Add part one of day 3
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aoc21
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aoc21
@ -4,6 +4,7 @@ require __DIR__.'/vendor/autoload.php';
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use AdventOfCode21\Day1;
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use AdventOfCode21\Day2;
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use AdventOfCode21\Day3;
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use AdventOfCode21\Puzzle;
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use Symfony\Component\Console\Application;
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@ -12,5 +13,6 @@ $application = new Application();
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$application->add(new Puzzle());
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$application->add(new Day1());
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$application->add(new Day2());
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$application->add(new Day3());
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$application->run();
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1000
data/day3/data.txt
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1000
data/day3/data.txt
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File diff suppressed because it is too large
Load Diff
12
data/day3/example.txt
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12
data/day3/example.txt
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00100
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11110
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10110
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10111
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10101
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01111
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00111
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11100
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10000
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11001
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00010
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01010
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76
data/day3/puzzle.md
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76
data/day3/puzzle.md
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# Day 3: Binary Diagnostic
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[https://adventofcode.com/2021/day/3](https://adventofcode.com/2021/day/3)
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## Description
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### Part One
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The submarine has been making some <span title="Turns out oceans are heavy.">odd creaking noises</span>, so you ask it to produce a diagnostic report just in case.
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The diagnostic report (your puzzle input) consists of a list of binary numbers which, when decoded properly, can tell you many useful things about the conditions of the submarine. The first parameter to check is the _power consumption_.
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You need to use the binary numbers in the diagnostic report to generate two new binary numbers (called the _gamma rate_ and the _epsilon rate_). The power consumption can then be found by multiplying the gamma rate by the epsilon rate.
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Each bit in the gamma rate can be determined by finding the _most common bit in the corresponding position_ of all numbers in the diagnostic report. For example, given the following diagnostic report:
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00100
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11110
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10110
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10111
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10101
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01111
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00111
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11100
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10000
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11001
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00010
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01010
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Considering only the first bit of each number, there are five `0` bits and seven `1` bits. Since the most common bit is `1`, the first bit of the gamma rate is `1`.
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The most common second bit of the numbers in the diagnostic report is `0`, so the second bit of the gamma rate is `0`.
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The most common value of the third, fourth, and fifth bits are `1`, `1`, and `0`, respectively, and so the final three bits of the gamma rate are `110`.
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So, the gamma rate is the binary number `10110`, or _`22`_ in decimal.
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The epsilon rate is calculated in a similar way; rather than use the most common bit, the least common bit from each position is used. So, the epsilon rate is `01001`, or _`9`_ in decimal. Multiplying the gamma rate (`22`) by the epsilon rate (`9`) produces the power consumption, _`198`_.
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Use the binary numbers in your diagnostic report to calculate the gamma rate and epsilon rate, then multiply them together. _What is the power consumption of the submarine?_ (Be sure to represent your answer in decimal, not binary.)
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### Part Two
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Next, you should verify the _life support rating_, which can be determined by multiplying the _oxygen generator rating_ by the _CO2 scrubber rating_.
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Both the oxygen generator rating and the CO2 scrubber rating are values that can be found in your diagnostic report - finding them is the tricky part. Both values are located using a similar process that involves filtering out values until only one remains. Before searching for either rating value, start with the full list of binary numbers from your diagnostic report and _consider just the first bit_ of those numbers. Then:
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* Keep only numbers selected by the _bit criteria_ for the type of rating value for which you are searching. Discard numbers which do not match the bit criteria.
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* If you only have one number left, stop; this is the rating value for which you are searching.
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* Otherwise, repeat the process, considering the next bit to the right.
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The _bit criteria_ depends on which type of rating value you want to find:
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* To find _oxygen generator rating_, determine the _most common_ value (`0` or `1`) in the current bit position, and keep only numbers with that bit in that position. If `0` and `1` are equally common, keep values with a _`1`_ in the position being considered.
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* To find _CO2 scrubber rating_, determine the _least common_ value (`0` or `1`) in the current bit position, and keep only numbers with that bit in that position. If `0` and `1` are equally common, keep values with a _`0`_ in the position being considered.
