Suma helps with single value validations, checks and parsing.
Extensible, test covered and errors code only!
For validation Suma does not validate schema or objects, just single values. For schema validation take a look at herbjs/gotu
.
$ npm install @herbsjs/suma
const { validate } = require('@herbsjs/suma')
const value = null
const validations = { presence: true }
const result = validate(value, validations)
/* {
value: null,
errors: [{ cantBeEmpty: true }]
} */
presence
(boolean) - Validates that the specified value is not empty.
const value = ''
const validations = { presence: true }
const result = validate(value, validations)
/* {
value: '',
errors: [{ cantBeEmpty: true }]
} */
allowNull
(boolean) - Validates that the specified value is not null
or undefined
.
const value = null
const validations = { allowNull: false }
const result = validate(value, validations)
/* {
value: null,
errors: [{ cantBeNull: true }]
} */
presence: true | allowNull: false | |
---|---|---|
'Text' | Valid | Valid |
123 | Valid | Valid |
0 | Valid | Valid |
' ' | Valid | |
'' | Valid | |
[] | Valid | |
{} | Valid | |
null | ||
undefined |
contains
- The contains validator is useful for validating allowance or restriction in certain values.
It checks that the given value exists in the target given by the allowed or notAllowed option.
You can specify the validator as a list, string or as an object (in which case the keys of the object are used).
allowed option examples:
const value = 'xlarge'
const validations = { contains: { allowed: ["small", "medium", "large"] } }
const result = validate(value, validations)
/* {
value: 'xlarge',
errors: [{ notContains: ["small", "medium", "large"] }]
} */
const value = 'hello'
const validations = { contains: { allowed: "lorem ipsum dolor" } }
const result = validate(value, validations)
/* {
value: 'hello',
errors: [{ notContains: "lorem ipsum dolor" }]
} */
const attr = 'price'
const validations = { contains: { allowed: {type:"Fiat", model:"500", color:"white"} } }
const result = validate(attr, validations)
/* {
value: 'price',
errors: [{ notContains: {type:"Fiat", model:"500", color:"white"} }]
} */
notAllowed option examples:
const value = 'small'
const validations = { contains: { notAllowed: ["small", "medium", "large"] } }
const result = validate(value, validations)
/* {
value: 'small',
errors: [{ contains: ["small", "medium", "large"] }]
} */
const value = 'hello'
const validations = { contains: { notAllowed: "hello world" } }
const result = validate(value, validations)
/* {
value: 'hello',
errors: [{ contains: "hello world" }]
} */
const attr = 'type'
const validations = { contains: { notAllowed: {type:"Fiat", model:"500", color:"white"} } }
const result = validate(attr, validations)
/* {
value: 'type',
errors: [{ contains: {type:"Fiat", model:"500", color:"white"} }]
} */
using both options examples:
const value = 'regular'
const validations = { contains: { notAllowed: ["xlarge", "xxlarge", "tiny"], allowed: ["small", "medium", "large"] } }
const result = validate(value, validations)
/* {
value: 'regular',
errors: [{ notContains: ["small", "medium", "large"] }]
} */
const value = 'xlarge'
const validations = { contains: { notAllowed: ["xlarge", "xxlarge", "tiny"], allowed: ["small", "medium", "large"] } }
const result = validate(value, validations)
/* {
value: 'xlarge',
errors: [
{ notContains: ["small", "medium", "large"] },
{ contains: ["xlarge", "xxlarge", "tiny"] }
]
} */
Validates the length of the value.
It is possible to specify length constraints in different ways:
minimum
(number) - The value cannot have less than the specified length
maximum
(number) - The value cannot have more than the specified length
is
(number) - The value length must be equal to the given length
const value = 'john'
const validations = { length: { minimum: 5, maximum: 3, is: 1 } }
const result = validate(value, validations)
/* {
value: 'john',
errors: [
{ isTooShort: 5 },
{ isTooLong: 3 },
{ wrongLength: 1 }
]
} */
Validates constraints to acceptable numeric values.
