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diff --git a/mppa_k1c/SelectLong.v b/mppa_k1c/SelectLong.v new file mode 100644 index 00000000..876d02fb --- /dev/null +++ b/mppa_k1c/SelectLong.v @@ -0,0 +1,778 @@ +(* *********************************************************************) +(* *) +(* The Compcert verified compiler *) +(* *) +(* Xavier Leroy, INRIA Paris *) +(* Prashanth Mundkur, SRI International *) +(* *) +(* 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. *) +(* *) +(* The contributions by Prashanth Mundkur are reused and adapted *) +(* under the terms of a Contributor License Agreement between *) +(* SRI International and INRIA. *) +(* *) +(* *********************************************************************) + +(** Instruction selection for 64-bit integer operations *) + +Require Import Coqlib. +Require Import Compopts. +Require Import AST Integers Floats. +Require Import Op CminorSel. +Require Import SelectOp SplitLong. + +Local Open Scope cminorsel_scope. +Local Open Scope string_scope. + +Section SELECT. + +Context {hf: helper_functions}. + +Definition longconst (n: int64) : expr := + if Archi.splitlong then SplitLong.longconst n else Eop (Olongconst n) Enil. + +Definition is_longconst (e: expr) := + if Archi.splitlong then SplitLong.is_longconst e else + match e with + | Eop (Olongconst n) Enil => Some n + | _ => None + end. + +Definition intoflong (e: expr) := + if Archi.splitlong then SplitLong.intoflong e else + match is_longconst e with + | Some n => Eop (Ointconst (Int.repr (Int64.unsigned n))) Enil + | None => Eop Olowlong (e ::: Enil) + end. + +Definition longofint (e: expr) := + if Archi.splitlong then SplitLong.longofint e else + match is_intconst e with + | Some n => longconst (Int64.repr (Int.signed n)) + | None => Eop Ocast32signed (e ::: Enil) + end. + +Definition longofintu (e: expr) := + if Archi.splitlong then SplitLong.longofintu e else + match is_intconst e with + | Some n => longconst (Int64.repr (Int.unsigned n)) + | None => Eop Ocast32unsigned (e ::: Enil) + end. + +(** ** Integer addition and pointer addition *) + +(** Original definition: +<< +Nondetfunction addlimm (n: int64) (e: expr) := + if Int64.eq n Int64.zero then e else + match e with + | Eop (Olongconst m) Enil => longconst (Int64.add n m) + | Eop (Oaddrsymbol s m) Enil => Eop (Oaddrsymbol s (Ptrofs.add (Ptrofs.of_int64 n) m)) Enil + | Eop (Oaddrstack m) Enil => Eop (Oaddrstack (Ptrofs.add (Ptrofs.of_int64 n) m)) Enil + | Eop (Oaddlimm m) (t ::: Enil) => Eop (Oaddlimm(Int64.add n m)) (t ::: Enil) + | _ => Eop (Oaddlimm n) (e ::: Enil) + end. +>> +*) + +Inductive addlimm_cases: forall (e: expr), Type := + | addlimm_case1: forall m, addlimm_cases (Eop (Olongconst m) Enil) + | addlimm_case2: forall s m, addlimm_cases (Eop (Oaddrsymbol s m) Enil) + | addlimm_case3: forall m, addlimm_cases (Eop (Oaddrstack m) Enil) + | addlimm_case4: forall m t, addlimm_cases (Eop (Oaddlimm m) (t ::: Enil)) + | addlimm_default: forall (e: expr), addlimm_cases e. + +Definition addlimm_match (e: expr) := + match e as zz1 return addlimm_cases zz1 with + | Eop (Olongconst m) Enil => addlimm_case1 m + | Eop (Oaddrsymbol s m) Enil => addlimm_case2 s m + | Eop (Oaddrstack m) Enil => addlimm_case3 m + | Eop (Oaddlimm m) (t ::: Enil) => addlimm_case4 m t + | e => addlimm_default e + end. + +Definition addlimm (n: int64) (e: expr) := + if Int64.eq n Int64.zero then e else match addlimm_match e with + | addlimm_case1 m => (* Eop (Olongconst m) Enil *) + longconst (Int64.add n m) + | addlimm_case2 s m => (* Eop (Oaddrsymbol s m) Enil *) + Eop (Oaddrsymbol s (Ptrofs.add (Ptrofs.of_int64 n) m)) Enil + | addlimm_case3 m => (* Eop (Oaddrstack m) Enil *) + Eop (Oaddrstack (Ptrofs.add (Ptrofs.of_int64 n) m)) Enil + | addlimm_case4 m t => (* Eop (Oaddlimm m) (t ::: Enil) *) + Eop (Oaddlimm(Int64.add n m)) (t ::: Enil) + | addlimm_default e => + Eop (Oaddlimm n) (e ::: Enil) + end. + + +(** Original definition: +<< +Nondetfunction addl (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.addl e1 e2 else + match e1, e2 with + | Eop (Olongconst n1) Enil, t2 => addlimm n1 t2 + | t1, Eop (Olongconst n2) Enil => addlimm n2 t1 + | Eop (Oaddlimm n1) (t1:::Enil), Eop (Oaddlimm n2) (t2:::Enil) => + addlimm (Int64.add n1 n2) (Eop Oaddl (t1:::t2:::Enil)) + | Eop (Oaddlimm n1) (t1:::Enil), Eop (Oaddrstack n2) Enil => + Eop Oaddl (Eop (Oaddrstack (Ptrofs.add (Ptrofs.of_int64 n1) n2)) Enil ::: t1 ::: Enil) + | Eop (Oaddrstack n1) Enil, Eop (Oaddlimm n2) (t2:::Enil) => + Eop Oaddl (Eop (Oaddrstack (Ptrofs.add n1 (Ptrofs.of_int64 n2))) Enil ::: t2 ::: Enil) + | Eop (Oaddlimm n1) (t1:::Enil), t2 => + addlimm n1 (Eop Oaddl (t1:::t2:::Enil)) + | t1, Eop (Oaddlimm n2) (t2:::Enil) => + addlimm n2 (Eop Oaddl (t1:::t2:::Enil)) + | _, _ => Eop Oaddl (e1:::e2:::Enil) + end. +>> +*) + +Inductive addl_cases: forall (e1: expr) (e2: expr), Type := + | addl_case1: forall n1 t2, addl_cases (Eop (Olongconst n1) Enil) (t2) + | addl_case2: forall t1 n2, addl_cases (t1) (Eop (Olongconst n2) Enil) + | addl_case3: forall n1 t1 n2 t2, addl_cases (Eop (Oaddlimm n1) (t1:::Enil)) (Eop (Oaddlimm n2) (t2:::Enil)) + | addl_case4: forall n1 t1 n2, addl_cases (Eop (Oaddlimm n1) (t1:::Enil)) (Eop (Oaddrstack n2) Enil) + | addl_case5: forall n1 n2 t2, addl_cases (Eop (Oaddrstack n1) Enil) (Eop (Oaddlimm n2) (t2:::Enil)) + | addl_case6: forall n1 t1 t2, addl_cases (Eop (Oaddlimm n1) (t1:::Enil)) (t2) + | addl_case7: forall t1 n2 t2, addl_cases (t1) (Eop (Oaddlimm n2) (t2:::Enil)) + | addl_default: forall (e1: expr) (e2: expr), addl_cases e1 e2. + +Definition addl_match (e1: expr) (e2: expr) := + match e1 as zz1, e2 as zz2 return addl_cases zz1 zz2 with + | Eop (Olongconst n1) Enil, t2 => addl_case1 n1 t2 + | t1, Eop (Olongconst n2) Enil => addl_case2 t1 n2 + | Eop (Oaddlimm n1) (t1:::Enil), Eop (Oaddlimm n2) (t2:::Enil) => addl_case3 n1 t1 n2 t2 + | Eop (Oaddlimm n1) (t1:::Enil), Eop (Oaddrstack n2) Enil => addl_case4 n1 t1 n2 + | Eop (Oaddrstack n1) Enil, Eop (Oaddlimm n2) (t2:::Enil) => addl_case5 n1 n2 t2 + | Eop (Oaddlimm n1) (t1:::Enil), t2 => addl_case6 n1 t1 t2 + | t1, Eop (Oaddlimm n2) (t2:::Enil) => addl_case7 t1 n2 t2 + | e1, e2 => addl_default e1 e2 + end. + +Definition addl (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.addl e1 e2 else match addl_match e1 e2 with + | addl_case1 n1 t2 => (* Eop (Olongconst n1) Enil, t2 *) + addlimm n1 t2 + | addl_case2 t1 n2 => (* t1, Eop (Olongconst n2) Enil *) + addlimm n2 t1 + | addl_case3 n1 t1 n2 t2 => (* Eop (Oaddlimm n1) (t1:::Enil), Eop (Oaddlimm n2) (t2:::Enil) *) + addlimm (Int64.add n1 n2) (Eop Oaddl (t1:::t2:::Enil)) + | addl_case4 n1 t1 n2 => (* Eop (Oaddlimm n1) (t1:::Enil), Eop (Oaddrstack n2) Enil *) + Eop Oaddl (Eop (Oaddrstack (Ptrofs.add (Ptrofs.of_int64 n1) n2)) Enil ::: t1 ::: Enil) + | addl_case5 n1 n2 t2 => (* Eop (Oaddrstack n1) Enil, Eop (Oaddlimm n2) (t2:::Enil) *) + Eop Oaddl (Eop (Oaddrstack (Ptrofs.add n1 (Ptrofs.of_int64 n2))) Enil ::: t2 ::: Enil) + | addl_case6 n1 t1 t2 => (* Eop (Oaddlimm n1) (t1:::Enil), t2 *) + addlimm n1 (Eop Oaddl (t1:::t2:::Enil)) + | addl_case7 t1 n2 t2 => (* t1, Eop (Oaddlimm n2) (t2:::Enil) *) + addlimm n2 (Eop