diff options
author | Hans Bolinder <[email protected]> | 2016-03-01 15:47:12 +0100 |
---|---|---|
committer | Hans Bolinder <[email protected]> | 2016-05-04 12:58:00 +0200 |
commit | 8c796b86a081b8665fce7b36a17efb6f46884666 (patch) | |
tree | 63693abf0cd05ee928c55ba7ff6713fc42e439cd /lib | |
parent | 91d372e23e1d19bb0c5200ba1682f9e4bc57ed76 (diff) | |
download | otp-8c796b86a081b8665fce7b36a17efb6f46884666.tar.gz otp-8c796b86a081b8665fce7b36a17efb6f46884666.tar.bz2 otp-8c796b86a081b8665fce7b36a17efb6f46884666.zip |
dialyzer: Optimize the evaluation of SCC:s in module typesig
The evaluation of a single SCC has been optimized.
The parallelism when evaluating a single SCC has been removed.
Diffstat (limited to 'lib')
-rw-r--r-- | lib/dialyzer/src/dialyzer_typesig.erl | 251 |
1 files changed, 66 insertions, 185 deletions
diff --git a/lib/dialyzer/src/dialyzer_typesig.erl b/lib/dialyzer/src/dialyzer_typesig.erl index 50fcbc555b..dcf0947f3e 100644 --- a/lib/dialyzer/src/dialyzer_typesig.erl +++ b/lib/dialyzer/src/dialyzer_typesig.erl @@ -2,7 +2,7 @@ %%----------------------------------------------------------------------- %% %CopyrightBegin% %% -%% Copyright Ericsson AB 2006-2015. All Rights Reserved. +%% Copyright Ericsson AB 2006-2016. 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. @@ -66,9 +66,11 @@ %%----------------------------------------------------------------------------- -type dep() :: integer(). %% type variable names used as constraint ids +-type deps() :: ordsets:ordset(dep()). + -type type_var() :: erl_types:erl_type(). %% actually: {'c','var',_,_} --record(fun_var, {'fun' :: fun((_) -> erl_types:erl_type()), deps :: [dep()], +-record(fun_var, {'fun' :: fun((_) -> erl_types:erl_type()), deps :: deps(), origin :: integer() | 'undefined'}). -type constr_op() :: 'eq' | 'sub'. @@ -77,20 +79,22 @@ -record(constraint, {lhs :: erl_types:erl_type(), op :: constr_op(), rhs :: fvar_or_type(), - deps :: [dep()]}). + deps :: deps()}). -type constraint() :: #constraint{}. +-type mask() :: ordsets:ordset(non_neg_integer()). + -record(constraint_list, {type :: 'conj' | 'disj', list :: [constr()], - deps :: [dep()], - masks = [] :: [{dep(),[non_neg_integer()]}] | - {'d',dict:dict(dep(), [non_neg_integer()])}, + deps :: deps(), + masks = [] :: [{dep(),mask()}] | + {'d',dict:dict(dep(), mask())}, id :: {'list', dep()} | 'undefined'}). -type constraint_list() :: #constraint_list{}. --record(constraint_ref, {id :: type_var(), deps :: [dep()]}). +-record(constraint_ref, {id :: type_var(), deps :: deps()}). -type constraint_ref() :: #constraint_ref{}. @@ -99,32 +103,29 @@ -type types() :: erl_types:type_table(). -type typesig_scc() :: [{mfa(), {cerl:c_var(), cerl:c_fun()}, types()}]. --type typesig_funmap() :: [{type_var(), type_var()}]. %% Orddict +-type typesig_funmap() :: #{type_var() => type_var()}. -type prop_types() :: dict:dict(label(), types()). --type dict_or_ets() :: {'d', prop_types()} | {'e', ets:tid()}. - --record(state, {callgraph :: dialyzer_callgraph:callgraph() - | 'undefined', - cs = [] :: [constr()], - cmap = {'d', dict:new()} :: dict_or_ets(), - fun_map = [] :: typesig_funmap(), - fun_arities = dict:new() :: dict:dict(type_var(), arity()), - in_match = false :: boolean(), - in_guard = false :: boolean(), - module :: module(), - name_map = dict:new() :: dict:dict(mfa(), - cerl:c_fun()), - next_label = 0 :: label(), - self_rec :: 'false' | erl_types:erl_type(), - plt :: dialyzer_plt:plt() - | 'undefined', - prop_types = {'d', dict:new()} :: dict_or_ets(), - records = dict:new() :: types(), - scc = [] :: [type_var()], - mfas :: [tuple()], - solvers = [] :: [solver()] +-record(state, {callgraph :: dialyzer_callgraph:callgraph() + | 'undefined', + cs = [] :: [constr()], + cmap = dict:new() :: dict:dict(), % FIXME + fun_map = maps:new() :: typesig_funmap(), + fun_arities = dict:new() :: dict:dict(type_var(), arity()), + in_match = false :: boolean(), + in_guard = false :: boolean(), + module :: module(), + name_map = dict:new() :: dict:dict(mfa(), cerl:c_fun()), + next_label = 0 :: label(), + self_rec :: 'false' | erl_types:erl_type(), + plt :: dialyzer_plt:plt() + | 'undefined', + prop_types = dict:new() :: dict:dict(), % FIXME + records = dict:new() :: types(), + scc = [] :: ordsets:ordset(type_var()), + mfas :: [tuple()], % FIXME? + solvers = [] :: [solver()] }). -type state() :: #state{}. @@ -1802,12 +1803,16 @@ solve([Fun], State) -> solve([_|_] = SCC, State) -> ?debug("============ Analyzing SCC: ~w ===========\n", [[debug_lookup_name(F) || F <- SCC]]), - {Parallel, NewState} = - case parallel_split(SCC) of - false -> {false, State}; - SplitSCC -> {SplitSCC, minimize_state(State)} - end, - solve_scc(SCC, Parallel, map_new(), NewState, false). + Users = comp_users(SCC, State), + solve_scc(SCC, map_new(), State, Users, _ToSolve=SCC, false). + +comp_users(SCC, State) -> + Vars0 = [{Fun, state__get_rec_var(Fun, State)} || Fun <- SCC], + Vars = lists:sort([t_var_name(Var) || {_, {ok, Var}} <- Vars0]), + family([{t_var(V), F} || + F <- SCC, + V <- ordsets:intersection(get_deps(state__get_cs(F, State)), + Vars)]). solve_fun(Fun, FunMap, State) -> Cs = state__get_cs(Fun, State), @@ -1822,7 +1827,7 @@ solve_fun(Fun, FunMap, State) -> end, enter_type(Fun, NewType, NewFunMap1). -solve_scc(SCC, Parallel, Map, State, TryingUnit) -> +solve_scc(SCC, Map, State, Users, ToSolve, TryingUnit) -> Vars0 = [{Fun, state__get_rec_var(Fun, State)} || Fun <- SCC], Vars = [Var || {_, {ok, Var}} <- Vars0], Funs = [Fun || {Fun, {ok, _}} <- Vars0], @@ -1830,16 +1835,13 @@ solve_scc(SCC, Parallel, Map, State, TryingUnit) -> RecTypes = [t_limit(Type, ?TYPE_LIMIT) || Type <- Types], CleanMap = lists:foldl(fun(Fun, AccFunMap) -> erase_type(t_var_name(Fun), AccFunMap) - end, Map, SCC), + end, Map, ToSolve), Map1 = enter_type_lists(Vars, RecTypes, CleanMap), ?debug("Checking SCC: ~w\n", [[debug_lookup_name(F) || F <- SCC]]), - FunSet = ordsets:from_list([t_var_name(F) || F <- SCC]), - Map2 = - case Parallel of - false -> solve_whole_scc(SCC, Map1, State); - SplitSCC -> solve_whole_scc_parallel(SplitSCC, Map1, State) - end, - case maps_are_equal(Map2, Map, FunSet) of + SolveFun = fun(X, Y) -> scc_fold_fun(X, Y, State) end, + Map2 = lists:foldl(SolveFun, Map1, ToSolve), + Updated = updated_vars_only(Vars, Map, Map2), + case Updated =:= [] of true -> ?debug("SCC ~w reached fixpoint\n", [SCC]), NewTypes = unsafe_lookup_type_list(Funs, Map2), @@ -1852,130 +1854,21 @@ solve_scc(SCC, Parallel, Map, State, TryingUnit) -> true -> t_fun(t_fun_args(T), t_unit()) end || T <- NewTypes], Map3 = enter_type_lists(Funs, UnitTypes, Map2), - solve_scc(SCC, Parallel, Map3, State, true); + solve_scc(SCC, Map3, State, Users, SCC, true); false -> - case Parallel of - false -> true; - _ -> dispose_state(State) - end, Map2 end; false -> ?debug("SCC ~w did not reach fixpoint\n", [SCC]), - solve_scc(SCC, Parallel, Map2, State, TryingUnit) - end. - -solve_whole_scc(SCC, Map, State) -> - SolveFun = fun(X, Y) -> scc_fold_fun(X, Y, State) end, - lists:foldl(SolveFun, Map, SCC). - -%%------------------------------------------------------------------------------ - --define(worth_it, 42). - -parallel_split(SCC) -> - Length = length(SCC), - case Length > 2*?worth_it of - false -> false; - true -> - case min(dialyzer_utils:parallelism(), 8) of - 1 -> false; - CPUs -> - FullShare = Length div CPUs + 1, - Unit = max(FullShare, ?worth_it), - split(SCC, Unit, []) - end - end. - -minimize_state(#state{ - cmap = {d, CMap}, - fun_map = FunMap, - fun_arities = FunArities, - self_rec = SelfRec, - prop_types = {d, PropTypes}, - solvers = Solvers - }) -> - Opts = [{read_concurrency, true}], - ETSCMap = ets:new(cmap, Opts), - ETSPropTypes = ets:new(prop_types, Opts), - true = ets:insert(ETSCMap, dict:to_list(CMap)), - true = ets:insert(ETSPropTypes, dict:to_list(PropTypes)), - #state - {cmap = {e, ETSCMap}, - fun_map = FunMap, - fun_arities = FunArities, - self_rec = SelfRec, - prop_types = {e, ETSPropTypes}, - solvers = Solvers, - callgraph = undefined, - plt = undefined, - mfas = [] - }. - -dispose_state(#state{cmap = {e, ETSCMap}, - prop_types = {e, ETSPropTypes}}) -> - true = ets:delete(ETSCMap), - true = ets:delete(ETSPropTypes). - -solve_whole_scc_parallel(SplitSCC, Map, State) -> - Workers = spawn_workers(SplitSCC, Map, State), - wait_results(Workers, Map, fold_res_fun(State)). - -spawn_workers(SplitSCC, Map, State) -> - Spawner = solve_scc_spawner(self(), Map, State), - lists:foreach(Spawner, SplitSCC), - length(SplitSCC). - -wait_results(0, Map, _FoldResFun) -> - Map; -wait_results(Pending, Map, FoldResFun) -> - Res = receive_scc_result(), - NewMap = lists:foldl(FoldResFun, Map, Res), - wait_results(Pending-1, NewMap, FoldResFun). - -solve_scc_spawner(Parent, Map, State) -> - fun(SCCPart) -> - spawn_link(fun() -> solve_scc_worker(Parent, SCCPart, Map, State) end) + ToSolve1 = affected(Updated, Users), + solve_scc(SCC, Map2, State, Users, ToSolve1, TryingUnit) end. -split([], _Unit, Acc) -> - Acc; -split(List, Unit, Acc) -> - {Taken, Rest} = - try - lists:split(Unit, List) - catch - _:_ -> {List, []} - end, - split(Rest, Unit, [Taken|Acc]). - -solve_scc_worker(Parent, SCCPart, Map, State) -> - SolveFun = fun(X, Y) -> scc_fold_fun(X, Y, State) end, - FinalMap = lists:foldl(SolveFun, Map, SCCPart), - Res = - [{F, t_limit(unsafe_lookup_type(F, FinalMap), ?TYPE_LIMIT)} || - F <- SCCPart], - send_scc_result(Parent, Res). - -fold_res_fun(State) -> - fun({F, Type}, Map) -> - case state__get_rec_var(F, State) of - {ok, R} -> - enter_type(R, Type, enter_type(F, Type, Map)); - error -> - enter_type(F, Type, Map) - end - end. - -receive_scc_result() -> - receive - {scc_fun, Res} -> Res - end. - -send_scc_result(Parent, Res) -> - Parent ! {scc_fun, Res}. - -%%------------------------------------------------------------------------------ +affected(Updated, Users) -> + lists:umerge([case lists:keyfind(V, 1, Users) of + {V, Vs} -> Vs; + false -> [] + end || V <- Updated]). scc_fold_fun(F, FunMap, State) -> Deps = get_deps(state__get_cs(F, State)), @@ -2322,7 +2215,7 @@ report_detected_loop(_) -> add_mask_to_flags(Flags, [Im|M], I, L) when I > Im -> add_mask_to_flags(Flags, M, I, [Im|L]); add_mask_to_flags(Flags, [_|M], _I, L) -> - {lists:umerge(Flags, M), lists:reverse(L)}. + {lists:umerge(M, Flags), lists:reverse(L)}. get_mask(V, {d, Masks}) -> case dict:find(V, Masks) of @@ -2830,7 +2723,7 @@ new_state(SCC0, NextLabel, CallGraph, Plt, PropTypes, Solvers) -> _Many -> false end, #state{callgraph = CallGraph, name_map = NameMap, next_label = NextLabel, - prop_types = {d, PropTypes}, plt = Plt, scc = ordsets:from_list(SCC), + prop_types = PropTypes, plt = Plt, scc = ordsets:from_list(SCC), mfas = MFAs, self_rec = SelfRec, solvers = Solvers}. state__set_rec_dict(State, RecDict) -> @@ -2926,21 +2819,14 @@ state__plt(#state{plt = PLT}) -> state__new_constraint_context(State) -> State#state{cs = []}. -state__prop_domain(FunLabel, #state{prop_types = {e, ETSPropTypes}}) -> - try ets:lookup_element(ETSPropTypes, FunLabel, 2) of - {_Range_Fun, Dom} -> {ok, Dom}; - FunType -> {ok, t_fun_args(FunType)} - catch - _:_ -> error - end; -state__prop_domain(FunLabel, #state{prop_types = {d, PropTypes}}) -> +state__prop_domain(FunLabel, #state{prop_types = PropTypes}) -> case dict:find(FunLabel, PropTypes) of error -> error; {ok, {_Range_Fun, Dom}} -> {ok, Dom}; {ok, FunType} -> {ok, t_fun_args(FunType)} end. -state__add_prop_constrs(Tree, #state{prop_types = {d, PropTypes}} = State) -> +state__add_prop_constrs(Tree, #state{prop_types = PropTypes} = State) -> Label = cerl_trees:get_label(Tree), case dict:find(Label, PropTypes) of error -> State; @@ -3003,13 +2889,11 @@ state__mk_vars(N, #state{next_label = NL} = State) -> Vars = [t_var(X) || X <- lists:seq(NL, NewLabel-1)], {State#state{next_label = NewLabel}, Vars}. -state__store_constrs(Id, Cs, #state{cmap = {d, Dict}} = State) -> +state__store_constrs(Id, Cs, #state{cmap = Dict} = State) -> NewDict = dict:store(Id, Cs, Dict), - State#state{cmap = {d, NewDict}}. + State#state{cmap = NewDict}. -state__get_cs(Var, #state{cmap = {e, ETSDict}}) -> - ets:lookup_element(ETSDict, Var, 2); -state__get_cs(Var, #state{cmap = {d, Dict}}) -> +state__get_cs(Var, #state{cmap = Dict}) -> dict:fetch(Var, Dict). state__is_self_rec(Fun, #state{self_rec = SelfRec}) -> @@ -3019,15 +2903,12 @@ state__store_funs(Vars0, Funs0, #state{fun_map = Map} = State) -> debug_make_name_map(Vars0, Funs0), Vars = mk_var_list(Vars0), Funs = mk_var_list(Funs0), - NewMap = lists:foldl(fun({Var, Fun}, MP) -> orddict:store(Var, Fun, MP) end, + NewMap = lists:foldl(fun({Var, Fun}, MP) -> maps:put(Fun, Var, MP) end, Map, lists:zip(Vars, Funs)), State#state{fun_map = NewMap}. state__get_rec_var(Fun, #state{fun_map = Map}) -> - case [V || {V, FV} <- Map, FV =:= Fun] of - [Var] -> {ok, Var}; - [] -> error - end. + maps:find(Fun, Map). state__finalize(State) -> State1 = enumerate_constraints(State), @@ -3094,13 +2975,13 @@ mk_fun_var(Fun, Types) -> -endif. --spec get_deps(constr()) -> [dep()]. +-spec get_deps(constr()) -> deps(). get_deps(#constraint{deps = D}) -> D; get_deps(#constraint_list{deps = D}) -> D; get_deps(#constraint_ref{deps = D}) -> D. --spec find_constraint_deps([fvar_or_type()]) -> [dep()]. +-spec find_constraint_deps([fvar_or_type()]) -> deps(). find_constraint_deps(List) -> ordsets:from_list(find_constraint_deps(List, [])). |