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name
string
year
string
round
string
statement
string
input
string
solution
string
code
string
output
string
sample_input
string
sample_output
string
images
sequence
meta_game
2023
round2
"Hacker Cup contest strategy often involves a metagame, where choosing which problems to work on mig(...TRUNCATED)
"135\n6\n3 2 3 5 6 4\n4 6 5 3 2 3\n6\n3 3 2 3 5 6\n4 4 6 5 3 2\n6\n4 3 2 3 5 6\n3 4 6 5 3 2\n2\n1 1\(...TRUNCATED)
"Note that over time, a pair of dots that are next to each other will always stay next to each other(...TRUNCATED)
"#include <deque>\n#include <iostream>\n#include <vector>\nusing namespace std;\n\nint N;\ndeque<int(...TRUNCATED)
"Case #1: 0\nCase #2: 1\nCase #3: -1\nCase #4: -1\nCase #5: 6\nCase #6: -1\nCase #7: 7\nCase #8: 2\n(...TRUNCATED)
"8\n6\n3 2 3 5 6 4\n4 6 5 3 2 3\n6\n3 3 2 3 5 6\n4 4 6 5 3 2\n6\n4 3 2 3 5 6\n3 4 6 5 3 2\n2\n1 1\n1(...TRUNCATED)
"Case #1: 0\nCase #2: 1\nCase #3: -1\nCase #4: -1\nCase #5: 6\nCase #6: -1\nCase #7: 7\nCase #8: 2\n(...TRUNCATED)
["iVBORw0KGgoAAAANSUhEUgAAA38AAAKOCAYAAAAWDqCHAAABXmlDQ1BJQ0MgUHJvZmlsZQAAKJFtkMtKw2AQhU+1UqgKAd0oIg(...TRUNCATED)
tower_rush
2023
round2
"Alice and Bob are playing *Tower Rush,* a two-phase game involving \\(N\\) types of blocks, numbere(...TRUNCATED)
"25\n5 3 3\n2 4 5 7 8\n3 2 4\n3 6 9\n10 2 3\n338 770 597 105 357 82 928 446 139 341\n10 5 7\n670359 (...TRUNCATED)
"First note that, for a set of blocks, it does not matter how they are distributed between the playe(...TRUNCATED)
"#include <cassert>\n#include <iostream>\n#include <vector>\nusing namespace std;\n\nconst int MAX =(...TRUNCATED)
"Case #1: 54\nCase #2: 0\nCase #3: 62\nCase #4: 29520\nCase #5: 5800\nCase #6: 859449537\nCase #7: 4(...TRUNCATED)
2 5 3 3 2 4 5 7 8 3 2 4 3 6 9
Case #1: 54 Case #2: 0
[]
ready_go_part_2
2023
round2
"_This problem shares some similarities with A1, with key differences in bold._\n\n_Atari 2600? More(...TRUNCATED)
"239\n4 4\n.B..\nBW..\n.B..\n....\n4 5\nWWWB.\nWB...\nWB.WB\nB.W..\n4 5\nWWWB.\nWB...\nWB.WB\n..W..\(...TRUNCATED)
"We can augment our solution to part 1 with a bit more information to solve part 2. Additionally, no(...TRUNCATED)
"#include <algorithm>\n#include <iostream>\n#include <map>\n#include <set>\n#include <vector>\n#incl(...TRUNCATED)
"Case #1: 1\nCase #2: 5\nCase #3: 0\nCase #4: 0\nCase #5: 1\nCase #6: 0\nCase #7: 8\nCase #8: 0\nCas(...TRUNCATED)
"4\n4 4\nW...\nB.BB\n.BWW\n.BW.\n5 5\nW...W\n.W.W.\nBBWBB\n.W.W.\nW...W\n5 5\nB..B.\nWBBWB\nW.WWB\nW(...TRUNCATED)
Case #1: 3 Case #2: 0 Case #3: 9 Case #4: 4
["iVBORw0KGgoAAAANSUhEUgAAAUQAAAFGCAYAAAASIubNAAAKrWlDQ1BJQ0MgUHJvZmlsZQAASImVlwdUE1kXgN9MekhoCRGQEm(...TRUNCATED)
wiki_race
2023
round2
"You and some friends are playing [Wiki Race](https://en.wikipedia.org/wiki/Wikipedia:Wiki\\_Game) o(...TRUNCATED)
"32\n6\n1 1 2 2 5\n4 mozzarella cheddar gouda edam\n5 gouda gjetost mozzarella cheddar edam\n3 gruye(...TRUNCATED)
