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(* Title: HoTT/Proj.thy
Author: Josh Chen
Date: Jun 2018
Projection functions \<open>fst\<close> and \<open>snd\<close> for the dependent sum type.
*)
theory Proj
imports
HoTT_Methods
Prod
Sum
begin
axiomatization fst :: "Term \<Rightarrow> Term" where fst_def: "fst \<equiv> \<lambda>p. ind\<^sub>\<Sum>(\<lambda>x y. x)(p)"
axiomatization snd :: "Term \<Rightarrow> Term" where snd_def: "snd \<equiv> \<lambda>p. ind\<^sub>\<Sum>(\<lambda>x y. y)(p)"
text "Typing judgments and computation rules for the dependent and non-dependent projection functions."
lemma fst_type:
assumes "\<Sum>x:A. B(x): U(i)" and "p: \<Sum>x:A. B(x)" shows "fst(p): A"
unfolding fst_def by (derive lem: assms)
lemma fst_comp:
assumes "A: U(i)" and "B: A \<longrightarrow> U(i)" and "a: A" and "b: B(a)" shows "fst(<a,b>) \<equiv> a"
unfolding fst_def
proof
show "a: A" and "b: B(a)" by fact+
qed (rule assms)+
lemma snd_type:
assumes "\<Sum>x:A. B(x): U(i)" and "p: \<Sum>x:A. B(x)" shows "snd(p): B(fst p)"
unfolding snd_def
proof
show "\<And>p. p: \<Sum>x:A. B(x) \<Longrightarrow> B(fst p): U(i)" by (derive lem: assms fst_type)
fix x y
assume asm: "x: A" "y: B(x)"
show "y: B(fst <x,y>)"
proof (subst fst_comp)
show "A: U(i)" by (wellformed lem: assms(1))
show "\<And>x. x: A \<Longrightarrow> B(x): U(i)" by (wellformed lem: assms(1))
qed fact+
qed fact
lemma snd_comp:
assumes "A: U(i)" and "B: A \<longrightarrow> U(i)" and "a: A" and "b: B(a)" shows "snd(<a,b>) \<equiv> b"
unfolding snd_def
proof
show "\<And>x y. y: B(x) \<Longrightarrow> y: B(x)" .
show "a: A" by fact
show "b: B(a)" by fact
qed (simple lem: assms)
text "Rule declarations:"
lemmas Proj_types [intro] = fst_type snd_type
lemmas Proj_comps [intro] = fst_comp snd_comp
end
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