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+Require Import Coqlib Floats Values Memory.
+Require Import Integers.
+Require Import Op Registers.
+Require Import RTLpathSE_theory.
+Require Import RTLpathSE_simu_specs.
+Require Import Asmgen Asmgenproof1.
+Require Import Lia.
+
+(** Useful functions for conditions/branches expansion *)
+
+Definition is_inv_cmp_int (cmp: comparison) : bool :=
+ match cmp with | Cle | Cgt => true | _ => false end.
+
+Definition is_inv_cmp_float (cmp: comparison) : bool :=
+ match cmp with | Cge | Cgt => true | _ => false end.
+
+Definition make_optR (is_x0 is_inv: bool) : option oreg :=
+ if is_x0 then
+ (if is_inv then Some (X0_L)
+ else Some (X0_R))
+ else None.
+
+(** Functions to manage lists of "fake" values *)
+
+Definition make_lhsv_cmp (is_inv: bool) (hv1 hv2: hsval) : list_hsval :=
+ let (hvfirst, hvsec) := if is_inv then (hv1, hv2) else (hv2, hv1) in
+ let lhsv := fScons hvfirst fSnil in
+ fScons hvsec lhsv.
+
+Definition make_lhsv_single (hvs: hsval) : list_hsval :=
+ fScons hvs fSnil.
+
+(** * Expansion functions *)
+
+(** ** Immediate loads *)
+
+Definition load_hilo32 (hi lo: int) :=
+ if Int.eq lo Int.zero then
+ fSop (OEluiw hi) fSnil
+ else
+ let hvs := fSop (OEluiw hi) fSnil in
+ let hl := make_lhsv_single hvs in
+ fSop (OEaddiw None lo) hl.
+
+Definition load_hilo64 (hi lo: int64) :=
+ if Int64.eq lo Int64.zero then
+ fSop (OEluil hi) fSnil
+ else
+ let hvs := fSop (OEluil hi) fSnil in
+ let hl := make_lhsv_single hvs in
+ fSop (OEaddil None lo) hl.
+
+Definition loadimm32 (n: int) :=
+ match make_immed32 n with
+ | Imm32_single imm =>
+ fSop (OEaddiw (Some X0_R) imm) fSnil
+ | Imm32_pair hi lo => load_hilo32 hi lo
+ end.
+
+Definition loadimm64 (n: int64) :=
+ match make_immed64 n with
+ | Imm64_single imm =>
+ fSop (OEaddil (Some X0_R) imm) fSnil
+ | Imm64_pair hi lo => load_hilo64 hi lo
+ | Imm64_large imm => fSop (OEloadli imm) fSnil
+ end.
+
+Definition opimm32 (hv1: hsval) (n: int) (op: operation) (opimm: int -> operation) :=
+ match make_immed32 n with
+ | Imm32_single imm =>
+ let hl := make_lhsv_single hv1 in
+ fSop (opimm imm) hl
+ | Imm32_pair hi lo =>
+ let hvs := load_hilo32 hi lo in
+ let hl := make_lhsv_cmp false hv1 hvs in
+ fSop op hl
+ end.
+
+Definition opimm64 (hv1: hsval) (n: int64) (op: operation) (opimm: int64 -> operation) :=
+ match make_immed64 n with
+ | Imm64_single imm =>
+ let hl := make_lhsv_single hv1 in
+ fSop (opimm imm) hl
+ | Imm64_pair hi lo =>
+ let hvs := load_hilo64 hi lo in
+ let hl := make_lhsv_cmp false hv1 hvs in
+ fSop op hl
+ | Imm64_large imm =>
+ let hvs := fSop (OEloadli imm) fSnil in
+ let hl := make_lhsv_cmp false hv1 hvs in
+ fSop op hl
+ end.
+
+Definition addimm32 (hv1: hsval) (n: int) (or: option oreg) := opimm32 hv1 n Oadd (OEaddiw or).
+Definition andimm32 (hv1: hsval) (n: int) := opimm32 hv1 n Oand OEandiw.
+Definition orimm32 (hv1: hsval) (n: int) := opimm32 hv1 n Oor OEoriw.
+Definition xorimm32 (hv1: hsval) (n: int) := opimm32 hv1 n Oxor OExoriw.
+Definition sltimm32 (hv1: hsval) (n: int) := opimm32 hv1 n (OEsltw None) OEsltiw.
+Definition sltuimm32 (hv1: hsval) (n: int) := opimm32 hv1 n (OEsltuw None) OEsltiuw.
+Definition addimm64 (hv1: hsval) (n: int64) (or: option oreg) := opimm64 hv1 n Oaddl (OEaddil or).
+Definition andimm64 (hv1: hsval) (n: int64) := opimm64 hv1 n Oandl OEandil.
+Definition orimm64 (hv1: hsval) (n: int64) := opimm64 hv1 n Oorl OEoril.
+Definition xorimm64 (hv1: hsval) (n: int64) := opimm64 hv1 n Oxorl OExoril.
+Definition sltimm64 (hv1: hsval) (n: int64) := opimm64 hv1 n (OEsltl None) OEsltil.
+Definition sltuimm64 (hv1: hsval) (n: int64) := opimm64 hv1 n (OEsltul None) OEsltiul.
+
+(** ** Comparisons intructions *)
+
+Definition cond_int32s (cmp: comparison) (lhsv: list_hsval) (optR: option oreg) :=
+ match cmp with
+ | Ceq => fSop (OEseqw optR) lhsv
+ | Cne => fSop (OEsnew optR) lhsv
+ | Clt | Cgt => fSop (OEsltw optR) lhsv
+ | Cle | Cge =>
+ let hvs := (fSop (OEsltw optR) lhsv) in
+ let hl := make_lhsv_single hvs in
+ fSop (OExoriw Int.one) hl
+ end.
+
+Definition cond_int32u (cmp: comparison) (lhsv: list_hsval) (optR: option oreg) :=
+ match cmp with
+ | Ceq => fSop (OEsequw optR) lhsv
+ | Cne => fSop (OEsneuw optR) lhsv
+ | Clt | Cgt => fSop (OEsltuw optR) lhsv
+ | Cle | Cge =>
+ let hvs := (fSop (OEsltuw optR) lhsv) in
+ let hl := make_lhsv_single hvs in
+ fSop (OExoriw Int.one) hl
+ end.
+
+Definition cond_int64s (cmp: comparison) (lhsv: list_hsval) (optR: option oreg) :=
+ match cmp with
+ | Ceq => fSop (OEseql optR) lhsv
+ | Cne => fSop (OEsnel optR) lhsv
+ | Clt | Cgt => fSop (OEsltl optR) lhsv
+ | Cle | Cge =>
+ let hvs := (fSop (OEsltl optR) lhsv) in
+ let hl := make_lhsv_single hvs in
+ fSop (OExoriw Int.one) hl
+ end.
+
+Definition cond_int64u (cmp: comparison) (lhsv: list_hsval) (optR: option oreg) :=
+ match cmp with
+ | Ceq => fSop (OEsequl optR) lhsv
+ | Cne => fSop (OEsneul optR) lhsv
+ | Clt | Cgt => fSop (OEsltul optR) lhsv
+ | Cle | Cge =>
+ let hvs := (fSop (OEsltul optR) lhsv) in
+ let hl := make_lhsv_single hvs in
+ fSop (OExoriw Int.one) hl
+ end.
+
+Definition expanse_condimm_int32s (cmp: comparison) (hv1: hsval) (n: int) :=
+ let is_inv := is_inv_cmp_int cmp in
+ if Int.eq n Int.zero then
+ let optR := make_optR true is_inv in
+ let hl := make_lhsv_cmp is_inv hv1 hv1 in
+ cond_int32s cmp hl optR
+ else
+ match cmp with
+ | Ceq | Cne =>
+ let optR := make_optR true is_inv in
+ let hvs := xorimm32 hv1 n in
+ let hl := make_lhsv_cmp false hvs hvs in
+ cond_int32s cmp hl optR
+ | Clt => sltimm32 hv1 n
+ | Cle =>
+ if Int.eq n (Int.repr Int.max_signed) then
+ let hvs := loadimm32 Int.one in
+ let hl := make_lhsv_cmp false hv1 hvs in
+ fSop (OEmayundef MUint) hl
+ else sltimm32 hv1 (Int.add n Int.one)
+ | _ =>
+ let optR := make_optR false is_inv in
+ let hvs := loadimm32 n in
+ let hl := make_lhsv_cmp is_inv hv1 hvs in
+ cond_int32s cmp hl optR
+ end.
+
+Definition expanse_condimm_int32u (cmp: comparison) (hv1: hsval) (n: int) :=
+ let is_inv := is_inv_cmp_int cmp in
+ if Int.eq n Int.zero then
+ let optR := make_optR true is_inv in
+ let hl := make_lhsv_cmp is_inv hv1 hv1 in
+ cond_int32u cmp hl optR
+ else
+ match cmp with
+ | Clt => sltuimm32 hv1 n
+ | _ =>
+ let optR := make_optR false is_inv in
+ let hvs := loadimm32 n in
+ let hl := make_lhsv_cmp is_inv hv1 hvs in
+ cond_int32u cmp hl optR
+ end.
+
+Definition expanse_condimm_int64s (cmp: comparison) (hv1: hsval) (n: int64) :=
+ let is_inv := is_inv_cmp_int cmp in
+ if Int64.eq n Int64.zero then
+ let optR := make_optR true is_inv in
+ let hl := make_lhsv_cmp is_inv hv1 hv1 in
+ cond_int64s cmp hl optR
+ else
+ match cmp with
+ | Ceq | Cne =>
+ let optR := make_optR true is_inv in
+ let hvs := xorimm64 hv1 n in
+ let hl := make_lhsv_cmp false hvs hvs in
+ cond_int64s cmp hl optR
+ | Clt => sltimm64 hv1 n
+ | Cle =>
+ if Int64.eq n (Int64.repr Int64.max_signed) then
+ let hvs := loadimm32 Int.one in
+ let hl := make_lhsv_cmp false hv1 hvs in
+ fSop (OEmayundef MUlong) hl
+ else sltimm64 hv1 (Int64.add n Int64.one)
+ | _ =>
+ let optR := make_optR false is_inv in
+ let hvs := loadimm64 n in
+ let hl := make_lhsv_cmp is_inv hv1 hvs in
+ cond_int64s cmp hl optR
+ end.
+
+Definition expanse_condimm_int64u (cmp: comparison) (hv1: hsval) (n: int64) :=
+ let is_inv := is_inv_cmp_int cmp in
+ if Int64.eq n Int64.zero then
+ let optR := make_optR true is_inv in
+ let hl := make_lhsv_cmp is_inv hv1 hv1 in
+ cond_int64u cmp hl optR
+ else
+ match cmp with
+ | Clt => sltuimm64 hv1 n
+ | _ =>
+ let optR := make_optR false is_inv in
+ let hvs := loadimm64 n in
+ let hl := make_lhsv_cmp is_inv hv1 hvs in
+ cond_int64u cmp hl optR
+ end.
+
+Definition cond_float (cmp: comparison) (lhsv: list_hsval) :=
+ match cmp with
+ | Ceq | Cne => fSop OEfeqd lhsv
+ | Clt | Cgt => fSop OEfltd lhsv
+ | Cle | Cge => fSop OEfled lhsv
+ end.
+
+Definition cond_single (cmp: comparison) (lhsv: list_hsval) :=
+ match cmp with
+ | Ceq | Cne => fSop OEfeqs lhsv
+ | Clt | Cgt => fSop OEflts lhsv
+ | Cle | Cge => fSop OEfles lhsv
+ end.
+
+Definition is_normal_cmp cmp :=
+ match cmp with | Cne => false | _ => true end.
+
+Definition expanse_cond_fp (cnot: bool) fn_cond cmp (lhsv: list_hsval) :=
+ let normal := is_normal_cmp cmp in
+ let normal' := if cnot then negb normal else normal in
+ let hvs := fn_cond cmp lhsv in
+ let hl := make_lhsv_single hvs in
+ if normal' then hvs else fSop (OExoriw Int.one) hl.
+
+(** ** Branches instructions *)
+
+Definition transl_cbranch_int32s (cmp: comparison) (optR: option oreg) :=
+ match cmp with
+ | Ceq => CEbeqw optR
+ | Cne => CEbnew optR
+ | Clt => CEbltw optR
+ | Cle => CEbgew optR
+ | Cgt => CEbltw optR
+ | Cge => CEbgew optR
+ end.
