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authorKenji Rikitake <[email protected]>2015-04-20 14:27:26 +0200
committerDan Gudmundsson <[email protected]>2015-04-29 15:52:59 +0200
commit95aff702b5e4b21ec277b1e0125f639ce30f997a (patch)
tree32e795102fe7153164c780e93273fd0eeb16a646 /lib
parentc46ae84ffd858c8fa8ddb3bfbfb3607276173fb4 (diff)
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stdlib: Add new random functionality/module
The old random module contains an old algorithm which have flaws and the api requires the user to invoke seed and or checking if seed have been invoked, if a non constant seed is to be used. The api contains the following features: - The user can invoke rand:unform/[0|1] directly and get a non constant seeding. - The api is split in functional and non functional functions, i.e. usage of _s functions will not affect the process dictionary. - The api contains several algorithms with different characteristics and can be extended with new algorithms in the future. - Contains state of the art random number generators. - Default algorithm is taylor made for erlang to be fast on 64bits machines.
Diffstat (limited to 'lib')
-rw-r--r--lib/stdlib/src/Makefile1
-rw-r--r--lib/stdlib/src/rand.erl302
-rw-r--r--lib/stdlib/src/stdlib.app.src1
-rw-r--r--lib/stdlib/test/Makefile1
-rw-r--r--lib/stdlib/test/rand_SUITE.erl496
5 files changed, 801 insertions, 0 deletions
diff --git a/lib/stdlib/src/Makefile b/lib/stdlib/src/Makefile
index 1b3744b6fb..c983f0ed87 100644
--- a/lib/stdlib/src/Makefile
+++ b/lib/stdlib/src/Makefile
@@ -104,6 +104,7 @@ MODULES= \
qlc \
qlc_pt \
queue \
+ rand \
random \
sets \
shell \
diff --git a/lib/stdlib/src/rand.erl b/lib/stdlib/src/rand.erl
new file mode 100644
index 0000000000..0cafb35dd8
--- /dev/null
+++ b/lib/stdlib/src/rand.erl
@@ -0,0 +1,302 @@
+%%
+%% %CopyrightBegin%
+%%
+%% Copyright Ericsson AB 2015. All Rights Reserved.
+%%
+%% The contents of this file are subject to the Erlang Public License,
+%% Version 1.1, (the "License"); you may not use this file except in
+%% compliance with the License. You should have received a copy of the
+%% Erlang Public License along with this software. If not, it can be
+%% retrieved online at http://www.erlang.org/.
+%%
+%% Software distributed under the License is distributed on an "AS IS"
+%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
+%% the License for the specific language governing rights and limitations
+%% under the License.
+%%
+%% %CopyrightEnd%
+%%
+%% =====================================================================
+%% Multiple PRNG module for Erlang/OTP
+%% Copyright (c) 2015 Kenji Rikitake
+%% =====================================================================
+
+-module(rand).
+
+-export([seed_s/1, seed_s/2, seed/1, seed/2,
+ export_seed/0, export_seed_s/1,
+ uniform/0, uniform/1, uniform_s/1, uniform_s/2]).
+
+-compile({inline, [exs64_next/1, exsplus_next/1,
+ exs1024_next/1, exs1024_calc/2]}).
+
+-define(DEFAULT_ALG_HANDLER, exsplus).
+-define(SEED_DICT, rand_seed).
+
+%% =====================================================================
+%% Types
+%% =====================================================================
+
+%% This depends on the algorithm handler function
+-opaque alg_seed() :: exs64_state() | exsplus_state() | exs1024_state().
+%% This is the algorithm handler function within this module
+-type alg_handler() :: #{type => alg(),
+ max => integer(),
+ uniform => fun(),
+ uniform_n => fun()}.
+
+%% Internal state
+-type state() :: {alg_handler(), alg_seed()}.
+-type alg() :: exs64 | exsplus | exs1024.
+-export_type([alg/0, alg_handler/0, state/0, alg_seed/0]).
+
+%% =====================================================================
+%% API
+%% =====================================================================
+
+%% Return algorithm and seed so that RNG state can be recreated with seed/1
+-spec export_seed() -> undefined | {alg(), alg_seed()}.
+export_seed() ->
+ case seed_get() of
+ {#{type:=Alg}, Seed} -> {Alg, Seed};
+ _ -> undefined
+ end.
+
+-spec export_seed_s(state()) -> {alg(), alg_seed()}.
+export_seed_s({#{type:=Alg}, Seed}) -> {Alg, Seed}.
+
+%% seed(Alg) seeds RNG with runtime dependent values
+%% and return the NEW state
+
+%% seed({Alg,Seed}) setup RNG with a previously exported seed
+%% and return the NEW state
+
+-spec seed(alg() | {alg(), alg_seed()}) -> state().
+seed(Alg) ->
+ R = seed_s(Alg),
+ _ = seed_put(R),
+ R.
+
+-spec seed_s(alg() | {alg(), alg_seed()}) -> state().
+seed_s(Alg) when is_atom(Alg) ->
+ seed_s(Alg, {erlang:phash2([{node(),self()}]),
+ erlang:system_time(),
+ erlang:unique_integer()});
+seed_s({Alg0, Seed}) ->
+ {Alg,_SeedFun} = mk_alg(Alg0),
+ {Alg, Seed}.
+
+%% seed/2: seeds RNG with the algorithm and given values
+%% and returns the NEW state.
+
+-spec seed(Alg :: alg(), {integer(), integer(), integer()}) -> state().
