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dart / collection / 60e6ee2228586980826b07ec1df633bd879f42ea / . / test / extensions_test.dart
blob: 5d36020c7473b99fd8e71d462acbd02e604bbf8c [file] [log] [blame]
// Copyright (c) 2020, 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.
import 'dart:math' show pow, Random;
import 'package:test/test.dart';
import 'package:collection/collection.dart';
void main() {
group('Iterable', () {
group('of any', () {
group('.whereNot', () {
test('empty', () {
expect(iterable([]).whereNot(unreachable), isEmpty);
});
test('none', () {
expect(iterable([1, 3, 5]).whereNot((e) => e.isOdd), isEmpty);
});
test('all', () {
expect(iterable([1, 3, 5]).whereNot((e) => e.isEven),
iterable([1, 3, 5]));
});
test('some', () {
expect(iterable([1, 2, 3, 4]).whereNot((e) => e.isEven),
iterable([1, 3]));
});
});
group('.sorted', () {
test('empty', () {
expect(iterable(<int>[]).sorted(unreachable), []);
});
test('singleton', () {
expect(iterable([1]).sorted(unreachable), [1]);
});
test('multiple', () {
expect(iterable([5, 2, 4, 3, 1]).sorted(cmpInt), [1, 2, 3, 4, 5]);
});
});
group('.sortedBy', () {
test('empty', () {
expect(iterable(<int>[]).sortedBy(unreachable), []);
});
test('singleton', () {
expect(iterable(<int>[1]).sortedBy(unreachable), [1]);
});
test('multiple', () {
expect(iterable(<int>[3, 20, 100]).sortedBy(toString), [100, 20, 3]);
});
});
group('.sortedByCompare', () {
test('empty', () {
expect(
iterable(<int>[]).sortedByCompare(unreachable, unreachable), []);
});
test('singleton', () {
expect(iterable(<int>[2]).sortedByCompare(unreachable, unreachable),
[2]);
});
test('multiple', () {
expect(
iterable(<int>[30, 2, 100])
.sortedByCompare(toString, cmpParseInverse),
[100, 30, 2]);
});
});
group('isSorted', () {
test('empty', () {
expect(iterable(<int>[]).isSorted(unreachable), true);
});
test('single', () {
expect(iterable([1]).isSorted(unreachable), true);
});
test('same', () {
expect(iterable([1, 1, 1, 1]).isSorted(cmpInt), true);
expect(iterable([1, 0, 1, 0]).isSorted(cmpMod(2)), true);
});
test('multiple', () {
expect(iterable([1, 2, 3, 4]).isSorted(cmpInt), true);
expect(iterable([4, 3, 2, 1]).isSorted(cmpIntInverse), true);
expect(iterable([1, 2, 3, 0]).isSorted(cmpInt), false);
expect(iterable([4, 1, 2, 3]).isSorted(cmpInt), false);
expect(iterable([4, 3, 2, 1]).isSorted(cmpInt), false);
});
});
group('.isSortedBy', () {
test('empty', () {
expect(iterable(<int>[]).isSortedBy(unreachable), true);
});
test('single', () {
expect(iterable([1]).isSortedBy(toString), true);
});
test('same', () {
expect(iterable([1, 1, 1, 1]).isSortedBy(toString), true);
});
test('multiple', () {
expect(iterable([1, 2, 3, 4]).isSortedBy(toString), true);
expect(iterable([4, 3, 2, 1]).isSortedBy(toString), false);
expect(iterable([1000, 200, 30, 4]).isSortedBy(toString), true);
expect(iterable([1, 2, 3, 0]).isSortedBy(toString), false);
expect(iterable([4, 1, 2, 3]).isSortedBy(toString), false);
expect(iterable([4, 3, 2, 1]).isSortedBy(toString), false);
});
});
group('.isSortedByCompare', () {
test('empty', () {
expect(iterable(<int>[]).isSortedByCompare(unreachable, unreachable),
true);
});
test('single', () {
expect(iterable([1]).isSortedByCompare(toString, unreachable), true);
});
test('same', () {
expect(iterable([1, 1, 1, 1]).isSortedByCompare(toString, cmpParse),
true);
});
test('multiple', () {
expect(iterable([1, 2, 3, 4]).isSortedByCompare(toString, cmpParse),
true);
expect(
iterable([4, 3, 2, 1])
.isSortedByCompare(toString, cmpParseInverse),
true);
expect(
iterable([1000, 200, 30, 4])
.isSortedByCompare(toString, cmpString),
true);
expect(iterable([1, 2, 3, 0]).isSortedByCompare(toString, cmpParse),
false);
expect(iterable([4, 1, 2, 3]).isSortedByCompare(toString, cmpParse),
false);
expect(iterable([4, 3, 2, 1]).isSortedByCompare(toString, cmpParse),
false);
});
});
group('.forEachIndexed', () {
test('empty', () {
iterable([]).forEachIndexed(unreachable);
});
test('single', () {
var log = [];
iterable(['a']).forEachIndexed((i, s) {
log..add(i)..add(s);
});
expect(log, [0, 'a']);
});
test('multiple', () {
var log = [];
iterable(['a', 'b', 'c']).forEachIndexed((i, s) {
log..add(i)..add(s);
});
expect(log, [0, 'a', 1, 'b', 2, 'c']);
});
});
group('.forEachWhile', () {
test('empty', () {
iterable([]).forEachWhile(unreachable);
});
test('single true', () {
var log = [];
iterable(['a']).forEachWhile((s) {
log.add(s);
return true;
});
expect(log, ['a']);
});
test('single false', () {
var log = [];
iterable(['a']).forEachWhile((s) {
log.add(s);
return false;
});
expect(log, ['a']);
});
test('multiple one', () {
var log = [];
iterable(['a', 'b', 'c']).forEachWhile((s) {
log.add(s);
return false;
});
expect(log, ['a']);
});
test('multiple all', () {
var log = [];
iterable(['a', 'b', 'c']).forEachWhile((s) {
log.add(s);
return true;
});
expect(log, ['a', 'b', 'c']);
});
test('multiple some', () {
var log = [];
iterable(['a', 'b', 'c']).forEachWhile((s) {
log.add(s);
return s != 'b';
});
expect(log, ['a', 'b']);
});
});
group('.forEachIndexedWhile', () {
test('empty', () {
iterable([]).forEachIndexedWhile(unreachable);
});
test('single true', () {
var log = [];
iterable(['a']).forEachIndexedWhile((i, s) {
log..add(i)..add(s);
return true;
});
expect(log, [0, 'a']);
});
test('single false', () {
var log = [];
iterable(['a']).forEachIndexedWhile((i, s) {
log..add(i)..add(s);
return false;
});
expect(log, [0, 'a']);
