tests/corelib_2/iterable_followed_by_test.dart - sdk.git - Git at Google

 // Copyright (c) 2018, 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

 import "dart:collection" show Queue;
 import "dart:typed_data" show Int32List;

 import "package:expect/expect.dart";

 // Tests behavior of result of an operation on a followedBy iterable.
 test(List expects, Iterable iterable, [String name]) {
   try {
     Expect.isFalse(iterable is List, "$name is! List");
     Expect.isFalse(iterable is Set, "$name is! Set");
     Expect.isFalse(iterable is Queue, "$name is! Queue");
     if (expects.isNotEmpty) {
       Expect.equals(expects.first, iterable.first, "$name: first");
       Expect.equals(expects.last, iterable.last, "$name: last");
     } else {
       Expect.throwsStateError(() => iterable.first, "$name: first");
       Expect.throwsStateError(() => iterable.last, "$name: last");
     }
     var it = iterable.iterator;
     for (int index = 0; index < expects.length; index++) {
       Expect.isTrue(it.moveNext(), "$name: has element $index");
       var expect = expects[index];
       Expect.equals(expect, it.current, "$name at $index");
       Expect.equals(
           expect, iterable.elementAt(index), "$name: elementAt($index)");
       Expect.isTrue(iterable.contains(expect), "$name:contains $index");
     }
     Expect.isFalse(it.moveNext(),
         "$name: extra element at ${expects.length}: ${it.current}");
   } on Error {
     print("Failed during: $name");
     rethrow;
   }
 }

 // Tests various operations on the a followedBy iterable.
 tests(List<int> expects, Iterable<int> follow, [String name]) {
   int length = expects.length;
   test(expects, follow, name);
   for (int i = 0; i <= length; i++) {
     test(expects.sublist(i), follow.skip(i), "$name.skip($i)");
   }
   for (int i = 0; i <= length; i++) {
     test(expects.sublist(0, i), follow.take(i), "$name.take($i)");
   }
   for (int i = 0; i <= length; i++) {
     for (int j = 0; j <= length - i; j++) {
       test(expects.sublist(i, i + j), follow.skip(i).take(j),
           "$name.skiptake($i,${i+j})");
       test(expects.sublist(i, i + j), follow.take(i + j).skip(i),
           "$name.takeskip($i,${i+j})");
     }
   }
 }

 // Tests various different types of iterables as first and second operand.
 types(List expects, List<int> first, List<int> second, [String name]) {
   var conversions = <String, Iterable<int> Function(List<int>)>{
     "const": toConst,
     "list": toList,
     "unmod": toUnmodifiable,
     "set": toSet,
     "queue": toQueue,
     "eff-len-iter": toELIter,
     "non-eff-iter": toNEIter,
     "typed": toTyped,
     "keys": toKeys,
     "values": toValues,
   };
   conversions.forEach((n1, c1) {
     conversions.forEach((n2, c2) {
       tests(expects, c1(first).followedBy(c2(second)), "$name:$n1/$n2");
     });
   });
 }

 List<int> toConst(List<int> elements) => elements;
 List<int> toList(List<int> elements) => elements.toList();
 List<int> toUnmodifiable(List<int> elements) =>
     new List<int>.unmodifiable(elements);
 Set<int> toSet(List<int> elements) => elements.toSet();
 Queue<int> toQueue(List<int> elements) => new Queue<int>.from(elements);
 // Creates an efficient-length iterable.
 Iterable<int> toELIter(List<int> elements) => elements.map<int>((x) => x);
 // Creates a non-efficient-length iterable.
 Iterable<int> toNEIter(List<int> elements) => elements.where((x) => true);
 List<int> toTyped(List<int> elements) => new Int32List.fromList(elements);
 Iterable<int> toKeys(List<int> elements) =>
     new Map<int, int>.fromIterables(elements, elements).keys;
 Iterable<int> toValues(List<int> elements) =>
     new Map<int, int>.fromIterables(elements, elements).values;

 main() {
   types(<int>[], const <int>[], const <int>[], "0+0");
   types(<int>[1, 2, 3, 4], const <int>[], const <int>[1, 2, 3, 4], "0+4");
   types(<int>[1, 2, 3, 4], const <int>[1, 2], const <int>[3, 4], "2+2");
   types(<int>[1, 2, 3, 4], const <int>[1, 2, 3, 4], const <int>[], "4+0");
 }
	// Copyright (c) 2018, 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

	import "dart:collection" show Queue;
	import "dart:typed_data" show Int32List;

	import "package:expect/expect.dart";