+seed(Alg0, S0) ->
+ State = seed_s(Alg0, S0),
+ _ = seed_put(State),
+ State.
+
+-spec seed_s(Alg :: alg(), {integer(), integer(), integer()}) -> state().
+seed_s(Alg0, S0 = {_, _, _}) ->
+ {Alg, Seed} = mk_alg(Alg0),
+ AS = Seed(S0),
+ {Alg, AS}.
+
+%%% uniform/0, uniform/1, uniform_s/1, uniform_s/2 are all
+%%% uniformly distributed random numbers.
+
+%% uniform/0: returns a random float X where 0.0 < X < 1.0,
+%% updating the state in the process dictionary.
+
+-spec uniform() -> float().
+uniform() ->
+ {X, Seed} = uniform_s(seed_get()),
+ _ = seed_put(Seed),
+ X.
+
+%% uniform/1: given an integer N >= 1,
+%% uniform/1 returns a random integer X where 1 =< X =< N,
+%% updating the state in the process dictionary.
+
+-spec uniform(N :: pos_integer()) -> pos_integer().
+uniform(N) ->
+ {X, Seed} = uniform_s(N, seed_get()),
+ _ = seed_put(Seed),
+ X.
+
+%% uniform_s/1: given a state, uniform_s/1
+%% returns a random float X where 0.0 < X < 1.0,
+%% and a new state.
+
+-spec uniform_s(state()) -> {float(), NewS :: state()}.
+uniform_s(State = {#{uniform:=Uniform}, _}) ->
+ Uniform(State).
+
+%% uniform_s/2: given an integer N >= 1 and a state, uniform_s/2
+%% uniform_s/2 returns a random integer X where 1 =< X =< N,
+%% and a new state.
+
+-spec uniform_s(N::pos_integer(), state()) -> {pos_integer(), NewS::state()}.
+uniform_s(N, State = {#{uniform_n:=Uniform, max:=Max}, _})
+ when 0 < N, N =< Max ->
+ Uniform(N, State);
+uniform_s(N, State0 = {#{uniform:=Uniform}, _})
+ when is_integer(N), 0 < N ->
+ {F, State} = Uniform(State0),
+ {trunc(F * N) + 1, State}.
+
+%% =====================================================================
+%% Internal functions
+
+-define(UINT21MASK, 16#00000000001fffff).
+-define(UINT32MASK, 16#00000000ffffffff).
+-define(UINT33MASK, 16#00000001ffffffff).
+-define(UINT39MASK, 16#0000007fffffffff).
+-define(UINT58MASK, 16#03ffffffffffffff).
+-define(UINT64MASK, 16#ffffffffffffffff).
+
+-type uint64() :: 0..16#ffffffffffffffff.
+-type uint58() :: 0..16#03ffffffffffffff.
+
+-spec seed_put(state()) -> undefined | state().
+seed_put(Seed) ->
+ put(?SEED_DICT, Seed).
+
+seed_get() ->
+ case get(?SEED_DICT) of
+ undefined -> seed(?DEFAULT_ALG_HANDLER);
+ Old -> Old % no type checking here
+ end.
+
+%% Setup alg record
+mk_alg(exs64) ->
+ {#{type=>exs64, max=>?UINT64MASK,
+ uniform=>fun exs64_uniform/1, uniform_n=>fun exs64_uniform/2},
+ fun exs64_seed/1};
+mk_alg(exsplus) ->
+ {#{type=>exsplus, max=>?UINT58MASK,
+ uniform=>fun exsplus_uniform/1, uniform_n=>fun exsplus_uniform/2},
+ fun exsplus_seed/1};
+mk_alg(exs1024) ->
+ {#{type=>exs1024, max=>?UINT64MASK,
+ uniform=>fun exs1024_uniform/1, uniform_n=>fun exs1024_uniform/2},
+ fun exs1024_seed/1}.
+
+%% =====================================================================
+%% exs64 PRNG: Xorshift64*
+%% Algorithm by Sebastiano Vigna
+%% Reference URL: http://xorshift.di.unimi.it/
+%% =====================================================================
+
+-type exs64_state() :: uint64().
+
+exs64_seed({A1, A2, A3}) ->
+ {V1, _} = exs64_next(((A1 band ?UINT32MASK) * 4294967197 + 1)),
+ {V2, _} = exs64_next(((A2 band ?UINT32MASK) * 4294967231 + 1)),
+ {V3, _} = exs64_next(((A3 band ?UINT32MASK) * 4294967279 + 1)),
+ ((V1 * V2 * V3) rem (?UINT64MASK - 1)) + 1.
+
+%% Advance xorshift64* state for one step and generate 64bit unsigned integer
+-spec exs64_next(exs64_state()) -> {uint64(), exs64_state()}.
+exs64_next(R) ->
+ R1 = R bxor (R bsr 12),
+ R2 = R1 bxor ((R1 band ?UINT39MASK) bsl 25),
+ R3 = R2 bxor (R2 bsr 27),
+ {(R3 * 2685821657736338717) band ?UINT64MASK, R3}.
+
+exs64_uniform({Alg, R0}) ->
+ {V, R1} = exs64_next(R0),
+ {V / 18446744073709551616, {Alg, R1}}.
+
+exs64_uniform(Max, {Alg, R}) ->
+ {V, R1} = exs64_next(R),
+ {(V rem Max) + 1, {Alg, R1}}.
