286 lines
8.7 KiB
Erlang
286 lines
8.7 KiB
Erlang
%%% The MIT License
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%%%
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%%% Copyright (C) 2011 by Joseph Wayne Norton <norton@alum.mit.edu>
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%%%
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%%% Permission is hereby granted, free of charge, to any person obtaining a copy
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%%% of this software and associated documentation files (the "Software"), to deal
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%%% in the Software without restriction, including without limitation the rights
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%%% to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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%%% copies of the Software, and to permit persons to whom the Software is
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%%% furnished to do so, subject to the following conditions:
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%%%
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%%% The above copyright notice and this permission notice shall be included in
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%%% all copies or substantial portions of the Software.
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%%%
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%%% THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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%%% IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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%%% FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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%%% AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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%%% LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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%%% OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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%%% THE SOFTWARE.
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-module(qc_statemc_lets).
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-ifdef(QC).
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-ifdef(EQC).
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%% qc_statem Callbacks
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-behaviour(qc_statem).
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-export([command_gen/2]).
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-export([initial_state/0, state_is_sane/1, next_state/3, precondition/2, postcondition/3]).
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-export([setup/1, teardown/1, teardown/2, aggregate/1]).
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%% @NOTE For boilerplate exports, see "qc_statem.hrl"
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-include_lib("eqc/include/eqc_c.hrl").
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-include_lib("qc/include/qc_statem.hrl").
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%%%----------------------------------------------------------------------
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%%% defines, types, records
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%%%----------------------------------------------------------------------
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-define(IMPL, qc_leveldb).
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-record(obj, {key :: binary(), val :: binary()}).
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-type obj() :: #obj{}.
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-record(state, {
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parallel=false :: boolean(),
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exists=false :: boolean(),
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db=undefined :: undefined | term(),
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objs=[] :: [obj()]
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}).
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%%%----------------------------------------------------------------------
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%%% qc_statem Callbacks
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%%%----------------------------------------------------------------------
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command_gen(Mod,#state{parallel=false}=S) ->
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serial_command_gen(Mod,S);
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command_gen(Mod,#state{parallel=true}=S) ->
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parallel_command_gen(Mod,S).
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serial_command_gen(_Mod,#state{db=undefined, exists=false}) ->
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{call,?IMPL,open,[]};
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serial_command_gen(_Mod,#state{db=undefined, exists=true}) ->
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oneof([{call,?IMPL,reopen,[]}
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%% @TODO {call,?IMPL,destroy,[]},
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%% @TODO {call,?IMPL,repair,[]}
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]);
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serial_command_gen(_Mod,#state{db=Db}=S) ->
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oneof([{call,?IMPL,close,[Db]},
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{call,?IMPL,put,[Db,gen_obj(S)]},
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{call,?IMPL,delete,[Db,gen_key(S)]},
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{call,?IMPL,get,[Db,gen_key(S)]},
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{call,?IMPL,first,[Db]},
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{call,?IMPL,last,[Db]},
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{call,?IMPL,next,[Db,gen_key(S)]},
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{call,?IMPL,prev,[Db,gen_key(S)]}
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]).
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parallel_command_gen(_Mod,#state{db=undefined}) ->
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{call,?IMPL,open,[]};
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parallel_command_gen(_Mod,#state{db=Db}=S) ->
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oneof([{call,?IMPL,put,[Db,gen_obj(S)]},
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{call,?IMPL,delete,[Db,gen_key(S)]},
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{call,?IMPL,get,[Db,gen_key(S)]}
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]).
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-spec initial_state() -> #state{}.
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initial_state() ->
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?LET(Parallel,parameter(parallel,false),
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#state{parallel=Parallel}).
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-spec state_is_sane(#state{}) -> boolean().
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state_is_sane(_S) ->
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%% @TODO
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true.
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-spec next_state(#state{}, term(), tuple()) -> #state{}.
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next_state(#state{db=undefined, exists=false}=S, V, {call,_,open,[]}) ->
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S#state{db=V, exists=true};
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next_state(#state{db=undefined, exists=true}=S, V, {call,_,reopen,[]}) ->
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S#state{db=V, exists=true};
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next_state(#state{db=undefined, exists=true}=S, V, {call,_,destroy,[]}) ->
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S#state{db=V, exists=false, objs=[]};
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next_state(#state{db=Db}=S, _V, {call,_,close,[Db]}) when Db /= undefined ->
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S#state{db=undefined};
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next_state(S, _V, {call,_,put,[_Db,Obj]}) ->
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insert_obj(S, Obj);
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next_state(S, _V, {call,_,delete,[_Db,Key]}) ->
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delete_obj(S, Key);
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next_state(S, _V, {call,_,_,_}) ->
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S.
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-spec precondition(#state{}, tuple()) -> boolean().
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precondition(#state{exists=true}, {call,_,open,[]}) ->
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false;
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precondition(#state{exists=false}, {call,_,reopen,[]}) ->
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false;
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precondition(#state{exists=false}, {call,_,destroy,[]}) ->
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false;
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precondition(#state{exists=false}, {call,_,repair,[]}) ->
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false;
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precondition(#state{db=Db}, {call,_,open,[]}) when Db /= undefined->
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false;
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precondition(#state{db=Db}, {call,_,reopen,[]}) when Db /= undefined->
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false;
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precondition(#state{db=Db}, {call,_,destroy,[]}) when Db /= undefined->
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false;
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precondition(#state{db=Db}, {call,_,repair,[]}) when Db /= undefined->
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false;
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precondition(_S, {call,_,_,_}) ->
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true.
