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.
Recent Moves:
Strings
Arrays
Strings
Arrays
List comprehension is marginally more efficient.
def calculator(num1,num2, operation): return { "m": num1 * num2, "a": num1 + num2, "s": num1 - num2, "d": num1 / num2, }[operation.lower()]1 − def calculator(num1,num2, charOperation):
2 − answer = 0
3 − if operation in ["m","M"]:
4 − answer = num1*num2
5 − elif operation in ["a","A"]:
6 − answer = num1 + num2
7 − elif operation in ["s", "S"]:
8 − answer = num1 - num2
9 − elif operation in ["d","D"]:
10 − answer = num1 / num2
11 − return answer
12 − 13 − 14 − 1 + def calculator(num1,num2, operation):
2 + return {3 + "m": num1 * num2,
4 + "a": num1 + num2,
5 + "s": num1 - num2,
6 + "d": num1 / num2,
7 + }[operation.lower()]
import codewars_test as test import solution # or from solution import example @test.describe("Test calculator") def test_group(): @test.it("test addition") def test_case(): test.assert_equals(calculator(1, 1, "a"), 2) @test.it("test subtraction") def test_case(): test.assert_equals(calculator(1, 1, "s"), 0) @test.it("test multiplication") def test_case(): test.assert_equals(calculator(2, 2, "m"), 4) @test.it("test division") def test_case(): test.assert_equals(calculator(6, 2, "d"), 3)1 + import codewars_test as test
2 + import solution # or from solution import example
1 1 4 + @test.describe("Test calculator")5 + def test_group():
6 + @test.it("test addition")7 + def test_case():
8 + test.assert_equals(calculator(1, 1, "a"), 2)
9 + 10 + @test.it("test subtraction")11 + def test_case():
12 + test.assert_equals(calculator(1, 1, "s"), 0)
13 + 14 + @test.it("test multiplication")15 + def test_case():
16 + test.assert_equals(calculator(2, 2, "m"), 4)
17 + 18 + @test.it("test division")19 + def test_case():
20 + test.assert_equals(calculator(6, 2, "d"), 3)
Recent Moves:
def calculator(num1,num2, charOperation): answer = 0 if operation in ["m","M"]: answer = num1*num2 elif operation in ["a","A"]: answer = num1 + num2 elif operation in ["s", "S"]: answer = num1 - num2 elif operation in ["d","D"]: answer = num1 / num2 return answer1 − var add1 = 0;
2 − var add2 = 0;
1 + def calculator(num1,num2, charOperation):
2 + answer = 0
3 + if operation in ["m","M"]:
4 + answer = num1*num2
5 + elif operation in ["a","A"]:
6 + answer = num1 + num2
7 + elif operation in ["s", "S"]:
8 + answer = num1 - num2
9 + elif operation in ["d","D"]:
10 + answer = num1 / num2
11 + return answer
12 + 3 3 4 − var minus1 = 0;
5 − var minus2 = 0;
6 − 7 − var times1 = 0;
8 − var times2 = 0;
9 − 10 − var exponet1 = 0;
11 − var exponet2 = 0;
12 − 13 − var divide1 = 0; //Division with decimal
14 − var divide2 = 0;
15 − 16 − var divide3 = 0; //Division with remainder
17 − var divide4 = 0;
18 − 19 − var y = 15;
20 − console.log( add1 + add2 +" (Addition)");
21 − var y = 35;
22 − console.log( minus1 - minus2 +" (Subtraction)" );
23 − var y = 55;
24 − console.log( times1 * times2 +" (Multilplication)" );
25 − var y = 75;
26 − console.log( divide1 / divide2 +" (Division with decimal)" );
27 − var y = 95;
28 − console.log( Math.floor (divide3 / divide4) + " R" + divide3 % divide4 +" (Division with remainder)");
29 − var y = 115;
30 − console.log( Math.pow(exponet2, exponet1) + " (Exponent) ");
31 31
var add1 = 0; var add2 = 0; var minus1 = 0; var minus2 = 0; var times1 = 0; var times2 = 0; var exponet1 = 0; var exponet2 = 0; var divide1 = 0; //Division with decimal var divide2 = 0; var divide3 = 0; //Division with remainder var divide4 = 0; var y = 15; console.log( add1 + add2 +" (Addition)"); var y = 35; console.log( minus1 - minus2 +" (Subtraction)" ); var y = 55; console.log( times1 * times2 +" (Multilplication)" ); var y = 75; console.log( divide1 / divide2 +" (Division with decimal)" ); var y = 95; console.log( Math.floor (divide3 / divide4) + " R" + divide3 % divide4 +" (Division with remainder)"); var y = 115; console.log( Math.pow(exponet2, exponet1) + " (Exponent) ");1 − // The operation with the number "1" goes first
2 − var add1 = 0
3 − var add2 = 0
1 + var add1 = 0;
2 + var add2 = 0;
4 4 5 − var minus1 = 0
6 − var minus2 = 0
4 + var minus1 = 0;
5 + var minus2 = 0;
7 7 8 − var divide1 = 0
9 − var divide2 = 0
7 + var times1 = 0;
8 + var times2 = 0;
10 10 11 − var times1 = 0
12 − var times2 = 0
13 − //change the numbers in the varibles above
