mbot/node_modules/@sapphire/shapeshift/dist/esm/index.mjs

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2024-05-11 05:39:11 +00:00
import get from 'lodash/get.js';
import fastDeepEqual from 'fast-deep-equal/es6/index.js';
import uniqWith from 'lodash/uniqWith.js';
var __defProp = Object.defineProperty;
var __name = (target, value) => __defProp(target, "name", { value, configurable: true });
// src/lib/configs.ts
var validationEnabled = true;
function setGlobalValidationEnabled(enabled) {
validationEnabled = enabled;
}
__name(setGlobalValidationEnabled, "setGlobalValidationEnabled");
function getGlobalValidationEnabled() {
return validationEnabled;
}
__name(getGlobalValidationEnabled, "getGlobalValidationEnabled");
// src/lib/Result.ts
var _Result = class _Result {
constructor(success, value, error) {
this.success = success;
if (success) {
this.value = value;
} else {
this.error = error;
}
}
isOk() {
return this.success;
}
isErr() {
return !this.success;
}
unwrap() {
if (this.isOk())
return this.value;
throw this.error;
}
static ok(value) {
return new _Result(true, value);
}
static err(error) {
return new _Result(false, void 0, error);
}
};
__name(_Result, "Result");
var Result = _Result;
// src/validators/util/getValue.ts
function getValue(valueOrFn) {
return typeof valueOrFn === "function" ? valueOrFn() : valueOrFn;
}
__name(getValue, "getValue");
// node_modules/@jspm/core/nodelibs/browser/chunk-5decc758.js
var e;
var t;
var n;
var r = "undefined" != typeof globalThis ? globalThis : "undefined" != typeof self ? self : globalThis;
var o = e = {};
function i() {
throw new Error("setTimeout has not been defined");
}
__name(i, "i");
function u() {
throw new Error("clearTimeout has not been defined");
}
__name(u, "u");
function c(e3) {
if (t === setTimeout)
return setTimeout(e3, 0);
if ((t === i || !t) && setTimeout)
return t = setTimeout, setTimeout(e3, 0);
try {
return t(e3, 0);
} catch (n3) {
try {
return t.call(null, e3, 0);
} catch (n4) {
return t.call(this || r, e3, 0);
}
}
}
__name(c, "c");
!function() {
try {
t = "function" == typeof setTimeout ? setTimeout : i;
} catch (e3) {
t = i;
}
try {
n = "function" == typeof clearTimeout ? clearTimeout : u;
} catch (e3) {
n = u;
}
}();
var l;
var s = [];
var f = false;
var a = -1;
function h() {
f && l && (f = false, l.length ? s = l.concat(s) : a = -1, s.length && d());
}
__name(h, "h");
function d() {
if (!f) {
var e3 = c(h);
f = true;
for (var t3 = s.length; t3; ) {
for (l = s, s = []; ++a < t3; )
l && l[a].run();
a = -1, t3 = s.length;
}
l = null, f = false, function(e4) {
if (n === clearTimeout)
return clearTimeout(e4);
if ((n === u || !n) && clearTimeout)
return n = clearTimeout, clearTimeout(e4);
try {
n(e4);
} catch (t4) {
try {
return n.call(null, e4);
} catch (t5) {
return n.call(this || r, e4);
}
}
}(e3);
}
}
__name(d, "d");
function m(e3, t3) {
(this || r).fun = e3, (this || r).array = t3;
}
__name(m, "m");
function p() {
}
__name(p, "p");
o.nextTick = function(e3) {
var t3 = new Array(arguments.length - 1);
if (arguments.length > 1)
for (var n3 = 1; n3 < arguments.length; n3++)
t3[n3 - 1] = arguments[n3];
s.push(new m(e3, t3)), 1 !== s.length || f || c(d);
}, m.prototype.run = function() {
(this || r).fun.apply(null, (this || r).array);
}, o.title = "browser", o.browser = true, o.env = {}, o.argv = [], o.version = "", o.versions = {}, o.on = p, o.addListener = p, o.once = p, o.off = p, o.removeListener = p, o.removeAllListeners = p, o.emit = p, o.prependListener = p, o.prependOnceListener = p, o.listeners = function(e3) {
return [];
}, o.binding = function(e3) {
throw new Error("process.binding is not supported");
}, o.cwd = function() {
return "/";
}, o.chdir = function(e3) {
throw new Error("process.chdir is not supported");
}, o.umask = function() {
return 0;
};
var T = e;
T.addListener;
T.argv;
T.binding;
T.browser;
T.chdir;
T.cwd;
T.emit;
T.env;
T.listeners;
T.nextTick;
T.off;
T.on;
T.once;
T.prependListener;
T.prependOnceListener;
T.removeAllListeners;
T.removeListener;
T.title;
T.umask;
T.version;
T.versions;
// node_modules/@jspm/core/nodelibs/browser/chunk-b4205b57.js
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}, "n");
var r2 = function() {
return o2(arguments);
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o2.isLegacyArguments = n2;
var l2 = r2 ? o2 : n2;
var t$1 = Object.prototype.toString;
var o$1 = Function.prototype.toString;
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var t$2 = "function" == typeof Object.create ? function(t3, e3) {
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var o3 = /* @__PURE__ */ __name(function() {
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var f2 = l2;
var a2 = i2;
function c$1(e3) {
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__name(c$1, "c$1");
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var y = p2 && void 0 !== Symbol.toStringTag;
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var m2 = c$1(Object.prototype.toString);
var h2 = c$1(Number.prototype.valueOf);
var j = c$1(String.prototype.valueOf);
var A = c$1(Boolean.prototype.valueOf);
if (s2)
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if (p2)
var v = c$1(Symbol.prototype.valueOf);
function O(e3, t3) {
if ("object" != typeof e3)
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try {
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return false;
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__name(O, "O");
function S(e3) {
return l$1 && y ? void 0 !== b(e3) : B(e3) || k(e3) || E(e3) || D(e3) || U(e3) || P(e3) || x(e3) || I(e3) || M(e3) || z(e3) || F(e3);
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__name(S, "S");
function B(e3) {
return l$1 && y ? "Uint8Array" === b(e3) : "[object Uint8Array]" === m2(e3) || u$1(e3) && void 0 !== e3.buffer;
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__name(B, "B");
function k(e3) {
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__name(k, "k");
function E(e3) {
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__name(E, "E");
function D(e3) {
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__name(D, "D");
function U(e3) {
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__name(U, "U");
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return l$1 && y ? "Int32Array" === b(e3) : "[object Int32Array]" === m2(e3);
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__name(x, "x");
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__name(I, "I");
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__name(M, "M");
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__name(_, "_");
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__name(pe, "pe");
function ye(e3) {
return "boolean" == typeof e3;
}
__name(ye, "ye");
function le(e3) {
return null === e3;
}
__name(le, "le");
function de(e3) {
return "number" == typeof e3;
}
__name(de, "de");
function ge(e3) {
return "string" == typeof e3;
}
__name(ge, "ge");
function be(e3) {
return void 0 === e3;
}
__name(be, "be");
function me(e3) {
return he(e3) && "[object RegExp]" === ve(e3);
}
__name(me, "me");
function he(e3) {
return "object" == typeof e3 && null !== e3;
}
__name(he, "he");
function je(e3) {
return he(e3) && "[object Date]" === ve(e3);
}
__name(je, "je");
function Ae(e3) {
return he(e3) && ("[object Error]" === ve(e3) || e3 instanceof Error);
}
__name(Ae, "Ae");
function we(e3) {
return "function" == typeof e3;
}
__name(we, "we");
function ve(e3) {
return Object.prototype.toString.call(e3);
}
__name(ve, "ve");
function Oe(e3) {
return e3 < 10 ? "0" + e3.toString(10) : e3.toString(10);
}
__name(Oe, "Oe");
X.debuglog = function(e3) {
if (e3 = e3.toUpperCase(), !re[e3])
if (ne.test(e3)) {
var t3 = Y.pid;
re[e3] = function() {
var r3 = X.format.apply(X, arguments);
console.error("%s %d: %s", e3, t3, r3);
};
} else
re[e3] = function() {
};
return re[e3];
}, X.inspect = oe, oe.colors = { bold: [1, 22], italic: [3, 23], underline: [4, 24], inverse: [7, 27], white: [37, 39], grey: [90, 39], black: [30, 39], blue: [34, 39], cyan: [36, 39], green: [32, 39], magenta: [35, 39], red: [31, 39], yellow: [33, 39] }, oe.styles = { special: "cyan", number: "yellow", boolean: "yellow", undefined: "grey", null: "bold", string: "green", date: "magenta", regexp: "red" }, X.types = o$2, X.isArray = pe, X.isBoolean = ye, X.isNull = le, X.isNullOrUndefined = function(e3) {
return null == e3;
}, X.isNumber = de, X.isString = ge, X.isSymbol = function(e3) {
return "symbol" == typeof e3;
}, X.isUndefined = be, X.isRegExp = me, X.types.isRegExp = me, X.isObject = he, X.isDate = je, X.types.isDate = je, X.isError = Ae, X.types.isNativeError = Ae, X.isFunction = we, X.isPrimitive = function(e3) {
return null === e3 || "boolean" == typeof e3 || "number" == typeof e3 || "string" == typeof e3 || "symbol" == typeof e3 || void 0 === e3;
}, X.isBuffer = i$1;
var Se = ["Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec"];
function Be() {
var e3 = /* @__PURE__ */ new Date(), t3 = [Oe(e3.getHours()), Oe(e3.getMinutes()), Oe(e3.getSeconds())].join(":");
return [e3.getDate(), Se[e3.getMonth()], t3].join(" ");
}
__name(Be, "Be");
function ke(e3, t3) {
return Object.prototype.hasOwnProperty.call(e3, t3);
}
__name(ke, "ke");
X.log = function() {
console.log("%s - %s", Be(), X.format.apply(X, arguments));
}, X.inherits = t$2, X._extend = function(e3, t3) {
if (!t3 || !he(t3))
return e3;
for (var r3 = Object.keys(t3), n3 = r3.length; n3--; )
e3[r3[n3]] = t3[r3[n3]];
return e3;
};
var Ee = "undefined" != typeof Symbol ? Symbol("util.promisify.custom") : void 0;
function De(e3, t3) {
if (!e3) {
var r3 = new Error("Promise was rejected with a falsy value");
r3.reason = e3, e3 = r3;
}
return t3(e3);
}
__name(De, "De");
X.promisify = function(e3) {
if ("function" != typeof e3)
throw new TypeError('The "original" argument must be of type Function');
if (Ee && e3[Ee]) {
var t3;
if ("function" != typeof (t3 = e3[Ee]))
throw new TypeError('The "util.promisify.custom" argument must be of type Function');
return Object.defineProperty(t3, Ee, { value: t3, enumerable: false, writable: false, configurable: true }), t3;
}
function t3() {
for (var t4, r3, n3 = new Promise(function(e4, n4) {
t4 = e4, r3 = n4;
}), i3 = [], o3 = 0; o3 < arguments.length; o3++)
i3.push(arguments[o3]);
i3.push(function(e4, n4) {
e4 ? r3(e4) : t4(n4);
});
try {
e3.apply(this || Q, i3);
} catch (e4) {
r3(e4);
}
return n3;
}
__name(t3, "t");
return Object.setPrototypeOf(t3, Object.getPrototypeOf(e3)), Ee && Object.defineProperty(t3, Ee, { value: t3, enumerable: false, writable: false, configurable: true }), Object.defineProperties(t3, ee(e3));
}, X.promisify.custom = Ee, X.callbackify = function(e3) {
if ("function" != typeof e3)
throw new TypeError('The "original" argument must be of type Function');
function t3() {
for (var t4 = [], r3 = 0; r3 < arguments.length; r3++)
t4.push(arguments[r3]);
var n3 = t4.pop();
if ("function" != typeof n3)
throw new TypeError("The last argument must be of type Function");
var i3 = this || Q, o3 = /* @__PURE__ */ __name(function() {
return n3.apply(i3, arguments);
}, "o");
e3.apply(this || Q, t4).then(function(e4) {
Y.nextTick(o3.bind(null, null, e4));
}, function(e4) {
Y.nextTick(De.bind(null, e4, o3));
});
}
__name(t3, "t");
return Object.setPrototypeOf(t3, Object.getPrototypeOf(e3)), Object.defineProperties(t3, ee(e3)), t3;
};
// node_modules/@jspm/core/nodelibs/browser/chunk-ce0fbc82.js
X._extend;
X.callbackify;
X.debuglog;
X.deprecate;
X.format;
X.inherits;
X.inspect;
X.isArray;
X.isBoolean;
X.isBuffer;
X.isDate;
X.isError;
X.isFunction;
X.isNull;
X.isNullOrUndefined;
X.isNumber;
X.isObject;
X.isPrimitive;
X.isRegExp;
X.isString;
X.isSymbol;
X.isUndefined;
X.log;
X.promisify;
X._extend;
X.callbackify;
X.debuglog;
X.deprecate;
X.format;
X.inherits;
X.inspect;
X.isArray;
X.isBoolean;
X.isBuffer;
X.isDate;
X.isError;
X.isFunction;
X.isNull;
X.isNullOrUndefined;
X.isNumber;
X.isObject;
X.isPrimitive;
X.isRegExp;
X.isString;
X.isSymbol;
X.isUndefined;
X.log;
X.promisify;
X.types;
// node-modules-polyfills:util
X._extend;
X.callbackify;
X.debuglog;
X.deprecate;
X.format;
X.inherits;
var inspect2 = X.inspect;
X.isArray;
X.isBoolean;
X.isBuffer;
X.isDate;
X.isError;
X.isFunction;
X.isNull;
X.isNullOrUndefined;
X.isNumber;
X.isObject;
X.isPrimitive;
X.isRegExp;
X.isString;
X.isSymbol;
X.isUndefined;
X.log;
X.promisify;
X.types;
X.TextEncoder = globalThis.TextEncoder;
X.TextDecoder = globalThis.TextDecoder;
// src/lib/errors/BaseError.ts
var customInspectSymbol = Symbol.for("nodejs.util.inspect.custom");
var customInspectSymbolStackLess = Symbol.for("nodejs.util.inspect.custom.stack-less");
var _BaseError = class _BaseError extends Error {
[customInspectSymbol](depth, options) {
return `${this[customInspectSymbolStackLess](depth, options)}
${this.stack.slice(this.stack.indexOf("\n"))}`;
}
};
__name(_BaseError, "BaseError");
var BaseError = _BaseError;
// src/lib/errors/BaseConstraintError.ts
var _BaseConstraintError = class _BaseConstraintError extends BaseError {
constructor(constraint, message, given) {
super(message);
this.constraint = constraint;
this.given = given;
}
};
__name(_BaseConstraintError, "BaseConstraintError");
var BaseConstraintError = _BaseConstraintError;
// src/lib/errors/ExpectedConstraintError.ts
var _ExpectedConstraintError = class _ExpectedConstraintError extends BaseConstraintError {
constructor(constraint, message, given, expected) {
super(constraint, message, given);
this.expected = expected;
}
toJSON() {
return {
name: this.name,
constraint: this.constraint,
given: this.given,
expected: this.expected
};
}
[customInspectSymbolStackLess](depth, options) {
const constraint = options.stylize(this.constraint, "string");
if (depth < 0) {
return options.stylize(`[ExpectedConstraintError: ${constraint}]`, "special");
}
const newOptions = { ...options, depth: options.depth === null ? null : options.depth - 1 };
const padding = `
${options.stylize("|", "undefined")} `;
const given = inspect2(this.given, newOptions).replace(/\n/g, padding);
const header = `${options.stylize("ExpectedConstraintError", "special")} > ${constraint}`;
const message = options.stylize(this.message, "regexp");
const expectedBlock = `
${options.stylize("Expected: ", "string")}${options.stylize(this.expected, "boolean")}`;
const givenBlock = `
${options.stylize("Received:", "regexp")}${padding}${given}`;
return `${header}
${message}
${expectedBlock}
${givenBlock}`;
}
};
__name(_ExpectedConstraintError, "ExpectedConstraintError");
var ExpectedConstraintError = _ExpectedConstraintError;
// src/constraints/ObjectConstrains.ts
function whenConstraint(key, options, validator) {
return {
run(input, parent) {
if (!parent) {
return Result.err(new ExpectedConstraintError("s.object(T.when)", "Validator has no parent", parent, "Validator to have a parent"));
}
const isKeyArray = Array.isArray(key);
const value = isKeyArray ? key.map((k2) => get(parent, k2)) : get(parent, key);
const predicate = resolveBooleanIs(options, value, isKeyArray) ? options.then : options.otherwise;
if (predicate) {
return predicate(validator).run(input);
}
return Result.ok(input);
}
};
}
__name(whenConstraint, "whenConstraint");
function resolveBooleanIs(options, value, isKeyArray) {
if (options.is === void 0) {
return isKeyArray ? !value.some((val) => !val) : Boolean(value);
}
if (typeof options.is === "function") {
return options.is(value);
}
return value === options.is;
}
__name(resolveBooleanIs, "resolveBooleanIs");
// src/validators/BaseValidator.ts
var _BaseValidator = class _BaseValidator {
constructor(constraints = []) {
this.constraints = [];
this.isValidationEnabled = null;
this.constraints = constraints;
}
setParent(parent) {
this.parent = parent;
return this;
}
get optional() {
return new UnionValidator([new LiteralValidator(void 0), this.clone()]);
}
get nullable() {
return new UnionValidator([new LiteralValidator(null), this.clone()]);
}
get nullish() {
return new UnionValidator([new NullishValidator(), this.clone()]);
}
get array() {
return new ArrayValidator(this.clone());
}
get set() {
return new SetValidator(this.clone());
}
or(...predicates) {
return new UnionValidator([this.clone(), ...predicates]);
}
transform(cb) {
return this.addConstraint({ run: (input) => Result.ok(cb(input)) });
}
reshape(cb) {
return this.addConstraint({ run: cb });
}
default(value) {
return new DefaultValidator(this.clone(), value);
}
when(key, options) {
return this.addConstraint(whenConstraint(key, options, this));
}
describe(description) {
const clone = this.clone();
clone.description = description;
return clone;
}
run(value) {
let result = this.handle(value);
if (result.isErr())
return result;
for (const constraint of this.constraints) {
result = constraint.run(result.value, this.parent);
if (result.isErr())
break;
}
return result;
}
parse(value) {
if (!this.shouldRunConstraints) {
return this.handle(value).unwrap();
}
return this.constraints.reduce((v2, constraint) => constraint.run(v2).unwrap(), this.handle(value).unwrap());
}
is(value) {
return this.run(value).isOk();
}
/**
* Sets if the validator should also run constraints or just do basic checks.
* @param isValidationEnabled Whether this validator should be enabled or disabled. You can pass boolean or a function returning boolean which will be called just before parsing.
* Set to `null` to go off of the global configuration.
*/
setValidationEnabled(isValidationEnabled) {
const clone = this.clone();
clone.isValidationEnabled = isValidationEnabled;
return clone;
}
getValidationEnabled() {
return getValue(this.isValidationEnabled);
}
get shouldRunConstraints() {
return getValue(this.isValidationEnabled) ?? getGlobalValidationEnabled();
}
clone() {
const clone = Reflect.construct(this.constructor, [this.constraints]);
clone.isValidationEnabled = this.isValidationEnabled;
return clone;
}
addConstraint(constraint) {
const clone = this.clone();
clone.constraints = clone.constraints.concat(constraint);
return clone;
}
};
__name(_BaseValidator, "BaseValidator");
var BaseValidator = _BaseValidator;
function isUnique(input) {
if (input.length < 2)
return true;
const uniqueArray2 = uniqWith(input, fastDeepEqual);
return uniqueArray2.length === input.length;
}
__name(isUnique, "isUnique");
// src/constraints/util/operators.ts
function lessThan(a3, b2) {
return a3 < b2;
}
__name(lessThan, "lessThan");
function lessThanOrEqual(a3, b2) {
return a3 <= b2;
}
__name(lessThanOrEqual, "lessThanOrEqual");
function greaterThan(a3, b2) {
return a3 > b2;
}
__name(greaterThan, "greaterThan");
function greaterThanOrEqual(a3, b2) {
return a3 >= b2;
}
__name(greaterThanOrEqual, "greaterThanOrEqual");
function equal(a3, b2) {
return a3 === b2;
}
__name(equal, "equal");
function notEqual(a3, b2) {
return a3 !== b2;
}
__name(notEqual, "notEqual");
// src/constraints/ArrayConstraints.ts
function arrayLengthComparator(comparator, name, expected, length) {
return {
run(input) {
return comparator(input.length, length) ? Result.ok(input) : Result.err(new ExpectedConstraintError(name, "Invalid Array length", input, expected));
}
};
}
__name(arrayLengthComparator, "arrayLengthComparator");
function arrayLengthLessThan(value) {
const expected = `expected.length < ${value}`;
return arrayLengthComparator(lessThan, "s.array(T).lengthLessThan", expected, value);
}
__name(arrayLengthLessThan, "arrayLengthLessThan");
function arrayLengthLessThanOrEqual(value) {
const expected = `expected.length <= ${value}`;
return arrayLengthComparator(lessThanOrEqual, "s.array(T).lengthLessThanOrEqual", expected, value);
}
__name(arrayLengthLessThanOrEqual, "arrayLengthLessThanOrEqual");
function arrayLengthGreaterThan(value) {
const expected = `expected.length > ${value}`;
return arrayLengthComparator(greaterThan, "s.array(T).lengthGreaterThan", expected, value);
}
__name(arrayLengthGreaterThan, "arrayLengthGreaterThan");
function arrayLengthGreaterThanOrEqual(value) {
const expected = `expected.length >= ${value}`;
return arrayLengthComparator(greaterThanOrEqual, "s.array(T).lengthGreaterThanOrEqual", expected, value);
}
__name(arrayLengthGreaterThanOrEqual, "arrayLengthGreaterThanOrEqual");
function arrayLengthEqual(value) {
const expected = `expected.length === ${value}`;
return arrayLengthComparator(equal, "s.array(T).lengthEqual", expected, value);
}
__name(arrayLengthEqual, "arrayLengthEqual");
function arrayLengthNotEqual(value) {
const expected = `expected.length !== ${value}`;
return arrayLengthComparator(notEqual, "s.array(T).lengthNotEqual", expected, value);
}
__name(arrayLengthNotEqual, "arrayLengthNotEqual");
function arrayLengthRange(start, endBefore) {
const expected = `expected.length >= ${start} && expected.length < ${endBefore}`;
return {
run(input) {
return input.length >= start && input.length < endBefore ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.array(T).lengthRange", "Invalid Array length", input, expected));
}
};
}
__name(arrayLengthRange, "arrayLengthRange");
function arrayLengthRangeInclusive(start, end) {
const expected = `expected.length >= ${start} && expected.length <= ${end}`;
return {
run(input) {
return input.length >= start && input.length <= end ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.array(T).lengthRangeInclusive", "Invalid Array length", input, expected));
}
};
}
__name(arrayLengthRangeInclusive, "arrayLengthRangeInclusive");
function arrayLengthRangeExclusive(startAfter, endBefore) {
const expected = `expected.length > ${startAfter} && expected.length < ${endBefore}`;
return {
run(input) {
