packages/flutter/test/foundation/collections_test.dart - external/github.com/flutter/flutter - Git at Google

 // Copyright 2014 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 import 'dart:math';

 import 'package:flutter/src/foundation/collections.dart';
 import 'package:flutter_test/flutter_test.dart';

 void main() {
   test('listEquals', () {
     final List<int> listA = <int>[1, 2, 3];
     final List<int> listB = <int>[1, 2, 3];
     final List<int> listC = <int>[1, 2];
     final List<int> listD = <int>[3, 2, 1];

     expect(listEquals<void>(null, null), isTrue);
     expect(listEquals(listA, null), isFalse);
     expect(listEquals(null, listB), isFalse);
     expect(listEquals(listA, listA), isTrue);
     expect(listEquals(listA, listB), isTrue);
     expect(listEquals(listA, listC), isFalse);
     expect(listEquals(listA, listD), isFalse);
   });
   test('setEquals', () {
     final Set<int> setA = <int>{1, 2, 3};
     final Set<int> setB = <int>{1, 2, 3};
     final Set<int> setC = <int>{1, 2};
     final Set<int> setD = <int>{3, 2, 1};

     expect(setEquals<void>(null, null), isTrue);
     expect(setEquals(setA, null), isFalse);
     expect(setEquals(null, setB), isFalse);
     expect(setEquals(setA, setA), isTrue);
     expect(setEquals(setA, setB), isTrue);
     expect(setEquals(setA, setC), isFalse);
     expect(setEquals(setA, setD), isTrue);
   });
   test('mapEquals', () {
     final Map<int, int> mapA = <int, int>{1:1, 2:2, 3:3};
     final Map<int, int> mapB = <int, int>{1:1, 2:2, 3:3};
     final Map<int, int> mapC = <int, int>{1:1, 2:2};
     final Map<int, int> mapD = <int, int>{3:3, 2:2, 1:1};
     final Map<int, int> mapE = <int, int>{3:1, 2:2, 1:3};

     expect(mapEquals<void, void>(null, null), isTrue);
     expect(mapEquals(mapA, null), isFalse);
     expect(mapEquals(null, mapB), isFalse);
     expect(mapEquals(mapA, mapA), isTrue);
     expect(mapEquals(mapA, mapB), isTrue);
     expect(mapEquals(mapA, mapC), isFalse);
     expect(mapEquals(mapA, mapD), isTrue);
     expect(mapEquals(mapA, mapE), isFalse);
   });
   test('binarySearch', () {
     final List<int> items = <int>[1, 2, 3];

     expect(binarySearch(items, 1), 0);
     expect(binarySearch(items, 2), 1);
     expect(binarySearch(items, 3), 2);
     expect(binarySearch(items, 12), -1);
   });
   test('MergeSortRandom', () {
     final Random random = Random();
     for (int i = 0; i < 250; i += 1) {
       // Expect some equal elements.
       final List<int> list = List<int>.generate(i, (int j) => random.nextInt(i));
       mergeSort(list);
       for (int j = 1; j < i; j++) {
         expect(list[j - 1], lessThanOrEqualTo(list[j]));
       }
     }
   });
   test('MergeSortPreservesOrder', () {
     final Random random = Random();
     // Small case where only insertion call is called,
     // larger case where the internal moving insertion sort is used
     // larger cases with multiple splittings, numbers just around a power of 2.
     for (final int size in <int>[8, 50, 511, 512, 513]) {
       // Class OC compares using id.
       // With size elements with id's in the range 0..size/4, a number of
       // collisions are guaranteed. These should be sorted so that the 'order'
       // part of the objects are still in order.
       final List<OrderedComparable> list = List<OrderedComparable>.generate(
         size,
         (int i) => OrderedComparable(random.nextInt(size >> 2), i),
       );
       mergeSort(list);
       OrderedComparable prev = list[0];
       for (int i = 1; i < size; i++) {
         final OrderedComparable next = list[i];
         expect(prev.id, lessThanOrEqualTo(next.id));
         if (next.id == prev.id) {
           expect(prev.order, lessThanOrEqualTo(next.order));
         }
         prev = next;
       }
       // Reverse compare on part of list.
       final List<OrderedComparable> copy = list.toList();
       final int min = size >> 2;
       final int max = size - min;
       mergeSort<OrderedComparable>(
         list,
         start: min,
         end: max,
         compare: (OrderedComparable a, OrderedComparable b) => b.compareTo(a),
       );
       prev = list[min];
       for (int i = min + 1; i < max; i++) {
         final OrderedComparable next = list[i];
         expect(prev.id, greaterThanOrEqualTo(next.id));
         if (next.id == prev.id) {
           expect(prev.order, lessThanOrEqualTo(next.order));
         }
         prev = next;
       }
       // Equals on OC objects is identity, so this means the parts before min,
       // and the parts after max, didn't change at all.
       expect(list.sublist(0, min), equals(copy.sublist(0, min)));
       expect(list.sublist(max), equals(copy.sublist(max)));
     }
   });
   test('MergeSortSpecialCases', () {
     for (final int size in <int>[511, 512, 513]) {
       // All equal.
       final List<OrderedComparable> list = List<OrderedComparable>.generate(size, (int i) => OrderedComparable(0, i));
       mergeSort(list);
       for (int i = 0; i < size; i++) {
         expect(list[i].order, equals(i));
       }
       // All but one equal, first.
       list[0] = OrderedComparable(1, 0);
       for (int i = 1; i < size; i++) {
         list[i] = OrderedComparable(0, i);
       }
       mergeSort(list);
       for (int i = 0; i < size - 1; i++) {
         expect(list[i].order, equals(i + 1));
       }
       expect(list[size - 1].order, equals(0));

