Library
Module
Module type
Parameter
Class
Class type
This module allows the user to describe the type signature of a tested module interface using a DSL of type combinators.
module Internal : sig ... end
Internal module to build test representations. This module is exposed for internal uses only, its API may change at any time.
Type definition to denote whether a described type can be deconstructed, i.e., tested for equality.
Type definition to denote that a described type can be composed with other combinators such as list
.
Type definition to denote that a described type cannot be composed with other combinators such as list
.
Type definition for type-describing combinators. (typ,con,styp,comb) ty
represents a type typ
and with an underlying state of type styp
. The con
type parameter indicates whether the combinator type is constructible
or deconstructible
. The comb
type parameter indicates whether the combinator type is combinable
or noncombinable
.
val gen :
'a QCheck.arbitrary ->
('a -> string) ->
('a, constructible, 's, combinable) ty
gen arb to_str
builds a constructible
and combinable
type combinator from a QCheck generator arb
and a to-string function to_str
.
val deconstructible :
('a -> string) ->
('a -> 'a -> bool) ->
('a, deconstructible, 's, combinable) ty
deconstructible to_str eq
builds a deconstructible
and combinable
type combinator from a to-string function to_str
and an equality predicate eq
.
val gen_deconstructible :
'a QCheck.arbitrary ->
('a -> string) ->
('a -> 'a -> bool) ->
('a, 'c, 's, combinable) ty
gen_deconstructible arb to_str eq
builds a combinable
type combinator from a QCheck generator arb
, a to-string function to_str
and an equality predicate eq
.
val unit : (unit, 'a, 'b, combinable) ty
The unit
combinator represents the unit
type
val bool : (bool, 'a, 'b, combinable) ty
The bool
combinator represents the bool
type
val char : (char, 'a, 'b, combinable) ty
The char
combinator represents the char
type. It uses a uniform generator based on QCheck.char
.
val char_printable : (char, 'a, 'b, combinable) ty
The char_printable
combinator represents the char
type. The generated characters have character codes 32-126 or 10 (newline) and are based on QCheck.printable_char
.
val nat_small : (int, 'a, 'b, combinable) ty
The nat_small
combinator represents the int
type. The generated integers are non-negative, less than 100, and are based on QCheck.small_nat
.
val int : (int, 'a, 'b, combinable) ty
The int
combinator represents the int
type. It uses a uniform generator based on QCheck.int
.
val int_small : (int, 'a, 'b, combinable) ty
The int_small
combinator represents the int
type. The generated integers are non-negative and are based on QCheck.small_int
.
val int_pos : (int, 'a, 'b, combinable) ty
The int_pos
combinator represents the int
type. The generated integers are non-negative and uniformly distributed. It is based on QCheck.pos_int
.
val int_bound : int -> (int, 'a, 'b, combinable) ty
The int_bound b
combinator represents the int
type. The generated integers range from 0
to b
, inclusive. It uses a uniform generator based on QCheck.int_bound
.
Note: the result of int_bound my_bound
cannot be used both as an argument type and as a result type in type signature descriptions.
val int32 : (Int32.t, 'a, 'b, combinable) ty
The int32
combinator represents the int32
type. It uses a uniform generator based on QCheck.int32
.
val int64 : (Int64.t, 'a, 'b, combinable) ty
The int64
combinator represents the int64
type. It uses a uniform generator based on QCheck.int64
.
val nat64_small : (Int64.t, 'a, 'b, combinable) ty
The nat64_small
combinator represents the int64
type. The generated integers are non-negative and are based on QCheck.small_nat
.
val float : (float, 'a, 'b, combinable) ty
The float
combinator represents the float
type. The generated floating point numbers do not include nan and infinities. It is based on QCheck.float
.
val string : (String.t, 'a, 'b, combinable) ty
The string
combinator represents the string
type. The generated strings have a size generated from QCheck.Gen.nat
and characters resulting from QCheck.char
. It is based on QCheck.string
.
val string_small : (String.t, 'a, 'b, combinable) ty
The small_string
combinator represents the string
type. The generated strings have a size generated from QCheck.Gen.small_nat
and characters resulting from QCheck.char
. It is based on QCheck.small_string
.