+
+Definition transl_cbranch_int32u (cmp: comparison) (optR: option oreg) :=
+ match cmp with
+ | Ceq => CEbequw optR
+ | Cne => CEbneuw optR
+ | Clt => CEbltuw optR
+ | Cle => CEbgeuw optR
+ | Cgt => CEbltuw optR
+ | Cge => CEbgeuw optR
+ end.
+
+Definition transl_cbranch_int64s (cmp: comparison) (optR: option oreg) :=
+ match cmp with
+ | Ceq => CEbeql optR
+ | Cne => CEbnel optR
+ | Clt => CEbltl optR
+ | Cle => CEbgel optR
+ | Cgt => CEbltl optR
+ | Cge => CEbgel optR
+ end.
+
+Definition transl_cbranch_int64u (cmp: comparison) (optR: option oreg) :=
+ match cmp with
+ | Ceq => CEbequl optR
+ | Cne => CEbneul optR
+ | Clt => CEbltul optR
+ | Cle => CEbgeul optR
+ | Cgt => CEbltul optR
+ | Cge => CEbgeul optR
+ end.
+
+Definition expanse_cbranch_fp (cnot: bool) fn_cond cmp (lhsv: list_hsval) : (condition * list_hsval) :=
+ let normal := is_normal_cmp cmp in
+ let normal' := if cnot then negb normal else normal in
+ let hvs := fn_cond cmp lhsv in
+ let hl := make_lhsv_cmp false hvs hvs in
+ if normal' then ((CEbnew (Some X0_R)), hl) else ((CEbeqw (Some X0_R)), hl).
+
+(** * Target simplifications using "fake" values *)
+
+Definition target_op_simplify (op: operation) (lr: list reg) (hst: hsistate_local): option hsval :=
+ match op, lr with
+ | Ocmp (Ccomp c), a1 :: a2 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ let hv2 := fsi_sreg_get hst a2 in
+ let is_inv := is_inv_cmp_int c in
+ let optR := make_optR false is_inv in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (cond_int32s c lhsv optR)
+ | Ocmp (Ccompu c), a1 :: a2 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ let hv2 := fsi_sreg_get hst a2 in
+ let is_inv := is_inv_cmp_int c in
+ let optR := make_optR false is_inv in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (cond_int32u c lhsv optR)
+ | Ocmp (Ccompimm c imm), a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ Some (expanse_condimm_int32s c hv1 imm)
+ | Ocmp (Ccompuimm c imm), a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ Some (expanse_condimm_int32u c hv1 imm)
+ | Ocmp (Ccompl c), a1 :: a2 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ let hv2 := fsi_sreg_get hst a2 in
+ let is_inv := is_inv_cmp_int c in
+ let optR := make_optR false is_inv in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (cond_int64s c lhsv optR)
+ | Ocmp (Ccomplu c), a1 :: a2 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ let hv2 := fsi_sreg_get hst a2 in
+ let is_inv := is_inv_cmp_int c in
+ let optR := make_optR false is_inv in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (cond_int64u c lhsv optR)
+ | Ocmp (Ccomplimm c imm), a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ Some (expanse_condimm_int64s c hv1 imm)
+ | Ocmp (Ccompluimm c imm), a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ Some (expanse_condimm_int64u c hv1 imm)
+ | Ocmp (Ccompf c), f1 :: f2 :: nil =>
+ let hv1 := fsi_sreg_get hst f1 in
+ let hv2 := fsi_sreg_get hst f2 in
+ let is_inv := is_inv_cmp_float c in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (expanse_cond_fp false cond_float c lhsv)
+ | Ocmp (Cnotcompf c), f1 :: f2 :: nil =>
+ let hv1 := fsi_sreg_get hst f1 in
+ let hv2 := fsi_sreg_get hst f2 in
+ let is_inv := is_inv_cmp_float c in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (expanse_cond_fp true cond_float c lhsv)
+ | Ocmp (Ccompfs c), f1 :: f2 :: nil =>
+ let hv1 := fsi_sreg_get hst f1 in
+ let hv2 := fsi_sreg_get hst f2 in
+ let is_inv := is_inv_cmp_float c in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (expanse_cond_fp false cond_single c lhsv)
+ | Ocmp (Cnotcompfs c), f1 :: f2 :: nil =>
+ let hv1 := fsi_sreg_get hst f1 in
+ let hv2 := fsi_sreg_get hst f2 in
+ let is_inv := is_inv_cmp_float c in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (expanse_cond_fp true cond_single c lhsv)
+ | Ofloatconst f, nil =>
+ let hvs := loadimm64 (Float.to_bits f) in
+ let hl := make_lhsv_single hvs in
+ Some (fSop (Ofloat_of_bits) hl)
+ | Osingleconst f, nil =>
+ let hvs := loadimm32 (Float32.to_bits f) in
+ let hl := make_lhsv_single hvs in
+ Some (fSop (Osingle_of_bits) hl)
+ | Ointconst n, nil =>
+ Some (loadimm32 n)
+ | Olongconst n, nil =>
+ Some (loadimm64 n)
+ | Oaddimm n, a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ Some (addimm32 hv1 n None)
+ | Oaddlimm n, a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ Some (addimm64 hv1 n None)
+ | Oandimm n, a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ Some (andimm32 hv1 n)
+ | Oandlimm n, a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ Some (andimm64 hv1 n)
+ | Oorimm n, a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ Some (orimm32 hv1 n)
+ | Oorlimm n, a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ Some (orimm64 hv1 n)
+ | Oxorimm n, a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ Some (xorimm32 hv1 n)
+ | Oxorlimm n, a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ Some (xorimm64 hv1 n)
+ | Ocast8signed, a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ let hl := make_lhsv_single hv1 in
+ let hvs := fSop (Oshlimm (Int.repr 24)) hl in
+ let hl' := make_lhsv_single hvs in
+ Some (fSop (Oshrimm (Int.repr 24)) hl')
+ | Ocast16signed, a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ let hl := make_lhsv_single hv1 in
+ let hvs := fSop (Oshlimm (Int.repr 16)) hl in
+ let hl' := make_lhsv_single hvs in
+ Some (fSop (Oshrimm (Int.repr 16)) hl')
+ | Ocast32unsigned, a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ let hl := make_lhsv_single hv1 in
+ let cast32s_s := fSop Ocast32signed hl in
+ let cast32s_l := make_lhsv_single cast32s_s in
+ let sllil_s := fSop (Oshllimm (Int.repr 32)) cast32s_l in
+ let sllil_l := make_lhsv_single sllil_s in
+ Some (fSop (Oshrluimm (Int.repr 32)) sllil_l)
+ | Oshrximm n, a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ let hl := make_lhsv_single hv1 in
+ if Int.eq n Int.zero then
+ let lhl := make_lhsv_cmp false hv1 hv1 in
+ Some (fSop (OEmayundef (MUshrx n)) lhl)
+ else
+ if Int.eq n Int.one then
+ let srliw_s := fSop (Oshruimm (Int.repr 31)) hl in
+ let srliw_l := make_lhsv_cmp false hv1 srliw_s in
+ let addw_s := fSop Oadd srliw_l in
+ let addw_l := make_lhsv_single addw_s in
+ let sraiw_s := fSop (Oshrimm Int.one) addw_l in
+ let sraiw_l := make_lhsv_cmp false sraiw_s sraiw_s in
+ Some (fSop (OEmayundef (MUshrx n)) sraiw_l)
+ else
+ let sraiw_s := fSop (Oshrimm (Int.repr 31)) hl in
+ let sraiw_l := make_lhsv_single sraiw_s in
+ let srliw_s := fSop (Oshruimm (Int.sub Int.iwordsize n)) sraiw_l in
+ let srliw_l := make_lhsv_cmp false hv1 srliw_s in
+ let addw_s := fSop Oadd srliw_l in
+ let addw_l := make_lhsv_single addw_s in
+ let sraiw_s' := fSop (Oshrimm n) addw_l in
+ let sraiw_l' := make_lhsv_cmp false sraiw_s' sraiw_s' in
+ Some (fSop (OEmayundef (MUshrx n)) sraiw_l')
+ | Oshrxlimm n, a1 :: nil =>
+ let hv1 := fsi_sreg_get hst a1 in
+ let hl := make_lhsv_single hv1 in
+ if Int.eq n Int.zero then
+ let lhl := make_lhsv_cmp false hv1 hv1 in
+ Some (fSop (OEmayundef (MUshrxl n)) lhl)
+ else
+ if Int.eq n Int.one then
+ let srlil_s := fSop (Oshrluimm (Int.repr 63)) hl in
+ let srlil_l := make_lhsv_cmp false hv1 srlil_s in
+ let addl_s := fSop Oaddl srlil_l in
+ let addl_l := make_lhsv_single addl_s in
+ let srail_s := fSop (Oshrlimm Int.one) addl_l in
+ let srail_l := make_lhsv_cmp false srail_s srail_s in
+ Some (fSop (OEmayundef (MUshrxl n)) srail_l)
+ else
+ let srail_s := fSop (Oshrlimm (Int.repr 63)) hl in
+ let srail_l := make_lhsv_single srail_s in
+ let srlil_s := fSop (Oshrluimm (Int.sub Int64.iwordsize' n)) srail_l in
+ let srlil_l := make_lhsv_cmp false hv1 srlil_s in
+ let addl_s := fSop Oaddl srlil_l in
+ let addl_l := make_lhsv_single addl_s in
+ let srail_s' := fSop (Oshrlimm n) addl_l in
+ let srail_l' := make_lhsv_cmp false srail_s' srail_s' in
+ Some (fSop (OEmayundef (MUshrxl n)) srail_l')
+ | _, _ => None
+ end.
