Welcome to the first programming challenge! Three of these will be posted a week and you can complete it in any language you want.
You get a point for completing an easy challenge, 2 for a medium, and 3 for a hard. For each challenge if you solve it in the least amount of characters you get a bonus point, and if your code runs the fastest when I check it you also get a bonus point. (ties mean everyone who tied gets the bonus point although exact duplicate answers wont count)
Ill be posting a leaderboard that will show the people who have the most points every month
Submissions will be open for a week
As a new hire of bracket inc., you have been tasked with getting rid of excess brackets lying around the facility. You must simplify a series of brackets so that only brackets that dont have a match remain (a match is an opening and closing bracket of the same type beside each other). The final result should have no matches
As an example for the input [(({})({)(()}]
the expected output would be [(({)(}]
These are the valid types of brackets: (){}[]
Your system will be tested against 10 different unknown test cases before it is unleashed on the facility. In order to complete this task you must pass all of the test cases.
Any programming language may be used and to submit an answer reply on this post with the code and the language you coded it in
Edit: Clarification, you must take input in from the user using the program instead of them being hardcoded. (makes it easier to test)
Here’s an O(n) solution using a stack instead of repeated search & replace:
closing_to_opening = {')': '(', ']': '[', '}': '{'} brackets = input() acc = [] for bracket in brackets: if bracket in closing_to_opening: if acc and acc[-1] == closing_to_opening[bracket]: acc.pop() else: acc.append(bracket) else: acc.append(bracket) print(''.join(acc))
Haven’t thoroughly thought the problem through (so I’m not 100% confident in the correctness of the solution), but the general intuition here is that pairs of brackets can only match up if they only have other matching pairs of brackets between them. You can deal with matching pairs of brackets on the fly simply by removing them, so there’s actually no need for backtracking.
Golfed, just for fun:
a=[] [a.pop()if a and a[-1]==dict(zip(')]}','([{')).get(b)else a.append(b)for b in input()] print(''.join(a))
This gave me the idea to do the same in C, but use the argument string itself as the stack to avoid any allocations. It could probably be further optimized.
#include int main(int argc, char **argv) { char map[256] = { 0 }; map[')'] = '('; map['}'] = '{'; map[']'] = '['; while (--argc) { char *top, *p, c; top = p = *++argv; while ((c = *p++)) { if (top != *argv && map[(size_t)c] == top[-1]) { top--; } else { *top++ = c; } } *top = 0; puts(*argv); } }
Here’s an entry in Rust, though it feels quite a bit like cheating:
fn main() { let mut a = std::env::args().skip(1).next().unwrap(); println!("{}", f(&mut a)); } fn f(a: &mut String) -> String { let mut b = String::new(); while *a != b { b = a.clone(); *a = a.replace("{}", "").replace("()", "").replace("[]", ""); } return b; }
edit: added main function to take cli input.
edit2: a rust based stack implementation: https://pastebin.com/FgfuxxRV
10/10 Test cases passed
- Time: 4.472s
- Characters: 290
Yeah haha, its fair game. Theres a reason this is classified under easy
Time: 4.472s
Ough. Those must be some hefty test cases, even the deepest ones I tested (250 loops) completed in less than a tenth of a second. If its possible I may try to find a faster solution and resubmit later…
Might be an issue with the system im using to test. Doing it through a site but I can set up an actual testing system and run it through it for the final results. Time was solidly around 500ms even with a small test case
It’s probably adding compilation time, because a system that runs my python regex in 40ms should probably run this rust program in less than 1ms
python 3 using regex:
import re i=input() p=r'(?:\(\)|\{\}|\[\])' while re.search(p,i): i=re.sub(p,'',i) print(i)
edit: made it uglier for the least characters challenge
10/10 Test cases passed
- Time: 445ms
- Characters (excluding input): 92
Originally intended for it to take input in rather than values being hardcoded but I didnt specify so its fair game, Did an edit on the post to say it and you edited yours to account for it alreadyedit: I see your edit, will do another run with that
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Attempt #2
10/10 Test cases passed
- Time: 432ms
- Characters: 87
Here’s an attempt in Ruby. I haven’t coded in ruby in a while. I was going for character count, so I just used regex replacement.
o=i=gets.chomp o=i.gsub!(/\(\)|{}|\[\]/,'') while o puts i
I think I might do a speed one for fun.
