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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 INRIA Non-Commercial License Agreement. *)
+(* *)
+(* *********************************************************************)
+
+(** Static analysis and strength reduction for operators
+ and conditions. This is the machine-dependent part of [Constprop]. *)
+
+Require Import Coqlib.
+Require Import AST.
+Require Import Integers.
+Require Import Floats.
+Require Import Values.
+Require Import Op.
+Require Import Registers.
+
+(** * Static analysis *)
+
+(** To each pseudo-register at each program point, the static analysis
+ associates a compile-time approximation taken from the following set. *)
+
+Inductive approx : Type :=
+ | Novalue: approx (** No value possible, code is unreachable. *)
+ | Unknown: approx (** All values are possible,
+ no compile-time information is available. *)
+ | I: int -> approx (** A known integer value. *)
+ | F: float -> approx (** A known floating-point value. *)
+ | G: ident -> int -> approx
+ (** The value is the address of the given global
+ symbol plus the given integer offset. *)
+ | S: int -> approx. (** The value is the stack pointer plus the offset. *)
+
+(** We now define the abstract interpretations of conditions and operators
+ over this set of approximations. For instance, the abstract interpretation
+ of the operator [Oaddf] applied to two expressions [a] and [b] is
+ [F(Float.add f g)] if [a] and [b] have static approximations [Vfloat f]
+ and [Vfloat g] respectively, and [Unknown] otherwise.
+
+ The static approximations are defined by large pattern-matchings over
+ the approximations of the results. We write these matchings in the
+ indirect style described in file [SelectOp] to avoid excessive
+ duplication of cases in proofs. *)
+
+Nondetfunction eval_static_condition (cond: condition) (vl: list approx) :=
+ match cond, vl with
+ | Ccomp c, I n1 :: I n2 :: nil => Some(Int.cmp c n1 n2)
+ | Ccompu c, I n1 :: I n2 :: nil => Some(Int.cmpu c n1 n2)
+ | Ccompimm c n, I n1 :: nil => Some(Int.cmp c n1 n)
+ | Ccompuimm c n, I n1 :: nil => Some(Int.cmpu c n1 n)
+ | Ccompf c, F n1 :: F n2 :: nil => Some(Float.cmp c n1 n2)
+ | Cnotcompf c, F n1 :: F n2 :: nil => Some(negb(Float.cmp c n1 n2))
+ | Cmaskzero n, I n1 :: nil => Some(Int.eq (Int.and n1 n) Int.zero)
+ | Cmasknotzero n, I n1::nil => Some(negb(Int.eq (Int.and n1 n) Int.zero))
+ | _, _ => None
+ end.
+
+Definition eval_static_condition_val (cond: condition) (vl: list approx) :=
+ match eval_static_condition cond vl with
+ | None => Unknown
+ | Some b => I(if b then Int.one else Int.zero)
+ end.
+
+Definition eval_static_intoffloat (f: float) :=
+ match Float.intoffloat f with Some x => I x | None => Unknown end.
+
+Nondetfunction eval_static_addressing (addr: addressing) (vl: list approx) :=
+ match addr, vl with
+ | Aindexed n, I n1::nil => I (Int.add n1 n)
+ | Aindexed n, G id ofs::nil => G id (Int.add ofs n)
+ | Aindexed n, S ofs::nil => S (Int.add ofs n)
+ | Aindexed2 n, I n1::I n2::nil => I (Int.add (Int.add n1 n2) n)
+ | Aindexed2 n, G id ofs::I n2::nil => G id (Int.add (Int.add ofs n2) n)
+ | Aindexed2 n, I n1::G id ofs::nil => G id (Int.add (Int.add ofs n1) n)
+ | Aindexed2 n, S ofs::I n2::nil => S (Int.add (Int.add ofs n2) n)
+ | Aindexed2 n, I n1::S ofs::nil => S (Int.add (Int.add ofs n1) n)
+ | Ascaled sc n, I n1::nil => I (Int.add (Int.mul n1 sc) n)
+ | Aindexed2scaled sc n, I n1::I n2::nil => I (Int.add n1 (Int.add (Int.mul n2 sc) n))
+ | Aindexed2scaled sc n, G id ofs::I n2::nil => G id (Int.add ofs (Int.add (Int.mul n2 sc) n))
+ | Aindexed2scaled sc n, S ofs::I n2::nil => S (Int.add ofs (Int.add (Int.mul n2 sc) n))
+ | Aglobal id ofs, nil => G id ofs
+ | Abased id ofs, I n1::nil => G id (Int.add ofs n1)
+ | Abasedscaled sc id ofs, I n1::nil => G id (Int.add ofs (Int.mul sc n1))
+ | Ainstack ofs, nil => S ofs
+ | _, _ => Unknown
+ end.
