# 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.

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

## 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]

Given an Integer array:

1. Start from the first number (n)
2. Go forward (n) positions depending on the current position
3. Delete the current position, the rest of the array fill in to the current position.
4. Goto step 2 until there are one number remaining
5. Print that number

The array loops around (the next number after the last number in the array is the first number).

A zero removes itself.

Negative numbers are not allowed as input.

Test Cases

[1] => 1
[1,2] => 1
[1,2,3] => 3
[1,2,2] => 1
[1,2,3,4] => 1
[6,2,3,4] => 4
[1,2,3,4,5] => 5
[0,1] => 1
[0,0,2,0,0] => 0


This is , the shortest answer in bytes wins!

Step-by-step example

[1,4,2,3,5]
^          start from the first position
^        jump 1 position (value of the position)
[1,  2,3,5] remove number in that position
^      take next position of the removed number
^  jump 2 positions
[1,  2,3  ] remove number in that position
^          take next position (looping on the end of the array)
^      jump 1 position
[1,    3,5] remove number in that position
^    take next position (looping)
^    jump 3 positions (looping on the end of the array)
[1,      5] remove number in that position
^  take next position
^          jump 5 positions (looping)
[        5] remove number in that position
print 5


Example #2

[4,3,2,1,6,3]
^            start from the first position
^    jump 4 positions
[4,3,2,1,  3] remove number in that position
^  take next position
^        jump 3 positions
[4,3,  1,  3] remove number in that position
^      take next position
^  jump 1 positions
[4,3,  1    ] remove number in that position
^            take next position
^          jump 4 positions
[4,    1    ] remove number in that position
^      take next position
^            jump 1 position
[      1    ] remove number in that position
print 1


Note: This is my first challenge so any input is welcome.

• After the step 2 where is the "pointer"? – user202729 Dec 10 '17 at 14:40
• The third step is worded a bit oddly, but I think I've understood it correctly from the examples. Do you mean that the elements after the deleted element are shifted to fill in the gap? It may be worth having one example written out step by step to make it easier for people to grasp what is happening. – FryAmTheEggman Dec 10 '17 at 15:13
• @FryAmTheEggman I have edited the question to include 2 step-by-step examples. Can you help me word the third step more clearly? Perhaps: 2- jump forward n positions where n is the value of the current position. 3- delete the position you just arrived at. 4- the (new) current position is the next position. repeat step 2. – workoverflow Dec 10 '17 at 21:18
• Problem title ? – user202729 Dec 11 '17 at 5:52
• That is better, but maybe roll it into one? "Delete the current position, making what was the next position the current position" – FryAmTheEggman Dec 11 '17 at 5:57
• @user202729 Haven't decided yet, Maybe "Football Jersey Josephus" or a variation of Duck, Duck, Goose. – workoverflow Dec 11 '17 at 7:38

# Golf a number

Create a program or function, which when given an input integer, outputs a mathematical expression evaluating to the same value. Expressions which require fewer bytes to represent than the integer itself will achieve better scores!

## Explanation

It is often useful when golfing to compress constant integer expressions by expressing them in the form of an equivalent mathematical expression. 387420489 for example is much more efficiently expressed as 9^9. Similarly 4194303 as 2^22-1

The challenge is, for each integer in the range 1 to 1E6, to golf the number into as short an expression as you can (although any expression which evaluates correctly is acceptable output, see Rules below). The shorter the expression, the better your score; but short programs will also score well so the two need to be balanced!

## Rules:

Input integer as argument or from STDIN

Output as string or equivalent to STDOUT or as function output. Your string can only contain ascii characters [0,1,2,3,4,5,6,7,8,9], as well as those operators defined below, repetitions allowed.

You may use the following mathematical operators any number of times in your string:

() parentheses
^ exponentiation
* multiplication
/ division
\ integer(floor) division - see Test Evaluator
- subtraction


NB: division, integer division and multiplication are all evaluated with equal priority, so 3/2\2 = 0 whereas 3\2/2 = 0.5

You may output the input value (if it can't be golfed for example), you do not have to output the perfectly golfed string:

 In: 10000

Out: 10000
10^4
2^13+1808


However the output must evaluate exactly to the input (assuming perfect precision of floats)

## Scoring

Answers are scored on their compression ratio (how much they golf the input down on average), as well as program size

Program Size: byte count of program (as with normal code golf)

Compression Ratio: golfed Length (white-space ignored) / input Length

Individual Score = (Compression Ratio * 100 - 70)/6 + Log(Program Size, base 10)

Final Score = Mean score for first 10^6 integers

Lowest final score for each language wins!

Tags:

# Sandbox:

related

related

The main sticking point is scoring how best can you combine 2 metrics into a single score?

The logic so far is that compression ratios will lie in the range 100 - 70 % where 100 is returning the input. Program lengths should be between 2 extremes; returning the input (1 byte) and looking up the input in a hardcoded list (~19,000,000 bytes). This gives the following distribution:

Actual program length I guestimate will be anywhere in the range 1 to 10000 bytes, hence the log to make the range more manageable. Quick reference; I could probably implement all power golfing (expressing n as a^b) in ~100-200 bytes in VBA. So 10% of that for golfing languages, and who knows what builtins Mathematica has ;).

But implementing more effective algorithms may require a more verbose language, so I think 1 - 10000 seems like a good range to handle in scoring

Open to alternative scoring though, and any required clarifications. Also suggestions what is a good range to test over?

I've suggested 1 to 1E6; The first 1000 integers I don't think are golfable, after that only a few are. So perhaps a greater range of test cases, or ones starting at a larger initial value? What's the biggest range I can feasibly test within say, 10 mins running time max? What's typical algorithm execution times can be expected per digit? I don't want golfers to have to spend too long generating their average score...

Test String Evaluation

• requires fewer bytes to represent than the integer itself. -- but you had said The first 1000 integers I don't think are golfable, so it doesn't work. – user202729 Dec 11 '17 at 5:58
• In your test, 2^13+1808 is longer than 10000. It contradicts your problem statement. Also you don't allow ^ to be used. / Evaluate left to right? – user202729 Dec 11 '17 at 5:59
• returning the input is 0 byte in most languages, so the score would be log(0) = -Infinity. – user202729 Dec 11 '17 at 6:01
• – user202729 Dec 11 '17 at 6:17
• @user202729 Your 1st point; I did include a sentence you do not have to output the perfectly golfed string in the rules section, but I'll fix the problem statement to match that. Good catch with ^, I'll add that - but a longer expression is supposed to be acceptable. log(0) - well let's hope that's an incentive not to post trivial answers! But seriously, do you think it's worth adding a log(program length +1)? I don't think it is because it adds an additional layer of complexity to the scoring system - and people shouldn't really be entering trivial solutions anyway (I hope) – Greedo Dec 11 '17 at 10:49
• If they do post 0-byte solution and win, it's the fault of your scoring system. For reference, look at the score formula of this challenge. --- You may want to add "you must calculate your score" to the question, like in this challenge. – user202729 Dec 11 '17 at 12:36
• This isn't code-golf - it's code-challenge. – user45941 Dec 11 '17 at 16:30

# All possible distributions of different items of a set to an arbitrary number of groups

See Descriptive Real World Example, Rules / Edge Cases or Sample Data for an idea about this or help me by adding a nice sentence explaining it while this is in sandbox.

# Descriptive Real World Example:

Ordering a set of x items from a shop what are the possibilities to distribute them among 1 to x orders?

# Rules / Edge Cases

• Identical items are not being distinguished (AB, B == AB, B, compare examples #4, #5 and #6)
• Order is not important
• Order of items in order/group: AB == BA
• Order of orders/groups in distributions: A, B == B, A
• Order of possible distributions (i. e. lines among output)

# Format

I don't really mind the exact format but as it probably makes sense (right?) to tie oneself down to one format I'll suggest the following:

• Input: Set of items without delimiters. Supported chars: [A-Za-z0-9]
• Output:
• Hierarchy: Distributions (Orders (Items))
• Delimiters:
• Among distributions in overall output: EOL
• Among orders/groups in distribution: Comma, Space
• Among items in orders/groups: None

# Sample Data

╔═════════╤═══════╤═════════╤════════════╗
║ Example │ Input │ Output  │   Output   ║
║   Nr    │       │ line nr │   lines    ║
╠═════════╪═══════╪═════════╪════════════╣
║   #1    │ A     │    1    │     A      ║
╠═════════╪═══════╪═════════╪════════════╣
║         │       │    1    │    A, A    ║
║   #2    │ AA    ├─────────┼────────────╢
║         │       │    2    │     AA     ║
╠═════════╪═══════╪═════════╪════════════╣
║         │       │    1    │    A, B    ║
║   #3    │ AB    ├─────────┼────────────╢
║         │       │    2    │     AB     ║
╠═════════╪═══════╪═════════╪════════════╣
║         │       │    1    │  A, A, A   ║
║         │       ├─────────┼────────────╢
║   #4    │ AAA   │    2    │   AA, A    ║
║         │       ├─────────┼────────────╢
║         │       │    3    │    AAA     ║
╠═════════╪═══════╪═════════╪════════════╣
║         │       │    1    │  A, A, B   ║
║         │       ├─────────┼────────────╢
║         │       │    2    │   AA, B    ║
║   #5    │ AAB   ├─────────┼────────────╢
║         │       │    3    │   AB, A    ║
║         │       ├─────────┼────────────╢
║         │       │    4    │    AAB     ║
╠═════════╪═══════╪═════════╪════════════╣
║         │       │    1    │  A, B, C   ║
║         │       ├─────────┼────────────╢
║         │       │    2    │   AB, C    ║
║         │       ├─────────┼────────────╢
║   #6    │ ABC   │    3    │   AC, B    ║
║         │       ├─────────┼────────────╢
║         │       │    4    │   BC, A    ║
║         │       ├─────────┼────────────╢
║         │       │    5    │    ABC     ║
╠═════════╪═══════╪═════════╪════════════╣
║         │       │    1    │ A, B, C, D ║
║         │       ├─────────┼────────────╢
║         │       │    2    │   AB, CD   ║
║         │       ├─────────┼────────────╢
║         │       │    3    │   AC, BD   ║
║         │       ├─────────┼────────────╢
║         │       │    4    │   BC, AD   ║
║         │       ├─────────┼────────────╢
║         │       │    5    │  A, BC, D  ║
║         │       ├─────────┼────────────╢
║         │       │    6    │  B, AC, D  ║
║         │       ├─────────┼────────────╢
║         │       │    7    │  C, AB, D  ║
║         │       ├─────────┼────────────╢
║   #7    │ ABCD  │    8    │  A, CD, B  ║
║         │       ├─────────┼────────────╢
║         │       │    9    │  A, BD, C  ║
║         │       ├─────────┼────────────╢
║         │       │   10    │  B, AD, C  ║
║         │       ├─────────┼────────────╢
║         │       │   11    │   ABC, D   ║
║         │       ├─────────┼────────────╢
║         │       │   12    │   BCD, A   ║
║         │       ├─────────┼────────────╢
║         │       │   13    │   CDA, B   ║
║         │       ├─────────┼────────────╢
║         │       │   14    │   DAB, C   ║
║         │       ├─────────┼────────────╢
║         │       │   15    │    ABCD    ║
╚═════════╧═══════╧═════════╧════════════╝

