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csharp_0 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Check if in given list of numbers, are any two numbers closer to each other than
/// given threshold.
/// >>> HasCloseElements([1.0, 2.0, 3.0], 0.5)
/// False
/// >>> HasCloseElements([1.0, 2.8, 3.0, 4.0, 5.0, 2.0], 0.3)
/// True
///
/// </summary>
public static bool HasCloseElements (List<double> numbers, double threshold)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = HasCloseElements(new List<double> {1.0,2.0,3.9,4.0,5.0,2.2},0.3);
var expected1 = true;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = HasCloseElements(new List<double> {1.0,2.0,3.9,4.0,5.0,2.2},0.05);
var expected2 = false;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = HasCloseElements(new List<double> {1.0,2.0,5.9,4.0,5.0},0.95);
var expected3 = true;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = HasCloseElements(new List<double> {1.0,2.0,5.9,4.0,5.0},0.8);
var expected4 = false;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = HasCloseElements(new List<double> {1.0,2.0,3.0,4.0,5.0,2.0},0.1);
var expected5 = true;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = HasCloseElements(new List<double> {1.1,2.2,3.1,4.1,5.1},1.0);
var expected6 = true;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = HasCloseElements(new List<double> {1.1,2.2,3.1,4.1,5.1},0.5);
var expected7 = false;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
}
}
}
| HasCloseElements | [
"\n }\n"
] |
csharp_1 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Input to this function is a string containing multiple groups of nested parentheses. Your goal is to
/// separate those group into separate strings and return the list of those.
/// Separate groups are balanced (each open brace is properly closed) and not nested within each other
/// Ignore any spaces in the input string.
/// >>> SeparateParenGroups('( ) (( )) (( )( ))')
/// ['()', '(())', '(()())']
///
/// </summary>
public static List<string> SeparateParenGroups (string paren_string)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = SeparateParenGroups("(()()) ((())) () ((())()())");
var expected1 = new List<string> {"(()())","((()))","()","((())()())"};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = SeparateParenGroups("() (()) ((())) (((())))");
var expected2 = new List<string> {"()","(())","((()))","(((())))"};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = SeparateParenGroups("(()(())((())))");
var expected3 = new List<string> {"(()(())((())))"};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = SeparateParenGroups("( ) (( )) (( )( ))");
var expected4 = new List<string> {"()","(())","(()())"};
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
}
}
}
| SeparateParenGroups | [
"\n }\n"
] |
csharp_2 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Given a positive floating point number, it can be decomposed into
/// and integer part (largest integer smaller than given number) and decimals
/// (leftover part always smaller than 1).
///
/// Return the decimal part of the number.
/// >>> TruncateNumber(3.5)
/// 0.5
///
/// </summary>
public static double TruncateNumber (double number)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = TruncateNumber(3.5);
var expected1 = 0.5;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = TruncateNumber(1.33);
var expected2 = 0.33000000000000007;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = TruncateNumber(123.456);
var expected3 = 0.45600000000000307;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| TruncateNumber | [
"\n }\n"
] |
csharp_3 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// You're given a list of deposit and withdrawal operations on a bank account that starts with
/// zero balance. Your task is to detect if at any point the balance of account fallls below zero, and
/// at that point function should return True. Otherwise it should return False.
/// >>> BelowZero([1, 2, 3])
/// False
/// >>> BelowZero([1, 2, -4, 5])
/// True
///
/// </summary>
public static bool BelowZero (List<int> operations)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = BelowZero(new List<int> {});
var expected1 = false;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = BelowZero(new List<int> {1,2,-3,1,2,-3});
var expected2 = false;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = BelowZero(new List<int> {1,2,-4,5,6});
var expected3 = true;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = BelowZero(new List<int> {1,-1,2,-2,5,-5,4,-4});
var expected4 = false;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = BelowZero(new List<int> {1,-1,2,-2,5,-5,4,-5});
var expected5 = true;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = BelowZero(new List<int> {1,-2,2,-2,5,-5,4,-4});
var expected6 = true;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
}
}
}
| BelowZero | [
"\n }\n"
] |
csharp_4 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// For a given list of input numbers, calculate Mean Absolute Deviation
/// around the mean of this dataset.
/// Mean Absolute Deviation is the average absolute difference between each
/// element and a centerpoint (mean in this case):
/// MAD = average | x - x_mean |
/// >>> MeanAbsoluteDeviation([1.0, 2.0, 3.0, 4.0])
/// 1.0
///
/// </summary>
public static double MeanAbsoluteDeviation (List<double> numbers)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = MeanAbsoluteDeviation(new List<double> {1.0,2.0,3.0});
var expected1 = 0.6666666666666666;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = MeanAbsoluteDeviation(new List<double> {1.0,2.0,3.0,4.0});
var expected2 = 1.0;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = MeanAbsoluteDeviation(new List<double> {1.0,2.0,3.0,4.0,5.0});
var expected3 = 1.2;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| MeanAbsoluteDeviation | [
"\n }\n"
] |
csharp_5 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Insert a number 'delimeter' between every two consecutive elements of input list `numbers'
/// >>> Intersperse([], 4)
/// []
/// >>> Intersperse([1, 2, 3], 4)
/// [1, 4, 2, 4, 3]
///
/// </summary>
public static List<int> Intersperse (List<int> numbers, int delimeter)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Intersperse(new List<int> {},7);
var expected1 = new List<int> {};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = Intersperse(new List<int> {5,6,3,2},8);
var expected2 = new List<int> {5,8,6,8,3,8,2};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = Intersperse(new List<int> {2,2,2},2);
var expected3 = new List<int> {2,2,2,2,2};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| Intersperse | [
"\n }\n"
] |
csharp_6 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Input to this function is a string represented multiple groups for nested parentheses separated by spaces.
/// For each of the group, output the deepest level of nesting of parentheses.
/// E.g. (()()) has maximum two levels of nesting while ((())) has three.
///
/// >>> ParseNestedParens('(()()) ((())) () ((())()())')
/// [2, 3, 1, 3]
///
/// </summary>
public static List<int> ParseNestedParens (string paren_string)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = ParseNestedParens("(()()) ((())) () ((())()())");
var expected1 = new List<int> {2,3,1,3};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = ParseNestedParens("() (()) ((())) (((())))");
var expected2 = new List<int> {1,2,3,4};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = ParseNestedParens("(()(())((())))");
var expected3 = new List<int> {4};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| ParseNestedParens | [
"\n }\n"
] |
csharp_7 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Filter an input list of strings only for ones that contain given substring
/// >>> FilterBySubstring([], 'a')
/// []
/// >>> FilterBySubstring(['abc', 'bacd', 'cde', 'array'], 'a')
/// ['abc', 'bacd', 'array']
///
/// </summary>
public static List<string> FilterBySubstring (List<string> strings, string substring)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = FilterBySubstring(new List<string> {},"john");
var expected1 = new List<string> {};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = FilterBySubstring(new List<string> {"xxx","asd","xxy","john doe","xxxAAA","xxx"},"xxx");
var expected2 = new List<string> {"xxx","xxxAAA","xxx"};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = FilterBySubstring(new List<string> {"xxx","asd","aaaxxy","john doe","xxxAAA","xxx"},"xx");
var expected3 = new List<string> {"xxx","aaaxxy","xxxAAA","xxx"};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = FilterBySubstring(new List<string> {"grunt","trumpet","prune","gruesome"},"run");
var expected4 = new List<string> {"grunt","prune"};
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
}
}
}
| FilterBySubstring | [
"\n }\n"
] |
csharp_8 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// For a given list of integers, return a tuple consisting of a sum and a product of all the integers in a list.
/// Empty sum should be equal to 0 and empty product should be equal to 1.
/// >>> SumProduct([])
/// (0, 1)
/// >>> SumProduct([1, 2, 3, 4])
/// (10, 24)
///
/// </summary>
public static List<int> SumProduct (List<int> numbers)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = SumProduct(new List<int> {});
var expected1 = new List<int> {0,1};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = SumProduct(new List<int> {1,1,1});
var expected2 = new List<int> {3,1};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = SumProduct(new List<int> {100,0});
var expected3 = new List<int> {100,0};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = SumProduct(new List<int> {3,5,7});
var expected4 = new List<int> {15,105};
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = SumProduct(new List<int> {10});
var expected5 = new List<int> {10,10};
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
}
}
}
| SumProduct | [
"\n }\n"
] |
csharp_9 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// From a given list of integers, generate a list of rolling maximum element found until given moment
/// in the sequence.
/// >>> RollingMax([1, 2, 3, 2, 3, 4, 2])
/// [1, 2, 3, 3, 3, 4, 4]
///
/// </summary>
public static List<int> RollingMax (List<int> numbers)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = RollingMax(new List<int> {});
var expected1 = new List<int> {};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = RollingMax(new List<int> {1,2,3,4});
var expected2 = new List<int> {1,2,3,4};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = RollingMax(new List<int> {4,3,2,1});
var expected3 = new List<int> {4,4,4,4};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = RollingMax(new List<int> {3,2,3,100,3});
var expected4 = new List<int> {3,3,3,100,100};
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
}
}
}
| RollingMax | [
"\n }\n"
] |
csharp_10 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Find the shortest palindrome that begins with a supplied string.
/// Algorithm idea is simple:
/// - Find the longest postfix of supplied string that is a palindrome.
/// - Append to the end of the string reverse of a string prefix that comes before the palindromic suffix.
/// >>> MakePalindrome('')
/// ''
/// >>> MakePalindrome('cat')
/// 'catac'
/// >>> MakePalindrome('cata')
/// 'catac'
///
/// </summary>
public static string MakePalindrome (string string0)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = MakePalindrome("");
var expected1 = "";
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = MakePalindrome("x");
var expected2 = "x";
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = MakePalindrome("xyz");
var expected3 = "xyzyx";
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = MakePalindrome("xyx");
var expected4 = "xyx";
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = MakePalindrome("jerry");
var expected5 = "jerryrrej";
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
}
}
}
| MakePalindrome | [
"\n }\n"
] |
csharp_11 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Input are two strings a and b consisting only of 1s and 0s.
/// Perform binary XOR on these inputs and return result also as a string.
/// >>> StringXor('010', '110')
/// '100'
///
/// </summary>
public static string StringXor (string a, string b)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = StringXor("111000","101010");
var expected1 = "010010";
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = StringXor("1","1");
var expected2 = "0";
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = StringXor("0101","0000");
var expected3 = "0101";
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| StringXor | [
"\n }\n"
] |
csharp_12 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Out of list of strings, return the Longest one. Return the first one in case of multiple
/// strings of the same length. Return None in case the input list is empty.