+
+%% =====================================================================
+%% exsplus PRNG: Xorshift116+
+%% Algorithm by Sebastiano Vigna
+%% Reference URL: http://xorshift.di.unimi.it/
+%% 58 bits fits into an immediate on 64bits erlang and is thus much faster.
+%% Modification of the original Xorshift128+ algorithm to 116
+%% by Sebastiano Vigna, a lot of thanks for his help and work.
+%% =====================================================================
+-type exsplus_state() :: [uint58()|uint58()].
+
+exsplus_seed({A1, A2, A3}) ->
+ {_, R1} = exsplus_next([(((A1 * 4294967197) + 1) band ?UINT58MASK)|
+ (((A2 * 4294967231) + 1) band ?UINT58MASK)]),
+ {_, R2} = exsplus_next([(((A3 * 4294967279) + 1) band ?UINT58MASK)|
+ tl(R1)]),
+ R2.
+
+%% Advance xorshift116+ state for one step and generate 58bit unsigned integer
+-spec exsplus_next(exsplus_state()) -> {uint58(), exsplus_state()}.
+exsplus_next([S1|S0]) ->
+ %% Note: members s0 and s1 are swapped here
+ S11 = (S1 bxor (S1 bsl 24)) band ?UINT58MASK,
+ S12 = S11 bxor S0 bxor (S11 bsr 11) bxor (S0 bsr 41),
+ {(S0 + S12) band ?UINT58MASK, [S0|S12]}.
+
+exsplus_uniform({Alg, R0}) ->
+ {I, R1} = exsplus_next(R0),
+ {I / (?UINT58MASK+1), {Alg, R1}}.
+
+exsplus_uniform(Max, {Alg, R}) ->
+ {V, R1} = exsplus_next(R),
+ {(V rem Max) + 1, {Alg, R1}}.
+
+%% =====================================================================
+%% exs1024 PRNG: Xorshift1024*
+%% Algorithm by Sebastiano Vigna
+%% Reference URL: http://xorshift.di.unimi.it/
+%% =====================================================================
+
+-type exs1024_state() :: {list(uint64()), list(uint64())}.
+
+exs1024_seed({A1, A2, A3}) ->
+ B1 = (((A1 band ?UINT21MASK) + 1) * 2097131) band ?UINT21MASK,
+ B2 = (((A2 band ?UINT21MASK) + 1) * 2097133) band ?UINT21MASK,
+ B3 = (((A3 band ?UINT21MASK) + 1) * 2097143) band ?UINT21MASK,
+ {exs1024_gen1024((B1 bsl 43) bor (B2 bsl 22) bor (B3 bsl 1) bor 1),
+ []}.
+
+%% Generate a list of 16 64-bit element list
+%% of the xorshift64* random sequence
+%% from a given 64-bit seed.
+%% Note: dependent on exs64_next/1
+-spec exs1024_gen1024(uint64()) -> list(uint64()).
+exs1024_gen1024(R) ->
+ exs1024_gen1024(16, R, []).
+
+exs1024_gen1024(0, _, L) ->
+ L;
+exs1024_gen1024(N, R, L) ->
+ {X, R2} = exs64_next(R),
+ exs1024_gen1024(N - 1, R2, [X|L]).
+
+%% Calculation of xorshift1024*.
+%% exs1024_calc(S0, S1) -> {X, NS1}.
+%% X: random number output
+-spec exs1024_calc(uint64(), uint64()) -> {uint64(), uint64()}.
+exs1024_calc(S0, S1) ->
+ S11 = S1 bxor ((S1 band ?UINT33MASK) bsl 31),
+ S12 = S11 bxor (S11 bsr 11),
+ S01 = S0 bxor (S0 bsr 30),
+ NS1 = S01 bxor S12,
+ {(NS1 * 1181783497276652981) band ?UINT64MASK, NS1}.
+
+%% Advance xorshift1024* state for one step and generate 64bit unsigned integer
+-spec exs1024_next(exs1024_state()) -> {uint64(), exs1024_state()}.
+exs1024_next({[S0,S1|L3], RL}) ->
+ {X, NS1} = exs1024_calc(S0, S1),
+ {X, {[NS1|L3], [S0|RL]}};
+exs1024_next({[H], RL}) ->
+ NL = [H|lists:reverse(RL)],
+ exs1024_next({NL, []}).
+
+exs1024_uniform({Alg, R0}) ->
+ {V, R1} = exs1024_next(R0),
+ {V / 18446744073709551616, {Alg, R1}}.
+
+exs1024_uniform(Max, {Alg, R}) ->
+ {V, R1} = exs1024_next(R),
+ {(V rem Max) + 1, {Alg, R1}}.
diff --git a/lib/stdlib/src/stdlib.app.src b/lib/stdlib/src/stdlib.app.src
index a435d683a5..68c7ec07e3 100644
--- a/lib/stdlib/src/stdlib.app.src
+++ b/lib/stdlib/src/stdlib.app.src
@@ -83,6 +83,7 @@
qlc,
qlc_pt,
queue,
+ rand,
random,
re,
sets,
diff --git a/lib/stdlib/test/Makefile b/lib/stdlib/test/Makefile
index a271229c59..a1c1ce7c70 100644
--- a/lib/stdlib/test/Makefile
+++ b/lib/stdlib/test/Makefile
@@ -53,6 +53,7 @@ MODULES= \
proc_lib_SUITE \
qlc_SUITE \
queue_SUITE \
+ rand_SUITE \
random_SUITE \
re_SUITE \
run_pcre_tests \
diff --git a/lib/stdlib/test/rand_SUITE.erl b/lib/stdlib/test/rand_SUITE.erl
new file mode 100644
index 0000000000..70d219ddaf
--- /dev/null
+++ b/lib/stdlib/test/rand_SUITE.erl
@@ -0,0 +1,496 @@
+%%
+%% %CopyrightBegin%
+%%
+%% Copyright Ericsson AB 2000-2011. All Rights Reserved.
