IOTConnect-Web/node_modules/js-sdsl/dist/esm/container/ContainerBase/index.d.ts

/**
 * @description The iterator type including `NORMAL` and `REVERSE`.
 */
export declare const enum IteratorType {
    NORMAL = 0,
    REVERSE = 1
}
export declare abstract class ContainerIterator<T> {
    /**
     * @description The container pointed to by the iterator.
     */
    abstract readonly container: Container<T>;
    /**
     * @description Iterator's type.
     * @example
     * console.log(container.end().iteratorType === IteratorType.NORMAL);  // true
     */
    readonly iteratorType: IteratorType;
    /**
     * @param iter - The other iterator you want to compare.
     * @returns Whether this equals to obj.
     * @example
     * container.find(1).equals(container.end());
     */
    equals(iter: ContainerIterator<T>): boolean;
    /**
     * @description Pointers to element.
     * @returns The value of the pointer's element.
     * @example
     * const val = container.begin().pointer;
     */
    abstract get pointer(): T;
    /**
     * @description Set pointer's value (some containers are unavailable).
     * @param newValue - The new value you want to set.
     * @example
     * (<LinkList<number>>container).begin().pointer = 1;
     */
    abstract set pointer(newValue: T);
    /**
     * @description Move `this` iterator to pre.
     * @returns The iterator's self.
     * @example
     * const iter = container.find(1);  // container = [0, 1]
     * const pre = iter.pre();
     * console.log(pre === iter);  // true
     * console.log(pre.equals(iter));  // true
     * console.log(pre.pointer, iter.pointer); // 0, 0
     */
    abstract pre(): this;
    /**
     * @description Move `this` iterator to next.
     * @returns The iterator's self.
     * @example
     * const iter = container.find(1);  // container = [1, 2]
     * const next = iter.next();
     * console.log(next === iter);  // true
     * console.log(next.equals(iter));  // true
     * console.log(next.pointer, iter.pointer); // 2, 2
     */
    abstract next(): this;
    /**
     * @description Get a copy of itself.
     * @returns The copy of self.
     * @example
     * const iter = container.find(1);  // container = [1, 2]
     * const next = iter.copy().next();
     * console.log(next === iter);  // false
     * console.log(next.equals(iter));  // false
     * console.log(next.pointer, iter.pointer); // 2, 1
     */
    abstract copy(): ContainerIterator<T>;
}
export declare abstract class Base {
    /**
     * @returns The size of the container.
     * @example
     * const container = new Vector([1, 2]);
     * console.log(container.length); // 2
     */
    get length(): number;
    /**
     * @returns The size of the container.
     * @example
     * const container = new Vector([1, 2]);
     * console.log(container.size()); // 2
     */
    size(): number;
    /**
     * @returns Whether the container is empty.
     * @example
     * container.clear();
     * console.log(container.empty());  // true
     */
    empty(): boolean;
    /**
     * @description Clear the container.
     * @example
     * container.clear();
     * console.log(container.empty());  // true
     */
    abstract clear(): void;
}
export declare abstract class Container<T> extends Base {
    /**
     * @returns Iterator pointing to the beginning element.
     * @example
     * const begin = container.begin();
     * const end = container.end();
     * for (const it = begin; !it.equals(end); it.next()) {
     *   doSomething(it.pointer);
     * }
     */
    abstract begin(): ContainerIterator<T>;
    /**
     * @returns Iterator pointing to the super end like c++.
     * @example
     * const begin = container.begin();
     * const end = container.end();
     * for (const it = begin; !it.equals(end); it.next()) {
     *   doSomething(it.pointer);
     * }
     */
    abstract end(): ContainerIterator<T>;
    /**
     * @returns Iterator pointing to the end element.
     * @example
     * const rBegin = container.rBegin();
     * const rEnd = container.rEnd();
     * for (const it = rBegin; !it.equals(rEnd); it.next()) {
     *   doSomething(it.pointer);
     * }
     */
    abstract rBegin(): ContainerIterator<T>;
    /**
     * @returns Iterator pointing to the super begin like c++.
     * @example
     * const rBegin = container.rBegin();
     * const rEnd = container.rEnd();
     * for (const it = rBegin; !it.equals(rEnd); it.next()) {
     *   doSomething(it.pointer);
     * }
     */
    abstract rEnd(): ContainerIterator<T>;
    /**
     * @returns The first element of the container.
     */
    abstract front(): T | undefined;
    /**
     * @returns The last element of the container.
     */
    abstract back(): T | undefined;
    /**
     * @param element - The element you want to find.