It must be a valid Number
JS object. Use { type: Number }
to validate if the value is a valid JS Number
object.
equalTo
(number) - Specifies the value must be equal to the supplied value.
greaterThan
(number) - Specifies the value must be greater than the supplied value.
greaterThanOrEqualTo
(number) - Specifies the value must be greater than or equal to the supplied value.
lessThan
(number) - Specifies the value must be less than the supplied value.
lessThanOrEqualTo
(number) - Specifies the value must be less than or equal to the supplied value.
onlyInteger
(boolean) - To specify that only integral numbers are allowed.
const value = 123.4
const validations = {
numericality: {
equalTo: 123,
greaterThan: 200,
greaterThanOrEqualTo: 123,
lessThan: 0,
lessThanOrEqualTo: 123,
onlyInteger: true
}
}
const result = validate(value, validations)
/* {
value: 123.4,
errors: [
{ notEqualTo: 123 },
{ notGreaterThan: 200 },
{ notLessThan: 0 },
{ notLessThanOrEqualTo: 123 },
{ notAnInteger: true }
]
} */
Validates constraints to acceptable date and time values.
It must be a valid Date
time JS object. Use { type: Date }
to validate if the value is a valid JS Date
object.
before
(date) - A date must be before this value to be valid
after
(date) - A date must be after this value to be valid
isAt
(date) - A date must be equal to value to be valid
const value = new Date('2001-01-02')
const validations = {
datetime : {
before: new Date('2001-01-01'),
after: new Date('2001-01-03'),
isAt: new Date('2001-02-02')
}
}
const result = validate(value, validations)
/* {
value: '2001-01-02T00:00:00.000Z',
errors: [
{ tooLate: '2001-01-01T00:00:00.000Z' },
{ tooEarly: '2001-01-03T00:00:00.000Z') },
{ notAt: '2001-02-02T00:00:00.000Z') }
]
} */
The email validator attempts to make sure the input is a valid email. Validating emails is tricky business due to the complex rules of email address formatting.
For example john.doe@gmail is a perfectly valid email but it's most likely just the case that John has forgotten to write .com at the end.
const value = 'just\"not\"[email protected]'
const validations = { email: true }
const result = validate(value, validations)
/* {
value: 'just\"not\"[email protected]'
errors: [{ invalidEmail: true }]
} */
format
(regex) -The format validator will validate a value against a regular expression of your chosing.
const pattern = /^[0-9]{8}$/ // or you can use new RegExp('^[0-9]{8}$')
const value = '05547-022'
const validations = { format: pattern }
const result = validate(value, validations)
/* {
value: '05547-022',
errors: [{ invalidFormat: true }]
} */
Type validator ensures a value is of the correct JavaScript type or a custom type.
type
- A valid native JavaScript type, a custom type or a array with type
Native JavaScript types:
Number
- double-precision 64-bit binary format IEEE 754 value
String
- a UTF‐16 character sequence
Boolean
- true or false
Date
- represents a single moment in time in a platform-independent format.
Object
- the Object class represents one of JavaScript's data types.
Array
- the Array class is a object that is used in the construction of arrays.
const value = '2001'
const validations = { type: Date }
const result = validate(value, validations)
/* {
value: '2001',
errors:[{ wrongType: 'Date' }]
} */
Custom types:
class User { ... }
const value = 'Admin'
const validations = { type: User }
const result = validate(value, validations)
/* {
value: 'Admin',
errors:[{ wrongType: 'User' }]
} */
Lists - Array with types:
It is possible to validate the type of elements of an array. Just use [type]
.
const value = ['2']
const validations = { type: [Number] }
const result = validate(value, validations)
/* {
value: ['2'],
errors:[{ wrongType: ['Number'] }]
} */
The javascript identifier validator ensures that the input is a valid javascript identifier. Javascript identifiers validator rules can be found here
.
const value = "1GetTest"
const validations = { javascriptIdentifier: true }
const result = validate(value, validations)
/* {
value: '1GetTest',
errors: [{ invalidJavascriptIdentifier: true }]
} */
The URL validator ensures that the input is a valid URL. Validating URLs are pretty tricky but this validator is inspired on a gist that can be found here
.
