public void StackUsingLinkedListThrowsException_WhenPopOnEmpty()
{
var st = new StackUsingLinkedList<int>();
st.Push(1);
var item = st.Pop();
st.Pop();
}
public static double EvaluatePostFixExpression(QueueUsingDoublyLinkedList <string> postfix)
{
StackUsingLinkedList <string> stack = new StackUsingLinkedList <string>();
var count = postfix.Count;
double answer = 0;
for (int i = 0; i < count; i++)
{
if (stack.Count >= 2 && postfix.Peek().Length == 1 && IsOperator(postfix.Peek()[0]) == true)
{
double x = 0;
double y = 0;
if (Double.TryParse(stack.Peek(), out x))
{
x = Convert.ToDouble(stack.Pop());
}
if (Double.TryParse(stack.Peek(), out y))
{
y = Convert.ToDouble(stack.Pop());
}
double result = Calculate(y, postfix.Dequeue()[0], x);
stack.Push(result.ToString());
}
else
{
stack.Push(postfix.Dequeue());
}
}
if (stack.Count != 0)
{
if (double.TryParse(stack.Peek(), out answer) == true)
{
answer = Convert.ToDouble(stack.Pop());
}
else
{
if (stack.Count != 1)
{
stack.Pop();
}
if (double.TryParse(stack.Peek(), out answer) == true)
{
answer = Convert.ToDouble(stack.Pop());
}
}
}
return(answer);
}
public void StackUsingLinkedList_SuccessTests()
{
var st = new StackUsingLinkedList<int>();
st.Push(1);
st.Push(2);
st.Push(3);
st.Push(4);
st.Push(5);
Assert.AreEqual(5, st.Pop());
Assert.AreEqual(4, st.Pop());
Assert.AreEqual(3, st.Pop());
Assert.AreEqual(2, st.Pop());
Assert.AreEqual(1, st.Pop());
}
public void Peek()
{
StackUsingLinkedList <int> stack = new StackUsingLinkedList <int>();
stack.Push(10);
stack.Push(20);
stack.Push(30);
stack.Push(40);
/*
* 40 --- Top
* 30
* 20
* 10
*/
stack.Pop();
stack.Pop();
Assert.AreEqual(stack.Peek(), 20);
}
public void VerifyPopInStack()
{
var actual = new StackUsingLinkedList();
actual.Push(12);
actual.Push(14);
actual.Push(16);
Assert.AreEqual(3, actual.Count());
var value = actual.Pop();
Assert.AreEqual(16, value);
Assert.AreEqual(2, actual.Count());
value = actual.Pop();
Assert.AreEqual(14, value);
Assert.AreEqual(1, actual.Count());
value = actual.Pop();
Assert.AreEqual(12, value);
Assert.AreEqual(0, actual.Count());
}
public static bool DelimiterMatching(string input)
{
_list.Clear();
for (int x = 0; x < input.Length; x++)
{
if (input[x] == '(' || input[x] == '[' || input[x] == '{')
{
_list.Push(input[x]);
}
else if (input[x] == ')' || input[x] == ']' || input[x] == '}')
{
if (DelimiterCheck.IsMatchingPair(_list.Pop(), input[x]) == false)
{
return(false);
}
}
}
return(true);
}
public void DisplayStack()
{
Console.WriteLine("Select Question[1-12]");
int choice = int.Parse(Console.ReadLine());
switch (choice)
{
#region CSharp Stack Collection
case 1:
Console.WriteLine("--------" + choice + ".CSharp Stack Collection --------");
StackCollectioninCsharp <int> sk1 = new StackCollectioninCsharp <int>();
int[] arr1 = { 10, 78, 34, 65 };
foreach (var v in arr1)
{
sk1.Push(v);
}
sk1.Print();
Console.WriteLine($"Count is :{sk1.myStack.Count}");
Console.WriteLine($"78 Is Present :{sk1.myStack.Contains(78)}");
sk1.myStack.Pop();
sk1.Print();
break;
#endregion
#region Stack using Array
case 2:
Console.WriteLine("--------" + choice + ".Stack using Array--------");
StackUsingArray sk2 = new StackUsingArray(10);
sk2.Push(10);
sk2.Push(20);
sk2.Push(30);
