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authorSon Ho2022-01-28 19:03:59 +0100
committerSon Ho2022-01-28 19:03:59 +0100
commitf01cae026d6ec4c9d2a0eec4719f1819e414a5b8 (patch)
treec34424126eec2ea9110835943e6a59e6ffef39d3 /src
parent65435f03dba02adbaf7ba64cba6566fb01d376ef (diff)
Finish implementing filter_unused_assignments
Diffstat (limited to '')
-rw-r--r--src/Pure.ml3
-rw-r--r--src/PureMicroPasses.ml124
-rw-r--r--src/TranslateCore.ml3
3 files changed, 123 insertions, 7 deletions
diff --git a/src/Pure.ml b/src/Pure.ml
index 6c9a6f67..f20cdf50 100644
--- a/src/Pure.ml
+++ b/src/Pure.ml
@@ -346,7 +346,7 @@ and typed_rvalue = { value : rvalue; ty : ty }
polymorphic = false;
}]
-type unop = Not | Neg of T.integer_type
+type unop = Not | Neg of T.integer_type [@@deriving show]
type fun_id =
| Regular of A.fun_id * T.RegionGroupId.id option
@@ -354,6 +354,7 @@ type fun_id =
if it is a forward function *)
| Unop of unop
| Binop of E.binop * T.integer_type
+[@@deriving show]
(** Meta-information stored in the AST *)
type meta = Assignment of mplace * typed_rvalue
diff --git a/src/PureMicroPasses.ml b/src/PureMicroPasses.ml
index 0cd8f123..85d5585b 100644
--- a/src/PureMicroPasses.ml
+++ b/src/PureMicroPasses.ml
@@ -336,6 +336,17 @@ let inline_useless_var_reassignments (inline_named : bool) (def : fun_def) :
let body = obj#visit_expression VarId.Map.empty def.body in
{ def with body }
+(* TODO: move *)
+let lookup_fun_sig (fun_id : A.fun_id) (fun_defs : A.fun_def FunDefId.Map.t) :
+ A.fun_sig =
+ match fun_id with
+ | Local id -> (FunDefId.Map.find id fun_defs).signature
+ | Assumed aid ->
+ let _, sg =
+ List.find (fun (aid', _) -> aid = aid') Assumed.assumed_sigs
+ in
+ sg
+
(** Given a forward or backward function call, is there, for every execution
path, a child backward function called later with exactly the same input
list prefix? We use this to filter useless function calls: if there are
@@ -361,9 +372,105 @@ let inline_useless_var_reassignments (inline_named : bool) (def : fun_def) :
In this situation, we can remove the call `f x`.
*)
-let expression_contains_child_call_in_all_paths (ctx : trans_ctx) (call : call)
+let expression_contains_child_call_in_all_paths (ctx : trans_ctx) (call0 : call)
(e : expression) : bool =
- raise Unimplemented
+ let check_call call1 : bool =
+ (* Check the func_ids, to see if call1's function is a child of call0's function *)
+ match (call0.func, call1.func) with
+ | Regular (id0, rg_id0), Regular (id1, rg_id1) ->
+ (* Both are "regular" calls: check if they come from the same rust function *)
+ if id0 = id1 then
+ (* Same rust functions: check the regions hierarchy *)
+ let call1_is_child =
+ match (rg_id0, rg_id1) with
+ | None, _ ->
+ (* The function used in call0 is the forward function: the one
+ * used in call1 is necessarily a child *)
+ true
+ | Some _, None ->
+ (* Opposite of previous case *)
+ false
+ | Some rg_id0, Some rg_id1 ->
+ if rg_id0 = rg_id1 then true
+ else
+ (* We need to use the regions hierarchy *)
+ (* First, lookup the signature of the CFIM function *)
+ let sg = lookup_fun_sig id0 ctx.fun_context.fun_defs in
+ (* Compute the set of ancestors of the function in call1 *)
+ let call1_ancestors =
+ CfimAstUtils.list_parent_region_groups sg rg_id1
+ in
+ (* Check if the function used in call0 is inside *)
+ T.RegionGroupId.Set.mem rg_id0 call1_ancestors
+ in
+ (* If call1 is a child, then we need to check if the input arguments
+ * used in call0 are a prefix of the input arguments used in call1
+ * (note call1 being a child, it will likely consume strictly more
+ * given back values).
