8_ENCODING[2];
     bytes[i + 3] = UTF8_ENCODING[3];
     runTest([bytes, str]);

     codeUnits[i] = TRAILING_SURROGATE;
     codeUnits[i + 1] = TRAILING_SURROGATE;
     str = new String.fromCharCodes(codeUnits);
     bytes = new List.filled(i + 6, CHAR_A);
     bytes[i] = UTF8_REPLACEMENT[0];
     bytes[i + 1] = UTF8_REPLACEMENT[1];
     bytes[i + 2] = UTF8_REPLACEMENT[2];
     bytes[i + 3] = UTF8_REPLACEMENT[0];
     bytes[i + 4] = UTF8_REPLACEMENT[1];
     bytes[i + 5] = UTF8_REPLACEMENT[2];
     runTest([bytes, str]);

     codeUnits[i] = LEADING_SURROGATE;
     codeUnits[i + 1] = LEADING_SURROGATE;
     str = new String.fromCharCodes(codeUnits);
     bytes = new List.filled(i + 6, CHAR_A);
     bytes[i] = UTF8_REPLACEMENT[0];
     bytes[i + 1] = UTF8_REPLACEMENT[1];
     bytes[i + 2] = UTF8_REPLACEMENT[2];
     bytes[i + 3] = UTF8_REPLACEMENT[0];
     bytes[i + 4] = UTF8_REPLACEMENT[1];
     bytes[i + 5] = UTF8_REPLACEMENT[2];
     runTest([bytes, str]);

     codeUnits[i] = TRAILING_SURROGATE;
     codeUnits[i + 1] = LEADING_SURROGATE;
     str = new String.fromCharCodes(codeUnits);
     bytes = new List.filled(i + 6, CHAR_A);
     bytes[i] = UTF8_REPLACEMENT[0];
     bytes[i + 1] = UTF8_REPLACEMENT[1];
     bytes[i + 2] = UTF8_REPLACEMENT[2];
     bytes[i + 3] = UTF8_REPLACEMENT[0];
     bytes[i + 4] = UTF8_REPLACEMENT[1];
     bytes[i + 5] = UTF8_REPLACEMENT[2];
     runTest([bytes, str]);

     codeUnits.length = i + 3;
     codeUnits[i] = LEADING_SURROGATE;
     codeUnits[i + 1] = TRAILING_SURROGATE;
     codeUnits[i + 2] = CHAR_A; // Add trailing 'a'.
     str = new String.fromCharCodes(codeUnits);
     bytes = new List.filled(i + 5, CHAR_A);
     bytes[i] = UTF8_ENCODING[0];
     bytes[i + 1] = UTF8_ENCODING[1];
     bytes[i + 2] = UTF8_ENCODING[2];
     bytes[i + 3] = UTF8_ENCODING[3];
     // No need to assign the 'a' character. The whole list is already filled
     // with it.
     runTest([bytes, str]);

     codeUnits[i] = TRAILING_SURROGATE;
     codeUnits[i + 1] = TRAILING_SURROGATE;
     codeUnits[i + 2] = CHAR_A; // Add trailing 'a'.
     str = new String.fromCharCodes(codeUnits);
     bytes = new List.filled(i + 7, CHAR_A);
     bytes[i] = UTF8_REPLACEMENT[0];
     bytes[i + 1] = UTF8_REPLACEMENT[1];
     bytes[i + 2] = UTF8_REPLACEMENT[2];
     bytes[i + 3] = UTF8_REPLACEMENT[0];
     bytes[i + 4] = UTF8_REPLACEMENT[1];
     bytes[i + 5] = UTF8_REPLACEMENT[2];
     runTest([bytes, str]);

     codeUnits[i] = LEADING_SURROGATE;
     codeUnits[i + 1] = LEADING_SURROGATE;
     codeUnits[i + 2] = CHAR_A; // Add trailing 'a'.
     str = new String.fromCharCodes(codeUnits);
     bytes = new List.filled(i + 7, CHAR_A);
     bytes[i] = UTF8_REPLACEMENT[0];
     bytes[i + 1] = UTF8_REPLACEMENT[1];
     bytes[i + 2] = UTF8_REPLACEMENT[2];
     bytes[i + 3] = UTF8_REPLACEMENT[0];
     bytes[i + 4] = UTF8_REPLACEMENT[1];
     bytes[i + 5] = UTF8_REPLACEMENT[2];
     runTest([bytes, str]);

