From 3d84d953783d7346d442c7f3bed0a69bd5dc7b3a Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Rapha=C3=ABl=20Monat?= <rmonat@mpi-sws.org>
Date: Tue, 28 Feb 2017 14:22:22 +0100
Subject: [PATCH] Small updates

---
 coq/IntervalValidation.v | 48 ++++++++++++++++++++--------------------
 coq/ssaPrgs.v            | 34 ++++++++++++++--------------
 2 files changed, 41 insertions(+), 41 deletions(-)

diff --git a/coq/IntervalValidation.v b/coq/IntervalValidation.v
index 84f6b18..6984a89 100644
--- a/coq/IntervalValidation.v
+++ b/coq/IntervalValidation.v
@@ -80,7 +80,7 @@ Fixpoint validIntervalboundsCmd (f:cmd Q) (absenv:analysisResult) (P:precond) (v
 
 Theorem ivbounds_approximatesPrecond_sound f absenv P V:
   validIntervalbounds f absenv P V = true ->
-  forall v, NatSet.In v (NatSet.diff (Expressions.freeVars f) V) ->
+  forall v, NatSet.In v (NatSet.diff (Expressions.usedVars f) V) ->
        Is_true(isSupersetIntv (P v) (fst (absenv (Var Q v)))).
 Proof.
   induction f; unfold validIntervalbounds.
@@ -99,7 +99,7 @@ Proof.
   - intros approx_true v0 v_in_fV; simpl in *.
     inversion v_in_fV.
   - intros approx_unary_true v v_in_fV.
-    unfold freeVars in v_in_fV.
+    unfold usedVars in v_in_fV.
     apply Is_true_eq_left in approx_unary_true.
     destruct (absenv (Unop u f)); destruct (absenv f); simpl in *.
     apply andb_prop_elim in approx_unary_true.
@@ -173,18 +173,18 @@ Theorem validIntervalbounds_sound (f:exp Q) (absenv:analysisResult) (P:precond)
     (forall v, NatSet.mem v dVars = true ->
           exists vR, E v = Some vR /\
                 (Q2R (fst (fst (absenv (Var Q v)))) <= vR <= Q2R (snd (fst (absenv (Var Q v)))))%R) ->
-    NatSet.Subset (NatSet.diff (Expressions.freeVars f) dVars) fVars ->
+    NatSet.Subset (NatSet.diff (Expressions.usedVars f) dVars) fVars ->
     (forall v, NatSet.mem v fVars = true ->
           exists vR, E v = Some vR /\
                 (Q2R (fst (P v)) <= vR <= Q2R (snd (P v)))%R) ->
     eval_exp 0%R E (toRExp f) vR ->
   (Q2R (fst (fst(absenv f))) <= vR <= Q2R (snd (fst (absenv f))))%R.
 Proof.
-  induction f; intros vR valid_bounds valid_definedVars freeVars_subset valid_freeVars eval_f.
+  induction f; intros vR valid_bounds valid_definedVars usedVars_subset valid_usedVars eval_f.
   - unfold validIntervalbounds in valid_bounds.
     env_assert absenv (Var Q n) absenv_var.
     destruct absenv_var as [ iv [err absenv_var]].
-    specialize (valid_freeVars n).
+    specialize (valid_usedVars n).
     rewrite absenv_var in *; simpl in *.
     inversion eval_f; subst.
     case_eq (NatSet.mem n dVars); intros case_mem; rewrite case_mem in *; simpl in *.
@@ -205,15 +205,15 @@ Proof.
       * assert (NatSet.In n (NatSet.singleton n))
           as in_singleton by (rewrite NatSet.singleton_spec; auto).
         rewrite NatSet.mem_spec.
-        hnf in freeVars_subset.
-        apply freeVars_subset.
+        hnf in usedVars_subset.
+        apply usedVars_subset.
         rewrite NatSet.diff_spec, NatSet.singleton_spec.
         split; try auto.
         hnf; intros in_dVars.
         rewrite <- NatSet.mem_spec in in_dVars.
         rewrite in_dVars in case_mem; congruence.
-      * specialize (valid_freeVars in_fVars);
-          destruct valid_freeVars as [vR' [vR_def P_valid]].
+      * specialize (valid_usedVars in_fVars);
+          destruct valid_usedVars as [vR' [vR_def P_valid]].
         rewrite vR_def in H0; inversion H0; subst.
         lra.
   - unfold validIntervalbounds in valid_bounds.
@@ -244,7 +244,7 @@ Proof.
     destruct valid_bounds as [valid_rec valid_unop].
     apply Is_true_eq_true in valid_rec.
     inversion eval_f; subst.
-    + specialize (IHf v1 valid_rec valid_definedVars freeVars_subset valid_freeVars H2).
+    + specialize (IHf v1 valid_rec valid_definedVars usedVars_subset valid_usedVars H2).
       rewrite absenv_f in IHf; simpl in IHf.
       (* TODO: Make lemma *)
       unfold isSupersetIntv in valid_unop.
@@ -262,7 +262,7 @@ Proof.
