hm-def
v1.0.2
Published
Runtime type checking with Hindley Milner signatures
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Hindley Milner Definitions
The hm-def
package allows you to enforce runtime type checking for JavaScript
functions using Haskell-alike Hindley
Milner type signatures.
The hm-def
is build on top of
sanctuary-def
and basically just a syntax sugar for it.
Install
$ yarn add hm-def
# or
$ npm install hm-def
Usage
First, you need to create a function definition function.
import $ from 'sanctuary-def';
import {create} from 'hm-def';
const def = create ({
$,
checkTypes: true,
env: $.env,
typeClasses: [],
});
Then instead of this:
function sum(a, b) {
return a + b;
}
you can write:
const sum = def
('sum :: Number -> Number -> Number')
(a => b => a + b);
And the calls to sum
will be type checked:
sum (42) (13);
// 55
sum ('42') (13);
// TypeError: Invalid value
//
// foo :: Number -> Number -> Number
// ^^^^^^
// 1
//
// 1) "42" :: String
//
// The value at position 1 is not a member of ‘Number’.
Arrays
To denote an array you enclose type of its elements in square brackets:
const magnitude = def
('magnitude :: [Number] -> Number')
(xs => Math.sqrt (xs.reduce ((acc, x) => acc + x * x, 0)));
magnitude ([3, 4, 0]);
// 5
magnitude (3, 4, 0);
// TypeError: Function applied to too many arguments
//
// magnitude :: Array Number -> Number
//
// ‘magnitude’ expected at most one argument but received three arguments.
Actually it’s just a shortcut to a more general:
const magnitude = def
('magnitude :: Array Number -> Number')
(xs => Math.sqrt (xs.reduce ((acc, x) => acc + x * x, 0)));
Where Array
is a regular unary type provided by the default environment.
It takes a single type argument which describes the type of array’s elements.
Records
To denote objects with a known schema record syntax is used:
const minMax = def
('minMax :: [Number] -> { min :: Number, max :: Number }')
(xs => xs.reduce (
(acc, x) => ({
min: Math.min (x, acc.min),
max: Math.max (x, acc.max),
}),
{ min: Infinity, max: -Infinity }
));
minMax ([1, 4, 6, 3, 4, 5, -3, 4]);
// { min: -3, max: 6 }
Maps
To describe a map of homogenous data you can use StrMap
type:
const occurrences = def
('occurrences :: [String] -> StrMap Number')
(xs => xs.reduce (
(acc, x) => {
// a bit of dirty local mutation
acc[x] = (acc[x] || 0) + 1;
return acc;
},
{}
));
occurrences (['foo', 'bar', 'bar', 'baz', 'bar', 'qux', 'foo']);
// {
// foo: 2,
// bar: 3,
// baz: 1,
// qux: 1,
// }
Types available
You pass type definitions with env
option of HMD.create
. $.env
from
sanctuary-def
provides type info for all built-in types:
- AnyFunction
- Arguments
- Array
- Boolean
- Date
- Error
- HtmlElement
- Null
- Number
- Object
- RegExp
- StrMap
- String
- Symbol
- Undefined
You would likely to add your own application domain types. See documentation of type constructors to learn how.
Type constraints
For most generic functions you’d like to add type constraints. Consider the function:
const concat = def
('concat :: a -> a -> a')
(y => x => x.concat (y));
concat ([3, 4]) ([1, 2]);
// [1, 2, 3, 4]
concat (' world') ('Hello')
// 'Hello world'
concat (42) (13)
// TypeError: x.concat is not a function
The call to the function crashed on invalid argument types post factum. We can
place a type constraint on a
to fail in advance with a more clear message.
Type constraints are done with type classes. There are many type classes provided by sanctuary-type-classes and you can create your own.
To use HM definitions with type class constaints you should provide typeClasses
option with classes you’d like to use later:
import $ from 'sanctuary-def';
import Z from 'sanctuary-type-classes';
import {create} from 'hm-def';
const def = create ({
$,
checkTypes: true,
env: $.env,
typeClasses: [
// ...
