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6 Commits

Author SHA1 Message Date
Samuel Ortion d6ee3239c8
rm moved files 2024-06-02 17:39:40 +02:00
Samuel Ortion 9d19b8a230
move 2023 attempts 2024-06-02 17:38:51 +02:00
Samuel Ortion cd72bdfd14 day6: solve both parts 2023-12-16 09:16:45 +01:00
Samuel Ortion 1c5ffa221b day5: seems to have multiple mapping 2023-12-16 08:51:08 +01:00
Samuel Ortion ff5656b694 day5: Parse maps 2023-12-10 20:18:20 +01:00
Samuel Ortion cd14389fe9 day5: Parse seeds 2023-12-10 20:05:40 +01:00
53 changed files with 832 additions and 14 deletions

17
2022/.gitignore vendored Executable file
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# Generated by Cargo
# will have compiled files and executables
debug/
target/
# Remove Cargo.lock from gitignore if creating an executable, leave it for libraries
# More information here https://doc.rust-lang.org/cargo/guide/cargo-toml-vs-cargo-lock.html
Cargo.lock
# These are backup files generated by rustfmt
**/*.rs.bk
# MSVC Windows builds of rustc generate these, which store debugging information
*.pdb
# Related to Advent of Code
input.txt

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[package]
name = "calories"
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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//! Read a file containing sets of number
//! Compute the max of the sum of each set
//! Print the result
//!
//! # Example
//! cargo run -- ../input.txt # Execute the program with the input file
use std::fs;
use std::env;
fn main() {
let args: Vec<String> = env::args().collect();
let filename = &args[1];
let contents: String = fs::read_to_string(filename)
.expect("Something went wrong reading the file");
let mut max = 0;
let mut current = 0;
for line in contents.lines() {
// Check if line is empty
if line.is_empty() {
if current > max {
max = current;
}
current = 0;
} else {
let number: i32 = line.parse().unwrap();
current += number;
}
}
println!("Max: {}", max);
}

14
2022/days/01/data.txt Executable file
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1000
2000
3000
4000
5000
6000
7000
8000
9000
10000

8
2022/days/01/snacks/Cargo.toml Executable file
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[package]
name = "snacks"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]

40
2022/days/01/snacks/src/main.rs Executable file
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//! Read a file containing sets of number
//! Get the three maximum sum of the sets
//! Print the sum of the three maximum
//!
//! # Example
//! cargo run -- ../input.txt # Execute the program with the input file
use std::fs;
use std::env;
fn main() {
let args: Vec<String> = env::args().collect();
let filename = &args[1];
let contents: String = fs::read_to_string(filename)
.expect("Something went wrong reading the file");
let mut current = 0;
let mut current_maximums = [0; 3]; // Store the three maximums
for line in contents.lines() {
// Check if line is empty
if line.is_empty() {
// Check if current is greater than the minimum of the maximums
if current > *current_maximums.iter().min().unwrap() {
// Replace each value of the maximums by the current value if it is greater
// And keep the maximums sorted with previous maximums kept
for i in 0..3 {
if current > current_maximums[i] {
current_maximums[i] = current;
current_maximums.sort();
break;
}
}
}
current = 0;
} else {
let number: i32 = line.parse().unwrap();
current += number;
}
}
println!("Max: {}", current_maximums.iter().sum::<i32>());
}

3
2022/days/02/data.txt Executable file
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A Y
B X
C Z

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[package]
name = "guess-rock-paper-scissors"
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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//! # Guess the Rock Paper Scissors Game
//! We get the other player choice and wether to win or lose
//! we replace the game result with our player chose
//! and print the result
use std::fs;
use std::env;
mod rps;
fn main() {
let args: Vec<String> = env::args().collect();
let filename = &args[1];
let contents: String = fs::read_to_string(filename)
.expect("Something went wrong reading the file");
rps::guess_game(&contents);
}

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/// Guess what the other player will play
/// Accordinhg to the result
/// and the first player choice
/// 'X' means lose
/// 'Y' means draw
/// 'Z' means win
///
/// 'A' means Rock
/// 'B' means Paper
/// 'C' means Scissors
fn guess(player: char, result: char) -> char {
let available_moves = "ABC";
let available_results = "XYZ";
let move_index = available_moves.find(player).unwrap();
let result_index = available_results.find(result).unwrap();
let new_move_index = (move_index + result_index) % 3;
available_moves.chars().nth(new_move_index).unwrap()
}
pub fn guess_game(content: &str) {
for line in content.lines() {
}
}