Oaddl (t1:::t2:::Enil)) + | addl_default e1 e2 => + Eop Oaddl (e1:::e2:::Enil) + end. + + +(** ** Integer and pointer subtraction *) + +(** Original definition: +<< +Nondetfunction subl (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.subl e1 e2 else + match e1, e2 with + | t1, Eop (Olongconst n2) Enil => + addlimm (Int64.neg n2) t1 + | Eop (Oaddlimm n1) (t1:::Enil), Eop (Oaddlimm n2) (t2:::Enil) => + addlimm (Int64.sub n1 n2) (Eop Osubl (t1:::t2:::Enil)) + | Eop (Oaddlimm n1) (t1:::Enil), t2 => + addlimm n1 (Eop Osubl (t1:::t2:::Enil)) + | t1, Eop (Oaddlimm n2) (t2:::Enil) => + addlimm (Int64.neg n2) (Eop Osubl (t1:::t2:::Enil)) + | _, _ => Eop Osubl (e1:::e2:::Enil) + end. +>> +*) + +Inductive subl_cases: forall (e1: expr) (e2: expr), Type := + | subl_case1: forall t1 n2, subl_cases (t1) (Eop (Olongconst n2) Enil) + | subl_case2: forall n1 t1 n2 t2, subl_cases (Eop (Oaddlimm n1) (t1:::Enil)) (Eop (Oaddlimm n2) (t2:::Enil)) + | subl_case3: forall n1 t1 t2, subl_cases (Eop (Oaddlimm n1) (t1:::Enil)) (t2) + | subl_case4: forall t1 n2 t2, subl_cases (t1) (Eop (Oaddlimm n2) (t2:::Enil)) + | subl_default: forall (e1: expr) (e2: expr), subl_cases e1 e2. + +Definition subl_match (e1: expr) (e2: expr) := + match e1 as zz1, e2 as zz2 return subl_cases zz1 zz2 with + | t1, Eop (Olongconst n2) Enil => subl_case1 t1 n2 + | Eop (Oaddlimm n1) (t1:::Enil), Eop (Oaddlimm n2) (t2:::Enil) => subl_case2 n1 t1 n2 t2 + | Eop (Oaddlimm n1) (t1:::Enil), t2 => subl_case3 n1 t1 t2 + | t1, Eop (Oaddlimm n2) (t2:::Enil) => subl_case4 t1 n2 t2 + | e1, e2 => subl_default e1 e2 + end. + +Definition subl (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.subl e1 e2 else match subl_match e1 e2 with + | subl_case1 t1 n2 => (* t1, Eop (Olongconst n2) Enil *) + addlimm (Int64.neg n2) t1 + | subl_case2 n1 t1 n2 t2 => (* Eop (Oaddlimm n1) (t1:::Enil), Eop (Oaddlimm n2) (t2:::Enil) *) + addlimm (Int64.sub n1 n2) (Eop Osubl (t1:::t2:::Enil)) + | subl_case3 n1 t1 t2 => (* Eop (Oaddlimm n1) (t1:::Enil), t2 *) + addlimm n1 (Eop Osubl (t1:::t2:::Enil)) + | subl_case4 t1 n2 t2 => (* t1, Eop (Oaddlimm n2) (t2:::Enil) *) + addlimm (Int64.neg n2) (Eop Osubl (t1:::t2:::Enil)) + | subl_default e1 e2 => + Eop Osubl (e1:::e2:::Enil) + end. + + +Definition negl (e: expr) := + if Archi.splitlong then SplitLong.negl e else + match is_longconst e with + | Some n => longconst (Int64.neg n) + | None => Eop Onegl (e ::: Enil) + end. + +(** ** Immediate shifts *) + +(** Original definition: +<< +Nondetfunction shllimm (e1: expr) (n: int) := + if Archi.splitlong then SplitLong.shllimm e1 n else + if Int.eq n Int.zero then + e1 + else if negb (Int.ltu n Int64.iwordsize') then + Eop Oshll (e1 ::: Eop (Ointconst n) Enil ::: Enil) + else match e1 with + | Eop (Olongconst n1) Enil => + longconst (Int64.shl' n1 n) + | Eop (Oshllimm n1) (t1:::Enil) => + if Int.ltu (Int.add n n1) Int64.iwordsize' + then Eop (Oshllimm (Int.add n n1)) (t1:::Enil) + else Eop (Oshllimm n) (e1:::Enil) + | _ => + Eop (Oshllimm n) (e1:::Enil) + end. +>> +*) + +Inductive shllimm_cases: forall (e1: expr) , Type := + | shllimm_case1: forall n1, shllimm_cases (Eop (Olongconst n1) Enil) + | shllimm_case2: forall n1 t1, shllimm_cases (Eop (Oshllimm n1) (t1:::Enil)) + | shllimm_default: forall (e1: expr) , shllimm_cases e1. + +Definition shllimm_match (e1: expr) := + match e1 as zz1 return shllimm_cases zz1 with + | Eop (Olongconst n1) Enil => shllimm_case1 n1 + | Eop (Oshllimm n1) (t1:::Enil) => shllimm_case2 n1 t1 + | e1 => shllimm_default e1 + end. + +Definition shllimm (e1: expr) (n: int) := + if Archi.splitlong