     * @returns An iterator pointing to the element if found, or super end if not found.
     * @example
     * container.find(1).equals(container.end());
     */
    abstract find(element: T): ContainerIterator<T>;
    /**
     * @description Iterate over all elements in the container.
     * @param callback - Callback function like Array.forEach.
     * @example
     * container.forEach((element, index) => console.log(element, index));
     */
    abstract forEach(callback: (element: T, index: number, container: Container<T>) => void): void;
    /**
     * @description Gets the value of the element at the specified position.
     * @example
     * const val = container.getElementByPos(-1); // throw a RangeError
     */
    abstract getElementByPos(pos: number): T;
    /**
     * @description Removes the element at the specified position.
     * @param pos - The element's position you want to remove.
     * @returns The container length after erasing.
     * @example
     * container.eraseElementByPos(-1); // throw a RangeError
     */
    abstract eraseElementByPos(pos: number): number;
    /**
     * @description Removes element by iterator and move `iter` to next.
     * @param iter - The iterator you want to erase.
     * @returns The next iterator.
     * @example
     * container.eraseElementByIterator(container.begin());
     * container.eraseElementByIterator(container.end()); // throw a RangeError
     */
    abstract eraseElementByIterator(iter: ContainerIterator<T>): ContainerIterator<T>;
    /**
     * @description Using for `for...of` syntax like Array.
     * @example
     * for (const element of container) {
     *   console.log(element);
     * }
     */
    abstract [Symbol.iterator](): Generator<T, void>;
}
/**
 * @description The initial data type passed in when initializing the container.
 */
export declare type initContainer<T> = {
    size?: number | (() => number);
    length?: number;
    forEach: (callback: (el: T) => void) => void;
};
Initial commit 2024-05-09 01:49:52 +00:00			`/**`
			* @description The iterator type including `NORMAL` and `REVERSE`.
			`*/`
			`export declare const enum IteratorType {`
			`NORMAL = 0,`
			`REVERSE = 1`
			`}`
			`export declare abstract class ContainerIterator<T> {`
			`/**`
			`* @description The container pointed to by the iterator.`
			`*/`
			`abstract readonly container: Container<T>;`
			`/**`
			`* @description Iterator's type.`
			`* @example`
			`* console.log(container.end().iteratorType === IteratorType.NORMAL); // true`
			`*/`
			`readonly iteratorType: IteratorType;`
			`/**`
			`* @param iter - The other iterator you want to compare.`
			`* @returns Whether this equals to obj.`
			`* @example`
			`* container.find(1).equals(container.end());`
			`*/`
			`equals(iter: ContainerIterator<T>): boolean;`
			`/**`
			`* @description Pointers to element.`
			`* @returns The value of the pointer's element.`
			`* @example`
			`* const val = container.begin().pointer;`
			`*/`
			`abstract get pointer(): T;`
			`/**`
			`* @description Set pointer's value (some containers are unavailable).`
			`* @param newValue - The new value you want to set.`
			`* @example`
			`* (<LinkList<number>>container).begin().pointer = 1;`
			`*/`
			`abstract set pointer(newValue: T);`
			`/**`
			* @description Move `this` iterator to pre.
			`* @returns The iterator's self.`
			`* @example`
			`* const iter = container.find(1); // container = [0, 1]`
			`* const pre = iter.pre();`
			`* console.log(pre === iter); // true`
			`* console.log(pre.equals(iter)); // true`
			`* console.log(pre.pointer, iter.pointer); // 0, 0`
			`*/`
			`abstract pre(): this;`
			`/**`
			* @description Move `this` iterator to next.