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[package]
name = "rock-paper-scissors"
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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//! # Read a file containing a set of 'Rock Paper Scissors' play
//!
//! ## Example
//! ```bash
//! cargo run -- ../input.txt # Execute the program with the input file
//! ```
use std::fs;
use std::env;
mod rps;
fn main() {
let args: Vec<String> = env::args().collect();
let filename = &args[1];
let contents: String = fs::read_to_string(filename)
.expect("Something went wrong reading the file");
println!("{}", rps::compute_game_score(&contents));
}

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//! # Compute score given by a specific play of 'Rock Paper Scissors'
//!
//! For instance:
//!
//! ```text
//! A Y
//! B X
//! C Z
//! ```
//! Where A is what the other player plays, Y is what the second player plays on the first round
//!
//! A corresponds to Rock, B to Paper, C to Scissors.
//!
//! Similarly Y corresponds to Rock, X to Paper, Z to Scissors.
//!
//! Scissors beats Paper, Paper beats Rock, Rock beats Scissors
//!
//! - A Win gives 6 points
//! - A Draw gives 3 points
//! - A Lose gives 0 points
//!
//! - Playing Rock gives 1 points
//! - Playing Paper gives 2 points
//! - Playing Scissors gives 3 points
//!
/// Compute the score of a game round
pub fn compute_score(other_player: char, second_player: char) -> u32 {
let mut score = 0;
let other_available_moves = "ABC";
let my_available_moves = "XYZ";
let other_move_index = other_available_moves.find(other_player).unwrap();
let moves_points = [1, 2, 3];
let move_point_index = my_available_moves.find(second_player).unwrap();
// println!("Move point index: {}", move_point_index);
let move_point = moves_points[move_point_index];
score += move_point;
let my_move_index = my_available_moves.find(second_player).unwrap();
let has_won = my_move_index == (other_move_index + 1) % 3;
if has_won {
score += 6;
} else if other_move_index == my_move_index {
score += 3;
}
// else score += 0;
score
}
/// Compute the score of a game
pub fn compute_game_score(game: &str) -> u32 {
let mut score = 0;
for line in game.lines() {
let parts = line.split_whitespace();
let other_player = parts.clone().nth(0).unwrap().chars().nth(0).unwrap();
let second_player = parts.clone().nth(1).unwrap().chars().nth(0).unwrap();
// print!("{} vs {} ", other_player, second_player);
score += compute_score(other_player, second_player);
}
score
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_compute_score() {
assert_eq!(compute_score('A', 'Y'), 2+6);
// TODO add more tests
}
#[test]
fn test_compute_game_score() {
let game = "A Y";
assert_eq!(compute_game_score(game), 2+6);
// TODO add more tests
}
}

6
2022/days/03/data.txt Executable file
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vJrwpWtwJgWrhcsFMMfFFhFp
jqHRNqRjqzjGDLGLrsFMfFZSrLrFZsSL
PmmdzqPrVvPwwTWBwg
wMqvLMZHhHMvwLHjbvcjnnSBnvTQFn
ttgJtRGJQctTZtZT
CrZsJsPPZsGzwwsLwLmpwMDw

