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What is the Sandbox?

This "Sandbox" is a place where Code Golf users can get feedback on prospective challenges they wish to post to the main page. This is useful because writing a clear and fully specified challenge on the first try can be difficult. There is a much better chance of your challenge being well received if you post it in the Sandbox first.

To post to the Sandbox, scroll to the bottom of this page or click on the "Add Proposal" link below, and click "Answer This Question". Click "OK" when it asks if you really want to add another answer. Write your challenge just as you would when actually posting it. You may also add some notes about specific things you would like to clarify before posting it. Other users will help you improve your challenge by rating and discussing it. When you think your challenge is ready for the public, go ahead and post it, replace the post here with a link to the challenge and delete it.

See the Sandbox FAQ for more information on how to use the Sandbox.

The Sandbox works best if you sort posts by "active".

Add Proposal

Search the Sandbox

Browse your pending proposals

Get the Sandbox Viewer to view the sandbox more easily

To add an inline tag to a proposal use shortcut link syntax with a prefix: [tag:king-of-the-hill]

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  • \$\begingroup\$ How are tags added to questions? \$\endgroup\$ – guest271314 Jan 9 at 7:51
  • \$\begingroup\$ @guest271314 You can use this markup to create a tag in a draft: [tag:code-golf] \$\endgroup\$ – DJMcMayhem Aug 29 at 15:19
  • \$\begingroup\$ Why no featured anymore? Can't we have it auto-added or something? \$\endgroup\$ – JL2210 Sep 26 at 15:57
  • 1
    \$\begingroup\$ @JL2210 We now have a permanent info box that links to the Sandbox, so the featured tag isn't necessary \$\endgroup\$ – caird coinheringaahing Sep 29 at 13:43
  • \$\begingroup\$ I think the sentence 'replace the post here with a link to the challenge and delete it' may specify that the deletion should be done immediately . \$\endgroup\$ – AZTECCO Oct 5 at 19:39

2566 Answers 2566

2
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Filter out repetitive lines

Google Suggest doesn't show any results if a string contains more than 4 repetitions of a substring. More specifically, if a substring is repeated 4 times in a row, followed by the first character of that substring (i.e. abcabcabcabca or x x x x x), nothing is suggested. This rule changes slightly if the substring is all the same digit - a digit may be repeated 5 times in a row, but no more. This is probably to allow searching for ZIP codes like 22222. (This doesn't extend to strings like 1010101010, though.)

Let's simulate this behavior! Write a program that takes lines on standard input and echoes those lines back on standard output, unless the line fits the criteria for repetitiveness, in which case it's silently discarded.

Sample input:

a simple query
nananananananana
ffffgggghhhh
48719999936
abc abc abc abc asdf
xyzzzzzyx
122333444455555666666
repetitiverepetitiverepetitiverepetitive
erepetitiverepetitiverepetitiverepetitive
101010101
55555 zzzzz

Output:

a simple query
ffffgggghhhh
48719999936
repetitiverepetitiverepetitiverepetitive

(Google's behavior is actually quite a bit more complicated than this; there are a few exceptions to all of these rules, but let's just ignore those for this challenge.)


There was a similar challenge posted awhile ago (Recognizing Repetition in strings), but it was closed due to vagueness. I think the criteria proposed above are more than thorough enough.

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  • 1
    \$\begingroup\$ The current exceptions make it complicated enough to track what you're looking for: basically you're asking for grep -v ((.).+)\2{3}\1|([^0-9])\3{4}? \$\endgroup\$ – Peter Taylor Apr 19 '14 at 19:05
  • \$\begingroup\$ @PeterTaylor I would like to try to solve it without regex, though. \$\endgroup\$ – John Dvorak Apr 19 '14 at 19:10
  • \$\begingroup\$ I had thought about regex, but I didn't think it would be that simple. Would adding more restrictions or banning regex help? \$\endgroup\$ – Fraxtil Apr 20 '14 at 1:18
  • \$\begingroup\$ @Fraxtil, my opinion is that as a general rule if you need to ban the obvious way of doing something then you might as well just abandon the question. (With the exception, obviously, of banning libraries which are specifically designed to solve the same problem. Regex being a general tool rather than something designed for this specific problem don't fall into that exception). \$\endgroup\$ – Peter Taylor Apr 21 '14 at 8:52
  • \$\begingroup\$ @PeterTaylor, that's a good point. Maybe I'll revisit the idea later if I can find a way to make it more interesting. \$\endgroup\$ – Fraxtil Apr 21 '14 at 18:56
  • \$\begingroup\$ I did make a decent question out of doing a basic regex problem without the use of regex (I should have, in hind sight, banned basic pattern matching as well as regexes...Bash shouldn't almost beat APL in sheer character count in a code golf). \$\endgroup\$ – Isiah Meadows Apr 21 '14 at 21:06
  • \$\begingroup\$ @impinball "Bash shouldn't almost beat APL in sheer character count in a code golf" -- why? \$\endgroup\$ – John Dvorak Apr 24 '14 at 12:53
  • \$\begingroup\$ Or at least in that context (tr is a pattern matching replace algorithm with regex like functionality). I would be a little more likely to accept Bash's builtin pattern matching expansion than tr. \$\endgroup\$ – Isiah Meadows Apr 25 '14 at 21:49
2
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Am I a Matroid?

Input:

A list I that is a subset of the powerset of E={1,2,...,n} which represents the independent sets of elements of the purported matroid M=(E,I). Note that the cardinality of the ground set may be for the purposes of this question ignored. Any elements of E that appear in none of the elements of I cannot contribute (i.e. if M=(E,I) is a matroid then M=(E union K,I) is a matroid for any set K.

Input may be in whatever list format you desire, be it as simple as no separators but spaces (using 0 for the empty set): 0 1 2 3 12 13 or as complicated as whatever list literals are in your favorite language (such as python's: [[],[1],[2],[3],[1,2],[1,3]]).

Output:

A variation on 1/0, true/false, yes/no answering the question: is M a matroid?

Definition:

M=(E,I) is a matroid if:

  1. I is not the empty set
  2. If J is in I and K is a subset of J, then K is in I
  3. If J,K are in I and |K|<|J| then there exists an element x that is in the set difference J-K such that K union {x} is in I.

There are equivalent formulations of condition 1 and 3, also there are conditions on the bases (maximal elements of I w.r.t. cardinality) that are equivalent to these. If people want I can post those too or leave them as optional research.

Examples:

I={{},{1},{2},{1,2}} is a matroid.

I={} is not a matroid because it is empty (by axiom 1).

I={{},{1},{1,3}} is not a matroid because if it has {1,3} independent then it must have {3} independent (by axiom 2).

I={{},{1},{2},{3},{1,2}} is not a matroid because if it has {1,2} and {3} independent then it must have either {1,3} or {2,3} independent (by axiom 3).

I={{}} is always a matroid, as is I=powerset([1,2,...,n]) for any n>0 as they both trivially satisfy the axioms.

Specs:

Submission is either a program taking input from standard input or command line argument or a function that takes I as input (as a string) and returns the specified binary answer. No upperbound on the size of input should be hardcoded.

I would intend for this to be a code-golf challenge.

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  • 2
    \$\begingroup\$ Rather than provide alternative definitions, just link the first mention of the word matroid to the Wikipedia page. \$\endgroup\$ – Peter Taylor May 5 '14 at 11:59
  • \$\begingroup\$ Hello! This looks like a good but abandoned meta post, would you be willing to offer it for adoption? (If you want to, you can still post to main.) Due to community guidelines, if you don't respond to this comment in 7 days I have permission to adopt this. \$\endgroup\$ – programmer5000 Jun 9 '17 at 16:38
2
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Type me out.

Your task (related to this question) is to translate any text (in a file, or simply input) into the input of a telephone keypad.

enter image description here

and provide a keypress score.

As the keypad has a limited set of keys you have to 'encode' your non-alphanumerics with their ASCii hexadecimal encoding; e.g. to type ~ you press the hash key once, the 7 key (once to get a seven) and then 3 three times to cycle through the digits 3, 'd', and finally 'e'. This gives the code #7e which corresponds to ~. Spaces and capitals have to be accessed via hex code (so MY_CONST (#4d #59 #53def #43 #4f #4e #53 #54 - 27 presses) costs you less than my_const (6m 9wxy #53def 2bc 6mno 6mn 7pqrs 8t - 29), but more than myconst (6m 9wxy 2bc 6mno 6mn 7pqrs 8t - 23)).

For instance If your code had print() that would cost 15 for the print (7p 7pqr 4ghi 6mn 8t) plus 6 for the () (#28 #29)

To be clear with just the input print() the output is:

7p 7pqr 4ghi 6mn 8t #28 #29
21

(Note however the hex codes for c f i r s v y z are shorter (correspondingly #63 #66 #69 #72 #73 #76 #79 #7a) than long hand key presses. It's perfectly allowed to score print() as 19:

7p #72 #69 6mn 8t #28 #29
19

)

This is Code Golf, so feed your code into the finished program - shortest answer wins.

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  • \$\begingroup\$ @m.buettner typically when typing on a phone keypad you have to press the number first, and each subsequent press is a letter and then it cycles round. Spaces have to be hex values, capitals require hex codes as well. Scoring is as you state. \$\endgroup\$ – Pureferret Jul 9 '14 at 11:42
  • \$\begingroup\$ @m.buettner I added them as soon as I had finished replying to your comment. Is it clear enough now. And yes you can use those short cuts instead of typing them long. I'll add that in a second. \$\endgroup\$ – Pureferret Jul 9 '14 at 12:05
  • \$\begingroup\$ Better! :) ... I think myconst should be 24 though. And your output for that is somewhat different from your example output later one. Where you show the counting you only write the resulting letter whereas in the actual example output you show the sequence. Which also raises the question whether letters in hex codes should be expanded in the actual output (which would be necessary for correct counting). \$\endgroup\$ – Martin Ender Jul 9 '14 at 12:11
  • \$\begingroup\$ @m.buettner I'm not very good at this challenge, that's why I need people to so it for me! I'll update the score now, and clarify the output as well. \$\endgroup\$ – Pureferret Jul 9 '14 at 12:40
  • \$\begingroup\$ @m.buettner How is it now? Ready? \$\endgroup\$ – Pureferret Jul 10 '14 at 9:21
  • \$\begingroup\$ I think so, but you should wait for two other people to tell you that. \$\endgroup\$ – Martin Ender Jul 10 '14 at 9:32
2
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The Painter's Predicament

This would be a question. This is my first question, so any guidance is appreciated.

A painter is commissioned to paint the outer wall of a house shaped as a regular n-gon, with walls 0 through n-1. Each one of these walls must be painted one of 26 colors, represented by the letters A through Z.

Thanks to the unstoppable forward march of technology, the painter has acquired a machine that can paint entire walls at once. The machine can move around the house, and can only have one color active at a time. This machine has 5 buttons. The buttons behave as follows:

Button #1 moves the entire machine to the wall to its left. 
Button #2 moves the entire machine to the wall to its right. 
Button #3 advances the current color forwards, so that A->B, B->C, and so on, until Z->A.
Button #4 is identical to Button #3, but instead moves the color backwards.
Button #5 paints the wall in front of it with the current color. 

When producing an estimate for a job, the painter would like to know how many buttons he'll have to press. Your task is to find that number for a given job.


Input

Input is given to you as a series of characters representing the desired coloring of the house.

For most, that will probably be a string, but you may accept them in whatever form is convenient for your language. If your language prefers them as a character array, from stdin, abandoned on the stack, or written straight into /dev/null, you may assume that as the input format.

Examples: ABCDEF, ZZZZZZ, and AAAAAC.

You may also choose to have the input be in the form of [n] [job], if that is more convenient for you desired input format.

Examples: 3 ABC, 10 QRSTUVFGHJ

You may not accept n as a separate piece of data. If you choose to have it be provided, it must be included in the input character series as specified.


Output

You must output the minimum number of button presses required to paint the entire house. This, again, may be done in whatever paradigm your language employs. Printing or returning the number are both definitely acceptable; the number must simply be made available to whomever invokes the code.


Additional Details

The house starts with all of its walls painted color A. If a job specifies that a wall must be painted A, it does not need to be repainted.

The machine starts at wall 0, with current color A.

n is at least 3.

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  • 1
    \$\begingroup\$ does the machine have to start with its color set to A? does it have to start off pointed at wall 0? \$\endgroup\$ – Sparr Aug 5 '14 at 23:57
  • \$\begingroup\$ Good catches, yes, and yes. I'll edit it in. \$\endgroup\$ – Mike Precup Aug 5 '14 at 23:58
  • \$\begingroup\$ If a 3 is passed in, is the house a triangular prism? \$\endgroup\$ – Nathan Merrill Aug 6 '14 at 18:06
  • \$\begingroup\$ Yep. I suppose I should lower bound n, since it doesn't make much physical sense to have n < 2. \$\endgroup\$ – Mike Precup Aug 6 '14 at 18:09
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    \$\begingroup\$ Some test cases would be good. \$\endgroup\$ – Peter Taylor Aug 7 '14 at 22:14
  • \$\begingroup\$ This looks to be a Travelling Salesman problem on the rectangle grid graph (with one dimension looped around). It's open whether it's NP hard (cs.smith.edu/~orourke/TOPP/P54.html), which means no polynomial-time algorithm is know. This mean optimal solutions probably take very long to find. Is there a time limit? \$\endgroup\$ – xnor Sep 25 '14 at 19:04
  • \$\begingroup\$ Hello! This looks like a good but abandoned meta post, would you be willing to offer it for adoption? (If you want to, you can still post to main.) Due to community guidelines, if you don't respond to this comment in 7 days I have permission to adopt this. \$\endgroup\$ – programmer5000 Jun 9 '17 at 16:56
2
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Figure significant figures

Your challenge is to write a program that finds how many significant figures a given number has.

Rules for finding significance

  • All numbers 1–9 inclusive are significant.
  • All leading zeroes are not significant.
  • Trailing zeroes are significant only if there is a decimal point present anywhere.
  • Zeroes surrounded on both sides by nonzero digits are significant.

Input/output

  • Input from STDIN or similar.
  • Input will be one string.
  • The input can be arbitrarily large floating-point numbers, but no larger than your language can handle. [I'm not sure if this is the right term/makes sense]
  • If the input contains anything other than digits 0–9 or ., or is too large to compute, output Invalid.
  • The output will be one string to STDOUT or similar.

