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The Google Closure Library is a collection of JavaScript code
designed for use with the Google Closure JavaScript Compiler.
This non-official distribution was prepared by the ClojureScript
team at http://clojure.org/
// Copyright 2009 The Closure Library Authors. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS-IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
goog.provide('goog.math.RangeSetTest');
goog.setTestOnly('goog.math.RangeSetTest');
goog.require('goog.iter');
goog.require('goog.math.Range');
goog.require('goog.math.RangeSet');
goog.require('goog.testing.jsunit');
/**
* Produce legible assertion results for comparing ranges. The expected range
* may be defined as a goog.math.Range or as a two-element array of numbers. If
* two ranges are not equal, the error message will be in the format:
* "Expected <[1, 2]> (Object) but was <[3, 4]> (Object)"
*
* @param {!goog.math.Range|!Array|string} a A descriptive string or
* the expected range.
* @param {!goog.math.Range|!Array} b The expected range when a
* descriptive string is present, or the range to compare.
* @param {goog.math.Range=} opt_c The range to compare when a descriptive
* string is present.
*/
function assertRangesEqual(a, b, opt_c) {
var message = opt_c ? a : '';
var expected = opt_c ? b : a;
var actual = opt_c ? opt_c : b;
if (goog.isArray(expected)) {
assertEquals(
message + '\n' +
'Expected ranges must be specified as goog.math.Range ' +
'objects or as 2-element number arrays. Found [' +
expected.join(', ') + ']',
2, expected.length);
expected = new goog.math.Range(expected[0], expected[1]);
}
if (!goog.math.Range.equals(
/** @type {!goog.math.Range} */ (expected),
/** @type {!goog.math.Range} */ (actual))) {
if (message) {
assertEquals(message, expected, actual);
} else {
assertEquals(expected, actual);
}
}
}
/**
* Produce legible assertion results for comparing two lists of ranges. Expected
* lists may be specified as a list of goog.math.Ranges, or as a list of
* two-element arrays of numbers.
*
* @param {Array>|string} a A help
* string or the list of expected ranges.
* @param {Array>} b The list of
* expected ranges when a descriptive string is present, or the list of
* ranges to compare.
* @param {Array=} opt_c The list of ranges to compare when a
* descriptive string is present.
*/
function assertRangeListsEqual(a, b, opt_c) {
var message = opt_c ? a + '\n' : '';
var expected = opt_c ? b : a;
var actual = opt_c ? opt_c : b;
assertEquals(
message + 'Array lengths unequal.', expected.length, actual.length);
for (var i = 0; i < expected.length; i++) {
assertRangesEqual(
message + 'Range ' + i + ' mismatch.', expected[i], actual[i]);
}
}
function testClone() {
var r = new goog.math.RangeSet();
var test = new goog.math.RangeSet(r);
assertRangeListsEqual([], test.ranges_);
r.add(new goog.math.Range(-10, -2));
r.add(new goog.math.Range(2.72, 3.14));
r.add(new goog.math.Range(8, 11));
test = r.clone();
assertRangeListsEqual([[-10, -2], [2.72, 3.14], [8, 11]], test.ranges_);
var test2 = r.clone();
assertRangeListsEqual(test.ranges_, test2.ranges_);
assertNotEquals(
'The clones should not share the same list reference.', test.ranges_,
test2.ranges_);
for (var i = 0; i < test.ranges_.length; i++) {
assertNotEquals(
'The clones should not share references to ranges.', test.ranges_[i],
test2.ranges_[i]);
}
}
