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tree.ts
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import { defaultsDeep, get, has, includes, isEmpty, isFunction, isNil, omit, once, size, trim } from './utils/fn.utils';
import { Observable } from 'rxjs/Observable';
import { Observer } from 'rxjs/Observer';
import {
ChildrenLoadingFunction,
FoldingType,
RenamableNode,
TreeModel,
TreeModelSettings,
TreeStatus
} from './tree.types';
import { NodeMenuItem } from './menu/node-menu.component';
import * as uuidv4 from 'uuid/v4';
enum ChildrenLoadingState {
NotStarted,
Loading,
Completed
}
export class Tree {
private _children: Tree[];
private _loadChildren: ChildrenLoadingFunction;
private _childrenLoadingState: ChildrenLoadingState = ChildrenLoadingState.NotStarted;
private _childrenAsyncOnce: () => Observable<Tree[]> = once(() => {
return new Observable((observer: Observer<Tree[]>) => {
setTimeout(() => {
this._childrenLoadingState = ChildrenLoadingState.Loading;
this._loadChildren((children: TreeModel[]) => {
this._children = (children || []).map((child: TreeModel) => new Tree(child, this));
this._childrenLoadingState = ChildrenLoadingState.Completed;
observer.next(this.children);
observer.complete();
});
});
});
});
public node: TreeModel;
public parent: Tree;
// STATIC METHODS ----------------------------------------------------------------------------------------------------
/**
* Check that value passed is not empty (it doesn't consist of only whitespace symbols).
* @param {string} value - A value that should be checked.
* @returns {boolean} - A flag indicating that value is empty or not.
* @static
*/
public static isValueEmpty(value: string): boolean {
return isEmpty(trim(value));
}
/**
* Check whether a given value can be considered RenamableNode.
* @param {any} value - A value to check.
* @returns {boolean} - A flag indicating whether given value is Renamable node or not.
* @static
*/
public static isRenamable(value: any): value is RenamableNode {
return (
has(value, 'setName') &&
isFunction(value.setName) &&
(has(value, 'toString') && isFunction(value.toString) && value.toString !== Object.toString)
);
}
private static cloneTreeShallow(origin: Tree): Tree {
const tree = new Tree(Object.assign({}, origin.node));
tree._children = origin._children;
return tree;
}
private static applyNewValueToRenamable(value: RenamableNode, newValue: string): RenamableNode {
const renamableValue: RenamableNode = Object.assign({}, value as RenamableNode);
renamableValue.setName(newValue);
return renamableValue;
}
/**
* Build an instance of Tree from an object implementing TreeModel interface.
* @param {TreeModel} model - A model that is used to build a tree.
* @param {Tree} [parent] - An optional parent if you want to build a tree from the model that should be a child of an existing Tree instance.
* @param {boolean} [isBranch] - An option that makes a branch from created tree. Branch can have children.
*/
public constructor(node: TreeModel, parent: Tree = null, isBranch: boolean = false) {
this.buildTreeFromModel(node, parent, isBranch || Array.isArray(node.children));
}
private buildTreeFromModel(model: TreeModel, parent: Tree, isBranch: boolean): void {
this.parent = parent;
this.node = Object.assign(
omit(model, 'children') as TreeModel,
{ settings: TreeModelSettings.merge(model, get(parent, 'node')) },
{ emitLoadNextLevel: model.emitLoadNextLevel === true }
) as TreeModel;
if (isFunction(this.node.loadChildren)) {
this._loadChildren = this.node.loadChildren;
} else {
get(model, 'children', []).forEach((child: TreeModel, index: number) => {
this._addChild(new Tree(child, this), index);
});
}
if (!Array.isArray(this._children)) {
this._children = this.node.loadChildren || isBranch ? [] : null;
}
}
public hasDeferredChildren(): boolean {
return typeof this._loadChildren === 'function';
}
/* Setting the children loading state to Loading since a request was dispatched to the client */
public loadingChildrenRequested(): void {
this._childrenLoadingState = ChildrenLoadingState.Loading;
}
/**
* Check whether children of the node are being loaded.
