/**
 * Utilities for creating, accessing, transforming, and comparing fixed-length
 * arrays (tuples). Every function produces a new tuple — inputs are never
 * mutated.
 *
 * ## Mental model
 *
 * - **Tuple**: A fixed-length readonly array where each position can have a
 *   different type (e.g., `readonly [string, number, boolean]`).
 * - **Index-based access**: Elements are accessed by numeric index, and the
 *   type system tracks the type at each position.
 * - **Dual API**: Most functions accept arguments in both data-first
 *   (`Tuple.get(t, 0)`) and data-last (`pipe(t, Tuple.get(0))`) style.
 * - **Immutability**: All operations return a new tuple; the original is
 *   never modified.
 * - **Lambda**: A type-level function interface (from `Struct`) used by
 *   {@link map}, {@link mapPick}, and {@link mapOmit} so the compiler can
 *   track how element types change.
 *
 * ## Common tasks
 *
 * - Create a tuple → {@link make}
 * - Access an element by index → {@link get}
 * - Select / remove elements by index → {@link pick}, {@link omit}
 * - Append elements → {@link appendElement}, {@link appendElements}
 * - Transform selected elements → {@link evolve}
 * - Swap element positions → {@link renameIndices}
 * - Map all elements with a typed lambda → {@link map}, {@link mapPick},
 *   {@link mapOmit}
 * - Compare tuples → {@link makeEquivalence}, {@link makeOrder}
 * - Combine / reduce tuples → {@link makeCombiner}, {@link makeReducer}
 * - Check tuple length at runtime → `isTupleOf`, `isTupleOfAtLeast`
 *
 * ## Gotchas
 *
 * - {@link pick} and {@link omit} use numeric indices, not string keys.
 * - {@link renameIndices} takes an array of stringified source indices
 *   (e.g., `["2", "1", "0"]`), not arbitrary names.
 * - {@link map}, {@link mapPick}, {@link mapOmit} require a Lambda value
 *   created with `Struct.lambda`; a plain function won't type-check.
 * - `isTupleOf` and `isTupleOfAtLeast` only check length, not
 *   element types.
 *
 * ## Quickstart
 *
 * **Example** (Creating and transforming a tuple)
 *
 * ```ts
 * import { pipe, Tuple } from "effect"
 *
 * const point = Tuple.make(10, 20, "red")
 *
 * const result = pipe(
 *   point,
 *   Tuple.evolve([
 *     (x) => x * 2,
 *     (y) => y * 2
 *   ])
 * )
 *
 * console.log(result) // [20, 40, "red"]
 * ```
 *
 * ## See also
 *
 * - `Struct` – similar utilities for objects with named keys
 * - {@link Array} – operations on variable-length arrays
 *
 * @since 2.0.0
 */
import * as Combiner from "./Combiner.ts";
import * as Equivalence from "./Equivalence.ts";
import * as order from "./Order.ts";
import * as Reducer from "./Reducer.ts";
import type { Apply, Lambda } from "./Struct.ts";
/**
 * Creates a tuple from the provided arguments.
 *
 * **When to use**
 *
 * Use when you use this instead of `[a, b, c] as const` when you want a properly typed tuple
 * without a manual cast.
 *
 * **Details**
 *
 * The returned value has the exact tuple type, with each element's literal type
 * preserved.
 *
 * **Example** (Creating a tuple)
 *
 * ```ts
 * import { Tuple } from "effect"
 *
 * const point = Tuple.make(10, 20, "red")
 * console.log(point) // [10, 20, "red"]
 * ```
 *
 * @see {@link get} – access a single element by index
 * @see {@link appendElement} – append an element to a tuple
 * @category constructors
 * @since 2.0.0
 */
export declare const make: <Elements extends ReadonlyArray<unknown>>(...elements: Elements) => Elements;
type Indices<T extends ReadonlyArray<unknown>> = Exclude<Partial<T>["length"], T["length"]>;
/**
 * Retrieves the element at the specified index from a tuple.
 *
 * **When to use**
 *
 * Use when you use this in a pipeline when you need to extract a single element.
 *
 * **Details**
 *
 * The index is constrained to valid tuple positions at the type level.
 *
 * **Example** (Extracting an element by index)
 *
 * ```ts
 * import { pipe, Tuple } from "effect"
 *
 * const last = pipe(Tuple.make(1, true, "hello"), Tuple.get(2))
 * console.log(last) // "hello"
 * ```
 *
 * @see {@link make} – create a tuple
 * @see {@link pick} – extract multiple elements into a new tuple
 * @category getters
 * @since 4.0.0
 */
export declare const get: {
    /**
     * Retrieves the element at the specified index from a tuple.
     *
     * **When to use**
     *
     * Use when you use this in a pipeline when you need to extract a single element.
     *
     * **Details**
     *
     * The index is constrained to valid tuple positions at the type level.