"Let \\(L\\) be the number of leaves in the tree. A partition that optimally learns topics for all p(...TRUNCATED)
"#include <iostream>\n#include <unordered_map>\n#include <unordered_set>\n#include <vector>\nusing n(...TRUNCATED)
"Case #1: 3\nCase #2: 1\nCase #3: 3\nCase #4: 2\nCase #5: 1\nCase #6: 3\nCase #7: 5\nCase #8: 9\nCas(...TRUNCATED)
"3\n6\n1 1 2 2 5\n4 mozzarella cheddar gouda edam\n5 gouda gjetost mozzarella cheddar edam\n3 gruyer(...TRUNCATED)
Case #1: 3 Case #2: 1 Case #3: 3
["iVBORw0KGgoAAAANSUhEUgAAA5gAAAJ7CAYAAACGbz4lAAABXmlDQ1BJQ0MgUHJvZmlsZQAAKJFtkMtKw2AQhU+1UqgKAd0oIg(...TRUNCATED)
ready_go_part_1
2023
round2
"_This problem shares some similarities with A2, with key differences in bold._\n\n_Atari 2600? More(...TRUNCATED)
"239\n4 4\n.B..\nBW..\n.B..\n....\n4 5\nWWWB.\nWB...\nWB.WB\nB.W..\n4 5\nWWWB.\nWB...\nWB.WB\n..W..\(...TRUNCATED)
"A group of white stones can be captured if and only if there's exactly \\(1\\) empty space adjacent(...TRUNCATED)
"#include <iostream>\n#include <set>\n#include <vector>\n#include <utility>\nusing namespace std;\n\(...TRUNCATED)
"Case #1: YES\nCase #2: YES\nCase #3: NO\nCase #4: NO\nCase #5: YES\nCase #6: NO\nCase #7: YES\nCase(...TRUNCATED)
"5\n4 4\n.B..\nBW..\n.B..\n....\n4 5\nWWWB.\nWB...\nWB.WB\nB.W..\n4 5\nWWWB.\nWB...\nWB.WB\n..W..\n3(...TRUNCATED)
Case #1: YES Case #2: YES Case #3: NO Case #4: NO Case #5: YES
["iVBORw0KGgoAAAANSUhEUgAAAUQAAAFGCAYAAAASIubNAAAKrWlDQ1BJQ0MgUHJvZmlsZQAASImVlwdUE1kXgN9MekhoCRGQEm(...TRUNCATED)
dim_sum_delivery
2023
practice
"*Nim Sum Dim Sum*, a bustling local dumpling restaurant, has two game theory-loving servers named, (...TRUNCATED)
"600\n2 2 1 1\n2 3 1 1\n2 3 1 2\n2 4 1 1\n2 4 1 2\n2 4 1 3\n2 100 1 1\n2 100 1 2\n2 100 1 3\n2 100 1(...TRUNCATED)
"If Alice reaches row \\(R\\) before Bob reaches row \\(C\\), then it's game over for Alice. Since e(...TRUNCATED)
"#include <iostream>\nusing namespace std;\n\nint main() {\n int T;\n cin >> T;\n for (int t = 1;(...TRUNCATED)
"Case #1: NO\nCase #2: NO\nCase #3: NO\nCase #4: NO\nCase #5: NO\nCase #6: NO\nCase #7: NO\nCase #8:(...TRUNCATED)
3 2 2 1 1 5 2 3 1 4 4 3 3
Case #1: NO Case #2: YES Case #3: NO
["iVBORw0KGgoAAAANSUhEUgAAAuwAAACyCAYAAAAZO5pSAAAMPmlDQ1BJQ0MgUHJvZmlsZQAASImVVwdYU8kWnltSSWihSwm9CS(...TRUNCATED)
cheeseburger_corollary_ch1
2023
practice
"*This problem shares some similarities with A2, with key differences in bold.*\n\nProblem solving s(...TRUNCATED)
"79\n1 1 3\n0 2 4\n5 5 1\n0 1 1\n1 1 2\n97 1 99\n97 1 100\n100 100 1\n1 1 100\n73 11 11\n51 80 87\n9(...TRUNCATED)
"Each single provides \\(2\\) buns and \\(1\\) patty. Each double provides \\(2\\) buns and \\(2\\) (...TRUNCATED)
"#include <iostream>\nusing namespace std;\n\nint main() {\n int T;\n cin >> T;\n for (int t = 1;(...TRUNCATED)
"Case #1: YES\nCase #2: NO\nCase #3: YES\nCase #4: YES\nCase #5: YES\nCase #6: YES\nCase #7: NO\nCas(...TRUNCATED)
