Given two strings, the task is to check whether these strings are meta strings or not. Meta strings are the strings which can be made equal by exactly one swap in any of the strings. Equal string are considered here as Meta strings.
func areMetaStrings(_ str1: String, _ str2: String) -> Bool {
return str1.lowercased().sorted() == str2.lowercased().sorted()
}import XCTest
// XCTest Spec Example:
// TODO: replace with your own tests (TDD), these are just how-to examples to get you started
class SolutionTest: XCTestCase {
static var allTests = [
("Test Example", testExample),
]
func testExample() {
XCTAssertTrue(areMetaStrings("geeks", "keegs"))
XCTAssertTrue(areMetaStrings("rsting", "string"))
XCTAssertFalse(areMetaStrings("geeks", "peegs"))
}
}
XCTMain([
testCase(SolutionTest.allTests)
])package solution fun tribonacci(n: Int, signature: Triple<Int, Int, Int> = Triple(1, 1, 1)) = generateSequence(signature) { Triple(it.second, it.third, it.first + it.second + it.third) } .map { it.first } .take(n) .toList()1 - fun tribonacci(signature: DoubleArray, n: Int) = generateSequence(Triple(signature[0], signature[1], signature[2])) { 2 - Triple(it.second, it.third, it.first + it.second + it.third) } 1 + package solution 2 + 3 + fun tribonacci(n: Int, signature: Triple<Int, Int, Int> = Triple(1, 1, 1)) = 4 + generateSequence(signature) { Triple(it.second, it.third, it.first + it.second + it.third) } 3 3 .map { it.first } 4 4 .take(n) 5 5 .toList() 6 - .toDoubleArray() 7 - 8 - 9 - 10 - fun main() { 11 - val array = doubleArrayOf(1.0,1.0,1.0) 12 - tribonacci(array, 10) 13 - }
package solution import kotlin.test.assertEquals import org.junit.Test class TestExample { @Test fun testTribonacci() { assertEquals(listOf(1), tribonacci(1)) assertEquals(listOf(1, 1, 1, 3, 5, 9, 17, 31, 57, 105), tribonacci(10)) assertEquals(listOf(2, 2, 2, 6, 10, 18, 34, 62, 114, 210), tribonacci(10, Triple(2, 2, 2))) } }1 - // You can test using JUnit or KotlinTest. JUnit is shown below 2 - // TODO: replace this example test with your own, this is just here to demonstrate usage. 3 - 4 - // TODO: replace with whatever your package is called 5 5 package solution 6 6 7 7 import kotlin.test.assertEquals 8 8 import org.junit.Test 9 9 10 10 class TestExample { 11 - @Test 12 - fun tribonacci() { 13 - } 14 - 7 + @Test 8 + fun testTribonacci() { 9 + assertEquals(listOf(1), tribonacci(1)) 10 + assertEquals(listOf(1, 1, 1, 3, 5, 9, 17, 31, 57, 105), tribonacci(10)) 11 + assertEquals(listOf(2, 2, 2, 6, 10, 18, 34, 62, 114, 210), tribonacci(10, Triple(2, 2, 2))) 12 + } 15 15 }
const AbbreviateTwoWords = s => { const [first, middle, ...rest] = s.split(' ') return `${first.slice(0,1)}.${middle.slice(0,1)}. ${rest}` }1 - public class AbbreviateTwoWords { 2 - 3 - public static String abbrevName(String name) { 4 - String[] names = name.split(" "); 5 - return (names[0].charAt(0) + "." + names[1].charAt(0)).toUpperCase(); 6 - } 1 + const AbbreviateTwoWords = s => { 2 + const [first, middle, ...rest] = s.split(' ') 3 + return `${first.slice(0,1)}.${middle.slice(0,1)}. ${rest}` 7 7 }
Test.assertEquals(AbbreviateTwoWords('Jeffrey Jacob Abrams'), 'J.J. Abrams')1 - import org.junit.Test; import static org.junit.Assert.assertEquals; import org.junit.runners.JUnit4; public class SolutionTest { @Test public void testFixed() { assertEquals("S.H", AbbreviateTwoWords.abbrevName("Sam Harris")); assertEquals("P.F", AbbreviateTwoWords.abbrevName("Patrick Feenan")); assertEquals("E.C", AbbreviateTwoWords.abbrevName("Evan Cole")); assertEquals("P.F", AbbreviateTwoWords.abbrevName("P Favuzzi")); assertEquals("D.M", AbbreviateTwoWords.abbrevName("David Mendieta")); } } 1 + Test.assertEquals(AbbreviateTwoWords('Jeffrey Jacob Abrams'), 'J.J. Abrams')
const rot13 = s => s.replace(/[a-z]/g, m => String.fromCharCode(97+(m.charCodeAt(0)-97+13)%26))1 - def rot13(s): 2 - return rot.encode(s,"rot_13") 1 + const rot13 = s => s.replace(/[a-z]/g, m => String.fromCharCode(97+(m.charCodeAt(0)-97+13)%26))
