Module SelectOp

Require Import Coqlib.
Require Import Maps.
Require Import AST.
Require Import Integers.
Require Import Floats.
Require Import Values.
Require Import Memory.
Require Import Globalenvs.
Require Cminor.
Require Import Op.
Require Import CminorSel.

Open Local Scope cminorsel_scope.

Constants *

Definition addrsymbol (id: ident) (ofs: int) :=
  Eop (Olea (Aglobal id ofs)) Enil.

Definition addrstack (ofs: int) :=
  Eop (Olea (Ainstack ofs)) Enil.

Integer logical negation

Definition notint (e: expr) := Eop (Oxorimm Int.mone) (e ::: Enil).

Boolean value and boolean negation

Fixpoint boolval (e: expr) {struct e} : expr :=
  let default := Eop (Ocmp (Ccompuimm Cne Int.zero)) (e ::: Enil) in
  match e with
  | Eop (Ointconst n) Enil =>
      Eop (Ointconst (if Int.eq n Int.zero then Int.zero else Int.one)) Enil
  | Eop (Ocmp cond) args =>
      Eop (Ocmp cond) args
  | Econdition e1 e2 e3 =>
      Econdition e1 (boolval e2) (boolval e3)
  | _ =>
      default
  end.

Boolean negation

Fixpoint notbool (e: expr) {struct e} : expr :=
  let default := Eop (Ocmp (Ccompuimm Ceq Int.zero)) (e ::: Enil) in
  match e with
  | Eop (Ointconst n) Enil =>
      Eop (Ointconst (if Int.eq n Int.zero then Int.one else Int.zero)) Enil
  | Eop (Ocmp cond) args =>
      Eop (Ocmp (negate_condition cond)) args
  | Econdition e1 e2 e3 =>
      Econdition e1 (notbool e2) (notbool e3)
  | _ =>
      default
  end.

Integer addition and pointer addition

Definition offset_addressing (a: addressing) (ofs: int) : addressing :=
  match a with
  | Aindexed n => Aindexed (Int.add n ofs)
  | Aindexed2 n => Aindexed2 (Int.add n ofs)
  | Ascaled sc n => Ascaled sc (Int.add n ofs)
  | Aindexed2scaled sc n => Aindexed2scaled sc (Int.add n ofs)
  | Aglobal id n => Aglobal id (Int.add n ofs)
  | Abased id n => Abased id (Int.add n ofs)
  | Abasedscaled sc id n => Abasedscaled sc id (Int.add n ofs)
  | Ainstack n => Ainstack (Int.add n ofs)
  end.


Inductive addimm_cases: forall (e: expr), Type :=
  | addimm_case1: forall m, addimm_cases (Eop (Ointconst m) Enil)
  | addimm_case2: forall addr args, addimm_cases (Eop (Olea addr) args)
  | addimm_default: forall (e: expr), addimm_cases e.

Definition addimm_match (e: expr) :=
  match e as zz1 return addimm_cases zz1 with
  | Eop (Ointconst m) Enil => addimm_case1 m
  | Eop (Olea addr) args => addimm_case2 addr args
  | e => addimm_default e
  end.

Definition addimm (n: int) (e: expr) :=
 if Int.eq n Int.zero then e else match addimm_match e with
  | addimm_case1 m =>
      Eop (Ointconst(Int.add n m)) Enil
  | addimm_case2 addr args =>
      Eop (Olea (offset_addressing addr n)) args
  | addimm_default e =>
      Eop (Olea (Aindexed n)) (e ::: Enil)
  end.



Inductive add_cases: forall (e1: expr) (e2: expr), Type :=
  | add_case1: forall n1 t2, add_cases (Eop (Ointconst n1) Enil) (t2)
  | add_case2: forall t1 n2, add_cases (t1) (Eop (Ointconst n2) Enil)
  | add_case3: forall n1 t1 n2 t2, add_cases (Eop (Olea (Aindexed n1)) (t1:::Enil)) (Eop (Olea (Aindexed n2)) (t2:::Enil))
  | add_case4: forall n1 t1 sc n2 t2, add_cases (Eop (Olea (Aindexed n1)) (t1:::Enil)) (Eop (Olea (Ascaled sc n2)) (t2:::Enil))
  | add_case5: forall sc n1 t1 n2 t2, add_cases (Eop (Olea (Ascaled sc n1)) (t1:::Enil)) (Eop (Olea (Aindexed n2)) (t2:::Enil))
  | add_case6: forall n1 t1 id ofs, add_cases (Eop (Olea (Aindexed n1)) (t1:::Enil)) (Eop (Olea (Aglobal id ofs)) Enil)
  | add_case7: forall id ofs n2 t2, add_cases (Eop (Olea (Aglobal id ofs)) Enil) (Eop (Olea (Aindexed n2)) (t2:::Enil))
  | add_case8: forall sc n1 t1 id ofs, add_cases (Eop (Olea (Ascaled sc n1)) (t1:::Enil)) (Eop (Olea (Aglobal id ofs)) Enil)
  | add_case9: forall id ofs sc n2 t2, add_cases (Eop (Olea (Aglobal id ofs)) Enil) (Eop (Olea (Ascaled sc n2)) (t2:::Enil))
  | add_case10: forall sc n t1 t2, add_cases (Eop (Olea (Ascaled sc n)) (t1:::Enil)) (t2)
  | add_case11: forall t1 sc n t2, add_cases (t1) (Eop (Olea (Ascaled sc n)) (t2:::Enil))
  | add_case12: forall n t1 t2, add_cases (Eop (Olea (Aindexed n)) (t1:::Enil)) (t2)
  | add_case13: forall t1 n t2, add_cases (t1) (Eop (Olea (Aindexed n)) (t2:::Enil))
  | add_default: forall (e1: expr) (e2: expr), add_cases e1 e2.