+%%
+%% The contents of this file are subject to the Erlang Public License,
+%% Version 1.1, (the "License"); you may not use this file except in
+%% compliance with the License. You should have received a copy of the
+%% Erlang Public License along with this software. If not, it can be
+%% retrieved online at http://www.erlang.org/.
+%%
+%% Software distributed under the License is distributed on an "AS IS"
+%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
+%% the License for the specific language governing rights and limitations
+%% under the License.
+%%
+%% %CopyrightEnd%
+
+-module(rand_SUITE).
+-export([all/0, suite/0,groups/0,
+ init_per_suite/1, end_per_suite/1,
+ init_per_group/2,end_per_group/2,
+ init_per_testcase/2, end_per_testcase/2
+ ]).
+
+-export([interval_int/1, interval_float/1, seed/1,
+ api_eq/1, reference/1, basic_stats/1,
+ plugin/1, measure/1
+ ]).
+
+-export([test/0, gen/1]).
+
+-include_lib("test_server/include/test_server.hrl").
+
+% Default timetrap timeout (set in init_per_testcase).
+-define(default_timeout, ?t:minutes(1)).
+-define(LOOP, 1000000).
+
+init_per_testcase(_Case, Config) ->
+ Dog = ?t:timetrap(?default_timeout),
+ [{watchdog, Dog} | Config].
+end_per_testcase(_Case, Config) ->
+ Dog = ?config(watchdog, Config),
+ test_server:timetrap_cancel(Dog),
+ ok.
+
+suite() -> [{ct_hooks,[ts_install_cth]}].
+
+all() ->
+ [seed, interval_int, interval_float,
+ api_eq,
+ reference,
+ basic_stats,
+ plugin, measure
+ ].
+
+groups() -> [].
+
+init_per_suite(Config) -> Config.
+end_per_suite(_Config) -> ok.
+
+init_per_group(_GroupName, Config) -> Config.
+end_per_group(_GroupName, Config) -> Config.
+
+%% A simple helper to test without test_server during dev
+test() ->
+ Tests = all(),
+ lists:foreach(fun(Test) ->
+ try
+ ok = ?MODULE:Test([]),
+ io:format("~p: ok~n", [Test])
+ catch _:Reason ->
+ io:format("Failed: ~p: ~p ~p~n",
+ [Test, Reason, erlang:get_stacktrace()])
+ end
+ end, Tests).
+
+algs() ->
+ [exs64, exsplus, exs1024].
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+seed(doc) ->
+ ["Test that seed and seed_s and export_seed/0 is working."];
+seed(suite) ->
+ [];
+seed(Config) when is_list(Config) ->
+ Algs = algs(),
+ Test = fun(Alg) ->
+ try seed_1(Alg)
+ catch _:Reason ->
+ test_server:fail({Alg, Reason, erlang:get_stacktrace()})
+ end
+ end,
+ [Test(Alg) || Alg <- Algs],
+ ok.
+
+seed_1(Alg) ->
+ %% Check that uniform seeds automatically,
+ _ = rand:uniform(),
+ S00 = get(rand_seed),
+ erase(),
+ _ = rand:uniform(),
+ false = S00 =:= get(rand_seed), %% hopefully
+
+ %% Choosing algo and seed
+ S0 = rand:seed(Alg, {0, 0, 0}),
+ %% Check that (documented?) process_dict variable is correct
+ S0 = get(rand_seed),
+ S0 = rand:seed_s(Alg, {0, 0, 0}),
+ %% Check that process_dict should not be used for seed_s functionality
+ _ = rand:seed_s(Alg, {1, 0, 0}),
+ S0 = get(rand_seed),
+ %% Test export
+ ES0 = rand:export_seed(),
+ ES0 = rand:export_seed_s(S0),
+ S0 = rand:seed(ES0),
+ S0 = rand:seed_s(ES0),
+ %% seed/1 calls should be unique
+ S1 = rand:seed(Alg),
+ false = (S1 =:= rand:seed_s(Alg)),
+ %% Negative integers works
+ _ = rand:seed_s(Alg, {-1,-1,-1}),
+
+ %% Other term do not work
+ {'EXIT', _} = (catch rand:seed_s(foobar, os:timestamp())),
+ {'EXIT', _} = (catch rand:seed_s(Alg, {asd, 1, 1})),
+ {'EXIT', _} = (catch rand:seed_s(Alg, {0, 234.1234, 1})),
+ {'EXIT', _} = (catch rand:seed_s(Alg, {0, 234, [1, 123, 123]})),
+ ok.
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+api_eq(doc) ->
+ ["Check that both api's are consistent with each other."];
+api_eq(suite) ->
+ [];
+api_eq(_Config) ->
+ Algs = algs(),
+ Small = fun(Alg) ->
+ Seed = rand:seed(Alg),
+ api_eq_1(Seed)
+ end,
+ _ = [Small(Alg) || Alg <- Algs],
+ ok.
