wekan/packages/wekan-cfs-reactive-list/reactive-list.js

// #ReactiveList
// Provides a simple reactive list interface
var _noopCallback = function() {};

var _nonReactive = {
  changed: _noopCallback,
  depend: _noopCallback
};

/** @method ReactiveList Keeps a reactive list of key+value items
  * @constructor
  * @namespace ReactiveList
  * @param {object} [options]
  * @param {function} sort The sort algorithm to use
  * @param {boolean} [reactive=true] If set false this list is not reactive
  * Example:
  * ```js
  *   var list = new ReactiveList();
  *   list.insert(1, { text: 'Hello id: 1' });
  *   list.insert(2, { text: 'Hello id: 2' });
  *   list.insert(3, { text: 'Hello id: 3' });
  *   list.update(2, { text: 'Updated 2'});
  *   list.remove(1);
  *
  *   list.forEach(function(value, key) {
  *     console.log('GOT: ' + value.text);
  *   }, true); // Set noneReactive = true, default behaviour is reactive
  *
  *   // Return from Template:
  *   Template.hello.list = function() {
  *     return list.fetch();
  *   };
  * ```
  *
  * ####Example of a sort algorithm
  * Sort can be used to define the order of the list
  * ```js
  *   var list = new ReactiveList({
  *     sort: function(a, b) {
  *       // a and b are type of { key, value }
  *       // here we sort by the key:
  *       return a.key < b.key;
  *     }
  *   });
  * ```
  * ###Object chain
  * ```
  *                   first                               last
  *  undefined -       obj       -       obj       -       obj       - undefined
  *             (prev value next) (prev value next) (prev value next)
  * ```
  */
ReactiveList = function(options) {
  var self = this;
  // Object container
  self.lookup = {};
  // Length
  self._length = 0;
  // First object in list
  self.first;
  // Last object in list
  self.last;
  // Set sort to options.sort or default to true (asc)
  self.sort = (options && options.sort || function(a, b) {
    return a.key < b.key;
  });

  // Allow user to disable reactivity, default true
  self.isReactive = (options)? options.reactive !== false : true;

  // If lifo queue
  if (options === true || options && options.sort === true) {
    self.sort = function(a, b) { return a.key > b.key; };
  }

  // Rig the dependencies
  self._listDeps = (self.isReactive)? new Deps.Dependency() : _nonReactive;

  self._lengthDeps = (self.isReactive)? new Deps.Dependency() : _nonReactive;
};

/** @method ReactiveList.prototype.length Returns the length of the list
  * @reactive
  * @returns {number} Length of the reactive list
  */
ReactiveList.prototype.length = function() {
  var self = this;
  // Make this reactive
  self._lengthDeps.depend();
  return self._length;
};

/** @method ReactiveList.prototype.reset Reset and empty the list
  * @todo Check for memory leaks, if so we have to iterate over lookup and delete the items
  */
ReactiveList.prototype.reset = function() {
  var self = this;
  // Clear the reference to the first object
  self.first = undefined;
  // Clear the reference to the last object
  self.last = undefined;
  // Clear the lookup object
  self.lookup = {};
  // Set the length to 0
  self._length = 0;
  self._lengthDeps.changed();
  // Invalidate the list
  self._listDeps.changed();
};

/** @method ReactiveList.prototype.update
  * @param {string|number} key Key to update
  * @param {any} value Update with this value
  */
ReactiveList.prototype.update = function(key, value) {
  var self = this;
  // Make sure the key is found in the list
  if (typeof self.lookup[key] === 'undefined') {
    throw new Error('Reactive list cannot update, key "' + key + '" not found');
  }
  // Set the new value
  self.lookup[key].value = value;
  // Invalidate the list
  self._listDeps.changed();
};