/// >>> Longest([])
///
/// >>> Longest(['a', 'b', 'c'])
/// 'a'
/// >>> Longest(['a', 'bb', 'ccc'])
/// 'ccc'
///
/// </summary>
public static object Longest (List<string> strings)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Longest(new List<string> {});
var expected1 = null;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = Longest(new List<string> {"x","y","z"});
var expected2 = "x";
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = Longest(new List<string> {"x","yyy","zzzz","www","kkkk","abc"});
var expected3 = "zzzz";
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| Longest | [
"\n }\n"
] |
csharp_13 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return a greatest common divisor of two integers a and b
/// >>> GreatestCommonDivisor(3, 5)
/// 1
/// >>> GreatestCommonDivisor(25, 15)
/// 5
///
/// </summary>
public static int GreatestCommonDivisor (int a, int b)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = GreatestCommonDivisor(3,7);
var expected1 = 1;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = GreatestCommonDivisor(10,15);
var expected2 = 5;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = GreatestCommonDivisor(49,14);
var expected3 = 7;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = GreatestCommonDivisor(144,60);
var expected4 = 12;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
}
}
}
| GreatestCommonDivisor | [
"\n }\n"
] |
csharp_14 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return list of all prefixes from shortest to longest of the input string
/// >>> AllPrefixes('abc')
/// ['a', 'ab', 'abc']
///
/// </summary>
public static List<string> AllPrefixes (string string0)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = AllPrefixes("");
var expected1 = new List<string> {};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = AllPrefixes("asdfgh");
var expected2 = new List<string> {"a","as","asd","asdf","asdfg","asdfgh"};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = AllPrefixes("WWW");
var expected3 = new List<string> {"W","WW","WWW"};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| AllPrefixes | [
"\n }\n"
] |
csharp_15 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return a string containing space-delimited numbers starting from 0 upto n inclusive.
/// >>> StringSequence(0)
/// '0'
/// >>> StringSequence(5)
/// '0 1 2 3 4 5'
///
/// </summary>
public static string StringSequence (int n)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = StringSequence(0);
var expected1 = "0";
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = StringSequence(3);
var expected2 = "0 1 2 3";
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = StringSequence(10);
var expected3 = "0 1 2 3 4 5 6 7 8 9 10";
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| StringSequence | [
"\n }\n"
] |
csharp_16 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Given a string, find out how many distinct characters (regardless of case) does it consist of
/// >>> CountDistinctCharacters('xyzXYZ')
/// 3
/// >>> CountDistinctCharacters('Jerry')
/// 4
///
/// </summary>
public static int CountDistinctCharacters (string string0)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = CountDistinctCharacters("");
var expected1 = 0;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = CountDistinctCharacters("abcde");
var expected2 = 5;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = CountDistinctCharacters("abcdecadeCADE");
var expected3 = 5;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = CountDistinctCharacters("aaaaAAAAaaaa");
var expected4 = 1;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = CountDistinctCharacters("Jerry jERRY JeRRRY");
var expected5 = 5;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
}
}
}
| CountDistinctCharacters | [
"\n }\n"
] |
csharp_17 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Input to this function is a string representing musical notes in a special ASCII format.
/// Your task is to parse this string and return list of integers corresponding to how many beats does each
/// not last.
///
/// Here is a legend:
/// 'o' - whole note, lasts four beats
/// 'o|' - half note, lasts two beats
/// '.|' - quater note, lasts one beat
///
/// >>> ParseMusic('o o| .| o| o| .| .| .| .| o o')
/// [4, 2, 1, 2, 2, 1, 1, 1, 1, 4, 4]
///
/// </summary>
public static List<int> ParseMusic (string music_string)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = ParseMusic("");
var expected1 = new List<int> {};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = ParseMusic("o o o o");
var expected2 = new List<int> {4,4,4,4};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = ParseMusic(".| .| .| .|");
var expected3 = new List<int> {1,1,1,1};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = ParseMusic("o| o| .| .| o o o o");
var expected4 = new List<int> {2,2,1,1,4,4,4,4};
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = ParseMusic("o| .| o| .| o o| o o|");
var expected5 = new List<int> {2,1,2,1,4,2,4,2};
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
}
}
}
| ParseMusic | [
"\n }\n"
] |
csharp_18 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Find how many times a given substring can be found in the original string. Count overlaping cases.
/// >>> HowManyTimes('', 'a')
/// 0
/// >>> HowManyTimes('aaa', 'a')
/// 3
/// >>> HowManyTimes('aaaa', 'aa')
/// 3
///
/// </summary>
public static int HowManyTimes (string string0, string substring)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = HowManyTimes("","x");
var expected1 = 0;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = HowManyTimes("xyxyxyx","x");
var expected2 = 4;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = HowManyTimes("cacacacac","cac");
var expected3 = 4;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = HowManyTimes("john doe","john");
var expected4 = 1;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
}
}
}
| HowManyTimes | [
"\n }\n"
] |
csharp_19 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Input is a space-delimited string of numberals from 'zero' to 'nine'.
/// Valid choices are 'zero', 'one', 'two', 'three', 'four', 'five', 'six', 'seven', 'eight' and 'nine'.
/// Return the string with numbers sorted from smallest to largest
/// >>> SortNumbers('three one five')
/// 'one three five'
///
/// </summary>
public static string SortNumbers (string numbers)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = SortNumbers("");
var expected1 = "";
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = SortNumbers("three");
var expected2 = "three";
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = SortNumbers("three five nine");
var expected3 = "three five nine";
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = SortNumbers("five zero four seven nine eight");
var expected4 = "zero four five seven eight nine";
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = SortNumbers("six five four three two one zero");
var expected5 = "zero one two three four five six";
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
}
}
}
| SortNumbers | [
"\n }\n"
] |
csharp_20 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// From a supplied list of numbers (of length at least two) select and return two that are the closest to each
/// other and return them in order (smaller number, larger number).
/// >>> FindClosestElements([1.0, 2.0, 3.0, 4.0, 5.0, 2.2])
/// (2.0, 2.2)
/// >>> FindClosestElements([1.0, 2.0, 3.0, 4.0, 5.0, 2.0])
/// (2.0, 2.0)
///
/// </summary>
public static List<double> FindClosestElements (List<double> numbers)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = FindClosestElements(new List<double> {1.0,2.0,3.9,4.0,5.0,2.2});
var expected1 = new List<double> {3.9,4.0};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = FindClosestElements(new List<double> {1.0,2.0,5.9,4.0,5.0});
var expected2 = new List<double> {5.0,5.9};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = FindClosestElements(new List<double> {1.0,2.0,3.0,4.0,5.0,2.2});
var expected3 = new List<double> {2.0,2.2};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = FindClosestElements(new List<double> {1.0,2.0,3.0,4.0,5.0,2.0});
var expected4 = new List<double> {2.0,2.0};
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = FindClosestElements(new List<double> {1.1,2.2,3.1,4.1,5.1});
var expected5 = new List<double> {2.2,3.1};
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
}
}
}
| FindClosestElements | [
"\n }\n"
] |
csharp_21 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Given list of numbers (of at least two elements), apply a linear transform to that list,
/// such that the smallest number will become 0 and the largest will become 1
/// >>> RescaleToUnit([1.0, 2.0, 3.0, 4.0, 5.0])
/// [0.0, 0.25, 0.5, 0.75, 1.0]
///
/// </summary>
public static List<double> RescaleToUnit (List<double> numbers)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = RescaleToUnit(new List<double> {2.0,49.9});
var expected1 = new List<double> {0.0,1.0};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = RescaleToUnit(new List<double> {100.0,49.9});
var expected2 = new List<double> {1.0,0.0};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = RescaleToUnit(new List<double> {1.0,2.0,3.0,4.0,5.0});
var expected3 = new List<double> {0.0,0.25,0.5,0.75,1.0};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = RescaleToUnit(new List<double> {2.0,1.0,5.0,3.0,4.0});
var expected4 = new List<double> {0.25,0.0,1.0,0.5,0.75};
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = RescaleToUnit(new List<double> {12.0,11.0,15.0,13.0,14.0});
var expected5 = new List<double> {0.25,0.0,1.0,0.5,0.75};
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
}
}
}
| RescaleToUnit | [
"\n }\n"
] |
csharp_22 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Filter given list of any python values only for integers
/// >>> FilterIntegers(['a', 3.14, 5])
/// [5]
/// >>> FilterIntegers([1, 2, 3, 'abc', {}, []])
/// [1, 2, 3]
///
/// </summary>
public static List<int> FilterIntegers (List<object> values)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = FilterIntegers(new List<object> {});
var expected1 = new List<int> {};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = FilterIntegers(new List<object> {4,new object {},new List<object> {},23.2,9,"adasd"});
var expected2 = new List<int> {4,9};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = FilterIntegers(new List<object> {3,"c",3,3,"a","b"});
var expected3 = new List<int> {3,3,3};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| FilterIntegers | [
"\n }\n"
] |
csharp_23 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return length of given string
/// >>> Strlen('')
/// 0
/// >>> Strlen('abc')
/// 3
///
/// </summary>
public static int Strlen (string string0)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Strlen("");
var expected1 = 0;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = Strlen("x");
var expected2 = 1;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = Strlen("asdasnakj");
var expected3 = 9;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| Strlen | [
"\n }\n"
] |
csharp_24 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// For a given number n, find the largest number that divides n evenly, smaller than n
/// >>> LargestDivisor(15)
/// 5
///
/// </summary>
public static int LargestDivisor (int n)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = LargestDivisor(3);
var expected1 = 1;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = LargestDivisor(7);
var expected2 = 1;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = LargestDivisor(10);
var expected3 = 5;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = LargestDivisor(100);
var expected4 = 50;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = LargestDivisor(49);
var expected5 = 7;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
}
}
}
| LargestDivisor | [
"\n }\n"
] |
csharp_25 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return list of prime factors of given integer in the order from smallest to largest.
/// Each of the factors should be listed number of times corresponding to how many times it appeares in factorization.
/// Input number should be equal to the product of all factors
/// >>> Factorize(8)
/// [2, 2, 2]
/// >>> Factorize(25)
/// [5, 5]
/// >>> Factorize(70)
/// [2, 5, 7]
///
/// </summary>
public static List<int> Factorize (int n)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Factorize(2);
var expected1 = new List<int> {2};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = Factorize(4);
var expected2 = new List<int> {2,2};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = Factorize(8);
var expected3 = new List<int> {2,2,2};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = Factorize(57);
var expected4 = new List<int> {3,19};
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = Factorize(3249);
var expected5 = new List<int> {3,3,19,19};
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = Factorize(185193);
var expected6 = new List<int> {3,3,3,19,19,19};
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = Factorize(20577);
var expected7 = new List<int> {3,19,19,19};
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
var actual8 = Factorize(18);
var expected8 = new List<int> {2,3,3};
var result8 = compareLogic.Compare(actual8, expected8);
if (!result8.AreEqual) {throw new Exception("Exception --- test case 7 failed to pass");}
}
}
}
| Factorize | [
"\n }\n"
] |
csharp_26 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// From a list of integers, remove all elements that occur more than once.