• What is the winning criterion of this challenge? Code-golf? Also the current explanation seems more complicated as it needs to be. Only after seeing the examples it became clear that you are asking for set partitions – Laikoni Dec 20 '17 at 15:09
• Possible duplicate of codegolf.stackexchange.com/q/8691/56433 – Laikoni Dec 20 '17 at 15:12

On many 8-bit machines, it is relatively easy to output the entire core syntax of the built-in language, as everything required is in ROM and most 8-bit machines allow you to PEEK at each location therein, or otherwise easily access the ROM contents.

Here's the complete syntax for a Sinclair ZX81 or Timex TS1000/1500 machine as an example:

 1 PRINT CHR$64;CHR$ 65;CHR$66;CHR$ 193;CHR$193; 2 FOR I=196 TO 255 3 PRINT CHR$ I;
4 NEXT I


Is it as easy to output the core or standard syntax to a screen, console, or window in modern-days languages? How best would I word such a question? And would this make a good challenge?

• What is the "core"? ...... – user202729 Dec 20 '17 at 15:03
• Core syntax, i.e., non-extended PHP, such as stdClass is in the PHP core. Either the question is too ambiguous, or I don't know modern-days programming speak well enough to ask it. – Shaun Bebbers Dec 20 '17 at 15:08
• More precisely, PDOException("blah", 0x00); would not be core in PHP even though it extends the standard Exception because the PDO extension needs to be switched on in your php.ini file; throw and new obviously would be as far as I'm able to work out – Shaun Bebbers Dec 20 '17 at 15:12
• I don't know PHP so I don't understand that explanation. – user202729 Dec 20 '17 at 15:12
• I only really understand PHP and some 8-bit hl languages and some assembly. Let's try this... if you don't <include xxx.h> in C (where xxx is the header or whatever), what are you left with? Is that even possible. – Shaun Bebbers Dec 20 '17 at 15:17
• Actually GCC let the program pass with a lot of warnings. – user202729 Dec 22 '17 at 14:54
• Some similar and related challenges showing that this type of challenge has a lot of difficulty in getting it exactly correct. – AdmBorkBork Dec 22 '17 at 15:10
• Yes there is a lot of difficulty on modern-days tech stacks and such; on 8-bit machines, it's much easier as you only need to find the bit of ROM that holds the syntax and you're half-way there. – Shaun Bebbers Jan 2 '18 at 9:26

# Sight Matrix

I haven't seen this done anywhere yet after a couple of searches, so I might as well post this anyways. If you see this done somewhere else, please tell me and I will delete this post.

## The Story

You are a two meter tall sniper fighting in a war-torn area. Your teams have just beaten back the enemy, but the guerillas have an annoying habit of hiding out of sight and waiting patiently to take your unit by surprise, often inflicting heavy casualties. You have been tasked with dealing with these guerillas as a sentry.

### Summary

Write a program that, when given a n x n 2D matrix of heights (in meters), outputs a n x n 2D binary matrix with ones being areas that you can see and zeroes being areas that you cannot see.

### Input Format

The input will be a two-dimensional array of heights and two numbers signifying where you are standing.

### Output Format

The output will be a two-dimensional array of ones and zeroes: ones where you can see and zeroes where you can't see.

### Sample input/output

Input:

[[120,87,89,93,121], [120,91,83,91,114], [118,121,90,93,97], [124,129,115,120,101], [117,140,138,124,99]] 0 0

Output:

[[1,1,1,1,1], [1,1,1,1,1], [1,1,1,1,1], [0,0,1,1,1], [0,0,0,0,1]]

Hint:

Last time I checked, people's eyes were on their head. Put that into account when you are writing your code.

This is . Shortest answer in bytes wins. Standard loopholes apply.

Note: this is my first foray into code-golf stackexchange. Please tell me how to improve this or things that I need to add to this answer.

• There have been various questions on line of sight, but right now I think this question would be closed as "Unclear what you're asking" before there was consensus on which was the closest dupe. What are the rules for visibility? You've given my height, but I'm not sure whether it's relevant. You haven't said whether the guerrillas (note: double r) have a height, nor how the terrain is modelled, nor what point in the square I need to see for the square to count as visible. – Peter Taylor Dec 22 '17 at 13:47
• May the input be 1-indexed? – user202729 Dec 22 '17 at 14:34

# Output One More than Int Max code-golfarithmeticinteger

Your job is to create a program or function that will output a whole number (with no trailing decimal point) that is 1 greater than the max number an integer can hold for the language; more or less this:

MAX_INT + 1


You are not allowed to use Strings in your solution. Any other type may be used.

Note: I know this might be impossible in some languages. I have verified that it is possible in at least one (un-disclosed) language.

## Notes on this puzzle

I posted this puzzle recently here and it promptly got closed and deleted (oops). Thankfully, @WheatWizard was kind enough to explain what some of the confusion was. Here where his comments:

I've voted to close this question as unclear. There are a couple of things I find especially unclear, 1) I'm not sure what "the max number an integer can hold for the language" means, it definitely needs a more concrete definition. It seems to presuppose some bounded "integer" type in the language. All the existing answers seem to suppose that long (or equivalent) is not this integer type but that is not at all clear from the question.

2) The requirement "You are not allowed to use strings in your solution" is neither clear nor enforceable. Without a rigorous definition of string there is no way to determine what is a string or not. For example Prolog has a type called "String" but all real string manipulation is actually done on lists of char codes. Are those strings? Prolog also has atoms which behave a lot like strings in many ways, (and act like integers in others) are they strings?

The main thing I would want to see before retracting my close vote/voting to reopen is clear definitions of the terms in question. To be clear that is a very tall order. These terms are not going to be easy to define, let alone define well. I would recommend temporarily moving this question to the sandbox so that you can workshop it a bit.

@Xcali said the following:

To follow on @WheatWizard's comment, what about languages where there's really no type to a variable. For example, in Perl, any single value may be treated as a string or a number at any time

@CalebKleveter I think you can fix your challenge by removing the prohibition on strings and requiring documentation and/or additional supporting code showing that the produced number cannot be held as any type of integer. Do you want me to edit your post accordingly?

Are there any suggestions on how we could define the things pointed out in these comments? Are there any other issues that should be resolved?

• I'm not sure if it's possible to define such things such that it can applies to all languages. You may want to limit the challenge to specific languages, but that will disallow many languages to compete, and some person will get annoyed when their languages can't be used, they may downvote the question. / Original challenge link. – user202729 Dec 22 '17 at 14:07

Als pr Yrck, I knw hm Hrtio

Here is a link to a text file containing the script for Shakespeare's Hamlet.[to do: provide such a text file, or think of another freely available text input that leads to a wittier title.]

Your task is to write a program that will compress this text, and another that will decompress it to return exactly the original file. Your score is given by C + D + 0.5*F, where C is the size of your compression program, D is the size of your decompression program, and F is the size of the file that your compression program generates, all measured in bytes. The smallest score wins.

Further particulars

Your compression program should take hamlet.txt as input and produce a single file as output, which is to be given as input to your decompression program. You should make sure that the resulting output from your decompression program is identical to the original hamlet.txt file, e.g.

> myCompressor hamlet.txt > compressed
> myDecompressor compressed > output.txt
> diff hamlet.txt output.txt
[no output from diff command means they are identical]


Your programs' only purpose is to compress and decompress the hamlet.txt file - their behaviour on any other input is not part of the challenge. It's fine, for example, if the decompressor always outputs the text of Hamlet regardless of the original input, or if the compressor crashes on any input besides hamlet.txt.

Input and output can be by file I/O or STDIN/STDOUT or any other reasonable method, but the compressor and decompressor should be full programs. They need not be written in the same language.

Your compressor and decompressor must each be completely self-contained. Each must consist of a single file, and that file must be the source code for a programming language as defined here. With the exception of importing libraries, your compressor and decompressor must not open any other files besides their input.

The compressed file may be a text file or a binary file - the only thing that matters is its size in bytes. No information may be transmitted from the compressor to the decompressor by any means other than the content of this file.

You may not use any libraries or built-ins that implement data compression algorithms, such as gzip or bz2, or their corresponding decompression algorithms. This restriction only applies to "off the shelf" implementations - you can use any algorithm you like if you implement it yourself. For details on what counts as a data compression algorithm, see note 1.

If for some reason your language or libraries include a feature that outputs some or all of the text of Hamlet, you may not use that feature.

