TypeGuardKit
⚠️ API not yet stable
A TypeScript module to help construct type assertion functions and type guards.
The included classes and functions can be used to create types and their assertion functions and guards from a single source definition.
Type assertion functions and guards can be used to catch incompatible types entering your program due to data corruption, interfaces not being adhered to, or interface definitions being outdated without versioning protection from breaking changes.
Setup
Deno module URL
https://deno.land/x/typeguardkit/mod.ts
npm installation
npm install typeguardkit
Usage
import
s
Example Where you see relative import
paths in documentation examples, instead
import
from "https://deno.land/x/typeguardkit/mod.ts"
if using Deno, or
from "typeguardkit"
if using npm.
Example
import {
_boolean,
_null,
_number,
_PositiveInteger,
_string,
array,
Asserted,
ObjectAsserter,
union,
} from "./mod.ts";
// types/book.ts
export const _Book = new ObjectAsserter("Book", {
isbn: _string,
title: _string,
authors: array(_string),
pageCount: _PositiveInteger,
rating: union(_number, _null),
recommended: _boolean,
});
export type Book = Asserted<typeof _Book>;
// api/get_book.ts
export async function getBook(isbn: string): Promise<Book> {
const response = await fetch(`/api/books/${isbn}`);
const responseBody = await response.json();
// If `responseBody` is a `Book`, `_Book.assert` returns `responseBody` as
// `Book`. Otherwise, `_Book` throws a `TypeAssertionError`, including the
// optional value name `"responseBody"` in its `message`.
return _Book.assert(responseBody, "responseBody");
}
Asserter
An Asserter<Type>
has a type assertion method, assert
, which should assert
whether the provided value
is of Type
.
interface Asserter<Type> {
readonly typeName: string;
assert(value: unknown, valueName?: string): Type;
}
If value
is of Type
, assert
should return value
as Type
. Otherwise,
assert
should throw a TypeAssertionError
, including valueName
in its
message
.
The module includes the _boolean
, _number
, _string
, _null
, and
_undefined
primitive type Asserter
s.
It also includes the _NonNegativeNumber
, _PositiveNumber
, _Integer
,
_NonNegativeInteger
, and _PositiveInteger
Asserter
s, which are number
Asserter
s that have additional, runtime-only constraints.
The _null
and _undefined
Asserter
s can be used to create union type
Asserter
s with the union
function.
As well as wrapping Asserter
s in the
assertIs
or
is
functions, you can use them like this:
import { _string } from "./mod.ts";
function handleUnknown(x: unknown) {
let y;
try {
y = _string.assert(x, "x");
} catch {
return;
}
// `y` has now been initialized and inferred to be of type `string`, so can be
// passed to `handleString`. `x` is still of `unknown` type though, so cannot.
handleString(y);
}
function handleString(y: string) {}
You can create your own Asserter
s using the TypeAsserter
class. For example,
the _string
Asserter
was created like this:
import { TypeAsserter } from "./mod.ts";
export const _string = new TypeAsserter(
"string",
(value): value is string => typeof value === "string",
);
Prefixing Asserter
names with an underscore _
helps to avoid name conflicts
and shadowing.
Assertion signature wrapper
The assertIs
function wraps an Asserter<Type>
with an
assertion signature
so the value passed in can be narrowed to Type
. If the Asserter
throws an
error, it will bubble up. Otherwise, assertIs
will not return a value, but
after calling it, the value passed in will be narrowed to Type
.
Example:
import { _string, assertIs } from "./mod.ts";
function handleUnknown(x: unknown) {
assertIs(_string, x, "x");
// `x` has now been narrowed to type `string`, so can be passed to
// `handleString`.
handleString(x);
}
function handleString(x: string) {}
Predicate signature wrapper
The is
function wraps an Asserter<Type>
with a
predicate signature,
creating a type guard, so the value passed in can be narrowed to Type
. If the
Asserter
throws an error, is
will catch it and return false
. Otherwise,
is
will return true
.
Example:
import { _string, is } from "./mod.ts";
function handleUnknown(x: unknown) {
if (is(_string, x)) {
// `x` has now been narrowed to type `string`, so can be passed to
// `handleString`.
handleString(x);
}
}
function handleString(x: string) {}
NumberAsserter
A NumberAsserter
is an Asserter<number>
, with any additional constraints
defined by its NumberAsserterOptions
properties.
The provided NumberAsserterOptions
are made accessible as properties of the
created NumberAsserter
.
A NumberAsserter
is also a Validator<number>
with a validate
method, which
checks only that the provided value
meets any constraints defined in the
NumberAsserterOptions
, and returns any issues. This can be used to validate
user input client side, where it should already be known that value
is a
number
.