/// Keep order of elements left the same as in the input.
/// >>> RemoveDuplicates([1, 2, 3, 2, 4])
/// [1, 3, 4]
///
/// </summary>
public static List<int> RemoveDuplicates (List<int> numbers)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = RemoveDuplicates(new List<int> {});
var expected1 = new List<int> {};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = RemoveDuplicates(new List<int> {1,2,3,4});
var expected2 = new List<int> {1,2,3,4};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = RemoveDuplicates(new List<int> {1,2,3,2,4,3,5});
var expected3 = new List<int> {1,4,5};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| RemoveDuplicates | [
"\n }\n"
] |
csharp_27 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// For a given string, flip lowercase characters to uppercase and uppercase to lowercase.
/// >>> FlipCase('Hello')
/// 'hELLO'
///
/// </summary>
public static string FlipCase (string string0)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = FlipCase("");
var expected1 = "";
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = FlipCase("Hello!");
var expected2 = "hELLO!";
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = FlipCase("These violent delights have violent ends");
var expected3 = "tHESE VIOLENT DELIGHTS HAVE VIOLENT ENDS";
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| FlipCase | [
"\n }\n"
] |
csharp_28 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Concatenate list of strings into a single string
/// >>> Concatenate([])
/// ''
/// >>> Concatenate(['a', 'b', 'c'])
/// 'abc'
///
/// </summary>
public static string Concatenate (List<string> strings)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Concatenate(new List<string> {});
var expected1 = "";
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = Concatenate(new List<string> {"x","y","z"});
var expected2 = "xyz";
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = Concatenate(new List<string> {"x","y","z","w","k"});
var expected3 = "xyzwk";
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| Concatenate | [
"\n }\n"
] |
csharp_29 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Filter an input list of strings only for ones that start with a given prefix.
/// >>> FilterByPrefix([], 'a')
/// []
/// >>> FilterByPrefix(['abc', 'bcd', 'cde', 'array'], 'a')
/// ['abc', 'array']
///
/// </summary>
public static List<string> FilterByPrefix (List<string> strings, string prefix)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = FilterByPrefix(new List<string> {},"john");
var expected1 = new List<string> {};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = FilterByPrefix(new List<string> {"xxx","asd","xxy","john doe","xxxAAA","xxx"},"xxx");
var expected2 = new List<string> {"xxx","xxxAAA","xxx"};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
}
}
}
| FilterByPrefix | [
"\n }\n"
] |
csharp_30 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return only positive numbers in the list.
/// >>> GetPositive([-1, 2, -4, 5, 6])
/// [2, 5, 6]
/// >>> GetPositive([5, 3, -5, 2, -3, 3, 9, 0, 123, 1, -10])
/// [5, 3, 2, 3, 9, 123, 1]
///
/// </summary>
public static List<int> GetPositive (List<int> l)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = GetPositive(new List<int> {-1,-2,4,5,6});
var expected1 = new List<int> {4,5,6};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = GetPositive(new List<int> {5,3,-5,2,3,3,9,0,123,1,-10});
var expected2 = new List<int> {5,3,2,3,3,9,123,1};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = GetPositive(new List<int> {-1,-2});
var expected3 = new List<int> {};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = GetPositive(new List<int> {});
var expected4 = new List<int> {};
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
}
}
}
| GetPositive | [
"\n }\n"
] |
csharp_31 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return true if a given number is prime, and false otherwise.
/// >>> IsPrime(6)
/// False
/// >>> IsPrime(101)
/// True
/// >>> IsPrime(11)
/// True
/// >>> IsPrime(13441)
/// True
/// >>> IsPrime(61)
/// True
/// >>> IsPrime(4)
/// False
/// >>> IsPrime(1)
/// False
///
/// </summary>
public static bool IsPrime (int n)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = IsPrime(6);
var expected1 = false;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = IsPrime(101);
var expected2 = true;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = IsPrime(11);
var expected3 = true;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = IsPrime(13441);
var expected4 = true;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = IsPrime(61);
var expected5 = true;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = IsPrime(4);
var expected6 = false;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = IsPrime(1);
var expected7 = false;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
var actual8 = IsPrime(5);
var expected8 = true;
var result8 = compareLogic.Compare(actual8, expected8);
if (!result8.AreEqual) {throw new Exception("Exception --- test case 7 failed to pass");}
var actual9 = IsPrime(11);
var expected9 = true;
var result9 = compareLogic.Compare(actual9, expected9);
if (!result9.AreEqual) {throw new Exception("Exception --- test case 8 failed to pass");}
var actual10 = IsPrime(17);
var expected10 = true;
var result10 = compareLogic.Compare(actual10, expected10);
if (!result10.AreEqual) {throw new Exception("Exception --- test case 9 failed to pass");}
var actual11 = IsPrime(85);
var expected11 = false;
var result11 = compareLogic.Compare(actual11, expected11);
if (!result11.AreEqual) {throw new Exception("Exception --- test case 10 failed to pass");}
var actual12 = IsPrime(77);
var expected12 = false;
var result12 = compareLogic.Compare(actual12, expected12);
if (!result12.AreEqual) {throw new Exception("Exception --- test case 11 failed to pass");}
var actual13 = IsPrime(255379);
var expected13 = false;
var result13 = compareLogic.Compare(actual13, expected13);
if (!result13.AreEqual) {throw new Exception("Exception --- test case 12 failed to pass");}
}
}
}
| IsPrime | [
"\n }\n"
] |
csharp_33 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// This function takes a list l and returns a list l' such that
/// l' is identical to l in the indicies that are not divisible by three, while its values at the indicies that are divisible by three are equal
/// to the values of the corresponding indicies of l, but sorted.
/// >>> SortThird([1, 2, 3])
/// [1, 2, 3]
/// >>> SortThird([5, 6, 3, 4, 8, 9, 2])
/// [2, 6, 3, 4, 8, 9, 5]
///
/// </summary>
public static List<int> SortThird (List<int> l)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = SortThird(new List<int> {1,2,3});
var expected1 = new List<int> {1,2,3};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = SortThird(new List<int> {5,3,-5,2,-3,3,9,0,123,1,-10});
var expected2 = new List<int> {1,3,-5,2,-3,3,5,0,123,9,-10};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = SortThird(new List<int> {5,8,-12,4,23,2,3,11,12,-10});
var expected3 = new List<int> {-10,8,-12,3,23,2,4,11,12,5};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = SortThird(new List<int> {5,6,3,4,8,9,2});
var expected4 = new List<int> {2,6,3,4,8,9,5};
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = SortThird(new List<int> {5,8,3,4,6,9,2});
var expected5 = new List<int> {2,8,3,4,6,9,5};
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = SortThird(new List<int> {5,6,9,4,8,3,2});
var expected6 = new List<int> {2,6,9,4,8,3,5};
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = SortThird(new List<int> {5,6,3,4,8,9,2,1});
var expected7 = new List<int> {2,6,3,4,8,9,5,1};
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
}
}
}
| SortThird | [
"\n }\n"
] |
csharp_34 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return sorted Unique elements in a list
/// >>> Unique([5, 3, 5, 2, 3, 3, 9, 0, 123])
/// [0, 2, 3, 5, 9, 123]
///
/// </summary>
public static List<int> Unique (List<int> l)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Unique(new List<int> {5,3,5,2,3,3,9,0,123});
var expected1 = new List<int> {0,2,3,5,9,123};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
}
}
}
| Unique | [
"\n }\n"
] |
csharp_35 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return maximum element in the list.
/// >>> MaxElement([1, 2, 3])
/// 3
/// >>> MaxElement([5, 3, -5, 2, -3, 3, 9, 0, 123, 1, -10])
/// 123
///
/// </summary>
public static int MaxElement (List<int> l)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = MaxElement(new List<int> {1,2,3});
var expected1 = 3;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = MaxElement(new List<int> {5,3,-5,2,-3,3,9,0,124,1,-10});
var expected2 = 124;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
}
}
}
| MaxElement | [
"\n }\n"
] |
csharp_36 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return the number of times the digit 7 appears in integers less than n which are divisible by 11 or 13.
/// >>> FizzBuzz(50)
/// 0
/// >>> FizzBuzz(78)
/// 2
/// >>> FizzBuzz(79)
/// 3
///
/// </summary>
public static int FizzBuzz (int n)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = FizzBuzz(50);
var expected1 = 0;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = FizzBuzz(78);
var expected2 = 2;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = FizzBuzz(79);
var expected3 = 3;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = FizzBuzz(100);
var expected4 = 3;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = FizzBuzz(200);
var expected5 = 6;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = FizzBuzz(4000);
var expected6 = 192;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = FizzBuzz(10000);
var expected7 = 639;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
var actual8 = FizzBuzz(100000);
var expected8 = 8026;
var result8 = compareLogic.Compare(actual8, expected8);
if (!result8.AreEqual) {throw new Exception("Exception --- test case 7 failed to pass");}
}
}
}
| FizzBuzz | [
"\n }\n"
] |
csharp_37 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// This function takes a list l and returns a list l' such that
/// l' is identical to l in the odd indicies, while its values at the even indicies are equal
/// to the values of the even indicies of l, but sorted.
/// >>> SortEven([1, 2, 3])
/// [1, 2, 3]
/// >>> SortEven([5, 6, 3, 4])
/// [3, 6, 5, 4]
///
/// </summary>
public static List<int> SortEven (List<int> l)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = SortEven(new List<int> {1,2,3});
var expected1 = new List<int> {1,2,3};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = SortEven(new List<int> {5,3,-5,2,-3,3,9,0,123,1,-10});
var expected2 = new List<int> {-10,3,-5,2,-3,3,5,0,9,1,123};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = SortEven(new List<int> {5,8,-12,4,23,2,3,11,12,-10});
var expected3 = new List<int> {-12,8,3,4,5,2,12,11,23,-10};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| SortEven | [
"\n }\n"
] |
csharp_39 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
///
/// PrimeFib returns n-th number that is a Fibonacci number and it's also prime.
