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.
#include <stdbool.h> bool odd_even(int n) { int r = 0, p[1] = {0}; goto owo; uwu: *&*p = (&r)[0]; goto miau; owo: *(int*)((void*)&r) = n%2; goto uwu; miau: return !(*p&1) ? true : false; }- #include <stdbool.h>
- bool odd_even(int n)
- {
goto start;- int r = 0, p[1] = {0};
- goto owo;
- uwu:
goto end;start:- *&*p = (&r)[0];
- goto miau;
- owo:
- *(int*)((void*)&r) = n%2;
- goto uwu;
end:return !(n&1);goto start;- miau:
- return !(*p&1) ? true : false;
- }
#include <stdlib.h> #include <string.h> char *fanis(char *r, int k) { char *w = malloc(strlen(r) + 1), *p = w; while(w && *r) *p++ = k + *r++; return w; }- #include <stdlib.h>
- #include <string.h>
char *fanis(char* r, int k) {char *w = malloc(strlen(r)+1);if (!w)- char *fanis(char *r, int k) {
- char *w = malloc(strlen(r) + 1), *p = w;
- while(w && *r) *p++ = k + *r++;
- return w;
char *p = w;while (*r)*p++ = k + *r++;return w;- }
using System; public static class Kata { public static int SameCase(char a, char b) { var aZ = a <= 'Z'; var bZ = b <= 'Z'; var aIsLetter = a >= 'A' && a <= 'z' && (aZ || a >= 'a'); if (aIsLetter != (b >= 'A' && b <= 'z' && (bZ || b >= 'a'))) return -1; return (!aIsLetter || aZ == bZ) ? 1 : 0; } }- using System;
- public static class Kata
- {
- public static int SameCase(char a, char b)
- {
if (!char.IsLetter(a) && !char.IsLetter(b))return 1;if (!char.IsLetter(a) || !char.IsLetter(b))return -1;return (char.IsUpper(a) == char.IsUpper(b)) ? 1 : 0;- var aZ = a <= 'Z';
- var bZ = b <= 'Z';
- var aIsLetter = a >= 'A' && a <= 'z' && (aZ || a >= 'a');
- if (aIsLetter != (b >= 'A' && b <= 'z' && (bZ || b >= 'a'))) return -1;
- return (!aIsLetter || aZ == bZ) ? 1 : 0;
- }
- }
namespace Solution { using NUnit.Framework; using System; [TestFixture] public class SolutionTest { [Test] [Repeat(1000)] public void TrueTests() { Assert.AreEqual(1, Kata.SameCase('a', 'u')); Assert.AreEqual(1, Kata.SameCase('A', 'U')); Assert.AreEqual(1, Kata.SameCase('Q', 'P')); Assert.AreEqual(1, Kata.SameCase('w', 'y')); Assert.AreEqual(1, Kata.SameCase('c', 'm')); Assert.AreEqual(1, Kata.SameCase('N', 'W')); Assert.AreEqual(1, Kata.SameCase('1', '2')); } [Test] [Repeat(1000)] public void FalseTests() { Assert.AreEqual(0, Kata.SameCase('a', 'U')); Assert.AreEqual(0, Kata.SameCase('A', 'u')); Assert.AreEqual(0, Kata.SameCase('Q', 'p')); Assert.AreEqual(0, Kata.SameCase('w', 'Y')); Assert.AreEqual(0, Kata.SameCase('c', 'M')); Assert.AreEqual(0, Kata.SameCase('N', 'w')); } [Test] [Repeat(1000)] public void NotLetters() { Assert.AreEqual(-1, Kata.SameCase('a', '*')); Assert.AreEqual(-1, Kata.SameCase('A', '%')); Assert.AreEqual(-1, Kata.SameCase('Q', '1')); Assert.AreEqual(-1, Kata.SameCase('w', '-')); Assert.AreEqual(-1, Kata.SameCase('c', '8')); Assert.AreEqual(-1, Kata.SameCase('N', ':')); } [Test] [Repeat(1000)] public void RandomTest() { string chars = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmopqrstuvwxyz1234567890~/*-+:.,><.