     *
     * **Example** (Extracting an element by index)
     *
     * ```ts
     * import { pipe, Tuple } from "effect"
     *
     * const last = pipe(Tuple.make(1, true, "hello"), Tuple.get(2))
     * console.log(last) // "hello"
     * ```
     *
     * @see {@link make} – create a tuple
     * @see {@link pick} – extract multiple elements into a new tuple
     * @category getters
     * @since 4.0.0
     */
    <const T extends ReadonlyArray<unknown>, I extends Indices<T> & keyof T>(index: I): (self: T) => T[I];
    /**
     * Retrieves the element at the specified index from a tuple.
     *
     * **When to use**
     *
     * Use when you use this in a pipeline when you need to extract a single element.
     *
     * **Details**
     *
     * The index is constrained to valid tuple positions at the type level.
     *
     * **Example** (Extracting an element by index)
     *
     * ```ts
     * import { pipe, Tuple } from "effect"
     *
     * const last = pipe(Tuple.make(1, true, "hello"), Tuple.get(2))
     * console.log(last) // "hello"
     * ```
     *
     * @see {@link make} – create a tuple
     * @see {@link pick} – extract multiple elements into a new tuple
     * @category getters
     * @since 4.0.0
     */
    <const T extends ReadonlyArray<unknown>, I extends Indices<T> & keyof T>(self: T, index: I): T[I];
};
type _BuildTuple<T extends ReadonlyArray<unknown>, K, Acc extends ReadonlyArray<unknown> = [], I extends ReadonlyArray<unknown> = []> = I["length"] extends T["length"] ? Acc : _BuildTuple<T, K, I["length"] extends K ? [...Acc, T[I["length"]]] : Acc, [
    ...I,
    unknown
]>;
type PickTuple<T extends ReadonlyArray<unknown>, K> = _BuildTuple<T, K>;
/**
 * Creates a new tuple containing only the elements at the specified indices.
 *
 * **When to use**
 *
 * Use to select a subset of elements from a tuple by position.
 *
 * **Details**
 *
 * The result order matches the order of the provided indices.
 *
 * **Example** (Selecting elements by index)
 *
 * ```ts
 * import { Tuple } from "effect"
 *
 * const result = Tuple.pick(["a", "b", "c", "d"], [0, 2, 3])
 * console.log(result) // ["a", "c", "d"]
 * ```
 *
 * @see {@link omit} – the inverse (exclude indices instead)
 * @see {@link get} – extract a single element
 * @category filtering
 * @since 4.0.0
 */
export declare const pick: {
    /**
     * Creates a new tuple containing only the elements at the specified indices.
     *
     * **When to use**
     *
     * Use to select a subset of elements from a tuple by position.
     *
     * **Details**
     *
     * The result order matches the order of the provided indices.
     *
     * **Example** (Selecting elements by index)
     *
     * ```ts
     * import { Tuple } from "effect"
     *
     * const result = Tuple.pick(["a", "b", "c", "d"], [0, 2, 3])
     * console.log(result) // ["a", "c", "d"]
     * ```
     *
     * @see {@link omit} – the inverse (exclude indices instead)
     * @see {@link get} – extract a single element
     * @category filtering
     * @since 4.0.0
     */
    <const T extends ReadonlyArray<unknown>, const I extends ReadonlyArray<Indices<T>>>(indices: I): (self: T) => PickTuple<T, I[number]>;
    /**
     * Creates a new tuple containing only the elements at the specified indices.
     *
     * **When to use**
     *
     * Use to select a subset of elements from a tuple by position.
     *
     * **Details**
     *
     * The result order matches the order of the provided indices.
     *
     * **Example** (Selecting elements by index)
     *
     * ```ts
     * import { Tuple } from "effect"
     *
     * const result = Tuple.pick(["a", "b", "c", "d"], [0, 2, 3])
     * console.log(result) // ["a", "c", "d"]
     * ```
     *
     * @see {@link omit} – the inverse (exclude indices instead)
     * @see {@link get} – extract a single element
     * @category filtering
     * @since 4.0.0
     */
    <const T extends ReadonlyArray<unknown>, const I extends ReadonlyArray<Indices<T>>>(self: T, indices: I): PickTuple<T, I[number]>;
};
type OmitTuple<T extends ReadonlyArray<unknown>, K> = _BuildTuple<T, Exclude<Indices<T>, K>>;
/**
 * Creates a new tuple with the elements at the specified indices removed.
 *
 * **When to use**
 *
 * Use to drop elements from a tuple by position.
 *
 * **Details**
 *
 * Elements not at the specified indices are kept in their original order.
 *
 * **Example** (Removing elements by index)
 *
 * ```ts
 * import { Tuple } from "effect"
 *
 * const result = Tuple.omit(["a", "b", "c", "d"], [1, 3])
 * console.log(result) // ["a", "c"]
 * ```
 *
 * @see {@link pick} – the inverse (keep only specified indices)
 * @category filtering
 * @since 4.0.0
 */
export declare const omit: {
    /**
     * Creates a new tuple with the elements at the specified indices removed.
     *
     * **When to use**
     *
     * Use to drop elements from a tuple by position.
     *
     * **Details**
     *
     * Elements not at the specified indices are kept in their original order.