return input.length > startAfter && input.length < endBefore ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.array(T).lengthRangeExclusive", "Invalid Array length", input, expected));
}
};
}
__name(arrayLengthRangeExclusive, "arrayLengthRangeExclusive");
var uniqueArray = {
run(input) {
return isUnique(input) ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.array(T).unique", "Array values are not unique", input, "Expected all values to be unique"));
}
};
// src/lib/errors/CombinedPropertyError.ts
var _CombinedPropertyError = class _CombinedPropertyError extends BaseError {
constructor(errors) {
super("Received one or more errors");
this.errors = errors;
}
[customInspectSymbolStackLess](depth, options) {
if (depth < 0) {
return options.stylize("[CombinedPropertyError]", "special");
}
const newOptions = { ...options, depth: options.depth === null ? null : options.depth - 1, compact: true };
const padding = `
${options.stylize("|", "undefined")} `;
const header = `${options.stylize("CombinedPropertyError", "special")} (${options.stylize(this.errors.length.toString(), "number")})`;
const message = options.stylize(this.message, "regexp");
const errors = this.errors.map(([key, error]) => {
const property = _CombinedPropertyError.formatProperty(key, options);
const body = error[customInspectSymbolStackLess](depth - 1, newOptions).replace(/\n/g, padding);
return ` input${property}${padding}${body}`;
}).join("\n\n");
return `${header}
${message}
${errors}`;
}
static formatProperty(key, options) {
if (typeof key === "string")
return options.stylize(`.${key}`, "symbol");
if (typeof key === "number")
return `[${options.stylize(key.toString(), "number")}]`;
return `[${options.stylize("Symbol", "symbol")}(${key.description})]`;
}
};
__name(_CombinedPropertyError, "CombinedPropertyError");
var CombinedPropertyError = _CombinedPropertyError;
// src/lib/errors/ValidationError.ts
var _ValidationError = class _ValidationError extends BaseError {
constructor(validator, message, given) {
super(message);
this.validator = validator;
this.given = given;
}
toJSON() {
return {
name: this.name,
validator: this.validator,
given: this.given
};
}
[customInspectSymbolStackLess](depth, options) {
const validator = options.stylize(this.validator, "string");
if (depth < 0) {
return options.stylize(`[ValidationError: ${validator}]`, "special");
}
const newOptions = { ...options, depth: options.depth === null ? null : options.depth - 1, compact: true };
const padding = `
${options.stylize("|", "undefined")} `;
const given = inspect2(this.given, newOptions).replace(/\n/g, padding);
const header = `${options.stylize("ValidationError", "special")} > ${validator}`;
const message = options.stylize(this.message, "regexp");
const givenBlock = `
${options.stylize("Received:", "regexp")}${padding}${given}`;
return `${header}
${message}
${givenBlock}`;
}
};
__name(_ValidationError, "ValidationError");
var ValidationError = _ValidationError;
// src/validators/ArrayValidator.ts
var _ArrayValidator = class _ArrayValidator extends BaseValidator {
constructor(validator, constraints = []) {
super(constraints);
this.validator = validator;
}
lengthLessThan(length) {
return this.addConstraint(arrayLengthLessThan(length));
}
lengthLessThanOrEqual(length) {
return this.addConstraint(arrayLengthLessThanOrEqual(length));
}
lengthGreaterThan(length) {
return this.addConstraint(arrayLengthGreaterThan(length));
}
lengthGreaterThanOrEqual(length) {
return this.addConstraint(arrayLengthGreaterThanOrEqual(length));
}
lengthEqual(length) {
return this.addConstraint(arrayLengthEqual(length));
}
lengthNotEqual(length) {
return this.addConstraint(arrayLengthNotEqual(length));
}
lengthRange(start, endBefore) {
return this.addConstraint(arrayLengthRange(start, endBefore));
}
lengthRangeInclusive(startAt, endAt) {
return this.addConstraint(arrayLengthRangeInclusive(startAt, endAt));
}
lengthRangeExclusive(startAfter, endBefore) {
return this.addConstraint(arrayLengthRangeExclusive(startAfter, endBefore));
}
get unique() {
return this.addConstraint(uniqueArray);
}
clone() {
return Reflect.construct(this.constructor, [this.validator, this.constraints]);
}
handle(values) {
if (!Array.isArray(values)) {
return Result.err(new ValidationError("s.array(T)", "Expected an array", values));
}
if (!this.shouldRunConstraints) {
return Result.ok(values);
}
const errors = [];
const transformed = [];
for (let i3 = 0; i3 < values.length; i3++) {
const result = this.validator.run(values[i3]);
if (result.isOk())
transformed.push(result.value);
else
errors.push([i3, result.error]);
}
return errors.length === 0 ? Result.ok(transformed) : Result.err(new CombinedPropertyError(errors));
}
};
__name(_ArrayValidator, "ArrayValidator");
var ArrayValidator = _ArrayValidator;
// src/constraints/BigIntConstraints.ts
function bigintComparator(comparator, name, expected, number) {
return {
run(input) {
return comparator(input, number) ? Result.ok(input) : Result.err(new ExpectedConstraintError(name, "Invalid bigint value", input, expected));
}
};
}
__name(bigintComparator, "bigintComparator");
function bigintLessThan(value) {
const expected = `expected < ${value}n`;
return bigintComparator(lessThan, "s.bigint.lessThan", expected, value);
}
__name(bigintLessThan, "bigintLessThan");
function bigintLessThanOrEqual(value) {
const expected = `expected <= ${value}n`;
return bigintComparator(lessThanOrEqual, "s.bigint.lessThanOrEqual", expected, value);
}
__name(bigintLessThanOrEqual, "bigintLessThanOrEqual");
function bigintGreaterThan(value) {
const expected = `expected > ${value}n`;
return bigintComparator(greaterThan, "s.bigint.greaterThan", expected, value);
}
__name(bigintGreaterThan, "bigintGreaterThan");
function bigintGreaterThanOrEqual(value) {
const expected = `expected >= ${value}n`;
return bigintComparator(greaterThanOrEqual, "s.bigint.greaterThanOrEqual", expected, value);
}
__name(bigintGreaterThanOrEqual, "bigintGreaterThanOrEqual");
function bigintEqual(value) {
const expected = `expected === ${value}n`;
return bigintComparator(equal, "s.bigint.equal", expected, value);
}
__name(bigintEqual, "bigintEqual");
function bigintNotEqual(value) {
const expected = `expected !== ${value}n`;
return bigintComparator(notEqual, "s.bigint.notEqual", expected, value);
}
__name(bigintNotEqual, "bigintNotEqual");
function bigintDivisibleBy(divider) {
const expected = `expected % ${divider}n === 0n`;
return {
run(input) {
return input % divider === 0n ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.bigint.divisibleBy", "BigInt is not divisible", input, expected));
}
};
}
__name(bigintDivisibleBy, "bigintDivisibleBy");
// src/validators/BigIntValidator.ts
var _BigIntValidator = class _BigIntValidator extends BaseValidator {
lessThan(number) {
return this.addConstraint(bigintLessThan(number));
}
lessThanOrEqual(number) {
return this.addConstraint(bigintLessThanOrEqual(number));
}
greaterThan(number) {
return this.addConstraint(bigintGreaterThan(number));
}
greaterThanOrEqual(number) {
return this.addConstraint(bigintGreaterThanOrEqual(number));
}
equal(number) {
return this.addConstraint(bigintEqual(number));
}
notEqual(number) {
return this.addConstraint(bigintNotEqual(number));
}
get positive() {
return this.greaterThanOrEqual(0n);
}
get negative() {
return this.lessThan(0n);
}
divisibleBy(number) {
return this.addConstraint(bigintDivisibleBy(number));
}
get abs() {
return this.transform((value) => value < 0 ? -value : value);
}
intN(bits) {
return this.transform((value) => BigInt.asIntN(bits, value));
}
uintN(bits) {
return this.transform((value) => BigInt.asUintN(bits, value));
}
handle(value) {
return typeof value === "bigint" ? Result.ok(value) : Result.err(new ValidationError("s.bigint", "Expected a bigint primitive", value));
}
};
__name(_BigIntValidator, "BigIntValidator");
var BigIntValidator = _BigIntValidator;
// src/constraints/BooleanConstraints.ts
var booleanTrue = {
run(input) {
return input ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.boolean.true", "Invalid boolean value", input, "true"));
}
};
var booleanFalse = {
run(input) {
return input ? Result.err(new ExpectedConstraintError("s.boolean.false", "Invalid boolean value", input, "false")) : Result.ok(input);
}
};
// src/validators/BooleanValidator.ts
var _BooleanValidator = class _BooleanValidator extends BaseValidator {
get true() {
return this.addConstraint(booleanTrue);
}
get false() {
return this.addConstraint(booleanFalse);
}
equal(value) {
return value ? this.true : this.false;
}
notEqual(value) {
return value ? this.false : this.true;
}
handle(value) {
return typeof value === "boolean" ? Result.ok(value) : Result.err(new ValidationError("s.boolean", "Expected a boolean primitive", value));
}
};
__name(_BooleanValidator, "BooleanValidator");
var BooleanValidator = _BooleanValidator;
// src/constraints/DateConstraints.ts
function dateComparator(comparator, name, expected, number) {
return {
run(input) {
return comparator(input.getTime(), number) ? Result.ok(input) : Result.err(new ExpectedConstraintError(name, "Invalid Date value", input, expected));
}
};
}
__name(dateComparator, "dateComparator");
function dateLessThan(value) {
const expected = `expected < ${value.toISOString()}`;
return dateComparator(lessThan, "s.date.lessThan", expected, value.getTime());
}
__name(dateLessThan, "dateLessThan");
function dateLessThanOrEqual(value) {
const expected = `expected <= ${value.toISOString()}`;
return dateComparator(lessThanOrEqual, "s.date.lessThanOrEqual", expected, value.getTime());
}
__name(dateLessThanOrEqual, "dateLessThanOrEqual");
function dateGreaterThan(value) {
const expected = `expected > ${value.toISOString()}`;
return dateComparator(greaterThan, "s.date.greaterThan", expected, value.getTime());
}
__name(dateGreaterThan, "dateGreaterThan");
function dateGreaterThanOrEqual(value) {
const expected = `expected >= ${value.toISOString()}`;
return dateComparator(greaterThanOrEqual, "s.date.greaterThanOrEqual", expected, value.getTime());
}
__name(dateGreaterThanOrEqual, "dateGreaterThanOrEqual");
function dateEqual(value) {
const expected = `expected === ${value.toISOString()}`;
return dateComparator(equal, "s.date.equal", expected, value.getTime());
}
__name(dateEqual, "dateEqual");
function dateNotEqual(value) {
const expected = `expected !== ${value.toISOString()}`;
return dateComparator(notEqual, "s.date.notEqual", expected, value.getTime());
}
__name(dateNotEqual, "dateNotEqual");
var dateInvalid = {
run(input) {
return Number.isNaN(input.getTime()) ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.date.invalid", "Invalid Date value", input, "expected === NaN"));
}
};
var dateValid = {
run(input) {
return Number.isNaN(input.getTime()) ? Result.err(new ExpectedConstraintError("s.date.valid", "Invalid Date value", input, "expected !== NaN")) : Result.ok(input);