});
test('multiple one', () {
var log = [];
iterable(['a', 'b', 'c']).forEachIndexedWhile((i, s) {
log..add(i)..add(s);
return false;
});
expect(log, [0, 'a']);
});
test('multiple all', () {
var log = [];
iterable(['a', 'b', 'c']).forEachIndexedWhile((i, s) {
log..add(i)..add(s);
return true;
});
expect(log, [0, 'a', 1, 'b', 2, 'c']);
});
test('multiple some', () {
var log = [];
iterable(['a', 'b', 'c']).forEachIndexedWhile((i, s) {
log..add(i)..add(s);
return s != 'b';
});
expect(log, [0, 'a', 1, 'b']);
});
});
group('.mapIndexed', () {
test('empty', () {
expect(iterable(<String>[]).mapIndexed(unreachable), isEmpty);
});
test('multiple', () {
expect(iterable(<String>['a', 'b']).mapIndexed((i, s) => [i, s]), [
[0, 'a'],
[1, 'b']
]);
});
});
group('.whereIndexed', () {
test('empty', () {
expect(iterable(<String>[]).whereIndexed(unreachable), isEmpty);
});
test('none', () {
var trace = [];
int log(int a, int b) {
trace..add(a)..add(b);
return b;
}
expect(
iterable(<int>[1, 3, 5, 7])
.whereIndexed((i, x) => log(i, x).isEven),
isEmpty);
expect(trace, [0, 1, 1, 3, 2, 5, 3, 7]);
});
test('all', () {
expect(iterable(<int>[1, 3, 5, 7]).whereIndexed((i, x) => x.isOdd),
[1, 3, 5, 7]);
});
test('some', () {
expect(iterable(<int>[1, 3, 5, 7]).whereIndexed((i, x) => i.isOdd),
[3, 7]);
});
});
group('.whereNotIndexed', () {
test('empty', () {
expect(iterable(<int>[]).whereNotIndexed(unreachable), isEmpty);
});
test('none', () {
var trace = [];
int log(int a, int b) {
trace..add(a)..add(b);
return b;
}
expect(
iterable(<int>[1, 3, 5, 7])
.whereNotIndexed((i, x) => log(i, x).isOdd),
isEmpty);
expect(trace, [0, 1, 1, 3, 2, 5, 3, 7]);
});
test('all', () {
expect(
iterable(<int>[1, 3, 5, 7]).whereNotIndexed((i, x) => x.isEven),
[1, 3, 5, 7]);
});
test('some', () {
expect(iterable(<int>[1, 3, 5, 7]).whereNotIndexed((i, x) => i.isOdd),
[1, 5]);
});
});
group('.expandIndexed', () {
test('empty', () {
expect(iterable(<int>[]).expandIndexed(unreachable), isEmpty);
});
test('empty result', () {
expect(iterable(['a', 'b']).expandIndexed((i, v) => []), isEmpty);
});
test('larger result', () {
expect(iterable(['a', 'b']).expandIndexed((i, v) => ['$i', v]),
['0', 'a', '1', 'b']);
});
test('varying result', () {
expect(
iterable(['a', 'b'])
.expandIndexed((i, v) => i.isOdd ? ['$i', v] : []),
['1', 'b']);
});
});
group('.reduceIndexed', () {
test('empty', () {
expect(() => iterable([]).reduceIndexed((i, a, b) => a),
throwsStateError);
});
test('single', () {
expect(iterable([1]).reduceIndexed(unreachable), 1);
});
test('multiple', () {
expect(
iterable([1, 4, 2])
.reduceIndexed((i, p, v) => p + (pow(i + 1, v) as int)),
1 + 16 + 9);
});
});
group('.foldIndexed', () {
test('empty', () {
expect(iterable([]).foldIndexed(0, unreachable), 0);
});
test('single', () {
expect(
iterable([1]).foldIndexed('x', (i, a, b) => '$a:$i:$b'), 'x:0:1');
});
test('mulitple', () {
expect(iterable([1, 3, 9]).foldIndexed('x', (i, a, b) => '$a:$i:$b'),
'x:0:1:1:3:2:9');
});
});
group('.firstWhereOrNull', () {
test('empty', () {
expect(iterable([]).firstWhereOrNull(unreachable), null);
});
test('none', () {
expect(iterable([1, 3, 7]).firstWhereOrNull(isEven), null);
});
test('single', () {
expect(iterable([0, 1, 2]).firstWhereOrNull(isOdd), 1);
});
test('first of multiple', () {
expect(iterable([0, 1, 3]).firstWhereOrNull(isOdd), 1);
});
});
group('.firstWhereIndexedOrNull', () {
test('empty', () {
expect(iterable([]).firstWhereIndexedOrNull(unreachable), null);
});
test('none', () {
expect(
iterable([1, 3, 7]).firstWhereIndexedOrNull((i, x) => x.isEven),
null);
expect(iterable([1, 3, 7]).firstWhereIndexedOrNull((i, x) => i < 0),
null);
});
test('single', () {
expect(iterable([0, 3, 6]).firstWhereIndexedOrNull((i, x) => x.isOdd),
3);
expect(
iterable([0, 3, 6]).firstWhereIndexedOrNull((i, x) => i == 1), 3);
});
test('first of multiple', () {
expect(iterable([0, 3, 7]).firstWhereIndexedOrNull((i, x) => x.isOdd),
3);
expect(
iterable([0, 3, 7]).firstWhereIndexedOrNull((i, x) => i.isEven),
0);
});
});
group('.firstOrNull', () {
test('empty', () {
expect(iterable([]).firstOrNull, null);
});
test('single', () {
expect(iterable([1]).firstOrNull, 1);
});
test('first of multiple', () {
expect(iterable([1, 3, 5]).firstOrNull, 1);
});
});
group('.lastWhereOrNull', () {
test('empty', () {
expect(iterable([]).lastWhereOrNull(unreachable), null);
});
test('none', () {
expect(iterable([1, 3, 7]).lastWhereOrNull(isEven), null);
});
test('single', () {
expect(iterable([0, 1, 2]).lastWhereOrNull(isOdd), 1);
});
test('last of multiple', () {
expect(iterable([0, 1, 3]).lastWhereOrNull(isOdd), 3);
});
});
group('.lastWhereIndexedOrNull', () {
test('empty', () {
expect(iterable([]).lastWhereIndexedOrNull(unreachable), null);
});
test('none', () {
expect(iterable([1, 3, 7]).lastWhereIndexedOrNull((i, x) => x.isEven),
null);
expect(iterable([1, 3, 7]).lastWhereIndexedOrNull((i, x) => i < 0),
null);
});
test('single', () {
expect(
iterable([0, 3, 6]).lastWhereIndexedOrNull((i, x) => x.isOdd), 3);
expect(
iterable([0, 3, 6]).lastWhereIndexedOrNull((i, x) => i == 1), 3);
});
test('last of multiple', () {
expect(
iterable([0, 3, 7]).lastWhereIndexedOrNull((i, x) => x.isOdd), 7);
expect(iterable([0, 3, 7]).lastWhereIndexedOrNull((i, x) => i.isEven),
7);
});
});
group('.lastOrNull', () {
test('empty', () {
expect(iterable([]).lastOrNull, null);
});
test('single', () {
expect(iterable([1]).lastOrNull, 1);
});
