/**
 * The `Apply` class provides the `ap` which is used to apply a function to an argument under a type constructor.
 *
 * `Apply` can be used to lift functions of two or more arguments to work on values wrapped with the type constructor
 * `f`.
 *
 * Instances must satisfy the following law in addition to the `Functor` laws:
 *
 * 1. Associative composition: `F.ap(F.ap(F.map(fbc, bc => ab => a => bc(ab(a))), fab), fa) <-> F.ap(fbc, F.ap(fab, fa))`
 *
 * Formally, `Apply` represents a strong lax semi-monoidal endofunctor.
 *
 * @example
 * import * as O from 'fp-ts/Option'
 * import { pipe } from 'fp-ts/function'
 *
 * const f = (a: string) => (b: number) => (c: boolean) => a + String(b) + String(c)
 * const fa: O.Option<string> = O.some('s')
 * const fb: O.Option<number> = O.some(1)
 * const fc: O.Option<boolean> = O.some(true)
 *
 * assert.deepStrictEqual(
 *   pipe(
 *     // lift a function
 *     O.some(f),
 *     // apply the first argument
 *     O.ap(fa),
 *     // apply the second argument
 *     O.ap(fb),
 *     // apply the third argument
 *     O.ap(fc)
 *   ),
 *   O.some('s1true')
 * )
 *
 * @since 2.0.0
 */
import { tuple } from './function';
import * as _ from './internal';
export function ap(F, G) {
    return function (fa) {
        return function (fab) {
            return F.ap(F.map(fab, function (gab) { return function (ga) { return G.ap(gab, ga); }; }), fa);
        };
    };
}
export function apFirst(A) {
    return function (second) { return function (first) {
        return A.ap(A.map(first, function (a) { return function () { return a; }; }), second);
    }; };
}
export function apSecond(A) {
    return function (second) {
        return function (first) {
            return A.ap(A.map(first, function () { return function (b) { return b; }; }), second);
        };
    };
}
export function apS(F) {
    return function (name, fb) {
        return function (fa) {
            return F.ap(F.map(fa, function (a) { return function (b) {
                var _a;
                return Object.assign({}, a, (_a = {}, _a[name] = b, _a));
            }; }), fb);
        };
    };
}
export function getApplySemigroup(F) {
    return function (S) { return ({
        concat: function (first, second) {
            return F.ap(F.map(first, function (x) { return function (y) { return S.concat(x, y); }; }), second);
        }
    }); };
}
function curried(f, n, acc) {
    return function (x) {
        var combined = Array(acc.length + 1);
        for (var i = 0; i < acc.length; i++) {
            combined[i] = acc[i];
        }
        combined[acc.length] = x;
        return n === 0 ? f.apply(null, combined) : curried(f, n - 1, combined);
    };
}
var tupleConstructors = {
    1: function (a) { return [a]; },
    2: function (a) { return function (b) { return [a, b]; }; },
    3: function (a) { return function (b) { return function (c) { return [a, b, c]; }; }; },
    4: function (a) { return function (b) { return function (c) { return function (d) { return [a, b, c, d]; }; }; }; },
    5: function (a) { return function (b) { return function (c) { return function (d) { return function (e) { return [a, b, c, d, e]; }; }; }; }; }
};
function getTupleConstructor(len) {
    if (!_.has.call(tupleConstructors, len)) {
        tupleConstructors[len] = curried(tuple, len - 1, []);
    }
    return tupleConstructors[len];
}
export function sequenceT(F) {
    return function () {
        var args = [];
        for (var _i = 0; _i < arguments.length; _i++) {
            args[_i] = arguments[_i];
        }
        var len = args.length;
        var f = getTupleConstructor(len);
        var fas = F.map(args[0], f);
        for (var i = 1; i < len; i++) {
            fas = F.ap(fas, args[i]);
        }
        return fas;
    };
}
function getRecordConstructor(keys) {
    var len = keys.length;
    switch (len) {
        case 1:
            return function (a) {
                var _a;
                return (_a = {}, _a[keys[0]] = a, _a);
            };
        case 2:
            return function (a) { return function (b) {
                var _a;
                return (_a = {}, _a[keys[0]] = a, _a[keys[1]] = b, _a);
            }; };
        case 3:
            return function (a) { return function (b) { return function (c) {
                var _a;
                return (_a = {}, _a[keys[0]] = a, _a[keys[1]] = b, _a[keys[2]] = c, _a);
            }; }; };
        case 4:
            return function (a) { return function (b) { return function (c) { return function (d) {
                var _a;
                return (_a = {},
                    _a[keys[0]] = a,
                    _a[keys[1]] = b,
                    _a[keys[2]] = c,
                    _a[keys[3]] = d,
                    _a);
            }; }; }; };
        case 5:
            return function (a) { return function (b) { return function (c) { return function (d) { return function (e) {
                var _a;
                return (_a = {},
                    _a[keys[0]] = a,
                    _a[keys[1]] = b,
                    _a[keys[2]] = c,
                    _a[keys[3]] = d,
                    _a[keys[4]] = e,
                    _a);
            }; }; }; }; };
        default:
            return curried(function () {
                var args = [];
                for (var _i = 0; _i < arguments.length; _i++) {
                    args[_i] = arguments[_i];
                }
                var r = {};
                for (var i = 0; i < len; i++) {
                    r[keys[i]] = args[i];
                }
                return r;
            }, len - 1, []);
    }
}
export function sequenceS(F) {
    return function (r) {
        var keys = Object.keys(r);
        var len = keys.length;
        var f = getRecordConstructor(keys);
        var fr = F.map(r[keys[0]], f);
        for (var i = 1; i < len; i++) {
            fr = F.ap(fr, r[keys[i]]);
        }
        return fr;
    };
}