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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.tuple = exports.struct = exports.string = exports.reverse = exports.productMany = exports.product = exports.number = exports.min = exports.max = exports.mapInput = exports.make = exports.lessThanOrEqualTo = exports.lessThan = exports.greaterThanOrEqualTo = exports.greaterThan = exports.empty = exports.combineMany = exports.combineAll = exports.combine = exports.clamp = exports.boolean = exports.bigint = exports.between = exports.array = exports.all = exports.Date = void 0;
var _Function = require("./Function.js");
/**
* This module provides an implementation of the `Order` type class which is used to define a total ordering on some type `A`.
* An order is defined by a relation `<=`, which obeys the following laws:
*
* - either `x <= y` or `y <= x` (totality)
* - if `x <= y` and `y <= x`, then `x == y` (antisymmetry)
* - if `x <= y` and `y <= z`, then `x <= z` (transitivity)
*
* The truth table for compare is defined as follows:
*
* | `x <= y` | `x >= y` | Ordering | |
* | -------- | -------- | -------- | --------------------- |
* | `true` | `true` | `0` | corresponds to x == y |
* | `true` | `false` | `< 0` | corresponds to x < y |
* | `false` | `true` | `> 0` | corresponds to x > y |
*
* @since 2.0.0
*/
/**
* @category constructors
* @since 2.0.0
*/
const make = compare => (self, that) => self === that ? 0 : compare(self, that);
/**
* @category instances
* @since 2.0.0
*/
exports.make = make;
const string = exports.string = /*#__PURE__*/make((self, that) => self < that ? -1 : 1);
/**
* @category instances
* @since 2.0.0
*/
const number = exports.number = /*#__PURE__*/make((self, that) => self < that ? -1 : 1);
/**
* @category instances
* @since 2.0.0
*/
const boolean = exports.boolean = /*#__PURE__*/make((self, that) => self < that ? -1 : 1);
/**
* @category instances
* @since 2.0.0
*/
const bigint = exports.bigint = /*#__PURE__*/make((self, that) => self < that ? -1 : 1);
/**
* @since 2.0.0
*/
const reverse = O => make((self, that) => O(that, self));
/**
* @category combining
* @since 2.0.0
*/
exports.reverse = reverse;
const combine = exports.combine = /*#__PURE__*/(0, _Function.dual)(2, (self, that) => make((a1, a2) => {
const out = self(a1, a2);
if (out !== 0) {
return out;
}
return that(a1, a2);
}));
/**
* @category combining
* @since 2.0.0
*/
const combineMany = exports.combineMany = /*#__PURE__*/(0, _Function.dual)(2, (self, collection) => make((a1, a2) => {
let out = self(a1, a2);
if (out !== 0) {
return out;
}
for (const O of collection) {
out = O(a1, a2);
if (out !== 0) {
return out;
}
}
return out;
}));
/**
* @since 2.0.0
*/
const empty = () => make(() => 0);
/**
* @category combining
* @since 2.0.0
*/
exports.empty = empty;
const combineAll = collection => combineMany(empty(), collection);
/**
* @category mapping
* @since 2.0.0
*/
exports.combineAll = combineAll;
const mapInput = exports.mapInput = /*#__PURE__*/(0, _Function.dual)(2, (self, f) => make((b1, b2) => self(f(b1), f(b2))));
/**
* @category instances
* @since 2.0.0
*/
const Date = exports.Date = /*#__PURE__*/mapInput(number, date => date.getTime());
/**
* @category combining
* @since 2.0.0
*/
const product = exports.product = /*#__PURE__*/(0, _Function.dual)(2, (self, that) => make(([xa, xb], [ya, yb]) => {
const o = self(xa, ya);
return o !== 0 ? o : that(xb, yb);
}));
/**
* @category combining
* @since 2.0.0
*/
const all = collection => {
return make((x, y) => {
const len = Math.min(x.length, y.length);
let collectionLength = 0;
for (const O of collection) {
if (collectionLength >= len) {
break;
}
const o = O(x[collectionLength], y[collectionLength]);
if (o !== 0) {
return o;
}
collectionLength++;
}
return 0;
});
};
/**
* @category combining
* @since 2.0.0
*/
exports.all = all;
const productMany = exports.productMany = /*#__PURE__*/(0, _Function.dual)(2, (self, collection) => {
const O = all(collection);
return make((x, y) => {
const o = self(x[0], y[0]);
return o !== 0 ? o : O(x.slice(1), y.slice(1));
});
});
/**
* Similar to `Promise.all` but operates on `Order`s.
