CMIS 102 Hands-On Lab Week 4 Overview This hands-on lab allows you to follow and experiment with the critical steps of developing a program including...

1 CMIS 102 Hands -On Lab Week 4 Overview This hands -on lab allows you to follow and experiment with the critical steps of developing a program including the program description, analysis, test plan, design (using pseudocode), and implementation with C code. The example provided uses sequential and selection statements. Program Description This program will calculate the sum of 5 integers . The program will ask the user to 5 integers . If the sum of the numbers is greater than 100 , a message is printed stating the sum is over 100. The d esign step will include both pseudocode. Analysis I will use sequential , and selection programming statements. I will define six integer n umbers : value 1, value2, value3, value4, value5 and sum . The v alue 1, value2, value3, value4 and value5 variables will store the integ ers input by the user. The sum will store the sum of the 5 values. The sum will be calculated by this formula : sum = value 1 + value2 + value3 + value4 + value5 For example , if the first values entered were 1,1,2,2 and 3 respectively : sum = 1 + 1 + 2 + 2 + 3 = 9 The additional selection statement will be of this form: If sum > 100 then print " Sum is over 100 " End If Test Plan To verify this program is working properly the input values could be used for testing: Test Case Input Expected Output 1 value 1=1 value 2=1 value 3=1 value 4=0 Value5=2 Sum = 5 2 value=100 value=100 value=100 value= 100 value= 200 Sum = 600 Sum is over 100. 2 3 value= -100 value= -100 value= -200 value = 0 value= 200 Sum = -200 Pseudocode // This program will calculate the sum of 5 integers . // Declare variables Declare value 1, value2, value3, value4, value5 , sum as Integer //Initialize Sum to 0 Set sum = 0 // Enter values Print “Enter an Integer for value1 ” Input value 1 Print “Enter an Integer for value2” Input value2 Print “Enter an Integer for value3” Input value3 Print “Enter an Integer for value4” Input value4 Print “Enter an Integer for value5” Input value5 // Calculate sum sum = value1 + value2 + value3 + value4 + value5 // Print results and messages Print “Sum is “ + sum If (sum > 100) Printf “Sum is over 100 ” End if C Code The following is the C Code that will compile in execute in the online compilers. // C code // This program will calculate the sum of 5 integers. // Developer: Faculty CMIS102 // Date: Jan 31, XXXX #include int main () 3 { /* variable definition: */ int value 1,value2,value3,value4,value5 ,sum; /* Initialize sum */ sum = 0; printf("Enter an Integ er for value1 \n"); scanf("%d", &value 1); printf("Enter an Integer for value2 \n"); scanf("%d", &value 2); printf("Enter an Integer for value3 \n"); scanf("%d", &value 3); printf("Enter an Integer for value4 \n"); scanf("%d", &value 4); printf("Enter an Integer for value5 \n"); scanf("%d", &value 5); sum = value 1 + value2 + value3 + value4 + value5 ; printf("Sum is %d \n " , sum ); if (sum >100) printf("Sum is over 100 \n"); return 0; } Setting up the code and the input parameters in ideone.com : Note the input integer values are 100, 100, 100, 2 00 and 100, for this test case . You can change these values to any valid integer values to match your test cases. 4 Res ults from running within ideone 5 Le arning Exercises for you to complete 1. Change the C code to sum 10 integers as opposed to 5? (Hint: Please d on’t use arrays or Loops for this. We will be using those features in another week. ) Support your experimentation with a screen capture of executing the new code 2. Using the code you create in step 1, modify the code to print an additional statement if the sum of the value is negative (Hint: Consider modifying the existing selection statement) Support your experimentation with a screen capture of executing the new code. 3. Prepare a new test table with at least 3 distinct test cases listing input and expected output for the code you created after step 2. 4. Create your own C code implementation of one of the following mathematical formulas: a. y = mx + b; (slope of a line) Assume the user will be prompted to input m, x and b and the program will calculate y . If the value of y is greater than 10, inform the user the value is greater than 10. b. a = PI * r*r; (area of circle). Assume the user will b e prompted to input the radius r. You can define PI as 3.1416 . . If the value of a is greater than 10, inform the user the value is greater than 10. c. v = 4/3 PI r*r *r; (volume of sphere) Assume the user will be prompted to input the radius r. You can define P I at 3.1416 . If the value of v is greater than 10, inform the user the value is greater than 10. Be sure you provide not only the C code but a test table with at least 3 distinct test cases listing input and expected output your mathematical formula. Submission Submit a neatly organized word (or PDF) document that demonstrates you successfully executed this lab on your machine using an online compiler. You should provide a screen capture of the resulting output.

Submit all C code you created in files. Also, provide the answers and any associated screen captures of your successful completion of exercises 1, 2, 3 and 4. Submit your document no later than the due date listed in the syllabus or calendar. 6 Grading guidelines Submission Points Successfully demonstrate s execut ion of this lab with online compile r. Includes a screen capture . 2 Modifies the C code to sum 10 integers as opposed to 5.

Supports your experimentation with screen captures of executing the code. 2 Using the code created in step 1, modifies the code to print an additional statement if the sum of the value is negative Supports your experimentation with a screen capture of executing the new code. 2 Provides a new test table with at least 3 distinct test cases listing input and expected output for the code you created after step 2. 1 Creates your own unique C code implementation of one of the provided mathematical formulas. Provides a new test table with at least 3 distinct test cases listing input and expected output your mathematical formula. Supports your experimentation with a screen capture of executing the new code. 2 Document is well -organized, and contains minimal spelling and grammatical errors. 1 Total 10