then SplitLong.shllimm e1 n else if Int.eq n Int.zero then e1 else if negb (Int.ltu n Int64.iwordsize') then Eop Oshll (e1 ::: Eop (Ointconst n) Enil ::: Enil) else match shllimm_match e1 with + | shllimm_case1 n1 => (* Eop (Olongconst n1) Enil *) + longconst (Int64.shl' n1 n) + | shllimm_case2 n1 t1 => (* Eop (Oshllimm n1) (t1:::Enil) *) + if Int.ltu (Int.add n n1) Int64.iwordsize' then Eop (Oshllimm (Int.add n n1)) (t1:::Enil) else Eop (Oshllimm n) (e1:::Enil) + | shllimm_default e1 => + Eop (Oshllimm n) (e1:::Enil) + end. + + +(** Original definition: +<< +Nondetfunction shrluimm (e1: expr) (n: int) := + if Archi.splitlong then SplitLong.shrluimm e1 n else + if Int.eq n Int.zero then e1 else + if negb (Int.ltu n Int64.iwordsize') then + Eop Oshrlu (e1:::Eop (Ointconst n) Enil:::Enil) + else + match e1 with + | Eop (Olongconst n1) Enil => + longconst (Int64.shru' n1 n) + | Eop (Oshrluimm n1) (t1:::Enil) => + if Int.ltu (Int.add n n1) Int64.iwordsize' + then Eop (Oshrluimm (Int.add n n1)) (t1:::Enil) + else Eop (Oshrluimm n) (e1:::Enil) + | _ => + Eop (Oshrluimm n) (e1:::Enil) + end. +>> +*) + +Inductive shrluimm_cases: forall (e1: expr) , Type := + | shrluimm_case1: forall n1, shrluimm_cases (Eop (Olongconst n1) Enil) + | shrluimm_case2: forall n1 t1, shrluimm_cases (Eop (Oshrluimm n1) (t1:::Enil)) + | shrluimm_default: forall (e1: expr) , shrluimm_cases e1. + +Definition shrluimm_match (e1: expr) := + match e1 as zz1 return shrluimm_cases zz1 with + | Eop (Olongconst n1) Enil => shrluimm_case1 n1 + | Eop (Oshrluimm n1) (t1:::Enil) => shrluimm_case2 n1 t1 + | e1 => shrluimm_default e1 + end. + +Definition shrluimm (e1: expr) (n: int) := + if Archi.splitlong then SplitLong.shrluimm e1 n else if Int.eq n Int.zero then e1 else if negb (Int.ltu n Int64.iwordsize') then Eop Oshrlu (e1:::Eop (Ointconst n) Enil:::Enil) else match shrluimm_match e1 with + | shrluimm_case1 n1 => (* Eop (Olongconst n1) Enil *) + longconst (Int64.shru' n1 n) + | shrluimm_case2 n1 t1 => (* Eop (Oshrluimm n1) (t1:::Enil) *) + if Int.ltu (Int.add n n1) Int64.iwordsize' then Eop (Oshrluimm (Int.add n n1)) (t1:::Enil) else Eop (Oshrluimm n) (e1:::Enil) + | shrluimm_default e1 => + Eop (Oshrluimm n) (e1:::Enil) + end. + + +(** Original definition: +<< +Nondetfunction shrlimm (e1: expr) (n: int) := + if Archi.splitlong then SplitLong.shrlimm e1 n else + if Int.eq n Int.zero then e1 else + if negb (Int.ltu n Int64.iwordsize') then + Eop Oshrl (e1:::Eop (Ointconst n) Enil:::Enil) + else + match e1 with + | Eop (Olongconst n1) Enil => + longconst (Int64.shr' n1 n) + | Eop (Oshrlimm n1) (t1:::Enil) => + if Int.ltu (Int.add n n1) Int64.iwordsize' + then Eop (Oshrlimm (Int.add n n1)) (t1:::Enil) + else Eop (Oshrlimm n) (e1:::Enil) + | _ => + Eop (Oshrlimm n) (e1:::Enil) + end. +>> +*) + +Inductive shrlimm_cases: forall (e1: expr) , Type := + | shrlimm_case1: forall n1, shrlimm_cases (Eop (Olongconst n1) Enil) + | shrlimm_case2: forall n1 t1, shrlimm_cases (Eop (Oshrlimm n1) (t1:::Enil)) + | shrlimm_default: forall (e1: expr) , shrlimm_cases e1. + +Definition shrlimm_match (e1: expr) := + match e1 as zz1 return shrlimm_cases zz1 with + | Eop (Olongconst n1) Enil => shrlimm_case1 n1 + | Eop (Oshrlimm n1) (t1:::Enil) => shrlimm_case2 n1 t1 + | e1 => shrlimm_default e1 + end. + +Definition shrlimm (e1: expr) (n: int) := + if Archi.splitlong then SplitLong.shrlimm e1 n else if Int.eq n Int.zero then e1 else if negb (Int.ltu n Int64.iwordsize') then Eop Oshrl (e1:::Eop (Ointconst n) Enil:::Enil) else match shrlimm_match e1 with + | shrlimm_case1 n1 => (* Eop (Olongconst