Innovenergy_trunk/frontend/node_modules/graphlib/lib/data/priority-queue.js

var _ = require("../lodash");

module.exports = PriorityQueue;

/**
 * A min-priority queue data structure. This algorithm is derived from Cormen,
 * et al., "Introduction to Algorithms". The basic idea of a min-priority
 * queue is that you can efficiently (in O(1) time) get the smallest key in
 * the queue. Adding and removing elements takes O(log n) time. A key can
 * have its priority decreased in O(log n) time.
 */
function PriorityQueue() {
  this._arr = [];
  this._keyIndices = {};
}

/**
 * Returns the number of elements in the queue. Takes `O(1)` time.
 */
PriorityQueue.prototype.size = function() {
  return this._arr.length;
};

/**
 * Returns the keys that are in the queue. Takes `O(n)` time.
 */
PriorityQueue.prototype.keys = function() {
  return this._arr.map(function(x) { return x.key; });
};

/**
 * Returns `true` if **key** is in the queue and `false` if not.
 */
PriorityQueue.prototype.has = function(key) {
  return _.has(this._keyIndices, key);
};

/**
 * Returns the priority for **key**. If **key** is not present in the queue
 * then this function returns `undefined`. Takes `O(1)` time.
 *
 * @param {Object} key
 */
PriorityQueue.prototype.priority = function(key) {
  var index = this._keyIndices[key];
  if (index !== undefined) {
    return this._arr[index].priority;
  }
};

/**
 * Returns the key for the minimum element in this queue. If the queue is
 * empty this function throws an Error. Takes `O(1)` time.
 */
PriorityQueue.prototype.min = function() {
  if (this.size() === 0) {
    throw new Error("Queue underflow");
  }
  return this._arr[0].key;
};

/**
 * Inserts a new key into the priority queue. If the key already exists in
 * the queue this function returns `false`; otherwise it will return `true`.
 * Takes `O(n)` time.
 *
 * @param {Object} key the key to add
 * @param {Number} priority the initial priority for the key
 */
PriorityQueue.prototype.add = function(key, priority) {
  var keyIndices = this._keyIndices;
  key = String(key);
  if (!_.has(keyIndices, key)) {
    var arr = this._arr;
    var index = arr.length;
    keyIndices[key] = index;
    arr.push({key: key, priority: priority});
    this._decrease(index);
    return true;
  }
  return false;
};

/**
 * Removes and returns the smallest key in the queue. Takes `O(log n)` time.
 */
PriorityQueue.prototype.removeMin = function() {
  this._swap(0, this._arr.length - 1);
  var min = this._arr.pop();
  delete this._keyIndices[min.key];
  this._heapify(0);
  return min.key;
};

/**
 * Decreases the priority for **key** to **priority**. If the new priority is
 * greater than the previous priority, this function will throw an Error.
 *
 * @param {Object} key the key for which to raise priority
 * @param {Number} priority the new priority for the key
 */
PriorityQueue.prototype.decrease = function(key, priority) {
  var index = this._keyIndices[key];
  if (priority > this._arr[index].priority) {
    throw new Error("New priority is greater than current priority. " +
        "Key: " + key + " Old: " + this._arr[index].priority + " New: " + priority);
  }
  this._arr[index].priority = priority;
  this._decrease(index);
};

PriorityQueue.prototype._heapify = function(i) {
  var arr = this._arr;
  var l = 2 * i;
  var r = l + 1;
  var largest = i;
  if (l < arr.length) {
    largest = arr[l].priority < arr[largest].priority ? l : largest;
    if (r < arr.length) {
      largest = arr[r].priority < arr[largest].priority ? r : largest;
    }
    if (largest !== i) {
      this._swap(i, largest);
      this._heapify(largest);
    }
  }
};

PriorityQueue.prototype._decrease = function(index) {
  var arr = this._arr;
  var priority = arr[index].priority;
  var parent;
  while (index !== 0) {
    parent = index >> 1;
    if (arr[parent].priority < priority) {
      break;
    }
    this._swap(index, parent);
    index = parent;
  }
};

PriorityQueue.prototype._swap = function(i, j) {
  var arr = this._arr;
  var keyIndices = this._keyIndices;
  var origArrI = arr[i];
  var origArrJ = arr[j];
  arr[i] = origArrJ;
  arr[j] = origArrI;
  keyIndices[origArrJ.key] = i;
  keyIndices[origArrI.key] = j;
};
adding untracked frontend and typescript files 2023-02-21 06:27:20 +00:00			`var _ = require("../lodash");`

