cs.sjsu.edu/faculty/pearce/modules/projects/ood/miniMac/index.htm do the assignm

cs.sjsu.edu/faculty/pearce/modules/projects/ood/miniMac/index.htm
do the assignment follow the instructions.
MiniMac
MiniMac is a virtual processor with a tiny but extendable memory and a tiny but extendable instruction set.
Here’s a screenshot of the MiniMac user interface:
The view panel on the right contains two lists (javax.swing.JList). The top list shows the contents of memory. The bottom list shows the program currently being executed. The control panel on the left contains three buttons (javax.swing.JButton). The first button prompts the user for a program to parse:
The second button executes the program. The third button resets all memory cells to 0.
These commands are duplicated under the Edit menu. The Help menu explains each command. The File menu contains the items: New, Save, Open, and Quit.
The MiniMax memory is an array of integers:
int size = 32;
Integer[] memory = new Integer[size];
A MiniMax program is a list of instructions. An instruction pointer (ip) indicates the position in the list of the next instruction to be executed.
Grammar
Here’s the instruction set grammar (note: “~” means “followed by” and all unquoted tokens are integers):
Load ::= “load” ~ location ~ value // memory[location] = value
Halt ::= “halt” // terminates the program
add ::= “add” ~ src1 ~ src2 ~ dest // memory[dest] = memory[src1] + memory[src2]
mul ::= “mul” ~ src1 ~ src2 ~ dest // memory[dest] = memory[src1] * memory[src2]
bgt ::= “bgt” ~ location ~ offset // if 0 < memory[location] ip += offset blt ::= “blt” ~ location ~ offset // if memory[location] < 0 ip += offset loop ::= “loop ~ count ~ instruction // executes instruction count times A block is a list of one or more instructions separated by semicolons and bracketed by curly braces: block ::= “{“ ~ instruction ~ (“;” ~ instruction)* ~ “}” Executing a block sequentially executes each instruction in the block’s body. For example, the program shown in the screenshot computes kn, where n is stored in memory[0]. The base, k, is stored in memory[2]. In this case k = 2, n was 7 and the result, 128, is stored in memory[1]. Memory[3] is the amount to decrement memory[0] each time the result is multiplied by k. Design Here’s the design of MiniMac: Parser Here’s a partial implementation of MiniMacParser.java. Note that it is a utility class (aka singleton), all of its methods are static. Testing Implement and test the following functions in MiniMax: Tri(n) = 1 + 2 + ... + n // stored in a file called tri Fib(n) = nth Fibonacci number // stored in a file called fib Less(n, m) = (n < m)?1:0 // 1 = true and 0 = false Log(n) = m where 2m <= n and n < 2m+1 In each case the input, n, should be stored in memory[0] and the output, f(n), should be stored in memory[1]. Hints 1.The MiniMax is a publisher and the view panel is its subscriber. Each time memory is updated or a new program is set, MiniMax notifies its subscribers. 2.The control panel is the action listener for its buttons. It navigates to the MiniMax and calls the appropriate procedure (execute and clear). 3.Parsing is more complicated. The control panel must prompt the user for a file name, read the file (as a string), then pass the string to MiniMaxParser.parse(program). It then sets the MiniMax program to the parser’s output, which causes a subscriber notification. Suggestion: ask ChatGPT how to read a text file in Java. 4.Ask ChatGPT for a simple example of how to use a JList.

The purpose of this homework is to deepen your understanding of domain modeling,

The purpose of this homework is to deepen your understanding of domain modeling, a crucial aspect of software design
and architecture. This exercise will help you grasp the importance of accurately representing the various entities,
attributes, relationships, and constraints of a given problem domain. By the end of this assignment, you should be able to
effectively translate real-world problems into clear, well-structured domain models, a skill that is fundamental to
successful software development.
use this website to do the visual case diagram: https://online.visual-paradigm.com/drive/#diagramlist:new=UseCaseDiagram

