/-
Copyright (c) 2018 Simon Hudon. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Simon Hudon, Scott Morrison
-/
import tactic.solve_by_elim

example {a b : Prop} (h₀ : a → b) (h₁ : a) : b :=
begin
  apply_assumption,
  apply_assumption,
end

example {X : Type} (x : X) : x = x :=
by solve_by_elim

example : true :=
by solve_by_elim

example {a b : Prop} (h₀ : a → b) (h₁ : a) : b :=
by solve_by_elim

example {α : Type} {a b : α → Prop} (h₀ : ∀ x : α, b x = a x) (y : α) : a y = b y :=
by solve_by_elim

example {α : Type} {a b : α → Prop} (h₀ : b = a) (y : α) : a y = b y :=
by solve_by_elim

example {α : Type} {a b : α → Prop} (h₀ : b = a) (y : α) : a y = b y :=
begin
  success_if_fail { solve_by_elim only [] },
  success_if_fail { solve_by_elim only [h₀] },
  solve_by_elim only [h₀, congr_fun]
end

example {α : Type} {a b : α → Prop} (h₀ : b = a) (y : α) : a y = b y :=
by solve_by_elim [h₀]

example {α : Type} {a b : α → Prop} (h₀ : b = a) (y : α) : a y = b y :=
begin
 success_if_fail { solve_by_elim [*, -h₀] },
 solve_by_elim [*]
end

example {α β : Type} (a b : α) (f : α → β) (i : function.injective f) (h : f a = f b) : a = b :=
begin
  success_if_fail { solve_by_elim only [i] },
  success_if_fail { solve_by_elim only [h] },
  solve_by_elim only [i,h]
end

@[user_attribute]
meta def ex : user_attribute := {
  name := `ex,
  descr := "An example attribute for testing solve_by_elim."
}

@[ex] def f : ℕ := 0

example : ℕ := by solve_by_elim [f]

example : ℕ :=
begin
  success_if_fail { solve_by_elim },
  success_if_fail { solve_by_elim [-f] with ex },
  solve_by_elim with ex,
end

example {α : Type} {p : α → Prop} (h₀ : ∀ x, p x) (y : α) : p y :=
begin
  apply_assumption,
end

open tactic

example : true :=
begin
  (do gs ← get_goals,
     set_goals [],
     success_if_fail `[solve_by_elim],
     set_goals gs),
  trivial
end

example {α : Type} (r : α → α → Prop) (f : α → α → α)
  (l : ∀ a b c : α, r a b → r a (f b c) → r a c)
  (a b c : α) (h₁ : r a b) (h₂ : r a (f b c)) : r a c :=
begin
  solve_by_elim,
end

-- Verifying that `solve_by_elim*` acts on all remaining goals.
example (n : ℕ) : ℕ × ℕ :=
begin
  split,
  solve_by_elim*,
end

-- Verifying that `solve_by_elim*` backtracks when given multiple goals.
example (n m : ℕ) (f : ℕ → ℕ → Prop) (h : f n m) : ∃ p : ℕ × ℕ, f p.1 p.2 :=
begin
  repeat { split },
  solve_by_elim*,
end

example {a b c : ℕ} (h₁ : a ≤ b) (h₂ : b ≤ c) : a ≤ c :=
begin
  apply le_trans,
  solve_by_elim { backtrack_all_goals := true },
end