COIT20245 Assignment 2 1. Introduction In this assignment, you are to implement a console application that supports simple BMI (Body Mass Index) analysis functionality through a class called...

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COIT20245 Assignment 2 1. Introduction In this assignment, you are to implement a console application that supports simple BMI (Body Mass Index) analysis functionality through a class called BMIAnalyser. A phased implementation approach is recommended; refer to Appendix 2 for further details. 2. The Application The data to be analysed is to be loaded from 3 arrays containing person identifiers, heights (in metres) and weight (in kgs) using the loadFromTables() method provided in Appendix 1. Loading involves the creation of objects of type Record from each data triple (id[i], height[i], weight[i]). These are to be stored in an array of type Record called data. The size of this array is to be the same size as the data arrays. During loading, the BMI for each individual is calculated, using the following formula: BMI = weight / (height*height) where weight is in kilograms and height is in metres. The corresponding category is then determined as follows: Category BMI (kg/m2) from to Very severely underweight 15 Severely underweight 15 16 Underweight 16 18.5 Normal (healthy weight) 18.5 25 Overweight 25 30 Obese Class I (Moderately obese) 30 35 Obese Class II (Severely obese) 35 40 Obese Class III (Very severely obese) 40 This allocation is to be provided as a separate (private) method called classify() that is not provided in Appendix 1. The code for loading is provided in Appendix 1 as the method loadFromTables(). In order to facilitate search, data is to be maintained in ascending order of person id. Sorting is to be done after loading, using a method called sortById(). This method must implement the insertion sort algorithm. Note that loadFromTables() and sortById() are to be invoked from the constructor for the BMIAnalyser class The application’s View class is to execute (using a switch statement) the following command options: 1. Display the record for a specified person 2. Display records for all persons with BMI values within a specified range. 3. Display the minimum, maximum and average BMIs 4. Exit the application As it is a console application, the user will need to be prompted to enter a command and its arguments (if any). My personal preference is for a minimal interaction scheme, as shown below: run: The following commands are recognised Display this message > 0 Display a specific subject record: > 1 subjectID Display records for all subject records within a range > 2 bmi1 bmi2 Display statistics (minimum, maximum and average marks)> 3 Exit the application > 9 > 1 S01 > Note that 1. Each command is designated a number 2. Command 1 requires a single argument – the subject id 3. Command 2 requires 2 arguments – the lower and upper bounds of a range of BMI values 4. I have added a “help” command (command 0) 5. The command options are displayed at the start of the application and whenever a “help” command is entered, rather than than after each command. 6. Records are displayed with no explanation of the fields Feel free to adopt the above scheme or if you prefer, implement a more verbose interaction scheme. For the commands that require arguments ( i.e. command 1 and command 2), note that a. For commands 1 and 2, basic error checking is expected. For command 1, an error message is to be displayed if an id does not exist. For command 2, an error message is to be displayed if a member of the range is < 0="" or=""> 100 or if the second member of a range is less than the first member. b. For command 2, the range is exclusive of the values specified. Consequently, having both members of a range equal is to be flagged as an error. c. For command 1, binary search is to be used. d. For command 2, the results are to be stored in an ArrayList for display The application must conform to the class diagram of Figure 1, although additional private members and methods are permitted. Figure 1. Class Diagram Note that in Figure 1, the visibility of class methods and attributes are designated as + (public) and – (private). Associations are annotated with a label (for readability) and multiplicity. The multiplicity captures the number of object instances that can be involved in the association. In this case, only two values apply – 1 and *, which means many. 3. Submission You are to submit a zipped folder containing • The four .java files that comprise your application. Alternatively, if you have used NetBeans, this can be replaced with a zipped project folder. Details of how to do this are provided in the NetBeans FAQ on the unit website. • Report.docx. This file contains a test report that includes student name, student ID number, unit name, unit code, a test plan and test results. The test plan is to contain a list of the input values that you have used to test the program, the expected output values and the actual output values generated by your program. The test results are screenshots to show that that the program generates the actual outputs shown in the test plan. Note that because BMI is calculated as a floating point value, we can’t (in general) test it for equality. What this means in terms of your test plan is that you do not need to test the category end points – all you need to do is to generate one set of inputs (and the corresponding output) per category. In generating these inputs, you may find a BMI calculator, such as https://www.heartfoundation.org.au/your-heart/know-your-risks/healthy-weight/bmi-calculator useful. Note that markers will use their own test data when testing your assignment. 4. Marking Criteria Criteria Marks Allocated 1 Functionality: Assignment2 class (2 marks) Construction of objects as per spec /2 2 Functionality: View class (3 marks) Command loop implementation /2 Constructor implementation /1 3 Functionality: Record class (2 marks) Constructor, getters implementation /2 4 Functionality: BMIAnalyser class (13 marks) Find record by id (0 if binary search not used) /3 Find records by range of BMI /3 Find lowest BMI /1 Find highest BMI /1 Find average BMI /1 Sort records (0 if insertion sort not used) /3 Calculate category /1 5 Coding Style (5 marks) Program logic /1 Spacing and indentation conventions /1 Naming conventions /1 Comments /2 6 Report (5 marks) Test plan /3 Test results /2 https://www.heartfoundation.org.au/your-heart/know-your-risks/healthy-weight/bmi-calculator Sub-Total /30 Penalties Does not compile/run: 25-30 marks Late submission : 5% (1.5 marks) / day or part of a day Total /30 Appendix 1 The code for the BMIAnalyser. loadFromTables() method (which is to be called from the BMI Analyser constructor) is as follows: private void loadFromTables() { String[] subjects = { // your values go here }; double[] height = { // your values go here }; double[] weight = { // your values go here }; nrecords = subjects.length; data = new Record[nrecords]; for (int i = 0; i < nrecords; i++ ) { double v = weight[i]/(height[i]*height[i]); string c = classify( v ); record r = new record( subjects[i], height[i], weight[i], v, c ); data[i] = r; } } appendix 2 it is good practice to develop an application incrementally. the idea is that the work is broken up into phases, with each phase producing a working system. furthermore, if a phase involves the provision of multiple functionalities, as in phase 3 below, these should also be tackled incrementally. the advantage of this approach is that you have a series of working systems that you can demonstrate to the customer. in your case, it means that you can always submit a working system, albeit one perhaps with limited functionality. for this to work properly, you need to save copies of your nrecords;="" i++="" )="" {="" double="" v="weight[i]/(height[i]*height[i]);" string="" c="classify(" v="" );="" record="" r="new" record(="" subjects[i],="" height[i],="" weight[i],="" v,="" c="" );="" data[i]="r;" }="" }="" appendix="" 2="" it="" is="" good="" practice="" to="" develop="" an="" application="" incrementally.="" the="" idea="" is="" that="" the="" work="" is="" broken="" up="" into="" phases,="" with="" each="" phase="" producing="" a="" working="" system.="" furthermore,="" if="" a="" phase="" involves="" the="" provision="" of="" multiple="" functionalities,="" as="" in="" phase="" 3="" below,="" these="" should="" also="" be="" tackled="" incrementally.="" the="" advantage="" of="" this="" approach="" is="" that="" you="" have="" a="" series="" of="" working="" systems="" that="" you="" can="" demonstrate="" to="" the="" customer.="" in="" your="" case,="" it="" means="" that="" you="" can="" always="" submit="" a="" working="" system,="" albeit="" one="" perhaps="" with="" limited="" functionality.="" for="" this="" to="" work="" properly,="" you="" need="" to="" save="" copies="" of="">
May 05, 2020COIT20245Central Queensland University
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