Require Import List.

From Undecidability.Synthetic Require Import Undecidability.

From Undecidability.Shared.Libs.DLW
   Require Import utils_tac pos vec.

From Undecidability.FRACTRAN
  Require Import FRACTRAN MM_FRACTRAN.

From Undecidability.H10.Fractran Require Import fractran_dio.
From Undecidability.H10.Dio Require Import dio_elem dio_single dio_logic.

Set Implicit Arguments.


Definition DIO_LOGIC_PROBLEM :=
  (dio_formula * (nat -> nat))%type.

Definition DIO_LOGIC_SAT (p : DIO_LOGIC_PROBLEM) :=
  let (f,ν) := p in df_pred f ν.

Theorem FRACTRAN_HALTING_DIO_LOGIC_SAT : FRACTRAN_HALTING DIO_LOGIC_SAT.
Proof.
  apply reduces_dependent; exists.
  intros (l & x).
  destruct FRACTRAN_HALTING_on_diophantine
    with (ll := l) (x := fun _ : nat -> nat => x) as (f & Hf); simpl.
  + dio_rel_auto.
  + exists (f, fun _ => x); unfold DIO_LOGIC_SAT; rewrite Hf; tauto.
Qed.


Definition DIO_ELEM_PROBLEM :=
  (list dio_constraint * (nat -> nat))%type.

Definition DIO_ELEM_SAT (p : DIO_ELEM_PROBLEM) :=
  let (l,v) := p in exists φ, Forall (dc_eval φ v) l.

Theorem DIO_LOGIC_ELEM_SAT : DIO_LOGIC_SAT DIO_ELEM_SAT.
Proof.
  apply reduces_dependent; exists.
  intros (A,v).
  destruct (dio_formula_elem A) as (l & _ & _ & Hl).
  exists (l,v); apply Hl.
Qed.

Definition DIO_SINGLE_PROBLEM :=
  (dio_single nat nat * (nat -> nat))%type.

Definition DIO_SINGLE_SAT (p : DIO_SINGLE_PROBLEM) :=
  let (E,φ) := p in dio_single_pred E φ.

Theorem DIO_ELEM_SINGLE_SAT : DIO_ELEM_SAT DIO_SINGLE_SAT.
Proof.
  apply reduces_dependent; exists.
  intros (l,v).
  destruct (dio_elem_equation l) as (E & _ & HE).
  exists (E,v).
  unfold DIO_ELEM_SAT, DIO_SINGLE_SAT.
  rewrite <- HE; tauto.
Qed.