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

27
2022/days/03/rucksack/README.md Executable file
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<h2>--- Day 3: Rucksack Reorganization ---</h2><p>One Elf has the important job of loading all of the <a href="https://en.wikipedia.org/wiki/Rucksack" target="_blank">rucksacks</a> with supplies for the <span title="Where there's jungle, there's hijinxs.">jungle</span> journey. Unfortunately, that Elf didn't quite follow the packing instructions, and so a few items now need to be rearranged.</p>
<p>Each rucksack has two large <em>compartments</em>. All items of a given type are meant to go into exactly one of the two compartments. The Elf that did the packing failed to follow this rule for exactly one item type per rucksack.</p>
<p>The Elves have made a list of all of the items currently in each rucksack (your puzzle input), but they need your help finding the errors. Every item type is identified by a single lowercase or uppercase letter (that is, <code>a</code> and <code>A</code> refer to different types of items).</p>
<p>The list of items for each rucksack is given as characters all on a single line. A given rucksack always has the same number of items in each of its two compartments, so the first half of the characters represent items in the first compartment, while the second half of the characters represent items in the second compartment.</p>
<p>For example, suppose you have the following list of contents from six rucksacks:</p>
<pre><code>vJrwpWtwJgWrhcsFMMfFFhFp
jqHRNqRjqzjGDLGLrsFMfFZSrLrFZsSL
PmmdzqPrVvPwwTWBwg
wMqvLMZHhHMvwLHjbvcjnnSBnvTQFn
ttgJtRGJQctTZtZT
CrZsJsPPZsGzwwsLwLmpwMDw
</code></pre>
<ul>
<li>The first rucksack contains the items <code>vJrwpWtwJgWrhcsFMMfFFhFp</code>, which means its first compartment contains the items <code>vJrwpWtwJgWr</code>, while the second compartment contains the items <code>hcsFMMfFFhFp</code>. The only item type that appears in both compartments is lowercase <code><em>p</em></code>.</li>
<li>The second rucksack's compartments contain <code>jqHRNqRjqzjGDLGL</code> and <code>rsFMfFZSrLrFZsSL</code>. The only item type that appears in both compartments is uppercase <code><em>L</em></code>.</li>
<li>The third rucksack's compartments contain <code>PmmdzqPrV</code> and <code>vPwwTWBwg</code>; the only common item type is uppercase <code><em>P</em></code>.</li>
<li>The fourth rucksack's compartments only share item type <code><em>v</em></code>.</li>
<li>The fifth rucksack's compartments only share item type <code><em>t</em></code>.</li>
<li>The sixth rucksack's compartments only share item type <code><em>s</em></code>.</li>
</ul>
<p>To help prioritize item rearrangement, every item type can be converted to a <em>priority</em>:</p>
<ul>
<li>Lowercase item types <code>a</code> through <code>z</code> have priorities 1 through 26.</li>
<li>Uppercase item types <code>A</code> through <code>Z</code> have priorities 27 through 52.</li>
</ul>
<p>In the above example, the priority of the item type that appears in both compartments of each rucksack is 16 (<code>p</code>), 38 (<code>L</code>), 42 (<code>P</code>), 22 (<code>v</code>), 20 (<code>t</code>), and 19 (<code>s</code>); the sum of these is <code><em>157</em></code>.</p>
<p>Find the item type that appears in both compartments of each rucksack. <em>What is the sum of the priorities of those item types?</em>

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//! # Rucksack Reorganizatio
//!
//! Read a file containing a list of items in a set of rucksacks
//! compute the sum of priorities of items that are in both compartiments
//! where each sack is divided into two equally sized compartiments
//!
//! ## Example
//! ```bash
//! cargo run -- ../input.txt # Execute the program with the input file
//! ```
use std::fs;
use std::env;
mod rucksack;
fn main() {
let args: Vec<String> = env::args().collect();
let filename = &args[1];
let contents: String = fs::read_to_string(filename)
.expect("Something went wrong reading the file");
println!("{}", rucksack::sum_priorities_items_both_compartiments(&contents));
}

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/// lowercase `a` to `z` have priorities 1 to 26, uppercase `A` through `Z` have priority 27 through 52.
fn priority(item: char) -> u32 {
let value: u32;
if item.is_lowercase() {
value = item as u32 - 96;
} else {
value = item as u32 - 64 + 26;
}
value
}
pub fn sum_priorities_items_both_compartiments(sacks: &str) -> u32 {
let mut sum: u32 = 0;
for sack in sacks.lines() {
let middle_index: usize = sack.len() / 2;
let first_compartiment: &str = &sack[..middle_index];
let second_compartiment: &str = &sack[middle_index..];
for item in first_compartiment.chars() {
if second_compartiment.contains(item) {
sum += priority(item);
break;
}
}
}
sum
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_priority() {
assert_eq!(priority('a'), 1);
assert_eq!(priority('z'), 26);
assert_eq!(priority('A'), 27);
assert_eq!(priority('Z'), 52);
}
#[test]
fn test_sum_priorities_items_both_compartiments() {
assert_eq!(sum_priorities_items_both_compartiments("aAa"), 1);
assert_eq!(sum_priorities_items_both_compartiments("AbilABC"), 27);
}
}