     *
     * **Example** (Removing elements by index)
     *
     * ```ts
     * import { Tuple } from "effect"
     *
     * const result = Tuple.omit(["a", "b", "c", "d"], [1, 3])
     * console.log(result) // ["a", "c"]
     * ```
     *
     * @see {@link pick} – the inverse (keep only specified indices)
     * @category filtering
     * @since 4.0.0
     */
    <const T extends ReadonlyArray<unknown>, const I extends ReadonlyArray<Indices<T>>>(indices: I): (self: T) => OmitTuple<T, I[number]>;
    /**
     * Creates a new tuple with the elements at the specified indices removed.
     *
     * **When to use**
     *
     * Use to drop elements from a tuple by position.
     *
     * **Details**
     *
     * Elements not at the specified indices are kept in their original order.
     *
     * **Example** (Removing elements by index)
     *
     * ```ts
     * import { Tuple } from "effect"
     *
     * const result = Tuple.omit(["a", "b", "c", "d"], [1, 3])
     * console.log(result) // ["a", "c"]
     * ```
     *
     * @see {@link pick} – the inverse (keep only specified indices)
     * @category filtering
     * @since 4.0.0
     */
    <const T extends ReadonlyArray<unknown>, const I extends ReadonlyArray<Indices<T>>>(self: T, indices: I): OmitTuple<T, I[number]>;
};
/**
 * Appends a single element to the end of a tuple.
 *
 * **When to use**
 *
 * Use to add one element to the end of a tuple while preserving tuple types.
 *
 * **Details**
 *
 * The result type is `[...T, E]`, preserving all existing element types.
 *
 * **Example** (Appending an element)
 *
 * ```ts
 * import { pipe, Tuple } from "effect"
 *
 * const result = pipe(Tuple.make(1, 2), Tuple.appendElement("end"))
 * console.log(result) // [1, 2, "end"]
 * ```
 *
 * @see {@link appendElements} – append multiple elements (another tuple)
 * @category combining
 * @since 2.0.0
 */
export declare const appendElement: {
    /**
     * Appends a single element to the end of a tuple.
     *
     * **When to use**
     *
     * Use to add one element to the end of a tuple while preserving tuple types.
     *
     * **Details**
     *
     * The result type is `[...T, E]`, preserving all existing element types.
     *
     * **Example** (Appending an element)
     *
     * ```ts
     * import { pipe, Tuple } from "effect"
     *
     * const result = pipe(Tuple.make(1, 2), Tuple.appendElement("end"))
     * console.log(result) // [1, 2, "end"]
     * ```
     *
     * @see {@link appendElements} – append multiple elements (another tuple)
     * @category combining
     * @since 2.0.0
     */
    <const E>(element: E): <const T extends ReadonlyArray<unknown>>(self: T) => [...T, E];
    /**
     * Appends a single element to the end of a tuple.
     *
     * **When to use**
     *
     * Use to add one element to the end of a tuple while preserving tuple types.
     *
     * **Details**
     *
     * The result type is `[...T, E]`, preserving all existing element types.
     *
     * **Example** (Appending an element)
     *
     * ```ts
     * import { pipe, Tuple } from "effect"
     *
     * const result = pipe(Tuple.make(1, 2), Tuple.appendElement("end"))
     * console.log(result) // [1, 2, "end"]
     * ```
     *
     * @see {@link appendElements} – append multiple elements (another tuple)
     * @category combining
     * @since 2.0.0
     */
    <const T extends ReadonlyArray<unknown>, const E>(self: T, element: E): [...T, E];
};
/**
 * Concatenates two tuples into a single tuple.
 *
 * **When to use**
 *
 * Use to append all elements from one tuple to another tuple.
 *
 * **Details**
 *
 * The result type is `[...T1, ...T2]`, preserving all element types from both
 * tuples. Neither input tuple is mutated; a fresh tuple is returned.
 *
 * **Example** (Concatenating tuples)
 *
 * ```ts
 * import { pipe, Tuple } from "effect"
 *
 * const result = pipe(Tuple.make(1, 2), Tuple.appendElements(["a", "b"] as const))
 * console.log(result) // [1, 2, "a", "b"]
 * ```
 *
 * @see {@link appendElement} – append a single element
 * @category combining
 * @since 4.0.0
 */
export declare const appendElements: {
    /**
     * Concatenates two tuples into a single tuple.
     *
     * **When to use**
     *
     * Use to append all elements from one tuple to another tuple.
     *
     * **Details**
     *
     * The result type is `[...T1, ...T2]`, preserving all element types from both
     * tuples. Neither input tuple is mutated; a fresh tuple is returned.
     *
     * **Example** (Concatenating tuples)
     *
     * ```ts
     * import { pipe, Tuple } from "effect"
     *
     * const result = pipe(Tuple.make(1, 2), Tuple.appendElements(["a", "b"] as const))
     * console.log(result) // [1, 2, "a", "b"]
     * ```
     *
     * @see {@link appendElement} – append a single element
     * @category combining
     * @since 4.0.0
     */
    <const T2 extends ReadonlyArray<unknown>>(that: T2): <const T1 extends ReadonlyArray<unknown>>(self: T1) => [...T1, ...T2];
    /**
     * Concatenates two tuples into a single tuple.