10 + var exponet1 = 0;
11 + var exponet2 = 0;
12 + 13 + var divide1 = 0; //Division with decimal
14 + var divide2 = 0;
15 + 16 + var divide3 = 0; //Division with remainder
17 + var divide4 = 0;
18 + 19 + var y = 15;
20 + console.log( add1 + add2 +" (Addition)");
21 + var y = 35;
22 + console.log( minus1 - minus2 +" (Subtraction)" );
23 + var y = 55;
24 + console.log( times1 * times2 +" (Multilplication)" );
25 + var y = 75;
26 + console.log( divide1 / divide2 +" (Division with decimal)" );
27 + var y = 95;
28 + console.log( Math.floor (divide3 / divide4) + " R" + divide3 % divide4 +" (Division with remainder)");
29 + var y = 115;
30 + console.log( Math.pow(exponet2, exponet1) + " (Exponent) ");
14 14 15 − console.log("Addition" , add1 + add2) //Addition16 − 17 − console.log("Subtraction", minus1-minus2) //Subtraction18 − 19 − console.log("Division" , divide1/divide2) //Division20 − 21 − console.log("Multiplication" , times1*times2) //Multiplication
//1 − 2 2 //
export function validateString(input: string, index: number, stack: number = 0): boolean {
// TODO: your code
if(index === 0 && (input[index] === ')' | input[index] === '}' | input[index] === ']')) {
return false;
}
if(input[index] === '(' | input[index] === '{' | input[index] === '[') {
stack++;
}
validateString(input, index + 1, )
}// See https://www.chaijs.com for how to use Chai.
import { assert } from "chai";
import { validateString } from "./solution";
describe('validateString', function() {
it('test', function() {
assert.strictEqual(validateString('{([])}', 0), true);
assert.strictEqual(validateString('(A[B{C}D]E)', 0), true);
assert.strictEqual(validateString('a(b[d{a+b]/2]/4)/1', 0), false);
assert.strictEqual(validateString('[}{})()', 0), false);
});
});Fundamentals
Strings
The Romanian alphabet is the 31-letter alphabet of the modern Romanian language. It consists of the 26 letters of the Latin alphabet, plus 5 special characters obtained by applying diacritics.
Your task is to change the letters with diacritics:
Ă ă —> a
 ⠗> a
Î î —> i
Ș ș —> s
Ț ț —> t
For example:
Vlad Țepeș --> Vlad Tepes
def correct_romanian_letters(word):
return word.translate(str.maketrans("ĂăÂâÎîȘșȚț","AaAaIiSsTt"))@test.describe('Example Tests')
def example_tests():
test.assert_equals(correct_romanian_letters("Adrian Păunescu"),"Adrian Paunescu")
test.assert_equals(correct_romanian_letters("Constantin Brâncuși"),"Constantin Brancusi")
test.assert_equals(correct_romanian_letters("Constantin Brâncoveanu"),"Constantin Brancoveanu")
test.assert_equals(correct_romanian_letters("Gheorghe Mureșan"),"Gheorghe Muresan")
test.assert_equals(correct_romanian_letters("Ion Creangă"),"Ion Creanga")
test.assert_equals(correct_romanian_letters("Ion Începătorul"),"Ion Incepatorul")
test.assert_equals(correct_romanian_letters("Nadia Comăneci"),"Nadia Comaneci")
test.assert_equals(correct_romanian_letters("Nicolae Labiș"),"Nicolae Labis")
test.assert_equals(correct_romanian_letters("Petre Țuțea"),"Petre Tutea")
test.assert_equals(correct_romanian_letters("Săpânța"),"Sapanta")
test.assert_equals(correct_romanian_letters("Vlad Țepeș"),"Vlad Tepes")Ascii 'A' is single byte. = {65}
Unicode 'A' is double byte 'A' = {0,65}
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
unsigned short *AsciiToUnicode( unsigned char *ascii);
unsigned short *AsciiToUnicode( unsigned char *ascii){
int len = strlen((const char *)ascii);
unsigned short *ptr = NULL;
ptr = (unsigned short *)malloc(len);
memset(ptr, 0, len);
for (int i = 0; i < len; i++){
*(ptr + i) = *(ascii + i);
}
return ptr;
}
int main(){
unsigned short *unicode = AsciiToUnicode((unsigned char *)"ABC");
for (unsigned short i=0; *(unicode+i); i++){
printf("%c ", (unsigned char) *(unicode+i));
}
free(unicode);
return 0;
}Arrays
Objects
function mapOrder(array, order, key) { if (!Array.isArray(array)) return []; const lookupTablea = array.reduceRight((table, o) => table.set(o[key], o), new Map()); return order.map(k => lookupTablea.get(k)); }1 1 function mapOrder(array, order, key) {2 2 if (!Array.isArray(array)) return [];
3 3 4 − const lookupTable = array.reduceRight((table, o) => table.set(o[key], o), new Map());
4 + const lookupTablea = array.reduceRight((table, o) => table.set(o[key], o), new Map());
5 5 6 − return order.map(k => lookupTable.get(k));
6 + return order.map(k => lookupTablea.get(k));
7 7 }