val string_small_printable : (String.t, 'a, 'b, combinable) ty
The small_string
combinator represents the string
type. The generated strings have a size generated from QCheck.Gen.small_nat
and characters resulting from QCheck.printable_char
. It is based on QCheck.small_printable_string
.
val option :
?ratio:float ->
('a, 'c, 's, combinable) ty ->
('a option, 'c, 's, combinable) ty
The option
combinator represents the option
type. The generated values from option t
are either Some v
or None
with v
being generated by the t
combinator. An optional ratio
allows to change the default 0.85
Some
s. It is based on QCheck.option
.
val opt :
?ratio:float ->
('a, 'b, 'c, combinable) ty ->
('a option, 'b, 'c, combinable) ty
The opt
combinator is an alias for option
.
val list : ('a, 'c, 's, combinable) ty -> ('a list, 'c, 's, combinable) ty
The list
combinator represents the list
type. The generated lists from list t
have a length resulting from QCheck.Gen.nat
and have their elements generated by the t
combinator. It is based on QCheck.list
.
val array : ('a, 'c, 's, combinable) ty -> ('a array, 'c, 's, combinable) ty
The array
combinator represents the array
type. The generated arrays from array t
have a length resulting from QCheck.Gen.nat
and have their elements generated by the t
combinator. It is based on QCheck.array
.
val seq : ('a, 'c, 's, combinable) ty -> ('a Seq.t, 'c, 's, combinable) ty
The seq
combinator represents the Stdlib.Seq.t
type. The generated sequences from seq t
have a length resulting from QCheck.Gen.nat
and have their elements generated by the t
combinator.
val t : ('a, constructible, 'a, noncombinable) ty
The t
combinator represents the type Spec.t
of the system under test.
val state : ('a, constructible, 'a, noncombinable) ty
The state
combinator represents the type Spec.t
of the system under test. It is an alias for the t
combinator.
val or_exn :
('a, deconstructible, 'b, combinable) ty ->
(('a, exn) result, deconstructible, 'c, combinable) ty
The or_exn
combinator transforms a result type representing t
into a (t, exn)
result
type.
val print_result :
('a -> string) ->
('b -> string) ->
('a, 'b) result ->
string
print_result pa pb
creates a to-string function for a (a,b)
result
type given two to-string functions for a
s and b
s, respectively.
val print : ('a, 'c, 's, 'comb) ty -> 'a -> string
Given a description of type 'a
, print a value of type 'a
.
val equal : ('a, deconstructible, 's, 'comb) ty -> 'a -> 'a -> bool
Given a description of type 'a
, compare two values of type 'a
.
module Fun : sig ... end
val returning : ('a, deconstructible, 'b, combinable) ty -> ('a, 'a, 'b) Fun.fn
returning t
represents a pure return type.
val returning_or_exc :
('a, deconstructible, 'b, combinable) ty ->
('a, ('a, exn) result, 'b) Fun.fn
returning_or_exc t
represents a return type of a function that may raise an exception.
returning_ t
represents a return type that should be ignored.
returning_or_exc_ t
represents a return type that should be ignored of a function that may raise an exception.
val (@->) :
('a, constructible, 'b, 'c) ty ->
('d, 'e, 'b) Fun.fn ->
('a -> 'd, 'e, 'b) Fun.fn
at @-> rt
represents a function type expecting an argument at
and returning rt
.
Type and constructor to capture a single function signature
type 's api = (int * 's elem) list
The type of module signatures
val_ str f sig
describes a function signature from a string str
, a function value f
, and a signature description sig
.
val_freq w str f sig
describes a function signature like val_
str f sig
but with relative weight w
rather than 1. A function of weight 2 will have twice the probability of being invoked compared to a function of weight 1.
module type Spec = sig ... end
The required description of a module signature
module MakeCmd (Spec : Spec) : Internal.CmdSpec
Functor to map a combinator-based module signature description into a raw Lin
description. This functor is exposed for internal uses only, its API may change at any time.