/// >>> PrimeFib(1)
/// 2
/// >>> PrimeFib(2)
/// 3
/// >>> PrimeFib(3)
/// 5
/// >>> PrimeFib(4)
/// 13
/// >>> PrimeFib(5)
/// 89
///
/// </summary>
public static int PrimeFib (int n)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = PrimeFib(1);
var expected1 = 2;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = PrimeFib(2);
var expected2 = 3;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = PrimeFib(3);
var expected3 = 5;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = PrimeFib(4);
var expected4 = 13;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = PrimeFib(5);
var expected5 = 89;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = PrimeFib(6);
var expected6 = 233;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = PrimeFib(7);
var expected7 = 1597;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
var actual8 = PrimeFib(8);
var expected8 = 28657;
var result8 = compareLogic.Compare(actual8, expected8);
if (!result8.AreEqual) {throw new Exception("Exception --- test case 7 failed to pass");}
var actual9 = PrimeFib(9);
var expected9 = 514229;
var result9 = compareLogic.Compare(actual9, expected9);
if (!result9.AreEqual) {throw new Exception("Exception --- test case 8 failed to pass");}
var actual10 = PrimeFib(10);
var expected10 = 433494437;
var result10 = compareLogic.Compare(actual10, expected10);
if (!result10.AreEqual) {throw new Exception("Exception --- test case 9 failed to pass");}
}
}
}
| PrimeFib | [
"\n }\n"
] |
csharp_40 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
///
/// TriplesSumToZero takes a list of integers as an input.
/// it returns True if there are three distinct elements in the list that
/// sum to zero, and False otherwise.
///
/// >>> TriplesSumToZero([1, 3, 5, 0])
/// False
/// >>> TriplesSumToZero([1, 3, -2, 1])
/// True
/// >>> TriplesSumToZero([1, 2, 3, 7])
/// False
/// >>> TriplesSumToZero([2, 4, -5, 3, 9, 7])
/// True
/// >>> TriplesSumToZero([1])
/// False
///
/// </summary>
public static bool TriplesSumToZero (List<int> l)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = TriplesSumToZero(new List<int> {1,3,5,0});
var expected1 = false;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = TriplesSumToZero(new List<int> {1,3,5,-1});
var expected2 = false;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = TriplesSumToZero(new List<int> {1,3,-2,1});
var expected3 = true;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = TriplesSumToZero(new List<int> {1,2,3,7});
var expected4 = false;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = TriplesSumToZero(new List<int> {1,2,5,7});
var expected5 = false;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = TriplesSumToZero(new List<int> {2,4,-5,3,9,7});
var expected6 = true;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = TriplesSumToZero(new List<int> {1});
var expected7 = false;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
var actual8 = TriplesSumToZero(new List<int> {1,3,5,-100});
var expected8 = false;
var result8 = compareLogic.Compare(actual8, expected8);
if (!result8.AreEqual) {throw new Exception("Exception --- test case 7 failed to pass");}
var actual9 = TriplesSumToZero(new List<int> {100,3,5,-100});
var expected9 = false;
var result9 = compareLogic.Compare(actual9, expected9);
if (!result9.AreEqual) {throw new Exception("Exception --- test case 8 failed to pass");}
}
}
}
| TriplesSumToZero | [
"\n }\n"
] |
csharp_41 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
///
/// Imagine a road that's a perfectly straight infinitely long line.
/// n cars are driving left to right; simultaneously, a different set of n cars
/// are driving right to left. The two sets of cars start out being very far from
/// each other. All cars move in the same speed. Two cars are said to collide
/// when a car that's moving left to right hits a car that's moving right to left.
/// However, the cars are infinitely sturdy and strong; as a result, they continue moving
/// in their trajectory as if they did not collide.
///
/// This function outputs the number of such collisions.
///
/// </summary>
public static int CarRaceCollision (int n)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = CarRaceCollision(2);
var expected1 = 4;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = CarRaceCollision(3);
var expected2 = 9;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = CarRaceCollision(4);
var expected3 = 16;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = CarRaceCollision(8);
var expected4 = 64;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = CarRaceCollision(10);
var expected5 = 100;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
}
}
}
| CarRaceCollision | [
"\n }\n"
] |
csharp_42 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return list with elements incremented by 1.
/// >>> IncrList([1, 2, 3])
/// [2, 3, 4]
/// >>> IncrList([5, 3, 5, 2, 3, 3, 9, 0, 123])
/// [6, 4, 6, 3, 4, 4, 10, 1, 124]
///
/// </summary>
public static List<int> IncrList (List<int> l)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = IncrList(new List<int> {});
var expected1 = new List<int> {};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = IncrList(new List<int> {3,2,1});
var expected2 = new List<int> {4,3,2};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = IncrList(new List<int> {5,2,5,2,3,3,9,0,123});
var expected3 = new List<int> {6,3,6,3,4,4,10,1,124};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| IncrList | [
"\n }\n"
] |
csharp_43 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
///
/// PairsSumToZero takes a list of integers as an input.
/// it returns True if there are two distinct elements in the list that
/// sum to zero, and False otherwise.
/// >>> PairsSumToZero([1, 3, 5, 0])
/// False
/// >>> PairsSumToZero([1, 3, -2, 1])
/// False
/// >>> PairsSumToZero([1, 2, 3, 7])
/// False
/// >>> PairsSumToZero([2, 4, -5, 3, 5, 7])
/// True
/// >>> PairsSumToZero([1])
/// False
///
/// </summary>
public static bool PairsSumToZero (List<int> l)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = PairsSumToZero(new List<int> {1,3,5,0});
var expected1 = false;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = PairsSumToZero(new List<int> {1,3,-2,1});
var expected2 = false;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = PairsSumToZero(new List<int> {1,2,3,7});
var expected3 = false;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = PairsSumToZero(new List<int> {2,4,-5,3,5,7});
var expected4 = true;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = PairsSumToZero(new List<int> {1});
var expected5 = false;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = PairsSumToZero(new List<int> {-3,9,-1,3,2,30});
var expected6 = true;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = PairsSumToZero(new List<int> {-3,9,-1,3,2,31});
var expected7 = true;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
var actual8 = PairsSumToZero(new List<int> {-3,9,-1,4,2,30});
var expected8 = false;
var result8 = compareLogic.Compare(actual8, expected8);
if (!result8.AreEqual) {throw new Exception("Exception --- test case 7 failed to pass");}
var actual9 = PairsSumToZero(new List<int> {-3,9,-1,4,2,31});
var expected9 = false;
var result9 = compareLogic.Compare(actual9, expected9);
if (!result9.AreEqual) {throw new Exception("Exception --- test case 8 failed to pass");}
}
}
}
| PairsSumToZero | [
"\n }\n"
] |
csharp_44 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Change numerical base of input number x to base.
/// return string representation after the conversion.
/// base numbers are less than 10.
/// >>> ChangeBase(8, 3)
/// '22'
/// >>> ChangeBase(8, 2)
/// '1000'
/// >>> ChangeBase(7, 2)
/// '111'
///
/// </summary>
public static string ChangeBase (int x, int base)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = ChangeBase(8,3);
var expected1 = "22";
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = ChangeBase(9,3);
var expected2 = "100";
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = ChangeBase(234,2);
var expected3 = "11101010";
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = ChangeBase(16,2);
var expected4 = "10000";
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = ChangeBase(8,2);
var expected5 = "1000";
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = ChangeBase(7,2);
var expected6 = "111";
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = ChangeBase(2,3);
var expected7 = "2";
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
var actual8 = ChangeBase(3,4);
var expected8 = "3";
var result8 = compareLogic.Compare(actual8, expected8);
if (!result8.AreEqual) {throw new Exception("Exception --- test case 7 failed to pass");}
var actual9 = ChangeBase(4,5);
var expected9 = "4";
var result9 = compareLogic.Compare(actual9, expected9);
if (!result9.AreEqual) {throw new Exception("Exception --- test case 8 failed to pass");}
var actual10 = ChangeBase(5,6);
var expected10 = "5";
var result10 = compareLogic.Compare(actual10, expected10);
if (!result10.AreEqual) {throw new Exception("Exception --- test case 9 failed to pass");}
var actual11 = ChangeBase(6,7);
var expected11 = "6";
var result11 = compareLogic.Compare(actual11, expected11);
if (!result11.AreEqual) {throw new Exception("Exception --- test case 10 failed to pass");}
var actual12 = ChangeBase(7,8);
var expected12 = "7";
var result12 = compareLogic.Compare(actual12, expected12);
if (!result12.AreEqual) {throw new Exception("Exception --- test case 11 failed to pass");}
}
}
}
| ChangeBase | [
"\n }\n"
] |
csharp_45 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Given length of a side and high return area for a triangle.
/// >>> TriangleArea(5, 3)
/// 7.5
///
/// </summary>
public static double TriangleArea (int a, int h)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = TriangleArea(5,3);
var expected1 = 7.5;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = TriangleArea(2,2);
var expected2 = 2.0;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = TriangleArea(10,8);
var expected3 = 40.0;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
}
}
}
| TriangleArea | [
"\n }\n"
] |
csharp_46 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// The Fib4 number sequence is a sequence similar to the Fibbonacci sequnece that's defined as follows:
/// Fib4(0) -> 0
/// Fib4(1) -> 0
/// Fib4(2) -> 2
/// Fib4(3) -> 0
/// Fib4(n) -> Fib4(n-1) + Fib4(n-2) + Fib4(n-3) + Fib4(n-4).
/// Please write a function to efficiently compute the n-th element of the Fib4 number sequence. Do not use recursion.
/// >>> Fib4(5)
/// 4
/// >>> Fib4(6)
/// 8
/// >>> Fib4(7)
/// 14
///
/// </summary>
public static int Fib4 (int n)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Fib4(5);
var expected1 = 4;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = Fib4(8);
var expected2 = 28;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = Fib4(10);
var expected3 = 104;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = Fib4(12);
var expected4 = 386;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
}
}
}
| Fib4 | [
"\n }\n"
] |
csharp_47 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return Median of elements in the list l.
/// >>> Median([3, 1, 2, 4, 5])
/// 3
/// >>> Median([-10, 4, 6, 1000, 10, 20])
/// 15.0
///
/// </summary>
public static object Median (List<int> l)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Median(new List<int> {3,1,2,4,5});
var expected1 = 3;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = Median(new List<int> {-10,4,6,1000,10,20});
var expected2 = 8.0;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = Median(new List<int> {5});
var expected3 = 5;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = Median(new List<int> {6,5});
var expected4 = 5.5;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = Median(new List<int> {8,1,3,9,9,2,7});
var expected5 = 7;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
}
}
}
| Median | [
"\n }\n"
] |
csharp_48 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
///
/// Checks if given string is a palindrome
/// >>> IsPalindrome('')
/// True
/// >>> IsPalindrome('aba')
/// True
/// >>> IsPalindrome('aaaaa')
/// True
/// >>> IsPalindrome('zbcd')
/// False
///
/// </summary>
public static bool IsPalindrome (string text)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = IsPalindrome("");
var expected1 = true;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = IsPalindrome("aba");
var expected2 = true;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = IsPalindrome("aaaaa");
var expected3 = true;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = IsPalindrome("zbcd");
var expected4 = false;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = IsPalindrome("xywyx");
var expected5 = true;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = IsPalindrome("xywyz");
var expected6 = false;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = IsPalindrome("xywzx");
var expected7 = false;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
}
}
}
| IsPalindrome | [
"\n }\n"
] |
csharp_49 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return 2^n modulo p (be aware of numerics).