* Makes sense only for nodes that define `loadChildren` function.
* @returns {boolean} A flag indicating that children are being loaded.
*/
public childrenAreBeingLoaded(): boolean {
return this._childrenLoadingState === ChildrenLoadingState.Loading;
}
/**
* Check whether children of the node were loaded.
* Makes sense only for nodes that define `loadChildren` function.
* @returns {boolean} A flag indicating that children were loaded.
*/
public childrenWereLoaded(): boolean {
return this._childrenLoadingState === ChildrenLoadingState.Completed;
}
private canLoadChildren(): boolean {
return (
this._childrenLoadingState === ChildrenLoadingState.NotStarted &&
this.foldingType === FoldingType.Expanded &&
!!this._loadChildren
);
}
/**
* Check whether children of the node should be loaded and not loaded yet.
* Makes sense only for nodes that define `loadChildren` function.
* @returns {boolean} A flag indicating that children should be loaded for the current node.
*/
public childrenShouldBeLoaded(): boolean {
return !this.childrenWereLoaded() && (!!this._loadChildren || this.node.emitLoadNextLevel === true);
}
/**
* Get children of the current tree.
* @returns {Tree[]} The children of the current tree.
*/
public get children(): Tree[] {
return this._children;
}
/**
* By getting value from this property you start process of loading node's children using `loadChildren` function.
* Once children are loaded `loadChildren` function won't be called anymore and loaded for the first time children are emitted in case of subsequent calls.
* @returns {Observable<Tree[]>} An observable which emits children once they are loaded.
*/
public get childrenAsync(): Observable<Tree[]> {
if (this.canLoadChildren()) {
return this._childrenAsyncOnce();
}
return Observable.of(this.children);
}
/**
* By calling this method you start process of loading node's children using `loadChildren` function.
*/
public reloadChildren(): void {
if (this.childrenShouldBeLoaded()) {
this._childrenLoadingState = ChildrenLoadingState.Loading;
this._loadChildren((children: TreeModel[]) => {
this._children = children && children.map((child: TreeModel) => new Tree(child, this));
this._childrenLoadingState = ChildrenLoadingState.Completed;
});
}
}
/**
* By calling this method you will remove all current children of a treee and create new.
*/
public setChildren(children: Array<TreeModel>): void {
this._children = children && children.map((child: TreeModel) => new Tree(child, this));
if (this.childrenShouldBeLoaded()) {
this._childrenLoadingState = ChildrenLoadingState.Completed;
}
}
/**
* Create a new node in the current tree.
* @param {boolean} isBranch - A flag that indicates whether a new node should be a "Branch". "Leaf" node will be created by default
* @param {TreeModel} model - Tree model of the new node which will be inserted. Empty node will be created by default and it will fire edit mode of this node
* @returns {Tree} A newly created child node.
*/
public createNode(isBranch: boolean, model: TreeModel = { value: '' }): Tree {
const tree = new Tree(model, this, isBranch);
if (!model.id) {
tree.markAsNew();
}
tree.id = tree.id || uuidv4();
if (this.childrenShouldBeLoaded() && !(this.childrenAreBeingLoaded() || this.childrenWereLoaded())) {
return null;
}
if (this.isLeaf()) {
return this.addSibling(tree);
} else {
return this.addChild(tree);
}
}
/**
* Get the value of the current node
* @returns {(string|RenamableNode)} The value of the node.