Example:
import { Asserted, NumberAsserter } from "./mod.ts";
export const _EvenNumberInRange = new NumberAsserter("EvenNumberInRange", {
min: { value: 0, inclusive: true },
max: { value: 100, inclusive: true },
step: 2,
});
export type EvenNumberInRange = Asserted<typeof _EvenNumberInRange>;
StringAsserter
A StringAsserter
is an Asserter<string>
, with any additional constraints
defined by its StringAsserterOptions
properties.
The provided StringAsserterOptions
are made accessible as properties of the
created StringAsserter
.
A StringAsserter
is also a Validator<string>
with a validate
method, which
checks only that the provided value
meets any constraints defined in the
StringAsserterOptions
, and returns any issues. This can be used to validate
user input client side, where it should already be known that value
is a
string
.
Example:
import { Asserted, StringAsserter } from "./mod.ts";
export const _NonEmptyString = new StringAsserter("NonEmptyString", {
minLength: 1,
});
export type NonEmptyString = Asserted<typeof _NonEmptyString>;
export const _NumericString = new StringAsserter("NumericString", {
regex: { pattern: "\\d+", requirements: ["must be numeric"] },
});
export type NumericString = Asserted<typeof _NumericString>;
export const _Palindrome = new StringAsserter("Palindrome", {
rules: [
{
validate(value) {
if (value.length < 2) {
return true;
}
const forwardValue = value.replace(/[^0-9a-z]/gi, "");
const backwardValue = forwardValue.split("").reverse().join("");
return forwardValue === backwardValue;
},
requirements: ["must be a palindrome"],
},
],
});
export type Palindrome = Asserted<typeof _Palindrome>;
LiteralUnionAsserter
A LiteralUnionAsserter
is an Asserter
for the union of its values
.
The provided values
are made accessible as a property of the created
LiteralUnionAsserter
.
Example:
import { Asserted, LiteralUnionAsserter } from "./mod.ts";
export const _Direction = new LiteralUnionAsserter(
"Direction",
["up", "right", "down", "left"],
);
export type Direction = Asserted<typeof _Direction>;
EnumAsserter
An EnumAsserter
is an Asserter
for the union of the member types of the
provided enumObject
.
The provided enumObject
is made accessible as a property of the created
EnumAsserter
.
Example:
import { EnumAsserter } from "./mod.ts";
export enum Direction {
Up,
Right,
Down,
Left,
}
export const _Direction = new EnumAsserter("Direction", Direction);
UnionAsserter
A UnionAsserter
is an Asserter
for the union of the Type
s of its
memberAsserters
.
The provided memberAsserters
are made accessible as a property of the created
UnionAsserter
.
Example:
import { _null, _string, Asserted, UnionAsserter } from "./mod.ts";
export const _stringOrNull = new UnionAsserter(
"stringOrNull",
[_string, _null],
);
export type stringOrNull = Asserted<typeof _stringOrNull>;
union
The union
function can be used to create a UnionAsserter
without specifying
a typeName
.
Example:
import { _null, _string, Asserted, union } from "./mod.ts";
export const _stringOrNull = union(_string, _null);
export type stringOrNull = Asserted<typeof _stringOrNull>;
ArrayAsserter
An ArrayAsserter
is an Asserter
for the Array
type defined by its
elementAsserter
, with any additional constraints defined by its
ArrayAsserterOptions
properties.
The provided memberAsserter
and ArrayAsserterOptions
are made accessible as
properties of the created ArrayAsserter
.
An ArrayAsserter
is also a Validator
with a validate
method, which checks
only that the provided value
meets any constraints defined in the
ArrayAsserterOptions
, and returns any issues. This can be used to validate
user input client side, where it should already be known that value
meets the
compile-time constraints of the array type.
Example:
import { _number, _string, ArrayAsserter, Asserted } from "./mod.ts";
export const _NonEmptyArrayOfString = new ArrayAsserter(
"NonEmptyArrayOfString",
_string,
{ minLength: 1 },
);
export type NonEmptyArrayOfString = Asserted<typeof _NonEmptyArrayOfString>;
export const _ArraySetOfString = new ArrayAsserter(
"ArraySetOfString",
_string,
{ mustBeASet: true },
);
export type ArraySetOfString = Asserted<typeof _ArraySetOfString>;
export const _AscendingArrayOfNumber = new ArrayAsserter(
"AscendingArrayOfNumber",
_number,
{
rules: [
{
validate(value) {
for (let i = 1; i < value.length; i++) {
if (value[i - 1] > value[i]) {
return false;
}
}
return true;
},
requirements: ["must be in ascending order"],
},
],
},
);
export type AscendingArrayOfNumber = Asserted<typeof _AscendingArrayOfNumber>;
array
The array
function can be used to create an ArrayAsserter
without specifying
a typeName
or ArrayAsserterOptions
.
Example:
import { _string, array, Asserted } from "./mod.ts";
export const _ArrayOfString = array(_string);
export type ArrayOfString = Asserted<typeof _ArrayOfString>;
RecordAsserter
A RecordAsserter
is an Asserter
for the Record
type defined by its
keyAsserter
and valueAsserter
.
