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authorSon Ho2021-11-26 16:23:55 +0100
committerSon Ho2021-11-26 16:23:55 +0100
commit5199cbff57e479f9211d0795c8caff23f3305086 (patch)
treed63ae53d87989d6b20fdcb5d454dfdf91d141d5f /src
parenta80f355d4947e73409c193e23c436b1e197cdfcc (diff)
Make good progress on eval_local_function_call
Diffstat (limited to '')
-rw-r--r--src/Contexts.ml31
-rw-r--r--src/Interpreter.ml142
-rw-r--r--src/Utilities.ml7
3 files changed, 149 insertions, 31 deletions
diff --git a/src/Contexts.ml b/src/Contexts.ml
index 25865064..258415a9 100644
--- a/src/Contexts.ml
+++ b/src/Contexts.ml
@@ -39,6 +39,7 @@ let lookup_type_var (ctx : eval_ctx) (vid : TypeVarId.id) : type_var =
TypeVarId.nth ctx.type_vars vid
let ctx_lookup_var (ctx : eval_ctx) (vid : VarId.id) : var =
+ (* TOOD: we might want to stop at the end of the frame *)
let rec lookup env =
match env with
| [] ->
@@ -56,6 +57,7 @@ let ctx_lookup_fun_def (ctx : eval_ctx) (fid : FunDefId.id) : fun_def =
(** Retrieve a variable's value in an environment *)
let env_lookup_var_value (env : env) (vid : VarId.id) : typed_value =
+ (* TOOD: we might want to stop at the end of the frame *)
let check_ev (ev : env_value) : typed_value option =
match ev with
| Var (var, v) -> if var.index = vid then Some v else None
@@ -75,6 +77,7 @@ let ctx_lookup_var_value (ctx : eval_ctx) (vid : VarId.id) : typed_value =
any check.
*)
let env_update_var_value (env : env) (vid : VarId.id) (nv : typed_value) : env =
+ (* TOOD: we might want to stop at the end of the frame *)
let update_ev (ev : env_value) : env_value =
match ev with
| Var (var, v) -> if var.index = vid then Var (var, nv) else Var (var, v)
@@ -91,3 +94,31 @@ let env_update_var_value (env : env) (vid : VarId.id) (nv : typed_value) : env =
let ctx_update_var_value (ctx : eval_ctx) (vid : VarId.id) (nv : typed_value) :
eval_ctx =
{ ctx with env = env_update_var_value ctx.env vid nv }
+
+(** Push a variable in the context's environment.
+
+ Checks that the pushed variable and its value have the same type (this
+ is important).
+*)
+let ctx_push_var (ctx : eval_ctx) (var : var) (v : typed_value) : eval_ctx =
+ assert (var.var_ty = v.ty);
+ { ctx with env = Var (var, v) :: ctx.env }
+
+(** Push a list of variables.
+
+ Checks that the pushed variables and their values have the same type (this
+ is important).
+*)
+let ctx_push_vars (ctx : eval_ctx) (vars : (var * typed_value) list) : eval_ctx
+ =
+ assert (List.for_all (fun (var, value) -> var.var_ty = value.ty) vars);
+ let vars = List.map (fun (var, value) -> Var (var, value)) vars in
+ let vars = List.rev vars in
+ { ctx with env = List.append vars ctx.env }
+
+let mk_bottom (ty : ety) : typed_value = { value = Bottom; ty }
+
+(** Push a list of uninitialized variables (which thus map to [Bottom]) *)
+let ctx_push_uninitialized_vars (ctx : eval_ctx) (vars : var list) : eval_ctx =
+ let vars = List.map (fun v -> (v, mk_bottom v.var_ty)) vars in
+ ctx_push_vars ctx vars
diff --git a/src/Interpreter.ml b/src/Interpreter.ml
index 0eae046f..496347ff 100644
--- a/src/Interpreter.ml
+++ b/src/Interpreter.ml
@@ -1342,7 +1342,7 @@ let rec collect_borrows_at_place (config : C.config) (access : access_kind)
Repeat:
- read the value at a given place
- - as long as we find a loans or a borrow, end it
+ - as long as we find a loan or a borrow, end it
This is used to drop values (when we need to write to a place, we first
drop the value there to properly propagate back values which are not/can't
@@ -1779,7 +1779,7 @@ let eval_rvalue (config : C.config) (ctx : C.eval_ctx) (rvalue : E.rvalue) :
let aty = T.Adt (def_id, regions, types) in
Ok (ctx1, { V.value = Adt av; ty = aty }))
-(** Result of evaluating a statement *)
+(** Result of evaluating a statement - TODO: add prefix *)
type statement_eval_res = Unit | Break of int | Continue of int | Return
(** Small utility.