}
};
// src/validators/DateValidator.ts
var _DateValidator = class _DateValidator extends BaseValidator {
lessThan(date) {
return this.addConstraint(dateLessThan(new Date(date)));
}
lessThanOrEqual(date) {
return this.addConstraint(dateLessThanOrEqual(new Date(date)));
}
greaterThan(date) {
return this.addConstraint(dateGreaterThan(new Date(date)));
}
greaterThanOrEqual(date) {
return this.addConstraint(dateGreaterThanOrEqual(new Date(date)));
}
equal(date) {
const resolved = new Date(date);
return Number.isNaN(resolved.getTime()) ? this.invalid : this.addConstraint(dateEqual(resolved));
}
notEqual(date) {
const resolved = new Date(date);
return Number.isNaN(resolved.getTime()) ? this.valid : this.addConstraint(dateNotEqual(resolved));
}
get valid() {
return this.addConstraint(dateValid);
}
get invalid() {
return this.addConstraint(dateInvalid);
}
handle(value) {
return value instanceof Date ? Result.ok(value) : Result.err(new ValidationError("s.date", "Expected a Date", value));
}
};
__name(_DateValidator, "DateValidator");
var DateValidator = _DateValidator;
// src/lib/errors/ExpectedValidationError.ts
var _ExpectedValidationError = class _ExpectedValidationError extends ValidationError {
constructor(validator, message, given, expected) {
super(validator, message, given);
this.expected = expected;
}
toJSON() {
return {
name: this.name,
validator: this.validator,
given: this.given,
expected: this.expected
};
}
[customInspectSymbolStackLess](depth, options) {
const validator = options.stylize(this.validator, "string");
if (depth < 0) {
return options.stylize(`[ExpectedValidationError: ${validator}]`, "special");
}
const newOptions = { ...options, depth: options.depth === null ? null : options.depth - 1 };
const padding = `
${options.stylize("|", "undefined")} `;
const expected = inspect2(this.expected, newOptions).replace(/\n/g, padding);
const given = inspect2(this.given, newOptions).replace(/\n/g, padding);
const header = `${options.stylize("ExpectedValidationError", "special")} > ${validator}`;
const message = options.stylize(this.message, "regexp");
const expectedBlock = `
${options.stylize("Expected:", "string")}${padding}${expected}`;
const givenBlock = `
${options.stylize("Received:", "regexp")}${padding}${given}`;
return `${header}
${message}
${expectedBlock}
${givenBlock}`;
}
};
__name(_ExpectedValidationError, "ExpectedValidationError");
var ExpectedValidationError = _ExpectedValidationError;
// src/validators/InstanceValidator.ts
var _InstanceValidator = class _InstanceValidator extends BaseValidator {
constructor(expected, constraints = []) {
super(constraints);
this.expected = expected;
}
handle(value) {
return value instanceof this.expected ? Result.ok(value) : Result.err(new ExpectedValidationError("s.instance(V)", "Expected", value, this.expected));
}
clone() {
return Reflect.construct(this.constructor, [this.expected, this.constraints]);
}
};
__name(_InstanceValidator, "InstanceValidator");
var InstanceValidator = _InstanceValidator;
// src/validators/LiteralValidator.ts
var _LiteralValidator = class _LiteralValidator extends BaseValidator {
constructor(literal, constraints = []) {
super(constraints);
this.expected = literal;
}
handle(value) {
return Object.is(value, this.expected) ? Result.ok(value) : Result.err(new ExpectedValidationError("s.literal(V)", "Expected values to be equals", value, this.expected));
}
clone() {
return Reflect.construct(this.constructor, [this.expected, this.constraints]);
}
};
__name(_LiteralValidator, "LiteralValidator");
var LiteralValidator = _LiteralValidator;
// src/validators/NeverValidator.ts
var _NeverValidator = class _NeverValidator extends BaseValidator {
handle(value) {
return Result.err(new ValidationError("s.never", "Expected a value to not be passed", value));
}
};
__name(_NeverValidator, "NeverValidator");
var NeverValidator = _NeverValidator;
// src/validators/NullishValidator.ts
var _NullishValidator = class _NullishValidator extends BaseValidator {
handle(value) {
return value === void 0 || value === null ? Result.ok(value) : Result.err(new ValidationError("s.nullish", "Expected undefined or null", value));
}
};
__name(_NullishValidator, "NullishValidator");
var NullishValidator = _NullishValidator;
// src/constraints/NumberConstraints.ts
function numberComparator(comparator, name, expected, number) {
return {
run(input) {
return comparator(input, number) ? Result.ok(input) : Result.err(new ExpectedConstraintError(name, "Invalid number value", input, expected));
}
};
}
__name(numberComparator, "numberComparator");
function numberLessThan(value) {
const expected = `expected < ${value}`;
return numberComparator(lessThan, "s.number.lessThan", expected, value);
}
__name(numberLessThan, "numberLessThan");
function numberLessThanOrEqual(value) {
const expected = `expected <= ${value}`;
return numberComparator(lessThanOrEqual, "s.number.lessThanOrEqual", expected, value);
}
__name(numberLessThanOrEqual, "numberLessThanOrEqual");
function numberGreaterThan(value) {
const expected = `expected > ${value}`;
return numberComparator(greaterThan, "s.number.greaterThan", expected, value);
}
__name(numberGreaterThan, "numberGreaterThan");
function numberGreaterThanOrEqual(value) {
const expected = `expected >= ${value}`;
return numberComparator(greaterThanOrEqual, "s.number.greaterThanOrEqual", expected, value);
}
__name(numberGreaterThanOrEqual, "numberGreaterThanOrEqual");
function numberEqual(value) {
const expected = `expected === ${value}`;
return numberComparator(equal, "s.number.equal", expected, value);
}
__name(numberEqual, "numberEqual");
function numberNotEqual(value) {
const expected = `expected !== ${value}`;
return numberComparator(notEqual, "s.number.notEqual", expected, value);
}
__name(numberNotEqual, "numberNotEqual");
var numberInt = {
run(input) {
return Number.isInteger(input) ? Result.ok(input) : Result.err(
new ExpectedConstraintError("s.number.int", "Given value is not an integer", input, "Number.isInteger(expected) to be true")
);
}
};
var numberSafeInt = {
run(input) {
return Number.isSafeInteger(input) ? Result.ok(input) : Result.err(
new ExpectedConstraintError(
"s.number.safeInt",
"Given value is not a safe integer",
input,
"Number.isSafeInteger(expected) to be true"
)
);
}
};
var numberFinite = {
run(input) {
return Number.isFinite(input) ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.number.finite", "Given value is not finite", input, "Number.isFinite(expected) to be true"));
}
};
var numberNaN = {
run(input) {
return Number.isNaN(input) ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.number.equal(NaN)", "Invalid number value", input, "expected === NaN"));
}
};
var numberNotNaN = {
run(input) {
return Number.isNaN(input) ? Result.err(new ExpectedConstraintError("s.number.notEqual(NaN)", "Invalid number value", input, "expected !== NaN")) : Result.ok(input);
}
};
function numberDivisibleBy(divider) {
const expected = `expected % ${divider} === 0`;
return {
run(input) {
return input % divider === 0 ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.number.divisibleBy", "Number is not divisible", input, expected));
}
};
}
__name(numberDivisibleBy, "numberDivisibleBy");
// src/validators/NumberValidator.ts
var _NumberValidator = class _NumberValidator extends BaseValidator {
lessThan(number) {
return this.addConstraint(numberLessThan(number));
}
lessThanOrEqual(number) {
return this.addConstraint(numberLessThanOrEqual(number));
}
greaterThan(number) {
return this.addConstraint(numberGreaterThan(number));
}
greaterThanOrEqual(number) {
return this.addConstraint(numberGreaterThanOrEqual(number));
}
equal(number) {
return Number.isNaN(number) ? this.addConstraint(numberNaN) : this.addConstraint(numberEqual(number));
}
notEqual(number) {
return Number.isNaN(number) ? this.addConstraint(numberNotNaN) : this.addConstraint(numberNotEqual(number));
}
get int() {
return this.addConstraint(numberInt);
}
get safeInt() {
return this.addConstraint(numberSafeInt);
}
get finite() {
return this.addConstraint(numberFinite);
}
get positive() {
return this.greaterThanOrEqual(0);
}
get negative() {
return this.lessThan(0);
}
divisibleBy(divider) {
return this.addConstraint(numberDivisibleBy(divider));
}
get abs() {
return this.transform(Math.abs);
}
get sign() {
return this.transform(Math.sign);
}
get trunc() {
return this.transform(Math.trunc);
}
get floor() {
return this.transform(Math.floor);
}
get fround() {
return this.transform(Math.fround);
}
get round() {
return this.transform(Math.round);
}
get ceil() {
return this.transform(Math.ceil);
}
handle(value) {
return typeof value === "number" ? Result.ok(value) : Result.err(new ValidationError("s.number", "Expected a number primitive", value));
}
};
__name(_NumberValidator, "NumberValidator");
var NumberValidator = _NumberValidator;
// src/lib/errors/MissingPropertyError.ts
var _MissingPropertyError = class _MissingPropertyError extends BaseError {
constructor(property) {
super("A required property is missing");
this.property = property;
}
toJSON() {
return {
name: this.name,
property: this.property
};
}
[customInspectSymbolStackLess](depth, options) {
const property = options.stylize(this.property.toString(), "string");
if (depth < 0) {
return options.stylize(`[MissingPropertyError: ${property}]`, "special");
}
const header = `${options.stylize("MissingPropertyError", "special")} > ${property}`;
const message = options.stylize(this.message, "regexp");
return `${header}
${message}`;
}
};
__name(_MissingPropertyError, "MissingPropertyError");
var MissingPropertyError = _MissingPropertyError;
// src/lib/errors/UnknownPropertyError.ts
var _UnknownPropertyError = class _UnknownPropertyError extends BaseError {
constructor(property, value) {
super("Received unexpected property");
this.property = property;
this.value = value;
}
toJSON() {
return {
name: this.name,
property: this.property,
value: this.value
};
}
[customInspectSymbolStackLess](depth, options) {
const property = options.stylize(this.property.toString(), "string");
if (depth < 0) {
return options.stylize(`[UnknownPropertyError: ${property}]`, "special");
}
const newOptions = { ...options, depth: options.depth === null ? null : options.depth - 1, compact: true };
const padding = `
${options.stylize("|", "undefined")} `;
const given = inspect2(this.value, newOptions).replace(/\n/g, padding);
const header = `${options.stylize("UnknownPropertyError", "special")} > ${property}`;
const message = options.stylize(this.message, "regexp");
const givenBlock = `
${options.stylize("Received:", "regexp")}${padding}${given}`;
return `${header}
${message}
${givenBlock}`;
}
};
__name(_UnknownPropertyError, "UnknownPropertyError");
var UnknownPropertyError = _UnknownPropertyError;
