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:
The function is condensed down to one line using ES6 arrow functions
function findMax(arr){ let max = arr[0]; for(let i = 0; i < arr.length; i++){ if(max < arr[i]){ max = arr[i]; } } return max; }1 − const findMax = arr => Math.max(...arr);
1 + function findMax(arr){2 + let max = arr[0];
3 + for(let i = 0; i < arr.length; i++){4 + if(max < arr[i]){5 + max = arr[i];
6 + }
7 + }
8 + return max;
9 + }
Mathematics
Algorithms
Numbers
Given a positive number n > 1 find the prime factor decomposition of n. Format the result as a string in the following form :
"(p_1**n_1)(p_2**n_2)...(p_k**n_k)"
where a ** b means a to the power of b
with the p_i in increasing order without the "**n_i".
Examples:
n = 17 should return "(17)"
n = 10976 should return "(2**5)(7**3)"
n = 86240 should return "(2**5)(5)(7**2)(11)"
require 'prime' def primeFactors(n) Prime.prime_division(n).map do |n| "(#{n[0]}#{n[1] > 1 ? '**' + n[1].to_s : ''})" end*"" end1 1 require 'prime'
2 − 3 3 def primeFactors(n)
4 − result = ''
5 − Prime.prime_division(n).each do |n|
6 − result += '(' + n[0].to_s7 − n[1] < 2 ? result += ')' : result += '**' + n[1].to_s + ')'
8 − end
9 − 10 − result
3 + Prime.prime_division(n).map do |n|
4 + "(#{n[0]}#{n[1] > 1 ? '**' + n[1].to_s : ''})"5 + end*""
11 11 end
Test.assert_equals(primeFactors(7), "(7)") Test.assert_equals(primeFactors(343), "(7**3)") Test.assert_equals(primeFactors(10976), "(2**5)(7**3)") Test.assert_equals(primeFactors(7775460), "(2**2)(3**3)(5)(7)(11**2)(17)") Test.assert_equals(primeFactors(9484985), "(5)(193)(9829)") Test.assert_equals(primeFactors(16516513), "(13)(359)(3539)")1 + Test.assert_equals(primeFactors(7), "(7)")
2 + Test.assert_equals(primeFactors(343), "(7**3)")
3 + Test.assert_equals(primeFactors(10976), "(2**5)(7**3)")
1 1 Test.assert_equals(primeFactors(7775460), "(2**2)(3**3)(5)(7)(11**2)(17)")
5 + Test.assert_equals(primeFactors(9484985), "(5)(193)(9829)")
6 + Test.assert_equals(primeFactors(16516513), "(13)(359)(3539)")
Fundamentals
Algorithms
In my opinion, the code is cleaner with destructuring and math.hypot. Also, snake_case is preferred.
import math def goes_to_jail(directions): x = 0 ; y = 0 for north,east,south,west in directions: x += (east - west) * 274 y += (north - south) * 80 if math.hypot(x, y) > 2025: return True return False1 − def goesToJail(directions):
2 − location=[0,0]
3 − #North+East are postive numbers West+South are a negative numbers
4 − for direction in directions:
5 − location[0]=location[0]+(direction[0]*80)-(direction[2]*80)
6 − location[1]=location[1]+(direction[1]*274)-(direction[3]*274)
7 − #a squared + b squared = c squared
8 − if( (location[0]**2+location[1]**2)**(1/2) > 2000 ):
1 + import math
2 + 3 + def goes_to_jail(directions):
4 + x = 0 ; y = 0
5 + for north,east,south,west in directions:
6 + x += (east - west) * 274
7 + y += (north - south) * 80
8 + if math.hypot(x, y) > 2025:
9 9 return True
10 10 return False
import codewars_test as test # TODO Write tests import solution # or from solution import example # test.assert_equals(actual, expected, [optional] message) @test.describe("Example") def test_group(): @test.it("") def test_case(): test.assert_equals(goes_to_jail([[1,0,0,0],[0,0,1,0]]), False) test.assert_equals(goes_to_jail([[9,0,0,4],[15,0,0,1],[3,5,3,1],[0,1,5,0]]), True) test.assert_equals(goes_to_jail([[2,0,2,4],[3,0,3,1],[0,1,5,0],[1,0,3,4]]), True) test.assert_equals(goes_to_jail([[1,0,0,3],[3,0,1,2],[5,0,1,0]]), False) test.assert_equals(goes_to_jail( [[0,0,0,3],[2,0,1,0],[3,0,1,5],[0,3,1,0]] ), True)1 1 import codewars_test as test
2 2 # TODO Write tests
3 3 import solution # or from solution import example