Definition add_match (e1: expr) (e2: expr) :=
  match e1 as zz1, e2 as zz2 return add_cases zz1 zz2 with
  | Eop (Ointconst n1) Enil, t2 => add_case1 n1 t2
  | t1, Eop (Ointconst n2) Enil => add_case2 t1 n2
  | Eop (Olea (Aindexed n1)) (t1:::Enil), Eop (Olea (Aindexed n2)) (t2:::Enil) => add_case3 n1 t1 n2 t2
  | Eop (Olea (Aindexed n1)) (t1:::Enil), Eop (Olea (Ascaled sc n2)) (t2:::Enil) => add_case4 n1 t1 sc n2 t2
  | Eop (Olea (Ascaled sc n1)) (t1:::Enil), Eop (Olea (Aindexed n2)) (t2:::Enil) => add_case5 sc n1 t1 n2 t2
  | Eop (Olea (Aindexed n1)) (t1:::Enil), Eop (Olea (Aglobal id ofs)) Enil => add_case6 n1 t1 id ofs
  | Eop (Olea (Aglobal id ofs)) Enil, Eop (Olea (Aindexed n2)) (t2:::Enil) => add_case7 id ofs n2 t2
  | Eop (Olea (Ascaled sc n1)) (t1:::Enil), Eop (Olea (Aglobal id ofs)) Enil => add_case8 sc n1 t1 id ofs
  | Eop (Olea (Aglobal id ofs)) Enil, Eop (Olea (Ascaled sc n2)) (t2:::Enil) => add_case9 id ofs sc n2 t2
  | Eop (Olea (Ascaled sc n)) (t1:::Enil), t2 => add_case10 sc n t1 t2
  | t1, Eop (Olea (Ascaled sc n)) (t2:::Enil) => add_case11 t1 sc n t2
  | Eop (Olea (Aindexed n)) (t1:::Enil), t2 => add_case12 n t1 t2
  | t1, Eop (Olea (Aindexed n)) (t2:::Enil) => add_case13 t1 n t2
  | e1, e2 => add_default e1 e2
  end.

Definition add (e1: expr) (e2: expr) :=
  match add_match e1 e2 with
  | add_case1 n1 t2 =>
      addimm n1 t2
  | add_case2 t1 n2 =>
      addimm n2 t1
  | add_case3 n1 t1 n2 t2 =>
      Eop (Olea (Aindexed2 (Int.add n1 n2))) (t1:::t2:::Enil)
  | add_case4 n1 t1 sc n2 t2 =>
      Eop (Olea (Aindexed2scaled sc (Int.add n1 n2))) (t1:::t2:::Enil)
  | add_case5 sc n1 t1 n2 t2 =>
      Eop (Olea (Aindexed2scaled sc (Int.add n1 n2))) (t2:::t1:::Enil)
  | add_case6 n1 t1 id ofs =>
      Eop (Olea (Abased id (Int.add ofs n1))) (t1:::Enil)
  | add_case7 id ofs n2 t2 =>
      Eop (Olea (Abased id (Int.add ofs n2))) (t2:::Enil)
  | add_case8 sc n1 t1 id ofs =>
      Eop (Olea (Abasedscaled sc id (Int.add ofs n1))) (t1:::Enil)
  | add_case9 id ofs sc n2 t2 =>
      Eop (Olea (Abasedscaled sc id (Int.add ofs n2))) (t2:::Enil)
  | add_case10 sc n t1 t2 =>
      Eop (Olea (Aindexed2scaled sc n)) (t2:::t1:::Enil)
  | add_case11 t1 sc n t2 =>
      Eop (Olea (Aindexed2scaled sc n)) (t1:::t2:::Enil)
  | add_case12 n t1 t2 =>
      Eop (Olea (Aindexed2 n)) (t1:::t2:::Enil)
  | add_case13 t1 n t2 =>
      Eop (Olea (Aindexed2 n)) (t1:::t2:::Enil)
  | add_default e1 e2 =>
      Eop (Olea (Aindexed2 Int.zero)) (e1:::e2:::Enil)
  end.

