dto-decorators
DTO type decorators and factories.
Defines types for decorating DTO classes and a mechanism for composing multiple implementations of these decorators.
What Problem Does This Project Solve?
TypeScript applications must take special care at their boundaries to ensure that runtime data matches its type definitions. For example, many applications will extract JSON from an HTTP request might and (naively) cast this data to a TypeScript type:
const input = await request.json() as MyInputType
This approach, however, offers no guarantee that the input type actually matches the type declaration; a cast merely
tells tsc
that a type should be treated in a particular way.
A common solution to this mismatch is to perform runtime validation of a Data Transfer Object (DTO), thereby ensuring that the declared type of each data item matches its actual type.
const json = await request.json();
const input = validate(MyInputType, json);
Because TypeScript types lose their type information at runtime, the DTO strategy only works if some other layer instruments DTOs with runtime metadata. A common solution in this space is to use decorators to attach type information to class.
This approach is so popular, in fact, that there are many implementations end up using multiple decorator libraries, including:
This library aims to provide an implementation-agnostic decorator API that can be used to generate appropriate decorators across multiple library implementations without introducing rendundant decorator information.
Decorator Flavors
This library defines a set of types that can be used to produce implementation-specific decorator "flavors", including
a noop
implementation (provided in this library) and several others (provided in other libraries).
-
class-decorators implements a flavor that uses
class-transformer
andclass-validator
to convert and validate DTO types. -
metadata-decorators implements a flavor that persists decorator metadata using
reflect-metadata
. -
deprecation-decorators implements a flavor that raises a system warnings when a deprecated property is set.
Decorator Composition
The real power of dto-decorators
comes from composing these decorators flavors with each other -- or with implementations
that use other third-party dependencies. Composition is as easy as:
import { composeDecoratorFactories } from '..';
const decorators = composeDecoratorFactories([
MY_DECORATORS,
SOME_OTHER_DECORATORS,
]);
const { IsInteger } = decorators;
```ts
class Example {
@IsInteger({
description: 'An example value',
})
public value!: number;
}
Available Decorators
The following decorators are supported:
Decorator | Description |
---|---|
IsBoolean |
Declares a boolean value. |
IsDate |
Declares a Date value. |
IsDateString |
Declares an ISO 8601 date string. |
IsEnum |
Declares an enumerated value. |
IsInteger |
Declares an integer number. |
IsNested |
Declares a nested object type. |
IsNumber |
Declares a floating point number. |
IsString |
Declares a string. |
IsUUID |
Declares a UUID string. |
Decorator Options
Decorators may be passed various options, depending on their type.
All options are optional expect where indicated.
Option | Decorator | Description |
---|---|---|
description |
all | Description of the field; exposed in OpenAPI. |
expose |
all | Enables alternate name to be set for the field. |
isArray |
all | Designates an array of values. |
name |
all | Alternate name of the field; exposed in OpenAPI. |
nullable |
all | Whether the field can be set to null . |
optional |
all | Whether the field be set to undefined or omitted. |
deprecated |
all | Whether the field appears as deprecated |
----------------- | -------------- | --------------------------------------------------- |
format |
IsDate |
The OpenaPI date format; defaults to date-time . |
----------------- | -------------- | --------------------------------------------------- |
format |
IsDateString |
The OpenAPI date format; defaults to date . |
----------------- | -------------- | --------------------------------------------------- |
enum (required) |
IsEnum |
The enum type. |
enumName |
IsEnum |
The enum name; required to correctly export OpenAPI |
----------------- | -------------- | --------------------------------------------------- |
maxValue |
IsInteger |
The maximum value of the field. |
minValue |
IsInteger |
The minimum value of the field. |
----------------- | -------------- | --------------------------------------------------- |
type (required) |
IsNested |
The nested type. |
----------------- | -------------- | --------------------------------------------------- |
maxValue |
IsNumber |
The maximum value of the field. |
minValue |
IsNumber |
The minimum value of the field. |
----------------- | -------------- | --------------------------------------------------- |
maxLength |
IsString |
The maximum length of the string. |
minLength |
IsString |
The minimum length of the string. |
pattern |
IsString |
A regex pattern for validating the string. |
----------------- | -------------- | --------------------------------------------------- |
version |
IsUUID |
The type of UUID. |
Array Options
Any property can be declared as an array:
class Example {
@IsString({
isArray: true,
})
values!: string[];
}
The isArray
option may be supplied as either the literal true
or as ArraySizeOptions
:
class Example {
@IsString({
isArray: {
maxSize: 30,
minSize: 0,
},
})
values!: string[];
}
Enum Options
Enumerated types work pretty much as expected:
enum Color {
Red = 'Red',
Blue = 'Blue',
Green = 'Green',
}
class Example {
@IsEnum({
enum: Color,
enumName: 'Color',
})
color!: Color;
}
The enumName
value is optional, but encouraged. Some library implementations will not be able to correctly
correlate the same enum value across multiple usages without a unifying name.
Nested Options
Decorator values that use another object type should be decorated with IsNested
:
class Child {
@IsString()
value!: string;
}
class Parent {
@IsNested({
type: Child,
})
child!: Child;
}
Every child type is expected to define at least one decorator field. Failure to do so may result in errors in some library implementations.