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heap.js
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heap.js
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/**
* Mnemonist Binary Heap
* ======================
*
* Binary heap implementation.
*/
var forEach = require('obliterator/foreach'),
comparators = require('./utils/comparators.js'),
iterables = require('./utils/iterables.js');
var DEFAULT_COMPARATOR = comparators.DEFAULT_COMPARATOR,
reverseComparator = comparators.reverseComparator;
/**
* Heap helper functions.
*/
/**
* Function used to sift down.
*
* @param {function} compare - Comparison function.
* @param {array} heap - Array storing the heap's data.
* @param {number} startIndex - Starting index.
* @param {number} i - Index.
*/
function siftDown(compare, heap, startIndex, i) {
var item = heap[i],
parentIndex,
parent;
while (i > startIndex) {
parentIndex = (i - 1) >> 1;
parent = heap[parentIndex];
if (compare(item, parent) < 0) {
heap[i] = parent;
i = parentIndex;
continue;
}
break;
}
heap[i] = item;
}
/**
* Function used to sift up.
*
* @param {function} compare - Comparison function.
* @param {array} heap - Array storing the heap's data.
* @param {number} i - Index.
*/
function siftUp(compare, heap, i) {
var endIndex = heap.length,
startIndex = i,
item = heap[i],
childIndex = 2 * i + 1,
rightIndex;
while (childIndex < endIndex) {
rightIndex = childIndex + 1;
if (
rightIndex < endIndex &&
compare(heap[childIndex], heap[rightIndex]) >= 0
) {
childIndex = rightIndex;
}
heap[i] = heap[childIndex];
i = childIndex;
childIndex = 2 * i + 1;
}
heap[i] = item;
siftDown(compare, heap, startIndex, i);
}
/**
* Function used to push an item into a heap represented by a raw array.
*
* @param {function} compare - Comparison function.
* @param {array} heap - Array storing the heap's data.
* @param {any} item - Item to push.
*/
function push(compare, heap, item) {
heap.push(item);
siftDown(compare, heap, 0, heap.length - 1);
}
/**
* Function used to pop an item from a heap represented by a raw array.
*
* @param {function} compare - Comparison function.
* @param {array} heap - Array storing the heap's data.
* @return {any}
*/
function pop(compare, heap) {
var lastItem = heap.pop();
if (heap.length !== 0) {
var item = heap[0];
heap[0] = lastItem;
siftUp(compare, heap, 0);
return item;
}
return lastItem;
}
/**
* Function used to pop the heap then push a new value into it, thus "replacing"
* it.
*
* @param {function} compare - Comparison function.
* @param {array} heap - Array storing the heap's data.
* @param {any} item - The item to push.
* @return {any}
*/
function replace(compare, heap, item) {
if (heap.length === 0)
throw new Error('mnemonist/heap.replace: cannot pop an empty heap.');
var popped = heap[0];
heap[0] = item;
siftUp(compare, heap, 0);
return popped;
}
/**
* Function used to push an item in the heap then pop the heap and return the
* popped value.
*
* @param {function} compare - Comparison function.
* @param {array} heap - Array storing the heap's data.
* @param {any} item - The item to push.
* @return {any}
*/
function pushpop(compare, heap, item) {
var tmp;
if (heap.length !== 0 && compare(heap[0], item) < 0) {
tmp = heap[0];
heap[0] = item;
item = tmp;
siftUp(compare, heap, 0);
}
return item;
}
/**
* Converts and array into an abstract heap in linear time.
*
* @param {function} compare - Comparison function.
* @param {array} array - Target array.
*/
function heapify(compare, array) {
var n = array.length,
l = n >> 1,
i = l;
while (--i >= 0)
siftUp(compare, array, i);
}
/**
* Fully consumes the given heap.
*
* @param {function} compare - Comparison function.
* @param {array} heap - Array storing the heap's data.
* @return {array}
*/
function consume(compare, heap) {
var l = heap.length,
i = 0;
var array = new Array(l);
while (i < l)
array[i++] = pop(compare, heap);
return array;
}
/**
* Function used to retrieve the n smallest items from the given iterable.