// src/validators/DefaultValidator.ts
var _DefaultValidator = class _DefaultValidator extends BaseValidator {
constructor(validator, value, constraints = []) {
super(constraints);
this.validator = validator;
this.defaultValue = value;
}
default(value) {
const clone = this.clone();
clone.defaultValue = value;
return clone;
}
handle(value) {
return typeof value === "undefined" ? Result.ok(getValue(this.defaultValue)) : this.validator["handle"](value);
}
clone() {
return Reflect.construct(this.constructor, [this.validator, this.defaultValue, this.constraints]);
}
};
__name(_DefaultValidator, "DefaultValidator");
var DefaultValidator = _DefaultValidator;
// src/lib/errors/CombinedError.ts
var _CombinedError = class _CombinedError extends BaseError {
constructor(errors) {
super("Received one or more errors");
this.errors = errors;
}
[customInspectSymbolStackLess](depth, options) {
if (depth < 0) {
return options.stylize("[CombinedError]", "special");
}
const newOptions = { ...options, depth: options.depth === null ? null : options.depth - 1, compact: true };
const padding = `
${options.stylize("|", "undefined")} `;
const header = `${options.stylize("CombinedError", "special")} (${options.stylize(this.errors.length.toString(), "number")})`;
const message = options.stylize(this.message, "regexp");
const errors = this.errors.map((error, i3) => {
const index = options.stylize((i3 + 1).toString(), "number");
const body = error[customInspectSymbolStackLess](depth - 1, newOptions).replace(/\n/g, padding);
return ` ${index} ${body}`;
}).join("\n\n");
return `${header}
${message}
${errors}`;
}
};
__name(_CombinedError, "CombinedError");
var CombinedError = _CombinedError;
// src/validators/UnionValidator.ts
var _UnionValidator = class _UnionValidator extends BaseValidator {
constructor(validators, constraints = []) {
super(constraints);
this.validators = validators;
}
get optional() {
if (this.validators.length === 0)
return new _UnionValidator([new LiteralValidator(void 0)], this.constraints);
const [validator] = this.validators;
if (validator instanceof LiteralValidator) {
if (validator.expected === void 0)
return this.clone();
if (validator.expected === null) {
return new _UnionValidator(
[new NullishValidator(), ...this.validators.slice(1)],
this.constraints
);
}
} else if (validator instanceof NullishValidator) {
return this.clone();
}
return new _UnionValidator([new LiteralValidator(void 0), ...this.validators]);
}
get required() {
if (this.validators.length === 0)
return this.clone();
const [validator] = this.validators;
if (validator instanceof LiteralValidator) {
if (validator.expected === void 0)
return new _UnionValidator(this.validators.slice(1), this.constraints);
} else if (validator instanceof NullishValidator) {
return new _UnionValidator([new LiteralValidator(null), ...this.validators.slice(1)], this.constraints);
}
return this.clone();
}
get nullable() {
if (this.validators.length === 0)
return new _UnionValidator([new LiteralValidator(null)], this.constraints);
const [validator] = this.validators;
if (validator instanceof LiteralValidator) {
if (validator.expected === null)
return this.clone();
if (validator.expected === void 0) {
return new _UnionValidator(
[new NullishValidator(), ...this.validators.slice(1)],
this.constraints
);
}
} else if (validator instanceof NullishValidator) {
return this.clone();
}
return new _UnionValidator([new LiteralValidator(null), ...this.validators]);
}
get nullish() {
if (this.validators.length === 0)
return new _UnionValidator([new NullishValidator()], this.constraints);
const [validator] = this.validators;
if (validator instanceof LiteralValidator) {
if (validator.expected === null || validator.expected === void 0) {
return new _UnionValidator([new NullishValidator(), ...this.validators.slice(1)], this.constraints);
}
} else if (validator instanceof NullishValidator) {
return this.clone();
}
return new _UnionValidator([new NullishValidator(), ...this.validators]);
}
or(...predicates) {
return new _UnionValidator([...this.validators, ...predicates]);
}
clone() {
return Reflect.construct(this.constructor, [this.validators, this.constraints]);
}
handle(value) {
const errors = [];
for (const validator of this.validators) {
const result = validator.run(value);
if (result.isOk())
return result;
errors.push(result.error);
}
return Result.err(new CombinedError(errors));
}
};
__name(_UnionValidator, "UnionValidator");
var UnionValidator = _UnionValidator;
// src/validators/ObjectValidator.ts
var _ObjectValidator = class _ObjectValidator extends BaseValidator {
constructor(shape, strategy = 0 /* Ignore */, constraints = []) {
super(constraints);
this.keys = [];
this.requiredKeys = /* @__PURE__ */ new Map();
this.possiblyUndefinedKeys = /* @__PURE__ */ new Map();
this.possiblyUndefinedKeysWithDefaults = /* @__PURE__ */ new Map();
this.shape = shape;
this.strategy = strategy;
switch (this.strategy) {
case 0 /* Ignore */:
this.handleStrategy = (value) => this.handleIgnoreStrategy(value);
break;
case 1 /* Strict */: {
this.handleStrategy = (value) => this.handleStrictStrategy(value);
break;
}
case 2 /* Passthrough */:
this.handleStrategy = (value) => this.handlePassthroughStrategy(value);
break;
}
const shapeEntries = Object.entries(shape);
this.keys = shapeEntries.map(([key]) => key);
for (const [key, validator] of shapeEntries) {
if (validator instanceof UnionValidator) {
const [possiblyLiteralOrNullishPredicate] = validator["validators"];
if (possiblyLiteralOrNullishPredicate instanceof NullishValidator) {
this.possiblyUndefinedKeys.set(key, validator);
} else if (possiblyLiteralOrNullishPredicate instanceof LiteralValidator) {
if (possiblyLiteralOrNullishPredicate.expected === void 0) {
this.possiblyUndefinedKeys.set(key, validator);
} else {
this.requiredKeys.set(key, validator);
}
} else if (validator instanceof DefaultValidator) {
this.possiblyUndefinedKeysWithDefaults.set(key, validator);
} else {
this.requiredKeys.set(key, validator);
}
} else if (validator instanceof NullishValidator) {
this.possiblyUndefinedKeys.set(key, validator);
} else if (validator instanceof LiteralValidator) {
if (validator.expected === void 0) {
this.possiblyUndefinedKeys.set(key, validator);
} else {
this.requiredKeys.set(key, validator);
}
} else if (validator instanceof DefaultValidator) {
this.possiblyUndefinedKeysWithDefaults.set(key, validator);
} else {
this.requiredKeys.set(key, validator);
}
}
}
get strict() {
return Reflect.construct(this.constructor, [this.shape, 1 /* Strict */, this.constraints]);
}
get ignore() {
return Reflect.construct(this.constructor, [this.shape, 0 /* Ignore */, this.constraints]);
}
get passthrough() {
return Reflect.construct(this.constructor, [this.shape, 2 /* Passthrough */, this.constraints]);
}
get partial() {
const shape = Object.fromEntries(this.keys.map((key) => [key, this.shape[key].optional]));
return Reflect.construct(this.constructor, [shape, this.strategy, this.constraints]);
}
get required() {
const shape = Object.fromEntries(
this.keys.map((key) => {
let validator = this.shape[key];
if (validator instanceof UnionValidator)
validator = validator.required;
return [key, validator];
})
);
return Reflect.construct(this.constructor, [shape, this.strategy, this.constraints]);
}
extend(schema) {
const shape = { ...this.shape, ...schema instanceof _ObjectValidator ? schema.shape : schema };
return Reflect.construct(this.constructor, [shape, this.strategy, this.constraints]);
}
pick(keys) {
const shape = Object.fromEntries(
keys.filter((key) => this.keys.includes(key)).map((key) => [key, this.shape[key]])
);
return Reflect.construct(this.constructor, [shape, this.strategy, this.constraints]);
}
omit(keys) {
const shape = Object.fromEntries(
this.keys.filter((key) => !keys.includes(key)).map((key) => [key, this.shape[key]])
);
return Reflect.construct(this.constructor, [shape, this.strategy, this.constraints]);
}
handle(value) {
const typeOfValue = typeof value;
if (typeOfValue !== "object") {
return Result.err(new ValidationError("s.object(T)", `Expected the value to be an object, but received ${typeOfValue} instead`, value));
}
if (value === null) {
return Result.err(new ValidationError("s.object(T)", "Expected the value to not be null", value));
}
if (Array.isArray(value)) {
return Result.err(new ValidationError("s.object(T)", "Expected the value to not be an array", value));
}
if (!this.shouldRunConstraints) {
return Result.ok(value);
}
for (const predicate of Object.values(this.shape)) {
predicate.setParent(this.parent ?? value);
}
return this.handleStrategy(value);
}
clone() {
return Reflect.construct(this.constructor, [this.shape, this.strategy, this.constraints]);
}
handleIgnoreStrategy(value) {
const errors = [];
const finalObject = {};
const inputEntries = new Map(Object.entries(value));
const runPredicate = /* @__PURE__ */ __name((key, predicate) => {
const result = predicate.run(value[key]);
if (result.isOk()) {
finalObject[key] = result.value;
} else {
const error = result.error;
errors.push([key, error]);
}
}, "runPredicate");
for (const [key, predicate] of this.requiredKeys) {
if (inputEntries.delete(key)) {
runPredicate(key, predicate);
} else {
errors.push([key, new MissingPropertyError(key)]);
}
}
for (const [key, validator] of this.possiblyUndefinedKeysWithDefaults) {
inputEntries.delete(key);
runPredicate(key, validator);
}
if (inputEntries.size === 0) {
return errors.length === 0 ? Result.ok(finalObject) : Result.err(new CombinedPropertyError(errors));
}
const checkInputEntriesInsteadOfSchemaKeys = this.possiblyUndefinedKeys.size > inputEntries.size;
if (checkInputEntriesInsteadOfSchemaKeys) {
for (const [key] of inputEntries) {
const predicate = this.possiblyUndefinedKeys.get(key);
if (predicate) {
runPredicate(key, predicate);
}
}
} else {
for (const [key, predicate] of this.possiblyUndefinedKeys) {
if (inputEntries.delete(key)) {
runPredicate(key, predicate);
}
}
}
return errors.length === 0 ? Result.ok(finalObject) : Result.err(new CombinedPropertyError(errors));
}
handleStrictStrategy(value) {
const errors = [];
const finalResult = {};
const inputEntries = new Map(Object.entries(value));
const runPredicate = /* @__PURE__ */ __name((key, predicate) => {
const result = predicate.run(value[key]);
if (result.isOk()) {
finalResult[key] = result.value;
} else {
const error = result.error;
errors.push([key, error]);
}
}, "runPredicate");
for (const [key, predicate] of this.requiredKeys) {
if (inputEntries.delete(key)) {
runPredicate(key, predicate);
} else {
errors.push([key, new MissingPropertyError(key)]);
}
}
for (const [key, validator] of this.possiblyUndefinedKeysWithDefaults) {
inputEntries.delete(key);
runPredicate(key, validator);
}
for (const [key, predicate] of this.possiblyUndefinedKeys) {
if (inputEntries.size === 0) {