+
+Definition target_cbranch_expanse (prev: hsistate_local) (cond: condition) (args: list reg) : option (condition * list_hsval) :=
+ match cond, args with
+ | (Ccomp c), (a1 :: a2 :: nil) =>
+ let is_inv := is_inv_cmp_int c in
+ let cond := transl_cbranch_int32s c (make_optR false is_inv) in
+ let hv1 := fsi_sreg_get prev a1 in
+ let hv2 := fsi_sreg_get prev a2 in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (cond, lhsv)
+ | (Ccompu c), (a1 :: a2 :: nil) =>
+ let is_inv := is_inv_cmp_int c in
+ let cond := transl_cbranch_int32u c (make_optR false is_inv) in
+ let hv1 := fsi_sreg_get prev a1 in
+ let hv2 := fsi_sreg_get prev a2 in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (cond, lhsv)
+ | (Ccompimm c n), (a1 :: nil) =>
+ let is_inv := is_inv_cmp_int c in
+ let hv1 := fsi_sreg_get prev a1 in
+ (if Int.eq n Int.zero then
+ let lhsv := make_lhsv_cmp is_inv hv1 hv1 in
+ let cond := transl_cbranch_int32s c (make_optR true is_inv) in
+ Some (cond, lhsv)
+ else
+ let hvs := loadimm32 n in
+ let lhsv := make_lhsv_cmp is_inv hv1 hvs in
+ let cond := transl_cbranch_int32s c (make_optR false is_inv) in
+ Some (cond, lhsv))
+ | (Ccompuimm c n), (a1 :: nil) =>
+ let is_inv := is_inv_cmp_int c in
+ let hv1 := fsi_sreg_get prev a1 in
+ (if Int.eq n Int.zero then
+ let lhsv := make_lhsv_cmp is_inv hv1 hv1 in
+ let cond := transl_cbranch_int32u c (make_optR true is_inv) in
+ Some (cond, lhsv)
+ else
+ let hvs := loadimm32 n in
+ let lhsv := make_lhsv_cmp is_inv hv1 hvs in
+ let cond := transl_cbranch_int32u c (make_optR false is_inv) in
+ Some (cond, lhsv))
+ | (Ccompl c), (a1 :: a2 :: nil) =>
+ let is_inv := is_inv_cmp_int c in
+ let cond := transl_cbranch_int64s c (make_optR false is_inv) in
+ let hv1 := fsi_sreg_get prev a1 in
+ let hv2 := fsi_sreg_get prev a2 in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (cond, lhsv)
+ | (Ccomplu c), (a1 :: a2 :: nil) =>
+ let is_inv := is_inv_cmp_int c in
+ let cond := transl_cbranch_int64u c (make_optR false is_inv) in
+ let hv1 := fsi_sreg_get prev a1 in
+ let hv2 := fsi_sreg_get prev a2 in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (cond, lhsv)
+ | (Ccomplimm c n), (a1 :: nil) =>
+ let is_inv := is_inv_cmp_int c in
+ let hv1 := fsi_sreg_get prev a1 in
+ (if Int64.eq n Int64.zero then
+ let lhsv := make_lhsv_cmp is_inv hv1 hv1 in
+ let cond := transl_cbranch_int64s c (make_optR true is_inv) in
+ Some (cond, lhsv)
+ else
+ let hvs := loadimm64 n in
+ let lhsv := make_lhsv_cmp is_inv hv1 hvs in
+ let cond := transl_cbranch_int64s c (make_optR false is_inv) in
+ Some (cond, lhsv))
+ | (Ccompluimm c n), (a1 :: nil) =>
+ let is_inv := is_inv_cmp_int c in
+ let hv1 := fsi_sreg_get prev a1 in
+ (if Int64.eq n Int64.zero then
+ let lhsv := make_lhsv_cmp is_inv hv1 hv1 in
+ let cond := transl_cbranch_int64u c (make_optR true is_inv) in
+ Some (cond, lhsv)
+ else
+ let hvs := loadimm64 n in
+ let lhsv := make_lhsv_cmp is_inv hv1 hvs in
+ let cond := transl_cbranch_int64u c (make_optR false is_inv) in
+ Some (cond, lhsv))
+ | (Ccompf c), (f1 :: f2 :: nil) =>
+ let hv1 := fsi_sreg_get prev f1 in
+ let hv2 := fsi_sreg_get prev f2 in
+ let is_inv := is_inv_cmp_float c in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (expanse_cbranch_fp false cond_float c lhsv)
+ | (Cnotcompf c), (f1 :: f2 :: nil) =>
+ let hv1 := fsi_sreg_get prev f1 in
+ let hv2 := fsi_sreg_get prev f2 in
+ let is_inv := is_inv_cmp_float c in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (expanse_cbranch_fp true cond_float c lhsv)
+ | (Ccompfs c), (f1 :: f2 :: nil) =>
+ let hv1 := fsi_sreg_get prev f1 in
+ let hv2 := fsi_sreg_get prev f2 in
+ let is_inv := is_inv_cmp_float c in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (expanse_cbranch_fp false cond_single c lhsv)
+ | (Cnotcompfs c), (f1 :: f2 :: nil) =>
+ let hv1 := fsi_sreg_get prev f1 in
+ let hv2 := fsi_sreg_get prev f2 in
+ let is_inv := is_inv_cmp_float c in
+ let lhsv := make_lhsv_cmp is_inv hv1 hv2 in
+ Some (expanse_cbranch_fp true cond_single c lhsv)
+ | _, _ => None
+ end.
+
+(** * Auxiliary lemmas on comparisons *)
+
+(** ** Signed ints *)
+
+Lemma xor_neg_ltle_cmp: forall v1 v2,
+ Some (Val.xor (Val.cmp Clt v1 v2) (Vint Int.one)) =
+ Some (Val.of_optbool (Val.cmp_bool Cle v2 v1)).
+Proof.
+ intros. eapply f_equal.
+ destruct v1, v2; simpl; try congruence.
+ unfold Val.cmp; simpl;
+ try rewrite Int.eq_sym;
+ try destruct (Int.eq _ _); try destruct (Int.lt _ _) eqn:ELT ; simpl;
+ try rewrite Int.xor_one_one; try rewrite Int.xor_zero_one;
+ auto.
+Qed.
+
+(** ** Unsigned ints *)
+
+Lemma xor_neg_ltle_cmpu: forall mptr v1 v2,
+ Some (Val.xor (Val.cmpu (Mem.valid_pointer mptr) Clt v1 v2) (Vint Int.one)) =
+ Some (Val.of_optbool (Val.cmpu_bool (Mem.valid_pointer mptr) Cle v2 v1)).
+Proof.
+ intros. eapply f_equal.
+ destruct v1, v2; simpl; try congruence.
+ unfold Val.cmpu; simpl;
+ try rewrite Int.eq_sym;
+ try destruct (Int.eq _ _); try destruct (Int.ltu _ _) eqn:ELT ; simpl;
+ try rewrite Int.xor_one_one; try rewrite Int.xor_zero_one;
+ auto.
+ 1,2:
+ unfold Val.cmpu, Val.cmpu_bool;
+ destruct Archi.ptr64; try destruct (_ && _); try destruct (_ || _);
+ try destruct (eq_block _ _); auto.
+ unfold Val.cmpu, Val.cmpu_bool; simpl;
+ destruct Archi.ptr64; try destruct (_ || _); simpl; auto;
+ destruct (eq_block b b0); destruct (eq_block b0 b);
+ try congruence;
+ try destruct (_ || _); simpl; try destruct (Ptrofs.ltu _ _);
+ simpl; auto;
+ repeat destruct (_ && _); simpl; auto.
+Qed.
+
+Remark ltu_12_wordsize:
+ Int.ltu (Int.repr 12) Int.iwordsize = true.
+Proof.
+ unfold Int.iwordsize, Int.zwordsize. simpl.
+ unfold Int.ltu. apply zlt_true.
+ rewrite !Int.unsigned_repr; try cbn; try lia.
+Qed.
+
+(** ** Signed longs *)
+
+Lemma xor_neg_ltle_cmpl: forall v1 v2,
+ Some (Val.xor (Val.maketotal (Val.cmpl Clt v1 v2)) (Vint Int.one)) =
+ Some (Val.of_optbool (Val.cmpl_bool Cle v2 v1)).
+Proof.
+ intros. eapply f_equal.
+ destruct v1, v2; simpl; try congruence.
+ destruct (Int64.lt _ _); auto.
+Qed.
+
+Lemma xor_neg_ltge_cmpl: forall v1 v2,
+ Some (Val.xor (Val.maketotal (Val.cmpl Clt v1 v2)) (Vint Int.one)) =
+ Some (Val.of_optbool (Val.cmpl_bool Cge v1 v2)).
+Proof.
+ intros. eapply f_equal.
+ destruct v1, v2; simpl; try congruence.
+ destruct (Int64.lt _ _); auto.
+Qed.
+
+Lemma xorl_zero_eq_cmpl: forall c v1 v2,
+ c = Ceq \/ c = Cne ->
+ Some
+ (Val.maketotal
+ (option_map Val.of_bool
+ (Val.cmpl_bool c (Val.xorl v1 v2) (Vlong Int64.zero)))) =
+ Some (Val.of_optbool (Val.cmpl_bool c v1 v2)).
+Proof.
+ intros. destruct c; inv H; try discriminate;
+ destruct v1, v2; simpl; auto;
+ destruct (Int64.eq i i0) eqn:EQ0.
+ 1,3:
+ apply Int64.same_if_eq in EQ0; subst;
+ rewrite Int64.xor_idem;
+ rewrite Int64.eq_true; trivial.
+ 1,2:
+ destruct (Int64.eq (Int64.xor i i0) Int64.zero) eqn:EQ1; simpl; try congruence;
+ rewrite Int64.xor_is_zero in EQ1; congruence.
+Qed.
+
+Lemma cmp_ltle_add_one: forall v n,
+ Int.eq n (Int.repr Int.max_signed) = false ->
+ Some (Val.of_optbool (Val.cmp_bool Clt v (Vint (Int.add n Int.one)))) =
+ Some (Val.of_optbool (Val.cmp_bool Cle v (Vint n))).
+Proof.
+ intros v n EQMAX. unfold Val.cmp_bool; destruct v; simpl; auto.
+ unfold Int.lt. replace (Int.signed (Int.add n Int.one)) with (Int.signed n + 1).
+ destruct (zlt (Int.signed n) (Int.signed i)).
+ rewrite zlt_false by lia. auto.
+ rewrite zlt_true by lia. auto.
+ rewrite Int.add_signed. symmetry; apply Int.signed_repr.
+ specialize (Int.eq_spec n (Int.repr Int.max_signed)).
+ rewrite EQMAX; simpl; intros.
+ assert (Int.signed n <> Int.max_signed).
+ { red; intros E. elim H. rewrite <- (Int.repr_signed n). rewrite E. auto. }
+ generalize (Int.signed_range n); lia.
+Qed.
+
+Lemma cmpl_ltle_add_one: forall v n,
+ Int64.eq n (Int64.repr Int64.max_signed) = false ->
+ Some (Val.of_optbool (Val.cmpl_bool Clt v (Vlong (Int64.add n Int64.one)))) =
+ Some (Val.of_optbool (Val.cmpl_bool Cle v (Vlong n))).
+Proof.
+ intros v n EQMAX. unfold Val.cmpl_bool; destruct v; simpl; auto.
+ unfold Int64.lt. replace (Int64.signed (Int64.add n Int64.one)) with (Int64.signed n + 1).
+ destruct (zlt (Int64.signed n) (Int64.signed i)).
+ rewrite zlt_false by lia. auto.
+ rewrite zlt_true by lia. auto.
+ rewrite Int64.add_signed. symmetry; apply Int64.signed_repr.
+ specialize (Int64.eq_spec n (Int64.repr Int64.max_signed)).
+ rewrite EQMAX; simpl; intros.
+ assert (Int64.signed n <> Int64.max_signed).
+ { red; intros E. elim H. rewrite <- (Int64.repr_signed n). rewrite E. auto. }
+ generalize (Int64.signed_range n); lia.
+Qed.
+
+Remark lt_maxsgn_false_int: forall i,
+ Int.lt (Int.repr Int.max_signed) i = false.
+Proof.
+ intros; unfold Int.lt.
+ specialize Int.signed_range with i; intros.
+ rewrite zlt_false; auto. destruct H.
+ rewrite Int.signed_repr; try (cbn; lia).
+ apply Z.le_ge. trivial.
+Qed.
+
+Remark lt_maxsgn_false_long: forall i,
+ Int64.lt (Int64.repr Int64.max_signed) i = false.
+Proof.
+ intros; unfold Int64.lt.
+ specialize Int64.signed_range with i; intros.
+ rewrite zlt_false; auto. destruct H.
+ rewrite Int64.signed_repr; try (cbn; lia).
+ apply Z.le_ge. trivial.
+Qed.
+
+(** ** Unsigned longs *)
+
+Lemma xor_neg_ltle_cmplu: forall mptr v1 v2,
+ Some (Val.xor (Val.maketotal (Val.cmplu (Mem.valid_pointer mptr) Clt v1 v2)) (Vint Int.one)) =
+ Some (Val.of_optbool (Val.cmplu_bool (Mem.valid_pointer mptr) Cle v2 v1)).
+Proof.
+ intros. eapply f_equal.
+ destruct v1, v2; simpl; try congruence.
+ destruct (Int64.ltu _ _); auto.
+ 1,2: unfold Val.cmplu; simpl; auto;
+ destruct (Archi.ptr64); simpl;
+ try destruct (eq_block _ _); simpl;
+ try destruct (_ && _); simpl;
+ try destruct (Ptrofs.cmpu _ _);
+ try destruct cmp; simpl; auto.
+ unfold Val.cmplu; simpl;
+ destruct Archi.ptr64; try destruct (_ || _); simpl; auto;
+ destruct (eq_block b b0); destruct (eq_block b0 b);
+ try congruence;
+ try destruct (_ || _); simpl; try destruct (Ptrofs.ltu _ _);
+ simpl; auto;
+ repeat destruct (_ && _); simpl; auto.
+Qed.
+
+Lemma xor_neg_ltge_cmplu: forall mptr v1 v2,
+ Some (Val.xor (Val.maketotal (Val.cmplu (Mem.valid_pointer mptr) Clt v1 v2)) (Vint Int.one)) =
+ Some (Val.of_optbool (Val.cmplu_bool (Mem.valid_pointer mptr) Cge v1 v2)).
+Proof.
+ intros. eapply f_equal.
+ destruct v1, v2; simpl; try congruence.
+ destruct (Int64.ltu _ _); auto.
+ 1,2: unfold Val.cmplu; simpl; auto;
+ destruct (Archi.ptr64); simpl;
+ try destruct (eq_block _ _); simpl;
+ try destruct (_ && _); simpl;
+ try destruct (Ptrofs.cmpu _ _);
+ try destruct cmp; simpl; auto.