*
* @param {function} compare - Comparison function.
* @param {number} n - Number of top items to retrieve.
* @param {any} iterable - Arbitrary iterable.
* @param {array}
*/
function nsmallest(compare, n, iterable) {
if (arguments.length === 2) {
iterable = n;
n = compare;
compare = DEFAULT_COMPARATOR;
}
var reverseCompare = reverseComparator(compare);
var i, l, v;
var min = Infinity;
var result;
// If n is equal to 1, it's just a matter of finding the minimum
if (n === 1) {
if (iterables.isArrayLike(iterable)) {
for (i = 0, l = iterable.length; i < l; i++) {
v = iterable[i];
if (min === Infinity || compare(v, min) < 0)
min = v;
}
result = new iterable.constructor(1);
result[0] = min;
return result;
}
forEach(iterable, function(value) {
if (min === Infinity || compare(value, min) < 0)
min = value;
});
return [min];
}
if (iterables.isArrayLike(iterable)) {
// If n > iterable length, we just clone and sort
if (n >= iterable.length)
return iterable.slice().sort(compare);
result = iterable.slice(0, n);
heapify(reverseCompare, result);
for (i = n, l = iterable.length; i < l; i++)
if (reverseCompare(iterable[i], result[0]) > 0)
replace(reverseCompare, result, iterable[i]);
// NOTE: if n is over some number, it becomes faster to consume the heap
return result.sort(compare);
}
// Correct for size
var size = iterables.guessLength(iterable);
if (size !== null && size < n)
n = size;
result = new Array(n);
i = 0;
forEach(iterable, function(value) {
if (i < n) {
result[i] = value;
}
else {
if (i === n)
heapify(reverseCompare, result);
if (reverseCompare(value, result[0]) > 0)
replace(reverseCompare, result, value);
}
i++;
});
if (result.length > i)
result.length = i;
// NOTE: if n is over some number, it becomes faster to consume the heap
return result.sort(compare);
}
/**
* Function used to retrieve the n largest items from the given iterable.
*
* @param {function} compare - Comparison function.
* @param {number} n - Number of top items to retrieve.
* @param {any} iterable - Arbitrary iterable.
* @param {array}
*/
function nlargest(compare, n, iterable) {
if (arguments.length === 2) {
iterable = n;
n = compare;
compare = DEFAULT_COMPARATOR;
}
var reverseCompare = reverseComparator(compare);
var i, l, v;
var max = -Infinity;
var result;
// If n is equal to 1, it's just a matter of finding the maximum
if (n === 1) {
if (iterables.isArrayLike(iterable)) {
for (i = 0, l = iterable.length; i < l; i++) {
v = iterable[i];
if (max === -Infinity || compare(v, max) > 0)
max = v;
}
result = new iterable.constructor(1);
result[0] = max;
return result;
}
forEach(iterable, function(value) {
if (max === -Infinity || compare(value, max) > 0)
max = value;
});
return [max];
}
if (iterables.isArrayLike(iterable)) {
// If n > iterable length, we just clone and sort
if (n >= iterable.length)
return iterable.slice().sort(reverseCompare);
result = iterable.slice(0, n);
heapify(compare, result);
for (i = n, l = iterable.length; i < l; i++)
if (compare(iterable[i], result[0]) > 0)
replace(compare, result, iterable[i]);
// NOTE: if n is over some number, it becomes faster to consume the heap
return result.sort(reverseCompare);
}
// Correct for size
var size = iterables.guessLength(iterable);
if (size !== null && size < n)
n = size;
result = new Array(n);
i = 0;
forEach(iterable, function(value) {
if (i < n) {
result[i] = value;
}
else {
if (i === n)
heapify(compare, result);
if (compare(value, result[0]) > 0)
replace(compare, result, value);
}
i++;
});
if (result.length > i)
result.length = i;
// NOTE: if n is over some number, it becomes faster to consume the heap
return result.sort(reverseCompare);
}
/**
* Binary Minimum Heap.
*
* @constructor
* @param {function} comparator - Comparator function to use.