+
+Nondetfunction eval_static_operation (op: operation) (vl: list approx) :=
+ match op, vl with
+ | Omove, v1::nil => v1
+ | Ointconst n, nil => I n
+ | Ofloatconst n, nil => F n
+ | Ocast8signed, I n1 :: nil => I(Int.sign_ext 8 n1)
+ | Ocast8unsigned, I n1 :: nil => I(Int.zero_ext 8 n1)
+ | Ocast16signed, I n1 :: nil => I(Int.sign_ext 16 n1)
+ | Ocast16unsigned, I n1 :: nil => I(Int.zero_ext 16 n1)
+ | Oneg, I n1 :: nil => I(Int.neg n1)
+ | Osub, I n1 :: I n2 :: nil => I(Int.sub n1 n2)
+ | Osub, G s1 n1 :: I n2 :: nil => G s1 (Int.sub n1 n2)
+ | Omul, I n1 :: I n2 :: nil => I(Int.mul n1 n2)
+ | Omulimm n, I n1 :: nil => I(Int.mul n1 n)
+ | Odiv, I n1 :: I n2 :: nil => if Int.eq n2 Int.zero then Unknown else I(Int.divs n1 n2)
+ | Odivu, I n1 :: I n2 :: nil => if Int.eq n2 Int.zero then Unknown else I(Int.divu n1 n2)
+ | Omod, I n1 :: I n2 :: nil => if Int.eq n2 Int.zero then Unknown else I(Int.mods n1 n2)
+ | Omodu, I n1 :: I n2 :: nil => if Int.eq n2 Int.zero then Unknown else I(Int.modu n1 n2)
+ | Oand, I n1 :: I n2 :: nil => I(Int.and n1 n2)
+ | Oandimm n, I n1 :: nil => I(Int.and n1 n)
+ | Oor, I n1 :: I n2 :: nil => I(Int.or n1 n2)
+ | Oorimm n, I n1 :: nil => I(Int.or n1 n)
+ | Oxor, I n1 :: I n2 :: nil => I(Int.xor n1 n2)
+ | Oxorimm n, I n1 :: nil => I(Int.xor n1 n)
+ | Oshl, I n1 :: I n2 :: nil => if Int.ltu n2 Int.iwordsize then I(Int.shl n1 n2) else Unknown
+ | Oshlimm n, I n1 :: nil => if Int.ltu n Int.iwordsize then I(Int.shl n1 n) else Unknown
+ | Oshr, I n1 :: I n2 :: nil => if Int.ltu n2 Int.iwordsize then I(Int.shr n1 n2) else Unknown
+ | Oshrimm n, I n1 :: nil => if Int.ltu n Int.iwordsize then I(Int.shr n1 n) else Unknown
+ | Oshrximm n, I n1 :: nil => if Int.ltu n (Int.repr 31) then I(Int.shrx n1 n) else Unknown
+ | Oshru, I n1 :: I n2 :: nil => if Int.ltu n2 Int.iwordsize then I(Int.shru n1 n2) else Unknown
+ | Oshruimm n, I n1 :: nil => if Int.ltu n Int.iwordsize then I(Int.shru n1 n) else Unknown
+ | Ororimm n, I n1 :: nil => if Int.ltu n Int.iwordsize then I(Int.ror n1 n) else Unknown
+ | Olea mode, vl => eval_static_addressing mode vl
+ | Onegf, F n1 :: nil => F(Float.neg n1)
+ | Oabsf, F n1 :: nil => F(Float.abs n1)
+ | Oaddf, F n1 :: F n2 :: nil => F(Float.add n1 n2)
+ | Osubf, F n1 :: F n2 :: nil => F(Float.sub n1 n2)
+ | Omulf, F n1 :: F n2 :: nil => F(Float.mul n1 n2)
+ | Odivf, F n1 :: F n2 :: nil => F(Float.div n1 n2)
+ | Osingleoffloat, F n1 :: nil => F(Float.singleoffloat n1)
+ | Ointoffloat, F n1 :: nil => eval_static_intoffloat n1
+ | Ofloatofint, I n1 :: nil => F(Float.floatofint n1)
+ | Ocmp c, vl => eval_static_condition_val c vl
+ | _, _ => Unknown
+ end.
+
+(** * Operator strength reduction *)
+
+(** We now define auxiliary functions for strength reduction of
+ operators and addressing modes: replacing an operator with a cheaper
+ one if some of its arguments are statically known. These are again
+ large pattern-matchings expressed in indirect style. *)
+
+Section STRENGTH_REDUCTION.