			`* @returns The iterator's self.`
			`* @example`
			`* const iter = container.find(1); // container = [1, 2]`
			`* const next = iter.next();`
			`* console.log(next === iter); // true`
			`* console.log(next.equals(iter)); // true`
			`* console.log(next.pointer, iter.pointer); // 2, 2`
			`*/`
			`abstract next(): this;`
			`/**`
			`* @description Get a copy of itself.`
			`* @returns The copy of self.`
			`* @example`
			`* const iter = container.find(1); // container = [1, 2]`
			`* const next = iter.copy().next();`
			`* console.log(next === iter); // false`
			`* console.log(next.equals(iter)); // false`
			`* console.log(next.pointer, iter.pointer); // 2, 1`
			`*/`
			`abstract copy(): ContainerIterator<T>;`
			`}`
			`export declare abstract class Base {`
			`/**`
			`* @returns The size of the container.`
			`* @example`
			`* const container = new Vector([1, 2]);`
			`* console.log(container.length); // 2`
			`*/`
			`get length(): number;`
			`/**`
			`* @returns The size of the container.`
			`* @example`
			`* const container = new Vector([1, 2]);`
			`* console.log(container.size()); // 2`
			`*/`
			`size(): number;`
			`/**`
			`* @returns Whether the container is empty.`
			`* @example`
			`* container.clear();`
			`* console.log(container.empty()); // true`
			`*/`
			`empty(): boolean;`
			`/**`
			`* @description Clear the container.`
			`* @example`
			`* container.clear();`
			`* console.log(container.empty()); // true`
			`*/`
			`abstract clear(): void;`
			`}`
			`export declare abstract class Container<T> extends Base {`
			`/**`
			`* @returns Iterator pointing to the beginning element.`
			`* @example`
			`* const begin = container.begin();`
			`* const end = container.end();`
			`* for (const it = begin; !it.equals(end); it.next()) {`
			`* doSomething(it.pointer);`
			`* }`
			`*/`
			`abstract begin(): ContainerIterator<T>;`
			`/**`
			`* @returns Iterator pointing to the super end like c++.`
			`* @example`
			`* const begin = container.begin();`
			`* const end = container.end();`
			`* for (const it = begin; !it.equals(end); it.next()) {`
			`* doSomething(it.pointer);`
			`* }`
			`*/`
			`abstract end(): ContainerIterator<T>;`
			`/**`
			`* @returns Iterator pointing to the end element.`
			`* @example`
			`* const rBegin = container.rBegin();`
			`* const rEnd = container.rEnd();`
			`* for (const it = rBegin; !it.equals(rEnd); it.next()) {`
			`* doSomething(it.pointer);`
			`* }`
			`*/`
			`abstract rBegin(): ContainerIterator<T>;`
			`/**`
			`* @returns Iterator pointing to the super begin like c++.`
			`* @example`
			`* const rBegin = container.rBegin();`
			`* const rEnd = container.rEnd();`
			`* for (const it = rBegin; !it.equals(rEnd); it.next()) {`
			`* doSomething(it.pointer);`
			`* }`
			`*/`
			`abstract rEnd(): ContainerIterator<T>;`
			`/**`
			`* @returns The first element of the container.`
			`*/`
			`abstract front(): T \| undefined;`
			`/**`
			`* @returns The last element of the container.`
			`*/`
			`abstract back(): T \| undefined;`
			`/**`
			`* @param element - The element you want to find.`
			`* @returns An iterator pointing to the element if found, or super end if not found.`
			`* @example`
			`* container.find(1).equals(container.end());`
			`*/`
			`abstract find(element: T): ContainerIterator<T>;`
			`/**`
			`* @description Iterate over all elements in the container.`
			`* @param callback - Callback function like Array.forEach.`
			`* @example`
			`* container.forEach((element, index) => console.log(element, index));`
			`*/`
			`abstract forEach(callback: (element: T, index: number, container: Container<T>) => void): void;`
			`/**`
			`* @description Gets the value of the element at the specified position.`
			`* @example`
			`* const val = container.getElementByPos(-1); // throw a RangeError`
			`*/`
			`abstract getElementByPos(pos: number): T;`
			`/**`
			`* @description Removes the element at the specified position.`
			`* @param pos - The element's position you want to remove.`
			`* @returns The container length after erasing.`
			`* @example`
			`* container.eraseElementByPos(-1); // throw a RangeError`
			`*/`
			`abstract eraseElementByPos(pos: number): number;`
			`/**`
			* @description Removes element by iterator and move `iter` to next.
			`* @param iter - The iterator you want to erase.`
			`* @returns The next iterator.`
			`* @example`
			`* container.eraseElementByIterator(container.begin());`
			`* container.eraseElementByIterator(container.end()); // throw a RangeError`
			`*/`
			`abstract eraseElementByIterator(iter: ContainerIterator<T>): ContainerIterator<T>;`
			`/**`
			* @description Using for `for...of` syntax like Array.
			`* @example`
			`* for (const element of container) {`
			`* console.log(element);`
			`* }`
			`*/`
			`abstract [Symbol.iterator](): Generator<T, void>;`
			`}`
			`/**`
			`* @description The initial data type passed in when initializing the container.`
			`*/`
			`export declare type initContainer<T> = {`
			`size?: number \| (() => number);`
			`length?: number;`
			`forEach: (callback: (el: T) => void) => void;`
			`};`