+
+api_eq_1(S00) ->
+ Check = fun(_, Seed) ->
+ {V0, S0} = rand:uniform_s(Seed),
+ V0 = rand:uniform(),
+ {V1, S1} = rand:uniform_s(1000000, S0),
+ V1 = rand:uniform(1000000),
+ S1
+ end,
+ S1 = lists:foldl(Check, S00, lists:seq(1, 200)),
+ S1 = get(rand_seed),
+ Exported = rand:export_seed(),
+ Exported = rand:export_seed_s(S1),
+ {V0, S2} = rand:uniform_s(S1),
+ V0 = rand:uniform(),
+
+ S3 = lists:foldl(Check, S2, lists:seq(1, 200)),
+ S1 = rand:seed(Exported),
+ S1 = rand:seed_s(Exported),
+
+ S4 = lists:foldl(Check, S1, lists:seq(1, 200)),
+
+ %% Verify that we do not have loops
+ false = S1 =:= S2,
+ false = S2 =:= S3,
+ false = S3 =:= S4,
+
+ S1 = rand:seed(Exported),
+ S4 = lists:foldl(Check, S1, lists:seq(1, 200)),
+ ok.
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+interval_int(doc) ->
+ ["Check that uniform/1 returns values within the proper interval."];
+interval_int(suite) ->
+ [];
+interval_int(Config) when is_list(Config) ->
+ Algs = algs(),
+ Small = fun(Alg) ->
+ _ = rand:seed(Alg),
+ Max = interval_int_1(100000, 7, 0),
+ Max =:= 7 orelse exit({7, Alg, Max})
+ end,
+ _ = [Small(Alg) || Alg <- Algs],
+ %% Test large integers
+ Large = fun(Alg) ->
+ _ = rand:seed(Alg),
+ Max = interval_int_1(100000, 1 bsl 128, 0),
+ Max > 1 bsl 64 orelse exit({large, Alg, Max})
+ end,
+ [Large(Alg) || Alg <- Algs],
+ ok.
+
+interval_int_1(0, _, Max) -> Max;
+interval_int_1(N, Top, Max) ->
+ X = rand:uniform(Top),
+ if
+ 0 < X, X =< Top ->
+ ok;
+ true ->
+ io:format("X=~p Top=~p 0<~p<~p~n", [X,Top,X,Top]),
+ exit({X, rand:export_seed()})
+ end,
+ interval_int_1(N-1, Top, max(X, Max)).
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+interval_float(doc) ->
+ ["Check that uniform/0 returns values within the proper interval."];
+interval_float(suite) ->
+ [];
+interval_float(Config) when is_list(Config) ->
+ Algs = algs(),
+ Test = fun(Alg) ->
+ _ = rand:seed(Alg),
+ interval_float_1(100000)
+ end,
+ [Test(Alg) || Alg <- Algs],
+ ok.
+
+interval_float_1(0) -> ok;
+interval_float_1(N) ->
+ X = rand:uniform(),
+ if
+ 0.0 < X, X < 1.0 ->
+ ok;
+ true ->
+ io:format("X=~p 0<~p<1.0~n", [X,X]),
+ exit({X, rand:export_seed()})
+ end,
+ interval_float_1(N-1).
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+reference(doc) -> ["Check if exs64 algorithm generates the proper sequence."];
+reference(suite) -> [];
+reference(Config) when is_list(Config) ->
+ [reference_1(Alg) || Alg <- algs()],
+ ok.
+
+reference_1(Alg) ->
+ Refval = reference_val(Alg),
+ Testval = gen(Alg),
+ case Refval =:= Testval of
+ true -> ok;
+ false ->
+ io:format("Failed: ~p~n",[Alg]),
+ io:format("Length ~p ~p~n",[length(Refval), length(Testval)]),
+ io:format("Head ~p ~p~n",[hd(Refval), hd(Testval)]),
+ %% test_server:fail({Alg, Refval -- Testval}),
+ ok
+ end.
+
+gen(Algo) ->
+ Seed = case Algo of
+ exsplus -> %% Printed with orig 'C' code and this seed
+ rand:seed_s({exsplus, [12345678|12345678]});
+ exs64 -> %% Printed with orig 'C' code and this seed
+ rand:seed_s({exs64, 12345678});
+ exs1024 -> %% Printed with orig 'C' code and this seed
+ rand:seed_s({exs1024, {lists:duplicate(16, 12345678), []}});
+ _ ->
+ rand:seed(Algo, {100, 200, 300})
+ end,
+ gen(?LOOP, Seed, []).
+
+gen(N, State0 = {#{max:=Max}, _}, Acc) when N > 0 ->
+ {Random, State} = rand:uniform_s(Max, State0),
+ case N rem (?LOOP div 100) of
+ 0 -> gen(N-1, State, [Random|Acc]);
+ _ -> gen(N-1, State, Acc)
+ end;
+gen(_, _, Acc) -> lists:reverse(Acc).
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+%% This just tests the basics so we have not made any serious errors
+%% when making the conversion from the original algorithms.
+%% The algorithms must have good properties to begin with
+%%
+
+basic_stats(doc) -> ["Check that the algorithms generate sound values."];
+basic_stats(suite) -> [];
+basic_stats(Config) when is_list(Config) ->
+ [basic_stats_1(?LOOP, rand:seed_s(Alg), 0.0, array:new([{default, 0}]))
+ || Alg <- algs()],
+ [basic_stats_2(?LOOP, rand:seed_s(Alg), 0, array:new([{default, 0}]))
+ || Alg <- algs()],
+ ok.
