package validate
Install
Dune Dependency
Authors
Maintainers
Sources
sha256=830d3b1ac8cdacfca2877030dd0377e46115527e7963359537daa5897e563da4
sha512=3d681eff0948af42b0b9a7bcab789d00d45066c4efdc2a426925e15c16ad8568afd0024e98afe9320d41619813464aaf9a448712d7722955385f2cd3379c6cf5
Description
Validate is an OCaml library that focuses on data validation using PPX derivers and a range of annotations for different data types. It allows developers to apply annotations for various validation rules, such as string length, numeric values, and format constraints like URLs and UUIDs. This functionality makes it suitable for a wide array of applications in OCaml development where data integrity is crucial.
README
Validate
Overview
validate
is an OCaml library designed to streamline the process of validating records, lists, or values. It primarily operates through a PPX deriver that automatically generates validators using annotations, utilizing an underlying library of helper validation functions.
Prerequisites
OCaml version 5.0 or higher.
Installation
Installing validate
To install the validate
library, use OPAM with the following command:
opam install validate
After installation, you need to add validate
as a library in your project's dune file and specify validate.ppx_derive_validate
as a preprocessor. Here is an example of how to set up the dune file:
(library
(name something)
(preprocess (pps validate.ppx_derive_validate))
(libraries validate))
Annotations and Usage
The validate
library in OCaml allows for precise validation of data through a variety of annotations. For each type, the library generates a function named validate_[type_name]
which can be used to perform the validation.
Example Usage
Validating record
type test_record = {
min : string; [@min_length 2]
max : string; [@max_length 5]
numeric_list : (int [@less_than 10]) list; [@min_length 2]
...
}
[@@deriving validate, show, eq]
let example_record = { min = "ab"; max = "hello"; numeric_list = [1, 2, 3] }
let validation_result = validate_test_record example_record
In this example:
min
is a string field validated for a minimum length of 2.max
is validated for a maximum length of 5.numeric_list
is an integer list, validated for a minimum length of 2, and each element is validated to be less than 10.
Validating simple types
type list_type = ((string[@min_length 1]) list[@min_length 2]) [@@deriving validate]
let example_list = ["a"; "bc"]
let validation_result = validate_list_type example_list
In this example, validate_list_type function will validate that each string in the list has a minimum length of 1 and that the list itself has a minimum length of 2.
Validating tuples
type tuple_type = (string[@email]) * (int[@greater_than 1]) [@@deriving validate]
let example_tuple = ("example@email.com", 2)
let validation_result = validate_tuple_type example_tuple
Here, the validate_tuple_type function ensures the first element of the tuple is a valid email address and the second element is an integer greater than 1.
Validating tuples
Variants in OCaml can also be validated using validate
. Here's an example of how to use annotations with variants:
type tuple_variant =
| EmailToId of (string[@email]) * (int[@greater_than_or_equal 0])
| Email of (string[@email])
| Profile of {
username : string [@min_length 3];
email : string [@email];
}
[@@deriving validate]
(* Example usage *)
let email_to_id_variant = EmailToId ("example@email.com", 0)
let validation_result = validate_tuple_variant email_to_id_variant
In this example:
EmailToId
is a variant that takes a tuple. The first element is validated as an email, and the second as an integer greater than or equal to 0.Email
is a single-element variant validated as an email.Profile
is a record variant withusername
validated for a minimum length of 3, andemail
validated as a valid email address.
Validating Recursive Types
validate
also supports recursive types, allowing for the validation of nested, self-referential data structures. Here is an example demonstrating the validation of a recursive type representing a binary tree:
type tree =
| Leaf of (int[@greater_than 0])
| Node of { left : tree; [@dive] right : (tree[@dive]) }
[@@deriving validate, show, eq]
(* Example usage *)
let my_tree = Node { left = Leaf 1; right = Leaf 2 }
let validation_result = validate_tree my_tree
In this example:
Leaf
is a variant that takes an integer, validated to be greater than 0.Node
is a variant representing a binary tree node withleft
andright
branches, both of which are recursively validated astree
instances.
Validating Circular Recursive Types
validate
also handles circular recursive types, which are useful for defining structures where two types refer to each other recursively. This feature is particularly useful for complex data models. Here's an example:
type a = {
a_id : int; [@greater_than 0]
b : (b[@dive]) option
}
[@@deriving validate, show, eq]
and b = {
b_id : int; [@greater_than 0]
a : (a[@dive]) option
}
[@@deriving validate, show, eq]
(* Example usage *)
let rec a_instance = { a_id = 1; b = Some { b_id = 2; a = Some a_instance } }
let validation_result_a = validate_a a_instance
let rec b_instance = { b_id = 1; a = Some { a_id = 2; b = Some b_instance } }
let validation_result_b = validate_b b_instance
In this example:
Type
a
has an integer fielda_id
validated to be greater than 0, and an optional fieldb
of typeb
.Type
b
similarly has ab_id
field and an optional fielda
of typea
.Both types use the
[@dive]
annotation to indicate recursive validation within their optional fields.
