package vocal
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README.md.html
VOCaL
VOCaL -- a Verified OCaml Library
VOCaL is a general-purpose data structure and algorithm OCaml library.
What distinguishes this library from many other is the fact that its implementation has been formally verified. The verification includes absence of run-time errors and functional correctness. The latter uses formal specifications inserted in .mli files with special comments starting with (*@
. The specification language for OCaml is still under development and a quick documentation is given below. The .mli files also contain traditional, informal documentation, similar to that of any other OCaml library.
The github repository also contains some of the source files for the proofs of correctness (eventually, it will contain all of them). Yet these proofs are not needed to compile and use the VOCaL library. Have a look in proofs/ if you are curious.
OCaml Interface Specification Language
We briefly describe the specification language using an example, taken from Vector.mli.
The abstract type t
of vectors below is identified as ephemeral
(elements can be mutated in-place) and is modeled using a polymorphic sequence, introduced using the mutable model
syntax. Properties about the data type and associated models can be captured using the invariant
keyword.
(** The polymorphic type of vectors.
This is a mutable data type. *)
type 'a t
(*@ ephemeral *)
(*@ mutable model view: 'a seq *)
(*@ invariant length view <= Sys.max_array_length *)
To provide specification for function declarations, the parameters and the returned value must be named first. Preconditions are stated in requires
clause, while postconditions are introduced after ensures
.
val create: ?capacity:int -> dummy:'a -> 'a t
(*@ a = create capacity dummy
requires let capacity = match capacity with
| None -> 0 | Some c -> c in
0 <= capacity <= Sys.max_array_length
ensures length a.view = 0 *)
Whenever type int
is mentioned, it refers to the OCaml type int
of native machine integer (e.g. 63-bit signed integers on a 64-bit platform). A type integer
for mathematical integers is also provided. Here is an example:
val make: ?dummy:'a -> int -> 'a -> 'a t
(*@ a = make ?dummy n x
requires 0 <= n <= Sys.max_array_length
ensures length a.view = n
ensures forall i: integer. 0 <= i < n -> a.view[i] = x *)
Whenever a function has side effects, this is indicated using a modifies
clause. Here is an example:
val resize: 'a t -> int -> unit
(*@ resize a n
checks 0 <= n <= Sys.max_array_length
modifies a
ensures length a.view = n
ensures forall i. 0 <= i < min (length (old a.view)) n ->
a.view[i] = (old a.view)[i] *)
This last example also features the checks
clause. This is an alternative to requires
. Contrary to the latter, a checks
clause is checked at run-time, and raises an Invalid_argument
exception when it is not satisfied.
Last, an equivalent
clause is sometimes used to describe the behavior of an OCaml function using an equivalent piece of OCaml code. Here is an example:
val iter : ('a -> unit) -> 'a t -> unit
(*@ iter f a
equivalent "for i = 0 to length a - 1 do f (get a i) done" *)
A forthcoming documentation of this specification language (work in progress) will hopefully provide more details and clarify the semantics.
Copyright
See the enclosed file LICENSE.
Bugs report
Please use the github issues to report bugs.