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-rw-r--r--lib/compiler/src/v3_kernel.erl66
1 files changed, 10 insertions, 56 deletions
diff --git a/lib/compiler/src/v3_kernel.erl b/lib/compiler/src/v3_kernel.erl
index 8568071e57..9ee3dee5e0 100644
--- a/lib/compiler/src/v3_kernel.erl
+++ b/lib/compiler/src/v3_kernel.erl
@@ -126,12 +126,8 @@ copy_anno(Kdst, Ksrc) ->
-spec module(cerl:c_module(), [compile:option()]) ->
{'ok', #k_mdef{}, [warning()]}.
-module(#c_module{anno=A,name=M,exports=Es,attrs=As,defs=Fs}, Options) ->
- Lit = case member(no_constant_pool, Options) of
- true -> no;
- false -> dict:new()
- end,
- St0 = #kern{lit=Lit},
+module(#c_module{anno=A,name=M,exports=Es,attrs=As,defs=Fs}, _Options) ->
+ St0 = #kern{lit=dict:new()},
{Kfs,St} = mapfoldl(fun function/2, St0, Fs),
Kes = map(fun (#c_var{name={_,_}=Fname}) -> Fname end, Es),
Kas = map(fun ({#c_literal{val=N},V}) ->
@@ -240,11 +236,6 @@ expr(#c_var{anno=A,name={_Name,Arity}}=Fname, Sub, St) ->
expr(Fun, Sub, St);
expr(#c_var{anno=A,name=V}, Sub, St) ->
{#k_var{anno=A,name=get_vsub(V, Sub)},[],St};
-expr(#c_literal{anno=A,val=Lit}, Sub, #kern{lit=no}=St) ->
- %% No constant pools for compatibility with a previous version.
- %% Fully expand the literal.
- Core = expand_literal(Lit, A),
- expr(Core, Sub, St);
expr(#c_literal{}=Lit, Sub, St) ->
Core = handle_literal(Lit),
expr(Core, Sub, St);
@@ -265,9 +256,6 @@ expr(#k_float{}=V, _Sub, St) ->
{V,[],St};
expr(#k_atom{}=V, _Sub, St) ->
{V,[],St};
-expr(#k_string{}=V, _Sub, St) ->
- %% Only for compatibility with a previous version.
- {V,[],St};
expr(#c_cons{anno=A,hd=Ch,tl=Ct}, Sub, St0) ->
%% Do cons in two steps, first the expressions left to right, then
%% any remaining literals right to left.
@@ -980,11 +968,6 @@ match_var([U|Us], Cs0, Def, St) ->
%% according to type, the order is really irrelevant but tries to be
%% smart.
-match_con(Us, Cs0, Def, #kern{lit=no}=St) ->
- %% No constant pool (for compatibility with R11B).
- %% We must expand literals.
- Cs = [expand_pat_lit_clause(C, true) || C <- Cs0],
- match_con_1(Us, Cs, Def, St);
match_con(Us, [C], Def, St) ->
%% There is only one clause. We can keep literal tuples and
%% lists, but we must convert []/integer/float/atom literals
@@ -1783,7 +1766,6 @@ lit_vars(#k_int{}) -> [];
lit_vars(#k_float{}) -> [];
lit_vars(#k_atom{}) -> [];
%%lit_vars(#k_char{}) -> [];
-lit_vars(#k_string{}) -> [];
lit_vars(#k_nil{}) -> [];
lit_vars(#k_cons{hd=H,tl=T}) ->
union(lit_vars(H), lit_vars(T));
@@ -1845,48 +1827,20 @@ handle_literal(#c_literal{anno=A,val=V}) ->
case V of
[_|_] ->
#k_literal{anno=A,val=V};
+ [] ->
+ #k_nil{anno=A};
V when is_tuple(V) ->
#k_literal{anno=A,val=V};
V when is_bitstring(V) ->
#k_literal{anno=A,val=V};
- _ ->
- expand_literal(V, A)
+ V when is_integer(V) ->
+ #k_int{anno=A,val=V};
+ V when is_float(V) ->
+ #k_float{anno=A,val=V};
+ V when is_atom(V) ->
+ #k_atom{anno=A,val=V}
end.
-%% expand_literal(Literal, Anno) -> CoreTerm | KernelTerm
-%% Fully expand the literal. Atomic terms such as integers are directly
-%% translated to the Kernel Erlang format, while complex terms are kept
-%% in the Core Erlang format (but the content is recursively processed).
-
-expand_literal([H|T]=V, A) when is_integer(H), 0 =< H, H =< 255 ->
- case is_print_char_list(T) of
- false ->
- #c_cons{anno=A,hd=#k_int{anno=A,val=H},tl=expand_literal(T, A)};
- true ->
- #k_string{anno=A,val=V}
- end;
-expand_literal([H|T], A) ->
- #c_cons{anno=A,hd=expand_literal(H, A),tl=expand_literal(T, A)};
-expand_literal([], A) ->
- #k_nil{anno=A};
-expand_literal(V, A) when is_tuple(V) ->
- #c_tuple{anno=A,es=expand_literal_list(tuple_to_list(V), A)};
-expand_literal(V, A) when is_integer(V) ->
- #k_int{anno=A,val=V};
-expand_literal(V, A) when is_float(V) ->
- #k_float{anno=A,val=V};
-expand_literal(V, A) when is_atom(V) ->
- #k_atom{anno=A,val=V}.
-
-expand_literal_list([H|T], A) ->
- [expand_literal(H, A)|expand_literal_list(T, A)];
-expand_literal_list([], _) -> [].
-
-is_print_char_list([H|T]) when is_integer(H), 0 =< H, H =< 255 ->
- is_print_char_list(T);
-is_print_char_list([]) -> true;
-is_print_char_list(_) -> false.
-
make_list(Es) ->
foldr(fun(E, Acc) ->
#c_cons{hd=E,tl=Acc}