#@!&"; Random rand = new Random(0); char char1 = 'a'; char char2 = 'a'; for (int i = 0; i < 200; i++) { char1 = chars[rand.Next(0,76)]; char2 = chars[rand.Next(0,76)]; Assert.AreEqual(SameCaseSolution(char1,char2), Kata.SameCase(char1, char2)); } } private static int SameCaseSolution(char a, char b) { if (!char.IsLetter(a) && !char.IsLetter(b)) return 1; if (!char.IsLetter(a) || !char.IsLetter(b)) return -1; if ((a >= 97) == (b >= 97)) return 1; return 0; } } }- namespace Solution {
- using NUnit.Framework;
- using System;
- [TestFixture]
- public class SolutionTest
- {
- [Test]
- [Repeat(1000)]
- public void TrueTests()
- {
- Assert.AreEqual(1, Kata.SameCase('a', 'u'));
- Assert.AreEqual(1, Kata.SameCase('A', 'U'));
- Assert.AreEqual(1, Kata.SameCase('Q', 'P'));
- Assert.AreEqual(1, Kata.SameCase('w', 'y'));
- Assert.AreEqual(1, Kata.SameCase('c', 'm'));
- Assert.AreEqual(1, Kata.SameCase('N', 'W'));
- Assert.AreEqual(1, Kata.SameCase('1', '2'));
- }
- [Test]
- [Repeat(1000)]
- public void FalseTests()
- {
- Assert.AreEqual(0, Kata.SameCase('a', 'U'));
- Assert.AreEqual(0, Kata.SameCase('A', 'u'));
- Assert.AreEqual(0, Kata.SameCase('Q', 'p'));
- Assert.AreEqual(0, Kata.SameCase('w', 'Y'));
- Assert.AreEqual(0, Kata.SameCase('c', 'M'));
- Assert.AreEqual(0, Kata.SameCase('N', 'w'));
- }
- [Test]
- [Repeat(1000)]
- public void NotLetters()
- {
- Assert.AreEqual(-1, Kata.SameCase('a', '*'));
- Assert.AreEqual(-1, Kata.SameCase('A', '%'));
- Assert.AreEqual(-1, Kata.SameCase('Q', '1'));
- Assert.AreEqual(-1, Kata.SameCase('w', '-'));
- Assert.AreEqual(-1, Kata.SameCase('c', '8'));
- Assert.AreEqual(-1, Kata.SameCase('N', ':'));
- }
- [Test]
- [Repeat(1000)]
- public void RandomTest() {
- string chars = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmopqrstuvwxyz1234567890~/*-+:.,><.#@!&";
Random rand = new Random();- Random rand = new Random(0);
- char char1 = 'a';
- char char2 = 'a';
- for (int i = 0; i < 200; i++) {
- char1 = chars[rand.Next(0,76)];
- char2 = chars[rand.Next(0,76)];
- Assert.AreEqual(SameCaseSolution(char1,char2), Kata.SameCase(char1, char2));
- }
- }
- private static int SameCaseSolution(char a, char b) {
- if (!char.IsLetter(a) && !char.IsLetter(b)) return 1;
- if (!char.IsLetter(a) || !char.IsLetter(b)) return -1;
- if ((a >= 97) == (b >= 97)) return 1;
- return 0;
- }
- }
- }
const tab = (f, a, b, h) => { return Array.from( { length: Math.ceil((b - a) / h) + 1 }, (v, i) => f(a + (i * h))).reduce((a, c) => a += c, 0 ) }const tab = (f, a, b, h) => Array.from({length:Math.ceil((b-a)/h)+1}, (v,i) => f(a+(i*h))).reduce((a,c) => a+=c,0)- const tab = (f, a, b, h) => {
- return Array.from(
- {
- length: Math.ceil((b - a) / h) + 1
- },
- (v, i) => f(a + (i * h))).reduce((a, c) => a += c, 0
- )
- }
Sets
Sets have a non-transitive relation, similarly to rock paper scissors. I used this property to implement the game win conditions.
