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-rw-r--r--lib/hipe/cerl/erl_bif_types.erl10
-rw-r--r--lib/hipe/cerl/erl_types.erl993
-rw-r--r--lib/hipe/ppc/hipe_rtl_to_ppc.erl14
-rw-r--r--lib/hipe/rtl/hipe_rtl.erl18
-rw-r--r--lib/hipe/rtl/hipe_rtl_binary_match.erl18
-rw-r--r--lib/hipe/rtl/hipe_tagscheme.erl21
-rw-r--r--lib/hipe/sparc/hipe_rtl_to_sparc.erl10
-rw-r--r--lib/hipe/test/maps_SUITE_data/maps_map_sort_literals.erl31
-rw-r--r--lib/hipe/x86/hipe_rtl_to_x86.erl15
9 files changed, 521 insertions, 609 deletions
diff --git a/lib/hipe/cerl/erl_bif_types.erl b/lib/hipe/cerl/erl_bif_types.erl
index 74e93bf098..5b1401b34a 100644
--- a/lib/hipe/cerl/erl_bif_types.erl
+++ b/lib/hipe/cerl/erl_bif_types.erl
@@ -1070,9 +1070,6 @@ type(hipe_bifs, find_na_or_make_stub, 2, Xs, Opaques) ->
type(hipe_bifs, fun_to_address, 1, Xs, Opaques) ->
strict(hipe_bifs, fun_to_address, 1, Xs,
fun (_) -> t_integer() end, Opaques);
-%% type(hipe_bifs, get_emu_address, 1, Xs, Opaques) ->
-%% strict(hipe_bifs, get_emu_address, 1, Xs,
-%% fun (_) -> t_integer() end, Opaques); % address
type(hipe_bifs, get_fe, 2, Xs, Opaques) ->
strict(hipe_bifs, get_fe, 2, Xs, fun (_) -> t_integer() end, Opaques);
type(hipe_bifs, get_rts_param, 1, Xs, Opaques) ->
@@ -1081,9 +1078,6 @@ type(hipe_bifs, get_rts_param, 1, Xs, Opaques) ->
type(hipe_bifs, invalidate_funinfo_native_addresses, 1, Xs, Opaques) ->
strict(hipe_bifs, invalidate_funinfo_native_addresses, 1, Xs,
fun (_) -> t_nil() end, Opaques);
-%% type(hipe_bifs, make_native_stub, 2, Xs, Opaques) ->
-%% strict(hipe_bifs, make_native_stub, 2, Xs,
-%% fun (_) -> t_integer() end, Opaques); % address
type(hipe_bifs, mark_referred_from, 1, Xs, Opaques) ->
strict(hipe_bifs, mark_referred_from, 1, Xs,
fun (_) -> t_nil() end, Opaques);
@@ -2462,16 +2456,12 @@ arg_types(hipe_bifs, find_na_or_make_stub, 2) ->
[t_mfa(), t_boolean()];
arg_types(hipe_bifs, fun_to_address, 1) ->
[t_mfa()];
-%% arg_types(hipe_bifs, get_emu_address, 1) ->
-%% [t_mfa()];
arg_types(hipe_bifs, get_fe, 2) ->
[t_atom(), t_tuple([t_integer(), t_integer(), t_integer()])];
arg_types(hipe_bifs, get_rts_param, 1) ->
[t_fixnum()];
arg_types(hipe_bifs, invalidate_funinfo_native_addresses, 1) ->
[t_list(t_mfa())];
-%% arg_types(hipe_bifs, make_native_stub, 2) ->
-%% [t_integer(), t_arity()];
arg_types(hipe_bifs, mark_referred_from, 1) ->
[t_mfa()];
arg_types(hipe_bifs, merge_term, 1) ->
diff --git a/lib/hipe/cerl/erl_types.erl b/lib/hipe/cerl/erl_types.erl
index 4b2bec5fa8..09dffe1280 100644
--- a/lib/hipe/cerl/erl_types.erl
+++ b/lib/hipe/cerl/erl_types.erl
@@ -2,7 +2,7 @@
%%
%% %CopyrightBegin%
%%
-%% Copyright Ericsson AB 2003-2014. All Rights Reserved.
+%% Copyright Ericsson AB 2003-2015. All Rights Reserved.
%%
%% The contents of this file are subject to the Erlang Public License,
%% Version 1.1, (the "License"); you may not use this file except in
@@ -40,7 +40,6 @@
any_none_or_unit/1,
lookup_record/3,
max/2,
- module_builtin_opaques/1,
min/2,
number_max/1, number_max/2,
number_min/1, number_min/2,
@@ -79,10 +78,11 @@
t_non_neg_fixnum/0,
t_pos_fixnum/0,
t_float/0,
+ t_var_names/1,
t_form_to_string/1,
- t_from_form/1,
- t_from_form/2,
- t_from_form/3,
+ t_from_form/4,
+ t_from_form/5,
+ t_from_form_without_remote/2,
t_from_range/2,
t_from_range_unsafe/2,
t_from_term/1,
@@ -182,13 +182,11 @@
t_remote/3,
t_string/0,
t_struct_from_opaque/2,
- t_solve_remote/3,
t_subst/2,
t_subtract/2,
t_subtract_list/2,
t_sup/1,
t_sup/2,
- t_tid/0,
t_timeout/0,
t_to_string/1,
t_to_string/2,
@@ -250,6 +248,8 @@
%%
-define(REC_TYPE_LIMIT, 2).
+-define(EXPAND_DEPTH, 16).
+-define(EXPAND_LIMIT, 10000).
-define(TUPLE_TAG_LIMIT, 5).
-define(TUPLE_ARITY_LIMIT, 8).
@@ -368,7 +368,7 @@
-type record_key() :: {'record', atom()}.
-type type_key() :: {'type' | 'opaque', atom(), arity()}.
--type record_value() :: orddict:orddict(). % XXX. To be refined
+-type record_value() :: [{atom(), erl_parse:abstract_expr(), erl_type()}].
-type type_value() :: {module(), erl_type(), atom()}.
-type type_table() :: dict:dict(record_key(), record_value())
| dict:dict(type_key(), type_value()).
@@ -466,16 +466,6 @@ has_opaque_subtype(T) ->
t_opaque_structure(?opaque(Elements)) ->
t_sup([Struct || #opaque{struct = Struct} <- ordsets:to_list(Elements)]).
--spec t_opaque_modules(erl_type()) -> [module()].
-
-t_opaque_modules(?opaque(Elements)) ->
- case ordsets:size(Elements) of
- 1 ->
- [#opaque{mod = Mod}] = set_to_list(Elements),
- [Mod];
- _ -> throw({error, "Unexpected multiple opaque types"})
- end.
-
-spec t_contains_opaque(erl_type()) -> boolean().
t_contains_opaque(Type) ->
@@ -759,7 +749,7 @@ t_opaque_from_records(RecDict) ->
end
end, RecDict),
OpaqueTypeDict =
- dict:map(fun({opaque, Name, _Arity}, {Module, _Type, ArgNames}) ->
+ dict:map(fun({opaque, Name, _Arity}, {{Module, _Form, ArgNames}, _Type}) ->
%% Args = args_to_types(ArgNames),
%% List = lists:zip(ArgNames, Args),
%% TmpVarDict = dict:from_list(List),
@@ -801,11 +791,6 @@ t_struct_from_opaque(Type, _Opaques) -> Type.
list_struct_from_opaque(Types, Opaques) ->
[t_struct_from_opaque(Type, Opaques) || Type <- Types].
--spec module_builtin_opaques(module()) -> [erl_type()].
-
-module_builtin_opaques(Module) ->
- [O || O <- all_opaque_builtins(), lists:member(Module, t_opaque_modules(O))].
-
%%-----------------------------------------------------------------------------
%% Remote types: these types are used for preprocessing;
%% they should never reach the analysis stage.
@@ -825,134 +810,6 @@ is_remote(_) -> false.
-type mod_records() :: dict:dict(module(), type_table()).
--spec t_solve_remote(erl_type(), sets:set(mfa()), mod_records()) -> erl_type().
-
-t_solve_remote(Type, ExpTypes, Records) ->
- {RT, _RR} = t_solve_remote(Type, ExpTypes, Records, []),
- RT.
-
-t_solve_remote(?function(Domain, Range), ET, R, C) ->
- {RT1, RR1} = t_solve_remote(Domain, ET, R, C),
- {RT2, RR2} = t_solve_remote(Range, ET, R, C),
- {?function(RT1, RT2), RR1 ++ RR2};
-t_solve_remote(?list(Types, Term, Size), ET, R, C) ->
- {RT1, RR1} = t_solve_remote(Types, ET, R, C),
- {RT2, RR2} = t_solve_remote(Term, ET, R, C),
- {?list(RT1, RT2, Size), RR1 ++ RR2};
-t_solve_remote(?product(Types), ET, R, C) ->
- {RL, RR} = list_solve_remote(Types, ET, R, C),
- {?product(RL), RR};
-t_solve_remote(?opaque(Set), ET, R, C) ->
- List = ordsets:to_list(Set),
- {NewList, RR} = opaques_solve_remote(List, ET, R, C),
- {?opaque(ordsets:from_list(NewList)), RR};
-t_solve_remote(?tuple(?any, _, _) = T, _ET, _R, _C) -> {T, []};
-t_solve_remote(?tuple(Types, _Arity, _Tag), ET, R, C) ->
- {RL, RR} = list_solve_remote(Types, ET, R, C),
- {t_tuple(RL), RR};
-t_solve_remote(?tuple_set(Set), ET, R, C) ->
- {NewTuples, RR} = tuples_solve_remote(Set, ET, R, C),
- {t_sup(NewTuples), RR};
-t_solve_remote(?remote(Set), ET, R, C) ->
- RemoteList = ordsets:to_list(Set),
- {RL, RR} = list_solve_remote_type(RemoteList, ET, R, C),
- {t_sup(RL), RR};
-t_solve_remote(?union(List), ET, R, C) ->
- {RL, RR} = list_solve_remote(List, ET, R, C),
- {t_sup(RL), RR};
-t_solve_remote(T, _ET, _R, _C) -> {T, []}.