Although it's not part of the challenge, you are encouraged to explain/demonstrate what happens when your compressor is given some other input besides hamlet.txt, especially if it does something interesting such as produce a garbled Shakespearean version of the input text.

Note 1: For the purpose of this challenge, a data compression algorithm is anything listed in Wikipedia's Category:Lossless Compression Algorithms or Category:Lossy Compression Algorithms, or any of their subcategories. Note that these lists can change over time, and if Wikipedia's editors will allow a new item to be added then that will count as a compression algorithm, even if that happens after an answer using it is posted. This is to prevent the use of obscure algorithms that are not yet listed on Wikipedia. Editing Wikipedia to get around the restriction on off-the-shelf compression is not allowed.

This rule is intended to prevent the use of existing algorithms while allowing all other language features and built-ins. It may be the case that some items on the Wikipedia list are overly broad and end up banning common language features. If this is the case I will add exceptions on a case-by-case basis. This will only be used to permit things that would otherwise be banned, so it won't invalidate existing answers.

Sandbox note: the really tricky thing here is how to prevent trivial solutions that just wrap an existing compression algorithm, without also banning common language features. The above Wikipedia-based definition of a compression algorithm is a bit experimental and I'd welcome feedback on it. My intention is to prevent trivial solutions that just wrap an existing implementation of a compression algorithm, while allowing pretty much anything else.

Another possible approach is simply to allow anything and hope that answers specialised to the input can achieve better scores. That's effectively what I did in Paint Starry Night, but in the end I wish I hadn't, because it turned out that (so far at least) even really clever solutions based on neural nets and genetic algorithms can't come close to the off-the-shelf BPG algorithm. That's the sort of situation I want to avoid for this challenge.

• Would compressor, decompressor be acceptable? (only for illustration purposes) – user202729 Dec 30 '17 at 9:06
• @user202729 I don't speak Jelly, but assuming it's not using any built-in compression, that would be fine. (It even says so already in the rules: "It's fine, for example, if the decompressor always outputs the text of Hamlet regardless of the original input".) The thing is that a solution of that form doesn't take any advantage of the discounted scoring for the compressed file, so it would very likely not be optimal. So while it's allowed, it would probably not win. – Nathaniel Dec 30 '17 at 9:46
• Correct, if the text is sufficiently long. The “...» is Jelly string encoding codec using base decompression and some dictionary lookup. – user202729 Dec 30 '17 at 9:55
• @user202729 then it would be fine. (I'm fairly certain the script for Hamlet is long enough - if it isn't, that would be an interesting surprise.) – Nathaniel Dec 30 '17 at 10:58
• @user202729 Though actually, I guess by the letter of what I wrote, it wouldn't be fine, because Jelly's dictionary lookup is presumably explicitly intended as a way to compress text. That's not what I intended the rule to mean. This is pretty tricky - I want to disallow trivial things like just wrapping a bz2 compressor, while permitting pretty much anything else. It doesn't seem easy to do that in a way that avoids loopholes. (Comments on this are welcome from anyone.) – Nathaniel Dec 30 '17 at 12:46
• You can't disallow "trivial" things, only discourage them. That's not really a problem - the real problem is they get more upvotes than they deserves, and solutions which the OP actually put effort in writing get less upvotes. – user202729 Dec 30 '17 at 13:02
• @user202729 I can't disallow trivial things in general, but I can write the rules in such a way that specific types of trivial solution are not permitted. If I had disallowed built-in compression in paint Starry Night then it would have been a much better challenge (albeit possibly less epic in the long run, since the non-trivial answers made a good effort at keeping up with the trivial ones). Basically I don't want the winning answer to just be a shell script that runs bzip on its input. – Nathaniel Dec 30 '17 at 13:19
• Anyway I've changed the wording of the rule - I'm not sure if the new version will work but we'll see if people have comments. – Nathaniel Dec 30 '17 at 13:20
• Instead of stating something like "If for some reason your language or libraries include a feature that outputs some or all of the text of Hamlet, you may not use that feature." you could actually require the program to work for any input and only use Hamlet to get the scoring, this would elegantly close up that loophole but I'm sure people will find a way around this.. As you noted yourself this is a difficult task to solve. – ბიმო Dec 30 '17 at 14:00
• @BruceForte I think I prefer the direct approach for that point. If I ask it to work for other inputs I open up the quagmire of trying to define what that should mean and how to test for it. However that's achieved I would likely still need the "if for some reason" rule, because there would probably still be ways to take advantage of a built-in database of Shakespeare plays if some language out there happens to include one. I think banning Shakespeare built-ins is unproblematic - my problem is more how to ban bz2 and the like without accidentally also banning common language features. – Nathaniel Dec 31 '17 at 2:26
• "in the end I wish I hadn't" ... Why? What's the difference? – user202729 Jan 1 '18 at 9:06
• @user202729 it would have been a better challenge. The best scoring answers would have been the cleverest ones that took the most effort, and there would be more motivation for people to continue doing cleverer things to beat the lowest score. If that doesn't seem desirable to you then fair enough, but it's what my taste is and it's the kind of challenge I want to design. – Nathaniel Jan 1 '18 at 9:15
• How can you be so sure (without testing it)? bz2 developers definitely put a lot of efforts into writing their lossy image compression algorithms, so they may win. Not to mention that their code are not bytecount-limited. – user202729 Jan 1 '18 at 9:21
• @user202729 I'm not sure what you mean. If you're referring to the Starry Night challenge I can be sure because I have tested it. Just look at the existing answers - some are really really nontrivial and use genetic algorithms, deep neural networks and other clever techniques, whereas others simply wrap an image in BPG or FLIF format and call an existing function to decompress it. There is some golfing and file type knowledge involved in this, but it's trivial compared to the other type of answer. Unfortunately the latter type did win, and that's exactly what I'm trying to avoid this time. – Nathaniel Jan 1 '18 at 9:29
• (The clever answers on Starry Night exist in large part because I offered a series of bounties to answers that passed various milestones without using built-in compression. I could do that again this time, but I have only 2100 rep to give away, and in any case it's much more elegant if the challenge provides that motivation by itself.) – Nathaniel Jan 1 '18 at 9:36

### To create a piece of code that takes in an input, and outputs ASCII art, which is encoded in the input string.

It seems unclear, but you are basically creating your own programming language that takes a piece of code in a syntax that you create, and then writing a code that takes that input, and turns it into ASCII art.

## Example:

A simple example would be an input that runs through a line of input code with the syntax:

0 : An empty space
1 : A space that is occupied
2 : A newline character


I:

01010210101201010210101201010


O:

 The '|' character is just to show the matrix

| # # |
|# # #|
| # # |
|# # #|
| # # |


I:

11112000121111210002111122 // Shows a 2
11112100121001210012111122 // Shows a 0
0120120120120122 // Shows a 1
11112100121111210012111122 // Shows an 8


O:

####
#
####
#
####

####
#  #
#  #
#  #
####

#
#
#
#
#

####
#  #
####
#  #
####


The code would read through the letters one by one and print out the characters, or create a newline character as expected.

Since this is , the code with the fewest bytes wins!

• Jelly, 0 bytes - is that what you meant? – user202729 Jan 6 '18 at 12:08
• This is currently very unclear. As far as I see, you say we need to write code which decodes some input string to some output string. But what exactly is the decoding? Your 0,1,2 substitution seems to be an example only. – Laikoni Jan 6 '18 at 12:09
• I think this would be pretty much trivial in most languages. Expect a lot of 2-3 byte answers. Might want to make it a bit more complex – Darren H Jan 6 '18 at 18:01

# Stem and Leaf

A stem-and-leaf plot is a way to represent data and visualizing distribution. Usually the data is grouped in step of 10, with the last digit as "leafs" in ascending order, and the remaining digits as "stem". The steam and leafs are separated with a vertical line, with stem on the left and leafs on the right.

## Challenge

Make a program or function which takes a list of non-negative integers as input, and outputs the corresponding stem-and-leaf plot.

## Example Input and Outputs

### Example 1:

Input: 10 2 15 4 2 24 18 17 24 24 25 15 18 22 17 23 24 33 19 28 28 28 26 32 25 27 37 28 41 38 38 30 35 30 41 45 40 40 37 33

Output:

0|224
1|05577889
2|23444455678888
3|0023357788
4|00115


### Example 2:

Input: 112 101 116 99 99 107 101 99 115 112 114 128 115 119 125 160 148 147 159 147 169 160 163 160 160 163 162 164 160 173 84 92

Output:

 8|4
9|2999
10|117
11|2245569
12|58
13|
14|778
15|9
16|0000023349
17|3


## Rules

• The input may be a list, an array, a space or comma delimited string or other appropriate representation containing raw data values.
• The vertical line of the output must be aligned.
• A leading or trailing newline, or trailing spaces for each line are accepted.
• Common loopholes applied.

This is a challenge, so the lowest-byte solution for each language wins!

Imagine you're a dishonorable scientist trying to prove that getting heads on a coin flip actually has about 70% probability when flipped 100 times. The trick is, you're going to flip the coin an arbitrarily large number of times (say, a million) and select the slice of 100 flips that contains the most number of heads. As input, take the number of total trials to do, and as output, return the number of heads contained within the most favorable contiguous slice of 100.

• Please "Write your challenge just as you would when actually posting it.". If you post the challenge like this you will get a lot of problems. – user202729 Jan 26 '18 at 5:55
• (question title, winning criteria, tags, example input/output, everything you didn't have) – user202729 Jan 26 '18 at 5:58
• I like the idea, but the correctness of the answer is a little hard to verify. Perhaps you should require the answer writers to explicitly indicate how the program does the required job, unless it's really obvious from the code. For example, someone may directly draw a value from the resulting distribution without actually generating the total number of trials. That should be acceptable, as long as the writer justifies that their approach is correct, that is, gives the exact required distribution for the output – Luis Mendo Jan 28 '18 at 16:54

# Find a Path of Similar Proportions!

Given a point on a square lattice, find the shortest path (by jumps) from the origin to that point, following these rules:

• You are allowed to make any number of jumps containing any number of steps along the grid lines to another lattice point. These jumps must be along the grid lines and have an integer length.
• Each jump must contain one step more or be one step shorter than the step before it. (This is where the "similar proportions" comes into play. Name change pending?)
• The first step can have any length.