+
+Variable app: reg -> approx.
+
+Nondetfunction cond_strength_reduction
+ (cond: condition) (args: list reg) (vl: list approx) :=
+ match cond, args, vl with
+ | Ccomp c, r1 :: r2 :: nil, I n1 :: v2 :: nil =>
+ (Ccompimm (swap_comparison c) n1, r2 :: nil)
+ | Ccomp c, r1 :: r2 :: nil, v1 :: I n2 :: nil =>
+ (Ccompimm c n2, r1 :: nil)
+ | Ccompu c, r1 :: r2 :: nil, I n1 :: v2 :: nil =>
+ (Ccompuimm (swap_comparison c) n1, r2 :: nil)
+ | Ccompu c, r1 :: r2 :: nil, v1 :: I n2 :: nil =>
+ (Ccompuimm c n2, r1 :: nil)
+ | _, _, _ =>
+ (cond, args)
+ end.
+
+Nondetfunction addr_strength_reduction
+ (addr: addressing) (args: list reg) (vl: list approx) :=
+ match addr, args, vl with
+
+ | Aindexed ofs, r1 :: nil, G symb n :: nil =>
+ (Aglobal symb (Int.add n ofs), nil)
+ | Aindexed ofs, r1 :: nil, S n :: nil =>
+ (Ainstack (Int.add n ofs), nil)
+
+ | Aindexed2 ofs, r1 :: r2 :: nil, G symb n1 :: I n2 :: nil =>
+ (Aglobal symb (Int.add (Int.add n1 n2) ofs), nil)
+ | Aindexed2 ofs, r1 :: r2 :: nil, I n1 :: G symb n2 :: nil =>
+ (Aglobal symb (Int.add (Int.add n1 n2) ofs), nil)
+ | Aindexed2 ofs, r1 :: r2 :: nil, S n1 :: I n2 :: nil =>
+ (Ainstack (Int.add (Int.add n1 n2) ofs), nil)
+ | Aindexed2 ofs, r1 :: r2 :: nil, I n1 :: S n2 :: nil =>
+ (Ainstack (Int.add (Int.add n1 n2) ofs), nil)
+ | Aindexed2 ofs, r1 :: r2 :: nil, G symb n1 :: v2 :: nil =>
+ (Abased symb (Int.add n1 ofs), r2 :: nil)
+ | Aindexed2 ofs, r1 :: r2 :: nil, v1 :: G symb n2 :: nil =>
+ (Abased symb (Int.add n2 ofs), r1 :: nil)
+ | Aindexed2 ofs, r1 :: r2 :: nil, I n1 :: v2 :: nil =>
+ (Aindexed (Int.add n1 ofs), r2 :: nil)
+ | Aindexed2 ofs, r1 :: r2 :: nil, v1 :: I n2 :: nil =>
+ (Aindexed (Int.add n2 ofs), r1 :: nil)
+
+ | Aindexed2scaled sc ofs, r1 :: r2 :: nil, G symb n1 :: I n2 :: nil =>
+ (Aglobal symb (Int.add (Int.add n1 (Int.mul n2 sc)) ofs), nil)
+ | Aindexed2scaled sc ofs, r1 :: r2 :: nil, G symb n1 :: v2 :: nil =>
+ (Abasedscaled sc symb (Int.add n1 ofs), r2 :: nil)
+ | Aindexed2scaled sc ofs, r1 :: r2 :: nil, v1 :: I n2 :: nil =>
+ (Aindexed (Int.add (Int.mul n2 sc) ofs), r1 :: nil)
+
+ | Abased id ofs, r1 :: nil, I n1 :: nil =>
+ (Aglobal id (Int.add ofs n1), nil)
+
+ | Abasedscaled sc id ofs, r1 :: nil, I n1 :: nil =>
+ (Aglobal id (Int.add ofs (Int.mul sc n1)), nil)
+
+ | _, _ =>
+ (addr, args)
+ end.
+
+Definition make_addimm (n: int) (r: reg) :=
+ if Int.eq n Int.zero
+ then (Omove, r :: nil)
+ else (Oaddimm n, r :: nil).
+
+Definition make_shlimm (n: int) (r: reg) :=
+ if Int.eq n Int.zero
+ then (Omove, r :: nil)
+ else (Oshlimm n, r :: nil).
+
+Definition make_shrimm (n: int) (r: reg) :=
+ if Int.eq n Int.zero
+ then (Omove, r :: nil)
+ else (Oshrimm n, r :: nil).
