lean2/tests/lean/run/fib_brec.lean

import data.nat.basic data.prod
open prod

namespace nat
  namespace manual
  definition brec_on {C : nat → Type} (n : nat) (F : Π (n : nat), @nat.below C n → C n) : C n :=
  have general : C n × @nat.below C n, from
    nat.rec_on n
      (pair (F zero unit.star) unit.star)
      (λ (n₁ : nat) (r₁ : C n₁ × @nat.below C n₁),
         have b : @nat.below C (succ n₁), from
           r₁,
         have c : C (succ n₁), from
           F (succ n₁) b,
         pair c b),
  pr₁ general
  end manual

  definition fib (n : nat) :=
  nat.brec_on n (λ (n : nat),
    nat.cases_on n
      (λ (b₀ : nat.below zero), succ zero)
      (λ (n₁ : nat), nat.cases_on n₁
          (λ b₁ : nat.below (succ zero), succ zero)
          (λ (n₂ : nat) (b₂ : nat.below (succ (succ n₂))), pr₁ b₂ + pr₁ (pr₂ b₂))))

  theorem fib_0 : fib 0 = 1 :=
  rfl

  theorem fib_1 : fib 1 = 1 :=
  rfl

  theorem fib_s_s (n : nat) : fib (succ (succ n)) = fib (succ n) + fib n :=
  rfl

  example : fib 5 = 8 :=
  rfl

  example : fib 9 = 55 :=
  rfl
end nat
-												test(tests/lean/run): fibonacci using below_rec_on (aka brec_on)

											
										
										
											2014-11-09 06:15:30 +00:00
+								import data.nat.basic data.prod
 								open prod
 								namespace nat
-												feat(library/definitional): add brec_on construction, closes #272

											
										
										
											2014-12-03 18:39:22 +00:00
+								  namespace manual
-												feat(frontends/lean): new semantics for "protected" declarations

closes #426

											
										
										
											2015-02-11 20:49:27 +00:00
+								  definition brec_on {C : nat → Type} (n : nat) (F : Π (n : nat), @nat.below C n → C n) : C n :=
 								  have general : C n × @nat.below C n, from
 								    nat.rec_on n
-												test(tests/lean/run): fibonacci using below_rec_on (aka brec_on)

											
										
										
											2014-11-09 06:15:30 +00:00
+								      (pair (F zero unit.star) unit.star)
-												feat(frontends/lean): new semantics for "protected" declarations

closes #426

											
										
										
											2015-02-11 20:49:27 +00:00
+								      (λ (n₁ : nat) (r₁ : C n₁ × @nat.below C n₁),
 								         have b : @nat.below C (succ n₁), from
-												test(tests/lean/run): fibonacci using below_rec_on (aka brec_on)

											
										
										
											2014-11-09 06:15:30 +00:00
+								           r₁,
 								         have c : C (succ n₁), from
 								           F (succ n₁) b,
 								         pair c b),
 								  pr₁ general
-												feat(library/definitional): add brec_on construction, closes #272

											
										
										
											2014-12-03 18:39:22 +00:00
+								  end manual
-												test(tests/lean/run): fibonacci using below_rec_on (aka brec_on)

											
										
										
											2014-11-09 06:15:30 +00:00
 								  definition fib (n : nat) :=
-												feat(frontends/lean): new semantics for "protected" declarations

closes #426

											
										
										
											2015-02-11 20:49:27 +00:00
+								  nat.brec_on n (λ (n : nat),
 								    nat.cases_on n
 								      (λ (b₀ : nat.below zero), succ zero)
 								      (λ (n₁ : nat), nat.cases_on n₁
 								          (λ b₁ : nat.below (succ zero), succ zero)
 								          (λ (n₂ : nat) (b₂ : nat.below (succ (succ n₂))), pr₁ b₂ + pr₁ (pr₂ b₂))))
-												test(tests/lean/run): fibonacci using below_rec_on (aka brec_on)

											
										
										
											2014-11-09 06:15:30 +00:00
 								  theorem fib_0 : fib 0 = 1 :=
 								  rfl
 								  theorem fib_1 : fib 1 = 1 :=
 								  rfl
 								  theorem fib_s_s (n : nat) : fib (succ (succ n)) = fib (succ n) + fib n :=
 								  rfl
 								  example : fib 5 = 8 :=
 								  rfl
 								  example : fib 9 = 55 :=
 								  rfl
 								end nat