CS 2110 Homework 8 Solved

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GBA
Your TAs
Contents
1 Overview 3
1.1 Purpose 3
1.2 Tasks 3
1.3 Criteria 3
2 Before You Start 4
2.1 Resources 4
3 Requirements 6
3.1 Feature Requirements 6
3.2 Technical Requirements 7
3.3 Demo 7
4 Deliverables 7
5 Appendix 8
5.1 Appendix A: What to Make? 8
5.1.1 Example Programs 8
5.2 Appendix B: GBA Coding Guidelines 10
5.2.1 Building and Running your Code 10
5.2.2 Images 10
5.2.3 DMA / drawImageDMA 11
5.2.4 GBA Controls 11
5.2.5 C Coding Conventions 11
5.2.6 Reducing Tearing 12
5.2.7 Debugging 13
5.2.8 Making Sense of the Files 13
5.2.9 Submitting 14
5.2.10 Installing Dependencies Without Docker 14
5.3 Appendix C: Rules and Regulations 15
5.3.1 General Rules 15
5.3.2 Submission Guidelines 15
5.3.3 Syllabus Excerpt on Academic Misconduct 15
5.3.4 Is collaboration allowed? 15

1 Overview
1.1 Purpose
The goal of this assignment is to make a C program that will run on a Game Boy Advance emulator. Your program will be an interactive graphical application. Your program can be a game, or any other interactive program that meets the requirements outlined below.
While completing this program, you will learn about low level hardware programming in C. This program is similar to how you would write device drivers or parts of an operating system, which are typically written in C. The GBA devices (screen, buttons, DMA controller, etc.) are accessed via memory-mapped I/O. You will access specific hard-coded memory addresses in your C code. You will gain experience with bit masks and bitwise operators to set bits in the device registers.
The GBA is also a very slow computer. You will learn tricks to optimize the performance on a resourcelimited hardware device (such as DMA, integer math instead of floating point, and so forth).
1.2 Tasks
You will write an interactive graphical application in C that runs on the GBA emulator. This application can be a game, or any application that meets the feature and technical requirements below. For ideas on what you could do, please see What to Make in the Appendix. This is an open-ended assignment. Just be sure that your program meets all the requirements.

We have provided some resources to help you get started. You can use the outline structure of a program, and fill in code to do what your application specifically does. You should have at least one .h header file and one .c file. You can have more if you wish.

1.3 Criteria
You will be evaluated on meeting all the feature requirements and technical requirements described below.

You will also demo this assignment to one of your TAs.
This assignment offers an opportunity for you to be creative if you want to. However, creativity (and artistic ability) are NOT required. Your grade will be based on meeting all the requirements outlined below.
If you write a very creative program, but do not meet all the requirements, you will lose points. On the other hand, if you write a minimal program that works and meets all the requirements, but is not exciting, you will get full credit. Please do not feel pressure to be creative if that is not your personality, or if you do not have time to do so.
2 Before You Start
2.1 Resources
To tackle this homework, we’ve provided:
• A gba.h file that contains all of the necessary GBA declarations such as DMA, videoBuffer, etc.
• Several other files which contain more “starter” code to get you rolling. See Section 5.7 for details.
• A Makefile that you can use to compile and run your program by typing or make med In addition, here are some other helpful resources:
• Lab Guides/Slides
• Lecture Slides 17 and 18
• TONC – full documentation of the GBA, including advanced features
• Lecture Demo Code: Canvas > Files > Source Code > gba demo
• The Appendix, including GBA Coding Guidelines

Feel free to use code from class resources as you need to, but as always, not from your friends or random sketchy Internet sites.
Your main.c should be something different from lecture code, since in this homework you will be creating your own program. You should keep the core setup with videoBuffer, MODE 3, waitForVBlank, etc., though.
• Do not use floats or doubles in your code. Doing so will slow your code down greatly. The ARM7 processor the GBA uses does not have a floating-point unit which means floating point operations are slow as they are done in software, not hardware. Anywhere you use floats, gcc has to insert assembly code to convert integers to that format. If you do need such things that you think requires floats or doubles, you should look into fixed point math.
• We strongly recommend that you do not use malloc() in your program. Instead, use arrays large enough to hold all possible elements (images, game characters, etc.) that you could possibly have at one time. You can use an array of structs, as in the lecture code example.
• Only call waitForVBlank once per iteration of your main loop. Each waitForVBlank call will stall your program for about one sixtieth of a second, so excessive calls will make your program feel slower. • Keep your code efficient; particularly, try to do as little drawing per frame as possible. See the guide on Reducing Tearing for tips on how to make your drawing more efficient.

