Solve day 9 of AoC 2024
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1
advent-of-code/2024/day_09/.gitignore
vendored
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advent-of-code/2024/day_09/.gitignore
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/build
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advent-of-code/2024/day_09/Makefile
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advent-of-code/2024/day_09/Makefile
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TARGET_EXEC := main
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BUILD_DIR := ./build
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CFLAGS := -Wall -Wextra -g
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SRCS := $(shell find . -name '*.c')
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OBJS := $(SRCS:%=$(BUILD_DIR)/%.o)
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# The final build step.
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$(BUILD_DIR)/$(TARGET_EXEC): $(OBJS)
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$(CC) $(OBJS) -o $@
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# Build step for C source
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$(BUILD_DIR)/%.c.o: %.c
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mkdir -p $(dir $@)
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$(CC) $(CFLAGS) -c $< -o $@
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.PHONY: clean
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clean:
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rm -r $(BUILD_DIR)
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advent-of-code/2024/day_09/README.md
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advent-of-code/2024/day_09/README.md
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# Day 9: Disk Fragmenter
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[Advent of Code 2024](https://adventofcode.com/2024/day/9)
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Another push of the button leaves you in the familiar hallways of some friendly amphipods!
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Good thing you each somehow got your own personal mini submarine. The Historians jet away in search of the Chief,
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mostly by driving directly into walls.
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While The Historians quickly figure out how to pilot these things, you notice an amphipod in the corner struggling with his computer.
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He's trying to make more contiguous free space by compacting all of the files, but his program isn't working; you offer to help.
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He shows you the disk map (your puzzle input) he's already generated. For example:
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```
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2333133121414131402
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```
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The disk map uses a dense format to represent the layout of files and free space on the disk.
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The digits alternate between indicating the length of a file and the length of free space.
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So, a disk map like 12345 would represent a one-block file, two blocks of free space, a three-block file, four blocks of free space,
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and then a five-block file. A disk map like 90909 would represent three nine-block files in a row (with no free space between them).
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Each file on disk also has an ID number based on the order of the files as they appear before they are rearranged, starting with ID 0.
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So, the disk map 12345 has three files: a one-block file with ID 0, a three-block file with ID 1, and a five-block file with ID 2.
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Using one character for each block where digits are the file ID and . is free space, the disk map 12345 represents these individual blocks:
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```
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0..111....22222
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```
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The first example above, `2333133121414131402`, represents these individual blocks:
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```
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00...111...2...333.44.5555.6666.777.888899
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```
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The amphipod would like to move file blocks one at a time from the end of the disk to the leftmost free space block
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(until there are no gaps remaining between file blocks). For the disk map 12345, the process looks like this:
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```
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0..111....22222
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02.111....2222.
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022111....222..
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0221112...22...
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02211122..2....
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022111222......
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```
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The first example requires a few more steps:
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```
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00...111...2...333.44.5555.6666.777.888899
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009..111...2...333.44.5555.6666.777.88889.
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0099.111...2...333.44.5555.6666.777.8888..
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00998111...2...333.44.5555.6666.777.888...
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009981118..2...333.44.5555.6666.777.88....
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0099811188.2...333.44.5555.6666.777.8.....
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009981118882...333.44.5555.6666.777.......
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0099811188827..333.44.5555.6666.77........
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00998111888277.333.44.5555.6666.7.........
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009981118882777333.44.5555.6666...........
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009981118882777333644.5555.666............
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00998111888277733364465555.66.............
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0099811188827773336446555566..............
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```
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The final step of this file-compacting process is to update the filesystem checksum.
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To calculate the checksum, add up the result of multiplying each of these blocks' position with the file ID number it contains.
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The leftmost block is in position 0. If a block contains free space, skip it instead.
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Continuing the first example, the first few blocks' position multiplied by its file ID number are
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0 * 0 = 0, 1 * 0 = 0, 2 * 9 = 18, 3 * 9 = 27, 4 * 8 = 32, and so on. In this example, the checksum is the sum of these, 1928.
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Compact the amphipod's hard drive using the process he requested. What is the resulting filesystem checksum?
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## Part Two
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Upon completion, two things immediately become clear.
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First, the disk definitely has a lot more contiguous free space, just like the amphipod hoped.
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Second, the computer is running much more slowly! Maybe introducing all of that file system fragmentation was a bad idea?
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The eager amphipod already has a new plan: rather than move individual blocks,
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he'd like to try compacting the files on his disk by moving whole files instead.
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This time, attempt to move whole files to the leftmost span of free space blocks that could fit the file.
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Attempt to move each file exactly once in order of decreasing file ID number starting with the file with the highest file ID number.
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If there is no span of free space to the left of a file that is large enough to fit the file, the file does not move.
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The first example from above now proceeds differently:
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```
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00...111...2...333.44.5555.6666.777.888899
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0099.111...2...333.44.5555.6666.777.8888..
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0099.1117772...333.44.5555.6666.....8888..
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0099.111777244.333....5555.6666.....8888..
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00992111777.44.333....5555.6666.....8888..
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```
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The process of updating the filesystem checksum is the same; now, this example's checksum would be 2858.
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Start over, now compacting the amphipod's hard drive using this new method instead. What is the resulting filesystem checksum?
