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(* *********************************************************************)
(* *)
(* The Compcert verified compiler *)
(* *)
(* Xavier Leroy, INRIA Paris-Rocquencourt *)
(* *)
(* Copyright Institut National de Recherche en Informatique et en *)
(* Automatique. All rights reserved. This file is distributed *)
(* under the terms of the GNU General Public License as published by *)
(* the Free Software Foundation, either version 2 of the License, or *)
(* (at your option) any later version. This file is also distributed *)
(* under the terms of the INRIA Non-Commercial License Agreement. *)
(* *)
(* *********************************************************************)
(* Evaluation of compile-time constants *)
open C
open Cutil
open Machine
(* Extra arith on int64 *)
(* Unsigned comparison: do signed comparison after shifting range *)
let int64_unsigned_compare x y =
Int64.compare (Int64.add x Int64.min_int) (Int64.add y Int64.min_int)
(* Unsigned division and modulus: synthesized from signed division
as described in "Hacker's Delight", section 9.3. *)
let int64_unsigned_div n d =
if d < 0L then
if int64_unsigned_compare n d < 0 then 0L else 1L
else begin
let q = Int64.shift_left (Int64.div (Int64.shift_right_logical n 1) d) 1 in
let r = Int64.sub n (Int64.mul q d) in
if int64_unsigned_compare r d >= 0 then Int64.succ q else q
end
let int64_unsigned_mod n d =
if d < 0L then
if int64_unsigned_compare n d < 0 then n else Int64.sub n d
else begin
let q = Int64.shift_left (Int64.div (Int64.shift_right_logical n 1) d) 1 in
let r = Int64.sub n (Int64.mul q d) in
if int64_unsigned_compare r d >= 0 then Int64.sub r d else r
end
exception Notconst
(* Reduce n to the range of representable integers of the given kind *)
let normalize_int n ik =
if ik = IBool then
if n = 0L then 0L else 1L
else begin
let bitsize = sizeof_ikind ik * 8
and signed = is_signed_ikind ik in
if bitsize >= 64 then n else begin
let a = 64 - bitsize in
let p = Int64.shift_left n a in
if signed
then Int64.shift_right p a
else Int64.shift_right_logical p a
end
end
(* Reduce n to the range of representable floats of the given kind *)
type value =
| I of int64
| S of string
| WS of int64 list
let boolean_value v =
match v with
| I n -> n <> 0L
| S _ | WS _ -> true
let constant = function
| CInt(v, ik, _) -> I (normalize_int v ik)
| CFloat(v, fk) -> raise Notconst
| CStr s -> S s
| CWStr s -> WS s
| CEnum(id, v) -> I v
let is_signed env ty =
match unroll env ty with
| TInt(ik, _) -> is_signed_ikind ik
| TEnum(_, _) -> is_signed_ikind enum_ikind
| _ -> false
let cast env ty_to ty_from v =
match unroll env ty_to, v with
| TInt(IBool, _), _ ->
if boolean_value v then I 1L else I 0L
| TInt(ik, _), I n ->
I(normalize_int n ik)
| TInt(ik, _), (S _ | WS _) ->
if sizeof_ikind ik >= !config.sizeof_ptr
then v
else raise Notconst
| TPtr(ty, _), I n ->
I (normalize_int n ptr_t_ikind)
| TPtr(ty, _), (S _ | WS _) ->
v
| TEnum(_, _), I n ->
I (normalize_int n enum_ikind)
| _, _ ->
raise Notconst
let unop env op tyres ty v =
let res =
match op, tyres, v with
| Ominus, TInt _, I n -> I (Int64.neg n)
| Oplus, TInt _, I n -> I n
| Olognot, _, _ -> if boolean_value v then I 0L else I 1L
| Onot, _, I n -> I (Int64.lognot n)
| _ -> raise Notconst
in cast env ty tyres res
let comparison env direction ptraction tyop ty1 v1 ty2 v2 =
(* tyop = type at which the comparison is done *)
let b =
match cast env tyop ty1 v1, cast env tyop ty2 v2 with
| I n1, I n2 ->
if is_signed env tyop
then direction (compare n1 n2) 0
else direction (int64_unsigned_compare n1 n2) 0 (* including pointers *)
| (S _ | WS _), I 0L ->
begin match ptraction with None -> raise Notconst | Some b -> b end
| I 0L, (S _ | WS _) ->