     *
     * **When to use**
     *
     * Use to append all elements from one tuple to another tuple.
     *
     * **Details**
     *
     * The result type is `[...T1, ...T2]`, preserving all element types from both
     * tuples. Neither input tuple is mutated; a fresh tuple is returned.
     *
     * **Example** (Concatenating tuples)
     *
     * ```ts
     * import { pipe, Tuple } from "effect"
     *
     * const result = pipe(Tuple.make(1, 2), Tuple.appendElements(["a", "b"] as const))
     * console.log(result) // [1, 2, "a", "b"]
     * ```
     *
     * @see {@link appendElement} – append a single element
     * @category combining
     * @since 4.0.0
     */
    <const T1 extends ReadonlyArray<unknown>, const T2 extends ReadonlyArray<unknown>>(self: T1, that: T2): [...T1, ...T2];
};
type Evolver<T> = {
    readonly [I in keyof T]?: ((a: T[I]) => unknown) | undefined;
};
type Evolved<T, E> = {
    [I in keyof T]: I extends keyof E ? (E[I] extends (...a: any) => infer R ? R : T[I]) : T[I];
};
/**
 * Transforms elements of a tuple by providing an array of transform functions.
 * Each function applies to the element at the same position. Positions beyond
 * the array's length are copied unchanged.
 *
 * **When to use**
 *
 * Use when you want to update the first N elements while keeping the rest.
 *
 * **Details**
 *
 * Each transform function receives the current value and can return a different
 * type.
 *
 * **Example** (Transforming selected elements)
 *
 * ```ts
 * import { pipe, Tuple } from "effect"
 *
 * const result = pipe(
 *   Tuple.make("hello", 42, true),
 *   Tuple.evolve([
 *     (s) => s.toUpperCase(),
 *     (n) => n * 2
 *   ])
 * )
 * console.log(result) // ["HELLO", 84, true]
 * ```
 *
 * @see {@link map} – apply the same transformation to all elements
 * @see {@link renameIndices} – swap element positions
 * @category mapping
 * @since 4.0.0
 */
export declare const evolve: {
    /**
     * Transforms elements of a tuple by providing an array of transform functions.
     * Each function applies to the element at the same position. Positions beyond
     * the array's length are copied unchanged.
     *
     * **When to use**
     *
     * Use when you want to update the first N elements while keeping the rest.
     *
     * **Details**
     *
     * Each transform function receives the current value and can return a different
     * type.
     *
     * **Example** (Transforming selected elements)
     *
     * ```ts
     * import { pipe, Tuple } from "effect"
     *
     * const result = pipe(
     *   Tuple.make("hello", 42, true),
     *   Tuple.evolve([
     *     (s) => s.toUpperCase(),
     *     (n) => n * 2
     *   ])
     * )
     * console.log(result) // ["HELLO", 84, true]
     * ```
     *
     * @see {@link map} – apply the same transformation to all elements
     * @see {@link renameIndices} – swap element positions
     * @category mapping
     * @since 4.0.0
     */
    <const T extends ReadonlyArray<unknown>, const E extends Evolver<T>>(evolver: E): (self: T) => Evolved<T, E>;
    /**
     * Transforms elements of a tuple by providing an array of transform functions.
     * Each function applies to the element at the same position. Positions beyond
     * the array's length are copied unchanged.
     *
     * **When to use**
     *
     * Use when you want to update the first N elements while keeping the rest.
     *
     * **Details**
     *
     * Each transform function receives the current value and can return a different
     * type.
     *
     * **Example** (Transforming selected elements)
     *
     * ```ts
     * import { pipe, Tuple } from "effect"
     *
     * const result = pipe(
     *   Tuple.make("hello", 42, true),
     *   Tuple.evolve([
     *     (s) => s.toUpperCase(),
     *     (n) => n * 2
     *   ])
     * )
     * console.log(result) // ["HELLO", 84, true]
     * ```
     *
     * @see {@link map} – apply the same transformation to all elements
     * @see {@link renameIndices} – swap element positions
     * @category mapping
     * @since 4.0.0
     */
    <const T extends ReadonlyArray<unknown>, const E extends Evolver<T>>(self: T, evolver: E): Evolved<T, E>;
};
/**
 * Renames tuple indices by providing an array of stringified source
 * indices. Each position in the array specifies which index to read from
 * (e.g., `["2", "1", "0"]` reverses a 3-element tuple).
 *
 * **When to use**
 *
 * Use to reorder tuple elements while preserving index-specific types.
 *
 * **Details**
 *
 * The mapping returns a tuple in the requested index order.
 *
 * **Gotchas**
 *
 * The mapping uses stringified source indices, not arbitrary names.