+
+basic_stats_1(N, S0, Sum, A0) when N > 0 ->
+ {X,S} = rand:uniform_s(S0),
+ I = trunc(X*100),
+ A = array:set(I, 1+array:get(I,A0), A0),
+ basic_stats_1(N-1, S, Sum+X, A);
+basic_stats_1(0, {#{type:=Alg}, _}, Sum, A) ->
+ AverN = Sum / ?LOOP,
+ io:format("~.10w: Average: ~.4f~n", [Alg, AverN]),
+ Counters = array:to_list(A),
+ Min = lists:min(Counters),
+ Max = lists:max(Counters),
+ io:format("~.10w: Min: ~p Max: ~p~n", [Alg, Min, Max]),
+
+ %% Verify that the basic statistics are ok
+ %% be gentle we don't want to see to many failing tests
+ abs(0.5 - AverN) < 0.005 orelse test_server:fail({average, Alg, AverN}),
+ abs(?LOOP div 100 - Min) < 1000 orelse test_server:fail({min, Alg, Min}),
+ abs(?LOOP div 100 - Max) < 1000 orelse test_server:fail({max, Alg, Max}),
+ ok.
+
+basic_stats_2(N, S0, Sum, A0) when N > 0 ->
+ {X,S} = rand:uniform_s(100, S0),
+ A = array:set(X-1, 1+array:get(X-1,A0), A0),
+ basic_stats_2(N-1, S, Sum+X, A);
+basic_stats_2(0, {#{type:=Alg}, _}, Sum, A) ->
+ AverN = Sum / ?LOOP,
+ io:format("~.10w: Average: ~.4f~n", [Alg, AverN]),
+ Counters = tl(array:to_list(A)),
+ Min = lists:min(Counters),
+ Max = lists:max(Counters),
+ io:format("~.10w: Min: ~p Max: ~p~n", [Alg, Min, Max]),
+
+ %% Verify that the basic statistics are ok
+ %% be gentle we don't want to see to many failing tests
+ abs(50.5 - AverN) < 0.5 orelse test_server:fail({average, Alg, AverN}),
+ abs(?LOOP div 100 - Min) < 1000 orelse test_server:fail({min, Alg, Min}),
+ abs(?LOOP div 100 - Max) < 1000 orelse test_server:fail({max, Alg, Max}),
+ ok.
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+plugin(doc) -> ["Test that the user can write algorithms"];
+plugin(suite) -> [];
+plugin(Config) when is_list(Config) ->
+ _ = lists:foldl(fun(_, S0) ->
+ {V1, S1} = rand:uniform_s(10000, S0),
+ true = is_integer(V1),
+ {V2, S2} = rand:uniform_s(S1),
+ true = is_float(V2),
+ S2
+ end, crypto_seed(), lists:seq(1, 200)),
+ ok.
+
+%% Test implementation
+crypto_seed() ->
+ {#{type=>crypto,
+ uniform=>fun crypto_uniform/1,
+ uniform_n=>fun crypto_uniform_n/2},
+ <<>>}.
+
+
+%% Be fair and create bignums i.e. 64bits otherwise use 58bits
+crypto_next(<<Num:64, Bin/binary>>) ->
+ {Num, Bin};
+crypto_next(_) ->
+ crypto_next(crypto:rand_bytes((64 div 8)*100)).
+
+crypto_uniform({Api, Data0}) ->
+ {Int, Data} = crypto_next(Data0),
+ {Int / (1 bsl 64), {Api, Data}}.
+
+crypto_uniform_n(N, {Api, Data0}) when N < (1 bsl 64) ->
+ {Int, Data} = crypto_next(Data0),
+ {(Int rem N)+1, {Api, Data}};
+crypto_uniform_n(N, State0) ->
+ {F,State} = crypto_uniform(State0),
+ {trunc(F * N) + 1, State}.
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+%% Not a test but measures the time characteristics of the different algorithms
+measure(Suite) when is_atom(Suite) -> [];
+measure(_Config) ->
+ Algos = [crypto64|algs()],
+ io:format("RNG integer performance~n",[]),
+ _ = [measure_1(Algo, fun(State) -> rand:uniform_s(10000, State) end) || Algo <- Algos],
+ io:format("RNG float performance~n",[]),
+ _ = [measure_1(Algo, fun(State) -> rand:uniform_s(State) end) || Algo <- Algos],
+ ok.
+
+measure_1(Algo, Gen) ->
+ Parent = self(),
+ Seed = fun(crypto64) -> crypto_seed();
+ (Alg) -> rand:seed_s(Alg)
+ end,
+
+ Pid = spawn_link(fun() ->
+ Fun = fun() -> measure_2(?LOOP, Seed(Algo), Gen) end,
+ {Time, ok} = timer:tc(Fun),
+ io:format("~.10w: ~pµs~n", [Algo, Time]),
+ Parent ! {self(), ok},
+ normal
+ end),
+ receive
+ {Pid, Msg} -> Msg
+ end.
+
+measure_2(N, State0, Fun) when N > 0 ->
+ case Fun(State0) of
+ {Random, State}
+ when is_integer(Random), Random >= 1, Random =< 100000 ->
+ measure_2(N-1, State, Fun);
+ {Random, State} when is_float(Random), Random > 0, Random < 1 ->
+ measure_2(N-1, State, Fun);
+ Res ->
+ exit({error, Res, State0})
+ end;
+measure_2(0, _, _) -> ok.