function testAddNoCorruption() {
var r = new goog.math.RangeSet();
var range = new goog.math.Range(1, 2);
r.add(range);
assertNotEquals(
'Only a copy of the input range should be stored.', range, r.ranges_[0]);
range.end = 5;
assertRangeListsEqual(
'Modifying an input range after use should not ' +
'affect the set.',
[[1, 2]], r.ranges_);
}
function testAdd() {
var r = new goog.math.RangeSet();
r.add(new goog.math.Range(7, 12));
assertRangeListsEqual([[7, 12]], r.ranges_);
r.add(new goog.math.Range(1, 3));
assertRangeListsEqual([[1, 3], [7, 12]], r.ranges_);
r.add(new goog.math.Range(13, 18));
assertRangeListsEqual([[1, 3], [7, 12], [13, 18]], r.ranges_);
r.add(new goog.math.Range(5, 5));
assertRangeListsEqual(
'Zero length ranges should be ignored.', [[1, 3], [7, 12], [13, 18]],
r.ranges_);
var badRange = new goog.math.Range(5, 5);
badRange.end = 4;
r.add(badRange);
assertRangeListsEqual(
'Negative length ranges should be ignored.', [[1, 3], [7, 12], [13, 18]],
r.ranges_);
r.add(new goog.math.Range(-22, -15));
assertRangeListsEqual(
'Negative ranges should work fine.',
[[-22, -15], [1, 3], [7, 12], [13, 18]], r.ranges_);
r.add(new goog.math.Range(3.1, 6.9));
assertRangeListsEqual(
'Non-integer ranges should work fine.',
[[-22, -15], [1, 3], [3.1, 6.9], [7, 12], [13, 18]], r.ranges_);
}
function testAddWithOverlaps() {
var r = new goog.math.RangeSet();
r.add(new goog.math.Range(7, 12));
r.add(new goog.math.Range(5, 8));
assertRangeListsEqual([[5, 12]], r.ranges_);
r.add(new goog.math.Range(15, 20));
r.add(new goog.math.Range(18, 25));
assertRangeListsEqual([[5, 12], [15, 25]], r.ranges_);
r.add(new goog.math.Range(10, 17));
assertRangeListsEqual([[5, 25]], r.ranges_);
r.add(new goog.math.Range(-4, 4.5));
assertRangeListsEqual([[-4, 4.5], [5, 25]], r.ranges_);
r.add(new goog.math.Range(4.2, 5.3));
assertRangeListsEqual([[-4, 25]], r.ranges_);
}
function testAddWithAdjacentSpans() {
var r = new goog.math.RangeSet();
r.add(new goog.math.Range(7, 12));
r.add(new goog.math.Range(13, 19));
assertRangeListsEqual([[7, 12], [13, 19]], r.ranges_);
r.add(new goog.math.Range(4, 6));
assertRangeListsEqual([[4, 6], [7, 12], [13, 19]], r.ranges_);
r.add(new goog.math.Range(6, 7));
assertRangeListsEqual([[4, 12], [13, 19]], r.ranges_);
r.add(new goog.math.Range(12, 13));
assertRangeListsEqual([[4, 19]], r.ranges_);
r.add(new goog.math.Range(19.1, 22));
assertRangeListsEqual([[4, 19], [19.1, 22]], r.ranges_);
r.add(new goog.math.Range(19, 19.1));
assertRangeListsEqual([[4, 22]], r.ranges_);
r.add(new goog.math.Range(-3, -2));
assertRangeListsEqual([[-3, -2], [4, 22]], r.ranges_);
r.add(new goog.math.Range(-2, 4));
assertRangeListsEqual([[-3, 22]], r.ranges_);
}
function testAddWithSubsets() {
var r = new goog.math.RangeSet();
r.add(new goog.math.Range(7, 12));
assertRangeListsEqual([[7, 12]], r.ranges_);
r.add(new goog.math.Range(7, 12));
assertRangeListsEqual([[7, 12]], r.ranges_);
r.add(new goog.math.Range(8, 11));
assertRangeListsEqual([[7, 12]], r.ranges_);
for (var i = 20; i < 30; i += 2) {
r.add(new goog.math.Range(i, i + 1));
}
assertRangeListsEqual(
[[7, 12], [20, 21], [22, 23], [24, 25], [26, 27], [28, 29]], r.ranges_);
r.add(new goog.math.Range(1, 30));
assertRangeListsEqual([[1, 30]], r.ranges_);
}
function testRemove() {
var r = new goog.math.RangeSet();
r.add(new goog.math.Range(1, 3));
r.add(new goog.math.Range(7, 8));
r.add(new goog.math.Range(10, 20));
