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author | Hans Bolinder <[email protected]> | 2015-09-02 15:21:47 +0200 |
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committer | Hans Bolinder <[email protected]> | 2015-09-09 09:49:47 +0200 |
commit | d57f5e34e58a49298c2c2d6210392df6629a740b (patch) | |
tree | 6c02bafe23d33286ec3ffcd9823523095fe3d82c | |
parent | ae274fd207a2643a858bbe2dfa254b3936990b6e (diff) | |
download | otp-d57f5e34e58a49298c2c2d6210392df6629a740b.tar.gz otp-d57f5e34e58a49298c2c2d6210392df6629a740b.tar.bz2 otp-d57f5e34e58a49298c2c2d6210392df6629a740b.zip |
dialyzer: Correct the handling of parameters of opaque types
Prior to this commit, the fact that parameters of opaque types are
expanded differently depending on the current values of limits used
during expansion, caused problems later when the types of parameters
are used for determining if opaque types are comparable.
-rw-r--r-- | lib/hipe/cerl/erl_types.erl | 82 |
1 files changed, 81 insertions, 1 deletions
diff --git a/lib/hipe/cerl/erl_types.erl b/lib/hipe/cerl/erl_types.erl index 56ec757dbf..cd2d2fe207 100644 --- a/lib/hipe/cerl/erl_types.erl +++ b/lib/hipe/cerl/erl_types.erl @@ -2712,7 +2712,87 @@ is_compat_args([], []) -> true; is_compat_args(_, _) -> false. is_compat_arg(A, A) -> true; -is_compat_arg(A1, A2) -> t_is_any(A1) orelse t_is_any(A2). +is_compat_arg(A1, A2) -> + is_specialization(A1, A2) orelse is_specialization(A2, A1). + +-spec is_specialization(erl_type(), erl_type()) -> boolean(). + +%% Returns true if the first argument is a specialization of the +%% second argument in the sense that every type is a specialization of +%% any(). For example, {_,_} is a specialization of any(), but not of +%% tuple(). Does not handle variables, but any() and unions (sort of). + +is_specialization(_, ?any) -> true; +is_specialization(?any, _) -> false; +is_specialization(?function(Domain1, Range1), ?function(Domain2, Range2)) -> + (is_specialization(Domain1, Domain2) andalso + is_specialization(Range1, Range2)); +is_specialization(?list(Contents1, Termination1, Size1), + ?list(Contents2, Termination2, Size2)) -> + (Size1 =:= Size2 andalso + is_specialization(Contents1, Contents2) andalso + is_specialization(Termination1, Termination2)); +is_specialization(?product(Types1), ?product(Types2)) -> + specialization_list(Types1, Types2); +is_specialization(?tuple(?any, ?any, ?any), ?tuple(_, _, _)) -> false; +is_specialization(?tuple(_, _, _), ?tuple(?any, ?any, ?any)) -> false; +is_specialization(?tuple(Elements1, Arity, _), + ?tuple(Elements2, Arity, _)) when Arity =/= ?any -> + specialization_list(Elements1, Elements2); +is_specialization(?tuple_set([{Arity, List}]), + ?tuple(Elements2, Arity, _)) when Arity =/= ?any -> + specialization_list(sup_tuple_elements(List), Elements2); +is_specialization(?tuple(Elements1, Arity, _), + ?tuple_set([{Arity, List}])) when Arity =/= ?any -> + specialization_list(Elements1, sup_tuple_elements(List)); +is_specialization(?tuple_set(List1), ?tuple_set(List2)) -> + try + specialization_list(lists:append([T || {_Arity, T} <- List1]), + lists:append([T || {_Arity, T} <- List2])) + catch _:_ -> false + end; +is_specialization(?union(List1)=T1, ?union(List2)=T2) -> + case specialization_union2(T1, T2) of + {yes, Type1, Type2} -> is_specialization(Type1, Type2); + no -> specialization_list(List1, List2) + end; +is_specialization(?union(List), T2) -> + case unify_union(List) of + {yes, Type} -> is_specialization(Type, T2); + no -> false + end; +is_specialization(T1, ?union(List)) -> + case unify_union(List) of + {yes, Type} -> is_specialization(T1, Type); + no -> false + end; +is_specialization(?opaque(_) = T1, T2) -> + is_specialization(t_opaque_structure(T1), T2); +is_specialization(T1, ?opaque(_) = T2) -> + is_specialization(T1, t_opaque_structure(T2)); +is_specialization(?var(_), _) -> exit(error); +is_specialization(_, ?var(_)) -> exit(error); +is_specialization(T, T) -> true; +is_specialization(?none, _) -> false; +is_specialization(_, ?none) -> false; +is_specialization(?unit, _) -> false; +is_specialization(_, ?unit) -> false; +is_specialization(#c{}, #c{}) -> false. + +specialization_list(L1, L2) -> + length(L1) =:= length(L2) andalso specialization_list1(L1, L2). + +specialization_list1([], []) -> true; +specialization_list1([T1|L1], [T2|L2]) -> + is_specialization(T1, T2) andalso specialization_list1(L1, L2). + +specialization_union2(?union(List1)=T1, ?union(List2)=T2) -> + case {unify_union(List1), unify_union(List2)} of + {{yes, Type1}, {yes, Type2}} -> {yes, Type1, Type2}; + {{yes, Type1}, no} -> {yes, Type1, T2}; + {no, {yes, Type2}} -> {yes, T1, Type2}; + {no, no} -> no + end. -spec t_inf_lists([erl_type()], [erl_type()]) -> [erl_type()]. |