Further information

  • Using an external source such as a website, as well as any libraries, APIs, functions, or the like that calculate significant figures are not allowed.
  • Loopholes that are forbidden by default are not allowed.
  • This is , so fewest byte wins.

Test cases

Input    Output
---------------
7        1
7.0      2
07       1
0.07     1
70       1
70.      2
70.0     3
9000     1
9001     4
.000001  1

I'd appreciate any feedback, questions, or comments.

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  • 1
    \$\begingroup\$ Why the bit about floating point numbers? Anyone who doesn't process the string directly is highly likely to have bugs due to the impossibility of exactly representing powers of 0.1 in binary. \$\endgroup\$ – Peter Taylor Aug 27 '14 at 6:55
  • \$\begingroup\$ @PeterTaylor I don't understand floating point numbers too well, so I may have used the wrong term. I meant to refer to any number with a decimal point (like 23.391). \$\endgroup\$ – NinjaBearMonkey Aug 27 '14 at 11:56
  • \$\begingroup\$ I think you used the correct term: my point is that floating point support should be irrelevant. This is an easy task even for languages like BF which don't have any data types except integers. If you want to place bounds on the size of the input, I would bound it at 255 characters and include a 255-character test case. \$\endgroup\$ – Peter Taylor Aug 27 '14 at 13:12
  • \$\begingroup\$ I like this challenge idea. Regarding the "arbitrarily large floating point numbers" bit, maybe it would be better to restrict input to valid cases so you don't have to worry about passing in too large (2^100) or too small (2^-100) numbers. \$\endgroup\$ – El'endia Starman Nov 13 '15 at 7:14
  • \$\begingroup\$ Hello! This looks like a good but abandoned meta post, would you be willing to offer it for adoption? (If you want to, you can still post to main.) Due to community guidelines, if you don't respond to this comment in 7 days I have permission to adopt this. \$\endgroup\$ – programmer5000 Jun 9 '17 at 18:22
  • \$\begingroup\$ @programmer5000 Sure, feel free to adopt it. (Note that I never really resolved the issues discussed in the comments, though.) \$\endgroup\$ – NinjaBearMonkey Jun 11 '17 at 17:03
2
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Old fashioned intelligence gathering

As we've heard in the news, some intelligence agencies have decided to go back to typewriters due to the security hazards of the Internet. You are a spy. In spite of this change in policy to make messages more secure, one of your contacts scores an intelligence treasure trove: rolls of spent typewriter tape from your enemy.

The only problem? Whomever your enemy spy agency hired was a really bad typist. In fact, they tended to hit as many wrong keys as they did write. So when you read out the first bit of tape, you see

DQSIRINKSFIJATOAPQFFOUSJAR

Yikes. That's some attrocious typing. Seriously, there's training tools for that. Anyways, you're in luck. You also scored the correction tape:

QSIFIJOAPQFSJA

After racking your brain for hours, you realize someone just wanted some booze:

DQSIRINKSFIJATOAPQFFOUSJAR  (ink tape)
-QSI-----FIJ--OAPQF---SJA-  (correction tape)
D---RINKS---AT-----FOU---R  
DRINKS AT FOUR              (message)

There's a lot of tape though, and you know there's some good intelligence information here, so you write an program to determine the original messages after filtering out the massive amounts of typos.

Rules

Input

  • a return-delimited dictionary file
  • ink tape letters (all caps)
  • correction tape letters (all caps)

Output

  • all possible original messages ordered from fewest to most words in message; there shall be no specified ordered for messages with the same number of words. If the intended message were MY GRANDMOTHER HAS A LIFELONG PASSPORT, the output should generate the following (going from 6 words to 9 words):
    • MY GRANDMOTHER HAS A LIFELONG PASSPORT
      MY GRAND MOTHER HAS A LIFELONG PASSPORT
      MY GRANDMOTHER HAS A LIFE LONG PASSPORT
      MY GRANDMOTHER HAS A LIFELONG PASS PORT
      MY GRAND MOTHER HAS A LIFE LONG PASSPORT
      MY GRAND MOTHER HAS A LIFELONG PASS PORT
      MY GRANDMOTHER HAS A LIFE LONG PASS PORT
      MY GRAND MOTHER HAS A LIFE LONG PASS PORT

Other notes

  • all words in the original message will be spelled correctly (the typist was terrible, but they worked hard to eventually craft a correct sentence).
  • you may precapitalize your dictionary
  • all messages are alpha only (no numbers or punctuation)

Scoring:

  • Code golf, shortest code wins.

Additional sample tapes your assistant decoded to use to test your algorithm:

NUAFCLEAIEOJRWARWESHEADAJIOWGUNDSUIVHERCSNZXAPITASAOIDLBUIJOVEMOLDINGIAS (ink tape)
AFIEOJWESAJIOWGSUIVHSNZXSAOIDJOVEMOIAS (correction tape)
NUCLEAR WARHEAD UNDER CAPITAL BUILDING  (decoded messages)
NUCLEAR WAR HEAD UNDER CAPITAL BUILDING 

ASSLEDELPERIWECERSPDLLSACFSPTIVVOXATEIQPTREOIOSJFNMORROAIOW (ink tape)
ASDLIWERSPDFSPVOXIQPREOISJFNOAI (correction tape)
SLEEPER CELLS ACTIVATE TOMORROW (decoded messages)
SLEEPER CELLS ACTIVATE TO MORROW

ASOIIJHAWQRATEMSDQPOYJKWEOABS (ink tape)
ASOIJWQRASDQPOKWEAS (correction tape)
I HATE MY JOB (decoded message)
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  • \$\begingroup\$ So I get a -25 bonus just for adding "HELOVESNAPTIMESATTWOTHIRTY" to my post? It can be parsed as English words at least two ways, with one making sense. You may want to get rid of that bonus; ambiguously segmented words can be easily Googled. \$\endgroup\$ – Geobits Aug 22 '14 at 1:04
  • \$\begingroup\$ Also, any message that included any compound word would automatically qualify. This includes WAR|HEAD from your example. \$\endgroup\$ – Geobits Aug 22 '14 at 1:13
  • \$\begingroup\$ Good point. This is what I get when running on less sleep than I need haha. Was thinking of more interesting crossword boundary combinations, but obviously there was an easier solution I didn't think about. I'll take it off \$\endgroup\$ – user0721090601 Aug 22 '14 at 1:51
  • \$\begingroup\$ MOT HER and MOTH ER are also in good dictionaries, as are PAS SPORT. And if the dictionary is for spelling correction rather than for word games, it might allow LI FELON GPAS SPORT. For the purposes of giving test cases it would be better to specify a dictionary file. \$\endgroup\$ – Peter Taylor Aug 30 '14 at 14:00
  • \$\begingroup\$ @PeterTaylor true, although the idea is they'd be pushed farther down the list (fewer words being more likely, though not guaranteed, the intended message). Do you have a dictionary you know of that would be well-suited that I could link to? (come to think of it, having made a spell checker before for a highly inflected language, this is definitey something that would be truly evil for less analytical languages) \$\endgroup\$ – user0721090601 Aug 30 '14 at 14:32
  • \$\begingroup\$ I would suggest picking one from wordlist.aspell.net/12dicts-readme , although earlier questions have used others (1, 2). \$\endgroup\$ – Peter Taylor Aug 30 '14 at 15:03
  • \$\begingroup\$ Hello! This looks like a good but abandoned meta post, would you be willing to offer it for adoption? (If you want to, you can still post to main.) Due to community guidelines, if you don't respond to this comment in 7 days I have permission to adopt this. \$\endgroup\$ – programmer5000 Jun 9 '17 at 18:27
2
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Marvelous Moonglyphs: Match Kana To Kanji

enter image description hereenter image description here

For people who are curious, like to do research, and want to learn something new.

This is a somewhat real-world example that isn't to hard to implement, but it may seem difficult because many people around here won't be familiar with the topic.

Overview

Recently your company started to expand its business to the Asian market. Nobody volunteered, so you have been asked to come up with some Japanese text processing code. Japanese addresses often come as a bunch of squiggly moon-glyphs, with the prefecture, district, and town name all mangled together. On the net, you found a list that tells you how to read that bunch, but you (and your Japanese customers) would like to know how to pronounce the district and town name by itself.

A very brief, over-simplified explanation of the Japanese writing system:

Japanese consists 100~200 syllables. They can be written with 48 kana, similar to our alphabet. There are two versions, Hiragana and Katakana, like lowercase and uppercase letters. Kanas are like a phonetic transcription. A word can also be written with meaning-based kanji. Each kanji may possess multiple readings. Given a word with many Kanji and its reading in Kana, determine which Kanas belong to which Kanji. Look up Kanji on wikipedia if you want to know more.

All Hiraganas ["lower case"] are

がぎぐげござじずぜぞだぢづでどばびぶべぼぱぴぷぺぽあいうえおかきくけこさしすせそたちつてとなにぬねのはひふへほまみむめもやゆよらりるれろわをんぁぃぅぇぉゃゅょっゐゑゔ

And the Katakanas ["upper case"] are

ガギグゲゴザジズゼゾダヂヅデドバビブベボパピプペポアイウエオカキクケコサシスセソタチツテトナニヌネノハヒフヘホマミムメモヤユヨラリルレロワヲンァィゥェォャュョッヰヱヴ

They correspond to each other in the order given above.

Scoring

Feature-challenge.

Your program should implement the basic feature described below. Your basic score is 20.

You will receive additional points for each feature you implement. In case of a tie, code length in bytes decides.

Disclaimer

Standard loopholes shall (not) apply.

First, I will provide you with the information needed to define the task.

After that, I shall add some notes, examples, and hints for those of you not familar with Japanese. If you want to challenge yourself, and do some research yourself, do not read this.

Task

It is your task to write a program that will take as its input a string of MOONGLYPHS, its READING, and the moonglyphs separated into PARTS whose readings your program should output. You already found a dictionary file with all possible readings for each MOONGLYPH. (see below). All examples are formatted as follows:

  • MOONGLYPHS
  • READING
  • PART1,PART2,PART3,...
  • EXPECTED_OUTPUT

A simple example:

  • 成田 [Narita, name of a town]
  • なりた [na-ri-ta]
  • ,
  • [,なり],[,]

The MOONGLYPHs 成田 are read なりた. The parts and are read なり and .

I/O source and destination

Up to you, as long as it a complete program, ie you may read from

  • a file
  • stdin
  • network
  • keyboard

Same for the output.

Input and output format

Input:

  • All strings may be encoded in the encoding of your choice. (eg UTF-8, Shift-JIS etc.)

  • MOONGLYPH and READING are strings (or an equivalent in the language of your choice).

  • PARTS are an array, or an equivalent data structure in the language of your choice. Each entry is a string.

  • MOONGLYPH only contains MOONGLYPHs found in the Dictionary File. (see below)

  • It may also include other characters, if your program implements the corresponding feature.

  • If you support all features, it may include KATAKANA, HIRAGANA, and various full-width symbols and punctuation marks as well.

  • It will never contain any half-width letters, numbers or marks. (such as ,.=?)agE234\)

  • READING only contains HIRAGANA.

  • If you implement the corresponding feature, it may contain the same full-width symbols and numbers that MOONGLYPHs may contain.

  • The array of PARTs, when joined in the given order, will result in MOONGLYPH. For example, if MOONGLYPH is 日本語, then parts may be [日本,語] or [日,本,語] - but not [語,本,日] (reversed order) or [日本] (missing 語).

Example:

  • 日本語 (Japanese)
  • にほんご [ni-hon-go]
  • 日本,

The MOONGLYPH string is 日本語, the READING is にほんご, and the parts are 日本 and .

Output

  • An array, or equivalent data structure.

  • Each entry contains one of the input PARTS, as well as the corresponding part of the READING - in the same order as PARTS. Joining all parts results in MOONGLYPHs, and joining all readings results in the READING.

  • If there is no match, your program must behave in a way that is distinguishable from when it finds at least one match - including outputting nil, an empty array, or crashing.

Example:

  • 日本語 (Japanese)
  • にほんご
  • 日本,
  • [日本,にほん], [,]

All of the following cannot be valid outputs under any circumstances, irrespective of the dictionary data:

  • [,], [日本,にほん] (reversed order)

  • [日本,], [,] (joining the readings results in にご, which is not equal to the READING, にほんご)

  • [,にほん], [,] (joining the moongylphs results in 日語, which is not equal to the MOONGLYPHs, 日本語)

Dictionary File

The dictionary file is called KANJIDIC (not KANJDIC212) and can be found on this page (English):

It comes in a few different formats, choose one you like. Treat suffixes and prefixes as regular readings, strip the okurigana off the reading.

I also added the files on this github.


Basic Feature

Score = 20

Output the readings for each part, as described in the Input/Output section.

A somewhat longer example:

  • 京都府京都市下京区大黒町仏光寺通御幸町西入 [Kyoto, Shimo-Gyouku District, Daikoku]
  • きょうとふきょうとししもぎょうくだいこくちょうぶっこうじどおりごこまちにしいる
  • 京都府,京都市下京区,大黒町,仏光寺通御幸町西入
  • [京都府,きょうとふ], [京都市下京区,きょうとししもぎょうく], [大黒町,だいこくちょう], [仏光寺通御幸町西入,ぶっこうじどおりごこまちにしいる]

The only possible combination, given the dictionary data, is that きょうとふ belongs to 京都府, etc.


Optional Features.

No need to implement all features if you don't understand one of them. Remember, have fun.

壱 (1) +15

Implement Rendaku (Voicing). Handakuten count as voicing as well. No ヴ.

To keep it simple, we are going to assume that this voicing may always occur, except for the KANA at the beginning of the READING string.

  • 初霜月
  • はつ, しも, づき

弐 (2) +10

Support and ignore these punctuation symbols.

─〜、・()。!?「」/〒【】『』0123456789

These appear both in the MOONGLYPHs, READINGs, and PARTs at the same abstract position and should be ignored. That is, your program does not need to handle unmatched punctuation. You may assume that punctuation characters will always agree between MOONGLYPHS and READING.