			`module.exports = PriorityQueue;`

			`/**`
			`* A min-priority queue data structure. This algorithm is derived from Cormen,`
			`* et al., "Introduction to Algorithms". The basic idea of a min-priority`
			`* queue is that you can efficiently (in O(1) time) get the smallest key in`
			`* the queue. Adding and removing elements takes O(log n) time. A key can`
			`* have its priority decreased in O(log n) time.`
			`*/`
			`function PriorityQueue() {`
			`this._arr = [];`
			`this._keyIndices = {};`
			`}`

			`/**`
			* Returns the number of elements in the queue. Takes `O(1)` time.
			`*/`
			`PriorityQueue.prototype.size = function() {`
			`return this._arr.length;`
			`};`

			`/**`
			* Returns the keys that are in the queue. Takes `O(n)` time.
			`*/`
			`PriorityQueue.prototype.keys = function() {`
			`return this._arr.map(function(x) { return x.key; });`
			`};`

			`/**`
			* Returns `true` if key is in the queue and `false` if not.
			`*/`
			`PriorityQueue.prototype.has = function(key) {`
			`return _.has(this._keyIndices, key);`
			`};`

			`/**`
			`* Returns the priority for key. If key is not present in the queue`
			* then this function returns `undefined`. Takes `O(1)` time.
			`*`
			`* @param {Object} key`
			`*/`
			`PriorityQueue.prototype.priority = function(key) {`
			`var index = this._keyIndices[key];`
			`if (index !== undefined) {`
			`return this._arr[index].priority;`
			`}`
			`};`

			`/**`
			`* Returns the key for the minimum element in this queue. If the queue is`
			* empty this function throws an Error. Takes `O(1)` time.
			`*/`
			`PriorityQueue.prototype.min = function() {`
			`if (this.size() === 0) {`
			`throw new Error("Queue underflow");`
			`}`
			`return this._arr[0].key;`
			`};`

			`/**`
			`* Inserts a new key into the priority queue. If the key already exists in`
			* the queue this function returns `false`; otherwise it will return `true`.
			* Takes `O(n)` time.
			`*`
			`* @param {Object} key the key to add`
			`* @param {Number} priority the initial priority for the key`
			`*/`
			`PriorityQueue.prototype.add = function(key, priority) {`
			`var keyIndices = this._keyIndices;`
			`key = String(key);`
			`if (!_.has(keyIndices, key)) {`
			`var arr = this._arr;`
			`var index = arr.length;`
			`keyIndices[key] = index;`
			`arr.push({key: key, priority: priority});`
			`this._decrease(index);`
			`return true;`
			`}`
			`return false;`
			`};`

			`/**`
			* Removes and returns the smallest key in the queue. Takes `O(log n)` time.
			`*/`
			`PriorityQueue.prototype.removeMin = function() {`
			`this._swap(0, this._arr.length - 1);`
			`var min = this._arr.pop();`
			`delete this._keyIndices[min.key];`
			`this._heapify(0);`
			`return min.key;`
			`};`

			`/**`
			`* Decreases the priority for key to priority. If the new priority is`
			`* greater than the previous priority, this function will throw an Error.`
			`*`
			`* @param {Object} key the key for which to raise priority`
			`* @param {Number} priority the new priority for the key`
			`*/`
			`PriorityQueue.prototype.decrease = function(key, priority) {`
			`var index = this._keyIndices[key];`
			`if (priority > this._arr[index].priority) {`
			`throw new Error("New priority is greater than current priority. " +`
			`"Key: " + key + " Old: " + this._arr[index].priority + " New: " + priority);`
			`}`
			`this._arr[index].priority = priority;`
			`this._decrease(index);`
			`};`

			`PriorityQueue.prototype._heapify = function(i) {`
			`var arr = this._arr;`
			`var l = 2 * i;`
			`var r = l + 1;`
			`var largest = i;`
			`if (l < arr.length) {`
			`largest = arr[l].priority < arr[largest].priority ? l : largest;`
			`if (r < arr.length) {`
			`largest = arr[r].priority < arr[largest].priority ? r : largest;`
			`}`
			`if (largest !== i) {`
			`this._swap(i, largest);`
			`this._heapify(largest);`
			`}`
			`}`
			`};`

			`PriorityQueue.prototype._decrease = function(index) {`
			`var arr = this._arr;`
			`var priority = arr[index].priority;`
			`var parent;`
			`while (index !== 0) {`
			`parent = index >> 1;`
			`if (arr[parent].priority < priority) {`
			`break;`
			`}`
			`this._swap(index, parent);`
			`index = parent;`
			`}`
			`};`

			`PriorityQueue.prototype._swap = function(i, j) {`
			`var arr = this._arr;`
			`var keyIndices = this._keyIndices;`
			`var origArrI = arr[i];`
			`var origArrJ = arr[j];`
			`arr[i] = origArrJ;`
			`arr[j] = origArrI;`
			`keyIndices[origArrJ.key] = i;`
			`keyIndices[origArrI.key] = j;`
			`};`