/// >>> Modp(3, 5)
/// 3
/// >>> Modp(1101, 101)
/// 2
/// >>> Modp(0, 101)
/// 1
/// >>> Modp(3, 11)
/// 8
/// >>> Modp(100, 101)
/// 1
///
/// </summary>
public static int Modp (int n, int p)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Modp(3,5);
var expected1 = 3;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = Modp(1101,101);
var expected2 = 2;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = Modp(0,101);
var expected3 = 1;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = Modp(3,11);
var expected4 = 8;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = Modp(100,101);
var expected5 = 1;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = Modp(30,5);
var expected6 = 4;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = Modp(31,5);
var expected7 = 3;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
}
}
}
| Modp | [
"\n }\n"
] |
csharp_51 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
///
/// RemoveVowels is a function that takes string and returns string without vowels.
/// >>> RemoveVowels('')
/// ''
/// >>> RemoveVowels("abcdef\nghijklm")
/// 'bcdf\nghjklm'
/// >>> RemoveVowels('abcdef')
/// 'bcdf'
/// >>> RemoveVowels('aaaaa')
/// ''
/// >>> RemoveVowels('aaBAA')
/// 'B'
/// >>> RemoveVowels('zbcd')
/// 'zbcd'
///
/// </summary>
public static string RemoveVowels (string text)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = RemoveVowels("");
var expected1 = "";
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = RemoveVowels("abcdef\nghijklm");
var expected2 = "bcdf\nghjklm";
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = RemoveVowels("fedcba");
var expected3 = "fdcb";
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = RemoveVowels("eeeee");
var expected4 = "";
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = RemoveVowels("acBAA");
var expected5 = "cB";
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = RemoveVowels("EcBOO");
var expected6 = "cB";
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = RemoveVowels("ybcd");
var expected7 = "ybcd";
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
}
}
}
| RemoveVowels | [
"\n }\n"
] |
csharp_52 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return True if all numbers in the list l are below threshold t.
/// >>> BelowThreshold([1, 2, 4, 10], 100)
/// True
/// >>> BelowThreshold([1, 20, 4, 10], 5)
/// False
///
/// </summary>
public static bool BelowThreshold (List<int> l, int t)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = BelowThreshold(new List<int> {1,2,4,10},100);
var expected1 = true;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = BelowThreshold(new List<int> {1,20,4,10},5);
var expected2 = false;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = BelowThreshold(new List<int> {1,20,4,10},21);
var expected3 = true;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = BelowThreshold(new List<int> {1,20,4,10},22);
var expected4 = true;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = BelowThreshold(new List<int> {1,8,4,10},11);
var expected5 = true;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = BelowThreshold(new List<int> {1,8,4,10},10);
var expected6 = false;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
}
}
}
| BelowThreshold | [
"\n }\n"
] |
csharp_53 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Add two numbers x and y
/// >>> Add(2, 3)
/// 5
/// >>> Add(5, 7)
/// 12
///
/// </summary>
public static int Add (int x, int y)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Add(0,1);
var expected1 = 1;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = Add(1,0);
var expected2 = 1;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = Add(2,3);
var expected3 = 5;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = Add(5,7);
var expected4 = 12;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = Add(7,5);
var expected5 = 12;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = Add(572,725);
var expected6 = 1297;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = Add(51,804);
var expected7 = 855;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
var actual8 = Add(645,96);
var expected8 = 741;
var result8 = compareLogic.Compare(actual8, expected8);
if (!result8.AreEqual) {throw new Exception("Exception --- test case 7 failed to pass");}
var actual9 = Add(712,853);
var expected9 = 1565;
var result9 = compareLogic.Compare(actual9, expected9);
if (!result9.AreEqual) {throw new Exception("Exception --- test case 8 failed to pass");}
var actual10 = Add(223,101);
var expected10 = 324;
var result10 = compareLogic.Compare(actual10, expected10);
if (!result10.AreEqual) {throw new Exception("Exception --- test case 9 failed to pass");}
var actual11 = Add(76,29);
var expected11 = 105;
var result11 = compareLogic.Compare(actual11, expected11);
if (!result11.AreEqual) {throw new Exception("Exception --- test case 10 failed to pass");}
var actual12 = Add(416,149);
var expected12 = 565;
var result12 = compareLogic.Compare(actual12, expected12);
if (!result12.AreEqual) {throw new Exception("Exception --- test case 11 failed to pass");}
var actual13 = Add(145,409);
var expected13 = 554;
var result13 = compareLogic.Compare(actual13, expected13);
if (!result13.AreEqual) {throw new Exception("Exception --- test case 12 failed to pass");}
var actual14 = Add(535,430);
var expected14 = 965;
var result14 = compareLogic.Compare(actual14, expected14);
if (!result14.AreEqual) {throw new Exception("Exception --- test case 13 failed to pass");}
var actual15 = Add(118,303);
var expected15 = 421;
var result15 = compareLogic.Compare(actual15, expected15);
if (!result15.AreEqual) {throw new Exception("Exception --- test case 14 failed to pass");}
var actual16 = Add(287,94);
var expected16 = 381;
var result16 = compareLogic.Compare(actual16, expected16);
if (!result16.AreEqual) {throw new Exception("Exception --- test case 15 failed to pass");}
var actual17 = Add(768,257);
var expected17 = 1025;
var result17 = compareLogic.Compare(actual17, expected17);
if (!result17.AreEqual) {throw new Exception("Exception --- test case 16 failed to pass");}
var actual18 = Add(421,677);
var expected18 = 1098;
var result18 = compareLogic.Compare(actual18, expected18);
if (!result18.AreEqual) {throw new Exception("Exception --- test case 17 failed to pass");}
var actual19 = Add(802,814);
var expected19 = 1616;
var result19 = compareLogic.Compare(actual19, expected19);
if (!result19.AreEqual) {throw new Exception("Exception --- test case 18 failed to pass");}
var actual20 = Add(510,922);
var expected20 = 1432;
var result20 = compareLogic.Compare(actual20, expected20);
if (!result20.AreEqual) {throw new Exception("Exception --- test case 19 failed to pass");}
var actual21 = Add(345,819);
var expected21 = 1164;
var result21 = compareLogic.Compare(actual21, expected21);
if (!result21.AreEqual) {throw new Exception("Exception --- test case 20 failed to pass");}
var actual22 = Add(895,436);
var expected22 = 1331;
var result22 = compareLogic.Compare(actual22, expected22);
if (!result22.AreEqual) {throw new Exception("Exception --- test case 21 failed to pass");}
var actual23 = Add(123,424);
var expected23 = 547;
var result23 = compareLogic.Compare(actual23, expected23);
if (!result23.AreEqual) {throw new Exception("Exception --- test case 22 failed to pass");}
var actual24 = Add(923,245);
var expected24 = 1168;
var result24 = compareLogic.Compare(actual24, expected24);
if (!result24.AreEqual) {throw new Exception("Exception --- test case 23 failed to pass");}
var actual25 = Add(23,438);
var expected25 = 461;
var result25 = compareLogic.Compare(actual25, expected25);
if (!result25.AreEqual) {throw new Exception("Exception --- test case 24 failed to pass");}
var actual26 = Add(565,133);
var expected26 = 698;
var result26 = compareLogic.Compare(actual26, expected26);
if (!result26.AreEqual) {throw new Exception("Exception --- test case 25 failed to pass");}
var actual27 = Add(945,925);
var expected27 = 1870;
var result27 = compareLogic.Compare(actual27, expected27);
if (!result27.AreEqual) {throw new Exception("Exception --- test case 26 failed to pass");}
var actual28 = Add(261,983);
var expected28 = 1244;
var result28 = compareLogic.Compare(actual28, expected28);
if (!result28.AreEqual) {throw new Exception("Exception --- test case 27 failed to pass");}
var actual29 = Add(139,577);
var expected29 = 716;
var result29 = compareLogic.Compare(actual29, expected29);
if (!result29.AreEqual) {throw new Exception("Exception --- test case 28 failed to pass");}
var actual30 = Add(763,178);
var expected30 = 941;
var result30 = compareLogic.Compare(actual30, expected30);
if (!result30.AreEqual) {throw new Exception("Exception --- test case 29 failed to pass");}
var actual31 = Add(147,892);
var expected31 = 1039;
var result31 = compareLogic.Compare(actual31, expected31);
if (!result31.AreEqual) {throw new Exception("Exception --- test case 30 failed to pass");}
var actual32 = Add(436,402);
var expected32 = 838;
var result32 = compareLogic.Compare(actual32, expected32);
if (!result32.AreEqual) {throw new Exception("Exception --- test case 31 failed to pass");}
var actual33 = Add(610,581);
var expected33 = 1191;
var result33 = compareLogic.Compare(actual33, expected33);
if (!result33.AreEqual) {throw new Exception("Exception --- test case 32 failed to pass");}
var actual34 = Add(103,416);
var expected34 = 519;
var result34 = compareLogic.Compare(actual34, expected34);
if (!result34.AreEqual) {throw new Exception("Exception --- test case 33 failed to pass");}
var actual35 = Add(339,990);
var expected35 = 1329;
var result35 = compareLogic.Compare(actual35, expected35);
if (!result35.AreEqual) {throw new Exception("Exception --- test case 34 failed to pass");}
var actual36 = Add(130,504);
var expected36 = 634;
var result36 = compareLogic.Compare(actual36, expected36);
if (!result36.AreEqual) {throw new Exception("Exception --- test case 35 failed to pass");}
var actual37 = Add(242,717);
var expected37 = 959;
var result37 = compareLogic.Compare(actual37, expected37);
if (!result37.AreEqual) {throw new Exception("Exception --- test case 36 failed to pass");}
var actual38 = Add(562,110);
var expected38 = 672;
var result38 = compareLogic.Compare(actual38, expected38);
if (!result38.AreEqual) {throw new Exception("Exception --- test case 37 failed to pass");}
var actual39 = Add(396,909);
var expected39 = 1305;
var result39 = compareLogic.Compare(actual39, expected39);
if (!result39.AreEqual) {throw new Exception("Exception --- test case 38 failed to pass");}
var actual40 = Add(887,703);
var expected40 = 1590;
var result40 = compareLogic.Compare(actual40, expected40);
if (!result40.AreEqual) {throw new Exception("Exception --- test case 39 failed to pass");}
var actual41 = Add(870,551);
var expected41 = 1421;
var result41 = compareLogic.Compare(actual41, expected41);
if (!result41.AreEqual) {throw new Exception("Exception --- test case 40 failed to pass");}
var actual42 = Add(422,391);
var expected42 = 813;
var result42 = compareLogic.Compare(actual42, expected42);
if (!result42.AreEqual) {throw new Exception("Exception --- test case 41 failed to pass");}
var actual43 = Add(299,505);
var expected43 = 804;
var result43 = compareLogic.Compare(actual43, expected43);
if (!result43.AreEqual) {throw new Exception("Exception --- test case 42 failed to pass");}
var actual44 = Add(346,56);
var expected44 = 402;
var result44 = compareLogic.Compare(actual44, expected44);
if (!result44.AreEqual) {throw new Exception("Exception --- test case 43 failed to pass");}
var actual45 = Add(36,706);
var expected45 = 742;
var result45 = compareLogic.Compare(actual45, expected45);
if (!result45.AreEqual) {throw new Exception("Exception --- test case 44 failed to pass");}
var actual46 = Add(738,411);
var expected46 = 1149;
var result46 = compareLogic.Compare(actual46, expected46);
if (!result46.AreEqual) {throw new Exception("Exception --- test case 45 failed to pass");}
