From 5bf7ba05386cbf42ea27ce605c24b114e46d1198 Mon Sep 17 00:00:00 2001 From: MSilva95 Date: Wed, 17 Nov 2021 13:56:09 +0000 Subject: [PATCH] changing itterators --- subjects/iterators/README.md | 69 +++++++++++++++++------------------- 1 file changed, 33 insertions(+), 36 deletions(-) diff --git a/subjects/iterators/README.md b/subjects/iterators/README.md index 4bd8776eb..d067ea589 100644 --- a/subjects/iterators/README.md +++ b/subjects/iterators/README.md @@ -2,43 +2,47 @@ ### Instructions -Create a method `new` that takes one number `usize` and initializes the `Number` struct. -This method will have to determinate if the given number is even or odd. +The Collatz Conjecture or 3x+1 problem can be summarized as follows: -After that you will implement an iterator for the struct `Number` that returns a tuple (usize,usize,usize) containing each field of the struct Number. +Take any positive integer `n`. -The first position of the tuple will have the even numbers, the second will have the odd numbers, and the third will have the factorial numbers. +- If `n` is even, you will divide `n` by 2 to get `n / 2`. +- If `n` is odd, you will multiply `n` by 3 and add 1 to get `3n + 1`. -That being said, You will have to follow this rules: +Repeat the process indefinitely. The conjecture states that no matter which number you start with, you will always reach 1 eventually. -- If the number is even you will have to calculate the factorial of the next odd number. -- If the number is odd you will have to calculate the factorial of the next even number. -- The tupple has to return all the numbers in the right positions. +But sometimes the number grow significantly before it reaches 1. This can lead to an integer overflow and makes the algorithm unsolvable within the range of a number in u64. You will not have to worry about that in this exercise. -Example: +Given a number `n`, return the number of steps required to reach 1. -If `a = 5`, 5 is odd, the next even is 6, so the factorial of 6 is 720. Your program will return the following: +Examples: -```console -Some((6, 5, 720)) -``` +Starting with n = 12, the steps would be as follows: + +0- 16 +1- 8 +2- 4 +3- 2 +4- 1 + +Resulting in 4 steps. So for input n = 16, the return value would be 4. ### Notions - [Trait Iterator](https://doc.rust-lang.org/std/iter/trait.Iterator.html) +- [Collatz Conjecture](https://pt.wikipedia.org/wiki/Conjectura_de_Collatz) ### Expected functions ```rust -impl Number { - pub fn new(nbr: usize) -> Number { +struct Collatz { + v: u64, } -} -impl Iterator for Number { - pub fn next(&mut self) -> Option {} -} +impl Iterator for Collatz {} + +pub fn collatz(n: u64) -> Option {} ``` ### Usage @@ -48,19 +52,12 @@ Here is a program to test your function. ```rust use iterators::*; -struct Number { - even: usize, - odd: usize, - fact: usize, -} - fn main() { - let mut a = Number::new(4); - println!("{:?}", a.next()); - println!("{:?}", a.next()); - println!("{:?}", a.next()); - println!("{:?}", b.next()); - println!("{:?}", b.next()); + println!("{:?}", collatz(4)); + println!("{:?}", collatz(5)); + println!("{:?}", collatz(6)); + println!("{:?}", collatz(7)); + println!("{:?}", collatz(12)); } ``` @@ -68,10 +65,10 @@ And its output: ```console $ cargo run -Some((6, 5, 720)) -Some((6, 7, 5040)) -Some((8, 7, 40320)) -Some((8, 9, 362880)) -Some((10, 9, 3628800)) +Some(2) +Some(5) +Some(8) +Some(16) +Some(9) $ ```