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authorSon Ho2022-01-27 10:24:37 +0100
committerSon Ho2022-01-27 10:24:37 +0100
commit5e71d58da8b232cc53989f45c35f5017ae57cc77 (patch)
tree11b824c92e77dde7efbe3000a567dca2b0c4d064 /src
parent708c8582b3ac9065256a2763f4175ac3a1205e7f (diff)
Fix a mistake with the input symbolic values not being linked to the
input variables when translating ASTs from symbolic to pure
Diffstat (limited to 'src')
-rw-r--r--src/Interpreter.ml26
-rw-r--r--src/Translate.ml39
2 files changed, 49 insertions, 16 deletions
diff --git a/src/Interpreter.ml b/src/Interpreter.ml
index 24d71234..b1f889cb 100644
--- a/src/Interpreter.ml
+++ b/src/Interpreter.ml
@@ -45,10 +45,15 @@ let initialize_eval_context (type_context : C.type_context)
- the remaining locals are initialized as ⊥
Abstractions are introduced for the regions present in the function
signature.
+
+ We return:
+ - the initialized evaluation context
+ - the list of symbolic values introduced for the input values
+ - the instantiated function signature
*)
let initialize_symbolic_context_for_fun (type_context : C.type_context)
(fun_context : C.fun_context) (fdef : A.fun_def) :
- C.eval_ctx * A.inst_fun_sig =
+ C.eval_ctx * V.symbolic_value list * A.inst_fun_sig =
(* The abstractions are not initialized the same way as for function
* calls: they contain *loan* projectors, because they "provide" us
* with the input values (which behave as if they had been returned
@@ -98,7 +103,7 @@ let initialize_symbolic_context_for_fun (type_context : C.type_context)
(* Push the remaining local variables (initialized with ⊥) *)
let ctx = C.ctx_push_uninitialized_vars ctx local_vars in
(* Return *)
- (ctx, inst_sg)
+ (ctx, input_svs, inst_sg)
(** Small helper.
@@ -171,11 +176,17 @@ let evaluate_function_symbolic_synthesize_backward_from_return
in
cf_move_ret cf_consume_ret ctx
-(** Evaluate a function with the symbolic interpreter *)
+(** Evaluate a function with the symbolic interpreter.
+
+ We return:
+ - the list of symbolic values introduced for the input values (this is useful
+ for the synthesis)
+ - the symbolic AST generated by the symbolic execution
+ *)
let evaluate_function_symbolic (config : C.partial_config) (synthesize : bool)
(type_context : C.type_context) (fun_context : C.fun_context)
(fdef : A.fun_def) (back_id : T.RegionGroupId.id option) :
- SA.expression option =
+ V.symbolic_value list * SA.expression option =
(* Debug *)
let name_to_string () =
Print.name_to_string fdef.A.name
@@ -186,7 +197,7 @@ let evaluate_function_symbolic (config : C.partial_config) (synthesize : bool)
log#ldebug (lazy ("evaluate_function_symbolic: " ^ name_to_string ()));
(* Create the evaluation context *)
- let ctx, inst_sg =
+ let ctx, input_svs, inst_sg =
initialize_symbolic_context_for_fun type_context fun_context fdef
in
@@ -227,7 +238,10 @@ let evaluate_function_symbolic (config : C.partial_config) (synthesize : bool)
in
(* Evaluate the function *)
- eval_function_body config fdef.A.body cf_finish ctx
+ let symbolic = eval_function_body config fdef.A.body cf_finish ctx in
+
+ (* Return *)
+ (input_svs, symbolic)
module Test = struct
(** Test a unit function (taking no arguments) by evaluating it in an empty
diff --git a/src/Translate.ml b/src/Translate.ml
index ecc97ed1..ec580258 100644
--- a/src/Translate.ml
+++ b/src/Translate.ml
@@ -9,6 +9,12 @@ module SA = SymbolicAst
(** The local logger *)
let log = L.translate_log
+type symbolic_fun_translation = V.symbolic_value list * SA.expression
+(** The result of running the symbolic interpreter on a function:
+ - the list of symbolic values used for the input values
+ - the generated symbolic AST
+ *)
+
type pure_fun_translation = Pure.fun_def * Pure.fun_def list
(** Execute the symbolic interpreter on a function to generate a list of symbolic ASTs,
@@ -16,7 +22,8 @@ type pure_fun_translation = Pure.fun_def * Pure.fun_def list
*)
let translate_function_to_symbolics (config : C.partial_config)
(type_context : C.type_context) (fun_context : C.fun_context)
- (fdef : A.fun_def) : SA.expression * SA.expression list =
+ (fdef : A.fun_def) :
+ symbolic_fun_translation * symbolic_fun_translation list =
(* Debug *)
log#ldebug
(lazy
@@ -24,15 +31,19 @@ let translate_function_to_symbolics (config : C.partial_config)
(* Evaluate *)
let synthesize = true in
- let evaluate =
- evaluate_function_symbolic config synthesize type_context fun_context fdef
+ let evaluate gid =
+ let inputs, symb =
+ evaluate_function_symbolic config synthesize type_context fun_context fdef
+ gid
+ in
+ (inputs, Option.get symb)
in
(* Execute the forward function *)
- let forward = Option.get (evaluate None) in
+ let forward = evaluate None in
(* Execute the backward functions *)
let backwards =
T.RegionGroupId.mapi
- (fun gid _ -> Option.get (evaluate (Some gid)))
+ (fun gid _ -> evaluate (Some gid))
fdef.signature.regions_hierarchy
in
@@ -90,17 +101,24 @@ let translate_function_to_pure (config : C.partial_config)
}
in
- (* We need to initialize the input/output variables. First, the inputs
- * for the forward function *)
+ (* We need to initialize the input/output variables *)
let module RegularFunIdMap = SymbolicToPure.RegularFunIdMap in
let forward_sg = RegularFunIdMap.find (A.Local def_id, None) fun_sigs in
+ let add_forward_inputs input_svs ctx =
+ let ctx, forward_inputs =
+ SymbolicToPure.fresh_vars_for_symbolic_values input_svs ctx
+ in
+ { ctx with forward_inputs }
+ in
let ctx, forward_inputs = SymbolicToPure.fresh_vars forward_sg.inputs ctx in
let ctx = { ctx with forward_inputs } in
(* Translate the forward function *)
let pure_forward =
- SymbolicToPure.translate_fun_def fdef ctx symbolic_forward
+ SymbolicToPure.translate_fun_def fdef
+ (add_forward_inputs (fst symbolic_forward) ctx)
+ (snd symbolic_forward)
in
(* Translate the backward functions *)
@@ -109,8 +127,10 @@ let translate_function_to_pure (config : C.partial_config)
* there are no nested borrows for now, and so that the region groups
* can't have parents *)
assert (rg.parents = []);
- (* TODO: the computation of the backward inputs is a bit awckward... *)
let back_id = rg.id in
+ let input_svs, symbolic = T.RegionGroupId.nth symbolic_backwards back_id in
+ let ctx = add_forward_inputs input_svs ctx in
+ (* TODO: the computation of the backward inputs is a bit awckward... *)
let backward_sg =
RegularFunIdMap.find (A.Local def_id, Some back_id) fun_sigs
in
@@ -135,7 +155,6 @@ let translate_function_to_pure (config : C.partial_config)
in
(* Translate *)
- let symbolic = T.RegionGroupId.nth symbolic_backwards back_id in
SymbolicToPure.translate_fun_def fdef ctx symbolic
in
let pure_backwards =