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[package]
name = "camp-cleanup"
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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<h2>--- Day 4: Camp Cleanup ---</h2><p>Space needs to be cleared before the last supplies can be unloaded from the ships, and so several Elves have been assigned the job of cleaning up sections of the camp. Every section has a unique <em>ID number</em>, and each Elf is assigned a range of section IDs.</p>
<p>However, as some of the Elves compare their section assignments with each other, they've noticed that many of the assignments <em>overlap</em>. To try to quickly find overlaps and reduce duplicated effort, the Elves pair up and make a <em>big list of the section assignments for each pair</em> (your puzzle input).</p>
<p>For example, consider the following list of section assignment pairs:</p>
<pre><code>2-4,6-8
2-3,4-5
5-7,7-9
2-8,3-7
6-6,4-6
2-6,4-8
</code></pre>
<p>For the first few pairs, this list means:</p>
<ul>
<li>Within the first pair of Elves, the first Elf was assigned sections <code>2-4</code> (sections <code>2</code>, <code>3</code>, and <code>4</code>), while the second Elf was assigned sections <code>6-8</code> (sections <code>6</code>, <code>7</code>, <code>8</code>).</li>
<li>The Elves in the second pair were each assigned two sections.</li>
<li>The Elves in the third pair were each assigned three sections: one got sections <code>5</code>, <code>6</code>, and <code>7</code>, while the other also got <code>7</code>, plus <code>8</code> and <code>9</code>.</li>
</ul>
<p>This example list uses single-digit section IDs to make it easier to draw; your actual list might contain larger numbers. Visually, these pairs of section assignments look like this:</p>
<pre><code>.234..... 2-4
.....678. 6-8
.23...... 2-3
...45.... 4-5
....567.. 5-7
......789 7-9
.2345678. 2-8
..34567.. 3-7
.....6... 6-6
...456... 4-6
.23456... 2-6
...45678. 4-8
</code></pre>
<p>Some of the pairs have noticed that one of their assignments <em>fully contains</em> the other. For example, <code>2-8</code> fully contains <code>3-7</code>, and <code>6-6</code> is fully contained by <code>4-6</code>. In pairs where one assignment fully contains the other, one Elf in the pair would be exclusively cleaning sections their partner will already be cleaning, so these seem like the most in need of reconsideration. In this example, there are <code><em>2</em></code> such pairs.</p>
<p><em>In how many assignment pairs does one range fully contain the other?</em></p>

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//! Camp Cleanup
//! ===========other_range
fn is_contained_in(one_range: [u32; 2], other_range: [u32; 2]) -> bool {
(one_range[0] >= other_range[0] && one_range[1] <= other_range[1]) || (other_range[0] >= one_range[0] && other_range[1] <= one_range[1])
}
pub fn count_lazy_elves(elf_pairs: &str) -> u32 {
let mut lazy_elves_counter: u32 = 0;
for elf_pair in elf_pairs.lines() {
let pair_split = elf_pair.split(',');
// Get each elves as a vector of 2 u32
let one_elf: Vec<u32> = pair_split.clone()
.nth(0)
.unwrap()
.split('-')
.map(|s| s.parse().unwrap())
.collect();
let other_elf: Vec<u32> = pair_split.clone()
.nth(1)
.unwrap()
.split('-')
.map(|s| s.parse().unwrap())
.collect();
if is_contained_in([one_elf[0], one_elf[1]], [other_elf[0], other_elf[1]]) {
lazy_elves_counter += 1;
}
}
lazy_elves_counter
}

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//! Find Elves that can be lazy
//!
//! Lazy Elves are Elves whose given section ID range are completely contained
//! by its pair mate section ID range.
//!
//! The input file is a list of Elf section ID ranges, a pair at a line
//!
//! ## Example
//! ```bash
//! cargo run -- ../input.txt # Execute the program with the input file
//! ```
use std::fs;
use std::env;
mod camp;
fn main() {
let args: Vec<String> = env::args().collect();
let filename = &args[1];
let contents: String = fs::read_to_string(filename)
.expect("Something went wrong reading the file");
println!("{}", camp::count_lazy_elves(&contents));
}

6
2022/days/04/data.txt Executable file
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2-4,6-8
2-3,4-5
5-7,7-9
2-8,3-7
6-6,4-6
2-6,4-8

9
2022/days/05/data/sample.txt Executable file
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[D]
[N] [C]
[Z] [M] [P]
1 2 3
move 1 from 2 to 1
move 3 from 1 to 3
move 2 from 2 to 1
move 1 from 1 to 2

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[package]
name = "supply-stacks"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
queues = "1.1.0"