Integer and pointer subtraction

Inductive sub_cases: forall (e1: expr) (e2: expr), Type :=
  | sub_case1: forall t1 n2, sub_cases (t1) (Eop (Ointconst n2) Enil)
  | sub_case2: forall n1 t1 n2 t2, sub_cases (Eop (Olea (Aindexed n1)) (t1:::Enil)) (Eop (Olea (Aindexed n2)) (t2:::Enil))
  | sub_case3: forall n1 t1 t2, sub_cases (Eop (Olea (Aindexed n1)) (t1:::Enil)) (t2)
  | sub_case4: forall t1 n2 t2, sub_cases (t1) (Eop (Olea (Aindexed n2)) (t2:::Enil))
  | sub_default: forall (e1: expr) (e2: expr), sub_cases e1 e2.

Definition sub_match (e1: expr) (e2: expr) :=
  match e1 as zz1, e2 as zz2 return sub_cases zz1 zz2 with
  | t1, Eop (Ointconst n2) Enil => sub_case1 t1 n2
  | Eop (Olea (Aindexed n1)) (t1:::Enil), Eop (Olea (Aindexed n2)) (t2:::Enil) => sub_case2 n1 t1 n2 t2
  | Eop (Olea (Aindexed n1)) (t1:::Enil), t2 => sub_case3 n1 t1 t2
  | t1, Eop (Olea (Aindexed n2)) (t2:::Enil) => sub_case4 t1 n2 t2
  | e1, e2 => sub_default e1 e2
  end.

Definition sub (e1: expr) (e2: expr) :=
  match sub_match e1 e2 with
  | sub_case1 t1 n2 =>
      addimm (Int.neg n2) t1
  | sub_case2 n1 t1 n2 t2 =>
      addimm (Int.sub n1 n2) (Eop Osub (t1:::t2:::Enil))
  | sub_case3 n1 t1 t2 =>
      addimm n1 (Eop Osub (t1:::t2:::Enil))
  | sub_case4 t1 n2 t2 =>
      addimm (Int.neg n2) (Eop Osub (t1:::t2:::Enil))
  | sub_default e1 e2 =>
      Eop Osub (e1:::e2:::Enil)
  end.


Definition negint (e: expr) := Eop Oneg (e ::: Enil).

Immediate shifts

Definition shift_is_scale (n: int) : bool :=
  Int.eq n (Int.repr 1) || Int.eq n (Int.repr 2) || Int.eq n (Int.repr 3).


Inductive shlimm_cases: forall (e1: expr) , Type :=
  | shlimm_case1: forall n1, shlimm_cases (Eop (Ointconst n1) Enil)
  | shlimm_case2: forall n1 t1, shlimm_cases (Eop (Oshlimm n1) (t1:::Enil))
  | shlimm_case3: forall n1 t1, shlimm_cases (Eop (Olea (Aindexed n1)) (t1:::Enil))
  | shlimm_default: forall (e1: expr) , shlimm_cases e1.

Definition shlimm_match (e1: expr) :=
  match e1 as zz1 return shlimm_cases zz1 with
  | Eop (Ointconst n1) Enil => shlimm_case1 n1
  | Eop (Oshlimm n1) (t1:::Enil) => shlimm_case2 n1 t1
  | Eop (Olea (Aindexed n1)) (t1:::Enil) => shlimm_case3 n1 t1
  | e1 => shlimm_default e1
  end.

Definition shlimm (e1: expr) (n: int) :=
 if Int.eq n Int.zero then e1 else match shlimm_match e1 with
  | shlimm_case1 n1 =>
      Eop (Ointconst(Int.shl n1 n)) Enil
  | shlimm_case2 n1 t1 =>
      if Int.ltu (Int.add n n1) Int.iwordsize then Eop (Oshlimm (Int.add n n1)) (t1:::Enil) else Eop (Oshlimm n) (e1:::Enil)
  | shlimm_case3 n1 t1 =>
      if shift_is_scale n then Eop (Olea (Ascaled (Int.shl Int.one n) (Int.shl n1 n))) (t1:::Enil) else Eop (Oshlimm n) (e1:::Enil)
  | shlimm_default e1 =>
      if shift_is_scale n then Eop (Olea (Ascaled (Int.shl Int.one n) Int.zero)) (e1:::Enil) else Eop (Oshlimm n) (e1:::Enil)
  end.



Inductive shruimm_cases: forall (e1: expr) , Type :=
  | shruimm_case1: forall n1, shruimm_cases (Eop (Ointconst n1) Enil)
  | shruimm_case2: forall n1 t1, shruimm_cases (Eop (Oshruimm n1) (t1:::Enil))
  | shruimm_default: forall (e1: expr) , shruimm_cases e1.