/** @method ReactiveList.prototype.insert
  * @param {string|number} key Key to insert
  * @param {any} value Insert item with this value
  */
ReactiveList.prototype.insert = function(key, value) {
  var self = this;
  if (typeof self.lookup[key] !== 'undefined') {
    throw new Error('Reactive list could not insert: key "' + key +
            '" allready found');
  }
  // Create the new item to insert into the list
  var newItem = { key: key, value: value };
  // Init current by pointing it at the first object in the list
  var current = self.first;
  // Init the isInserted flag
  var isInserted = false;


  // Iterate through list while not empty and item is not inserted
  while (typeof current !== 'undefined' && !isInserted) {

    // Sort the list by using the sort function
    if (self.sort(newItem, current)) {

      // Insert self.lookup[key] before
      if (typeof current.prev === 'undefined') { self.first = newItem; }

      // Set the references in the inserted object
      newItem.prev = current.prev;
      newItem.next = current;

      // Update the two existing objects
      if (current.prev) { current.prev.next = newItem; }
      current.prev = newItem;

      // Mark the item as inserted - job's done
      isInserted = true;
    }
    // Goto next object
    current = current.next;
  }


  if (!isInserted) {
    // We append it to the list
    newItem.prev = self.last;
    if (self.last) { self.last.next = newItem; }

    // Update the last pointing to newItem
    self.last = newItem;
    // Update first if we are appending to an empty list
    if (self._length === 0) { self.first = newItem; }
  }


  // Reference the object for a quick lookup option
  self.lookup[key] = newItem;
  // Increase length
  self._length++;
  self._lengthDeps.changed();
  // And invalidate the list
  self._listDeps.changed();
};

/** @method ReactiveList.prototype.remove
  * @param {string|number} key Key to remove
  */
ReactiveList.prototype.remove = function(key) {
  var self = this;
  // Get the item object
  var item = self.lookup[key];

  // Check that it exists
  if (typeof item === 'undefined') {
    return;
    // throw new Error('ReactiveList cannot remove item, unknow key "' + key +
    //        '"');
  }

  // Rig the references
  var prevItem = item.prev;
  var nextItem = item.next;

  // Update chain prev object next reference
  if (typeof prevItem !== 'undefined') {
    prevItem.next = nextItem;
  } else {
    self.first = nextItem;
  }

  // Update chain next object prev reference
  if (typeof nextItem !== 'undefined') {
    nextItem.prev = prevItem;
  } else {
    self.last = prevItem;
  }

  // Clean up
  self.lookup[key].last = null;
  self.lookup[key].prev = null;
  self.lookup[key] = null;
  prevItem = null;

  delete self.lookup[key];
  // Decrease the length
  self._length--;
  self._lengthDeps.changed();
  // Invalidate the list
  self._listDeps.changed();
};

/** @method ReactiveList.prototype.getLastItem
  * @returns {any} Pops last item from the list - removes the item from the list
  */
ReactiveList.prototype.getLastItem = function(first) {
  var self = this;

  // Get the relevant item first or last
  var item = (first)?self.first: self.last;

  if (typeof item === 'undefined') {
    return; // Empty list
  }
  // Remove the item from the list
  self.remove(item.key);
  // Return the value
  return item.value;
};

/** @method ReactiveList.prototype.getFirstItem
  * @returns {any} Pops first item from the list - removes the item from the list
  */
ReactiveList.prototype.getFirstItem = function() {
  // This gets the first item...
  return this.getLastItem(true);
};

/** @method ReactiveList.prototype.forEach
  * @param {function} f Callback `funciton(value, key)`
  * @param {boolean} [noneReactive=false] Set true if want to disable reactivity
  * @param {boolean} [reverse=false] Set true to reverse iteration `forEachReverse`
  */
ReactiveList.prototype.forEach = function(f, noneReactive, reverse) {
  var self = this;
  // Check if f is a function
  if (typeof f !== 'function') {
    throw new Error('ReactiveList forEach requires a function');
  }
  // We allow this not to be reactive
  if (!noneReactive) { self._listDeps.depend(); }
  // Set current to the first object
  var current = (reverse)?self.last: self.first;
  // Iterate over the list while its not empty
  while (current) {
    // Call the callback function
    f(current.value, current.key);
    // Jump to the next item in the list
    current = (reverse)?current.prev: current.next;
  }
};

