Solve 2021/04

master
Alfred Melch 3 years ago
parent 861dfd0bc5
commit 5dceaa5e57

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# This file is automatically @generated by Cargo.
# It is not intended for manual editing.
version = 3
[[package]]
name = "day04"
version = "0.1.0"

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[package]
name = "day04"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]

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https://adventofcode.com/2021/day/4
## \--- Day 4: Giant Squid ---
You're already almost 1.5km (almost a mile) below the surface of the ocean,
already so deep that you can't see any sunlight. What you _can_ see, however,
is a giant squid that has attached itself to the outside of your submarine.
Maybe it wants to play
[bingo](https://en.wikipedia.org/wiki/Bingo_\(American_version\))?
Bingo is played on a set of boards each consisting of a 5x5 grid of numbers.
Numbers are chosen at random, and the chosen number is _marked_ on all boards
on which it appears. (Numbers may not appear on all boards.) If all numbers in
any row or any column of a board are marked, that board _wins_. (Diagonals
don't count.)
The submarine has a _bingo subsystem_ to help passengers (currently, you and
the giant squid) pass the time. It automatically generates a random order in
which to draw numbers and a random set of boards (your puzzle input). For
example:
[code]
7,4,9,5,11,17,23,2,0,14,21,24,10,16,13,6,15,25,12,22,18,20,8,19,3,26,1
22 13 17 11 0
8 2 23 4 24
21 9 14 16 7
6 10 3 18 5
1 12 20 15 19
3 15 0 2 22
9 18 13 17 5
19 8 7 25 23
20 11 10 24 4
14 21 16 12 6
14 21 17 24 4
10 16 15 9 19
18 8 23 26 20
22 11 13 6 5
2 0 12 3 7
[/code]
After the first five numbers are drawn (`7`, `4`, `9`, `5`, and `11`), there
are no winners, but the boards are marked as follows (shown here adjacent to
each other to save space):
[code]
22 13 17 _11_ 0 3 15 0 2 22 14 21 17 24 _4_
8 2 23 _4_ 24 _9_ 18 13 17 _5_ 10 16 15 _9_ 19
21 _9_ 14 16 _7_ 19 8 _7_ 25 23 18 8 23 26 20
6 10 3 18 _5_ 20 _11_ 10 24 _4_ 22 _11_ 13 6 _5_
1 12 20 15 19 14 21 16 12 6 2 0 12 3 _7_
[/code]
After the next six numbers are drawn (`17`, `23`, `2`, `0`, `14`, and `21`),
there are still no winners:
[code]
22 13 _17_ _11_ _0_ 3 15 _0_ _2_ 22 _14_ _21_ _17_ 24 _4_
8 _2_ _23_ _4_ 24 _9_ 18 13 _17_ _5_ 10 16 15 _9_ 19
_21_ _9_ _14_ 16 _7_ 19 8 _7_ 25 _23_ 18 8 _23_ 26 20
6 10 3 18 _5_ 20 _11_ 10 24 _4_ 22 _11_ 13 6 _5_
1 12 20 15 19 _14_ _21_ 16 12 6 _2_ _0_ 12 3 _7_
[/code]
Finally, `24` is drawn:
[code]
22 13 _17_ _11_ _0_ 3 15 _0_ _2_ 22 _14_ _21_ _17_ _24_ _4_
8 _2_ _23_ _4_ _24_ _9_ 18 13 _17_ _5_ 10 16 15 _9_ 19
_21_ _9_ _14_ 16 _7_ 19 8 _7_ 25 _23_ 18 8 _23_ 26 20
6 10 3 18 _5_ 20 _11_ 10 _24_ _4_ 22 _11_ 13 6 _5_
1 12 20 15 19 _14_ _21_ 16 12 6 _2_ _0_ 12 3 _7_
[/code]
At this point, the third board _wins_ because it has at least one complete row
or column of marked numbers (in this case, the entire top row is marked: `_14
21 17 24 4_`).
The _score_ of the winning board can now be calculated. Start by finding the
_sum of all unmarked numbers_ on that board; in this case, the sum is `188`.
Then, multiply that sum by _the number that was just called_ when the board
won, `24`, to get the final score, `188 * 24 = _4512_`.
To guarantee victory against the giant squid, figure out which board will win
first. _What will your final score be if you choose that board?_

