iprod.v 14 KB
 Robbert Krebbers committed Jun 16, 2016 1 ``````From iris.algebra Require Export cmra updates. `````` Robbert Krebbers committed Mar 10, 2016 2 ``````From iris.algebra Require Import upred. `````` Robbert Krebbers committed Mar 11, 2016 3 ``````From iris.prelude Require Import finite. `````` Ralf Jung committed Feb 08, 2016 4 `````` `````` Robbert Krebbers committed Feb 08, 2016 5 ``````(** * Indexed product *) `````` Ralf Jung committed Feb 08, 2016 6 ``````(** Need to put this in a definition to make canonical structures to work. *) `````` Robbert Krebbers committed May 27, 2016 7 8 ``````Definition iprod `{Finite A} (B : A → cofeT) := ∀ x, B x. Definition iprod_insert `{Finite A} {B : A → cofeT} `````` Ralf Jung committed Feb 08, 2016 9 10 `````` (x : A) (y : B x) (f : iprod B) : iprod B := λ x', match decide (x = x') with left H => eq_rect _ B y _ H | right _ => f x' end. `````` Robbert Krebbers committed May 27, 2016 11 ``````Instance: Params (@iprod_insert) 5. `````` Ralf Jung committed Feb 08, 2016 12 13 `````` Section iprod_cofe. `````` Robbert Krebbers committed May 27, 2016 14 `````` Context `{Finite A} {B : A → cofeT}. `````` Ralf Jung committed Feb 08, 2016 15 16 `````` Implicit Types x : A. Implicit Types f g : iprod B. `````` Robbert Krebbers committed Feb 08, 2016 17 `````` `````` Ralf Jung committed Feb 08, 2016 18 `````` Instance iprod_equiv : Equiv (iprod B) := λ f g, ∀ x, f x ≡ g x. `````` Ralf Jung committed Feb 10, 2016 19 `````` Instance iprod_dist : Dist (iprod B) := λ n f g, ∀ x, f x ≡{n}≡ g x. `````` Ralf Jung committed Feb 08, 2016 20 21 22 23 24 25 26 27 `````` Program Definition iprod_chain (c : chain (iprod B)) (x : A) : chain (B x) := {| chain_car n := c n x |}. Next Obligation. by intros c x n i ?; apply (chain_cauchy c). Qed. Program Instance iprod_compl : Compl (iprod B) := λ c x, compl (iprod_chain c x). Definition iprod_cofe_mixin : CofeMixin (iprod B). Proof. split. `````` Robbert Krebbers committed Feb 17, 2016 28 `````` - intros f g; split; [intros Hfg n k; apply equiv_dist, Hfg|]. `````` Ralf Jung committed Feb 08, 2016 29 `````` intros Hfg k; apply equiv_dist; intros n; apply Hfg. `````` Robbert Krebbers committed Feb 17, 2016 30 `````` - intros n; split. `````` Ralf Jung committed Feb 08, 2016 31 32 `````` + by intros f x. + by intros f g ? x. `````` Ralf Jung committed Feb 20, 2016 33 `````` + by intros f g h ?? x; trans (g x). `````` Robbert Krebbers committed Feb 17, 2016 34 `````` - intros n f g Hfg x; apply dist_S, Hfg. `````` Robbert Krebbers committed Feb 18, 2016 35 36 `````` - intros n c x. rewrite /compl /iprod_compl (conv_compl n (iprod_chain c x)). `````` Ralf Jung committed Feb 08, 2016 37 38 `````` apply (chain_cauchy c); lia. Qed. `````` Robbert Krebbers committed May 25, 2016 39 `````` Canonical Structure iprodC : cofeT := CofeT (iprod B) iprod_cofe_mixin. `````` Ralf Jung committed Feb 08, 2016 40 `````` `````` Ralf Jung committed Feb 08, 2016 41 `````` (** Properties of iprod_insert. *) `````` Ralf