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%%
%% %CopyrightBegin%
%% 
%% Copyright Ericsson AB 2004-2011. 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%
%%

%% This module tests the ordsets, sets, and gb_sets modules.
%%

-module(sets_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,
	 create/1,add_element/1,del_element/1,
	 subtract/1,intersection/1,union/1,is_subset/1,
	 is_set/1,fold/1,filter/1,
	 take_smallest/1,take_largest/1]).

-include_lib("test_server/include/test_server.hrl").

-import(lists, [foldl/3,reverse/1]).

init_per_testcase(_Case, Config) ->
    ?line Dog = ?t:timetrap(?t:minutes(5)),
    [{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() -> 
    [create, add_element, del_element, subtract,
     intersection, union, is_subset, is_set, fold, filter,
     take_smallest, take_largest].

groups() -> 
    [].

init_per_suite(Config) ->
    Config.

end_per_suite(_Config) ->
    ok.

init_per_group(_GroupName, Config) ->
    Config.

end_per_group(_GroupName, Config) ->
    Config.


create(Config) when is_list(Config) ->
    test_all(fun create_1/1).

create_1(M) ->
    ?line S0 = M:empty(),
    ?line [] = M:to_list(S0),
    ?line 0 = M:size(S0),
    ?line true = M:is_empty(S0),
    E = make_ref(),
    ?line One = M:singleton(E),
    ?line 1 = M:size(One),
    ?line false = M:is_empty(One),
    [E] = M:to_list(One),
    S0.

add_element(Config) when is_list(Config) ->
    test_all([{0,132},{253,258},{510,514}], fun add_element_1/2).

add_element_1(List, M) ->
    ?line S = M:from_list(List),
    ?line SortedSet = lists:usort(List),
    ?line SortedSet = lists:sort(M:to_list(S)),

    %% Make sure that we get the same result by inserting
    %% elements one at the time.
    ?line S2 = foldl(fun(El, Set) -> M:add_element(El, Set) end,
		     M:empty(), List),
    ?line true = M:equal(S, S2),

    %% Insert elements, randomly delete inserted elements,
    %% and re-inserted all deleted elements at the end.
    ?line S3 = add_element_del(List, M, M:empty(), [], []),
    ?line true = M:equal(S2, S3),
    ?line true = M:equal(S, S3),
    S.

add_element_del([H|T], M, S, Del, []) ->
    add_element_del(T, M, M:add_element(H, S), Del, [H]);
add_element_del([H|T], M, S0, Del, Inserted) ->
    S1 = M:add_element(H, S0),
    case random:uniform(3) of
	1 ->
	    OldEl = lists:nth(random:uniform(length(Inserted)), Inserted),
	    S = M:del_element(OldEl, S1),
	    add_element_del(T, M, S, [OldEl|Del], [H|Inserted]);
	_ ->
	    add_element_del(T, M, S1, Del, [H|Inserted])
    end;
add_element_del([], M, S, Del, _) ->
    M:union(S, M:from_list(Del)).

del_element(Config) when is_list(Config) ->
    test_all([{0,132},{253,258},{510,514},{1022,1026}], fun del_element_1/2).

del_element_1(List, M) ->    
    ?line S0 = M:from_list(List),
    ?line Empty = foldl(fun(El, Set) -> M:del_element(El, Set) end, S0, List),
    ?line Empty = M:empty(),
    ?line M:is_empty(Empty),
    ?line S1 = foldl(fun(El, Set) ->
			     M:add_element(El, Set)
		     end, S0, reverse(List)),
    ?line true = M:equal(S0, S1),
    S1.

subtract(Config) when is_list(Config) ->
    test_all(fun subtract_empty/1),

    %% Note: No empty set.
    test_all([{2,69},{126,130},{253,258},511,512,{1023,1030}], fun subtract_1/2).

subtract_empty(M) ->
    ?line Empty = M:empty(),
    ?line true = M:is_empty(M:subtract(Empty, Empty)),
    M:subtract(Empty, Empty).

subtract_1(List, M) ->
    ?line S0 = M:from_list(List),
    ?line Empty = M:empty(),

    %% Trivial cases.
    ?line true = M:is_empty(M:subtract(Empty, S0)),
    ?line true = M:equal(S0, M:subtract(S0, Empty)),

    %% Not so trivial.
    ?line subtract_check(List, mutate_some(remove_some(List, 0.4)), M),
    ?line subtract_check(List, rnd_list(length(List) div 2 + 5), M),
    ?line subtract_check(List, rnd_list(length(List) div 7 + 9), M),
    ?line subtract_check(List, mutate_some(List), M).

subtract_check(A, B, M) ->
    one_subtract_check(B, A, M),
    one_subtract_check(A, B, M).

