%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1999-2011. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
-module(queue_SUITE).
-export([all/0, suite/0,groups/0,init_per_suite/1, end_per_suite/1,
init_per_testcase/2, end_per_testcase/2,
init_per_group/2,end_per_group/2]).
-export([do/1, to_list/1, io_test/1, op_test/1, error/1, oops/1]).
-include_lib("common_test/include/ct.hrl").
init_per_testcase(_Case, Config) ->
Config.
end_per_testcase(_Case, _Config) ->
ok.
suite() ->
[{ct_hooks,[ts_install_cth]},
{timetrap,{minutes,1}}].
all() ->
[do, to_list, io_test, op_test, error, oops].
groups() ->
[].
init_per_suite(Config) ->
Config.
end_per_suite(_Config) ->
ok.
init_per_group(_GroupName, Config) ->
Config.
end_per_group(_GroupName, Config) ->
Config.
do(Config) when is_list(Config) ->
?line L = [{in, 1},
{in, 2},
{out, {value, 1}},
{in, 3},
{out, {value, 2}},
{out, {value, 3}},
{out, empty}
],
?line E = queue:new(),
?line [] = queue:to_list(E),
?line Q = do_queue(E, L),
?line true = queue:is_empty(Q),
?line 0 = queue:len(Q),
ok.
%% OTP-2701
to_list(Config) when is_list(Config) ->
?line E = queue:new(),
?line Q = do_queue(E, [{in, 1},
{in, 2},
{in, 3},
{out, {value, 1}},
{in, 4},
{in, 5}]),
?line true = queue:is_queue(Q),
?line 4 = queue:len(Q),
?line case queue:to_list(Q) of
[2,3,4,5] ->
ok;
Other1 ->
ct:fail(Other1)
end,
ok.
do_queue(Q, []) ->
Q;
do_queue(Q, [E | Rest]) ->
do_queue(do_queue_1(E, Q), Rest).
do_queue_1({in, E}, Q) ->
queue:in(E, Q);
do_queue_1({out, E}, Q) ->
case queue:out(Q) of
{E, Q1} ->
Q1;
Other ->
ct:fail({"out failed", E, Q, Other})
end.
%% Test input and output.
io_test(Config) when is_list(Config) ->
E = queue:new(),
do_io_test(E),
ok.
do_io_test(E) ->
?line [4,3,5] =
io([snoc,snoc,head,head,head,cons,cons,snoc], E, 1),
?line [5,3,4] =
io([cons,cons,daeh,daeh,daeh,snoc,snoc,cons], E, 1),
?line [4,3,5] =
io([in,in,out,out,out,in_r,in_r,in], E, 1),
?line [5,3,4] =
io([in_r,in_r,out_r,out_r,out_r,in,in,in_r], E, 1),
%%
?line [] =
io([snoc,snoc,head,snoc,snoc,head,head,snoc,head,head], E, 1),
?line [] =
io([cons,cons,daeh,cons,cons,daeh,daeh,cons,daeh,daeh], E, 1),
?line [] =
io([in,in,out,in,in,out,out,in,out,out], E, 1),
?line [] =
io([in_r,in_r,out_r,in_r,in_r,out_r,out_r,in_r,out_r,out_r],
E, 1),
%%
?line [5,6] =
io([snoc,snoc,snoc,head,head,snoc,snoc,snoc,head,head], E, 1),
?line [6,5] =
io([cons,cons,cons,daeh,daeh,cons,cons,cons,daeh,daeh], E, 1),