*/
public get value(): any {
return this.node.value;
}
public set checked(checked: boolean) {
this.node.settings = Object.assign({}, this.node.settings, { checked });
}
public get checked(): boolean {
return !!get(this.node.settings, 'checked');
}
public get checkedChildren(): Tree[] {
return this.hasLoadedChildern() ? this.children.filter(child => child.checked) : [];
}
public set selectionAllowed(selectionAllowed: boolean) {
this.node.settings = Object.assign({}, this.node.settings, { selectionAllowed });
}
public get selectionAllowed(): boolean {
const value = get(this.node.settings, 'selectionAllowed');
return isNil(value) ? true : !!value;
}
hasLoadedChildern() {
return !isEmpty(this.children);
}
loadedChildrenAmount() {
return size(this.children);
}
checkedChildrenAmount() {
return size(this.checkedChildren);
}
/**
* Set the value of the current node
* @param {(string|RenamableNode)} value - The new value of the node.
*/
public set value(value: any) {
if (typeof value !== 'string' && !Tree.isRenamable(value)) {
return;
}
const stringifiedValue = '' + value;
if (Tree.isRenamable(this.value)) {
this.node.value = Tree.applyNewValueToRenamable(this.value as RenamableNode, stringifiedValue);
} else {
this.node.value = Tree.isValueEmpty(stringifiedValue) ? this.node.value : stringifiedValue;
}
}
/**
* Add a sibling node for the current node. This won't work if the current node is a root.
* @param {Tree} sibling - A node that should become a sibling.
* @param [number] position - Position in which sibling will be inserted. By default it will be inserted at the last position in a parent.
* @returns {Tree} A newly inserted sibling, or null if you are trying to make a sibling for the root.
*/
public addSibling(sibling: Tree, position?: number): Tree {
if (Array.isArray(get(this.parent, 'children'))) {
return this.parent.addChild(sibling, position);
}
return null;
}
/**
* Add a child node for the current node.
* @param {Tree} child - A node that should become a child.
* @param [number] position - Position in which child will be inserted. By default it will be inserted at the last position in a parent.
* @returns {Tree} A newly inserted child.
*/
public addChild(child: Tree, position?: number): Tree {
const newborn = this._addChild(Tree.cloneTreeShallow(child), position);
this._setFoldingType();
if (this.isNodeCollapsed()) {
this.switchFoldingType();
}
return newborn;
}
private _addChild(child: Tree, position: number = size(this._children) || 0): Tree {
child.parent = this;
if (Array.isArray(this._children)) {
this._children.splice(position, 0, child);
} else {
this._children = [child];
}
return child;
}
/**
* Swap position of the current node with the given sibling. If node passed as a parameter is not a sibling - nothing happens.
* @param {Tree} sibling - A sibling with which current node shold be swapped.
*/
public swapWithSibling(sibling: Tree): void {
if (!this.hasSibling(sibling)) {
return;
}
const siblingIndex = sibling.positionInParent;
const thisTreeIndex = this.positionInParent;
this.parent._children[siblingIndex] = this;
this.parent._children[thisTreeIndex] = sibling;
}
/**
* Get a node's position in its parent.
* @returns {number} The position inside a parent.
*/
public get positionInParent(): number {
if (this.isRoot()) {
return -1;
}
return this.parent.children ? this.parent.children.indexOf(this) : -1;
}
/**
* Check whether or not this tree is static.
* @returns {boolean} A flag indicating whether or not this tree is static.
*/
public isStatic(): boolean {
return get(this.node.settings, 'static', false);
}
/**
* Check whether or not this tree has a left menu.
* @returns {boolean} A flag indicating whether or not this tree has a left menu.
*/
public hasLeftMenu(): boolean {
return !get(this.node.settings, 'static', false) && get(this.node.settings, 'leftMenu', false);
}
/**
* Check whether or not this tree has a right menu.
* @returns {boolean} A flag indicating whether or not this tree has a right menu.
*/
public hasRightMenu(): boolean {
return !get(this.node.settings, 'static', false) && get(this.node.settings, 'rightMenu', false);
}
/**
* Check whether this tree is "Leaf" or not.
* @returns {boolean} A flag indicating whether or not this tree is a "Leaf".
*/
public isLeaf(): boolean {
return !this.isBranch();
}
/**
* Get menu items of the current tree.
* @returns {NodeMenuItem[]} The menu items of the current tree.