-
-t_solve_remote_type(#remote{mod = RemMod, name = Name, args = Args0} = RemType,
- ET, R, C) ->
- Args = lists:map(fun(A) ->
- {Arg, _} = t_solve_remote(A, ET, R, C),
- Arg
- end, Args0),
- ArgsLen = length(Args),
- case dict:find(RemMod, R) of
- error ->
- self() ! {self(), ext_types, {RemMod, Name, ArgsLen}},
- {t_any(), []};
- {ok, RemDict} ->
- MFA = {RemMod, Name, ArgsLen},
- case sets:is_element(MFA, ET) of
- true ->
- case lookup_type(Name, ArgsLen, RemDict) of
- {type, {_Mod, Type, ArgNames}} ->
- {NewType, NewCycle, NewRR} =
- case can_unfold_more(RemType, C) of
- true ->
- List = lists:zip(ArgNames, Args),
- TmpVarDict = dict:from_list(List),
- {t_from_form(Type, RemDict, TmpVarDict), [RemType|C], []};
- false ->
- {t_any(), C, [RemType]}
- end,
- {RT, RR} = t_solve_remote(NewType, ET, R, NewCycle),
- RetRR = NewRR ++ RR,
- RT1 =
- case lists:member(RemType, RetRR) of
- true -> t_limit(RT, ?REC_TYPE_LIMIT);
- false -> RT
- end,
- {RT1, RetRR};
- {opaque, {Mod, Type, ArgNames}} ->
- List = lists:zip(ArgNames, Args),
- TmpVarDict = dict:from_list(List),
- {Rep, NewCycle, NewRR} =
- case can_unfold_more(RemType, C) of
- true ->
- {t_from_form(Type, RemDict, TmpVarDict), [RemType|C], []};
- false ->
- {t_any(), C, [RemType]}
- end,
- {NewRep, RR} = t_solve_remote(Rep, ET, R, NewCycle),
- RetRR = NewRR ++ RR,
- RT1 =
- case lists:member(RemType, RetRR) of
- true -> t_limit(NewRep, ?REC_TYPE_LIMIT);
- false -> NewRep
- end,
- {skip_opaque_alias(RT1, Mod, Name, Args), RetRR};
- error ->
- Msg = io_lib:format("Unable to find remote type ~w:~w()\n",
- [RemMod, Name]),
- throw({error, Msg})
- end;
- false ->
- self() ! {self(), ext_types, {RemMod, Name, ArgsLen}},
- {t_any(), []}
- end
- end.
-
-list_solve_remote([], _ET, _R, _C) ->
- {[], []};
-list_solve_remote([Type|Types], ET, R, C) ->
- {RT, RR1} = t_solve_remote(Type, ET, R, C),
- {RL, RR2} = list_solve_remote(Types, ET, R, C),
- {[RT|RL], RR1 ++ RR2}.
-
-list_solve_remote_type([], _ET, _R, _C) ->
- {[], []};
-list_solve_remote_type([Type|Types], ET, R, C) ->
- {RT, RR1} = t_solve_remote_type(Type, ET, R, C),
- {RL, RR2} = list_solve_remote_type(Types, ET, R, C),
- {[RT|RL], RR1 ++ RR2}.
-
-opaques_solve_remote([], _ET, _R, _C) ->
- {[], []};
-opaques_solve_remote([#opaque{struct = Struct} = Remote|Tail], ET, R, C) ->
- {RT, RR1} = t_solve_remote(Struct, ET, R, C),
- {LOp, RR2} = opaques_solve_remote(Tail, ET, R, C),
- {[Remote#opaque{struct = RT}|LOp], RR1 ++ RR2}.
-
-tuples_solve_remote([], _ET, _R, _C) ->
- {[], []};
-tuples_solve_remote([{_Sz, Tuples}|Tail], ET, R, C) ->
- {RL, RR1} = list_solve_remote(Tuples, ET, R, C),
- {LSzTpls, RR2} = tuples_solve_remote(Tail, ET, R, C),
- {RL ++ LSzTpls, RR1 ++ RR2}.
-
%%-----------------------------------------------------------------------------
%% Unit type. Signals non termination.
%%
@@ -1987,82 +1844,6 @@ t_parameterized_module() ->
t_timeout() ->
t_sup(t_non_neg_integer(), t_atom('infinity')).
-%%-----------------------------------------------------------------------------
-%% Some built-in opaque types
-%%
-
--spec t_array() -> erl_type().
-
-t_array() ->
- t_opaque(array, array, [t_any()],
- t_tuple([t_atom('array'),
- t_sup([t_atom('undefined'), t_non_neg_integer()]),
- t_sup([t_atom('undefined'), t_non_neg_integer()]),
- t_any(),
- t_any()])).
-
--spec t_dict() -> erl_type().
-
-t_dict() ->
- t_opaque(dict, dict, [t_any(), t_any()],
- t_tuple([t_atom('dict'),
- t_sup([t_atom('undefined'), t_non_neg_integer()]),
- t_sup([t_atom('undefined'), t_non_neg_integer()]),
- t_sup([t_atom('undefined'), t_non_neg_integer()]),
- t_sup([t_atom('undefined'), t_non_neg_integer()]),
- t_sup([t_atom('undefined'), t_non_neg_integer()]),
- t_sup([t_atom('undefined'), t_non_neg_integer()]),
- t_sup([t_atom('undefined'), t_tuple()]),
- t_sup([t_atom('undefined'), t_tuple()])])).
-
--spec t_digraph() -> erl_type().
-
-t_digraph() ->
- t_opaque(digraph, digraph, [],
- t_tuple([t_atom('digraph'),
- t_sup(t_atom(), t_tid()),
- t_sup(t_atom(), t_tid()),
- t_sup(t_atom(), t_tid()),
- t_boolean()])).
-
--spec t_gb_set() -> erl_type().
-
-t_gb_set() ->
- t_opaque(gb_sets, gb_set, [],
- t_tuple([t_non_neg_integer(), t_sup(t_atom('nil'), t_tuple(3))])).
-
--spec t_gb_tree() -> erl_type().
-
-t_gb_tree() ->
- t_opaque(gb_trees, gb_tree, [],
- t_tuple([t_non_neg_integer(), t_sup(t_atom('nil'), t_tuple(4))])).
-
--spec t_queue() -> erl_type().
-
-t_queue() ->
- t_opaque(queue, queue, [t_any()], t_tuple([t_list(), t_list()])).
-
--spec t_set() -> erl_type().
-
-t_set() ->
- t_opaque(sets, set, [t_any()],
- t_tuple([t_atom('set'), t_non_neg_integer(), t_non_neg_integer(),
- t_pos_integer(), t_non_neg_integer(), t_non_neg_integer(),
- t_non_neg_integer(),
- t_sup([t_atom('undefined'), t_tuple()]),
- t_sup([t_atom('undefined'), t_tuple()])])).
-
--spec t_tid() -> erl_type().
-
-t_tid() ->
- t_opaque(ets, tid, [], t_integer()).
-
--spec all_opaque_builtins() -> [erl_type(),...].
-
-all_opaque_builtins() ->
- [t_array(), t_dict(), t_digraph(), t_gb_set(),
- t_gb_tree(), t_queue(), t_set(), t_tid()].
-
%%------------------------------------
%% ?none is allowed in products. A product of size 1 is not a product.
@@ -2357,14 +2138,19 @@ expand_range_from_set(Range = ?int_range(From, To), Set) ->
-spec t_sup([erl_type()]) -> erl_type().
-t_sup([?any|_]) ->
- ?any;
-t_sup([H1, H2|T]) ->
- t_sup([t_sup(H1, H2)|T]);
-t_sup([H]) ->
- subst_all_vars_to_any(H);
-t_sup([]) ->
- ?none.
+t_sup([]) -> ?none;
+t_sup(Ts) ->
+ case lists:any(fun is_any/1, Ts) of
+ true -> ?any;
+ false ->
+ t_sup1(Ts, [])
+ end.
+
+t_sup1([H1, H2|T], L) ->
+ t_sup1(T, [t_sup(H1, H2)|L]);
+t_sup1([T], []) -> subst_all_vars_to_any(T);
+t_sup1(Ts, L) ->
+ t_sup1(Ts++L, []).
-spec t_sup(erl_type(), erl_type()) -> erl_type().
@@ -3182,12 +2968,12 @@ t_subst_aux(T, _VarMap) ->
subst_all_remote(Type0, Substitute) ->
Map =
fun(Type) ->
- case erl_types:t_is_remote(Type) of
+ case t_is_remote(Type) of
true -> Substitute;
false -> Type
end
end,
- erl_types:t_map(Map, Type0).
+ t_map(Map, Type0).
%%-----------------------------------------------------------------------------
%% Unification
@@ -3317,8 +3103,8 @@ is_opaque_type2(#opaque{mod = Mod1, name = Name1, args = Args1}, Opaques) ->
is_type_name(Mod, Name, Args1, Mod, Name, Args2) ->
length(Args1) =:= length(Args2);
-is_type_name(Mod1, Name1, Args1, Mod2, Name2, Args2) ->
- is_same_type_name2(Mod1, Name1, Args1, Mod2, Name2, Args2).
+is_type_name(_Mod1, _Name1, _Args1, _Mod2, _Name2, _Args2) ->
+ false.
%% Two functions since t_unify is not symmetric.
unify_tuple_set_and_tuple1(?tuple_set([{Arity, List}]),
@@ -3869,7 +3655,7 @@ t_abstract_records(?tuple(Elements, Arity, ?atom(_) = Tag), RecDict) ->
[TagAtom] = atom_vals(Tag),
case lookup_record(TagAtom, Arity - 1, RecDict) of
error -> t_tuple([t_abstract_records(E, RecDict) || E <- Elements]);
- {ok, Fields} -> t_tuple([Tag|[T || {_Name, T} <- Fields]])
+ {ok, Fields} -> t_tuple([Tag|[T || {_Name, _Abstr, T} <- Fields]])
end;
t_abstract_records(?tuple(Elements, _Arity, _Tag), RecDict) ->
t_tuple([t_abstract_records(E, RecDict) || E <- Elements]);
@@ -4090,7 +3876,8 @@ record_to_string(Tag, [_|Fields], FieldNames, RecDict) ->
FieldStrings = record_fields_to_string(Fields, FieldNames, RecDict, []),
"#" ++ atom_to_string(Tag) ++ "{" ++ string:join(FieldStrings, ",") ++ "}".
-record_fields_to_string([F|Fs], [{FName, _DefType}|FDefs], RecDict, Acc) ->
+record_fields_to_string([F|Fs], [{FName, _Abstr, _DefType}|FDefs],
+ RecDict, Acc) ->
NewAcc =
case t_is_equal(F, t_any()) orelse t_is_any_atom('undefined', F) of
true -> Acc;
@@ -4116,7 +3903,7 @@ record_field_diffs_to_string(?tuple([_|Fs], Arity, Tag), RecDict) ->
FieldDiffs = field_diffs(Fs, FieldNames, RecDict, []),
string:join(FieldDiffs, " and ").