Z.Functor,
Z.Semigroup,
// ...
],
});
Then:
const concat = def
('concat :: Semigroup a => a -> a -> a')
(y => x => x.concat (y));
concat ([3, 4]) ([1, 2]);
// [1, 2, 3, 4]
concat (' world') ('Hello')
// 'Hello world'
concat (42) (13)
// TypeError: Type-class constraint violation
//
// foo :: Semigroup a => a -> a -> a
// ^^^^^^^^^^^ ^
// 1
//
// 1) 42 :: Number
//
// ‘foo’ requires ‘a’ to satisfy the Semigroup type-class constraint; the value
// at position 1 does not.
Type constructors
Added in v0.3.0
If you need UnaryType or BinaryType of something you should add them into env
with $.Unknown
types in it. Then hm-def
will recreate specific types when you
will define your functions.
Assuming we have an implementation of Either a b
exposed as Either
.
const EitherType = $.BinaryType
('my-package/Either')
('http://example.com/my-package#Either')
(x => x != null && x['@@type'] === 'my-package/Either')
(either => (either.isLeft ? [either.value] : []))
(either => (either.isRight ? [either.value] : []));
// EitherType is a function `EitherType :: Type -> Type -> Type`,
const def = HMD.create ({
$,
checkTypes: true,
env: $.env.concat ([
EitherType ($.Unknown) ($.Unknown),
]),
});
// Now we can just define functions as usual:
const foo = def
('foo :: Either Number String -> Either String String')
((x) => x.chain ((val) => {
if (val >= 3) return Either.Right ('It greater than or equal 3');
return Either.Left ('It less than 3');
}));
foo (Either.Right (4)); // Either.Right('It greater than or equal 3')
foo (Either.Right (1)); // Either.Left('It less than 3')
foo (Either.Right ('hello')); // TypeError: The value at position 1 is not a member of ‘Number’
foo (1); // TypeError: The value at position 1 is not a member of ‘Either Number String’
Currying
Beginning with 1.0.0
, functions are not automatically curried, and they are
expected to be manually curried at all times:
import $ from 'sanctuary-def';
import {create} from 'hm-def';
const def = create ({
$,
checkTypes: true,
env: $.env,
typeClasses: [],
});
const foo = def
('foo :: a -> b -> c')
(x => y => x + y);
foo (1) (2);
// 3
foo (1, 2);
// TypeError: ‘foo’ applied to the wrong number of arguments
//
// foo :: a -> b -> c
// ^
// 1
//
// Expected one argument but received two arguments:
//
// - 1
// - 2
const bar = def
('bar :: a -> b -> c')
((x, y) => x + y);
bar (1, 2);
// TypeError: ‘bar’ applied to the wrong number of arguments
//
// bar :: a -> b -> c
// ^
// 1
//
// Expected one argument but received two arguments:
//
// - 1
// - 2
This is consistent with sanctuary
's way of currying, known as
"familiar currying".
Changelog
1.0.0
- Update
sanctuary-*
, building, and testing dependencies. - Breaking :exclamation: functions are no longer curried automatically. See the currying section.
0.3.0
Update
sanctuary-def
dependency to version 0.14.0BREAKING :exclamation: All Unary/Binary Types with variable types inside should be specified in
env
with$.Unknown
types. Then, when you define functions,hm-def
will recreate specific types for these functions. (See more)[#type-constructors]Since version 0.10.0 of
sanctuary-def
environments must be of typeArray Type
. So it must not contain type constructors anymore. (sanctuary-js/sanctuary-def#124)
0.2.1
- Update
ramda
dependency to version 0.24.1
0.2.0
- Add
def.curried
- Fix errors when using some non-nullary types like built-in
Array
orStrMap
Contributors
Alphabetically:
License
MIT