enum-subset-generate: Generate an ADT being a subset of another ADT, and the corresponding mappings.
Please see the README on GitHub at https://github.com/0xd34df00d/enum-subset-generate#readme
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| Versions [RSS] | 0.1.0.0, 0.1.0.1, 0.1.0.2, 0.1.0.3 |
|---|---|
| Change log | ChangeLog.md |
| Dependencies | base (>=4.7 && <5), microlens, template-haskell [details] |
| License | BSD-3-Clause |
| Copyright | 2018 Georg Rudoy |
| Author | Georg Rudoy |
| Maintainer | 0xd34df00d@gmail.com |
| Category | Data |
| Home page | https://github.com/0xd34df00d/enum-subset-generate#readme |
| Bug tracker | https://github.com/0xd34df00d/enum-subset-generate/issues |
| Source repo | head: git clone https://github.com/0xd34df00d/enum-subset-generate |
| Uploaded | by 0xd34df00d at 2024-01-22T05:56:19Z |
| Distributions | LTSHaskell:0.1.0.1, NixOS:0.1.0.1, Stackage:0.1.0.3 |
| Reverse Dependencies | 1 direct, 0 indirect [details] |
| Downloads | 1384 total (27 in the last 30 days) |
| Rating | (no votes yet) [estimated by Bayesian average] |
| Your Rating | |
| Status | Docs available [build log] Last success reported on 2024-01-22 [all 1 reports] |
Readme for enum-subset-generate-0.1.0.3
[back to package description]enum-subset-generate
Generates an ADT having a subset of constructors of some other ADT along with a pair of functions to map between the two.
Motivation
Consider implementing FFI bindings for a library. The lower level (directly mapping the C API onto Haskell) might expose an enumeration as an ADT, not all values of which might make sense for higher-level well-typed code. In this case the higher-level bindings might instead expose the generated ADT.
As an example, consider a parser library for a language like C++ or Java. A cursor pointing to a node in an AST might have a property like
enum AccessSpecifier {
AS_Invalid,
AS_Public,
AS_Protected,
AS_Private
};
AccessSpecifier getAccessSpecifier(Cursor*);
Access specifier doesn't make much sense for a node representing a for-loop,
hence the AS_Invalid member.
A low-level Haskell bindings library might translate this enum into
module Library.Bindings.FFI where
-- ...
data AccessSpecifier = Invalid
| Public
| Protected
| Private
deriving (Eq, Ord, Show)
getAccessSpecifier :: Cursor -> BindingsMonad AccessSpecifier
A more type-safe wrapper around this might introduce typed cursors and add a constraint to the function:
module Library.Bindings.Pure where
import qualified Library.Bindings.FFI as FFI
accessSpecifier :: HasAccessSpecifier t => Cursor t -> FFI.AccessSpecifier
so this accessSpecifier is guaranteed to always produce a non-Invalid
result. But since it's not explicitly stated in the types, the calling code will
not be able to know about this, so the compiler's case analyzer might still
require handling the case of Invalid.
Using this library, one might instead just do
-- Generate an AccessSpecifier in this module using FFI.AccessSpecifier
-- but without the FFI.Invalid constructor.
mkEnum ''FFI.AccessSpecifier ['FFI.Invalid]
accessSpecifier :: HasAccessSpecifier t => Cursor t -> AccessSpecifier