test('last of multiple', () {
expect(iterable([1, 3, 5]).lastOrNull, 5);
});
});
group('.singleWhereOrNull', () {
test('empty', () {
expect(iterable([]).singleWhereOrNull(unreachable), null);
});
test('none', () {
expect(iterable([1, 3, 7]).singleWhereOrNull(isEven), null);
});
test('single', () {
expect(iterable([0, 1, 2]).singleWhereOrNull(isOdd), 1);
});
test('multiple', () {
expect(iterable([0, 1, 3]).singleWhereOrNull(isOdd), null);
});
});
group('.singleWhereIndexedOrNull', () {
test('empty', () {
expect(iterable([]).singleWhereIndexedOrNull(unreachable), null);
});
test('none', () {
expect(
iterable([1, 3, 7]).singleWhereIndexedOrNull((i, x) => x.isEven),
null);
expect(iterable([1, 3, 7]).singleWhereIndexedOrNull((i, x) => i < 0),
null);
});
test('single', () {
expect(
iterable([0, 3, 6]).singleWhereIndexedOrNull((i, x) => x.isOdd),
3);
expect(iterable([0, 3, 6]).singleWhereIndexedOrNull((i, x) => i == 1),
3);
});
test('multiple', () {
expect(
iterable([0, 3, 7]).singleWhereIndexedOrNull((i, x) => x.isOdd),
null);
expect(
iterable([0, 3, 7]).singleWhereIndexedOrNull((i, x) => i.isEven),
null);
});
});
group('.singleOrNull', () {
test('empty', () {
expect(iterable([]).singleOrNull, null);
});
test('single', () {
expect(iterable([1]).singleOrNull, 1);
});
test('multiple', () {
expect(iterable([1, 3, 5]).singleOrNull, null);
});
});
group('.groupFoldBy', () {
test('empty', () {
expect(iterable([]).groupFoldBy(unreachable, unreachable), {});
});
test('single', () {
expect(iterable([1]).groupFoldBy(toString, (p, v) => [p, v]), {
'1': [null, 1]
});
});
test('multiple', () {
expect(
iterable([1, 2, 3, 4, 5]).groupFoldBy<bool, String>(
(x) => x.isEven, (p, v) => p == null ? '$v' : '$p:$v'),
{true: '2:4', false: '1:3:5'});
});
});
group('.groupSetsBy', () {
test('empty', () {
expect(iterable([]).groupSetsBy(unreachable), {});
});
test('multiple same', () {
expect(iterable([1, 1]).groupSetsBy(toString), {
'1': {1}
});
});
test('multiple', () {
expect(iterable([1, 2, 3, 4, 5, 1]).groupSetsBy((x) => x % 3), {
1: {1, 4},
2: {2, 5},
0: {3}
});
});
});
group('.groupListsBy', () {
test('empty', () {
expect(iterable([]).groupListsBy(unreachable), {});
});
test('multiple saame', () {
expect(iterable([1, 1]).groupListsBy(toString), {
'1': [1, 1]
});
});
test('multiple', () {
expect(iterable([1, 2, 3, 4, 5, 1]).groupListsBy((x) => x % 3), {
1: [1, 4, 1],
2: [2, 5],
0: [3]
});
});
});
group('.splitBefore', () {
test('empty', () {
expect(iterable([]).splitBefore(unreachable), []);
});
test('single', () {
expect(iterable([1]).splitBefore(unreachable), [
[1]
]);
});
test('no split', () {
var trace = [];
bool log(x) {
trace.add(x);
return false;
}
expect(iterable([1, 2, 3]).splitBefore(log), [
[1, 2, 3]
]);
expect(trace, [2, 3]);
});
test('all splits', () {
expect(iterable([1, 2, 3]).splitBefore((x) => true), [
[1],
[2],
[3]
]);
});
test('some splits', () {
expect(iterable([1, 2, 3]).splitBefore((x) => x.isEven), [
[1],
[2, 3]
]);
});
});
group('.splitBeforeIndexed', () {
test('empty', () {
expect(iterable([]).splitBeforeIndexed(unreachable), []);
});
test('single', () {
expect(iterable([1]).splitBeforeIndexed(unreachable), [
[1]
]);
});
test('no split', () {
var trace = [];
bool log(i, x) {
trace..add('$i')..add(x);
return false;
}
expect(iterable([1, 2, 3]).splitBeforeIndexed(log), [
[1, 2, 3]
]);
expect(trace, ['1', 2, '2', 3]);
});
test('all splits', () {
expect(iterable([1, 2, 3]).splitBeforeIndexed((i, x) => true), [
[1],
[2],
[3]
]);
});
test('some splits', () {
expect(iterable([1, 2, 3]).splitBeforeIndexed((i, x) => x.isEven), [
[1],
[2, 3]
]);
expect(iterable([1, 2, 3]).splitBeforeIndexed((i, x) => i.isEven), [
[1, 2],
[3]
]);
});
});
group('.splitAfter', () {
test('empty', () {
expect(iterable([]).splitAfter(unreachable), []);
});
test('single', () {
expect(iterable([1]).splitAfter((x) => false), [
[1]
]);
expect(iterable([1]).splitAfter((x) => true), [
[1]
]);
});
test('no split', () {
var trace = [];
bool log(x) {
trace.add(x);
return false;
}
expect(iterable([1, 2, 3]).splitAfter(log), [
[1, 2, 3]
]);
expect(trace, [1, 2, 3]);
});
test('all splits', () {
expect(iterable([1, 2, 3]).splitAfter((x) => true), [
[1],
[2],
[3]
]);
});
test('some splits', () {
expect(iterable([1, 2, 3]).splitAfter((x) => x.isEven), [
[1, 2],
[3]
]);
});
});
group('.splitAfterIndexed', () {
test('empty', () {
expect(iterable([]).splitAfterIndexed(unreachable), []);
});
test('single', () {
expect(iterable([1]).splitAfterIndexed((i, x) => true), [
[1]
]);
expect(iterable([1]).splitAfterIndexed((i, x) => false), [
[1]
]);
});
test('no split', () {
var trace = [];
bool log(i, x) {
trace..add('$i')..add(x);
return false;
}
expect(iterable([1, 2, 3]).splitAfterIndexed(log), [
[1, 2, 3]
]);
expect(trace, ['0', 1, '1', 2, '2', 3]);
});
test('all splits', () {
expect(iterable([1, 2, 3]).splitAfterIndexed((i, x) => true), [
[1],
[2],
[3]
]);
});
test('some splits', () {
expect(iterable([1, 2, 3]).splitAfterIndexed((i, x) => x.isEven), [
[1, 2],
[3]
]);
expect(iterable([1, 2, 3]).splitAfterIndexed((i, x) => i.isEven), [
[1],
[2, 3]
]);
});
});
group('.splitBetween', () {
test('empty', () {
expect(iterable([]).splitBetween(unreachable), []);
});
test('single', () {
expect(iterable([1]).splitBetween(unreachable), [
[1]
]);
});
test('no split', () {
var trace = [];
bool log(x, y) {
trace.add([x, y]);
return false;
}
expect(iterable([1, 2, 3]).splitBetween(log), [
[1, 2, 3]
