Пример #1
0
 def push(self, value):
     if self.stacksSoFar[-1].nodesSoFar == self.maxStackLengthAllowed:
         self.stacksSoFar.append(MyStack())
     self.stacksSoFar[-1].push(value)
Пример #2
0
 def __init__(self):
     # append the first stack to the empty array that will hold O(n) stacks
     self.stacksSoFar.append(MyStack())
from Chapter_3.MyStack import *

stack = MyStack()
stack.push(1)
stack.push(4)
stack.push(2)
stack.push(5)
stack.push(3)
stack.push(45)

stack.sortStack()
Пример #4
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from Chapter_3.MyStack import *

ms = MyStack()

 def reversedStack(self, stack):
     tempStack = MyStack()
     while not stack.isEmpty():
         tempStack.push(stack.pop())
     return tempStack
    def reversedStack(self, stack):
        tempStack = MyStack()
        while not stack.isEmpty():
            tempStack.push(stack.pop())
        return tempStack

    def addTheStackNodesToTheQueue(self, queue, stack):
        addThisNode = stack.top
        while addThisNode is not None:
            queue.add(addThisNode.data)
            addThisNode = addThisNode.next


# the stack-1 that holds the nodes to create the queue
stack_1 = MyStack()
stack_1.push(1)
stack_1.push(2)
stack_1.push(3)
stack_1.printStack()

# an extra stack-2 that holds nodes to keep creating the same queue
stack_2 = MyStack()
stack_2.push(4)
stack_2.push(5)
stack_2.push(6)
stack_2.printStack()

# the queue that will be created by the stack nodes
thisQueue = MyQueue()
 def createThreeStacksInSingleArray(self):
     self.singleArrayStacks.append(MyStack())
     self.singleArrayStacks.append(MyStack())
     self.singleArrayStacks.append(MyStack())