OPENGL 3D Modelling Final Project

Programming

Southern New Hampshire University

Question Description

1. Must resemble a fork

2. Must have all the requirements of the pdf file attached

3. Must be commented thourougly

4. Obviously must be done properly

I have work previously done in the class, and tutorials and such. Let me know what you need

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CS 330 Final Project Guidelines and Rubric Overview The creation of computational graphics and visualizations is a skill in growing demand. These skills are applicable to the following scenarios: the game industry for creating graphics and animations, the healthcare industry for medical visualizations, the entertainment industry for computer-generated imagery (CGI) and visual effects, 3D printing for creating physical objects for applied real-world problem solving, and much more. Throughout this course, you will learn how to write computer code that commands any OpenGL graphics processing unit (GPU) to create, texture, light, render, and animate 3D models in 3D space, and control virtual environments relative to a virtual camera. This assessment addresses the following course outcomes:     Generate accurate representations of three-dimensional objects using application programming interface (API) libraries and computer graphics development best practices Create interactive graphics applications that respond to input devices allowing for successful navigation around three-dimensional objects and through three-dimensional space Employ best practices in formatting, commenting, and functional logic that produce reliable computer programs Defend computer graphic and program development decisions for their effectiveness in meeting project requirements Prompt Your commented code and reflection for this project will demonstrate the skills you have gained creating 3D graphics and the principles discussed in the course. To complete this project, you will select a real-world object (personal item, commercial product, etc.) and create a three-dimensional representation of it. You will create a digitally lit, fully textured 3D object that can be orbited using a virtual camera and mouse controls. In addition, you will reflect on this project by providing documentation explaining how the graphics were created and write about how you applied each step in the OpenGL pipeline. You will also reflect on any challenges that influenced your coding/development decisions. Personal object selection: To minimize complexity and save 3D modeling time, the polygon count for your objects should not exceed 1,000 triangles. While you may want to choose a more complex object, to complete the project within the time constraints of the course, the number of triangles must be limited. Below are examples of objects that can be created using a low polygon count. Please choose from one of these categories: 1     Furniture (chair or table) Kitchen appliances (spoon, knife, cup, not a kettle) Body wash container Animal head sculpture (not a monkey head sculpture) Note: When using images for textures, make sure you are using royalty-free images with resolutions of 1024 x 1024 pixels or higher. Specifically, your project must address the following critical elements: I. 3D Object A. Your 3D object will be assessed visually to ensure it meets the elements below: i. Utilize organized geometry, ensuring that polygons (triangles) on the 3D model are well spaced and connected and give a low-polygon representation of a real-world object. ii. Utilize textures, ensuring that high-resolution textures are projected accurately on the 3D model. iii. Generate lighting, ensuring that all lights are implemented to give a professional-looking presentation and visualization of the model. iv. Apply color to lighting with varying intensities. B. Navigation Through Input Devices: Your applications will be navigated by using the mouse and keyboard input devices to control a virtual camera. The elements below must be met: i. Create horizontal orientation navigation of the 3D object in the application allowing for azimuth orientation of a virtual camera that orbits a lit model when the mouse is moved horizontally. ii. Create vertical orientation navigation of the 3D object in the application allowing for altitude orientation of a virtual camera that orbits a lit model when the mouse is moved vertically. iii. Create code to clamp or gimbal lock azimuth and altitude orientation to prevent irregular camera angles (e.g., a 90-degree camera rotation clamp on the pitch axis). iv. Create perspective and orthographic displays of the 3D object so that the user can change the viewport display of the 3D model from 2D to 3D and vice versa, using the tap of a keyboard key, allowing the user to switch between orthographic (2D) and perspective (3D) views at will. C. Syntax Assessment—Best Practices: These best practices should be evident within your program: i. Employ formatting best practices by providing program code that is easy to read and follows industry-standard code formatting practices, such as indentation and spacing. ii. Utilize commenting best practices, ensuring that project source code used is briefly and clearly explained using descriptive comments. iii. Employ functional coding logic best practices, ensuring that the program runs as expected. 2 II. Reflection A. Justify development choices for your object. Why did you choose your selected object? Were you able to program for the functionality required? B. Explain how a user can navigate your 3D object. Explain how you set up the virtual camera for your 3D object and the programming syntax you used to control its navigation using the input devices. C. Explain the custom functions in your program that you are using to make your code more modular and organized (what does the function do and how is it reusable?). Milestones Your work on the final project is supported by two milestones. Milestone One: Project Proposal In Module Three, you will propose a real-world object to model in your project, submit a photograph of it, and discuss how you will re-create it as a 3D object in modern OpenGL, following the parameters established for the final project. This milestone will be graded with the Milestone One Rubric. Milestone Two: Project Draft In Module Five, you will submit a draft of the final project, including all the aspects of graphics development covered up to this point in the course. This is an important opportunity to try out your skills and receive valuable feedback as you prepare for the final project submission. This milestone will be graded with the Milestone Two Rubric. Final Submission: Commented Code and Reflection In Module Seven, you will submit your final project. It should be a complete, polished artifact containing all of the critical elements of the final product. It should reflect the incorporation of feedback gained throughout the course. This submission will be graded with the Final Project Rubric. 