7 1 1 3 0 2 4 5 5 1 0 1 1 1 1 2 97 1 99 97 1 100
Case #1: YES Case #2: NO Case #3: YES Case #4: YES Case #5: YES Case #6: YES Case #7: NO
["iVBORw0KGgoAAAANSUhEUgAAB4AAAAP7CAYAAAC6CJPXAAAAAXNSR0IArs4c6QAAAKRlWElmTU0AKgAAAAgABgESAAMAAAABAA(...TRUNCATED)
two_apples_a_day
2023
practice
"“An apple a day keeps the doctor away” is Steve’s motto. His other motto, “You can never ha(...TRUNCATED)
"90\n3\n6 3 1 2 5\n2\n7 7 7\n1\n1\n3\n1 9 1 1 4\n4\n1 9 1 1 4 9 9\n4\n1 9 10 1 4 6 9\n3\n1000000000 (...TRUNCATED)
"If there's only one element, we don't care what it is, a \\(1\\) will match it. \n\nOtherwise, let'(...TRUNCATED)
"#include <algorithm>\n#include <iostream>\n#include <vector>\nusing namespace std;\n\nconst int INF(...TRUNCATED)
"Case #1: 4\nCase #2: 7\nCase #3: 1\nCase #4: -1\nCase #5: 6\nCase #6: -1\nCase #7: 1000000002\nCase(...TRUNCATED)
"7\n3\n6 3 1 2 5\n2\n7 7 7\n1\n1\n3\n1 9 1 1 4\n4\n1 9 1 1 4 9 9\n4\n1 9 10 1 4 6 9\n3\n1000000000 2(...TRUNCATED)
Case #1: 4 Case #2: 7 Case #3: 1 Case #4: -1 Case #5: 6 Case #6: -1 Case #7: 1000000002
["iVBORw0KGgoAAAANSUhEUgAAB38AAAI0CAYAAAAdhuMWAAAAAXNSR0IArs4c6QAAAKRlWElmTU0AKgAAAAgABgESAAMAAAABAA(...TRUNCATED)
cheeseburger_corollary_ch2
2023
practice
"*This problem shares some similarities with A1, with key differences in bold.*\n\nProblem solving s(...TRUNCATED)
"80\n2 3 5\n2 3 2\n2 3 1\n5 1 100\n1 3 100\n1 1 1000000000000\n314 512 1024\n10 13 11234567890\n1000(...TRUNCATED)
"Let's think about what ingredient is limiting us. If we've bought \\(0\\) singles, we're limited by(...TRUNCATED)
"#include <algorithm>\n#include <iostream>\nusing namespace std;\n\nusing int64 = long long;\n\nint6(...TRUNCATED)
"Case #1: 3\nCase #2: 1\nCase #3: 0\nCase #4: 199\nCase #5: 100\nCase #6: 1999999999999\nCase #7: 3\(...TRUNCATED)
6 2 3 5 2 3 2 2 3 1 5 1 100 1 3 100 1 1 1000000000000
Case #1: 3 Case #2: 1 Case #3: 0 Case #4: 199 Case #5: 100 Case #6: 1999999999999
["iVBORw0KGgoAAAANSUhEUgAAB4AAAAP7CAYAAAC6CJPXAAAAAXNSR0IArs4c6QAAAKRlWElmTU0AKgAAAAgABgESAAMAAAABAA(...TRUNCATED)
road_to_nutella
2023
practice
"You and your friends have drawn a really big connected graph in sidewalk chalk with \\(N\\) nodes ((...TRUNCATED)
"160\n13 15\n1 2\n2 3\n2 4\n4 5\n3 5\n5 6\n6 7\n6 8\n8 9\n8 12\n8 13\n9 10\n10 11\n11 12\n12 13\n5\n(...TRUNCATED)
"It's easier to think about this problem if instead of thinking about which foot we're standing on, (...TRUNCATED)
"#include <algorithm>\n#include <iostream>\n#include <queue>\n#include <set>\n#include <vector>\nusi(...TRUNCATED)
"Case #1: 5\nCase #2: -2\nCase #3: -2\nCase #4: 0\nCase #5: 270676\nCase #6: 121294\nCase #7: 305198(...TRUNCATED)
"4\n13 15\n1 2\n2 3\n2 4\n4 5\n3 5\n5 6\n6 7\n6 8\n8 9\n8 12\n8 13\n9 10\n10 11\n11 12\n12 13\n5\n7 (...TRUNCATED)
Case #1: 5 Case #2: -2 Case #3: 0 Case #4: -2
["iVBORw0KGgoAAAANSUhEUgAAB4AAAAQ4CAIAAABnsVYUAAAFYGlUWHRYTUw6Y29tLmFkb2JlLnhtcAAAAAAAPD94cGFja2V0IG(...TRUNCATED)