/** @method ReactiveList.prototype.forEachReverse
  * @param {function} f Callback `funciton(value, key)`
  * @param {boolean} [noneReactive=false] Set true if want to disable reactivity
  */
ReactiveList.prototype.forEachReverse = function(f, noneReactive) {
  // Call forEach with the reverse flag
  this.forEach(f, noneReactive, true);
};

/** @method ReactiveList.prototype.fetch Returns list as array
  * @param {boolean} [noneReactive=false] Set true if want to disable reactivity
  * @reactive This can be disabled
  * @returns {array} List of items
  */
ReactiveList.prototype.fetch = function(noneReactive) {
  var self = this;
  // Init the result buffer
  var result = [];
  // Iterate over the list items
  self.forEach(function fetchCallback(value) {
    // Add the item value to the result
    result.push(value);
  }, noneReactive);
  // Return the result
  return result;
};
Fixed Non-ASCII attachment filename will crash when downloading. Thanks to xet7 ! Fixes #2759 2021-04-29 13:26:49 +03:00			`// #ReactiveList`
			`// Provides a simple reactive list interface`
			`var _noopCallback = function() {};`

			`var _nonReactive = {`
			`changed: _noopCallback,`
			`depend: _noopCallback`
			`};`

			`/** @method ReactiveList Keeps a reactive list of key+value items`
			`* @constructor`
			`* @namespace ReactiveList`
			`* @param {object} [options]`
			`* @param {function} sort The sort algorithm to use`
			`* @param {boolean} [reactive=true] If set false this list is not reactive`
			`* Example:`
			* ```js
			`* var list = new ReactiveList();`
			`* list.insert(1, { text: 'Hello id: 1' });`
			`* list.insert(2, { text: 'Hello id: 2' });`
			`* list.insert(3, { text: 'Hello id: 3' });`
			`* list.update(2, { text: 'Updated 2'});`
			`* list.remove(1);`
			`*`
			`* list.forEach(function(value, key) {`
			`* console.log('GOT: ' + value.text);`
			`* }, true); // Set noneReactive = true, default behaviour is reactive`
			`*`
			`* // Return from Template:`
			`* Template.hello.list = function() {`
			`* return list.fetch();`
			`* };`
			* ```
			`*`
			`* ####Example of a sort algorithm`
			`* Sort can be used to define the order of the list`
			* ```js
			`* var list = new ReactiveList({`
			`* sort: function(a, b) {`
			`* // a and b are type of { key, value }`
			`* // here we sort by the key:`
			`* return a.key < b.key;`
			`* }`
			`* });`
			* ```
			`* ###Object chain`
			* ```
			`* first last`
			`* undefined - obj - obj - obj - undefined`
			`* (prev value next) (prev value next) (prev value next)`
			* ```
			`*/`
			`ReactiveList = function(options) {`
			`var self = this;`
			`// Object container`
			`self.lookup = {};`
			`// Length`
			`self._length = 0;`
			`// First object in list`
			`self.first;`
			`// Last object in list`
			`self.last;`
			`// Set sort to options.sort or default to true (asc)`
			`self.sort = (options && options.sort \|\| function(a, b) {`
			`return a.key < b.key;`
			`});`

			`// Allow user to disable reactivity, default true`
			`self.isReactive = (options)? options.reactive !== false : true;`

			`// If lifo queue`
			`if (options === true \|\| options && options.sort === true) {`
			`self.sort = function(a, b) { return a.key > b.key; };`
			`}`

			`// Rig the dependencies`
			`self._listDeps = (self.isReactive)? new Deps.Dependency() : _nonReactive;`

