Add fann() to remote_u

src/aeso_ast_to_fcode.erl

@@ -81,7 +81,7 @@
                %% lambdas) are generated by the fcode compiler, but translated
                %% to closures by the lambda lifter.
                | {def_u, fun_name(), arity()}
-               | {remote_u, [ftype()], ftype(), fexpr(), fun_name()}
+               | {remote_u, fann(), [ftype()], ftype(), fexpr(), fun_name()}
                | {builtin_u, builtin(), arity()}
                | {builtin_u, builtin(), arity(), [fexpr()]} %% Typerep arguments to be added after normal args.
                | {lam, [var_name()], fexpr()}.
@@ -595,14 +595,14 @@ expr_to_fcode(Env, _Type, {tuple, _, Es}) ->
     make_tuple([expr_to_fcode(Env, E) || E <- Es]);
 
 %% Records
-expr_to_fcode(Env, Type, {proj, _Ann, Rec = {typed, _, _, RecType}, {id, _, X}}) ->
+expr_to_fcode(Env, Type, {proj, Ann, Rec = {typed, _, _, RecType}, {id, _, X}}) ->
     case RecType of
         {con, _, _} when X == "address" ->
             {op, contract_to_address, [expr_to_fcode(Env, Rec)]};
         {con, _, _} ->
             {fun_t, _, _, Args, Ret} = Type,
             FArgs = [type_to_fcode(Env, Arg) || Arg <- Args],
-            {remote_u, FArgs, type_to_fcode(Env, Ret), expr_to_fcode(Env, Rec),
+            {remote_u, to_fann(Ann), FArgs, type_to_fcode(Env, Ret), expr_to_fcode(Env, Rec),
                        {entrypoint, list_to_binary(X)}};
         {record_t, [_]} -> expr_to_fcode(Env, Rec); %% Singleton record
         {record_t, _} ->
@@ -738,7 +738,7 @@ expr_to_fcode(Env, _, {app, _, Fun = {typed, Ann, FunE, {fun_t, _, NamedArgsT, A
             end;
         {builtin_u, B, _Ar}               -> builtin_to_fcode(state_layout(Env), B, FArgs);
         {def_u, F, _Ar}                   -> {def, F, FArgs};
-        {remote_u, RArgsT, RRetT, Ct, RFun} -> {remote, RArgsT, RRetT, Ct, RFun, FArgs};
+        {remote_u, Ann, RArgsT, RRetT, Ct, RFun} -> {remote, RArgsT, RRetT, Ct, RFun, FArgs};
         FFun ->
             %% FFun is a closure, with first component the function name and
             %% second component the environment
@@ -1267,7 +1267,7 @@ lambda_lift_expr(Layout, UExpr) when element(1, UExpr) == def_u; element(1, UExp
                def_u     -> {def, F, Args}
            end,
     make_closure([], Xs, Body);
-lambda_lift_expr(Layout, {remote_u, ArgsT, RetT, Ct, F}) ->
+lambda_lift_expr(Layout, {remote_u, _, ArgsT, RetT, Ct, F}) ->
     FVs  = free_vars(Ct),
     Ct1  = lambda_lift_expr(Layout, Ct),
     NamedArgCount = 3,
@@ -1600,7 +1600,7 @@ read_only({op, _, Es})             -> read_only(Es);
 read_only({get_state, _})            -> true;
 read_only({set_state, _, _, _})      -> false;
 read_only({def_u, _, _})             -> true;
-read_only({remote_u, _, _, _, _})  -> true;
+read_only({remote_u, _, _, _, _, _}) -> true;
 read_only({builtin_u, _, _})         -> true;
 read_only({builtin_u, _, _, _})      -> true;
