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nora 2023-12-07 21:03:53 +01:00
parent f88364a895
commit 3120797873
3 changed files with 286 additions and 45 deletions
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96
2023/day07/src/lib.rs
View file

@ -1,3 +1,6 @@
mod sort_key;
mod unstable_sort;
use std::cmp::{self, Ordering};
use helper::{Day, IteratorExt, Variants};
@ -11,10 +14,14 @@ struct Day07;
helper::define_variants! {
day => crate::Day07;
part1 {
basic => crate::part1;
basic => crate::part1, sample_count=10000;
unstable_sort => crate::unstable_sort::part1, sample_count=10000;
card_soa => crate::sort_key::part1, sample_count=10000;
}
part2 {
basic => crate::part2;
basic => crate::part2, sample_count=10000;
unstable_sort => crate::unstable_sort::part2, sample_count=10000;
card_soa => crate::sort_key::part2, sample_count=10000;
}
}
@ -28,7 +35,7 @@ impl Day for Day07 {
}
}
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)]
#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)]
enum HandType {
FiveSame = 0,
FourSame,
@ -46,48 +53,47 @@ struct Hand {
bid: u64,
}
impl HandType {
fn of(hand: [u8; 5], has_jokers: bool) -> Self {
let mut map: [Option<(u8, u8)>; 5] = [None; 5];
let mut jokers = 0;
fn hand_type_of(hand: [u8; 5], has_jokers: bool) -> HandType {
let mut card_type = [0; 5];
let mut counts = [0; 5];
let mut jokers = 0;
for card in hand {
if card == b'J' && has_jokers {
jokers += 1;
continue;
}
if let Some(existing) = map.iter_mut().find(|c| c.is_some_and(|c| c.0 == card)) {
existing.as_mut().unwrap().1 += 1;
} else {
let idx = map.iter().position(|c| c.is_none()).unwrap();
map[idx] = Some((card, 1));
}
for card in hand {
if card == b'J' && has_jokers {
jokers += 1;
continue;
}
map.sort_by_key(|c| cmp::Reverse(c.map(|c| c.1)));
let map = map.map(|c| c.map_or(0, |c| c.1));
if map[0] + jokers == 5 {
Self::FiveSame
} else if map[0] + jokers == 4 {
Self::FourSame
// If there are only cards of two types + jokers, then we can form a full house
// no matter how they're set up.
} else if map[0] + map[1] + jokers == 5 {
Self::FullHouse
} else if map[0] + jokers == 3 {
Self::ThreeSame
// We need four cards for a two pair. Given that the previous constellations
// are not possible, we are able to build a two pair.
} else if map[0] + map[1] + jokers == 4 {
Self::TwoPair
// Fun fact: This == is fine and needn't be >=, because if map[0]+jokers==3,
// then we can build two pairs.
} else if map[0] + jokers == 2 {
Self::OnePair
if let Some(existing) = card_type.into_iter().position(|c| c == card) {
counts[existing] += 1;
} else {
Self::HighCard
let idx = card_type.into_iter().position(|c| c == 0).unwrap();
card_type[idx] = card;
counts[idx] = 1_u8;
}
}
counts.sort_by_key(|&c| cmp::Reverse(c));
if counts[0] + jokers == 5 {
HandType::FiveSame
} else if counts[0] + jokers == 4 {
HandType::FourSame
// If there are only cards of two types + jokers, then we can form a full house
// no matter how they're set up.
} else if counts[0] + counts[1] + jokers == 5 {
HandType::FullHouse
} else if counts[0] + jokers == 3 {
HandType::ThreeSame
// We need four cards for a two pair. Given that the previous constellations
// are not possible, we are able to build a two pair.
} else if counts[0] + counts[1] + jokers == 4 {
HandType::TwoPair
// Fun fact: This == is fine and needn't be >=, because if map[0]+jokers==3,
// then we can build two pairs.
} else if counts[0] + jokers == 2 {
HandType::OnePair
} else {
HandType::HighCard
}
}
#[cfg(test)]
@ -96,9 +102,9 @@ mod tests {
#[test]
fn hand_type() {
assert_eq!(HandType::of(*b"32T3K", false), HandType::OnePair);
assert_eq!(HandType::of(*b"K6KK6", false), HandType::FullHouse);
assert_eq!(HandType::of(*b"KTJJT", true), HandType::FourSame);
assert_eq!(super::hand_type_of(*b"32T3K", false), HandType::OnePair);
assert_eq!(super::hand_type_of(*b"K6KK6", false), HandType::FullHouse);
assert_eq!(super::hand_type_of(*b"KTJJT", true), HandType::FourSame);
}
}
@ -111,7 +117,7 @@ fn parse(input: &str, has_jokers: bool) -> Vec<Hand> {
let bid = parts.next().unwrap().parse().unwrap();
let values = cards.bytes().collect_array::<5>().unwrap();
let hand_type = HandType::of(values, has_jokers);
let hand_type = hand_type_of(values, has_jokers);
Hand {
values,
@ -174,7 +180,7 @@ helper::tests! {
}
part2 {
small => 5905;
default => 0;
default => 248781813;
}
}
helper::benchmarks! {}