-field_diffs([F|Fs], [{FName, DefType}|FDefs], RecDict, Acc) ->
+field_diffs([F|Fs], [{FName, _Abstr, DefType}|FDefs], RecDict, Acc) ->
%% Don't care about opaqueness for now.
NewAcc =
case not t_is_none(t_inf(F, DefType)) of
@@ -4156,15 +3943,7 @@ opaque_name(Mod, Name, Extra) ->
flat_format("~s(~s)", [S, Extra]).
mod_name(Mod, Name) ->
- case is_obsolete_opaque_builtin(Mod, Name) of
- true -> flat_format("~w", [Name]);
- false -> flat_format("~w:~w", [Mod, Name])
- end.
-
-is_obsolete_opaque_builtin(digraph, digraph) -> true;
-is_obsolete_opaque_builtin(gb_sets, gb_set) -> true;
-is_obsolete_opaque_builtin(gb_trees, gb_tree) -> true;
-is_obsolete_opaque_builtin(_, _) -> false.
+ flat_format("~w:~w", [Mod, Name]).
%%=============================================================================
%%
@@ -4172,370 +3951,476 @@ is_obsolete_opaque_builtin(_, _) -> false.
%%
%%=============================================================================
--spec t_from_form(parse_form()) -> erl_type().
+-type type_names() :: [type_key() | record_key()].
+
+-spec t_from_form(parse_form(), sets:set(mfa()),
+ module(), mod_records()) -> erl_type().
-t_from_form(Form) ->
- t_from_form(Form, dict:new()).
+t_from_form(Form, ExpTypes, Module, RecDict) ->
+ t_from_form(Form, ExpTypes, Module, RecDict, dict:new()).
--spec t_from_form(parse_form(), type_table()) -> erl_type().
+-spec t_from_form(parse_form(), sets:set(mfa()),
+ module(), mod_records(), var_table()) -> erl_type().
-t_from_form(Form, RecDict) ->
- t_from_form(Form, RecDict, dict:new()).
+t_from_form(Form, ExpTypes, Module, RecDict, VarDict) ->
+ {T, _} = t_from_form1(Form, [], ExpTypes, Module, RecDict, VarDict),
+ T.
--spec t_from_form(parse_form(), type_table(), var_table()) -> erl_type().
+%% Replace external types with with none().
+-spec t_from_form_without_remote(parse_form(), type_table()) -> erl_type().
-t_from_form(Form, RecDict, VarDict) ->
- {T, _R} = t_from_form(Form, [], RecDict, VarDict),
+t_from_form_without_remote(Form, TypeTable) ->
+ Module = mod,
+ RecDict = dict:from_list([{Module, TypeTable}]),
+ ExpTypes = replace_by_none,
+ {T, _} = t_from_form1(Form, [], ExpTypes, Module, RecDict, dict:new()),
T.
--type type_names() :: [type_key() | record_key()].
+%% REC_TYPE_LIMIT is used for limiting the depth of recursive types.
+%% EXPAND_LIMIT is used for limiting the size of types by
+%% limiting the number of elements of lists within one type form.
+%% EXPAND_DEPTH is used in conjunction with EXPAND_LIMIT to make the
+%% types balanced (unions will otherwise collapse to any()) by limiting
+%% the depth the same way as t_limit/2 does.
+
+-type expand_limit() :: integer().
--spec t_from_form(parse_form(), type_names(), type_table(), var_table()) ->
- {erl_type(), type_names()}.
+-type expand_depth() :: integer().
-t_from_form({var, _L, '_'}, _TypeNames, _RecDict, _VarDict) ->
- {t_any(), []};
-t_from_form({var, _L, Name}, _TypeNames, _RecDict, VarDict) ->
- case dict:find(Name, VarDict) of
- error -> {t_var(Name), []};
- {ok, Val} -> {Val, []}
+t_from_form1(Form, TypeNames, ET, M, MR, V) ->
+ t_from_form1(Form, TypeNames, ET, M, MR, V, ?EXPAND_DEPTH).
+
+t_from_form1(Form, TypeNames, ET, M, MR, V, D) ->
+ L = ?EXPAND_LIMIT,
+ {T, L1} = t_from_form(Form, TypeNames, ET, M, MR, V, D, L),
+ if
+ L1 =< 0, D > 1 ->
+ D1 = D div 2,
+ t_from_form1(Form, TypeNames, ET, M, MR, V, D1);
+ true ->
+ {T, L1}
+ end.
+
+-spec t_from_form(parse_form(), type_names(),
+ sets:set(mfa()) | 'replace_by_none',
+ module(), mod_records(), var_table(),
+ expand_depth(), expand_limit())
+ -> {erl_type(), expand_limit()}.
+
+%% If there is something wrong with parse_form()
+%% throw({error, io_lib:chars()} is called;
+%% for unknown remote types
+%% self() ! {self(), ext_types, {RemMod, Name, ArgsLen}}
+%% is called, unless 'replace_by_none' is given.
+%%
+%% It is assumed that M can be found in MR.
+
+t_from_form(_, _TypeNames, _ET, _M, _MR, _V, D, L) when D =< 0 ; L =< 0 ->
+ {t_any(), L};
+t_from_form({var, _L, '_'}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_any(), L};
+t_from_form({var, _L, Name}, _TypeNames, _ET, _M, _MR, V, _D, L) ->
+ case dict:find(Name, V) of
+ error -> {t_var(Name), L};
+ {ok, Val} -> {Val, L}
end;
-t_from_form({ann_type, _L, [_Var, Type]}, TypeNames, RecDict, VarDict) ->
- t_from_form(Type, TypeNames, RecDict, VarDict);
-t_from_form({paren_type, _L, [Type]}, TypeNames, RecDict, VarDict) ->
- t_from_form(Type, TypeNames, RecDict, VarDict);
+t_from_form({ann_type, _L, [_Var, Type]}, TypeNames, ET, M, MR, V, D, L) ->
+ t_from_form(Type, TypeNames, ET, M, MR, V, D, L);
+t_from_form({paren_type, _L, [Type]}, TypeNames, ET, M, MR, V, D, L) ->
+ t_from_form(Type, TypeNames, ET, M, MR, V, D, L);
t_from_form({remote_type, _L, [{atom, _, Module}, {atom, _, Type}, Args]},
- TypeNames, RecDict, VarDict) ->
- {L, R} = list_from_form(Args, TypeNames, RecDict, VarDict),
- {t_remote(Module, Type, L), R};
-t_from_form({atom, _L, Atom}, _TypeNames, _RecDict, _VarDict) ->
- {t_atom(Atom), []};
-t_from_form({integer, _L, Int}, _TypeNames, _RecDict, _VarDict) ->
- {t_integer(Int), []};
-t_from_form({op, _L, _Op, _Arg} = Op, _TypeNames, _RecDict, _VarDict) ->
+ TypeNames, ET, M, MR, V, D, L) ->
+ remote_from_form(Module, Type, Args, TypeNames, ET, M, MR, V, D, L);
+t_from_form({atom, _L, Atom}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_atom(Atom), L};
+t_from_form({integer, _L, Int}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_integer(Int), L};
+t_from_form({op, _L, _Op, _Arg} = Op, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
case erl_eval:partial_eval(Op) of
{integer, _, Val} ->
- {t_integer(Val), []};
+ {t_integer(Val), L};
_ -> throw({error, io_lib:format("Unable to evaluate type ~w\n", [Op])})
end;
t_from_form({op, _L, _Op, _Arg1, _Arg2} = Op, _TypeNames,
- _RecDict, _VarDict) ->
+ _ET, _M, _MR, _V, _D, L) ->
case erl_eval:partial_eval(Op) of
{integer, _, Val} ->
- {t_integer(Val), []};
+ {t_integer(Val), L};
_ -> throw({error, io_lib:format("Unable to evaluate type ~w\n", [Op])})
end;
-t_from_form({type, _L, any, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_any(), []};
-t_from_form({type, _L, arity, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_arity(), []};
-t_from_form({type, _L, array, []}, TypeNames, RecDict, VarDict) ->
- builtin_type(array, t_array(), TypeNames, RecDict, VarDict);
-t_from_form({type, _L, atom, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_atom(), []};
-t_from_form({type, _L, binary, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_binary(), []};
+t_from_form({type, _L, any, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_any(), L};
+t_from_form({type, _L, arity, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_arity(), L};
+t_from_form({type, _L, atom, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_atom(), L};
+t_from_form({type, _L, binary, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_binary(), L};
t_from_form({type, _L, binary, [Base, Unit]} = Type,
- _TypeNames, _RecDict, _VarDict) ->
+ _TypeNames, _ET, _M, _MR, _V, _D, L) ->
case {erl_eval:partial_eval(Base), erl_eval:partial_eval(Unit)} of
{{integer, _, B}, {integer, _, U}} when B >= 0, U >= 0 ->
- {t_bitstr(U, B), []};
+ {t_bitstr(U, B), L};
_ -> throw({error, io_lib:format("Unable to evaluate type ~w\n", [Type])})
end;
-t_from_form({type, _L, bitstring, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_bitstr(), []};
-t_from_form({type, _L, bool, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_boolean(), []}; % XXX: Temporarily
-t_from_form({type, _L, boolean, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_boolean(), []};
-t_from_form({type, _L, byte, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_byte(), []};
-t_from_form({type, _L, char, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_char(), []};
-t_from_form({type, _L, dict, []}, TypeNames, RecDict, VarDict) ->
- builtin_type(dict, t_dict(), TypeNames, RecDict, VarDict);
-t_from_form({type, _L, digraph, []}, TypeNames, RecDict, VarDict) ->
- builtin_type(digraph, t_digraph(), TypeNames, RecDict, VarDict);
-t_from_form({type, _L, float, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_float(), []};
-t_from_form({type, _L, function, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_fun(), []};
-t_from_form({type, _L, 'fun', []}, _TypeNames, _RecDict, _VarDict) ->
- {t_fun(), []};
+t_from_form({type, _L, bitstring, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_bitstr(), L};
+t_from_form({type, _L, bool, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_boolean(), L}; % XXX: Temporarily
+t_from_form({type, _L, boolean, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_boolean(), L};
+t_from_form({type, _L, byte, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_byte(), L};
+t_from_form({type, _L, char, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_char(), L};
+t_from_form({type, _L, float, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_float(), L};
+t_from_form({type, _L, function, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_fun(), L};
+t_from_form({type, _L, 'fun', []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_fun(), L};
t_from_form({type, _L, 'fun', [{type, _, any}, Range]}, TypeNames,
- RecDict, VarDict) ->
- {T, R} = t_from_form(Range, TypeNames, RecDict, VarDict),
- {t_fun(T), R};
+ ET, M, MR, V, D, L) ->
+ {T, L1} = t_from_form(Range, TypeNames, ET, M, MR, V, D - 1, L - 1),
+ {t_fun(T), L1};
t_from_form({type, _L, 'fun', [{type, _, product, Domain}, Range]},
- TypeNames, RecDict, VarDict) ->
- {L, R1} = list_from_form(Domain, TypeNames, RecDict, VarDict),
- {T, R2} = t_from_form(Range, TypeNames, RecDict, VarDict),
- {t_fun(L, T), R1 ++ R2};
-t_from_form({type, _L, gb_set, []}, TypeNames, RecDict, VarDict) ->
- builtin_type(gb_set, t_gb_set(), TypeNames, RecDict, VarDict);
-t_from_form({type, _L, gb_tree, []}, TypeNames, RecDict, VarDict) ->
- builtin_type(gb_tree, t_gb_tree(), TypeNames, RecDict, VarDict);
