I have defined a function, which finds the greatest value from the natural number list and move this value to head position of the list. I am sure, all the elements in the list are less or equal to the value at head location. Then I defined index_value function,to find value in the list at any index.For clarification [4,7,11,9,11] list become [11,7,9,11].I have a problem in proving the following lemma. Plz guide me.
` Require Import Coq.Arith.PeanoNat.
Require Import Lia.
Fixpoint index_value (index: nat) (l: list nat) : nat :=
match l with
| nil => 0
| cons h t => match (Nat.eqb index 0) with
| true => h
| false => index_value (index - 1) t
end
end.
Theorem head_value : forall ( n':nat) (l:list nat),
(index_value 0 l)<= n'.
Proof.
Admitted.
Theorem index_value1:forall (n s2:nat) (l:list nat),
index_value (S s2) (n :: l) <=
index_value 0 (n :: l) \/
index_value (S s2) (n :: l) > 0.
Proof.
intros. simpl in *. left . induction s2. simpl.
appply head_value . simpl in *. auto with arith.`