	// Tests behavior of result of an operation on a followedBy iterable.
	test(List expects, Iterable iterable, [String name]) {
	try {
	Expect.isFalse(iterable is List, "$name is! List");
	Expect.isFalse(iterable is Set, "$name is! Set");
	Expect.isFalse(iterable is Queue, "$name is! Queue");
	if (expects.isNotEmpty) {
	Expect.equals(expects.first, iterable.first, "$name: first");
	Expect.equals(expects.last, iterable.last, "$name: last");
	} else {
	Expect.throwsStateError(() => iterable.first, "$name: first");
	Expect.throwsStateError(() => iterable.last, "$name: last");
	}
	var it = iterable.iterator;
	for (int index = 0; index < expects.length; index++) {
	Expect.isTrue(it.moveNext(), "$name: has element $index");
	var expect = expects[index];
	Expect.equals(expect, it.current, "$name at $index");
	Expect.equals(
	expect, iterable.elementAt(index), "$name: elementAt($index)");
	Expect.isTrue(iterable.contains(expect), "$name:contains $index");
	}
	Expect.isFalse(it.moveNext(),
	"$name: extra element at ${expects.length}: ${it.current}");
	} on Error {
	print("Failed during: $name");
	rethrow;
	}
	}

	// Tests various operations on the a followedBy iterable.
	tests(List<int> expects, Iterable<int> follow, [String name]) {
	int length = expects.length;
	test(expects, follow, name);
	for (int i = 0; i <= length; i++) {
	test(expects.sublist(i), follow.skip(i), "$name.skip($i)");
	}
	for (int i = 0; i <= length; i++) {
	test(expects.sublist(0, i), follow.take(i), "$name.take($i)");
	}
	for (int i = 0; i <= length; i++) {
	for (int j = 0; j <= length - i; j++) {
	test(expects.sublist(i, i + j), follow.skip(i).take(j),
	"$name.skiptake($i,${i+j})");
	test(expects.sublist(i, i + j), follow.take(i + j).skip(i),
	"$name.takeskip($i,${i+j})");
	}
	}
	}

	// Tests various different types of iterables as first and second operand.
	types(List expects, List<int> first, List<int> second, [String name]) {
	var conversions = <String, Iterable<int> Function(List<int>)>{
	"const": toConst,
	"list": toList,
	"unmod": toUnmodifiable,
	"set": toSet,
	"queue": toQueue,
	"eff-len-iter": toELIter,
	"non-eff-iter": toNEIter,
	"typed": toTyped,
	"keys": toKeys,
	"values": toValues,
	};
	conversions.forEach((n1, c1) {
	conversions.forEach((n2, c2) {
	tests(expects, c1(first).followedBy(c2(second)), "$name:$n1/$n2");
	});
	});
	}

	List<int> toConst(List<int> elements) => elements;
	List<int> toList(List<int> elements) => elements.toList();
	List<int> toUnmodifiable(List<int> elements) =>
	new List<int>.unmodifiable(elements);
	Set<int> toSet(List<int> elements) => elements.toSet();
	Queue<int> toQueue(List<int> elements) => new Queue<int>.from(elements);
	// Creates an efficient-length iterable.
	Iterable<int> toELIter(List<int> elements) => elements.map<int>((x) => x);
	// Creates a non-efficient-length iterable.
	Iterable<int> toNEIter(List<int> elements) => elements.where((x) => true);
	List<int> toTyped(List<int> elements) => new Int32List.fromList(elements);
	Iterable<int> toKeys(List<int> elements) =>
	new Map<int, int>.fromIterables(elements, elements).keys;
	Iterable<int> toValues(List<int> elements) =>
	new Map<int, int>.fromIterables(elements, elements).values;

	main() {
	types(<int>[], const <int>[], const <int>[], "0+0");
	types(<int>[1, 2, 3, 4], const <int>[], const <int>[1, 2, 3, 4], "0+4");
	types(<int>[1, 2, 3, 4], const <int>[1, 2], const <int>[3, 4], "2+2");
	types(<int>[1, 2, 3, 4], const <int>[1, 2, 3, 4], const <int>[], "4+0");
	}