       * eapply Rle_trans.
         Focus 2. apply valid_hi.
         rewrite Q2R_opp; lra.
-    + specialize (IHf v1 valid_rec valid_definedVars freeVars_subset valid_freeVars H3).
+    + specialize (IHf v1 valid_rec valid_definedVars usedVars_subset valid_usedVars H3).
       rewrite absenv_f in IHf; simpl in IHf.
       apply andb_prop_elim in valid_unop.
       destruct valid_unop as [nodiv0 valid_unop].
@@ -351,15 +351,15 @@ Proof.
     assert ((Q2R (fst (fst (iv1, err1))) <= v1 <= Q2R (snd (fst (iv1, err1))))%R) as valid_bounds_e1.
     + apply IHf1; try auto.
       intros v in_diff_e1.
-      apply freeVars_subset.
+      apply usedVars_subset.
       simpl. rewrite NatSet.diff_spec,NatSet.union_spec.
       rewrite NatSet.diff_spec in in_diff_e1.
-      destruct in_diff_e1 as [ in_freeVars not_dVar].
+      destruct in_diff_e1 as [ in_usedVars not_dVar].
       split; try auto.
     + assert (Q2R (fst (fst (iv2, err2))) <= v2 <= Q2R (snd (fst (iv2, err2))))%R as valid_bounds_e2.
       * apply IHf2; try auto.
         intros v in_diff_e2.
-        apply freeVars_subset.
+        apply usedVars_subset.
         simpl. rewrite NatSet.diff_spec, NatSet.union_spec.
         rewrite NatSet.diff_spec in in_diff_e2.
         destruct in_diff_e2; split; auto.
@@ -506,14 +506,14 @@ Theorem validIntervalboundsCmd_sound (f:cmd Q) (absenv:analysisResult):
           exists vR,
             E v = Some vR /\
             (Q2R (fst (P v)) <= vR <= Q2R (snd (P v)))%R) ->
-    NatSet.Subset (NatSet.diff (Commands.freeVars f) dVars) fVars ->
+    NatSet.Subset (NatSet.diff (Commands.usedVars f) dVars) fVars ->
     validIntervalboundsCmd f absenv P dVars = true ->
     absenv (getRetExp f) = ((elo, ehi), err) ->
     (Q2R elo <=  vR <= Q2R ehi)%R.
 Proof.
   induction f;
     intros E vR fVars dVars outVars elo ehi err P ssa_f eval_f dVars_sound
-           fVars_valid freeVars_subset valid_bounds_f absenv_f.
+           fVars_valid usedVars_subset valid_bounds_f absenv_f.
   - inversion ssa_f; subst.
     inversion eval_f; subst.
     unfold validIntervalboundsCmd in valid_bounds_f.
@@ -544,16 +544,16 @@ Proof.
         rewrite <- eq_lo, <- eq_hi.
         exists v; split; auto.
         eapply validIntervalbounds_sound; eauto.
-        simpl in freeVars_subset.
-        hnf. intros a in_freeVars.
-        apply freeVars_subset.
+        simpl in usedVars_subset.
+        hnf. intros a in_usedVars.
+        apply usedVars_subset.
         rewrite NatSet.diff_spec, NatSet.remove_spec, NatSet.union_spec.
-        rewrite NatSet.diff_spec in in_freeVars.
-        destruct in_freeVars as [ in_freeVars not_dVar].
+        rewrite NatSet.diff_spec in in_usedVars.
+        destruct in_usedVars as [ in_usedVars not_dVar].
         repeat split; try auto.
         { hnf; intros; subst.
-          apply validVars_subset_freeVars in H2.
-          specialize (H2 n in_freeVars).
+          apply validVars_subset_usedVars in H2.
+          specialize (H2 n in_usedVars).
           rewrite <- NatSet.mem_spec in H2.
           rewrite H2 in H5; congruence. }
       * apply dVars_sound. rewrite NatSet.mem_spec.
@@ -573,7 +573,7 @@ Proof.
       hnf. intros a a_freeVar.
       rewrite NatSet.diff_spec in a_freeVar.
       destruct a_freeVar as [a_freeVar a_no_dVar].
-      apply freeVars_subset.
+      apply usedVars_subset.
       simpl.
       rewrite NatSet.diff_spec, NatSet.remove_spec, NatSet.union_spec.
       repeat split; try auto.
diff --git a/coq/ssaPrgs.v b/coq/ssaPrgs.v
index 7daf78c..7220ea9 100644
--- a/coq/ssaPrgs.v
+++ b/coq/ssaPrgs.v
@@ -421,15 +421,15 @@ Proof.
     econstructor; eauto.
     apply bli; eauto.
     apply IHc; auto.
-    remember (updEnv n0 M0 v (toREvalEnv E)) as E'.
-
-    replace E' with (toREvalEnv E') in H9.
-    + apply IHc in H9.
-      rewrite HeqE' in H9.
-      replace E with (toREvalEnv E) by admit.
-      apply H9.
 Admitted.
+(*     remember (updEnv n0 M0 v (toREvalEnv E)) as E'. *)
 