def dumbRockPaperScissors(player1, player2): Rock = {"Paper"} Paper = {"Scissors"} Scissors = {"Rock"} if player1 in eval(player2): return "Player 1 wins" elif player2 in eval(player1): return "Player 2 wins" else: return "Draw"function dumbRockPaperScissors(player1, player2) {if(player1 == "Rock" && player2 == "Paper"){return "Player 2 wins";}else if(player1 == "Rock" && player2 == "Scissors" ){return "Player 1 wins";}else if(player1 == "Scissors" && player2 == "Paper"){return "Player 1 wins";}else if(player1 == "Scissors" && player2 == "Rock"){return "Player 2 wins";}else if(player1 == "Paper" && player2 == "Scissors"){return "Player 2 wins";}else if(player1 == "Paper" && player2 == "Rock"){return "Player 1 wins";}else if(player1 == "Paper" && player2 == "Paper"){return "Draw";}else if(player1 == "Rock" && player2 == "Rock"){return "Draw";}else if(player1 == "Scissors" && player2 == "Scissors"){return "Draw";}}- def dumbRockPaperScissors(player1, player2):
- Rock = {"Paper"}
- Paper = {"Scissors"}
- Scissors = {"Rock"}
- if player1 in eval(player2):
- return "Player 1 wins"
- elif player2 in eval(player1):
- return "Player 2 wins"
- else:
- return "Draw"
import codewars_test as test from solution import dumbRockPaperScissors @test.describe("dumbRockPaperScissors") def fixed_tests(): @test.it('Basic Test Cases') def basic_test_cases(): test.assert_equals(dumbRockPaperScissors('Rock', 'Rock'),'Draw') test.assert_equals(dumbRockPaperScissors('Rock', 'Paper'),'Player 2 wins') test.assert_equals(dumbRockPaperScissors('Paper', 'Rock'),'Player 1 wins') test.assert_equals(dumbRockPaperScissors('Paper', 'Paper'),'Draw') test.assert_equals(dumbRockPaperScissors('Rock', 'Scissors'),'Player 1 wins') test.assert_equals(dumbRockPaperScissors('Paper', 'Scissors'),'Player 2 wins') test.assert_equals(dumbRockPaperScissors('Scissors', 'Rock'),'Player 2 wins') test.assert_equals(dumbRockPaperScissors('Scissors', 'Paper'),'Player 1 wins') test.assert_equals(dumbRockPaperScissors('Scissors', 'Scissors'),'Draw')// Since Node 10, we're using Mocha.// You can use `chai` for assertions.const chai = require("chai");const assert = chai.assert;// Uncomment the following line to disable truncating failure messages for deep equals, do:// chai.config.truncateThreshold = 0;// Since Node 12, we no longer include assertions from our deprecated custom test framework by default.// Uncomment the following to use the old assertions:// const Test = require("@codewars/test-compat");- import codewars_test as test
- from solution import dumbRockPaperScissors
describe('dumbRockPaperScissors', function() {it('returns "Draw" for Rock vs Rock', function() {assert.strictEqual(dumbRockPaperScissors('Rock', 'Rock'), 'Draw');});it('returns "Draw" for Paper vs Paper', function() {assert.strictEqual(dumbRockPaperScissors('Paper', 'Paper'), 'Draw');});it('returns "Draw" for Scissors vs Scissors', function() {assert.strictEqual(dumbRockPaperScissors('Scissors', 'Scissors'), 'Draw');});it('returns "Player 1 wins" for Rock vs Scissors', function() {assert.strictEqual(dumbRockPaperScissors('Rock', 'Scissors'), 'Player 1 wins');});it('returns "Player 1 wins" for Scissors vs Paper', function() {assert.strictEqual(dumbRockPaperScissors('Scissors', 'Paper'), 'Player 1 wins');});it('returns "Player 1 wins" for Paper vs Rock', function() {assert.strictEqual(dumbRockPaperScissors('Paper', 'Rock'), 'Player 1 wins');});it('returns "Player 2 wins" for Scissors vs Rock', function() {assert.strictEqual(dumbRockPaperScissors('Scissors', 'Rock'), 'Player 2 wins');});it('returns "Player 2 wins" for Paper vs Scissors', function() {assert.strictEqual(dumbRockPaperScissors('Paper', 'Scissors'), 'Player 2 wins');});it('returns "Player 2 wins" for Rock vs Paper', function() {assert.strictEqual(dumbRockPaperScissors('Rock', 'Paper'), 'Player 2 wins');});});- @test.describe("dumbRockPaperScissors")
- def fixed_tests():
- @test.it('Basic Test Cases')
- def basic_test_cases():
- test.assert_equals(dumbRockPaperScissors('Rock', 'Rock'),'Draw')
- test.assert_equals(dumbRockPaperScissors('Rock', 'Paper'),'Player 2 wins')
- test.assert_equals(dumbRockPaperScissors('Paper', 'Rock'),'Player 1 wins')
- test.assert_equals(dumbRockPaperScissors('Paper', 'Paper'),'Draw')
- test.assert_equals(dumbRockPaperScissors('Rock', 'Scissors'),'Player 1 wins')
- test.assert_equals(dumbRockPaperScissors('Paper', 'Scissors'),'Player 2 wins')
- test.assert_equals(dumbRockPaperScissors('Scissors', 'Rock'),'Player 2 wins')
- test.assert_equals(dumbRockPaperScissors('Scissors', 'Paper'),'Player 1 wins')
- test.assert_equals(dumbRockPaperScissors('Scissors', 'Scissors'),'Draw')