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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 }; //# sourceMappingURL=out.js.map //# sourceMappingURL=index.mjs.map