  • 桜川市(亀岡) ["Cherry Flower River", "Turtle Hill"]
  • さくらかわし, (かめおか)

Invalid input:

  • 桜川市(亀岡)
  • さくらかわし, かめおか

参 (3) +10

Support , , and .

All three may be read and . and may also be read and .

肆 (4) +10

Support omitted genitive markers between MOONGLYPHS. An addtional +5 if you support as well.

  • 油小路
  • あぶらのこうじ
  • , 小路
  • [,あぶら], [<empty>,], [小路,こうじ]

伍 (5) +15

Support full-width roman numbers. You only need to support integers >0 and <1E12, and do not include any separators at any power of 10.

There shall be no before , , , and .

An addtional +5 if you support an optional before , , , and . That is, 102番 may be read either as 百番 or 一百番.

  • 12月
  • じゅうにがつ
  • 12,
  • [12,じゅうに], [,がつ]

陸 (6) +15

Add support for KANA. Including the now deprecated four , , , read as and `え.

, , will never appear as , , or in the output.

  • 岩月町かしわ野 [City of Iwatsuki "Moon Rock", Kashiwano "Evergreen Oak Plains"]
  • いわつきまち, かしわの

漆 (7) +5

Add the additional MOONGLYPHs found in KANJIDIC212. You can download it from the same page as KANJIDIC, see above. XML here.

  • 鱏八軟骨魚綱板鰓亜綱仁属為 (Batoidea are Chondrichthyes, Elasmobranchii)
  • えいはなんこつぎょこうばんさいあこうにぞくす

捌 (8) +10

Prefer on-on and kun-kun readings, and sort the results accordingly.

This requires a metric. To keep things simple, set the likelihood to zero, add +1 for each on/on or kun/kun pairs.

So for example,

  • ON ON KUN KUN => likelihood 2
  • ON KUN ON KUN => likelihood 0
  • ON ON ON KUN => likelihood 3

Punctuation symbols and KANA are be ignored for this calculation.

玖 (9) +15

Implement the MOONGLYPH doubler sign .

When the MOONGLYPH repeater 々 occurs m*n times, it may stand for the last n MOONGLYPHS occuring m times.

  • 月光綺麗々々々々々々 [The moonlight. Beautiful, beautiful, beautiful, beautiful.]
  • げっこうきれいきれいきれいきれい
  • 月光綺麗, 々々々々々々
  • [月光綺麗,げっこうきれい], [々々々々々々,きれいきれいきれい]

The input MOONGLYPHs shall never be such that any possible choice for n or m results in a previous occurence of 々 getting repeated. Thus, 木々日々々々 would not be a valid input.

拾 (10) +10

Support the voiced kana repeater . ひゞ shall stand for ひび or ひぴ, ごゞ for ごご, and ぱゞ for ぱば or ぱぱ.

It may not occur after syllables that do not accept dakuten, eg まゞ will is invalid input.

  • きゞ
  • きぎ

陰 (Final) +20

Support Ateji, Gikun readings, that is support multi-MOONGLYPH words.

Dictionary File EDict. Use either edict.gz or edict2.gz (custom format); or JMdict.gz or JMdict_e.gz (xml). The download page also contains links to the documentation of the dictionary format.

(1)

(2)

  • 独逸 [Germany]
  • どいつ

This word is found only in EDICT2, but not in EDICT.


Complex Example

This example requires features 1,2 5, and 9.

  • 173〜190番地「鉢伏峠」等々
  • ひゃくななじゅうさん〜いっぴゃくきゅうじゅうばんち「はちぶせとうげ」とうとう
  • 173〜190, 番地, 「鉢伏峠」, 等々
  • [173〜190,ひゃくななじゅうさん〜いっぴゃくきゅうじゅう], [番地,ばんち], [「鉢伏峠」,「はちぶせとうげ」], [等々,とうとう]

Tutorial

Do not read any further if you want to challenge yourself, or do the research yourself.

Moved here to keep this short.


May your journey to the moon be successful and fruitful, brave adventurer!

\$\endgroup\$
  • \$\begingroup\$ This sounds really interesting. A genre for such questions has been suggested before, but you might want to read the comments there voicing concerns with this concept. As for your spec, a few things are unclear to me (in addition to not knowing the first thing about Japanese): you say "READING will never contain any KATAKANA." but apparently that's not true for the dictionary files. Are you just referring to your example format here? If so that bullet point should probably not go in the input/output section. [tbc] \$\endgroup\$ – Martin Ender Sep 1 '14 at 15:37
  • \$\begingroup\$ Or are you referring to the output format of the program? Doesn't feature 3 preclude feature 1? Or do I just get the bonus for both features if I implement 3? And if I implement feature 3, what about feature 2? Does that then automatically apply to Parts instead of Moonglyphs? Feature 6: what do you mean by "it may appear multiple times"? Could you include an example? I also don't see how the two examples 木々 and 人々 are different. Feature 7: does our program need to handle unmatched punctuation can we just assume that punctuation characters will always agree between MOONGLYPHS and READING? \$\endgroup\$ – Martin Ender Sep 1 '14 at 15:42
  • \$\begingroup\$ Feature 8 is quite unclear to me. Where do you get from all of a sudden? Is that just a normal kana which gets an additional reading in this case, whereas the other two are completely new? More examples might help. Feature 12: You refer to "the last four", but you only mention four. Or are all other kana simply read as themselves while those aren't? Could you include an example for these? Also where does the discrepancy between MOONGLYPHS and READING come from in the example you already have? Is one Katakana and one Hiragana? \$\endgroup\$ – Martin Ender Sep 1 '14 at 15:46
  • \$\begingroup\$ Feature 15: How are readings to be treated which aren't found in the dictionary files, like those from features 8 and 12? \$\endgroup\$ – Martin Ender Sep 1 '14 at 15:48
  • \$\begingroup\$ And a more basic question: what is a moonglyph? Google is not very helpful in answering this (unless you meant monoglyph, but you seem to have a few too many lunar references for that to be a plausible explanation). \$\endgroup\$ – Peter Taylor Sep 1 '14 at 17:31
  • \$\begingroup\$ Google is not always your friend, it seems. Well, I won't spoil the fun for you, just google for moonspeak. And moonglyph sounds way better than kanji. \$\endgroup\$ – blutorange Sep 1 '14 at 21:18
  • \$\begingroup\$ I have edited the question to clarify the points you addressed. Use the edit history for easier navigation. \$\endgroup\$ – blutorange Sep 1 '14 at 21:21
  • \$\begingroup\$ As beautiful as this is... it's almost a TLDR... Do you propose this to be a code-challenge? \$\endgroup\$ – WallyWest Sep 2 '14 at 1:11
  • \$\begingroup\$ I had not been aware of the code challenge tag. That sounds like the right category for this. The winning criterion could be loosely based upon the number of implemented features, but also votes, CPU&Ram usage, coding style etc. I might remove/merge some features. Do you think people would be interested in this as code challenge? \$\endgroup\$ – blutorange Sep 2 '14 at 5:08
  • \$\begingroup\$ If you mean kanji, say kanji. The question's hard enough to read because of its length: there's no need to obfuscate it by deliberately avoiding the correct vocabulary. \$\endgroup\$ – Peter Taylor Sep 2 '14 at 7:34
  • \$\begingroup\$ @blutorange No I think the scoring system as features with code-length tie breaker sounds more fun than coming up with an odd combination of features, votes and resource usage which will be impossible to balance right. I'll look at your other responses later. \$\endgroup\$ – Martin Ender Sep 2 '14 at 7:59
  • \$\begingroup\$ I split it into two main sections. The specs clearly defining the task, and an optional tutorial giving some background knowledge and how you might implement it in code. The latter part takes about 2/3rds. I also edited some features and changed the points rewarded (still provisional). \$\endgroup\$ – blutorange Sep 2 '14 at 9:39
  • 3
    \$\begingroup\$ @blutorange In the interest of people actually reading all of this, you might want to put the non-essential 2/3rds in a gist on GitHub and link to it. \$\endgroup\$ – Martin Ender Sep 2 '14 at 10:10
  • \$\begingroup\$ You're right, that's a good idea. Done. I also added the dictionary files on github for reference. \$\endgroup\$ – blutorange Sep 2 '14 at 10:49
  • \$\begingroup\$ pastebin.com/uj1krypD addresses your comments directly, but you don't need to read it. I edited the main question. \$\endgroup\$ – blutorange Sep 2 '14 at 11:03
2
\$\begingroup\$

Turn my keyboard into a piano

I'm sure we've all thought "man, wouldn't it be cool if my keyboard played musical notes as I program?". Of course, the answer to that question is a resounding no.

Regardless, it's what you're going to make.

Input

Input will be given, in real-time, on the keyboard.

The keyboard mapping that you will use is given in the diagram below. This kind of layout is used by several music programs already.

A keyboard layout, with notes assigned to several of the keys.

You can see that the bottom row (Z, X, C, V, B... ., /) represents all of the white keys, and the black keys are added on the row above (S, D, G, H, J... L, ;). This is then repeated on the two rows above, except the notes are an octave higher.

The notes C5 to E5 are repeated both on the lower rows and the upper rows.

So, if the user were to input Q (or ,) on the keyboard, middle-C (C5) should play. Similarly, if they input B, G4 should play.

The diagram above is an edited form of an image found here.

Output

The only output will be sound. The actual sound used is up to you (it could be a piano sample or the internal beeper), but it should output sound at the correct pitch.

The program should not terminate by itself - the user should be able to keep inputting notes until they get bored.

References

  • A diagram of the US keyboard layout (for comparison with the image above) can be found here.
  • A table of the frequencies of notes can be found here. The range of notes that you will be using are from C4 to E6, inclusive.

Rules and Disambiguation

  • This is , so the shortest correct implementation wins.
  • Input should be given in real-time (i.e. no pressing Enter between each inputted note).
    • There should be no greater than a 0.25 second delay between pressing a key and hearing the note.
  • Only programs that have the notes correctly mapped to the QWERTY keyboard will be accepted.
  • The only output should be sound. There should be nothing displayed (except for a mandatory console window or similar).
  • Polyphony (multiple notes playing at once) is not part of the specification.
  • The program should not terminate by itself - a user should be able to keep pressing keys and hearing notes until they decide to close it.
  • The waveform outputted is not important (it can be a beep or a piano sound or whatever you like); the pitch, however, should be accurate.
    • The file size of any sound files used will not be counted in the bytecount.
    • Please link any sound files you use with your answer.

Meta

  • There are probably some obvious things that I've forgot to explain - please point these out!
  • Also let me know if any of the wording is confusing.
  • I've assumed that the readers will at least know very basic music theory (e.g. that there are 12 semitones in an octave). Is this okay?
  • "Polyphony is not part of the specification" - polyphony is not the focus of the program, and therefore shouldn't be a consideration when submitting answers (i.e. if the shortest implementation means that one note will stop when a new note is played, then that's fine). Is this acceptable?
  • Should I exclude the use of any external libraries that are designed to play sound or designed to repeat a function at regular intervals? Should I count sound file size in the score? I'm worried that having either of these would limit the possible entries to those that can use the internal beep (so, C/C++, C#, Python, Java?...).
  • Another problem may be portability, or the lack thereof (e.g. C/C++ using the Windows API to access the Beep() function).

Really meta: answers/edits by me won't be done until the morning (approximately 9 hours from now).

\$\endgroup\$
  • \$\begingroup\$ Does sound need to continue until key_up, or is just a short "beep" okay no matter how long the key is pressed? \$\endgroup\$ – Geobits Sep 10 '14 at 0:26
  • \$\begingroup\$ "Of course....resounding no.... regardless.." why shit on your own question? Change it to a slightly ironic "Of course we have! Well, that's what you're going to make" \$\endgroup\$ – Level River St Sep 15 '14 at 21:37
  • \$\begingroup\$ 1,2 The wording is mostly OK Regarding @Geobits point, I think a short beep has to be acceptable. One must delve deep into API to know when a key is released (if the hardware tells at all.) Make the US keyboard requirement clearer. Take the linked image of a US keyboard, mark note names on it in color and include it in the question (I may do it for you.) Without having both on the same diagram, I found it hard to work out which notes on my Spanish keyboard end up in odd places. 3. Theory is very basic here, no need to explain Maybe link to en.wikipedia.org/wiki/Scientific_pitch_notation \$\endgroup\$ – Level River St Sep 16 '14 at 23:20
  • \$\begingroup\$ Allow libraries for sound functions. Otherwise it'll definitely be won by a language with builtins. Portability is always an issue with sound, but on codegolf.stackexchange.com/a/25242/15599 the OP did get my Windows answer working on his Linux machine after many comments. Avoid polyphony. Computer & phone keyboard matrixes can't handle it properly. If you press 1,3,7,9 on a numeric keypad and release 1, the release can't be detected because there's still an electric path through the other keys. Real music keyboards have a diode on every key, or individual wires, to avoid this problem. \$\endgroup\$ – Level River St Sep 16 '14 at 23:39
  • \$\begingroup\$ Hi, @steveverrill, thanks for your comments. I haven't really been very interested in PCCG recently so I haven't been replying/making changes. Thanks for the suggestions - I'll review the post sometime soon. \$\endgroup\$ – Sean Latham Sep 17 '14 at 0:07
  • \$\begingroup\$ If this is code-golf, then I suggest that you choose a set sound to make it fair for everyone. \$\endgroup\$ – Beta Decay Jul 5 '15 at 7:49
  • \$\begingroup\$ Hello! This looks like a good but abandoned meta post, would you be willing to offer it for adoption? (If you want to, you can still post to main.) Due to community guidelines, if you don't respond to this comment in 7 days I have permission to adopt this. \$\endgroup\$ – programmer5000 Jun 9 '17 at 18:30
2
\$\begingroup\$

The Tetris Tournament

We've implemented Tetris before. But we haven't played it yet. So you're to write a bot which plays Tetris in real time!

The Rules

We're playing standard Tetris. That is, there will be one falling one-sided tetromino, which you can move and rotate until it hits the bottom. Complete lines of blocks get cleared, which causes all lines above to shift down accordingly. You will always be aware of the next tetromino. The goal is to clear as many lines as possible while the game gets faster.

Here are the specifics of rules which differ among various Tetris implementations:

The board will be 10 blocks wide and 22 blocks tall. The top two rows are "off-screen": tetrominoes will not spawn in the top two rows, but may be rotated into these.