111
2023/day07/src/sort_key.rs Normal file
View file

@ -0,0 +1,111 @@
use std::cmp::{self};
use helper::IteratorExt;
use crate::{Hand, HandType};
fn hand_type_of(hand: [u8; 5], has_jokers: bool) -> HandType {
let mut card_type = [0; 5];
let mut counts = [0; 5];
let mut jokers = 0;
for card in hand {
if card == b'J' && has_jokers {
jokers += 1;
continue;
}
if let Some(existing) = card_type.into_iter().position(|c| c == card) {
counts[existing] += 1;
} else {
let idx = card_type.into_iter().position(|c| c == 0).unwrap();
card_type[idx] = card;
counts[idx] = 1_u8;
}
}
counts.sort_unstable_by_key(|&c| cmp::Reverse(c));
if counts[0] + jokers == 5 {
HandType::FiveSame
} else if counts[0] + jokers == 4 {
HandType::FourSame
// If there are only cards of two types + jokers, then we can form a full house
// no matter how they're set up.
} else if counts[0] + counts[1] + jokers == 5 {
HandType::FullHouse
} else if counts[0] + jokers == 3 {
HandType::ThreeSame
// We need four cards for a two pair. Given that the previous constellations
// are not possible, we are able to build a two pair.
} else if counts[0] + counts[1] + jokers == 4 {
HandType::TwoPair
// Fun fact: This == is fine and needn't be >=, because if map[0]+jokers==3,
// then we can build two pairs.
} else if counts[0] + jokers == 2 {
HandType::OnePair
} else {
HandType::HighCard
}
}
#[cfg(test)]
mod tests {
use crate::HandType;
#[test]
fn hand_type() {
assert_eq!(super::hand_type_of(*b"32T3K", false), HandType::OnePair);
assert_eq!(super::hand_type_of(*b"K6KK6", false), HandType::FullHouse);
assert_eq!(super::hand_type_of(*b"KTJJT", true), HandType::FourSame);
}
}
fn parse(input: &str, has_jokers: bool) -> Vec<Hand> {
input
.lines()
.map(|line| {
let mut parts = line.split_ascii_whitespace();
let cards = parts.next().unwrap();
let bid = parts.next().unwrap().parse().unwrap();
let values = cards.bytes().collect_array::<5>().unwrap();
let hand_type = hand_type_of(values, has_jokers);
Hand {
values,
hand_type,
bid,
}
})
.collect()
}
fn evaluate_hands(hands: &mut [Hand], has_jokers: bool) -> u64 {
// Worst hand first, best hand last.
hands.sort_unstable_by_key(|hand| {
let mk_compare = |v| match v {
b'A' => b'Z',
b'K' => b'Y',
b'T' => b'I',
b'J' if has_jokers => b'0',
other => other,
};
cmp::Reverse((hand.hand_type, cmp::Reverse(hand.values.map(mk_compare))))
});
hands
.iter()
.zip(1_u64..)
.map(|(hand, i)| hand.bid * i)
.sum()
}
pub fn part1(input: &str) -> u64 {
let mut hands = parse(input, false);
evaluate_hands(&mut hands, false)
}
pub fn part2(input: &str) -> u64 {
let mut hands = parse(input, true);
evaluate_hands(&mut hands, true)
}