n1) Enil *) + longconst (Int64.shr' n1 n) + | shrlimm_case2 n1 t1 => (* Eop (Oshrlimm n1) (t1:::Enil) *) + if Int.ltu (Int.add n n1) Int64.iwordsize' then Eop (Oshrlimm (Int.add n n1)) (t1:::Enil) else Eop (Oshrlimm n) (e1:::Enil) + | shrlimm_default e1 => + Eop (Oshrlimm n) (e1:::Enil) + end. + + +(** ** General shifts *) + +Definition shll (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.shll e1 e2 else + match is_intconst e2 with + | Some n2 => shllimm e1 n2 + | None => Eop Oshll (e1:::e2:::Enil) + end. + +Definition shrl (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.shrl e1 e2 else + match is_intconst e2 with + | Some n2 => shrlimm e1 n2 + | None => Eop Oshrl (e1:::e2:::Enil) + end. + +Definition shrlu (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.shrlu e1 e2 else + match is_intconst e2 with + | Some n2 => shrluimm e1 n2 + | _ => Eop Oshrlu (e1:::e2:::Enil) + end. + +(** ** Integer multiply *) + +Definition mullimm_base (n1: int64) (e2: expr) := + match Int64.one_bits' n1 with + | i :: nil => + shllimm e2 i + | i :: j :: nil => + Elet e2 (addl (shllimm (Eletvar 0) i) (shllimm (Eletvar 0) j)) + | _ => + Eop Omull (e2 ::: longconst n1 ::: Enil) + end. + +(** Original definition: +<< +Nondetfunction mullimm (n1: int64) (e2: expr) := + if Archi.splitlong then SplitLong.mullimm n1 e2 + else if Int64.eq n1 Int64.zero then longconst Int64.zero + else if Int64.eq n1 Int64.one then e2 + else match e2 with + | Eop (Olongconst n2) Enil => longconst (Int64.mul n1 n2) + | Eop (Oaddlimm n2) (t2:::Enil) => addlimm (Int64.mul n1 n2) (mullimm_base n1 t2) + | _ => mullimm_base n1 e2 + end. +>> +*) + +Inductive mullimm_cases: forall (e2: expr), Type := + | mullimm_case1: forall n2, mullimm_cases (Eop (Olongconst n2) Enil) + | mullimm_case2: forall n2 t2, mullimm_cases (Eop (Oaddlimm n2) (t2:::Enil)) + | mullimm_default: forall (e2: expr), mullimm_cases e2. + +Definition mullimm_match (e2: expr) := + match e2 as zz1 return mullimm_cases zz1 with + | Eop (Olongconst n2) Enil => mullimm_case1 n2 + | Eop (Oaddlimm n2) (t2:::Enil) => mullimm_case2 n2 t2 + | e2 => mullimm_default e2 + end. + +Definition mullimm (n1: int64) (e2: expr) := + if Archi.splitlong then SplitLong.mullimm n1 e2 else if Int64.eq n1 Int64.zero then longconst Int64.zero else if Int64.eq n1 Int64.one then e2 else match mullimm_match e2 with + | mullimm_case1 n2 => (* Eop (Olongconst n2) Enil *) + longconst (Int64.mul n1 n2) + | mullimm_case2 n2 t2 => (* Eop (Oaddlimm n2) (t2:::Enil) *) + addlimm (Int64.mul n1 n2) (mullimm_base n1 t2) + | mullimm_default e2 => + mullimm_base n1 e2 + end. + + +(** Original definition: +<< +Nondetfunction mull (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.mull e1 e2 else + match e1, e2 with + | Eop (Olongconst n1) Enil, t2 => mullimm n1 t2 + | t1, Eop (Olongconst n2) Enil => mullimm n2 t1 + | _, _ => Eop Omull (e1:::e2:::Enil) + end. +>> +*) + +Inductive mull_cases: forall (e1: expr) (e2: expr), Type := + | mull_case1: forall n1 t2, mull_cases (Eop (Olongconst n1) Enil) (t2) + | mull_case2: forall t1 n2, mull_cases (t1) (Eop (Olongconst n2) Enil) + | mull_default: forall (e1: expr) (e2: expr), mull_cases e1 e2. + +Definition mull_match (e1: expr) (e2: expr) := + match e1 as zz1, e2 as zz2 return mull_cases zz1 zz2 with + | Eop (Olongconst n1) Enil, t2 => mull_case1 n1 t2 + | t1, Eop (Olongconst n2) Enil => mull_case2 t1 n2 + | e1, e2 => mull_default e1 e2 + end. + +Definition mull (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.mull e1 e2 else match mull_match e1 e2 with + | mull_case1 n1 t2 => (* Eop (Olongconst