package tezos-test-helpers

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val qcheck_wrap : ?verbose:bool -> ?long:bool -> ?rand:Random.State.t -> QCheck2.Test.t list -> unit Alcotest.test_case list

Wrap QCheck tests into Alcotest.

val qcheck_wrap_lwt : ?verbose:bool -> ?long:bool -> ?rand:Random.State.t -> QCheck2.Test.t list -> (string * [ `Quick | `Slow ] * (unit -> unit Lwt.t)) list

Wrap QCheck tests into Alcotest_lwt.

val qcheck_make_result : ?count:int -> ?print:'a QCheck2.Print.t -> ?pp_error:(Format.formatter -> 'b -> unit) -> ?check:((bool, 'b) result -> bool) -> name:string -> gen:'a QCheck2.Gen.t -> ('a -> (bool, 'b) result) -> QCheck2.Test.t

qcheck_make_result ?print ?pp_error ?count ?check ~name ~gen f is a wrapper around QCheck2.Test.make where f returns a result type. If check is not provided and if the result of f is an error, Qcheck2.Test.fail_reportf is called and the error is shown if pp_error is provided.

val qcheck_make_lwt : ?count:int -> ?print:'a QCheck2.Print.t -> extract:(bool Lwt.t -> bool) -> name:string -> gen:'a QCheck2.Gen.t -> ('a -> bool Lwt.t) -> QCheck2.Test.t

qcheck_make_lwt ?print ?count ~extract ~name ~gen f is a wrapper around QCheck2.Test.make where f returns a bool Lwt.t. extract needs to be provided to extract the bool from Lwt, e.g. Lwt_main.run.

val qcheck_make_result_lwt : ?count:int -> ?print:'a QCheck2.Print.t -> ?pp_error:(Format.formatter -> 'b -> unit) -> ?check:((bool, 'b) result -> bool) -> extract:((bool, 'b) result Lwt.t -> (bool, 'b) result) -> name:string -> gen:'a QCheck2.Gen.t -> ('a -> (bool, 'b) result Lwt.t) -> QCheck2.Test.t

qcheck_make_result_lwt ?print ?count ~extract ~name ~gen f is the combination of qcheck_make_result and qcheck_make_lwt.

val qcheck_eq_tests : eq:('a -> 'a -> bool) -> gen:'a QCheck2.Gen.t -> eq_name:string -> QCheck2.Test.t list

qcheck_eq_tests ~eq ~gen ~eq_name returns three tests of eq: reflexivity, symmetry, and transitivity.

eq_name should be the name of the function defining eq. For example, given an equality function defined as let mytype_eq = ..., call qcheck_eq_tests mytype_eq gen "mytype_eq". eq_name is only used for logging.

val qcheck_eq : ?pp:(Format.formatter -> 'a -> unit) -> ?cmp:('a -> 'a -> int) -> ?eq:('a -> 'a -> bool) -> ?__LOC__:string -> 'a -> 'a -> bool

qcheck_eq pp cmp eq a b evaluates whether a and b are equal, and if they are not, raises a failure and prints an error message. Equality is evaluated as follows:

  • use a provided eq
  • if no eq is provided, use a provided cmp
  • if neither eq nor cmp is provided, use Stdlib.compare

If pp is provided, use this to print x and y if they are not equal.

If __LOC__ is provided, print it at the beginning of the error message when applicable.

val qcheck_neq : ?pp:(Format.formatter -> 'a -> unit) -> ?cmp:('a -> 'a -> int) -> ?eq:('a -> 'a -> bool) -> 'a -> 'a -> bool

Similar to qcheck_eq but tests that two values are not equal.

val qcheck_eq' : ?pp:(Format.formatter -> 'a -> unit) -> ?cmp:('a -> 'a -> int) -> ?eq:('a -> 'a -> bool) -> expected:'a -> actual:'a -> unit -> bool

Labeled variant of qcheck_eq. The unit argument is necessary as OCaml requires at least one positional (non-labeled) argument in case of optional arguments.

val qcheck_cond : ?pp:(Format.formatter -> 'a -> unit) -> cond:('a -> bool) -> 'a -> unit -> bool

qcheck_cond pp cond a evaluate cond a, if this condition is false, raises a failure and prints an error message.

If pp is provided, use this to print a if cond a is false.

val int64_range_gen : int64 -> int64 -> int64 QCheck2.Gen.t

int64_range_gen a b generates an int64 between a inclusive and b inclusive.

Poorman's implementation until https://github.com/c-cube/qcheck/issues/105 is done.

val int32_range_gen : int32 -> int32 -> int32 QCheck2.Gen.t

int32_range_gen a b generates an int32 between a inclusive and b inclusive.

Poorman's implementation until https://github.com/c-cube/qcheck/issues/105 is done.

val int64_strictly_positive_gen : int64 -> int64 QCheck2.Gen.t

int64_strictly_positive_gen x generates an int64 between 1 inclusive and x inclusive.

This will fail if x is not strictly positive.

val int_strictly_positive_gen : int -> int QCheck2.Gen.t

int_strictly_positive_gen x generates an int between 1 inclusive and x inclusive.

This will fail if x is not strictly positive.

val uint16 : int QCheck2.Gen.t

uint16 is a generator of unsigned int16 values

val int16 : int QCheck2.Gen.t

int16 is a generator of signed int16 values

val uint8 : int QCheck2.Gen.t

uint8 is a generator of unsigned int8 values

val int8 : int QCheck2.Gen.t

int8 is a generator of signed int8 values

val string_fixed : int -> string QCheck2.Gen.t

string_fixed n is a generator of strings of length n.

val bytes_gen : bytes QCheck2.Gen.t

bytes_gen is a QCheck2.Gen.t for bytes.

val small_bytes_gen : bytes QCheck2.Gen.t

small_bytes_gen is a QCheck2.Gen.t for bytes of small size.

val bytes_fixed_gen : int -> bytes QCheck2.Gen.t

bytes_fixed_gen n is a QCheck2.Gen.t for bytes of length n.

val endpoint_gen : Uri.t QCheck2.Gen.t

endpoint_gen is a QCheck2.Gen.t for endpoints (such as octez-client's --endpoint flag). It returns URLs of the form: (http|https)://(string\.)+(:port)?. It is by no means the most general Uri.t generator. Generalize it if needed.

val sublist : 'a list -> 'a list QCheck2.Gen.t

A generator that returns a sublist of the given list. Lists returned by this generator are not in the same order as the given list (they are shuffled). This generator can return a list equal to the input list (this generator does not guarantee to return strict sublists of the input list).

val holey : 'a list -> 'a list QCheck2.Gen.t

A generator that returns lists whose elements are from the given list, preserving the order. For example, given the input list 0, 1, 2, this generator can produce , 0, 0, 2, 1, 2, 1, etc.

val of_option_gen : 'a option QCheck2.Gen.t -> 'a QCheck2.Gen.t

of_option_gen gen converts a generator gen of optional values into a generator of values by rerunning the generator if the generated value was a None until a Some is generated.

Be careful: if None is always returned, this hangs forever!

module MakeMapGen (Map : sig ... end) : sig ... end

Map-related generators.

val test_roundtrip : count:int -> title:string -> gen:'a QCheck2.Gen.t -> eq:('a -> 'a -> bool) -> 'a Data_encoding.t -> QCheck2.Test.t

Test the roundtripness of an encoding both in JSON and binary formats.

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