?line [5,6] =
io([in,in,in,out,out,in,in,in,out,out], E, 1),
?line [6,5] =
io([in_r,in_r,in_r,out_r,out_r,in_r,in_r,in_r,out_r,out_r],
E, 1),
%%
?line [5] =
io([snoc,head,head,snoc,head,snoc,head,snoc,head,snoc], E, 1),
?line [5] =
io([cons,daeh,daeh,cons,daeh,cons,daeh,cons,daeh,cons], E, 1),
?line [5] =
io([in,out,out,in,out,in,out,in,out,in], E, 1),
?line [5] =
io([in_r,out_r,out_r,in_r,out_r,in_r,out_r,in_r,out_r,in_r],
E, 1),
%%
?line [] =
io([snoc,head,snoc,snoc,head,head,snoc,snoc,snoc,head,head,head],
E, 1),
?line [] =
io([cons,daeh,cons,cons,daeh,daeh,cons,cons,cons,daeh,daeh,daeh],
E, 1),
?line [] =
io([in,out,in,in,out,out,in,in,in,out,out,out],
E, 1),
?line [] =
io([in_r,out_r,in_r,in_r,out_r,out_r,in_r,in_r,in_r,out_r,out_r,out_r],
E, 1),
%%
?line [3] = io([cons,cons,cons,snoc,daeh,daeh,daeh], E, 1),
?line [3] = io([snoc,snoc,snoc,cons,head,head,head], E, 1),
?line [3] = io([in,in,in,in_r,out,out,out], E, 1),
?line [3] = io([in_r,in_r,in_r,in,out_r,out_r,out_r], E, 1),
%%
?line Q2 = queue:join(queue:cons(1, E),queue:cons(2, E)),
?line Q1 = queue:reverse(Q2),
?line [1] = io([head], Q1, 3),
?line [1] = io([out], Q1, 3),
?line [1] = io([daeh], Q2, 3),
?line [1] = io([out_r], Q2, 3),
%%
?line [2] =
io([in,peek,peek_r,drop,in_r,peek,peek_r,in,peek,peek_r,drop_r], E, 1),
%% Malformed queues UGLY-GUTS-ALL-OVER-THE-PLACE
?line [2,1] = io([peek], {[1,2],[]}, 1),
?line [1,2] = io([peek_r], {[],[1,2]}, 1),
%%
ok.
%% Perform a list of operations to a queue.
%% Keep a reference queue on the side; just a list.
%% Compare the read values between the queues.
%% Return the resulting queue as a list.
%% Inserted values are increments of the previously inserted.
io(Ops, Q, X) ->
io(Ops, Q, queue:to_list(Q), X).
io([head | Tail], Q, [], X) ->
true = queue:is_empty(Q),
{'EXIT',{empty,_}} = (catch {ok,queue:head(Q)}),
{'EXIT',{empty,_}} = (catch {ok,queue:tail(Q)}),
io(Tail, Q, [], X);
io([head | Tail], Q, [H | T], X) ->
H = queue:head(Q),
false = queue:is_empty(Q),
io(Tail, queue:tail(Q), T, X);
io([daeh | Tail], Q, [], X) ->
true = queue:is_empty(Q),
{'EXIT',{empty,_}} = (catch {ok,queue:daeh(Q)}),
{'EXIT',{empty,_}} = (catch {ok,queue:liat(Q)}),
{'EXIT',{empty,_}} = (catch {ok,queue:lait(Q)}),
io(Tail, Q, [], X);
io([daeh | Tail], Q, QQ, X) ->
H = queue:daeh(Q),
false = queue:is_empty(Q),
[H | T] = lists:reverse(QQ),
io(Tail, queue:liat(Q), lists:reverse(T), X);
io([out | Tail], Q, [], X) ->