@@ -1864,6 +1864,75 @@ let set_discriminant (config : C.config) (ctx : C.eval_ctx) (p : E.place)
| _, (V.Concrete _ | V.Tuple _ | V.Borrow _ | V.Loan _ | V.Assumed _) ->
failwith "Unexpected value"
+(** Push a frame delimiter in the context's environment *)
+let ctx_push_frame (ctx : C.eval_ctx) : C.eval_ctx =
+ { ctx with env = Frame :: ctx.env }
+
+(** Small helper *)
+let mk_place_from_var_id (var_id : V.VarId.id) : E.place =
+ { var_id; projection = [] }
+
+(** Drop a value at a given place *)
+let drop_value (config : C.config) (ctx : C.eval_ctx) (p : E.place) : C.eval_ctx
+ =
+ let ctx1, v = prepare_lplace config p ctx in
+ let nv = { v with value = V.Bottom } in
+ let env2 = write_place_unwrap config Write p nv ctx1.env in
+ let ctx2 = { ctx with env = env2 } in
+ ctx2
+
+(** Pop the current frame.
+
+ Drop all the local variables but the return variable, move the return
+ value out of the return variable, remove all the local variables (but not the
+ abstractions!) from the context, remove the [Frame] indicator delimiting the
+ current frame and return the return value and the updated context.
+ *)
+let ctx_pop_frame (config : C.config) (ctx : C.eval_ctx) :
+ C.eval_ctx * V.typed_value =
+ let ret_vid = V.VarId.zero in
+ (* List the local variables, but the return variable *)
+ let rec list_locals env =
+ match env with
+ | [] -> failwith "Inconsistent environment"
+ | C.Abs _ :: env' -> list_locals env'
+ | C.Var (var, _) :: env' ->
+ let locals = list_locals env' in
+ if var.index = ret_vid then var.index :: locals else locals
+ | C.Frame :: _ -> []
+ in
+ let locals = list_locals ctx.env in
+ (* Drop the local variables *)
+ let ctx1 =
+ List.fold_left
+ (fun ctx lid -> drop_value config ctx (mk_place_from_var_id lid))
+ ctx locals
+ in
+ (* Move the return value out of the return variable *)
+ let ctx2, ret_value =
+ eval_operand config ctx1 (E.Move (mk_place_from_var_id ret_vid))
+ in
+ (* Pop the frame *)
+ let rec pop env =
+ match env with
+ | [] -> failwith "Inconsistent environment"
+ | C.Abs abs :: env' -> C.Abs abs :: pop env'
+ | C.Var (_, _) :: env' -> pop env'
+ | C.Frame :: env' -> env'
+ in
+ let env3 = pop ctx2.env in
+ let ctx3 = { ctx2 with env = env3 } in
+ (ctx3, ret_value)
+
+let assign_to_place (config : C.config) (ctx : C.eval_ctx) (v : V.typed_value)
+ (p : E.place) : C.eval_ctx =
+ (* Prepare the destination *)
+ let ctx2, _ = prepare_lplace config p ctx in
+ (* Update the destination *)
+ let env3 = write_place_unwrap config Write p v ctx2.env in
+ let ctx3 = { ctx2 with env = env3 } in
+ ctx3
+
let rec eval_statement (config : C.config) (ctx : C.eval_ctx) (st : A.statement)
: (C.eval_ctx * statement_eval_res) eval_result =
match st with
@@ -1872,23 +1941,15 @@ let rec eval_statement (config : C.config) (ctx : C.eval_ctx) (st : A.statement)
match eval_rvalue config ctx rvalue with
| Error err -> Error err
| Ok (ctx1, rvalue) ->
- (* Prepare the destination *)
- let ctx2, _ = prepare_lplace config p ctx1 in
- (* Update the destination *)
- let env3 = write_place_unwrap config Write p rvalue ctx2.env in
- let ctx3 = { ctx2 with env = env3 } in
- Ok (ctx3, Unit))
+ (* Assign *)
+ let ctx2 = assign_to_place config ctx1 rvalue p in
+ Ok (ctx2, Unit))
| A.FakeRead p ->
let ctx1, _ = prepare_rplace config Read p ctx in
Ok (ctx1, Unit)
| A.SetDiscriminant (p, variant_id) ->
set_discriminant config ctx p variant_id
- | A.Drop p ->
- let ctx1, v = prepare_lplace config p ctx in
- let nv = { v with value = V.Bottom } in
- let env2 = write_place_unwrap config Write p nv ctx1.env in
- let ctx2 = { ctx with env = env2 } in
- Ok (ctx2, Unit)
+ | A.Drop p -> Ok (drop_value config ctx p, Unit)
| A.Assert assertion -> (