-t_from_form({type, _L, identifier, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_identifier(), []};
-t_from_form({type, _L, integer, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_integer(), []};
-t_from_form({type, _L, iodata, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_iodata(), []};
-t_from_form({type, _L, iolist, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_iolist(), []};
-t_from_form({type, _L, list, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_list(), []};
-t_from_form({type, _L, list, [Type]}, TypeNames, RecDict, VarDict) ->
- {T, R} = t_from_form(Type, TypeNames, RecDict, VarDict),
- {t_list(T), R};
-t_from_form({type, _L, map, _}, TypeNames, RecDict, VarDict) ->
- builtin_type(map, t_map([]), TypeNames, RecDict, VarDict);
-t_from_form({type, _L, mfa, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_mfa(), []};
-t_from_form({type, _L, module, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_module(), []};
-t_from_form({type, _L, nil, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_nil(), []};
-t_from_form({type, _L, neg_integer, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_neg_integer(), []};
-t_from_form({type, _L, non_neg_integer, []}, _TypeNames, _RecDict,
- _VarDict) ->
- {t_non_neg_integer(), []};
-t_from_form({type, _L, no_return, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_unit(), []};
-t_from_form({type, _L, node, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_node(), []};
-t_from_form({type, _L, none, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_none(), []};
-t_from_form({type, _L, nonempty_list, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_nonempty_list(), []};
-t_from_form({type, _L, nonempty_list, [Type]}, TypeNames, RecDict, VarDict) ->
- {T, R} = t_from_form(Type, TypeNames, RecDict, VarDict),
- {t_nonempty_list(T), R};
+ TypeNames, ET, M, MR, V, D, L) ->
+ {Dom1, L1} = list_from_form(Domain, TypeNames, ET, M, MR, V, D, L),
+ {Ran1, L2} = t_from_form(Range, TypeNames, ET, M, MR, V, D - 1, L1),
+ {t_fun(Dom1, Ran1), L2};
+t_from_form({type, _L, identifier, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_identifier(), L};
+t_from_form({type, _L, integer, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_integer(), L};
+t_from_form({type, _L, iodata, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_iodata(), L};
+t_from_form({type, _L, iolist, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_iolist(), L};
+t_from_form({type, _L, list, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_list(), L};
+t_from_form({type, _L, list, [Type]}, TypeNames, ET, M, MR, V, D, L) ->
+ {T, L1} = t_from_form(Type, TypeNames, ET, M, MR, V, D - 1, L - 1),
+ {t_list(T), L1};
+t_from_form({type, _L, map, _}, TypeNames, ET, M, MR, V, D, L) ->
+ builtin_type(map, t_map([]), TypeNames, ET, M, MR, V, D, L);
+t_from_form({type, _L, mfa, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_mfa(), L};
+t_from_form({type, _L, module, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_module(), L};
+t_from_form({type, _L, nil, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_nil(), L};
+t_from_form({type, _L, neg_integer, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_neg_integer(), L};
+t_from_form({type, _L, non_neg_integer, []}, _TypeNames, _ET, _M, _MR,
+ _V, _D, L) ->
+ {t_non_neg_integer(), L};
+t_from_form({type, _L, no_return, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_unit(), L};
+t_from_form({type, _L, node, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_node(), L};
+t_from_form({type, _L, none, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_none(), L};
+t_from_form({type, _L, nonempty_list, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_nonempty_list(), L};
+t_from_form({type, _L, nonempty_list, [Type]}, TypeNames, ET, M, MR, V, D, L) ->
+ {T, L1} = t_from_form(Type, TypeNames, ET, M, MR, V, D, L - 1),
+ {t_nonempty_list(T), L1};
t_from_form({type, _L, nonempty_improper_list, [Cont, Term]}, TypeNames,
- RecDict, VarDict) ->
- {T1, R1} = t_from_form(Cont, TypeNames, RecDict, VarDict),
- {T2, R2} = t_from_form(Term, TypeNames, RecDict, VarDict),
- {t_cons(T1, T2), R1 ++ R2};
+ ET, M, MR, V, D, L) ->
+ {T1, L1} = t_from_form(Cont, TypeNames, ET, M, MR, V, D, L - 1),
+ {T2, L2} = t_from_form(Term, TypeNames, ET, M, MR, V, D, L1),
+ {t_cons(T1, T2), L2};
t_from_form({type, _L, nonempty_maybe_improper_list, []}, _TypeNames,
- _RecDict, _VarDict) ->
- {t_cons(?any, ?any), []};
+ _ET, _M, _MR, _V, _D, L) ->
+ {t_cons(?any, ?any), L};
t_from_form({type, _L, nonempty_maybe_improper_list, [Cont, Term]},
- TypeNames, RecDict, VarDict) ->
- {T1, R1} = t_from_form(Cont, TypeNames, RecDict, VarDict),
- {T2, R2} = t_from_form(Term, TypeNames, RecDict, VarDict),
- {t_cons(T1, T2), R1 ++ R2};
-t_from_form({type, _L, nonempty_string, []}, _TypeNames, _RecDict,
- _VarDict) ->
- {t_nonempty_string(), []};
-t_from_form({type, _L, number, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_number(), []};
-t_from_form({type, _L, pid, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_pid(), []};
-t_from_form({type, _L, port, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_port(), []};
-t_from_form({type, _L, pos_integer, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_pos_integer(), []};
+ TypeNames, ET, M, MR, V, D, L) ->
+ {T1, L1} = t_from_form(Cont, TypeNames, ET, M, MR, V, D, L - 1),
+ {T2, L2} = t_from_form(Term, TypeNames, ET, M, MR, V, D, L1),
+ {t_cons(T1, T2), L2};
+t_from_form({type, _L, nonempty_string, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_nonempty_string(), L};
+t_from_form({type, _L, number, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_number(), L};
+t_from_form({type, _L, pid, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_pid(), L};
+t_from_form({type, _L, port, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_port(), L};
+t_from_form({type, _L, pos_integer, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_pos_integer(), L};
t_from_form({type, _L, maybe_improper_list, []}, _TypeNames,
- _RecDict, _VarDict) ->
- {t_maybe_improper_list(), []};
+ _ET, _M, _MR, _V, _D, L) ->
+ {t_maybe_improper_list(), L};
t_from_form({type, _L, maybe_improper_list, [Content, Termination]},
- TypeNames, RecDict, VarDict) ->
- {T1, R1} = t_from_form(Content, TypeNames, RecDict, VarDict),
- {T2, R2} = t_from_form(Termination, TypeNames, RecDict, VarDict),
- {t_maybe_improper_list(T1, T2), R1 ++ R2};
-t_from_form({type, _L, product, Elements}, TypeNames, RecDict, VarDict) ->
- {L, R} = list_from_form(Elements, TypeNames, RecDict, VarDict),
- {t_product(L), R};
-t_from_form({type, _L, queue, []}, TypeNames, RecDict, VarDict) ->
- builtin_type(queue, t_queue(), TypeNames, RecDict, VarDict);
+ TypeNames, ET, M, MR, V, D, L) ->
+ {T1, L1} = t_from_form(Content, TypeNames, ET, M, MR, V, D, L - 1),
+ {T2, L2} = t_from_form(Termination, TypeNames, ET, M, MR, V, D, L1),
+ {t_maybe_improper_list(T1, T2), L2};
+t_from_form({type, _L, product, Elements}, TypeNames, ET, M, MR, V, D, L) ->
+ {Lst, L1} = list_from_form(Elements, TypeNames, ET, M, MR, V, D - 1, L),
+ {t_product(Lst), L1};
t_from_form({type, _L, range, [From, To]} = Type,
- _TypeNames, _RecDict, _VarDict) ->
+ _TypeNames, _ET, _M, _MR, _V, _D, L) ->
case {erl_eval:partial_eval(From), erl_eval:partial_eval(To)} of
{{integer, _, FromVal}, {integer, _, ToVal}} ->
- {t_from_range(FromVal, ToVal), []};
+ {t_from_range(FromVal, ToVal), L};
_ -> throw({error, io_lib:format("Unable to evaluate type ~w\n", [Type])})
end;
-t_from_form({type, _L, record, [Name|Fields]}, TypeNames, RecDict, VarDict) ->
- record_from_form(Name, Fields, TypeNames, RecDict, VarDict);
-t_from_form({type, _L, reference, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_reference(), []};
-t_from_form({type, _L, set, []}, TypeNames, RecDict, VarDict) ->
- builtin_type(set, t_set(), TypeNames, RecDict, VarDict);
-t_from_form({type, _L, string, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_string(), []};
-t_from_form({type, _L, term, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_any(), []};
-t_from_form({type, _L, tid, []}, TypeNames, RecDict, VarDict) ->
- builtin_type(tid, t_tid(), TypeNames, RecDict, VarDict);
-t_from_form({type, _L, timeout, []}, _TypeNames, _RecDict, _VarDict) ->
- {t_timeout(), []};
-t_from_form({type, _L, tuple, any}, _TypeNames, _RecDict, _VarDict) ->
- {t_tuple(), []};
-t_from_form({type, _L, tuple, Args}, TypeNames, RecDict, VarDict) ->
- {L, R} = list_from_form(Args, TypeNames, RecDict, VarDict),
- {t_tuple(L), R};
-t_from_form({type, _L, union, Args}, TypeNames, RecDict, VarDict) ->
- {L, R} = list_from_form(Args, TypeNames, RecDict, VarDict),
- {t_sup(L), R};
-t_from_form({type, _L, Name, Args}, TypeNames, RecDict, VarDict) ->
- type_from_form(Name, Args, TypeNames, RecDict, VarDict);
+t_from_form({type, _L, record, [Name|Fields]}, TypeNames, ET, M, MR, V, D, L) ->
+ record_from_form(Name, Fields, TypeNames, ET, M, MR, V, D, L);
+t_from_form({type, _L, reference, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_reference(), L};
+t_from_form({type, _L, string, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_string(), L};
+t_from_form({type, _L, term, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_any(), L};
+t_from_form({type, _L, timeout, []}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_timeout(), L};
+t_from_form({type, _L, tuple, any}, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {t_tuple(), L};
+t_from_form({type, _L, tuple, Args}, TypeNames, ET, M, MR, V, D, L) ->
+ {Lst, L1} = list_from_form(Args, TypeNames, ET, M, MR, V, D - 1, L),
+ {t_tuple(Lst), L1};
+t_from_form({type, _L, union, Args}, TypeNames, ET, M, MR, V, D, L) ->
+ {Lst, L1} = list_from_form(Args, TypeNames, ET, M, MR, V, D, L),
+ {t_sup(Lst), L1};
+t_from_form({user_type, _L, Name, Args}, TypeNames, ET, M, MR, V, D, L) ->
+ type_from_form(Name, Args, TypeNames, ET, M, MR, V, D, L);
+t_from_form({type, _L, Name, Args}, TypeNames, ET, M, MR, V, D, L) ->
+ %% Compatibility: modules compiled before Erlang/OTP 18.0.