@ -0,0 +1,19 @@
7,4,9,5,11,17,23,2,0,14,21,24,10,16,13,6,15,25,12,22,18,20,8,19,3,26,1
22 13 17 11 0
8 2 23 4 24
21 9 14 16 7
6 10 3 18 5
1 12 20 15 19
3 15 0 2 22
9 18 13 17 5
19 8 7 25 23
20 11 10 24 4
14 21 16 12 6
14 21 17 24 4
10 16 15 9 19
18 8 23 26 20
22 11 13 6 5
2 0 12 3 7

@ -0,0 +1,5 @@
22 13 17 _11_ 0 3 15 0 2 22 14 21 17 24 _4_
8 2 23 _4_ 24 _9_ 18 13 17 _5_ 10 16 15 _9_ 19
21 _9_ 14 16 _7_ 19 8 _7_ 25 23 18 8 23 26 20
6 10 3 18 _5_ 20 _11_ 10 24 _4_ 22 _11_ 13 6 _5_
1 12 20 15 19 14 21 16 12 6 2 0 12 3 _7_

@ -0,0 +1,5 @@
22 13 _17_ _11_ _0_ 3 15 _0_ _2_ 22 _14_ _21_ _17_ 24 _4_
8 _2_ _23_ _4_ 24 _9_ 18 13 _17_ _5_ 10 16 15 _9_ 19
_21_ _9_ _14_ 16 _7_ 19 8 _7_ 25 _23_ 18 8 _23_ 26 20
6 10 3 18 _5_ 20 _11_ 10 24 _4_ 22 _11_ 13 6 _5_
1 12 20 15 19 _14_ _21_ 16 12 6 _2_ _0_ 12 3 _7_

@ -0,0 +1,5 @@
22 13 _17_ _11_ _0_ 3 15 _0_ _2_ 22 _14_ _21_ _17_ _24_ _4_
8 _2_ _23_ _4_ _24_ _9_ 18 13 _17_ _5_ 10 16 15 _9_ 19
_21_ _9_ _14_ 16 _7_ 19 8 _7_ 25 _23_ 18 8 _23_ 26 20
6 10 3 18 _5_ 20 _11_ 10 _24_ _4_ 22 _11_ 13 6 _5_
1 12 20 15 19 _14_ _21_ 16 12 6 _2_ _0_ 12 3 _7_

