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-rw-r--r--lib/syntax_tools/src/erl_syntax.erl41
1 files changed, 30 insertions, 11 deletions
diff --git a/lib/syntax_tools/src/erl_syntax.erl b/lib/syntax_tools/src/erl_syntax.erl
index 029f1e88ac..758aff32fd 100644
--- a/lib/syntax_tools/src/erl_syntax.erl
+++ b/lib/syntax_tools/src/erl_syntax.erl
@@ -7223,7 +7223,7 @@ macro_arguments(Node) ->
%% @doc Returns the syntax tree corresponding to an Erlang term.
%% `Term' must be a literal term, i.e., one that can be
%% represented as a source code literal. Thus, it may not contain a
-%% process identifier, port, reference, binary or function value as a
+%% process identifier, port, reference or function value as a
%% subterm. The function recognises printable strings, in order to get a
%% compact and readable representation. Evaluation fails with reason
%% `badarg' if `Term' is not a literal term.
@@ -7257,6 +7257,13 @@ abstract(T) when is_map(T) ->
|| {Key,Value} <- maps:to_list(T)]);
abstract(T) when is_binary(T) ->
binary([binary_field(integer(B)) || B <- binary_to_list(T)]);
+abstract(T) when is_bitstring(T) ->
+ S = bit_size(T),
+ ByteS = S div 8,
+ BitS = S rem 8,
+ <<Bin:ByteS/binary, I:BitS>> = T,
+ binary([binary_field(integer(B)) || B <- binary_to_list(Bin)]
+ ++ [binary_field(integer(I), integer(BitS), [])]);
abstract(T) ->
erlang:error({badarg, T}).
@@ -7332,15 +7339,20 @@ concrete(Node) ->
Node0 -> maps:merge(concrete(Node0),M0)
end;
binary ->
- Fs = [revert_binary_field(
- binary_field(binary_field_body(F),
- case binary_field_size(F) of
- none -> none;
- S ->
- revert(S)
- end,
- binary_field_types(F)))
- || F <- binary_fields(Node)],
+ Fs = [begin
+ B = binary_field_body(F),
+ {Body, Size} =
+ case type(B) of
+ size_qualifier ->
+ {size_qualifier_body(B),
+ size_qualifier_argument(B)};
+ _ ->
+ {B, none}
+ end,
+ revert_binary_field(
+ binary_field(Body, Size, binary_field_types(F)))
+ end
+ || F <- binary_fields(Node)],
{value, B, _} =
eval_bits:expr_grp(Fs, [],
fun(F, _) ->
@@ -7413,7 +7425,14 @@ is_literal(T) ->
is_literal_binary_field(F) ->
case binary_field_types(F) of
- [] -> is_literal(binary_field_body(F));
+ [] -> B = binary_field_body(F),
+ case type(B) of
+ size_qualifier ->
+ is_literal(size_qualifier_body(B)) andalso
+ is_literal(size_qualifier_argument(B));
+ _ ->
+ is_literal(B)
+ end;
_ -> false
end.