Data Preview

The data available in this preview contains a 10 row dataset:

  • Sample Dataset ("sample"): This is a subset of the full dataset, containing data from 2023.

To view full dataset, download output_dataset.parquet. This contains data from 2011 to 2023.

Fields

The dataset include the following fields:

  • name (string)
  • year (string)
  • round (string)
  • statement (string)
  • input (string)
  • solution (string)
  • code (string)
  • sample_input (string)
  • sample_output (string)
  • images (array of base64 image strings)

This dataset contains every Facebook/Meta Hacker Cup problem from 2011 through 2023. For each problem, you'll find these files:

  • <problem_name>.md: The problem statement formatted in Markdown
  • <problem_name>.in: The full input file
  • <problem_name>.out: The full output file
    • Note that some problems accept multiple possible outputs, in which case the full output file is simply an example of an output that would be accepted
  • <problem_name>_sample_input.txt: The sample input provided by the problem statement
  • <problem_name>_sample_output.txt: The sample output provided by the problem statement

Note that for problems from 2011 thorugh 2019, the problems were initially typeset in html. For those problems you can find:

  • <problem_name>.html: The problem statement formatted in HTML

For these problems, the Markdown version of the statement (<problem_name>.md) was automatically generated from the HTML version and may contain errors.

For some problems, written solutions/analyses are available:

  • <problem_name>.sol.md ** For some problem, code solutions are available:

  • <problem_name>.(cpp|py|java)

Some problems contains references to images that look like this:

  • {{PHOTO_ID:<photo_id>}}, example: {{PHOTO_ID:923060468192530}}

In the same folder as the problem statement, you can find <photo_id>.jpg or <photo_id>.gif

Starter Kits

Some quick start solutions for working with this data are available at HackerCupAI Repo. Some frameworks include:

The samples show basic steps for data ingest, generating solutions, and evaluation. For an example of data ingest, check out this example

Notes

  • Solutions prior to 2019 do not contain markdown solution files.
  • The 2019 markdown solutions are not included in the dataset but can be found in .cpp files.

Citation

If you use this dataset, please cite it as follows:

@misc{2024hackercupai,
  title = {2024 Hacker Cup Dataset},
  author = {May, Wesley and Harmeyer, David and Hoak, Amber and Li, Margaret and Dymchenko, Sergii and Yang, Weiwei and Saroufim, Mark},
}
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