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NAME
====
Kind::Subset::Parametric - Support for generic subsets
SYNOPSIS
========
```perl6
use Kind::Subset::Parametric;
# Arrays don't type their elements by default:
my @untyped = 1, 2, 3;
say @untyped.^name; # OUTPUT: Array
# You can make it so they do by parameterizing Array:
my Int:D @typed = 1, 2, 3;
say @typed.^name; # OUTPUT: Array[Int:D]
# But you can't typecheck untyped arrays using these parameterizations:
say @typed ~~ Array[Int:D]; # OUTPUT: True
say @untyped ~~ Array[Int:D]; # OUTPUT: False
# So let's make our own array type that handles this using a parametric subset:
subset TypedArray of Array will parameterize -> Mu ::T { Array:_ \array {
array ~~ Array[T] || (array ~~ Array:D && so array.all ~~ T)
} } where { ... };
# Now they can both be typechecked:
given TypedArray[Int:D] -> \IntArray {
say @typed ~~ IntArray; # OUTPUT: True
say @untyped ~~ IntArray; # OUTPUT: True
say ~~ IntArray; # OUTPUT: False
}
```
DESCRIPTION
===========
Kind::Subset::Parametric is a library that enhances subsets with support for parameterization. This allows you to easily implement your own generic subsets.
Note: while you can make generic subsets using this library, subsets cannot be parameterized with generics yet. Parameterizations using type captures, such as this, may not work as expected:
```perl6
subset TypeIdentity will parameterize -> Mu ::T { T };
proto sub is-type-id(Mu --> Bool:D) {*}
multi sub is-type-id(Mu ::T $ where TypeIdentity[T] --> True) { }
multi sub is-type-id(Mu --> False) { }
```
Kind::Subset::Parametric is documented. You can refer to the documentation for its trait and `MetamodelX::ParametricSubset` at any time using `WHY`.
TRAITS
======
will parameterize
-----------------
```perl6
multi sub trait_mod:(Mu \T where Subset, &body_block, :$parameterize!)
```
This trait mixes the `MetamodelX::ParametricSubset` metarole into the metaobject of the type this trait is used with (which may only be a subset of some sort) after parameterizing it with `&body_block`. This makes it possible to use the subset as a parametric type.
The main metamethod of interest this metarole provides is `parameterize`, which handles creating a new subset type upon parameterization given an arbitrary list of parameters. This is created using a name (generated similarly to how the name of a parametric role is generated), the refinee of the parametric subset, and the return value of the body block when invoked with the list of parameters as its refinement.
`MetamodelX::ParametricSubset` also provides a `body_block` metamethod, which returns the body block it was parameterized with given a subset type.
What all this means that the `TypedArray[Int:D]` parameterization from the synopsis generates a subset functionally equivalent to the one this type declaration creates:
```perl6
subset :: of Array where {
$_ ~~ Array[Int:D] || ($_ ~~ Array:D && so $_.all ~~ Int:D)
};
```
Parametric subsets can still be given a refinement (the value given to `where` in a subset declaration) when this trait is used. This gets used to handle typechecking against the subset when it has not been parameterized. If it's not desirable for a parametric subset to be possible to use without being parameterized, one way you can prevent this from happening is to give it a stubbed refinement:
```perl6
subset Identity will parameterize -> Mu \T {
T
} where { ... };
```
Refer to `t/02-will.t` for more examples of how to use this trait.
AUTHOR
======
Ben Davies (Kaiepi)
COPYRIGHT AND LICENSE
=====================
Copyright 2019 Ben Davies
This library is free software; you can redistribute it and/or modify it under the Artistic License 2.0.