			`self._lengthDeps = (self.isReactive)? new Deps.Dependency() : _nonReactive;`
			`};`

			`/** @method ReactiveList.prototype.length Returns the length of the list`
			`* @reactive`
			`* @returns {number} Length of the reactive list`
			`*/`
			`ReactiveList.prototype.length = function() {`
			`var self = this;`
			`// Make this reactive`
			`self._lengthDeps.depend();`
			`return self._length;`
			`};`

			`/** @method ReactiveList.prototype.reset Reset and empty the list`
			`* @todo Check for memory leaks, if so we have to iterate over lookup and delete the items`
			`*/`
			`ReactiveList.prototype.reset = function() {`
			`var self = this;`
			`// Clear the reference to the first object`
			`self.first = undefined;`
			`// Clear the reference to the last object`
			`self.last = undefined;`
			`// Clear the lookup object`
			`self.lookup = {};`
			`// Set the length to 0`
			`self._length = 0;`
			`self._lengthDeps.changed();`
			`// Invalidate the list`
			`self._listDeps.changed();`
			`};`

			`/** @method ReactiveList.prototype.update`
			`* @param {string\|number} key Key to update`
			`* @param {any} value Update with this value`
			`*/`
			`ReactiveList.prototype.update = function(key, value) {`
			`var self = this;`
			`// Make sure the key is found in the list`
			`if (typeof self.lookup[key] === 'undefined') {`
			`throw new Error('Reactive list cannot update, key "' + key + '" not found');`
			`}`
			`// Set the new value`
			`self.lookup[key].value = value;`
			`// Invalidate the list`
			`self._listDeps.changed();`
			`};`

			`/** @method ReactiveList.prototype.insert`
			`* @param {string\|number} key Key to insert`
			`* @param {any} value Insert item with this value`
			`*/`
			`ReactiveList.prototype.insert = function(key, value) {`
			`var self = this;`
			`if (typeof self.lookup[key] !== 'undefined') {`
			`throw new Error('Reactive list could not insert: key "' + key +`
			`'" allready found');`
			`}`
			`// Create the new item to insert into the list`
			`var newItem = { key: key, value: value };`
			`// Init current by pointing it at the first object in the list`
			`var current = self.first;`
			`// Init the isInserted flag`
			`var isInserted = false;`


			`// Iterate through list while not empty and item is not inserted`
			`while (typeof current !== 'undefined' && !isInserted) {`

			`// Sort the list by using the sort function`
			`if (self.sort(newItem, current)) {`

			`// Insert self.lookup[key] before`
			`if (typeof current.prev === 'undefined') { self.first = newItem; }`

			`// Set the references in the inserted object`
			`newItem.prev = current.prev;`
			`newItem.next = current;`

			`// Update the two existing objects`
			`if (current.prev) { current.prev.next = newItem; }`
			`current.prev = newItem;`

			`// Mark the item as inserted - job's done`
			`isInserted = true;`
			`}`
			`// Goto next object`
			`current = current.next;`
			`}`


			`if (!isInserted) {`
			`// We append it to the list`
			`newItem.prev = self.last;`
			`if (self.last) { self.last.next = newItem; }`

			`// Update the last pointing to newItem`
			`self.last = newItem;`
			`// Update first if we are appending to an empty list`
			`if (self._length === 0) { self.first = newItem; }`
			`}`


			`// Reference the object for a quick lookup option`
			`self.lookup[key] = newItem;`
			`// Increase length`
			`self._length++;`
			`self._lengthDeps.changed();`
			`// And invalidate the list`
			`self._listDeps.changed();`
			`};`

			`/** @method ReactiveList.prototype.remove`
			`* @param {string\|number} key Key to remove`
			`*/`
			`ReactiveList.prototype.remove = function(key) {`
			`var self = this;`
			`// Get the item object`
			`var item = self.lookup[key];`

