Description
P2: RLE with Images
Overview
In this project students will develop routines to encode and decode data for images using run-length encoding (RLE). Students will implement encoding and decoding of raw data, conversion between data and strings, and display of information by creating procedures that can be called from within their programs and externally. This project will give students practice with loops, strings, arrays, methods, and type-casting.
Run-Length Encoding
RLE is a form of lossless compression used in many industry applications, including imaging. It is intended to take advantage of datasets where elements (such as bytes or characters) are repeated several times in a row in certain types of data (such as pixel art in games). Black pixels often appear in long “runs” in some animation frames; instead of representing each black pixel individually, the color is recorded once, following by the number of instances.
0 0 2 2 2 0 0 0 0 0 0 2 2 0_
2 0 3 2 6 0 2 2 1 0_
For example, consider the first row of pixels from the pixel image of a gator (shown in Figure 1). The color back is “0”, and green is “2”:
Flat (unencoded) data:
Run-length encoded data: .
Figure 1 – Gator Pixel Image
The encoding for the entire image in RLE (in hexadecimal) – width, height, and pixels – is:
2 0 3 2 6 0 2 2 2 0 1 2 1 F 1 0 7 2 1 A F 2 1 0 9 2 3 0 1 2 1 0 3 2 6 0 3 2 3 0 8 2 5 0
1 E |1 6
W/ H/ ——————————————PIXELS———————————————–/
Image Formatting
The images are stored in uncompressed / unencoded format natively. In addition, there are a few other rules to make the project more tractable:
1. Images are stored as an array of bytes, with the first two bytes holding image width and height.
2. Pixels will be represented by a number between 0 and 15 (representing 16 unique colors).
For example, the chubby smiley image (Figure 2) would contain the data shown in Figure 3.
Figure 2 Figure 3 – Data for “Chubby Smiley”
NOTE: Students do not need to work with the image file format itself – they only need to work with byte arrays and encode or decode them. Information about image formatting is to provide context.
Requirements
Student programs must present a menu when run in standalone mode and must also implement several methods, defined below, during this assignment.
Standalone Mode (Menu)
When run as the program driver via the main() method, the program should:
1) Display welcome message
2) Display color test (ConsoleGfx.testRainbow)
3) Display the menu
4) Prompt for input
Note: for colors to properly display, it is highly recommended that student install the “CS1” theme on the project page.
There are five ways to load data into the program that should be provided and four ways the program must be able to display data to the user.
Loading a File
Accepts a filename from the user and invokes ConsoleGfx.loadFile(String filename):
Select a Menu Option: 1
Enter name of file to load: testfiles/uga.gfx
Loading the Test Image Loads ConsoleGfx.testImage:
Select a Menu Option: 2_
Test image data loaded._
Reading RLE String
Reads RLE data from the user in decimal notation with delimiters (smiley example):
Select a Menu Option: 3
Enter an RLE string to be decoded: 28:10:6B:10:10B:10:2B:10:12B:10:2B:10:5B:20:11B:10:6B:10
Reading RLE Hex String
Reads RLE data from the user in hexadecimal notation without delimiters (smiley example):
Select a Menu Option: 4
Enter the hex string holding RLE data: 28106B10AB102B10CB102B105B20BB106B10
Reading Flat Data Hex String
Reads raw (flat) data from the user in hexadecimal notation (smiley example):
Select a Menu Option: 5
Enter the hex string holding flat data: 880bbbbbb0bbbbbbbbbb0bb0bbbbbbbbbbbb0bb0bbbbb00bbbbbbbbbbb0bbbbbb0
Displaying the Image
Displays the current image by invoking the ConsoleGfx.displayImage(byte[] imageData) method.
Displaying the RLE String
Converts the current data into a human-readable RLE representation (with delimiters):
Select a Menu Option: 7
RLE representation: 28:10:6b:10:10b:10:2b:10:12b:10:2b:10:5b:20:11b:10:6b:10
Note that each entry is 2-3 characters; the length is always in decimal, and the value in hexadecimal!
Displaying the RLE Hex Data
Converts the current data into RLE hexadecimal representation (without delimiters):
Select a Menu Option: 8
RLE hex values: 28106b10ab102b10cb102b105b20bb106b10
Displaying the Flat Hex Data
Displays the current raw (flat) data in hexadecimal representation (without delimiters):
Select a Menu Option: 9
Flat hex values: 880bbbbbb0bbbbbbbbbb0bb0bbbbbbbbbbbb0bb0bbbbb00bbbbbbbbbbb0bbbbbb0
Class Methods
Student classes are required to provide all of the following methods with the defined behaviors. We recommend completing them in the following order:
1. public static String toHexString(byte[] data)
Translates data (RLE or raw) a hexadecimal string (without delimiters). This method can also aid debugging.
Ex: toHexString(new byte[] { 3, 15, 6, 4 }) yields string “3f64”.
2. public static int countRuns(byte[] flatData)
Returns number of runs of data in an image data set; double this result for length of encoded (RLE) byte array.
Ex: countRuns(new byte[] { 15, 15, 15, 4, 4, 4, 4, 4, 4 }) yields integer 2.
3. public static byte[] encodeRle(byte[] flatData)
Returns encoding (in RLE) of the raw data passed in; used to generate RLE representation of a data.
Ex: encodeRle(new byte[] { 15, 15, 15, 4, 4, 4, 4, 4, 4 }) yields byte array { 3, 15, 6, 4 }.
4. public static int getDecodedLength(byte[] rleData)
Returns decompressed size RLE data; used to generate flat data from RLE encoding. (Counterpart to #2)
Ex: getDecodedLength(new byte[] { 3, 15, 6, 4 }) yields integer 9.
5. public static byte[] decodeRle(byte[] rleData)
Returns the decoded data set from RLE encoded data. This decompresses RLE data for use. (Inverse of #3)
Ex: decodeRle(new byte[] { 3, 15, 6, 4 }) yields byte array { 15, 15, 15, 4, 4, 4, 4, 4, 4 }.
6. public static byte[] stringToData(String dataString)
Translates a string in hexadecimal format into byte data (can be raw or RLE). (Inverse of #1)
Ex: stringToData (“3f64”) yields byte array { 3, 15, 6, 4 }.
7. public static String toRleString(byte[] rleData)
Translates RLE data into a human-readable representation. For each run, in order, it should display the run length in decimal (1-2 digits); the run value in hexadecimal (1 digit); and a delimiter, ‘:’, between runs. (See examples in standalone section.)
Ex: toRleString(new byte[] { 15, 15, 6, 4 }) yields string “15f:64”.
8. public static byte[] stringToRle(String rleString)
Translates a string in human-readable RLE format (with delimiters) into RLE byte data. (Inverse of #7)
Ex: stringToRle(“15f:64”) yields byte array { 15, 15, 6, 4 }.
Submissions
NOTE: Your output must match the example output *exactly*. If it does not, you will not receive full credit for your submission!
File: RleProgram.java
Method: Submit on ZyLabs
Do not submit any other files!
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