COMP 122 Complete Class/COMP122

COMP 122 Complete Class/COMP122

COMP 122 Complete Class COMP 122 Lab 1 Lab Report and Source Code COMP 122 Lab 2 Lab Report and Source Code COMP 122 Lab 3 Lab Report and Source Code COMP 122 Lab 4 Lab Report and Source Code COMP 122 Lab 5 Lab Report and Source Code COMP 122 Lab 6 Lab Report and Source Code COMP 122 Lab 7 Lab Report and Source Code COMP 122 Lab 1 Lab Report and Source Code COMP 122 Lab 2 Lab Report and Source…

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COMP 220 Entire Course

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

COMP 220 iLab 7 Polymorphism Lab Report and Source Code

DEVRY COMP 122 Lab 6 Lab Report and Source Code

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COMP 122 Week 6 iLab

You are to design a program that will allow some number of grades (up to a max of 100) to be input by the user. After the data has been collected, your program should calculate and output the mean and median of the collected data, as well as the sorted grade information.

DEVRY COMP 122 Lab 6 Lab Report and Source Code

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COMP 122 Week 6 iLab

You are to design a program that will allow some number of grades (up to a max of 100) to be input by the user. After the data has been collected, your program should calculate and output the mean and median of the collected data, as well as the sorted grade information.

Design Constraints

Use an integer constant of 100 to specify the number of elements in the array you will use to collect the grade information. Do not use any global variables in your program. Declare any arrays you need in your main function and pass the arrays as needed into the functions described below. The main function is the only function permitted to do any output to the console!!! Do not do cout operations inside of any other function.

Your data collection loop in your main function must allow the user to enter less than 100 grades. It must also make sure that the user does not try to enter more than 100 grades. Each data value entered should be checked to make sure it is between 0 and 100. Any other value entered should be considered invalid and ignored (ie. not counted as a valid input and not stored in an array). Once the data is collected, the array and the number of grades collected must be passed to a function called mean. The mean function must loop through the values in the array, summing them together.

The result of the function is the sum divided by the number of grades collected. The result must be returned from the mean function to the main function, where is it output in an appropriate manner (two digits after the decimal point). The main function should then pass the array and the number of grades collected to the median function. The median of a set of numbers is the number in the set where half the numbers are above it and half the numbers are below it. In order to find the median, this function will need to sort the original data. The simplest sorting procedure is called bubble sorting. The following pseudocode describes bubble sorting for X valid array elements. for ; outer < x;="" outer++=""> for ; inner < x-1;="" inner++=""> if array[inner] > array[inner+1] swap(array[inner], array[inner+1]);

After the data has been sorted, the median value can be found. If the array has an odd number of elements the median is the value of the middle element (Hint: arraySize/2 is the middle element). If the array has an even number of elements then the median is the average of the middle two elements (Hint: arraySize/2 and ( arraySize/2) - 1 are the two middle elements). The median value should be returned by the median function. The main routine should output the median value in an appropriate manner. The main routine should also output the sorted array with 5 grades per line.

Carefully develop test cases for your program. Most of your test cases do not need to contain lots of values. Make sure to include incorrect inputs such as negative grade values. Calculate what your mean and median values should be for your test cases. Document your test cases in a Word document. Run your test cases with your program to see if your program generates the expected output. If not, troubleshoot your program and fix the problem. When your program executes a test case correctly, take a screen shot of the program output and paste it into your Word document to prove that your test case executed correctly with your program. Make sure that your code is properly formatted! You also need to make sure you include a comment block for each function which documents the purpose, inputs, and outputs of each function!

Create a program using Visual C++.Net. Make sure to capture a screen shot of your program running your test cases! The best way to do this is to click on the console window you want to capture and then press the Alt and PrintScreen keys at the same time. Then paste your captured screen image into your Word document. Your Word document should contain your test cases, the screen shots doc

DEVRY COMP 122 Lab 6 Lab Report and Source Code

 Check this A+ tutorial guideline at

 http://www.assignmentcloud.com/comp-122/comp-122-lab-6-lab-report-and-source-code

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http://www.assignmentcloud.com

COMP 122 Week 6 iLab

You are to design a program that will allow some number of grades (up to a max of 100) to be input by the user. After the data has been collected, your program should calculate and output the mean and median of the collected data, as well as the sorted grade information.

Design Constraints

Use an integer constant of 100 to specify the number of elements in the array you will use to collect the grade information. Do not use any global variables in your program. Declare any arrays you need in your main function and pass the arrays as needed into the functions described below. The main function is the only function permitted to do any output to the console!!! Do not do cout operations inside of any other function.