Definition shruimm_match (e1: expr) :=
  match e1 as zz1 return shruimm_cases zz1 with
  | Eop (Ointconst n1) Enil => shruimm_case1 n1
  | Eop (Oshruimm n1) (t1:::Enil) => shruimm_case2 n1 t1
  | e1 => shruimm_default e1
  end.

Definition shruimm (e1: expr) (n: int) :=
 if Int.eq n Int.zero then e1 else match shruimm_match e1 with
  | shruimm_case1 n1 =>
      Eop (Ointconst(Int.shru n1 n)) Enil
  | shruimm_case2 n1 t1 =>
      if Int.ltu (Int.add n n1) Int.iwordsize then Eop (Oshruimm (Int.add n n1)) (t1:::Enil) else Eop (Oshruimm n) (e1:::Enil)
  | shruimm_default e1 =>
      Eop (Oshruimm n) (e1:::Enil)
  end.



Inductive shrimm_cases: forall (e1: expr) , Type :=
  | shrimm_case1: forall n1, shrimm_cases (Eop (Ointconst n1) Enil)
  | shrimm_case2: forall n1 t1, shrimm_cases (Eop (Oshrimm n1) (t1:::Enil))
  | shrimm_default: forall (e1: expr) , shrimm_cases e1.

Definition shrimm_match (e1: expr) :=
  match e1 as zz1 return shrimm_cases zz1 with
  | Eop (Ointconst n1) Enil => shrimm_case1 n1
  | Eop (Oshrimm n1) (t1:::Enil) => shrimm_case2 n1 t1
  | e1 => shrimm_default e1
  end.

Definition shrimm (e1: expr) (n: int) :=
 if Int.eq n Int.zero then e1 else match shrimm_match e1 with
  | shrimm_case1 n1 =>
      Eop (Ointconst(Int.shr n1 n)) Enil
  | shrimm_case2 n1 t1 =>
      if Int.ltu (Int.add n n1) Int.iwordsize then Eop (Oshrimm (Int.add n n1)) (t1:::Enil) else Eop (Oshrimm n) (e1:::Enil)
  | shrimm_default e1 =>
      Eop (Oshrimm n) (e1:::Enil)
  end.

Integer multiply

Definition mulimm_base (n1: int) (e2: expr) :=
  match Int.one_bits n1 with
  | i :: nil =>
      shlimm e2 i
  | i :: j :: nil =>
      Elet e2 (add (shlimm (Eletvar 0) i) (shlimm (Eletvar 0) j))
  | _ =>
      Eop (Omulimm n1) (e2:::Enil)
  end.


Inductive mulimm_cases: forall (e2: expr), Type :=
  | mulimm_case1: forall n2, mulimm_cases (Eop (Ointconst n2) Enil)
  | mulimm_case2: forall n2 t2, mulimm_cases (Eop (Olea (Aindexed n2)) (t2:::Enil))
  | mulimm_default: forall (e2: expr), mulimm_cases e2.

Definition mulimm_match (e2: expr) :=
  match e2 as zz1 return mulimm_cases zz1 with
  | Eop (Ointconst n2) Enil => mulimm_case1 n2
  | Eop (Olea (Aindexed n2)) (t2:::Enil) => mulimm_case2 n2 t2
  | e2 => mulimm_default e2
  end.

Definition mulimm (n1: int) (e2: expr) :=
 if Int.eq n1 Int.zero then Eop (Ointconst Int.zero) Enil else if Int.eq n1 Int.one then e2 else match mulimm_match e2 with
  | mulimm_case1 n2 =>
      Eop (Ointconst(Int.mul n1 n2)) Enil
  | mulimm_case2 n2 t2 =>
      addimm (Int.mul n1 n2) (mulimm_base n1 t2)
  | mulimm_default e2 =>
      mulimm_base n1 e2
  end.



Inductive mul_cases: forall (e1: expr) (e2: expr), Type :=
  | mul_case1: forall n1 t2, mul_cases (Eop (Ointconst n1) Enil) (t2)
  | mul_case2: forall t1 n2, mul_cases (t1) (Eop (Ointconst n2) Enil)
  | mul_default: forall (e1: expr) (e2: expr), mul_cases e1 e2.

Definition mul_match (e1: expr) (e2: expr) :=
  match e1 as zz1, e2 as zz2 return mul_cases zz1 zz2 with
  | Eop (Ointconst n1) Enil, t2 => mul_case1 n1 t2
  | t1, Eop (Ointconst n2) Enil => mul_case2 t1 n2
  | e1, e2 => mul_default e1 e2
  end.