Jung committed Feb 08, 2016 42 `````` Context `{∀ x x' : A, Decision (x = x')}. `````` Ralf Jung committed Feb 08, 2016 43 `````` `````` Robbert Krebbers committed Feb 18, 2016 44 `````` Global Instance iprod_insert_ne n x : `````` Ralf Jung committed Feb 08, 2016 45 46 47 48 49 50 51 `````` Proper (dist n ==> dist n ==> dist n) (iprod_insert x). Proof. intros y1 y2 ? f1 f2 ? x'; rewrite /iprod_insert. by destruct (decide _) as [[]|]. Qed. Global Instance iprod_insert_proper x : Proper ((≡) ==> (≡) ==> (≡)) (iprod_insert x) := ne_proper_2 _. `````` Ralf Jung committed Feb 08, 2016 52 `````` `````` Ralf Jung committed Feb 08, 2016 53 54 55 56 57 58 59 60 61 `````` Lemma iprod_lookup_insert f x y : (iprod_insert x y f) x = y. Proof. rewrite /iprod_insert; destruct (decide _) as [Hx|]; last done. by rewrite (proof_irrel Hx eq_refl). Qed. Lemma iprod_lookup_insert_ne f x x' y : x ≠ x' → (iprod_insert x y f) x' = f x'. Proof. by rewrite /iprod_insert; destruct (decide _). Qed. `````` Robbert Krebbers committed Feb 08, 2016 62 `````` Global Instance iprod_lookup_timeless f x : Timeless f → Timeless (f x). `````` Ralf Jung committed Feb 08, 2016 63 `````` Proof. `````` Robbert Krebbers committed Feb 08, 2016 64 `````` intros ? y ?. `````` Ralf Jung committed Feb 08, 2016 65 `````` cut (f ≡ iprod_insert x y f). `````` Robbert Krebbers committed Feb 08, 2016 66 `````` { by move=> /(_ x)->; rewrite iprod_lookup_insert. } `````` Robbert Krebbers committed May 27, 2016 67 68 `````` apply (timeless _)=> x'; destruct (decide (x = x')) as [->|]; by rewrite ?iprod_lookup_insert ?iprod_lookup_insert_ne. `````` Ralf Jung committed Feb 08, 2016 69 70 71 72 `````` Qed. Global Instance iprod_insert_timeless f x y : Timeless f → Timeless y → Timeless (iprod_insert x y f). Proof. `````` Robbert Krebbers committed Feb 08, 2016 73 `````` intros ?? g Heq x'; destruct (decide (x = x')) as [->|]. `````` Robbert Krebbers committed Feb 17, 2016 74 `````` - rewrite iprod_lookup_insert. `````` Ralf Jung committed Feb 18, 2016 75 `````` apply: timeless. by rewrite -(Heq x') iprod_lookup_insert. `````` Robbert Krebbers committed Feb 17, 2016 76 `````` - rewrite iprod_lookup_insert_ne //. `````` Ralf Jung committed Feb 18, 2016 77 `````` apply: timeless. by rewrite -(Heq x') iprod_lookup_insert_ne. `````` Ralf Jung committed Feb 08, 2016 78 `````` Qed. `````` Ralf Jung committed Feb 08, 2016 79 80 ``````End iprod_cofe. `````` Robbert Krebbers committed May 27, 2016 81 ``````Arguments iprodC {_ _ _} _. `````` Ralf Jung committed Feb 08, 2016 82 83 `````` Section iprod_cmra. `````` Robbert Krebbers committed May 27, 2016 84 `````` Context `{Finite A} {B : A → ucmraT}. `````` Ralf Jung committed Feb 08, 2016 85 `````` Implicit Types f g : iprod B. `````` Robbert Krebbers committed Feb 08, 2016 86 `````` `````` Ralf Jung committed Feb 08, 2016 87 `````` Instance iprod_op : Op (iprod B) := λ f g x, f x ⋅ g x. `````` Robbert Krebbers committed May 28, 2016 88 `````` Instance iprod_pcore : PCore (iprod B) := λ f, Some (λ x, core (f x)). `````` Robbert Krebbers committed Feb 24, 2016 89 `````` Instance iprod_valid : Valid (iprod B) := λ f, ∀ x, ✓ f x. `````` Robbert Krebbers committed Feb 11, 2016 90 `````` Instance iprod_validN : ValidN (iprod B) := λ n f, ∀ x, ✓{n} f x. `````` Robbert Krebbers committed Feb 08, 2016 91 92 `````` Definition iprod_lookup_op f g x : (f ⋅ g) x = f x ⋅ g x := eq_refl. `````` Ralf Jung committed Mar 08, 2016 93 `````` Definition iprod_lookup_core f x : (core f) x = core (f x) := eq_refl. `````` Robbert Krebbers committed Feb 08, 2016 94 `````` `````` Robbert Krebbers committed Feb 26, 2016 95 `````` Lemma iprod_included_spec (f g : iprod B) : f ≼ g ↔ ∀ x, f x ≼ g x. `````` Ralf Jung committed Feb 08, 2016 96 `````` Proof. `````` Robbert Krebbers committed Mar 11, 2016 97 98 `````` split; [by intros [h Hh] x; exists (h x); rewrite /op /iprod_op (Hh x)|]. intros [h ?]%finite_choice. by exists h. `````` Ralf Jung committed Feb 08, 2016 99 `````` Qed. `````` Robbert Krebbers committed Feb 08, 2016 100 `````` `````` Robbert Krebbers committed May 27, 2016 101 `````` Lemma iprod_cmra_mixin : CMRAMixin (iprod B). `````` Ralf Jung committed Feb 08, 2016 102 `````` Proof. `````` Robbert Krebbers committed May 28, 2016 103 104 `````` apply cmra_total_mixin. - eauto. `````` Robbert Krebbers committed Feb 17, 2016 105 `````` - by intros n f1 f2 f3 Hf x; rewrite iprod_lookup_op (Hf x). `````` Ralf Jung committed Mar 08, 2016 106 `````` - by intros n f1 f2 Hf x; rewrite iprod_lookup_core (Hf x). `````` Robbert Krebbers committed Feb 17, 2016 107 `````` - by intros n f1 f2 Hf ? x; rewrite -(Hf x). `````` Robbert Krebbers committed Feb 24, 2016 108 109 110 `````` - intros g; split. + intros Hg n i; apply cmra_valid_validN, Hg. + intros Hg i; apply cmra_valid_validN=> n; apply Hg. `````` Robbert Krebbers committed Feb 17, 2016 111 112 113 `````` - intros n f Hf x; apply cmra_validN_S, Hf. - by intros f1 f2 f3 x; rewrite iprod_lookup_op assoc. - by intros f1 f2 x; rewrite iprod_lookup_op comm. `````` Ralf Jung committed Mar 08, 2016 114 115 `````` - by intros f x; rewrite iprod_lookup_op iprod_lookup_core cmra_core_l. - by intros f x; rewrite iprod_lookup_core cmra_core_idemp. `````` Robbert Krebbers committed Feb 26, 2016 116 `````` - intros f1 f2; rewrite !iprod_included_spec=> Hf x. `````` Ralf Jung committed Jul 25, 2016 117 `````` by rewrite iprod_lookup_core; apply cmra_core_mono, Hf. `````` Robbert Krebbers committed Feb 17, 2016 118 `````` - intros n f1 f2 Hf x; apply cmra_validN_op_l with (f2 x), Hf. `````` Robbert Krebbers committed Feb 24, 2016 119 `````` - intros n f f1 f2 Hf Hf12. `````` Robbert Krebbers committed Aug 14, 2016 120 121 122 123 124 125 `````` destruct (finite_choice (λ x (yy : B x * B x), f x ≡ yy.1 ⋅ yy.2 ∧ yy.1 ≡{n}≡ f1 x ∧ yy.2 ≡{n}≡ f2 x)) as [gg Hgg]. { intros x. specialize (Hf12 x). destruct (cmra_extend n (f x) (f1 x) (f2 x)) as (y1&y2&?&?&?); eauto. exists (y1,y2); eauto. } exists (λ x, gg x.1), (λ x, gg x.2). split_and!