use rand::Rng; pub const NUM_RANKS: u8 = 13; pub const NUM_SUITS: u8 = 4; pub const NUM_CARDS: u8 = NUM_RANKS * NUM_SUITS; #[derive(Clone, Copy, Eq, PartialEq)] pub struct Rank(u8); #[derive(Clone, Copy, Eq, PartialEq)] pub struct Suit(u8); #[derive(Clone, Copy, Eq, PartialEq)] pub struct Card(u8); impl Card { #[must_use] pub fn rank(&self) -> Rank { Rank(self.0 >> 2) } #[must_use] pub fn suit(&self) -> Suit { Suit(self.0 & 3) } } #[must_use] pub fn deck() -> Vec { (0..NUM_CARDS).map(Card).collect() } #[derive(Clone, Copy)] pub struct PathLength(Rank); #[derive(Clone, Copy, Default)] pub struct PathLengthInfo(u16); impl PathLengthInfo { #[must_use] pub fn is_showing(&self, i: Rank) -> bool { (self.0 >> i.0) & 1 == 1 } fn reveal(&mut self, i: Rank) { self.0 |= 1 << i.0; } pub fn reveal_random(&mut self, true_length: PathLength) -> Option { let showing = u8::try_from(self.0.count_ones()).expect("There aren't that many bits"); let not_showing = NUM_RANKS - showing; if not_showing <= 1 { return None; } let mut show = rand::thread_rng().gen_range(0..not_showing - 1); for i in 0..NUM_RANKS { let r = Rank(i); if !self.is_showing(r) && r != true_length.0 { if show == 0 { self.reveal(r); return Some(r); } show -= 1; } } unreachable!() } } #[cfg(test)] mod tests { use super::*; #[test] fn path_length_info_random_reveal() { let length = PathLength(Rank(7)); let mut pli = PathLengthInfo::default(); for _ in 0..12 { let old_pli = PathLengthInfo::clone(&pli); match pli.reveal_random(length) { None => panic!("Nothing revealed?"), Some(r) => { assert!(!old_pli.is_showing(r)); assert!(pli.is_showing(r)); } } assert_eq!(pli.0.count_ones(), 1 + old_pli.0.count_ones()); } assert!(pli.reveal_random(length).is_none()); } #[test] fn test_deck() { let _d = deck(); } }