Definition mul (e1: expr) (e2: expr) :=
  match mul_match e1 e2 with
  | mul_case1 n1 t2 =>
      mulimm n1 t2
  | mul_case2 t1 n2 =>
      mulimm n2 t1
  | mul_default e1 e2 =>
      Eop Omul (e1:::e2:::Enil)
  end.

Bitwise and, or, xor

Inductive andimm_cases: forall (e2: expr), Type :=
  | andimm_case1: forall n2, andimm_cases (Eop (Ointconst n2) Enil)
  | andimm_case2: forall n2 t2, andimm_cases (Eop (Oandimm n2) (t2:::Enil))
  | andimm_case3: forall t2, andimm_cases (Eop Ocast8unsigned (t2:::Enil))
  | andimm_case4: forall t2, andimm_cases (Eop Ocast16unsigned (t2:::Enil))
  | andimm_default: forall (e2: expr), andimm_cases e2.

Definition andimm_match (e2: expr) :=
  match e2 as zz1 return andimm_cases zz1 with
  | Eop (Ointconst n2) Enil => andimm_case1 n2
  | Eop (Oandimm n2) (t2:::Enil) => andimm_case2 n2 t2
  | Eop Ocast8unsigned (t2:::Enil) => andimm_case3 t2
  | Eop Ocast16unsigned (t2:::Enil) => andimm_case4 t2
  | e2 => andimm_default e2
  end.

Definition andimm (n1: int) (e2: expr) :=
 if Int.eq n1 Int.zero then Eop (Ointconst Int.zero) Enil else if Int.eq n1 Int.mone then e2 else match andimm_match e2 with
  | andimm_case1 n2 =>
      Eop (Ointconst (Int.and n1 n2)) Enil
  | andimm_case2 n2 t2 =>
      Eop (Oandimm (Int.and n1 n2)) (t2:::Enil)
  | andimm_case3 t2 =>
      Eop (Oandimm (Int.and n1 (Int.repr 255))) (t2:::Enil)
  | andimm_case4 t2 =>
      Eop (Oandimm (Int.and n1 (Int.repr 65535))) (t2:::Enil)
  | andimm_default e2 =>
      Eop (Oandimm n1) (e2:::Enil)
  end.



Inductive and_cases: forall (e1: expr) (e2: expr), Type :=
  | and_case1: forall n1 t2, and_cases (Eop (Ointconst n1) Enil) (t2)
  | and_case2: forall t1 n2, and_cases (t1) (Eop (Ointconst n2) Enil)
  | and_default: forall (e1: expr) (e2: expr), and_cases e1 e2.

Definition and_match (e1: expr) (e2: expr) :=
  match e1 as zz1, e2 as zz2 return and_cases zz1 zz2 with
  | Eop (Ointconst n1) Enil, t2 => and_case1 n1 t2
  | t1, Eop (Ointconst n2) Enil => and_case2 t1 n2
  | e1, e2 => and_default e1 e2
  end.

Definition and (e1: expr) (e2: expr) :=
  match and_match e1 e2 with
  | and_case1 n1 t2 =>
      andimm n1 t2
  | and_case2 t1 n2 =>
      andimm n2 t1
  | and_default e1 e2 =>
      Eop Oand (e1:::e2:::Enil)
  end.



Inductive orimm_cases: forall (e2: expr), Type :=
  | orimm_case1: forall n2, orimm_cases (Eop (Ointconst n2) Enil)
  | orimm_case2: forall n2 t2, orimm_cases (Eop (Oorimm n2) (t2:::Enil))
  | orimm_default: forall (e2: expr), orimm_cases e2.

Definition orimm_match (e2: expr) :=
  match e2 as zz1 return orimm_cases zz1 with
  | Eop (Ointconst n2) Enil => orimm_case1 n2
  | Eop (Oorimm n2) (t2:::Enil) => orimm_case2 n2 t2
  | e2 => orimm_default e2
  end.

Definition orimm (n1: int) (e2: expr) :=
 if Int.eq n1 Int.zero then e2 else if Int.eq n1 Int.mone then Eop (Ointconst Int.mone) Enil else match orimm_match e2 with
  | orimm_case1 n2 =>
      Eop (Ointconst (Int.or n1 n2)) Enil
  | orimm_case2 n2 t2 =>
      Eop (Oorimm (Int.or n1 n2)) (t2:::Enil)
  | orimm_default e2 =>
      Eop (Oorimm n1) (e2:::Enil)
  end.


Definition same_expr_pure (e1 e2: expr) :=
  match e1, e2 with
  | Evar v1, Evar v2 => if ident_eq v1 v2 then true else false
  | _, _ => false
  end.


