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@sapphire/shapeshift
Advanced tools
@sapphire/shapeshift is a powerful validation library for JavaScript and TypeScript. It allows developers to define schemas for their data and validate it against these schemas. The library is designed to be highly flexible and easy to use, making it suitable for a wide range of applications.
Basic Validation
This feature allows you to define a schema and validate an object against it. In this example, the schema expects an object with a 'name' string and an 'age' number.
const { s } = require('@sapphire/shapeshift');
const schema = s.object({
name: s.string,
age: s.number
});
const data = { name: 'John', age: 30 };
const result = schema.parse(data);
console.log(result); // { name: 'John', age: 30 }
Optional Fields
This feature allows you to define optional fields in your schema. In this example, the 'age' field is optional.
const { s } = require('@sapphire/shapeshift');
const schema = s.object({
name: s.string,
age: s.number.optional
});
const data = { name: 'John' };
const result = schema.parse(data);
console.log(result); // { name: 'John' }
Array Validation
This feature allows you to validate arrays. In this example, the schema expects an array of strings.
const { s } = require('@sapphire/shapeshift');
const schema = s.array(s.string);
const data = ['apple', 'banana', 'cherry'];
const result = schema.parse(data);
console.log(result); // ['apple', 'banana', 'cherry']
Nested Objects
This feature allows you to validate nested objects. In this example, the schema expects an object with a 'user' object that contains 'name' and 'age' fields.
const { s } = require('@sapphire/shapeshift');
const schema = s.object({
user: s.object({
name: s.string,
age: s.number
})
});
const data = { user: { name: 'John', age: 30 } };
const result = schema.parse(data);
console.log(result); // { user: { name: 'John', age: 30 } }
Joi is a powerful schema description language and data validator for JavaScript. It allows you to create blueprints or schemas for JavaScript objects to ensure validation of key information. Compared to @sapphire/shapeshift, Joi is more established and widely used in the industry, offering a rich set of features and integrations.
Yup is a JavaScript schema builder for value parsing and validation. It is heavily inspired by Joi but is designed to work with modern JavaScript and TypeScript. Yup is known for its simplicity and ease of use, making it a popular choice for form validation in React applications. Compared to @sapphire/shapeshift, Yup offers a more modern API and better TypeScript support.
Zod is a TypeScript-first schema declaration and validation library. It aims to provide a simple and expressive way to define schemas and validate data. Zod is particularly well-suited for TypeScript projects, offering excellent type inference and integration. Compared to @sapphire/shapeshift, Zod provides a more TypeScript-centric approach and better type safety.
.run(data: unknown): Result
: given a validation, you can call this method to check whether or not the.parse(data: unknown): T
: given a validations, you can call this method to check whether or not the input is valid..transform((value: T) => R): NopValidator
: adds a constraint that modifies the input:.reshape((value: T) => Result | IConstraint): NopValidator
: adds a constraint able to both validate.default(value: T | (() => T))
: transform undefined
into the given value or the callback's returned value:.optional
: a convenience method that returns a union of the type with s.undefined()
..nullable
: a convenience method that returns a union of the type with s.nullable()
..nullish
: a convenience method that returns a union of the type with s.nullish()
..array
: a convenience method that returns an ArrayValidator with the type..or
: a convenience method that returns an UnionValidator with the type. This method is also overridden in.when
: Adjust the schema based on a sibling or sinbling children fields.
A very fast and lightweight input validation and transformation library for JavaScript.
Note: Shapeshift requires Node.js v14.0.0 or higher to work.