As an example, here is how one possible way one might travel from A(0,0) to B(5,5) under these rules:

A
|
|
|
1----2
B
|
|
3


The numbers indicate which steps are taken. Note that this solution backtracks, moving to (5,8) before partially retracing its path to get to its destination. This solution takes four jumps and is therefore optimal.

Here is a diagram of the number of jumps required for the shortest (or is it?) path to any other point with both integer coordinates below or equal to 10. Note the symmetry around (x,x). I don't know if my solution for (7,10) is optimal.

  | 0  1  2  3  4  5  6  7  8  9  10
--------------------------------------
0 | 0  1  1  1  1  1  1  1  1  1  1
1 | 1  3  2  3  3  3  3  3  3  3  3
2 | 1  2  3  2  3  3  3  3  3  3  3
3 | 1  3  2  3  2  3  3  3  3  3  4
4 | 1  3  3  2  4  2  3  3  3  3  3
5 | 1  3  3  3  2  4  2  3  3  3  3
6 | 1  3  3  3  3  2  4  2  4  3  3
7 | 1  3  3  3  3  3  2  4  2  4  5?
8 | 1  3  3  3  3  3  4  2  4  2  4
9 | 1  3  3  3  3  3  3  4  2  4  2
10| 1  3  3  4  3  3  3  5? 4  2  4


Your task is to continue the table for points with coordinates as large as (127,127).

Your submission should be a program which prints valid paths for all points whose two coordinates lie between 0 and an inputted positive integer inclusively, or a function, which, given any pair of positive integers, outputs a valid path to the point specified by these coordinates.

A valid output path is an array or list (or other comparable datatype) which uniquely represents a valid sequence of jumps that can be used to reach the specified point and which makes it as easy as possible to find the number of jumps required.

Example possible ways for the example path given above:

[["d", 4], ["r", 5], ["d", 4], ["u", 3]] // using chars to represent direction
[[0, 4], [5, 0], [0, 4], [0, -3]] // direction vectors
[0, 4, 5, 0, 0, 4, 0, -3] // As above, in just one list. len()/2


## Scoring

Your submission will be scored by the sum of your solution's bytecount and the sum of all jump counts for all paths it outputs for reaching any point between (0,0) and (127,127), inclusively. Smallest score wins, standard rules and loopholes apply, etc...

## Example response (Python 3):

def c(a,b):
d,e,g=[[a,0]],a+1,0
while not g==b:
d.append([0,e])
e,g=-e+1,g+e
return d


This extremely simple and naive piece of Python code achieves a score of 92 (program length) + 1406272 (for the path part) = 1406364, as verified here - Try it online!

## More?

• missing tags?
• clarifications?
• Table is incorrect?

# Collectables, Inc king-of-the-hill

You're an aspiring collector. You want to be the top collector for as many collections as possible.

Here's how you play (with P players):

• The game consists of multiple Auctions, and 2P collections. Some collections are bigger than others. Smaller collections are more valuable and rare, bigger collections are cheaper.

• Each Auction puts 2P random items up for sale

• You place a bid on each item, grouped by collection. (e.g. If doll was a collection, you place a single bid for all of the dolls in the current Auction)

• You win by having the most pieces for the most collections. (Each collection is worth 1 point. If you have the plurality of that collection, you gain that point).

### Fine Details:

• Each collection contains a different number of items, from 2 to 2P+1.

• There are 2P+3 auctions (until all items are sold)

• Players can bid on multiple items, and their total bid can exceed their current gold.

• Resolution of bids happens as follows:

1. All invalid bids are removed. (Players without enough gold, or bids on items already sold).
2. Find the top bid (by gold). Tiebreaker is the collection size (smallest first).
3. If there is still a tie, then that item group is removed.
4. Otherwise, the top bidder wins the item group. His money is added to the pot.
• After an Auction is finished, the pot is evenly distributed among all players. Any remainder is put back into the pot.

I think that my rules are pretty complete.

• Is it clear?
• Is it interesting?
• How many reads did it take you to understand the post?
• 1. It took me until the third read-through to understand that the collections are split into items and then recombined, possibly because I'm unconsciously applying real-world knowledge about how these things normally work. Explicitly saying that there are P*2+3 auctions would be a useful hint. 2. I was going to say that point 3 was missing a tie-breaker until I realised that the second sort criterion is collection size and not group size. 3. I think there's some interesting game theory here: things like weighting bids towards odd sized collections vs even sized collections. – Peter Taylor Sep 11 '17 at 7:37
• @PeterTaylor thanks for the feedback! I added an overview, does that help? – Nathan Merrill Sep 11 '17 at 15:32
• Best to ask someone who hadn't previously read the question. BTW I presume you're planning to add something later about the I/O? – Peter Taylor Sep 11 '17 at 16:01
• Yep. There isn't any hidden information (unless you count simultaneous as hidden), so the API should be pretty straightforward. – Nathan Merrill Sep 11 '17 at 16:21

## Unicode reversible programs

The goal is to make a program that includes unicode formatting characters that when executed as-is generates a OEIS sequence, and when copied as its rendered* and executed, returns a different sequence.

• The renderer is one that properly reacts to unicode formatting. For example with RLO the text should be reverted. (Its stored as "\u202etest" but renders as "tset"

This is will be so the answer with less bytes wins.

• What do you mean by "copied as its rendered and executed"? – Peter Taylor Feb 1 '18 at 11:18
• @PeterTaylor I mean that for example the text "\u202e hello" is rendered as "olleh " because U+202E is a unicode control character that reverses text (when rendered) – iovoid Feb 1 '18 at 19:28
• Define it objectively. How browsers/text editors handle copy-paste are implementation-defined. (which browsers/text editors, which exact ways to copy-paste, put the pointer on which pixel of the screen, etc.) – user202729 Feb 2 '18 at 5:35
• U+202E is not a Unicode control character: the Unicode control characters are the ranges U+0000 to U+001F and U+007F to U+009F. – Peter Taylor Feb 2 '18 at 12:19
• Also: this question talks about characters and bytes but it doesn't address the relationship between them, which is a minefield. What about languages which don't use UTF-8 or UTF-16 for their source? What about languages which use either according to a command-line flag: can the transformed program change the state of that flag? – Peter Taylor Feb 2 '18 at 12:26
• @PeterTaylor languages that dont use utf-8 it in their source can use a escaped form such as (0xe2 0x80 0xae). Also thanks for pointing that its actually a formatting character (not control) – iovoid Feb 2 '18 at 18:20
• So basically split on the unicode char and reverse all that's after it? Possibly multiple times? Doesn't sound too interesting. – Magic Octopus Urn Feb 2 '18 at 21:29
• "for example"? Questions (challenges) need to be self-included. List all of them please. – user202729 Feb 3 '18 at 5:29

# Non-true, non-false JS boolean

Array prototype isn't redefined, input hasn't getters

function magic(input){
let result = [];
if(input.boolean != true){result.push("non-true");}
if(input.boolean != false){result.push("non-false");}
result.push(input);
return result.join("\n");
}


returns

non-true
non-false
{"boolean": true}


What is passed to magic function?

Based on real problem :) I spent 30 minutes on this puzzle

• This site is for programming contests, not pure programming puzzles. Thanks for using the sandbox, anyway. – user202729 Feb 1 '18 at 12:11
• Contrary to what user202729 states, Programming Puzzles are on-topic on this site. This challenge could use a little cleanup to make it a better fit here (for example, what language is this?), but this challenge is indeed allowed here. – AdmBorkBork Feb 1 '18 at 14:02
• ... someone said that I'm wrong. Anyway people definitely doesn't like this. – user202729 Feb 1 '18 at 14:02
• @AdmBorkBork this is JS – Евгений Новиков Feb 1 '18 at 14:41
• @ЕвгенийНовиков what JS version is this? in is a keyword, and can't be a variable name. – dzaima Feb 1 '18 at 14:47
• @dzaima Good point. Last time I check on TIO the object {boolean: true} doesn't have " around and it caused a syntax error. I forgot about in so just try to rename it and it worked... – user202729 Feb 1 '18 at 14:51
• "Programming Puzzle" is in the name of the site @user202729 – dylnan Feb 1 '18 at 15:46
• @dylnan But... – user202729 Feb 1 '18 at 15:55
• @AdmBorkBork is correct. We do allow programming puzzles. – Nathan Merrill Feb 1 '18 at 16:25
• @NathanMerrill Then just upvote the comment. – user202729 Feb 2 '18 at 5:34
• Many many things in the past, including but not limited to, code-trolling, underhanded, non-observable behavior, etc. are off-topic or heavily-discouraged nowadays. Be careful. – user202729 Feb 2 '18 at 5:34
• @user202729 I did upvote. I just wanted to make sure it was extra clear to the OP. Furthermore, this challenge doesn't fit any of those tags, because its not asking for trolling/underhanded/non-observable code. You could argue that the code in the challenge fits those tags, but that's not what we care about. – Nathan Merrill Feb 2 '18 at 5:51
• I don't believe that console is part of any JS spec. This presumably only works in certain contexts, and the question should specify what they are. Otherwise the task devolves into code-trolling by defining a suitable console. It's already borderline IMO. – Peter Taylor Feb 2 '18 at 12:04
• @dzaima sorry, fixed this. Now input variable is input – Евгений Новиков Feb 3 '18 at 7:40
• OK, so, in that case you may want to work on the wording of the challenge before posting it to Main because, right now, it reads as though you've come across this challenge elsewhere, spent half an hour trying to solve and are now looking for help doing so. Also, just so you know, restricted language challenges rarely go down well here. – Shaggy Feb 3 '18 at 19:20

Tags: Codegolf

Title: evil detection

When given any (you may choose the format and you should assume integer input) input, the output should be true if the input is a palindrome and false if not (or 1/0 or any equivalent).