Your data collection loop in your main function must allow the user to enter less than 100 grades. It must also make sure that the user does not try to enter more than 100 grades. Each data value entered should be checked to make sure it is between 0 and 100. Any other value entered should be considered invalid and ignored (ie. not counted as a valid input and not stored in an array). Once the data is collected, the array and the number of grades collected must be passed to a function called mean. The mean function must loop through the values in the array, summing them together.

The result of the function is the sum divided by the number of grades collected. The result must be returned from the mean function to the main function, where is it output in an appropriate manner (two digits after the decimal point). The main function should then pass the array and the number of grades collected to the median function. The median of a set of numbers is the number in the set where half the numbers are above it and half the numbers are below it. In order to find the median, this function will need to sort the original data. The simplest sorting procedure is called bubble sorting. The following pseudocode describes bubble sorting for X valid array elements. for ; outer < x;="" outer++=""> for ; inner < x-1;="" inner++=""> if array[inner] > array[inner+1] swap(array[inner], array[inner+1]);

After the data has been sorted, the median value can be found. If the array has an odd number of elements the median is the value of the middle element (Hint: arraySize/2 is the middle element). If the array has an even number of elements then the median is the average of the middle two elements (Hint: arraySize/2 and ( arraySize/2) - 1 are the two middle elements). The median value should be returned by the median function. The main routine should output the median value in an appropriate manner. The main routine should also output the sorted array with 5 grades per line.

Carefully develop test cases for your program. Most of your test cases do not need to contain lots of values. Make sure to include incorrect inputs such as negative grade values. Calculate what your mean and median values should be for your test cases. Document your test cases in a Word document. Run your test cases with your program to see if your program generates the expected output. If not, troubleshoot your program and fix the problem. When your program executes a test case correctly, take a screen shot of the program output and paste it into your Word document to prove that your test case executed correctly with your program. Make sure that your code is properly formatted! You also need to make sure you include a comment block for each function which documents the purpose, inputs, and outputs of each function!

Create a program using Visual C++.Net. Make sure to capture a screen shot of your program running your test cases! The best way to do this is to click on the console window you want to capture and then press the Alt and PrintScreen keys at the same time. Then paste your captured screen image into your Word document. Your Word document should contain your test cases, the screen shots doc

DEVRY COMP 122 Lab 6 Lab Report and Source Code

 Check this A+ tutorial guideline at

 http://www.assignmentclick.com/comp-122/comp-122-lab-6-lab-report-and-source-code

 For more classes visit

http://www.assignmentclick.com

COMP 122 Week 6 iLab

You are to design a program that will allow some number of grades (up to a max of 100) to be input by the user. After the data has been collected, your program should calculate and output the mean and median of the collected data, as well as the sorted grade information.

Design Constraints

Use an integer constant of 100 to specify the number of elements in the array you will use to collect the grade information. Do not use any global variables in your program. Declare any arrays you need in your main function and pass the arrays as needed into the functions described below. The main function is the only function permitted to do any output to the console!!! Do not do cout operations inside of any other function.

Your data collection loop in your main function must allow the user to enter less than 100 grades. It must also make sure that the user does not try to enter more than 100 grades. Each data value entered should be checked to make sure it is between 0 and 100. Any other value entered should be considered invalid and ignored (ie. not counted as a valid input and not stored in an array). Once the data is collected, the array and the number of grades collected must be passed to a function called mean. The mean function must loop through the values in the array, summing them together.

The result of the function is the sum divided by the number of grades collected. The result must be returned from the mean function to the main function, where is it output in an appropriate manner (two digits after the decimal point). The main function should then pass the array and the number of grades collected to the median function. The median of a set of numbers is the number in the set where half the numbers are above it and half the numbers are below it. In order to find the median, this function will need to sort the original data. The simplest sorting procedure is called bubble sorting. The following pseudocode describes bubble sorting for X valid array elements. for ; outer < x;="" outer++=""> for ; inner < x-1;="" inner++=""> if array[inner] > array[inner+1] swap(array[inner], array[inner+1]);

After the data has been sorted, the median value can be found. If the array has an odd number of elements the median is the value of the middle element (Hint: arraySize/2 is the middle element). If the array has an even number of elements then the median is the average of the middle two elements (Hint: arraySize/2 and ( arraySize/2) - 1 are the two middle elements). The median value should be returned by the median function. The main routine should output the median value in an appropriate manner. The main routine should also output the sorted array with 5 grades per line.

Carefully develop test cases for your program. Most of your test cases do not need to contain lots of values. Make sure to include incorrect inputs such as negative grade values. Calculate what your mean and median values should be for your test cases. Document your test cases in a Word document. Run your test cases with your program to see if your program generates the expected output. If not, troubleshoot your program and fix the problem. When your program executes a test case correctly, take a screen shot of the program output and paste it into your Word document to prove that your test case executed correctly with your program. Make sure that your code is properly formatted! You also need to make sure you include a comment block for each function which documents the purpose, inputs, and outputs of each function!

