1 files changed, 20 insertions, 18 deletions

diff --git a/compiler/SynthesizeSymbolic.ml b/compiler/SynthesizeSymbolic.ml
index 857fea97..9dd65c84 100644
--- a/compiler/SynthesizeSymbolic.ml
+++ b/compiler/SynthesizeSymbolic.ml
@@ -64,7 +64,7 @@ let synthesize_symbolic_expansion (sv : V.symbolic_value)
             assert (otherwise_see = None);
             (* Return *)
             ExpandInt (int_ty, branches, otherwise)
-        | T.Adt (_, _, _, _) ->
+        | T.Adt (_, _) ->
             (* Branching: it is necessarily an enumeration expansion *)
             let get_variant (see : V.symbolic_expansion option) :
                 T.VariantId.id option * V.symbolic_value list =
@@ -85,7 +85,9 @@ let synthesize_symbolic_expansion (sv : V.symbolic_value)
             match ls with
             | [ (Some see, exp) ] -> ExpandNoBranch (see, exp)
             | _ -> raise (Failure "Ill-formed borrow expansion"))
-        | T.TypeVar _ | T.Literal Char | Never ->
+        | T.TypeVar _
+        | T.Literal Char
+        | Never | T.TraitType _ | T.Arrow _ | T.RawPtr _ ->
             raise (Failure "Ill-formed symbolic expansion")
       in
       Some (Expansion (place, sv, expansion))
@@ -97,10 +99,10 @@ let synthesize_symbolic_expansion_no_branching (sv : V.symbolic_value)
   synthesize_symbolic_expansion sv place [ Some see ] el
 
 let synthesize_function_call (call_id : call_id) (ctx : Contexts.eval_ctx)
-    (abstractions : V.AbstractionId.id list) (type_params : T.ety list)
-    (const_generic_params : T.const_generic list) (args : V.typed_value list)
-    (args_places : mplace option list) (dest : V.symbolic_value)
-    (dest_place : mplace option) (e : expression option) : expression option =
+    (abstractions : V.AbstractionId.id list) (generics : T.egeneric_args)
+    (args : V.typed_value list) (args_places : mplace option list)
+    (dest : V.symbolic_value) (dest_place : mplace option)
+    (e : expression option) : expression option =
   Option.map
     (fun e ->
       let call =
@@ -108,8 +110,7 @@ let synthesize_function_call (call_id : call_id) (ctx : Contexts.eval_ctx)
           call_id;
           ctx;
           abstractions;
-          type_params;
-          const_generic_params;
+          generics;
           args;
           dest;
           args_places;
@@ -123,28 +124,29 @@ let synthesize_global_eval (gid : A.GlobalDeclId.id) (dest : V.symbolic_value)
     (e : expression option) : expression option =
   Option.map (fun e -> EvalGlobal (gid, dest, e)) e
 
-let synthesize_regular_function_call (fun_id : A.fun_id)
+let synthesize_regular_function_call (fun_id : A.fun_id_or_trait_method_ref)
     (call_id : V.FunCallId.id) (ctx : Contexts.eval_ctx)
-    (abstractions : V.AbstractionId.id list) (type_params : T.ety list)
-    (const_generic_params : T.const_generic list) (args : V.typed_value list)
-    (args_places : mplace option list) (dest : V.symbolic_value)
-    (dest_place : mplace option) (e : expression option) : expression option =
+    (abstractions : V.AbstractionId.id list) (generics : T.egeneric_args)
+    (args : V.typed_value list) (args_places : mplace option list)
+    (dest : V.symbolic_value) (dest_place : mplace option)
+    (e : expression option) : expression option =
   synthesize_function_call
     (Fun (fun_id, call_id))
-    ctx abstractions type_params const_generic_params args args_places dest
-    dest_place e
+    ctx abstractions generics args args_places dest dest_place e
 
 let synthesize_unary_op (ctx : Contexts.eval_ctx) (unop : E.unop)
     (arg : V.typed_value) (arg_place : mplace option) (dest : V.symbolic_value)
     (dest_place : mplace option) (e : expression option) : expression option =
-  synthesize_function_call (Unop unop) ctx [] [] [] [ arg ] [ arg_place ] dest
-    dest_place e
+  let generics = TypesUtils.mk_empty_generic_args in
+  synthesize_function_call (Unop unop) ctx [] generics [ arg ] [ arg_place ]
+    dest dest_place e
 
 let synthesize_binary_op (ctx : Contexts.eval_ctx) (binop : E.binop)
     (arg0 : V.typed_value) (arg0_place : mplace option) (arg1 : V.typed_value)
     (arg1_place : mplace option) (dest : V.symbolic_value)
     (dest_place : mplace option) (e : expression option) : expression option =
-  synthesize_function_call (Binop binop) ctx [] [] [] [ arg0; arg1 ]
+  let generics = TypesUtils.mk_empty_generic_args in
+  synthesize_function_call (Binop binop) ctx [] generics [ arg0; arg1 ]
     [ arg0_place; arg1_place ] dest dest_place e
 
 let synthesize_end_abstraction (ctx : Contexts.eval_ctx) (abs : V.abs)