diff options
author | Josh Chen | 2020-05-25 15:24:20 +0200 |
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committer | Josh Chen | 2020-05-25 15:24:20 +0200 |
commit | 8f47d9f3ca38a3fc2c3c462d1157866081102ce1 (patch) | |
tree | 460181389821f3286fc7082214629817d6ad3427 /spartan/theories | |
parent | 3de65af4b59e6d3cc8e74acecf704beccd54b774 (diff) |
1. equality method now uses general elimination tactic. 2. New constant `` refers to rhs of equalities.
Diffstat (limited to 'spartan/theories')
-rw-r--r-- | spartan/theories/Equivalence.thy | 6 | ||||
-rw-r--r-- | spartan/theories/Identity.thy | 140 |
2 files changed, 92 insertions, 54 deletions
diff --git a/spartan/theories/Equivalence.thy b/spartan/theories/Equivalence.thy index 73f1e0d..3415249 100644 --- a/spartan/theories/Equivalence.thy +++ b/spartan/theories/Equivalence.thy @@ -86,7 +86,7 @@ Lemma (derive) commute_homotopy: shows "(H x) \<bullet> g[p] = f[p] \<bullet> (H y)" \<comment> \<open>Need this assumption unfolded for typechecking:\<close> supply assms(8)[unfolded homotopy_def] - apply (equality \<open>p:_\<close>) + apply (eq p) focus vars x apply reduce \<comment> \<open>Here it would really be nice to have automation for transport and @@ -366,7 +366,7 @@ Lemma assumes "A: U i" "B: U i" "p: A =\<^bsub>U i\<^esub> B" shows "A \<simeq> B" - by (equality \<open>p:_\<close>) (rule equivalence_refl) + by (eq p) (rule equivalence_refl) text \<open> The following proof is wordy because (1) the typechecker doesn't rewrite, and @@ -383,7 +383,7 @@ Lemma (derive) id_imp_equiv: \<comment> \<open>Switch off auto-typechecking, which messes with universe levels\<close> supply [[auto_typechk=false]] - \<guillemotright> apply (equality \<open>p:_\<close>) + \<guillemotright> apply (eq p, typechk) \<^item> prems vars A B apply (rewrite at A in "A \<rightarrow> B" id_comp[symmetric]) apply (rewrite at B in "_ \<rightarrow> B" id_comp[symmetric]) diff --git a/spartan/theories/Identity.thy b/spartan/theories/Identity.thy index 3f16f4c..1ab12ff 100644 --- a/spartan/theories/Identity.thy +++ b/spartan/theories/Identity.thy @@ -40,16 +40,33 @@ axiomatization where lemmas [intros] = IdF IdI and - [elims "?p" (*"?x" "?y"*)] = IdE and + [elims "?p" "?a" "?b"] = IdE and [comps] = Id_comp -section \<open>Induction\<close> - -ML_file \<open>../lib/equality.ML\<close> - -method_setup equality = \<open>Scan.lift Parse.thm >> (fn (fact, _) => fn ctxt => - CONTEXT_METHOD (K (Equality.equality_context_tac fact ctxt)))\<close> +section \<open>Path induction\<close> + +method_setup eq = \<open> +Args.term >> (fn tm => fn ctxt => CONTEXT_METHOD (K ( + CONTEXT_SUBGOAL (fn (goal, i) => + let + val facts = Proof_Context.facts_of ctxt + val prems = Logic.strip_assums_hyp goal + val template = \<^const>\<open>has_type\<close> + $ tm + $ (\<^const>\<open>Id\<close> $ Var (("*?A", 0), \<^typ>\<open>o\<close>) + $ Var (("*?x", 0), \<^typ>\<open>o\<close>) + $ Var (("*?y", 0), \<^typ>\<open>o\<close>)) + val types = + map (Thm.prop_of o #1) (Facts.could_unify facts template) + @ filter (fn prem => Term.could_unify (template, prem)) prems + |> map Lib.type_of_typing + in case types of + (\<^const>\<open>Id\<close> $ _ $ x $ y)::_ => + elim_context_tac [tm, x, y] ctxt i + | _ => Context_Tactic.CONTEXT_TACTIC no_tac + end) 1))) +\<close> section \<open>Symmetry and transitivity\<close> @@ -57,7 +74,7 @@ section \<open>Symmetry and transitivity\<close> Lemma (derive) pathinv: assumes "A: U i" "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y" shows "y =\<^bsub>A\<^esub> x" - by (equality \<open>p:_\<close>) intro + by (eq p) intro lemma pathinv_comp [comps]: assumes "x: A" "A: U i" @@ -70,9 +87,9 @@ Lemma (derive) pathcomp: "p: x =\<^bsub>A\<^esub> y" "q: y =\<^bsub>A\<^esub> z" shows "x =\<^bsub>A\<^esub> z" - apply (equality \<open>p:_\<close>) + apply (eq p) focus prems vars x p - apply (equality \<open>p:_\<close>) + apply (eq p) apply intro done done @@ -82,19 +99,6 @@ lemma pathcomp_comp [comps]: shows "pathcomp A a a a (refl a) (refl a) \<equiv> refl a" unfolding pathcomp_def by reduce -text \<open>Set up \<open>sym\<close> attribute for propositional equalities:\<close> - -ML \<open> -structure Id_Sym_Attr = Sym_Attr ( - struct - val name = "sym" - val symmetry_rule = @{thm pathinv[rotated 3]} - end -) -\<close> - -setup \<open>Id_Sym_Attr.setup\<close> - section \<open>Notation\<close> @@ -113,42 +117,76 @@ translations "p \<bullet> q" \<leftharpoondown> "CONST pathcomp A x y z p q" -section \<open>Basic propositional equalities\<close> +section \<open>Calculational reasoning\<close> + +consts rhs :: \<open>'a\<close> ("''''") + +ML \<open> +local fun last_rhs ctxt = + let + val this_name = Name_Space.full_name (Proof_Context.naming_of ctxt) + (Binding.name Auto_Bind.thisN) + val this = #thms (the (Proof_Context.lookup_fact ctxt this_name)) + handle Option => [] + val rhs = case map Thm.prop_of this of + [\<^const>\<open>has_type\<close> $ _ $ (\<^const>\<open>Id\<close> $ _ $ _ $ y)] => y + | _ => Term.dummy + in + map_aterms (fn t => case t of Const (\<^const_name>\<open>rhs\<close>, _) => rhs | _ => t) + end +in val _ = Context.>> + (Syntax_Phases.term_check 5 "" (fn ctxt => map (last_rhs ctxt))) +end +\<close> + +text \<open>Set up \<open>sym\<close> attribute for propositional equalities:\<close> -(*TODO: Better integration of equality type directly into reasoning...*) +ML \<open> +structure Id_Sym_Attr = Sym_Attr ( + struct + val name = "sym" + val symmetry_rule = @{thm pathinv[rotated 3]} + end +) +\<close> + +setup \<open>Id_Sym_Attr.setup\<close> + + +section \<open>Basic propositional equalities\<close> Lemma (derive) pathcomp_left_refl: assumes "A: U i" "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y" shows "(refl x) \<bullet> p = p" - apply (equality \<open>p:_\<close>) + apply (eq p) apply (reduce; intros) done Lemma (derive) pathcomp_right_refl: assumes "A: U i" "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y" shows "p \<bullet> (refl y) = p" - apply (equality \<open>p:_\<close>) + apply (eq p) apply (reduce; intros) done Lemma (derive) pathcomp_left_inv: assumes "A: U i" "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y" shows "p\<inverse> \<bullet> p = refl y" - apply (equality \<open>p:_\<close>) + apply (eq p) apply (reduce; intros) done Lemma (derive) pathcomp_right_inv: assumes "A: U i" "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y" shows "p \<bullet> p\<inverse> = refl x" - apply (equality \<open>p:_\<close>) + apply (eq p) apply (reduce; intros) done Lemma (derive) pathinv_pathinv: assumes "A: U i" "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y" shows "p\<inverse>\<inverse> = p" - apply (equality \<open>p:_\<close>) + apply (eq p) apply (reduce; intros) done @@ -157,11 +195,11 @@ Lemma (derive) pathcomp_assoc: "A: U i" "x: A" "y: A" "z: A" "w: A" "p: x =\<^bsub>A\<^esub> y" "q: y =\<^bsub>A\<^esub> z" "r: z =\<^bsub>A\<^esub> w" shows "p \<bullet> (q \<bullet> r) = p \<bullet> q \<bullet> r" - apply (equality \<open>p:_\<close>) + apply (eq p) focus prems vars x p - apply (equality \<open>p:_\<close>) + apply (eq p) focus prems vars x p - apply (equality \<open>p:_\<close>) + apply (eq p) apply (reduce; intros) done done @@ -177,7 +215,7 @@ Lemma (derive) ap: "f: A \<rightarrow> B" "p: x =\<^bsub>A\<^esub> y" shows "f x = f y" - apply (equality \<open>p:_\<close>) + apply (eq p) apply intro done @@ -199,9 +237,9 @@ Lemma (derive) ap_pathcomp: "p: x =\<^bsub>A\<^esub> y" "q: y =\<^bsub>A\<^esub> z" shows "f[p \<bullet> q] = f[p] \<bullet> f[q]" - apply (equality \<open>p:_\<close>) + apply (eq p) focus prems vars x p - apply (equality \<open>p:_\<close>) + apply (eq p) apply (reduce; intro) done done @@ -213,7 +251,7 @@ Lemma (derive) ap_pathinv: "f: A \<rightarrow> B" "p: x =\<^bsub>A\<^esub> y" shows "f[p\<inverse>] = f[p]\<inverse>" - by (equality \<open>p:_\<close>) (reduce; intro) + by (eq p) (reduce; intro) text \<open>The next two proofs currently use some low-level rewriting.