diff options
Diffstat (limited to 'riscV/Asmgenproof1.v')
| -rw-r--r-- | riscV/Asmgenproof1.v | 76 |
1 files changed, 37 insertions, 39 deletions
diff --git a/riscV/Asmgenproof1.v b/riscV/Asmgenproof1.v index 98d5bd33..8678a5dc 100644 --- a/riscV/Asmgenproof1.v +++ b/riscV/Asmgenproof1.v @@ -400,22 +400,6 @@ Ltac ArgsInv := | [ H: freg_of _ = OK _ |- _ ] => simpl in *; rewrite (freg_of_eq _ _ H) in * end). -Inductive exec_straight_opt: code -> regset -> mem -> code -> regset -> mem -> Prop := - | exec_straight_opt_refl: forall c rs m, - exec_straight_opt c rs m c rs m - | exec_straight_opt_intro: forall c1 rs1 m1 c2 rs2 m2, - exec_straight ge fn c1 rs1 m1 c2 rs2 m2 -> - exec_straight_opt c1 rs1 m1 c2 rs2 m2. - -Remark exec_straight_opt_right: - forall c3 rs3 m3 c1 rs1 m1 c2 rs2 m2, - exec_straight_opt c1 rs1 m1 c2 rs2 m2 -> - exec_straight ge fn c2 rs2 m2 c3 rs3 m3 -> - exec_straight ge fn c1 rs1 m1 c3 rs3 m3. -Proof. - destruct 1; intros. auto. eapply exec_straight_trans; eauto. -Qed. - Lemma transl_cbranch_correct_1: forall cond args lbl k c m ms b sp rs m', transl_cbranch cond args lbl k = OK c -> @@ -423,7 +407,7 @@ Lemma transl_cbranch_correct_1: agree ms sp rs -> Mem.extends m m' -> exists rs', exists insn, - exec_straight_opt c rs m' (insn :: k) rs' m' + exec_straight_opt ge fn c rs m' (insn :: k) rs' m' /\ exec_instr ge fn insn rs' m' = eval_branch fn lbl rs' m' (Some b) /\ forall r, r <> PC -> r <> X31 -> rs'#r = rs#r. Proof. @@ -518,7 +502,7 @@ Lemma transl_cbranch_correct_true: agree ms sp rs -> Mem.extends m m' -> exists rs', exists insn, - exec_straight_opt c rs m' (insn :: k) rs' m' + exec_straight_opt ge fn c rs m' (insn :: k) rs' m' /\ exec_instr ge fn insn rs' m' = goto_label fn lbl rs' m' /\ forall r, r <> PC -> r <> X31 -> rs'#r = rs#r. Proof. @@ -1051,17 +1035,23 @@ Opaque Int.eq. intros (rs' & A & B & C). exists rs'; split; eauto. rewrite B; auto with asmgen. - (* shrximm *) - clear H. exploit Val.shrx_shr_2; eauto. intros E; subst v; clear EV. + clear H. exploit Val.shrx_shr_3; eauto. intros E; subst v; clear EV. destruct (Int.eq n Int.zero). + econstructor; split. apply exec_straight_one. simpl; eauto. auto. split; intros; Simpl. -+ change (Int.repr 32) with Int.iwordsize. set (n' := Int.sub Int.iwordsize n). - econstructor; split. - eapply exec_straight_step. simpl; reflexivity. auto. - eapply exec_straight_step. simpl; reflexivity. auto. - eapply exec_straight_step. simpl; reflexivity. auto. - apply exec_straight_one. simpl; reflexivity. auto. - split; intros; Simpl. ++ destruct (Int.eq n Int.one). + * econstructor; split. + eapply exec_straight_step. simpl; reflexivity. auto. + eapply exec_straight_step. simpl; reflexivity. auto. + apply exec_straight_one. simpl; reflexivity. auto. + split; intros; Simpl. + * change (Int.repr 32) with Int.iwordsize. set (n' := Int.sub Int.iwordsize n). + econstructor; split. + eapply exec_straight_step. simpl; reflexivity. auto. + eapply exec_straight_step. simpl; reflexivity. auto. + eapply exec_straight_step. simpl; reflexivity. auto. + apply exec_straight_one. simpl; reflexivity. auto. + split; intros; Simpl. - (* longofintu *) econstructor; split. eapply