Inductive or_cases: forall (e1: expr) (e2: expr), Type :=
  | or_case1: forall n1 t2, or_cases (Eop (Ointconst n1) Enil) (t2)
  | or_case2: forall t1 n2, or_cases (t1) (Eop (Ointconst n2) Enil)
  | or_case3: forall n1 t1 n2 t2, or_cases (Eop (Oshlimm n1) (t1:::Enil)) (Eop (Oshruimm n2) (t2:::Enil))
  | or_case4: forall n2 t2 n1 t1, or_cases (Eop (Oshruimm n2) (t2:::Enil)) (Eop (Oshlimm n1) (t1:::Enil))
  | or_default: forall (e1: expr) (e2: expr), or_cases e1 e2.

Definition or_match (e1: expr) (e2: expr) :=
  match e1 as zz1, e2 as zz2 return or_cases zz1 zz2 with
  | Eop (Ointconst n1) Enil, t2 => or_case1 n1 t2
  | t1, Eop (Ointconst n2) Enil => or_case2 t1 n2
  | Eop (Oshlimm n1) (t1:::Enil), Eop (Oshruimm n2) (t2:::Enil) => or_case3 n1 t1 n2 t2
  | Eop (Oshruimm n2) (t2:::Enil), Eop (Oshlimm n1) (t1:::Enil) => or_case4 n2 t2 n1 t1
  | e1, e2 => or_default e1 e2
  end.

Definition or (e1: expr) (e2: expr) :=
  match or_match e1 e2 with
  | or_case1 n1 t2 =>
      orimm n1 t2
  | or_case2 t1 n2 =>
      orimm n2 t1
  | or_case3 n1 t1 n2 t2 =>
      if Int.eq (Int.add n1 n2) Int.iwordsize && same_expr_pure t1 t2 then Eop (Ororimm n2) (t1:::Enil) else Eop Oor (e1:::e2:::Enil)
  | or_case4 n2 t2 n1 t1 =>
      if Int.eq (Int.add n1 n2) Int.iwordsize && same_expr_pure t1 t2 then Eop (Ororimm n2) (t1:::Enil) else Eop Oor (e1:::e2:::Enil)
  | or_default e1 e2 =>
      Eop Oor (e1:::e2:::Enil)
  end.



Inductive xorimm_cases: forall (e2: expr), Type :=
  | xorimm_case1: forall n2, xorimm_cases (Eop (Ointconst n2) Enil)
  | xorimm_case2: forall n2 t2, xorimm_cases (Eop (Oxorimm n2) (t2:::Enil))
  | xorimm_default: forall (e2: expr), xorimm_cases e2.

Definition xorimm_match (e2: expr) :=
  match e2 as zz1 return xorimm_cases zz1 with
  | Eop (Ointconst n2) Enil => xorimm_case1 n2
  | Eop (Oxorimm n2) (t2:::Enil) => xorimm_case2 n2 t2
  | e2 => xorimm_default e2
  end.

Definition xorimm (n1: int) (e2: expr) :=
 if Int.eq n1 Int.zero then e2 else match xorimm_match e2 with
  | xorimm_case1 n2 =>
      Eop (Ointconst (Int.xor n1 n2)) Enil
  | xorimm_case2 n2 t2 =>
      Eop (Oxorimm (Int.xor n1 n2)) (t2:::Enil)
  | xorimm_default e2 =>
      Eop (Oxorimm n1) (e2:::Enil)
  end.



Inductive xor_cases: forall (e1: expr) (e2: expr), Type :=
  | xor_case1: forall n1 t2, xor_cases (Eop (Ointconst n1) Enil) (t2)
  | xor_case2: forall t1 n2, xor_cases (t1) (Eop (Ointconst n2) Enil)
  | xor_default: forall (e1: expr) (e2: expr), xor_cases e1 e2.

Definition xor_match (e1: expr) (e2: expr) :=
  match e1 as zz1, e2 as zz2 return xor_cases zz1 zz2 with
  | Eop (Ointconst n1) Enil, t2 => xor_case1 n1 t2
  | t1, Eop (Ointconst n2) Enil => xor_case2 t1 n2
  | e1, e2 => xor_default e1 e2
  end.

Definition xor (e1: expr) (e2: expr) :=
  match xor_match e1 e2 with
  | xor_case1 n1 t2 =>
      xorimm n1 t2
  | xor_case2 t1 n2 =>
      xorimm n2 t1
  | xor_default e1 e2 =>
      Eop Oxor (e1:::e2:::Enil)
  end.

Integer division and modulus

Definition divu (e1: expr) (e2: expr) := Eop Odivu (e1:::e2:::Enil).
Definition modu (e1: expr) (e2: expr) := Eop Omodu (e1:::e2:::Enil).
Definition divs (e1: expr) (e2: expr) := Eop Odiv (e1:::e2:::Enil).
Definition mods (e1: expr) (e2: expr) := Eop Omod (e1:::e2:::Enil).

General shifts

Inductive shl_cases: forall (e2: expr), Type :=
  | shl_case1: forall n2, shl_cases (Eop (Ointconst n2) Enil)
  | shl_default: forall (e2: expr), shl_cases e2.