Categorized Annotations
String/List Annotations
@min_length
: Validates minimum length of a string/list.@max_length
: Validates maximum length of a string/list.@length_equals
: Validates length of a string/list.
String Annotations
@url
: Checks if a string is a valid URL.@uuid
: Validates a string as a UUID.@numeric
: Ensures a string contains only numeric characters.@alpha
: Checks for alphabetic characters in a string.@alphanumeric
: Requires a string to be alphanumeric.@lowercase
: Validates a string to be in lowercase.@uppercase
: Ensures a string is in uppercase.@lowercase_alphanumeric
: Validates a lowercase alphanumeric string.@uppercase_alphanumeric
: Validates an uppercase alphanumeric string.@email
: Checks if a string is a valid email.@regex
: Checks if string matches given regex. Note: Under the hood it uses ocaml-re which does not support back-references and look-ahead/look-behind assertions.@ulid
: Ensures a string is a valid Universally Unique Lexicographically Sortable Identifier (ULID).@ipv4
: Validates that a string is a valid IPv4 address.@ipv6
: Ensures a string is a valid IPv6 address.@phone
: Validates that a string conforms to the E.164 international phone number format.@mac_address
: Ensures a string is a valid MAC address.
Integer/Float Annotations
@less_than
: Validates an integer/float to be less than a specified value.@less_than_or_equal
: Validates an integer/float to be less than or equal to a specified value.@greater_than
: Validates an integer/float to be greater than a specified value.@greater_than_or_equal
: Validates an integer/float to be greater than or equal to a specified value.@equal_to
: Validates an integer/float to be equal to a specified value.@not_equal_to
: Validates an integer/float to not be equal to a specified value.
Annotations for Other Types
@dive
: Used for nested record validation, allowing validation of each element within a composite structure like records or lists.
Option Type Annotations
@some
: Ensures that an option type is Some, indicating a value is present.@none
: Ensures that an option type is None, indicating no value is present.
Advanced Annotations
@custom
: This annotation allows you to define custom validation logic. You provide a function that takes one argument and returns a result, which is eitherOk ()
for successful validation orError validation_error
for a validation failure.
let custom_validator str =
if String.length str > 1 then Ok ()
else Error (Validate.BaseError { code = "custom_validator"; params = [] })
type custom_validator_record = {
custom_validator : string; [@custom custom_validator]
custom_inline_validator : int;
[@custom
fun i ->
if i > 1 then Ok ()
else
Error
(Validate.BaseError { code = "custom_validator"; params = [] })]
}
[@@deriving validate]
@ignore_if
: This annotation accepts a function that takes the type itself as an argument and returns a boolean. If the function returns true, other validators for the field are ignored.
type cond_record = {
unit : string;
temperature : int; [@greater_than_or_equal 0] [@ignore_if fun r -> r.unit <> "K"]
}
[@@deriving validate]
@some_if
and@none_if
: These annotations are applicable only to option types.@some_if
requires the option to beSome
if the provided function returns true, and@none_if
requires it to beNone
under the specified condition.
type username_or_email = {
username : string option; [@some_if fun r -> r.email = None]
email : string option; [@none_if fun r -> Option.is_some r.username]
}
[@@deriving validate]
Error Handling
In validate, the validation function returns a result type, which includes an Ok value equal to the input parameter, or an error parameter. The error types are defined as follows:
base_validation_error
: Represents a basic validation error with a code and a list of parameters.
type base_validation_error = {
code : string;
params : (string * string) list
}
keyed_validation_errors
: Represents errors associated with specific keys e.g. for records key equal to field name and for tuples key is position in tuple.
type keyed_validation_errors = string * validation_error list
index_validation_error
: Represents errors indexed by an integer, typically for list validations.
type index_validation_error = int * validation_error list
validation_error
: The main error type which can be one of the following:BaseError
: Basic validation error.KeyedError
: Errors associated with specific keys.IterableError
: Errors in iterable structures like lists.GroupError
: A group of nested validation errors.
type validation_error =
| BaseError of base_validation_error
| KeyedError of keyed_validation_errors list
| IterableError of index_validation_error list
| GroupError of validation_error list
Contributing
Contributions to validate are warmly welcomed and appreciated. Whether it's opening issues for bug reports, suggesting new features, or submitting pull requests, all forms of contribution help in making validate better.
Dependencies (5)
- uri
- re
- ppx_deriving
-
dune
>= "3.12"
-
ocaml
>= "5.0.0"
Dev Dependencies (3)
-
odoc
with-doc
-
bisect_ppx
with-test
-
alcotest
with-test
Used by
None
Conflicts
None