The right-handed Nintendo Rotation System will be used (which is equivalent to the original rotation system). That is, each piece is basically in a square bounding box and cycles through 1 to 4 fixed patterns within that bounding box as given by this chart. Each tetromino will spawn in the first of its orientations such that its top-most blocks are in the top on-screen row, and the piece is centred horizontally (rounded to the left).

There is no wall kick or floor kick. If a rotation would lead to overlapping or out-of-bounds blocks, it will be ignored.

There is a lock delay equal to current step duration. That is, tetrominoes lock into place when the controller tries to move them down but hits another block or the floor.

The sequence of tetrominoes is determined by the Random Generator. That is, whenever the queue for pieces is empty, a random permutation of all 7 tetrominoes will be enqueued. I will add one exception to this: when the game starts, a random number of tetrominoes will be discarded from the first permutation, such that it's not immediately obvious where one ends and the next starts.

"Pressing" down does a soft drop. In particular, it will move the tetromino down one row without resetting the timer for the next drop due to gravity.

The game starts at level 0 and is incremented by 1 every 10 cleared lines.

Gravity will be such that tetrominoes move down one row every 0.1/(n+1) seconds, where n is the current level.

The game ends when a tetromino spawns overlapping an existing block or any blocked is locked into one of the two off-screen rows at the top.

There is no hold piece.

The Controller and the Bots

The controller will simulate the game in real time, and provide you with the game state whenever you request it (as well as when the game starts).

At any time, your bot can write a single-character command as one of [UDLRS] to STDOUT. The letters correspond to the following commands:

  • U(p): Rotate the current tetromino clockwise by 90 degrees. This will be ignored if the rotation would lead to a collision.
  • D(own): Move the current tetromino down a row. This may lock the current tetromino if moving it down would lead to a collision. In this case only will the timer be reset such that you get the full time for the next tetromino's first move. Otherwise the timer will continue where it was before.
  • L(eft): Move the current domino one column to the left.
  • R(ight): Move the current domino one column to the right.
  • S(tate): Request the current game state in STDIN.

Don't forget to flush STDOUT after sending any of these commands.

At the beginning of the game or if you send S the controller will write the game state to STDIN in the following format:

[seconds till gravity tick] [level] [lines cleared] [current tetromino] [next tetromino]
[10x22 representation of the board]

Where the tetrominoes are represented as a letter from [IOTJLSZ]. In the board representation, locked blocks are represented as #, currently falling blocks as * and empty tiles as ..

Your bot must not use more than 1GB of memory at any time.

Example

Here is a state from an actual Tetris game and how it would be represented by the controller:

enter image description here

0.0467896 1 16 J I
..........
..........
..........
..........
..........
..........
..........
..........
..........
..........
..........
..........
..........
..........
..***.....
....*.....
..........
.......###
...#######
.#########
#######..#
#####.####

Scoring

We will use the Original Nintendo Scoring System: sending D gives you 1 point. Clearing lines gives you 40, 100, 300, 1200 points for 1, 2, 3, 4 lines, respectively. Points for clearing lines are multiplied by n+1 where n is the current level.

I will run each bot 10 (?) times and your final score will be maximum (?) achieved in any of those runs.

Sandbox notes

The controller still needs to be written, but I'd like the gather some general feedback regarding the spec (and how interesting the challenge is) first.

Along with the controller I'll provide a very stupid random bot to showcase how to set up the game loop with requesting the state from the controller.

Any suggestions about figuring out the overall score from the individual runs? I guess I can't determine the number of runs before I know how much scores fluctuate and how long one run takes. But what would make most sense statistically? Mean, median, maximum?

Let me know if anything else is unclear or could be improved!

\$\endgroup\$
  • \$\begingroup\$ I think you'll find that the scores are fairly similar across runs, and therefore any of those indicators should be sufficient. \$\endgroup\$ – Nathan Merrill Aug 25 '14 at 20:08
  • \$\begingroup\$ So the game still runs at human speed? If do, I don't think level speedups matter to a computer. Also, isn't there an algorithm that runs forever for the batch of seven randomness scheme? \$\endgroup\$ – xnor Aug 28 '14 at 2:17
  • \$\begingroup\$ @xnor I think it should be a bit faster than human speed, and I could make it even faster. I don't know how feasible an optimal algorithm for the batch of seven scheme is, but even if that works for the first levels, this should still be an interesting fastest-code challenge, as that will become impossible to calculate at some point. I could also use uniform randomness or the TGM randomiser instead. \$\endgroup\$ – Martin Ender Aug 28 '14 at 6:28
  • \$\begingroup\$ It turns out the play-forever algorithm requires Hold and the next-three shown, so you're safe there for now. But there are fairly simple heuristic algorithms that seem to never lose. So, I'd guess this will become a fastest-code challenge, though it might take until level 1000 to be restricting. The nice thing about your gravity function is that a run that survives for n pieces takes O(ln n) seconds of real time, so it can test even long-lasting strategies. You should know that Tetris AI is a well-studied area, so you may want to specify whether you can use algorithms based on existing ones. \$\endgroup\$ – xnor Aug 28 '14 at 18:11
2
\$\begingroup\$

Program Survival

(king of the hill)

You are a program (in any language).

Your goal is to survive.

You exist as a single point on a 2 Dimensional toroidal map of integer coordinates. However, you are made up of letters, numbers and characters that exist within this single point.

You live on chars

Your program is made up of characters. Each character can either contribute to the execution of your program or be "saved" for later (not contribute to your program).

You are (literally) what you eat. Therefore, each point on the grid can contain 1 or more (specific) chars. If you land on a space with char(s), those chars are added to the end of your program.

However, you must also live on chars. Therefore, to move costs 1 char. Merely to exist costs 1 char every 3 turns. You may "use" chars from any part of your program.

What do programs do?

Programs can move. This means that they can move 1 unit up, left, down or right. Remember this costs 1 char.

Programs can also make other programs. This uses chars from your own program to construct a new one. Because this directly costs chars to you, there is no cost to constructing other programs. You must leave at least 20 chars in the old program.

Programs can be malicious. Programs can "attack" other programs. When two programs are next to each other, they may spend 1 char to remove a char from their enemy. They may only remove the char from the end of the enemy's program.

Programs can also enter a self-initiated coma. the program remains stationary for a minimum of 15 turns at the cost of 1 char per 7 turns.

What will programs know?

Each program will recieve the following as command line args:

  • Their own source code (as a String)
  • All cells within 5 x 5 square centered on the program
  • Any programs within vision + its coordinates (with respect to you) + the last 30 chars of its program.

How is this going to work?

This game is turn based, so on any given turn you may do any number of the following:

  1. move (limited to 1 time per turn)
  2. attack (limited to 5 times per turn)
  3. induce coma (obviously limited to 1 time)
  4. produce new programs (not limited)

If at any point your program fails to run (any error) your program dies.

Specifics

Two programs cannot occupy the same point. If a program moves to where a program is currently at, then the move is denied and the cost is revoked.

If a program chooses to create another program, the characters needed for that program will be taken from the end of the mother program. If there are not enough characters to fulfill the construction of the child program, no change will be made. Characters will be taken from the meat of your program if you fail to provide characters later in your program.

In order to make a move, you must output the following with a newline between each:

  1. move - "M(x,y),i" where abs(x+y) = 1 and i = the index of the char you want to remove.
  2. attack - "A(x,y),i where abs(x+y) = 1 and i = the index of the char you want to remove.
  3. coma - "C"
  4. reproduce - "R(x,y),s where abs(x+y) = 1 and s is the new program (as a string)

There is a _ char limit for your first program.

Should char limits be set per language? Also, how much?

Is compiling other languages on the fly difficult? I know it is possible in Java, but I am unsure in others. I have not made a controller for this yet because I am looking to see if this is a viable challenge

\$\endgroup\$
  • \$\begingroup\$ You say that we get a radius of 3 moves as the field of view. So do we really get a diamond-shaped field of view? Otherwise it sounds generally interesting, but might need some tweaking of the rules. And this should be well sandboxed - who knows what weird programs are created by removing some characters. \$\endgroup\$ – Martin Ender Sep 26 '14 at 0:02
  • \$\begingroup\$ Hello! This looks like a good but abandoned meta post, would you be willing to offer it for adoption? (If you want to, you can still post to main.) Due to community guidelines, if you don't respond to this comment in 7 days I have permission to adopt this. \$\endgroup\$ – programmer5000 Jun 9 '17 at 18:43
  • \$\begingroup\$ Your welcome to it! If you can make a decent challenge out of this I would be quite happy to see the results. \$\endgroup\$ – Stretch Maniac Jun 11 '17 at 1:30
2
\$\begingroup\$

Orbital Mechanics [help wanted]

I need help specifying what input/output is required - if you have a suggestion for what the input/output format of the ephemeris should be, please post in the comments

How hard can Rocket Science be, anyway?

(Storyline taken from PhiNotPi's challenges linked below)

You are still the head programmer on the ill-fated U.S.S. StackExchange. You have guided it through the ASCII art solar system and the floating point cluster. Now, on another mission, the computer has crashed, and can't operate at full power. You need to make calculations of your orbit in order to plot a safe course. However, due to the limited free DEEEPRAROM* of the spaceship, you must write your program in as few characters as possible.

*Dynamically Executable Electronically Erasable Programmable Random Access Read Only Memory

Input

  • A description of your orbit at the moment of your burn, and what kind of orbit it is.
  • The gravitational field strength of your planet. Assume that it is spherical, and that no other effects change your orbit (gravitational perturbations of moons, atmospheric drag).
  • A direction that the burn will be carried out in
  • The delta-v of the burn

[More details coming soon]

Output

Your ephemeris after the burn is carried out, in the same format as the input. Assume that the burn is instant.

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  • \$\begingroup\$ If the burn is instant, surely the position doesn't change, and since strictly the ephemeris is the position at a given time the requirements can be met without doing any calculation? \$\endgroup\$ – Peter Taylor Oct 21 '14 at 13:40
  • \$\begingroup\$ @PeterTaylor I'm obviously not using the word 'ephemeris' correctly, then. What do you call a summary of orbit data (apoapsis, periapsis, inclination, longitude of ascending node)? \$\endgroup\$ – user16402 Oct 21 '14 at 15:07
  • 1
    \$\begingroup\$ Orbital elements? \$\endgroup\$ – Peter Taylor Oct 21 '14 at 15:36
  • 1
    \$\begingroup\$ Can I submit my answer as a kerbal space program video? \$\endgroup\$ – stokastic Oct 22 '14 at 15:50
  • \$\begingroup\$ @steveverrill The idea is to calculate how a burn (provided as input) affects your orbit, nothing else. I think you've misunderstood the question. \$\endgroup\$ – user16402 Oct 31 '14 at 15:43
  • \$\begingroup\$ Sorry, I've gone ahead and deleted my comments. I was thinking that orbital mechanics in the Cartesian system have made in the floating point cluster (and would make again) a nice challenge. But what you want to do is a simple burn calculation with the added complexity of Keplerian parameters? The challenge itself is a good one, but the problem is the Keplerian names are horrible. I've read the link but I`m still having difficulty taking in the vocabulary. Part of the problem is they don't explain periapsis and apoapsis (bottom and top of orbit!) at the beginning. \$\endgroup\$ – Level River St Oct 31 '14 at 21:28
  • \$\begingroup\$ Hello! This looks like a good but abandoned meta post, would you be willing to offer it for adoption? (If you want to, you can still post to main.) Due to community guidelines, if you don't respond to this comment in 7 days I have permission to adopt this. \$\endgroup\$ – programmer5000 Jun 9 '17 at 18:45
2
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Coprime Factorization of the Least Common Multiple

Given any (ordered) pair of integers (a, b), it's possible to write their least common multiple1 as a product c · d of two coprime divisors of a and b, respectively. For example, consider the pair (12, 18); the least common multiple of 12 and 18 is 36; 36 can be written as the product 4 · 9; 4 and 9 are coprime; 4 divides 12 and 9 divides 18.

For the purpose of this challenge, we'll call the pair (c, d) a coprime factorization of lcm(a, b), or simply a coprime factorization of (a, b). Note that a pair of integers may have more than one coprime factorization.

Challenge

Write a program or a function that takes a pair of integers and produces a coprime factorization of it.

Input and Output

You may read the input through STDIN, the command line, as function arguments or an equivalent method. You may assume that the input values are representable using your environment's default integer type, however you may not generally assume that their least common multiple is representable using the same type (unless your environment guarantees that.)

You may write the output to STDOUT, return it as the function's result or use an equivalent method. Note that the order of the output matters: the first output value should divide the first input value and the second output value should divide the second input value.

Scoring

This is code-golf. The shortest code, in bytes, wins.

Examples

Below is a list of input pairs and possible corresponding output pairs:

12, 18            4, 9
18, 12            9, 4
7, 13             7, 13
7, 13             -7, -13   (but not -7, 13)
1, 1              1, 1
-1, 1             1, 1
-1, -1            1, 1
30, 105           2, 105
30, 105           6, 35
30, 105           30, 7
10, 10            1, 10
10, 10            -10, -1
2, 6              2, 3
2, -6             1, 6
5, 25             1, 25
0, 8              0, 1
0, 0              0, 1   (but not 0, 0)
4, 1073741825     4, 1073741825   (but not 4, 1 if your LCM overflows to 4)

-1009612890, 633162618     138645, 70351402
140710086, -875522142      15634454, 120231
970683318, 823353894       133299, 91483766
660164274, -511130862      60014934, 85789
1048411386, 10420542       116490154, 1431
982611234, 1017084222      109179026, 139671
725309046, 922185198       99603, 102465022
65472462, -784948626       8991, 87216514
447559002, -857040426      49728778, 117693
-726750882, 708662394      66068262, 118943
133894134, -685199790      18387, 25377770
1563277915, 522665550      312655583, 18022950
873424926, 54855306        97047214, 7533
-1053523350, 347810166     117058150, 47763
855729666, 361179918       95081074, 4509
946303182, 135991350       129951, 15110150
-595150578, 475084962      81729, 52787218
886532526, 145690974       121743, 1798654
511393014, 541933722       70227, 60214858
755325450, 750082410       83925050, 20601

1 For the purpose of this challenge, lcm(n, 0) = lcm(0, n) = 0 for all n, where lcm is the least common multiple.

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  • \$\begingroup\$ What's the point of the negative numbers? \$\endgroup\$ – feersum Oct 26 '14 at 22:59
  • \$\begingroup\$ @feersum Generality, mostly. \$\endgroup\$ – Ell Oct 26 '14 at 23:17
2
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md5sum Creator

This is my first code golf challenge; critiquing welcome.