For complete usages, please dive into our documentation
Creating a simple string validation
import { s } from '@sapphire/shapeshift';
const myStringValidation = s.string();
// Parse
myStringValidation.parse('sapphire'); // => returns 'sapphire'
myStringValidation.parse(12); // throws ValidationError
Creating an object schema
import { s } from '@sapphire/shapeshift';
const user = s.object({
username: s.string()
});
user.parse({ username: 'Sapphire' });
import { s } from '@sapphire/shapeshift';
// Primitives
s.string();
s.number();
s.bigint();
s.boolean();
s.date();
// Empty Types
s.undefined();
s.null();
s.nullish(); // Accepts undefined | null
// Catch-all Types
s.any();
s.unknown();
// Never Type
s.never();
s.literal('sapphire');
s.literal(12);
s.literal(420n);
s.literal(true);
s.literal(new Date(1639278160000)); // s.date().equal(1639278160000);
Shapeshift includes a handful of string-specific validations:
s.string().lengthLessThan(5);
s.string().lengthLessThanOrEqual(5);
s.string().lengthGreaterThan(5);
s.string().lengthGreaterThanOrEqual(5);
s.string().lengthEqual(5);
s.string().lengthNotEqual(5);
s.string().email();
s.string().url();
s.string().uuid();
s.string().regex(regex);
s.string().ip();
s.string().ipv4();
s.string().ipv6();
s.string().phone();
Shapeshift includes a handful of number-specific validations:
s.number().greaterThan(5); // > 5
s.number().greaterThanOrEqual(5); // >= 5
s.number().lessThan(5); // < 5
s.number().lessThanOrEqual(5); // <= 5
s.number().equal(5); // === 5
s.number().notEqual(5); // !== 5
s.number().equal(NaN); // special case: Number.isNaN
s.number().notEqual(NaN); // special case: !Number.isNaN
s.number().int(); // value must be an integer
s.number().safeInt(); // value must be a safe integer
s.number().finite(); // value must be finite
s.number().positive(); // .greaterThanOrEqual(0)
s.number().negative(); // .lessThan(0)
s.number().divisibleBy(5); // Divisible by 5
And transformations:
s.number().abs(); // Transforms the number to an absolute number
s.number().sign(); // Gets the number's sign
s.number().trunc(); // Transforms the number to the result of `Math.trunc`
s.number().floor(); // Transforms the number to the result of `Math.floor`
s.number().fround(); // Transforms the number to the result of `Math.fround`
s.number().round(); // Transforms the number to the result of `Math.round`
s.number().ceil(); // Transforms the number to the result of `Math.ceil`
Shapeshift includes a handful of number-specific validations:
s.bigint().greaterThan(5n); // > 5n
s.bigint().greaterThanOrEqual(5n); // >= 5n
s.bigint().lessThan(5n); // < 5n
s.bigint().lessThanOrEqual(5n); // <= 5n
s.bigint().equal(5n); // === 5n
s.bigint().notEqual(5n); // !== 5n
s.bigint().positive(); // .greaterThanOrEqual(0n)
s.bigint().negative(); // .lessThan(0n)
s.bigint().divisibleBy(5n); // Divisible by 5n
And transformations:
s.bigint().abs(); // Transforms the bigint to an absolute bigint
s.bigint().intN(5); // Clamps to a bigint to a signed bigint with 5 digits, see BigInt.asIntN
s.bigint().uintN(5); // Clamps to a bigint to an unsigned bigint with 5 digits, see BigInt.asUintN
Shapeshift includes a few boolean-specific validations:
s.boolean().true(); // value must be true
s.boolean().false(); // value must be false
s.boolean().equal(true); // s.boolean().true()
s.boolean().equal(false); // s.boolean().false()
s.boolean().notEqual(true); // s.boolean().false()
s.boolean().notEqual(false); // s.boolean().true()
const stringArray = s.array(s.string());
const stringArray = s.string().array();
Shapeshift includes a handful of array-specific validations:
s.string().array().lengthLessThan(5); // Must have less than 5 elements
s.string().array().lengthLessThanOrEqual(5); // Must have 5 or less elements
s.string().array().lengthGreaterThan(5); // Must have more than 5 elements
s.string().array().lengthGreaterThanOrEqual(5); // Must have 5 or more elements
s.string().array().lengthEqual(5); // Must have exactly 5 elements
s.string().array().lengthNotEqual(5); // Must not have exactly 5 elements
s.string().array().lengthRange(0, 4); // Must have at least 0 elements and less than 4 elements (in math, that is [0, 4))
s.string().array().lengthRangeInclusive(0, 4); // Must have at least 0 elements and at most 4 elements (in math, that is [0, 4])
s.string().array().lengthRangeExclusive(0, 4); // Must have more than 0 element and less than 4 elements (in math, that is (0, 4))
s.string().array().unique(); // All elements must be unique. Deep equality is used to check for uniqueness.
Note: All
.length
methods define tuple types with the given amount of elements. For example,s.string().array().lengthGreaterThanOrEqual(2)
's inferred type is[string, string, ...string[]]
Unlike arrays, tuples have a fixed number of elements and each element can have a different type:
const dish = s.tuple([
s.string(), // Dish's name
s.number().int(), // Table's number
s.date() // Date the dish was ready for delivery
]);
dish.parse(['Iberian ham', 10, new Date()]);
Shapeshift includes a built-in method for composing OR types:
const stringOrNumber = s.union([s.string(), s.number()]);
stringOrNumber.parse('Sapphire'); // => 'Sapphire'
stringOrNumber.parse(42); // => 42
stringOrNumber.parse({}); // => throws CombinedError
Enums are a convenience method that aliases s.union([s.literal(a), s.literal(b), ...])