=> -?; naive_solver. `````` Ralf Jung committed Feb 08, 2016 126 `````` Qed. `````` Robbert Krebbers committed May 27, 2016 127 `````` Canonical Structure iprodR := `````` Robbert Krebbers committed May 25, 2016 128 `````` CMRAT (iprod B) iprod_cofe_mixin iprod_cmra_mixin. `````` Robbert Krebbers committed May 27, 2016 129 130 131 132 133 `````` Instance iprod_empty : Empty (iprod B) := λ x, ∅. Definition iprod_lookup_empty x : ∅ x = ∅ := eq_refl. Lemma iprod_ucmra_mixin : UCMRAMixin (iprod B). `````` Ralf Jung committed Feb 08, 2016 134 `````` Proof. `````` Robbert Krebbers committed May 27, 2016 135 136 `````` split. - intros x; apply ucmra_unit_valid. `````` Robbert Krebbers committed Feb 17, 2016 137 `````` - by intros f x; rewrite iprod_lookup_op left_id. `````` Robbert Krebbers committed May 28, 2016 138 `````` - constructor=> x. apply persistent_core, _. `````` Ralf Jung committed Feb 08, 2016 139 `````` Qed. `````` Robbert Krebbers committed May 27, 2016 140 141 `````` Canonical Structure iprodUR := UCMRAT (iprod B) iprod_cofe_mixin iprod_cmra_mixin iprod_ucmra_mixin. `````` Ralf Jung committed Feb 08, 2016 142 `````` `````` Robbert Krebbers committed Aug 20, 2016 143 144 145 146 `````` Global Instance iprod_empty_timeless : (∀ i, Timeless (∅ : B i)) → Timeless (∅ : iprod B). Proof. intros ? f Hf x. by apply: timeless. Qed. `````` Robbert Krebbers committed Feb 13, 2016 147 `````` (** Internalized properties *) `````` Robbert Krebbers committed May 31, 2016 148 `````` Lemma iprod_equivI {M} g1 g2 : g1 ≡ g2 ⊣⊢ (∀ i, g1 i ≡ g2 i : uPred M). `````` Robbert Krebbers committed Feb 25, 2016 149 `````` Proof. by uPred.unseal. Qed. `````` Robbert Krebbers committed May 31, 2016 150 `````` Lemma iprod_validI {M} g : ✓ g ⊣⊢ (∀ i, ✓ g i : uPred M). `````` Robbert Krebbers committed Feb 25, 2016 151 `````` Proof. by uPred.unseal. Qed. `````` Robbert Krebbers committed Feb 13, 2016 152 `````` `````` Ralf Jung committed Feb 08, 2016 153 `````` (** Properties of iprod_insert. *) `````` Ralf Jung committed Feb 08, 2016 154 155 156 157 `````` Lemma iprod_insert_updateP x (P : B x → Prop) (Q : iprod B → Prop) g y1 : y1 ~~>: P → (∀ y2, P y2 → Q (iprod_insert x y2 g)) → iprod_insert x y1 g ~~>: Q. Proof. `````` Robbert Krebbers committed May 28, 2016 158 159 `````` intros Hy1 HP; apply cmra_total_updateP. intros n gf Hg. destruct (Hy1 n (Some (gf x))) as (y2&?&?). `````` Ralf Jung committed Feb 08, 2016 160 161 162 163 164 165 166 167 168 169 170 171 172 173 `````` { move: (Hg x). by rewrite iprod_lookup_op iprod_lookup_insert. } exists (iprod_insert x y2 g); split; [auto|]. intros x'; destruct (decide (x' = x)) as [->|]; rewrite iprod_lookup_op ?iprod_lookup_insert //; []. move: (Hg x'). by rewrite iprod_lookup_op !iprod_lookup_insert_ne. Qed. Lemma iprod_insert_updateP' x (P : B x → Prop) g y1 : y1 ~~>: P → iprod_insert x y1 g ~~>: λ g', ∃ y2, g' = iprod_insert x y2 g ∧ P y2. Proof. eauto using iprod_insert_updateP. Qed. Lemma iprod_insert_update g x y1 y2 : y1 ~~> y2 → iprod_insert x y1 g ~~> iprod_insert x y2 g. Proof. `````` Robbert Krebbers committed Feb 08, 2016 174 `````` rewrite !cmra_update_updateP; eauto using iprod_insert_updateP with subst. `````` Ralf Jung committed Feb 08, 2016 175 `````` Qed. `````` Robbert Krebbers committed May 27, 2016 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 ``````End iprod_cmra. Arguments iprodR {_ _ _} _. Arguments iprodUR {_ _ _} _. Definition iprod_singleton `{Finite A} {B : A → ucmraT} (x : A) (y : B x) : iprod B := iprod_insert x y ∅. Instance: Params (@iprod_singleton) 5. Section iprod_singleton. Context `{Finite A} {B : A → ucmraT}. Implicit Types x : A. Global Instance iprod_singleton_ne n x : Proper (dist n ==> dist n) (iprod_singleton x : B x → _). Proof. intros y1 y2 ?; apply iprod_insert_ne. done. by apply equiv_dist. Qed. Global Instance iprod_singleton_proper x : Proper ((≡) ==> (≡)) (iprod_singleton x) := ne_proper _. `````` Ralf Jung committed Feb 08, 2016 194 `````` `````` Robbert Krebbers committed May 27, 2016 195 196 197 198 199 `````` Lemma iprod_lookup_singleton x (y : B x) : (iprod_singleton x y) x = y. Proof. by rewrite /iprod_singleton iprod_lookup_insert. Qed. Lemma iprod_lookup_singleton_ne x x' (y : B x) : x ≠ x' → (iprod_singleton x y) x' = ∅. Proof. intros; by rewrite /iprod_singleton iprod_lookup_insert_ne. Qed. `````` Ralf Jung committed Feb 08, 2016 200 `````` `````` Robbert Krebbers committed May 27, 2016 201 `````` Global Instance iprod_singleton_timeless x (y : B x) : `````` Robbert Krebbers committed Aug 20, 2016 202 203 `````` (∀ i, Timeless (∅ : B i)) → Timeless y → Timeless (iprod_singleton x y). Proof. apply _. Qed. `````` Robbert Krebbers committed May 27, 2016 204 205 `````` Lemma iprod_singleton_validN n x (y : B x) : ✓{n} iprod_singleton x y ↔ ✓{n} y. `````` Ralf Jung committed Feb 08, 2016 206 `````` Proof. `````` Robbert Krebbers committed Feb 08, 2016 207 208 209 `````` split; [by move=>/(_ x); rewrite iprod_lookup_singleton|]. move=>Hx x'; destruct (decide (x = x')) as [->|]; rewrite ?iprod_lookup_singleton ?iprod_lookup_singleton_ne //. `````` Robbert Krebbers committed May 27, 2016 210 `````` by apply ucmra_unit_validN. `````` Ralf Jung committed Feb 08, 2016 211 212 `````` Qed. `````` Ralf Jung committed Mar 08, 2016 213 214 `````` Lemma iprod_core_singleton x (y : B x) : core (iprod_singleton x y) ≡ iprod_singleton x (core y). `````` Ralf Jung committed Feb 08, 2016 215 `````` Proof. `````` Robbert Krebbers committed Mar 15, 2016 216 217 `````` move=>x'; destruct (decide (x = x')) as [->|]; by rewrite iprod_lookup_core ?iprod_lookup_singleton `````` Robbert Krebbers committed May 28, 2016 218 `````` ?iprod_lookup_singleton_ne // (persistent_core ∅). `````` Ralf Jung committed Feb 08, 2016 219 220 `````` Qed. `````` Robbert Krebbers committed Mar 15, 2016 221 222 `````` Global Instance iprod_singleton_persistent x (y : B x) : Persistent y → Persistent (iprod_singleton x y). `````` Robbert Krebbers committed May 28, 2016 223 `````` Proof. by rewrite !persistent_total