/** * Tensor class */ export default class Tensor { /** * Returns a tensor filled with 0. * @overload * @param {...number} size Sizes for each dimension * @returns {Tensor} Tensor filled with 0 */ static zeros(...size: number[]): Tensor; /** * Returns a tensor filled with 0. * @overload * @param {number[]} size Sizes for each dimension * @returns {Tensor} Tensor filled with 0 */ static zeros(size: number[]): Tensor; /** * Returns a tensor filled with 1. * @overload * @param {...number} size Sizes for each dimension * @returns {Tensor} Tensor filled with 1 */ static ones(...size: number[]): Tensor; /** * Returns a tensor filled with 1. * @overload * @param {number[]} size Sizes for each dimension * @returns {Tensor} Tensor filled with 1 */ static ones(size: number[]): Tensor; /** * Returns a tensor initialized uniform random values. * @param {number[]} size Sizes for each dimension * @param {number} [min] Minimum value of the Tensor * @param {number} [max] Maximum value of the Tensor * @returns {Tensor} Tensor initialized uniform random values */ static random(size: number[], min?: number, max?: number): Tensor; /** * Returns a tensor initialized normal random values. * @param {number[]} size Sizes for each dimension * @param {number} [myu] Mean value of the Tensor * @param {number} [sigma] Variance value of the Tensor * @returns {Tensor} Tensor initialized normal random values */ static randn(size: number[], myu?: number, sigma?: number): Tensor; /** * Returns a tensor from some value. * @param {Tensor | Matrix | Array | number} arr Original values * @returns {Tensor} Tensor from some value */ static fromArray(arr: Tensor | Matrix | Array | number): Tensor; /** * @param {number[]} size Sizes for each dimension * @param {number | number[]} [value] Initial values */ constructor(size: number[], value?: number | number[]); /** @private */ private _size; /** @private */ private _length; /** @private */ private _value; /** @private */ private _offset; /** * Dimension of the tensor. * @type {number} */ get dimension(): number; /** * Sizes of the tensor. * @type {number[]} */ get sizes(): number[]; /** * Number of all elements in the tensor. * @type {number} */ get length(): number; /** * Elements in the tensor. * @type {number[]} */ get value(): number[]; /** * Returns a nested array represented this tensor. * @returns {Array} Nested array */ toArray(): Array; /** * Returns a string represented this tensor. * @returns {string} String represented this tensor */ toString(): string; /** * Returns a Matrix if the dimension of this tensor is 2. * @returns {Matrix} Matrix * @throws {MatrixException} If the dimension of this tensor is not 2. */ toMatrix(): Matrix; /** * Returns the only element. * @returns {number} The only element */ toScaler(): number; _to_position(...i: any[]): number; _to_index(p: any): any[]; /** * Returns a copy of this tensor. * @returns {Tensor} Copied tensor */ copy(): Tensor; /** * Returns this tensor is equals to the others. * @param {*} other Check tensor * @returns {boolean} `true` if equal */ equals(other: any): boolean; /** * Returns value at the index position. * @overload * @param {...number} i Index values * @returns {number} The value */ at(...i: number[]): number; /** * Returns value at the index position. * @overload * @param {number[]} i Index values * @returns {number} The value */ at(i: number[]): number; /** * Returns tensor at the index position. * @overload * @param {...number} i Index values * @returns {Tensor} Sub tensor */ index(...i: number[]): Tensor; /** * Returns tensor at the index position. * @overload * @param {number[]} i Index values * @returns {Tensor} Sub tensor */ index(i: number[]): Tensor; /** * Set the value at the specific position. * @param {number | number[]} i Index values * @param {number} value Set value */ set(i: number | number[], value: number): void; /** * Returns the sub-tensor corresponding to position i in the first dimension of this. * @param {number | number[]} idx Select index value(s) * @param {number} [axis] Axis * @returns {Tensor} Selected tensor */ select(idx: number | number[], axis?: number): Tensor; /** * Returns a tensor sliced by first dimension. * @param {number} from Start index * @param {number} to End index * @param {number} [axis] Axis * @returns {Tensor} Sliced tensor */ slice(from: number, to: number, axis?: number): Tensor; /** * Fill in all the elements with the value. * @param {number} value Filled value */ fill(value: number): void; /** * Iterate over all the elements and replace the value. * @param {function (number, number[], Tensor): number} cb Mapping function */ map(cb: (arg0: number, arg1: number[], arg2: Tensor) => number): void; /** * Iterate over all the elements. * @param {function (number, number[], Tensor): void} cb Callback function */ forEach(cb: (arg0: number, arg1: number[], arg2: Tensor) => void): void; /** * Returns a tensor transposed along the axis. * @param {...number} axises Selected axises * @returns {Tensor} Transposed tensor */ /** * Returns a tensor transposed along the axis. * @param {number[]} axises Selected axises * @returns {Tensor} Transposed tensor */ /** * @param {...number | number[]} axises Selected axises * @returns {Tensor} Transposed tensor */ transpose(...axises: (number | number[])[]): Tensor; /** * Flip values along the axis. * @param {number} [axis] Axis to be flipped */ flip(axis?: number): void; /** * Shuffle along the axis. * @param {number} [axis] Axis */ shuffle(axis?: number): void; /** * Resize this tensor. * @param {number[]} sizes New sizes * @param {number} [init] Value of the extended region */ resize(sizes: number[], init?: number): void; /** * Reshape this as the sizes. * @overload * @param {...number} sizes New sizes for each dimension */ reshape(...sizes: number[]): any; /** * Reshape this as the sizes. * @overload * @param {number[]} sizes New sizes for each dimension */ reshape(sizes: number[]): any; /** * Repeat the elements n times along the axis this. * @overload * @param {number} n Repeated count * @param {number} [axis] Axis to be repeated */ repeat(n: number, axis?: number): any; /** * Repeat the elements n times along the axis this. * @overload * @param {number[]} n Repeated counts of each axis */ repeat(n: number[]): any; /** * Concatenate this and t. * @param {Tensor} t Concatenate tensor * @param {number} [axis] Axis to be concatenated */ concat(t: Tensor, axis?: number): void; /** * Returns a tensor reduced along all element with the callback function. * @overload * @param {function (number, number, number[], Tensor): number} cb Reducing function * @param {*} [init] Initial value * @returns {number} Reduced tensor or value */ reduce(cb: (arg0: number, arg1: number, arg2: number[], arg3: Tensor) => number, init?: any): number; /** * Returns a tensor reduced along the axis with the callback function. * @overload * @param {function (number, number, number[], Tensor): number} cb Reducing function * @param {*} init Initial value * @param {number | number[]} axis Axis to be reduced. If negative, reduce along all elements. * @param {boolean} [keepdims] Keep dimensions or not. * @returns {Tensor | number} Reduced tensor or value */ reduce(cb: (arg0: number, arg1: number, arg2: number[], arg3: Tensor) => number, init: any, axis: number | number[], keepdims?: boolean): Tensor | number; /** * Apply function for all elements with broadcasting. * @param {Tensor | Matrix | number} o Applied value * @param {function (number, number): number} fn Applied function */ broadcastOperate(o: Tensor | Matrix | number, fn: (arg0: number, arg1: number) => number): void; /** * Apply function to the position. * @param {number | number[]} i Index values * @param {function (number): number} [fn] Applied function * @returns {number} Old value */ operateAt(i: number | number[], fn?: (arg0: number) => number): number; /** * Returns a tensor product value. * @param {Matrix} o Right matrix * @returns {Tensor} Producted tensor */ dot(o: Matrix): Tensor; /** * Iterate over the elements. * @yields {number} */ [Symbol.iterator](): Generator; } import Matrix from './matrix.js';