The following options are supported:
schemes
- (array of string) A list of schemes to allow. If you want to support any scheme you can use a regexp here (for example [".+"]). The default value is ["http", "https"].
allowLocal
(boolean) - A boolean that if true allows local hostnames such as 10.0.1.1 or localhost. The default is false.
allowDataUrl
(boolean) - A boolean that if true allows data URLs as defined in RFC 2397
. The default is false
const value = "google.com"
const validations = { url: true }
const result = validate(value, validations)
/* {
value: 'google.com',
errors: [{ invalidURL: true }]
} */
const value = "http://localhost"
const validations = { url: {allowLocal: true} }
const result = validate(value, validations)
/* {
value: 'http://localhost',
errors: []
} */
const options = {schemes: ['ftp']}
const value = "ftp://google.com"
const validations = { url: options }
const result = validate(value, validations)
/* {
value: 'ftp://google.com',
errors: []
} */
Execute custom functions to specific validations cases
propName
(string) - Name of the validation rule returned on error - this is optional, see below example of usage
validation
(function: boolean) - Function that will be called with value argument this is optional, see below example of usage
const cardNumber = "123467890123456"
// Single function validation with valid value
const validations = { custom: { invalidCardNumber: (value) => value.length === 16 } }
const result = validate(cardNumber, validations);
/* {
value: '123467890123456',
errors: []
} */
//
const cardNumber = "1234"
// Single function validation with invalid value
const validations = { custom: { invalidCardNumber: (value) => value.length === 16 } }
const result = validate(cardNumber, validations);
/* {
value: '1234',
errors: [{ "invalidCardNumber": true }]
} */
//
// Multiple functions validation with invalid value
const validations = {
custom: {
invalidCardNumber: (value) => value.length === 16,
invalidDigit: (value) => value[0] !== "2",
},
}
const result = validate(cardNumber, validations)
/* {
value: '1234',
errors: [
{ "invalidCardNumber": true },
{ "invalidDigit": true },
}]
} */
//
// Multiple functions validation with parcial valid values
const cardNumber = "12345678910111213"
const validations = {
custom: {
invalidCardNumber: (value) => value.length === 16,
invalidDigit: (value) => value[0] !== "2",
},
}
const result = validate(cardNumber, validations)
/* {
value: '12345678910111213',
errors: [
{ "invalidDigit": true },
}]
} */
//
You can also extract validation for variables, if you want to make your code more reusable and customizable
// Single Validation with custom propName
const cardNumber = "1234"
const propName = "invalidCardNumber";
const validation = (value) => value.length === 16
const validations = {
custom: { [propName]: validation }, }
const result = validate(cardNumber, validations);
/* {
value: '1234',
errors: [{ "invalidCardNumber": true }]
} */
//
The type
, length
, numericality
, format
and datetime
validators won't validate a value if it's null
or undefined
.
To ensure your value is not null, use allowNull: false
or presence: true
.
Checkers functions inspect a value for a content conformity. Ex: Is a email? Is a array? Etc. More here: checkers click here.
tryParse
is a helper function that tries to parse a value to the expected type.
The parser uses a conservative approach. For the most standard javascript types, it will try to parse the value to the expected type, using the default javascript conversion. For example, if the type is a Number
and the value is '1' (String
), it will be parsed to 1 (Number
).
However, types like Date
or Object
can generate non expected results. In order to avoid this, the parser will not try to parse non trivial conversions. The idea is to avoid surprises during development.
For Date
values, for example, the parser will try to parse the value only if the string "looks like" a date. For example, if the value is 2019-01-01
(as an example, many other date formats are supported), it will be parsed to a Date
object. However, if the value is 1
, it will not be parsed.
Supported types: Number
, String
, Boolean
, Date
, Object
, Array
.
const { tryParse } = require('@herbsjs/suma')
tryParse('1', Number) // 1
tryParse('1', Date) // null
tryParse('2019-01-01', Date) // Date object
Features:
- Allow a conditional
if
functions for validaton - Be able to inject a diferent
checker
- Better checks on validator's
params
Come with us to make an awesome Suma.
Now, if you do not have technical knowledge and also have intend to help us, do not feel shy, click here to open an issue and collaborate their ideas, the contribution may be a criticism or a compliment (why not?)
If you would like to help contribute to this repository, please see CONTRIBUTING
Suma is often called Brazilian ginseng due to it’s ability to increase strength and stamina. Like all adaptogens, suma is good for reducing the ill effects of stress.
https://en.wikipedia.org/wiki/Pfaffia_glomerata
Suma is released under the MIT license.