+ type_from_form(Name, Args, TypeNames, ET, M, MR, V, D, L);
t_from_form({opaque, _L, Name, {Mod, Args, Rep}}, _TypeNames,
- _RecDict, _VarDict) ->
- {t_opaque(Mod, Name, Args, Rep), []}.
-
-builtin_type(Name, Type, TypeNames, RecDict, VarDict) ->
- case lookup_type(Name, 0, RecDict) of
- {_, {_M, _T, _A}} ->
- type_from_form(Name, [], TypeNames, RecDict, VarDict);
+ _ET, _M, _MR, _V, _D, L) ->
+ %% XXX. To be removed.
+ {t_opaque(Mod, Name, Args, Rep), L}.
+
+builtin_type(Name, Type, TypeNames, ET, M, MR, V, D, L) ->
+ case dict:find(M, MR) of
+ {ok, R} ->
+ case lookup_type(Name, 0, R) of
+ {_, {{_M, _F, _A}, _T}} ->
+ type_from_form(Name, [], TypeNames, ET, M, MR, V, D, L);
+ error ->
+ {Type, L}
+ end;
error ->
- {Type, []}
+ {Type, L}
end.
-type_from_form(Name, Args, TypeNames, RecDict, VarDict) ->
+type_from_form(Name, Args, TypeNames, ET, M, MR, V, D, L) ->
ArgsLen = length(Args),
- ArgTypes = forms_to_types(Args, TypeNames, RecDict, VarDict),
- case lookup_type(Name, ArgsLen, RecDict) of
- {type, {_Module, Type, ArgNames}} ->
- TypeName = {type, Name, ArgsLen},
+ {ArgTypes, L1} = list_from_form(Args, TypeNames, ET, M, MR, V, D, L),
+ {ok, R} = dict:find(M, MR),
+ case lookup_type(Name, ArgsLen, R) of
+ {type, {{Module, Form, ArgNames}, _Type}} ->
+ TypeName = {type, Module, Name, ArgsLen},
case can_unfold_more(TypeName, TypeNames) of
true ->
List = lists:zip(ArgNames, ArgTypes),
- TmpVarDict = dict:from_list(List),
- {T, R} = t_from_form(Type, [TypeName|TypeNames],
- RecDict, TmpVarDict),
- case lists:member(TypeName, R) of
- true -> {t_limit(T, ?REC_TYPE_LIMIT), R};
- false -> {T, R}
- end;
- false -> {t_any(), [TypeName]}
+ TmpV = dict:from_list(List),
+ t_from_form(Form, [TypeName|TypeNames], ET, M, MR, TmpV, D, L1);
+ false ->
+ {t_any(), L1}
end;
- {opaque, {Module, Type, ArgNames}} ->
- TypeName = {opaque, Name, ArgsLen},
- {Rep, Rret} =
+ {opaque, {{Module, Form, ArgNames}, Type}} ->
+ TypeName = {opaque, Module, Name, ArgsLen},
+ {Rep, L2} =
case can_unfold_more(TypeName, TypeNames) of
true ->
List = lists:zip(ArgNames, ArgTypes),
- TmpVarDict = dict:from_list(List),
- {T, R} = t_from_form(Type, [TypeName|TypeNames],
- RecDict, TmpVarDict),
- case lists:member(TypeName, R) of
- true -> {t_limit(T, ?REC_TYPE_LIMIT), R};
- false -> {T, R}
- end;
- false -> {t_any(), [TypeName]}
+ TmpV = dict:from_list(List),
+ t_from_form(Form, [TypeName|TypeNames], ET, M, MR, TmpV, D, L1);
+ false -> {t_any(), L1}
end,
+ Rep1 = choose_opaque_type(Rep, Type),
Args2 = [subst_all_vars_to_any(ArgType) || ArgType <- ArgTypes],
- {skip_opaque_alias(Rep, Module, Name, Args2), Rret};
+ {skip_opaque_alias(Rep1, Module, Name, Args2), L2};
error ->
Msg = io_lib:format("Unable to find type ~w/~w\n", [Name, ArgsLen]),
throw({error, Msg})
end.
-forms_to_types(Forms, TypeNames, RecDict, VarDict) ->
- {Types, _} = list_from_form(Forms, TypeNames, RecDict, VarDict),
- Types.
-
skip_opaque_alias(?opaque(_) = T, _Mod, _Name, _Args) -> T;
skip_opaque_alias(T, Module, Name, Args) ->
t_opaque(Module, Name, Args, T).
-record_from_form({atom, _, Name}, ModFields, TypeNames, RecDict, VarDict) ->
+remote_from_form(RemMod, Name, Args, TypeNames, ET, M, MR, V, D, L) ->
+ {ArgTypes, L1} = list_from_form(Args, TypeNames, ET, M, MR, V, D, L),
+ if
+ ET =:= replace_by_none ->
+ {t_none(), L1};
+ true ->
+ ArgsLen = length(Args),
+ case dict:find(RemMod, MR) of
+ error ->
+ self() ! {self(), ext_types, {RemMod, Name, ArgsLen}},
+ {t_any(), L1};
+ {ok, RemDict} ->
+ MFA = {RemMod, Name, ArgsLen},
+ case sets:is_element(MFA, ET) of
+ true ->
+ case lookup_type(Name, ArgsLen, RemDict) of
+ {type, {{_Mod, Form, ArgNames}, _Type}} ->
+ RemType = {type, RemMod, Name, ArgsLen},
+ case can_unfold_more(RemType, TypeNames) of
+ true ->
+ List = lists:zip(ArgNames, ArgTypes),
+ TmpVarDict = dict:from_list(List),
+ NewTypeNames = [RemType|TypeNames],
+ t_from_form(Form, NewTypeNames, ET,
+ RemMod, MR, TmpVarDict, D, L1);
+ false ->
+ {t_any(), L1}
+ end;
+ {opaque, {{Mod, Form, ArgNames}, Type}} ->
+ RemType = {opaque, RemMod, Name, ArgsLen},
+ List = lists:zip(ArgNames, ArgTypes),
+ TmpVarDict = dict:from_list(List),
+ {NewRep, L2} =
+ case can_unfold_more(RemType, TypeNames) of
+ true ->
+ NewTypeNames = [RemType|TypeNames],
+ t_from_form(Form, NewTypeNames, ET, RemMod, MR,
+ TmpVarDict, D, L1);
+ false ->
+ {t_any(), L1}
+ end,
+ NewRep1 = choose_opaque_type(NewRep, Type),
+ {skip_opaque_alias(NewRep1, Mod, Name, ArgTypes), L2};
+ error ->
+ Msg = io_lib:format("Unable to find remote type ~w:~w()\n",
+ [RemMod, Name]),
+ throw({error, Msg})
+ end;
+ false ->
+ self() ! {self(), ext_types, {RemMod, Name, ArgsLen}},
+ {t_any(), L1}
+ end
+ end
+ end.
+
+%% Opaque types (both local and remote) are problematic when it comes
+%% to the limits (TypeNames, D, and L). The reason is that if any() is
+%% substituted for a more specialized subtype of an opaque type, the
+%% property stated along with decorate_with_opaque() (the type has to
+%% be a subtype of the declared type) no longer holds.
+%%
+%% The less than perfect remedy: if the opaque type created from a
+%% form is not a subset of the declared type, the declared type is
+%% used instead, effectively bypassing the limits, and potentially
+%% resulting in huge types.
+choose_opaque_type(Type, DeclType) ->
+ case
+ t_is_subtype(subst_all_vars_to_any(Type),
+ subst_all_vars_to_any(DeclType))
+ of
+ true -> Type;
+ false -> DeclType
+ end.
+
+record_from_form({atom, _, Name}, ModFields, TypeNames, ET, M, MR, V, D, L) ->
case can_unfold_more({record, Name}, TypeNames) of
true ->
- case lookup_record(Name, RecDict) of
+ {ok, R} = dict:find(M, MR),
+ case lookup_record(Name, R) of
{ok, DeclFields} ->
- TypeNames1 = [{record, Name}|TypeNames],
- AreTyped = [is_erl_type(FieldType)
- || {_FieldName, FieldType} <- DeclFields],
- {DeclFields1, R1} =
- case lists:all(fun(Elem) -> Elem end, AreTyped) of
- true -> {DeclFields, []};
- false -> fields_from_form(DeclFields, TypeNames1,
- RecDict, dict:new())
- end,
- {GetModRec, R2} = get_mod_record(ModFields, DeclFields1,
- TypeNames1,
- RecDict, VarDict),
+ NewTypeNames = [{record, Name}|TypeNames],
+ {GetModRec, L1} = get_mod_record(ModFields, DeclFields,
+ NewTypeNames, ET, M, MR, V, D, L),
case GetModRec of
{error, FieldName} ->
throw({error, io_lib:format("Illegal declaration of #~w{~w}\n",
[Name, FieldName])});
{ok, NewFields} ->
- {t_tuple(
- [t_atom(Name)|[Type || {_FieldName, Type} <- NewFields]]),
- R1 ++ R2}
+ {NewFields1, L2} =
+ fields_from_form(NewFields, NewTypeNames, ET, M, MR,
+ dict:new(), D, L1),
+ Rec = t_tuple(
+ [t_atom(Name)|[Type
+ || {_FieldName, Type} <- NewFields1]]),
+ {Rec, L2}
end;
error ->
throw({error, io_lib:format("Unknown record #~w{}\n", [Name])})
end;
- false -> {t_any(), []}
+ false ->
+ {t_any(), L}
end.