Your task is to create a new md5sum function. You need to output to STDOUT the input, a space or a tab character, the md5sum, then a new line. The spec for an md5sum can be found here, thanks to the IETF. For example:

1 c4ca4238a0b923820dcc509a6f75849b
2 c81e728d9d4c2f636f067f89cc14862c
... 
//hashes generated on http://www.md5.cz/
  • You may use existing libraries so long as you are not directly calling an md5sum function from within that library.
  • Output is not case sensitive (A is the same as a when it comes to an md5sum).
  • Your program/function will take in a string, and output the md5sum as a string
  • No downloading data from the Internet.
  • Code Golf, so the shortest answer wins!

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  • 1
    \$\begingroup\$ what should the output file be called? isn't it easier to use STDOUT? and should the character separating the number and its md5 be a tab or a space or the correct number of spaces? \$\endgroup\$ – user16402 May 30 '14 at 6:40
  • \$\begingroup\$ Is the output case-sensitive? \$\endgroup\$ – Peter Taylor May 30 '14 at 12:49
  • \$\begingroup\$ @professorfish Edited. Thanks for the input. \$\endgroup\$ – Canadian Luke May 30 '14 at 16:12
  • \$\begingroup\$ MD5 takes a sequence of octets, so how should I pack my integers? Should I pack 4 bytes in network byte order? Or little-endian? Or format each integer in ASCII? Or UTF-16? \$\endgroup\$ – kernigh Jun 19 '14 at 20:53
  • \$\begingroup\$ In that case, do you need to update your sample output? All online md5 generators I've used treat input as ASCII. \$\endgroup\$ – Peter Taylor Jun 19 '14 at 22:07
  • \$\begingroup\$ Done @PeterTaylor. Thanks \$\endgroup\$ – Canadian Luke Jun 19 '14 at 22:41
  • \$\begingroup\$ I don't see any problems with this now. \$\endgroup\$ – Hosch250 Nov 3 '14 at 21:46
  • 1
    \$\begingroup\$ I'd prefer if you included the relevant parts of the MD5 spec in the answer. I don't feel like reading an entire RFC to compete in the challenge, and challenges should generally be self-contained anyway. \$\endgroup\$ – Martin Ender Nov 3 '14 at 22:57
2
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Convert Images to NetPBM format

NetPBM format is perhaps the most important image format in the history of computer graphics. Critics have called it "the format of our time." What is so revolutionary about NetPBM, you may ask? It has the unparalleled ability to store images as text files!

You have been tasked with converting images from their ancient, "lossy" format to the lossless full-color NetPBM PPM (P3) format.

The Specifics

You have a few choices as to which file format you wish to process into a PPM file.

  • JPEG
  • GIF
  • TIFF
  • PNG

Choose wisely.

The file created by your program should adhere to the P3 specifications. Here are the parts of a P3 file listed out:

  1. The characters "P3" followed by whitespace.
  2. An ASCII decimal number (like "4") which represents the image width in pixels, followed by whitespace.
  3. An ASCII decimal number (like "3") which represents the image height in pixels, followed by whitespace.
  4. An ASCII decimal number (like "255") which is to represent maximum pixel intensity. It can be an integer from 1 to 65535, inclusive. It is followed by whitespace.
  5. After this there is one line per row of pixels:
    1. Each row is separated by whitespace
    2. Each row contains one triplet for each pixel in that row, with the pixels separated by whitespace
    3. Each pixel consists of three ASCII decimal numbers separated by whitespace. These numbers represent the RGB values of that pixel, in that order. Each number must be an integer from 0-MAX, inclusive, where MAX is the number listed earlier.

Here is an example of PPM format ripped from Wikipedia:

P3
3 2
255
255   0   0     0 255   0     0   0 255
255 255   0   255 255 255     0   0   0

This is code golf: the shortest submission wins. Standard code golf rules apply.

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  • \$\begingroup\$ I believe the actual spec limits line lengths to something like 76 characters, although certainly the GIMP will load NetPBM files which don't respect that. You might want to add a note about how much of the chosen input spec people must implement: I think that all four of those have some options which might not be widely used. \$\endgroup\$ – Peter Taylor Nov 8 '14 at 20:33
  • \$\begingroup\$ Image compression challenge: render in 0x0 1-bit greyscale! \$\endgroup\$ – feersum Nov 8 '14 at 21:21
2
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Simple Square Packing

This is meant to be a straightforward golfing puzzle. Hopefully this hasn't been done before.

Your challenge is to figure out how large of a square is needed to fit some other squares inside of it. You input will be a list of the sizes of other squares, and the output will be the size of the needed square.

To make this problem easier (solvable) the squares will not rotate and will have integer sizes.

Example

Let's say that you have squares of sizes 2,3,3,3,4,5. This is how they can pack optimally:

555554444
555554444
555554444
555554444
55555.333
333333333
333333333
33333322.
......22.

In this case, they all fit in a size 9 square, so your program should output a 9.

Test Cases

To be added.

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  • 3
    \$\begingroup\$ This in an NP-complete problem, so solutions will be exponential time in general. You should decide what degree of brute-forcing in solutions you're OK with. \$\endgroup\$ – xnor Nov 14 '14 at 10:09
2
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Code Yourself a DFA

or

In this challenge, your task is to implement a deterministic finite automaton (DFA for short) that recognizes the following regular language L. The alphabet of L is x,1,2,3, and it is the set difference of (1x*|2(xx)*|3(xxx)*)* and (x|1|2|3)*1x*1x*1(x|1|2|3)*. Intuitively, the strings in the language L consist of zero or more "blocks" of the form 1xx...x, 2(xx)(xx)...(xx) or 3(xxx)(xxx)...(xxx), and three blocks of the first kind cannot occur consecutively.

The API

Your program will take two arguments from STDIN, separated by a space: a letter from the alphabet x,1,2,3, and a string that represents the current state of the DFA. The program should then write to STDOUT either A or R, a space, and a string that represents the new state of the DFA. The first letter indicates whether the new state is accepting (A) or rejecting (R). After that, the program should quit.

For example, suppose that we are checking the input string 2xx, and that the start state of my DFA is start. Then, my program is given the input 2 start, and it answers with A 2block and quits, so the next state is 2block, which is accepting. Next, the program is given x 2block, and it answers with R 2block', which is rejecting. Finally, the program is given x 2block', and it answers with A 2block. Since this state is accepting, the input is accepted (as it should be, since it is an element of L).

Rules and Scoring

Your answer should include a program and the name of its start state (which should be accepting in this case, since the empty string is in L). The score of your answer is the byte count of your program, plus three times the number of states in the DFA; the lowest score wins. A control program (written in Python 3) that checks the validity of your submission and its state count can be found here (TODO). See the README file for instructions. Finally, some additional rules:

  • Your program should be completely deterministic, and cannot read any input from any external source, other than the STDIN arguments listed above.
  • A state of the DFA is either accepting or rejecting. If your program claims that some state is accepting, and later that it's rejecting, the control program will disqualify it.
  • The states of your DFA must be strings of printable non-whitespace ASCII characters, and all such strings are valid potential states. The actual state set of your DFA is the set of states reachable from the given start state.
  • Every state of your DFA must support a transition by every letter in the input alphabet.

Sandbox questions

I'd like some comments on the scoring of this challenge, and the language L. I have tried to choose them so that there could be meaningful trade-offs between state count and byte count. Specifically, if L is too simple or the penalty on program length is too low, the best tactic is to just compress the minimal DFA. Conversely, if L is too complicated, I fear that no-one will have the energy to write a DFA for it by hand.

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  • \$\begingroup\$ It's not clear to me why you talk about states being final or not final. The standard terminology, which is the one used by the background material you link to, is accepting vs non-accepting. I also find the description of the desired FSM hard to read: code markup (obtained with backticks) would be clearer than italics, and I'd find regex's | notation clearer than + for alternation. \$\endgroup\$ – Peter Taylor Nov 27 '14 at 18:08
  • \$\begingroup\$ @PeterTaylor: Good comments, I edited them in. \$\endgroup\$ – Zgarb Nov 27 '14 at 19:19
2
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Balda AI in under 8192 bytes

Balda is a Russian word game which bears some similarities to Scrabble. Your task is to write an AI for an English version of it. However, because you can place any letters, the game would be easy if you knew all the words in the English language - hence, your entire program, including any word list, must be 8192 bytes or less.

The Game

The game consists of a square of 5x5 cells; each cell can be empty or hold one letter. At the start, a randomly selected 5-letter word is placed into the middle row. Example (please excuse my terrible ASCII art skills):

+---+---+---+---+---+
|   |   |   |   |   |
+---+---+---+---+---+
|   |   |   |   |   |
+---+---+---+---+---+
| P | L | A | N | E |
+---+---+---+---+---+
|   |   |   |   |   |
+---+---+---+---+---+
|   |   |   |   |   |
+---+---+---+---+---+

There are two players. Each turn, a player must place one letter into an empty cell - any letter may be used. They must then compose a word which contains this letter. Words consist of horizontally and vertically adjacent letters; they can be backwards, upside-down, in a circle or any other shape. The player then receives one point per letter in this word. Words must be singular common nouns and at least 3 letters long. No word may be used twice in one game.

The game ends when there are no empty cells left, and the player with the most points wins.

Part of an example game:

+---+---+---+---+---+
|   |   |   |   |   |
+---+---+---+---+---+
|   | T | N |   |   | < TURN 1: Player 1 writes PLAN; Player 2 writes PLANT. Score 4:5
+---+---+---+---+---+
| P | L | A | N | E |
+---+---+---+---+---+
|   |   |   | T | T | < TURN 2: Player 1 writes PLANET; Player 2 writes TENT. 10:9
+---+---+---+---+---+
|   |   |   |   |   |
+---+---+---+---+---+

Control, Input, Output

Your program will be invoked once per turn and at the end of the game, with the following arguments, where game_status is 0 if the game is still in progress, 1 if it ended because no spaces are left, 2 if it ended because player 1 failed to provide a word, 3 for player 2, 4 if player 1 gave an invalid word and 5 for player 2:

your_player_number player1_score player2_score game_status

The previously used words and the game board (separated by a line with a *) will be provided on standard input, in the following format (blank cells are underscores):

PLANE
PLAN
PLANT
PLANET
TENT
*
_____
_TN__
PLANE
___TT
_____

It has 30 seconds to output a move in the following format. In the example, the N of PLANT is in row 2 and column 3:

ROW_NUMBER COLUMN_NUMBER LETTER_PLACED WORD_LETTER1_ROW WORD_LETTER1_COLUMN WORD_LETTER2_ROW WORD_LETTER2_COLUMN ..........

Player 2's second move in the example would be written as follows. 4 5 3 5 3 4 4 4 are the co-ordinates of each of the word's letters, in order.

4 4 T 4 5 3 5 3 4 4 4

Rules

  • Your program must be 8192 bytes or shorter at the start of the tournament. However, it may create any files and keep them between tournament games - hence, it can learn from its opponents.
  • Your program must have a name and version numbering.
  • Please provide instructions on how to run your program on Windows 8.1.
  • Libraries which provide word lists or are designed for word puzzles are not allowed.
  • Libraries created after this challenge was posted are not allowed.
  • Standard loopholes are forbidden. No web access.
  • Existing compression algorithms such as gzip are allowed, and you may use libraries to decompress them, but the decompression must be done in your program.
  • You must write a complete program, not a function.
  • If the control program detects that no words can be written, the game ends and the player with the most points wins.
  • If words can be written, but a player cannot submit a valid word in 30 seconds, they lose regardless of their score.
  • This is the official word list.
  • This is the same list, but only with five-letter words (i.e. those that can be the starting word)
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  • \$\begingroup\$ 2k is nowhere near enough for the word list. I was very proud when I managed to write a word game for the Java4k game competition. I did it with a game design which meant that I only needed to include 4-letter words, and even so I had to chop some words to fit the word list and a bit of game logic in to 4kB (heavily compressed - uncompressed it was more like 10kB). \$\endgroup\$ – Peter Taylor Sep 4 '14 at 22:07
  • \$\begingroup\$ @PeterTaylor Let's make it 8k then? \$\endgroup\$ – user16402 Sep 5 '14 at 7:29
  • \$\begingroup\$ Maybe you should provide the word list in your computer (in txt) ? So my program just access it. Well, I have 30 seconds, sounds enough to buffer and read it. (cititation needed) \$\endgroup\$ – Realdeo Sep 5 '14 at 13:34
  • \$\begingroup\$ @Realdeo What do you mean? Your word list has to be part of your program. \$\endgroup\$ – user16402 Sep 5 '14 at 17:54
  • \$\begingroup\$ What i"m trying to say that instead of having the word list in the program, and make the program huge, just have the wordList.txt avaliable for the program to access. \$\endgroup\$ – Realdeo Sep 6 '14 at 3:13
  • \$\begingroup\$ @Realdeo No, the wordList.txt may not be available for the program to access, it must be in your program. That's part of the challenge. \$\endgroup\$ – user16402 Sep 6 '14 at 7:28
  • \$\begingroup\$ Can the input also list the words that have been used so far? In most boards, there will be words present that haven't been "used" (tenant or net in your example). \$\endgroup\$ – Geobits Oct 6 '14 at 19:08
  • \$\begingroup\$ "...or if a player cannot submit a valid word ..." Does this mean that if I'm in the lead at any point, I can just not submit a word? The game will end and I'll have more points. \$\endgroup\$ – Geobits Oct 6 '14 at 19:23
  • 1
    \$\begingroup\$ @Geobits 1. I forgot that. I'll add that in. 2. That's a big loophole. I'll change it to "if you can't submit a valid word, but there is one possible, you lose" and "if no words are possible, the game ends normally" \$\endgroup\$ – user16402 Oct 6 '14 at 20:47
2
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Rise and Shine - Posted