+
+Definition make_shruimm (n: int) (r: reg) :=
+ if Int.eq n Int.zero
+ then (Omove, r :: nil)
+ else (Oshruimm n, r :: nil).
+
+Definition make_mulimm (n: int) (r: reg) :=
+ if Int.eq n Int.zero then
+ (Ointconst Int.zero, nil)
+ else if Int.eq n Int.one then
+ (Omove, r :: nil)
+ else
+ match Int.is_power2 n with
+ | Some l => make_shlimm l r
+ | None => (Omulimm n, r :: nil)
+ end.
+
+Definition make_andimm (n: int) (r: reg) :=
+ if Int.eq n Int.zero
+ then (Ointconst Int.zero, nil)
+ else if Int.eq n Int.mone then (Omove, r :: nil)
+ else (Oandimm n, r :: nil).
+
+Definition make_orimm (n: int) (r: reg) :=
+ if Int.eq n Int.zero then (Omove, r :: nil)
+ else if Int.eq n Int.mone then (Ointconst Int.mone, nil)
+ else (Oorimm n, r :: nil).
+
+Definition make_xorimm (n: int) (r: reg) :=
+ if Int.eq n Int.zero
+ then (Omove, r :: nil)
+ else (Oxorimm n, r :: nil).
+
+Definition make_divimm n (r1 r2: reg) :=
+ match Int.is_power2 n with
+ | Some l => if Int.ltu l (Int.repr 31)
+ then (Oshrximm l, r1 :: nil)
+ else (Odiv, r1 :: r2 :: nil)
+ | None => (Odiv, r1 :: r2 :: nil)
+ end.
+
+Definition make_divuimm n (r1 r2: reg) :=
+ match Int.is_power2 n with
+ | Some l => make_shruimm l r1
+ | None => (Odivu, r1 :: r2 :: nil)
+ end.
+
+Definition make_moduimm n (r1 r2: reg) :=
+ match Int.is_power2 n with
+ | Some l => (Oandimm (Int.sub n Int.one), r1 :: nil)
+ | None => (Omodu, r1 :: r2 :: nil)
+ end.
+
+(** We must be careful to preserve 2-address constraints over the
+ RTL code, which means that commutative operations cannot
+ be specialized if their first argument is a constant. *)
+
+Nondetfunction op_strength_reduction
+ (op: operation) (args: list reg) (vl: list approx) :=
+ match op, args, vl with
+ | Osub, r1 :: r2 :: nil, v1 :: I n2 :: nil => make_addimm (Int.neg n2) r1
+ | Omul, r1 :: r2 :: nil, v1 :: I n2 :: nil => make_mulimm n2 r1
+ | Odiv, r1 :: r2 :: nil, v1 :: I n2 :: nil => make_divimm n2 r1 r2
+ | Odivu, r1 :: r2 :: nil, v1 :: I n2 :: nil => make_divuimm n2 r1 r2
+ | Omodu, r1 :: r2 :: nil, v1 :: I n2 :: nil => make_moduimm n2 r1 r2
+ | Oand, r1 :: r2 :: nil, v1 :: I n2 :: nil => make_andimm n2 r1
+ | Oor, r1 :: r2 :: nil, v1 :: I n2 :: nil => make_orimm n2 r1
+ | Oxor, r1 :: r2 :: nil, v1 :: I n2 :: nil => make_xorimm n2 r1
+ | Oshl, r1 :: r2 :: nil, v1 :: I n2 :: nil => make_shlimm n2 r1
+ | Oshr, r1 :: r2 :: nil, v1 :: I n2 :: nil => make_shrimm n2 r1
+ | Oshru, r1 :: r2 :: nil, v1 :: I n2 :: nil => make_shruimm n2 r1
+ | Olea addr, args, vl =>
+ let (addr', args') := addr_strength_reduction addr args vl in
+ (Olea addr', args')
+ | Ocmp c, args, vl =>
+ let (c', args') := cond_strength_reduction c args vl in
+ (Ocmp c', args')
+ | _, _, _ => (op, args)
+ end.
+
+Nondetfunction builtin_strength_reduction
+ (ef: external_function) (args: list reg) (vl: list approx) :=
+ match ef, args, vl with
+ | EF_vload chunk, r1 :: nil, G symb n1 :: nil =>
+ (EF_vload_global chunk symb n1, nil)
+ | EF_vstore chunk, r1 :: r2 :: nil, G symb n1 :: v2 :: nil =>
+ (EF_vstore_global chunk symb n1, r2 :: nil)
+ | _, _, _ =>
+ (ef, args)
+ end.
+
+End STRENGTH_REDUCTION.