+
(**************************************************************************)
(* ___ *)
(* ||M|| *)
include "apps_2/models/model_props.ma".
-(* EVALUATION EQUIVALENCE **************************************************)
+(* EVALUATION EQUIVALENCE ***************************************************)
definition veq (M): relation (evaluation M) ≝
λv1,v2. ∀d. v1 d ≗ v2 d.
lemma veq_refl (M): is_model M →
reflexive … (veq M).
-/2 width=1 by mq/ qed.
+/2 width=1 by mr/ qed.
lemma veq_repl (M): is_model M →
replace_2 … (veq M) (veq M) (veq M).
-/2 width=5 by mr/ qed-.
+/2 width=5 by mq/ qed-.
-lemma ext_veq (M): is_model M →
- ∀lv1,lv2. lv1 ≐ lv2 → lv1 ≗{M} lv2.
-/2 width=1 by mq/ qed.
+lemma veq_sym (M): is_model M → symmetric … (veq M).
+/3 width=5 by veq_repl, veq_refl/ qed-.
-lemma exteq_veq_trans (M): ∀lv1,lv. lv1 ≐ lv →
- ∀lv2. lv ≗{M} lv2 → lv1 ≗ lv2.
-// qed-.
+lemma veq_trans (M): is_model M → Transitive … (veq M).
+/3 width=5 by veq_repl, veq_refl/ qed-.
-(* Properties with evaluation evaluation lift *******************************)
+lemma veq_canc_sn (M): is_model M → left_cancellable … (veq M).
+/3 width=3 by veq_trans, veq_sym/ qed-.
-lemma vlift_comp (M): ∀i. compatible_3 … (vlift M i) (sq M) (veq M) (veq M).
-#m #i #d1 #d2 #Hd12 #lv1 #lv2 #HLv12 #j
-elim (lt_or_eq_or_gt j i) #Hij destruct
-[ >(vlift_lt … Hij) >(vlift_lt … Hij) //
-| >(vlift_eq …) >(vlift_eq …) //
-| >(vlift_gt … Hij) >(vlift_gt … Hij) //
+lemma veq_canc_dx (M): is_model M → right_cancellable … (veq M).
+/3 width=3 by veq_trans, veq_sym/ qed-.
+
+(* Properties with evaluation push ******************************************)
+
+theorem vpush_swap (M): is_model M →
+ ∀i1,i2. i1 ≤ i2 →
+ ∀lv,d1,d2. ⫯[i1←d1] ⫯[i2←d2] lv ≗{M} ⫯[↑i2←d2] ⫯[i1←d1] lv.
+#M #HM #i1 #i2 #Hi12 #lv #d1 #d2 #j
+elim (lt_or_eq_or_gt j i1) #Hji1 destruct
+[ lapply (lt_to_le_to_lt … Hji1 Hi12) #Hji2
+ >vpush_lt // >vpush_lt // >vpush_lt /2 width=1 by lt_S/ >vpush_lt //
+ /2 width=1 by veq_refl/
+| >vpush_eq >vpush_lt /2 width=1 by monotonic_le_plus_l/ >vpush_eq
+ /2 width=1 by mr/
+| >vpush_gt // elim (lt_or_eq_or_gt (↓j) i2) #Hji2 destruct
+ [ >vpush_lt // >vpush_lt /2 width=1 by lt_minus_to_plus/ >vpush_gt //
+ /2 width=1 by veq_refl/
+ | >vpush_eq <(lt_succ_pred … Hji1) >vpush_eq
+ /2 width=1 by mr/
+ | lapply (le_to_lt_to_lt … Hi12 Hji2) #Hi1j
+ >vpush_gt // >vpush_gt /2 width=1 by lt_minus_to_plus_r/ >vpush_gt //
+ /2 width=1 by veq_refl/
+ ]
]
qed.
+lemma vpush_comp (M): is_model M →
+ ∀i. compatible_3 … (vpush M i) (sq M) (veq M) (veq M).
+#M #HM #i #d1 #d2 #Hd12 #lv1 #lv2 #HLv12 #j
+elim (lt_or_eq_or_gt j i) #Hij destruct
+[ >vpush_lt // >vpush_lt //
+| >vpush_eq >vpush_eq //
+| >vpush_gt // >vpush_gt //
+]
+qed-.
+
(* Properies with term interpretation ***************************************)
-lemma ti_comp_l (M): is_model M →
- ∀T,gv,lv1,lv2. lv1 ≗{M} lv2 →
- ⟦T⟧[gv, lv1] ≗ ⟦T⟧[gv, lv2].
+lemma ti_comp (M): is_model M →
+ ∀T,gv1,gv2. gv1 ≗ gv2 → ∀lv1,lv2. lv1 ≗ lv2 →
+ ⟦T⟧[gv1,lv1] ≗{M} ⟦T⟧[gv2,lv2].
#M #HM #T elim T -T * [||| #p * | * ]
-[ /4 width=3 by seq_trans, seq_sym, ms/
-| /4 width=5 by seq_sym, ml, mr/
+[ /4 width=5 by seq_trans, seq_sym, ms/
+| /4 width=5 by seq_sym, ml, mq/
| /4 width=3 by seq_trans, seq_sym, mg/
-| /5 width=5 by vlift_comp, seq_sym, md, mr/
-| /5 width=1 by vlift_comp, mi, mq/
-| /4 width=5 by seq_sym, ma, mc, mr/
-| /4 width=5 by seq_sym, me, mr/
+| /6 width=5 by vpush_comp, seq_sym, md, mc, mq/
+| /5 width=1 by vpush_comp, mi, mr/
+| /4 width=5 by seq_sym, ma, mp, mq/
+| /4 width=5 by seq_sym, me, mq/
]
qed.
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