one_subtract_check(A, B, M) ->
    ASorted = lists:usort(A),
    BSorted = lists:usort(B),
    ASet = M:from_list(A),
    BSet = M:from_list(B),
    DiffSet = M:subtract(ASet, BSet),
    Diff = ASorted -- BSorted,
    true = M:equal(DiffSet, M:from_list(Diff)),
    Diff = lists:sort(M:to_list(DiffSet)),
    DiffSet.

intersection(Config) when is_list(Config) ->
    %% Note: No empty set.
    test_all([{1,65},{126,130},{253,259},{499,513},{1023,1025}], fun intersection_1/2).

intersection_1(List, M) ->
    ?line S0 = M:from_list(List),

    %% Intersection with self.
    ?line true = M:equal(S0, M:intersection(S0, S0)),
    ?line true = M:equal(S0, M:intersection([S0,S0])),
    ?line true = M:equal(S0, M:intersection([S0,S0,S0])),
    ?line true = M:equal(S0, M:intersection([S0])),

    %% Intersection with empty.
    ?line Empty = M:empty(),
    ?line true = M:equal(Empty, M:intersection(S0, Empty)),
    ?line true = M:equal(Empty, M:intersection([S0,Empty,S0,Empty])),

    %% The intersection of no sets is undefined.
    ?line {'EXIT',_} = (catch M:intersection([])),

    %% Disjoint sets.
    ?line Disjoint = [{El} || El <- List],
    ?line DisjointSet = M:from_list(Disjoint),
    ?line M:is_empty(M:intersection(S0, DisjointSet)),

    %% Disjoint, different sizes.
    ?line M:is_empty(M:intersection(S0, M:from_list(remove_some(Disjoint, 0.3)))),
    ?line M:is_empty(M:intersection(S0, M:from_list(remove_some(Disjoint, 0.7)))),
    ?line M:is_empty(M:intersection(S0, M:from_list(remove_some(Disjoint, 0.9)))),
    ?line M:is_empty(M:intersection(M:from_list(remove_some(List, 0.3)), DisjointSet)),
    ?line M:is_empty(M:intersection(M:from_list(remove_some(List, 0.5)), DisjointSet)),
    ?line M:is_empty(M:intersection(M:from_list(remove_some(List, 0.9)), DisjointSet)),

    %% Partial overlap (one or more elements in result set).
    %% The sets have almost the same size. (Almost because a duplicated
    %% element in the original list could be mutated and not mutated
    %% at the same time.)
    ?line PartialOverlap = mutate_some(List, []),
    ?line IntersectionSet = check_intersection(List, PartialOverlap, M),
    ?line false = M:is_empty(IntersectionSet),

    %% Partial overlap, different set sizes. (Intersection possibly empty.)
    ?line check_intersection(List, remove_some(PartialOverlap, 0.1), M),
    ?line check_intersection(List, remove_some(PartialOverlap, 0.3), M),
    ?line check_intersection(List, remove_some(PartialOverlap, 0.5), M),
    ?line check_intersection(List, remove_some(PartialOverlap, 0.7), M),
    ?line check_intersection(List, remove_some(PartialOverlap, 0.9), M),

    IntersectionSet.

check_intersection(Orig, Mutated, M) ->
    OrigSet = M:from_list(Orig),
    MutatedSet = M:from_list(Mutated),
    Intersection = [El || El <- Mutated, not is_tuple(El)],
    SortedIntersection = lists:usort(Intersection),
    IntersectionSet = M:intersection(OrigSet, MutatedSet),
    true = M:equal(IntersectionSet, M:from_list(SortedIntersection)),
    SortedIntersection = lists:sort(M:to_list(IntersectionSet)),

    IntersectionSet.


union(Config) when is_list(Config) ->
    %% Note: No empty set.
    test_all([{1,71},{125,129},{254,259},{510,513},{1023,1025}], fun union_1/2).

union_1(List, M) ->
    ?line S = M:from_list(List),

    %% Union with self and empty.
    ?line Empty = M:empty(),
    ?line true = M:equal(S, M:union(S, S)),
    ?line true = M:equal(S, M:union([S,S])),
    ?line true = M:equal(S, M:union([S,S,Empty])),
    ?line true = M:equal(S, M:union([S,Empty,S])),
    ?line true = M:equal(S, M:union(S, Empty)),
    ?line true = M:equal(S, M:union([S])),
    ?line true = M:is_empty(M:union([])),

    %% Partial overlap.
    ?line check_union(List, remove_some(mutate_some(List), 0.9), M),
    ?line check_union(List, remove_some(mutate_some(List), 0.7), M),
    ?line check_union(List, remove_some(mutate_some(List), 0.5), M),
    ?line check_union(List, remove_some(mutate_some(List), 0.3), M),
    ?line check_union(List, remove_some(mutate_some(List), 0.1), M),