\<close> @@ -224,7 +262,7 @@ Lemma (derive) ap_funcomp: "f: A \<rightarrow> B" "g: B \<rightarrow> C" "p: x =\<^bsub>A\<^esub> y" shows "(g \<circ> f)[p] = g[f[p]]" - apply (equality \<open>p:_\<close>) + apply (eq p) apply (simp only: funcomp_apply_comp[symmetric]) apply (reduce; intro) done @@ -232,7 +270,7 @@ Lemma (derive) ap_funcomp: Lemma (derive) ap_id: assumes "A: U i" "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y" shows "(id A)[p] = p" - apply (equality \<open>p:_\<close>) + apply (eq p) apply (rewrite at "\<hole> = _" id_comp[symmetric]) apply (rewrite at "_ = \<hole>" id_comp[symmetric]) apply (reduce; intros) @@ -248,7 +286,7 @@ Lemma (derive) transport: "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y" shows "P x \<rightarrow> P y" - by (equality \<open>p:_\<close>) intro + by (eq p) intro definition transport_i ("trans") where [implicit]: "trans P p \<equiv> transport ? P ? ? p" @@ -282,7 +320,7 @@ Lemma (derive) transport_left_inv: "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y" shows "(trans P p\<inverse>) \<circ> (trans P p) = id (P x)" - by (equality \<open>p:_\<close>) (reduce; intro) + by (eq p) (reduce; intro) Lemma (derive) transport_right_inv: assumes @@ -291,7 +329,7 @@ Lemma (derive) transport_right_inv: "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y" shows "(trans P p) \<circ> (trans P p\<inverse>) = id (P y)" - by (equality \<open>p:_\<close>) (reduce; intros) + by (eq p) (reduce; intros) Lemma (derive) transport_pathcomp: assumes @@ -301,9 +339,9 @@ Lemma (derive) transport_pathcomp: "u: P x" "p: x =\<^bsub>A\<^esub> y" "q: y =\<^bsub>A\<^esub> z" shows "trans P q (trans P p u) = trans P (p \<bullet> q) u" - apply (equality \<open>p:_\<close>) + apply (eq p) focus prems vars x p - apply (equality \<open>p:_\<close>) + apply (eq p) apply (reduce; intros) done done @@ -317,7 +355,7 @@ Lemma (derive) transport_compose_typefam: "p: x =\<^bsub>A\<^esub> y" "u: P (f x)" shows "trans (\<lambda>x. P (f x)) p u = trans P f[p] u" - by (equality \<open>p:_\<close>) (reduce; intros) + by (eq p) (reduce; intros) Lemma (derive) transport_function_family: assumes @@ -329,7 +367,7 @@ Lemma (derive) transport_function_family: "u: P x" "p: x =\<^bsub>A\<^esub> y" shows "trans Q p ((f x) u) = (f y) (trans P p u)" - by (equality \<open>p:_\<close>) (reduce; intros) + by (eq p) (reduce; intros) Lemma (derive) transport_const: assumes @@ -337,7 +375,7 @@ Lemma (derive) transport_const: "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y" shows "\<Prod>b: B. trans (\<lambda>_. B) p b = b" - by (intro, equality \<open>p:_\<close>) (reduce; intro) + by (intro, eq p) (reduce; intro) definition transport_const_i ("trans'_const") where [implicit]: "trans_const B p \<equiv> transport_const ? B ? ? p" @@ -359,7 +397,7 @@ Lemma (derive) pathlift: "p: x =\<^bsub>A\<^esub> y" "u: P x" shows "<x, u> = <y, trans P p u>" - by (equality \<open>p:_\<close>) (reduce; intros) + by (eq p) (reduce; intros) definition pathlift_i ("lift") where [implicit]: "lift P p u \<equiv> pathlift ? P ? ? p u" @@ -383,7 +421,7 @@ Lemma (derive) pathlift_fst: "u: P x" "p: x =\<^bsub>A\<^esub> y" shows "fst[lift P p u] = p" - apply (equality \<open>p:_\<close>) + apply (eq p) text \<open>Some rewriting needed here:\<close> \<guillemotright> vars x y (*Here an automatic reordering tactic would be helpful*) @@ -405,7 +443,7 @@ Lemma (derive) apd: "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y" shows "trans P p (f x) = f y" - by (equality \<open>p:_\<close>) (reduce; intros; typechk) + by (eq p) (reduce; intros; typechk) definition apd_i ("apd") where [implicit]: "apd f p \<equiv> Identity.apd ? ? f ? ? p" @@ -428,7 +466,7 @@ Lemma (derive) apd_ap: "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y" shows "apd f p = trans_const B p (f x) \<bullet> f[p]" - by (equality \<open>p:_\<close>) (reduce; intro) + by (eq p) (reduce; intro) end |