• If your program does have tearing, keep in mind that it will affect the top of the screen first. So, if text or images drawn at the top of the screen are disappearing for some unknown reason, it is likely that your program is attempting to draw during the VDraw period, which is often leads to tearing.
• If you choose to use more advanced GBA features like sprites or sound, making them work is your responsibility; we (the TAs) do not really know how they work, so we sadly can’t help you. (TONC is useful to reference when implementing these features, if you do choose to add them.) Note that sound support is currently unstable and is unlikely to work in the current version of the Docker container.
3 Requirements
3.1 Feature Requirements
• Include a README.txt or README.md file with your submission that briefly explains the program and the controls. Don’t forget to put this in your Gradescope submission! (2 points) • Your program must compile. This is the most important requirement, since we can’t grade your feature requirements otherwise. (5 points)
• You must use 3 distinct images in your program, all drawn with DMA. (10 points)
– Two full screened images sized 240×160. One of these images should be the first screen displayed when launching your program.
– A third image which will be used during the course of your program. The width of this image must be less than 240 pixels and the height of this image must be less than 160 pixels.
– Note: all images should be included in your submission.
– You should use nin10kit to convert images in standard formats like PNG and JPEG into C header files with a constant short array containing 16-bit pixel values. See the Images section in the appendix for instructions on how to create your own custom images.
• You must be able to reset the program to the title screen AT ANY TIME using the “select” (backspace) key. This resets the ENTIRE program, including application state. (5 points)
• Button input should visibly and clearly affect the flow of the program. Examples include pressing the start button or enter key to transition from a game’s title screen into gameplay, or using the arrow keys to move an image across the screen. (5 points)
• You must have 2-dimensional movement of at least one entity (an entity that moves both left/right and up/down). One entity moving up/down and another moving left/right alone does not count. (5 points)
• You should implement some form of object collision. Please make your collision more intricate than an object colliding with the borders of the screen; try to implement collision between objects. For