     codeUnits[i] = TRAILING_SURROGATE;
     codeUnits[i + 1] = LEADING_SURROGATE;
     codeUnits[i + 2] = CHAR_A; // Add trailing 'a'.
     str = new String.fromCharCodes(codeUnits);
     bytes = new List.filled(i + 7, CHAR_A);
     bytes[i] = UTF8_REPLACEMENT[0];
     bytes[i + 1] = UTF8_REPLACEMENT[1];
     bytes[i + 2] = UTF8_REPLACEMENT[2];
     bytes[i + 3] = UTF8_REPLACEMENT[0];
     bytes[i + 4] = UTF8_REPLACEMENT[1];
     bytes[i + 5] = UTF8_REPLACEMENT[2];
     runTest([bytes, str]);

     // Make sure the invariant is correct.
     codeUnits[i] = CHAR_A;
   }
 }
	// 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 utf8_test;

	import "package:expect/expect.dart";
	import 'dart:convert';

	List<int> encode(String str) {
	List<int> bytes;
	var byteSink =
	new ByteConversionSink.withCallback((result) => bytes = result);
	var stringConversionSink = new Utf8Encoder().startChunkedConversion(byteSink);
	stringConversionSink.add(str);
	stringConversionSink.close();
	return bytes;
	}

	List<int> encode2(String str) {
	List<int> bytes;
	var byteSink =
	new ByteConversionSink.withCallback((result) => bytes = result);
	var stringConversionSink = new Utf8Encoder().startChunkedConversion(byteSink);
	ClosableStringSink stringSink = stringConversionSink.asStringSink();
	stringSink.write(str);
	stringSink.close();
	return bytes;
	}

	List<int> encode3(String str) {
	List<int> bytes;
	var byteSink =
	new ByteConversionSink.withCallback((result) => bytes = result);
	var stringConversionSink = new Utf8Encoder().startChunkedConversion(byteSink);
	ClosableStringSink stringSink = stringConversionSink.asStringSink();
	str.codeUnits.forEach(stringSink.writeCharCode);
	stringSink.close();
	return bytes;
	}

	List<int> encode4(String str) {
	List<int> bytes;
	var byteSink =
	new ByteConversionSink.withCallback((result) => bytes = result);
	var stringConversionSink = new Utf8Encoder().startChunkedConversion(byteSink);
	ClosableStringSink stringSink = stringConversionSink.asStringSink();
	str.runes.forEach(stringSink.writeCharCode);
	stringSink.close();
	return bytes;
	}

	List<int> encode5(String str) {
	List<int> bytes;
	var byteSink =
	new ByteConversionSink.withCallback((result) => bytes = result);
	var stringConversionSink = new Utf8Encoder().startChunkedConversion(byteSink);
	ByteConversionSink inputByteSink = stringConversionSink.asUtf8Sink(false);
	List<int> tmpBytes = utf8.encode(str);
	inputByteSink.add(tmpBytes);
	inputByteSink.close();
	return bytes;
	}

	List<int> encode6(String str) {
	List<int> bytes;
	var byteSink =
	new ByteConversionSink.withCallback((result) => bytes = result);
	var stringConversionSink = new Utf8Encoder().startChunkedConversion(byteSink);
	ByteConversionSink inputByteSink = stringConversionSink.asUtf8Sink(false);
	List<int> tmpBytes = utf8.encode(str);
	tmpBytes.forEach((b) => inputByteSink.addSlice([0, b, 1], 1, 2, false));
	inputByteSink.close();
	return bytes;
	}