iprod_core_singleton=> ->. Qed. `````` Robbert Krebbers committed Mar 15, 2016 224 `````` `````` Ralf Jung committed Feb 08, 2016 225 226 227 228 `````` Lemma iprod_op_singleton (x : A) (y1 y2 : B x) : iprod_singleton x y1 ⋅ iprod_singleton x y2 ≡ iprod_singleton x (y1 ⋅ y2). Proof. intros x'; destruct (decide (x' = x)) as [->|]. `````` Robbert Krebbers committed Feb 17, 2016 229 230 `````` - by rewrite iprod_lookup_op !iprod_lookup_singleton. - by rewrite iprod_lookup_op !iprod_lookup_singleton_ne // left_id. `````` Ralf Jung committed Feb 08, 2016 231 232 233 234 235 236 237 238 `````` Qed. Lemma iprod_singleton_updateP x (P : B x → Prop) (Q : iprod B → Prop) y1 : y1 ~~>: P → (∀ y2, P y2 → Q (iprod_singleton x y2)) → iprod_singleton x y1 ~~>: Q. Proof. rewrite /iprod_singleton; eauto using iprod_insert_updateP. Qed. Lemma iprod_singleton_updateP' x (P : B x → Prop) y1 : y1 ~~>: P → `````` Ralf Jung committed Feb 09, 2016 239 `````` iprod_singleton x y1 ~~>: λ g, ∃ y2, g = iprod_singleton x y2 ∧ P y2. `````` Ralf Jung committed Feb 08, 2016 240 `````` Proof. eauto using iprod_singleton_updateP. Qed. `````` Robbert Krebbers committed May 27, 2016 241 `````` Lemma iprod_singleton_update x (y1 y2 : B x) : `````` Robbert Krebbers committed Feb 08, 2016 242 243 `````` y1 ~~> y2 → iprod_singleton x y1 ~~> iprod_singleton x y2. Proof. eauto using iprod_insert_update. Qed. `````` Ralf Jung committed Feb 08, 2016 244 245 `````` Lemma iprod_singleton_updateP_empty x (P : B x → Prop) (Q : iprod B → Prop) : `````` Robbert Krebbers committed Feb 08, 2016 246 `````` ∅ ~~>: P → (∀ y2, P y2 → Q (iprod_singleton x y2)) → ∅ ~~>: Q. `````` Ralf Jung committed Feb 08, 2016 247 `````` Proof. `````` Robbert Krebbers committed May 28, 2016 248 249 `````` intros Hx HQ; apply cmra_total_updateP. intros n gf Hg. destruct (Hx n (Some (gf x))) as (y2&?&?); first apply Hg. `````` Robbert Krebbers committed Feb 08, 2016 250 251 `````` exists (iprod_singleton x y2); split; [by apply HQ|]. intros x'; destruct (decide (x' = x)) as [->|]. `````` Robbert Krebbers committed Feb 17, 2016 252 253 `````` - by rewrite iprod_lookup_op iprod_lookup_singleton. - rewrite iprod_lookup_op iprod_lookup_singleton_ne //. apply Hg. `````` Ralf Jung committed Feb 08, 2016 254 `````` Qed. `````` Ralf Jung committed Feb 09, 2016 255 256 257 `````` Lemma iprod_singleton_updateP_empty' x (P : B x → Prop) : ∅ ~~>: P → ∅ ~~>: λ g, ∃ y2, g = iprod_singleton x y2 ∧ P y2. Proof. eauto using iprod_singleton_updateP_empty. Qed. `````` Robbert Krebbers committed May 27, 2016 258 259 260 261 262 263 264 `````` Lemma iprod_singleton_update_empty x (y : B x) : ∅ ~~> y → ∅ ~~> iprod_singleton x y. Proof. rewrite !cmra_update_updateP; eauto using iprod_singleton_updateP_empty with subst. Qed. End iprod_singleton. `````` Ralf Jung committed Feb 08, 2016 265 `````` `````` Robbert Krebbers committed Feb 08, 2016 266 ``````(** * Functor *) `````` Robbert Krebbers committed May 27, 2016 267 ``````Definition iprod_map `{Finite A} {B1 B2 : A → cofeT} (f : ∀ x, B1 x → B2 x) `````` Robbert Krebbers committed Feb 08, 2016 268 269 `````` (g : iprod B1) : iprod B2 := λ x, f _ (g x). `````` Robbert Krebbers committed May 27, 2016 270 ``````Lemma iprod_map_ext `{Finite A} {B1 B2 : A → cofeT} (f1 f2 : ∀ x, B1 x → B2 x) (g : iprod B1) : `````` Robbert Krebbers committed Feb 08, 2016 271 272 `````` (∀ x, f1 x (g x) ≡ f2 x (g x)) → iprod_map f1 g ≡ iprod_map f2 g. Proof. done. Qed. `````` Robbert Krebbers committed May 27, 2016 273 274 ``````Lemma iprod_map_id `{Finite A} {B : A → cofeT} (g : iprod B) : iprod_map (λ _, id) g = g. `````` Robbert Krebbers committed Feb 08, 2016 275 ``````Proof. done. Qed. `````` Robbert Krebbers committed May 27, 2016 276 ``````Lemma iprod_map_compose `{Finite A} {B1 B2 B3 : A → cofeT} `````` Robbert Krebbers committed Feb 08, 2016 277 278 279 280 `````` (f1 : ∀ x, B1 x → B2 x) (f2 : ∀ x, B2 x → B3 x) (g : iprod B1) : iprod_map (λ x, f2 x ∘ f1 x) g = iprod_map f2 (iprod_map f1 g). Proof. done. Qed. `````` Robbert Krebbers committed May 27, 2016 281 ``````Instance iprod_map_ne `{Finite A} {B1 B2 : A → cofeT} (f : ∀ x, B1 x → B2 x) n : `````` Robbert Krebbers committed Feb 08, 2016 282 283 284 `````` (∀ x, Proper (dist n ==> dist n) (f x)) → Proper (dist n ==> dist n) (iprod_map f). Proof. by intros ? y1 y2 Hy x; rewrite /iprod_map (Hy x). Qed. `````` Robbert Krebbers committed May 27, 2016 285 286 ``````Instance iprod_map_cmra_monotone `{Finite A} {B1 B2 : A → ucmraT} (f : ∀ x, B1 x → B2 x) : `````` Ralf Jung committed Feb 08, 2016 287 288 `````` (∀ x, CMRAMonotone (f x)) → CMRAMonotone (iprod_map f). Proof. `````` Robbert Krebbers committed Feb 26, 2016 289 `````` split; first apply _. `````` Robbert Krebbers committed Feb 26, 2016 290 `````` - intros n g Hg x; rewrite /iprod_map; apply (validN_preserving (f _)), Hg. `````` Robbert Krebbers committed Feb 26, 2016 291 `````` - intros g1 g2; rewrite !iprod_included_spec=> Hf x. `````` Ralf Jung committed Jul 25, 2016 292 `````` rewrite /iprod_map; apply (cmra_monotone _), Hf. `````` Ralf Jung committed Feb 08, 2016 293 294 ``````Qed. `````` Robbert Krebbers committed May 27, 2016 295 296 ``````Definition iprodC_map `{Finite A} {B1 B2 : A → cofeT} (f : iprod (λ x, B1 x -n> B2 x)) : `````` Robbert Krebbers committed Feb 08, 2016 297 `````` iprodC B1 -n> iprodC B2 := CofeMor (iprod_map f). `````` Robbert Krebbers committed May 27, 2016 298 299 ``````Instance iprodC_map_ne `{Finite A} {B1 B2 : A → cofeT} n : Proper (dist n ==> dist n) (@iprodC_map A _ _ B1 B2). `````` Robbert Krebbers committed Feb 08, 2016 300 301 ``````Proof. intros f1 f2 Hf g x; apply Hf. Qed. `````` Robbert Krebbers committed May 27, 2016 302 ``````Program Definition iprodCF `{Finite C} (F : C → cFunctor) : cFunctor := {| `````` Robbert Krebbers committed Mar 02, 2016 303 304 `````` cFunctor_car A B := iprodC (λ c, cFunctor_car (F c) A B); cFunctor_map A1 A2 B1 B2 fg := iprodC_map (λ c, cFunctor_map (F c) fg) `````` Ralf Jung committed Feb 08, 2016 305 ``````|}. `````` Robbert