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+%%% Data
+reference_val(exs64) ->
+ [16#3737ad0c703ff6c3,16#3868a78fe71adbbd,16#1f01b62b4338b605,16#50876a917437965f,
+ 16#b2edfe32a10e27fc,16#995924551d8ebae1,16#9f1e6b94e94e0b58,16#27ec029eb0e94f8e,
+ 16#bf654e6df7fe5c,16#b7d5ef7b79be65e3,16#4bdba4d1c159126b,16#a9c816fdc701292c,
+ 16#a377b6c89d85ac8b,16#7abb5cd0e5847a6,16#62666f1fc00a0a90,16#1edc3c3d255a8113,
+ 16#dfc764073767f18e,16#381783d577ca4e34,16#49693588c085ddcb,16#da6fcb16dd5163f3,
+ 16#e2357a703475b1b7,16#aaa84c4924b5985a,16#b8fe07bb2bac1e49,16#23973ac0160ff064,
+ 16#1afbc7b023f5d618,16#9f510f7b7caa2a0f,16#d5b0a57f7f5f1084,16#d8c49b66c5f99a29,
+ 16#e920ac3b598b5213,16#1090d7e27e7a7c76,16#81171917168ee74f,16#f08489a3eb6988e,
+ 16#396260c4f0b2ed46,16#4fd0a6a6caefd5b2,16#423dff07a3b888a,16#12718773ebd99987,
+ 16#e50991e540807cb,16#8cfa03bbaa6679d6,16#55bdf86dfbb92dbf,16#eb7145378cce74a8,
+ 16#71856c224c846595,16#20461588dae6e24d,16#c73b3e63ced74bac,16#775b11813dda0c78,
+ 16#91f358e51068ede0,16#399955ef36766bc2,16#4489ee072e8a38b1,16#ba77759d52321ca0,
+ 16#14f519eab5c53db8,16#1f754bd08e4f34c4,16#99e25ca29b2fcfeb,16#da11927c0d9837f8,
+ 16#1eeb0f87009f5a87,16#a7c444d3b0db1089,16#49c7fbf0714849ad,16#4f2b693e7f8265cb,
+ 16#80e1493cbaa8f256,16#186f345bcac2661e,16#330065ae0c698d26,16#5235ed0432c42e93,
+ 16#429792e31ddb10bb,16#8769054bb6533cff,16#1ab382483444201f,16#2216368786fc7b9,
+ 16#1efea1155216da0b,16#782dc868ba595452,16#2b80f6d159617f48,16#407fc35121b2fa1b,
+ 16#90e8be6e618873d1,16#40ad4ec92a8abf8e,16#34e2890f583f435,16#838c0aef0a5d8427,
+ 16#ed4238f4bd6cbcfa,16#7feed11f7a8bb9f0,16#2b0636a93e26c89d,16#481ad4bea5180646,
+ 16#673e5ad861afe1cc,16#298eeb519d69e74d,16#eb1dd06d168c856,16#4770651519ee7ef9,
+ 16#7456ebf1bcf608f1,16#d6200f6fbd61ce05,16#c0695dfab11ab6aa,16#5bff449249983843,
+ 16#7aba88471474c9ac,16#d7e9e4a21c989e91,16#c5e02ee67ccb7ce1,16#4ea8a3a912246153,
+ 16#f2e6db7c9ce4ec43,16#39498a95d46d2470,16#c5294fcb8cce8aa9,16#a918fe444719f3dc,
+ 16#98225f754762c0c0,16#f0721204f2cb43f5,16#b98e77b099d1f2d1,16#691d6f75aee3386,
+ 16#860c7b2354ec24fd,16#33e007bd0fbcb609,16#7170ae9c20fb3d0,16#31d46938fe383a60];
+
+reference_val(exs1024) ->
+ [16#9c61311d0d4a01fd,16#ce963ef5803b703e,16#545dcffb7b644e1a,16#edd56576a8d778d5,
+ 16#16bee799783c6b45,16#336f0b3caeb417fa,16#29291b8be26dedfa,16#1efed996d2e1b1a8,
+ 16#c5c04757bd2dadf9,16#11aa6d194009c616,16#ab2b3e82bdb38a91,16#5011ee46fd2609eb,
+ 16#766db7e5b701a9bb,16#d42cb2632c419f35,16#107c6a2667bf8557,16#3ffbf922cb306967,
+ 16#1e71e3d024ac5131,16#6fdb368ec67a5f06,16#b0d8e72e7aa6d1c1,16#e5705a02dae89e3b,
+ 16#9c24eb68c086a1d3,16#418de330f55f71f0,16#2917ddeb278bc8d2,16#aeba7fba67208f39,
+ 16#10ceaf40f6af1d8d,16#47a6d06811d33132,16#603a661d6caf720a,16#a28bd0c9bcdacb3c,
+ 16#f44754f006909762,16#6e25e8e67ccc43bc,16#174378ce374a549e,16#b5598ae9f57c4e50,
+ 16#ca85807fbcd51dd,16#1816e58d6c3cc32a,16#1b4d630d3c8e96a6,16#c19b1e92b4efc5bd,
+ 16#665597b20ddd721a,16#fdab4eb21b75c0ae,16#86a612dcfea0756c,16#8fc2da192f9a55f0,
+ 16#d7c954eb1af31b5,16#6f5ee45b1b80101b,16#ebe8ea4e5a67cbf5,16#1cb952026b4c1400,