:
s.enum(['Red', 'Green', 'Blue']);
// s.union([s.literal('Red'), s.literal('Green'), s.literal('Blue')]);
const map = s.map(s.string(), s.number());
// Map<string, number>
const set = s.set(s.number());
// Set<number>
You can use s.instance(Class)
to check that the input is an instance of a class. This is useful to validate inputs
against classes:
class User {
public constructor(public name: string) {}
}
const userInstanceValidation = s.instance(User);
userInstanceValidation.parse(new User('Sapphire')); // => User { name: 'Sapphire' }
userInstanceValidation.parse('oops'); // => throws ValidatorError
Record validations are similar to objects, but validate Record<string, T>
types. Keep in mind this does not check for
the keys, and cannot support validation for specific ones:
const tags = s.record(s.string());
tags.parse({ foo: 'bar', hello: 'world' }); // => { foo: 'bar', hello: 'world' }
tags.parse({ foo: 42 }); // => throws CombinedError
tags.parse('Hello'); // => throws ValidateError
const typedArray = s.typedArray();
const int16Array = s.int16Array();
const uint16Array = s.uint16Array();
const uint8ClampedArray = s.uint8ClampedArray();
const int16Array = s.int16Array();
const uint16Array = s.uint16Array();
const int32Array = s.int32Array();
const uint32Array = s.uint32Array();
const float32Array = s.float32Array();
const float64Array = s.float64Array();
const bigInt64Array = s.bigInt64Array();
const bigUint64Array = s.bigUint64Array();
Shapeshift includes a handful of validations specific to typed arrays.
s.typedArray().lengthLessThan(5); // Length must be less than 5
s.typedArray().lengthLessThanOrEqual(5); // Length must be 5 or less
s.typedArray().lengthGreaterThan(5); // Length must be more than 5
s.typedArray().lengthGreaterThanOrEqual(5); // Length must be 5 or more
s.typedArray().lengthEqual(5); // Length must be exactly 5
s.typedArray().lengthNotEqual(5); // Length must not be 5
s.typedArray().lengthRange(0, 4); // Length L must satisfy 0 <= L < 4
s.typedArray().lengthRangeInclusive(0, 4); // Length L must satisfy 0 <= L <= 4
s.typedArray().lengthRangeExclusive(0, 4); // Length L must satisfy 0 < L < 4
Note that all of these methods have analogous methods for working with the typed array's byte length,
s.typedArray().byteLengthX()
- for instance, s.typedArray().byteLengthLessThan(5)
is the same as
s.typedArray().lengthLessThan(5)
but for the array's byte length.
// Properties are required by default:
const animal = s.object({
name: s.string(),
age: s.number()
});
For object validation Shapeshift exports 2 utility types that can be used to extract interfaces from schemas and define the structure of a schema as an interface beforehand respectively.
You can use the InferType
type to extract the interface from a schema, for example:
import { InferType, s } from '@sapphire/shapeshift';
const schema = s.object({
foo: s.string(),
bar: s.number(),
baz: s.boolean(),
qux: s.bigint(),
quux: s.date()
});
type Inferredtype = InferType<typeof schema>;
// Expected type:
type Inferredtype = {
foo: string;
bar: number;
baz: boolean;
qux: bigint;
quux: Date;
};
You can use the SchemaOf
type to define the structure of a schema before defining the actual schema, for example:
import { s, SchemaOf } from '@sapphire/shapeshift';
interface IIngredient {
ingredientId: string | undefined;
name: string | undefined;
}
interface IInstruction {
instructionId: string | undefined;
message: string | undefined;
}
interface IRecipe {
recipeId: string | undefined;
title: string;
description: string;
instructions: IInstruction[];
ingredients: IIngredient[];
}
type InstructionSchemaType = SchemaOf<IInstruction>;
// Expected Type: ObjectValidator<IInstruction>
type IngredientSchemaType = SchemaOf<IIngredient>;
// Expected Type: ObjectValidator<IIngredient>
type RecipeSchemaType = SchemaOf<IRecipe>;
// Expected Type: ObjectValidator<IRecipe>
const instructionSchema: InstructionSchemaType = s.object({
instructionId: s.string().optional(),
message: s.string()
});
const ingredientSchema: IngredientSchemaType = s.object({
ingredientId: s.string().optional(),
name: s.string()
});
const recipeSchema: RecipeSchemaType = s.object({
recipeId: s.string().optional(),
title: s.string(),
description: s.string(),
instructions: s.array(instructionSchema),
ingredients: s.array(ingredientSchema)
});
.extend
:You can add additional fields using either an object or an ObjectValidator, in this case, you will get a new object validator with the merged properties:
const animal = s.object({
name: s.string().optional(),
age: s.number()
});
const pet = animal.extend({
owner: s.string().nullish()
});
const pet = animal.extend(
s.object({
owner: s.string().nullish()
})
);
If both schemas share keys, an error will be thrown. Please use
.omit
on the first object if you desire this behaviour.