r.remove(new goog.math.Range(3, 6));
assertRangeListsEqual([[1, 3], [7, 8], [10, 20]], r.ranges_);
r.remove(new goog.math.Range(7, 8));
assertRangeListsEqual([[1, 3], [10, 20]], r.ranges_);
r.remove(new goog.math.Range(1, 3));
assertRangeListsEqual([[10, 20]], r.ranges_);
r.remove(new goog.math.Range(8, 11));
assertRangeListsEqual([[11, 20]], r.ranges_);
r.remove(new goog.math.Range(18, 25));
assertRangeListsEqual([[11, 18]], r.ranges_);
r.remove(new goog.math.Range(15, 16));
assertRangeListsEqual([[11, 15], [16, 18]], r.ranges_);
r.remove(new goog.math.Range(11, 15));
assertRangeListsEqual([[16, 18]], r.ranges_);
r.remove(new goog.math.Range(16, 16));
assertRangeListsEqual(
'Empty ranges should be ignored.', [[16, 18]], r.ranges_);
r.remove(new goog.math.Range(16, 17));
assertRangeListsEqual([[17, 18]], r.ranges_);
r.remove(new goog.math.Range(17, 18));
assertRangeListsEqual([], r.ranges_);
}
function testRemoveWithNonOverlappingRanges() {
var r = new goog.math.RangeSet();
r.add(new goog.math.Range(10, 20));
r.remove(new goog.math.Range(5, 8));
assertRangeListsEqual(
'Non-overlapping ranges should be ignored.', [[10, 20]], r.ranges_);
r.remove(new goog.math.Range(20, 30));
assertRangeListsEqual(
'Non-overlapping ranges should be ignored.', [[10, 20]], r.ranges_);
r.remove(new goog.math.Range(15, 15));
assertRangeListsEqual(
'Zero-length ranges should be ignored.', [[10, 20]], r.ranges_);
}
function testRemoveWithIdenticalRanges() {
var r = new goog.math.RangeSet();
r.add(new goog.math.Range(10, 20));
r.add(new goog.math.Range(30, 40));
r.add(new goog.math.Range(50, 60));
assertRangeListsEqual([[10, 20], [30, 40], [50, 60]], r.ranges_);
r.remove(new goog.math.Range(30, 40));
assertRangeListsEqual([[10, 20], [50, 60]], r.ranges_);
r.remove(new goog.math.Range(50, 60));
assertRangeListsEqual([[10, 20]], r.ranges_);
r.remove(new goog.math.Range(10, 20));
assertRangeListsEqual([], r.ranges_);
}
function testRemoveWithOverlappingSubsets() {
var r = new goog.math.RangeSet();
r.add(new goog.math.Range(1, 10));
r.remove(new goog.math.Range(1, 4));
assertRangeListsEqual([[4, 10]], r.ranges_);
r.remove(new goog.math.Range(8, 10));
assertRangeListsEqual([[4, 8]], r.ranges_);
}
function testRemoveMultiple() {
var r = new goog.math.RangeSet();
r.add(new goog.math.Range(5, 8));
r.add(new goog.math.Range(10, 20));
r.add(new goog.math.Range(30, 35));
for (var i = 20; i < 30; i += 2) {
r.add(new goog.math.Range(i, i + 1));
}
assertRangeListsEqual(
'Setting up the test data seems to have failed, how embarrassing.',
[[5, 8], [10, 21], [22, 23], [24, 25], [26, 27], [28, 29], [30, 35]],
r.ranges_);
r.remove(new goog.math.Range(15, 32));
assertRangeListsEqual([[5, 8], [10, 15], [32, 35]], r.ranges_);
}
function testRemoveWithRealNumbers() {
var r = new goog.math.RangeSet();
r.add(new goog.math.Range(2, 4));
r.remove(new goog.math.Range(1.1, 2.72));
assertRangeListsEqual([[2.72, 4]], r.ranges_);
r.remove(new goog.math.Range(3.14, 5));
assertRangeListsEqual([[2.72, 3.14]], r.ranges_);
r.remove(new goog.math.Range(2.8, 3));
assertRangeListsEqual([[2.72, 2.8], [3, 3.14]], r.ranges_);
}
function testEquals() {
var a = new goog.math.RangeSet();
var b = new goog.math.RangeSet();
assertTrue(goog.math.RangeSet.equals(a, b));
a.add(new goog.math.Range(3, 9));
assertFalse(goog.math.RangeSet.equals(a, b));
b.add(new goog.math.Range(4, 9));
assertFalse(goog.math.RangeSet.equals(a, b));