@ -0,0 +1,601 @@
26,55,7,40,56,34,58,90,60,83,37,36,9,27,42,19,46,18,49,52,75,17,70,41,12,78,15,64,50,54,2,77,76,10,43,79,22,32,47,0,72,30,21,82,6,95,13,59,16,89,1,85,57,62,81,38,29,80,8,67,20,53,69,25,23,61,86,71,68,98,35,31,4,33,91,74,14,28,65,24,97,88,3,39,11,93,66,44,45,96,92,51,63,84,73,99,94,87,5,48
62 5 77 94 75
59 10 23 44 29
93 91 63 51 74
22 14 15 2 55
78 18 95 58 57
43 12 34 37 11
84 69 52 38 68
40 89 67 98 16
47 59 96 63 95
3 21 58 75 20
87 59 20 32 15
16 50 12 24 86
14 37 72 63 92
25 30 85 55 39
52 11 68 31 91
43 76 57 14 21
11 55 71 61 73
72 51 86 97 13
59 5 53 91 77
99 35 63 95 47
6 33 98 87 81
62 19 11 70 43
67 71 74 13 82
10 0 59 7 86
38 40 21 27 66
74 50 91 76 88
59 4 73 39 47
23 49 38 68 96
6 12 66 32 21
24 44 53 43 55
4 0 44 12 56
70 26 32 16 6
59 19 1 97 40
90 24 57 48 52
21 3 8 93 34
23 17 74 14 70
5 64 83 3 66
79 28 27 85 77
93 22 75 97 45
99 33 2 11 95
85 47 97 19 52
59 28 24 27 1
9 5 55 34 82
77 91 32 33 29
81 48 96 80 18
34 32 43 57 66
35 47 40 14 63
68 85 36 26 1
78 89 97 10 9
56 64 61 31 65
23 82 72 13 92
37 25 99 33 56
98 47 74 78 83
32 0 19 31 65
59 20 30 49 96
13 14 44 26 4
65 54 98 19 82
8 74 72 91 99
32 15 93 95 75
34 52 7 78 2
58 1 50 20 76
57 67 47 66 69
74 82 53 80 6
56 8 21 36 26
62 15 38 30 95
88 21 24 81 17
61 90 48 94 4
95 75 84 59 86
28 30 50 36 15
55 92 19 53 58
3 72 23 55 22
95 6 48 8 46
13 5 35 57 45
33 79 38 88 36
94 64 12 14 63
30 80 53 85 22
5 29 73 0 1
79 68 40 76 13
90 95 26 64 47
32 21 97 50 52
71 65 3 17 24
69 38 28 0 73
74 35 19 64 16
13 90 72 56 20
31 60 41 66 52
48 60 49 92 20
41 69 44 74 87
5 85 77 55 58
7 52 56 25 38
22 24 13 46 30
71 61 46 52 82
64 53 62 81 98
48 7 22 35 57
93 30 66 47 55
25 13 76 34 17
71 73 4 86 88
15 54 75 14 89
0 85 53 80 81
17 21 97 57 5
84 66 27 48 82
23 79 93 76 74
51 75 18 70 37
83 38 13 17 20
11 60 14 30 39
6 72 50 97 65
62 72 36 95 37
26 99 41 59 3
88 91 74 33 19
12 68 6 25 82
49 1 32 55 43
0 70 89 72 26
11 57 47 19 16
7 4 52 12 10
80 96 49 53 55
95 33 66 76 40
34 10 57 94 17
29 76 53 6 27
92 26 18 15 14
71 43 39 62 8
88 32 93 0 25
98 13 3 59 37
65 25 73 38 6
40 94 71 11 93
85 8 21 17 26
0 77 43 12 15
25 51 30 55 41
47 45 77 1 91
38 94 44 76 7
34 35 65 50 11
21 37 70 87 61
14 11 48 58 30
39 10 7 68 63
31 69 88 90 29
84 59 47 35 46
94 26 66 6 78
84 23 89 48 75
16 56 93 26 86
99 9 0 7 14
87 61 50 76 32
6 22 72 53 73
64 3 21 57 14
82 19 63 65 67
72 68 51 7 12
88 34 95 6 71
62 28 85 9 35
82 77 50 9 5
74 1 19 58 66
95 54 41 27 47
64 67 3 69 87
68 0 4 81 92
29 48 34 66 85
83 86 65 30 13
93 78 67 50 72