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  • \$\begingroup\$ @trichoplax I forgot to add that part to the question. Fixed. \$\endgroup\$ – globby Jan 21 '15 at 2:03
  • \$\begingroup\$ If you want results to be valid over a range of 10,000 years, what influences do you want to be taken into account? Tectonic movements? Changes in the length of the day and year? Axial precession? \$\endgroup\$ – trichoplax Jan 21 '15 at 2:08
  • \$\begingroup\$ @trichoplax Changed the date range. You may assume for the sake of the challenge that all of those are present day conditions. \$\endgroup\$ – globby Jan 21 '15 at 2:11
  • \$\begingroup\$ @trichoplax down to the second. \$\endgroup\$ – globby Jan 21 '15 at 2:18
  • \$\begingroup\$ I'd recommend being explicit in the question about what effects are not to be taken into account, to make sure there is an objective winner. Your shorter date range means other factors make less of a difference, but if measuring to the second some of them may still affect the correct answer. \$\endgroup\$ – trichoplax Jan 21 '15 at 3:27
  • \$\begingroup\$ It might even be easiest to implement a non-golfed example solution so there is a well defined answer for every input - any disputes can simply be compared to the reference implementation. \$\endgroup\$ – trichoplax Jan 21 '15 at 3:28
  • \$\begingroup\$ @trichoplax Added a resource that sums it up, would that suffice? \$\endgroup\$ – globby Jan 21 '15 at 4:40
  • \$\begingroup\$ If you state that the result given by the linked algorithm is the required result for this challenge then that would be unambiguous. Looking good. \$\endgroup\$ – trichoplax Jan 21 '15 at 5:18
  • \$\begingroup\$ @trichoplax Alrighty. \$\endgroup\$ – globby Jan 21 '15 at 5:22
  • \$\begingroup\$ @MartinBüttner they are already excluded :) \$\endgroup\$ – globby Jan 21 '15 at 19:08
  • \$\begingroup\$ The time zone bonus should be closer to 0.085. Have you seen a time zone map lately? Plus, taking DST into account? I've been thinking about making that a challenge for a while, but I think even for a dedicated challenge, this is too much to be fun to golf. \$\endgroup\$ – Martin Ender Jan 22 '15 at 20:40
  • \$\begingroup\$ @MartinBüttner good point. Removing the bonus entirely, better for a separate challenge, which I will leave up to you. \$\endgroup\$ – globby Jan 23 '15 at 5:18
  • \$\begingroup\$ Did you intend to remove the resource? Ephimerides are a seriously hard problem, so this question shouldn't be posted without some kind of exhaustive reference for validation (and ideally a good suite of test cases). \$\endgroup\$ – Peter Taylor Jan 25 '15 at 23:16
  • \$\begingroup\$ @PeterTaylor Added some test cases, does that suffice? \$\endgroup\$ – globby Jan 26 '15 at 6:02
  • \$\begingroup\$ The test cases were to supplement the reference implementation / formula, not to replace it. And are you sure about your test cases? I find it extremely odd that all of them have timezone offsets of hh:60. \$\endgroup\$ – Peter Taylor Jan 26 '15 at 9:58
2
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Count inversions

Given a list/array/vector of 0's and 1's, count the number of inversions, which are instances of a 0 coming later than a 1. In other words, an inversion is a pair of indices (i,j) with i<j that correspond to list elements L[i]==0 and L[j]==1.

This equals the minimum number of times on needs to swap adjacent elements to sort the list.

Test cases: TODO


Questions for Sandbox: Has this really not been asked before? I searched and didn't find it. Also, is this challenge too easy? It could be made a bit harder by having list elements be general integers, or requiring generating lists with a given inversion count instead.

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  • \$\begingroup\$ I've got a 25-char GS answer for the "general integers" case without really trying. I'll leave it to you to judge whether that's too easy. Generating lists of a given length with a given inversion count is a more interesting problem to analyse, although I suspect that the analysis turns up a relatively simple solution which everyone can copy/port. \$\endgroup\$ – Peter Taylor Jan 29 '15 at 11:38
2
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Find the direction of the Bicycle (code challenge)

There is a trace of a bicycle in the snow, but you can only see the two lines of the two wheels. Your goal is to find out which direction the bycicle did go. Inspiration from George Hart

Task

Write a program that takes a pixel image as input and calculates which direction the bicycle was riding. The output consist of the direction (left or right) as well as and a percentage (0-100) of how sure you are.

You can assume that the front wheel and the backwheel have a distance of 100px and that the frontwheel has a path that is piecewise differentiable. (That means that the path of the frontwheel is smooth, and does only make a finite amount of sudden turns.) The path of the front wheel is marked black, while the one of the back wheel is marked red. You can expect all inputs to be non ambiguous. Both paths end in the right and left sides of the images.

Hint

The curve of the backwheel is called tractrix (but often we refer to one special curve as tractrix).

Score

Your score is the sum of the precentages of the paths you got right minus the sum of the percentages of those which you got wrong.

Examples inputs (more needed for an actual challenge)

Of course the challenge images will be without plotting grid.

EDIT: new two coloured images enter image description here enter image description here

--META:

Please comment on what is unclear / should be added or changed, and vote for the ideas how to make the challenge easier:

  1. Do not make it easier, both lines black
  2. Make it easier by making front wheel and back wheel different colours (unknown which one is which)
  3. Make it even easier by e.g. marking the back wheel path always red and the front wheel path always black
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  • \$\begingroup\$ 1. Both paths black \$\endgroup\$ – flawr Feb 2 '15 at 21:41
  • \$\begingroup\$ 2. Both paths different colours, colours arbitrary each time \$\endgroup\$ – flawr Feb 2 '15 at 21:41
  • 6
    \$\begingroup\$ 3. Both paths different colours, same (known) colours each time \$\endgroup\$ – flawr Feb 2 '15 at 21:41
  • \$\begingroup\$ The basic task is unclear. I think that the two lines are meant to be the loci of two points which are separated by a constant amount (i.e. it's a "spherical cow in a vacuum" type of simulation), but surely that and the rather loose continuity constraint on one of them don't suffice to fully determine the evolution of the loci? An input could have both paths discontinuous and satisfy the stated constraints. I would like to see an explicit physical model or system of differential equations. \$\endgroup\$ – Peter Taylor Feb 3 '15 at 14:11
  • \$\begingroup\$ Then it's also unclear what the output format is. What should the arrow look like? How is the confidence interval communicated to your test framework? What counts as "getting it right" vs "getting it wrong"? And finally, I think that you should either replace "there might be ambiguous inputs" with a guarantee not to include any or say that in the case of ambiguous inputs any answer is wrong. Otherwise it's a guessing game, not a fair challenge. \$\endgroup\$ – Peter Taylor Feb 3 '15 at 14:18
  • \$\begingroup\$ Ok I will change that and do not allow ambiguous examples. I wanted the output to consist of the image input again that was altered: The program should draw an arrow on one of the lines (on an arbitrary place along the line) that represents the direction of the wheel of that path in which the wheel was going. As far as differential equations goes: I have no experience in that field. For simulation the bicycle I did following: f(t) is the position of the frontwheel at time t, similarly r(t) for the backwheel. I defined f as a function/spline and then calculated r. \$\endgroup\$ – flawr Feb 4 '15 at 9:47
  • \$\begingroup\$ Let h be the time step size. Then I calculated the distance vector of the two wheels: d(t+h):= f(t+h)-r(t) and then calculated the new position of the rear wheel: r(t+h) = f(t+h) - L/|d(t+h)| * d(t+h), where L is the distance between back and front wheel. For small enough h I thought this simulation was accurate enough. With given starting points and give f I thin r is uniquely determined. If you know how to write this as a differential equation I'd be happy to include it, but I am not sure how many of the people here can actually use them. \$\endgroup\$ – flawr Feb 4 '15 at 9:55
  • \$\begingroup\$ Doesn't sound much like a bicycle, but then the kind of curves you show would be impossible with a real bicycle in the snow. It would be good to edit the question with the description of your track generation model. And I don't think you've answered any of the three questions in my second comment. \$\endgroup\$ – Peter Taylor Feb 4 '15 at 12:14
  • \$\begingroup\$ I am sorry, I forgot to answer those. What makes you think they are impossible? As long as you manage to keep balance those tracks seem perfectly possible to me. The arrow does not need a special shape, it just must be clear for the viewer. As an arrow can only point in two different directions parallel to a line it should be obvious from the output wheter it is the right or wrong direction. The output of the confidence is also up to the participant, I thought they could directly write it to the image so we only have one output item that can easily be displayed. \$\endgroup\$ – flawr Feb 4 '15 at 12:23
  • \$\begingroup\$ Have you ever ridden a bicycle in snow? You have to turn very carefully. As to the arrow, I can think of several nasty corner cases. The point at which I'm most confident could be where the path leaves the image, in which case only one pixel of the arrow would be inside the image bounds. The arrow could start at a point where the derivative is discontinuous, or where the path crosses back over itself, in which case there would be more than one correct answer. Given that the arrow is the same colour as one of the tracks, it could be unclear where it starts. \$\endgroup\$ – Peter Taylor Feb 4 '15 at 12:37
  • \$\begingroup\$ Obviously we are talking about an idealized bicycle (since most bicycles also cannot drive backwards and the touching points of front and back wheel are not constant)... I will now alter the challenge so that both tracks end on the right and left side of the visible frame. This way the possible answers are right or left as a direction of travel. \$\endgroup\$ – flawr Feb 4 '15 at 13:04
2
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Implement the Maximize Affirmed Majorities voting system

There are many different voting systems in existence. Different voting systems have different mathematical properties, which serve to describe the "positive features" of that system. Here is an informative list of these properties and a table of compliance.

In this challenge, you will implement a voting procedure called "Maximized Affirmed Majorities", a method created with the sole purpose of meeting as many mathematical requirements as possible. You will write the shortest (in bytes) program (or named function) possible to determine the winner of an election using this method.

The Procedure

Each vote is a self-consistent ordering of the candidates. It is possible for a vote to include ties between multiple candidates, like A>B=C>D=E=F. An example of a vote which violates these rules is `A>B>A.

Step 1: Create a tiebreaker

I know it's a little odd that creating a tiebreaker is the first step, but hopefully you never have to use a random tiebreaker for a full-scale election. A tiebreaker is a strict ordering of candidates. Let T(X,Y) be the tiebreak function, return true iff the tiebreaker ranks X above Y.

  1. Choose a uniformly random ballot, and adopt the preferences of that ballot.
  2. If the ordering is incomplete (like A>B=C>D=E=F), then choose a second uniformly random ballot (without replacement) and use that ballot to tie-break any unresolved orderings.
  3. Repeat step 2 until the tiebreaker is complete. If you run out of ballots to create a tiebreaker with, randomly resolve the remainder of the list.

Step 2: Create a list of majorities

This list takes the form of ordered pairs of candidates.

  1. For each pair of candidates (X,Y), let V(X,Y) be the number of voters who ranked X strictly over Y.
    1. If V(X,Y) > V(Y,X), then add (X,Y) to the list.
    2. If V(X,Y) < V(Y,X), then add (Y,X) to the list.

Step 3: Sort of the list in order of descending importance

A majority (X,Y) is ranked above (Z,W) if any of the following hold:

  • V(X,Y) > V(Z,W); more support of X>Y
  • V(X,Y) == V(Z,W) and V(W,Z) > V(Y,X); same support, but less opposition
  • V(X,Y) == V(Z,W) and V(W,Z) == V(Y,X) and T(W,Y) == True
  • V(X,Y) == V(Z,W) and V(W,Z) == V(Y,X) and Y == W and T(X,Z) == True

Step 4: Affirm majorities in order of preference

Let F(X,Y) be a function that returns whether or not X finished over Y in the final list. It is initialized to False for every pair of candidates.

  1. Iterate through the list of majorities, in order.
    1. If F(X,Y) == False and F(Y,X) == False, then Affirm(X,Y).

The function Affirm(X,Y) is defined as follows:

  1. Set F(X,Y) to true
  2. For each candidate A where X != A != Y
    1. If F(A,X) == True and F(A,Y) == False, then Affirm(A,Y)
    2. if F(Y,A) == True and F(X,A) == False, then Affirm(X,A)

Step 5: Determine the top candidate(s)

A candidate X is considered a top candidate if there exists no candidate Y such that F(Y,X) == True. That is, candidate X doesn't explicitly lose to anybody.

Step 6: Tiebreak to determine the winner

Out of the list of top candidates, the winner is the candidate who appears highest on the tiebreaker list.

Input

Input will be handled similarly to this online implementation I found, which also provides the complete ordering of candidates instead of just the winner.

Each line of input will contain a ballot, which is a list of space-separated candidates in descending order of preference. Optionally, two candidates separated by an = sign are considered equal in preference. A number followed by a colon at the start of a line denotes a multiple number of ballots.

[line] = ([number]: )?[candidate]( (= )?[candidate])*
[candidate] = alphanumeric string, not starting with a digit
[number] = a positive integer of course

Any candidates no ranked on a ballot are appended to the end and set equal to each other. You may optionally assume 1 or 2 newlines at the end of input.

Example input:

Bob Sally Test4
Bob Sally Test4
1: Bob = Sally Test4 = Sam
4: Test4 Bob

is the exact same as

Bob Sally Test4 Sam
Bob Sally Test4 Sam
Bob = Sally Test4 = Sam
Test4 Bob Sally = Sam
Test4 Bob Sally = Sam
Test4 Bob Sally = Sam
Test4 Bob Sally = Sam

Expected Output

Test4

Sandbox Notes

Any comments?

\$\endgroup\$
  • \$\begingroup\$ Interesting. Maybe some more testcases? \$\endgroup\$ – Ypnypn Feb 10 '15 at 21:16
2
\$\begingroup\$

Conway's Golf of Life- Brains vs Brawn Edition

2 programs play a competitive version of the game of life, where each program can set as many cells in the initial condidtions as there are characters in the other's source code.

The 2-player game of life is played on an infinite grid of cells. Each cell holds a value a, b, or 0. On each turn, the following rules are applied simultaneously to each cell:

  • A non-zero cell with 2 or three non-zero neighbours keeps its value
  • A non-zero cell with less than 2 or more than 3 non-zero neighbours is set to 0
  • A zero cell with 3 non-zero neighbours is set to the value of the majority of its non-zero neighbours
  • A zero cell with more or less than three non-zero neighbours keeps its value

The two player programs A and B have nA and nB characters respectively, and nA <= nB.