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For example, to determine the _oxygen generator rating_ value using the same example diagnostic report from above:
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* Start with all 12 numbers and consider only the first bit of each number. There are more `1` bits (7) than `0` bits (5), so keep only the 7 numbers with a `1` in the first position: `11110`, `10110`, `10111`, `10101`, `11100`, `10000`, and `11001`.
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* Then, consider the second bit of the 7 remaining numbers: there are more `0` bits (4) than `1` bits (3), so keep only the 4 numbers with a `0` in the second position: `10110`, `10111`, `10101`, and `10000`.
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* In the third position, three of the four numbers have a `1`, so keep those three: `10110`, `10111`, and `10101`.
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* In the fourth position, two of the three numbers have a `1`, so keep those two: `10110` and `10111`.
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* In the fifth position, there are an equal number of `0` bits and `1` bits (one each). So, to find the _oxygen generator rating_, keep the number with a `1` in that position: `10111`.
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* As there is only one number left, stop; the _oxygen generator rating_ is `10111`, or _`23`_ in decimal.
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Then, to determine the _CO2 scrubber rating_ value from the same example above:
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* Start again with all 12 numbers and consider only the first bit of each number. There are fewer `0` bits (5) than `1` bits (7), so keep only the 5 numbers with a `0` in the first position: `00100`, `01111`, `00111`, `00010`, and `01010`.
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* Then, consider the second bit of the 5 remaining numbers: there are fewer `1` bits (2) than `0` bits (3), so keep only the 2 numbers with a `1` in the second position: `01111` and `01010`.
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* In the third position, there are an equal number of `0` bits and `1` bits (one each). So, to find the _CO2 scrubber rating_, keep the number with a `0` in that position: `01010`.
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* As there is only one number left, stop; the _CO2 scrubber rating_ is `01010`, or _`10`_ in decimal.
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Finally, to find the life support rating, multiply the oxygen generator rating (`23`) by the CO2 scrubber rating (`10`) to get _`230`_.
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Use the binary numbers in your diagnostic report to calculate the oxygen generator rating and CO2 scrubber rating, then multiply them together. _What is the life support rating of the submarine?_ (Be sure to represent your answer in decimal, not binary.)
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66
src/Day3.php
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66
src/Day3.php
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<?php
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namespace AdventOfCode21;
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class Day3 extends AbstractCommand
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{
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/**
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* {@inheritdoc}
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*/
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protected static int $day = 3;
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/**
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* {@inheritdoc}
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*/
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protected function part1(array $data): int
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{
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$bits = [];
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foreach ($data as $binary) {
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$split = str_split($binary);
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foreach ($split as $position => $value) {
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$bits[$position][] = $value;
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}
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}
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$gammaRate = '';
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$epsilonRate = '';
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foreach ($bits as $values) {
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$zeros = array_filter($values, static fn ($value) => $value === '0');
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$ones = array_filter($values, static fn ($value) => $value === '1');
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$gammaRate .= ($ones > $zeros) ? '1' : '0';
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$epsilonRate .= ($ones < $zeros) ? '1' : '0';
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}
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return (int) (bindec($gammaRate) * bindec($epsilonRate));
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}
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/**
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* @param string[] $data
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* @param int $position
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* @param bool $highest
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*
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* @return string
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*
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* @psalm-return '0'|'1'
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*/
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private function valueAtPosition(array $data, int $position, bool $highest = true): string
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{
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$zeros = count(array_filter($data, static fn ($value) => $value[$position] === '0'));
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$ones = count(array_filter($data, static fn ($value) => $value[$position] === '1'));
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if ($highest) {
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return $zeros > $ones ? '0' : '1';
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}
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if ($zeros === $ones) {
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return '0';
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}
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// If there are more zeros, return 1 (as that is the lowest).
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return $zeros > $ones ? '1' : '0';
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}
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}
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24
tests/Day3Test.php
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24
tests/Day3Test.php
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<?php
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namespace Tests;
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use AdventOfCode21\Day3;
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/**
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* @internal
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*/
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class Day3Test extends AbstractTestCase
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{
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public static int $part1ExampleResult = 198;
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public static int $part1Result = 3309596;
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public static string $part2ExampleResult = 'n/a';
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public static string $part2Result = 'n/a';
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public function setupDay(): Day3
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{
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return new class() extends Day3 {
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use ReturnTestableResults;
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};
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}
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}
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