Edit (command line input):
o=i=ARGV[0] o=i.gsub!(/\(\)|{}|\[\]/,'') while o puts i
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I thought I knew how to resolve the
<
andthing, but it didn’t work at all. I guess the sanitizing code is a bit overzealous after the recent vulnerability.
Anyway, your code will look slightly nicer, at least on the web interface, if you surround it with three backticks, like this
```c void CharShifter(char* string, int LengthOfString, int IdxOfOpenChar); ```
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I know I’m too late – but nonetheless …
Factor:
[ [ dup “()” “[]” “{}” [ “” splitting:replace ] tri@ tuck = not ] loop print flush ] each-line
Edit: Thanks to the Alexes from the Factor Discord for xer suggestion!
Factor:
For foolish brevity, renamed
lemmy
->l
andrid
->r
.USING: kernel regexp command-line namespaces sequences io ; IN: l : r ( S -- s ) R/ (\{\}|\(\)|\[\])/ [ 2dup re-contains? ] [ [ "" re-replace ] keep ] while drop ; MAIN: [ command-line get [ r print ] each ]
When compiled to an executable
ridpairs
, pass each string as an argument:$ ./ridpairs '[(({})({)(()}]' '(){}[]' '((){}[]]' [(({)(}] (]
$ hyperfine "./ridpairs '[(({})({)(()}]' '(){}[]' '((){}[]]'" Benchmark 1: ./ridpairs '[(({})({)(()}]' '(){}[]' '((){}[]]' Time (mean ± σ): 4.0 ms ± 0.4 ms [User: 1.5 ms, System: 2.5 ms] Range (min … max): 3.3 ms … 5.9 ms 576 runs
I think that amounts to 207 significant chars, definitely not the winner there.
EDIT: build instructions:
- Download and extract the
developmentrelease from https://factorcode.org/ - Paste the solution code into a new file at
work/l/l.factor
(thework
folder is already present in thefactor
folder) - Launch the Factor UI:
./factor
and inside the UI enter"l" deploy-tool
- A menu with options pops up, choose to “Use the … vocabulary”
- Click “Deploy”
- Download and extract the
Ill be going through and testing these before submissions close. Working on a system that will let me test them easier for future runs
If lemmy breaks your code formatting you can use a third party site to share the code or I can try to figure out what broke when I go to run it
Hi! I created a stack-based language called kcats that is meant to be a simple and powerful language and good for small programs like this one. You can read more about it here: https://skyrod-vactai.github.io/kcats/book-of-kcats.html
Here’s the solution in kcats (assumes the input is on the stack):
[[\[ \]] [\{ \}] [\( \)]] "" float [[[last] dive wrap swap [lookup] dip =] [drop pop drop] [put] if] step dropdown
A bit of explanation: First place a mapping of opening bracket to its matching closing bracket on the stack. Then place the empty result which will be modified as we go. Float the input to the top of stack. Then an if statement. The first part of the if statement is the condition: look up the matching close bracket to the last item in the result, see if it equals the current character. If the condition is true, drop the current character and the last item in the result. If not, put the item into the result. Then ‘step’ runs that if statement on each character of the input. Finally, when we’re done we don’t need the mapping of matching brackets anymore, and we drop it.
Skew, targetting Deno/JS, and recieving input via command-line parameters.