*/
public get menuItems(): NodeMenuItem[] {
return get(this.node.settings, 'menuItems');
}
/**
* Check whether or not this tree has a custom menu.
* @returns {boolean} A flag indicating whether or not this tree has a custom menu.
*/
public hasCustomMenu(): boolean {
return !this.isStatic() && !!get(this.node.settings, 'menuItems', false);
}
/**
* Check whether this tree is "Branch" or not. "Branch" is a node that has children.
* @returns {boolean} A flag indicating whether or not this tree is a "Branch".
*/
public isBranch(): boolean {
return this.node.emitLoadNextLevel === true || Array.isArray(this._children);
}
/**
* Check whether this tree has children.
* @returns {boolean} A flag indicating whether or not this tree has children.
*/
public hasChildren(): boolean {
return !isEmpty(this._children) || this.childrenShouldBeLoaded();
}
/**
* Check whether this tree is a root or not. The root is the tree (node) that doesn't have parent (or technically its parent is null).
* @returns {boolean} A flag indicating whether or not this tree is the root.
*/
public isRoot(): boolean {
return isNil(this.parent);
}
/**
* Check whether provided tree is a sibling of the current tree. Sibling trees (nodes) are the trees that have the same parent.
* @param {Tree} tree - A tree that should be tested on a siblingness.
* @returns {boolean} A flag indicating whether or not provided tree is the sibling of the current one.
*/
public hasSibling(tree: Tree): boolean {
return !this.isRoot() && includes(this.parent.children, tree);
}
/**
* Check whether provided tree is a child of the current tree.
* This method tests that provided tree is a <strong>direct</strong> child of the current tree.
* @param {Tree} tree - A tree that should be tested (child candidate).
* @returns {boolean} A flag indicating whether provided tree is a child or not.
*/
public hasChild(tree: Tree): boolean {
return includes(this._children, tree);
}
/**
* Remove given tree from the current tree.
* The given tree will be removed only in case it is a direct child of the current tree (@see {@link hasChild}).
* @param {Tree} tree - A tree that should be removed.
*/
public removeChild(tree: Tree): void {
if (!this.hasChildren()) {
return;
}
const childIndex = this._children.findIndex((child: Tree) => child === tree);
if (childIndex >= 0) {
this._children.splice(childIndex, 1);
}
this._setFoldingType();
}
/**
* Remove current tree from its parent.
*/
public removeItselfFromParent(): void {
if (!this.parent) {
return;
}
this.parent.removeChild(this);
}
/**
* Switch folding type of the current tree. "Leaf" node cannot switch its folding type cause it doesn't have children, hence nothing to fold.
* If node is a "Branch" and it is expanded, then by invoking current method state of the tree should be switched to "collapsed" and vice versa.
*/
public switchFoldingType(): void {
if (this.isLeaf() || !this.hasChildren()) {
return;
}
this.disableCollapseOnInit();
this.node._foldingType = this.isNodeExpanded() ? FoldingType.Collapsed : FoldingType.Expanded;
}
/**
* Check that tree is expanded.
* @returns {boolean} A flag indicating whether current tree is expanded. Always returns false for the "Leaf" tree and for an empty tree.
*/
public isNodeExpanded(): boolean {
return this.foldingType === FoldingType.Expanded;
}
/**
* Check that tree is collapsed.
* @returns {boolean} A flag indicating whether current tree is collapsed. Always returns false for the "Leaf" tree and for an empty tree.
*/
public isNodeCollapsed(): boolean {
return this.foldingType === FoldingType.Collapsed;
}
/**
* Set a current folding type: expanded, collapsed or leaf.
*/
private _setFoldingType(): void {
if (this.childrenShouldBeLoaded()) {
this.node._foldingType = FoldingType.Collapsed;
} else if (this._children && !isEmpty(this._children)) {
this.node._foldingType = this.isCollapsedOnInit() ? FoldingType.Collapsed : FoldingType.Expanded;
} else if (Array.isArray(this._children)) {
this.node._foldingType = FoldingType.Empty;
} else {
this.node._foldingType = FoldingType.Leaf;
}
}
/**
* Get a current folding type: expanded, collapsed or leaf.