*/
function Heap(comparator) {
this.clear();
this.comparator = comparator || DEFAULT_COMPARATOR;
if (typeof this.comparator !== 'function')
throw new Error('mnemonist/Heap.constructor: given comparator should be a function.');
}
/**
* Method used to clear the heap.
*
* @return {undefined}
*/
Heap.prototype.clear = function() {
// Properties
this.items = [];
this.size = 0;
};
/**
* Method used to push an item into the heap.
*
* @param {any} item - Item to push.
* @return {number}
*/
Heap.prototype.push = function(item) {
push(this.comparator, this.items, item);
return ++this.size;
};
/**
* Method used to retrieve the "first" item of the heap.
*
* @return {any}
*/
Heap.prototype.peek = function() {
return this.items[0];
};
/**
* Method used to retrieve & remove the "first" item of the heap.
*
* @return {any}
*/
Heap.prototype.pop = function() {
if (this.size !== 0)
this.size--;
return pop(this.comparator, this.items);
};
/**
* Method used to pop the heap, then push an item and return the popped
* item.
*
* @param {any} item - Item to push into the heap.
* @return {any}
*/
Heap.prototype.replace = function(item) {
return replace(this.comparator, this.items, item);
};
/**
* Method used to push the heap, the pop it and return the pooped item.
*
* @param {any} item - Item to push into the heap.
* @return {any}
*/
Heap.prototype.pushpop = function(item) {
return pushpop(this.comparator, this.items, item);
};
/**
* Method used to consume the heap fully and return its items as a sorted array.
*
* @return {array}
*/
Heap.prototype.consume = function() {
this.size = 0;
return consume(this.comparator, this.items);
};
/**
* Method used to convert the heap to an array. Note that it basically clone
* the heap and consumes it completely. This is hardly performant.
*
* @return {array}
*/
Heap.prototype.toArray = function() {
return consume(this.comparator, this.items.slice());
};
/**
* Convenience known methods.
*/
Heap.prototype.inspect = function() {
var proxy = this.toArray();
// Trick so that node displays the name of the constructor
Object.defineProperty(proxy, 'constructor', {
value: Heap,
enumerable: false
});
return proxy;
};
if (typeof Symbol !== 'undefined')
Heap.prototype[Symbol.for('nodejs.util.inspect.custom')] = Heap.prototype.inspect;
/**
* Binary Maximum Heap.
*
* @constructor
* @param {function} comparator - Comparator function to use.
*/
function MaxHeap(comparator) {
this.clear();
this.comparator = comparator || DEFAULT_COMPARATOR;
if (typeof this.comparator !== 'function')
throw new Error('mnemonist/MaxHeap.constructor: given comparator should be a function.');
this.comparator = reverseComparator(this.comparator);
}
MaxHeap.prototype = Heap.prototype;
/**
* Static @.from function taking an arbitrary iterable & converting it into
* a heap.
*
* @param {Iterable} iterable - Target iterable.
* @param {function} comparator - Custom comparator function.
* @return {Heap}
*/
Heap.from = function(iterable, comparator) {
var heap = new Heap(comparator);
var items;
// If iterable is an array, we can be clever about it
if (iterables.isArrayLike(iterable))
items = iterable.slice();
else
items = iterables.toArray(iterable);
heapify(heap.comparator, items);
heap.items = items;
heap.size = items.length;
return heap;
};
MaxHeap.from = function(iterable, comparator) {
var heap = new MaxHeap(comparator);
var items;
// If iterable is an array, we can be clever about it
if (iterables.isArrayLike(iterable))
items = iterable.slice();
else
items = iterables.toArray(iterable);
heapify(heap.comparator, items);
heap.items = items;
heap.size = items.length;
return heap;
};
/**
* Exporting.
*/
Heap.siftUp = siftUp;
Heap.siftDown = siftDown;
Heap.push = push;
Heap.pop = pop;
Heap.replace = replace;
Heap.pushpop = pushpop;
Heap.heapify = heapify;
Heap.consume = consume;
Heap.nsmallest = nsmallest;
Heap.nlargest = nlargest;
Heap.MinHeap = Heap;
Heap.MaxHeap = MaxHeap;
module.exports = Heap;