4 4 5 5 # test.assert_equals(actual, expected, [optional] message)
6 6 @test.describe("Example")7 7 def test_group():
8 8 @test.it("")9 9 def test_case():
10 − test.assert_equals(goesToJail([[1,0,0,0],[0,0,1,0]]), False)
11 − test.assert_equals(goesToJail([[9,0,0,4],[15,0,0,1],[3,5,3,1],[0,1,5,0]]), True)
12 − test.assert_equals(goesToJail([[2,0,2,4],[3,0,3,1],[0,1,5,0],[1,0,3,4]]), True)
13 − test.assert_equals(goesToJail([[1,0,0,3],[3,0,1,2],[5,0,1,0]]), False)
14 − test.assert_equals(goesToJail( [[0,0,0,3],[2,0,1,0],[3,0,1,5],[0,3,1,0]] ), True)
10 + test.assert_equals(goes_to_jail([[1,0,0,0],[0,0,1,0]]), False)
11 + test.assert_equals(goes_to_jail([[9,0,0,4],[15,0,0,1],[3,5,3,1],[0,1,5,0]]), True)
12 + test.assert_equals(goes_to_jail([[2,0,2,4],[3,0,3,1],[0,1,5,0],[1,0,3,4]]), True)
13 + test.assert_equals(goes_to_jail([[1,0,0,3],[3,0,1,2],[5,0,1,0]]), False)
14 + test.assert_equals(goes_to_jail( [[0,0,0,3],[2,0,1,0],[3,0,1,5],[0,3,1,0]] ), True)
Golfed solution.
function* generateInterval(a,b,c){for(;c>0?a<=b:a>=b;a+=c)yield a}1 − function* generateInterval(start, stop, step) {2 − if (step >= 0) { // infinite lists with step 0 are a-okay3 − for (let cursor=start; cursor<=stop; cursor+=step) yield cursor;
4 − } else if (step < 0) {5 − for (let cursor=start; cursor>=stop; cursor+=step) yield cursor;
6 − }
7 − }
1 + function* generateInterval(a,b,c){for(;c>0?a<=b:a>=b;a+=c)yield a}
Recent Moves:
Using a generator and two for loops for clarity.
function* generateInterval(start, stop, step) { if (step >= 0) { // infinite lists with step 0 are a-okay for (let cursor=start; cursor<=stop; cursor+=step) yield cursor; } else if (step < 0) { for (let cursor=start; cursor>=stop; cursor+=step) yield cursor; } }1 − function generateInterval(start, stop, step) {2 − const arr = [];
3 − let value = start;
4 − for (let index = 0; index <= (stop - start) / step; index++) {5 − arr.push(value);
6 − value += step;
1 + function* generateInterval(start, stop, step) {2 + if (step >= 0) { // infinite lists with step 0 are a-okay3 + for (let cursor=start; cursor<=stop; cursor+=step) yield cursor;
4 + } else if (step < 0) {5 + for (let cursor=start; cursor>=stop; cursor+=step) yield cursor;
7 7 }
8 − return arr;
9 9 }
// Since Node 10, we're using Mocha. // You can use `chai` for assertions. const chai = require("chai"); const assert = chai.assert; const Test = require("@codewars/test-compat"); describe("generateInterval(2, 10, 2)", function() { it("startLessThenStop", function() { Test.assertSimilar([...generateInterval(2, 10, 2)], [2, 4, 6, 8, 10]); }); }); describe("generateInterval(2, 10, -2)", function() { it("startBiggerThenStop", function() { Test.assertSimilar([...generateInterval(2, -10, -2)], [2,0,-2,-4,-6,-8,-10]); }); });1 1 // Since Node 10, we're using Mocha.
2 2 // You can use `chai` for assertions.
3 3 const chai = require("chai");4 4 const assert = chai.assert;
5 5 const Test = require("@codewars/test-compat");6 6 7 7 describe("generateInterval(2, 10, 2)", function() {8 8 it("startLessThenStop", function() {9 − Test.assertSimilar(generateInterval(2, 10, 2), [2, 4, 6, 8, 10]);
9 + Test.assertSimilar([...generateInterval(2, 10, 2)], [2, 4, 6, 8, 10]);
10 10 });
11 11 });
12 12 13 13 describe("generateInterval(2, 10, -2)", function() {14 14 it("startBiggerThenStop", function() {15 − Test.assertSimilar(generateInterval(2, -10, -2), [2,0,-2,-4,-6,-8,-10]);
15 + Test.assertSimilar([...generateInterval(2, -10, -2)], [2,0,-2,-4,-6,-8,-10]);
16 16 });
17 17 });
18 18
I'm using capturing split instead of match. This handles a couple of edge cases including empty string inputs and inputs containing two numbers in a row.