The purpose of this homework is to deepen your understanding of domain modeling,

The purpose of this homework is to deepen your understanding of domain modeling, a crucial aspect of software design
and architecture. This exercise will help you grasp the importance of accurately representing the various entities,
attributes, relationships, and constraints of a given problem domain. By the end of this assignment, you should be able to
effectively translate real-world problems into clear, well-structured domain models, a skill that is fundamental to
successful software development.
use this website to do the visual case diagram: https://online.visual-paradigm.com/drive/#diagramlist:new=UseCaseDiagram

The purpose of this homework is to deepen your understanding of domain modeling,

The purpose of this homework is to deepen your understanding of domain modeling, a crucial aspect of software design
and architecture. This exercise will help you grasp the importance of accurately representing the various entities,
attributes, relationships, and constraints of a given problem domain. By the end of this assignment, you should be able to
effectively translate real-world problems into clear, well-structured domain models, a skill that is fundamental to
successful software development.
use this website to do the visual case diagram: https://online.visual-paradigm.com/drive/#diagramlist:new=UseCaseDiagram

MileMaster Auto Rentals seeks to implement an automated solution for managing ca

MileMaster Auto Rentals seeks to implement an automated solution for managing car bookings, client invoicing, and vehicle auctions. The typical process involves a client reserving a vehicle, collecting it, and returning it after a set duration. Upon vehicle collection, the client can purchase or decline collision insurance. Once the car is returned, an invoice is issued to the client, who settles the payment. It’s important to note that the vehicle’s mileage is recorded at collection and return to calculate the correct billing amount. Besides renting vehicles, the company also auctions off any cars that have accumulated over 20,000 miles approximately every six months.
1. Using Visual Paradigm, construct a use case diagram from the above requirements statement showing all actorsand (at least four) major use cases. Your major use cases should include Reserve, Pick Up, and Return. Add <>, <>, and generalization relations as needed.
2. Write the Reserve Car and Return Car use cases using the brief format.
3. Write the Pickup use cases using the fully-dressed format.
You must use this website to make your case picture (search Use Case): https://online.visual-paradigm.com/drive/#diagramlist:proj=0&dashboard
DO NOT USE ANY AI (I will check)

The required steps for the solution are: 1. Avoid plagiarism. 2. Do not use arti

The required steps for the solution are:
1. Avoid plagiarism.
2. Do not use artificial intelligence such as ChatGPT, etc.
3. Utilize MATLAB software and attach a screenshot of the codes used within the program for each section.
4. Explain the solution method for each section.
5. The project requires attaching MATLAB results, including codes and images (as required by the project).
6. List the names of the programs used in the project on the last page.
7. Sentence formatting is required.
8. An attachment is provided for further clarification.

MileMaster Auto Rentals seeks to implement an automated solution for managing ca

MileMaster Auto Rentals seeks to implement an automated solution for managing car bookings, client invoicing, and vehicle auctions. The typical process involves a client reserving a vehicle, collecting it, and returning it after a set duration. Upon vehicle collection, the client can purchase or decline collision insurance. Once the car is returned, an invoice is issued to the client, who settles the payment. It’s important to note that the vehicle’s mileage is recorded at collection and return to calculate the correct billing amount. Besides renting vehicles, the company also auctions off any cars that have accumulated over 20,000 miles approximately every six months.
1. Using Visual Paradigm, construct a use case diagram from the above requirements statement showing all actorsand (at least four) major use cases. Your major use cases should include Reserve, Pick Up, and Return. Add <>, <>, and generalization relations as needed.
2. Write the Reserve Car and Return Car use cases using the brief format.
3. Write the Pickup use cases using the fully-dressed format

Select 3 websites and conduct a black box test. •What test-to-pass strategies d

Select 3 websites and conduct a black box test.
•What test-to-pass strategies did you use?
•Provide input data values and expected output for all scenarios you used
• What test-to-fail strategies did you use?
• Provide input data values and expected output for all scenarios you used
• Did you induce any bugs?
• What data values did you use?
• What boundary conditions did you use when testing the application?
• What boundary edges did you set when testing the application?
• Document your work in a PowerPoint slide.