]);
expect(trace, [
[1, 2],
[2, 3]
]);
});
test('all splits', () {
expect(iterable([1, 2, 3]).splitBetween((x, y) => true), [
[1],
[2],
[3]
]);
});
test('some splits', () {
expect(iterable([1, 2, 4]).splitBetween((x, y) => (x ^ y).isEven), [
[1, 2],
[4]
]);
});
});
group('.splitBetweenIndexed', () {
test('empty', () {
expect(iterable([]).splitBetweenIndexed(unreachable), []);
});
test('single', () {
expect(iterable([1]).splitBetweenIndexed(unreachable), [
[1]
]);
});
test('no split', () {
var trace = [];
bool log(i, x, y) {
trace.add([i, x, y]);
return false;
}
expect(iterable([1, 2, 3]).splitBetweenIndexed(log), [
[1, 2, 3]
]);
expect(trace, [
[1, 1, 2],
[2, 2, 3]
]);
});
test('all splits', () {
expect(iterable([1, 2, 3]).splitBetweenIndexed((i, x, y) => true), [
[1],
[2],
[3]
]);
});
test('some splits', () {
expect(
iterable([1, 2, 4])
.splitBetweenIndexed((i, x, y) => (x ^ y).isEven),
[
[1, 2],
[4]
]);
expect(
iterable([1, 2, 4])
.splitBetweenIndexed((i, x, y) => (i ^ y).isEven),
[
[1, 2],
[4]
]);
});
});
group('none', () {
test('empty', () {
expect(iterable([]).none(unreachable), true);
});
test('single', () {
expect(iterable([1]).none(isEven), true);
expect(iterable([1]).none(isOdd), false);
});
test('multiple', () {
expect(iterable([1, 3, 5, 7, 9, 11]).none(isEven), true);
expect(iterable([1, 3, 5, 7, 9, 10]).none(isEven), false);
expect(iterable([0, 3, 5, 7, 9, 11]).none(isEven), false);
expect(iterable([0, 2, 4, 6, 8, 10]).none(isEven), false);
});
});
});
group('of nullable', () {
group('.whereNotNull', () {
test('empty', () {
expect(iterable(<int?>[]).whereNotNull(), isEmpty);
});
test('single', () {
expect(iterable(<int?>[null]).whereNotNull(), isEmpty);
expect(iterable(<int?>[1]).whereNotNull(), [1]);
});
test('multiple', () {
expect(iterable(<int?>[1, 3, 5]).whereNotNull(), [1, 3, 5]);
expect(iterable(<int?>[null, null, null]).whereNotNull(), isEmpty);
expect(
iterable(<int?>[1, null, 3, null, 5]).whereNotNull(), [1, 3, 5]);
});
});
});
group('of number', () {
group('.sum', () {
test('empty', () {
expect(iterable(<int>[]).sum, same(0));
expect(iterable(<double>[]).sum, same(0.0));
expect(iterable(<num>[]).sum, same(0));
});
test('single', () {
expect(iterable(<int>[1]).sum, same(1));
expect(iterable(<double>[1.2]).sum, same(1.2));
expect(iterable(<num>[1]).sum, same(1));
expect(iterable(<num>[1.2]).sum, same(1.2));
});
test('multiple', () {
expect(iterable(<int>[1, 2, 4]).sum, 7);
expect(iterable(<double>[1.2, 3.5]).sum, 4.7);
expect(iterable(<num>[1, 3, 5]).sum, same(9));
expect(iterable(<num>[1.2, 3.5]).sum, 4.7);
expect(iterable(<num>[1.2, 2, 3.5]).sum, 6.7);
});
});
group('average', () {
test('empty', () {
expect(() => iterable(<int>[]).average, throwsStateError);
expect(() => iterable(<double>[]).average, throwsStateError);
expect(() => iterable(<num>[]).average, throwsStateError);
});
test('single', () {
expect(iterable(<int>[4]).average, same(4.0));
expect(iterable(<double>[3.5]).average, 3.5);
expect(iterable(<num>[4]).average, same(4.0));
expect(iterable(<num>[3.5]).average, 3.5);
});
test('multiple', () {
expect(iterable(<int>[1, 3, 5]).average, same(3.0));
expect(iterable(<int>[1, 3, 5, 9]).average, 4.5);
expect(iterable(<double>[1.0, 3.0, 5.0, 9.0]).average, 4.5);
expect(iterable(<num>[1, 3, 5, 9]).average, 4.5);
});
});
});
group('of iterable', () {
group('.flattened', () {
var empty = iterable(<int>[]);
test('empty', () {
expect(iterable(<Iterable<int>>[]).flattened, []);
});
test('multiple empty', () {
expect(iterable([empty, empty, empty]).flattened, []);
});
test('single value', () {
expect(
iterable(<Iterable>[
iterable([1])
]).flattened,
[1]);
});
test('multiple', () {
expect(
iterable(<Iterable>[
iterable([1, 2]),
empty,
iterable([3, 4])
]).flattened,
[1, 2, 3, 4]);
});
});
});
group('of comparable', () {
group('.min', () {
test('empty', () {
expect(() => iterable(<String>[]).min, throwsStateError);
});
test('single', () {
expect(iterable(<String>['a']).min, 'a');
});
test('multiple', () {
expect(iterable(<String>['c', 'a', 'b']).min, 'a');
});
});
group('.minOrNull', () {
test('empty', () {
expect(iterable(<String>[]).minOrNull, null);
});
test('single', () {
expect(iterable(<String>['a']).minOrNull, 'a');
});
test('multiple', () {
expect(iterable(<String>['c', 'a', 'b']).minOrNull, 'a');
});
});
group('.max', () {
test('empty', () {
expect(() => iterable(<String>[]).max, throwsStateError);
});
test('single', () {
expect(iterable(<String>['a']).max, 'a');
});
test('multiple', () {
expect(iterable(<String>['b', 'c', 'a']).max, 'c');
});
});
group('.maxOrNull', () {
test('empty', () {
expect(iterable(<String>[]).maxOrNull, null);
});
test('single', () {
expect(iterable(<String>['a']).maxOrNull, 'a');
});
test('multiple', () {
expect(iterable(<String>['b', 'c', 'a']).maxOrNull, 'c');
});
});
});
group('.sorted', () {
test('empty', () {
expect(iterable(<String>[]).sorted(unreachable), []);
expect(iterable(<String>[]).sorted(), []);
});
test('singleton', () {
expect(iterable(['a']).sorted(unreachable), ['a']);
expect(iterable(['a']).sorted(), ['a']);
});
test('multiple', () {
expect(iterable(<String>['5', '2', '4', '3', '1']).sorted(cmpParse),
['1', '2', '3', '4', '5']);
expect(
iterable(<String>['5', '2', '4', '3', '1']).sorted(cmpParseInverse),
['5', '4', '3', '2', '1']);
expect(iterable(<String>['5', '2', '4', '3', '1']).sorted(),
['1', '2', '3', '4', '5']);
// Large enough to trigger quicksort.