The grid is initialized to 0 everywhere

First, program A is called with the command line argument nB. It must output 2 * nB integers to stdout, which will be interpreted as a list L of nB ordered pairs. For each ordered pair in L, the cell at the coordinates in that pair will be set to 'a'

Second, program B is called with the command line argument nA followed by the 2*nB integers output by program B. It must output 2*nA integers to stdout, which will be interpreted as a list L of nA ordered pairs. For each ordered pair in L, the cell at the coordinates in that pair will be set to 'b'

Note: The coordinates output by programs must fit within 16 bit signed integers. However, calculation of steps will take place on an effectively infinite grid.

Once both programs have run, the grid is run through 10,000 turns. After this, if more cells are set to a, program A wins. Otherwise, program B wins.

The challenge is to create a program that has the best win/loss ratio against all other submissions.

\$\endgroup\$
  • 1
    \$\begingroup\$ Might be worth requiring the output of the program to be distinct cells as a precaution against a highly golfed program which manages to output something with only 2 chars in an attempt to win by default. \$\endgroup\$ – Peter Taylor Feb 9 '15 at 17:44
  • \$\begingroup\$ Also, I think you should probably run two games for each pair of bots, because if one bot is allowed to place all its cell first, I'm sure that will give a bias in some direction. Also, is the grid infinite? \$\endgroup\$ – Martin Ender Feb 9 '15 at 17:50
  • \$\begingroup\$ Also related but potentially abandoned proposal. \$\endgroup\$ – Martin Ender Feb 9 '15 at 17:52
  • \$\begingroup\$ By infinite you mean the programs could choose silly coordinates like (1.000.000, 100.000.000)? \$\endgroup\$ – user16991 Feb 9 '15 at 17:56
  • \$\begingroup\$ @kuroineko Yes. And that the patterns can move 10,000 cells in any direction without hitting a wall or wrapping around to the other side of a finite domain. \$\endgroup\$ – Martin Ender Feb 9 '15 at 17:58
  • 1
    \$\begingroup\$ well in that case I would try to spawn walker launchers all over the place, with a huge random starting position. \$\endgroup\$ – user16991 Feb 9 '15 at 18:01
  • \$\begingroup\$ The computation you will need to do is O(step_number^3) so 10000 steps means around Const*10^12 calculation which is undoable. I would advise 100 steps. The two player's cells probably wouldn't interact anyway if they don't do it in 100 steps. One other thing: I would still add a coordinate-limit like -2^30<x,y<2^30 as you probably don't want to do arithmetic with arbitrarily big integers. You should set the output requirement clear as the golfed codes' outputs might include extra spaces, linebreaks etc. if not stated otherwise. Otherwise I think it's a great challenge. \$\endgroup\$ – randomra Feb 14 '15 at 18:10
  • \$\begingroup\$ Randomra: look up the algorithm "HashLife" which I would use to implement the control program. Calculating game of life steps can almost always be reduced to O(log(n)) - a pretty stunning result! I like the idea of limiting coordinates- I think I'll limit them to signed 32 bit integers, so contestants don't have to worry about handling inputs that break their language \$\endgroup\$ – QuadmasterXLII Feb 15 '15 at 17:14
  • \$\begingroup\$ @QuadmasterXLII HashLife dissolves my concern. If you use the @[name] syntax at the start of your comment the person will be notified of your response and will notice it unlike I did. :) \$\endgroup\$ – randomra Feb 22 '15 at 18:50
2
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Rendezvous palace

Introduction

This comes from a well-liked question on the Math SE by RobAu and a more specific follow-up to that by Danikov.

There is a palace which is a grid of n × n rooms, which we will index using two coordinates 0 ≤ x,y < n. The rooms are organized in a torus topology, i.e. with wrap-around at the edges. So the room to the right of (n-1,3) is (0,3) again, and likewise for the y direction.

Two robots are placed into this grid, and their objective is to rendezvous. But the problem is that these only can can keep track of relative changes in position and orientation. So each robot has its own local coordinate system, where its initial position is called (0,0), but these two coordinate systems relate to one another in any of 4n2 possible ways, accounting for 4 possible relative rotations and n × n relative shifts. Each of these relations has equal probability.

The palace has no doors. The robots can move around the palace by teleportation. They move in a synchronized way, teleporting at exactly the same instant. To meet they either have to be in the same room at the same time, or to swap places during teleportation.

Challenge

Your task is to write a program for these robots, trying to minimize the expected time till rendezvous. The same program will be executed for both robots, and the robots have no way to distinguish which one is which. So we'll be executing two copies of your code in parallel.

Input

The only input is n, the size of the palace. In addition to that, the code has access to a random number generator, and the random numbers from one instance are assumed to be independent from those in the other instance. No other input or communication between the instances is allowed.

Output

The output of your code should be an infinite sequence of coordinate pairs, (x,y), indicating the target room for the next teleportation. The coordinates are relative to where the robot started, not relative to where he currently is located. Giving the same output repeatedly means you are staying put in a given room.

Framework

You are asked to evaluate your code yourself. Write or copy a framework which will randomly choose relative starting positions, execute two instances of your code in parallel, detect a successful rendezvous and report the time to rendezvous. Run that code a number of times, and compute the average and standard deviation of the time to rendezvous. See the section below for ready-to-copy code.

Submission

Your answer must include the code which constitutes the program for one robot. It must also include the average time to rendezvous and its standard deviation for the following setups:

  1. at least 1,000,000 runs for n = 2
  2. at least 100,000 runs for n = 64
  3. at least 10,000 runs for n = 256

You don't have to paste your framework by default, but be willing to provide it upon request. An explanation of what your code is doing and why you wrote it that way might bring upvotes.

Scoring

The title of best answer will go to the code with the minimal expected time to rendezvous for n = 64. I'll re-evaluate the top contenders myself, to make sure you included genuine results. The closer two competitors are, the more often I'll run their code to establish a reliable expected value from the average. This is an open-ended contest, so the title may be re-awarded when a better answer comes along.

Example frameworks

C++

You can use the following fixture if you like.

#include <random>
#include <iostream>
#include <iomanip>
#include <cmath>

constexpr int n = 64;
const int orientations[4][4] = {
  {1, 0, 0, 1},
  {0, 1, n - 1, 0},
  {n - 1, 0, 0, n - 1},
  {0, n - 1, 1, 0}
};

std::default_random_engine randEngine((std::random_device())());
std::uniform_int_distribution<int> randDist{0, n - 1};
std::uniform_int_distribution<int> randDist4{0, 3};
int rand() { return randDist(randEngine); }

typedef std::pair<int, int> pos_t;

class Robot {
public:
  pos_t next() { return {rand(), rand()}; }
};

class Transform {
  int dx, dy, ori;
public:
  Transform() : dx{rand()}, dy{rand()}, ori{randDist4(randEngine)} { }
  pos_t operator()(const pos_t& in) const {
    int x = in.first, y = in.second;
    const int *o = orientations[ori];
    return { (o[0] * x + o[1] * y + dx) % n, (o[2] * x + o[3] * y + dy) % n };
  }
};

unsigned long run() {
  Transform tr;
  pos_t p1{0, 0}, p2{0, 0};
  p2 = tr(p2);
  Robot r1, r2;
  unsigned long t = 0;
  while (p1 != p2) {
    ++t;
    pos_t q1 = r1.next();
    pos_t q2 = tr(r2.next());
    if (p1 == q2 && p2 == q1) break;
    p1 = q1;
    p2 = q2;
  }
  // std::cout << std::setw(8) << t << "\n";
  return t;
}

int main(int argc, char** argv) {
  double sum = 0, sumSq = 0;
  int report = 10;
  for (int i = 1; ; ++i) {
    double r = run();
    sum += r;
    sumSq += r*r;
    if (i == report) {
      double avg = sum / i;
      double var = (sumSq - sum*avg) / (i - 1);
      double sd = std::sqrt(var);
      std::cout << std::setw(8) << i << " runs: Expected: "
                << std::fixed << std::setprecision(2) << avg
                << ", SD: "
                << std::fixed << std::setprecision(2) << sd
                << std::endl;
      report *= 10;
    }
  }
}

In a submission you'd just paste the next function. A possible statistical report for the above could read:

n = 2: Expected 2.40, SD 2.68 in 10,000,000 runs
n = 64: Expected 4105.08, SD 4104.22 in 10,000,000 runs
n = 256: Expected 64911.36, SD: 65204.72 in 10,000 runs

Python, …

To be extended for other languages. Feel free to donate your own framework if you feel like it.

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2
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A Continuously Running KOTH, or "An MMO with all AIs"

This was an idea discussed in chat, I'm throwing a sandbox post together because I thought it would be really fun to do.

The main idea is that the KOTH is hosted an an external website, where the competitions is continuously running. When a person submits an answer, that player's pixels (or whatever they're called) will be spawned in the game world. Over time, build a larger army of themselves.

Basically, it's an MMO with all AIs.

As of right now, I don't have the capability to host a website for this. I think someone (Optimizer?) said that they had a website. Regardless, we probably don't have to worry about that until we figure out what the rules are going to be.

Some ideas

  • The world is a large array of randomly generated pixels. Every submission has a unique color. As pixels travel around, they can encounter other pixels of the same color, which then activate and join them.
  • A more Minecraft-y options involve more detailed resource gathering / crafting. Con: the complexity can get pretty hard for contestants.
  • A space theme can involve a randomly generated galaxy, which players can travel across. They can then colonize planets and build an empire. (Maybe resembling EVE Online?)
  • Some recommendations for ideas are Clash of Clans and Globulation 2, although I've never played either.
  • Maybe each player controls an adventure in a super-simplified Dwarf Fortress-style world.

You are free to edit this post to add ideas.

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  • 1
    \$\begingroup\$ Sounds really interesting! But I think the backend of this can get really complicated... \$\endgroup\$ – rorlork Apr 6 '15 at 22:16
  • \$\begingroup\$ Would it be possible for a player to die out completely, so that the answer is permanently out of the competition? Is there some way that this could be prevented so every answer is represented, even if only by a very small number of pixels/creatures/... \$\endgroup\$ – trichoplax Apr 7 '15 at 21:33
  • \$\begingroup\$ Respawning with a single individual would be one way. \$\endgroup\$ – trichoplax Apr 7 '15 at 21:35
  • \$\begingroup\$ Alternatively each individual could have resilience inversely proportional to the number of individuals the player currently controls. So as the individuals reduce in number they get stronger, preventing the final individual from ever being killed. \$\endgroup\$ – trichoplax Apr 7 '15 at 21:36
  • \$\begingroup\$ @trichoplax None of the specifics have really been thought through yet, but I think it would make sense to say that, upon death, players lose resources, but can't go below what they started the game with. \$\endgroup\$ – PhiNotPi Apr 7 '15 at 21:37
  • \$\begingroup\$ How about a text-based map, similar to the ones used in Roguelikes? Players build walls with their player color (| and =), with doors (+), tripwires (>-----<), mines (*), and guards (&). Weapons and armor ([ and ]) modify stats, like +2 to attack, potions (!) give buffs/debuffs, and various miscellaneous items (") are found randomly. Maybe a shop, where you use collected gold ($)? \$\endgroup\$ – ASCIIThenANSI Apr 8 '15 at 1:30
  • \$\begingroup\$ How would this be able to have a winning condition? \$\endgroup\$ – Peter Taylor Apr 14 '15 at 9:50
  • \$\begingroup\$ Bump. Now that there's a KOTH server, you may wish to visit this idea with more attention. \$\endgroup\$ – mbomb007 Nov 3 '15 at 15:43
2
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Roguelike to Text Adventure Converter

Note: this challenge is a popularity contest for autogenerated interactive fiction. As such, the best way of judging answers is by playing them! It would threrefore be best for solutions to provide a link to a playable version online. Failing that a 'walkthrough'-style excerpt is fine, but not as fun.

Meta-comment: As you can see, I've changed this from a code golf challenge to a more creative popularity contest. Comments welcome!

Background

Roguelikes are a type of RPG characterized by by procedural level generation, turn-based gameplay, tile-based graphics and permadeath. Levels typically consisted of rooms connected by corridors. Early roguelikes, including Rogue itself, would use ASCII characters to represent the top-down view of each level.

Text adventures are a type of adventure game where the interface is text-only: the player uses text input to control the game and the game state is relayed back via text output. Like roguelikes, layouts typically consisted of interconnected rooms, with movement controlled either by specifying the room name or by giving a compass direction.

This challenge involves writing a program to automatically convert an ASCII representation of a roguelike level into a playable text adventure. The format of supported input levels is given below, as are some minimum features that must be supported by the output game. Beyond that, there is scope for as much or as little creativity you desire!

Input maps

The input of the program is an ASCII representation of a roguelike level, passed in via STDIN, command-line argument, function argument or in a file. Here is a small example:

        --------                
        |..=...+#######                                                                          
        |......|      #                                                                          
        --+-----    --+-------                                                                   
         ##         |...//...|                                                                   
       ###  ########+........|                                                                   
 ------+----+-      -----+----                                                                   
 |..%........|           #                                                                       
 |......!....|   ---     #                                                                       
 |..@........+###+.+######                                                                       
 |...........|   ---                                                                            
 -------------                                                                                   

A level consists of the following elements:

  • Rooms: these are size 1x1 or greater rectangular enclosures surrounded by walls and doors. The north and south walls are represented by -, as are the corners. The west and east walls are represented by |. Doors, which can appear instead of a wall (but not in a corner) are represented by +. The map above has four rooms.

  • Corridors: these are connected (and potentially winding) paths of #s leading from a door in one room to a door in another. The 'direction' of a corridor is defined by which walls it connects to. A corridor that links the north wall of one room to the south wall of another is going N-S, while one that links a north wall to a east wall is going NW-SE. Each room has at least one corridor leading out of it and at most one corridor per compass direction. Corridors that don't correspond to a valid direction (e.g. linking a north wall to a north wall) aren't permitted. Note that the relative layout of the rooms is irrelevant, only which walls the corridors connect to. The bottom-left room in the map above has three corridors: one going N-S, one NE-SW and one E-W.