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-spec postcondition(#state{}, tuple(), term()) -> boolean().
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postcondition(#state{exists=false}, {call,_,open,[]}, Res) ->
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?IMPL:is_db(Res);
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postcondition(#state{exists=true}, {call,_,reopen,[]}, Res) ->
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?IMPL:is_db(Res);
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postcondition(#state{exists=true}, {call,_,destroy,[]}, Res) ->
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Res;
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postcondition(#state{exists=true}, {call,_,repair,[]}, Res) ->
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Res;
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postcondition(#state{db=Db}, {call,_,close,[_Db]}, Res) ->
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Res andalso Db /= undefined;
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postcondition(_S, {call,_,put,[_Db,_]}, Res) ->
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Res;
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postcondition(_S, {call,_,delete,[_Db,_]}, Res) ->
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Res;
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postcondition(S, {call,_,get,[_Db,Key]}, Res) ->
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Res =:= get_val(S, Key);
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postcondition(#state{objs=[]}, {call,_,first,[_Db]}, Res) ->
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Res;
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postcondition(S, {call,_,first,[_Db]}, Res) ->
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#obj{key=K} = hd(sort_objs(S)),
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Res =:= K;
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postcondition(#state{objs=[]}, {call,_,last,[_Db]}, Res) ->
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Res;
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postcondition(S, {call,_,last,[_Db]}, Res) ->
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#obj{key=K} = hd(lists:reverse(sort_objs(S))),
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Res =:= K;
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postcondition(S, {call,_,next,[_Db,Key]}, Res) ->
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case lists:dropwhile(fun(#obj{key=X}) -> X =< Key end, sort_objs(S)) of
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[] ->
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Res;
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[#obj{key=K}|_] ->
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Res =:= K
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end;
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postcondition(S, {call,_,prev,[_Db,Key]}, Res) ->
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case lists:dropwhile(fun(#obj{key=X}) -> X >= Key end, rsort_objs(S)) of
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[] ->
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Res;
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[#obj{key=K}|_] ->
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Res =:= K
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end;
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postcondition(_S, {call,_,_,_}, _Res) ->
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false.
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-spec setup(boolean()) -> {ok, term()}.
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setup(_Hard) ->
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?IMPL:setup(),
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teardown(),
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{ok, unused}.
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-spec teardown(term()) -> ok.
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teardown(unused) ->
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teardown(),
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ok.
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-spec teardown(term(), #state{}) -> ok.
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teardown(Ref, _State) ->
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teardown(Ref).
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-spec aggregate([{integer(), term(), term(), #state{}}])
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-> [{atom(), atom(), integer() | term()}].
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aggregate(L) ->
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[ {Cmd,filter_reply(Reply)} || {_N,{set,_,{call,_,Cmd,_}},Reply,_State} <- L ].
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filter_reply({'EXIT',{Err,_}}) ->
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{error,Err};
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filter_reply(_) ->
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ok.
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%%%----------------------------------------------------------------------
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%%% Internal - Generators
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%%%----------------------------------------------------------------------
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gen_bytes() ->
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?LET(B, list(choose(0,127)), list_to_binary(B)).
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gen_key() ->
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gen_bytes().
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gen_val() ->
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gen_bytes().
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gen_obj() ->
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#obj{key=gen_key(), val=gen_val()}.
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gen_key(#state{objs=[]}) ->
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gen_key();
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gen_key(#state{objs=Objs}) ->
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oneof([?LET(Obj, oneof(Objs), Obj#obj.key), gen_key()]).
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gen_obj(#state{objs=[]}) ->
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gen_obj();
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gen_obj(#state{objs=Objs}) ->
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oneof([oneof(Objs), gen_obj()]).
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%%%----------------------------------------------------------------------
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%%% Internal - Model
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%%%----------------------------------------------------------------------
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insert_obj(S, #obj{key=K}=Obj) ->
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case keymember(K, S) of
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false ->
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S#state{objs=[Obj|S#state.objs]};
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true ->
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S#state{objs=keyreplace(K, Obj, S)}
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end.
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delete_obj(S, K) ->
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S#state{objs=keydelete(K, S)}.
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get_val(S, K) ->
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case keyfind(K, S) of
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[] ->
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true;
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[#obj{val=Val}] ->
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Val
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end.
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sort_objs(#state{objs=Objs}) ->
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lists:sort(Objs).
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rsort_objs(S) ->
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lists:reverse(sort_objs(S)).
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keydelete(X, #state{objs=L}) ->
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lists:filter(fun(#obj{key=K}) -> K =/= X end, L).
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keyreplace(X, Y, #state{objs=L}) ->
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lists:map(fun(Z=#obj{key=K}) -> case K =:= X of true -> Y; false -> Z end end, L).
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keyfind(X, #state{objs=L}) ->
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lists:filter(fun(#obj{key=K}) -> K =:= X end, L).
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keymember(X, S) ->
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[] /= keyfind(X, S).
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%%%----------------------------------------------------------------------
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%%% Internal - Implementation
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%%%----------------------------------------------------------------------
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teardown() ->
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?IMPL:teardown().
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-endif. %% -ifdef(EQC).
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-endif. %% -ifdef(QC).
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