package ppx_hash
Install
Dune Dependency
Authors
Maintainers
Sources
sha256=16e9447252e0bd3e5463b6dcc7acd9b74f3faf142566f557220ab507777b9c74
md5=b78aee19bb4469731f9626b04fe7f341
Description
Part of the Jane Street's PPX rewriters collection.
Published: 31 May 2020
README
ppx_hash
A ppx writer that generates hash functions from type expressions and definitions.
Syntax
Type definitions: [@@deriving hash]
Expressions: [%hash_fold: TYPE]
and [%hash: TYPE]
Types, record fields: [@hash.ignore]
Basic usage
type t = {
s : string;
x : (int * bool) list;
}
[@@deriving hash]
This will generate a function hash_fold_t : Hash.state -> t -> Hash.state
.
Where Hash
is Ppx_hash_lib.Std.Hash
.
The generated function follows the structure of the type; allowing user overrides at every level. This is in contrast to ocaml's builtin polymorphic hashing Hashtbl.hash
which ignores user overrides.
Also generated is a direct hash-function hash : t -> Hash.hash_value
. This function will be named hash_<T>
when
The direct hash function is the one suitable for Hashable.Make
.
Signature
In a module signature, type t [@@deriving hash]
will add both hash_fold_t
and hash
(or hash_<T>
) to the signature.
Hashing without a type definition
A folding hash function is accessed/created as [%hash_fold: TYPE]
. A direct hash function is accessed/created as [%hash: TYPE]
.
Ignoring part of types
Types can be annotated with [@hash.ignore]
so that they are not incorporated into the computed hash value.
type second_only = (string [@hash.ignore]) * int [@@deriving hash]
Mutable records fields must have such an annotation.
type t = {
mutable s : string [@hash.ignore];
x : (int * bool) list;
}
[@@deriving hash]
Special support for ppx_compare
The annotation [@compare.ignore]
(and [@ignore]
) implies [@hash.ignore]
, in order to preserve the invariant that compare x y = 0
implies hash x = hash y
.
Adapting code to ppx_hash
So long as all types in
module T = struct
type t = <TYPE-EXP> [@@deriving compare, sexp]
let hash = Hashtbl.hash
end
include T
include Hashable.Make (T)
Can this be written as:
module T = struct
type t = <TYPE-EXP> [@@deriving compare, hash, sexp]
end
include T
include Hashable.Make (T)
More information
ppx/ppx_hash/doc/design.notes
ppx/ppx_hash/runtime-lib/make_std.ml
Dependencies (6)
-
ppxlib
>= "0.11.0"
-
dune
>= "2.0.0"
-
ppx_sexp_conv
>= "v0.14" & < "v0.15"
-
ppx_compare
>= "v0.14" & < "v0.15"
-
base
>= "v0.14" & < "v0.15"
-
ocaml
>= "4.04.2"
Dev Dependencies
None
Used by (15)
- boomerang
- colibri2
-
commons
>= "1.8.0"
-
coq-lsp
>= "0.2.0+8.17" & < "0.2.0+8.19"
-
coq-serapi
>= "8.15.0+0.15.3"
- core-and-more
-
core_kernel
>= "v0.14.0" & < "v0.15.0"
-
data-encoding
>= "0.6"
- farith
-
nsq
>= "0.5.0" & < "0.5.2"
- opine
- ppx_bap
-
ppx_base
= "v0.14.0"
- pyre-ast
-
string_dict
= "v0.14.0"
Conflicts
None