Krebbers committed Mar 07, 2016 306 ``````Next Obligation. `````` Robbert Krebbers committed May 27, 2016 307 `````` intros C ?? F A1 A2 B1 B2 n ?? g. by apply iprodC_map_ne=>?; apply cFunctor_ne. `````` Robbert Krebbers committed Mar 07, 2016 308 ``````Qed. `````` Ralf Jung committed Feb 08, 2016 309 ``````Next Obligation. `````` Robbert Krebbers committed May 27, 2016 310 `````` intros C ?? F A B g; simpl. rewrite -{2}(iprod_map_id g). `````` Robbert Krebbers committed Mar 02, 2016 311 `````` apply iprod_map_ext=> y; apply cFunctor_id. `````` Ralf Jung committed Feb 08, 2016 312 313 ``````Qed. Next Obligation. `````` Robbert Krebbers committed May 27, 2016 314 `````` intros C ?? F A1 A2 A3 B1 B2 B3 f1 f2 f1' f2' g. rewrite /= -iprod_map_compose. `````` Robbert Krebbers committed Mar 02, 2016 315 316 `````` apply iprod_map_ext=>y; apply cFunctor_compose. Qed. `````` Robbert Krebbers committed May 27, 2016 317 ``````Instance iprodCF_contractive `{Finite C} (F : C → cFunctor) : `````` Ralf Jung committed Mar 07, 2016 318 319 320 321 322 323 `````` (∀ c, cFunctorContractive (F c)) → cFunctorContractive (iprodCF F). Proof. intros ? A1 A2 B1 B2 n ?? g. by apply iprodC_map_ne=>c; apply cFunctor_contractive. Qed. `````` Robbert Krebbers committed May 27, 2016 324 325 326 ``````Program Definition iprodURF `{Finite C} (F : C → urFunctor) : urFunctor := {| urFunctor_car A B := iprodUR (λ c, urFunctor_car (F c) A B); urFunctor_map A1 A2 B1 B2 fg := iprodC_map (λ c, urFunctor_map (F c) fg) `````` Robbert Krebbers committed Mar 02, 2016 327 ``````|}. `````` Robbert Krebbers committed Mar 07, 2016 328 ``````Next Obligation. `````` Robbert Krebbers committed Mar 11, 2016 329 `````` intros C ?? F A1 A2 B1 B2 n ?? g. `````` Robbert Krebbers committed May 27, 2016 330 `````` by apply iprodC_map_ne=>?; apply urFunctor_ne. `````` Robbert Krebbers committed Mar 07, 2016 331 ``````Qed. `````` Robbert Krebbers committed Mar 02, 2016 332 ``````Next Obligation. `````` Robbert Krebbers committed Mar 11, 2016 333 `````` intros C ?? F A B g; simpl. rewrite -{2}(iprod_map_id g). `````` Robbert Krebbers committed May 27, 2016 334 `````` apply iprod_map_ext=> y; apply urFunctor_id. `````` Robbert Krebbers committed Mar 02, 2016 335 336 ``````Qed. Next Obligation. `````` Robbert Krebbers committed Mar 11, 2016 337 `````` intros C ?? F A1 A2 A3 B1 B2 B3 f1 f2 f1' f2' g. rewrite /=-iprod_map_compose. `````` Robbert Krebbers committed May 27, 2016 338 `````` apply iprod_map_ext=>y; apply urFunctor_compose. `````` Ralf Jung committed Feb 08, 2016 339 ``````Qed. `````` Robbert Krebbers committed May 27, 2016 340 341 ``````Instance iprodURF_contractive `{Finite C} (F : C → urFunctor) : (∀ c, urFunctorContractive (F c)) → urFunctorContractive (iprodURF F). `````` Ralf Jung committed Mar 07, 2016 342 343 ``````Proof. intros ? A1 A2 B1 B2 n ?? g. `````` Robbert Krebbers committed May 27, 2016 344 `````` by apply iprodC_map_ne=>c; apply urFunctor_contractive. `````` Ralf Jung committed Mar 07, 2016 345 ``Qed.``