.pick
/ .omit
:Inspired by TypeScript's built-in Pick
and Omit
utility types, all object schemas have the aforementioned methods
that return a modifier version:
const pkg = s.object({
name: s.string(),
description: s.string(),
dependencies: s.string().array()
});
const justTheName = pkg.pick(['name']);
// s.object({ name: s.string() });
const noDependencies = pkg.omit(['dependencies']);
// s.object({ name: s.string(), description: s.string() });
.partial
Inspired by TypeScript's built-in Partial
utility type, all object schemas have the aforementioned method that makes
all properties optional:
const user = s.object({
username: s.string(),
password: s.string()
}).partial;
Which is the same as doing:
const user = s.object({
username: s.string().optional(),
password: s.string().optional()
});
.required
Inspired by TypeScript's built-in Required
utility type, all object schemas have the aforementioned method that makes
all properties required:
const user = s.object({
username: s.string().optional(),
password: s.string().optional()
}).required;
Which is the same as doing:
const user = s.object({
username: s.string(),
password: s.string()
});
By default, Shapeshift will not include keys that are not defined by the schema during parsing:
const person = s.object({
framework: s.string()
});
person.parse({
framework: 'Sapphire',
awesome: true
});
// => { name: 'Sapphire' }
.strict
You can disallow unknown keys with .strict
. If the input includes any unknown keys, an error will be thrown.
const person = s.object({
framework: s.string()
}).strict;
person.parse({
framework: 'Sapphire',
awesome: true
});
// => throws ValidationError
.ignore
You can use the .ignore
getter to reset an object schema to the default behaviour (ignoring unrecognized keys).
.passthrough
You can use the .passthrough
getter to make the validator add the unrecognized properties the shape does not have,
from the input.
All validations in Shapeshift contain certain methods.
.run(data: unknown): Result<T, Error>
: given a validation, you can call this method to check whether or not theinput is valid. If it is, a Result
with success: true
and a deep-cloned value will be returned with the given
constraints and transformations. Otherwise, a Result
with success: false
and an error is returned.
.parse(data: unknown): T
: given a validations, you can call this method to check whether or not the input is valid.If it is, a deep-cloned value will be returned with the given constraints and transformations. Otherwise, an error is thrown.
.transform<R>((value: T) => R): NopValidator<R>
: adds a constraint that modifies the input:import { s } from '@sapphire/shapeshift';
const getLength = s.string().transform((value) => value.length);
getLength.parse('Hello There'); // => 11
:warning:
.transform
's functions must not throw. If a validation error is desired to be thrown,.reshape
instead.
.reshape<R>((value: T) => Result<R, Error> | IConstraint): NopValidator<R>
: adds a constraint able to both validateimport { s, Result } from '@sapphire/shapeshift';
const getLength = s.string().reshape((value) => Result.ok(value.length));
getLength.parse('Hello There'); // => 11
:warning:
.reshape
's functions must not throw. If a validation error is desired to be thrown, useResult.err(error)
instead.
.default(value: T | (() => T))
: transform undefined
into the given value or the callback's returned value:const name = s.string().default('Sapphire');
name.parse('Hello'); // => 'Hello'
name.parse(undefined); // => 'Sapphire'
const number = s.number().default(Math.random);
number.parse(12); // => 12
number.parse(undefined); // => 0.989911985608602
number.parse(undefined); // => 0.3224350185068794
:warning: The default values are not validated.