var i256 = Iterable<int>.generate(256, (i) => i ^ 0x55);
var sorted256 = [...i256]..sort();
expect(i256.sorted(cmpInt), sorted256);
});
});
group('.isSorted', () {
test('empty', () {
expect(iterable(<String>[]).isSorted(unreachable), true);
expect(iterable(<String>[]).isSorted(), true);
});
test('single', () {
expect(iterable(['1']).isSorted(unreachable), true);
expect(iterable(['1']).isSorted(), true);
});
test('same', () {
expect(iterable(['1', '1', '1', '1']).isSorted(cmpParse), true);
expect(iterable(['1', '2', '0', '3']).isSorted(cmpStringLength), true);
expect(iterable(['1', '1', '1', '1']).isSorted(), true);
});
test('multiple', () {
expect(iterable(['1', '2', '3', '4']).isSorted(cmpParse), true);
expect(iterable(['1', '2', '3', '4']).isSorted(), true);
expect(iterable(['4', '3', '2', '1']).isSorted(cmpParseInverse), true);
expect(iterable(['1', '2', '3', '0']).isSorted(cmpParse), false);
expect(iterable(['1', '2', '3', '0']).isSorted(), false);
expect(iterable(['4', '1', '2', '3']).isSorted(cmpParse), false);
expect(iterable(['4', '1', '2', '3']).isSorted(), false);
expect(iterable(['4', '3', '2', '1']).isSorted(cmpParse), false);
expect(iterable(['4', '3', '2', '1']).isSorted(), false);
});
});
group('.sample', () {
test('errors', () {
expect(() => iterable([1]).sample(-1), throwsRangeError);
});
test('empty', () {
var empty = iterable(<int>[]);
expect(empty.sample(0), []);
expect(empty.sample(5), []);
});
test('single', () {
var single = iterable([1]);
expect(single.sample(0), []);
expect(single.sample(1), [1]);
expect(single.sample(5), [1]);
});
test('multiple', () {
var multiple = iterable([1, 2, 3, 4, 5, 6, 7, 8, 9, 10]);
expect(multiple.sample(0), []);
var one = multiple.sample(1);
expect(one, hasLength(1));
expect(one.first, inInclusiveRange(1, 10));
var some = multiple.sample(3);
expect(some, hasLength(3));
expect(some[0], inInclusiveRange(1, 10));
expect(some[1], inInclusiveRange(1, 10));
expect(some[2], inInclusiveRange(1, 10));
expect(some[0], isNot(some[1]));
expect(some[0], isNot(some[2]));
expect(some[1], isNot(some[2]));
var seen = <int>{};
do {
seen.addAll(multiple.sample(3));
} while (seen.length < 10);
// Should eventually terminate.
});
test('random', () {
// Passing in a `Random` makes result deterministic.
var multiple = iterable([1, 2, 3, 4, 5, 6, 7, 8, 9, 10]);
var seed = 12345;
var some = multiple.sample(5, Random(seed));
for (var i = 0; i < 10; i++) {
var other = multiple.sample(5, Random(seed));
expect(other, some);
}
});
});
});
group('Comparator', () {
test('.inverse', () {
var cmpStringInv = cmpString.inverse;
expect(cmpString('a', 'b'), isNegative);
expect(cmpStringInv('a', 'b'), isPositive);
expect(cmpString('aa', 'a'), isPositive);
expect(cmpStringInv('aa', 'a'), isNegative);
expect(cmpString('a', 'a'), isZero);
expect(cmpStringInv('a', 'a'), isZero);
});
test('.compareBy', () {
var cmpByLength = cmpInt.compareBy((String s) => s.length);
expect(cmpByLength('a', 'b'), 0);
expect(cmpByLength('aa', 'b'), isPositive);
expect(cmpByLength('b', 'aa'), isNegative);
var cmpByInverseLength = cmpIntInverse.compareBy((String s) => s.length);
expect(cmpByInverseLength('a', 'b'), 0);
expect(cmpByInverseLength('aa', 'b'), isNegative);
expect(cmpByInverseLength('b', 'aa'), isPositive);
});
test('.then', () {
var cmpLengthFirst = cmpStringLength.then(cmpString);
var strings = ['a', 'aa', 'ba', 'ab', 'b', 'aaa'];
strings.sort(cmpString);
expect(strings, ['a', 'aa', 'aaa', 'ab', 'b', 'ba']);
strings.sort(cmpLengthFirst);
expect(strings, ['a', 'b', 'aa', 'ab', 'ba', 'aaa']);
int cmpFirstLetter(String s1, String s2) =>
s1.runes.first - s2.runes.first;
var cmpLetterLength = cmpFirstLetter.then(cmpStringLength);
var cmpLengthLetter = cmpStringLength.then(cmpFirstLetter);
strings = ['a', 'ab', 'b', 'ba', 'aaa'];
strings.sort(cmpLetterLength);
expect(strings, ['a', 'ab', 'aaa', 'b', 'ba']);
strings.sort(cmpLengthLetter);
expect(strings, ['a', 'b', 'ab', 'ba', 'aaa']);
});
});
group('List', () {
group('of any', () {
group('.binarySearch', () {
test('empty', () {
expect(<int>[].binarySearch(1, unreachable), -1);
});
test('single', () {
expect([0].binarySearch(1, cmpInt), -1);
expect([1].binarySearch(1, cmpInt), 0);
expect([2].binarySearch(1, cmpInt), -1);
});
test('multiple', () {
expect([1, 2, 3, 4, 5, 6].binarySearch(3, cmpInt), 2);
expect([6, 5, 4, 3, 2, 1].binarySearch(3, cmpIntInverse), 3);
});
});
group('.binarySearchByCompare', () {
test('empty', () {
expect(<int>[].binarySearchByCompare(1, toString, cmpParse), -1);
});
test('single', () {
expect([0].binarySearchByCompare(1, toString, cmpParse), -1);
expect([1].binarySearchByCompare(1, toString, cmpParse), 0);
expect([2].binarySearchByCompare(1, toString, cmpParse), -1);
});
test('multiple', () {
expect(
[1, 2, 3, 4, 5, 6].binarySearchByCompare(3, toString, cmpParse),
2);
expect(
[6, 5, 4, 3, 2, 1]
.binarySearchByCompare(3, toString, cmpParseInverse),
3);
});
});
group('.binarySearchBy', () {
test('empty', () {
expect(<int>[].binarySearchBy(1, toString), -1);
});
test('single', () {
expect([0].binarySearchBy(1, toString), -1);
expect([1].binarySearchBy(1, toString), 0);