 *
 * **Example** (Swapping elements)
 *
 * ```ts
 * import { pipe, Tuple } from "effect"
 *
 * const result = pipe(
 *   Tuple.make("a", "b", "c"),
 *   Tuple.renameIndices(["2", "1", "0"])
 * )
 * console.log(result) // ["c", "b", "a"]
 * ```
 *
 * @see {@link evolve} – transform element values instead of positions
 * @category Index utilities
 * @since 4.0.0
 */
export declare const renameIndices: {
    /**
     * Renames tuple indices by providing an array of stringified source
     * indices. Each position in the array specifies which index to read from
     * (e.g., `["2", "1", "0"]` reverses a 3-element tuple).
     *
     * **When to use**
     *
     * Use to reorder tuple elements while preserving index-specific types.
     *
     * **Details**
     *
     * The mapping returns a tuple in the requested index order.
     *
     * **Gotchas**
     *
     * The mapping uses stringified source indices, not arbitrary names.
     *
     * **Example** (Swapping elements)
     *
     * ```ts
     * import { pipe, Tuple } from "effect"
     *
     * const result = pipe(
     *   Tuple.make("a", "b", "c"),
     *   Tuple.renameIndices(["2", "1", "0"])
     * )
     * console.log(result) // ["c", "b", "a"]
     * ```
     *
     * @see {@link evolve} – transform element values instead of positions
     * @category Index utilities
     * @since 4.0.0
     */
    <const T extends ReadonlyArray<unknown>, const M extends {
        readonly [I in keyof T]?: `${keyof T & string}`;
    }>(mapping: M): (self: T) => {
        [I in keyof T]: I extends keyof M ? M[I] extends keyof T ? T[M[I]] : T[I] : T[I];
    };
    /**
     * Renames tuple indices by providing an array of stringified source
     * indices. Each position in the array specifies which index to read from
     * (e.g., `["2", "1", "0"]` reverses a 3-element tuple).
     *
     * **When to use**
     *
     * Use to reorder tuple elements while preserving index-specific types.
     *
     * **Details**
     *
     * The mapping returns a tuple in the requested index order.
     *
     * **Gotchas**
     *
     * The mapping uses stringified source indices, not arbitrary names.
     *
     * **Example** (Swapping elements)
     *
     * ```ts
     * import { pipe, Tuple } from "effect"
     *
     * const result = pipe(
     *   Tuple.make("a", "b", "c"),
     *   Tuple.renameIndices(["2", "1", "0"])
     * )
     * console.log(result) // ["c", "b", "a"]
     * ```
     *
     * @see {@link evolve} – transform element values instead of positions
     * @category Index utilities
     * @since 4.0.0
     */
    <const T extends ReadonlyArray<unknown>, const M extends {
        readonly [I in keyof T]?: `${keyof T & string}`;
    }>(self: T, mapping: M): {
        [I in keyof T]: I extends keyof M ? M[I] extends keyof T ? T[M[I]] : T[I] : T[I];
    };
};
/**
 * Applies a `Struct.Lambda` transformation to every element in a tuple.
 *
 * **When to use**
 *
 * Use when you want to apply the same transformation to every element.
 *
 * **Details**
 *
 * The lambda lets the compiler track the output type for each element.
 *
 * **Gotchas**
 *
 * The lambda must be created with `Struct.lambda`; a plain function will not
 * type-check.
 *
 * **Example** (Wrapping every element in an array)
 *
 * ```ts
 * import { pipe, Struct, Tuple } from "effect"
 *
 * interface AsArray extends Struct.Lambda {
 *   <A>(self: A): Array<A>
 *   readonly "~lambda.out": Array<this["~lambda.in"]>
 * }
 *
 * const asArray = Struct.lambda<AsArray>((a) => [a])
 * const result = pipe(Tuple.make(1, "hello", true), Tuple.map(asArray))
 * console.log(result) // [[1], ["hello"], [true]]
 * ```
 *
 * @see {@link mapPick} – apply a lambda only to selected indices
 * @see {@link mapOmit} – apply a lambda to all indices except selected ones
 * @see {@link evolve} – apply different functions to different indices
 * @category mapping
 * @since 3.9.0
 */
export declare const map: {
    /**
     * Applies a `Struct.Lambda` transformation to every element in a tuple.
     *
     * **When to use**
     *
     * Use when you want to apply the same transformation to every element.
     *
     * **Details**
     *
     * The lambda lets the compiler track the output type for each element.
     *
     * **Gotchas**
     *
     * The lambda must be created with `Struct.lambda`; a plain function will not
     * type-check.
     *
     * **Example** (Wrapping every element in an array)
     *
     * ```ts
     * import { pipe, Struct, Tuple } from "effect"
     *
     * interface AsArray extends Struct.Lambda {
     *   <A>(self: A): Array<A>
     *   readonly "~lambda.out": Array<this["~lambda.in"]>
     * }
     *
     * const asArray = Struct.lambda<AsArray>((a) => [a])
     * const result = pipe(Tuple.make(1, "hello", true), Tuple.map(asArray))
     * console.log(result) // [[1], ["hello"], [true]]
     * ```
     *
     * @see {@link mapPick} – apply a lambda only to selected indices
     * @see {@link mapOmit} – apply a lambda to all indices except selected ones
     * @see {@link evolve} – apply different functions to different indices
     * @category mapping
     * @since 3.9.0
     */
    <L extends Lambda>(lambda: L): <const T extends ReadonlyArray<unknown>>(self: T) => {
        [K in keyof T]: Apply<L, T[K]>;
    };
    /**
     * Applies a `Struct.Lambda` transformation to every element in a tuple.