+ unfold Val.cmplu; simpl;
+ destruct Archi.ptr64; try destruct (_ || _); simpl; auto;
+ destruct (eq_block b b0); destruct (eq_block b0 b);
+ try congruence;
+ try destruct (_ || _); simpl; try destruct (Ptrofs.ltu _ _);
+ simpl; auto;
+ repeat destruct (_ && _); simpl; auto.
+Qed.
+
+(** ** Floats *)
+
+Lemma xor_neg_eqne_cmpf: forall v1 v2,
+ Some (Val.xor (Val.cmpf Ceq v1 v2) (Vint Int.one)) =
+ Some (Val.of_optbool (Val.cmpf_bool Cne v1 v2)).
+Proof.
+ intros. eapply f_equal.
+ destruct v1, v2; simpl; try congruence;
+ unfold Val.cmpf; simpl.
+ rewrite Float.cmp_ne_eq.
+ destruct (Float.cmp _ _ _); simpl; auto.
+Qed.
+
+(** ** Singles *)
+
+Lemma xor_neg_eqne_cmpfs: forall v1 v2,
+ Some (Val.xor (Val.cmpfs Ceq v1 v2) (Vint Int.one)) =
+ Some (Val.of_optbool (Val.cmpfs_bool Cne v1 v2)).
+Proof.
+ intros. eapply f_equal.
+ destruct v1, v2; simpl; try congruence;
+ unfold Val.cmpfs; simpl.
+ rewrite Float32.cmp_ne_eq.
+ destruct (Float32.cmp _ _ _); simpl; auto.
+Qed.
+
+(** ** More useful lemmas *)
+
+Lemma xor_neg_optb: forall v,
+ Some (Val.xor (Val.of_optbool (option_map negb v))
+ (Vint Int.one)) = Some (Val.of_optbool v).
+Proof.
+ intros.
+ destruct v; simpl; trivial.
+ destruct b; simpl; auto.
+Qed.
+
+Lemma xor_neg_optb': forall v,
+ Some (Val.xor (Val.of_optbool v) (Vint Int.one)) =
+ Some (Val.of_optbool (option_map negb v)).
+Proof.
+ intros.
+ destruct v; simpl; trivial.
+ destruct b; simpl; auto.
+Qed.
+
+Lemma optbool_mktotal: forall v,
+ Val.maketotal (option_map Val.of_bool v) =
+ Val.of_optbool v.
+Proof.
+ intros.
+ destruct v; simpl; auto.
+Qed.
+
+(* TODO gourdinl move to common/Values ? *)
+Theorem swap_cmpf_bool:
+ forall c x y,
+ Val.cmpf_bool (swap_comparison c) x y = Val.cmpf_bool c y x.
+Proof.
+ destruct x; destruct y; simpl; auto. rewrite Float.cmp_swap. auto.
+Qed.
+
+Theorem swap_cmpfs_bool:
+ forall c x y,
+ Val.cmpfs_bool (swap_comparison c) x y = Val.cmpfs_bool c y x.
+Proof.
+ destruct x; destruct y; simpl; auto. rewrite Float32.cmp_swap. auto.
+Qed.
+
+(** * Intermediates lemmas on each expanded instruction *)
+
+Lemma simplify_ccomp_correct ge sp hst st c r r0 rs0 m0 v v0: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (OKv1 : seval_sval ge sp (si_sreg st r) rs0 m0 = Some v)
+ (OKv2 : seval_sval ge sp (si_sreg st r0) rs0 m0 = Some v0),
+ seval_sval ge sp
+ (hsval_proj
+ (cond_int32s c
+ (make_lhsv_cmp (is_inv_cmp_int c) (fsi_sreg_get hst r)
+ (fsi_sreg_get hst r0)) None)) rs0 m0 =
+ Some (Val.of_optbool (Val.cmp_bool c v v0)).
+Proof.
+ intros.
+ unfold cond_int32s in *; destruct c; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ rewrite OKv1, OKv2; trivial;
+ unfold Val.cmp.
+ - apply xor_neg_ltle_cmp.
+ - replace (Clt) with (swap_comparison Cgt) by auto;
+ rewrite Val.swap_cmp_bool; trivial.
+ - replace (Clt) with (negate_comparison Cge) by auto;
+ rewrite Val.negate_cmp_bool.
+ rewrite xor_neg_optb; trivial.
+Qed.
+
+Lemma simplify_ccompu_correct ge sp hst st c r r0 rs0 m m0 v v0: forall
+ (SMEM : forall (m : mem) (b : Values.block) (ofs : Z),
+ seval_smem ge sp (si_smem st) rs0 m0 = Some m ->
+ Mem.valid_pointer m b ofs = Mem.valid_pointer m0 b ofs)
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (OKv1 : seval_sval ge sp (si_sreg st r) rs0 m0 = Some v)
+ (OKv2 : seval_sval ge sp (si_sreg st r0) rs0 m0 = Some v0)
+ (OK2 : seval_smem ge sp (si_smem st) rs0 m0 = Some m),
+ seval_sval ge sp
+ (hsval_proj
+ (cond_int32u c
+ (make_lhsv_cmp (is_inv_cmp_int c) (fsi_sreg_get hst r)
+ (fsi_sreg_get hst r0)) None)) rs0 m0 =
+ Some (Val.of_optbool (Val.cmpu_bool (Mem.valid_pointer m) c v v0)).
+Proof.
+ intros.
+ erewrite (cmpu_bool_valid_pointer_eq (Mem.valid_pointer m) (Mem.valid_pointer m0)).
+ 2: eauto.
+ unfold cond_int32u in *; destruct c; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ rewrite OKv1, OKv2; trivial;
+ unfold Val.cmpu.
+ - apply xor_neg_ltle_cmpu.
+ - replace (Clt) with (swap_comparison Cgt) by auto;
+ rewrite Val.swap_cmpu_bool; trivial.
+ - replace (Clt) with (negate_comparison Cge) by auto;
+ rewrite Val.negate_cmpu_bool.
+ rewrite xor_neg_optb; trivial.
+Qed.
+
+Lemma simplify_ccompimm_correct ge sp hst st c r n rs0 m m0 v: forall
+ (SMEM : forall (m : mem) (b : Values.block) (ofs : Z),
+ seval_smem ge sp (si_smem st) rs0 m0 = Some m ->
+ Mem.valid_pointer m b ofs = Mem.valid_pointer m0 b ofs)
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (OKv1 : seval_sval ge sp (si_sreg st r) rs0 m0 = Some v)
+ (OK2 : seval_smem ge sp (si_smem st) rs0 m0 = Some m),
+ seval_sval ge sp
+ (hsval_proj (expanse_condimm_int32s c (fsi_sreg_get hst r) n)) rs0 m0 =
+ Some (Val.of_optbool (Val.cmp_bool c v (Vint n))).
+Proof.
+ intros.
+ unfold expanse_condimm_int32s, cond_int32s in *; destruct c;
+ intros; destruct (Int.eq n Int.zero) eqn:EQIMM; simpl;
+ try apply Int.same_if_eq in EQIMM; subst;
+ unfold loadimm32, sltimm32, xorimm32, opimm32, load_hilo32;
+ try erewrite !fsi_sreg_get_correct; eauto;
+ try rewrite OKv1;
+ unfold Val.cmp, zero32.
+ all:
+ try apply xor_neg_ltle_cmp;
+ try apply xor_neg_ltge_cmp; trivial.
+ 4:
+ try destruct (Int.eq n (Int.repr Int.max_signed)) eqn:EQMAX; subst;
+ try apply Int.same_if_eq in EQMAX; subst; simpl.
+ 4:
+ intros; try (specialize make_immed32_sound with (Int.one);
+ destruct (make_immed32 Int.one) eqn:EQMKI_A1); intros; simpl.
+ 6:
+ intros; try (specialize make_immed32_sound with (Int.add n Int.one);
+ destruct (make_immed32 (Int.add n Int.one)) eqn:EQMKI_A2); intros; simpl.
+ 1,2,3,8,9:
+ intros; try (specialize make_immed32_sound with (n);
+ destruct (make_immed32 n) eqn:EQMKI); intros; simpl.
+ all:
+ try destruct (Int.eq lo Int.zero) eqn:EQLO32;
+ try apply Int.same_if_eq in EQLO32; subst;
+ try erewrite fSop_correct; eauto; simpl;
+ try erewrite !fsi_sreg_get_correct; eauto;
+ try rewrite OKv1;
+ try rewrite OK2;
+ try rewrite (Int.add_commut _ Int.zero), Int.add_zero_l in H; subst;
+ unfold Val.cmp, eval_may_undef, zero32, Val.add; simpl;
+ destruct v; auto.
+ all:
+ try rewrite ltu_12_wordsize;
+ try rewrite <- H;
+ try (apply cmp_ltle_add_one; auto);
+ try rewrite Int.add_commut, Int.add_zero_l in *;
+ try rewrite Int.add_commut;
+ try rewrite <- H; try rewrite cmp_ltle_add_one;
+ try rewrite Int.add_zero_l;
+ try (
+ simpl; trivial;
+ try rewrite Int.xor_is_zero;
+ try destruct (Int.lt _ _) eqn:EQLT; trivial;
+ try rewrite lt_maxsgn_false_int in EQLT;
+ simpl; trivial; try discriminate; fail).
+Qed.
+
+Lemma simplify_ccompuimm_correct ge sp hst st c r n rs0 m m0 v: forall
+ (SMEM : forall (m : mem) (b : Values.block) (ofs : Z),
+ seval_smem ge sp (si_smem st) rs0 m0 = Some m ->
+ Mem.valid_pointer m b ofs = Mem.valid_pointer m0 b ofs)
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (OKv1 : seval_sval ge sp (si_sreg st r) rs0 m0 = Some v)
+ (OK2 : seval_smem ge sp (si_smem st) rs0 m0 = Some m),
+ seval_sval ge sp
+ (hsval_proj (expanse_condimm_int32u c (fsi_sreg_get hst r) n)) rs0 m0 =
+ Some (Val.of_optbool (Val.cmpu_bool (Mem.valid_pointer m) c v (Vint n))).
+Proof.
+ intros.
+ assert (HMEM: Val.cmpu_bool (Mem.valid_pointer m) c v (Vint n) =
+ Val.cmpu_bool (Mem.valid_pointer m0) c v (Vint n)).
+ erewrite (cmpu_bool_valid_pointer_eq (Mem.valid_pointer m) (Mem.valid_pointer m0)); eauto.
+ unfold expanse_condimm_int32u, cond_int32u in *; destruct c;
+ intros; destruct (Int.eq n Int.zero) eqn:EQIMM; simpl;
+ try apply Int.same_if_eq in EQIMM; subst;
+ unfold loadimm32, sltuimm32, opimm32, load_hilo32;
+ try erewrite !fsi_sreg_get_correct; eauto;
+ try rewrite OKv1; trivial;
+ try rewrite xor_neg_ltle_cmpu;
+ unfold Val.cmpu, zero32.
+ all:
+ try (specialize make_immed32_sound with n;
+ destruct (make_immed32 n) eqn:EQMKI);
+ try destruct (Int.eq lo Int.zero) eqn:EQLO;
+ try apply Int.same_if_eq in EQLO; subst;
+ intros; subst;
+ try erewrite fSop_correct; eauto; simpl;
+ try erewrite !fsi_sreg_get_correct; eauto;
+ try rewrite OKv1;
+ try rewrite OK2;
+ rewrite HMEM;
+ unfold eval_may_undef, Val.cmpu;
+ destruct v; simpl; auto;
+ try rewrite EQIMM; try destruct (Archi.ptr64) eqn:EQARCH; simpl;
+ try rewrite ltu_12_wordsize; trivial;
+ try rewrite Int.add_commut, Int.add_zero_l in *;
+ try rewrite Int.add_zero_l;
+ try destruct (Int.ltu _ _) eqn:EQLTU; simpl;
+ try rewrite EQLTU; simpl; try rewrite EQIMM;
+ try rewrite EQARCH; trivial.
+Qed.
+
+Lemma simplify_ccompl_correct ge sp hst st c r r0 rs0 m0 v v0: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (OKv1 : seval_sval ge sp (si_sreg st r) rs0 m0 = Some v)
+ (OKv2 : seval_sval ge sp (si_sreg st r0) rs0 m0 = Some v0),
+ seval_sval ge sp
+ (hsval_proj
+ (cond_int64s c
+ (make_lhsv_cmp (is_inv_cmp_int c) (fsi_sreg_get hst r)
+ (fsi_sreg_get hst r0)) None)) rs0 m0 =
+ Some (Val.of_optbool (Val.cmpl_bool c v v0)).