{empty, Q1} = queue:out(Q),
io(Tail, Q1, [], X);
io([out | Tail], Q, [H | T], X) ->
{{value,H}, Q1} = queue:out(Q),
io(Tail, Q1, T, X);
io([out_r | Tail], Q, [], X) ->
{empty, Q1} = queue:out_r(Q),
io(Tail, Q1, [], X);
io([out_r | Tail], Q, QQ, X) ->
{{value,H}, Q1} = queue:out_r(Q),
[H | T] = lists:reverse(QQ),
io(Tail, Q1, lists:reverse(T), X);
io([cons | Tail], Q, QQ, X) ->
io(Tail, queue:cons(X,Q), [X|QQ], X+1);
io([snoc | Tail], Q, QQ, X) ->
io(Tail, queue:snoc(Q,X), QQ++[X], X+1);
io([in_r | Tail], Q, QQ, X) ->
io(Tail, queue:in_r(X,Q), [X|QQ], X+1);
io([in | Tail], Q, QQ, X) ->
io(Tail, queue:in(X,Q), QQ++[X], X+1);
io([peek | Tail], Q, [], X) ->
empty = queue:peek(Q),
io(Tail, Q, [], X);
io([peek | Tail], Q, [H|_]=Q0, X) ->
{value,H} = queue:peek(Q),
io(Tail, Q, Q0, X);
io([peek_r | Tail], Q, [], X) ->
empty = queue:peek_r(Q),
io(Tail, Q, [], X);
io([peek_r | Tail], Q, Q0, X) ->
E = lists:last(Q0),
{value,E} = queue:peek_r(Q),
io(Tail, Q, Q0, X);
io([drop | Tail], Q, [], X) ->
try queue:drop(Q) of
V ->
ct:fail({?MODULE,?LINE,V})
catch
error:empty ->
io(Tail, Q, [], X)
end;
io([drop | Tail], Q, [_ | T], X) ->
Q1 = queue:drop(Q),
io(Tail, Q1, T, X);
io([drop_r | Tail], Q, [], X) ->
try queue:drop_r(Q) of
V ->
ct:fail({?MODULE,?LINE,V})
catch
error:empty ->
io(Tail, Q, [], X)
end;
io([drop_r | Tail], Q, L, X) ->
io:format("~p~n", [{drop_r,Tail,Q,L,X}]),
Q1 = queue:drop_r(Q),
[_ | T] = lists:reverse(L),
io:format("~p~n", [{drop_r,Q1,T}]),
io(Tail, Q1, lists:reverse(T), X);
io([], Q, QQ, _X) ->
QQ = queue:to_list(Q),
Length = length(QQ),
Length = queue:len(Q),
QQ.
%% Test operations on whole queues.
op_test(Config) when is_list(Config) ->
do_op_test(fun id/1),
ok.
do_op_test(F) ->
?line Len = 50,
?line Len2 = 2*Len,
?line L1 = lists:seq(1, Len),
?line L1r = lists:reverse(L1),
?line L2 = lists:seq(Len+1, Len2),
?line L2r = lists:reverse(L2),
?line L3 = L1++L2,
?line L3r = L2r++L1r,
?line Q0 = F(queue:new()),
?line [] = queue:to_list(Q0),
?line Q0 = F(queue:from_list([])),
?line Q1 = F(queue:from_list(L1)),
?line Q2 = F(queue:from_list(L2)),
?line Q3 = F(queue:from_list(L3)),
?line Len = queue:len(Q1),
?line Len = queue:len(Q2),
?line Len2 = queue:len(Q3),
?line L1 = queue:to_list(Q1),
?line L2 = queue:to_list(Q2),
?line L3 = queue:to_list(Q3),
?line Q3b = queue:join(Q0, queue:join(queue:join(Q1, Q2), Q0)),
?line L3 = queue:to_list(Q3b),
?line {Q0, Q3New1} = queue:split(0, Q3),