	List<int> encode7(String str) {
	List<int> bytes;
	var byteSink =
	new ByteConversionSink.withCallback((result) => bytes = result);
	var stringConversionSink = new Utf8Encoder().startChunkedConversion(byteSink);
	stringConversionSink.addSlice("1" + str + "2", 1, str.length + 1, false);
	stringConversionSink.close();
	return bytes;
	}

	int _nextPowerOf2(v) {
	assert(v > 0);
	v--;
	v \|= v >> 1;
	v \|= v >> 2;
	v \|= v >> 4;
	v \|= v >> 8;
	v \|= v >> 16;
	v++;
	return v;
	}

	runTest(test) {
	List<int> bytes = test[0];
	String string = test[1];
	Expect.listEquals(bytes, encode(string));
	Expect.listEquals(bytes, encode2(string));
	Expect.listEquals(bytes, encode3(string));
	Expect.listEquals(bytes, encode4(string));
	Expect.listEquals(bytes, encode5(string));
	Expect.listEquals(bytes, encode6(string));
	Expect.listEquals(bytes, encode7(string));
	}

	main() {
	const LEADING_SURROGATE = 0xd801;
	const TRAILING_SURROGATE = 0xdc12;
	const UTF8_ENCODING = const [0xf0, 0x90, 0x90, 0x92];
	const UTF8_REPLACEMENT = const [0xef, 0xbf, 0xbd];
	const CHAR_A = 0x61;

	// Test surrogates at all kinds of locations.
	var codeUnits = <int>[];
	for (int i = 0; i < 2049; i++) {
	// Invariant: codeUnits[0..i - 1] is filled with CHAR_A (character 'a').
	codeUnits.length = i + 1;
	codeUnits[i] = CHAR_A;

	// Only test for problem zones, close to powers of two.
	if (i > 20 && _nextPowerOf2(i - 2) - i > 10) continue;

	codeUnits[i] = LEADING_SURROGATE;
	var str = new String.fromCharCodes(codeUnits);
	var bytes = new List.filled(i + 3, CHAR_A);
	bytes[i] = UTF8_REPLACEMENT[0];
	bytes[i + 1] = UTF8_REPLACEMENT[1];
	bytes[i + 2] = UTF8_REPLACEMENT[2];
	runTest([bytes, str]);

	codeUnits[i] = TRAILING_SURROGATE;
	str = new String.fromCharCodes(codeUnits);
	bytes = new List.filled(i + 3, CHAR_A);
	bytes[i] = UTF8_REPLACEMENT[0];
	bytes[i + 1] = UTF8_REPLACEMENT[1];
	bytes[i + 2] = UTF8_REPLACEMENT[2];
	runTest([bytes, str]);

	codeUnits.length = i + 2;
	codeUnits[i] = LEADING_SURROGATE;
	codeUnits[i + 1] = TRAILING_SURROGATE;
	str = new String.fromCharCodes(codeUnits);
	bytes = new List.filled(i + 4, CHAR_A);
	bytes[i] = UTF8_ENCODING[0];
	bytes[i + 1] = UTF8_ENCODING[1];
	bytes[i + 2] = UTF8_ENCODING[2];
	bytes[i + 3] = UTF8_ENCODING[3];
	runTest([bytes, str]);

	codeUnits[i] = TRAILING_SURROGATE;
	codeUnits[i + 1] = TRAILING_SURROGATE;
	str = new String.fromCharCodes(codeUnits);
	bytes = new List.filled(i + 6, CHAR_A);
	bytes[i] = UTF8_REPLACEMENT[0];
	bytes[i + 1] = UTF8_REPLACEMENT[1];
	bytes[i + 2] = UTF8_REPLACEMENT[2];
	bytes[i + 3] = UTF8_REPLACEMENT[0];
	bytes[i + 4] = UTF8_REPLACEMENT[1];
	bytes[i + 5] = UTF8_REPLACEMENT[2];
	runTest([bytes, str]);

	codeUnits[i] = LEADING_SURROGATE;
	codeUnits[i + 1] = LEADING_SURROGATE;
	str = new String.fromCharCodes(codeUnits);
	bytes = new List.filled(i + 6, CHAR_A);
	bytes[i] = UTF8_REPLACEMENT[0];
	bytes[i + 1] = UTF8_REPLACEMENT[1];
	bytes[i + 2] = UTF8_REPLACEMENT[2];
	bytes[i + 3] = UTF8_REPLACEMENT[0];
	bytes[i + 4] = UTF8_REPLACEMENT[1];
	bytes[i + 5] = UTF8_REPLACEMENT[2];
	runTest([bytes, str]);