break;
}
if (inputEntries.delete(key)) {
runPredicate(key, predicate);
}
}
if (inputEntries.size !== 0) {
for (const [key, value2] of inputEntries.entries()) {
errors.push([key, new UnknownPropertyError(key, value2)]);
}
}
return errors.length === 0 ? Result.ok(finalResult) : Result.err(new CombinedPropertyError(errors));
}
handlePassthroughStrategy(value) {
const result = this.handleIgnoreStrategy(value);
return result.isErr() ? result : Result.ok({ ...value, ...result.value });
}
};
__name(_ObjectValidator, "ObjectValidator");
var ObjectValidator = _ObjectValidator;
// src/validators/PassthroughValidator.ts
var _PassthroughValidator = class _PassthroughValidator extends BaseValidator {
handle(value) {
return Result.ok(value);
}
};
__name(_PassthroughValidator, "PassthroughValidator");
var PassthroughValidator = _PassthroughValidator;
// src/validators/RecordValidator.ts
var _RecordValidator = class _RecordValidator extends BaseValidator {
constructor(validator, constraints = []) {
super(constraints);
this.validator = validator;
}
clone() {
return Reflect.construct(this.constructor, [this.validator, this.constraints]);
}
handle(value) {
if (typeof value !== "object") {
return Result.err(new ValidationError("s.record(T)", "Expected an object", value));
}
if (value === null) {
return Result.err(new ValidationError("s.record(T)", "Expected the value to not be null", value));
}
if (Array.isArray(value)) {
return Result.err(new ValidationError("s.record(T)", "Expected the value to not be an array", value));
}
if (!this.shouldRunConstraints) {
return Result.ok(value);
}
const errors = [];
const transformed = {};
for (const [key, val] of Object.entries(value)) {
const result = this.validator.run(val);
if (result.isOk())
transformed[key] = result.value;
else
errors.push([key, result.error]);
}
return errors.length === 0 ? Result.ok(transformed) : Result.err(new CombinedPropertyError(errors));
}
};
__name(_RecordValidator, "RecordValidator");
var RecordValidator = _RecordValidator;
// src/validators/SetValidator.ts
var _SetValidator = class _SetValidator extends BaseValidator {
constructor(validator, constraints = []) {
super(constraints);
this.validator = validator;
}
clone() {
return Reflect.construct(this.constructor, [this.validator, this.constraints]);
}
handle(values) {
if (!(values instanceof Set)) {
return Result.err(new ValidationError("s.set(T)", "Expected a set", values));
}
if (!this.shouldRunConstraints) {
return Result.ok(values);
}
const errors = [];
const transformed = /* @__PURE__ */ new Set();
for (const value of values) {
const result = this.validator.run(value);
if (result.isOk())
transformed.add(result.value);
else
errors.push(result.error);
}
return errors.length === 0 ? Result.ok(transformed) : Result.err(new CombinedError(errors));
}
};
__name(_SetValidator, "SetValidator");
var SetValidator = _SetValidator;
// src/constraints/util/emailValidator.ts
var accountRegex = /^(?!\.)(?!.*\.\.)([A-Z0-9_+-\.]*)[A-Z0-9_+-]$/i;
function validateEmail(email) {
if (!email)
return false;
const atIndex = email.indexOf("@");
if (atIndex === -1)
return false;
if (atIndex > 64)
return false;
const domainIndex = atIndex + 1;
if (email.includes("@", domainIndex))
return false;
if (email.length - domainIndex > 255)
return false;
let dotIndex = email.indexOf(".", domainIndex);
if (dotIndex === -1)
return false;
let lastDotIndex = domainIndex;
do {
if (dotIndex - lastDotIndex > 63)
return false;
lastDotIndex = dotIndex + 1;
} while ((dotIndex = email.indexOf(".", lastDotIndex)) !== -1);
if (email.length - lastDotIndex > 63)
return false;
return accountRegex.test(email.slice(0, atIndex)) && validateEmailDomain(email.slice(domainIndex));
}
__name(validateEmail, "validateEmail");
function validateEmailDomain(domain) {
try {
return new URL(`http://${domain}`).hostname === domain;
} catch {
return false;
}
}
__name(validateEmailDomain, "validateEmailDomain");
// src/constraints/util/net.ts
var v4Seg = "(?:[0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])";
var v4Str = `(${v4Seg}[.]){3}${v4Seg}`;
var IPv4Reg = new RegExp(`^${v4Str}$`);
var v6Seg = "(?:[0-9a-fA-F]{1,4})";
var IPv6Reg = new RegExp(
`^((?:${v6Seg}:){7}(?:${v6Seg}|:)|(?:${v6Seg}:){6}(?:${v4Str}|:${v6Seg}|:)|(?:${v6Seg}:){5}(?::${v4Str}|(:${v6Seg}){1,2}|:)|(?:${v6Seg}:){4}(?:(:${v6Seg}){0,1}:${v4Str}|(:${v6Seg}){1,3}|:)|(?:${v6Seg}:){3}(?:(:${v6Seg}){0,2}:${v4Str}|(:${v6Seg}){1,4}|:)|(?:${v6Seg}:){2}(?:(:${v6Seg}){0,3}:${v4Str}|(:${v6Seg}){1,5}|:)|(?:${v6Seg}:){1}(?:(:${v6Seg}){0,4}:${v4Str}|(:${v6Seg}){1,6}|:)|(?::((?::${v6Seg}){0,5}:${v4Str}|(?::${v6Seg}){1,7}|:)))(%[0-9a-zA-Z-.:]{1,})?$`
);
function isIPv4(s4) {
return IPv4Reg.test(s4);
}
__name(isIPv4, "isIPv4");
function isIPv6(s4) {
return IPv6Reg.test(s4);
}
__name(isIPv6, "isIPv6");
function isIP(s4) {
if (isIPv4(s4))
return 4;
if (isIPv6(s4))
return 6;
return 0;
}
__name(isIP, "isIP");
// src/constraints/util/phoneValidator.ts
var phoneNumberRegex = /^((?:\+|0{0,2})\d{1,2}\s?)?\(?\d{3}\)?[\s.-]?\d{3}[\s.-]?\d{4}$/;
function validatePhoneNumber(input) {
return phoneNumberRegex.test(input);
}
__name(validatePhoneNumber, "validatePhoneNumber");
// src/lib/errors/MultiplePossibilitiesConstraintError.ts
var _MultiplePossibilitiesConstraintError = class _MultiplePossibilitiesConstraintError extends BaseConstraintError {
constructor(constraint, message, given, expected) {
super(constraint, message, given);
this.expected = expected;
}
toJSON() {
return {
name: this.name,
constraint: this.constraint,
given: this.given,
expected: this.expected
};
}
[customInspectSymbolStackLess](depth, options) {
const constraint = options.stylize(this.constraint, "string");
if (depth < 0) {
return options.stylize(`[MultiplePossibilitiesConstraintError: ${constraint}]`, "special");
}
const newOptions = { ...options, depth: options.depth === null ? null : options.depth - 1 };
const verticalLine = options.stylize("|", "undefined");
const padding = `
${verticalLine} `;
const given = inspect2(this.given, newOptions).replace(/\n/g, padding);
const header = `${options.stylize("MultiplePossibilitiesConstraintError", "special")} > ${constraint}`;
const message = options.stylize(this.message, "regexp");
const expectedPadding = `
${verticalLine} - `;
const expectedBlock = `
${options.stylize("Expected any of the following:", "string")}${expectedPadding}${this.expected.map((possible) => options.stylize(possible, "boolean")).join(expectedPadding)}`;
const givenBlock = `
${options.stylize("Received:", "regexp")}${padding}${given}`;
return `${header}
${message}
${expectedBlock}
${givenBlock}`;
}
};
__name(_MultiplePossibilitiesConstraintError, "MultiplePossibilitiesConstraintError");
var MultiplePossibilitiesConstraintError = _MultiplePossibilitiesConstraintError;
// src/constraints/util/common/combinedResultFn.ts
function combinedErrorFn(...fns) {
switch (fns.length) {
case 0:
return () => null;
case 1:
return fns[0];
case 2: {
const [fn0, fn1] = fns;
return (...params) => fn0(...params) || fn1(...params);
}
default: {
return (...params) => {
for (const fn of fns) {
const result = fn(...params);
if (result)
return result;
}
return null;
};
}
}
}
__name(combinedErrorFn, "combinedErrorFn");
// src/constraints/util/urlValidators.ts
function createUrlValidators(options) {
const fns = [];
if (options?.allowedProtocols?.length)
fns.push(allowedProtocolsFn(options.allowedProtocols));
if (options?.allowedDomains?.length)
fns.push(allowedDomainsFn(options.allowedDomains));
return combinedErrorFn(...fns);
}
__name(createUrlValidators, "createUrlValidators");
function allowedProtocolsFn(allowedProtocols) {
return (input, url) => allowedProtocols.includes(url.protocol) ? null : new MultiplePossibilitiesConstraintError("s.string.url", "Invalid URL protocol", input, allowedProtocols);
}
__name(allowedProtocolsFn, "allowedProtocolsFn");
function allowedDomainsFn(allowedDomains) {
return (input, url) => allowedDomains.includes(url.hostname) ? null : new MultiplePossibilitiesConstraintError("s.string.url", "Invalid URL domain", input, allowedDomains);
}
__name(allowedDomainsFn, "allowedDomainsFn");
// src/constraints/StringConstraints.ts
function stringLengthComparator(comparator, name, expected, length) {
return {
run(input) {
return comparator(input.length, length) ? Result.ok(input) : Result.err(new ExpectedConstraintError(name, "Invalid string length", input, expected));
}
};
}
__name(stringLengthComparator, "stringLengthComparator");
function stringLengthLessThan(length) {
const expected = `expected.length < ${length}`;
return stringLengthComparator(lessThan, "s.string.lengthLessThan", expected, length);
}
__name(stringLengthLessThan, "stringLengthLessThan");
function stringLengthLessThanOrEqual(length) {
const expected = `expected.length <= ${length}`;
return stringLengthComparator(lessThanOrEqual, "s.string.lengthLessThanOrEqual", expected, length);
}
__name(stringLengthLessThanOrEqual, "stringLengthLessThanOrEqual");
function stringLengthGreaterThan(length) {
const expected = `expected.length > ${length}`;
return stringLengthComparator(greaterThan, "s.string.lengthGreaterThan", expected, length);
}
__name(stringLengthGreaterThan, "stringLengthGreaterThan");
function stringLengthGreaterThanOrEqual(length) {
const expected = `expected.length >= ${length}`;
return stringLengthComparator(greaterThanOrEqual, "s.string.lengthGreaterThanOrEqual", expected, length);
}
__name(stringLengthGreaterThanOrEqual, "stringLengthGreaterThanOrEqual");
function stringLengthEqual(length) {
const expected = `expected.length === ${length}`;
return stringLengthComparator(equal, "s.string.lengthEqual", expected, length);
}
__name(stringLengthEqual, "stringLengthEqual");
function stringLengthNotEqual(length) {
const expected = `expected.length !== ${length}`;
return stringLengthComparator(notEqual, "s.string.lengthNotEqual", expected, length);
}
__name(stringLengthNotEqual, "stringLengthNotEqual");
function stringEmail() {
return {
run(input) {
return validateEmail(input) ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.string.email", "Invalid email address", input, "expected to be an email address"));
}
};
}
__name(stringEmail, "stringEmail");
function stringRegexValidator(type, expected, regex) {
return {
run(input) {
return regex.test(input) ? Result.ok(input) : Result.err(new ExpectedConstraintError(type, "Invalid string format", input, expected));
}
};
}
__name(stringRegexValidator, "stringRegexValidator");
function stringUrl(options) {
const validatorFn = createUrlValidators(options);
return {
run(input) {
let url;
try {
url = new URL(input);
} catch {
return Result.err(new ExpectedConstraintError("s.string.url", "Invalid URL", input, "expected to match a URL"));
}
const validatorFnResult = validatorFn(input, url);