?line L3 = queue:to_list(Q3New1),
?line {Q3New2, Q0} = queue:split(Len2, Q3),
?line L3 = queue:to_list(Q3New2),
?line {Q1a, Q2a} = queue:split(Len, Q3),
?line L1 = queue:to_list(Q1a),
?line L2 = queue:to_list(Q2a),
?line {Q3c, Q3d} = queue:split(2, Q3),
?line L3 = queue:to_list(Q3c) ++ queue:to_list(Q3d),
?line {Q1b, Q2b} = queue:split(Len, Q3b),
?line L1 = queue:to_list(Q1b),
?line L2 = queue:to_list(Q2b),
?line Len = queue:len(Q1b),
?line Len = queue:len(Q2b),
?line Len2 = queue:len(Q3b),
?line Q1r = queue:reverse(Q1),
?line Q2r = queue:reverse(Q2),
?line Q1ar = queue:reverse(Q1a),
?line Q2ar = queue:reverse(Q2a),
?line Q1br = queue:reverse(Q1b),
?line Q2br = queue:reverse(Q2b),
?line Q3br = queue:reverse(Q3b),
?line L1r = queue:to_list(Q1r),
?line L1r = queue:to_list(Q1ar),
?line L1r = queue:to_list(Q1br),
?line L2r = queue:to_list(Q2r),
?line L2r = queue:to_list(Q2ar),
?line L2r = queue:to_list(Q2br),
?line L3r = queue:to_list(Q3br),
?line Len = queue:len(Q1br),
?line Len = queue:len(Q2br),
?line Len2 = queue:len(Q3br),
?line false = queue:member([], Q0),
?line false = queue:member(0, Q0),
?line false = queue:member(0, Q1),
?line false = queue:member([], Q1),
?line true = queue:member(1, Q1),
?line false = queue:member(1.0, Q1),
?line true = queue:member(Len, Q1),
%%
%% Additional coverage.
?line {MyL1r,MyL2r} = lists:split(Len-2, L1r),
?line MyQ0r = queue:reverse(F(queue:from_list(L1))),
?line {MyQ1r,MyQ2r} = queue:split(Len-2, MyQ0r),
?line MyL1r = queue:to_list(MyQ1r),
?line MyL2r = queue:to_list(MyQ2r),
?line MyQ3r = queue:filter(
fun (X) when X rem 4 >= 2 -> false;
(X) when X rem 8 == 0 -> [float(X),{X}];
(X) when X rem 2 >= 1 -> [{X}];
(_) -> true
end, MyQ1r),
?line MyL3r = lists:flatten(
[if X rem 8 == 0 -> [float(X),{X}];
X rem 2 >= 1 -> {X};
true -> X
end || X <- MyL1r,
X rem 4 < 2]),
?line MyL3r = queue:to_list(MyQ3r),
?line MyQ4 = F(queue:from_list([11,22,33,44])),
?line [11,22] = queue:to_list(queue:filter(fun(X) when X < 27 -> true;
(_) -> [] end, MyQ4)),
?line [33,44] = queue:to_list(queue:filter(fun(X) when X < 27 -> false;
(X) -> [X] end, MyQ4)),
%%
ok.
%% Test queue errors.
error(Config) when is_list(Config) ->
do_error(fun id/1, illegal_queue),
do_error(fun id/1, {[],illegal_queue}),
do_error(fun id/1, {illegal_queue,[17]}),
ok.
trycatch(F, Args) ->
trycatch(queue, F, Args).
trycatch(M, F, Args) ->
try apply(M, F, Args) of
V -> {value,V}
catch
C:R -> {C,R}
end.