sk2.Push(40);
sk2.Print();
sk2.Pop();
sk2.Print();
break;
#endregion
#region Stack Using Linked List
case 3:
Console.WriteLine("--------" + choice + ".Stack Using Linked List--------");
StackUsingLinkedList <int> sk3 = new StackUsingLinkedList <int>();
int[] arr3 = { 10, 20, 30, 40 };
foreach (var v in arr3)
{
sk3.Push(v);
}
sk3.Print();
sk3.Peek();
sk3.Print();
sk3.Pop();
sk3.Print();
Console.WriteLine($"Size Of Stack: {sk3.GetSize()}");
break;
#endregion
#region Balanced Expression
case 4:
Console.WriteLine("--------" + choice + ".Balanced Expression--------");
BalancingSymbolPattern sk4 = new BalancingSymbolPattern();
Console.WriteLine($"Expression is Balanced using Stack: {sk4.CheckPattern("[{(}]", "Stack")}");
Console.WriteLine($"Expression is Balanced using Stack Adt: {sk4.CheckPattern("[{)}]", "StackADT")}");
Console.WriteLine($"Expression is Balanced using Stack: {sk4.CheckPattern("[{()}]", "Stack")}");
Console.WriteLine($"Expression is Balanced using Stack Adt: {sk4.CheckPattern("[{()}]", "StackADT")}");
break;
#endregion
#region Postfix Expression Evaluation Using Stack
case 5:
Console.WriteLine("--------" + choice + ".Postfix Expression Evaluation Using Stack--------");
PostfixImplimentationUsingStack sk5 = new PostfixImplimentationUsingStack();
Console.WriteLine($"Postfix Expression result is {sk5.EvaluatePostfixExpression("123*+5-")}");
break;
#endregion
#region Infix to Postfix
case 6:
Console.WriteLine("--------" + choice + ".Infix to Postfix--------");
InfixToPostFix sk6 = new InfixToPostFix();
string exp = "a+b*(c^d-e)^(f+g*h)-i";
//string exp ="a*b-(c+d)-e";
Console.WriteLine($"Infix {exp} of Postfix is : {sk6.ConvertInfixToPostFix(exp.Replace(" ", string.Empty))}");
break;
#endregion
#region Infix To Prefix
case 7:
Console.WriteLine("--------" + choice + ".Infix To Prefix--------");
InfixToPrefix sk7 = new InfixToPrefix();
//string exp7 = "a*b-(c+d)-e";
string exp7 = "((a/b)+c)-(d+(e*f))";
Console.WriteLine($"Infix {exp7} of Prefix is {sk7.ConvertInfixToPrefix(exp7.Replace(" ", string.Empty))}");
break;
#endregion
#region Convert Prefix and Postfix to Infix
case 8:
Console.WriteLine("--------" + choice + ".Convert Prefix and Postfix to Infix--------");
ConvertToInfix sk8 = new ConvertToInfix();
string exppre8 = "*-A/BC-/AKL";
Console.WriteLine($"Pefix {exppre8} of Infix is {sk8.ConvertPreToInfix(exppre8.Replace(" ", string.Empty))}");
string expost8 = " ab*c+";
Console.WriteLine($"Postfix {expost8} of Infix is {sk8.ConvertPostToInfix(expost8.Replace(" ", string.Empty))}");
break;
#endregion
#region Convert Post to Pre and Viceversa
case 9:
Console.WriteLine("--------" + choice + ".Convert Post to Pre and Viceversa--------");
ConvertPreToPost_PostToPre sk9 = new ConvertPreToPost_PostToPre();
string exp9 = "*-A/BC-/AKL";
Console.WriteLine(sk9.ConvertExpression(exp9.Replace(" ", string.Empty)));
break;
#endregion
#region Sort Stack using Recursion
case 10:
Console.WriteLine("--------" + choice + ".Sort Stack using Recursion--------");
string str10 = "-3 14 18 -5 30";
SortStack sk10 = new SortStack(str10);
sk10.PrintStack();
break;
#endregion
#region Get Min From Stack with O(1)
case 11:
Console.WriteLine("--------" + choice + ". Get Min From Stack with O(1)--------");