n1) Enil, t2 *) + mullimm n1 t2 + | mull_case2 t1 n2 => (* t1, Eop (Olongconst n2) Enil *) + mullimm n2 t1 + | mull_default e1 e2 => + Eop Omull (e1:::e2:::Enil) + end. + + +Definition mullhu (e1: expr) (n2: int64) := + if Archi.splitlong then SplitLong.mullhu e1 n2 else + Eop Omullhu (e1 ::: longconst n2 ::: Enil). + +Definition mullhs (e1: expr) (n2: int64) := + if Archi.splitlong then SplitLong.mullhs e1 n2 else + Eop Omullhs (e1 ::: longconst n2 ::: Enil). + +(** ** Bitwise and, or, xor *) + +(** Original definition: +<< +Nondetfunction andlimm (n1: int64) (e2: expr) := + if Int64.eq n1 Int64.zero then longconst Int64.zero else + if Int64.eq n1 Int64.mone then e2 else + match e2 with + | Eop (Olongconst n2) Enil => + longconst (Int64.and n1 n2) + | Eop (Oandlimm n2) (t2:::Enil) => + Eop (Oandlimm (Int64.and n1 n2)) (t2:::Enil) + | _ => + Eop (Oandlimm n1) (e2:::Enil) + end. +>> +*) + +Inductive andlimm_cases: forall (e2: expr), Type := + | andlimm_case1: forall n2, andlimm_cases (Eop (Olongconst n2) Enil) + | andlimm_case2: forall n2 t2, andlimm_cases (Eop (Oandlimm n2) (t2:::Enil)) + | andlimm_default: forall (e2: expr), andlimm_cases e2. + +Definition andlimm_match (e2: expr) := + match e2 as zz1 return andlimm_cases zz1 with + | Eop (Olongconst n2) Enil => andlimm_case1 n2 + | Eop (Oandlimm n2) (t2:::Enil) => andlimm_case2 n2 t2 + | e2 => andlimm_default e2 + end. + +Definition andlimm (n1: int64) (e2: expr) := + if Int64.eq n1 Int64.zero then longconst Int64.zero else if Int64.eq n1 Int64.mone then e2 else match andlimm_match e2 with + | andlimm_case1 n2 => (* Eop (Olongconst n2) Enil *) + longconst (Int64.and n1 n2) + | andlimm_case2 n2 t2 => (* Eop (Oandlimm n2) (t2:::Enil) *) + Eop (Oandlimm (Int64.and n1 n2)) (t2:::Enil) + | andlimm_default e2 => + Eop (Oandlimm n1) (e2:::Enil) + end. + + +(** Original definition: +<< +Nondetfunction andl (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.andl e1 e2 else + match e1, e2 with + | Eop (Olongconst n1) Enil, t2 => andlimm n1 t2 + | t1, Eop (Olongconst n2) Enil => andlimm n2 t1 + | _, _ => Eop Oandl (e1:::e2:::Enil) + end. +>> +*) + +Inductive andl_cases: forall (e1: expr) (e2: expr), Type := + | andl_case1: forall n1 t2, andl_cases (Eop (Olongconst n1) Enil) (t2) + | andl_case2: forall t1 n2, andl_cases (t1) (Eop (Olongconst n2) Enil) + | andl_default: forall (e1: expr) (e2: expr), andl_cases e1 e2. + +Definition andl_match (e1: expr) (e2: expr) := + match e1 as zz1, e2 as zz2 return andl_cases zz1 zz2 with + | Eop (Olongconst n1) Enil, t2 => andl_case1 n1 t2 + | t1, Eop (Olongconst n2) Enil => andl_case2 t1 n2 + | e1, e2 => andl_default e1 e2 + end. + +Definition andl (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.andl e1 e2 else match andl_match e1 e2 with + | andl_case1 n1 t2 => (* Eop (Olongconst n1) Enil, t2 *) + andlimm n1 t2 + | andl_case2 t1 n2 => (* t1, Eop (Olongconst n2) Enil *) + andlimm n2 t1 + | andl_default e1 e2 => + Eop Oandl (e1:::e2:::Enil) + end. + + +(** Original definition: +<< +Nondetfunction orlimm (n1: int64) (e2: expr) := + if Int64.eq n1 Int64.zero then e2 else + if Int64.eq n1 Int64.mone then longconst Int64.mone else + match e2 with + | Eop (Olongconst n2) Enil => longconst (Int64.or n1 n2) + | Eop (Oorlimm n2) (t2:::Enil) => Eop (Oorlimm (Int64.or n1 n2)) (t2:::Enil) + | _ => Eop (Oorlimm n1) (e2:::Enil) + end. +>> +*) + +Inductive orlimm_cases: forall (e2: expr), Type := + | orlimm_case1: forall n2, orlimm_cases (Eop (Olongconst n2) Enil) + | orlimm_case2: forall n2 t2, orlimm_cases (Eop (Oorlimm n2) (t2:::Enil)) + | orlimm_default: forall (e2: expr), orlimm_cases e2. + +Definition orlimm_match (e2: expr) := + match e2 as zz1 return orlimm_cases zz1 with + | Eop (Olongconst n2) Enil => orlimm_case1 n2 + | Eop (Oorlimm n2) (t2:::Enil) => orlimm_case2 n2 t2 + | e2 => orlimm_default e2 + end. + +Definition orlimm (n1: int64) (e2: expr) := + if Int64.eq n1 Int64.zero then e2 else if Int64.eq n1 Int64.mone then longconst Int64.mone else match orlimm_match e2 with + | orlimm_case1 n2 => (* Eop (Olongconst n2) Enil *) + longconst (Int64.or n1 n2) + | orlimm_case2 n2 t2 => (* Eop (Oorlimm n2) (t2:::Enil) *) + Eop (Oorlimm (Int64.or n1 n2)) (t2:::Enil) + | orlimm_default e2 => + Eop (Oorlimm n1) (e2:::Enil) + end. + + +(** Original definition: +<< +Nondetfunction orl (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.orl e1 e2 else + match e1, e2 with + | Eop (Olongconst n1) Enil, t2 => orlimm n1 t2 + | t1, Eop (Olongconst n2) Enil => orlimm n2 t1 + | _, _ => Eop Oorl (e1:::e2:::Enil) + end. +>> +*) + +Inductive orl_cases: forall (e1: expr) (e2: expr), Type := + | orl_case1: forall n1 t2, orl_cases (Eop (Olongconst n1) Enil) (t2) + | orl_case2: forall t1 n2, orl_cases (t1) (Eop (Olongconst n2) Enil) + | orl_default: forall (e1: expr) (e2: expr), orl_cases e1 e2. + +Definition orl_match (e1: expr) (e2: expr) := + match e1 as zz1, e2 as zz2 return orl_cases zz1 zz2 with + | Eop (Olongconst n1) Enil, t2 => orl_case1 n1 t2 + | t1, Eop (Olongconst n2) Enil => orl_case2 t1 n2 + | e1, e2 => orl_default e1 e2 + end. + +Definition orl (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.orl e1 e2 else match orl_match e1 e2 with + | orl_case1 n1 t2 => (* Eop (Olongconst n1) Enil, t2 *) + orlimm n1 t2 + | orl_case2 t1 n2 => (* t1, Eop (Olongconst n2) Enil *) + orlimm n2 t1 + | orl_default e1 e2 => + Eop Oorl (e1:::e2:::Enil) + end. + + +(** Original definition: +<< +Nondetfunction xorlimm (n1: int64) (e2: expr) := + if Int64.eq n1 Int64.zero then e2 else + match e2 with + | Eop (Olongconst n2) Enil => longconst (Int64.xor n1 n2) + | Eop (Oxorlimm n2) (t2:::Enil) => + let n := Int64.xor n1 n2 in + if Int64.eq n Int64.zero then t2 else Eop (Oxorlimm n) (t2:::Enil) + | _ => Eop (Oxorlimm n1) (e2:::Enil) + end. +>> +*) + +Inductive xorlimm_cases: forall (e2: expr), Type := + | xorlimm_case1: forall n2, xorlimm_cases (Eop (Olongconst n2) Enil) + | xorlimm_case2: forall n2 t2, xorlimm_cases (Eop (Oxorlimm n2) (t2:::Enil)) + | xorlimm_default: forall (e2: expr), xorlimm_cases e2. + +Definition xorlimm_match (e2: expr) := + match e2 as zz1 return xorlimm_cases zz1 with + | Eop (Olongconst n2) Enil => xorlimm_case1 n2 + | Eop (Oxorlimm n2) (t2:::Enil) => xorlimm_case2 n2 t2 + | e2 => xorlimm_default e2 + end. + +Definition xorlimm (n1: int64) (e2: expr) := + if Int64.eq n1 Int64.zero then e2 else match xorlimm_match e2 with + | xorlimm_case1 n2 => (* Eop (Olongconst n2) Enil *) + longconst (Int64.xor n1 n2) + | xorlimm_case2 n2 t2 => (* Eop (Oxorlimm n2) (t2:::Enil) *) + let n := Int64.xor n1 n2 in if Int64.eq n Int64.zero then t2 else Eop (Oxorlimm n) (t2:::Enil) + | xorlimm_default e2 => + Eop (Oxorlimm n1) (e2:::Enil) + end. + + +(** Original definition: +<< +Nondetfunction xorl (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.xorl e1 e2 else + match e1, e2 with + | Eop (Olongconst n1) Enil, t2 => xorlimm n1 t2 + | t1, Eop (Olongconst n2) Enil => xorlimm n2 t1 + | _, _ => Eop Oxorl (e1:::e2:::Enil) + end. +>> +*) + +Inductive xorl_cases: forall (e1: expr) (e2: expr), Type := + | xorl_case1: forall n1 t2, xorl_cases (Eop (Olongconst n1) Enil) (t2) + | xorl_case2: forall t1 n2, xorl_cases (t1) (Eop (Olongconst n2) Enil) + | xorl_default: forall (e1: expr) (e2: expr), xorl_cases e1 e2. + +Definition xorl_match (e1: expr) (e2: expr) := + match e1 as zz1, e2 as zz2 return xorl_cases zz1 zz2 with + | Eop (Olongconst n1) Enil, t2 => xorl_case1 n1 t2 + | t1, Eop (Olongconst n2) Enil => xorl_case2 t1 n2 + | e1, e2 => xorl_default e1 e2 + end. + +Definition xorl (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.xorl e1 e2 else match xorl_match e1 e2 with + | xorl_case1 n1 t2 => (* Eop (Olongconst n1) Enil, t2 *) + xorlimm n1 t2 + | xorl_case2 t1 n2 => (* t1, Eop (Olongconst n2) Enil *) + xorlimm n2 t1 + | xorl_default e1 e2 => + Eop Oxorl (e1:::e2:::Enil) + end. + + +(** ** Integer logical negation *) + +Definition notl (e: expr) := + if Archi.splitlong then SplitLong.notl e else xorlimm Int64.mone e. + +(** ** Integer division and modulus *) + +Definition divlu_base (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.divlu_base e1 e2 else Eop Odivlu (e1:::e2:::Enil). +Definition modlu_base (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.modlu_base e1 e2 else Eop Omodlu (e1:::e2:::Enil). +Definition divls_base (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.divls_base e1 e2 else Eop Odivl (e1:::e2:::Enil). +Definition modls_base (e1: expr) (e2: expr) := + if Archi.splitlong then SplitLong.modls_base e1 e2 else Eop Omodl (e1:::e2:::Enil). + +Definition shrxlimm (e: expr) (n: int) := + if Archi.splitlong then SplitLong.shrxlimm e n else + if Int.eq n Int.zero then e else Eop (Oshrxlimm n) (e ::: Enil). + +(** ** Comparisons *) + +Definition cmplu (c: comparison) (e1 e2: expr) := + if Archi.splitlong then SplitLong.cmplu c e1 e2 else + match is_longconst e1, is_longconst e2 with + | Some n1, Some n2 => + Eop (Ointconst (if Int64.cmpu c n1 n2 then Int.one else Int.zero)) Enil + | Some n1, None => Eop (Ocmp (Ccompluimm (swap_comparison c) n1)) (e2:::Enil) + | None, Some n2 => Eop (Ocmp (Ccompluimm c n2)) (e1:::Enil) + | None, None => Eop (Ocmp (Ccomplu c)) (e1:::e2:::Enil) + end. + +Definition cmpl (c: comparison) (e1 e2: expr) := + if Archi.splitlong then SplitLong.cmpl c e1 e2 else + match is_longconst e1, is_longconst e2 with + | Some n1, Some n2 => + Eop (Ointconst (if Int64.cmp c n1 n2 then Int.one else Int.zero)) Enil + | Some n1, None => Eop (Ocmp (Ccomplimm (swap_comparison c) n1)) (e2:::Enil) + | None, Some n2 => Eop (Ocmp (Ccomplimm c n2)) (e1:::Enil) + | None, None => Eop (Ocmp (Ccompl c)) (e1:::e2:::Enil) + end. + +(** ** Floating-point conversions *) + +Definition longoffloat (e: expr) := + if Archi.splitlong then SplitLong.longoffloat e else + Eop Olongoffloat (e:::Enil). + +Definition longuoffloat (e: expr) := + if Archi.splitlong then SplitLong.longuoffloat e else + Eop Olonguoffloat (e:::Enil). + +Definition floatoflong (e: expr) := + if Archi.splitlong then SplitLong.floatoflong e else + Eop Ofloatoflong (e:::Enil). + +Definition floatoflongu (e: expr) := + if Archi.splitlong then SplitLong.floatoflongu e else + Eop Ofloatoflongu (e:::Enil). + +Definition longofsingle (e: expr) := + if Archi.splitlong then SplitLong.longofsingle e else + Eop Olongofsingle (e:::Enil). + +Definition longuofsingle (e: expr) := + if Archi.splitlong then SplitLong.longuofsingle e else + Eop Olonguofsingle (e:::Enil). + +Definition singleoflong (e: expr) := + if Archi.splitlong then SplitLong.singleoflong e else + Eop Osingleoflong (e:::Enil). + +Definition singleoflongu (e: expr) := + if Archi.splitlong then SplitLong.singleoflongu e else + Eop Osingleoflongu (e:::Enil). + +End SELECT. |