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1
advent-of-code/2024/day_09/input.txt
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advent-of-code/2024/day_09/input.txt
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File diff suppressed because one or more lines are too long
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advent-of-code/2024/day_09/lib.c
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advent-of-code/2024/day_09/lib.c
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#include <string.h>
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#include <stdlib.h>
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#include "lib.h"
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struct Vec expand_disk_map(char* input) {
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size_t input_length = strlen(input);
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size_t required_length = 0;
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for (size_t i = 0; i < input_length; i++) {
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required_length += input[i] - '0';
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}
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int* data = malloc(sizeof(int) * required_length);
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int id = 0;
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int data_idx = 0;
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for (size_t i = 0; i < input_length; i++) {
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size_t digit = input[i] - '0';
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for (size_t j = 0; j < digit; j++) {
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if (i % 2 == 0) {
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data[data_idx] = id;
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} else {
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data[data_idx] = -1;
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}
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data_idx++;
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}
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if (i % 2 == 0) {
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id++;
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}
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}
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struct Vec vec = { required_length, data };
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return vec;
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}
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void compress_fs(struct Vec vec) {
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size_t last_digit_search_start = vec.length - 1;
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for (size_t i = 0; i < vec.length; i++) {
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if (vec.data[i] != -1) {
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continue;
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}
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size_t j;
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for (j = last_digit_search_start; j > i; j--) {
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if (vec.data[j] == -1) {
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continue;
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}
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break;
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}
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if (j == i) {
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break;
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}
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last_digit_search_start = j - 1;
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vec.data[i] = vec.data[j];
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vec.data[j] = -1;
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}
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}
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/**
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* Find a range of spaces of the required length.
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* Returns the index of the start of the range.
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* Returns 0 if the range is not found.
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*/
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size_t find_space(struct Vec vec, size_t max_idx, size_t len) {
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size_t counter = 0;
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for (size_t i = 0; i <= max_idx; i++) {
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if (vec.data[i] != -1) {
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counter = 0;
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continue;
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}
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counter++;
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if (counter == len) {
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return i + 1 - counter;
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}
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}
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return 0;
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}
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void compress_fs_by_blocks(struct Vec vec) {
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int id = -1;
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size_t block_end;
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for (size_t i = vec.length - 1; i > 0; i--) {
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if (vec.data[i] == id) {
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continue;
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}
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// Last digit of the block was found.
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if (id == -1) {
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id = vec.data[i];
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block_end = i;
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continue;
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}
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// First digit of the block was found.
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size_t block_start = i + 1;
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size_t block_len = block_end - block_start + 1;
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size_t space_idx = find_space(vec, block_start - 1, block_len);
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// Space was found.
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if (space_idx != 0) {
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for (size_t si = space_idx; si < space_idx + block_len; si++) {
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vec.data[si] = id;
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}
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for (size_t bi = block_start; bi <= block_end; bi++) {
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vec.data[bi] = -1;
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}
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}
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id = vec.data[i];
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block_end = i;
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}
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}
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long calc_checksum(struct Vec vec) {
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long sum = 0;
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for (size_t i = 0; i < vec.length; i++) {
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if (vec.data[i] == -1) {
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continue;
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}
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sum += i * vec.data[i];
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}
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return sum;
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}
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struct Vec copy_vec(struct Vec vec) {
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int data_size = sizeof(int) * vec.length;
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int* data_copy = malloc(data_size);
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memcpy(data_copy, vec.data, data_size);
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struct Vec vec_copy = { vec.length, data_copy };
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return vec_copy;
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}
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advent-of-code/2024/day_09/lib.h
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advent-of-code/2024/day_09/lib.h
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#pragma once
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struct Vec{
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size_t length;
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int* data;
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};
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/**
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* Expand compressed disk map.
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* For example, expand_blocks("123") returns [0, -1, -1, 1, 1, 1].
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* The caller must free the memory of the returned array.
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*/
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struct Vec expand_disk_map(char*);
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/**
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* Compress the data in-place.
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*/
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void compress_fs(struct Vec);
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/**
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* Move the blocks in-place.
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*/
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void compress_fs_by_blocks(struct Vec);
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long calc_checksum(struct Vec);
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struct Vec copy_vec(struct Vec);
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advent-of-code/2024/day_09/main.c
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advent-of-code/2024/day_09/main.c
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include "lib.h"
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#define LINE_LEN 20000
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int main() {
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FILE* file_ptr = fopen("input.txt", "r");
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if (file_ptr == NULL) {
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printf("Can't open input file\n");
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return -1;
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}
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char input[LINE_LEN];
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fread(input, LINE_LEN, 1, file_ptr);
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size_t input_length = strlen(input);
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if (input_length < 1) {
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printf("Empty input.\n");
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return -1;
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}
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if (input_length > 0 && input[input_length-1] == '\n') {
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input[input_length-1] = '\0';
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}
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struct Vec blocks = expand_disk_map(input);
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struct Vec blocks_copy = copy_vec(blocks);
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compress_fs(blocks);
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long checksum = calc_checksum(blocks);
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printf("Part 1: %ld\n", checksum);
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compress_fs_by_blocks(blocks_copy);
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checksum = calc_checksum(blocks_copy);
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printf("Part 2: %ld\n", checksum);
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free(blocks.data);
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free(blocks_copy.data);
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fclose(file_ptr);
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return 0;
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}
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