source: trip-planner-front/node_modules/source-map/lib/binary-search.js@ eed0bf8

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1/* -*- Mode: js; js-indent-level: 2; -*- */
2/*
3 * Copyright 2011 Mozilla Foundation and contributors
4 * Licensed under the New BSD license. See LICENSE or:
5 * http://opensource.org/licenses/BSD-3-Clause
6 */
7
8exports.GREATEST_LOWER_BOUND = 1;
9exports.LEAST_UPPER_BOUND = 2;
10
11/**
12 * Recursive implementation of binary search.
13 *
14 * @param aLow Indices here and lower do not contain the needle.
15 * @param aHigh Indices here and higher do not contain the needle.
16 * @param aNeedle The element being searched for.
17 * @param aHaystack The non-empty array being searched.
18 * @param aCompare Function which takes two elements and returns -1, 0, or 1.
19 * @param aBias Either 'binarySearch.GREATEST_LOWER_BOUND' or
20 * 'binarySearch.LEAST_UPPER_BOUND'. Specifies whether to return the
21 * closest element that is smaller than or greater than the one we are
22 * searching for, respectively, if the exact element cannot be found.
23 */
24function recursiveSearch(aLow, aHigh, aNeedle, aHaystack, aCompare, aBias) {
25 // This function terminates when one of the following is true:
26 //
27 // 1. We find the exact element we are looking for.
28 //
29 // 2. We did not find the exact element, but we can return the index of
30 // the next-closest element.
31 //
32 // 3. We did not find the exact element, and there is no next-closest
33 // element than the one we are searching for, so we return -1.
34 const mid = Math.floor((aHigh - aLow) / 2) + aLow;
35 const cmp = aCompare(aNeedle, aHaystack[mid], true);
36 if (cmp === 0) {
37 // Found the element we are looking for.
38 return mid;
39 } else if (cmp > 0) {
40 // Our needle is greater than aHaystack[mid].
41 if (aHigh - mid > 1) {
42 // The element is in the upper half.
43 return recursiveSearch(mid, aHigh, aNeedle, aHaystack, aCompare, aBias);
44 }
45
46 // The exact needle element was not found in this haystack. Determine if
47 // we are in termination case (3) or (2) and return the appropriate thing.
48 if (aBias == exports.LEAST_UPPER_BOUND) {
49 return aHigh < aHaystack.length ? aHigh : -1;
50 }
51 return mid;
52 }
53
54 // Our needle is less than aHaystack[mid].
55 if (mid - aLow > 1) {
56 // The element is in the lower half.
57 return recursiveSearch(aLow, mid, aNeedle, aHaystack, aCompare, aBias);
58 }
59
60 // we are in termination case (3) or (2) and return the appropriate thing.
61 if (aBias == exports.LEAST_UPPER_BOUND) {
62 return mid;
63 }
64 return aLow < 0 ? -1 : aLow;
65}
66
67/**
68 * This is an implementation of binary search which will always try and return
69 * the index of the closest element if there is no exact hit. This is because
70 * mappings between original and generated line/col pairs are single points,
71 * and there is an implicit region between each of them, so a miss just means
72 * that you aren't on the very start of a region.
73 *
74 * @param aNeedle The element you are looking for.
75 * @param aHaystack The array that is being searched.
76 * @param aCompare A function which takes the needle and an element in the
77 * array and returns -1, 0, or 1 depending on whether the needle is less
78 * than, equal to, or greater than the element, respectively.
79 * @param aBias Either 'binarySearch.GREATEST_LOWER_BOUND' or
80 * 'binarySearch.LEAST_UPPER_BOUND'. Specifies whether to return the
81 * closest element that is smaller than or greater than the one we are
82 * searching for, respectively, if the exact element cannot be found.
83 * Defaults to 'binarySearch.GREATEST_LOWER_BOUND'.
84 */
85exports.search = function search(aNeedle, aHaystack, aCompare, aBias) {
86 if (aHaystack.length === 0) {
87 return -1;
88 }
89
90 let index = recursiveSearch(-1, aHaystack.length, aNeedle, aHaystack,
91 aCompare, aBias || exports.GREATEST_LOWER_BOUND);
92 if (index < 0) {
93 return -1;
94 }
95
96 // We have found either the exact element, or the next-closest element than
97 // the one we are searching for. However, there may be more than one such
98 // element. Make sure we always return the smallest of these.
99 while (index - 1 >= 0) {
100 if (aCompare(aHaystack[index], aHaystack[index - 1], true) !== 0) {
101 break;
102 }
103 --index;
104 }
105
106 return index;
107};
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