Test.assertEquals(rot13('abcdefghijklmnopqrstuvwxyz'), 'nopqrstuvwxyzabcdefghijklm')1 - # TODO: Replace examples and use TDD development by writing your own tests 2 - # These are some of the methods available: 3 - # test.expect(boolean, [optional] message) 4 - # test.assert_equals(actual, expected, [optional] message) 5 - # test.assert_not_equals(actual, expected, [optional] message) 6 - 7 - # You can use Test.describe and Test.it to write BDD style test groupings 8 - 9 - test.assert_equals(rot13('abcdefghijklmnopqrstuvwxyz'), 'nopqrstuvwxyzabcdefghijklm') 1 + Test.assertEquals(rot13('abcdefghijklmnopqrstuvwxyz'), 'nopqrstuvwxyzabcdefghijklm')
const decrypt = (s,d,a='ABCDEFGHIJKLMNOPQRSTUVWXYZ') => s.replace(/[A-Z]/g, m => a[(a.indexOf(m)+26-d)%26])1 - def decrypt(code,amount): 2 - #place code here 3 - let="ABCDEFGHIJKLMNOPQRSTUVWXYZ" 4 - word = "" 5 - x=0 6 - for c in range(0,len(code)): 7 - for i in range (0,len(let)): 8 - if code[c] == " ": 9 - word+=" " 10 - break 11 - elif code[c] == let[i]: 12 - x=i 13 - x-=amount 14 - if x < 0: 15 - x+=26 16 - word+=let[x] 17 - break 18 - return word 1 + const decrypt = (s,d,a='ABCDEFGHIJKLMNOPQRSTUVWXYZ') => s.replace(/[A-Z]/g, m => a[(a.indexOf(m)+26-d)%26])
Test.assertEquals(decrypt("MJQQT YMJWJ",5),"HELLO THERE") Test.assertEquals(decrypt("FVB NVA TL",7),"YOU GOT ME")1 - Test.assert_equals(decrypt("MJQQT YMJWJ",5),"HELLO THERE") 2 - Test.assert_equals(decrypt("FVB NVA TL",7),"YOU GOT ME") 1 + Test.assertEquals(decrypt("MJQQT YMJWJ",5),"HELLO THERE") 2 + Test.assertEquals(decrypt("FVB NVA TL",7),"YOU GOT ME")
wrvcqwre
using System;
namespace Interpreter.Cata
{
public static class FunctionalExtensions
{
public static Reader<Env, T1> App<Env, T, T1>(this Reader<Env, Func<T, T1>> @this, Reader<Env, T> fa)
=> new Reader<Env, T1>(env => { return @this.Map(f => fa.Map(f).Run(env)).Run(env); });
public static T1 Eval<T, T1>(this Expr<T> @this,
(Func<T1, T1, T1> add, Func<T1, T1, T1> sub, Func<T, T1> val) algebra)
=>
@this.MatchWith(pattern: (
add: (x, y) => algebra.add(x.Eval(algebra), y.Eval(algebra)),
sub: (x, y) => algebra.sub(x.Eval(algebra), y.Eval(algebra)),
val: v => algebra.val(v)
));
}
public abstract class Expr<T>
{
public abstract T1 MatchWith<T1>((Func<Expr<T>, Expr<T>, T1> add, Func<Expr<T>, Expr<T>, T1> sub, Func<T, T1> val) pattern);
}
public class ValExpr<T> : Expr<T>
{
public ValExpr(T x) { X = x; }
public T X { get; }
public override T1 MatchWith<T1>((Func<Expr<T>, Expr<T>, T1> add, Func<Expr<T>, Expr<T>, T1> sub, Func<T, T1> val) pattern)
=> pattern.val(X);
}
public class AddExpr<T> : Expr<T>
{
public AddExpr(Expr<T> x, Expr<T> y) { X = x; Y = y; }
public Expr<T> X { get; }
public Expr<T> Y { get; }
public override T1 MatchWith<T1>(
(Func<Expr<T>, Expr<T>, T1> add,
Func<Expr<T>, Expr<T>, T1> sub,
Func<T, T1> val) pattern)
=> pattern.add(X, Y);
}
public class SubExpr<T> : Expr<T>
{
public SubExpr(Expr<T> x, Expr<T> y) { X = x; Y = y; }
public Expr<T> X { get; }
public Expr<T> Y { get; }
public override T1 MatchWith<T1>((Func<Expr<T>, Expr<T>, T1> add,
Func<Expr<T>, Expr<T>, T1> sub,
Func<T, T1> val) pattern)
=> pattern.sub(X, Y);
}
public class Reader<Env, T>
{
public Func<Env, T> Fn { get; set; }
public Reader(Func<Env, T> fn) => Fn = fn;
public Reader<Env, T1> Map<T1>(Func<T, T1> f) => new Reader<Env, T1>((env) => f(Fn(env)));
public T Run(Env env) => Fn(env);
}
public class Config
{
public string Name { get; set; }
}
public class Demo
{
public static void Run()
{
var expression = new SubExpr<int>(new AddExpr<int>(new ValExpr<int>(2), new ValExpr<int>(2)), new ValExpr<int>(2));
var result = expression.Eval(algebra: (
add: (x, y) => x + y,
sub: (x, y) => x + y,
val: v => v)
);
}
}
}namespace Solution {
using NUnit.Framework;
using System;
// TODO: Replace examples and use TDD development by writing your own tests
[TestFixture]
public class SolutionTest
{
[Test]
public void MyTest()
{
Assert.AreEqual("actual", "actual");
}
}
}Write a function that converts a base 10 number and returns binary (base 2).
Binary is consisted of zeros and ones only, and those make up the binary number.
Suppose that place value works the same.
func binaryConverter(_ input: Int) -> Int {
//Your Code Here
return input
}import XCTest
// XCTest Spec Example:
// TODO: replace with your own tests (TDD), these are just how-to examples to get you started
class SolutionTest: XCTestCase {
static var allTests = [
("Test Example", testExample),
]
func testExample() {
let actual = 1
XCTAssertEqual(actual, 1)
}
}
XCTMain([
testCase(SolutionTest.allTests)
])