     *
     * **When to use**
     *
     * Use when you want to apply the same transformation to every element.
     *
     * **Details**
     *
     * The lambda lets the compiler track the output type for each element.
     *
     * **Gotchas**
     *
     * The lambda must be created with `Struct.lambda`; a plain function will not
     * type-check.
     *
     * **Example** (Wrapping every element in an array)
     *
     * ```ts
     * import { pipe, Struct, Tuple } from "effect"
     *
     * interface AsArray extends Struct.Lambda {
     *   <A>(self: A): Array<A>
     *   readonly "~lambda.out": Array<this["~lambda.in"]>
     * }
     *
     * const asArray = Struct.lambda<AsArray>((a) => [a])
     * const result = pipe(Tuple.make(1, "hello", true), Tuple.map(asArray))
     * console.log(result) // [[1], ["hello"], [true]]
     * ```
     *
     * @see {@link mapPick} – apply a lambda only to selected indices
     * @see {@link mapOmit} – apply a lambda to all indices except selected ones
     * @see {@link evolve} – apply different functions to different indices
     * @category mapping
     * @since 3.9.0
     */
    <const T extends ReadonlyArray<unknown>, L extends Lambda>(self: T, lambda: L): {
        [K in keyof T]: Apply<L, T[K]>;
    };
};
/**
 * Applies a `Struct.Lambda` transformation only to the elements at the
 * specified indices; all other elements are copied unchanged.
 *
 * **When to use**
 *
 * Use when you want to apply the same transformation to a subset of
 * positions.
 *
 * **Example** (Wrapping only selected elements in arrays)
 *
 * ```ts
 * import { pipe, Struct, Tuple } from "effect"
 *
 * interface AsArray extends Struct.Lambda {
 *   <A>(self: A): Array<A>
 *   readonly "~lambda.out": Array<this["~lambda.in"]>
 * }
 *
 * const asArray = Struct.lambda<AsArray>((a) => [a])
 * const result = pipe(
 *   Tuple.make(1, "hello", true),
 *   Tuple.mapPick([0, 2], asArray)
 * )
 * console.log(result) // [[1], "hello", [true]]
 * ```
 *
 * @see {@link map} – apply a lambda to all elements
 * @see {@link mapOmit} – apply a lambda to all elements except selected ones
 * @category mapping
 * @since 4.0.0
 */
export declare const mapPick: {
    /**
     * Applies a `Struct.Lambda` transformation only to the elements at the
     * specified indices; all other elements are copied unchanged.
     *
     * **When to use**
     *
     * Use when you want to apply the same transformation to a subset of
     * positions.
     *
     * **Example** (Wrapping only selected elements in arrays)
     *
     * ```ts
     * import { pipe, Struct, Tuple } from "effect"
     *
     * interface AsArray extends Struct.Lambda {
     *   <A>(self: A): Array<A>
     *   readonly "~lambda.out": Array<this["~lambda.in"]>
     * }
     *
     * const asArray = Struct.lambda<AsArray>((a) => [a])
     * const result = pipe(
     *   Tuple.make(1, "hello", true),
     *   Tuple.mapPick([0, 2], asArray)
     * )
     * console.log(result) // [[1], "hello", [true]]
     * ```
     *
     * @see {@link map} – apply a lambda to all elements
     * @see {@link mapOmit} – apply a lambda to all elements except selected ones
     * @category mapping
     * @since 4.0.0
     */
    <const T extends ReadonlyArray<unknown>, const I extends ReadonlyArray<Indices<T>>, L extends Lambda>(indices: I, lambda: L): (self: T) => {
        [K in keyof T]: K extends `${I[number]}` ? Apply<L, T[K]> : T[K];
    };
    /**
     * Applies a `Struct.Lambda` transformation only to the elements at the
     * specified indices; all other elements are copied unchanged.
     *
     * **When to use**
     *
     * Use when you want to apply the same transformation to a subset of
     * positions.
     *
     * **Example** (Wrapping only selected elements in arrays)
     *
     * ```ts
     * import { pipe, Struct, Tuple } from "effect"
     *
     * interface AsArray extends Struct.Lambda {
     *   <A>(self: A): Array<A>
     *   readonly "~lambda.out": Array<this["~lambda.in"]>
     * }
     *
     * const asArray = Struct.lambda<AsArray>((a) => [a])
     * const result = pipe(
     *   Tuple.make(1, "hello", true),
     *   Tuple.mapPick([0, 2], asArray)
     * )
     * console.log(result) // [[1], "hello", [true]]
     * ```
     *
     * @see {@link map} – apply a lambda to all elements
     * @see {@link mapOmit} – apply a lambda to all elements except selected ones
     * @category mapping
     * @since 4.0.0
     */
    <const T extends ReadonlyArray<unknown>, const I extends ReadonlyArray<Indices<T>>, L extends Lambda>(self: T, indices: I, lambda: L): {
        [K in keyof T]: K extends `${I[number]}` ? Apply<L, T[K]> : T[K];
    };
};
/**
 * Applies a `Struct.Lambda` transformation to all elements except those at the
 * specified indices; the excluded elements are copied unchanged.