To make it (a lot) harder, your code must work with a result that fulfills the challenge inverted if read backwards. So for a palindrome input, forward gives true, backwards false.

Example:

If your code is "abc12" and the input is 1221, your code should produce true-ish and "21cba" (your code read backwards) should produce false-ish.

Bonus if you think that's to easy: produce false if and only if the input is 666 forward and true backwards.

• Duplicate – Shaggy Feb 5 '18 at 16:58
• First, I want to say thanks for using the sandbox! Also, I do think you could go somewhere with this idea that doesn't make it a duplicate. Your idea is marginally different, in that it only requires the code to behave the same forward and backwards, rather than actually be a palindrome. While I think for palindromes it will almost always be best to have a palindrome, perhaps you can think of a different pattern that makes it more interesting? I'll let you know if I think of anything. – FryAmTheEggman Feb 5 '18 at 22:23
• @FryAmTheEggman, I don't think the fact that the code need not be palindromic is enough to make this not be a dupe; many of the solutions to the challenge above would also be the optimal solution here. Maybe if this one required that the code not be a palindrome and also required that it output a different pair of consistent and distinct values when run in reverse, it might be enough to differentiate it? – Shaggy Feb 6 '18 at 9:25
• Thanks to both of you, I'll have a look at the other answers, but I agree that allowing the code to be semi-palindromic is not enough (unless the other answers are all extremely long, I haven't looked yet). I'm thinking about making the code required to not be symmetric, but haven't figured out what to do with the input to make it fit – DonQuiKong Feb 6 '18 at 9:28
• @Shaggy That seems like a good start for changing it. For the record, I definitely think that as it was when I posted it was a duplicate, I just thought there was something good in this challenge and I didn't want it to just be discarded! The unfortunate thing about just requiring non symmetry is that comments/newlines could often just be added at the end without much cost, but I do think there is a good challenge here, somewhere. – FryAmTheEggman Feb 6 '18 at 18:39
• I think the problem with this is that while some of the answers to the other question will no longer work, some are still usable here with only a slight modification, so I don't think this will cut it. – FryAmTheEggman Feb 6 '18 at 19:31
• @Fryamtheeggman and if I make the bonus question mandatory? But I'll think some more – DonQuiKong Feb 6 '18 at 19:42

## Build a Brainfuck transpiler

Your job is to build a program that transpiles valid brainfuck to a language (not brainfuck!) of your choice.

You are not required to handle cases where the program is invalid (mismatched [ ]s), or contains characters that are not +-<>[],. but all other cases must be handled.

Size limits on your input or output are fine as long as they are imposed by computer restrictions, like RAM.

The programming language you transpile to is covered under the "What defines a programming language" rules, and must have been created before this challange.

In extension to not transpiling to brainfuck (cheater!) you can't use a brainfuck derivative or trival brainfuck substitution as the transpiled to language either.

### Scoring

Programs will be scored with the average ratio of bytes in the input brainfuck program to the output transpiled result, as based on the examples.

## Meta questions

This is a rough draft!
What tags should be associated with this?
How can I improve the scoring system?
What examples should I use to keep the scoring fair, but prevent obvious tricks?
What loopholes are there in this rough draft that I need to patch?

This entire thing will be reorganized when I get enough info to make a better writeup.

• I'd tag it with code-challenge and brainfuck. Once you post the examples the scoring system seems to be fine, the major problem would be hardcoding but this is a standard loophole, so this should be fine. Also you should probably consider adding a non-terminating example. About preventing brainfuck derivatives: I'm not sure if this is well-defined enough, maybe others have some ideas? – ბიმო Feb 10 '18 at 14:22
• @BMO About hardcoding: Just hide the official test cases. You don't need to prevent BF derivative, they would just be boring (and downvoted most likely). Also it's very hard to define them (What about 2D BF? What about Unary? What about Random BF / self-modifying BF?) – user202729 Feb 10 '18 at 15:39
• Also, BF is too unclear as a language specification. (is memory wrapping or infinite to one end or infinity to both ends? Are values positive/negative/modulo 256? etc.) – user202729 Feb 10 '18 at 15:41

# Chiasmus Indenter

Chiasmus is a literary form that is similar to palindromes. Some ideas are presented and then presented again in reverse order, often phrased differently.

Natural language processing is hard, so I'll be using a more computer-friendly definition. A chiasmic string is made up of a series of substrings that are repeated in reverse order in the second half of a string. Formally:

• If a is some non-empty string, then aa is chiasmic.
• If C is chiasmic and a is some string, then aCa is also chiasmic. Note that this applies recursively, thus abCba is chiasmic if C is also chiasmic and a and b are non-empty strings.

For example, batbat is chiasmic, as are glassbottlebottleglass and AliceBobCharlieCharlieBobAlice. All even-length palindromes are chiasmic, being made up of many length-1 strings.

Note that the empty string is not a chiasmus.

# The Challenge

We're programmers, so we like nice indentation. Your goal is to take chiasmic strings and indent them so that each matching substring is at the same level of indentation. For example, cheesepizzawithanchoviesanchovieswithpizzacheese would be indented like so:

cheese
pizza
with
anchovies
anchovies
with
pizza
cheese


For base case chiasms (i.e. 2 repetitions of a string), no indentation is necessary, but the substrings should still be on separate lines. Thus, gumgum would be indented:

gum
gum


In order for there to be only one canonical output for each chiasmus, if it is possible to indent at more than one place, indent in a way such that the a substrings for the form aCa are as long as possible (applied recursively for each C until the aa base case is reached). For example, catdogcatdogdogcatdogcat should be indented like this:

catdogcat
dog
dog
catdogcat


Not like this:

cat
dog
cat
dog
dog
cat
dog
cat


Also not like this:

cat
dogcatdog
dogcatdog
cat


The behavior of indenting a non-chiasmus is undefined.

# Rules

• Indentation can use any amount of whitespace of any kind, so long as it is consistent (e.g. do not mix tabs and spaces). Lines may either be output as a list/array/whatever or a newline-separated string.
• You may assume that the input is a chiasmus that contains only alphanumeric characters.
• As this is , the shortest submission wins.
• May indentation be done with a \t character? – Kamil Drakari Feb 9 '18 at 22:25
• I probably should do that since it saves 2 characters and is purely cosmetic. – Beefster Feb 9 '18 at 22:43
• "Longest possible substrings" still leaves some room for ambiguity. What's the canonical output for ababbaba? – Nitrodon Feb 10 '18 at 4:40
• aba b b aba. I see how it can be indented as a bab bab a, though. – Beefster Feb 10 '18 at 6:44
• I kept waiting for a glassbottlebottleglass test case! – Shaggy Feb 11 '18 at 9:27
• @Shaggy Wish granted. – Beefster Feb 11 '18 at 16:52
• I don't understand the catdogcatdogdogcatdogcat example. It seems to me to directly contradict the rule it's supposed to be illustrating. – Peter Taylor Feb 12 '18 at 8:54
• @PeterTaylor how so? – Beefster Feb 12 '18 at 20:15
• On review, I agree that "directly contradict" is overstating it. But the minimalist indentation still doesn't fit the rest of the question. The stated grammar is pointless: the derivation aCa is only permitted for extremely limited values of C (strings of the form bb such that there aren't c and d satisfying ab = cd and |c| > |a|). The statement "indent in such a way that the lowest levels of indentation have the longest strings possible" (my emphasis) makes no sense, because there is at most one level of indentation (or two if you count "unindented" as the first). – Peter Taylor Feb 12 '18 at 21:49
• And the statement "All even-length palindromes are chiasmic, being made up of many length-1 strings" is not true, because the canonicalisation forces it to be made up of one repeated length-1 string and an outer layer of a repeated length-(n-2)/2 string. – Peter Taylor Feb 12 '18 at 21:50
• The aCa form is recursive. Maybe I should make that clearer with the examples. – Beefster Feb 13 '18 at 1:53
• I would suggest dropping the requirement to produce an error on non-chiasmal(?) input, and instead just guarantee that the input will be a chiasmus. This changes it from two challenges (detect whether the input is a chiasmus, and then indent it if it is) to one (indent a chiasmus). Just my opinion though. – Nathaniel Feb 13 '18 at 7:56
• Slightly related – Shaggy Feb 13 '18 at 10:16
• @Shaggy Well yeah it's related. I created that challenge and it was a direct inspiration for this one. – Beefster Feb 13 '18 at 19:30

## Self-removing executable (retracted: dupe)

• I don't like the restriction, it makes it easier for you to test (I guess that's the point of it?), but it prevents me (and many others) from competing. Saying it must handle "long and unusual characters" is underspecified. You can say that the program must be able to handle any valid filename, in the chosen operating system. The example code is already very short, so it doesn't leave much room for golfing, with all the restrictions in place. – Stewie Griffin Feb 14 '18 at 11:03
• Which restriction? Shall it be centered around per-language leaderboard then? – Vi. Feb 14 '18 at 11:13
• Always per-language. I guess t's not all restrictions, but all the Linux-specific stuff. Keep in mind that these are only my opinions though, others might disagree. – Stewie Griffin Feb 14 '18 at 11:22
• It could be a good idea to have it Linux specific, but the example code is already so short that it leaves very little room for creativity. – Stewie Griffin Feb 14 '18 at 11:23
• – user202729 Feb 14 '18 at 12:52

# Convert a number to (Name-To-Be-Specified)

(Name-To-Be-Specified) is a completely made up language. It uses a Senary (base 6) system of numbers with words for those numbers structured in a similar way to English.

0 to 6
Single digit numbers use a single word for each digit.