begin match ptraction with None -> raise Notconst | Some b -> b end
| _, _ ->
raise Notconst
in if b then I 1L else I 0L
let binop env op tyop tyres ty1 v1 ty2 v2 =
(* tyop = type at which the computation is done
tyres = expected result type *)
let res =
match op with
| Oadd ->
if is_arith_type env ty1 && is_arith_type env ty2 then begin
match cast env tyop ty1 v1, cast env tyop ty2 v2 with
| I n1, I n2 -> I (Int64.add n1 n2)
| _, _ -> raise Notconst
end else
raise Notconst
| Osub ->
if is_arith_type env ty1 && is_arith_type env ty2 then begin
match cast env tyop ty1 v1, cast env tyop ty2 v2 with
| I n1, I n2 -> I (Int64.sub n1 n2)
| _, _ -> raise Notconst
end else
raise Notconst
| Omul ->
begin match cast env tyop ty1 v1, cast env tyop ty2 v2 with
| I n1, I n2 -> I (Int64.mul n1 n2)
| _, _ -> raise Notconst
end
| Odiv ->
begin match cast env tyop ty1 v1, cast env tyop ty2 v2 with
| I n1, I n2 ->
if n2 = 0L then raise Notconst else
if is_signed env tyop then I (Int64.div n1 n2)
else I (int64_unsigned_div n1 n2)
| _, _ -> raise Notconst
end
| Omod ->
begin match v1, v2 with
| I n1, I n2 ->
if n2 = 0L then raise Notconst else
if is_signed env tyop then I (Int64.rem n1 n2)
else I (int64_unsigned_mod n1 n2)
| _, _ -> raise Notconst
end
| Oand ->
begin match v1, v2 with
| I n1, I n2 -> I (Int64.logand n1 n2)
| _, _ -> raise Notconst
end
| Oor ->
begin match v1, v2 with
| I n1, I n2 -> I (Int64.logor n1 n2)
| _, _ -> raise Notconst
end
| Oxor ->
begin match v1, v2 with
| I n1, I n2 -> I (Int64.logxor n1 n2)
| _, _ -> raise Notconst
end
| Oshl ->
begin match v1, v2 with
| I n1, I n2 when n2 >= 0L && n2 < 64L ->
I (Int64.shift_left n1 (Int64.to_int n2))
| _, _ -> raise Notconst
end
| Oshr ->
begin match v1, v2 with
| I n1, I n2 when n2 >= 0L && n2 < 64L ->
if is_signed env tyop
then I (Int64.shift_right n1 (Int64.to_int n2))
else I (Int64.shift_right_logical n1 (Int64.to_int n2))
| _, _ -> raise Notconst
end
| Oeq ->
comparison env (=) (Some false) tyop ty1 v1 ty2 v2
| One ->
comparison env (<>) (Some true) tyop ty1 v1 ty2 v2
| Olt ->
comparison env (<) None tyop ty1 v1 ty2 v2
| Ogt ->
comparison env (>) None tyop ty1 v1 ty2 v2
| Ole ->
comparison env (<=) None tyop ty1 v1 ty2 v2
| Oge ->
comparison env (>=) None tyop ty1 v1 ty2 v2
| Ocomma ->
v2
| Ologand ->
if boolean_value v1
then if boolean_value v2 then I 1L else I 0L
else I 0L
| Ologor ->
if boolean_value v1
then I 1L
else if boolean_value v2 then I 1L else I 0L
| _ -> raise Notconst
(* force normalization of result, e.g. of double to float *)
in cast env tyres tyres res
let rec expr env e =
match e.edesc with
| EConst c ->
constant c
| ESizeof ty ->
begin match sizeof env ty with
| None -> raise Notconst
| Some n -> I(Int64.of_int n)
end
| EAlignof ty ->
begin match alignof env ty with
| None -> raise Notconst
| Some n -> I(Int64.of_int n)
end
| EVar _ ->
raise Notconst
| EUnop(op, e1) ->
unop env op e.etyp e1.etyp (expr env e1)
| EBinop(op, e1, e2, ty) ->
binop env op ty e.etyp e1.etyp (expr env e1) e2.etyp (expr env e2)
| EConditional(e1, e2, e3) ->
if boolean_value (expr env e1)
then cast env e.etyp e2.etyp (expr env e2)
else cast env e.etyp e3.etyp (expr env e3)
(* | ECast(TInt (_, _), EConst (CFloat (_, _))) -> TODO *)
| ECast(ty, e1) ->
cast env ty e1.etyp (expr env e1)
| ECall _ ->
raise Notconst
let integer_expr env e =
try
match cast env (TInt(ILongLong, [])) e.etyp (expr env e) with
| I n -> Some n
| _ -> None
with Notconst -> None
let constant_expr env ty e =
try
match unroll env ty, cast env ty e.etyp (expr env e) with
| TInt(ik, _), I n -> Some(CInt(n, ik, ""))
| TPtr(_, _), I n -> Some(CInt(n, IInt, ""))
| TPtr(_, _), S s -> Some(CStr s)
| TPtr(_, _), WS s -> Some(CWStr s)
| TEnum(_, _), I n -> Some(CInt(n, enum_ikind, ""))
| _ -> None
with Notconst -> None
|