			`// Check that it exists`
			`if (typeof item === 'undefined') {`
			`return;`
			`// throw new Error('ReactiveList cannot remove item, unknow key "' + key +`
			`// '"');`
			`}`

			`// Rig the references`
			`var prevItem = item.prev;`
			`var nextItem = item.next;`

			`// Update chain prev object next reference`
			`if (typeof prevItem !== 'undefined') {`
			`prevItem.next = nextItem;`
			`} else {`
			`self.first = nextItem;`
			`}`

			`// Update chain next object prev reference`
			`if (typeof nextItem !== 'undefined') {`
			`nextItem.prev = prevItem;`
			`} else {`
			`self.last = prevItem;`
			`}`

			`// Clean up`
			`self.lookup[key].last = null;`
			`self.lookup[key].prev = null;`
			`self.lookup[key] = null;`
			`prevItem = null;`

			`delete self.lookup[key];`
			`// Decrease the length`
			`self._length--;`
			`self._lengthDeps.changed();`
			`// Invalidate the list`
			`self._listDeps.changed();`
			`};`

			`/** @method ReactiveList.prototype.getLastItem`
			`* @returns {any} Pops last item from the list - removes the item from the list`
			`*/`
			`ReactiveList.prototype.getLastItem = function(first) {`
			`var self = this;`

			`// Get the relevant item first or last`
			`var item = (first)?self.first: self.last;`

			`if (typeof item === 'undefined') {`
			`return; // Empty list`
			`}`
			`// Remove the item from the list`
			`self.remove(item.key);`
			`// Return the value`
			`return item.value;`
			`};`

			`/** @method ReactiveList.prototype.getFirstItem`
			`* @returns {any} Pops first item from the list - removes the item from the list`
			`*/`
			`ReactiveList.prototype.getFirstItem = function() {`
			`// This gets the first item...`
			`return this.getLastItem(true);`
			`};`

			`/** @method ReactiveList.prototype.forEach`
			* @param {function} f Callback `funciton(value, key)`
			`* @param {boolean} [noneReactive=false] Set true if want to disable reactivity`
			* @param {boolean} [reverse=false] Set true to reverse iteration `forEachReverse`
			`*/`
			`ReactiveList.prototype.forEach = function(f, noneReactive, reverse) {`
			`var self = this;`
			`// Check if f is a function`
			`if (typeof f !== 'function') {`
			`throw new Error('ReactiveList forEach requires a function');`
			`}`
			`// We allow this not to be reactive`
			`if (!noneReactive) { self._listDeps.depend(); }`
			`// Set current to the first object`
			`var current = (reverse)?self.last: self.first;`
			`// Iterate over the list while its not empty`
			`while (current) {`
			`// Call the callback function`
			`f(current.value, current.key);`
			`// Jump to the next item in the list`
			`current = (reverse)?current.prev: current.next;`
			`}`
			`};`

			`/** @method ReactiveList.prototype.forEachReverse`
			* @param {function} f Callback `funciton(value, key)`
			`* @param {boolean} [noneReactive=false] Set true if want to disable reactivity`
			`*/`
			`ReactiveList.prototype.forEachReverse = function(f, noneReactive) {`
			`// Call forEach with the reverse flag`
			`this.forEach(f, noneReactive, true);`
			`};`

			`/** @method ReactiveList.prototype.fetch Returns list as array`
			`* @param {boolean} [noneReactive=false] Set true if want to disable reactivity`
			`* @reactive This can be disabled`
			`* @returns {array} List of items`
			`*/`
			`ReactiveList.prototype.fetch = function(noneReactive) {`
			`var self = this;`
			`// Init the result buffer`
			`var result = [];`
			`// Iterate over the list items`
			`self.forEach(function fetchCallback(value) {`
			`// Add the item value to the result`
			`result.push(value);`
			`}, noneReactive);`
			`// Return the result`
			`return result;`
			`};`