	codeUnits[i] = TRAILING_SURROGATE;
	codeUnits[i + 1] = LEADING_SURROGATE;
	str = new String.fromCharCodes(codeUnits);
	bytes = new List.filled(i + 6, CHAR_A);
	bytes[i] = UTF8_REPLACEMENT[0];
	bytes[i + 1] = UTF8_REPLACEMENT[1];
	bytes[i + 2] = UTF8_REPLACEMENT[2];
	bytes[i + 3] = UTF8_REPLACEMENT[0];
	bytes[i + 4] = UTF8_REPLACEMENT[1];
	bytes[i + 5] = UTF8_REPLACEMENT[2];
	runTest([bytes, str]);

	codeUnits.length = i + 3;
	codeUnits[i] = LEADING_SURROGATE;
	codeUnits[i + 1] = TRAILING_SURROGATE;
	codeUnits[i + 2] = CHAR_A; // Add trailing 'a'.
	str = new String.fromCharCodes(codeUnits);
	bytes = new List.filled(i + 5, CHAR_A);
	bytes[i] = UTF8_ENCODING[0];
	bytes[i + 1] = UTF8_ENCODING[1];
	bytes[i + 2] = UTF8_ENCODING[2];
	bytes[i + 3] = UTF8_ENCODING[3];
	// No need to assign the 'a' character. The whole list is already filled
	// with it.
	runTest([bytes, str]);

	codeUnits[i] = TRAILING_SURROGATE;
	codeUnits[i + 1] = TRAILING_SURROGATE;
	codeUnits[i + 2] = CHAR_A; // Add trailing 'a'.
	str = new String.fromCharCodes(codeUnits);
	bytes = new List.filled(i + 7, CHAR_A);
	bytes[i] = UTF8_REPLACEMENT[0];
	bytes[i + 1] = UTF8_REPLACEMENT[1];
	bytes[i + 2] = UTF8_REPLACEMENT[2];
	bytes[i + 3] = UTF8_REPLACEMENT[0];
	bytes[i + 4] = UTF8_REPLACEMENT[1];
	bytes[i + 5] = UTF8_REPLACEMENT[2];
	runTest([bytes, str]);

	codeUnits[i] = LEADING_SURROGATE;
	codeUnits[i + 1] = LEADING_SURROGATE;
	codeUnits[i + 2] = CHAR_A; // Add trailing 'a'.
	str = new String.fromCharCodes(codeUnits);
	bytes = new List.filled(i + 7, CHAR_A);
	bytes[i] = UTF8_REPLACEMENT[0];
	bytes[i + 1] = UTF8_REPLACEMENT[1];
	bytes[i + 2] = UTF8_REPLACEMENT[2];
	bytes[i + 3] = UTF8_REPLACEMENT[0];
	bytes[i + 4] = UTF8_REPLACEMENT[1];
	bytes[i + 5] = UTF8_REPLACEMENT[2];
	runTest([bytes, str]);

	codeUnits[i] = TRAILING_SURROGATE;
	codeUnits[i + 1] = LEADING_SURROGATE;
	codeUnits[i + 2] = CHAR_A; // Add trailing 'a'.
	str = new String.fromCharCodes(codeUnits);
	bytes = new List.filled(i + 7, CHAR_A);
	bytes[i] = UTF8_REPLACEMENT[0];
	bytes[i + 1] = UTF8_REPLACEMENT[1];
	bytes[i + 2] = UTF8_REPLACEMENT[2];
	bytes[i + 3] = UTF8_REPLACEMENT[0];
	bytes[i + 4] = UTF8_REPLACEMENT[1];
	bytes[i + 5] = UTF8_REPLACEMENT[2];
	runTest([bytes, str]);

	// Make sure the invariant is correct.
	codeUnits[i] = CHAR_A;
	}
	}