 read_only({lam, _, _})               -> true;
@@ -1830,7 +1830,7 @@ free_vars(Expr) ->
         {def, _, As}         -> free_vars(As);
         {def_u, _, _}        -> [];
         {remote, _, _, Ct, _, As}  -> free_vars([Ct | As]);
-        {remote_u, _, _, Ct, _}   -> free_vars(Ct);
+        {remote_u, _, _, _, Ct, _} -> free_vars(Ct);
         {builtin, _, As}     -> free_vars(As);
         {builtin_u, _, _}    -> [];
         {builtin_u, _, _, _} -> [];     %% Typereps are always literals
@@ -1861,7 +1861,7 @@ used_defs(Expr) ->
         {def, F, As}         -> lists:umerge([F], used_defs(As));
         {def_u, F, _}        -> [F];
         {remote, _, _, Ct, _, As}  -> used_defs([Ct | As]);
-        {remote_u, _, _, Ct, _}   -> used_defs(Ct);
+        {remote_u, _, _, _, Ct, _} -> used_defs(Ct);
         {builtin, _, As}     -> used_defs(As);
         {builtin_u, _, _}    -> [];
         {builtin_u, _, _, _} -> [];
@@ -1895,7 +1895,7 @@ bottom_up(F, Env, Expr) ->
         {builtin_u, _, _}                -> Expr;
         {builtin_u, _, _, _}             -> Expr;
         {remote, ArgsT, RetT, Ct, Fun, Es}    -> {remote,        ArgsT, RetT, bottom_up(F, Env, Ct), Fun, [bottom_up(F, Env, E) || E <- Es]};
-        {remote_u, ArgsT, RetT, Ct, Fun}   -> {remote_u, ArgsT, RetT, bottom_up(F, Env, Ct), Fun};
+        {remote_u, Ann, ArgsT, RetT, Ct, Fun} -> {remote_u, Ann, ArgsT, RetT, bottom_up(F, Env, Ct), Fun};
         {con, Ar, I, Es}                 -> {con, Ar, I, [bottom_up(F, Env, E) || E <- Es]};
         {tuple, Es}                      -> {tuple, [bottom_up(F, Env, E) || E <- Es]};
         {proj, E, I}                     -> {proj, bottom_up(F, Env, E), I};
@@ -1953,7 +1953,7 @@ rename(Ren, Expr) ->
         {builtin_u, _, _}       -> Expr;
         {builtin_u, _, _, _}    -> Expr;
         {remote, ArgsT, RetT, Ct, F, Es}    -> {remote,        ArgsT, RetT, rename(Ren, Ct), F, [rename(Ren, E) || E <- Es]};
-        {remote_u, ArgsT, RetT, Ct, F}   -> {remote_u, ArgsT, RetT, rename(Ren, Ct), F};
+        {remote_u, Ann, ArgsT, RetT, Ct, F} -> {remote_u, Ann, ArgsT, RetT, rename(Ren, Ct), F};
         {con, Ar, I, Es}        -> {con, Ar, I, [rename(Ren, E) || E <- Es]};
         {tuple, Es}             -> {tuple, [rename(Ren, E) || E <- Es]};
         {proj, E, I}            -> {proj, rename(Ren, E), I};
@@ -2201,7 +2201,7 @@ pp_fexpr({builtin_u, B, N, TypeArgs}) ->
     pp_beside([pp_text(B), pp_text("@"), pp_fexpr({tuple, TypeArgs}), pp_text("/"), pp_text(N)]);
 pp_fexpr({builtin, B, As}) ->
     pp_call(pp_text(B), As);
-pp_fexpr({remote_u, ArgsT, RetT, Ct, Fun}) ->
+pp_fexpr({remote_u, _, ArgsT, RetT, Ct, Fun}) ->
     pp_beside([pp_fexpr(Ct), pp_text("."), pp_fun_name(Fun), pp_text(" : "), pp_ftype({function, ArgsT, RetT})]);
 pp_fexpr({remote, ArgsT, RetT, Ct, Fun, As}) ->
     pp_call(pp_parens(pp_beside([pp_fexpr(Ct), pp_text("."), pp_fun_name(Fun), pp_text(" : "), pp_ftype({function, ArgsT, RetT})])), As);