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//! # Day 5: Supply Stacks
use std::collections::VecDeque;
fn extract_crates_in_layer(layer: &str, piles_number: usize) -> Vec<char> {
let mut crates: Vec<char> = Vec::with_capacity(piles_number);
for i in 0..piles_number {
let crate_name_idx: usize = i * 4 + 1;
let crate_name: char = layer.chars().nth(crate_name_idx).unwrap();
crates[i] = crate_name;
}
crates
}
fn parse_crates_piles(entrepot: &str) -> Vec<VecDeque<char>> {
let mut piles: Vec<VecDeque<char>> = Vec::new();
let mut number_of_piles: usize = 0;
let mut entrepot_layers = entrepot.lines();
let last_line = entrepot_layers.nth_back(0);
let piles_number: usize = (last_line.expect("reason").len() + 1) / 4 as usize;
for pile_idx in 0..piles_number {
piles[pile_idx] = VecDeque::new();
}
let j = 0;
let number_of_layers: usize = entrepot_layers.clone().count();
for layer in entrepot_layers {
if j != number_of_layers - 1 {
// Not the last line
let crates = extract_crates_in_layer(layer, piles_number);
// Enqueue below the pile
for pile_idx in 0..crates.len() {
piles[pile_idx].push_back(crates[pile_idx]);
}
}
}
piles
}
fn main() {
let input_file = "../data/sample.txt";
}

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0
days/02/part1.py → 2023/days/02/part1.py Normal file → Executable file
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0
days/02/part1/cube.pl → 2023/days/02/part1/cube.pl Normal file → Executable file
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days/02/part2.py → 2023/days/02/part2.py Normal file → Executable file
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days/03/part1.py → 2023/days/03/part1.py Normal file → Executable file
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days/03/part2.py → 2023/days/03/part2.py Normal file → Executable file
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0
days/04/part1.pl → 2023/days/04/part1.pl Normal file → Executable file
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days/04/part2.py → 2023/days/04/part2.py Normal file → Executable file
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2023/days/05/Makefile Executable file
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##
# Project Title
#
# @file
# @version 0.1
SOURCE=part1
run:
ocamlopt $(SOURCE).ml -o $(SOURCE)
./$(SOURCE)
# end

BIN
2023/days/05/part1 Executable file

Binary file not shown.

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2023/days/05/part1.cmi Executable file

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2023/days/05/part1.ml Executable file
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let file = "data/sample.txt"
let rec next previous map =
let apply destination source range value =
let delta = value - source in
destination + delta
in match map with
| [] -> None
| (destination, source, range)::q when
previous >= previous && previous <= previous + range
-> Some(apply destination source range previous)
| h::q -> next previous q
let res = next 98 [(50,98,2);(52,50,48)]
let () =
let ic = open_in file in
let line = input_line ic in
(* read line *)
print_endline line;
flush stdout;
close_in ic
with e -> close_in_noerr ic;
raise e
let () = print_endline file

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2023/days/05/part1.py Executable file
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#!/usr/bin/env python3
# day 5 - Advent of Code 2023
# part 1
import numpy as np
import pandas as pd
with open("data/sample.txt", "r") as f:
data = f.read()
parts = data.split("\n\n")
seeds = parts[0]
seeds = seeds.split(": ")[1].split()
seeds = list(map(int, seeds))
maps = [
[
[int(item) for item in values.split()]
for values in themap.split("\n")[1:]
if values != ""
]
for themap in parts[1:]
]
def recursive_min_descent(seed, maps):
current = seed
for submap in maps:
for indication in submap:
destination, source, size = indication
return current
"""
soils = list(map(lambda seed: descent(seed, maps), seeds))
seeds = range(0, 99)
df = pd.DataFrame(
dict(seed=seeds, soil=list(map(lambda seed: descent(seed, maps), seeds)))
)
"""
# Check that no map indication overlaps
for submap in maps:
for indication1 in submap:
_, start1, range1 = indication1
for indication2 in submap:
if indication1 == indication2:
continue
_, start2, range2 = indication2
if not (start2 > start1 + range1 or start1 > start2 + range2):
print("overlap")
print(df)

