Begin a new Kumite
Kumite (ko͞omiˌtā) is the practice of taking techniques learned from Kata and applying them through the act of freestyle sparring.
You can create a new kumite by providing some initial code and optionally some test cases. From there other warriors can spar with you, by enhancing, refactoring and translating your code. There is no limit to how many warriors you can spar with.
A great use for kumite is to begin an idea for a kata as one. You can collaborate with other code warriors until you have it right, then you can convert it to a kata.
def square(a): return(a**2)1 − def square(ty):
2 − a = a * a
3 − return b
1 + def square(a):
2 + return(a**2)
print(square(2))1 − Test.it("something")1 + print(square(2))
Shortened by 2 chars. No spaces.
function lisaCipher(keyword, msg) { var alphabet = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ'; var plainText = ""; var remainderAlphabet = alphabet.split(""); var plainAlphabet = alphabet.split(""); var cypherAlphabet = []; var cypherChars = ((keyword.replace(/\s/g, '')).toUpperCase()).split(""); var msgText = msg.toUpperCase().split(""); for (i=0; i < cypherChars.length;i++) { if (cypherAlphabet.includes(cypherChars[i]) === false) { cypherAlphabet.push(cypherChars[i]); } } remainderAlphabet = remainderAlphabet.filter(char => cypherAlphabet.includes(char) === false); remainderAlphabet.forEach(char => cypherAlphabet.push(char)); for (char of msgText) { if (plainAlphabet.includes(char) === false) { plainAlphabet.push(char); cypherAlphabet.push(char); } plainText = plainText + plainAlphabet[cypherAlphabet.findIndex(cipherChar => cipherChar === char)]; } return plainText; }1 1 function lisaCipher(keyword, msg) {2 + var alphabet = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ';
3 + var plainText = "";
4 + var remainderAlphabet = alphabet.split("");5 + var plainAlphabet = alphabet.split("");6 + var cypherAlphabet = [];
7 + var cypherChars = ((keyword.replace(/\s/g, '')).toUpperCase()).split("");8 + var msgText = msg.toUpperCase().split("");9 + for (i=0; i < cypherChars.length;i++) {10 + if (cypherAlphabet.includes(cypherChars[i]) === false) {11 + cypherAlphabet.push(cypherChars[i]);
12 + }
13 + }
14 + remainderAlphabet = remainderAlphabet.filter(char => cypherAlphabet.includes(char) === false);
15 + remainderAlphabet.forEach(char => cypherAlphabet.push(char));
16 + for (char of msgText) {17 + if (plainAlphabet.includes(char) === false) {18 + plainAlphabet.push(char);
19 + cypherAlphabet.push(char);
20 + }
21 + plainText = plainText + plainAlphabet[cypherAlphabet.findIndex(cipherChar => cipherChar === char)];
22 + }
23 + return plainText;
2 2 3 3 }
// Description: // Write a function caesar() that will return the input message with each character // shifted to the right n times in the alphabet. Make sure the encoded message is in // all caps since the Romans didn't use lowercase letters. Only punks use lowercase letters. // Example : 'James is the greatest at kumite!' => 'MDPHV LV WKH JUHDWHVW DW NXPLWH!' // Make sure to preserve the spaces and punctuation of the original message, you know, for clarity's sake. const caesar = (shift, msg) => { return msg .toUpperCase() .split('') .map(chr => { let charcode = chr.charCodeAt(); if(charcode > 64 && charcode < 91) charcode += shift; return String.fromCharCode(charcode); }) .join('') };… Expand 1 1 // Description:
2 2 // Write a function caesar() that will return the input message with each character
3 3 // shifted to the right n times in the alphabet. Make sure the encoded message is in
4 4 // all caps since the Romans didn't use lowercase letters. Only punks use lowercase letters.
5 5 6 6 // Example : 'James is the greatest at kumite!' => 'MDPHV LV WKH JUHDWHVW DW NXPLWH!'
7 7 8 8 // Make sure to preserve the spaces and punctuation of the original message, you know, for clarity's sake.
9 9 10 10 11 11 const caesar = (shift, msg) => {12 − let encoded = "";
13 − msg = msg.toUpperCase();
14 − 15 − for(let i = 0; i < msg.length; i++) {16 − let charcode = (msg[i].charCodeAt());
17 − if(charcode > 64 && charcode < 91) {18 − charcode += shift;
19 − } encoded += String.fromCharCode(charcode);
20 − }
21 − 22 − return encoded;
23 − 12 + return msg
13 + .toUpperCase()
14 + .split('')15 + .map(chr => {16 + let charcode = chr.charCodeAt();
17 + if(charcode > 64 && charcode < 91) charcode += shift;
18 + return String.fromCharCode(charcode);
19 + })
20 + .join('')24 24 };
Can anyone help with this? The code is supposed to take a string such as "it is nine 'oclock" and output the numerical position of each letter(letters only). my ouput seems to match both examples given exactly, but still says incorrect. any suggestions would be appreciated.
import string
def alphabet_position(text):
aaa = ""
for i in text:
if i.isalpha() == True:
i = i.lower()
aaa = aaa + str(string.ascii_lowercase.index(i) + 1 )
aaa = aaa + " "
else:
pass
print(aaa)# TODO: Replace examples and use TDD by writing your own tests
# These are some of the methods available:
# test.expect(boolean, [optional] message)
# test.assert_equals(actual, expected, [optional] message)
# test.assert_not_equals(actual, expected, [optional] message)
# You can use Test.describe and Test.it to write BDD style test groupingsShortened to one line
Merge sort uses Divide and Conquer to split inputs and merge the halfs so they are sorted.
Given some numbers sort via merge sort:
[1,3,2]
[1] , [3, 2]
[1] , [3] , [2]
[1,2], [3]
[1,2,3]
Can someone help me with adding in the GinkGo Tests?
package main
import "fmt"
func merge_sort(slice []int) []int {
length := len(slice)
if length < 2 {
return slice
}
mid := (length) / 2
return merge(merge_sort(slice[:mid]), merge_sort(slice[mid:]))
}
func merge(left, right []int) []int {
size, l, r := len(left)+len(right), 0, 0
slice := make([]int, size, size)
for i := 0; i < size; i++ {
if l > len(left)-1 && r <= len(right)-1 {
slice[i] = right[r]
r++
} else if r > len(right)-1 && l <= len(left)-1 {
slice[i] = left[l]
l++
} else if left[l] < right[r] {
slice[i] = left[l]
l++
} else {
slice[i] = right[r]
r++
}
}
return slice
}
func main() {
arr := []int{3, 4, 1, 2, 5}
fmt.Print(merge_sort(arr))
}