* @returns {FoldingType} A folding type of the current tree.
*/
public get foldingType(): FoldingType {
if (!this.node._foldingType) {
this._setFoldingType();
}
return this.node._foldingType;
}
/**
* Get a css class for element which displayes folding state - expanded, collapsed or leaf
* @returns {string} A string icontaining css class (classes)
*/
public get foldingCssClass(): string {
return this.getCssClassesFromSettings() || this.foldingType.cssClass;
}
private getCssClassesFromSettings(): string {
if (!this.node._foldingType) {
this._setFoldingType();
}
if (this.node._foldingType === FoldingType.Collapsed) {
return get(this.node.settings, 'cssClasses.collapsed', null);
} else if (this.node._foldingType === FoldingType.Expanded) {
return get(this.node.settings, 'cssClasses.expanded', null);
} else if (this.node._foldingType === FoldingType.Empty) {
return get(this.node.settings, 'cssClasses.empty', null);
}
return get(this.node.settings, 'cssClasses.leaf', null);
}
/**
* Get a html template to render before every node's name.
* @returns {string} A string representing a html template.
*/
public get nodeTemplate(): string {
return this.getTemplateFromSettings();
}
private getTemplateFromSettings(): string {
if (this.isLeaf()) {
return get(this.node.settings, 'templates.leaf', '');
} else {
return get(this.node.settings, 'templates.node', '');
}
}
/**
* Get a html template to render for an element activatin left menu of a node.
* @returns {string} A string representing a html template.
*/
public get leftMenuTemplate(): string {
if (this.hasLeftMenu()) {
return get(this.node.settings, 'templates.leftMenu', '<span></span>');
}
return '';
}
public disableCollapseOnInit() {
if (this.node.settings) {
this.node.settings.isCollapsedOnInit = false;
}
}
public isCollapsedOnInit() {
return !!get(this.node.settings, 'isCollapsedOnInit');
}
public keepNodesInDOM() {
return get(this.node.settings, 'keepNodesInDOM');
}
/**
* Check that current tree is newly created (added by user via menu for example). Tree that was built from the TreeModel is not marked as new.
* @returns {boolean} A flag whether the tree is new.
*/
public isNew(): boolean {
return this.node._status === TreeStatus.New;
}
public get id(): number | string {
return get(this.node, 'id');
}
public set id(id: number | string) {
this.node.id = id;
}
/**
* Mark current tree as new (@see {@link isNew}).
*/
public markAsNew(): void {
this.node._status = TreeStatus.New;
}
/**
* Check that current tree is being renamed (it is in the process of its value renaming initiated by a user).
* @returns {boolean} A flag whether the tree is being renamed.
*/
public isBeingRenamed(): boolean {
return this.node._status === TreeStatus.IsBeingRenamed;
}
/**
* Mark current tree as being renamed (@see {@link isBeingRenamed}).
*/
public markAsBeingRenamed(): void {
this.node._status = TreeStatus.IsBeingRenamed;
}
/**
* Check that current tree is modified (for example it was renamed).
* @returns {boolean} A flag whether the tree is modified.
*/
public isModified(): boolean {
return this.node._status === TreeStatus.Modified;
}
/**
* Mark current tree as modified (@see {@link isModified}).
*/
public markAsModified(): void {
this.node._status = TreeStatus.Modified;
}
/**
* Makes a clone of an underlying TreeModel instance
* @returns {TreeModel} a clone of an underlying TreeModel instance
*/
public toTreeModel(): TreeModel {
const model = defaultsDeep(this.isLeaf() ? {} : { children: [] }, this.node);
if (this.children) {
this.children.forEach(child => {
model.children.push(child.toTreeModel());
});
}
return model;
}
}