bookshelf/common/Bookshelf/Sequence/Geometric.lean

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/-
# References
1. Levin, Oscar. Discrete Mathematics: An Open Introduction. 3rd ed., n.d.
https://discrete.openmathbooks.org/pdfs/dmoi3-tablet.pdf.
-/
import Mathlib.Tactic.NormNum
import Mathlib.Tactic.Ring
/--[1]
A 0th-indexed geometric sequence.
-/
structure Geometric where
a₀ : Int
r : Int
namespace Geometric
/--[1]
The value of the `n`th term of an geometric sequence.
-/
def termClosed (seq : Geometric) (n : Nat) : Int := seq.a₀ * seq.r ^ n
/--[1]
The value of the `n`th term of an geometric sequence.
-/
def termRecursive : Geometric → Nat → Int
| seq, 0 => seq.a₀
| seq, (n + 1) => seq.r * (seq.termRecursive n)
/--[1]
The recursive definition and closed definitions of a geometric sequence are
equivalent.
-/
theorem term_recursive_closed (seq : Geometric) (n : Nat)
: seq.termRecursive n = seq.termClosed n :=
Nat.recOn
n
(by unfold termClosed termRecursive; norm_num)
(fun n ih => calc
seq.termRecursive (n + 1)
= seq.r * (seq.termRecursive n) := rfl
_ = seq.r * (seq.termClosed n) := by rw [ih]
_ = seq.r * (seq.a₀ * seq.r ^ n) := rfl
_ = seq.a₀ * seq.r ^ (n + 1) := by ring
_ = seq.termClosed (n + 1) := rfl)
/--[1]
Summation of the first `n` terms of a geometric sequence.
-/
def sum : Geometric → Nat → Int
| _, 0 => 0
| seq, (n + 1) => seq.termClosed n + seq.sum n
end Geometric