A unique 'code' to represent a 2d array

I've made a game that randomly generates mazes, the maze is stored in a 2d array. each integer in the array represents the number of walls that cell has.

It's based on the java example here: http://rosettacode.org/wiki/Maze

To allow people to share a unique maze i'm trying to find a way to convert the array into a string or an integer that can be generated by one user, copied and then pasted into another game which will then load the same maze.

The user can select the size of the maze up to 25x25 so simply printing each value (2|16|4|20...) would be incredibly long.

If converting it to a 'code' isn't possible are there any other ways it can be done without using a file?

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What have you tried? – Jeffrey Mar 17 '13 at 17:27
What about Serialization? – Luiggi Mendoza Mar 17 '13 at 17:27
How is 25*25 incredibly long? – JB Nizet Mar 17 '13 at 17:29
@AndrewThompson and millimoose: For an in-memory representation, 25*25 integers are really small, yes. But OP wants to create a representation for users to share (like seeds for minecraft worlds). – delnan Mar 17 '13 at 17:32
@delnan YAGNI is a perfectly acceptable solution in software engineering. Yes, procedural generation is a clever approach. I just dispute that the degree of cleverness is necessary. – millimoose Mar 17 '13 at 17:42

Store the seed for the random number generator. The seed fully determines the output of the random number generator.

Assuming you are using `java.util.Random` to generate the random numbers, instead of using the default constructor `new Random()` use

``````long seed = System.currentTimeMillis();
// store the seed somewhere
// so you can generate the same sequence of random numbers again
Random rng = new Random(seed);
``````

To make a short "code" that can be given to users for sharing, you can convert the number to hex or base 36:

``````String code = Long.toString(seed, 36); // codes like heeho82h
``````
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If you're randomly creating the values for that array, you only need the state of the PRNG that produced those values to re-generate them. That's at the same time the biggest weakness and strength of all pseudo-random number generators.

As most PRNGs don't allow retrieving and setting the state, or have a pretty huge state (a Mersenne Twister has a few kilobyte of state internally), you may want to use the seed instead. Of course, then you must create a new PRNG (or reset an existing one) for level generation.

To make the number human-readable, you should just render it in some number base. Base 10 makes it obvious it's a number and is easiest to generate and parse. Base 16 (hexadecimal) and base 64 yield shorter, more obscure "codes". Padding it to be fixed-length regardless of the actual value is probably a good idea.

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You could use `Serialization` concept to save the state of `2-D array` and then retrieve it back using deserialization. Here is the simple Demo to save a `2-D array` state and then read it back . I hope it would be of your help:

``````import java.io.*;
class ArraySerialization
{
ByteArrayOutputStream baos;
ByteArrayInputStream bins;
public void saveState(Object obj)throws Exception
{
baos = new ByteArrayOutputStream();
ObjectOutputStream oos = new ObjectOutputStream(baos);
oos.writeObject(obj);
oos.close();
}
{
bins = new ByteArrayInputStream(baos.toByteArray());
ObjectInputStream oins = new ObjectInputStream(bins);
oins.close();
return (int[][])obj;
}
public static void main(String[] args) throws Exception
{
int arr[][]= {
{1,2,3},
{4,5,7}
};
ArraySerialization ars = new ArraySerialization();
System.out.println("Saving state...");
ars.saveState(arr);
System.out.println("State saved..");
System.out.println("Retrieving state..");
System.out.println("State retrieved..And the retrieved array is:");
for (int i =0 ; i < j.length ; i++ )
{
for (int k = 0 ; k < j[i].length ; k++)
{
System.out.print(j[i][k]+"\t");
}
System.out.print("\n");
}

}
}
``````
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Although it uses a random generator, it is in fact a deterministic process. You can repeat it by knowing the random seed. Just share the random seed, as mentioned by Joni. Anyway, if you want to share the data: a NxN mesh has NxN inner walls, and considering it takes 1 bit to store presence/absence of a wall, you will need NxN bits to store the maze. In this way you can store a 90x90 maze in 1kb.

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