    ?line check_union(List, mutate_some(remove_some(List, 0.9)), M),
    ?line check_union(List, mutate_some(remove_some(List, 0.7)), M),
    ?line check_union(List, mutate_some(remove_some(List, 0.5)), M),
    ?line check_union(List, mutate_some(remove_some(List, 0.3)), M),
    ?line check_union(List, mutate_some(remove_some(List, 0.1)), M).

check_union(Orig, Other, M) ->
    OrigSet = M:from_list(Orig),
    OtherSet = M:from_list(Other),
    Union = Orig++Other,
    SortedUnion = lists:usort(Union),
    UnionSet = M:union(OrigSet, OtherSet),
    SortedUnion = lists:sort(M:to_list(UnionSet)),
    M:equal(UnionSet, M:from_list(Union)),
    UnionSet.

is_subset(Config) when is_list(Config) ->
    test_all([{1,132},{253,270},{299,311}], fun is_subset_1/2).

is_subset_1(List, M) ->
    ?line S = M:from_list(List),
    ?line Empty = M:empty(),

    %% Subset of empty and self.
    ?line true = M:is_subset(Empty, Empty),
    ?line true = M:is_subset(Empty, S),
    ?line false = M:is_subset(S, Empty),
    ?line true = M:is_subset(S, S),

    %% Other cases.
    Res = [?line false = M:is_subset(M:singleton(make_ref()), S),
	   ?line true = M:is_subset(M:singleton(hd(List)), S),
	   ?line true = check_subset(remove_some(List, 0.1), List, M),
	   ?line true = check_subset(remove_some(List, 0.5), List, M),
	   ?line true = check_subset(remove_some(List, 0.9), List, M),
	   ?line check_subset(mutate_some(List), List, M),
	   ?line check_subset(rnd_list(length(List) div 2 + 5), List, M),
	   ?line subtract_check(List, rnd_list(length(List) div 7 + 9), M)
	  ],
    res_to_set(Res, M, 0, []).

check_subset(X, Y, M) ->
    check_one_subset(Y, X, M),
    check_one_subset(X, Y, M).

check_one_subset(X, Y, M) ->
    XSet = M:from_list(X),
    YSet = M:from_list(Y),
    SortedX = lists:usort(X),
    SortedY = lists:usort(Y),
    IsSubSet = length(SortedY--SortedX) =:= length(SortedY) - length(SortedX),
    IsSubSet = M:is_subset(XSet, YSet),
    IsSubSet.

%% Encode all test results as a set to return.
res_to_set([true|T], M, I, Acc) ->
    res_to_set(T, M, I+1, [I|Acc]);
res_to_set([_|T], M, I, Acc) ->
    res_to_set(T, M, I+1, Acc);
res_to_set([], M, _, Acc) -> M:from_list(Acc).

is_set(Config) when is_list(Config) ->
    %% is_set/1 is tested in the other test cases when its argument
    %% is a set. Here test some arguments that makes it return false.

    ?line false = gb_sets:is_set([a,b]),
    ?line false = gb_sets:is_set({a,very,bad,tuple}),

    ?line false = sets:is_set([a,b]),
    ?line false = sets:is_set({a,very,bad,tuple}),

    ?line false = ordsets:is_set([b,a]),
    ?line false = ordsets:is_set({bad,tuple}),

    %% Now test values that are known to be bad for all set representations.
    test_all(fun is_set_1/1).

is_set_1(M) ->
    ?line false = M:is_set(self()),
    ?line false = M:is_set(blurf),
    ?line false = M:is_set(make_ref()),
    ?line false = M:is_set(<<1,2,3>>),
    ?line false = M:is_set(42),
    ?line false = M:is_set(math:pi()),
    ?line false = M:is_set({}),
    M:empty().

fold(Config) when is_list(Config) ->
    test_all([{0,71},{125,129},{254,259},{510,513},{1023,1025},{9999,10001}],
	     fun fold_1/2).

fold_1(List, M) ->
    ?line S = M:from_list(List),
    ?line L = M:fold(fun(E, A) -> [E|A] end, [], S),
    ?line true = lists:sort(L) =:= lists:usort(List),
    M:empty().

filter(Config) when is_list(Config) ->
    test_all([{0,69},{126,130},{254,259},{510,513},{1023,1025},{7999,8000}],
	     fun filter_1/2).

filter_1(List, M) ->
    ?line S = M:from_list(List),
    IsNumber = fun(X) -> is_number(X) end,
    ?line M:equal(M:from_list(lists:filter(IsNumber, List)),
		  M:filter(IsNumber, S)),
    ?line M:filter(fun(X) -> is_atom(X) end, S).

