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COMP 220 Successful Learning/comp220dotcom

COMP 220 Entire Course (Devry)<br>For more course tutorials visit<br>www.comp220.com<br><br>COMP 220 iLab 1 Two-Dimensional Arrays Lab Report and Source Code<br>COMP 220 iLab 2 Resistor Lab Report and Source Code<br>COMP 220 iLab 3 Bank Account Lab Report and Source Code<br>COMP 220 iLab 4 Composition Lab Report and Source Code<br>COMP 220 iLab 5 Lab Report and Source Code<br>COMP 220 iLab 6 Overloaded Operators Lab Report and Source Code<br>COMP 220 iLab 7 Polymorphism Lab Report and Source Code<br>

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COMP 220 Successful Learning/comp220dotcom

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  1. COMP 220 Successful Learning/comp220dotcom

  2. COMP 220 Entire Course (Devry) COMP 220 Successful Learning COMP 220 iLab 1 Two-Dimensional Arrays Lab Report and Source Code COMP 220 iLab 2 Resistor Lab Report and Source Code COMP 220 iLab 3 Bank Account Lab Report and Source Code COMP 220 iLab 4 Composition Lab Report and Source Code COMP 220 iLab 5 Lab Report and Source Code COMP 220 iLab 6 Overloaded Operators Lab Report and Source Code BlackJack Table Specification: Include a brief description of what the program accomplishes, including its input, key processes, and output. There is always a dealer in the game. At the start of the game, the dealer’s first card will not be shown or displayed. The second card will be displayed. The dealer may draw additional cards. The dealer must use a random-number generator to determine the maximum number of cards the dealer will draw--a value between 0 and 3. In other words, the dealer is a computer player. The dealer does not show all the cards or the total until all the players have either gone bust (over 21) or hold (no more cards drawn). There must be at least one other player (you) and up to a maximum of four other players (all played COMP 220 iLab 1 Two-Dimensional Arrays Lab Report and Source Code (Devry)

  3. COMP 220 iLab 2 Resistor Lab Report and Source Code (Devry) COMP 220 Successful Learning Scenario and Summary This lab requires you to create a multifile C++ project in order to design and implement an object-oriented program using a class to model the characteristics and function of a resistor. Deliverables Submit a single Notepad file containing the source code for Exercise 1 to the Dropbox for Week 2. This lab introduces you to writing a C++ program to implement the concept of class inheritance using different types of bank accounts as a model. In this lab, you will create a base class, called CBankAccount, and two additional classes (each derived from CBankAccount), called CSavingsAccount and CCheckingAccount. You will then test the operations of each class in function main() to simulate the transactions of both a checking account and a savings account. COMP 220 iLab 3 Bank Account Lab Report and Source Code (Devry)

  4. COMP 220 iLab 4 Composition Lab Report and Source Code (Devry) COMP 220 Successful Learning This lab requires you to use C++ class composition to implement a single pole-filter design program. The program will allow the user to specify resistor and capacitor values and filter type. Once all the user parameters are specified, the program will return the cutoff frequency values for the filter. Composition may be thought of as a has-a relationship for objects, as compared to inheritance, which may be described as an is-a relationship for objects. You are required to use two component classes: one for a resistor object and one for a capacitor object. You are then to define and implement a filter class that will contain one object of each the resistor and the capacitor classes in order to create the filter and its characteristics. Assignment: Lab 5 Pointers and Pointer Operators Description: This lab will explore the use of pointers in several ways. Pointers will be used to dynamically allocate memory for new class objects on demand from the user, and they will be used to access class-member functions. Pointer arithmetic will be used to access and sort class objects according to criteria explained in the lab. Pointers are, essentially, address variables, or variables that hold as their value the address of other variables. In terms of memory management, they are very powerful devices, and they more closely and efficiently use the actual internal hardware registers of the microprocessor that the program operates on. COMP 220 iLab 5 Lab Report and Source Code (Devry)

  5. COMP 220 iLab 6 Overloaded Operators Lab Report and Source Code (Devry) COMP 220 Successful Learning Assignment: Lab 6 Overloaded Operators Description: This lab is to introduce students to the concept of operator overloading as member functions of a class. This will be done in the context of creating a class that will perform four basic mathematical operations on complex numbers. The C++ compiler has defined operators for all the arithmetic and assignment operations for its native data types, such as integer, float, double, and so forth. However, for user-defined data types, such as classes and structures, these operations are undefined. Assignment: Lab 7 Polymorphism Description: This lab introduces students to the concepts of polymorphism, early binding, late binding, abstract classes, and virtual class functions. This will be done in the context of performing calculations on basic geometrical shapes. Polymorphism is a very powerful extension of inheritance, and by using pointers to the base class, it allows access to derived class objects and their functions based on the context that they are called in. COMP 220 iLab 7 Polymorphism Lab Report and Source Code (Devry)

  6. COMP 220 Successful Learning

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