54 12 59 70 90
40 11 80 89 99
49 44 33 55 20
19 42 51 29 70
57 87 86 82 36
2 92 3 25 95
52 46 4 40 38
13 51 71 91 45
99 38 81 53 4
88 30 94 76 92
93 29 87 42 12
72 52 24 64 62
24 72 9 12 0
37 5 1 61 30
75 10 81 21 93
22 68 38 64 41
15 80 28 91 49
49 19 38 60 64
7 5 65 32 69
93 17 46 73 28
4 37 51 91 6
2 79 66 47 34
2 61 66 63 41
26 44 7 77 80
11 50 48 47 68
76 53 86 55 81
21 29 83 95 54
53 72 37 75 66
0 63 55 23 70
51 85 16 65 49
31 74 42 40 12
95 80 86 56 83
78 62 8 22 45
34 12 3 69 18
9 27 4 92 88
95 36 87 7 46
81 61 29 98 84
50 43 4 69 23
71 90 19 58 24
35 64 45 70 8
78 10 46 66 18
75 98 49 81 61
70 95 36 8 79
19 89 58 7 17
73 37 38 46 66
12 69 61 59 83
54 94 80 74 64
6 60 21 36 82
30 72 86 9 59
39 54 88 29 32
91 81 92 16 48
67 83 71 53 69
95 41 99 27 28
34 38 30 42 89
3 85 60 46 12
45 4 82 26 16
59 24 71 63 73
22 25 53 67 87
83 39 11 14 58
70 88 73 8 33
0 79 95 27 12
90 75 89 66 24
79 7 72 76 97
20 75 73 1 34
58 81 53 98 6
2 5 90 88 77
74 24 14 83 23
80 56 54 78 84
65 40 64 99 90
19 30 60 72 61
82 50 85 13 98
33 8 86 81 39
98 42 45 20 3
1 12 91 41 43
86 36 51 77 47
96 74 2 71 82
83 93 39 17 92
47 62 87 18 57
86 97 1 53 16
17 24 99 20 61
59 12 29 38 52
85 2 32 96 30
9 3 85 30 25
17 28 18 68 76
96 74 2 86 23
4 50 36 71 44
14 81 90 97 92
4 69 5 16 23
0 57 82 19 75
6 71 30 59 34
12 32 26 96 58
13 3 9 64 78
10 84 33 5 3
4 81 24 70 92
52 2 13 41 37
46 8 20 79 80
21 83 76 69 62
57 60 24 90 64
84 21 45 13 0
36 78 26 83 8
85 20 19 53 76
14 32 17 63 59
8 61 36 48 78
85 17 70 47 6
82 30 67 74 11
88 34 15 68 62
59 37 91 1 35
72 89 85 70 24
93 50 73 37 71
13 44 95 69 28
27 20 17 0 22
30 7 84 77 83
78 19 97 71 85
15 76 40 90 66
80 64 3 38 83
10 30 77 84 14
29 22 8 67 60
46 42 64 82 60
98 75 11 55 36
94 80 53 25 14
43 33 40 12 31
91 19 34 3 7
49 61 27 75 73
32 0 30 47 57
28 82 36 19 50
33 14 22 53 52
97 95 99 31 69
63 32 58 95 87
55 3 85 91 15
69 66 45 35 1
2 8 37 67 40
59 31 13 94 73
41 29 37 47 88
68 87 60 44 36
19 97 16 15 32
43 42 70 75 28
72 92 58 96 48
26 16 48 39 8
44 24 85 47 80
42 30 40 77 76
4 73 86 38 52
17 79 66 54 96
49 98 11 57 46
26 32 14 87 56
8 33 53 96 34
72 25 51 41 61
67 99 50 35 47
66 33 58 55 27
57 31 68 95 65
94 26 25 91 69
99 24 0 70 78
30 80 49 47 48
20 3 16 11 39
90 77 35 67 88
58 15 21 43 78
37 44 97 26 28
25 76 41 18 64
57 75 48 62 41
15 56 67 32 52
55 2 99 65 20
63 79 94 78 3
84 6 72 82 88
99 74 3 29 59
91 87 84 11 39
18 89 21 36 98
22 83 14 0 72
57 32 76 26 34
82 9 22 59 13
62 81 19 99 35
87 73 47 49 58
75 88 6 21 28
30 16 52 65 86
63 79 78 41 67