if (validatorFnResult === null)
return Result.ok(input);
return Result.err(validatorFnResult);
}
};
}
__name(stringUrl, "stringUrl");
function stringIp(version) {
const ipVersion = version ? `v${version}` : "";
const validatorFn = version === 4 ? isIPv4 : version === 6 ? isIPv6 : isIP;
const name = `s.string.ip${ipVersion}`;
const message = `Invalid IP${ipVersion} address`;
const expected = `expected to be an IP${ipVersion} address`;
return {
run(input) {
return validatorFn(input) ? Result.ok(input) : Result.err(new ExpectedConstraintError(name, message, input, expected));
}
};
}
__name(stringIp, "stringIp");
function stringRegex(regex) {
return stringRegexValidator("s.string.regex", `expected ${regex}.test(expected) to be true`, regex);
}
__name(stringRegex, "stringRegex");
function stringUuid({ version = 4, nullable = false } = {}) {
version ?? (version = "1-5");
const regex = new RegExp(
`^(?:[0-9A-F]{8}-[0-9A-F]{4}-[${version}][0-9A-F]{3}-[89AB][0-9A-F]{3}-[0-9A-F]{12}${nullable ? "|00000000-0000-0000-0000-000000000000" : ""})$`,
"i"
);
const expected = `expected to match UUID${typeof version === "number" ? `v${version}` : ` in range of ${version}`}`;
return stringRegexValidator("s.string.uuid", expected, regex);
}
__name(stringUuid, "stringUuid");
function stringDate() {
return {
run(input) {
const time = Date.parse(input);
return Number.isNaN(time) ? Result.err(
new ExpectedConstraintError(
"s.string.date",
"Invalid date string",
input,
"expected to be a valid date string (in the ISO 8601 or ECMA-262 format)"
)
) : Result.ok(input);
}
};
}
__name(stringDate, "stringDate");
function stringPhone() {
return {
run(input) {
return validatePhoneNumber(input) ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.string.phone", "Invalid phone number", input, "expected to be a phone number"));
}
};
}
__name(stringPhone, "stringPhone");
// src/validators/StringValidator.ts
var _StringValidator = class _StringValidator extends BaseValidator {
lengthLessThan(length) {
return this.addConstraint(stringLengthLessThan(length));
}
lengthLessThanOrEqual(length) {
return this.addConstraint(stringLengthLessThanOrEqual(length));
}
lengthGreaterThan(length) {
return this.addConstraint(stringLengthGreaterThan(length));
}
lengthGreaterThanOrEqual(length) {
return this.addConstraint(stringLengthGreaterThanOrEqual(length));
}
lengthEqual(length) {
return this.addConstraint(stringLengthEqual(length));
}
lengthNotEqual(length) {
return this.addConstraint(stringLengthNotEqual(length));
}
get email() {
return this.addConstraint(stringEmail());
}
url(options) {
return this.addConstraint(stringUrl(options));
}
uuid(options) {
return this.addConstraint(stringUuid(options));
}
regex(regex) {
return this.addConstraint(stringRegex(regex));
}
get date() {
return this.addConstraint(stringDate());
}
get ipv4() {
return this.ip(4);
}
get ipv6() {
return this.ip(6);
}
ip(version) {
return this.addConstraint(stringIp(version));
}
phone() {
return this.addConstraint(stringPhone());
}
handle(value) {
return typeof value === "string" ? Result.ok(value) : Result.err(new ValidationError("s.string", "Expected a string primitive", value));
}
};
__name(_StringValidator, "StringValidator");
var StringValidator = _StringValidator;
// src/validators/TupleValidator.ts
var _TupleValidator = class _TupleValidator extends BaseValidator {
constructor(validators, constraints = []) {
super(constraints);
this.validators = [];
this.validators = validators;
}
clone() {
return Reflect.construct(this.constructor, [this.validators, this.constraints]);
}
handle(values) {
if (!Array.isArray(values)) {
return Result.err(new ValidationError("s.tuple(T)", "Expected an array", values));
}
if (values.length !== this.validators.length) {
return Result.err(new ValidationError("s.tuple(T)", `Expected an array of length ${this.validators.length}`, values));
}
if (!this.shouldRunConstraints) {
return Result.ok(values);
}
const errors = [];
const transformed = [];
for (let i3 = 0; i3 < values.length; i3++) {
const result = this.validators[i3].run(values[i3]);
if (result.isOk())
transformed.push(result.value);
else
errors.push([i3, result.error]);
}
return errors.length === 0 ? Result.ok(transformed) : Result.err(new CombinedPropertyError(errors));
}
};
__name(_TupleValidator, "TupleValidator");
var TupleValidator = _TupleValidator;
// src/validators/MapValidator.ts
var _MapValidator = class _MapValidator extends BaseValidator {
constructor(keyValidator, valueValidator, constraints = []) {
super(constraints);
this.keyValidator = keyValidator;
this.valueValidator = valueValidator;
}
clone() {
return Reflect.construct(this.constructor, [this.keyValidator, this.valueValidator, this.constraints]);
}
handle(value) {
if (!(value instanceof Map)) {
return Result.err(new ValidationError("s.map(K, V)", "Expected a map", value));
}
if (!this.shouldRunConstraints) {
return Result.ok(value);
}
const errors = [];
const transformed = /* @__PURE__ */ new Map();
for (const [key, val] of value.entries()) {
const keyResult = this.keyValidator.run(key);
const valueResult = this.valueValidator.run(val);
const { length } = errors;
if (keyResult.isErr())
errors.push([key, keyResult.error]);
if (valueResult.isErr())
errors.push([key, valueResult.error]);
if (errors.length === length)
transformed.set(keyResult.value, valueResult.value);
}
return errors.length === 0 ? Result.ok(transformed) : Result.err(new CombinedPropertyError(errors));
}
};
__name(_MapValidator, "MapValidator");
var MapValidator = _MapValidator;
// src/validators/LazyValidator.ts
var _LazyValidator = class _LazyValidator extends BaseValidator {
constructor(validator, constraints = []) {
super(constraints);
this.validator = validator;
}
clone() {
return Reflect.construct(this.constructor, [this.validator, this.constraints]);
}
handle(values) {
return this.validator(values).run(values);
}
};
__name(_LazyValidator, "LazyValidator");
var LazyValidator = _LazyValidator;
// src/lib/errors/UnknownEnumValueError.ts
var _UnknownEnumValueError = class _UnknownEnumValueError extends BaseError {
constructor(value, keys, enumMappings) {
super("Expected the value to be one of the following enum values:");
this.value = value;
this.enumKeys = keys;
this.enumMappings = enumMappings;
}
toJSON() {
return {
name: this.name,
value: this.value,
enumKeys: this.enumKeys,
enumMappings: [...this.enumMappings.entries()]
};
}
[customInspectSymbolStackLess](depth, options) {
const value = options.stylize(this.value.toString(), "string");
if (depth < 0) {
return options.stylize(`[UnknownEnumValueError: ${value}]`, "special");
}
const padding = `
${options.stylize("|", "undefined")} `;
const pairs = this.enumKeys.map((key) => {
const enumValue = this.enumMappings.get(key);
return `${options.stylize(key, "string")} or ${options.stylize(
enumValue.toString(),
typeof enumValue === "number" ? "number" : "string"
)}`;
}).join(padding);
const header = `${options.stylize("UnknownEnumValueError", "special")} > ${value}`;
const message = options.stylize(this.message, "regexp");
const pairsBlock = `${padding}${pairs}`;
return `${header}
${message}
${pairsBlock}`;
}
};
__name(_UnknownEnumValueError, "UnknownEnumValueError");
var UnknownEnumValueError = _UnknownEnumValueError;
// src/validators/NativeEnumValidator.ts
var _NativeEnumValidator = class _NativeEnumValidator extends BaseValidator {
constructor(enumShape) {
super();
this.hasNumericElements = false;
this.enumMapping = /* @__PURE__ */ new Map();
this.enumShape = enumShape;
this.enumKeys = Object.keys(enumShape).filter((key) => {
return typeof enumShape[enumShape[key]] !== "number";
});
for (const key of this.enumKeys) {
const enumValue = enumShape[key];
this.enumMapping.set(key, enumValue);
this.enumMapping.set(enumValue, enumValue);
if (typeof enumValue === "number") {
this.hasNumericElements = true;
this.enumMapping.set(`${enumValue}`, enumValue);
}
}
}
handle(value) {
const typeOfValue = typeof value;
if (typeOfValue === "number") {
if (!this.hasNumericElements) {
return Result.err(new ValidationError("s.nativeEnum(T)", "Expected the value to be a string", value));
}
} else if (typeOfValue !== "string") {
return Result.err(new ValidationError("s.nativeEnum(T)", "Expected the value to be a string or number", value));
}
const casted = value;
const possibleEnumValue = this.enumMapping.get(casted);
return typeof possibleEnumValue === "undefined" ? Result.err(new UnknownEnumValueError(casted, this.enumKeys, this.enumMapping)) : Result.ok(possibleEnumValue);
}
clone() {
return Reflect.construct(this.constructor, [this.enumShape]);
}
};
__name(_NativeEnumValidator, "NativeEnumValidator");
var NativeEnumValidator = _NativeEnumValidator;
// src/constraints/TypedArrayLengthConstraints.ts
function typedArrayByteLengthComparator(comparator, name, expected, length) {
return {
run(input) {
return comparator(input.byteLength, length) ? Result.ok(input) : Result.err(new ExpectedConstraintError(name, "Invalid Typed Array byte length", input, expected));
}
};
}
__name(typedArrayByteLengthComparator, "typedArrayByteLengthComparator");
function typedArrayByteLengthLessThan(value) {
const expected = `expected.byteLength < ${value}`;
return typedArrayByteLengthComparator(lessThan, "s.typedArray(T).byteLengthLessThan", expected, value);
}
__name(typedArrayByteLengthLessThan, "typedArrayByteLengthLessThan");
function typedArrayByteLengthLessThanOrEqual(value) {
const expected = `expected.byteLength <= ${value}`;
return typedArrayByteLengthComparator(lessThanOrEqual, "s.typedArray(T).byteLengthLessThanOrEqual", expected, value);
}
__name(typedArrayByteLengthLessThanOrEqual, "typedArrayByteLengthLessThanOrEqual");
function typedArrayByteLengthGreaterThan(value) {
const expected = `expected.byteLength > ${value}`;
return typedArrayByteLengthComparator(greaterThan, "s.typedArray(T).byteLengthGreaterThan", expected, value);
}
__name(typedArrayByteLengthGreaterThan, "typedArrayByteLengthGreaterThan");
function typedArrayByteLengthGreaterThanOrEqual(value) {
const expected = `expected.byteLength >= ${value}`;
return typedArrayByteLengthComparator(greaterThanOrEqual, "s.typedArray(T).byteLengthGreaterThanOrEqual", expected, value);
}
__name(typedArrayByteLengthGreaterThanOrEqual, "typedArrayByteLengthGreaterThanOrEqual");
function typedArrayByteLengthEqual(value) {
const expected = `expected.byteLength === ${value}`;
return typedArrayByteLengthComparator(equal, "s.typedArray(T).byteLengthEqual", expected, value);
}
__name(typedArrayByteLengthEqual, "typedArrayByteLengthEqual");
function typedArrayByteLengthNotEqual(value) {
const expected = `expected.byteLength !== ${value}`;
return typedArrayByteLengthComparator(notEqual, "s.typedArray(T).byteLengthNotEqual", expected, value);
}
