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-rw-r--r--compiler/Extract.ml11
-rw-r--r--compiler/FunsAnalysis.ml24
2 files changed, 28 insertions, 7 deletions
diff --git a/compiler/Extract.ml b/compiler/Extract.ml
index ac81d6f3..b842aea1 100644
--- a/compiler/Extract.ml
+++ b/compiler/Extract.ml
@@ -3,7 +3,6 @@
the formatter everywhere...
*)
-open Utils
open Pure
open PureUtils
open TranslateCore
@@ -61,6 +60,11 @@ let named_binop_name (binop : E.binop) (int_ty : integer_type) : string =
| Le -> "le"
| Ge -> "ge"
| Gt -> "gt"
+ | BitXor -> "xor"
+ | BitAnd -> "and"
+ | BitOr -> "or"
+ | Shl -> "lsl"
+ | Shr -> "asr" (* NOTE: make sure arithmetic shift right is implemented, i.e. OCaml's asr operator, not lsr *)
| _ -> raise (Failure "Unreachable")
in
(* Remark: the Lean case is actually not used *)
@@ -498,14 +502,13 @@ let extract_binop (extract_expr : bool -> texpression -> unit)
F.pp_print_string fmt binop;
F.pp_print_space fmt ();
extract_expr false arg1
- | _, (Lt | Le | Ge | Gt | Div | Rem | Add | Sub | Mul) ->
+ | _ ->
let binop = named_binop_name binop int_ty in
F.pp_print_string fmt binop;
F.pp_print_space fmt ();
extract_expr true arg0;
F.pp_print_space fmt ();
- extract_expr true arg1
- | _, (BitXor | BitAnd | BitOr | Shl | Shr) -> raise Unimplemented);
+ extract_expr true arg1);
if inside then F.pp_print_string fmt ")"
let type_decl_kind_to_qualif (kind : decl_kind)
diff --git a/compiler/FunsAnalysis.ml b/compiler/FunsAnalysis.ml
index f4406653..f8aa06dc 100644
--- a/compiler/FunsAnalysis.ml
+++ b/compiler/FunsAnalysis.ml
@@ -58,6 +58,24 @@ let analyze_module (m : crate) (funs_map : fun_decl FunDeclId.Map.t)
let can_diverge = ref false in
let is_rec = ref false in
+ (* We have some specialized knowledge of some library functions; we don't
+ have any more custom treatment than this, and these functions can be modeled
+ suitably in Primitives.fst, rather than special-casing for them all the
+ way. *)
+ let module M = struct type opaque_info = { fallible: bool; stateful: bool } end in
+ let open M in
+ let opaque_info (f: fun_decl) =
+ match f.name with
+ | [ Ident "core"; Ident "num"; Ident "u32"; _; Ident "wrapping_add" ]
+ | [ Ident "core"; Ident "num"; Ident "u32"; _; Ident "rotate_left" ] ->
+ { fallible = false; stateful = false }
+ | _ ->
+ (* Opaque function: we consider they fail by default *)
+ { fallible = true; stateful = true }
+ in
+
+ (* JP: Why not use a reduce visitor here with a tuple of the values to be
+ computed? *)
let visit_fun (f : fun_decl) : unit =
let obj =
object (self)
@@ -108,9 +126,9 @@ let analyze_module (m : crate) (funs_map : fun_decl FunDeclId.Map.t)
assert ((not f.is_global_decl_body) || not !stateful);
match f.body with
| None ->
- (* Opaque function: we consider they fail by default *)
- obj#may_fail true;
- stateful := (not f.is_global_decl_body) && use_state
+ let info = opaque_info f in
+ obj#may_fail info.fallible;
+ stateful := (not f.is_global_decl_body) && use_state && info.stateful
| Some body -> obj#visit_statement () body.body
in
List.iter visit_fun d;