//! Helper function for random number generator //! use rand::prelude::*; pub trait Rng { /// Generate random number between start and end (bot inclusive). fn roll_dice(&mut self, min: usize, max: usize) -> usize; /// Generate random number between start (inclusive) and end (exclusive). fn random_range(&mut self, start: usize, end: usize) -> usize; } impl Rng for StdRng { fn roll_dice(&mut self, min: usize, max: usize) -> usize { self.random_range(min, max+1) } fn random_range(&mut self, start: usize, end: usize) -> usize { let max = (end - start) as u32; if max == 0 { start } else { ((self.next_u32() % max) + start as u32) as usize } } } /// ------------------------------------------------------------------------------------------------ /// Module unit tests /// ------------------------------------------------------------------------------------------------ #[cfg(test)] mod tests { use rand::prelude::*; use super::Rng; #[test] fn test_range() { let mut rng = StdRng::seed_from_u64(100); let x = rng.random_range(5, 8); assert!(x >= 5 && x < 8); } #[test] fn test_range_average() { let num_op = 1000; let mut rng = StdRng::seed_from_u64(1000); let xs: Vec = (0..num_op).map(|_| rng.random_range(5, 10)).collect(); let mean = xs.iter().sum::() / num_op; let min = *xs.iter().min().expect("no min"); let max = *xs.iter().max().expect("no max"); assert_eq!(mean, 7); assert_eq!(min, 5); assert_eq!(max, 9); } #[test] fn test_roll_dice() { let num_op = 1000; let mut rng = StdRng::seed_from_u64(2000); let xs: Vec = (0..num_op).map(|_| rng.roll_dice(1, 7)).collect(); let mean = xs.iter().sum::() as f32 / num_op as f32 + 0.5; let min = *xs.iter().min().expect("no min"); let max = *xs.iter().max().expect("no max"); assert_eq!(mean as usize, 4); assert_eq!(min, 1); assert_eq!(max, 7); } }