• Use text to show progression in your program. (5 points)
– Examples of text progression include on-screen timers, score counters, or any other text that displays useful information to the user.
– Several functions for drawing strings are already implemented in gba.h and gba.c. To use these, you must implement drawPixel in gba.c.
– See the lecture code for an example of how to implement text progression.
• There must be no tearing in your program. Make your code as efficient as possible! Check out the appendix for tips on how to reduce tearing. (8 points)
3.2 Technical Requirements
• Your program must be in Mode 3! – Mode 3 should be the very first thing set in the main method. (No added points, but this is pretty much required for some of the other requirements.)
• You must implement waitforVBlank() (5 points)
• You can create your own header file or use the main.h header already available. You must move any #defines, function prototypes, and typedefs to this file from your code, along with your extern videoBuffer statement if you wish to use videoBuffer in other files. Remember that function and variable definitions should not go in header files, just prototypes, extern variable declarations, and struct declarations. (5 points)
– As always, do not include .c files into other files. Only .h files should be included and .h files should contain no functional code.
– It is optional for you to use other .c/.h files to organize your logic if you wish. Just make sure you include them in your submission and Makefile.
3.3 Demo
4 Deliverables
Please archive all of your source code files as a zip or a tar and upload to Gradescope under the “Homework 8” assignment. This includes all .c and .h files needed for your program to compile and run. Do not submit any compiled files. You can use make clean to remove any compiled files, or make submit to remove compiled files and create a tar archive. This tar archive should also contain your README.
5 Appendix
5.1 Appendix A: What to Make?
5.1.1 Example Programs
Minimum Viable Product:
• As stated in the Overview, you do not need to make a complex or creative program; it must only fulfill the minimum requirements
• Create a start screen and a win screen that use the two required full-screen DMA images
• Use the arrow keys to move a small DMA image around the screen; store this image’s position using a struct
• Transition to the win screen when the player-controlled image touches a goal zone (represented via a colored rectangle or image)
• Use text to show an on-screen timer, and display the total time taken on the win screen Interactive Storybook:
• Recreate a story from a movie or a book using the GBA
• Use text to narrate what is currently happening in the scene
• Use the controls to advance to the next scene or control a character within the scene
• Smooth movement (for any moving characters or objects)
• Start off with a full screen title image and end with a full screen credits image
• Characters represented by structs Galaga:
• Use text to show lives
• Game ends when all lives are lost. Level ends when all aliens are gone.
• Different types of aliens: there should be one type of alien that rushes towards the ship and attacks it
• Smooth movement (aliens and player)
• Aliens and the ship represented by structs
The World’s Hardest Game:
• Smooth motion for enemies and player (no jumping around)
• Confined to the boundaries of the level
• Enemies moving at different speeds and in different directions
• Sensible, repeating patterns of enemy motion
• Enemies and the player represented by structs Flyswatter:
• Images of flies moving smoothly across the screen
• Player controlled flyswatter to swat the flies
• Score counter to keep track of how many flies have been swatted
• Fullscreen image for title screen and game background
• Enemies and the player represented by structs
5.2 Appendix B: GBA Coding Guidelines
5.2.1 Building and Running your Code
To build your code and run the emulator, run:
$ make med
This must be run inside of the Docker container via noVNC (that is, running in your browser). Since the application is graphical, the emulator will fail to start if you are running via ./cs2110docker.sh -it.
5.2.2 Images
As a requirement, you must use at least 3 images in your program. To use images in GBA, you will first have to convert them into the suitable format. We recommend using a tool called nin10kit, which is pre-installed on the Docker image, or you just installed using the command above.
You can read about nin10kit in the nin10kit documentation (there are pictures!):
https://github.com/TricksterGuy/nin10kit/raw/master/readme.pdf nin10kit reads in, converts, and exports image files into C arrays in .c/.h files ready to be copied to the GBA video buffer by your implementation of drawImageDMA()! It also supports resizing images before they are exported.
You want to use Mode 3 since this assignment requires it, so to convert a picture of smelly festering garbage into GBA pixel format in garbage.c and garbage.h, resizing it to 50 horizontal by 37 vertical pixels, you would run nin10kit like
$ nin10kit –mode=3 –resize=50×37 garbage garbage.png This creates a garbage.h file containing
extern const unsigned short garbage[1850];
#define GARBAGE_SIZE 3700
#define GARBAGE_LENGTH 1850
#define GARBAGE_WIDTH 50 #define GARBAGE_HEIGHT 37 which you can use in your program by saying #include “garbage.h”.
The garbage.c generated, which you should add to the Makefile under OFILES as garbage.o if you plan to use it, contains all of the pixel data in a huge array:
const unsigned short garbage[1850] =
{
0x7fff,0x7fff,0x7fff,0x7fff,0x7fff, // …