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[package]
name = "part1"
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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use std::fs;
fn parse_steps(lines: std::str::Lines) -> Vec<Vec<Vec<u32>>> {
let mut steps: Vec<Vec<Vec<u32>>> = Vec::new();
let mut step: Vec<Vec<u32>> = Vec::new();
for line in lines {
if line.contains("-to-") {
step = Vec::new();
steps.push(step);
} else if line != "" {
let numbers: Vec<&str> = line.split(" ").collect();
let numbers: Vec<u32> = numbers
.iter()
.map(|string| {
let number: u32 = string.parse().unwrap();
number
})
.collect();
let n = steps.len();
steps[n - 1].push(numbers);
}
}
steps
}
fn position_min(vector: Vec<u32>) -> Option<usize> {
if vector.len() == 0 {
return None;
}
let mut min_index = 0;
let mut min = vector[0];
for (i, value) in vector.iter().enumerate() {
if *value < min {
min_index = i;
min = *value;
}
}
Some(min_index)
}
fn seed_to_location(seed: u32, steps: &Vec<Vec<Vec<u32>>>) -> u32 {
let mut current: u32 = seed;
println!("{:?}", current);
for step in steps {
let mut updated = false;
for range in step {
let destination = range[0];
let source = range[1];
let size = range[2];
if current >= source && current <= source + size {
if !updated {
current = destination + current - source;
} else {
println!("Already updated?");
}
}
}
println!("{:?}", current);
}
println!("\n");
current
}
fn main() {
let filepath: &str = "../../data/sample.txt";
let contents = fs::read_to_string(filepath).expect("Should have been hable to read the file");
let mut lines = contents.lines();
let seeds: Vec<&str> = lines
.next()
.unwrap()
.split(": ")
.nth(1)
.expect("Should have a seed")
.split(" ")
.collect();
let steps = parse_steps(lines);
let seeds: Vec<u32> = seeds
.iter()
.map(|string| {
let number: u32 = string.trim().parse().unwrap();
number
})
.collect();
let locations: Vec<u32> = seeds
.iter()
.map(|seed| seed_to_location(*seed, &steps))
.collect();
let min_location = locations.iter().min();
// let min_location_index = position_min(locations).unwrap();
println!("{:?}", min_location);
}

28
2023/days/06/part1.py Executable file
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with open("data/input.txt", "r") as f:
data = f.read()
data = data.split("\n")
times = data[0].split(":")[1].split()
distances = data[1].split(":")[1].split()
times = [int(i) for i in times]
distances = [int(i) for i in distances]
# print(times)
# print(distances)
product = 1
def distance(pressed_duration, limit_duration):
return pressed_duration * (limit_duration - pressed_duration)
for time, dist in zip(times, distances):
count = 0
for i in range(0, time + 1):
if distance(i, time) > dist:
count += 1
product *= count
print(product)

28
2023/days/06/part2.py Executable file
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with open("data/sample.txt", "r") as f:
data = f.read()
data = data.split("\n")
times = data[0].split(":")[1].replace(" ", "").split()
distances = data[1].split(":")[1].replace(" ", "").split()
times = [int(i) for i in times]
distances = [int(i) for i in distances]
# print(times)
# print(distances)
product = 1
def distance(pressed_duration, limit_duration):
return pressed_duration * (limit_duration - pressed_duration)
for time, dist in zip(times, distances):
count = 0
for i in range(0, time + 1):
if distance(i, time) > dist:
count += 1
product *= count
print(product)

0
2023/days/07/part1.ml Executable file
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1
2023/days/07/rust/part1/.gitignore vendored Executable file
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@ -0,0 +1 @@
/target

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@ -0,0 +1,8 @@
[package]
name = "part1"
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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@ -0,0 +1,20 @@
use std::collections::HashMap;
use std::fs;
fn count_hashmap(card: &str) -> HashMap<char, usize> {
let count: HashMap<char, usize> = HashMap::new();
for chr in card.chars() {
count.entry(chr).and_modify(|c| *c + 1).or_insert(0);
}
return count;
}
fn greater_than(card1: &str, card2: &str) -> bool {}
fn main() {
let filepath = "../../data/input.txt";
let contents = fs::read_to_string(filepath).expect("should have been to read the file");
println!("Hello, world!");
}

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@ -1,7 +0,0 @@
# This file is automatically @generated by Cargo.
# It is not intended for manual editing.
version = 3
[[package]]
name = "part2"
version = "0.1.0"

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@ -1,7 +0,0 @@
# This file is automatically @generated by Cargo.
# It is not intended for manual editing.
version = 3
[[package]]
name = "trebuchet"
version = "0.1.0"