*
* ```
* [Order<A>, Order<B>, ...] -> Order<[A, B, ...]>
* ```
*
* This function creates and returns a new `Order` for a tuple of values based on the given `Order`s for each element in the tuple.
* The returned `Order` compares two tuples of the same type by applying the corresponding `Order` to each element in the tuple.
* It is useful when you need to compare two tuples of the same type and you have a specific way of comparing each element
* of the tuple.
*
* @category combinators
* @since 2.0.0
*/
const tuple = (...elements) => all(elements);
/**
* This function creates and returns a new `Order` for an array of values based on a given `Order` for the elements of the array.
* The returned `Order` compares two arrays by applying the given `Order` to each element in the arrays.
* If all elements are equal, the arrays are then compared based on their length.
* It is useful when you need to compare two arrays of the same type and you have a specific way of comparing each element of the array.
*
* @category combinators
* @since 2.0.0
*/
exports.tuple = tuple;
const array = O => make((self, that) => {
const aLen = self.length;
const bLen = that.length;
const len = Math.min(aLen, bLen);
for (let i = 0; i < len; i++) {
const o = O(self[i], that[i]);
if (o !== 0) {
return o;
}
}
return number(aLen, bLen);
});
/**
* This function creates and returns a new `Order` for a struct of values based on the given `Order`s
* for each property in the struct.
*
* @category combinators
* @since 2.0.0
*/
exports.array = array;
const struct = fields => {
const keys = Object.keys(fields);
return make((self, that) => {
for (const key of keys) {
const o = fields[key](self[key], that[key]);
if (o !== 0) {
return o;
}
}
return 0;
});
};
/**
* Test whether one value is _strictly less than_ another.
*
* @since 2.0.0
*/
exports.struct = struct;
const lessThan = O => (0, _Function.dual)(2, (self, that) => O(self, that) === -1);
/**
* Test whether one value is _strictly greater than_ another.
*
* @since 2.0.0
*/
exports.lessThan = lessThan;
const greaterThan = O => (0, _Function.dual)(2, (self, that) => O(self, that) === 1);
/**
* Test whether one value is _non-strictly less than_ another.
*
* @since 2.0.0
*/
exports.greaterThan = greaterThan;
const lessThanOrEqualTo = O => (0, _Function.dual)(2, (self, that) => O(self, that) !== 1);
/**
* Test whether one value is _non-strictly greater than_ another.
*
* @since 2.0.0
*/
exports.lessThanOrEqualTo = lessThanOrEqualTo;
const greaterThanOrEqualTo = O => (0, _Function.dual)(2, (self, that) => O(self, that) !== -1);
/**
* Take the minimum of two values. If they are considered equal, the first argument is chosen.
*
* @since 2.0.0
*/
exports.greaterThanOrEqualTo = greaterThanOrEqualTo;
const min = O => (0, _Function.dual)(2, (self, that) => self === that || O(self, that) < 1 ? self : that);
/**
* Take the maximum of two values. If they are considered equal, the first argument is chosen.
*
* @since 2.0.0
*/
exports.min = min;
const max = O => (0, _Function.dual)(2, (self, that) => self === that || O(self, that) > -1 ? self : that);
/**
* Clamp a value between a minimum and a maximum.
*
* @example
* ```ts
* import * as assert from "node:assert"
* import { Order, Number } from "effect"
*
* const clamp = Order.clamp(Number.Order)({ minimum: 1, maximum: 5 })
*
* assert.equal(clamp(3), 3)
* assert.equal(clamp(0), 1)
* assert.equal(clamp(6), 5)
* ```
*
* @since 2.0.0
*/
exports.max = max;
const clamp = O => (0, _Function.dual)(2, (self, options) => min(O)(options.maximum, max(O)(options.minimum, self)));
/**
* Test whether a value is between a minimum and a maximum (inclusive).
*
* @since 2.0.0
*/
exports.clamp = clamp;
const between = O => (0, _Function.dual)(2, (self, options) => !lessThan(O)(self, options.minimum) && !greaterThan(O)(self, options.maximum));
exports.between = between;
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