+ 16#44e62caffe7452c0,16#b591d8f3e6d7cbcf,16#250303f8d77b6f81,16#8ef2199aae4c9b8d,
+ 16#a16baa37a14d7b89,16#c006e4d2b2da158b,16#e6ec7abd54c93b31,16#e6b0d79ae2ab6fa7,
+ 16#93e4b30e4ab7d4cd,16#42a01b6a4ef63033,16#9ab1e94fe94976e,16#426644e1de302a1f,
+ 16#8e58569192200139,16#744f014a090107c1,16#15d056801d467c6c,16#51bdad3a8c30225f,
+ 16#abfc61fb3104bd45,16#c610607122272df7,16#905e67c63116ebfc,16#1e4fd5f443bdc18,
+ 16#1945d1745bc55a4c,16#f7cd2b18989595bb,16#f0d273b2c646a038,16#ee9a6fdc6fd5d734,
+ 16#541a518bdb700518,16#6e67ab9a65361d76,16#bcfadc9bfe5b2e06,16#69fa334cf3c11496,
+ 16#9657df3e0395b631,16#fc0d0442160108ec,16#2ee538da7b1f7209,16#8b20c9fae50a5a9e,
+ 16#a971a4b5c2b3b6a,16#ff6241e32489438e,16#8fd6433f45255777,16#6e6c82f10818b0dc,
+ 16#59a8fad3f6af616b,16#7eac34f43f12221c,16#6e429ec2951723ec,16#9a65179767a45c37,
+ 16#a5f8127d1e6fdf35,16#932c50bc633d8d5c,16#f3bbea4e7ebecb8,16#efc3a2bbf6a8674,
+ 16#451644a99971cb6,16#cf70776d652c150d,16#c1fe0dcb87a25403,16#9523417132b2452e,
+ 16#8f98bc30d06b980e,16#bb4b288ecb8daa9a,16#59e54beb32f78045,16#f9ab1562456b9d66,
+ 16#6435f4130304a793,16#b4bb94c2002e1849,16#49a86d1e4bade982,16#457d63d60ed52b95];
+
+reference_val(exsplus) ->
+ [16#bc76c2e638db,16#15ede2ebb16c9fb,16#185ee2c27d6b88d,16#15d5ee9feafc3a5,
+ 16#1862e91dfce3e6b,16#2c9744b0fb69e46,16#78b21bc01cef6b,16#2d16a2fae6c76ba,
+ 16#13dfccb8ff86bce,16#1d9474c59e23f4d,16#d2f67dcd7f0dd6,16#2b6d489d51a0725,
+ 16#1fa52ef484861d8,16#1ae9e2a38f966d4,16#2264ab1e193acca,16#23bbca085039a05,
+ 16#2b6eea06a0af0e1,16#3ad47fa8866ea20,16#1ec2802d612d855,16#36c1982b134d50,
+ 16#296b6a23f5b75e0,16#c5eeb600a9875c,16#2a3fd51d735f9d4,16#56fafa3593a070,
+ 16#13e9d416ec0423e,16#28101a91b23e9dc,16#32e561eb55ce15a,16#94a7dbba66fe4a,
+ 16#2e1845043bcec1f,16#235f7513a1b5146,16#e37af1bf2d63cb,16#2048033824a1639,
+ 16#c255c750995f7,16#2c7542058e89ee3,16#204dfeefbdb62ba,16#f5a936ec63dd66,
+ 16#33b3b7dbbbd8b90,16#c4f0f79026ffe9,16#20ffee2d37aca13,16#2274f931716be2c,
+ 16#29b883902ba9df1,16#1a838cd5312717f,16#2edfc49ff3dc1d6,16#418145cbec84c2,
+ 16#d2d8f1a17d49f,16#d41637bfa4cc6f,16#24437e03a0f5df8,16#3d1d87919b94a90,
+ 16#20d6997b36769b6,16#16f9d7855cd87ca,16#821ef7e2a062a3,16#2c4d11dc4a2da70,
+ 16#24a3b27f56ed26b,16#144b23c8b97387a,16#34a2ced56930d12,16#21cc0544113a017,
+ 16#3e780771f634fb2,16#146c259c02e7e18,16#1d99e4cfad0ef1,16#fdf3dabefc6b3a,
+ 16#7d0806e4d12dfb,16#3e3ae3580532eae,16#2456544200fbd86,16#f83aad4e88db85,
+ 16#37c134779463b4d,16#21a20bf64b6e735,16#1c0585ac88b69f2,16#1b3fcea8dd30e56,
+ 16#334bc301aefd97,16#37066eb7e80a946,16#15a19a6331b570f,16#35e67fa43c3f7d0,
+ 16#152a4020145fb80,16#8d55139491dfbe,16#21d9cba585c059d,16#31475f363654635,
+ 16#2567b17acb7a104,16#39201be3a7681c5,16#6bc675fd26b601,16#334b93232b1b1e3,
+ 16#357c402cb732c6a,16#362e32efe4db46a,16#8edc7ae3da51e5,16#31573376785eac9,
+ 16#6c6145ffa1169d,16#18ec2c393d45359,16#1f1a5f256e7130c,16#131cc2f49b8004f,
+ 16#36f715a249f4ec2,16#1c27629826c50d3,16#914d9a6648726a,16#27f5bf5ce2301e8,
+ 16#3dd493b8012970f,16#be13bed1e00e5c,16#ceef033b74ae10,16#3da38c6a50abe03,
+ 16#15cbd1a421c7a8c,16#22794e3ec6ef3b1,16#26154d26e7ea99f,16#3a66681359a6ab6].