93 58 94 51 43
88 98 34 23 8
12 11 60 97 18
7 69 59 19 89
56 49 15 53 47
33 4 65 22 82
59 11 98 23 78
6 74 20 89 45
96 81 77 95 90
86 85 22 80 64
56 33 25 9 18
52 3 39 63 34
40 91 8 59 60
82 93 35 4 7
0 55 97 38 71
26 86 58 82 2
85 8 51 70 7
59 44 19 28 48
73 52 83 36 87
47 26 99 28 87
54 20 3 38 17
85 8 36 7 77
62 29 68 22 16
97 96 51 27 71
43 78 20 34 55
59 16 61 33 82
48 42 40 29 58
76 6 75 70 9
69 50 87 47 27
39 46 71 10 33
79 99 0 18 3
85 1 90 81 75
31 8 88 62 73
23 58 53 11 93
40 49 92 55 51
33 6 64 98 86
77 24 48 89 13
32 4 44 53 26
30 0 34 65 95
35 30 9 51 34
98 80 56 62 85
93 36 18 65 12
54 32 26 79 49
5 83 41 60 89
39 12 43 45 32
58 81 94 62 90
20 80 31 60 24
42 4 87 44 88
97 21 10 71 17
96 23 55 11 57
48 38 19 70 16
12 32 54 21 1
74 58 22 28 62
53 66 95 78 41
66 57 32 70 54
33 88 91 99 72
83 65 86 19 3
64 73 37 12 35
21 59 1 75 76
65 40 90 99 22
7 59 0 9 89
77 27 57 29 39
16 52 38 82 88
76 83 20 93 11
57 63 59 4 12
84 72 68 66 31
76 50 98 91 85
95 83 35 99 29
78 40 90 21 86
73 66 45 43 83
3 67 82 70 58
65 64 44 72 8
76 4 62 79 99
75 97 36 31 89
16 38 22 24 96
49 92 99 13 95
0 57 29 78 56
55 7 25 81 11
27 3 91 93 33
87 23 90 88 99
66 0 3 85 54
79 19 14 8 34
33 22 50 36 9
70 43 81 45 92
81 8 55 76 58
74 53 16 63 17
30 31 41 72 37
73 4 18 87 34
88 95 21 50 77
90 51 31 62 49
85 89 75 73 72
18 8 44 48 27
71 17 15 95 34
35 78 3 45 7
39 10 11 51 6
77 28 50 89 60
31 18 14 72 85
1 87 21 66 40
16 42 91 96 93
53 41 38 71 37
4 54 70 58 60
29 68 98 46 18
1 66 91 42 48
44 81 62 63 15
78 42 97 11 1
49 33 35 0 2
67 81 94 26 29
98 54 9 93 25
18 41 13 90 64
73 8 40 72 45
29 27 85 35 6
78 53 51 71 16
32 90 41 37 84
59 88 56 0 26
51 19 95 31 47
59 58 82 12 68
64 79 76 69 87
36 17 1 48 16
70 46 62 83 94
10 70 39 85 28
9 3 48 95 56
40 34 44 57 31
79 27 97 50 15
32 96 0 82 43
42 61 6 22 41
26 20 1 44 81
10 39 4 18 32
74 47 7 14 91
55 86 75 99 76
92 71 2 48 21
11 4 90 15 49
32 68 94 46 99
56 26 78 8 64
25 29 61 58 75
19 68 20 16 61
81 45 57 35 73
39 44 56 72 79
96 78 93 62 5
33 2 26 18 77
17 49 83 15 84
38 64 35 57 61
10 95 46 65 39
62 92 66 18 60
14 5 53 6 79
27 84 67 87 53
91 8 28 58 71
60 72 39 75 31
51 33 92 82 15
68 40 88 45 86
90 21 80 29 2
19 63 36 48 83
0 82 40 1 49
4 9 97 54 46
18 95 17 22 42
68 51 57 20 37
33 12 78 34 28
31 93 5 85 95
79 29 21 26 90
60 69 99 39 24
80 82 55 3 20
74 69 72 41 97
56 1 78 45 53
60 93 8 36 19
85 86 15 35 14
38 40 36 64 82
87 31 25 74 75
48 43 72 79 51
62 86 22 83 29
77 93 46 81 13
1 93 61 43 39
20 67 4 58 32
99 31 72 40 6
88 19 42 52 49
35 45 65 50 91