The provided keyAsserter
and valueAsserter
are made accessible as properties
of the created RecordAsserter
.
Example:
import { _string, Asserted, RecordAsserter } from "./mod.ts";
export const _RecordOfStringByString = new RecordAsserter(
"RecordOfStringByString",
[_string, _string],
);
export type RecordOfStringByString = Asserted<typeof _RecordOfStringByString>;
record
The record
function can be used to create a RecordAsserter
without
specifying a typeName
.
Example:
import { _string, Asserted, record } from "./mod.ts";
export const _RecordOfStringByString = record(_string, _string);
export type RecordOfStringByString = Asserted<typeof _RecordOfStringByString>;
ObjectAsserter
An ObjectAsserter
is an Asserter
for the object type defined by its
propertyAsserters
.
The provided propertyAsserters
are made accessible as a property of the
created ObjectAsserter
.
Example:
import { _string, Asserted, ObjectAsserter, option } from "./mod.ts";
export const _User = new ObjectAsserter("User", {
name: _string,
emailAddress: option(_string),
});
export type User = Asserted<typeof _User>;
ObjectIntersectionAsserter
An ObjectIntersectionAsserter
is an ObjectAsserter
for the intersection of
the asserted types of the provided ObjectAsserter
s.
Example:
import {
_string,
Asserted,
ObjectAsserter,
ObjectIntersectionAsserter,
} from "./mod.ts";
// types/entity.ts
export const _Entity = new ObjectAsserter("Entity", {
id: _string,
});
export type Entity = Asserted<typeof _Entity>;
// types/user.ts
export const _User = new ObjectIntersectionAsserter(
"User",
[
_Entity,
{
name: _string,
},
],
);
export type User = Asserted<typeof _User>;
objectIntersection
The objectIntersection
function can be used to create an
ObjectIntersectionAsserter
without specifying a typeName
.
Example:
import {
_string,
Asserted,
ObjectAsserter,
objectIntersection,
} from "./mod.ts";
// types/a.ts
export const _A = new ObjectAsserter("A", {
a: _string,
});
export type A = Asserted<typeof _A>;
// types/b.ts
export const _B = new ObjectAsserter("B", {
b: _string,
});
export type B = Asserted<typeof _B>;
// types/c.ts
export const _C = objectIntersection(_A, _B);
export type C = Asserted<typeof _C>;
PartialAsserter
A PartialAsserter
is an ObjectAsserter
for the asserted type of the provided
ObjectAsserter
with all properties set to optional.
Example:
import { _string, Asserted, ObjectAsserter, PartialAsserter } from "./mod.ts";
export const _Options = new PartialAsserter(
"Options",
{
option1: _string,
option2: _string,
option3: _string,
},
);
export type Options = Asserted<typeof _Options>;
partial
The partial
function can be used to create a PartialAsserter
without
specifying a typeName
.
Example:
import { _string, Asserted, ObjectAsserter, partial } from "./mod.ts";
// types/user_name.ts
export const _UserName = new ObjectAsserter("UserName", {
firstName: _string,
lastName: _string,
});
export type UserName = Asserted<typeof _UserName>;
// types/user_name_update.ts
export const _UserNameUpdate = partial(_UserName);
export type UserNameUpdate = Asserted<typeof _UserNameUpdate>;
PickAsserter
A PickAsserter
is an ObjectAsserter
for the type constructed by picking the
set of properties Keys
from the asserted type of the provided
ObjectAsserter
.
Example:
import { _string, Asserted, ObjectAsserter, PickAsserter } from "./mod.ts";
// types/user.ts
export const _User = new ObjectAsserter("User", {
id: _string,
firstName: _string,
lastName: _string,
});
export type User = Asserted<typeof _User>;
// types/user_name.ts
export const _UserName = new PickAsserter(
"UserName",
_User,
["firstName", "lastName"],
);
export type UserName = Asserted<typeof _UserName>;
pick
The pick
function can be used to create a PickAsserter
without specifying a
typeName
.
Example:
import { _string, Asserted, ObjectAsserter, pick } from "./mod.ts";
// types/user.ts
export const _User = new ObjectAsserter("User", {
id: _string,
firstName: _string,
lastName: _string,
});
export type User = Asserted<typeof _User>;
// types/user_name.ts
export const _UserName = pick(_User, ["firstName", "lastName"]);
export type UserName = Asserted<typeof _UserName>;
Validator
A Validator<Type>
has a validate
method, which should check value
meets
any runtime-only constraints of Type
, and return any issues. This should not
include constraints of any Validator
s for properties or elements of Type
.
interface Validator<Type> {
validate(value: Type): string[];
}
Any Asserter<Type>
class that allows runtime-only constraints should also
implement Validator<Type>
.
validate
can then be used to validate user input client side, where it should
already be known that value
meets the compile-time constraints of Type
.