       // All but one equal, last.
       for (int i = 0; i < size - 1; i++) {
         list[i] = OrderedComparable(0, i);
       }
       list[size - 1] = OrderedComparable(-1, size - 1);
       mergeSort(list);
       expect(list[0].order, equals(size - 1));
       for (int i = 1; i < size; i++) {
         expect(list[i].order, equals(i - 1));
       }

       // Reversed.
       for (int i = 0; i < size; i++) {
         list[i] = OrderedComparable(size - 1 - i, i);
       }
       mergeSort(list);
       for (int i = 0; i < size; i++) {
         expect(list[i].id, equals(i));
         expect(list[i].order, equals(size - 1 - i));
       }
     }
   });
 }

 class OrderedComparable implements Comparable<OrderedComparable> {
   OrderedComparable(this.id, this.order);
   final int id;
   final int order;
   @override
   int compareTo(OrderedComparable other) => id - other.id;
   @override
   String toString() => 'OverrideComparable[$id,$order]';
 }
	// Copyright 2014 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	import 'dart:math';

	import 'package:flutter/src/foundation/collections.dart';
	import 'package:flutter_test/flutter_test.dart';

	void main() {
	test('listEquals', () {
	final List<int> listA = <int>[1, 2, 3];
	final List<int> listB = <int>[1, 2, 3];
	final List<int> listC = <int>[1, 2];
	final List<int> listD = <int>[3, 2, 1];

	expect(listEquals<void>(null, null), isTrue);
	expect(listEquals(listA, null), isFalse);
	expect(listEquals(null, listB), isFalse);
	expect(listEquals(listA, listA), isTrue);
	expect(listEquals(listA, listB), isTrue);
	expect(listEquals(listA, listC), isFalse);
	expect(listEquals(listA, listD), isFalse);
	});
	test('setEquals', () {
	final Set<int> setA = <int>{1, 2, 3};
	final Set<int> setB = <int>{1, 2, 3};
	final Set<int> setC = <int>{1, 2};
	final Set<int> setD = <int>{3, 2, 1};

	expect(setEquals<void>(null, null), isTrue);
	expect(setEquals(setA, null), isFalse);
	expect(setEquals(null, setB), isFalse);
	expect(setEquals(setA, setA), isTrue);
	expect(setEquals(setA, setB), isTrue);
	expect(setEquals(setA, setC), isFalse);
	expect(setEquals(setA, setD), isTrue);
	});
	test('mapEquals', () {
	final Map<int, int> mapA = <int, int>{1:1, 2:2, 3:3};
	final Map<int, int> mapB = <int, int>{1:1, 2:2, 3:3};
	final Map<int, int> mapC = <int, int>{1:1, 2:2};
	final Map<int, int> mapD = <int, int>{3:3, 2:2, 1:1};
	final Map<int, int> mapE = <int, int>{3:1, 2:2, 1:3};

	expect(mapEquals<void, void>(null, null), isTrue);
	expect(mapEquals(mapA, null), isFalse);
	expect(mapEquals(null, mapB), isFalse);
	expect(mapEquals(mapA, mapA), isTrue);
	expect(mapEquals(mapA, mapB), isTrue);
	expect(mapEquals(mapA, mapC), isFalse);
	expect(mapEquals(mapA, mapD), isTrue);
	expect(mapEquals(mapA, mapE), isFalse);
	});
	test('binarySearch', () {
	final List<int> items = <int>[1, 2, 3];