+Proof.
+ intros.
+ unfold cond_int64s in *; destruct c; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ rewrite OKv1, OKv2; trivial;
+ unfold Val.cmpl.
+ 1,2,3: rewrite optbool_mktotal; trivial.
+ - apply xor_neg_ltle_cmpl.
+ - replace (Clt) with (swap_comparison Cgt) by auto;
+ rewrite Val.swap_cmpl_bool; trivial.
+ rewrite optbool_mktotal; trivial.
+ - apply xor_neg_ltge_cmpl.
+Qed.
+
+Lemma simplify_ccomplu_correct ge sp hst st c r r0 rs0 m m0 v v0: forall
+ (SMEM : forall (m : mem) (b : Values.block) (ofs : Z),
+ seval_smem ge sp (si_smem st) rs0 m0 = Some m ->
+ Mem.valid_pointer m b ofs = Mem.valid_pointer m0 b ofs)
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (OKv1 : seval_sval ge sp (si_sreg st r) rs0 m0 = Some v)
+ (OKv2 : seval_sval ge sp (si_sreg st r0) rs0 m0 = Some v0)
+ (OK2 : seval_smem ge sp (si_smem st) rs0 m0 = Some m),
+ seval_sval ge sp
+ (hsval_proj
+ (cond_int64u c
+ (make_lhsv_cmp (is_inv_cmp_int c) (fsi_sreg_get hst r)
+ (fsi_sreg_get hst r0)) None)) rs0 m0 =
+ Some (Val.of_optbool (Val.cmplu_bool (Mem.valid_pointer m) c v v0)).
+Proof.
+ intros.
+ erewrite (cmplu_bool_valid_pointer_eq (Mem.valid_pointer m) (Mem.valid_pointer m0)).
+ 2: eauto.
+ unfold cond_int64u in *; destruct c; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ rewrite OKv1, OKv2; trivial;
+ unfold Val.cmplu.
+ 1,2,3: rewrite optbool_mktotal; trivial.
+ - apply xor_neg_ltle_cmplu.
+ - replace (Clt) with (swap_comparison Cgt) by auto;
+ rewrite Val.swap_cmplu_bool; trivial.
+ rewrite optbool_mktotal; trivial.
+ - apply xor_neg_ltge_cmplu.
+Qed.
+
+Lemma simplify_ccomplimm_correct ge sp hst st c r n rs0 m m0 v: forall
+ (SMEM : forall (m : mem) (b : Values.block) (ofs : Z),
+ seval_smem ge sp (si_smem st) rs0 m0 = Some m ->
+ Mem.valid_pointer m b ofs = Mem.valid_pointer m0 b ofs)
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (OKv1 : seval_sval ge sp (si_sreg st r) rs0 m0 = Some v)
+ (OK2 : seval_smem ge sp (si_smem st) rs0 m0 = Some m),
+ seval_sval ge sp
+ (hsval_proj (expanse_condimm_int64s c (fsi_sreg_get hst r) n)) rs0 m0 =
+ Some (Val.of_optbool (Val.cmpl_bool c v (Vlong n))).
+Proof.
+ intros.
+ unfold expanse_condimm_int64s, cond_int64s in *; destruct c;
+ intros; destruct (Int64.eq n Int64.zero) eqn:EQIMM; simpl;
+ try apply Int64.same_if_eq in EQIMM; subst;
+ unfold loadimm32, loadimm64, sltimm64, xorimm64, opimm64, load_hilo32, load_hilo64;
+ try erewrite !fsi_sreg_get_correct; eauto;
+ try rewrite OKv1;
+ unfold Val.cmpl, zero64.
+ all:
+ try apply xor_neg_ltle_cmpl;
+ try apply xor_neg_ltge_cmpl;
+ try rewrite optbool_mktotal; trivial.
+ 4:
+ try destruct (Int64.eq n (Int64.repr Int64.max_signed)) eqn:EQMAX; subst;
+ try apply Int64.same_if_eq in EQMAX; subst; simpl.
+ 4:
+ intros; try (specialize make_immed32_sound with (Int.one);
+ destruct (make_immed32 Int.one) eqn:EQMKI_A1); intros; simpl.
+ 6:
+ intros; try (specialize make_immed64_sound with (Int64.add n Int64.one);
+ destruct (make_immed64 (Int64.add n Int64.one)) eqn:EQMKI_A2); intros; simpl.
+ 1,2,3,9,10:
+ intros; try (specialize make_immed64_sound with (n);
+ destruct (make_immed64 n) eqn:EQMKI); intros; simpl.
+ all:
+ try destruct (Int.eq lo Int.zero) eqn:EQLO32;
+ try apply Int.same_if_eq in EQLO32; subst;
+ try destruct (Int64.eq lo Int64.zero) eqn:EQLO64;
+ try apply Int64.same_if_eq in EQLO64; subst;
+ try erewrite fSop_correct; eauto; simpl;
+ try erewrite !fsi_sreg_get_correct; eauto;
+ try rewrite OKv1;
+ try rewrite OK2;
+ try rewrite (Int64.add_commut _ Int64.zero), Int64.add_zero_l in H; subst;
+ try fold (Val.cmpl Clt v (Vlong imm));
+ try rewrite xor_neg_ltge_cmpl; trivial;
+ try rewrite xor_neg_ltle_cmpl; trivial;
+ unfold Val.cmpl, Val.addl;
+ try rewrite xorl_zero_eq_cmpl; trivial;
+ try rewrite optbool_mktotal; trivial;
+ unfold eval_may_undef, zero32, Val.add; simpl;
+ destruct v; auto.
+ 1,2,3,4,5,6,7,8,9,10,11,12:
+ try rewrite <- optbool_mktotal; trivial;
+ try rewrite Int64.add_commut, Int64.add_zero_l in *;
+ try fold (Val.cmpl Clt (Vlong i) (Vlong imm));
+ try fold (Val.cmpl Clt (Vlong i) (Vlong (Int64.sign_ext 32 (Int64.shl hi (Int64.repr 12)))));
+ try fold (Val.cmpl Clt (Vlong i) (Vlong (Int64.add (Int64.sign_ext 32 (Int64.shl hi (Int64.repr 12))) lo)));
+ try rewrite xor_neg_ltge_cmpl; trivial;
+ try rewrite xor_neg_ltle_cmpl; trivial.
+ 6:
+ rewrite <- H;
+ try apply cmpl_ltle_add_one; auto.
+ all:
+ try rewrite <- H;
+ try apply cmpl_ltle_add_one; auto;
+ try rewrite <- cmpl_ltle_add_one; auto;
+ try rewrite ltu_12_wordsize;
+ try rewrite Int.add_commut, Int.add_zero_l in *;
+ try rewrite Int64.add_commut, Int64.add_zero_l in *;
+ try rewrite Int64.add_zero_l;
+ simpl; try rewrite lt_maxsgn_false_long;
+ try (rewrite <- H; trivial; fail);
+ simpl; trivial.
+Qed.
+
+Lemma simplify_ccompluimm_correct ge sp hst st c r n rs0 m m0 v: forall
+ (SMEM : forall (m : mem) (b : Values.block) (ofs : Z),
+ seval_smem ge sp (si_smem st) rs0 m0 = Some m ->
+ Mem.valid_pointer m b ofs = Mem.valid_pointer m0 b ofs)
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (OKv1 : seval_sval ge sp (si_sreg st r) rs0 m0 = Some v)
+ (OK2 : seval_smem ge sp (si_smem st) rs0 m0 = Some m),
+ seval_sval ge sp
+ (hsval_proj (expanse_condimm_int64u c (fsi_sreg_get hst r) n)) rs0 m0 =
+ Some (Val.of_optbool (Val.cmplu_bool (Mem.valid_pointer m) c v (Vlong n))).
+Proof.
+ intros.
+ assert (HMEM: Val.cmplu_bool (Mem.valid_pointer m) c v (Vlong n) =
+ Val.cmplu_bool (Mem.valid_pointer m0) c v (Vlong n)).
+ erewrite (cmplu_bool_valid_pointer_eq (Mem.valid_pointer m) (Mem.valid_pointer m0)); eauto.
+ unfold expanse_condimm_int64u, cond_int64u in *; destruct c;
+ intros; destruct (Int64.eq n Int64.zero) eqn:EQIMM; simpl;
+ unfold loadimm64, sltuimm64, opimm64, load_hilo64;
+ try erewrite !fsi_sreg_get_correct; eauto;
+ try rewrite OKv1;
+ unfold Val.cmplu, zero64.
+ (* Simplify make immediate and decompose subcases *)
+ all:
+ try (specialize make_immed64_sound with n;
+ destruct (make_immed64 n) eqn:EQMKI);
+ try destruct (Int64.eq lo Int64.zero) eqn:EQLO;
+ try erewrite fSop_correct; eauto; simpl;
+ try erewrite !fsi_sreg_get_correct; eauto;
+ try rewrite OKv1;
+ try rewrite OK2;
+ rewrite HMEM.
+ (* Ceq, Cne, Clt = itself *)
+ all: intros; try apply Int64.same_if_eq in EQIMM; subst; trivial.
+ (* Cle = xor (Clt) *)
+ all: try apply xor_neg_ltle_cmplu; trivial.
+ (* Others subcases with swap/negation *)
+ all:
+ unfold Val.cmplu, eval_may_undef, zero64, Val.addl;
+ try apply Int64.same_if_eq in EQLO; subst;
+ try rewrite Int64.add_commut, Int64.add_zero_l in *; trivial;
+ try rewrite Int64.add_zero_l;
+ try (rewrite <- xor_neg_ltle_cmplu; unfold Val.cmplu;
+ trivial; fail);
+ try (replace (Clt) with (swap_comparison Cgt) by auto;
+ rewrite Val.swap_cmplu_bool; trivial; fail);
+ try (replace (Clt) with (negate_comparison Cge) by auto;
+ rewrite Val.negate_cmplu_bool; rewrite xor_neg_optb; trivial; fail);
+ try rewrite optbool_mktotal; trivial.
+ all:
+ try destruct v; simpl; auto;
+ try destruct (Archi.ptr64); simpl;
+ try rewrite EQIMM;
+ try rewrite HMEM; trivial;
+ try destruct (Int64.ltu _ _);
+ try rewrite <- xor_neg_ltge_cmplu; unfold Val.cmplu;
+ try rewrite <- optbool_mktotal; trivial.
+Qed.
+
+Lemma simplify_ccompf_correct ge sp hst st c r r0 rs0 m0 v v0: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (OKv1 : seval_sval ge sp (si_sreg st r) rs0 m0 = Some v)
+ (OKv2 : seval_sval ge sp (si_sreg st r0) rs0 m0 = Some v0),
+ seval_sval ge sp
+ (hsval_proj
+ (expanse_cond_fp false cond_float c
+ (make_lhsv_cmp (is_inv_cmp_float c) (fsi_sreg_get hst r)
+ (fsi_sreg_get hst r0)))) rs0 m0 =
+ Some (Val.of_optbool (Val.cmpf_bool c v v0)).
+Proof.
+ intros.
+ unfold expanse_cond_fp in *; destruct c; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ rewrite OKv1, OKv2; trivial;
+ unfold Val.cmpf.
+ - apply xor_neg_eqne_cmpf.
+ - replace (Clt) with (swap_comparison Cgt) by auto;
+ rewrite swap_cmpf_bool; trivial.
+ - replace (Cle) with (swap_comparison Cge) by auto;
+ rewrite swap_cmpf_bool; trivial.
+Qed.
+
+Lemma simplify_cnotcompf_correct ge sp hst st c r r0 rs0 m0 v v0: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (OKv1 : seval_sval ge sp (si_sreg st r) rs0 m0 = Some v)
+ (OKv2 : seval_sval ge sp (si_sreg st r0) rs0 m0 = Some v0),
+ seval_sval ge sp
+ (hsval_proj
+ (expanse_cond_fp true cond_float c
+ (make_lhsv_cmp (is_inv_cmp_float c) (fsi_sreg_get hst r)
+ (fsi_sreg_get hst r0)))) rs0 m0 =
+ Some (Val.of_optbool (option_map negb (Val.cmpf_bool c v v0))).