+ * *)
+ if call1_is_child then
+ let call1_args =
+ Collections.List.prefix (List.length call0.args) call1.args
+ in
+ let args = List.combine call0.args call1_args in
+ (* Note that the input values are expressions, *which may contain
+ * meta-values* (which we need to ignore). We only consider the
+ * case where both expressions are actually values. *)
+ let input_eq (v0, v1) =
+ match (v0, v1) with
+ | Value (v0, _), Value (v1, _) -> v0 = v1
+ | _ -> false
+ in
+ call0.type_params = call1.type_params && List.for_all input_eq args
+ else (* Not a child *)
+ false
+ else (* Not the same function *)
+ false
+ | _ -> false
+ in
+
+ let visitor =
+ object (self)
+ inherit [_] reduce_expression
+
+ method zero _ = false
+
+ method plus b0 b1 _ = b0 () && b1 ()
+
+ method! visit_expression env e =
+ match e with
+ | Value (_, _) -> fun _ -> false
+ | Let (_, _, Call call1, e) ->
+ let call_is_child = check_call call1 in
+ if call_is_child then fun () -> true
+ else self#visit_expression env e
+ | Let (_, _, re, e) ->
+ fun () ->
+ self#visit_expression env re () && self#visit_expression env e ()
+ | Call call1 -> fun () -> check_call call1
+ | Meta (_, e) -> self#visit_expression env e
+ | Switch (_, _, body) -> self#visit_switch_body env body
+ (** We need to reimplement the way we compose the booleans *)
+
+ method! visit_switch_body env body =
+ match body with
+ | If (e1, e2) ->
+ fun () ->
+ self#visit_expression env e1 () && self#visit_expression env e2 ()
+ | SwitchInt (_, branches, otherwise) ->
+ fun () ->
+ List.for_all
+ (fun (_, br) -> self#visit_expression env br ())
+ branches
+ && self#visit_expression env otherwise ()
+ | Match branches ->
+ fun () ->
+ List.for_all
+ (fun br -> self#visit_expression env br.branch ())
+ branches
+ end
+ in
+ visitor#visit_expression () e ()
(** Filter the unused assignments (removes the unused variables, filters
the function calls) *)
@@ -418,6 +525,9 @@ let filter_unused_assignments (ctx : trans_ctx) (def : fun_def) : fun_def =
method plus s0 s1 _ = VarId.Set.union (s0 ()) (s1 ())
+ method! visit_place _ p = (p, fun _ -> VarId.Set.singleton p.var)
+ (** Whenever we visit a place, we need to register the used variable *)
+
method! visit_expression env e =
match e with
| Value (_, _) | Call _ | Switch (_, _, _) | Meta (_, _) ->
@@ -440,7 +550,9 @@ let filter_unused_assignments (ctx : trans_ctx) (def : fun_def) : fun_def =
(* Not a monadic let-binding: simple case *)
(e, fun _ -> used)
else
- (* Monadic let-binding: trickier *)
+ (* Monadic let-binding: trickier.
+ * We can filter if the right-expression is a function call,
+ * under some conditions. *)
match re with
| Call call ->
(* We need to check if there is a child call - see
@@ -451,12 +563,12 @@ let filter_unused_assignments (ctx : trans_ctx) (def : fun_def) : fun_def =
in
if has_child_call then (* Filter *)
(e, fun _ -> used)
- else (* Don't filter *)
+ else (* No child call: don't filter *)
dont_filter ()
| _ ->
- (* We can't filter *)
+ (* Not a call: we can't filter *)
dont_filter ()
- else (* Don't filter *)
+ else (* There are used variables: don't filter *)
dont_filter ()
end
in
diff --git a/src/TranslateCore.ml b/src/TranslateCore.ml
index 361cf216..9dcbee02 100644
--- a/src/TranslateCore.ml
+++ b/src/TranslateCore.ml
@@ -33,3 +33,6 @@ let fun_def_to_string (ctx : trans_ctx) (def : Pure.fun_def) : string =
let fun_defs = ctx.fun_context.fun_defs in
let fmt = PrintPure.mk_ast_formatter type_defs fun_defs type_params in
PrintPure.fun_def_to_string fmt def
+
+let fun_def_id_to_string (ctx : trans_ctx) (id : Pure.FunDefId.id) : string =
+ Print.name_to_string (Pure.FunDefId.Map.find id ctx.fun_context.fun_defs).name