	expect(binarySearch(items, 1), 0);
	expect(binarySearch(items, 2), 1);
	expect(binarySearch(items, 3), 2);
	expect(binarySearch(items, 12), -1);
	});
	test('MergeSortRandom', () {
	final Random random = Random();
	for (int i = 0; i < 250; i += 1) {
	// Expect some equal elements.
	final List<int> list = List<int>.generate(i, (int j) => random.nextInt(i));
	mergeSort(list);
	for (int j = 1; j < i; j++) {
	expect(list[j - 1], lessThanOrEqualTo(list[j]));
	}
	}
	});
	test('MergeSortPreservesOrder', () {
	final Random random = Random();
	// Small case where only insertion call is called,
	// larger case where the internal moving insertion sort is used
	// larger cases with multiple splittings, numbers just around a power of 2.
	for (final int size in <int>[8, 50, 511, 512, 513]) {
	// Class OC compares using id.
	// With size elements with id's in the range 0..size/4, a number of
	// collisions are guaranteed. These should be sorted so that the 'order'
	// part of the objects are still in order.
	final List<OrderedComparable> list = List<OrderedComparable>.generate(
	size,
	(int i) => OrderedComparable(random.nextInt(size >> 2), i),
	);
	mergeSort(list);
	OrderedComparable prev = list[0];
	for (int i = 1; i < size; i++) {
	final OrderedComparable next = list[i];
	expect(prev.id, lessThanOrEqualTo(next.id));
	if (next.id == prev.id) {
	expect(prev.order, lessThanOrEqualTo(next.order));
	}
	prev = next;
	}
	// Reverse compare on part of list.
	final List<OrderedComparable> copy = list.toList();
	final int min = size >> 2;
	final int max = size - min;
	mergeSort<OrderedComparable>(
	list,
	start: min,
	end: max,
	compare: (OrderedComparable a, OrderedComparable b) => b.compareTo(a),
	);
	prev = list[min];
	for (int i = min + 1; i < max; i++) {
	final OrderedComparable next = list[i];
	expect(prev.id, greaterThanOrEqualTo(next.id));
	if (next.id == prev.id) {
	expect(prev.order, lessThanOrEqualTo(next.order));
	}
	prev = next;
	}
	// Equals on OC objects is identity, so this means the parts before min,
	// and the parts after max, didn't change at all.
	expect(list.sublist(0, min), equals(copy.sublist(0, min)));
	expect(list.sublist(max), equals(copy.sublist(max)));
	}
	});
	test('MergeSortSpecialCases', () {
	for (final int size in <int>[511, 512, 513]) {
	// All equal.
	final List<OrderedComparable> list = List<OrderedComparable>.generate(size, (int i) => OrderedComparable(0, i));
	mergeSort(list);
	for (int i = 0; i < size; i++) {
	expect(list[i].order, equals(i));
	}
	// All but one equal, first.
	list[0] = OrderedComparable(1, 0);
	for (int i = 1; i < size; i++) {
	list[i] = OrderedComparable(0, i);
	}
	mergeSort(list);
	for (int i = 0; i < size - 1; i++) {
	expect(list[i].order, equals(i + 1));
	}
	expect(list[size - 1].order, equals(0));

	// All but one equal, last.
	for (int i = 0; i < size - 1; i++) {
	list[i] = OrderedComparable(0, i);
	}
	list[size - 1] = OrderedComparable(-1, size - 1);
	mergeSort(list);
	expect(list[0].order, equals(size - 1));
	for (int i = 1; i < size; i++) {
	expect(list[i].order, equals(i - 1));
	}

	// Reversed.
	for (int i = 0; i < size; i++) {
	list[i] = OrderedComparable(size - 1 - i, i);
	}
	mergeSort(list);
	for (int i = 0; i < size; i++) {
	expect(list[i].id, equals(i));
	expect(list[i].order, equals(size - 1 - i));
	}
	}
	});
	}

	class OrderedComparable implements Comparable<OrderedComparable> {
	OrderedComparable(this.id, this.order);
	final int id;
	final int order;
	@override
	int compareTo(OrderedComparable other) => id - other.id;
	@override
	String toString() => 'OverrideComparable[$id,$order]';
	}