Definition shl_match (e2: expr) :=
  match e2 as zz1 return shl_cases zz1 with
  | Eop (Ointconst n2) Enil => shl_case1 n2
  | e2 => shl_default e2
  end.

Definition shl (e1: expr) (e2: expr) :=
  match shl_match e2 with
  | shl_case1 n2 =>
      shlimm e1 n2
  | shl_default e2 =>
      Eop Oshl (e1:::e2:::Enil)
  end.



Inductive shr_cases: forall (e2: expr), Type :=
  | shr_case1: forall n2, shr_cases (Eop (Ointconst n2) Enil)
  | shr_default: forall (e2: expr), shr_cases e2.

Definition shr_match (e2: expr) :=
  match e2 as zz1 return shr_cases zz1 with
  | Eop (Ointconst n2) Enil => shr_case1 n2
  | e2 => shr_default e2
  end.

Definition shr (e1: expr) (e2: expr) :=
  match shr_match e2 with
  | shr_case1 n2 =>
      shrimm e1 n2
  | shr_default e2 =>
      Eop Oshr (e1:::e2:::Enil)
  end.



Inductive shru_cases: forall (e2: expr), Type :=
  | shru_case1: forall n2, shru_cases (Eop (Ointconst n2) Enil)
  | shru_default: forall (e2: expr), shru_cases e2.

Definition shru_match (e2: expr) :=
  match e2 as zz1 return shru_cases zz1 with
  | Eop (Ointconst n2) Enil => shru_case1 n2
  | e2 => shru_default e2
  end.

Definition shru (e1: expr) (e2: expr) :=
  match shru_match e2 with
  | shru_case1 n2 =>
      shruimm e1 n2
  | shru_default e2 =>
      Eop Oshru (e1:::e2:::Enil)
  end.

Floating-point arithmetic

Definition negf (e: expr) := Eop Onegf (e ::: Enil).
Definition absf (e: expr) := Eop Oabsf (e ::: Enil).
Definition addf (e1 e2: expr) := Eop Oaddf (e1 ::: e2 ::: Enil).
Definition subf (e1 e2: expr) := Eop Osubf (e1 ::: e2 ::: Enil).
Definition mulf (e1 e2: expr) := Eop Omulf (e1 ::: e2 ::: Enil).
Definition divf (e1 e2: expr) := Eop Odivf (e1 ::: e2 ::: Enil).

Comparisons

Inductive comp_cases: forall (e1: expr) (e2: expr), Type :=
  | comp_case1: forall n1 t2, comp_cases (Eop (Ointconst n1) Enil) (t2)
  | comp_case2: forall t1 n2, comp_cases (t1) (Eop (Ointconst n2) Enil)
  | comp_default: forall (e1: expr) (e2: expr), comp_cases e1 e2.

Definition comp_match (e1: expr) (e2: expr) :=
  match e1 as zz1, e2 as zz2 return comp_cases zz1 zz2 with
  | Eop (Ointconst n1) Enil, t2 => comp_case1 n1 t2
  | t1, Eop (Ointconst n2) Enil => comp_case2 t1 n2
  | e1, e2 => comp_default e1 e2
  end.

Definition comp (c: comparison) (e1: expr) (e2: expr) :=
  match comp_match e1 e2 with
  | comp_case1 n1 t2 =>
      Eop (Ocmp (Ccompimm (swap_comparison c) n1)) (t2 ::: Enil)
  | comp_case2 t1 n2 =>
      Eop (Ocmp (Ccompimm c n2)) (t1 ::: Enil)
  | comp_default e1 e2 =>
      Eop (Ocmp (Ccomp c)) (e1 ::: e2 ::: Enil)
  end.



Inductive compu_cases: forall (e1: expr) (e2: expr), Type :=
  | compu_case1: forall n1 t2, compu_cases (Eop (Ointconst n1) Enil) (t2)
  | compu_case2: forall t1 n2, compu_cases (t1) (Eop (Ointconst n2) Enil)
  | compu_default: forall (e1: expr) (e2: expr), compu_cases e1 e2.

Definition compu_match (e1: expr) (e2: expr) :=
  match e1 as zz1, e2 as zz2 return compu_cases zz1 zz2 with
  | Eop (Ointconst n1) Enil, t2 => compu_case1 n1 t2
  | t1, Eop (Ointconst n2) Enil => compu_case2 t1 n2
  | e1, e2 => compu_default e1 e2
  end.

Definition compu (c: comparison) (e1: expr) (e2: expr) :=
  match compu_match e1 e2 with
  | compu_case1 n1 t2 =>
      Eop (Ocmp (Ccompuimm (swap_comparison c) n1)) (t2 ::: Enil)
  | compu_case2 t1 n2 =>
      Eop (Ocmp (Ccompuimm c n2)) (t1 ::: Enil)
  | compu_default e1 e2 =>
      Eop (Ocmp (Ccompu c)) (e1 ::: e2 ::: Enil)
  end.