+Proof.
+ intros.
+ unfold expanse_cond_fp in *; destruct c; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ rewrite OKv1, OKv2; trivial;
+ unfold Val.cmpf.
+ 1,3,4: apply xor_neg_optb'.
+ all: destruct v, v0; simpl; trivial.
+ rewrite Float.cmp_ne_eq; rewrite negb_involutive; trivial.
+ 1: replace (Clt) with (swap_comparison Cgt) by auto; rewrite <- Float.cmp_swap; simpl.
+ 2: replace (Cle) with (swap_comparison Cge) by auto; rewrite <- Float.cmp_swap; simpl.
+ all: destruct (Float.cmp _ _ _); trivial.
+Qed.
+
+Lemma simplify_ccompfs_correct ge sp hst st c r r0 rs0 m0 v v0: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (OKv1 : seval_sval ge sp (si_sreg st r) rs0 m0 = Some v)
+ (OKv2 : seval_sval ge sp (si_sreg st r0) rs0 m0 = Some v0),
+ seval_sval ge sp
+ (hsval_proj
+ (expanse_cond_fp false cond_single c
+ (make_lhsv_cmp (is_inv_cmp_float c) (fsi_sreg_get hst r)
+ (fsi_sreg_get hst r0)))) rs0 m0 =
+ Some (Val.of_optbool (Val.cmpfs_bool c v v0)).
+Proof.
+ intros.
+ unfold expanse_cond_fp in *; destruct c; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ rewrite OKv1, OKv2; trivial;
+ unfold Val.cmpfs.
+ - apply xor_neg_eqne_cmpfs.
+ - replace (Clt) with (swap_comparison Cgt) by auto;
+ rewrite swap_cmpfs_bool; trivial.
+ - replace (Cle) with (swap_comparison Cge) by auto;
+ rewrite swap_cmpfs_bool; trivial.
+Qed.
+
+Lemma simplify_cnotcompfs_correct ge sp hst st c r r0 rs0 m0 v v0: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (OKv1 : seval_sval ge sp (si_sreg st r) rs0 m0 = Some v)
+ (OKv2 : seval_sval ge sp (si_sreg st r0) rs0 m0 = Some v0),
+ seval_sval ge sp
+ (hsval_proj
+ (expanse_cond_fp true cond_single c
+ (make_lhsv_cmp (is_inv_cmp_float c) (fsi_sreg_get hst r)
+ (fsi_sreg_get hst r0)))) rs0 m0 =
+ Some (Val.of_optbool (option_map negb (Val.cmpfs_bool c v v0))).
+Proof.
+ intros.
+ unfold expanse_cond_fp in *; destruct c; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ rewrite OKv1, OKv2; trivial;
+ unfold Val.cmpfs.
+ 1,3,4: apply xor_neg_optb'.
+ all: destruct v, v0; simpl; trivial.
+ rewrite Float32.cmp_ne_eq; rewrite negb_involutive; trivial.
+ 1: replace (Clt) with (swap_comparison Cgt) by auto; rewrite <- Float32.cmp_swap; simpl.
+ 2: replace (Cle) with (swap_comparison Cge) by auto; rewrite <- Float32.cmp_swap; simpl.
+ all: destruct (Float32.cmp _ _ _); trivial.
+Qed.
+
+Lemma simplify_floatconst_correct ge sp rs0 m0 args m n fsv lr st: forall
+ (H : match lr with
+ | nil =>
+ Some
+ (fSop Ofloat_of_bits
+ (make_lhsv_single (loadimm64 (Float.to_bits n))))
+ | _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp (Ofloatconst n) args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence);
+ simpl in OK1; inv OK1; inv H; simpl;
+ unfold loadimm64, load_hilo64; simpl;
+ specialize make_immed64_sound with (Float.to_bits n);
+ destruct (make_immed64 (Float.to_bits n)) eqn:EQMKI; intros;
+ try destruct (Int64.eq lo Int64.zero) eqn:EQLO;
+ simpl.
+ - try rewrite Int64.add_commut, Int64.add_zero_l; inv H;
+ try rewrite Float.of_to_bits; trivial.
+ - apply Int64.same_if_eq in EQLO; subst.
+ try rewrite Int64.add_commut, Int64.add_zero_l in H.
+ rewrite <- H; try rewrite Float.of_to_bits; trivial.
+ - rewrite <- H; try rewrite Float.of_to_bits; trivial.
+ - rewrite <- H; try rewrite Float.of_to_bits; trivial.
+Qed.
+
+Lemma simplify_singleconst_correct ge sp rs0 m0 args m n fsv lr st: forall
+ (H : match lr with
+ | nil =>
+ Some
+ (fSop Osingle_of_bits
+ (make_lhsv_single (loadimm32 (Float32.to_bits n))))
+ | _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp (Osingleconst n) args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence);
+ simpl in OK1; inv OK1; inv H; simpl;
+ unfold loadimm32, load_hilo32; simpl;
+ specialize make_immed32_sound with (Float32.to_bits n);
+ destruct (make_immed32 (Float32.to_bits n)) eqn:EQMKI; intros;
+ try destruct (Int.eq lo Int.zero) eqn:EQLO;
+ simpl.
+ { try rewrite Int.add_commut, Int.add_zero_l; inv H;
+ try rewrite Float32.of_to_bits; trivial. }
+ all:
+ try apply Int.same_if_eq in EQLO; subst;
+ try rewrite Int.add_commut, Int.add_zero_l in H; simpl;
+ rewrite ltu_12_wordsize; simpl; try rewrite <- H;
+ try rewrite Float32.of_to_bits; trivial.
+Qed.
+
+Lemma simplify_addimm_correct ge sp rs0 m0 lr n hst fsv st args m: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (H : match lr with
+ | nil => None
+ | a1 :: nil => Some (addimm32 (fsi_sreg_get hst a1) n None)
+ | a1 :: _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp (Oaddimm n) args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence);
+ simpl in OK1; inv OK1; inv H; simpl;
+ unfold addimm32, opimm32, load_hilo32, make_lhsv_cmp; simpl;
+ specialize make_immed32_sound with (n);
+ destruct (make_immed32 (n)) eqn:EQMKI; intros; simpl;
+ try destruct (Int.eq lo Int.zero) eqn:EQLO; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ destruct (seval_sval ge sp (si_sreg st p) rs0 m0) eqn:OKv1; try congruence; inv H1.
+ fold (Val.add (Vint imm) v); rewrite Val.add_commut; trivial.
+ all:
+ try apply Int.same_if_eq in EQLO; subst;
+ try rewrite Int.add_commut, Int.add_zero_l;
+ try rewrite ltu_12_wordsize; trivial.
+Qed.
+
+Lemma simplify_addlimm_correct ge sp rs0 m0 lr n hst fsv st args m: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (H : match lr with
+ | nil => None
+ | a1 :: nil => Some (addimm64 (fsi_sreg_get hst a1) n None)
+ | a1 :: _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp (Oaddlimm n) args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence);
+ simpl in OK1; inv OK1; inv H; simpl;
+ unfold addimm64, opimm64, load_hilo64, make_lhsv_cmp; simpl;
+ specialize make_immed64_sound with (n);
+ destruct (make_immed64 (n)) eqn:EQMKI; intros; simpl;
+ try destruct (Int64.eq lo Int64.zero) eqn:EQLO; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ destruct (seval_sval ge sp (si_sreg st p) rs0 m0) eqn:OKv1; try congruence; inv H1.
+ fold (Val.addl (Vlong imm) v); rewrite Val.addl_commut; trivial.
+ all:
+ try apply Int64.same_if_eq in EQLO; subst;
+ try rewrite Int64.add_commut, Int64.add_zero_l;
+ try rewrite Int64.add_commut;
+ try rewrite ltu_12_wordsize; trivial.
+Qed.
+
+Lemma simplify_andimm_correct ge sp rs0 m0 lr n hst fsv st args m: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (H : match lr with
+ | nil => None
+ | a1 :: nil => Some (andimm32 (fsi_sreg_get hst a1) n)
+ | a1 :: _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp (Oandimm n) args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence);
+ simpl in OK1; inv OK1; inv H; simpl;
+ unfold andimm32, opimm32, load_hilo32, make_lhsv_cmp; simpl;
+ specialize make_immed32_sound with (n);
+ destruct (make_immed32 (n)) eqn:EQMKI; intros; simpl;
+ try destruct (Int.eq lo Int.zero) eqn:EQLO; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ destruct (seval_sval ge sp (si_sreg st p) rs0 m0) eqn:OKv1; try congruence; inv H1.
+ fold (Val.and (Vint imm) v); rewrite Val.and_commut; trivial.
+ all:
+ try apply Int.same_if_eq in EQLO; subst;
+ try rewrite Int.add_commut, Int.add_zero_l;
+ try rewrite ltu_12_wordsize; trivial.
+Qed.
+
+Lemma simplify_andlimm_correct ge sp rs0 m0 lr n hst fsv st args m: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (H : match lr with
+ | nil => None
+ | a1 :: nil => Some (andimm64 (fsi_sreg_get hst a1) n)
+ | a1 :: _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp (Oandlimm n) args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence);
+ simpl in OK1; inv OK1; inv H; simpl;
+ unfold andimm64, opimm64, load_hilo64, make_lhsv_cmp; simpl;
+ specialize make_immed64_sound with (n);
+ destruct (make_immed64 (n)) eqn:EQMKI; intros; simpl;
+ try destruct (Int64.eq lo Int64.zero) eqn:EQLO; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ destruct (seval_sval ge sp (si_sreg st p) rs0 m0) eqn:OKv1; try congruence; inv H1.
+ fold (Val.andl (Vlong imm) v); rewrite Val.andl_commut; trivial.
+ all:
+ try apply Int64.same_if_eq in EQLO; subst;
+ try rewrite Int64.add_commut, Int64.add_zero_l;
+ try rewrite Int64.add_commut;
+ try rewrite ltu_12_wordsize; trivial.
+Qed.
+
+Lemma simplify_orimm_correct ge sp rs0 m0 lr n hst fsv st args m: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (H : match lr with
+ | nil => None
+ | a1 :: nil => Some (orimm32 (fsi_sreg_get hst a1) n)
+ | a1 :: _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp (Oorimm n) args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence);
+ simpl in OK1; inv OK1; inv H; simpl;
+ unfold orimm32, opimm32, load_hilo32, make_lhsv_cmp; simpl;
+ specialize make_immed32_sound with (n);
+ destruct (make_immed32 (n)) eqn:EQMKI; intros; simpl;
+ try destruct (Int.eq lo Int.zero) eqn:EQLO; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ destruct (seval_sval ge sp (si_sreg st p) rs0 m0) eqn:OKv1; try congruence; inv H1.
+ fold (Val.or (Vint imm) v); rewrite Val.or_commut; trivial.
+ all:
+ try apply Int.same_if_eq in EQLO; subst;
+ try rewrite Int.add_commut, Int.add_zero_l;
+ try rewrite ltu_12_wordsize; trivial.
+Qed.
+
+Lemma simplify_orlimm_correct ge sp rs0 m0 lr n hst fsv st args m: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (H : match lr with
+ | nil => None
+ | a1 :: nil => Some (orimm64 (fsi_sreg_get hst a1) n)
+ | a1 :: _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp (Oorlimm n) args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence);
+ simpl in OK1; inv OK1; inv H; simpl;
+ unfold orimm64, opimm64, load_hilo64, make_lhsv_cmp; simpl;
+ specialize make_immed64_sound with (n);
+ destruct (make_immed64 (n)) eqn:EQMKI; intros; simpl;
+ try destruct (Int64.eq lo Int64.zero) eqn:EQLO; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ destruct (seval_sval ge sp (si_sreg st p) rs0 m0) eqn:OKv1; try congruence; inv H1.
+ fold (Val.orl (Vlong imm) v); rewrite Val.orl_commut; trivial.
+ all:
+ try apply Int64.same_if_eq in EQLO; subst;
+ try rewrite Int64.add_commut, Int64.add_zero_l;
+ try rewrite Int64.add_commut;
+ try rewrite ltu_12_wordsize; trivial.
+Qed.
