Santa's reindeer typically eat regular reindeer food, but they need a lot of magical energy to deliver presents on Christmas. For that, their favorite snack is a special type of star fruit that only grows deep in the jungle. The Elves have brought you on their annual expedition to the grove where the fruit grows.
To supply enough magical energy, the expedition needs to retrieve a minimum of fifty stars by December 25th. Although the Elves assure you that the grove has plenty of fruit, you decide to grab any fruit you see along the way, just in case.
Collect stars by solving puzzles. Two puzzles will be made available on each day in the Advent calendar; the second puzzle is unlocked when you complete the first. Each puzzle grants one star. Good luck!
The jungle must be too overgrown and difficult to navigate in vehicles or access from the air; the Elves' expedition traditionally goes on foot. As your boats approach land, the Elves begin taking inventory of their supplies. One important consideration is food - in particular, the number of Calories each Elf is carrying (your puzzle input).
The Elves take turns writing down the number of Calories contained by the various meals, snacks, rations, etc. that they've brought with them, one item per line. Each Elf separates their own inventory from the previous Elf's inventory (if any) by a blank line.
For example, suppose the Elves finish writing their items' Calories and end up with the following list:
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
This list represents the Calories of the food carried by five Elves:
- The first Elf is carrying food with
1000,2000, and3000Calories, a total of6000Calories. - The second Elf is carrying one food item with
4000Calories. - The third Elf is carrying food with
5000and6000Calories, a total of11000Calories. - The fourth Elf is carrying food with
7000,8000, and9000Calories, a total of24000Calories. - The fifth Elf is carrying one food item with
10000Calories.
In case the Elves get hungry and need extra snacks, they need to know which Elf to ask: they'd like to know how many Calories are being carried by the Elf carrying the most Calories. In the example above, this is 24000 (carried by the fourth Elf).
Find the Elf carrying the most Calories. How many total Calories is that Elf carrying?
Your puzzle answer was 72240.
By the time you calculate the answer to the Elves' question, they've already realized that the Elf carrying the most Calories of food might eventually run out of snacks.
To avoid this unacceptable situation, the Elves would instead like to know the total Calories carried by the top three Elves carrying the most Calories. That way, even if one of those Elves runs out of snacks, they still have two backups.
In the example above, the top three Elves are the fourth Elf (with 24000 Calories), then the third Elf (with 11000 Calories), then the fifth Elf (with 10000 Calories). The sum of the Calories carried by these three elves is 45000.
Find the top three Elves carrying the most Calories. How many Calories are those Elves carrying in total?
Your puzzle answer was 210957.
A nice and simple starter. The highest hurdle here is splitting the list into several sub-lists.
Just for fun, I also implemented a pure 16-bit DOS version, meant to run on the original IBM 5150 PC (albeit with at least 128k of RAM and DOS 2.0). The result is a 256-byte .COM-format program that reads input.txt and solves both parts in no time. On an emulated 5150, I measured around 2 seconds, including the time it takes to load the program and data from floppy disk (which is very likely by far the largest part).
The largest technical struggle in this implementation is the fact that everything requires 32-bit arithmetic, which needs to be performed in two halves on the 16-bit 8086/8088 CPU.
- Part 1, Python: 82 bytes, <100 ms
- Part 2, Python: 95 bytes, <100 ms
- Parts 1+2, x86 DOS Assembly: 256 bytes (assembled), ~2 s