3 Rubric Guidelines for Submission: Submit a commented .cpp file for the 3D object. Also submit a reflection, which should be 1–2 pages using 12-point Times New Roman font and double spacing. Any citations should be in APA format. Critical Elements 3D Object: Organized Geometry Exemplary (100%) Meets “Proficient” criteria and demonstrates a sophisticated use of geometry in the 3D object 3D Object: Textures Meets “Proficient” criteria and demonstrates a sophisticated use of texture on the 3D model 3D Object: Lighting Meets “Proficient” criteria and demonstrates an advanced application of lighting on the 3D object 3D Object: Color Meets “Proficient” criteria and demonstrates a sophisticated use of types of color, tone, and intensity in lighting Meets “Proficient” criteria and demonstrates a sophisticated use of horizontal orientation control Navigation: Horizontal Orientation Proficient (85%) Utilizes organized geometry, ensuring that polygons are well spaced and connected while keeping the polygon count moderate Utilizes textures, ensuring that high-resolution textures are projected accurately on the 3D model Generates lighting, ensuring that all lighting is implemented for a professional presentation and visualization of the model Applies color to lighting with varying intensities Creates horizontal orientation navigation of 3D object allowing for azimuth orientation of a virtual camera that orbits the model when the mouse is moved horizontally 4 Needs Improvement (55%) Utilizes organized geometry, but with errors in ensuring that polygons are well spaced and connected while keeping the polygon count moderate Utilizes textures to ensure that high-resolution textures are projected on the 3D model, but contains some inaccuracies Generates lighting, ensuring that all lighting is implemented for a professional presentation and visualization of the model, but with errors Applies color to lighting, but with errors Not Evident (0%) Does not utilize organized geometry ensuring that polygons are well-spaced and connected while keeping the polygon count moderate Does not utilize textures to ensure that high-resolution textures are projected accurately on the 3D model Does not generate lighting ensuring that all lighting is implemented for a professional presentation and visualization of the model Does not apply color to lighting Value 5.94 Creates horizontal orientation navigation of 3D object allowing for azimuth orientation of a virtual camera that orbits the model when the mouse is moved horizontally, but with errors Does not create horizontal orientation navigation of 3D object allowing for azimuth orientation of a virtual camera that orbits the model when the mouse is moved horizontally 5.94 5.94 5.94 5.94 Navigation: Vertical Orientation Meets “Proficient” criteria and demonstrates a sophisticated use of vertical orientation control Creates vertical orientation navigation of 3D object allowing for altitude orientation of a virtual camera that orbits the model when the mouse is moved vertically Navigation: Clamp Meets “Proficient” criteria and demonstrates a sophisticated use of angle control due to clamping Creates code to clamp azimuth and altitude orientation to prevent irregular camera angles Navigation: Perspective and Orthographic Displays Syntax: Formatting Best Practices Syntax: Commenting Code Syntax: Functional Logic Creates perspective and orthographic displays of 3D object so that the user can change the viewport display of the 3D model from 3D to 2D using the keyboard Meets “Proficient” criteria and demonstrates a sophisticated awareness of industry best practices in formatting Meets “Proficient” criteria and demonstrates keen insight into best practices in commenting code Provides program code that is easy to read and follows formatting best practices as defined by the industry Utilizes commenting best practices, ensuring that project source code used is briefly and clearly explained using descriptive comments Meets “Proficient” criteria and demonstrates keen insight into best practices in functional logic Employs functional coding logic best practices, ensuring that program runs as expected 5 Creates vertical orientation navigation of 3D object allowing for altitude orientation of a virtual camera that orbits the model when the mouse is moved vertically, but with errors Creates code to clamp azimuth and altitude orientation to prevent irregular camera angles, but with errors Creates perspective and orthographic displays of 3D object so that the user can change the viewport display of the 3D model from 3D to 2D using the keyboard, but with errors Provides program code that is easy to read, but follows only some formatting best practices Utilizes commenting best practices, ensuring that project source code used is explained using descriptive comments, but comments lack detail or clarity Employs functional coding logic best practices, ensuring that program runs, but with errors Does not create vertical orientation navigation of 3D object allowing for altitude orientation of a virtual camera that orbits the model when the mouse is moved vertically 5.94 Does not create code to clamp azimuth and altitude orientation to prevent irregular camera angles Does not create perspective and orthographic displays of 3D object so that the user can change the viewport display of the 3D model from 3D to 2D using the keyboard 5.94 Does not provide program code that is easy to read or does not follow any formatting best practices Does not utilize commenting best practices to explain project source code 7.92 Does not employ functional coding logic best practices 7.92 5.94 7.92 Reflection: Development Choices Meets “Proficient” criteria and demonstrates a keen insight into development choices for this project Justifies development choices of the 3D object and explains how the required functionality was achieved Reflection: User Can Navigate Meets “Proficient” criteria and demonstrates a nuanced understanding of user navigation Explains how the user can navigate the 3D object, the setup of the virtual cameras, as well as the programming syntax used for the input devices Reflection: Custom Functions Meets “Proficient” criteria and demonstrates a nuanced understanding of the program functions Explains the custom functions used in the program, what they do, and how they are reusable Articulation of Response Submission is free of errors related to citations, grammar, spelling, syntax, and organization and is presented in a professional and easy-toread format Submission has no major errors related to citations, grammar, spelling, syntax, or organization 6 Justifies development choices of the 3D object and explains how the required functionality was achieved, but justification and explanation lack detail or clarity Explains how the user can navigate the 3D object, the setup of the virtual cameras, as well as the programming syntax used for the input devices, but explanation lacks detail or clarity Explains the custom functions used in the program, what they do, and how they are reusable, but explanation lacks clarity or detail Submission has major errors related to citations, grammar, spelling, syntax, or organization that negatively impact readability and articulation of main ideas Does not justify development choices or explain how the required functionality was achieved 7.92 Does not explain how the user will navigate the 3D object, the setup of the virtual cameras, as well as the programming syntax used for the input devices 7.92 Does not explain the custom functions used in the program, what they do, and how they are reusable 7.92 Submission has critical errors related to citations, grammar, spelling, syntax, or organization that prevent understanding of ideas 4.96 Total 100% ...
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