.optional
: a convenience method that returns a union of the type with s.undefined()
.s.string().optional(); // s.union(s.string(), s.undefined())
.nullable
: a convenience method that returns a union of the type with s.nullable()
.s.string().nullable(); // s.union(s.string(), s.nullable())
.nullish
: a convenience method that returns a union of the type with s.nullish()
.s.string().nullish(); // s.union(s.string(), s.nullish())
.array
: a convenience method that returns an ArrayValidator with the type.s.string().array(); // s.array(s.string())
.or
: a convenience method that returns an UnionValidator with the type. This method is also overridden ins.string().or(s.number());
// => s.union(s.string(), s.number())
s.object({ name: s.string() }).or(s.string(), s.number());
// => s.union(s.object({ name: s.string() }), s.string(), s.number())
.when
: Adjust the schema based on a sibling or sinbling children fields.For using when you provide an object literal where the key is
is undefined, a value, or a matcher function; then
provides the schema when is
resolves truthy, and otherwise
provides the schema when is
resolves falsey.
is
When is
is not provided (=== undefined
) it is strictly resolved as Boolean(value)
wherein value
is the current
value of the referenced sibling. Note that if multiple siblings are referenced then all the values of the array need to
resolve truthy for the is
to resolve truthy.
When is
is a primitive literal it is strictly compared (===
) to the current value.
If you want to use a different form of equality you can provide a function like: is: (value) => value === true
.
key
(first) parameterFor resolving the key
parameter to its respective value we use lodash/get. This means
that every way that Lodash supports resolving a key to its respective value is also supported by Shapeshift. This
includes:
'name'
or 1
.'name.first'
(representative of a nested object structure of
{ 'name': { 'first': 'Sapphire' } }
=> resolves to Sapphire
).'name[0]'
(representative of an array structure of
{ 'name': ['Sapphire', 'Framework'] }
=> resolves to Sapphire
).'name[1].first'
(representative of a nested object
structure of { 'name': [{ 'first': 'Sapphire' }, { 'first': 'Framework' }] }
=> resolves to Framework
).Let's start with a basic example:
const whenPredicate = s.object({
booleanLike: s.boolean(),
numberLike: s.number().when('booleanLike', {
then: (schema) => schema.greaterThanOrEqual(5),
otherwise: (schema) => schema.lessThanOrEqual(5)
})
});
whenPredicate.parse({ booleanLike: true, numberLike: 6 });
// => { booleanLike: true, numberLike: 6 }
whenPredicate.parse({ booleanLike: true, numberLike: 4 });
// => ExpectedConstraintError('s.number().greaterThanOrEqual', 'Invalid number value', 4, 'expected >= 5')
whenPredicate.parse({ booleanLike: false, numberLike: 4 });
// => { booleanLike: false, numberLike: 4 }
The provided key can also be an array of sibling children:
const whenPredicate = s.object({
booleanLike: s.boolean(),
stringLike: s.string(),
numberLike: s.number().when(['booleanLike', 'stringLike'], {
is: ([booleanLikeValue, stringLikeValue]) => booleanLikeValue === true && stringLikeValue === 'foobar',
then: (schema) => schema.greaterThanOrEqual(5),
otherwise: (schema) => schema.lessThanOrEqual(5)
})
});
whenPredicate.parse({ booleanLike: true, stringLike: 'foobar', numberLike: 6 });
// => { booleanLike: true, numberLike: 6 }
whenPredicate.parse({ booleanLike: true, stringLike: 'barfoo', numberLike: 4 });
// => ExpectedConstraintError('s.number().greaterThanOrEqual', 'Invalid number value', 4, 'expected >= 5')
whenPredicate.parse({ booleanLike: false, stringLike: 'foobar' numberLike: 4 });
// => ExpectedConstraintError('s.number().greaterThanOrEqual', 'Invalid number value', 4, 'expected >= 5')
At times, you might want to have a consistent code base with validation, but would like to keep validation to the strict
necessities instead of the in-depth constraints available in shapeshift. By calling setGlobalValidationEnabled
you can
disable validation at a global level, and by calling setValidationEnabled
you can disable validation on a
per-validator level.
When setting the validation enabled status per-validator, you can also set it to
null
to use the global setting.
import { setGlobalValidationEnabled } from '@sapphire/shapeshift';
setGlobalValidationEnabled(false);
import { s } from '@sapphire/shapeshift';
const predicate = s.string().lengthGreaterThan(5).setValidationEnabled(false);
Sapphire Community is and always will be open source, even if we don't get donations. That being said, we know there are amazing people who may still want to donate just to show their appreciation. Thank you very much in advance!
We accept donations through Open Collective, Ko-fi, Paypal, Patreon and GitHub Sponsorships. You can use the buttons below to donate through your method of choice.
Donate With | Address |
---|---|
Open Collective | Click Here |
Ko-fi | Click Here |
Patreon | Click Here |
PayPal | Click Here |
Please make sure to read the Contributing Guide before making a pull request.
Thank you to all the people who already contributed to Sapphire!
FAQs
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We found that @sapphire/shapeshift demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 3 open source maintainers collaborating on the project.
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