-get_mod_record([], DeclFields, _TypeNames, _RecDict, _VarDict) ->
- {{ok, DeclFields}, []};
-get_mod_record(ModFields, DeclFields, TypeNames, RecDict, VarDict) ->
- DeclFieldsDict = orddict:from_list(DeclFields),
- {ModFieldsDict, R} = build_field_dict(ModFields, TypeNames,
- RecDict, VarDict),
- case get_mod_record(DeclFieldsDict, ModFieldsDict, []) of
- {error, _FieldName} = Error -> {Error, R};
- {ok, FinalOrdDict} ->
- {{ok, [{FieldName, orddict:fetch(FieldName, FinalOrdDict)}
- || {FieldName, _} <- DeclFields]},
- R}
+get_mod_record([], DeclFields, _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {{ok, DeclFields}, L};
+get_mod_record(ModFields, DeclFields, TypeNames, ET, M, MR, V, D, L) ->
+ DeclFieldsDict = lists:keysort(1, DeclFields),
+ {ModFieldsDict, L1} =
+ build_field_dict(ModFields, TypeNames, ET, M, MR, V, D, L),
+ case get_mod_record_types(DeclFieldsDict, ModFieldsDict, []) of
+ {error, _FieldName} = Error -> {Error, L1};
+ {ok, FinalKeyDict} ->
+ Fields = [lists:keyfind(FieldName, 1, FinalKeyDict)
+ || {FieldName, _, _} <- DeclFields],
+ {{ok, Fields}, L1}
end.
-build_field_dict(FieldTypes, TypeNames, RecDict, VarDict) ->
- build_field_dict(FieldTypes, TypeNames, RecDict, VarDict, []).
-
-build_field_dict([{type, _, field_type, [{atom, _, Name}, Type]}|Left],
- TypeNames, RecDict, VarDict, Acc) ->
- {T, R1} = t_from_form(Type, TypeNames, RecDict, VarDict),
- NewAcc = [{Name, T}|Acc],
- {D, R2} = build_field_dict(Left, TypeNames, RecDict, VarDict, NewAcc),
- {D, R1 ++ R2};
-build_field_dict([], _TypeNames, _RecDict, _VarDict, Acc) ->
- {orddict:from_list(Acc), []}.
-
-get_mod_record([{FieldName, DeclType}|Left1],
- [{FieldName, ModType}|Left2], Acc) ->
- ModTypeNoVars = subst_all_vars_to_any(ModType),
- case
- contains_remote(ModTypeNoVars)
- orelse contains_remote(DeclType)
- orelse t_is_subtype(ModTypeNoVars, DeclType)
- of
+build_field_dict(FieldTypes, TypeNames, ET, M, MR, V, D, L) ->
+ build_field_dict(FieldTypes, TypeNames, ET, M, MR, V, D, L, []).
+
+build_field_dict([{type, _, field_type, [{atom, _, Name}, Type]}|Left],
+ TypeNames, ET, M, MR, V, D, L, Acc) ->
+ {T, L1} = t_from_form(Type, TypeNames, ET, M, MR, V, D, L - 1),
+ %% The cached record field type (DeclType) in
+ %% get_mod_record_types()), was created with a similar call as TT.
+ %% Using T for the subtype test does not work since any() is not
+ %% always a subset of the field type.
+ TT = t_from_form(Type, ET, M, MR, V),
+ NewAcc = [{Name, Type, T, TT}|Acc],
+ {Dict, L2} =
+ build_field_dict(Left, TypeNames, ET, M, MR, V, D, L1, NewAcc),
+ {Dict, L2};
+build_field_dict([], _TypeNames, _ET, _M, _MR, _V, _D, L, Acc) ->
+ {lists:keysort(1, Acc), L}.
+
+get_mod_record_types([{FieldName, _Abstr, DeclType}|Left1],
+ [{FieldName, TypeForm, ModType, ModTypeTest}|Left2],
+ Acc) ->
+ ModTypeNoVars = subst_all_vars_to_any(ModTypeTest),
+ case t_is_subtype(ModTypeNoVars, DeclType) of
false -> {error, FieldName};
- true -> get_mod_record(Left1, Left2, [{FieldName, ModType}|Acc])
+ true -> get_mod_record_types(Left1, Left2,
+ [{FieldName, TypeForm, ModType}|Acc])
end;
-get_mod_record([{FieldName1, _DeclType} = DT|Left1],
- [{FieldName2, _ModType}|_] = List2,
- Acc) when FieldName1 < FieldName2 ->
- get_mod_record(Left1, List2, [DT|Acc]);
-get_mod_record(DeclFields, [], Acc) ->
- {ok, orddict:from_list(Acc ++ DeclFields)};
-get_mod_record(_, [{FieldName2, _ModType}|_], _Acc) ->
+get_mod_record_types([{FieldName1, _Abstr, _DeclType} = DT|Left1],
+ [{FieldName2, _FormType, _ModType, _TT}|_] = List2,
+ Acc) when FieldName1 < FieldName2 ->
+ get_mod_record_types(Left1, List2, [DT|Acc]);
+get_mod_record_types(Left1, [], Acc) ->
+ {ok, lists:keysort(1, Left1++Acc)};
+get_mod_record_types(_, [{FieldName2, _FormType, _ModType, _TT}|_], _Acc) ->
{error, FieldName2}.
-contains_remote(Type) ->
- TypeNoRemote = subst_all_remote(Type, t_none()),
- not t_is_equal(Type, TypeNoRemote).
-
-fields_from_form([], _TypeNames, _RecDict, _VarDict) ->
- {[], []};
-fields_from_form([{Name, Type}|Tail], TypeNames, RecDict,
- VarDict) ->
- {T, R1} = t_from_form(Type, TypeNames, RecDict, VarDict),
- {F, R2} = fields_from_form(Tail, TypeNames, RecDict, VarDict),
- {[{Name, T}|F], R1 ++ R2}.
-
-list_from_form([], _TypeNames, _RecDict, _VarDict) ->
- {[], []};
-list_from_form([H|Tail], TypeNames, RecDict, VarDict) ->
- {T, R1} = t_from_form(H, TypeNames, RecDict, VarDict),
- {L, R2} = list_from_form(Tail, TypeNames, RecDict, VarDict),
- {[T|L], R1 ++ R2}.
+%% It is important to create a limited version of the record type
+%% since nested record types can otherwise easily result in huge
+%% terms.
+fields_from_form([], _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {[], L};
+fields_from_form([{Name, Abstr, _Type}|Tail], TypeNames, ET, M, MR,
+ V, D, L) ->
+ {T, L1} = t_from_form(Abstr, TypeNames, ET, M, MR, V, D, L),
+ {F, L2} = fields_from_form(Tail, TypeNames, ET, M, MR, V, D, L1),
+ {[{Name, T}|F], L2}.
+
+list_from_form([], _TypeNames, _ET, _M, _MR, _V, _D, L) ->
+ {[], L};
+list_from_form([H|Tail], TypeNames, ET, M, MR, V, D, L) ->
+ {H1, L1} = t_from_form(H, TypeNames, ET, M, MR, V, D, L - 1),
+ {T1, L2} = list_from_form(Tail, TypeNames, ET, M, MR, V, D, L1),
+ {[H1|T1], L2}.
+
+-spec t_var_names([erl_type()]) -> [atom()].
+
+t_var_names([{var, _, Name}|L]) when L =/= '_' ->
+ [Name|t_var_names(L)];
+t_var_names([]) ->
+ [].
-spec t_form_to_string(parse_form()) -> string().
@@ -4619,12 +4504,21 @@ t_form_to_string({type, _L, tuple, Args}) ->
t_form_to_string({type, _L, union, Args}) ->
string:join(t_form_to_string_list(Args), " | ");
t_form_to_string({type, _L, Name, []} = T) ->
- try t_to_string(t_from_form(T))
+ try
+ M = mod,
+ D0 = dict:new(),
+ MR = dict:from_list([{M, D0}]),
+ {T1, _} =
+ t_from_form(T, [], sets:new(), M, MR, D0, _Deep=1000, _ALot=100000),
+ t_to_string(T1)
catch throw:{error, _} -> atom_to_string(Name) ++ "()"
end;
-t_form_to_string({type, _L, Name, List}) ->
+t_form_to_string({user_type, _L, Name, List}) ->
flat_format("~w(~s)",
- [Name, string:join(t_form_to_string_list(List), ",")]).
+ [Name, string:join(t_form_to_string_list(List), ",")]);
+t_form_to_string({type, L, Name, List}) ->
+ %% Compatibility: modules compiled before Erlang/OTP 18.0.
+ t_form_to_string({user_type, L, Name, List}).
t_form_to_string_list(List) ->
t_form_to_string_list(List, []).
@@ -4667,7 +4561,7 @@ is_erl_type(#c{}) -> true;
is_erl_type(_) -> false.
-spec lookup_record(atom(), type_table()) ->
- 'error' | {'ok', [{atom(), parse_form() | erl_type()}]}.
+ 'error' | {'ok', [{atom(), parse_form(), erl_type()}]}.
lookup_record(Tag, RecDict) when is_atom(Tag) ->
case dict:find({record, Tag}, RecDict) of
@@ -4682,7 +4576,7 @@ lookup_record(Tag, RecDict) when is_atom(Tag) ->
end.
-spec lookup_record(atom(), arity(), type_table()) ->
- 'error' | {'ok', [{atom(), erl_type()}]}.
+ 'error' | {'ok', [{atom(), parse_form(), erl_type()}]}.
lookup_record(Tag, Arity, RecDict) when is_atom(Tag) ->
case dict:find({record, Tag}, RecDict) of
@@ -4737,27 +4631,14 @@ do_opaque(Type, _Opaques, Pred) ->
is_same_type_name(ModNameArgs, ModNameArgs) -> true;
is_same_type_name({Mod, Name, Args1}, {Mod, Name, Args2}) ->
all_any(Args1) orelse all_any(Args2);
-is_same_type_name({Mod1, Name1, Args1}, {Mod2, Name2, Args2}) ->
- is_same_type_name2(Mod1, Name1, Args1, Mod2, Name2, Args2).