%%%
%%% Test specifics for gb_sets.
%%%

take_smallest(Config) when is_list(Config) ->
    test_all([{1,71},{125,129},{254,259},{510,513},{1023,1025}],
	     fun take_smallest_1/2).

take_smallest_1(List, M) ->
    case M:module() of
	gb_sets -> take_smallest_2(List, M);
	_ -> ok
    end,
    M:empty().

take_smallest_2(List0, M) ->
    ?line List = lists:usort(List0),
    ?line S = M:from_list(List0),
    take_smallest_3(S, List, M).

take_smallest_3(S0, List0, M) ->
    case M:is_empty(S0) of
	true -> ok;
	false ->
	    ?line Smallest = hd(List0),
	    ?line Smallest = gb_sets:smallest(S0),
	    ?line {Smallest,S} = gb_sets:take_smallest(S0),
	    ?line List = tl(List0),
	    ?line true = gb_sets:to_list(S) =:= List,
	    take_smallest_3(S, List, M)
    end.

take_largest(Config) when is_list(Config) ->
    test_all([{1,71},{125,129},{254,259},{510,513},{1023,1025}],
	     fun take_largest_1/2).

take_largest_1(List, M) ->
    case M:module() of
	gb_sets -> take_largest_2(List, M);
	_ -> ok
    end,
    M:empty().

take_largest_2(List0, M) ->
    ?line List = reverse(lists:usort(List0)),
    ?line S = M:from_list(List0),
    take_largest_3(S, List, M).

take_largest_3(S0, List0, M) ->
    case M:is_empty(S0) of
	true -> ok;
	false ->
	    ?line Largest = hd(List0),
	    ?line Largest = gb_sets:largest(S0),
	    ?line {Largest,S} = gb_sets:take_largest(S0),
	    ?line List = tl(List0),
	    ?line true = gb_sets:to_list(S) =:= reverse(List),
	    take_largest_3(S, List, M)
    end.

%%%
%%% Helper functions.
%%%

sets_mods() ->
    Ordsets = sets_test_lib:new(ordsets, fun(X, Y) -> X == Y end),
    Sets = sets_test_lib:new(sets, fun(X, Y) ->
					   lists:sort(sets:to_list(X)) == 
					       lists:sort(sets:to_list(Y)) end),
    Gb = sets_test_lib:new(gb_sets, fun(X, Y) ->
					    gb_sets:to_list(X) == 
						gb_sets:to_list(Y) end),
    [Ordsets,Sets,Gb].

test_all(Tester) ->
    ?line Res = [begin
		     random:seed(1, 2, 42),
		     S = Tester(M),
		     {M:size(S),lists:sort(M:to_list(S))}
		 end || M <- sets_mods()],
    ?line all_same(Res).

test_all([{Low,High}|T], Tester) ->
    test_all(lists:seq(Low, High)++T, Tester);
test_all([Sz|T], Tester) when is_integer(Sz) ->
    List = rnd_list(Sz),
    ?line Res = [begin
		     random:seed(19, 2, Sz),
		     S = Tester(List, M),
		     {M:size(S),lists:sort(M:to_list(S))}
		 end || M <- sets_mods()],
    ?line all_same(Res),
    test_all(T, Tester);
test_all([], _) -> ok.


all_same([H|T]) ->
    all_same_1(T, H).

all_same_1([H|T], H) ->
    all_same_1(T, H);
all_same_1([], _) -> ok.

rnd_list(Sz) ->
    rnd_list_1(Sz, []).
    
atomic_rnd_term() ->
    case random:uniform(3) of
	1 -> list_to_atom(integer_to_list($\s+random:uniform(94))++"rnd");
	2 -> random:uniform();
	3 -> random:uniform(50)-37
    end.

rnd_list_1(0, Acc) -> Acc;
rnd_list_1(N, Acc) -> rnd_list_1(N-1, [atomic_rnd_term()|Acc]).

mutate_some(List) ->
    mutate_some(List, []).
    
mutate_some([X,Y,Z|T], Acc) ->
    %% Intentionally change order. (Order should not matter.)
    mutate_some(T, [{X},Z,Y|Acc]);
mutate_some([H|T], Acc) ->
    mutate_some(T, [H|Acc]);
mutate_some([], Acc) ->
    %% Intentionally not reversing.
    Acc.

%% Removes at least one element.
remove_some(List0, P) ->
    case remove_some(List0, P, []) of
	List when length(List0) =:= length(List) ->
	    tl(List);
	List ->
	    List
    end.

remove_some([H|T], P, Acc) ->
    case random:uniform() of
	F when F < P ->				%Remove.
	    remove_some(T, P, Acc);
	_ ->
	    remove_some(T, P, [H|Acc])
    end;
remove_some([], _, Acc) ->
    %% Intentionally no reverse. Order should not matter.
    Acc.