expect([2].binarySearchBy(1, toString), -1);
});
test('multiple', () {
expect([1, 2, 3, 4, 5, 6].binarySearchBy(3, toString), 2);
});
});
group('.lowerBound', () {
test('empty', () {
expect(<int>[].lowerBound(1, unreachable), 0);
});
test('single', () {
expect([0].lowerBound(1, cmpInt), 1);
expect([1].lowerBound(1, cmpInt), 0);
expect([2].lowerBound(1, cmpInt), 0);
});
test('multiple', () {
expect([1, 2, 3, 4, 5, 6].lowerBound(3, cmpInt), 2);
expect([6, 5, 4, 3, 2, 1].lowerBound(3, cmpIntInverse), 3);
expect([1, 2, 4, 5, 6].lowerBound(3, cmpInt), 2);
expect([6, 5, 4, 2, 1].lowerBound(3, cmpIntInverse), 3);
});
});
group('.lowerBoundByCompare', () {
test('empty', () {
expect(<int>[].lowerBoundByCompare(1, toString, cmpParse), 0);
});
test('single', () {
expect([0].lowerBoundByCompare(1, toString, cmpParse), 1);
expect([1].lowerBoundByCompare(1, toString, cmpParse), 0);
expect([2].lowerBoundByCompare(1, toString, cmpParse), 0);
});
test('multiple', () {
expect(
[1, 2, 3, 4, 5, 6].lowerBoundByCompare(3, toString, cmpParse), 2);
expect(
[6, 5, 4, 3, 2, 1]
.lowerBoundByCompare(3, toString, cmpParseInverse),
3);
expect([1, 2, 4, 5, 6].lowerBoundByCompare(3, toString, cmpParse), 2);
expect(
[6, 5, 4, 2, 1].lowerBoundByCompare(3, toString, cmpParseInverse),
3);
});
});
group('.lowerBoundBy', () {
test('empty', () {
expect(<int>[].lowerBoundBy(1, toString), 0);
});
test('single', () {
expect([0].lowerBoundBy(1, toString), 1);
expect([1].lowerBoundBy(1, toString), 0);
expect([2].lowerBoundBy(1, toString), 0);
});
test('multiple', () {
expect([1, 2, 3, 4, 5, 6].lowerBoundBy(3, toString), 2);
expect([1, 2, 4, 5, 6].lowerBoundBy(3, toString), 2);
});
});
group('sortRange', () {
test('errors', () {
expect(() => [1].sortRange(-1, 1, cmpInt), throwsArgumentError);
expect(() => [1].sortRange(0, 2, cmpInt), throwsArgumentError);
expect(() => [1].sortRange(1, 0, cmpInt), throwsArgumentError);
});
test('empty range', () {
<int>[].sortRange(0, 0, unreachable);
var list = [3, 2, 1];
list.sortRange(0, 0, unreachable);
list.sortRange(3, 3, unreachable);
expect(list, [3, 2, 1]);
});
test('single', () {
[1].sortRange(0, 1, unreachable);
var list = [3, 2, 1];
list.sortRange(0, 1, unreachable);
list.sortRange(1, 2, unreachable);
list.sortRange(2, 3, unreachable);
});
test('multiple', () {
var list = [9, 8, 7, 6, 5, 4, 3, 2, 1];
list.sortRange(2, 5, cmpInt);
expect(list, [9, 8, 5, 6, 7, 4, 3, 2, 1]);
list.sortRange(4, 8, cmpInt);
expect(list, [9, 8, 5, 6, 2, 3, 4, 7, 1]);
list.sortRange(3, 6, cmpIntInverse);
expect(list, [9, 8, 5, 6, 3, 2, 4, 7, 1]);
});
});
group('.sortBy', () {
test('empty', () {
expect(<int>[]..sortBy(unreachable), []);
});
test('singleton', () {
expect([1]..sortBy(unreachable), [1]);
});
test('multiple', () {
expect([3, 20, 100]..sortBy(toString), [100, 20, 3]);
});
group('range', () {
test('errors', () {
expect(() => [1].sortBy(toString, -1, 1), throwsArgumentError);
expect(() => [1].sortBy(toString, 0, 2), throwsArgumentError);
expect(() => [1].sortBy(toString, 1, 0), throwsArgumentError);
});
test('empty', () {
expect([5, 7, 4, 2, 3]..sortBy(unreachable, 2, 2), [5, 7, 4, 2, 3]);
});
test('singleton', () {
expect([5, 7, 4, 2, 3]..sortBy(unreachable, 2, 3), [5, 7, 4, 2, 3]);
});
test('multiple', () {
expect(
[5, 7, 40, 2, 3]..sortBy((a) => '$a', 1, 4), [5, 2, 40, 7, 3]);
});
});
});
group('.sortByCompare', () {
test('empty', () {
expect(<int>[]..sortByCompare(unreachable, unreachable), []);
});
test('singleton', () {
expect([2]..sortByCompare(unreachable, unreachable), [2]);
});
test('multiple', () {
expect([30, 2, 100]..sortByCompare(toString, cmpParseInverse),
[100, 30, 2]);
});
group('range', () {
test('errors', () {
expect(() => [1].sortByCompare(toString, cmpParse, -1, 1),
throwsArgumentError);
expect(() => [1].sortByCompare(toString, cmpParse, 0, 2),
throwsArgumentError);
expect(() => [1].sortByCompare(toString, cmpParse, 1, 0),
throwsArgumentError);
});
test('empty', () {
expect(
[3, 5, 7, 3, 1]..sortByCompare(unreachable, unreachable, 2, 2),
[3, 5, 7, 3, 1]);
});
test('singleton', () {
expect(
[3, 5, 7, 3, 1]..sortByCompare(unreachable, unreachable, 2, 3),
[3, 5, 7, 3, 1]);
});
test('multiple', () {
expect(
[3, 5, 7, 30, 1]
..sortByCompare(toString, cmpParseInverse, 1, 4),
[3, 30, 7, 5, 1]);
});
});
});
group('.shuffleRange', () {
test('errors', () {
expect(() => [1].shuffleRange(-1, 1), throwsArgumentError);
expect(() => [1].shuffleRange(0, 2), throwsArgumentError);
expect(() => [1].shuffleRange(1, 0), throwsArgumentError);
});
test('empty range', () {
expect(<int>[]..shuffleRange(0, 0), []);
expect([1, 2, 3, 4]..shuffleRange(0, 0), [1, 2, 3, 4]);
expect([1, 2, 3, 4]..shuffleRange(4, 4), [1, 2, 3, 4]);
});
test('singleton range', () {
expect([1, 2, 3, 4]..shuffleRange(0, 1), [1, 2, 3, 4]);
expect([1, 2, 3, 4]..shuffleRange(3, 4), [1, 2, 3, 4]);
});
test('multiple', () {
var list = [1, 2, 3, 4, 5];
do {
list.shuffleRange(0, 3);
expect(list.getRange(3, 5), [4, 5]);
expect(list.getRange(0, 3), unorderedEquals([1, 2, 3]));
} while (ListEquality().equals(list.sublist(0, 3), [1, 2, 3]));
// Won't terminate if shuffle *never* moves a value.
