ex/HoTT book/Ch1.thy


1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44

(*  Title:  HoTT/ex/HoTT book/Ch1.thy
    Author: Josh Chen
    Date:   Aug 2018

A formalization of some content of Chapter 1 of the Homotopy Type Theory book.
*)

theory Ch1
  imports "../../HoTT"
begin

chapter \<open>HoTT Book, Chapter 1\<close>

section \<open>1.6 Dependent pair types (\<Sigma>-types)\<close>

text "Prove that the only inhabitants of the \<Sigma>-type are those given by the pair constructor."

schematic_goal
  assumes "(\<Sum>x:A. B(x)): U(i)" and "p: \<Sum>x:A. B(x)"
  shows "?a: p =[\<Sum>x:A. B(x)] <fst p, snd p>"

text "Proof by induction on \<open>p: \<Sum>x:A. B(x)\<close>:"

proof (rule Sum_elim[where ?p=p])
  text "We just need to prove the base case; the rest will be taken care of automatically."

  fix x y assume asm: "x: A" "y: B(x)" show
    "refl(<x,y>): <x,y> =[\<Sum>x:A. B(x)] <fst <x,y>, snd <x,y>>"
  proof (subst (0 1) comp)
    text "
      The computation rules for \<open>fst\<close> and \<open>snd\<close> require that \<open>x\<close> and \<open>y\<close> have appropriate types.
      The automatic proof methods have trouble picking the appropriate types, so we state them explicitly,
    "
    show "x: A" and "y: B(x)" by (fact asm)+

    text "...twice, once each for the substitutions of \<open>fst\<close> and \<open>snd\<close>."
    show "x: A" and "y: B(x)" by (fact asm)+

  qed (derive lems: assms asm)

qed (derive lems: assms)


end