@ -0,0 +1,189 @@
use std::io::stdin;
use std::io::BufRead;
const BOARD_SIZE: usize = 5;
fn main() {
let args: Vec<String> = std::env::args().collect();
if args.len() > 1 && args[1] == "part1" {
part1();
} else {
part2();
}
}
fn part1() {
println!("Hallo Part1");
let mut numbers = String::new();
stdin().read_line(&mut numbers).ok();
let numbers = numbers.trim();
// dbg!(numbers);
let numbers: Vec<i32> = numbers.split(",").map(|num| num.parse().unwrap()).collect();
dbg!(&numbers);
stdin().read_line(&mut String::new()).ok();
let mut boards = Vec::new();
let mut board_numbers = Vec::new();
for line in stdin().lock().lines() {
let line = line.unwrap();
let line = line.trim();
if line == "" {
boards.push(Board::new(board_numbers));
board_numbers = Vec::new();
continue;
}
let mut line: Vec<i32> = line
.split_whitespace()
.map(|num| num.parse().unwrap())
.collect();
board_numbers.append(&mut line);
}
boards.push(Board::new(board_numbers));
'outer: for number in numbers {
for board in boards.iter_mut() {
board.draw(number);
if board.is_winning() {
board.print();
let sum = board.sum_of_unmarked();
let final_score = sum * number;
dbg!(final_score);
break 'outer;
}
}
}
}
fn part2() {
println!("Hallo Part2");
let mut numbers = String::new();
stdin().read_line(&mut numbers).ok();
let numbers = numbers.trim();
// dbg!(numbers);
let numbers: Vec<i32> = numbers.split(",").map(|num| num.parse().unwrap()).collect();
dbg!(&numbers);
stdin().read_line(&mut String::new()).ok();
let mut boards = Vec::new();
let mut board_numbers = Vec::new();
for line in stdin().lock().lines() {
let line = line.unwrap();
let line = line.trim();
if line == "" {
boards.push(Board::new(board_numbers));
board_numbers = Vec::new();
continue;
}
let mut line: Vec<i32> = line
.split_whitespace()
.map(|num| num.parse().unwrap())
.collect();
board_numbers.append(&mut line);
}
boards.push(Board::new(board_numbers));
for number in numbers {
for board in boards.iter_mut() {
board.draw(number);
}
if boards.len() > 1 {
boards.retain(|board| !board.is_winning());
println!("Boards after {}: {}", number, boards.len());
continue;
}
let board = &boards[0];
if board.is_winning() {
board.print();
let score = board.sum_of_unmarked();
let final_score = score * number;
dbg!(number);
dbg!(score);
dbg!(final_score);
break;
}
}
}
#[derive(Debug)]
struct Board {
numbers: [i32; BOARD_SIZE * BOARD_SIZE],
drawn: [bool; BOARD_SIZE * BOARD_SIZE],
}
impl Board {
fn new(numbers: Vec<i32>) -> Board {
Board {
numbers: numbers.try_into().unwrap(),
drawn: [false; BOARD_SIZE * BOARD_SIZE],
}
}
fn get(&self, x: usize, y: usize) -> (i32, bool) {
let idx = x * BOARD_SIZE + y;
(self.numbers[idx], self.drawn[idx])
}
fn find(&self, number: i32) -> Option<usize> {
self.numbers.iter().position(|&num| num == number)
}
fn draw(&mut self, number: i32) {
match self.find(number) {
Some(idx) => self.drawn[idx] = true,
None => (),
}
}
fn is_winning(&self) -> bool {
for row in 0..5 {
let check = self.drawn[row * 5..row * 5 + 5].iter().all(|&x| x);
if check {
return true;
}
}
for column in 0..5 {
let check = self.drawn[column..].iter().step_by(5).all(|&x| x);
if check {
return true;
}
}
return false;
}
fn sum_of_unmarked(&self) -> i32 {
let mut sum = 0;
for (idx, mark) in self.drawn.into_iter().enumerate() {
if !mark {
sum += self.numbers[idx];
}
}
return sum;
}
fn print(&self) {
for x in 0..BOARD_SIZE {
for y in 0..BOARD_SIZE {
let (num, drawn) = self.get(x, y);
let strike = match drawn {
true => "\x1b[9m",
false => "\x1b[0m",
};
print!("{}{: >2}\x1b[0m ", strike, num);
}
print!("\n");
}
}
}

@ -4,4 +4,4 @@
cd to day folder. cd to day folder.
`find . | entr -cr -s 'cat input/input | cargo run'` `find src | entr -cr -s 'cat input/input | cargo run'`

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