0x7fff,0x7fff,0x7fff,0x7fff,0x7fff, // … // …
0x7fff,0x7fff,0x7fff,0x7fff,0x7fff, // …
0x7fff,0x7fff,0x7fff,0x7fff,0x7fff, // …
};
We’ve included garbage.png, garbage.c, and garbage.h in the homework zip so you can check them out yourself. To draw the garbage in your own program, you can pass the array, width, height to your drawImageDMA() like drawImageDMA(10, 20, GARBAGE WIDTH, GARBAGE HEIGHT, garbage) (to draw at row 10 and col 20). (Keep in mind that this image will only work with drawImageDMA; it is not a fullscreen image.) The next section will cover drawImageDMA() in more detail.
5.2.3 DMA / drawImageDMA
In your program, you must use DMA to code drawImageDMA.
The GBA screen is represented with a short pointer declared as videoBuffer in the gba.h file. The pointer represents the first pixel in a 240 by 160 screen that has been flattened into a one dimensional array. Each pixel is a short and has red, green, and blue channels.
If you want to wait, then you can choose to implement drawImageDMA without DMA and then when you learn DMA rewrite it using DMA. Your final answer for drawImageDMA must use DMA.
You must not use DMA to do single-pixel copies (doing so defeats the purpose of DMA and is actually slower than just using setPixel!). Solutions that do this will receive no credit for that function. The prototype and parameters for drawImageDMA are as follows.
/* drawImageDMA
* A function that will draw an arbitrary sized image* onto the screen (with DMA).
* @param row the row coordinate to start drawing the image at
* @param col the col coordinate to start drawing the image at
* @param width width of the image
* @param height height of the image
* @param image pointer to the first element of the image
*/ void drawImageDMA (int row, int col, int width, int height, const u16 *image) { // TODO: implement 🙂
}
Protip: if your implementation of this function does not use all the parameters that are passed in then you are not implementing the function correctly. You should know that DMA acts as a for loop, but it is done in hardware.
5.2.4 GBA Controls
Here is the mapping between GameBoy buttons and keyboard keys in our configuration of the mednafen emulator:
GameBoy Keyboard
Start Enter
Select Backspace
A Z
B X
L A
R S
The directional arrows are mapped to the same directional arrows on the keyboard.
5.2.5 C Coding Conventions
• Do not jam all your code into one function (i.e. the main function)
• Split your code into multiple files (for example, you can have your main logic in your main files, but other helper functions for drawing or assessing the application state in external files)
• Do not include .c files into other files. Only .h files should be included.
• .h files should contain no functional code.
• Comment your code, and comment what each function does.
5.2.6 Reducing Tearing
• If you see images at the top of the screen start to flicker, you are likely experiencing tearing. This typically happens because you are drawing during the VDraw phase of the GBA’s drawing cycle, which means there is a possibility that any pixels that you write to the video buffer will not be drawn until the next VDraw cycle.
– Drawing a fullscreen image without DMA will take over three full VBlank cycles. You should never, ever draw this many pixels without using DMA.
– Drawing a fullscreen image with DMA will take 124 scanlines, which is more than a single VBlank phase! So, even if you start at the very beginning of a VBlank phase, you can never draw an entire fullscreen image without entering VDraw. This is not necessarily bad, since DMA typically starts at the top of the screen, so the top portion of the full screen image is drawn before there is any risk of tearing; however, this also means that any text or images drawn at the top of the screen after the full-screen image will not be drawn until the VBlank period is over.
– The maximum amount of pixels drawable during a VBlank phase WITHOUT DMA is approximately 1610. Remember this when drawing text, since text does not use DMA.
– The maximum amount of image pixels drawable during a VBlank phase WITH DMA is approximately 20690. Remember this if you plan to draw many images on-screen.
– Clearing the screen with a constant color using DMA is barely possible inside a single VBlank phase (63 scanlines). 32-bit DMA can be used to fill the screen in 47 scanlines (approximately 70 percent of the VBlank phase).
• The best way to reduce tearing is to simply draw less. As explained above, using a solid color background is more efficient than an image background. You should also minimize the number of images on-screen, and use text sparingly.
• However, it is possible to use an image as a background by using an undraw function. This is a function that takes a full-screen image and draws only a portion of the image to the screen. By using this function, you can skip having to redraw the entire background whenever the player moves; instead, you only need to redraw the portion near the player.
• If you simply must draw a fullscreen image and other small images and text in a single frame, there are a few workarounds. One easy option is to create a second buffer (a 38400-element short array) that you will ”draw” to during VDraw; then, as soon as VBlank begins, you can DMA the second buffer’s data to the main video buffer. A more difficult option is to draw everything at the top of the screen first, then everything at the bottom of the screen; this avoids tearing by taking advantage of the fact that scanlines go from the top of the screen downwards.
5.2.7 Debugging