Create a program using Visual C++.Net. Make sure to capture a screen shot of your program running your test cases! The best way to do this is to click on the console window you want to capture and then press the Alt and PrintScreen keys at the same time. Then paste your captured screen image into your Word document. Your Word document should  

You are to design a program that will allow some number of grades

You are to design a program that will allow some number of grades

COMP122 Lab 6 Lab Report and Source Code

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  COMP122 Week 6 iLab You are to design a program that will allow some number of grades (up to a max of 100) to be input by the user. After the data has been collected, your program should calculate and output the mean and…

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COMP 122 Lab 1 Lab Report and Source Code

COMP 122 Lab 1 Lab Report and Source Code

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  COMP 122 Lab 1 Lab Report and Source Code

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COMP 122 Lab 6 Lab Report and Source Code

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COMP 220 iLab 1 Two Dimensional Arrays 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 by you). . On a player’s turn, that player may either draw a card or hold. Once a player holds, he or she should not be asked to draw another card during this game. All the cards for each player, including the first card dealt, are displayed, along with the suit symbol: spades ♠, clubs ♣, hearts ♥, or diamonds ♦. Each game will start with a new, 52-card deck, which is modeled on a real deck of cards. . The card deck has 52 cards with no jokers. The card deck is represented by a two-dimensional array of data-type character, where the first dimension represents the suit and the second dimension represents the card in the suit, such as the following. i. char CardDeck[4][13]; At the start of each game, each element of the two-dimensional array is initialized to a value of " ", or the "space" character. The deck has four suits, represented by the following dimension indices. . i. ii. iii. Each suit has 13 cards: 2, 3, 4, 5, 6, 7, 8,9 ,10, jack, queen, king, and ace. Each card in a suit is represented by the following dimension indices. . 2 card i. 3 card ii. 4 card iii. 5 card iv. 6 card v. 7 card vi. 8 card vii. 9 card viii. 10 card ix. jack x. queen xi. king xii. ace All the number cards are worth their face value (i.e., a 3 of diamonds is worth 3). All face cards are worth 10. An ace is worth either 1 or 11. Your final-score calculation must be able to handle this correctly for both the dealer and each player. A random-number generator must be used to select the suit and the card in the suit. . Once a card and suit are selected, the program should check if the value of that array element is a "space." If the array set the element equal to an integer, identifying the dealer or the player. 1 2 3 4 If the array element ! = "space," then the random-number and card-checking process should repeat until a "card" or an array element is selected that Once a card is drawn during a game, it cannot be drawn again. When the program first starts, it should prompt the user, asking if he or she wants to play a game of Blackjack or exit the program. If the user inputs to play the game, the next decision should be 1, 2, 3, or 4 players. At the start of the game, the dealer and each player should be dealt two cards. One of the dealer’s card's value and suit should not be displayed. The number of cards that the dealer will draw during a game should be determined by a random-number generator that will return a value of 0, 1, 2, or 3 cards to be drawn. Each player may then draw a card or hold. If, after drawing a card, any player or the dealer goes over a score of 21, he or she is not allowed to draw any more cards during the game. Once a player holds, he or she should not be asked to draw a card again during the game. The game continues until one of the following conditions occur: . all players have declared hold; all players and the dealer have gone over 21; a maximum of five cards total are held by any player at the end of a round of card draws; or any combination of the above. The display should show each player’s (and the dealer’s) hand and update the display after each round of card draws. spades ♠, clubs ♣, hearts ♥, and diamonds ♦ Example Card 1 Card 2 Card 3 Card 4 Card 5 Dealer: ? 10♦ Player 1: A♣ 2♠ Player 2: J♣ Q♥ Player 3: 3♦ 8♣ At the end of a game, the display should be repeated, with the addition of win or lose and an updated balance. Example Card 1 Card 2 Card 3 Card 4 Card 5 Total Stats Dealer: J♦ 10♦ 20 Lose Player 1: K♣ 2♠ 5♥ 1♦ 5♦ 23 Lose Player 2: J♣ Q♥ 20 Lose Player 3: 3♦ 8♣ K♦ 21 Win! The program should then ask each player if he or she wants to play again or leave the game. The game continues with a new round, as long as there is one player remaining. If there are no remaining players, the program should exit.

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COMP 220 iLab 6 Overloaded Operators Lab Report and Source Code

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.

C++ allows the programmer to create new definitions for these operators so that they can operate specifically on these user-defined data types. Which set of operators is actually called and implemented is decided during the compilation, and it is based on the data types of the operands involved in the operation. The ability to define a new set of data-type, dependent operations on existing operators, or functions, is called operator overloading.