  • Room content: empty spaces inside rooms are represented by ., while initial room objects are represented by !, %, / and =. These traditionallty correspond to potions, food, wands and rings, but may be called anything you want in your version. There may be multiple objects starting in one room, including of the same type. In the map above, the bottom-left room contains one potion and one food, while the top-right room contains two wands. Note that your program may implement other types of object beyond the ones that appear in the starting map (for example, the contents of a chest).

  • Starting position: one of the spaces in one of the rooms, represented by @, is the starting position of the playing character. In the map above, this is in the bottom-left room.

  • Void: the space between rooms, represented by spaces, is not part of the playing area.

Output games

The output of the program is an interactive game, taking input from STDIN and printing output on STDOUT, that is based on the input map. At the very least, the game should support the following commands:

  • LOOK (also executed whenever a player enters a room and at the start of the game). At the very least this should describe the directions of the doors and the content of the room, though it can do more. For example: "You are in a small room. You can go N, NW or W. The room contains 2 potions and no tea."
  • N/NW/W/SW/S/SE/E/NE. Moves to the appropriate room if possible (and outputs its description as above). Should indicate an error if there is no path in that direction.
  • INV. At the very least this should describe which objects the player is carrying. The player may optionally start with objects. For example: "You are carrying a ring, a potion and a used handkerchief."
  • GET [object]. Picks up one instance of the object from the room outputs some confirmation. Indicates an error if there isn't such an object in the room (or there is some sensible reason why the player can't pick the object up).
  • DROP [object]. Drops one instance of the object into the room and outputs some confirmation. Indicates an error if the player doesn't have the object (or there is some sensible reason why they can't drop it). There is no requirement to have a limit on the number of objects in a room (as there would be in the roguelike original).
  • USE [object]. Uses one instance of the object, possibly consuming it. The effect of using objects is entirely up to the solver!

Case-sensitivity is up to the solver, as is the grammatical correctness of the output. You may include aliases for the above commands if you wish.

Note that the game is allowed (and encouraged!) to support other commands, as well as other types of game elements (for example, creatures that move from room to room). The game need not have a well-defined ending, though it is welcome to. The setting need not be typical for a roguelike, either: a library, spaceship or ant colony are just as valid settings as a dungeon. Be creative!

Example

Here is a sample output from a hypothetical game based on the small map above (actual programs should use the larger map provided below). As mentioned above, it would be best if you could supply an interactive link so users can actually try out the game for real!

You are in a large, white room. You can go N, NE or E. The room contains a potion and a snack.
> INV
You are carrying nothing.
> GET potion
OK.
> INV
You are carrying a potion.
> N
You are in a medium-sized, green room. You can go SE or S. The room contains a ring.
> DROP potion
OK.
> LOOK
You are in a medium-sized, green room. You can go SE or S. The room contains a ring and a potion.
> DROP potion
You don't have a potion!
> GET potion
OK.
> USE potion
Zap! Your surroundings become a blur...
You are in a large, white room. You can go N, NE or E. The room contains a snack.

Scoring

This is a popularity contest, so highest vote tally wins.

Large map

Here is a larger map for use as the default for your online script (or for any walkthrough).

TODO: add larger map.

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  • 2
    \$\begingroup\$ Congratulations on posting the 1000th answer to the sandbox! :) \$\endgroup\$ – Martin Ender Apr 18 '15 at 17:45
  • \$\begingroup\$ (Including deleted ones, of course.) \$\endgroup\$ – Martin Ender Apr 18 '15 at 17:45
  • 1
    \$\begingroup\$ This may indeed be a bit too much to be an enjoyable golf, but I'm not sure what you could really do about it. It's still a nice task. One thing you might want to make explicit somewhere is how the enumerations in LOOK and INV should be formatted ("a" for 1, numbers for >1, correct plurals, and multiple types separated by commas, except for and "and" before the last one, and no Oxford comma). \$\endgroup\$ – Martin Ender Apr 19 '15 at 2:03
  • \$\begingroup\$ I may park this here for a bit, while I think of ways either to simplify it enough to make it enjoyably golfable or change the purpose of the challenge to something else. \$\endgroup\$ – Uri Zarfaty Apr 19 '15 at 6:10
  • \$\begingroup\$ Also, I'll add more test maps before I post this. \$\endgroup\$ – Uri Zarfaty Apr 19 '15 at 6:11
  • \$\begingroup\$ I'd probably have great fun doing this one, but I probably wouldn't golf it too seriously unless unless a similar language (I use C#, so Java/C#/Maybe C++/Some VB or other) was posted by another user for me to compete directly with \$\endgroup\$ – VisualMelon Apr 19 '15 at 12:40
  • \$\begingroup\$ One possibility is allow leeway for creativity (e.g. customized item descriptions and behaviors, different room descriptions) and then turn this into a popularity contest based on the quality of the interactive fiction. \$\endgroup\$ – Uri Zarfaty Apr 19 '15 at 15:02
  • \$\begingroup\$ Any comments on the new approach? \$\endgroup\$ – Uri Zarfaty May 1 '15 at 10:51
2
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Draw a trie diagram

Tries (pronounced "trees") are a type of data structure also known as a prefix tree. The prefix tree stores a list of strings by taking advantage of prefixes that are shared between multiple strings.

(Too lazy to type a better description now)

In this challenge, you will create a very simple diagram of a trie.

Input:

baby,bad,bank,box,dad,dance

Output:

b   d
a  oa
bdnxdn
y k  c
     e
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  • 1
    \$\begingroup\$ Should we be able to reconstruct the list based solely on the diagram? For example, does the diagram change if one of the words is a prefix (such as ban or bo)? \$\endgroup\$ – Geobits Apr 29 '15 at 17:40
  • \$\begingroup\$ @Geobits Don't worry, I was already thinking of that possibility. I don't know the answer yet. \$\endgroup\$ – PhiNotPi Apr 29 '15 at 18:35
2
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Matchstick Equations

Your task in this challenge is to analyize a given "Matchstick Equation" like this one...

enter image description here

... and to find out whether it can be turned into a valid equation by rearranging the matches. If so, you are to output the least number of moves to do so and the resulting equation.

Input

The input is a String that can be read from STDIN, taken as a function argument or even be stored in a file. It is an equation that represents a matchstick arrangement and can be described using the following EBNF:

input = term, "=", term ;
term = number | (term, ("+" | "-"), term) ;
number = "0" | (numeralExceptZero , {numeral}) ;
numeralExceptZero = "1" | "2" | "3" | "4" | "5" | "6" | "7" | "8" | "9" ;
numeral = "0" | numeralExceptZero ;

An example for a valid input would be 3+6-201=0+0+8.

Task

Consider the following illustration where each matchstick has a number assigned:

matchstick positions

We now map each input symbol to the corresponding matchstick positions as follows:

1 ↦ 4,5
2 ↦ 2,3,5,6,8
3 ↦ 3,4,5,6,8
4 ↦ 1,4,5,8
5 ↦ 1,3,4,6,8
6 ↦ 1,2,3,4,6,8
7 ↦ 4,5,6
8 ↦ 1,2,3,4,5,6,8
9 ↦ 1,3,4,5,6,8
- ↦ 8
+ ↦ 8,10
= ↦ 7,9

Each input formula can be turned into a matchstick arrangement. For example, the equation "45+6=92" becomes

enter image description here

where unused matchsticks are greyed out. Your task is to find out the least number of matchsticks that have to be rearranged in order to make the equation valid.

Output

We distinguish between three possible cases:

  • If the input is not valid (i.e. it doesn't satisfy the above EBNF), output whatever you want.
  • Otherwise, if there are ways to turn the equation into a valid one by rearranging the matchsticks, you have to output both the minimum number of rearrangements and the corresponding equation. Just as the input, the outputted equation must also satisfy the given EBNF. In the above example, the correct output would be 1 and 46+6=52. If there are multiple possibilities for the resulting equation, output any of them.
  • Otherwise (so if the input is valid but there is no way to make the equation true), you have to output -1.

Details

  • You are not allowed to remove or to add matches. That means, if the input is built of n matchsticks, the output must also consist of exactly n matchsticks.
  • "Empty" matchstick-blocks are only allowed at the end and the beginning of an equation, not in the middle. So, for example, turning 7-1=6 into 7 =6-1 by simply removing -1 from the left side and adding it on the right side with just 3 matchstick rearrangements is not allowed.

Examples

Input: 1+1=3Output: 1 and 1+1=2

Input: 15+6=21Output: 0 and 15+6=21

Input: 1=7Output: -1

Input: 950-250=750Output: 2 and 990-240=750

Input: 1-2=9Output: 1 and 1+2=3

Input: 20 + 3=04Output: anything

Winner

This is , so the shortest correct answer (in bytes) wins. The winner will be chosen one week after the first correct answer is posted.

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  • \$\begingroup\$ Can I adopt this abandoned proposal? \$\endgroup\$ – programmer5000 Jun 9 '17 at 12:31
2
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Formatting a Lisp-like Syntax

POSTED

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2
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From A to Zilch

Zilch, Farkle, Greed, Dice 10000: The game goes by many names, and many rules. Your goal is to make a program that can play them all optimally. The base rules goes as follows:

  1. At the beginning of your turn, you have 6 available dice
  2. At the beginning of each roll, you either choose to bank or continue.
  3. If you choose to bank, then you receive the total number of points you have accumulated and your turn is over.
  4. Roll all available dice
  5. If you didn't roll any combinations, you get 0 points for your entire turn, and your turn is over
  6. You must take one or more distinct combinations from your available dice and score them.
  7. If you have no available dice left over, you are able to use all 6 dice again.
  8. Go back to step #2

Your goal is to write a function or program that accepts 3 parameters:

  1. The number of points you currently have
  2. The number of dice you have left
  3. A list of (Combination, Point) pairs that define what combinations give points

and then returns a Truthy value if you should continue, otherwise a Falsy value.

Combinations are passed as a list of integers that represent the required digits for that combination.

For example, if I named my function foo, then a call to my function might look like:

foo(100, 5, [([1],100), ([5],50), ([1,1,2],1000)])

This would mean that I have 100 points so far, 5 dice left, and there are 3 possible combinations:

  1. Rolling a 1 would give me 100 points
  2. Rolling a 5 would give me 50 points
  3. Rolling 2 1s and a 2 would give me 1000 points.

Considering I have 5 dice, and it is quite likely for me to roll a 1 or a 5, I should definitely return a Truthy value. Also, note that in the above example, rolling 11235 would give me a maximum of '112'=>1000 + '5'=>50 = 1050 points. Each die can only be included in one combination.

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  • \$\begingroup\$ Why wouldn't 11255 give 50 more points than 11235? \$\endgroup\$ – feersum Jun 1 '15 at 4:28
  • \$\begingroup\$ By maximum I meant that of all of the different combinations to be made with 11235, the ones I gave give the biggest score. I could instead score 2 1s and 1 5 if I wanted. \$\endgroup\$ – Nathan Merrill Jun 1 '15 at 4:36
2
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Pirates!

Introduction

Arrr mateys!

All hands on deck! Tharr be a ship o' other pirates comin' starboard up t' us on t' starboard! Man t' six pounders! We'll show these guys what we're made of!

...

What? They have t' exact same ship, and t' exact same six pounders as us? That don't matter, we've got better cannon strategy! As long as we reinforce points o' our ship that they fire upon, and fire upon unreinforced parts o' their ship, we're aye t' win! Now, where's that techno thingamabob that said what t' do...?"

Game Description

In this King of the Hill challenge, you write a program to command a pirate crew in a naval war. The other pirate crews are controlled by other players' programs. By carefully choosing where and when to fire, you can defeat the other pirate crews and claim the golden treasure -- the green checkmark of legend.

A battle occurs between two ships. Each ship is mounted with 7 cannons in a row, labelled 1 to 7. Each cannon is directly opposite to the cannon on the other side. Ships all start with 0 damage. If a ship reaches 10 damage, it sinks, and the crew of the other ship win the battle. If both ships sink at the same time, the battle is a draw.

Each battle consists of several turns. On each turn your crew can do any of the following actions:

L:n

Load a cannonball into cannon n. All the cannons start with cannonballs in them, and naturally firing a cannon without a cannonball doesn't do anything.

You can only load one cannonball into a cannon at a time.

R:n

Reinforce a cannon n. Reinforcements will nullify a single attack on that cannon. However, reinforcements are but a transient defence -- they will wear off two turns after they have been applied.

[Todo: Clarification on "two turns"]

F:n

Fire a cannon n, which will hit cannon n on the opposing side. If the cannon is not reinforced, the opposing ship's damage will increase by 1. If the cannon is reinforced, the ship will not take damage, but the reinforcement will be destroyed.

Input Description

The controller will call your program from the command line like this:

<command> <history> <enemy_history> <damage> <your_damage>

where:

  • command is the command needed to run your program. For instance, if your program's source code was in the file arrr.rb, the command is ruby arrr.rb.
  • history is a comma separated list of moves that you have made. For instance, L:1,F:1,L:2,F:2 would mean that you loaded and fired cannon 1, and loaded and fired cannon 2.
  • enemy_history is a comma separated list of moves the enemy has made.
  • damage is your ship's damage (from 0 to 9, since 10 means you've sunk)
  • enemy_damage is the enemy ship's damage

Output Description

Output to STDOUT in the form:

A:N

where A is either L, R, or F, and N is an integer from 1 to 7. This indicates the move that you want the pirates to do.

[Todo: The rest of the spec. I'm tired and I'm posting it here to save it. Will come back some time to finish it. Maybe. Honestly I'm not too fond of the idea but it might have some potential.]

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  • 1
    \$\begingroup\$ Your specification was very well written until the Game Description; please consider rewriting the whole thing in Pirate. \$\endgroup\$ – Faraz Masroor Jun 2 '15 at 21:45
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    \$\begingroup\$ @FarazMasroor I'll consider it. I want to be careful that I don't go overboard on the pirate speech though since I don't want to make the spec difficult to read. \$\endgroup\$ – absinthe Jun 2 '15 at 22:05
  • \$\begingroup\$ Haha how about adding a translation at the bottom. \$\endgroup\$ – Faraz Masroor Jun 2 '15 at 22:08
  • \$\begingroup\$ >Implying Pirate is hard to read but English isn't \$\endgroup\$ – Faraz Masroor Jun 2 '15 at 22:14

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