__name(typedArrayByteLengthNotEqual, "typedArrayByteLengthNotEqual");
function typedArrayByteLengthRange(start, endBefore) {
const expected = `expected.byteLength >= ${start} && expected.byteLength < ${endBefore}`;
return {
run(input) {
return input.byteLength >= start && input.byteLength < endBefore ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.typedArray(T).byteLengthRange", "Invalid Typed Array byte length", input, expected));
}
};
}
__name(typedArrayByteLengthRange, "typedArrayByteLengthRange");
function typedArrayByteLengthRangeInclusive(start, end) {
const expected = `expected.byteLength >= ${start} && expected.byteLength <= ${end}`;
return {
run(input) {
return input.byteLength >= start && input.byteLength <= end ? Result.ok(input) : Result.err(
new ExpectedConstraintError("s.typedArray(T).byteLengthRangeInclusive", "Invalid Typed Array byte length", input, expected)
);
}
};
}
__name(typedArrayByteLengthRangeInclusive, "typedArrayByteLengthRangeInclusive");
function typedArrayByteLengthRangeExclusive(startAfter, endBefore) {
const expected = `expected.byteLength > ${startAfter} && expected.byteLength < ${endBefore}`;
return {
run(input) {
return input.byteLength > startAfter && input.byteLength < endBefore ? Result.ok(input) : Result.err(
new ExpectedConstraintError("s.typedArray(T).byteLengthRangeExclusive", "Invalid Typed Array byte length", input, expected)
);
}
};
}
__name(typedArrayByteLengthRangeExclusive, "typedArrayByteLengthRangeExclusive");
function typedArrayLengthComparator(comparator, name, expected, length) {
return {
run(input) {
return comparator(input.length, length) ? Result.ok(input) : Result.err(new ExpectedConstraintError(name, "Invalid Typed Array length", input, expected));
}
};
}
__name(typedArrayLengthComparator, "typedArrayLengthComparator");
function typedArrayLengthLessThan(value) {
const expected = `expected.length < ${value}`;
return typedArrayLengthComparator(lessThan, "s.typedArray(T).lengthLessThan", expected, value);
}
__name(typedArrayLengthLessThan, "typedArrayLengthLessThan");
function typedArrayLengthLessThanOrEqual(value) {
const expected = `expected.length <= ${value}`;
return typedArrayLengthComparator(lessThanOrEqual, "s.typedArray(T).lengthLessThanOrEqual", expected, value);
}
__name(typedArrayLengthLessThanOrEqual, "typedArrayLengthLessThanOrEqual");
function typedArrayLengthGreaterThan(value) {
const expected = `expected.length > ${value}`;
return typedArrayLengthComparator(greaterThan, "s.typedArray(T).lengthGreaterThan", expected, value);
}
__name(typedArrayLengthGreaterThan, "typedArrayLengthGreaterThan");
function typedArrayLengthGreaterThanOrEqual(value) {
const expected = `expected.length >= ${value}`;
return typedArrayLengthComparator(greaterThanOrEqual, "s.typedArray(T).lengthGreaterThanOrEqual", expected, value);
}
__name(typedArrayLengthGreaterThanOrEqual, "typedArrayLengthGreaterThanOrEqual");
function typedArrayLengthEqual(value) {
const expected = `expected.length === ${value}`;
return typedArrayLengthComparator(equal, "s.typedArray(T).lengthEqual", expected, value);
}
__name(typedArrayLengthEqual, "typedArrayLengthEqual");
function typedArrayLengthNotEqual(value) {
const expected = `expected.length !== ${value}`;
return typedArrayLengthComparator(notEqual, "s.typedArray(T).lengthNotEqual", expected, value);
}
__name(typedArrayLengthNotEqual, "typedArrayLengthNotEqual");
function typedArrayLengthRange(start, endBefore) {
const expected = `expected.length >= ${start} && expected.length < ${endBefore}`;
return {
run(input) {
return input.length >= start && input.length < endBefore ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.typedArray(T).lengthRange", "Invalid Typed Array length", input, expected));
}
};
}
__name(typedArrayLengthRange, "typedArrayLengthRange");
function typedArrayLengthRangeInclusive(start, end) {
const expected = `expected.length >= ${start} && expected.length <= ${end}`;
return {
run(input) {
return input.length >= start && input.length <= end ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.typedArray(T).lengthRangeInclusive", "Invalid Typed Array length", input, expected));
}
};
}
__name(typedArrayLengthRangeInclusive, "typedArrayLengthRangeInclusive");
function typedArrayLengthRangeExclusive(startAfter, endBefore) {
const expected = `expected.length > ${startAfter} && expected.length < ${endBefore}`;
return {
run(input) {
return input.length > startAfter && input.length < endBefore ? Result.ok(input) : Result.err(new ExpectedConstraintError("s.typedArray(T).lengthRangeExclusive", "Invalid Typed Array length", input, expected));
}
};
}
__name(typedArrayLengthRangeExclusive, "typedArrayLengthRangeExclusive");
// src/constraints/util/common/vowels.ts
var vowels = ["a", "e", "i", "o", "u"];
var aOrAn = /* @__PURE__ */ __name((word) => {
return `${vowels.includes(word[0].toLowerCase()) ? "an" : "a"} ${word}`;
}, "aOrAn");
// src/constraints/util/typedArray.ts
var TypedArrays = {
Int8Array: (x2) => x2 instanceof Int8Array,
Uint8Array: (x2) => x2 instanceof Uint8Array,
Uint8ClampedArray: (x2) => x2 instanceof Uint8ClampedArray,
Int16Array: (x2) => x2 instanceof Int16Array,
Uint16Array: (x2) => x2 instanceof Uint16Array,
Int32Array: (x2) => x2 instanceof Int32Array,
Uint32Array: (x2) => x2 instanceof Uint32Array,
Float32Array: (x2) => x2 instanceof Float32Array,
Float64Array: (x2) => x2 instanceof Float64Array,
BigInt64Array: (x2) => x2 instanceof BigInt64Array,
BigUint64Array: (x2) => x2 instanceof BigUint64Array,
TypedArray: (x2) => ArrayBuffer.isView(x2) && !(x2 instanceof DataView)
};
// src/validators/TypedArrayValidator.ts
var _TypedArrayValidator = class _TypedArrayValidator extends BaseValidator {
constructor(type, constraints = []) {
super(constraints);
this.type = type;
}
byteLengthLessThan(length) {
return this.addConstraint(typedArrayByteLengthLessThan(length));
}
byteLengthLessThanOrEqual(length) {
return this.addConstraint(typedArrayByteLengthLessThanOrEqual(length));
}
byteLengthGreaterThan(length) {
return this.addConstraint(typedArrayByteLengthGreaterThan(length));
}
byteLengthGreaterThanOrEqual(length) {
return this.addConstraint(typedArrayByteLengthGreaterThanOrEqual(length));
}
byteLengthEqual(length) {
return this.addConstraint(typedArrayByteLengthEqual(length));
}
byteLengthNotEqual(length) {
return this.addConstraint(typedArrayByteLengthNotEqual(length));
}
byteLengthRange(start, endBefore) {
return this.addConstraint(typedArrayByteLengthRange(start, endBefore));
}
byteLengthRangeInclusive(startAt, endAt) {
return this.addConstraint(typedArrayByteLengthRangeInclusive(startAt, endAt));
}
byteLengthRangeExclusive(startAfter, endBefore) {
return this.addConstraint(typedArrayByteLengthRangeExclusive(startAfter, endBefore));
}
lengthLessThan(length) {
return this.addConstraint(typedArrayLengthLessThan(length));
}
lengthLessThanOrEqual(length) {
return this.addConstraint(typedArrayLengthLessThanOrEqual(length));
}
lengthGreaterThan(length) {
return this.addConstraint(typedArrayLengthGreaterThan(length));
}
lengthGreaterThanOrEqual(length) {
return this.addConstraint(typedArrayLengthGreaterThanOrEqual(length));
}
lengthEqual(length) {
return this.addConstraint(typedArrayLengthEqual(length));
}
lengthNotEqual(length) {
return this.addConstraint(typedArrayLengthNotEqual(length));
}
lengthRange(start, endBefore) {
return this.addConstraint(typedArrayLengthRange(start, endBefore));
}
lengthRangeInclusive(startAt, endAt) {
return this.addConstraint(typedArrayLengthRangeInclusive(startAt, endAt));
}
lengthRangeExclusive(startAfter, endBefore) {
return this.addConstraint(typedArrayLengthRangeExclusive(startAfter, endBefore));
}
clone() {
return Reflect.construct(this.constructor, [this.type, this.constraints]);
}
handle(value) {
return TypedArrays[this.type](value) ? Result.ok(value) : Result.err(new ValidationError("s.typedArray", `Expected ${aOrAn(this.type)}`, value));
}
};
__name(_TypedArrayValidator, "TypedArrayValidator");
var TypedArrayValidator = _TypedArrayValidator;
// src/lib/Shapes.ts
var _Shapes = class _Shapes {
get string() {
return new StringValidator();
}
get number() {
return new NumberValidator();
}
get bigint() {
return new BigIntValidator();
}
get boolean() {
return new BooleanValidator();
}
get date() {
return new DateValidator();
}
object(shape) {
return new ObjectValidator(shape);
}
get undefined() {
return this.literal(void 0);
}
get null() {
return this.literal(null);
}
get nullish() {
return new NullishValidator();
}
get any() {
return new PassthroughValidator();
}
get unknown() {
return new PassthroughValidator();
}
get never() {
return new NeverValidator();
}
enum(...values) {
return this.union(...values.map((value) => this.literal(value)));
}
nativeEnum(enumShape) {
return new NativeEnumValidator(enumShape);
}
literal(value) {
if (value instanceof Date)
return this.date.equal(value);
return new LiteralValidator(value);
}
instance(expected) {
return new InstanceValidator(expected);
}
union(...validators) {
return new UnionValidator(validators);
}
array(validator) {
return new ArrayValidator(validator);
}
typedArray(type = "TypedArray") {
return new TypedArrayValidator(type);
}
get int8Array() {
return this.typedArray("Int8Array");
}
get uint8Array() {
return this.typedArray("Uint8Array");
}
get uint8ClampedArray() {
return this.typedArray("Uint8ClampedArray");
}
get int16Array() {
return this.typedArray("Int16Array");
}
get uint16Array() {
return this.typedArray("Uint16Array");
}
get int32Array() {
return this.typedArray("Int32Array");
}
get uint32Array() {
return this.typedArray("Uint32Array");
}
get float32Array() {
return this.typedArray("Float32Array");
}
get float64Array() {
return this.typedArray("Float64Array");
}
get bigInt64Array() {
return this.typedArray("BigInt64Array");
}
get bigUint64Array() {
return this.typedArray("BigUint64Array");
}
tuple(validators) {
return new TupleValidator(validators);
}
set(validator) {
return new SetValidator(validator);
}
record(validator) {
return new RecordValidator(validator);
}
map(keyValidator, valueValidator) {
return new MapValidator(keyValidator, valueValidator);
}
lazy(validator) {
return new LazyValidator(validator);
}
};
__name(_Shapes, "Shapes");
var Shapes = _Shapes;
// src/index.ts
var s3 = new Shapes();
/**
* @license MIT
* @copyright 2020 Colin McDonnell
* @see https://github.com/colinhacks/zod/blob/master/LICENSE
*/
export { BaseError, CombinedError, CombinedPropertyError, ExpectedConstraintError, ExpectedValidationError, MissingPropertyError, MultiplePossibilitiesConstraintError, Result, UnknownEnumValueError, UnknownPropertyError, ValidationError, customInspectSymbol, customInspectSymbolStackLess, getGlobalValidationEnabled, s3 as s, setGlobalValidationEnabled };
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//# sourceMappingURL=index.mjs.map