+is_same_type_name(_ModNameArgs1, _ModNameArgs2) ->
+ false.
all_any([]) -> true;
all_any([T|L]) ->
t_is_any(T) andalso all_any(L);
all_any(_) -> false.
-%% Compatibility. In Erlang/OTP 17 the pre-defined opaque types
-%% digraph() and so on can be used, but there are also new types such
-%% as digraph:graph() with the exact same meaning. In Erlang/OTP R18.0
-%% all but the last clause can be removed.
-
-is_same_type_name2(digraph, digraph, [], digraph, graph, []) -> true;
-is_same_type_name2(digraph, graph, [], digraph, digraph, []) -> true;
-is_same_type_name2(gb_sets, gb_set, [], gb_sets, set, [_]) -> true;
-is_same_type_name2(gb_sets, set, [_], gb_sets, gb_set, []) -> true;
-is_same_type_name2(gb_trees, gb_tree, [], gb_trees, tree, [_, _]) -> true;
-is_same_type_name2(gb_trees, tree, [_, _], gb_trees, gb_tree, []) -> true;
-is_same_type_name2(_, _, _, _, _, _) -> false.
-
map_keys(?map(Pairs)) ->
[K || {K, _} <- Pairs].
diff --git a/lib/hipe/ppc/hipe_rtl_to_ppc.erl b/lib/hipe/ppc/hipe_rtl_to_ppc.erl
index 7dfa56df29..a55fc137c3 100644
--- a/lib/hipe/ppc/hipe_rtl_to_ppc.erl
+++ b/lib/hipe/ppc/hipe_rtl_to_ppc.erl
@@ -102,10 +102,18 @@ conv_insn(I, Map, Data) ->
end.
conv_fconv(I, Map, Data) ->
- %% Dst := (double)Src, where Dst is FP reg and Src is int reg
+ %% Dst := (double)Src, where Dst is FP reg and Src is GP reg or imm
{Dst, Map0} = conv_fpreg(hipe_rtl:fconv_dst(I), Map),
- {Src, Map1} = conv_src(hipe_rtl:fconv_src(I), Map0), % exclude imm src
- I2 = mk_fconv(Dst, Src),
+ {Src, Map1} = conv_src(hipe_rtl:fconv_src(I), Map0),
+ I2 =
+ case hipe_ppc:is_temp(Src) of
+ true ->
+ mk_fconv(Dst, Src);
+ false ->
+ Tmp = new_untagged_temp(),
+ mk_li(Tmp, Src,
+ mk_fconv(Dst, Tmp))
+ end,
{I2, Map1, Data}.
mk_fconv(Dst, Src) ->
diff --git a/lib/hipe/rtl/hipe_rtl.erl b/lib/hipe/rtl/hipe_rtl.erl
index bc61bec0bd..2f62dd79ad 100644
--- a/lib/hipe/rtl/hipe_rtl.erl
+++ b/lib/hipe/rtl/hipe_rtl.erl
@@ -413,11 +413,11 @@ rtl_info_update(Rtl, Info) -> Rtl#rtl{info=Info}.
%% move
%%
-mk_move(Dst, Src) -> #move{dst=Dst, src=Src}.
+mk_move(Dst, Src) -> false = is_fpreg(Dst), false = is_fpreg(Src), #move{dst=Dst, src=Src}.
move_dst(#move{dst=Dst}) -> Dst.
-move_dst_update(M, NewDst) -> M#move{dst=NewDst}.
+move_dst_update(M, NewDst) -> false = is_fpreg(NewDst), M#move{dst=NewDst}.
move_src(#move{src=Src}) -> Src.
-move_src_update(M, NewSrc) -> M#move{src=NewSrc}.
+move_src_update(M, NewSrc) -> false = is_fpreg(NewSrc), M#move{src=NewSrc}.
%% is_move(#move{}) -> true;
%% is_move(_) -> false.
@@ -469,7 +469,11 @@ phi_remove_pred(Phi, Pred) ->
case NewArgList of
[Arg] -> %% the phi should be turned into a move instruction
{_Label,Var} = Arg,
- mk_move(phi_dst(Phi), Var);
+ Dst = phi_dst(Phi),
+ case {is_fpreg(Dst), is_fpreg(Var)} of
+ {true, true} -> mk_fmove(Dst, Var);
+ {false, false} -> mk_move(Dst, Var)
+ end;
%% io:format("~nPhi (~w) turned into move (~w) when removing pred ~w~n",[Phi,Move,Pred]),
[_|_] ->
Phi#phi{arglist=NewArgList}
@@ -836,11 +840,11 @@ fp_unop_op(#fp_unop{op=Op}) -> Op.
%% fmove
%%
-mk_fmove(X, Y) -> #fmove{dst=X, src=Y}.
+mk_fmove(X, Y) -> true = is_fpreg(X), true = is_fpreg(Y), #fmove{dst=X, src=Y}.
fmove_dst(#fmove{dst=Dst}) -> Dst.
-fmove_dst_update(M, NewDst) -> M#fmove{dst=NewDst}.
+fmove_dst_update(M, NewDst) -> true = is_fpreg(NewDst), M#fmove{dst=NewDst}.
fmove_src(#fmove{src=Src}) -> Src.
-fmove_src_update(M, NewSrc) -> M#fmove{src=NewSrc}.
+fmove_src_update(M, NewSrc) -> true = is_fpreg(NewSrc), M#fmove{src=NewSrc}.
%%
%% fconv
diff --git a/lib/hipe/rtl/hipe_rtl_binary_match.erl b/lib/hipe/rtl/hipe_rtl_binary_match.erl
index 8831199244..af8903904b 100644
--- a/lib/hipe/rtl/hipe_rtl_binary_match.erl
+++ b/lib/hipe/rtl/hipe_rtl_binary_match.erl
@@ -990,19 +990,19 @@ unsigned_bignum(Dst1, Src, TrueLblName) ->
hipe_tagscheme:unsafe_mk_big(Dst1, Src, unsigned),
hipe_rtl:mk_goto(TrueLblName)].
-load_bytes(Dst, Base, Offset, {Signedness, _Endianess},1) ->
+load_bytes(Dst, Base, Offset, {Signedness, _Endianness},1) ->
[hipe_rtl:mk_load(Dst, Base, Offset, byte, Signedness),
hipe_rtl:mk_alu(Offset, Offset, add, hipe_rtl:mk_imm(1))];
-load_bytes(Dst, Base, Offset, {Signedness, Endianess},2) ->
- case Endianess of
+load_bytes(Dst, Base, Offset, {Signedness, Endianness},2) ->
+ case Endianness of
big ->
hipe_rtl_arch:load_big_2(Dst, Base, Offset, Signedness);
little ->
hipe_rtl_arch:load_little_2(Dst, Base, Offset, Signedness)
end;
-load_bytes(Dst, Base, Offset, {Signedness, Endianess},3) ->
+load_bytes(Dst, Base, Offset, {Signedness, Endianness},3) ->
Tmp1 = hipe_rtl:mk_new_reg(),
- case Endianess of
+ case Endianness of
big ->
[hipe_rtl:mk_load(Dst, Base, Offset, byte, Signedness),
hipe_rtl:mk_alu(Offset, Offset, add, hipe_rtl:mk_imm(1)),
@@ -1026,18 +1026,18 @@ load_bytes(Dst, Base, Offset, {Signedness, Endianess},3) ->
hipe_rtl:mk_alu(Dst, Dst, 'or', Tmp1),
hipe_rtl:mk_alu(Offset, Offset, add, hipe_rtl:mk_imm(1))]
end;
-load_bytes(Dst, Base, Offset, {Signedness, Endianess}, 4) ->
- case Endianess of
+load_bytes(Dst, Base, Offset, {Signedness, Endianness}, 4) ->
+ case Endianness of
big ->
hipe_rtl_arch:load_big_4(Dst, Base, Offset, Signedness);
little ->
hipe_rtl_arch:load_little_4(Dst, Base, Offset, Signedness)
end;
-load_bytes(Dst, Base, Offset, {Signedness, Endianess}, X) when X > 1 ->
+load_bytes(Dst, Base, Offset, {Signedness, Endianness}, X) when X > 1 ->
[LoopLbl, EndLbl] = create_lbls(2),
[Tmp1, Limit, TmpOffset] = create_regs(3),
- case Endianess of
+ case Endianness of
big ->
[hipe_rtl:mk_alu(Limit, Offset, add, hipe_rtl:mk_imm(X)),
hipe_rtl:mk_load(Dst, Base, Offset, byte, Signedness),
diff --git a/lib/hipe/rtl/hipe_tagscheme.erl b/lib/hipe/rtl/hipe_tagscheme.erl
index c27c682915..990d01e190 100644
--- a/lib/hipe/rtl/hipe_tagscheme.erl
+++ b/lib/hipe/rtl/hipe_tagscheme.erl
@@ -109,6 +109,7 @@
-define(TAG_HEADER_REFC_BIN,((16#8 bsl ?TAG_PRIMARY_SIZE) bor ?TAG_PRIMARY_HEADER)).
-define(TAG_HEADER_HEAP_BIN,((16#9 bsl ?TAG_PRIMARY_SIZE) bor ?TAG_PRIMARY_HEADER)).
-define(TAG_HEADER_SUB_BIN, ((16#A bsl ?TAG_PRIMARY_SIZE) bor ?TAG_PRIMARY_HEADER)).
+-define(TAG_HEADER_HASHMAP, ((16#B bsl ?TAG_PRIMARY_SIZE) bor ?TAG_PRIMARY_HEADER)).
-define(TAG_HEADER_EXTERNAL_PID, ((16#C bsl ?TAG_PRIMARY_SIZE) bor ?TAG_PRIMARY_HEADER)).
-define(TAG_HEADER_EXTERNAL_PORT,((16#D bsl ?TAG_PRIMARY_SIZE) bor ?TAG_PRIMARY_HEADER)).
-define(TAG_HEADER_EXTERNAL_REF, ((16#E bsl ?TAG_PRIMARY_SIZE) bor ?TAG_PRIMARY_HEADER)).
@@ -257,11 +258,16 @@ test_tuple_N(X, N, TrueLab, FalseLab, Pred) ->
test_map(X, TrueLab, FalseLab, Pred) ->
Tmp = hipe_rtl:mk_new_reg_gcsafe(),
HalfTrueLab = hipe_rtl:mk_new_label(),
+ OrHashmapLab = hipe_rtl:mk_new_label(),
MapMask = ?TAG_HEADER_MASK,
[test_is_boxed(X, hipe_rtl:label_name(HalfTrueLab), FalseLab, Pred),
HalfTrueLab,
get_header(Tmp, X),
- mask_and_compare(Tmp, MapMask, ?TAG_HEADER_MAP, TrueLab, FalseLab, Pred)].