 *
 * **When to use**
 *
 * Use when most elements should be transformed but a few should be
 * preserved.
 *
 * **Example** (Wrapping all elements except one in arrays)
 *
 * ```ts
 * import { pipe, Struct, Tuple } from "effect"
 *
 * interface AsArray extends Struct.Lambda {
 *   <A>(self: A): Array<A>
 *   readonly "~lambda.out": Array<this["~lambda.in"]>
 * }
 *
 * const asArray = Struct.lambda<AsArray>((a) => [a])
 * const result = pipe(
 *   Tuple.make(1, "hello", true),
 *   Tuple.mapOmit([1], asArray)
 * )
 * console.log(result) // [[1], "hello", [true]]
 * ```
 *
 * @see {@link map} – apply a lambda to all elements
 * @see {@link mapPick} – apply a lambda only to selected indices
 * @category mapping
 * @since 4.0.0
 */
export declare const mapOmit: {
    /**
     * Applies a `Struct.Lambda` transformation to all elements except those at the
     * specified indices; the excluded elements are copied unchanged.
     *
     * **When to use**
     *
     * Use when most elements should be transformed but a few should be
     * preserved.
     *
     * **Example** (Wrapping all elements except one in arrays)
     *
     * ```ts
     * import { pipe, Struct, Tuple } from "effect"
     *
     * interface AsArray extends Struct.Lambda {
     *   <A>(self: A): Array<A>
     *   readonly "~lambda.out": Array<this["~lambda.in"]>
     * }
     *
     * const asArray = Struct.lambda<AsArray>((a) => [a])
     * const result = pipe(
     *   Tuple.make(1, "hello", true),
     *   Tuple.mapOmit([1], asArray)
     * )
     * console.log(result) // [[1], "hello", [true]]
     * ```
     *
     * @see {@link map} – apply a lambda to all elements
     * @see {@link mapPick} – apply a lambda only to selected indices
     * @category mapping
     * @since 4.0.0
     */
    <const T extends ReadonlyArray<unknown>, const I extends ReadonlyArray<Indices<T>>, L extends Lambda>(indices: I, lambda: L): (self: T) => {
        [K in keyof T]: K extends `${I[number]}` ? T[K] : Apply<L, T[K]>;
    };
    /**
     * Applies a `Struct.Lambda` transformation to all elements except those at the
     * specified indices; the excluded elements are copied unchanged.
     *
     * **When to use**
     *
     * Use when most elements should be transformed but a few should be
     * preserved.
     *
     * **Example** (Wrapping all elements except one in arrays)
     *
     * ```ts
     * import { pipe, Struct, Tuple } from "effect"
     *
     * interface AsArray extends Struct.Lambda {
     *   <A>(self: A): Array<A>
     *   readonly "~lambda.out": Array<this["~lambda.in"]>
     * }
     *
     * const asArray = Struct.lambda<AsArray>((a) => [a])
     * const result = pipe(
     *   Tuple.make(1, "hello", true),
     *   Tuple.mapOmit([1], asArray)
     * )
     * console.log(result) // [[1], "hello", [true]]
     * ```
     *
     * @see {@link map} – apply a lambda to all elements
     * @see {@link mapPick} – apply a lambda only to selected indices
     * @category mapping
     * @since 4.0.0
     */
    <const T extends ReadonlyArray<unknown>, const I extends ReadonlyArray<Indices<T>>, L extends Lambda>(self: T, indices: I, lambda: L): {
        [K in keyof T]: K extends `${I[number]}` ? T[K] : Apply<L, T[K]>;
    };
};
/**
 * Creates an `Equivalence` for tuples by comparing corresponding elements
 * using the provided per-position `Equivalence`s. Two tuples are equivalent
 * when all their corresponding elements are equivalent.
 *
 * **When to use**
 *
 * Use when you need to compare tuples element-by-element.
 *
 * **Details**
 *
 * This is an alias of `Equivalence.Tuple`.
 *
 * **Example** (Comparing tuples for equivalence)
 *
 * ```ts
 * import { Equivalence, Tuple } from "effect"
 *
 * const eq = Tuple.makeEquivalence([
 *   Equivalence.strictEqual<string>(),
 *   Equivalence.strictEqual<number>()
 * ])
 *
 * console.log(eq(["Alice", 30], ["Alice", 30])) // true
 * console.log(eq(["Alice", 30], ["Bob", 30]))   // false
 * ```
 *
 * @see {@link makeOrder} – create an `Order` for tuples
 * @category instances
 * @since 4.0.0
 */
export declare const makeEquivalence: typeof Equivalence.Tuple;
/**
 * Creates an `Order` for tuples by comparing corresponding elements using the
 * provided per-position `Order`s. Elements are compared left-to-right; the
 * first non-zero comparison determines the result.