0 = "zeeroo"
1 = "nimbo"
2 = "feta"
3 = "tarumba"
4 = "ntamno"
5 = "waramaka"
(Any similarity to Kómnzo numbers are coincidental.)

6 to 11
The first set of two-digits numbers have special rules.

6 = "wi"
7 = "seeveen"
8 = "ayte"
9 = "tarumbawin"
10 = "ntamnowin"
11 = "waramakawin"

12 to 35
Multiples of 6 have the single digit word with a "wee" suffix.

12 = "fetawee"
18 = "tarambawee"
24 = "ntamnowee"
30 = "waramakawee"

Other numbers in this range are made by joining the word for the multiple of 6 with the word for single digit number, separated by a space. For example:
13 = "fetawee nimbo"
20 = "tarambawee feta"
27 = "ntamnowee taramba"
34 = "waramakawee ntamno"

36 to 1295
1296 to 46655
46656 to 1679615
1679616 to 60466175
(Since this is a sandbox, I'll leave these to-be-specified for now. Suffice to say I'll come up with words for each and consistent rules for joining them together and when you need the word "and".)

# Challenge

Write a program that takes an integer as input and outputs that number in (Name-To-Be-Specified) words as described above. Shortest code wins.

• A language called Golfish already exists >_< – Mr. Xcoder Feb 23 '18 at 13:50
• @Mr.Xcoder I believe you mean Gol><> – user45941 Feb 23 '18 at 13:52
• That's a programming language, not a spoken language. But fair point, if I graduate this to an actual question I'll pick a new name. – billpg Feb 23 '18 at 13:52
• @Mego Well yeah but the repository name is Golfish... – Mr. Xcoder Feb 23 '18 at 13:53
• Anyway, I'd advise referencing that you're not referring to Gol><> in any way. :) – Erik the Outgolfer Feb 23 '18 at 13:54

# Paintball Tournament

Inspired by The Rock, Paper, Scissors, Lizard, Spock Tournament of Epicness as well as other King-of-the-hill challenges, I would like to propose a Paintball Tournament.

There is a game on my phone, called Game Pigeon that contains a paintball game. This paintball game is played by two players. The object of the game is to shoot your opponent x times before they shoot you x times.

### Gameplay

The game is played in two sets of rounds. A moving round and a shooting round.

Both players, without their opponents knowledge, pick from three objects in front of them to hide behind.

                                (P1) X           X
X           X (P2)
X           X


Both players, without their opponents knowledge, choose which target across from them they would like to shoot at. After players decide which target to shoot at, players shoot at the targets chosen in unison, during which expose themselves from behind their target and are vulnerable to be hit.

Let's go through a small example. In the movement round, P1 has chosen to hide behind their left-most target. P2 has chosen to hide behind their middle target. In the shooting round, P1 chooses their leftmost target (Spot 1). P2 chooses their rightmost target (Spot 3). (See Below for diagram)

                                (P1) 3 <- Hit   1
2          2 (P2)
1  Miss -> 3


For the above example, P1 would miss their shot and P2 would hit their shot, resulting in P1 losing one of their lives. During the shooting phase, players must choose a barrier to shoot behind, they cannot stay hidden.

After the shooting phase both players go back into the moving phase and, without their opponents knowledge, can move behind either of the other two objects or stay in place. They then continue to the shooting phase. They loop through these two phases until one of the players run out of lives, both players run out of lives, or a set number of rounds is completed.

### Inputs

In the first game of the match, no arguments will be supplied to your bot. In each subsequent game of the match, you will be supplied 2 Args. -Arg1 will contain the location of the player([1, 2, or 3]) as well as the players move history. -Arg2 will contain the location of the players shot([1, 2, or 3]) as well as the players shot history. Both of these locations are referenced as if you are looking in the face of your opponent.

Example:

• Round 1: PaintballBot.exe
• Round 2: PaintballBot.exe 1 1
• Round 3: PaintballBot.exe 12 11
• Round 4: PaintballBot.exe 121 113

### Output

Each round, your bot must output the location in which it is hiding, and the location it is going to shoot, to STDOUT, with two characters. All example outputs are shown below:

11 12 13 21 22 23 31 32 33

### Match Format

Each submitted bot will play one match against each other bot in the tournament

Each match will last until one of the players loses their x amount of lives, or the match executes 50 rounds.

Matches will be played anonymously, you will not have an advanced knowledge of the specific bot you are playing against, however you may use any and all information you can garner from his decision making during the history of the current match to alter your strategy against your opponent. You may also track history of your previous games to build up patterns/heuristics etc... (See rules below)

### Submission

• A command to
• execute your bot from the shell e.g.
• ruby myBot.rb
• python3 myBot.py
• OR
• first compile your both and then execute it. e.g.
• csc.exe MyBot.cs
• MyBot.exe

## Sidenotes

• Need to describe that the location is relative to the shooter(from left to right) and the targets are relative to the shooter(from left to right)

• I am still working on the control program for this event, and any help from other is greatly appreciated

If someone with more experience than me wants to take this over, please let me know. I would rather help with this challenge since it is my first and then have the knowledge and skills to run my own in the future.

Please let me know what still needs more clarification so we can have a fun tournament!

## Sandbox Notes

• Is this inflammatory, mean, and liable to draw unwanted and unnecessary attention to low-voted questions in the Network?
• Better tags?
• I should probably write a snippet to find all angry Metas.

# Angry Meta

A site on the Stack Exchange network is considered to have an angry Meta if the lowest-voted Meta question (possibly closed, but not deleted) on the site is voted lower than the lowest-voted Main question.

For example, at the moment, the lowest-voted question on PPCG.SE is at -32, while the lowest-voted question on Meta.PPCG.SE is at -24. This means that codegolf does not have an angry Meta.

On the other hand, the lowest voted question on SoftwareEngineering.SE is at -13, while the lowest-voted question on Meta.SoftwareEngineering.SE is at -17. This means that softwareengineering does have an angry Meta.

## Challenge

You will be given the name of a Stack Exchange site, which you can assume will not be Area 51, Stack Apps, Stack Overflow, a subdomain of Stack Overflow (such as the Spanish Stack Overflow), Ask Ubuntu, Super User, Meta.SE, or any other site that whose domain is not of the form *.stackexchange.com.

The name will be given as the name of the subdomain (e.g. codegolf for PPCG, puzzling for Puzzling, gaming for Arqade, etc.). You should return one of two distinct, consistent values depending on whether the site has an angry Meta or not.

Since this is liable to change over time, I will not provide a list of test cases here, but you can use this Stack Snippet which is the reference implementation:

TODO

• I suppose you mean to say lowest voted questions in your PPCG.SE example. – Weijun Zhou Mar 1 '18 at 13:12
• @WeijunZhou Fixed. – Esolanging Fruit Mar 1 '18 at 16:38

# Comment or not comment?

Write a function which given an all lowercase string, return the same string but with characters that are comments turned uppercase.

# Input

Input is a null terminated ASCII string which may contain any of these characters abcdefghijklmnopqrstuvwxyz /*\ space newline
Last and only last character is null
You will not need to test for invalid input, such as "stringliterals" etc

# Rules for what is comment

/* causes everything until */ (or end of string) to be comment
// causes everything until newline (or end of string) to be comment
'\' at end of line in a comment causes next line to be a comment aswell

# Output

A copy of the input but with letters which are comments according to the rules above in uppercase, other characters shall remain unchanged

# Examples

/comment -> /comment
//comment -> //COMMENT
/*comment -> /*COMMENT
no /*yes*/ no // yes -> no /*YES*/ no // YES

/*          ->              /*
comment                     COMMENT
*/                          */

//\          ->             //\
/*                          /*
not comment                 not comment
//\                         //\
*/                          */


ungolfed

• Which characters can be in the input? Printable ASCII? – user202729 Mar 4 '18 at 5:48
• printable ascii yes and you can also assume input will not contain uppercase letters, function shall change a-z -> A-Z if they would be comment according to C-syntax – PrincePolka Mar 4 '18 at 16:52
• I edited the proposal, clarified and simplified a little bit – PrincePolka Mar 4 '18 at 20:59
• Potential dupe. This challenge is about removing comments instead of changing their capitalization, but the main part is the same. – Laikoni Mar 6 '18 at 21:00
• @Laikoni, thanks I had not seen that one, looks almost the same – PrincePolka Mar 6 '18 at 21:21

# There, I fixed it (with recycled parts)

### Challenge

Given a string containing only letters a-z (either upper- or lowercase), fix it by adding characters to it so that the difference between two adjacent characters is no more than one, or if you can't, remove offending characters (in order) until the string satisfies the requirement.

For example, abcdfge must be fixed either by adding an e, resulting in abcdefge, or by removing f and g, resulting in abcde. Removing must be done only if adding can't be done.

You can add characters only from a recycle bin, which your program or function must store between calls. Characters removed from the string are placed in the recycle bin, and added characters are removed from the bin. The bin can store multiple instances of the same character. In the beginning, the bin is empty.

If you can't fix the whole string by adding characters, don't add any characters. That is, only ever either add or cut a string, not a bit of both.

### Example

First call:
Recycle bin: "" (empty)
Input:       "abcdfge"
Output:      "abcde"          // 'f' and 'g' are removed and placed in the recycle bin

Second call:
Recycle bin: "fg"
Input:       "defhiabcdeg"
Output:      "defghiabcdefg"  // 'f' and 'g' are taken from the recycle bin and placed
// where they are needed.

Third call:
Recycle bin: ""
Input:       "codegolf"
Output:      "cdef"           // The two 'o's and the 'g' and the 'l' are removed and
// placed in the recycle bin.

Fourth call:
Recycle bin: "oogl"
Input:       "mnpqrt"
Output:      "mn"             // 'o' could be added, but it isn't, because an 's' is
// also missing and we don't have one. "pqrt" are added
// to the recycle bin.