let ctx1, v = eval_operand config ctx assertion.cond in
assert (v.ty = T.Bool);
@@ -1924,7 +1985,7 @@ and eval_local_function_call (config : C.config) (ctx : C.eval_ctx)
(* Retrieve the (correctly instantiated) body *)
let def = C.ctx_lookup_fun_def ctx fid in
match config.mode with
- | ConcreteMode ->
+ | ConcreteMode -> (
let tsubst =
Subst.make_type_subst
(List.map
@@ -1933,35 +1994,60 @@ and eval_local_function_call (config : C.config) (ctx : C.eval_ctx)
type_params
in
let locals, body = Subst.fun_def_substitute_in_body tsubst def in
+ let locals = V.VarId.vector_to_list locals in
(* Evaluate the input operands *)
let ctx1, args = eval_operands config ctx args in
+ assert (List.length args = def.A.arg_count);
+
+ (* Push a frame delimiter *)
+ let ctx2 = ctx_push_frame ctx1 in
(* Compute the initial values for the local variables *)
- (* First, compute the types of the variables *)
- let local_tys =
- List.map (fun l -> l.V.var_ty) (V.VarId.vector_to_list locals)
+ (* 1. Push the return value *)
+ let ret_var, locals =
+ match locals with
+ | ret_ty :: locals -> (ret_ty, locals)
+ | _ -> failwith "Unreachable"
in
+ let ctx3 = C.ctx_push_var ctx2 ret_var (C.mk_bottom ret_var.var_ty) in
- (* Second, push the return value *)
- let ret_var, local_tys =
- match local_tys with
- | ret_ty :: local_tys -> (ret_ty, local_tys)
- | _ -> failwith "Unreachable"
+ (* 2. Push the input values *)
+ let input_locals, locals =
+ Utilities.list_split_at locals def.A.arg_count
in
+ let inputs = List.combine input_locals args in
+ (* Note that this function checks that the variables and their values
+ have the same type (this is important) *)
+ let ctx4 = C.ctx_push_vars ctx3 inputs in
- (* let ctx2 = ctx_push_var *)
+ (* 3. Push the remaining local variables (initialized as [Bottom]) *)
+ let ctx5 = C.ctx_push_uninitialized_vars ctx4 locals in
- (* Third, push the inputs *)
+ (* Execute the function body *)
+ match eval_function_body config ctx5 body with
+ | Error Panic -> Error Panic
+ | Ok ctx6 ->
+ (* Pop the stack frame and retrieve the return value *)
+ let ctx7, ret_value = ctx_pop_frame config ctx6 in
- (* Finally, put the remaining local variables (initialized as [Bottom]) *)
+ (* Move the return value to its destination *)
+ let ctx8 = assign_to_place config ctx7 ret_value dest in
- (* TODO ... *)
- raise Unimplemented
+ (* Return *)
+ Ok (ctx8, Unit))
| SymbolicMode -> raise Unimplemented
+and eval_function_body (config : C.config) (ctx : C.eval_ctx)
+ (body : A.expression) : (C.eval_ctx, eval_error) result =
+ raise Unimplemented
+
and eval_assumed_function_call (config : C.config) (ctx : C.eval_ctx)
(fid : A.assumed_fun_id) (region_params : T.erased_region list)
(type_params : T.ety list) (args : E.operand list) (dest : E.place) :
(C.eval_ctx * statement_eval_res) eval_result =
raise Unimplemented
+
+and eval_expression (config : C.config) (ctx : C.eval_ctx) (expr : A.expression)
+ : (C.eval_ctx * statement_eval_res) eval_result =
+ raise Unimplemented
diff --git a/src/Utilities.ml b/src/Utilities.ml
index 84cbd6e9..6452d56f 100644
--- a/src/Utilities.ml
+++ b/src/Utilities.ml
@@ -1,6 +1,7 @@
-(* Split a list at a given index i (the first list contains all the elements
- up to element of index i, not included, the second one contains the remaining
- elements *)
+(* Split a list at a given index [i] (the first list contains all the elements
+ up to element of index [i], not included, the second one contains the remaining
+ elements. Note that the first returned list has length [i].
+ *)
let rec list_split_at (ls : 'a list) (i : int) =
if i < 0 then raise (Invalid_argument "list_split_at take positive integers")
else if i = 0 then ([], ls)