do_error(F, IQ) ->
?line io:format("Illegal Queue: ~p~n", [IQ]),
%%
?line {error,badarg} = trycatch(in, [1, IQ]),
?line {error,badarg} = trycatch(out, [IQ]),
?line {error,badarg} = trycatch(in_r ,[1, IQ]),
?line {error,badarg} = trycatch(out_r ,[IQ]),
?line {error,badarg} = trycatch(to_list ,[IQ]),
%%
?line {error,badarg} = trycatch(from_list, [no_list]),
?line {error,badarg} = trycatch(is_empty, [IQ]),
?line {error,badarg} = trycatch(len, [IQ]),
%%
?line {error,badarg} = trycatch(cons, [1, IQ]),
?line {error,badarg} = trycatch(head, [IQ]),
?line {error,badarg} = trycatch(tail, [IQ]),
%%
?line {error,badarg} = trycatch(snoc, [IQ, 1]),
?line {error,badarg} = trycatch(last, [IQ]),
?line {error,badarg} = trycatch(daeh, [IQ]),
?line {error,badarg} = trycatch(liat, [IQ]),
?line {error,badarg} = trycatch(lait, [IQ]),
?line {error,badarg} = trycatch(init, [IQ]),
%%
?line {error,badarg} = trycatch(reverse, [IQ]),
?line {error,badarg} = trycatch(join, [F(queue:new()), IQ]),
?line {error,badarg} = trycatch(join, [IQ, F(queue:new())]),
?line {error,badarg} = trycatch(split, [17, IQ]),
?line {error,badarg} = trycatch(head, [IQ]),
%%
?line Q0 = F(queue:new()),
?line {error,badarg} = trycatch(split, [1, Q0]),
?line {error,badarg} = trycatch(split, [2, queue:snoc(Q0, 1)]),
%%
?line {value,false} = trycatch(is_queue, [IQ]),
?line {error,badarg} = trycatch(get, [IQ]),
?line {error,badarg} = trycatch(peek, [IQ]),
?line {error,badarg} = trycatch(peek_r, [IQ]),
?line {error,badarg} = trycatch(filter, [fun id/1, IQ]),
?line {error,badarg} = trycatch(filter, [no_fun, Q0]),
%%
?line {error,badarg} = trycatch(member, [1, IQ]),
ok.
id(X) ->
X.
%% Test queue errors.
oops(Config) when is_list(Config) ->
?line N = 3142,
?line Optab = optab(),
?line Seed0 = rand:seed(exsplus, {1,2,4}),
?line {Is,Seed} = random_list(N, tuple_size(Optab), Seed0, []),
?line io:format("~p ", [Is]),
?line QA = queue:new(),
?line QB = {[]},
?line emul([QA], [QB], Seed, [element(I, Optab) || I <- Is]).
optab() ->
{{new,[], q, fun () -> {[]} end},
{is_queue,[q], v, fun (_) -> true end},
{is_empty,[q], v, fun (Q) ->
case Q of
{[]} -> true;
_ -> false
end end},
{len,[q], v, fun ({L}) -> length(L) end},
{to_list,[q], v, fun ({L}) -> L end},
{from_list,[l], q, fun (L) -> {L} end},
{in,[t,q], q, fun (X,{L}) -> {L++[X]} end},
{in_r,[t,q], q, fun (X,{L}) -> {[X|L]} end},
{out,[q], {v,q}, fun ({L}=Q) ->
case L of
[] -> {empty,Q};
[X|T] -> {{value,X},{T}}
end
end},
{out_r,[q], {v,q}, fun ({L}=Q) ->
case L of
[] -> {empty,Q};
_ ->
[X|R] = lists:reverse(L),
T = lists:reverse(R),
{{value,X},{T}}
end
end},
{get,[q], v, fun ({[]}) -> erlang:error(empty);
({[H|_]}) -> H
end},
{get_r,[q], v, fun ({[]}) -> erlang:error(empty);
({L}) -> lists:last(L)
end},
{peek,[q], v, fun ({[]}) -> empty;
({[H|_]}) -> {value,H}
end},
{peek_r,[q], v, fun ({[]}) -> empty;
({L}) -> {value,lists:last(L)}
end},
{drop,[q], q, fun ({[]}) -> erlang:error(empty);
({[_|T]}) -> {T}
end},
{drop_r,[q], q, fun ({[]}) -> erlang:error(empty);
({L}) -> [_|R] = lists:reverse(L),
{lists:reverse(R)}
end},
{reverse,[q], q, fun ({L}) -> {lists:reverse(L)} end},
{join,[q,q], q, fun ({L1}, {L2}) -> {L1++L2} end},
{split,[n,q], {q,q}, fun (N, {L}) -> {L1,L2} = lists:split(N, L),
{{L1},{L2}} end},
{member,[t,q], v, fun (X, {L}) -> lists:member(X, L) end}
}.