b.add(new goog.math.Range(3, 4));
assertTrue(goog.math.RangeSet.equals(a, b));
a.add(new goog.math.Range(12, 14));
b.add(new goog.math.Range(11, 14));
assertFalse(goog.math.RangeSet.equals(a, b));
a.add(new goog.math.Range(11, 12));
assertTrue(goog.math.RangeSet.equals(a, b));
}
function testContains() {
var r = new goog.math.RangeSet();
assertFalse(r.contains(7, 9));
r.add(new goog.math.Range(5, 6));
r.add(new goog.math.Range(10, 20));
assertFalse(r.contains(new goog.math.Range(7, 9)));
assertFalse(r.contains(new goog.math.Range(9, 11)));
assertFalse(r.contains(new goog.math.Range(18, 22)));
assertTrue(r.contains(new goog.math.Range(17, 19)));
assertTrue(r.contains(new goog.math.Range(5, 6)));
assertTrue(r.contains(new goog.math.Range(5.9, 5.999)));
assertFalse(
'An empty input range should always return false.',
r.contains(new goog.math.Range(15, 15)));
var badRange = new goog.math.Range(15, 15);
badRange.end = 14;
assertFalse(
'An invalid range should always return false.', r.contains(badRange));
}
function testContainsValue() {
var r = new goog.math.RangeSet();
assertFalse(r.containsValue(5));
r.add(new goog.math.Range(1, 4));
r.add(new goog.math.Range(10, 20));
assertFalse(r.containsValue(0));
assertFalse(r.containsValue(0.999));
assertFalse(r.containsValue(5));
assertFalse(r.containsValue(25));
assertFalse(r.containsValue(20));
assertTrue(r.containsValue(3));
assertTrue(r.containsValue(10));
assertTrue(r.containsValue(19));
assertTrue(r.containsValue(19.999));
}
function testUnion() {
var a = new goog.math.RangeSet();
a.add(new goog.math.Range(1, 5));
a.add(new goog.math.Range(10, 11));
a.add(new goog.math.Range(15, 20));
var b = new goog.math.RangeSet();
b.add(new goog.math.Range(0, 5));
b.add(new goog.math.Range(8, 18));
var test = a.union(b);
assertRangeListsEqual([[0, 5], [8, 20]], test.ranges_);
var test = b.union(a);
assertRangeListsEqual([[0, 5], [8, 20]], test.ranges_);
var test = a.union(a);
assertRangeListsEqual(a.ranges_, test.ranges_);
}
function testDifference() {
var a = new goog.math.RangeSet();
a.add(new goog.math.Range(1, 5));
a.add(new goog.math.Range(10, 11));
a.add(new goog.math.Range(15, 20));
var b = new goog.math.RangeSet();
b.add(new goog.math.Range(0, 5));
b.add(new goog.math.Range(8, 18));
var test = a.difference(b);
assertRangeListsEqual([[18, 20]], test.ranges_);
var test = b.difference(a);
assertRangeListsEqual([[0, 1], [8, 10], [11, 15]], test.ranges_);
var test = a.difference(a);
assertRangeListsEqual([], test.ranges_);
var test = b.difference(b);
assertRangeListsEqual([], test.ranges_);
}
function testIntersection() {
var a = new goog.math.RangeSet();
a.add(new goog.math.Range(1, 5));
a.add(new goog.math.Range(10, 11));
a.add(new goog.math.Range(15, 20));
var b = new goog.math.RangeSet();
b.add(new goog.math.Range(0, 5));
b.add(new goog.math.Range(8, 18));
var test = a.intersection(b);
assertRangeListsEqual([[1, 5], [10, 11], [15, 18]], test.ranges_);
var test = b.intersection(a);
assertRangeListsEqual([[1, 5], [10, 11], [15, 18]], test.ranges_);
var test = a.intersection(a);
assertRangeListsEqual(a.ranges_, test.ranges_);
}
function testSlice() {
var r = new goog.math.RangeSet();
r.add(new goog.math.Range(2, 4));
r.add(new goog.math.Range(5, 6));
r.add(new goog.math.Range(9, 15));
var test = r.slice(new goog.math.Range(0, 2));
assertRangeListsEqual([], test.ranges_);