});
});
group('.reverseRange', () {
test('errors', () {
expect(() => [1].reverseRange(-1, 1), throwsArgumentError);
expect(() => [1].reverseRange(0, 2), throwsArgumentError);
expect(() => [1].reverseRange(1, 0), throwsArgumentError);
});
test('empty range', () {
expect(<int>[]..reverseRange(0, 0), []);
expect([1, 2, 3, 4]..reverseRange(0, 0), [1, 2, 3, 4]);
expect([1, 2, 3, 4]..reverseRange(4, 4), [1, 2, 3, 4]);
});
test('singleton range', () {
expect([1, 2, 3, 4]..reverseRange(0, 1), [1, 2, 3, 4]);
expect([1, 2, 3, 4]..reverseRange(3, 4), [1, 2, 3, 4]);
});
test('multiple', () {
var list = [1, 2, 3, 4, 5];
list.reverseRange(0, 3);
expect(list, [3, 2, 1, 4, 5]);
list.reverseRange(3, 5);
expect(list, [3, 2, 1, 5, 4]);
list.reverseRange(0, 5);
expect(list, [4, 5, 1, 2, 3]);
});
});
group('.swap', () {
test('errors', () {
expect(() => [1].swap(0, 1), throwsArgumentError);
expect(() => [1].swap(1, 1), throwsArgumentError);
expect(() => [1].swap(1, 0), throwsArgumentError);
expect(() => [1].swap(-1, 0), throwsArgumentError);
});
test('self swap', () {
expect([1]..swap(0, 0), [1]);
expect([1, 2, 3]..swap(1, 1), [1, 2, 3]);
});
test('actual swap', () {
expect([1, 2, 3]..swap(0, 2), [3, 2, 1]);
expect([1, 2, 3]..swap(2, 0), [3, 2, 1]);
expect([1, 2, 3]..swap(2, 1), [1, 3, 2]);
expect([1, 2, 3]..swap(1, 2), [1, 3, 2]);
expect([1, 2, 3]..swap(0, 1), [2, 1, 3]);
expect([1, 2, 3]..swap(1, 0), [2, 1, 3]);
});
});
group('.slice', () {
test('errors', () {
expect(() => [1].slice(-1, 1), throwsArgumentError);
expect(() => [1].slice(0, 2), throwsArgumentError);
expect(() => [1].slice(1, 0), throwsArgumentError);
var l = <int>[1];
var slice = l.slice(0, 1);
l.removeLast();
expect(() => slice.first, throwsConcurrentModificationError);
});
test('empty', () {
expect([].slice(0, 0), isEmpty);
});
test('modify', () {
var list = [1, 2, 3, 4, 5, 6, 7, 8, 9];
var slice = list.slice(2, 6);
expect(slice, [3, 4, 5, 6]);
slice.sort(cmpIntInverse);
expect(slice, [6, 5, 4, 3]);
expect(list, [1, 2, 6, 5, 4, 3, 7, 8, 9]);
});
});
group('equals', () {
test('empty', () {
expect(<Object>[].equals(<int>[]), true);
});
test('non-empty', () {
expect([1, 2.5, 'a'].equals([1.0, 2.5, 'a']), true);
expect([1, 2.5, 'a'].equals([1.0, 2.5, 'b']), false);
expect(
[
[1]
].equals([
[1]
]),
false);
expect(
[
[1]
].equals([
[1]
], const ListEquality()),
true);
});
});
group('.forEachIndexed', () {
test('empty', () {
[].forEachIndexed(unreachable);
});
test('single', () {
var log = [];
['a'].forEachIndexed((i, s) {
log..add(i)..add(s);
});
expect(log, [0, 'a']);
});
test('multiple', () {
var log = [];
['a', 'b', 'c'].forEachIndexed((i, s) {
log..add(i)..add(s);
});
expect(log, [0, 'a', 1, 'b', 2, 'c']);
});
});
group('.forEachWhile', () {
test('empty', () {
[].forEachWhile(unreachable);
});
test('single true', () {
var log = [];
['a'].forEachWhile((s) {
log.add(s);
return true;
});
expect(log, ['a']);
});
test('single false', () {
var log = [];
['a'].forEachWhile((s) {
log.add(s);
return false;
});
expect(log, ['a']);
});
test('multiple one', () {
var log = [];
['a', 'b', 'c'].forEachWhile((s) {
log.add(s);
return false;
});
expect(log, ['a']);
});
test('multiple all', () {
var log = [];
['a', 'b', 'c'].forEachWhile((s) {
log.add(s);
return true;
});
expect(log, ['a', 'b', 'c']);
});
test('multiple some', () {
var log = [];
['a', 'b', 'c'].forEachWhile((s) {
log.add(s);
return s != 'b';
});
expect(log, ['a', 'b']);
});
});
group('.forEachIndexedWhile', () {
test('empty', () {
[].forEachIndexedWhile(unreachable);
});
test('single true', () {
var log = [];
['a'].forEachIndexedWhile((i, s) {
log..add(i)..add(s);
return true;
});
expect(log, [0, 'a']);
});
test('single false', () {
var log = [];
['a'].forEachIndexedWhile((i, s) {
log..add(i)..add(s);
return false;
});
expect(log, [0, 'a']);
});
test('multiple one', () {
var log = [];
['a', 'b', 'c'].forEachIndexedWhile((i, s) {
log..add(i)..add(s);
return false;
});
expect(log, [0, 'a']);
});
test('multiple all', () {
var log = [];
['a', 'b', 'c'].forEachIndexedWhile((i, s) {
log..add(i)..add(s);
return true;
});
expect(log, [0, 'a', 1, 'b', 2, 'c']);
});
test('multiple some', () {
var log = [];
['a', 'b', 'c'].forEachIndexedWhile((i, s) {
log..add(i)..add(s);
return s != 'b';
});
expect(log, [0, 'a', 1, 'b']);
});
});
group('.mapIndexed', () {
test('empty', () {
expect(<String>[].mapIndexed(unreachable), isEmpty);
});
test('multiple', () {
expect(<String>['a', 'b'].mapIndexed((i, s) => [i, s]), [
[0, 'a'],
[1, 'b']
]);
});
});
group('.whereIndexed', () {
test('empty', () {
expect(<String>[].whereIndexed(unreachable), isEmpty);
});
test('none', () {
var trace = [];
int log(int a, int b) {
trace..add(a)..add(b);
return b;
}
expect(<int>[1, 3, 5, 7].whereIndexed((i, x) => log(i, x).isEven),
isEmpty);
