Computer Networking: A Top-Down Approach (7th Edition)
7th Edition
ISBN: 9780133594140
Author: James Kurose, Keith Ross
Publisher: PEARSON
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- Establish a linked queue, and run operations in the linked queue.
General operations include:Create queue, one element enqueue, one element dequeue, check if the queue is full.
Please use Python
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- Note : addqueue works like Enqueue and deleteQueue works like Dequeue Consider the following statements: (8, 9) queueType queue; int num; Show what is output by the following segment of code num = 7; queue.addQueue (6); queue.addQueue (num); num = queue.front (); queue.deleteQueue(); queue.addQueue (num + 5); queue.addQueue (14); queue.addQueue (num queue.addQueue (25); queue.deleteQueue (); 2); cout <« "Queue elements: "; while (!queue.isEmptyQueue ()) { cout <« queue.front () << " "; queue.deleteQueue(); } cout <« endl; Queue elements: 14 14 4 25 Queue elements: 11 14 4 4 Queue elements: 11 14 4 25 Queue elements: 11 14 25 25arrow_forwardBankCustomerQueueADT Implement in C++ a BankCustomer QueueADT that does the following: 1. gets the input about a customer (first name, last name, Bank Account Number, Money to be withdrawn/deposited, etc.) from the user (from the keyboard) 2. inserts (enqueues) the Customer as a record into the BankCustomerQueueADT (your Queue ADT must be able to have a maximum of 20 customer records) 3. removes (dequeues) the Customer record from the BankCustomerQueueADT 4. your BankCustomerQueueADT must also have the behavior of retrieving and displaying the Queue info on the screen after each event (either entry of a Bank Customer into the queue, OR leaving of the Bank customer from the queue). NOTE: Please make sure you debug, run, test and see the program working correctly before submitting. Make sure all the code statements are commented. Make sure your program is indented properly.arrow_forwarddef__init__(self): """ ------------------------------------------------------- Initializes an empty Queue. Data is stored in a Python list. Use: source = Queue() ------------------------------------------------------- Returns: a new Queue object (Queue) ------------------------------------------------------- """ self._values = [] defis_empty(self): """ ------------------------------------------------------- Determines if source is empty. Use: b = source.is_empty() ------------------------------------------------------- Returns: True if source is empty, False otherwise. ------------------------------------------------------- """ return len(self._values) == 0 def__len__(self): """ ------------------------------------------------------- Returns the length of source. Use: n = len(source) ------------------------------------------------------- Returns: the number of values in source (int >= 0)…arrow_forward
- #include <iostream> using namespace std; #define SIZE 5 //creating the queue using array int A[SIZE]; int front = -1; int rear = -1; //function to check if the queue is empty bool isempty() { if(front == -1 && rear == -1) return true; else return false; } //function to enter elements in queue void enqueue ( int value ) { //if queue is full if ((rear + 1)%SIZE == front) cout<<"Queue is full \n"; else { //now the first element is inserted if( front == -1) front = 0; //inserting element at rear end rear = (rear+1)%SIZE; A[rear] = value; } } //function to remove elements from queue void dequeue ( ) { if( isempty() ) cout<<"Queue is empty\n"; else //only one element if( front == rear ) front = rear = -1; else front = ( front + 1)%SIZE; } //function to show the element at front void showfront() { if( isempty()) cout<<"Queue is empty\n"; else cout<<"element at front is:"<<A[front]; } //function to display the queue void…arrow_forwardA(n) array can be used in an array implementation of a queue to avoid an overflow error at the rear of the queue when the queue is not full.arrow_forwardAlgorithms in pseudo code **MUST** be placed in code blocks/fences, and use `cpp` as the syntax highlighter. - Algorithms should follow the pseudo code standard described in *Pseudocode Handout*. - Do NOT change the template except the answer portion. Formulas and equations should be in math mode using Latex math symbols. - Markdown math tutorial: http://tug.ctan.org/info/undergradmath/undergradmat h.pdf - Two ways to enter math mode: - Insert a pair of dollar signs: \$your equations go here\$. This is the inline math mode. *Notice that there is no space between the \$ and the letter*. - Insert a pair of double-dollar signs: \$\$ your equations go here \$\$, which produces a standalone equation/formula set. le for subarrow_forward
- Simple JAVA linkedlist code implementation please help and complete any part you can - Without using the java collections interface (ie do not import java.util.List,LinkedList, Stack, Queue...)- Create an implementation of LinkedList interface- For the implementation create a tester to verify the implementation of thatdata structure performs as expected Build Bus Route – Linked List- Your task is to:o Implement the LinkedList interface (fill out the implementation shell)o Put your implementation through its paces by exercising each of themethods in the test harnesso Create a client (a class with a main) ‘BusClient’ which builds a busroute by performing the following operations on your linked list:o§ Create (insert) 4 stations§ List the stations§ Check if a station is in the list (print result)• Check for a station that exists, and onethat doesn’t§ Remove a station§ List the stations§ Add a station before another station§ List the stations§ Add a station after another station§ Print the…arrow_forwardAn approach to remove nodes from a linked list that have the same key is provided.arrow_forward
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