var actual47 = Add(679,87);
var expected47 = 766;
var result47 = compareLogic.Compare(actual47, expected47);
if (!result47.AreEqual) {throw new Exception("Exception --- test case 46 failed to pass");}
var actual48 = Add(25,303);
var expected48 = 328;
var result48 = compareLogic.Compare(actual48, expected48);
if (!result48.AreEqual) {throw new Exception("Exception --- test case 47 failed to pass");}
var actual49 = Add(161,612);
var expected49 = 773;
var result49 = compareLogic.Compare(actual49, expected49);
if (!result49.AreEqual) {throw new Exception("Exception --- test case 48 failed to pass");}
var actual50 = Add(306,841);
var expected50 = 1147;
var result50 = compareLogic.Compare(actual50, expected50);
if (!result50.AreEqual) {throw new Exception("Exception --- test case 49 failed to pass");}
var actual51 = Add(973,411);
var expected51 = 1384;
var result51 = compareLogic.Compare(actual51, expected51);
if (!result51.AreEqual) {throw new Exception("Exception --- test case 50 failed to pass");}
var actual52 = Add(711,157);
var expected52 = 868;
var result52 = compareLogic.Compare(actual52, expected52);
if (!result52.AreEqual) {throw new Exception("Exception --- test case 51 failed to pass");}
var actual53 = Add(471,27);
var expected53 = 498;
var result53 = compareLogic.Compare(actual53, expected53);
if (!result53.AreEqual) {throw new Exception("Exception --- test case 52 failed to pass");}
var actual54 = Add(714,792);
var expected54 = 1506;
var result54 = compareLogic.Compare(actual54, expected54);
if (!result54.AreEqual) {throw new Exception("Exception --- test case 53 failed to pass");}
var actual55 = Add(38,206);
var expected55 = 244;
var result55 = compareLogic.Compare(actual55, expected55);
if (!result55.AreEqual) {throw new Exception("Exception --- test case 54 failed to pass");}
var actual56 = Add(907,343);
var expected56 = 1250;
var result56 = compareLogic.Compare(actual56, expected56);
if (!result56.AreEqual) {throw new Exception("Exception --- test case 55 failed to pass");}
var actual57 = Add(23,760);
var expected57 = 783;
var result57 = compareLogic.Compare(actual57, expected57);
if (!result57.AreEqual) {throw new Exception("Exception --- test case 56 failed to pass");}
var actual58 = Add(524,859);
var expected58 = 1383;
var result58 = compareLogic.Compare(actual58, expected58);
if (!result58.AreEqual) {throw new Exception("Exception --- test case 57 failed to pass");}
var actual59 = Add(30,529);
var expected59 = 559;
var result59 = compareLogic.Compare(actual59, expected59);
if (!result59.AreEqual) {throw new Exception("Exception --- test case 58 failed to pass");}
var actual60 = Add(341,691);
var expected60 = 1032;
var result60 = compareLogic.Compare(actual60, expected60);
if (!result60.AreEqual) {throw new Exception("Exception --- test case 59 failed to pass");}
var actual61 = Add(167,729);
var expected61 = 896;
var result61 = compareLogic.Compare(actual61, expected61);
if (!result61.AreEqual) {throw new Exception("Exception --- test case 60 failed to pass");}
var actual62 = Add(636,289);
var expected62 = 925;
var result62 = compareLogic.Compare(actual62, expected62);
if (!result62.AreEqual) {throw new Exception("Exception --- test case 61 failed to pass");}
var actual63 = Add(503,144);
var expected63 = 647;
var result63 = compareLogic.Compare(actual63, expected63);
if (!result63.AreEqual) {throw new Exception("Exception --- test case 62 failed to pass");}
var actual64 = Add(51,985);
var expected64 = 1036;
var result64 = compareLogic.Compare(actual64, expected64);
if (!result64.AreEqual) {throw new Exception("Exception --- test case 63 failed to pass");}
var actual65 = Add(287,149);
var expected65 = 436;
var result65 = compareLogic.Compare(actual65, expected65);
if (!result65.AreEqual) {throw new Exception("Exception --- test case 64 failed to pass");}
var actual66 = Add(659,75);
var expected66 = 734;
var result66 = compareLogic.Compare(actual66, expected66);
if (!result66.AreEqual) {throw new Exception("Exception --- test case 65 failed to pass");}
var actual67 = Add(462,797);
var expected67 = 1259;
var result67 = compareLogic.Compare(actual67, expected67);
if (!result67.AreEqual) {throw new Exception("Exception --- test case 66 failed to pass");}
var actual68 = Add(406,141);
var expected68 = 547;
var result68 = compareLogic.Compare(actual68, expected68);
if (!result68.AreEqual) {throw new Exception("Exception --- test case 67 failed to pass");}
var actual69 = Add(106,44);
var expected69 = 150;
var result69 = compareLogic.Compare(actual69, expected69);
if (!result69.AreEqual) {throw new Exception("Exception --- test case 68 failed to pass");}
var actual70 = Add(300,934);
var expected70 = 1234;
var result70 = compareLogic.Compare(actual70, expected70);
if (!result70.AreEqual) {throw new Exception("Exception --- test case 69 failed to pass");}
var actual71 = Add(471,524);
var expected71 = 995;
var result71 = compareLogic.Compare(actual71, expected71);
if (!result71.AreEqual) {throw new Exception("Exception --- test case 70 failed to pass");}
var actual72 = Add(122,429);
var expected72 = 551;
var result72 = compareLogic.Compare(actual72, expected72);
if (!result72.AreEqual) {throw new Exception("Exception --- test case 71 failed to pass");}
var actual73 = Add(735,195);
var expected73 = 930;
var result73 = compareLogic.Compare(actual73, expected73);
if (!result73.AreEqual) {throw new Exception("Exception --- test case 72 failed to pass");}
var actual74 = Add(335,484);
var expected74 = 819;
var result74 = compareLogic.Compare(actual74, expected74);
if (!result74.AreEqual) {throw new Exception("Exception --- test case 73 failed to pass");}
var actual75 = Add(28,809);
var expected75 = 837;
var result75 = compareLogic.Compare(actual75, expected75);
if (!result75.AreEqual) {throw new Exception("Exception --- test case 74 failed to pass");}
var actual76 = Add(430,20);
var expected76 = 450;
var result76 = compareLogic.Compare(actual76, expected76);
if (!result76.AreEqual) {throw new Exception("Exception --- test case 75 failed to pass");}
var actual77 = Add(916,635);
var expected77 = 1551;
var result77 = compareLogic.Compare(actual77, expected77);
if (!result77.AreEqual) {throw new Exception("Exception --- test case 76 failed to pass");}
var actual78 = Add(301,999);
var expected78 = 1300;
var result78 = compareLogic.Compare(actual78, expected78);
if (!result78.AreEqual) {throw new Exception("Exception --- test case 77 failed to pass");}
var actual79 = Add(454,466);
var expected79 = 920;
var result79 = compareLogic.Compare(actual79, expected79);
if (!result79.AreEqual) {throw new Exception("Exception --- test case 78 failed to pass");}
var actual80 = Add(905,259);
var expected80 = 1164;
var result80 = compareLogic.Compare(actual80, expected80);
if (!result80.AreEqual) {throw new Exception("Exception --- test case 79 failed to pass");}
var actual81 = Add(168,205);
var expected81 = 373;
var result81 = compareLogic.Compare(actual81, expected81);
if (!result81.AreEqual) {throw new Exception("Exception --- test case 80 failed to pass");}
var actual82 = Add(570,434);
var expected82 = 1004;
var result82 = compareLogic.Compare(actual82, expected82);
if (!result82.AreEqual) {throw new Exception("Exception --- test case 81 failed to pass");}
var actual83 = Add(64,959);
var expected83 = 1023;
var result83 = compareLogic.Compare(actual83, expected83);
if (!result83.AreEqual) {throw new Exception("Exception --- test case 82 failed to pass");}
var actual84 = Add(957,510);
var expected84 = 1467;
var result84 = compareLogic.Compare(actual84, expected84);
if (!result84.AreEqual) {throw new Exception("Exception --- test case 83 failed to pass");}
var actual85 = Add(722,598);
var expected85 = 1320;
var result85 = compareLogic.Compare(actual85, expected85);
if (!result85.AreEqual) {throw new Exception("Exception --- test case 84 failed to pass");}
var actual86 = Add(770,226);
var expected86 = 996;
var result86 = compareLogic.Compare(actual86, expected86);
if (!result86.AreEqual) {throw new Exception("Exception --- test case 85 failed to pass");}
var actual87 = Add(579,66);
var expected87 = 645;
var result87 = compareLogic.Compare(actual87, expected87);
if (!result87.AreEqual) {throw new Exception("Exception --- test case 86 failed to pass");}
var actual88 = Add(117,674);
var expected88 = 791;
var result88 = compareLogic.Compare(actual88, expected88);
if (!result88.AreEqual) {throw new Exception("Exception --- test case 87 failed to pass");}
var actual89 = Add(530,30);
var expected89 = 560;
var result89 = compareLogic.Compare(actual89, expected89);
if (!result89.AreEqual) {throw new Exception("Exception --- test case 88 failed to pass");}
var actual90 = Add(776,345);
var expected90 = 1121;
var result90 = compareLogic.Compare(actual90, expected90);
if (!result90.AreEqual) {throw new Exception("Exception --- test case 89 failed to pass");}
var actual91 = Add(327,389);
var expected91 = 716;
var result91 = compareLogic.Compare(actual91, expected91);
if (!result91.AreEqual) {throw new Exception("Exception --- test case 90 failed to pass");}
var actual92 = Add(596,12);
var expected92 = 608;
var result92 = compareLogic.Compare(actual92, expected92);
if (!result92.AreEqual) {throw new Exception("Exception --- test case 91 failed to pass");}
var actual93 = Add(599,511);
var expected93 = 1110;
var result93 = compareLogic.Compare(actual93, expected93);
if (!result93.AreEqual) {throw new Exception("Exception --- test case 92 failed to pass");}
var actual94 = Add(936,476);
var expected94 = 1412;
var result94 = compareLogic.Compare(actual94, expected94);
if (!result94.AreEqual) {throw new Exception("Exception --- test case 93 failed to pass");}
var actual95 = Add(461,14);
var expected95 = 475;
var result95 = compareLogic.Compare(actual95, expected95);
if (!result95.AreEqual) {throw new Exception("Exception --- test case 94 failed to pass");}
var actual96 = Add(966,157);
var expected96 = 1123;
var result96 = compareLogic.Compare(actual96, expected96);
if (!result96.AreEqual) {throw new Exception("Exception --- test case 95 failed to pass");}
var actual97 = Add(326,91);
var expected97 = 417;
var result97 = compareLogic.Compare(actual97, expected97);
if (!result97.AreEqual) {throw new Exception("Exception --- test case 96 failed to pass");}
var actual98 = Add(392,455);
var expected98 = 847;
var result98 = compareLogic.Compare(actual98, expected98);
if (!result98.AreEqual) {throw new Exception("Exception --- test case 97 failed to pass");}
var actual99 = Add(446,477);
var expected99 = 923;
var result99 = compareLogic.Compare(actual99, expected99);
if (!result99.AreEqual) {throw new Exception("Exception --- test case 98 failed to pass");}
var actual100 = Add(324,860);
var expected100 = 1184;
var result100 = compareLogic.Compare(actual100, expected100);
if (!result100.AreEqual) {throw new Exception("Exception --- test case 99 failed to pass");}
var actual101 = Add(945,85);
var expected101 = 1030;
var result101 = compareLogic.Compare(actual101, expected101);
if (!result101.AreEqual) {throw new Exception("Exception --- test case 100 failed to pass");}
var actual102 = Add(886,582);
var expected102 = 1468;
var result102 = compareLogic.Compare(actual102, expected102);
if (!result102.AreEqual) {throw new Exception("Exception --- test case 101 failed to pass");}
var actual103 = Add(886,712);
var expected103 = 1598;
var result103 = compareLogic.Compare(actual103, expected103);
if (!result103.AreEqual) {throw new Exception("Exception --- test case 102 failed to pass");}
var actual104 = Add(842,953);
var expected104 = 1795;
var result104 = compareLogic.Compare(actual104, expected104);
if (!result104.AreEqual) {throw new Exception("Exception --- test case 103 failed to pass");}
}
}
}
| Add | [
"\n }\n"
] |
csharp_54 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
///
/// Check if two words have the same characters.
