Posted: December 6th, 2022

**Assignment 7.1 [95 points]**

This program will ask the user to answer a series of arithmetic problems and report on how the user performs. You will write this program in phases as specified below. Make sure that each phase works correctly and uses good style before progressing to the following phase.

Note that the purpose of this assignment is to give you lots of practice with parameter passing without making you write a huge program. For this reason I have provided a **structure diagram** at the end of this document. Make sure that you adhere to the structure diagram carefully.

Turn in only your final product.

**Phase 1:** Your main function for phase I must look **exactly** like this:

int main()

{

srand(time(0));

doOneSet();

}

You must write the function doOneSet which will, for now, write out 5 addition problems. All of the numbers printed should be between 0 and 100, inclusive. Here is a sample output for this phase:

45 + 21 =

0 + 100 =

54 + 23 =

4 + 19 =

18 + 92 =

The numbers that are produced for these problems must be generated randomly by the computer. The numbers in the sample output are given only as an example. Refer to lesson 7.3 for more information about generating random numbers.

**Phase 2:** Change your doOneSet function so that instead of just writing out the problems it also allows the user to enter an answer, and then tells the user whether the answer was correct or not. Do not change your main function. Here is the sample output for this phase (user input is indicated here by using bold font. It won’t be bold in your own output):

45 + 21 = **66**

correct

0 + 100 = **100**

correct

54 + 23 = **67**

incorrect

4 + 19 = **13**

incorrect

18 + 92 = **110**

correct

Before you move on to phase 3, refer to the structure diagram at the end of this document and make sure that you have adhered to it for all of the functions indicated there for phase 2. This will probably mean dividing your doOneSet function up into functions, if you haven’t done it already.

**Phase 3:** Now you will change your doOneSet function so that it will work for either addition, subtraction, or multiplication. For the purposes of this assignment, a **set** of problems is defined to be a group of problems that are all of the same type (all addition, all subtraction, or all multiplication). After completing this phase your program will give 5 addition problems, 5 subtraction problems, and 5 multiplication problems, for a total of 15 problems. Your main function must look exactly like this:

int main()

{

srand(time(0));

doOneSet(‘+’);

doOneSet(‘-‘);

doOneSet(‘*’);

}

The parameter tells doOneSet whether to do addition, subtraction, or multiplication. Notice that there is **exactly one** doOneSet function definition, not three! Here is the sample output for this phase:

45 + 21 = **66**

correct

0 + 100 = **100**

correct

54 + 23 = **67**

incorrect

4 + 19 = **13**

incorrect

18 + 92 = **100**

correct

59 – 19 = **40**

correct

19 – 84 = **-29**

incorrect

0 – 65 = **-65**

correct

96 – 1 = **95**

correct

94 – 14 = **80**

correct

0 * 87 = **0**

correct

45 * 84 = **398**

incorrect

8 * 37 = **873**

incorrect

34 * 83 = **831**

incorrect

38 * 3 = **238**

incorrect

**Phase 4:** Now you are ready to let the user specify how many problems per set. (Recall that a *set* is a group of problems all of the same type. In this program we are doing three sets: one set of addition, one set of subtraction, and one set of multiplication. This means that, for example, if the problems per set is 7, there will be a total of 21 problems given.) Ask the user to enter the number of problems per set at the very beginning of the program, so that all three sets have the same number of problems per set. Now your main function will look exactly like this except that you may add variable declarations in the indicated location:

int main()

{

<you may add variable declarations here>

srand(time(0));

getProbsPerSet(probsPerSet);

doOneSet(‘+’, probsPerSet);

doOneSet(‘-‘, probsPerSet);

doOneSet(‘*’, probsPerSet);

}

For this phase you should also add a header at the beginning of each set, as illustrated in the following sample output for this phase. For purposes of the header, you should assume that the addition problems will always be set #1, the subtraction problems set #2, and the multiplication problems set #3.

Enter problems per set: **3**

Set #1

———-

45 + 21 = **66**

correct

0 + 100 = **100**

correct

54 + 23 = **67**

incorrect

Set #2

———-

59 – 19 = **40**

correct

19 – 84 = **-29**

incorrect

0 – 65 = **-65**

correct

Set #3

———-

0 * 87 = **0**

correct

45 * 84 = **398**

incorrect

8 * 37 = **873**

incorrect

**Phase 5:** Now let the user specify maxNum, the maximum number to be used for each set. This means that instead of choosing numbers between 0 and 100 (inclusive) for each problem, the computer will be choosing numbers between 0 and maxNum (inclusive). **You must allow the user to enter a different maximum number for each set.** This won’t change the main function, since you need to ask it again before each set. It will be done near the beginning of your doOneSet function. Here’s the sample screen output:

Enter problems per set: **3**

Set #1

———-

What is the maximum number for this set? **100**

45 + 21 = **66**

correct

0 + 100 = **100**

correct

54 + 23 = **67**

incorrect

Set #2

———-

What is the maximum number for this set? **90**

59 – 19 = **40**

correct

19 – 84 = **-29**

incorrect

0 – 65 = **-65**

correct

Set #3

———-

What is the maximum number for this set? **20**

0 * 18 = **0**

correct

15 * 4 = **398**

incorrect

8 * 17 = **873**

incorrect

**Phase 6:** Now you need to keep track of how the user is doing. after the user has attempted all of the problems, your program should write a report that says how many the user got right on **each** set out of how many and for what percent. The percent must be rounded to the nearest integer, as illustrated in the sample output. The report must also indicate the overall figures. Here’s a sample screen output:

Enter problems per set: **3**

Set #1

———-

What is the maximum number for this set? **100**

45 + 21 = **66**

correct

0 + 100 = **100**

correct

54 + 23 = **67**

incorrect

Set #2

———-

What is the maximum number for this set? **90**

59 – 19 = **40**

correct

19 – 84 = **-29**

incorrect

0 – 65 = **-65**

correct

Set #3

———-

What is the maximum number for this set? **20**

0 * 18 = **0**

correct

15 * 4 = **398**

incorrect

8 * 17 = **873**

incorrect

Set#1: You got 2 correct out of 3 for 67%

Set#2: You got 2 correct out of 3 for 67%

Set#3: You got 1 correct out of 3 for 33%

Overall you got 5 correct out of 9 for 56%

Your main function for phase 6 **must** look like this, except that you may add variable declarations and arguments in the indicated locations:

int main()

{

<variable declarations>

srand(time(0));

getProbsPerSet(<arguments>);

doOneSet(<no-more-than-3-arguments>);

doOneSet(<no-more-than-3-arguments>);

doOneSet(<no-more-than-3-arguments>);

printReport(<arguments>);

}

Notice that you may send no more than 3 arguments to doOneSet. Hint: Although main will need three separate variables to keep track of the number of problems answered correctly in each set, your doOneSet function will have only one parameter that keeps track of the number of problems answered correctly in the current set. It will be up to main to get that information into the correct variable.

Notes:

- The doOneProblem function does exactly one problem, not one *type* of problem!!
- CheckAnswer is the function that writes either “correct” or “incorrect”
- You will receive a 0 on this assignment if you use global variables, arrays or structs
- You will lose points if the code you put in one of your functions does not correspond to the name of the function given in the structure diagram.

Turn in your source code for phase 6 and your output from phase 6. A single output is sufficient.

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