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import {Model} from './Model'
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import {Collection, Maybe} from '../../util'
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import {HasSubtree} from './relation/HasSubtree'
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import {Related} from './relation/decorators'
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/**
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* Model implementation with helpers for querying tree-structured data.
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*
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* This works by using a modified pre-order traversal to number the tree nodes
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* with a left- and right-side numbers. For example:
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*
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* ```txt
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* (1) A (14)
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* |
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* (2) B (9) (10) C (11) (12) D (14)
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* |
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* (3) E (6) (7) G (8)
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* |
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* (4) F (5)
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* ```
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*
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* These numbers are stored, by default, in `left_num` and `right_num` columns.
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* The `subtree()` method returns a `HasSubtree` relation which loads the subtree
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* of a model and recursively nests the nodes.
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*
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* You can use the `children()` helper method to get a collection of the immediate
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* children of this node, which also have the subtree set.
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*
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* To query the model without loading the entire subtree, use the `without()`
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* method on the `ModelBuilder`. For example:
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*
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* ```ts
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* MyModel.query<MyModel>().without('subtree')
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* ```
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*/
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export abstract class TreeModel<T extends TreeModel<T>> extends Model<T> {
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/** The table column where the left tree number is stored. */
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public static readonly leftTreeField = 'left_num'
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/** The table column where the right tree number is stored. */
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public static readonly rightTreeField = 'right_num'
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/**
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* @override to eager-load the subtree by default
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* @protected
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*/
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protected with: (keyof T)[] = ['subtree']
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/** Get the left tree number for this model. */
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public leftTreeNum(): Maybe<number> {
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const ctor = this.constructor as typeof TreeModel
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return this.originalSourceRow?.[ctor.leftTreeField]
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}
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/** Get the right tree number for this model. */
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public rightTreeNum(): Maybe<number> {
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const ctor = this.constructor as typeof TreeModel
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return this.originalSourceRow?.[ctor.rightTreeField]
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}
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/** Returns true if this node has no children. */
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public isLeaf(): boolean {
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const left = this.leftTreeNum()
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const right = this.rightTreeNum()
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return Boolean(left && right && (right - left === 1))
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}
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/** Returns true if the given `node` exists within the subtree of this node. */
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public contains(node: this): boolean {
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const num = node.leftTreeNum()
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const left = this.leftTreeNum()
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const right = this.rightTreeNum()
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return Boolean(num && left && right && (left < num && right > num))
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}
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/** The subtree nodes of this model, recursively nested. */
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@Related()
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public subtree(): HasSubtree<T> {
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const ctor = this.constructor as typeof TreeModel
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return this.make<HasSubtree<T>>(HasSubtree, this, ctor.leftTreeField)
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}
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/** Get the immediate children of this model. */
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public children(): Collection<T> {
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return this.subtree().getValue()
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}
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}
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import {TreeModel} from '../TreeModel'
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import {Relation, RelationNotLoadedError} from './Relation'
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import {collect, Collection, Maybe} from '../../../util'
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import {RelationBuilder} from './RelationBuilder'
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import {raw} from '../../dialect/SQLDialect'
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import {AbstractBuilder} from '../../builder/AbstractBuilder'
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import {ModelBuilder} from '../ModelBuilder'
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/**
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* A relation that recursively loads the subtree of a model using
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* modified preorder traversal.
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*/
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export class HasSubtree<T extends TreeModel<T>> extends Relation<T, T, Collection<T>> {
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/**
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* When the relation is loaded, the immediate children of the node.
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* @protected
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*/
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protected instances: Maybe<Collection<T>>
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constructor(
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protected readonly model: T,
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protected readonly leftTreeField: string,
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) {
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super(model, model)
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}
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protected get parentValue(): any {
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return this.model.key()
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}
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public query(): RelationBuilder<T> {
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return this.builder()
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.select(raw('*'))
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.orderByAscending(this.leftTreeField)
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}
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public applyScope(where: AbstractBuilder<T>): void {
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const left = this.model.leftTreeNum()
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const right = this.model.rightTreeNum()
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if ( !left || !right ) {
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where.whereMatchNone()
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return
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}
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where.where(this.leftTreeField, '>', left)
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.where(this.leftTreeField, '<', right)
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}
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public buildEagerQuery(parentQuery: ModelBuilder<T>, result: Collection<T>): ModelBuilder<T> {
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const query = this.model.query().without('subtree')
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if ( result.isEmpty() ) {
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return query.whereMatchNone()
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}
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result.each(inst => {
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const left = inst.leftTreeNum()
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const right = inst.rightTreeNum()
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if ( !left || !right ) {
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return
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}
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query.where(where => {
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where.where(this.leftTreeField, '>', left)
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.where(this.leftTreeField, '<', right)
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})
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})
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return query
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}
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public matchResults(possiblyRelated: Collection<T>): Collection<T> {
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const modelLeft = this.model.leftTreeNum()
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const modelRight = this.model.rightTreeNum()
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if ( !modelLeft || !modelRight ) {
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return collect()
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}
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return possiblyRelated.filter(inst => {
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const instLeft = inst.leftTreeNum()
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return Boolean(instLeft && instLeft > modelLeft && instLeft < modelRight)
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})
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}
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public setValue(related: Collection<T>): void {
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// `related` contains a flat collection of the subtree nodes, ordered by left key ascending
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// We will loop through the related nodes and recursively call `setValue` for our immediate
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// children to build the tree.
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type ReduceState = {
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currentChild: T,
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currentSubtree: Collection<T>,
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}
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const children = this.instances = collect()
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const firstChild = related.pop()
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if ( !firstChild ) {
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return
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}
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const finalState = related.reduce<ReduceState>((state: ReduceState, node: T) => {
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if ( state.currentChild.contains(node) ) {
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// `node` belongs in the subtree of `currentChild`, not this node
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state.currentSubtree.push(node)
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return state
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}
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// We've hit the end of the subtree for `currentChild`, so set the child's
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// subtree relation value and move on to the next child.
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state.currentChild.subtree().setValue(state.currentSubtree)
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children.push(state.currentChild)
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return {
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currentChild: node,
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currentSubtree: collect(),
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}
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}, {
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currentChild: firstChild,
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currentSubtree: collect(),
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})
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// Do this one last time, since the reducer isn't called for the last node in the collection
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if ( finalState ) {
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finalState.currentChild.subtree().setValue(finalState.currentSubtree)
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children.push(finalState.currentChild)
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}
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this.instances = children.sortBy(inst => inst.getOriginalValues()?.[this.leftTreeField])
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}
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public getValue(): Collection<T> {
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if ( !this.instances ) {
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throw new RelationNotLoadedError()
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}
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return this.instances
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}
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public isLoaded(): boolean {
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return Boolean(this.instances)
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}
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public get(): Promise<Collection<T>> {
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return this.fetch().collect()
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}
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}
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