Library Coq.Logic.Epsilon

This file provides indefinite description under the form of Hilbert's epsilon operator; it does not assume classical logic.

Require Import ChoiceFacts.

Set Implicit Arguments.

Hilbert's epsilon: operator and specification in one statement

Axiom epsilon_statement :
  forall (A : Type) (P : A ->Prop), inhabited A ->
    { x : A | (exists x , P x ) -> P x }.

Lemma constructive_indefinite_description :
  forall (A : Type) (P : A ->Prop),
    (exists x , P x ) -> { x : A | P x }.

Lemma small_drinkers'_paradox :
  forall (A:Type) (P:A -> Prop), inhabited A ->
    exists x , (exists x , P x ) -> P x.

Theorem iota_statement :
  forall (A : Type) (P : A ->Prop), inhabited A ->
  { x : A | (exists ! x : A , P x ) -> P x }.

Lemma constructive_definite_description :
  forall (A : Type) (P : A ->Prop),
    (exists ! x , P x ) -> { x : A | P x }.

Hilbert's epsilon operator and its specification

Definition epsilon (A : Type) (i:inhabited A) (P : A ->Prop) : A
  := proj1_sig (epsilon_statement P i).

Definition epsilon_spec (A : Type) (i:inhabited A) (P : A ->Prop) :
  (exists x , P x ) -> P (epsilon i P)
  := proj2_sig (epsilon_statement P i).

Church's iota operator and its specification

Definition iota (A : Type) (i:inhabited A) (P : A ->Prop) : A
  := proj1_sig (iota_statement P i).

Definition iota_spec (A : Type) (i:inhabited A) (P : A ->Prop) :
  (exists ! x:A , P x ) -> P (iota i P)
  := proj2_sig (iota_statement P i).

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