124
2023/day07/src/unstable_sort.rs Normal file
View file

@ -0,0 +1,124 @@
use std::cmp::{self, Ordering};
use helper::IteratorExt;
use crate::{Hand, HandType};
fn hand_type_of(hand: [u8; 5], has_jokers: bool) -> HandType {
let mut card_type = [0; 5];
let mut counts = [0; 5];
let mut jokers = 0;
for card in hand {
if card == b'J' && has_jokers {
jokers += 1;
continue;
}
if let Some(existing) = card_type.into_iter().position(|c| c == card) {
counts[existing] += 1;
} else {
let idx = card_type.into_iter().position(|c| c == 0).unwrap();
card_type[idx] = card;
counts[idx] = 1_u8;
}
}
counts.sort_unstable_by_key(|&c| cmp::Reverse(c));
if counts[0] + jokers == 5 {
HandType::FiveSame
} else if counts[0] + jokers == 4 {
HandType::FourSame
// If there are only cards of two types + jokers, then we can form a full house
// no matter how they're set up.
} else if counts[0] + counts[1] + jokers == 5 {
HandType::FullHouse
} else if counts[0] + jokers == 3 {
HandType::ThreeSame
// We need four cards for a two pair. Given that the previous constellations
// are not possible, we are able to build a two pair.
} else if counts[0] + counts[1] + jokers == 4 {
HandType::TwoPair
// Fun fact: This == is fine and needn't be >=, because if map[0]+jokers==3,
// then we can build two pairs.
} else if counts[0] + jokers == 2 {
HandType::OnePair
} else {
HandType::HighCard
}
}
#[cfg(test)]
mod tests {
use crate::HandType;
#[test]
fn hand_type() {
assert_eq!(super::hand_type_of(*b"32T3K", false), HandType::OnePair);
assert_eq!(super::hand_type_of(*b"K6KK6", false), HandType::FullHouse);
assert_eq!(super::hand_type_of(*b"KTJJT", true), HandType::FourSame);
}
}
fn parse(input: &str, has_jokers: bool) -> Vec<Hand> {
input
.lines()
.map(|line| {
let mut parts = line.split_ascii_whitespace();
let cards = parts.next().unwrap();
let bid = parts.next().unwrap().parse().unwrap();
let values = cards.bytes().collect_array::<5>().unwrap();
let hand_type = hand_type_of(values, has_jokers);
Hand {
values,
hand_type,
bid,
}
})
.collect()
}
fn evaluate_hands(hands: &mut [Hand], has_jokers: bool) -> u64 {
// Worst hand first, best hand last.
hands.sort_unstable_by(|a, b| {
let mk_compare = |v| match v {
b'A' => b'Z',
b'K' => b'Y',
b'T' => b'I',
b'J' if has_jokers => b'0',
other => other,
};
let types = a.hand_type.cmp(&b.hand_type);
if types != Ordering::Equal {
return types.reverse();
}
for (a, b) in std::iter::zip(a.values, b.values) {
if a == b {
continue;
}
let a = mk_compare(a);
let b = mk_compare(b);
return a.cmp(&b);
}
Ordering::Equal
});
hands
.iter()
.zip(1_u64..)
.map(|(hand, i)| hand.bid * i)
.sum()
}
pub fn part1(input: &str) -> u64 {
let mut hands = parse(input, false);
evaluate_hands(&mut hands, false)
}
pub fn part2(input: &str) -> u64 {
let mut hands = parse(input, true);
evaluate_hands(&mut hands, true)
}