diff options
Diffstat (limited to 'lib/dialyzer/src')
-rw-r--r-- | lib/dialyzer/src/dialyzer_typesig.erl | 58 |
1 files changed, 39 insertions, 19 deletions
diff --git a/lib/dialyzer/src/dialyzer_typesig.erl b/lib/dialyzer/src/dialyzer_typesig.erl index 46cc17a230..76c1bfb774 100644 --- a/lib/dialyzer/src/dialyzer_typesig.erl +++ b/lib/dialyzer/src/dialyzer_typesig.erl @@ -81,7 +81,7 @@ -record(constraint_list, {type :: 'conj' | 'disj', list :: [constr()], deps :: deps(), - masks = maps:new() :: #{dep() => mask()}, + masks :: #{dep() => mask()} | 'undefined', id :: {'list', dep()} | 'undefined'}). -type constraint_list() :: #constraint_list{}. @@ -181,7 +181,6 @@ analyze_scc(SCC, NextLabel, CallGraph, CServer, Plt, PropTypes, Solvers0) -> M <- lists:usort([M || {M, _, _} <- SCC])], State2 = traverse_scc(SCC, CServer, DefSet, ModRecs, State1), State3 = state__finalize(State2), - erlang:garbage_collect(), Funs = state__scc(State3), pp_constrs_scc(Funs, State3), constraints_to_dot_scc(Funs, State3), @@ -3208,7 +3207,8 @@ order_fun_constraints(State) -> order_fun_constraints([#constraint_ref{id = Id}|Tail], State) -> Cs = state__get_cs(Id, State), - {[NewCs], State1} = order_fun_constraints([Cs], [], [], State), + {[Cs1], State1} = order_fun_constraints([Cs], [], [], State), + NewCs = Cs1#constraint_list{deps = Cs#constraint_list.deps}, NewState = state__store_constrs(Id, NewCs, State1), order_fun_constraints(Tail, NewState); order_fun_constraints([], State) -> @@ -3216,23 +3216,31 @@ order_fun_constraints([], State) -> order_fun_constraints([#constraint_ref{} = C|Tail], Funs, Acc, State) -> order_fun_constraints(Tail, [C|Funs], Acc, State); -order_fun_constraints([#constraint_list{list = List, type = Type} = C|Tail], +order_fun_constraints([#constraint_list{list = List, + type = Type, + masks = OldMasks} = C|Tail], Funs, Acc, State) -> - {NewList, NewState} = - case Type of - conj -> order_fun_constraints(List, [], [], State); - disj -> - FoldFun = fun(X, AccState) -> - {[NewX], NewAccState} = - order_fun_constraints([X], [], [], AccState), - {NewX, NewAccState} - end, - lists:mapfoldl(FoldFun, State, List) - end, - C1 = update_constraint_list(C, NewList), - Masks = calculate_masks(NewList, 1, []), - NewAcc = [update_masks(C1, Masks)|Acc], - order_fun_constraints(Tail, Funs, NewAcc, NewState); + case OldMasks of + undefined -> + {NewList, NewState} = + case Type of + conj -> order_fun_constraints(List, [], [], State); + disj -> + FoldFun = fun(X, AccState) -> + {[NewX], NewAccState} = + order_fun_constraints([X], [], [], AccState), + {NewX, NewAccState} + end, + lists:mapfoldl(FoldFun, State, List) + end, + NewList2 = reset_deps(NewList, State), + C1 = update_constraint_list(C, NewList2), + Masks = calculate_masks(NewList, 1, []), + NewAcc = [update_masks(C1, Masks)|Acc], + order_fun_constraints(Tail, Funs, NewAcc, NewState); + M when is_map(M) -> + order_fun_constraints(Tail, Funs, [C|Acc], State) + end; order_fun_constraints([#constraint{} = C|Tail], Funs, Acc, State) -> order_fun_constraints(Tail, Funs, [C|Acc], State); order_fun_constraints([], Funs, Acc, State) -> @@ -3242,6 +3250,18 @@ order_fun_constraints([], Funs, Acc, State) -> update_masks(C, Masks) -> C#constraint_list{masks = Masks}. +reset_deps(ConstrList, #state{solvers = Solvers}) -> + case lists:member(v1, Solvers) of + true -> + ConstrList; + false -> + [reset_deps(Constr) || Constr <- ConstrList] + end. + +reset_deps(#constraint{}=C) -> C#constraint{deps = []}; +reset_deps(#constraint_list{}=C) -> C#constraint_list{deps = []}; +reset_deps(#constraint_ref{}=C) -> C#constraint_ref{deps = []}. + calculate_masks([C|Cs], I, L0) -> calculate_masks(Cs, I+1, [{V, I} || V <- get_deps(C)] ++ L0); calculate_masks([], _I, L) -> |