/- Copyright (c) 2015 Jeremy Avigad. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Jeremy Avigad The power function on the integers. -/ import data.int.basic data.int.order data.int.div algebra.group_power data.nat.power namespace int section migrate_algebra open [classes] algebra local attribute int.integral_domain [instance] local attribute int.linear_ordered_comm_ring [instance] local attribute int.decidable_linear_ordered_comm_ring [instance] definition pow (a : ℤ) (n : ℕ) : ℤ := algebra.pow a n infix [priority int.prio] ^ := pow definition nmul (n : ℕ) (a : ℤ) : ℤ := algebra.nmul n a infix [priority int.prio] ⬝ := nmul definition imul (i : ℤ) (a : ℤ) : ℤ := algebra.imul i a migrate from algebra with int replacing dvd → dvd, sub → sub, has_le.ge → ge, has_lt.gt → gt, min → min, max → max, abs → abs, sign → sign, pow → pow, nmul → nmul, imul → imul hiding add_pos_of_pos_of_nonneg, add_pos_of_nonneg_of_pos, add_eq_zero_iff_eq_zero_and_eq_zero_of_nonneg_of_nonneg, le_add_of_nonneg_of_le, le_add_of_le_of_nonneg, lt_add_of_nonneg_of_lt, lt_add_of_lt_of_nonneg, lt_of_mul_lt_mul_left, lt_of_mul_lt_mul_right, pos_of_mul_pos_left, pos_of_mul_pos_right end migrate_algebra section open nat theorem of_nat_pow (a n : ℕ) : of_nat (a^n) = (of_nat a)^n := begin induction n with n ih, apply eq.refl, rewrite [pow_succ, nat.pow_succ, of_nat_mul, ih] end end end int