GetMinStack sk11 = new GetMinStack();
sk11.Push(2);
sk11.Push(4);
sk11.Push(6);
sk11.Push(1);
sk11.Push(5);
Console.WriteLine("Stack is 5,1,6,4,2");
Console.WriteLine($"min value in stack is {sk11.GetMin()} and top of stack is {sk11.Top()}");
sk11.Pop();
sk11.Pop();
Console.WriteLine("After 2 Pops");
Console.WriteLine($"min value in stack is {sk11.GetMin()} and top of stack is {sk11.Top()}");
break;
#endregion
#region Get MAX From Stack with O(1)
case 12:
Console.WriteLine("--------" + choice + ".Get MAX From Stack with O(1)--------");
GetMaxStack sk12 = new GetMaxStack();
sk12.Push(2);
sk12.Push(7);
sk12.Push(6);
sk12.Push(8);
sk12.Push(5);
Console.WriteLine("Stack is 5,8,6,7,2");
Console.WriteLine($"Max value in stack is {sk12.GetMax()} and top of stack is {sk12.GetTop()}");
sk12.Pop();
sk12.Pop();
Console.WriteLine("After 2 Pops");
Console.WriteLine($"Max value in stack is {sk12.GetMax()} and top of stack is {sk12.GetTop()}");
break;
#endregion
#region
case 13:
Console.WriteLine("--------" + choice + ".--------");
break;
#endregion
#region
case 14:
Console.WriteLine("--------" + choice + ".--------");
break;
#endregion
#region
case 15:
Console.WriteLine("--------" + choice + ".--------");
break;
#endregion
default:
Console.WriteLine("Oops! Inavalid Choice.");
break;
}
}
public static QueueUsingDoublyLinkedList <string> ConvertToPostfix(string exp)
{
var postfix = new QueueUsingDoublyLinkedList <string>();
StackUsingLinkedList <char> stack = new StackUsingLinkedList <char>();
StringBuilder num = new StringBuilder();
for (int x = 0; x < exp.Length; x++)
{
if (Char.IsDigit(exp[x]) == true)
{
if (x != exp.Length - 1 && (Char.IsDigit(exp[x + 1]) == true || exp[x + 1] == '.' || exp[x + 1] == ','))
{
num.Append(exp[x]);
}
else
{
num.Append(exp[x]);
postfix.Enqueue(num.ToString());
num.Clear();
if (x != exp.Length - 1 && exp[x + 1] == '(')
{
while (!stack.IsEmpty() && IsOperator(stack.Peek()) && GreaterOrEqualPrecedence('*', stack.Peek()) == true)
{
postfix.Enqueue(stack.Pop().ToString());
}
stack.Push('*');
}
}
}
else if (exp[x] == '.')
{
num.Append(exp[x]);
}
else if (exp[x] == '-')
{
if (x == 0 || IsOperator(exp[x - 1]) == true || exp[x - 1] == '(')
{
if (exp.Length != 1 && x != exp.Length - 1 && exp[x + 1] == '(')
{
exp = exp.Substring(0, x + 1) + '1' + exp.Substring(x + 1);
}
num.Append(exp[x]);
}
else
{
while (!stack.IsEmpty() && IsOperator(stack.Peek()) && GreaterOrEqualPrecedence(exp[x], stack.Peek()) == true)
{
postfix.Enqueue(stack.Pop().ToString());
}
stack.Push(exp[x]);
}
}
else if (exp[x] == '(')
{
stack.Push(exp[x]);
}
else if (IsOperator(exp[x]) == true)
{
while (!stack.IsEmpty() && IsOperator(stack.Peek()) && GreaterOrEqualPrecedence(exp[x], stack.Peek()) == true)
{
postfix.Enqueue(stack.Pop().ToString());
}
stack.Push(exp[x]);
}
else if (exp[x] == ')')
{
while (stack.Peek() != '(')
{
postfix.Enqueue(stack.Pop().ToString());
}
stack.Pop();
if (x != exp.Length - 1 && exp[x + 1] == '(')
{
while (!stack.IsEmpty() && IsOperator(stack.Peek()) && GreaterOrEqualPrecedence('*', stack.Peek()) == true)
{
postfix.Enqueue(stack.Pop().ToString());
}
stack.Push('*');
}
}
}
while (!stack.IsEmpty())
{
postfix.Enqueue(stack.Pop().ToString());
}
return(postfix);
}