function transformText(s) { return s.split(/(\d+)/) .map(w => w.trim()) .filter(w => w) .map(w => ( /\d/.test(w) ? `<div>${w}</div>` : `<span>${w}</span>` )) .join``; }1 − function transformText(string) {2 − const regExp = /[\D]+|([\d+\.]+)/g
3 − const numsRegExp = /[0-9\.]+/g
4 − 5 − const splited = string.match(regExp)
6 − 7 − const res = splited.map((item) => {8 − if (numsRegExp.test(item)) {9 − return `<div>${item}</div>`10 − } else {11 − return `<span>${item.replace(/^\s|\s$/g, "")}</span>`12 − }
13 − })
14 − 15 − return res.join("")1 + function transformText(s) {2 + return s.split(/(\d+)/)
3 + .map(w => w.trim())
4 + .filter(w => w)
5 + .map(w => (
6 + /\d/.test(w) ? `<div>${w}</div>` : `<span>${w}</span>`7 + ))
8 + .join``;
16 16 }
// 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"); describe("Solution", function() { it("Example", function() { // Test.assertEquals(1 + 1, 2); // assert.strictEqual(1 + 1, 2); assert.strictEqual(transformText('Number 2'), '<span>Number</span><div>2</div>') assert.strictEqual(transformText('12 people in 2 rooms'), '<div>12</div><span>people in</span><div>2</div><span>rooms</span>') assert.strictEqual(transformText('from 2 to 9'), '<span>from</span><div>2</div><span>to</span><div>9</div>') assert.strictEqual(transformText(''), '') assert.strictEqual(transformText('word'), '<span>word</span>') assert.strictEqual(transformText('34 45'), '<div>34</div><div>45</div>') }); });… Expand 1 1 // Since Node 10, we're using Mocha.
2 2 // You can use `chai` for assertions.
3 3 const chai = require("chai");4 4 const assert = chai.assert;
5 5 // Uncomment the following line to disable truncating failure messages for deep equals, do:
6 6 // chai.config.truncateThreshold = 0;
7 7 // Since Node 12, we no longer include assertions from our deprecated custom test framework by default.
8 8 // Uncomment the following to use the old assertions:
9 9 // const Test = require("@codewars/test-compat");10 10 11 11 describe("Solution", function() {12 12 it("Example", function() {13 13 // Test.assertEquals(1 + 1, 2);
14 14 // assert.strictEqual(1 + 1, 2);
15 15 assert.strictEqual(transformText('Number 2'), '<span>Number</span><div>2</div>')16 16 assert.strictEqual(transformText('12 people in 2 rooms'), '<div>12</div><span>people in</span><div>2</div><span>rooms</span>')17 17 assert.strictEqual(transformText('from 2 to 9'), '<span>from</span><div>2</div><span>to</span><div>9</div>')18 + assert.strictEqual(transformText(''), '')19 + assert.strictEqual(transformText('word'), '<span>word</span>')20 + assert.strictEqual(transformText('34 45'), '<div>34</div><div>45</div>')18 18 });
19 19 });
Recent Moves:
Implement a function, which gets string, splits it onto numbers and words. After it wraps numbers in div tag, words in span and remove spaces at the end and begining.
Example:
- transformText("Two 2"):<span>Two</span><div>2</div>
- transformText('12 people in 2 rooms'): <div>12</div><span>people in</span><div>2</div><span>rooms</span>
function transformText(string) {
const regExp = /[\D]+|([\d+\.]+)/g
const numsRegExp = /[0-9\.]+/g
const splited = string.match(regExp)
const res = splited.map((item) => {
if (numsRegExp.test(item)) {
return `<div>${item}</div>`
} else {
return `<span>${item.replace(/^\s|\s$/g, "")}</span>`
}
})
return res.join("")
}// 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");
describe("Solution", function() {
it("Example", function() {
// Test.assertEquals(1 + 1, 2);
// assert.strictEqual(1 + 1, 2);
assert.strictEqual(transformText('Number 2'), '<span>Number</span><div>2</div>')
assert.strictEqual(transformText('12 people in 2 rooms'), '<div>12</div><span>people in</span><div>2</div><span>rooms</span>')
assert.strictEqual(transformText('from 2 to 9'), '<span>from</span><div>2</div><span>to</span><div>9</div>')
});
});