Definition compf (c: comparison) (e1: expr) (e2: expr) :=
  Eop (Ocmp (Ccompf c)) (e1 ::: e2 ::: Enil).

Integer conversions

Inductive cast8unsigned_cases: forall (e: expr), Type :=
  | cast8unsigned_case1: forall n t, cast8unsigned_cases (Eop (Oandimm n) (t:::Enil))
  | cast8unsigned_default: forall (e: expr), cast8unsigned_cases e.

Definition cast8unsigned_match (e: expr) :=
  match e as zz1 return cast8unsigned_cases zz1 with
  | Eop (Oandimm n) (t:::Enil) => cast8unsigned_case1 n t
  | e => cast8unsigned_default e
  end.

Definition cast8unsigned (e: expr) :=
  match cast8unsigned_match e with
  | cast8unsigned_case1 n t =>
      Eop (Oandimm (Int.and (Int.repr 255) n)) (t:::Enil)
  | cast8unsigned_default e =>
      Eop Ocast8unsigned (e:::Enil)
  end.


Definition cast8signed (e: expr) := Eop Ocast8signed (e ::: Enil).


Inductive cast16unsigned_cases: forall (e: expr), Type :=
  | cast16unsigned_case1: forall n t, cast16unsigned_cases (Eop (Oandimm n) (t:::Enil))
  | cast16unsigned_default: forall (e: expr), cast16unsigned_cases e.

Definition cast16unsigned_match (e: expr) :=
  match e as zz1 return cast16unsigned_cases zz1 with
  | Eop (Oandimm n) (t:::Enil) => cast16unsigned_case1 n t
  | e => cast16unsigned_default e
  end.

Definition cast16unsigned (e: expr) :=
  match cast16unsigned_match e with
  | cast16unsigned_case1 n t =>
      Eop (Oandimm (Int.and (Int.repr 65535) n)) (t:::Enil)
  | cast16unsigned_default e =>
      Eop Ocast16unsigned (e:::Enil)
  end.


Definition cast16signed (e: expr) := Eop Ocast16signed (e ::: Enil).


Definition singleoffloat (e: expr) := Eop Osingleoffloat (e ::: Enil).
Definition intoffloat (e: expr) := Eop Ointoffloat (e ::: Enil).
Definition floatofint (e: expr) := Eop Ofloatofint (e ::: Enil).

Definition intuoffloat (e: expr) :=
  let f := Eop (Ofloatconst (Float.floatofintu Float.ox8000_0000)) Enil in
  Elet e
    (Econdition (CEcond (Ccompf Clt) (Eletvar O ::: f ::: Enil))
      (intoffloat (Eletvar O))
      (addimm Float.ox8000_0000 (intoffloat (subf (Eletvar O) f)))).

Definition floatofintu (e: expr) :=
  let f := Eop (Ofloatconst (Float.floatofintu Float.ox8000_0000)) Enil in
  Elet e
    (Econdition (CEcond (Ccompuimm Clt Float.ox8000_0000) (Eletvar O ::: Enil))
      (floatofint (Eletvar O))
      (addf (floatofint (addimm (Int.neg Float.ox8000_0000) (Eletvar O))) f)).

Addressing modes

Inductive addressing_cases: forall (e: expr), Type :=
  | addressing_case1: forall addr args, addressing_cases (Eop (Olea addr) args)
  | addressing_default: forall (e: expr), addressing_cases e.

Definition addressing_match (e: expr) :=
  match e as zz1 return addressing_cases zz1 with
  | Eop (Olea addr) args => addressing_case1 addr args
  | e => addressing_default e
  end.

Definition addressing (chunk: memory_chunk) (e: expr) :=
  match addressing_match e with
  | addressing_case1 addr args =>
      (addr, args)
  | addressing_default e =>
      (Aindexed Int.zero, e:::Enil)
  end.

Turning an expression into a condition

Inductive cond_of_expr_cases: forall (e: expr), Type :=
  | cond_of_expr_case1: forall n t1, cond_of_expr_cases (Eop (Oandimm n) (t1:::Enil))
  | cond_of_expr_default: forall (e: expr), cond_of_expr_cases e.

Definition cond_of_expr_match (e: expr) :=
  match e as zz1 return cond_of_expr_cases zz1 with
  | Eop (Oandimm n) (t1:::Enil) => cond_of_expr_case1 n t1
  | e => cond_of_expr_default e
  end.

Definition cond_of_expr (e: expr) :=
  match cond_of_expr_match e with
  | cond_of_expr_case1 n t1 =>
      (Cmasknotzero n, t1:::Enil)
  | cond_of_expr_default e =>
      (Ccompuimm Cne Int.zero, e:::Enil)
  end.