+(*     replace E' with (toREvalEnv E') in H9. *)
+(*     + apply IHc in H9. *)
+(*       rewrite HeqE' in H9. *)
+(*       replace E with (toREvalEnv E) by admit. *)
+(*       apply H9. *)
+(* Admitted. *)
 
 Lemma stepwise_substitution x e v f E vR inVars outVars:
   ssaPrg (toREvalCmd (toRCmd f)) inVars outVars ->
@@ -449,9 +449,9 @@ Proof.
       econstructor; auto.
       rewrite <- exp_subst_correct; eauto.
       apply bli; apply H7.
-      apply bla.
+(* /!\ *) apply bla. 
       rewrite <- IHf; eauto.
-      apply bla; auto.
+(* /!\ *) apply bla; auto.
       rewrite NatSet.add_spec; right; auto.
       apply validVars_add; auto.
       apply bli.
@@ -462,14 +462,14 @@ Proof.
       econstructor.
       auto.
       apply bli. rewrite exp_subst_correct; eauto.
-      apply bla in H8; rewrite <- IHf in H8; eauto.
+(* /!\ *) apply bla in H8; rewrite <- IHf in H8; eauto.
       rewrite <- shadowing_free_rewriting_cmd in H8; eauto.
-      admit. (*TODO: modify lemma. eapply ssa_shadowing_free; eauto.*)
-      rewrite <- exp_subst_correct in H7; eauto.
-      rewrite NatSet.add_spec.
-      right; auto.
-      apply validVars_add; auto.
-      apply bli. eapply dummy_bind_ok; eauto.
+      * admit. (* should be ok. Maybe using updEnv_comp_toREval? *)
+      * rewrite <- exp_subst_correct in H7; eauto.
+        rewrite NatSet.add_spec.
+        right; auto.
+      * apply validVars_add; auto.
+      * apply bli. eapply dummy_bind_ok; eauto.
   - split; [intros bstep_let | intros bstep_subst].
     + inversion bstep_let; subst.
       simpl in *.
@@ -507,7 +507,7 @@ Proof.
     simpl in subst_step.
     case_eq (let_subst f).
     + intros f_subst subst_f_eq.
-      apply bla in H8.
+(* /!\ *) apply bla in H8.
       specialize (IHf (updEnv n M0 v E) vR (NatSet.add n inVars) outVars f_subst H10 H8 subst_f_eq).
       rewrite subst_f_eq in subst_step.
       inversion IHf; subst.
-- 
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