Difference between revisions of "CSC352 Game of Life Lab 2017"
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Revision as of 17:19, 8 February 2017
--D. Thiebaut (talk) 17:02, 8 February 2017 (EST)
Contents
Game of Life
In this lab you will write a multithreaded version of Conway's Game of Life.
Serial Game of Life
Wikipedia has a good page on Conway's game of life. Please read the first section containing the rules.
The program below is a serial version of the game of life taken from RosettaCode.org.
It displays the generation of cells using simply ascii characters on the console. Get a copy of it with the following command:
getcopy GameOfLife.java
If that doesn't work, just copy/paste it in a file called GameOfLife.java in your 352b-xx account.
Compile and run it as follows:
javac GameOfLife.java java GameOfLife
and adjust the size of your terminal/console to make sure you can see the pattern evolving.
The game is coded so that the array wraps around horizontally, and vertically. So a pattern sliding on the array will reach the bottom and reappear at the top. Similarly, a pattern sliding off the left will reappear on the right.
The generations are stable for a few seconds, then one of the moving patterns (glider) hits the blinker, and the population of cells start growing until it freezes with just a few cells blinking.
/* Game of life D. Thiebaut Heavily adapted from code found in java section at this URL: https://rosettacode.org/wiki/Conway%27s_Game_of_Life#Java This code works in console mode, displaying successive generations of the game of life on the screen, and clearing the screen between each one. The initial pattern is defined in the array dish (as in petri dish). To compile and run: javac GameOfLife.java java GameOfLife */ public class GameOfLife{ public static void main(String[] args){ String[] dish2 = { " ", " # ", " # ", " # ", " " }; String[] dish= { " ", " # ", " # # ### ", " ## ", " ", " # ", " # # ", " ## ", " ", " ", " ", " ", " # ", " # # ", " ## ", " ", " ", " ", " ", " ", " ", " ", " ", " ", " ", " ", " ", " " }; int gens= 30000; for (int i= 0;i < gens;i++) { //System.out.println("Generation " + i + ":\n\n\n"); print(dish); dish= life(dish); clearScreen(); // add a bit of a delay to better see the visualization // remove this part to get full timing. try { Thread.sleep(50); } catch(InterruptedException ex) { return; } } } public static void clearScreen(){ /* brings the cursor home (top-left), so that the next generation will be printed over the current one. */ final String ANSI_CLS = "\u001b[2J"; final String ANSI_HOME = "\u001b[H"; System.out.print( ANSI_HOME); System.out.flush(); } public static String[] life(String[] dish){ /* Given an array of string representing the current population of cells in a petri dish, computes the new generation of cells according to the rules of the game. A new array of strings is returned. */ String[] newGen= new String[dish.length]; for ( int row= 0; row < dish.length; row++ ) {//each row newGen[row]= ""; for ( int i= 0; i < dish[row].length(); i++ ) {//each char in the row int neighbors = 0; char current = dish[row].charAt(i); // loop in a block that is 3x3 around the current cell // and count the number of '#' cells. for ( int r=row-1; r<=row+1; r++ ) { // make sure we wrap around from bottom to top int realr = r; if ( r==-1 ) realr = dish.length-1; if ( r==dish.length) realr = 0; for ( int j=i-1; j<=i+1; j++ ) { // make sure we wrap around from left to right int realj = j; if ( j==-1 ) realj = dish[row].length()-1; if ( j==dish[row].length() ) realj = 0; if (r==row && j==i ) continue; // current cell is not its // neighbor if (dish[realr].charAt(realj) == '#' ) neighbors++; } } if ( current=='#' ) if (neighbors < 2 || neighbors > 3) newGen[row] += " "; else newGen[row] += "#"; if ( current==' ' ) if ( neighbors == 3 ) newGen[row] += "#"; else newGen[row] += " "; } } return newGen; } public static void print( String[] dish ) { /* just display all the lines of the array of strings. */ for ( String s: dish ) System.out.println(s); } }
Exploring the Serial Version
- Explore the code and make sure you get some reasonable understanding of it.
- Play with the Thread.sleep() delay to see how it influences the display.
- Create new patterns in the petri dish, and see how they evolve.
Part 1: Class discussion
Question #1: |
How could we make this program parallel, and make it work faster with 2 threads? Think of what would constitute the contents of the run() method, and how you would split the data for the least amount of coding.
Question #2: |
Think of what would constitute the contents of the run() method.
Question #2: |
How should you split the data for the least amount of extra coding.
Part 2: Coding
Go for it!