Fifth call:
Recycle bin: "ooglpqrt"
Input:       "kmnrsu"
Output:      "klmnopqrstu"    // Characters "lopqt" are added from the bin to fill all
// the gaps. Unused characters are left in the bin.

Sixth call:
Recycle bin: "ogr"
Input:       "qwerty"
Output:      "qe"             // The gap between 'q' and 'w' can't be fixed so 'q' is
// removed. 'e'-'q' < 0 and therefore not more than 1,
// so 'e' stays. The rest of the characters are removed.
// The recycly bin will contain "ogrwrty".


This is , so the goal is to make your code as short as possible in whatever language you choose to participate with.

• "You can add characters only from a recycle bin, which your program or function must store between calls." Many languages don't have the capability to store information between program runs or function calls, or at least not easily. Perhaps having two inputs (recycle bin, 'input'), and two outputs (recycle bin, 'output') would be more inclusive? – Οurous Mar 9 '18 at 9:32

I wrote the following question then found this question. Is it similar enough to mine that mine would be considered a duplicate?

# Recursive Prime Multiplicative Base

I've been thinking about this idea for months now, and, as far as I have been able to find, nobody else has thought of it. Please let me know if I wasn't the first!

Most number systems are additive positional. These take the form of ∑bi*di, where di is the sequence of digits and bi is the base sequence. For example, for the number 1234 in base ten, di={4,3,2,1,0,0,0...} and bi=10i.

I propose the idea of a multiplicative positional system.1 This instead takes a general form of ∏bidi. The most obvious useful multiplicative base is that of bi=Pi, where Pi is the i-th prime number. For example, one could write 3960 as 3,2,1,0,12, as 23*32*51*70*111=3960. This is mathematically interesting (e.g. multiplication gets reduced to addition, but addition is way harder) but we're still using an additive system underneath. This obviously cannot do. Thankfully, we can use recursion! This is probably best illustrated with an example:

3960=
3    2   1  0 1
(0 1) (1)  () 0 ()
(0()) (()) () 0 ()
=(0())(())()0()


As you can see, each nonzero digit gets replaced with that digit's representation. 1 gets replaced with (), as a blank sequence is equivalent to an infinite series of zeros, and anything to the power of zero is one. If one were to include a symbol representing negation, one could write any rational number and even any expression obtainable from the integers using a finite number of multiplications and exponentiations in a finite sequence of four characters.

To give this number system a name, I term it the recursive prime multiplicative base or RPMB (unless you have any better ideas for it).

1Extending this, one can conceive of an infinite number of hyperoperational positional systems, but that's for another code challenge. ;)

# The Challenge

You are to write a program that, when given an integer as input outputs the RPMB form of that integer. The output may be either as a string or a list. If the output is a string, you may substitute any characters for ()0. If the output is a list, the output should be a list of 0's and other lists matching this description. For example, for 3960, the program might output [[0,[]],[[]],[],0,[]].

(todo)

## Scoring

This is , so the smallest program in bytes wins.

• – user202729 Mar 11 '18 at 10:07
• But 9 isn't a prime... – user202729 Mar 11 '18 at 10:08
• @user202729 whoops, typo! Thanks for catching that – DanTheMan Mar 11 '18 at 17:30

• Output the largest prime number possible in as few bytes as possible using no number but pi.
• This code will be the sole judge of whether your output is actually a prime number.
• Your score will be the prime number produced divided by the number of bytes used for your code.
• If your language has a built-in variable for pi, use that. Otherwise, let pi equal 3.1415926535898. Any occurrance of pi itself or something referring directly to pi counts as one byte.
• Your number must be generated solely by applying various operations and functions to pi. Those functions cannot offset pi by anything other than another number derived from pi. The sole exceptions to this rule are floor and ceiling functions. For example, if you want to find the square root of something, you must do something to the effect of raising it to the (pi/pi/(pi/pi+pi/pi))th power.
• You may not modify pi in any way that uses a reference to or directly uses non-pi number.
• The entirety of the number must be outputted in base 10 and without scientific notation. All digits of the number must be included in the output.
• You must provide a
• The largest score wins.

Here's an example in Lua:

print(math.floor(math.pi))


That's 14 bytes (counting math.pi as one byte) for the prime number 3, so my score is 3/14 or ~0.21428571428. Here's another example:

m=math print(m.floor(m.pi^m.pi)+m.pi/m.pi)


That's 31 bytes (each m.pi is one byte) for the prime number 37, so my score is 37/31 or ~1.1935483871.

# Sandbox

Are there any other ways to clear up ambiguities I may be missing?

• some loopholes are forbidden by default and are sometimes referred to as "standard loopholes". – Giuseppe Mar 12 '18 at 21:31
• You should include a winning criterion, i.e., "largest score wins" if I'm reading this correctly. – Giuseppe Mar 12 '18 at 21:31
• @Giuseppe Thanks. I've edited the post – Zenon Mar 12 '18 at 21:33
• At some point (and judging by the kind of stuff that happens here) the values being produced will be beyond guaranteed bounds of even strong tests like Baillie-PSW (2^64=18446744073709551616). Are such values banned or is it up to others to show that the number produced is composite? For example I might post Ç*ÇµḞ+Ḟ×Ḟ+Ċ*\$ in Jelly since it produces 10555134955777783414078330085995832946127396083370199445109 which Baillie-PSW says is a probable prime. – Jonathan Allan Mar 12 '18 at 21:55
• Welcome to PPCG! Nice challenge! – Weijun Zhou Mar 12 '18 at 22:19
• Oh, by the way, that is floor(π^π)×(floor(π^π)+floor(π^π))+ceil(π^π)^ceil(π^π) and WolframAlpha also says it is prime – Jonathan Allan Mar 12 '18 at 22:24
• ...Mathematica to the rescue, it has a "PrimalityProving" package which we can plug numbers into to check Try It Online! Might be worth including this link. – Jonathan Allan Mar 12 '18 at 23:36
• Note that requiring unobservable behavior is discouraged. I suggest making the challenge a mathematical challenge and the score is calculated based on (the size of the formula) and (the output). (yes, non-code challenges are allowed) – user202729 Mar 13 '18 at 1:43
• Quoting from that answer: "Non-observable requirements tend to be vague, subjective, or based on false assumptions about the properties of programming languages." -- Yes, you're assuming that every language have floating point support, or that every language have the functions you mentioned. – user202729 Mar 13 '18 at 1:48
• (1) It's very hard to write prohibitions unambiguously, and I don't think you've succeeded. I don't know what exactly "Your number must be generated solely by applying various operations and functions to pi. Those functions cannot offset pi by anything other than another number derived from pi." allows and forbids. Can I convert pi to a string and take its length? Convert pi to a string, remove the decimal point, and convert back to an integer? Note: answering those two examples would not address the real problem. (2) "You must provide a" what? – Peter Taylor Mar 13 '18 at 8:55
• I fell it's a busy-beaver – l4m2 Mar 15 '18 at 15:14

Make a 32-bit full adder with relays.

A relay is here a gate with four inputs A, B, C and D, and output if A==B then C else D.

You'll be given two 32-bit numbers (totally 64 inputs), a carry flag, constant 0 and 1, sum up to 67 inputs; output 33 bits as the result

Smallest Gate count * gate depth win

• Do you foresee any possible gains by making this a 32-bit adder? It feels to me like an 8-bit adder would be sufficiently complicated to allow golfing, without becoming as tedious. What do you mean by: "sup up to 67 inputs?" You also don't define what gate depth is. You also probably want to come up with a way for answers to post readable solutions. – FryAmTheEggman Mar 16 '18 at 20:20

# Split the wagons! code-golfparsing

In some variants of APL, a tacit function, or a train, consists of several functions next to each other. Your task is, given a train, to separate the different functions it consists of.

The symbols you will be given and their meanings are:

• F: Function

Here is how functions are separated in extended Backus-Naur form:

function ::= {F O} F


Namely, a dyadic operator O accepts one function to its left and one F to its right, and the result is one function, for example F O F, F O F O F O F and F O F O F O F O F O F are all considered single functions for the purposes of this challenge. F F F O F O F F F O F, however, isn't a single function, and is split as (F, F, F O F O F, F, F O F).

You can get the symbols in any reasonable form, including a string, an array of integers, and any other kind of ordered collection able to hold at least 2 different elements. You can assume the input doesn't start or end with O, or contain two Os in a row. However, you must always use the same symbols, and you must only use two unique symbols. The output can be one of:

• List of indices (0- or 1-based) which are the locations of the first symbol of each function. The index representing the first symbol of the input can be optionally omitted, as it's implied. The list doesn't have to be ordered.
• List of indices (0- or 1-based) which are the locations of the last symbol of each function. The index representing the last symbol of the input can be optionally omitted, as it's implied. The list doesn't have to be ordered.
• List of the individual functions. Every element of this list is a list subject to the same restrictions as the input, but not necessarily in the same format as the input. However, all elements must have the same format. The list has to be ordered.

Do not include empty partitions or duplicate, out-of-bounds or negative indices in the output.

Below are some test cases. F and O are used for F and O respectively, and the output is a list of the separated parts.

(empty) -> (empty)
F -> F
FOF -> FOF
FOFOFOF -> FOFOFOF
FOFOFOFOFOF -> FOFOFOFOFOF
FFFOFOFFFOF -> F F FOFOF F FOF
FFOFOFFOF -> F FOFOF FOF
FFFFF -> F F F F F
FOFF -> FOF F
FFFF -> F F F F


# Ungolf my tinylisp code

I like golfing in tinylisp:

(d M(q((x)(i x(i(disp x)0(M x))0


But I also like posting explanations with nicely formatted code:

(d M
(q
((x)
(i x
(i (disp x) 0 (M x))
0))))


Can you help me generate the ungolfed code for my explanations?

Given a line of tinylisp code, return or output the same code, formatted to the following specifications:

### Input syntax

Tokens in tinylisp are (, ), or any string of one or more printable ASCII characters excluding parentheses or space. (I.e. the following regex: [()]|[^() ]+.) A non-parenthesis token is called an atom. Spaces are ignored, except insofar as they separate tokens.