/// >>> SameChars('eabcdzzzz', 'dddzzzzzzzddeddabc')
/// True
/// >>> SameChars('abcd', 'dddddddabc')
/// True
/// >>> SameChars('dddddddabc', 'abcd')
/// True
/// >>> SameChars('eabcd', 'dddddddabc')
/// False
/// >>> SameChars('abcd', 'dddddddabce')
/// False
/// >>> SameChars('eabcdzzzz', 'dddzzzzzzzddddabc')
/// False
///
/// </summary>
public static bool SameChars (string s0, string s1)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = SameChars("eabcdzzzz","dddzzzzzzzddeddabc");
var expected1 = true;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = SameChars("abcd","dddddddabc");
var expected2 = true;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = SameChars("dddddddabc","abcd");
var expected3 = true;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = SameChars("eabcd","dddddddabc");
var expected4 = false;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = SameChars("abcd","dddddddabcf");
var expected5 = false;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = SameChars("eabcdzzzz","dddzzzzzzzddddabc");
var expected6 = false;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = SameChars("aabb","aaccc");
var expected7 = false;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
}
}
}
| SameChars | [
"\n }\n"
] |
csharp_55 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return n-th Fibonacci number.
/// >>> Fib(10)
/// 55
/// >>> Fib(1)
/// 1
/// >>> Fib(8)
/// 21
///
/// </summary>
public static int Fib (int n)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Fib(10);
var expected1 = 55;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = Fib(1);
var expected2 = 1;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = Fib(8);
var expected3 = 21;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = Fib(11);
var expected4 = 89;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = Fib(12);
var expected5 = 144;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
}
}
}
| Fib | [
"\n }\n"
] |
csharp_56 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// brackets is a string of "<" and ">".
/// return True if every opening bracket has a corresponding closing bracket.
///
/// >>> CorrectBracketing("<")
/// False
/// >>> CorrectBracketing("<>")
/// True
/// >>> CorrectBracketing("<<><>>")
/// True
/// >>> CorrectBracketing("><<>")
/// False
///
/// </summary>
public static bool CorrectBracketing (string brackets)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = CorrectBracketing("<>");
var expected1 = true;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = CorrectBracketing("<<><>>");
var expected2 = true;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = CorrectBracketing("<><><<><>><>");
var expected3 = true;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = CorrectBracketing("<><><<<><><>><>><<><><<>>>");
var expected4 = true;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = CorrectBracketing("<<<><>>>>");
var expected5 = false;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = CorrectBracketing("><<>");
var expected6 = false;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = CorrectBracketing("<");
var expected7 = false;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
var actual8 = CorrectBracketing("<<<<");
var expected8 = false;
var result8 = compareLogic.Compare(actual8, expected8);
if (!result8.AreEqual) {throw new Exception("Exception --- test case 7 failed to pass");}
var actual9 = CorrectBracketing(">");
var expected9 = false;
var result9 = compareLogic.Compare(actual9, expected9);
if (!result9.AreEqual) {throw new Exception("Exception --- test case 8 failed to pass");}
var actual10 = CorrectBracketing("<<>");
var expected10 = false;
var result10 = compareLogic.Compare(actual10, expected10);
if (!result10.AreEqual) {throw new Exception("Exception --- test case 9 failed to pass");}
var actual11 = CorrectBracketing("<><><<><>><>><<>");
var expected11 = false;
var result11 = compareLogic.Compare(actual11, expected11);
if (!result11.AreEqual) {throw new Exception("Exception --- test case 10 failed to pass");}
var actual12 = CorrectBracketing("<><><<><>><>>><>");
var expected12 = false;
var result12 = compareLogic.Compare(actual12, expected12);
if (!result12.AreEqual) {throw new Exception("Exception --- test case 11 failed to pass");}
}
}
}
| CorrectBracketing | [
"\n }\n"
] |
csharp_57 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return True is list elements are Monotonically increasing or decreasing.
/// >>> Monotonic([1, 2, 4, 20])
/// True
/// >>> Monotonic([1, 20, 4, 10])
/// False
/// >>> Monotonic([4, 1, 0, -10])
/// True
///
/// </summary>
public static bool Monotonic (List<int> l)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Monotonic(new List<int> {1,2,4,10});
var expected1 = true;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = Monotonic(new List<int> {1,2,4,20});
var expected2 = true;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = Monotonic(new List<int> {1,20,4,10});
var expected3 = false;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = Monotonic(new List<int> {4,1,0,-10});
var expected4 = true;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = Monotonic(new List<int> {4,1,1,0});
var expected5 = true;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = Monotonic(new List<int> {1,2,3,2,5,60});
var expected6 = false;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = Monotonic(new List<int> {1,2,3,4,5,60});
var expected7 = true;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
var actual8 = Monotonic(new List<int> {9,9,9,9});
var expected8 = true;
var result8 = compareLogic.Compare(actual8, expected8);
if (!result8.AreEqual) {throw new Exception("Exception --- test case 7 failed to pass");}
}
}
}
| Monotonic | [
"\n }\n"
] |
csharp_58 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return sorted unique Common elements for two lists.
/// >>> Common([1, 4, 3, 34, 653, 2, 5], [5, 7, 1, 5, 9, 653, 121])
/// [1, 5, 653]
/// >>> Common([5, 3, 2, 8], [3, 2])
/// [2, 3]
///
///
/// </summary>
public static List<int> Common (List<int> l1, List<int> l2)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Common(new List<int> {1,4,3,34,653,2,5},new List<int> {5,7,1,5,9,653,121});
var expected1 = new List<int> {1,5,653};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = Common(new List<int> {5,3,2,8},new List<int> {3,2});
var expected2 = new List<int> {2,3};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = Common(new List<int> {4,3,2,8},new List<int> {3,2,4});
var expected3 = new List<int> {2,3,4};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = Common(new List<int> {4,3,2,8},new List<int> {});
var expected4 = new List<int> {};
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
}
}
}
| Common | [
"\n }\n"
] |
csharp_59 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Return the largest prime factor of n. Assume n > 1 and is not a prime.
/// >>> LargestPrimeFactor(13195)
/// 29
/// >>> LargestPrimeFactor(2048)
/// 2
///
/// </summary>
public static int LargestPrimeFactor (int n)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = LargestPrimeFactor(15);
var expected1 = 5;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = LargestPrimeFactor(27);
var expected2 = 3;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = LargestPrimeFactor(63);
var expected3 = 7;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = LargestPrimeFactor(330);
var expected4 = 11;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = LargestPrimeFactor(13195);
var expected5 = 29;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
}
}
}
| LargestPrimeFactor | [
"\n }\n"
] |
csharp_60 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// SumToN is a function that sums numbers from 1 to n.
/// >>> SumToN(30)
/// 465
/// >>> SumToN(100)
/// 5050
/// >>> SumToN(5)
/// 15
/// >>> SumToN(10)
/// 55
/// >>> SumToN(1)
/// 1
///
/// </summary>
public static int SumToN (int n)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = SumToN(1);
var expected1 = 1;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = SumToN(6);
var expected2 = 21;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = SumToN(11);
var expected3 = 66;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = SumToN(30);
var expected4 = 465;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = SumToN(100);
var expected5 = 5050;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
}
}
}
| SumToN | [
"\n }\n"
] |
csharp_61 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// brackets is a string of "(" and ")".
/// return True if every opening bracket has a corresponding closing bracket.
