@adocasts.com/dto
v0.0.9
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Easily make and generate DTOs from Lucid Models
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@adocasts.com/dto
Easily make and generate DTOs from Lucid Models
Converting Lucid Models to DTO files can be a tedious task. This package aims to make it a little less so by reading your model's property definitions and porting them to a DTO. Will it be perfect? Likely not, but it should help cut back on the repetition needed to complete the task.
Installation
You can easily install and configure via the Ace CLI's add
command.
node ace add @adocasts.com/dto
Manual Install & Configure
You can also manually install and configure if you'd prefer
npm install @adocasts.com/dto
node ace configure @adocasts.com/dto
Define DTO Import Path
The generated DTOs will use #dtos/*
for relationship imports within the DTOs.
As such, we recommend defining this import path within your package.json
"imports": {
"#dtos/*": "./app/dtos/*.js"
}
Generate DTOs Command
Want to generate DTOs for all your models in one fell swoop? This is the command for you!
node ace generate:dtos
This will read all of your model files, collecting their properties and types. It'll then convert those property's types into serialization-safe types and relationships into their DTO representations.
File Tree Class
------------------------------------------------
└── app/
├── dtos/
│ ├── account.ts AccountDto
│ ├── account_group.ts AccountGroupDto
│ ├── account_type.ts AccountTypeDto
│ ├── income.ts IncomeDto
│ ├── payee.ts PayeeDto
│ └── user.ts UserDto
└── models/
├── account.ts Account
├── account_group.ts AccountGroup
├── account_type.ts AccountType
├── income.ts Income
├── payee.ts Payee
└── user.ts User
- Gets a list of your model files from the location defined within your
adonisrc.ts
file - Reads those files as plaintext, filering down to just property definitions
- Determines the property name, it's types, whether it's a relationship, and if it's optionally modified
?
- Converts those model types into serialized representations (currently a very loose conversion)
- Note, at present, this does not account for serialization behaviors defined on the model property (like
serializeAs
)
- Note, at present, this does not account for serialization behaviors defined on the model property (like
- Creates DTO property definitions from those conversions
- Prepares constructor value setters for each property
- Collects needed imports for relationships
- Generates the DTO file
- Note, if a file already exists at the DTOs determined location it will be skipped
Make DTO Command
Want to make a plain DTO file, or a single DTO from a single Model? This is the command for you!
To make a DTO named AccountDto
within a file located at dto/account.ts
, we can run the following:
node ace make:dto account
This will check to see if there is a model named Account
.
If a model is found, it will use that model's property definitions to generate the AccountDto
.
Otherwise, it'll generate just a AccountDto
file with an empty class inside it.
File Tree Class
------------------------------------------------
└── app/
├── dtos/
│ ├── account.ts AccountDto
└── models/
├── account.ts Account
What If There Isn't An Account Model?
As mentioned above, a plain AccountDto
class will be generated within a new dto/account.ts
file, which will look like the below.
export default class AccountDto {}
Specifying A Different Model
If the DTO and Model names don't match, you can specify a specific Model to use via the --model
flag.
node ace make:dto account --model=main_account
Now instead of looking for a model named Account
it'll instead
look for MainAccount
and use it to create a DTO named AccountDto
.
BaseDto Helpers
Newly added in v0.0.4, we now include either a BaseDto
or BaseModelDto
depeneding on whether we're generating your DTO from a model or not.
Both of these bases include a helper called fromArray
. With this, you can pass in an array of source objects.
We'll then loop over them and pass each into a new constructor. This does run with the assumption that you'll populate properties within your DTO constructors.
Here's a quick example
class Test extends BaseModel {
@column()
declare id: number
}
class TestDto extends BaseModelDto {
declare id: number
constructor(instance: Test) {
super()
this.id = instance.id
}
}
const tests = await Test.createMany([{ id: 1 }, { id: 2 }, { id: 3 }])
const dtoArray = TestDto.fromArray(tests)
// [TestDto, TestDto, TestDto]
Additionally, BaseModelDto
also includes a fromPaginator
helper. This allows you to pass in an instance of the ModelPaginator
to be converted into a
SimplePaginatorDto
we have defined within this package. You can also pass in a URL range start and end and we'll generate those URLs for you during the conversion.
Here's a simple example
class Test extends BaseModel {
@column()
declare id: number
}
class TestDto extends BaseModelDto {
declare id: number
constructor(instance: Test) {
super()
this.id = instance.id
}
}
const tests = await Test.createMany([{ id: 1 }, { id: 2 }, { id: 3 }])
const paginator = await Test.query().paginate(1, 2)
const paginatorDto = TestDto.fromPaginator(paginator, { start: 1, end: 2 })
/**
* {
* data: TestDto[],
* meta: SimplePaginatorDtoMetaContract
* }
*/
const paginationUrls = paginatorDto.meta.pagesInRange
/**
* [
* {
* url: '/?page=1',
* page: 1,
* isActive: true
* },
* {
* url: '/?page=2',
* page: 2,
* isActive: false
* },
* ]
*/
If, for example, you're using something like Inertia, you can then type your props accordingly
import { SimplePaginatorDtoContract } from '@adocasts.com/dto/types'
import DifficultyDto from '#dtos/difficulty'
const props = defineProps<{
paginated: SimplePaginatorDtoContract<DifficultyDto>
}>()
const rows = props.paginated.data
const info = props.paginated.meta
const urls = props.paginated.meta.pagesInRange
Things To Note
- At present we assume the Model's name from the file name of the model.
