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-rw-r--r--hott/Eckmann_Hilton.thy21
-rw-r--r--hott/Equivalence.thy15
-rw-r--r--hott/Identity.thy28
-rw-r--r--hott/More_List.thy22
-rw-r--r--hott/Nat.thy6
5 files changed, 58 insertions, 34 deletions
diff --git a/hott/Eckmann_Hilton.thy b/hott/Eckmann_Hilton.thy
new file mode 100644
index 0000000..7355fde
--- /dev/null
+++ b/hott/Eckmann_Hilton.thy
@@ -0,0 +1,21 @@
+theory Eckmann_Hilton
+imports Identity
+
+begin
+
+Lemma (derive) left_whisker:
+ assumes "A: U i" "a: A" "b: A" "c: A"
+ shows "\<lbrakk>p: a = b; q: a = b; r: b = c; \<alpha>: p =\<^bsub>a = b\<^esub> q\<rbrakk> \<Longrightarrow> p \<bullet> r = q \<bullet> r"
+ apply (eq r)
+ focus prems prms vars x s t \<gamma>
+ proof -
+ have "t \<bullet> refl x = t" by (rule pathcomp_refl)
+ also have ".. = s" by (rule \<open>\<gamma>:_\<close>)
+ also have ".. = s \<bullet> refl x" by (rule pathcomp_refl[symmetric])
+ finally show "t \<bullet> refl x = s \<bullet> refl x" by this
+ qed
+ done
+
+
+
+end
diff --git a/hott/Equivalence.thy b/hott/Equivalence.thy
index 2975738..9e7b83a 100644
--- a/hott/Equivalence.thy
+++ b/hott/Equivalence.thy
@@ -61,6 +61,8 @@ Lemma (derive) htrans:
text \<open>For calculations:\<close>
+congruence "f ~ g" rhs g
+
lemmas
homotopy_sym [sym] = hsym[rotated 4] and
homotopy_trans [trans] = htrans[rotated 5]
@@ -81,8 +83,8 @@ Lemma (derive) commute_homotopy:
\<comment> \<open>Here it would really be nice to have automation for transport and
propositional equality.\<close>
apply (rule use_transport[where ?y="H x \<bullet> refl (g x)"])
- \<guillemotright> by (rule pathcomp_right_refl)
- \<guillemotright> by (rule pathinv) (rule pathcomp_left_refl)
+ \<guillemotright> by (rule pathcomp_refl)
+ \<guillemotright> by (rule pathinv) (rule refl_pathcomp)
\<guillemotright> by typechk
done
done
@@ -256,12 +258,12 @@ Lemma (derive) biinv_imp_qinv:
\<close>
proof -
have "g ~ g \<circ> (id B)" by reduce refl
- also have "g \<circ> (id B) ~ g \<circ> f \<circ> h"
+ also have ".. ~ g \<circ> f \<circ> h"
by (rule homotopy_funcomp_right) (rule \<open>H2:_\<close>[symmetric])
- also have "g \<circ> f \<circ> h ~ (id A) \<circ> h"
+ also have ".. ~ (id A) \<circ> h"
by (subst funcomp_assoc[symmetric])
(rule homotopy_funcomp_left, rule \<open>H1:_\<close>)
- also have "(id A) \<circ> h ~ h" by reduce refl
+ also have ".. ~ h" by reduce refl
finally have "g ~ h" by this
then have "f \<circ> g ~ f \<circ> h" by (rule homotopy_funcomp_right)
@@ -348,8 +350,7 @@ text \<open>
\<close>
Lemma
- assumes
- "A: U i" "B: U i" "p: A =\<^bsub>U i\<^esub> B"
+ assumes "A: U i" "B: U i" "p: A =\<^bsub>U i\<^esub> B"
shows "A \<simeq> B"
by (eq p) (rule equivalence_refl)
diff --git a/hott/Identity.thy b/hott/Identity.thy
index 3fef536..d60f4c2 100644
--- a/hott/Identity.thy
+++ b/hott/Identity.thy
@@ -120,25 +120,7 @@ translations
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>
+congruence "x = y" rhs y
lemmas
[sym] = pathinv[rotated 3] and
@@ -147,28 +129,28 @@ lemmas
section \<open>Basic propositional equalities\<close>
-Lemma (derive) pathcomp_left_refl:
+Lemma (derive) refl_pathcomp:
assumes "A: U i" "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y"
shows "(refl x) \<bullet> p = p"
apply (eq p)
apply (reduce; intros)
done
-Lemma (derive) pathcomp_right_refl:
+Lemma (derive) pathcomp_refl:
assumes "A: U i" "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y"
shows "p \<bullet> (refl y) = p"
apply (eq p)
apply (reduce; intros)
done
-Lemma (derive) pathcomp_left_inv:
+Lemma (derive) inv_pathcomp:
assumes "A: U i" "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y"
shows "p\<inverse> \<bullet> p = refl y"
apply (eq p)
apply (reduce; intros)
done
-Lemma (derive) pathcomp_right_inv:
+Lemma (derive) pathcomp_inv:
assumes "A: U i" "x: A" "y: A" "p: x =\<^bsub>A\<^esub> y"
shows "p \<bullet> p\<inverse> = refl x"
apply (eq p)
diff --git a/hott/More_List.thy b/hott/More_List.thy
index 2f868b8..aa57635 100644
--- a/hott/More_List.thy
+++ b/hott/More_List.thy
@@ -1,8 +1,28 @@
theory More_List
-imports Spartan.List
+imports
+ Spartan.List
+ Nat
begin
+experiment begin
+ Lemma "map (\<lambda>n: Nat. suc n) [0, suc (suc 0), suc 0] \<equiv> ?xs"
+ unfolding map_def by (subst comps)+
+end
+
+section \<open>Length\<close>
+
+definition [implicit]:
+ "len \<equiv> ListRec ? Nat 0 (\<lambda>_ _ n. suc n)"
+
+experiment begin
+ Lemma "len [] \<equiv> 0" by reduce
+ Lemma "len [0, suc 0, suc (suc 0)] \<equiv> ?n" by (subst comps)+
+end
+
+section \<open>Equality on lists\<close>
+
+(*Hmmm.*)
end
diff --git a/hott/Nat.thy b/hott/Nat.thy
index d54ea7b..c36154e 100644
--- a/hott/Nat.thy
+++ b/hott/Nat.thy
@@ -44,7 +44,7 @@ lemmas
text \<open>Non-dependent recursion\<close>
-abbreviation "NatRec C \<equiv> NatInd (K C)"
+abbreviation "NatRec C \<equiv> NatInd (\<lambda>_. C)"
section \<open>Basic arithmetic\<close>
@@ -100,10 +100,10 @@ Lemma (derive) add_comm:
shows "m + n = n + m"
apply (elim m)
\<guillemotright> by (reduce; rule add_zero[symmetric])
- \<guillemotright> prems prms vars m ih
+ \<guillemotright> prems vars m ih
proof reduce
have "suc (m + n) = suc (n + m)" by (eq ih) intro
- also have "'' = n + suc m" by (rule add_suc[symmetric])
+ also have ".. = n + suc m" by (rule add_suc[symmetric])
finally show "suc (m + n) = n + suc m" by this
qed
done