///
/// >>> CorrectBracketing("(")
/// False
/// >>> CorrectBracketing("()")
/// True
/// >>> CorrectBracketing("(()())")
/// True
/// >>> CorrectBracketing(")(()")
/// False
///
/// </summary>
public static bool CorrectBracketing (string brackets)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = CorrectBracketing("()");
var expected1 = true;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = CorrectBracketing("(()())");
var expected2 = true;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = CorrectBracketing("()()(()())()");
var expected3 = true;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = CorrectBracketing("()()((()()())())(()()(()))");
var expected4 = true;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = CorrectBracketing("((()())))");
var expected5 = false;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = CorrectBracketing(")(()");
var expected6 = false;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = CorrectBracketing("(");
var expected7 = false;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
var actual8 = CorrectBracketing("((((");
var expected8 = false;
var result8 = compareLogic.Compare(actual8, expected8);
if (!result8.AreEqual) {throw new Exception("Exception --- test case 7 failed to pass");}
var actual9 = CorrectBracketing(")");
var expected9 = false;
var result9 = compareLogic.Compare(actual9, expected9);
if (!result9.AreEqual) {throw new Exception("Exception --- test case 8 failed to pass");}
var actual10 = CorrectBracketing("(()");
var expected10 = false;
var result10 = compareLogic.Compare(actual10, expected10);
if (!result10.AreEqual) {throw new Exception("Exception --- test case 9 failed to pass");}
var actual11 = CorrectBracketing("()()(()())())(()");
var expected11 = false;
var result11 = compareLogic.Compare(actual11, expected11);
if (!result11.AreEqual) {throw new Exception("Exception --- test case 10 failed to pass");}
var actual12 = CorrectBracketing("()()(()())()))()");
var expected12 = false;
var result12 = compareLogic.Compare(actual12, expected12);
if (!result12.AreEqual) {throw new Exception("Exception --- test case 11 failed to pass");}
}
}
}
| CorrectBracketing | [
"\n }\n"
] |
csharp_62 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// xs represent coefficients of a polynomial.
/// xs[0] + xs[1] * x + xs[2] * x^2 + ....
/// Return Derivative of this polynomial in the same form.
/// >>> Derivative([3, 1, 2, 4, 5])
/// [1, 4, 12, 20]
/// >>> Derivative([1, 2, 3])
/// [2, 6]
///
/// </summary>
public static List<int> Derivative (List<int> xs)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Derivative(new List<int> {3,1,2,4,5});
var expected1 = new List<int> {1,4,12,20};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = Derivative(new List<int> {1,2,3});
var expected2 = new List<int> {2,6};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = Derivative(new List<int> {3,2,1});
var expected3 = new List<int> {2,2};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = Derivative(new List<int> {3,2,1,0,4});
var expected4 = new List<int> {2,2,0,16};
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = Derivative(new List<int> {1});
var expected5 = new List<int> {};
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
}
}
}
| Derivative | [
"\n }\n"
] |
csharp_63 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// The FibFib number sequence is a sequence similar to the Fibbonacci sequnece that's defined as follows:
/// Fibfib(0) == 0
/// Fibfib(1) == 0
/// Fibfib(2) == 1
/// Fibfib(n) == Fibfib(n-1) + Fibfib(n-2) + Fibfib(n-3).
/// Please write a function to efficiently compute the n-th element of the Fibfib number sequence.
/// >>> Fibfib(1)
/// 0
/// >>> Fibfib(5)
/// 4
/// >>> Fibfib(8)
/// 24
///
/// </summary>
public static int Fibfib (int n)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Fibfib(2);
var expected1 = 1;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = Fibfib(1);
var expected2 = 0;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = Fibfib(5);
var expected3 = 4;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = Fibfib(8);
var expected4 = 24;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = Fibfib(10);
var expected5 = 81;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = Fibfib(12);
var expected6 = 274;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = Fibfib(14);
var expected7 = 927;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
}
}
}
| Fibfib | [
"\n }\n"
] |
csharp_64 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Write a function VowelsCount which takes a string representing
/// a word as input and returns the number of vowels in the string.
/// Vowels in this case are 'a', 'e', 'i', 'o', 'u'. Here, 'y' is also a
/// vowel, but only when it is at the end of the given word.
///
/// Example:
/// >>> VowelsCount("abcde")
/// 2
/// >>> VowelsCount("ACEDY")
/// 3
///
/// </summary>
public static int VowelsCount (string s)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = VowelsCount("abcde");
var expected1 = 2;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = VowelsCount("Alone");
var expected2 = 3;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = VowelsCount("key");
var expected3 = 2;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = VowelsCount("bye");
var expected4 = 1;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = VowelsCount("keY");
var expected5 = 2;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = VowelsCount("bYe");
var expected6 = 1;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = VowelsCount("ACEDY");
var expected7 = 3;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
}
}
}
| VowelsCount | [
"\n }\n"
] |
csharp_65 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Circular shift the digits of the integer x, shift the digits right by shift
/// and return the result as a string.
/// If shift > number of digits, return digits reversed.
/// >>> CircularShift(12, 1)
/// "21"
/// >>> CircularShift(12, 2)
/// "12"
///
/// </summary>
public static string CircularShift (int x, int shift)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = CircularShift(100,2);
var expected1 = "001";
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = CircularShift(12,2);
var expected2 = "12";
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = CircularShift(97,8);
var expected3 = "79";
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = CircularShift(12,1);
var expected4 = "21";
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = CircularShift(11,101);
var expected5 = "11";
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
}
}
}
| CircularShift | [
"\n }\n"
] |
csharp_66 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
/// Task
/// Write a function that takes a string as input and returns the sum of the upper characters only'
/// ASCII codes.
///
/// Examples:
/// DigitSum("") => 0
/// DigitSum("abAB") => 131
/// DigitSum("abcCd") => 67
/// DigitSum("helloE") => 69
/// DigitSum("woArBld") => 131
/// DigitSum("aAaaaXa") => 153
///
/// </summary>
public static int DigitSum (string s)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = DigitSum("");
var expected1 = 0;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = DigitSum("abAB");
var expected2 = 131;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = DigitSum("abcCd");
var expected3 = 67;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = DigitSum("helloE");
var expected4 = 69;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = DigitSum("woArBld");
var expected5 = 131;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = DigitSum("aAaaaXa");
var expected6 = 153;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = DigitSum(" How are yOu?");
var expected7 = 151;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
var actual8 = DigitSum("You arE Very Smart");
var expected8 = 327;
var result8 = compareLogic.Compare(actual8, expected8);
if (!result8.AreEqual) {throw new Exception("Exception --- test case 7 failed to pass");}
}
}
}
| DigitSum | [
"\n }\n"
] |
csharp_67 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
///
/// In this task, you will be given a string that represents a number of apples and oranges
/// that are distributed in a basket of fruit this basket contains
/// apples, oranges, and mango fruits. Given the string that represents the total number of
/// the oranges and apples and an integer that represent the total number of the fruits
/// in the basket return the number of the mango fruits in the basket.
/// for examble:
/// FruitDistribution("5 apples and 6 oranges", 19) ->19 - 5 - 6 = 8
/// FruitDistribution("0 apples and 1 oranges",3) -> 3 - 0 - 1 = 2
/// FruitDistribution("2 apples and 3 oranges", 100) -> 100 - 2 - 3 = 95
/// FruitDistribution("100 apples and 1 oranges",120) -> 120 - 100 - 1 = 19
///
/// </summary>
public static int FruitDistribution (string s, int n)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = FruitDistribution("5 apples and 6 oranges",19);
var expected1 = 8;
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = FruitDistribution("5 apples and 6 oranges",21);
var expected2 = 10;
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = FruitDistribution("0 apples and 1 oranges",3);
var expected3 = 2;
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = FruitDistribution("1 apples and 0 oranges",3);
var expected4 = 2;
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = FruitDistribution("2 apples and 3 oranges",100);
var expected5 = 95;
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = FruitDistribution("2 apples and 3 oranges",5);
var expected6 = 0;
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = FruitDistribution("1 apples and 100 oranges",120);
var expected7 = 19;
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
}
}
}
| FruitDistribution | [
"\n }\n"
] |
csharp_68 | csharp | using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;
using KellermanSoftware.CompareNetObjects;
namespace Solution
{
public class Program
{
/// <summary>
/// You're an expert C# programmer
///
/// "Given an array representing a branch of a tree that has non-negative integer nodes
/// your task is to Pluck one of the nodes and return it.
/// The Plucked node should be the node with the smallest even value.
/// If multiple nodes with the same smallest even value are found return the node that has smallest index.
///
/// The Plucked node should be returned in a list, [ smalest_value, its index ],
/// If there are no even values or the given array is empty, return [].
///
/// Example 1:
/// Input: [4,2,3]
/// Output: [2, 1]
/// Explanation: 2 has the smallest even value, and 2 has the smallest index.
///
/// Example 2:
/// Input: [1,2,3]
/// Output: [2, 1]
/// Explanation: 2 has the smallest even value, and 2 has the smallest index.
///
/// Example 3:
/// Input: []
/// Output: []
///
/// Example 4:
/// Input: [5, 0, 3, 0, 4, 2]
/// Output: [0, 1]
/// Explanation: 0 is the smallest value, but there are two zeros,
/// so we will choose the first zero, which has the smallest index.
///
/// Constraints:
/// * 1 <= nodes.length <= 10000
/// * 0 <= node.value
///
/// </summary>
public static List<int> Pluck (List<int> arr)
{ |
public static void Main(string[] args)
{
CompareLogic compareLogic = new CompareLogic();
var actual1 = Pluck(new List<int> {4,2,3});
var expected1 = new List<int> {2,1};
var result1 = compareLogic.Compare(actual1, expected1);
if (!result1.AreEqual) {throw new Exception("Exception --- test case 0 failed to pass");}
var actual2 = Pluck(new List<int> {1,2,3});
var expected2 = new List<int> {2,1};
var result2 = compareLogic.Compare(actual2, expected2);
if (!result2.AreEqual) {throw new Exception("Exception --- test case 1 failed to pass");}
var actual3 = Pluck(new List<int> {});
var expected3 = new List<int> {};
var result3 = compareLogic.Compare(actual3, expected3);
if (!result3.AreEqual) {throw new Exception("Exception --- test case 2 failed to pass");}
var actual4 = Pluck(new List<int> {5,0,3,0,4,2});
var expected4 = new List<int> {0,1};
var result4 = compareLogic.Compare(actual4, expected4);
if (!result4.AreEqual) {throw new Exception("Exception --- test case 3 failed to pass");}
var actual5 = Pluck(new List<int> {1,2,3,0,5,3});
var expected5 = new List<int> {0,3};
var result5 = compareLogic.Compare(actual5, expected5);
if (!result5.AreEqual) {throw new Exception("Exception --- test case 4 failed to pass");}
var actual6 = Pluck(new List<int> {5,4,8,4,8});
var expected6 = new List<int> {4,1};
var result6 = compareLogic.Compare(actual6, expected6);
if (!result6.AreEqual) {throw new Exception("Exception --- test case 5 failed to pass");}
var actual7 = Pluck(new List<int> {7,6,7,1});
var expected7 = new List<int> {6,1};
var result7 = compareLogic.Compare(actual7, expected7);
if (!result7.AreEqual) {throw new Exception("Exception --- test case 6 failed to pass");}
var actual8 = Pluck(new List<int> {7,9,7,1});
var expected8 = new List<int> {};
var result8 = compareLogic.Compare(actual8, expected8);
if (!result8.AreEqual) {throw new Exception("Exception --- test case 7 failed to pass");}
}
}
}
| Pluck | [
"\n }\n"
] |
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