Sorry I am new to coq. I'm wondering how to prove list concatenation is not commutative using coq?

  • Please clarify your specific problem or provide additional details to highlight exactly what you need. As it's currently written, it's hard to tell exactly what you're asking.
    – Community
    Sep 15 at 6:58

You just need to exhibit a counterexample. For instance:

Require Import Coq.Lists.List.
Import ListNotations.

Theorem list_app_is_not_commutative :
  ~ (forall A (l1 l2 : list A), l1 ++ l2 = l2 ++ l1).
intros H.
specialize (H bool [true] [false]).
simpl in H.
  • or simply (see here) intros H; discriminate (H bool [true] [false]).
    – Lolo
    Sep 8 at 14:20
  • Thanks. I tried to use exist tactic following your logic but get stuck: Theorem list_app_is_not_commutative : ~ (exists A (l1 l2 : list A), l1 ++ l2 = l2 ++ l1). Proof. exists bool [true] [false]. The error message says "Not an inductive goal with 1 constructor." Why can't I use exist tactic here?
    – Serene M
    Sep 8 at 14:30
  • exists should be on top of the negation. your goal should be exists A (l1 l2 : list A), l1 ++ l2 <> l2 ++ l1
    – Lolo
    Sep 8 at 14:44
  • Gotcha. May I ask what tactic I could use to solve the goal that contains exists?
    – Serene M
    Sep 8 at 14:48
  • the exists tactic is fine but the exists must be the top constructor of you goal otherwise it will fail with the error message you got.
    – Lolo
    Sep 8 at 15:17

Like this ?

From Coq Require Import List.

Import ListNotations.

Goal [true] ++ [false] <> [false] ++ [true].
Proof. easy. Qed.

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