+
+Lemma simplify_xorimm_correct ge sp rs0 m0 lr n hst fsv st args m: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (H : match lr with
+ | nil => None
+ | a1 :: nil => Some (xorimm32 (fsi_sreg_get hst a1) n)
+ | a1 :: _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp (Oxorimm n) args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence);
+ simpl in OK1; inv OK1; inv H; simpl;
+ unfold xorimm32, opimm32, load_hilo32, make_lhsv_cmp; simpl;
+ specialize make_immed32_sound with (n);
+ destruct (make_immed32 (n)) eqn:EQMKI; intros; simpl;
+ try destruct (Int.eq lo Int.zero) eqn:EQLO; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ destruct (seval_sval ge sp (si_sreg st p) rs0 m0) eqn:OKv1; try congruence; inv H1.
+ fold (Val.xor (Vint imm) v); rewrite Val.xor_commut; trivial.
+ all:
+ try apply Int.same_if_eq in EQLO; subst;
+ try rewrite Int.add_commut, Int.add_zero_l;
+ try rewrite ltu_12_wordsize; trivial.
+Qed.
+
+Lemma simplify_xorlimm_correct ge sp rs0 m0 lr n hst fsv st args m: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (H : match lr with
+ | nil => None
+ | a1 :: nil => Some (xorimm64 (fsi_sreg_get hst a1) n)
+ | a1 :: _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp (Oxorlimm n) args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence);
+ simpl in OK1; inv OK1; inv H; simpl;
+ unfold xorimm64, opimm64, load_hilo64, make_lhsv_cmp; simpl;
+ specialize make_immed64_sound with (n);
+ destruct (make_immed64 (n)) eqn:EQMKI; intros; simpl;
+ try destruct (Int64.eq lo Int64.zero) eqn:EQLO; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ destruct (seval_sval ge sp (si_sreg st p) rs0 m0) eqn:OKv1; try congruence; inv H1.
+ fold (Val.xorl (Vlong imm) v); rewrite Val.xorl_commut; trivial.
+ all:
+ try apply Int64.same_if_eq in EQLO; subst;
+ try rewrite Int64.add_commut, Int64.add_zero_l;
+ try rewrite Int64.add_commut;
+ try rewrite ltu_12_wordsize; trivial.
+Qed.
+
+Lemma simplify_intconst_correct ge sp rs0 m0 args m n fsv lr st: forall
+ (H : match lr with
+ | nil => Some (loadimm32 n)
+ | _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp (Ointconst n) args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence);
+ simpl in OK1; inv OK1; inv H; simpl;
+ unfold loadimm32, load_hilo32, make_lhsv_single; simpl;
+ specialize make_immed32_sound with (n);
+ destruct (make_immed32 (n)) eqn:EQMKI; intros; simpl;
+ try destruct (Int.eq lo Int.zero) eqn:EQLO; simpl;
+ try apply Int.same_if_eq in EQLO; subst;
+ try rewrite Int.add_commut, Int.add_zero_l;
+ try rewrite ltu_12_wordsize; try rewrite H; trivial.
+Qed.
+
+Lemma simplify_longconst_correct ge sp rs0 m0 args m n fsv lr st: forall
+ (H : match lr with
+ | nil => Some (loadimm64 n)
+ | _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp (Olongconst n) args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence);
+ simpl in OK1; inv OK1; inv H; simpl;
+ unfold loadimm64, load_hilo64, make_lhsv_single; simpl;
+ specialize make_immed64_sound with (n);
+ destruct (make_immed64 (n)) eqn:EQMKI; intros; simpl;
+ try destruct (Int64.eq lo Int64.zero) eqn:EQLO; simpl;
+ try apply Int64.same_if_eq in EQLO; subst;
+ try rewrite Int64.add_commut, Int64.add_zero_l;
+ try rewrite Int64.add_commut;
+ try rewrite ltu_12_wordsize; try rewrite H; trivial.
+Qed.
+
+Lemma simplify_cast8signed_correct ge sp rs0 m0 lr hst fsv st args m: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (H : match lr with
+ | nil => None
+ | a1 :: nil =>
+ Some
+ (fSop (Oshrimm (Int.repr 24))
+ (make_lhsv_single
+ (fSop (Oshlimm (Int.repr 24))
+ (make_lhsv_single (fsi_sreg_get hst a1)))))
+ | a1 :: _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp Ocast8signed args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence);
+ simpl in OK1; inv OK1; inv H; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ destruct (seval_sval ge sp (si_sreg st p) rs0 m0) eqn:OKv1; try congruence; inv H1.
+ unfold Val.shr, Val.shl, Val.sign_ext;
+ destruct v; simpl; auto.
+ assert (A: Int.ltu (Int.repr 24) Int.iwordsize = true) by auto.
+ rewrite A. rewrite Int.sign_ext_shr_shl; simpl; trivial. cbn; lia.
+Qed.
+
+Lemma simplify_cast16signed_correct ge sp rs0 m0 lr hst fsv st args m: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (H : match lr with
+ | nil => None
+ | a1 :: nil =>
+ Some
+ (fSop (Oshrimm (Int.repr 16))
+ (make_lhsv_single
+ (fSop (Oshlimm (Int.repr 16))
+ (make_lhsv_single (fsi_sreg_get hst a1)))))
+ | a1 :: _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp Ocast16signed args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence);
+ simpl in OK1; inv OK1; inv H; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ destruct (seval_sval ge sp (si_sreg st p) rs0 m0) eqn:OKv1; try congruence; inv H1.
+ unfold Val.shr, Val.shl, Val.sign_ext;
+ destruct v; simpl; auto.
+ assert (A: Int.ltu (Int.repr 16) Int.iwordsize = true) by auto.
+ rewrite A. rewrite Int.sign_ext_shr_shl; simpl; trivial. cbn; lia.
+Qed.
+
+Lemma simplify_shrximm_correct ge sp rs0 m0 lr hst fsv st args m n: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (H : match lr with
+ | nil => None
+ | a1 :: nil =>
+ if Int.eq n Int.zero
+ then
+ Some
+ (fSop (OEmayundef (MUshrx n))
+ (make_lhsv_cmp false (fsi_sreg_get hst a1)
+ (fsi_sreg_get hst a1)))
+ else
+ if Int.eq n Int.one
+ then
+ Some
+ (fSop (OEmayundef (MUshrx n))
+ (make_lhsv_cmp false
+ (fSop (Oshrimm Int.one)
+ (make_lhsv_single
+ (fSop Oadd
+ (make_lhsv_cmp false (fsi_sreg_get hst a1)
+ (fSop (Oshruimm (Int.repr 31))
+ (make_lhsv_single (fsi_sreg_get hst a1)))))))
+ (fSop (Oshrimm Int.one)
+ (make_lhsv_single
+ (fSop Oadd
+ (make_lhsv_cmp false (fsi_sreg_get hst a1)
+ (fSop (Oshruimm (Int.repr 31))
+ (make_lhsv_single (fsi_sreg_get hst a1)))))))))
+ else
+ Some
+ (fSop (OEmayundef (MUshrx n))
+ (make_lhsv_cmp false
+ (fSop (Oshrimm n)
+ (make_lhsv_single
+ (fSop Oadd
+ (make_lhsv_cmp false (fsi_sreg_get hst a1)
+ (fSop (Oshruimm (Int.sub Int.iwordsize n))
+ (make_lhsv_single
+ (fSop (Oshrimm (Int.repr 31))
+ (make_lhsv_single
+ (fsi_sreg_get hst a1)))))))))
+ (fSop (Oshrimm n)
+ (make_lhsv_single
+ (fSop Oadd
+ (make_lhsv_cmp false (fsi_sreg_get hst a1)
+ (fSop (Oshruimm (Int.sub Int.iwordsize n))
+ (make_lhsv_single
+ (fSop (Oshrimm (Int.repr 31))
+ (make_lhsv_single
+ (fsi_sreg_get hst a1)))))))))))
+ | a1 :: _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp (Oshrximm n) args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence).
+ assert (A: Int.ltu Int.zero (Int.repr 31) = true) by auto.
+ assert (B: Int.ltu (Int.repr 31) Int.iwordsize = true) by auto.
+ assert (C: Int.ltu Int.one Int.iwordsize = true) by auto.
+ destruct (Int.eq n Int.zero) eqn:EQ0;
+ destruct (Int.eq n Int.one) eqn:EQ1.
+ { apply Int.same_if_eq in EQ0.
+ apply Int.same_if_eq in EQ1; subst. discriminate. }
+ all:
+ simpl in OK1; inv OK1; inv H; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ destruct (seval_sval ge sp (si_sreg st p) rs0 m0) eqn:OKv1; try congruence; inv H1;
+ destruct (Val.shrx v (Vint n)) eqn:TOTAL; cbn;
+ unfold eval_may_undef.
+ 2,4,6:
+ unfold Val.shrx in TOTAL;
+ destruct v; simpl in TOTAL; simpl; try congruence;
+ try rewrite B; simpl; try rewrite C; simpl;
+ try destruct (Val.shr _ _);
+ destruct (Int.ltu n (Int.repr 31)); try congruence.
+ - destruct v; simpl in TOTAL; try congruence;
+ apply Int.same_if_eq in EQ0; subst;
+ rewrite A, Int.shrx_zero in TOTAL;
+ [auto | cbn; lia].
+ - apply Int.same_if_eq in EQ1; subst;
+ unfold Val.shr, Val.shru, Val.shrx, Val.add; simpl;
+ destruct v; simpl in *; try discriminate; trivial.
+ rewrite B, C.
+ rewrite Int.shrx1_shr in TOTAL; auto.
+ - exploit Val.shrx_shr_2; eauto. rewrite EQ0.
+ intros; subst.
+ destruct v; simpl in *; try discriminate; trivial.
+ rewrite B in *.
+ destruct Int.ltu eqn:EQN0 in TOTAL; try discriminate.
+ simpl in *.
+ destruct Int.ltu eqn:EQN1 in TOTAL; try discriminate.
+ replace Int.iwordsize with (Int.repr 32) in * by auto.
+ rewrite !EQN1. simpl in *.
+ destruct Int.ltu eqn:EQN2 in TOTAL; try discriminate.
+ rewrite !EQN2. rewrite EQN0.
+ reflexivity.
+Qed.
+
+Lemma simplify_shrxlimm_correct ge sp rs0 m0 lr hst fsv st args m n: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (H : match lr with
+ | nil => None
+ | a1 :: nil =>
+ if Int.eq n Int.zero
+ then
+ Some
+ (fSop (OEmayundef (MUshrxl n))
+ (make_lhsv_cmp false (fsi_sreg_get hst a1)
+ (fsi_sreg_get hst a1)))
+ else
+ if Int.eq n Int.one
+ then
+ Some
+ (fSop (OEmayundef (MUshrxl n))
+ (make_lhsv_cmp false
+ (fSop (Oshrlimm Int.one)
+ (make_lhsv_single
+ (fSop Oaddl
+ (make_lhsv_cmp false (fsi_sreg_get hst a1)
+ (fSop (Oshrluimm (Int.repr 63))
+ (make_lhsv_single (fsi_sreg_get hst a1)))))))
+ (fSop (Oshrlimm Int.one)
+ (make_lhsv_single
+ (fSop Oaddl
+ (make_lhsv_cmp false (fsi_sreg_get hst a1)
+ (fSop (Oshrluimm (Int.repr 63))
+ (make_lhsv_single (fsi_sreg_get hst a1)))))))))
+ else
+ Some
+ (fSop (OEmayundef (MUshrxl n))
+ (make_lhsv_cmp false
+ (fSop (Oshrlimm n)
+ (make_lhsv_single
+ (fSop Oaddl
+ (make_lhsv_cmp false (fsi_sreg_get hst a1)
+ (fSop (Oshrluimm (Int.sub Int64.iwordsize' n))
+ (make_lhsv_single
+ (fSop (Oshrlimm (Int.repr 63))
+ (make_lhsv_single
+ (fsi_sreg_get hst a1)))))))))
+ (fSop (Oshrlimm n)
+ (make_lhsv_single
+ (fSop Oaddl
+ (make_lhsv_cmp false (fsi_sreg_get hst a1)
+ (fSop (Oshrluimm (Int.sub Int64.iwordsize' n))
+ (make_lhsv_single
+ (fSop (Oshrlimm (Int.repr 63))
+ (make_lhsv_single
+ (fsi_sreg_get hst a1)))))))))))
+ | a1 :: _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp (Oshrxlimm n) args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence).
+ assert (A: Int.ltu Int.zero (Int.repr 63) = true) by auto.