The GBA does not have a console to print to, so you cannot rely on traditional printf debugging. In fact, if you try to use printf, it will fail to compile. Using GDB is also not easy with GBA games. Here are two options to use instead:
• First, implement setPixel and set up main.c to the point where you can draw pixels to the screen. Verify that your setPixel implementation is correct. Then, instead of using printf debugging, you can set individual pixels or groups of pixels in a fixed part of the screen to different colors to indicate different states of your program.
• After implementing setPixel, you can also use drawString along with snprintf for debugging. First, use snprintf (see man snprintf) to format the string you want to display into a large-enough character array, and then draw the result to a fixed location on the screen using drawString.
Note that drawing text is relatively slow, so you should remove unnecessary debug text after you’re done to prevent tearing.
5.2.8 Making Sense of the Files
• Makefile
• main.c
This file contains a state machine which ultimately calls all other functionality in the program. It is also the main entry point to the entire application.
• main.h
This file should contain any function prototypes and structs that you create.
• gba.h
This file contains a large collection of useful macros and constants which will help primarily with GBA-specific tasks. These include macros for handling GBA input, DMA graphics, and general GBA graphics.
The file also contains an extern declaration of the font data found in font.c, which is necessary for drawing text.
This file also contains some prototypes for functions in gba.c.
• gba.c
The functions you will write in this file do the “dirty” work, executing graphics updates with both DMA and non-DMA strategies. All of this code will be very specific to the GBA platform and the way it handles graphics.
The file also comes with some prepackaged functions for drawing text.
• font.c
Simply exists to store a large amount of font data. No real need to mess around with this file.
• Various Image Files
When you create your own image files, you will need to include the relevant header files in any file you’d like to reference these images from. The data stored in each of these files (and how to create them) is pretty well explained in section 5.3.
• Personal .c files and .h files
You are heavily encouraged to split your code up into separate .c and .h files! Do not put everything in your main method. Keep your code organized and readable.
NOTE: For any .c files you create please place its respective .o file in the OFILES variable in the Makefile. For example, if you create newFile.c you will need to update the Makefile to reference the newFile object file.
OFILES = gba.o font.o main.o images/garbage.o newFile.o
5.2.9 Submitting
To submit your code:
1. Make sure your code compiles by running make med
2. Clean the build artifacts by running make clean 3. Create the submission tar by running make submit
4. Turn in submission.tar.gz on Gradescope!
5.2.10 Installing Dependencies Without Docker
If you are not using Docker, you will have to install some dependencies before you are able to begin compiling and running GBA code. If you are using Ubuntu (and possibly other Debian-based distros), run the following commands (don’t worry about these if you are using Docker):
$ sudo add-apt-repository ppa:tricksterguy87/nin10kit
$ sudo apt update
$ sudo apt install gcc-arm-none-eabi mednafen cs2110-gba-linker-script nin10kit
This also requires the CS 2110 GBA linker scripts, which can be downloaded by clicking here. To install them, run the following command, assuming the file is in the current directory:
$ sudo apt install cs2110-gba-linker-script_1.1.2-0ubuntu1~ppa1~bionic1_amd64.deb
5.3 Appendix C: Rules and Regulations
5.3.1 General Rules
2. If you find any problems with the assignment it would be greatly appreciated if you reported them to the TAs. Announcements will be posted if the assignment changes.
5.3.2 Submission Guidelines
2. You are also responsible for ensuring that what you turned in is what you meant to turn in. After submitting you should be sure to download your submission into a brand new folder and test if it works. No excuses if you submit the wrong files, what you turn in is what we grade. In addition, your assignment must be turned in via Canvas/Gradescope. Under no circumstances whatsoever we will accept any email submission of an assignment. Note: if you were granted an extension, you will still turn in the assignment over Canvas/Gradescope unless instructed otherwise.
5.3.3 Syllabus Excerpt on Academic Misconduct
Academic misconduct is taken very seriously in this class. Quizzes, timed labs and the final examination are individual work.
Homework assignments are collaborative, In addition many if not all homework assignments will be evaluated via demo or code review. During this evaluation, you will be expected to be able to explain every aspect of your submission. Homework assignments will also be examined using computer programs to find evidence of unauthorized collaboration.
You are expressly forbidden to supply a copy of your homework to another student via electronic means. This includes simply e-mailing it to them so they can look at it. If you supply an electronic copy of your homework to another student and they are charged with copying, you will also be charged. This includes storing your code on any site which would allow other parties to obtain your code such as but not limited to public repositories (Github), pastebin, etc. If you would like to use version control, use github.gatech.edu
5.3.4 Is collaboration allowed?

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