expect(trace, [0, 1, 1, 3, 2, 5, 3, 7]);
});
test('all', () {
expect(
<int>[1, 3, 5, 7].whereIndexed((i, x) => x.isOdd), [1, 3, 5, 7]);
});
test('some', () {
expect(<int>[1, 3, 5, 7].whereIndexed((i, x) => i.isOdd), [3, 7]);
});
});
group('.whereNotIndexed', () {
test('empty', () {
expect(<int>[].whereNotIndexed(unreachable), isEmpty);
});
test('none', () {
var trace = [];
int log(int a, int b) {
trace..add(a)..add(b);
return b;
}
expect(<int>[1, 3, 5, 7].whereNotIndexed((i, x) => log(i, x).isOdd),
isEmpty);
expect(trace, [0, 1, 1, 3, 2, 5, 3, 7]);
});
test('all', () {
expect(<int>[1, 3, 5, 7].whereNotIndexed((i, x) => x.isEven),
[1, 3, 5, 7]);
});
test('some', () {
expect(<int>[1, 3, 5, 7].whereNotIndexed((i, x) => i.isOdd), [1, 5]);
});
});
group('.expandIndexed', () {
test('empty', () {
expect(<int>[].expandIndexed(unreachable), isEmpty);
});
test('empty result', () {
expect(['a', 'b'].expandIndexed((i, v) => []), isEmpty);
});
test('larger result', () {
expect(['a', 'b'].expandIndexed((i, v) => ['$i', v]),
['0', 'a', '1', 'b']);
});
test('varying result', () {
expect(['a', 'b'].expandIndexed((i, v) => i.isOdd ? ['$i', v] : []),
['1', 'b']);
});
});
});
group('on comparable', () {
group('.binarySearch', () {
test('empty', () {
expect(<String>[].binarySearch('1', unreachable), -1);
expect(<String>[].binarySearch('1'), -1);
});
test('single', () {
expect(['0'].binarySearch('1', cmpString), -1);
expect(['1'].binarySearch('1', cmpString), 0);
expect(['2'].binarySearch('1', cmpString), -1);
expect(
['0'].binarySearch(
'1',
),
-1);
expect(
['1'].binarySearch(
'1',
),
0);
expect(
['2'].binarySearch(
'1',
),
-1);
});
test('multiple', () {
expect(
['1', '2', '3', '4', '5', '6'].binarySearch('3', cmpString), 2);
expect(['1', '2', '3', '4', '5', '6'].binarySearch('3'), 2);
expect(
['6', '5', '4', '3', '2', '1'].binarySearch('3', cmpParseInverse),
3);
});
});
});
group('.lowerBound', () {
test('empty', () {
expect(<String>[].lowerBound('1', unreachable), 0);
});
test('single', () {
expect(['0'].lowerBound('1', cmpString), 1);
expect(['1'].lowerBound('1', cmpString), 0);
expect(['2'].lowerBound('1', cmpString), 0);
expect(['0'].lowerBound('1'), 1);
expect(['1'].lowerBound('1'), 0);
expect(['2'].lowerBound('1'), 0);
});
test('multiple', () {
expect(['1', '2', '3', '4', '5', '6'].lowerBound('3', cmpParse), 2);
expect(['1', '2', '3', '4', '5', '6'].lowerBound('3'), 2);
expect(
['6', '5', '4', '3', '2', '1'].lowerBound('3', cmpParseInverse), 3);
expect(['1', '2', '4', '5', '6'].lowerBound('3', cmpParse), 2);
expect(['1', '2', '4', '5', '6'].lowerBound('3'), 2);
expect(['6', '5', '4', '2', '1'].lowerBound('3', cmpParseInverse), 3);
});
});
group('sortRange', () {
test('errors', () {
expect(() => [1].sortRange(-1, 1, cmpInt), throwsArgumentError);
expect(() => [1].sortRange(0, 2, cmpInt), throwsArgumentError);
expect(() => [1].sortRange(1, 0, cmpInt), throwsArgumentError);
});
test('empty range', () {
<int>[].sortRange(0, 0, unreachable);
var list = [3, 2, 1];
list.sortRange(0, 0, unreachable);
list.sortRange(3, 3, unreachable);
expect(list, [3, 2, 1]);
});
test('single', () {
[1].sortRange(0, 1, unreachable);
var list = [3, 2, 1];
list.sortRange(0, 1, unreachable);
list.sortRange(1, 2, unreachable);
list.sortRange(2, 3, unreachable);
});
test('multiple', () {
var list = [9, 8, 7, 6, 5, 4, 3, 2, 1];
list.sortRange(2, 5, cmpInt);
expect(list, [9, 8, 5, 6, 7, 4, 3, 2, 1]);
list.sortRange(4, 8, cmpInt);
expect(list, [9, 8, 5, 6, 2, 3, 4, 7, 1]);
list.sortRange(3, 6, cmpIntInverse);
expect(list, [9, 8, 5, 6, 3, 2, 4, 7, 1]);
});
});
});
}
/// Creates a plain iterable not implementing any other class.
Iterable<T> iterable<T>(Iterable<T> values) sync* {
yield* values;
}
Never unreachable([_, __, ___]) => fail('Unreachable');
String toString(Object? o) => '$o';
/// Compares values equal if they have the same remainder mod [mod].
int Function(int, int) cmpMod(int mod) => (a, b) => a ~/ mod - b ~/ mod;
/// Compares strings lexically.
int cmpString(String a, String b) => a.compareTo(b);
/// Compares strings inverse lexically.
int cmpStringInverse(String a, String b) => b.compareTo(a);
/// Compares strings by length.
int cmpStringLength(String a, String b) => a.length - b.length;
/// Compares strings by their integer numeral content.
int cmpParse(String s1, String s2) => cmpInt(int.parse(s1), int.parse(s2));
/// Compares strings inversely by their integer numeral content.
int cmpParseInverse(String s1, String s2) =>
cmpIntInverse(int.parse(s1), int.parse(s2));
/// Compares integers by size.
int cmpInt(int a, int b) => a - b;
/// Compares integers by inverse size.
int cmpIntInverse(int a, int b) => b - a;
/// Tests an integer for being even.
bool isEven(int x) => x.isEven;
/// Tests an integer for being odd.
bool isOdd(int x) => x.isOdd;