exec_straight_three. simpl; eauto. simpl; eauto. simpl; eauto. auto. auto. auto. @@ -1086,17 +1076,24 @@ Opaque Int.eq. intros (rs' & A & B & C). exists rs'; split; eauto. rewrite B; auto with asmgen. - (* shrxlimm *) - clear H. exploit Val.shrxl_shrl_2; eauto. intros E; subst v; clear EV. + clear H. exploit Val.shrxl_shrl_3; eauto. intros E; subst v; clear EV. destruct (Int.eq n Int.zero). + econstructor; split. apply exec_straight_one. simpl; eauto. auto. split; intros; Simpl. -+ change (Int.repr 64) with Int64.iwordsize'. set (n' := Int.sub Int64.iwordsize' n). - econstructor; split. - eapply exec_straight_step. simpl; reflexivity. auto. - eapply exec_straight_step. simpl; reflexivity. auto. - eapply exec_straight_step. simpl; reflexivity. auto. - apply exec_straight_one. simpl; reflexivity. auto. - split; intros; Simpl. ++ destruct (Int.eq n Int.one). + * econstructor; split. + eapply exec_straight_step. simpl; reflexivity. auto. + eapply exec_straight_step. simpl; reflexivity. auto. + apply exec_straight_one. simpl; reflexivity. auto. + split; intros; Simpl. + + * change (Int.repr 64) with Int64.iwordsize'. set (n' := Int.sub Int64.iwordsize' n). + econstructor; split. + eapply exec_straight_step. simpl; reflexivity. auto. + eapply exec_straight_step. simpl; reflexivity. auto. + eapply exec_straight_step. simpl; reflexivity. auto. + apply exec_straight_one. simpl; reflexivity. auto. + split; intros; Simpl. - (* cond *) exploit transl_cond_op_correct; eauto. intros (rs' & A & B & C). exists rs'; split. eexact A. eauto with asmgen. @@ -1108,7 +1105,7 @@ Lemma indexed_memory_access_correct: forall mk_instr base ofs k rs m, base <> X31 -> exists base' ofs' rs', - exec_straight_opt (indexed_memory_access mk_instr base ofs k) rs m + exec_straight_opt ge fn (indexed_memory_access mk_instr base ofs k) rs m (mk_instr base' ofs' :: k) rs' m /\ Val.offset_ptr rs'#base' (eval_offset ge ofs') = Val.offset_ptr rs#base ofs /\ forall r, r <> PC -> r <> X31 -> rs'#r = rs#r. @@ -1258,7 +1255,7 @@ Lemma transl_memory_access_correct: transl_memory_access mk_instr addr args k = OK c -> eval_addressing ge rs#SP addr (map rs (map preg_of args)) = Some v -> exists base ofs rs', - exec_straight_opt c rs m (mk_instr base ofs :: k) rs' m + exec_straight_opt ge fn c rs m (mk_instr base ofs :: k) rs' m /\ Val.offset_ptr rs'#base (eval_offset ge ofs) = v /\ forall r, r <> PC -> r <> X31 -> rs'#r = rs#r. Proof. @@ -1318,8 +1315,8 @@ Proof. Qed. Lemma transl_load_correct: - forall chunk addr args dst k c (rs: regset) m a v, - transl_load chunk addr args dst k = OK c -> + forall trap chunk addr args dst k c (rs: regset) m a v, + transl_load trap chunk addr args dst k = OK c -> eval_addressing ge rs#SP addr (map rs (map preg_of args)) = Some a -> Mem.loadv chunk m a = Some v -> exists rs', @@ -1327,7 +1324,8 @@ Lemma transl_load_correct: /\ rs'#(preg_of dst) = v /\ forall r, r <> PC -> r <> X31 -> r <> preg_of dst -> rs'#r = rs#r. Proof. - intros until v; intros TR EV LOAD. + intros until v; intros TR EV LOAD. + destruct trap; try (simpl in *; discriminate). assert (A: exists mk_instr, transl_memory_access mk_instr addr args k = OK c /\ forall base ofs rs, |