test = r.slice(new goog.math.Range(2, 4));
assertRangeListsEqual([[2, 4]], test.ranges_);
test = r.slice(new goog.math.Range(7, 20));
assertRangeListsEqual([[9, 15]], test.ranges_);
test = r.slice(new goog.math.Range(4, 30));
assertRangeListsEqual([[5, 6], [9, 15]], test.ranges_);
test = r.slice(new goog.math.Range(2, 15));
assertRangeListsEqual([[2, 4], [5, 6], [9, 15]], test.ranges_);
test = r.slice(new goog.math.Range(10, 10));
assertRangeListsEqual(
'An empty range should produce an empty set.', [], test.ranges_);
var badRange = new goog.math.Range(10, 10);
badRange.end = 9;
test = r.slice(badRange);
assertRangeListsEqual(
'An invalid range should produce an empty set.', [], test.ranges_);
}
function testInverse() {
var r = new goog.math.RangeSet();
r.add(new goog.math.Range(1, 3));
r.add(new goog.math.Range(5, 6));
r.add(new goog.math.Range(8, 10));
var test = r.inverse(new goog.math.Range(10, 20));
assertRangeListsEqual([[10, 20]], test.ranges_);
test = r.inverse(new goog.math.Range(1, 3));
assertRangeListsEqual([], test.ranges_);
test = r.inverse(new goog.math.Range(0, 2));
assertRangeListsEqual([[0, 1]], test.ranges_);
test = r.inverse(new goog.math.Range(9, 12));
assertRangeListsEqual([[10, 12]], test.ranges_);
test = r.inverse(new goog.math.Range(2, 9));
assertRangeListsEqual([[3, 5], [6, 8]], test.ranges_);
test = r.inverse(new goog.math.Range(4, 9));
assertRangeListsEqual([[4, 5], [6, 8]], test.ranges_);
test = r.inverse(new goog.math.Range(9, 9));
assertRangeListsEqual(
'An empty range should produce an empty set.', [], test.ranges_);
var badRange = new goog.math.Range(9, 9);
badRange.end = 8;
test = r.inverse(badRange);
assertRangeListsEqual(
'An invalid range should produce an empty set.', [], test.ranges_);
}
function testCoveredLength() {
var r = new goog.math.RangeSet();
assertEquals(0, r.coveredLength());
r.add(new goog.math.Range(5, 9));
assertEquals(4, r.coveredLength());
r.add(new goog.math.Range(0, 3));
r.add(new goog.math.Range(12, 13));
assertEquals(8, r.coveredLength());
r.add(new goog.math.Range(-1, 13));
assertEquals(14, r.coveredLength());
r.add(new goog.math.Range(13, 13.5));
assertEquals(14.5, r.coveredLength());
}
function testGetBounds() {
var r = new goog.math.RangeSet();
assertNull(r.getBounds());
r.add(new goog.math.Range(12, 54));
assertRangesEqual([12, 54], r.getBounds());
r.add(new goog.math.Range(108, 139));
assertRangesEqual([12, 139], r.getBounds());
}
function testIsEmpty() {
var r = new goog.math.RangeSet();
assertTrue(r.isEmpty());
r.add(new goog.math.Range(0, 1));
assertFalse(r.isEmpty());
r.remove(new goog.math.Range(0, 1));
assertTrue(r.isEmpty());
}
function testClear() {
var r = new goog.math.RangeSet();
r.add(new goog.math.Range(1, 2));
r.add(new goog.math.Range(3, 5));
r.add(new goog.math.Range(8, 13));
assertFalse(r.isEmpty());
r.clear();
assertTrue(r.isEmpty());
}
function testIter() {
var r = new goog.math.RangeSet();
r.add(new goog.math.Range(1, 3));
r.add(new goog.math.Range(5, 6));
r.add(new goog.math.Range(8, 10));
assertRangeListsEqual([[1, 3], [5, 6], [8, 10]], goog.iter.toArray(r));
var i = 0;
goog.iter.forEach(r, function(testRange) {
assertRangesEqual(
'Iterated set values should match the originals.', r.ranges_[i],
testRange);
assertNotEquals(
'Iterated range should not be a reference to the original.',
r.ranges_[i], testRange);
i++;
});
}
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