@entry def main { dynamic.Deno.args.forEach(s => { var r=dynamic.RegExp("\\(\\)|{}|\\[]","g") while s != (s = s.replaceAll(r,"")) {} dynamic.console.log(s) }) }
Compile with
skewc main.sk --output-file=main.js --release
.Compiled JS
(function(){function c(){Deno.args.forEach(function(a){for(var b=RegExp('\\(\\)|{}|\\[]','g');a!==(a=a.replaceAll(b,'')););console.log(a)})}c()})();
To run:
deno run main.js '[(({})({)(()}]' '(){}[]'
ISO C99:
#include #include #include #include static char opener(char ch) { switch (ch) { case '}': return '{'; case ']': return '['; case ')': return '('; default: return 0; } } enum { MAX_LINE_LENGTH = 2048 }; static char buffer[MAX_LINE_LENGTH]; int main(void) { char* line = fgets(buffer, sizeof(buffer), stdin); if (line == NULL) { fprintf(stderr, "Error: could not read input.\n"); return EXIT_FAILURE; } size_t len = strlen(line); if (len > 0 and line[len - 1] == '\n') { line[--len] = 0; } char stack[128]; size_t stack_size = 0; for (size_t i = 0; i < len; ++i) { char pair = opener(line[i]); if (pair and stack_size != 0 and stack[stack_size - 1] == pair) { --stack_size; } else { stack[stack_size++] = line[i]; } } stack[stack_size] = 0; puts(stack); }
Compile:
cc -std=c99 -pedantic-errors -O2 bracket.c -o bracket
(Edited to add -O2 because you mentioned it would be timed.)
Hm, the renderer really messed with this (HTML escaped the less than, removed includes as if they were HTML tags?) :/
Elixir solution
To run it, you need Erlang and Elixir installed with
iex
available on path (installation instructions here)Paste the code in a file with extension
.exs
(e.g. solution.exs) and run withiex solution.exs
.It prints the output to Standard Output and appends a newline at the end
Please let me know if this method of running code does not work.
defmodule Brackets do @pairs %{ "]" => "[", "}" => "{", ")" => "(" } def simplify(brackets) do brackets |> String.trim() |> String.graphemes() |> Enum.reduce([], &reducer/2) |> Enum.reverse() end defp reducer(c, []), do: [c] defp reducer(c, [x | rest] = acc) do if @pairs[c] == x do rest else [c | acc] end end end brackets = IO.gets("Please enter your input> ") brackets |> Brackets.simplify() |> IO.puts()
EDIT: Lemmy is bad at letting me include the less than sign in comments. So if you see
<
it should be a single character instead.
Zsh:
s=$1 l=$#s while (( 1 )) { s=${s//(\{\}|\(\)|\[\])} if [[ $#s < $l ]] { l=$#s } else { break } } <<<$s
Usage:
$ zsh lemmy.zsh '[(({})({)(()}]' [(({)(}]
Benchmarks:
$ hyperfine "zsh ./lemmy.zsh '[(({})({)(()}]' Benchmark 1: zsh ./lemmy.zsh '[(({})({)(()}]' Time (mean ± σ): 2.2 ms ± 0.2 ms [User: 1.9 ms, System: 0.4 ms] Range (min … max): 1.9 ms … 5.4 ms 980 runs
If I figure out how to properly use the
f
(repeat) modifier, I’ll post a second attempt.The whole
while
loop and variable assignments should be replaceable with something like${1:fs/(\\{\\}|\\(\\)|\\[\\])//}
But it’s not quite right, or there’s a Zsh bug…
Rust solution:
fn main() { let input = std::env::args().skip(1).next().unwrap(); let mut stack = Vec::with_capacity(input.len() / 4); for ch in input.chars() { match (ch, stack.last()) { ('}', Some(&'{')) | (']', Some(&'[')) | (')', Some(&'(')) => { stack.pop(); } _ => stack.push(ch), } } let output: String = stack.iter().collect(); println!("{}", output); }
Also available at: https://pastebin.com/YWw4ydSY
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