 *
 * **When to use**
 *
 * Use to sort or compare tuples lexicographically by element position.
 *
 * **Details**
 *
 * This is an alias of `Order.Tuple`.
 *
 * **Example** (Ordering tuples)
 *
 * ```ts
 * import { Number, String, Tuple } from "effect"
 *
 * const ord = Tuple.makeOrder([String.Order, Number.Order])
 *
 * console.log(ord(["Alice", 30], ["Bob", 25]))   // -1
 * console.log(ord(["Alice", 30], ["Alice", 30])) // 0
 * ```
 *
 * @see {@link makeEquivalence} – create an `Equivalence` for tuples
 * @category ordering
 * @since 4.0.0
 */
export declare const makeOrder: typeof order.Tuple;
export { 
/**
 * Checks whether an array has exactly `N` elements, narrowing the type to a
 * fixed-length tuple.
 *
 * **When to use**
 *
 * Use to guard against unexpected array lengths at runtime.
 *
 * **Details**
 *
 * This is a re-export of `Predicate.isTupleOf`. It narrows the type to
 * `TupleOf<N, T>` in the truthy branch.
 *
 * **Gotchas**
 *
 * This only checks `.length`; it does not validate element types.
 *
 * **Example** (Checking exact length)
 *
 * ```ts
 * import { Tuple } from "effect"
 *
 * const arr: Array<number> = [1, 2, 3]
 * if (Tuple.isTupleOf(arr, 3)) {
 *   console.log(arr)
 *   // ^? [number, number, number]
 * }
 * ```
 *
 * @see `isTupleOfAtLeast` – check for a minimum length
 * @category guards
 * @since 3.3.0
 */
isTupleOf, 
/**
 * Checks whether an array has at least `N` elements, narrowing the type to a
 * tuple with a minimum length.
 *
 * **When to use**
 *
 * Use to guard that an array has at least the expected number of
 * elements.
 *
 * **Details**
 *
 * This is a re-export of `Predicate.isTupleOfAtLeast`. It narrows the type to
 * `TupleOfAtLeast<N, T>` in the truthy branch.
 *
 * **Gotchas**
 *
 * This only checks `.length`; it does not validate element types.
 *
 * **Example** (Checking minimum length)
 *
 * ```ts
 * import { Tuple } from "effect"
 *
 * const arr: Array<number> = [1, 2, 3, 4]
 * if (Tuple.isTupleOfAtLeast(arr, 3)) {
 *   console.log(arr)
 *   // ^? [number, number, number, ...number[]]
 * }
 * ```
 *
 * @see `isTupleOf` – check for an exact length
 * @category guards
 * @since 3.3.0
 */
isTupleOfAtLeast } from "./Predicate.ts";
/**
 * Creates a `Combiner` for a tuple shape by providing a `Combiner` for each
 * position. When two tuples are combined, each element is merged using its
 * corresponding combiner.
 *
 * **When to use**
 *
 * Use when you need to merge two tuples of the same shape, such as summing
 * counters or concatenating strings.
 *
 * **Example** (Combining tuple elements)
 *
 * ```ts
 * import { Number, String, Tuple } from "effect"
 *
 * const C = Tuple.makeCombiner<readonly [number, string]>([
 *   Number.ReducerSum,
 *   String.ReducerConcat
 * ])
 *
 * const result = C.combine([1, "hello"], [2, " world"])
 * console.log(result) // [3, "hello world"]
 * ```
 *
 * @see {@link makeReducer} – like `makeCombiner` but with an initial value
 * @category combining
 * @since 4.0.0
 */
export declare function makeCombiner<A extends ReadonlyArray<unknown>>(combiners: {
    readonly [K in keyof A]: Combiner.Combiner<A[K]>;
}): Combiner.Combiner<A>;
/**
 * Creates a `Reducer` for a tuple shape by providing a `Reducer` for each
 * position. The initial value is derived from each position's
 * `Reducer.initialValue`. When reducing a collection of tuples, each element
 * is combined independently.
 *
 * **When to use**
 *
 * Use to fold a collection of tuples into a single summary tuple.
 *
 * **Example** (Reducing a collection of tuples)
 *
 * ```ts
 * import { Number, String, Tuple } from "effect"
 *
 * const R = Tuple.makeReducer<readonly [number, string]>([
 *   Number.ReducerSum,
 *   String.ReducerConcat
 * ])
 *
 * const result = R.combineAll([
 *   [1, "a"],
 *   [2, "b"],
 *   [3, "c"]
 * ])
 * console.log(result) // [6, "abc"]
 * ```
 *
 * @see {@link makeCombiner} – like `makeReducer` but without an initial value
 * @category folding
 * @since 4.0.0
 */
export declare function makeReducer<A extends ReadonlyArray<unknown>>(reducers: {
    readonly [K in keyof A]: Reducer.Reducer<A[K]>;
}): Reducer.Reducer<A>;
//# sourceMappingURL=Tuple.d.ts.map