package exenum
Install
Dune Dependency
Authors
Maintainers
Sources
sha256=ab25cd106937fefef265abc6e7157a1d48c5ea6663fab7d782914d9659ff4aee
md5=5367c3fe8d5a3b645c719b48889a6fce
Description
The exenum library offers constructors to build enumerations for datatypes, that is, functions from (arbitrarily large) integers to values. Such enumerations are typically used for unit testing. The library is efficient: the n-th element of an enumeration is returned without having computed the (n-1) previous elements. Complexity is in log(n), except for some pathological datatypes. See the homepage for details: http://exenum.forge.ocamlcore.org/ Inspired by Feat: Functional Enumeration of Algebraic Types, by Duregard, Jansson, Wang, Chalmers University.
As an example, consider the following datatype: type term = Var of string | App of term * term | Lambda of string * term
Using exenum, one may easily generate zillions of different lambda-terms. In our specific example, term number 2000000000000 happens to be ((((x v) (fun u -> y)) ((fun u -> y) (fun y -> y))) (((x v) (fun u -> v)) (fun u -> y)))
Published: 10 Jul 2017
README
ocaml-exenum
exenum is an OCaml library that helps building exhaustive or semi-exhaustive data sets, typically for intensive unit testing.
Inspired by testing-feat for Haskell.
Install
Install with opam: opam install exenum
API Documentation
The Exenum API. See also the examples/ dir.
The ocamlfind package names are exenum
and exenum.lwt
(the latter is installed only if lwt is present).
When using exenum.lwt, you need to compile with the following packages (in ocamlbuild's _tag notation): package(lwt,lwt.unix,exenum,exenum.lwt,lwt.ppx)
Overview
We consider a simple example.
Assume that, for testing purposes, we need many values of type int list.
open Exenum
(* Build a new enumeration of type int list. *)
let enum_intlist = e_list e_int
Because pretty-printing matters, we take the time to define string_of_intlist:
let string_of_intlist l = "[" ^ String.concat ", " (List.map string_of_int l) ^ "]"
We ask Exenum to show a few values of this enumeration:
let () = show enum_intlist string_of_intlist 0 11
Value #0 is []
Value #1 is [2]
Value #2 is [0]
Value #3 is [3]
Value #4 is [1]
Value #5 is [-2]
Value #6 is [-1]
Value #7 is [-3]
Value #8 is [4, 2]
Value #9 is [1, 2]
Value #10 is [0, -2]
We are curious. What are values at a very large index?
let index = Big_int.power_int_positive_int 10 200 (* Indeed, this is 10^200. *)
let () = bigshow enum_intlist string_of_intlist index 2
Value #0 is [-11141639911, 19603183504, -15283679472, 6656783909, 1634524031, -471077998, 112885229, -223859756, -132220646, -7807730, -47780089, 30956540, -11221453, 3859390, 2834978, 2087393, 895525, -306900, -121738, -9063, 29280, 23372, 13852, -6911, -2887, 1103, 846, -253, -68, -13, 43, 10, -4, -2]
Value #1 is [13635890183, -19174930941, -15838074444, -4484269954, -2648391618, -1149614834, 645802777, -18833984, 256671692, 42265941, -44644927, 19249984, 2972215, -5443265, 2028581, 844099, 519800, 375847, -76182, 27590, -64122, 29835, 14849, -7121, 4030, -327, -753, -498, 104, -8, 47, 0, -5, 4, -1]
Notice how these two values, which are adjacent in the enumeration, are (purposely) significantly different.
Computing values at a large index is quick (the complexity is basically logarithmic with respect to the index).
Testing a function
(* This is the function we wish to test. *)
let mysum l = List.fold_left (+) 0 l
(* This is the test we perform on mysum. *)
let test_mysum l =
let sum1 = mysum l
(* Here, we use an oracle to check if the function is right. *)
and sum2 = List.fold_right (+) l 0 in
assert (sum1 = sum2)
(* Exenum provides a 'tester', which applies test_mysum continuously. *)
let () = tester enum_intlist ~tos:string_of_intlist ~len:1000 ~verbose_period:10000 test_mysum
The ~len argument is the number of consecutive indices which are tested before doubling the current index.
A message is printed every ~verbose_period tests.
Test number 0, index #0 ... with [] ... done
Test number 10000, index #2046000 ... with [51, 8, -9, 3, 2] ... done
Test number 20000, index #2097150000 ... with [8, 0, 17, 3, 2, 2] ... done
Test number 30000, index #2147483646000 ... with [212, 107, -20, -9, 15, 0, -1] ... done
Test number 40000, index #2199023255550000 ... with [-158, 4, 30, -48, 15, 5, -7, -2] ... done
Test number 50000, index #2251799813685246000 ... with [47, 93, -244, -54, 5, 11, -13, 3, -3] ... done
Test number 60000, index #2305843009213693950000 ... with [746, -191, 499, 61, -58, 31, -21, 9, 5, 2] ... done
...
(and so on, you have to interrupt)
Contact
Didier Le Botlan, github.lebotlan@dfgh.met where you replace .met by .net.