emul(_, _, _, []) ->
ok;
emul(QsA0, QsB0, Seed0, [{Op,Ts,S,Fun}|Ops]) ->
{AsA,Seed} = args(Ts, QsA0, Seed0, []),
{AsB,Seed} = args(Ts, QsB0, Seed0, []),
io:format("~n% ~w % ~p ", [Op,AsA]),
io:format("% ~p :", [AsB]),
XX = call({queue,Op}, AsA),
YY = call(Fun, AsB),
case {XX,YY} of
{{value,X},{value,Y}} ->
{[Qa|_]=QsA,[{Lb}|_]=QsB} = chk(QsA0, QsB0, S, X, Y),
case queue:to_list(Qa) of
Lb ->
io:format("|~p| ", [Lb]),
emul(QsA, QsB, Seed, Ops);
La ->
throw({to_list,[XX,YY,Op,AsA,AsB,La,Lb]})
end;
{Exception,Exception} ->
io:format("!~p! ", [Exception]),
emul(QsA0, QsB0, Seed, Ops);
_ ->
throw({diff,[XX,YY,Op,AsA,AsB]})
end.
args([], _, Seed, R) ->
{lists:reverse(R),Seed};
args([q|Ts], [Q|Qs]=Qss, Seed, R) ->
args(Ts, if Qs =:= [] -> Qss; true -> Qs end, Seed, [Q|R]);
args([l|Ts], Qs, Seed0, R) ->
{N,Seed1} = rand:uniform_s(17, Seed0),
{L,Seed} = random_list(N, 4711, Seed1, []),
args(Ts, Qs, Seed, [L|R]);
args([t|Ts], Qs, Seed0, R) ->
{T,Seed} = rand:uniform_s(4711, Seed0),
args(Ts, Qs, Seed, [T|R]);
args([n|Ts], Qs, Seed0, R) ->
{N,Seed} = rand:uniform_s(17, Seed0),
args(Ts, Qs, Seed, [N|R]).
random_list(0, _, Seed, R) ->
{R,Seed};
random_list(N, M, Seed0, R) ->
{X,Seed} = rand:uniform_s(M, Seed0),
random_list(N-1, M, Seed, [X|R]).
call(Func, As) ->
try case Func of
{M,F} -> apply(M, F, As);
_ -> apply(Func, As)
end of
V ->
{value,V}
catch
Class:Reason ->
{Class,Reason}
end.
chk(QsA, QsB, v, X, X) ->
io:format("<~p> ", [X]),
{QsA,QsB};
chk(_, _, v, X, Y) ->
throw({diff,v,[X,Y]});
chk(QsA, QsB, q, Qa, {Lb}=Qb) ->
case queue:to_list(Qa) of
Lb ->
io:format("|~p| ", [Lb]),
{[Qa|QsA],[Qb|QsB]};
La ->
throw({diff,q,[Qa,La,Lb]})
end;
chk(QsA, QsB, T, X, Y)
when tuple_size(T) =:= tuple_size(X), tuple_size(T) =:= tuple_size(Y) ->
io:format("{"),
try
chk_tuple(QsA, QsB, T, X, Y, 1)
after
io:format("}")
end;
chk(_, _, T, X, Y)
when is_tuple(T), is_tuple(X), is_tuple(Y) ->
throw({diff,T,[X,Y]}).
chk_tuple(QsA, QsB, T, _, _, N) when N > tuple_size(T) ->
{QsA,QsB};
chk_tuple(QsA0, QsB0, T, X, Y, N) ->
{QsA,QsB} = chk(QsA0, QsB0, element(N, T), element(N, X), element(N, Y)),
chk_tuple(QsA, QsB, T, X, Y, N+1).