+ assert (B: Int.ltu (Int.repr 63) Int64.iwordsize' = true) by auto.
+ assert (C: Int.ltu Int.one Int64.iwordsize' = true) by auto.
+ destruct (Int.eq n Int.zero) eqn:EQ0;
+ destruct (Int.eq n Int.one) eqn:EQ1.
+ { apply Int.same_if_eq in EQ0.
+ apply Int.same_if_eq in EQ1; subst. discriminate. }
+ all:
+ simpl in OK1; inv OK1; inv H; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ destruct (seval_sval ge sp (si_sreg st p) rs0 m0) eqn:OKv1; try congruence; inv H1;
+ destruct (Val.shrxl v (Vint n)) eqn:TOTAL; cbn;
+ unfold eval_may_undef.
+ 2,4,6:
+ unfold Val.shrxl in TOTAL;
+ destruct v; simpl in TOTAL; simpl; try congruence;
+ try rewrite B; simpl; try rewrite C; simpl;
+ try destruct (Val.shrl _ _);
+ destruct (Int.ltu n (Int.repr 63)); try congruence.
+ - destruct v; simpl in TOTAL; try congruence;
+ apply Int.same_if_eq in EQ0; subst;
+ rewrite A, Int64.shrx'_zero in *.
+ assumption.
+ - apply Int.same_if_eq in EQ1; subst;
+ unfold Val.shrl, Val.shrlu, Val.shrxl, Val.addl; simpl;
+ destruct v; simpl in *; try discriminate; trivial.
+ rewrite B, C.
+ rewrite Int64.shrx'1_shr' in TOTAL; auto.
+ - exploit Val.shrxl_shrl_2; eauto. rewrite EQ0.
+ intros; subst.
+ destruct v; simpl in *; try discriminate; trivial.
+ rewrite B in *.
+ destruct Int.ltu eqn:EQN0 in TOTAL; try discriminate.
+ simpl in *.
+ destruct Int.ltu eqn:EQN1 in TOTAL; try discriminate.
+ replace Int64.iwordsize' with (Int.repr 64) in * by auto.
+ rewrite !EQN1. simpl in *.
+ destruct Int.ltu eqn:EQN2 in TOTAL; try discriminate.
+ rewrite !EQN2. rewrite EQN0.
+ reflexivity.
+Qed.
+
+Lemma simplify_cast32unsigned_correct ge sp rs0 m0 lr hst fsv st args m: forall
+ (SREG: forall r: positive,
+ hsi_sreg_eval ge sp hst r rs0 m0 =
+ seval_sval ge sp (si_sreg st r) rs0 m0)
+ (H : match lr with
+ | nil => None
+ | a1 :: nil =>
+ Some
+ (fSop (Oshrluimm (Int.repr 32))
+ (make_lhsv_single
+ (fSop (Oshllimm (Int.repr 32))
+ (make_lhsv_single
+ (fSop Ocast32signed
+ (make_lhsv_single (fsi_sreg_get hst a1)))))))
+ | a1 :: _ :: _ => None
+ end = Some fsv)
+ (OK1 : seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 =
+ eval_operation ge sp Ocast32unsigned args m.
+Proof.
+ intros.
+ repeat (destruct lr; simpl; try congruence);
+ simpl in OK1; inv OK1; inv H; simpl;
+ erewrite !fsi_sreg_get_correct; eauto;
+ destruct (seval_sval ge sp (si_sreg st p) rs0 m0) eqn:OKv1; try congruence; inv H1.
+ unfold Val.shrlu, Val.shll, Val.longofint, Val.longofintu.
+ destruct v; simpl; auto.
+ assert (A: Int.ltu (Int.repr 32) Int64.iwordsize' = true) by auto.
+ rewrite A. rewrite Int64.shru'_shl'; auto.
+ replace (Int.ltu (Int.repr 32) (Int.repr 32)) with (false) by auto.
+ rewrite cast32unsigned_from_cast32signed.
+ replace Int64.zwordsize with 64 by auto.
+ rewrite Int.unsigned_repr; cbn; try lia.
+ replace (Int.sub (Int.repr 32) (Int.repr 32)) with (Int.zero) by auto.
+ rewrite Int64.shru'_zero. reflexivity.
+Qed.
+
+(** * Main proof of simplification *)
+
+Lemma target_op_simplify_correct op lr hst fsv ge sp rs0 m0 st args m: forall
+ (H: target_op_simplify op lr hst = Some fsv)
+ (REF: hsilocal_refines ge sp rs0 m0 hst st)
+ (OK0: hsok_local ge sp rs0 m0 hst)
+ (OK1: seval_list_sval ge sp (list_sval_inj (map (si_sreg st) lr)) rs0 m0 = Some args)
+ (OK2: seval_smem ge sp (si_smem st) rs0 m0 = Some m),
+ seval_sval ge sp (hsval_proj fsv) rs0 m0 = eval_operation ge sp op args m.
+Proof.
+ unfold target_op_simplify; simpl.
+ intros H (LREF & SREF & SREG & SMEM) ? ? ?.
+ destruct op; try congruence.
+ eapply simplify_intconst_correct; eauto.
+ eapply simplify_longconst_correct; eauto.
+ eapply simplify_floatconst_correct; eauto.
+ eapply simplify_singleconst_correct; eauto.
+ eapply simplify_cast8signed_correct; eauto.
+ eapply simplify_cast16signed_correct; eauto.
+ eapply simplify_addimm_correct; eauto.
+ eapply simplify_andimm_correct; eauto.
+ eapply simplify_orimm_correct; eauto.
+ eapply simplify_xorimm_correct; eauto.
+ eapply simplify_shrximm_correct; eauto.
+ eapply simplify_cast32unsigned_correct; eauto.
+ eapply simplify_addlimm_correct; eauto.
+ eapply simplify_andlimm_correct; eauto.
+ eapply simplify_orlimm_correct; eauto.
+ eapply simplify_xorlimm_correct; eauto.
+ eapply simplify_shrxlimm_correct; eauto.
+ (* Ocmp expansions *)
+ destruct cond; repeat (destruct lr; simpl; try congruence);
+ simpl in OK1;
+ try (destruct (seval_sval ge sp (si_sreg st r) rs0 m0) eqn:OKv1; try congruence);
+ try (destruct (seval_sval ge sp (si_sreg st r0) rs0 m0) eqn:OKv2; try congruence);
+ inv H; inv OK1.
+ - eapply simplify_ccomp_correct; eauto.
+ - eapply simplify_ccompu_correct; eauto.
+ - eapply simplify_ccompimm_correct; eauto.
+ - eapply simplify_ccompuimm_correct; eauto.
+ - eapply simplify_ccompl_correct; eauto.
+ - eapply simplify_ccomplu_correct; eauto.
+ - eapply simplify_ccomplimm_correct; eauto.
+ - eapply simplify_ccompluimm_correct; eauto.
+ - eapply simplify_ccompf_correct; eauto.
+ - eapply simplify_cnotcompf_correct; eauto.
+ - eapply simplify_ccompfs_correct; eauto.
+ - eapply simplify_cnotcompfs_correct; eauto.
+Qed.
+
+Lemma target_cbranch_expanse_correct hst c l ge sp rs0 m0 st c' l': forall
+ (TARGET: target_cbranch_expanse hst c l = Some (c', l'))
+ (LREF : hsilocal_refines ge sp rs0 m0 hst st)
+ (OK: hsok_local ge sp rs0 m0 hst),
+ seval_condition ge sp c' (hsval_list_proj l') (si_smem st) rs0 m0 =
+ seval_condition ge sp c (list_sval_inj (map (si_sreg st) l)) (si_smem st) rs0 m0.
+Proof.
+ unfold target_cbranch_expanse, seval_condition; simpl.
+ intros H (LREF & SREF & SREG & SMEM) ?.
+ destruct c; try congruence;
+ repeat (destruct l; simpl in H; try congruence).
+ 1,2,5,6:
+ destruct c; inv H; simpl;
+ try erewrite !fsi_sreg_get_correct; eauto;
+ try (destruct (seval_smem ge sp (si_smem st) rs0 m0) eqn:OKmem; try congruence);
+ try (destruct (seval_sval ge sp (si_sreg st r) rs0 m0) eqn:OKv1; try congruence);
+ try (destruct (seval_sval ge sp (si_sreg st r0) rs0 m0) eqn:OKv2; try congruence);
+ try replace (Cle) with (swap_comparison Cge) by auto;
+ try replace (Clt) with (swap_comparison Cgt) by auto;
+ try rewrite Val.swap_cmp_bool; trivial;
+ try rewrite Val.swap_cmpu_bool; trivial;
+ try rewrite Val.swap_cmpl_bool; trivial;
+ try rewrite Val.swap_cmplu_bool; trivial.
+ 1,2,3,4:
+ try destruct (Int.eq n Int.zero) eqn: EQIMM;
+ try apply Int.same_if_eq in EQIMM;
+ try destruct (Int64.eq n Int64.zero) eqn: EQIMM;
+ try apply Int64.same_if_eq in EQIMM;
+ destruct c; inv H; simpl;
+ try erewrite !fsi_sreg_get_correct; eauto;
+ try (destruct (seval_smem ge sp (si_smem st) rs0 m0) eqn:OKmem; try congruence);
+ try (destruct (seval_sval ge sp (si_sreg st r) rs0 m0) eqn:OKv1; try congruence);
+ try (destruct (seval_sval ge sp (si_sreg st r0) rs0 m0) eqn:OKv2; try congruence);
+ unfold loadimm32, load_hilo32, Val.cmp, Val.cmpu, zero32;
+ unfold loadimm64, load_hilo64, Val.cmpl, Val.cmplu, zero64;
+ intros; try (specialize make_immed32_sound with (n);
+ destruct (make_immed32 n) eqn:EQMKI); intros; simpl;
+ intros; try (specialize make_immed64_sound with (n);
+ destruct (make_immed64 n) eqn:EQMKI); intros; simpl;
+ try rewrite EQLO; simpl;
+ try destruct (Int.eq lo Int.zero) eqn:EQLO;
+ try destruct (Int64.eq lo Int64.zero) eqn:EQLO;
+ try apply Int.same_if_eq in EQLO; simpl; trivial;
+ try apply Int64.same_if_eq in EQLO; simpl; trivial;
+ unfold eval_may_undef;
+ try erewrite !fsi_sreg_get_correct; eauto;
+ try rewrite OKv1; simpl; trivial;
+ try destruct v; try rewrite H;
+ try rewrite ltu_12_wordsize; try rewrite EQLO;
+ try rewrite Int.add_commut, Int.add_zero_l;
+ try rewrite Int64.add_commut, Int64.add_zero_l;
+ try rewrite Int64.add_commut;
+ try rewrite Int.add_zero_l; try rewrite Int64.add_zero_l;
+ auto; simpl;
+ try rewrite H in EQIMM;
+ try rewrite EQLO in EQIMM;
+ try rewrite Int.add_commut, Int.add_zero_l in EQIMM;
+ try rewrite Int64.add_commut, Int64.add_zero_l in EQIMM;
+ try rewrite EQIMM; simpl;
+ try destruct (Archi.ptr64); trivial.
+
+ 1,2,3,4:
+ destruct c; inv H; simpl;
+ try erewrite !fsi_sreg_get_correct; eauto;
+ try (destruct (seval_smem ge sp (si_smem st) rs0 m0) eqn:OKmem; try congruence);
+ try (destruct (seval_sval ge sp (si_sreg st r) rs0 m0) eqn:OKv1; try congruence);
+ try (destruct (seval_sval ge sp (si_sreg st r0) rs0 m0) eqn:OKv2; try congruence);
+ unfold zero32, zero64, Val.cmpf, Val.cmpfs;
+ destruct v, v0; simpl; trivial;
+ try rewrite Float.cmp_ne_eq;
+ try rewrite Float32.cmp_ne_eq;
+ try rewrite <- Float.cmp_swap; simpl;
+ try rewrite <- Float32.cmp_swap; simpl;
+ try destruct (Float.cmp _ _); simpl;
+ try destruct (Float32.cmp _ _); simpl;
+ try rewrite Int.eq_true; simpl;
+ try rewrite Int.eq_false; try apply Int.one_not_zero;
+ simpl; trivial.
+Qed.
+Global Opaque target_op_simplify.
+Global Opaque target_cbranch_expanse.
generated by cgit (git 2.34.1) at 2024-06-02 14:30:19 +0000