+ mask_and_compare(Tmp, MapMask, ?TAG_HEADER_MAP,
+ TrueLab, hipe_rtl:label_name(OrHashmapLab), Pred),
+ OrHashmapLab,
+ mask_and_compare(Tmp, MapMask, ?TAG_HEADER_HASHMAP, TrueLab, FalseLab, Pred)
+ ].
test_ref(X, TrueLab, FalseLab, Pred) ->
Hdr = hipe_rtl:mk_new_reg_gcsafe(),
@@ -360,16 +366,22 @@ test_matchstate(X, TrueLab, FalseLab, Pred) ->
test_bitstr(X, TrueLab, FalseLab, Pred) ->
Tmp = hipe_rtl:mk_new_reg_gcsafe(),
HalfTrueLab = hipe_rtl:mk_new_label(),
+ AndNotHashmapLab = hipe_rtl:mk_new_label(),
Mask = ?TAG_HEADER_MASK - ?BINARY_XXX_MASK,
[test_is_boxed(X, hipe_rtl:label_name(HalfTrueLab), FalseLab, Pred),
HalfTrueLab,
get_header(Tmp, X),
- mask_and_compare(Tmp, Mask, ?TAG_HEADER_REFC_BIN, TrueLab, FalseLab, Pred)].
+ mask_and_compare(Tmp, Mask, ?TAG_HEADER_REFC_BIN,
+ hipe_rtl:label_name(AndNotHashmapLab), FalseLab, Pred),
+ AndNotHashmapLab,
+ mask_and_compare(Tmp, ?TAG_HEADER_MASK, ?TAG_HEADER_HASHMAP, FalseLab, TrueLab, Pred)
+ ].
test_binary(X, TrueLab, FalseLab, Pred) ->
Tmp1 = hipe_rtl:mk_new_reg_gcsafe(),
Tmp2 = hipe_rtl:mk_new_reg_gcsafe(),
IsBoxedLab = hipe_rtl:mk_new_label(),
+ AndNotHashmapLab = hipe_rtl:mk_new_label(),
IsBitStrLab = hipe_rtl:mk_new_label(),
IsSubBinLab = hipe_rtl:mk_new_label(),
Mask = ?TAG_HEADER_MASK - ?BINARY_XXX_MASK,
@@ -377,7 +389,10 @@ test_binary(X, TrueLab, FalseLab, Pred) ->
IsBoxedLab,
get_header(Tmp1, X),
mask_and_compare(Tmp1, Mask, ?TAG_HEADER_REFC_BIN,
- hipe_rtl:label_name(IsBitStrLab), FalseLab, Pred),
+ hipe_rtl:label_name(AndNotHashmapLab), FalseLab, Pred),
+ AndNotHashmapLab,
+ mask_and_compare(Tmp1, ?TAG_HEADER_MASK, ?TAG_HEADER_HASHMAP,
+ FalseLab, hipe_rtl:label_name(IsBitStrLab), Pred),
IsBitStrLab,
mask_and_compare(Tmp1, ?TAG_HEADER_MASK, ?TAG_HEADER_SUB_BIN,
hipe_rtl:label_name(IsSubBinLab), TrueLab, 0.5),
diff --git a/lib/hipe/sparc/hipe_rtl_to_sparc.erl b/lib/hipe/sparc/hipe_rtl_to_sparc.erl
index dc001f865e..fd21be3ae7 100644
--- a/lib/hipe/sparc/hipe_rtl_to_sparc.erl
+++ b/lib/hipe/sparc/hipe_rtl_to_sparc.erl
@@ -85,17 +85,17 @@ conv_insn(I, Map, Data) ->
end.
conv_fconv(I, Map, Data) ->
- %% Dst := (double)Src, where Dst is FP reg and Src is int reg
- {Src, Map1} = conv_src(hipe_rtl:fconv_src(I), Map), % exclude imm src
+ %% Dst := (double)Src, where Dst is FP reg and Src is GP reg or imm
+ {Src, Map1} = conv_src(hipe_rtl:fconv_src(I), Map),
{Dst, Map2} = conv_fpreg(hipe_rtl:fconv_dst(I), Map1),
I2 = mk_fconv(Src, Dst),
{I2, Map2, Data}.
mk_fconv(Src, Dst) ->
CSP = hipe_sparc:mk_temp(14, 'untagged'), % o6
- Disp = hipe_sparc:mk_simm13(100),
- [hipe_sparc:mk_store('stw', Src, CSP, Disp),
- hipe_sparc:mk_pseudo_fload(CSP, Disp, Dst, true),
+ Offset = 100,
+ mk_store('stw', Src, CSP, Offset) ++
+ [hipe_sparc:mk_pseudo_fload(CSP, hipe_sparc:mk_simm13(Offset), Dst, true),
hipe_sparc:mk_fp_unary('fitod', Dst, Dst)].
conv_fmove(I, Map, Data) ->
diff --git a/lib/hipe/test/maps_SUITE_data/maps_map_sort_literals.erl b/lib/hipe/test/maps_SUITE_data/maps_map_sort_literals.erl
index 31abf15d49..ccacbfe5c8 100644
--- a/lib/hipe/test/maps_SUITE_data/maps_map_sort_literals.erl
+++ b/lib/hipe/test/maps_SUITE_data/maps_map_sort_literals.erl
@@ -10,23 +10,25 @@ test() ->
false = #{ c => 1, b => 1, a => 1} < id(#{ c => 1, a => 1}),
%% key order
- true = id(#{ a => 1 }) < id(#{ b => 1}),
- false = id(#{ b => 1 }) < id(#{ a => 1}),
- true = id(#{ a => 1, b => 1, c => 1 }) < id(#{ b => 1, c => 1, d => 1}),
- true = id(#{ b => 1, c => 1, d => 1 }) > id(#{ a => 1, b => 1, c => 1}),
- true = id(#{ c => 1, b => 1, a => 1 }) < id(#{ b => 1, c => 1, d => 1}),
- true = id(#{ "a" => 1 }) < id(#{ <<"a">> => 1}),
- false = id(#{ <<"a">> => 1 }) < id(#{ "a" => 1}),
- false = id(#{ 1 => 1 }) < id(#{ 1.0 => 1}),
- false = id(#{ 1.0 => 1 }) < id(#{ 1 => 1}),
+ true = #{ a => 1 } < id(#{ b => 1}),
+ false = #{ b => 1 } < id(#{ a => 1}),
+ true = #{ a => 1, b => 1, c => 1 } < id(#{ b => 1, c => 1, d => 1}),
+ true = #{ b => 1, c => 1, d => 1 } > id(#{ a => 1, b => 1, c => 1}),
+ true = #{ c => 1, b => 1, a => 1 } < id(#{ b => 1, c => 1, d => 1}),
+ true = #{ "a" => 1 } < id(#{ <<"a">> => 1}),
+ false = #{ <<"a">> => 1 } < id(#{ "a" => 1}),
+ true = #{ 1 => 1 } < id(#{ 1.0 => 1}),
+ false = #{ 1.0 => 1 } < id(#{ 1 => 1}),
%% value order
- true = id(#{ a => 1 }) < id(#{ a => 2}),
- false = id(#{ a => 2 }) < id(#{ a => 1}),
- false = id(#{ a => 2, b => 1 }) < id(#{ a => 1, b => 3}),
- true = id(#{ a => 1, b => 1 }) < id(#{ a => 1, b => 3}),
+ true = #{ a => 1 } < id(#{ a => 2}),
+ false = #{ a => 2 } < id(#{ a => 1}),
+ false = #{ a => 2, b => 1 } < id(#{ a => 1, b => 3}),
+ true = #{ a => 1, b => 1 } < id(#{ a => 1, b => 3}),
+ false = #{ a => 1 } < id(#{ a => 1.0}),
+ false = #{ a => 1.0 } < id(#{ a => 1}),
- true = id(#{ "a" => "hi", b => 134 }) == id(#{ b => 134,"a" => "hi"}),
+ true = #{ "a" => "hi", b => 134 } == id(#{ b => 134,"a" => "hi"}),
%% lists:sort
@@ -34,7 +36,6 @@ test() ->
[#{1:=ok},#{a:=ok},#{"a":=ok},#{<<"a">>:=ok}] = lists:sort([#{"a"=>ok},#{a=>ok},#{1=>ok},#{<<"a">>=>ok}]),
[#{1:=3},#{a:=2},#{"a":=1},#{<<"a">>:=4}] = lists:sort(SortVs),
[#{1:=3},#{a:=2},#{"a":=1},#{<<"a">>:=4}] = lists:sort(lists:reverse(SortVs)),
-
ok.
%% Use this function to avoid compile-time evaluation of an expression.
diff --git a/lib/hipe/x86/hipe_rtl_to_x86.erl b/lib/hipe/x86/hipe_rtl_to_x86.erl
index d77e4fed3b..36da2f4d44 100644
--- a/lib/hipe/x86/hipe_rtl_to_x86.erl
+++ b/lib/hipe/x86/hipe_rtl_to_x86.erl
@@ -236,7 +236,7 @@ conv_insn(I, Map, Data) ->
#fconv{} ->
{Dst, Map0} = conv_dst(hipe_rtl:fconv_dst(I), Map),
{[], Src, Map1} = conv_src(hipe_rtl:fconv_src(I), Map0),
- I2 = [hipe_x86:mk_fmove(Src, Dst)],
+ I2 = conv_fconv(Dst, Src),
{I2, Map1, Data};
X ->
%% gctest??
@@ -712,6 +712,19 @@ vmap_lookup(Map, Key) ->
vmap_bind(Map, Key, Val) ->
gb_trees:insert(Key, Val, Map).
+%%% Finalise the conversion of an Integer-to-Float operation.
+
+conv_fconv(Dst, Src) ->
+ case hipe_x86:is_imm(Src) of
+ false ->
+ [hipe_x86:mk_fmove(Src, Dst)];
+ true ->
+ %% cvtsi2sd does not allow src to be an immediate
+ Tmp = new_untagged_temp(),
+ [hipe_x86:mk_move(Src, Tmp),
+ hipe_x86:mk_fmove(Tmp, Dst)]
+ end.
+
%%% Finalise the conversion of a 2-address FP operation.
conv_fp_unary(Dst, Src, FpUnOp) ->