For this challenge, the input code will consist of a single parenthesized list containing 0 or more items. The items in the list may be either (arbitrarily deeply nested) lists or single-token atoms (or a mixture). There may be spaces between items; spaces may also be omitted if they are not necessary to separate two adjacent atoms. Closing parentheses at the end of the expression may be omitted.

Some examples:

()
(1 2 3)
(1 2 3
(1 (2)
(1(2
(1((2))3
(((((xyz)))))
(((((


Bare atoms, like xyz, do not have to be handled for this challenge.

### Nesting levels

We define a nesting level for a tinylisp expression as follows:

• Atoms and the empty list () have a nesting level of 0.
• A nonempty list has nesting level N+1, where N is the maximum nesting level of its items.

Some examples:

Expression   Nesting level
()           0
(1 2 3)      1
(1 2 ())     1
(1 (2))      2
(1 ((2)) 3)  3
((((()))))   4


### How to ungolf

To ungolf a tinylisp expression, first supply any missing closing parentheses. Then, add newlines and whitespace according to the following rules:

• For an expression of nesting level 0, do not add any whitespace.
• For a list of nesting level 1 or 2, make sure the elements of the list are separated by a single space.
• Lists of nesting level 3 or higher must be broken across multiple lines:
• The first element of the list should be on the same line as the opening parenthesis, with no whitespace in between.
• More specifically, the first element should begin on the same line. If the first item itself has nesting level 3 or higher, it will of course be spread over multiple lines itself.
• IF the second element of the list has nesting level 0 or 1, place it on the same line as the first, with a space in between; otherwise, if its nesting level is 2 or higher, place it on its own line.
• The third and subsequent elements of the list must each be on their own line.
• Elements on their own line must be indented by a number of spaces equal to how deeply they are nested in the expression. The top-level list should be indented 0 spaces, its elements 1 space, their elements 2 spaces, etc.
• Closing parentheses always go with the preceding list.

### A worked example

Suppose this is our input:

(d E(q((n)(i(l n 2)(s 1 n)(E(s n 2


First, supply missing close-parens:

(d E(q((n)(i(l n 2)(s 1 n)(E(s n 2))))))


The outermost list has nesting level 6, so it must be split over multiple lines. Its second element is E (nesting level 0), so we keep that on the same line. We place the third element on its own line, indented by one space.

(d E
(q((n)(i(l n 2)(s 1 n)(E(s n 2))))))


The next list has nesting level 5. Its second element has nesting level 4, so it goes on its own line, indented by two spaces.

(d E
(q
((n)(i(l n 2)(s 1 n)(E(s n 2))))))


The next list has nesting level 4. Its second element has nesting level 3, so it goes on its own line, indented by three spaces.

(d E
(q
((n)
(i(l n 2)(s 1 n)(E(s n 2))))))


The next list has nesting level 3. Its second element has nesting level 1, so it goes on the same line as the first element, separated by a space. We place the third and fourth elements on their own lines, indented by four spaces.

(d E
(q
((n)
(i (l n 2)
(s 1 n)
(E(s n 2))))))


The list (s 1 n) has nesting level 1 and thus goes on one line. It has spaces between its elements, so it is already ungolfed.

The list (E(s n 2)) has nesting level 2 and thus goes on one line. It needs spaces between its elements.

Final result:

(d E
(q
((n)
(i (l n 2)
(s 1 n)
(E (s n 2))))))


## Submission requirements

The input will always be a single (possibly nested) list. Thus, it will always start with (, never an atom. The number of opening parentheses will be greater than or equal to the number of closing parentheses. The input will not have any leading or trailing whitespace. The input will consist only of printable ASCII characters; in particular, it will not contain newlines or tabs.

Your solution may be a program or function. You may use any of the default I/O methods.

Input must be a string, a list of characters, or the nearest equivalent in your language.

Output may be a multiline string or a list of strings. It may optionally contain trailing spaces and/or a single trailing newline.

## Examples

()
=>
()

=>

(q(1 2
=>
(q (1 2))

(q((1)(2
=>
(q
((1) (2)))

(((((
=>
((((()))))

(d C(q((Q V)(i Q(i(l Q 0)0(i V(a(C(s Q(h V))V)(C Q(t V)))0))1
=>
(d C
(q
((Q V)
(i Q
(i (l Q 0)
0
(i V
(a
(C
(s Q (h V))
V)
(C Q (t V)))
0))
1))))

((q (g (c (c (q q) g) (c (c (q q) g) ())))) (q (g (c (c (q q) g) (c (c (q q) g) ())))))
=>
((q
(g
(c
(c (q q) g)
(c
(c (q q) g)
()))))
(q
(g
(c
(c (q q) g)
(c
(c (q q) g)
())))))

(d f(q((x y z p)(i p(i(l p 0)(f(s x p)y(a z p)0)(i x(f(s x 1)(a y 1)z(s p 1))(i y(f x(s y 1)(a z 1)(s p 1))(f x y z 0))))(c x(c y(c z(
=>
(d f
(q
((x y z p)
(i p
(i (l p 0)
(f (s x p) y (a z p) 0)
(i x
(f (s x 1) (a y 1) z (s p 1))
(i y
(f x (s y 1) (a z 1) (s p 1))
(f x y z 0))))
(c x
(c y (c z ())))))))

(def even? (lambda (num) (divides? 2 num)))
=>
(def even?
(lambda (num) (divides? 2 num)))

(def odd? (lambda (num) (not (divides? 2 num))))
=>
(def odd?
(lambda (num)
(not (divides? 2 num))))

(def divides? (lambda (divisor multiple) (if (negative? divisor) (divides? (neg divisor) multiple) (if (negative? multiple) (divides? divisor (neg multiple)) (if (less? multiple divisor) (zero? multiple) (divides? divisor (sub2 multiple divisor)))))))
=>
(def divides?
(lambda (divisor multiple)
(if (negative? divisor)
(divides? (neg divisor) multiple)
(if (negative? multiple)
(divides? divisor (neg multiple))
(if (less? multiple divisor)
(zero? multiple)
(divides? divisor (sub2 multiple divisor)))))))


## Reference solution

Here's a reference solution in Python 3: Try it online!

## Similar questions

I haven't found an exact duplicate yet. The closest is:

but there are many significant differences between that question and this: input on multiple lines vs. one line; different criteria for when to insert newlines; having to add missing close-parens; having to handle (), etc.

Other related questions:

## Sandbox questions

• Is the TIO link enough for the reference solution, or should I put the code in the actual post?
• Is there any existing question that's close enough to be a duplicate?
• Which makes a better challenge: 1) input is a single expression on a single line, or 2) input is one or more expressions, each on its own line? #1 is the way it's currently written, and makes the challenge simpler; #2 would be more generally useful.

## The Challenge

The goal is to write a complete program that prints out every possible tetris block made up of #.

The blocks must have an equal chance of printing in any order and must appear exactly once each. The blocks may have any rotation, rotation may be consistent between executions. No two blocks can be touching. All blocks must have settled on the "floor".

ValidExample.exe
#   #
## ###      ##   ## #   #
##  #  ####  ## ##  ## ##

TouchingExample.exe
#
#  # ##
## ####  #  # ##   ##
##  # # ##  #  ## ##

FloatingExample.exe
#   #
## ### ## ## #     # ####
##  #   # #  ### ###


Use the language of your choice, lowest number of bytes wins

## Questions

• Is the wording clear enough?
• Does the challenge meet the expectations for a challenge here?
• What can I do to remove any ambiguity if there is any?
• Is the formatting for the question / examples ok?
• Would the challenge be "better" if the blocks had to be made up of their corresponding letter (IOJLZST)
• This could be a dupe of codegolf.stackexchange.com/questions/2223/polyomino-generator – Sok Mar 21 '18 at 9:22
• @someone is the new wording better? Replaced random order with a requirement that each order have equal odds. – Southpaw Mar 21 '18 at 10:02
• I think it is. I don't think the blocks-made-of-letters is a good idea. – the default. Mar 21 '18 at 10:04
• @Sok No input, random order, only tetrominos, no floating restriction. Those seem to be the main differences. Are they enough to distinguish it? – Southpaw Mar 21 '18 at 10:05

# Euler's Formula for the Quaternions

Euler's famous formula, e^iθ = cosθ + isinθ, can be used to calculate the exponential of arbitrary complex numbers: e^(a+ib) = e^a(cosb + isinb). That's cool and all, but what if we want to go even further?

The quaternions are an expansion of the complex numbers, where instead of just having i*i = -1, you have i*i = j*j = k*k = i*j*k = -1. Quaternions can be represented as a + bi + cj + dk or (s, v) where s is a scalar and v is a 3-Dimensional vector.

Euler's formula can be extended to the quaternions; for an arbitrary quaternion q = (s, v), e^q = e^s (cos|v|, (v/|v|)sin|v|), or, if q = a + bi + cj + dk and r = sqrt(b^2 + c^2 + d^2), e^q = e^a (cosr + (bi + cj + dk)(sinr)/r).

Write a program or function to exponentiate arbitrary quaternions. Built-ins are allowed. You may represent a quaternion in any sane manner.

### Examples

Here, quaternions are represented as a four element array.

Input                                    Output (approximately)
0 3.14159 0 0                            -1
0 1 1 1                                  -0.160557 0.56986 0.56986 0.56986
1 2 3 4                                  1.69392 -0.78956 -1.18434 -1.57912
0.095767 0.601479 0.285658 0.926716      0.458433 0.527339 0.250447 0.812487
-0.654682 -0.925557 -0.409382 0.619391   0.194782 -0.37576 -0.166202 0.251462

• There's a missing ) in e^q = e^a (cosr + (bi + cj + dk)(sinr)/r` – Peter Taylor Mar 23 '18 at 21:53