- There is NOT currently a setting to change the output directory of the DTOs
- Due to reflection limitations, we're reading Models as plaintext. I'm no TypeScript wiz, so if you know of a better approach, I'm all ears!
- Since we're reading as plaintext
- Currently we're omitting decorators and their options
- Since we're reading as plaintext
Example
So, we've use account as our example throughout this guide, so let's end by taking a look at what this Account Model looks like!
The Account Model
// app/models/account.ts
import { DateTime } from 'luxon'
import { BaseModel, belongsTo, column, computed, hasMany, hasOne } from '@adonisjs/lucid/orm'
import User from './user.js'
import type { BelongsTo, HasMany, HasOne } from '@adonisjs/lucid/types/relations'
import AccountType from '#models/account_type'
import Payee from '#models/payee'
import Stock from '#models/stock'
import Transaction from '#models/transaction'
import AccountTypeService from '#services/account_type_service'
import { columnCurrency } from '#start/orm/column'
import type { AccountGroupConfig } from '#config/account'
export default class Account extends BaseModel {
// region Columns
@column({ isPrimary: true })
declare id: number
@column()
declare userId: number
@column()
declare accountTypeId: number
@column()
declare name: string
@column()
declare note: string
@column.date()
declare dateOpened: DateTime | null
@column.date()
declare dateClosed: DateTime | null
@columnCurrency()
declare balance: number
@columnCurrency()
declare startingBalance: number
@column.dateTime({ autoCreate: true })
declare createdAt: DateTime
@column.dateTime({ autoCreate: true, autoUpdate: true })
declare updatedAt: DateTime
// endregion
// region Unmapped Properties
aggregations: Record<string, number> = {}
// endregion
// region Relationships
@belongsTo(() => User)
declare user: BelongsTo<typeof User>
@belongsTo(() => AccountType)
declare accountType: BelongsTo<typeof AccountType>
@hasOne(() => Payee)
declare payee: HasOne<typeof Payee>
@hasMany(() => Stock)
declare stocks: HasMany<typeof Stock>
@hasMany(() => Transaction)
declare transactions: HasMany<typeof Transaction>
// endregion
// region Computed Properties
@computed()
get accountGroup(): AccountGroupConfig {
return AccountTypeService.getAccountTypeGroup(this.accountTypeId)
}
@computed()
get isCreditIncrease(): boolean {
return AccountTypeService.isCreditIncreaseById(this.accountTypeId)
}
@computed()
get isBudgetable() {
return AccountTypeService.isBudgetable(this.accountTypeId)
}
@computed()
get balanceDisplay() {
return '$' + this.balance.toLocaleString('en-US')
}
// endregion
}
It's got
- Column properties
- Nullable properties
- An unmapped property, which also contains a default value
- Getters
- Relationships
Let's see what we get when we generate our DTO!
node ace make:dto account
The Account DTO
import { BaseModelDto } from '@adocasts.com/dto/base'
import Account from '#models/account'
import UserDto from '#dtos/user'
import AccountTypeDto from '#dtos/account_type'
import PayeeDto from '#dtos/payee'
import StockDto from '#dtos/stock'
import TransactionDto from '#dtos/transaction'
import { AccountGroupConfig } from '#config/account'
export default class AccountDto extends BaseModelDto {
declare id: number
declare userId: number
declare accountTypeId: number
declare name: string
declare note: string
declare dateOpened: string | null
declare dateClosed: string | null
declare balance: number
declare startingBalance: number
declare createdAt: string
declare updatedAt: string
aggregations: Record<string, number> = {}
declare user: UserDto | null
declare accountType: AccountTypeDto | null
declare payee: PayeeDto | null
declare stocks: StockDto[]
declare transactions: TransactionDto[]
declare accountGroup: AccountGroupConfig
declare isCreditIncrease: boolean
declare isBudgetable: boolean
declare balanceDisplay: string
constructor(account?: Account) {
super()
if (!account) return
this.id = account.id
this.userId = account.userId
this.accountTypeId = account.accountTypeId
this.name = account.name
this.note = account.note
this.dateOpened = account.dateOpened?.toISO()!
this.dateClosed = account.dateClosed?.toISO()!
this.balance = account.balance
this.startingBalance = account.startingBalance
this.createdAt = account.createdAt.toISO()!
this.updatedAt = account.updatedAt.toISO()!
this.aggregations = account.aggregations
this.user = account.user && new UserDto(account.user)
this.accountType = account.accountType && new AccountTypeDto(account.accountType)
this.payee = account.payee && new PayeeDto(account.payee)
this.stocks = StockDto.fromArray(account.stocks)
this.transactions = TransactionDto.fromArray(account.transactions)
this.accountGroup = account.accountGroup
this.isCreditIncrease = account.isCreditIncrease
this.isBudgetable = account.isBudgetable
this.balanceDisplay = account.balanceDisplay
}
}
It's got the
- Needed imports (it'll try to get them all by also referencing the Model's imports)
- Column properties from our Model
- Nullable property's nullability
- Unmapped property from our Model, plus it's default value
- Relationships converted into DTO representations
- Getters and their types, when specified. If types are inferred, the type will default to string or boolean if variable name starts with
is
- Constructor value setters for all of the above
- A helper method
fromArray
that'll normalize to an empty array if need be