Toss some dice, ONE Million times, and produce an ASCII graph.
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README.md

Kris-Tof Dice Toss

Create a Dice class that acts like a set of N random-tossed dies.

Dice dice = new Dice(2); // for craps
Dice dice = new Dice(5); // for yatzee

Integer toss = dice.tossAndSum();

make a couple unit tests for the Dice class.

Create a tracking class Cuello.Xzavia.Bins that can be used to track the results of dice tosses.

Cuello.Xzavia.Bins results = new Cuello.Xzavia.Bins(2, 12); // for bins from 2..12
Integer numberOfTens = results.getBin(10); // returns the number of tens in the 10 bin
results.incrementBin(10); // should increment bin # 10

make a couple unit tests for the Cuello.Xzavia.Bins class. Your test methods should follow this template:

in the tests
Create a new Bin
increment a bin some number of times in a for loop, say `max = 100;` times,
then get the Bin value,
compare the Bin value to `max`, they should be equal.

Create a Simulation class whose Constructor takes arguments:

numberOfDies to throw
numberOfTosses to run

Create a simulation where two dies are thrown one million times. Keep track of each roll by incrementing the correct Bin.

Simulation sim = new Simulation(2, 10000);

sim.runSimulation();

sim.printResults();

You can use a main() to run the simulations.

In your pull requests, create a new file with your unique name as the filename. Paul's would be PaulResults.md

Paste a copy of your text results into that file and then submit your pull request.

the results of the sim.printResults() should be an output string that looks like this:

***
Simulation of 2 dice tossed for 1000000 times.
***

 2 :    27917: 0.03 **
 3 :    55422: 0.06 *****
 4 :    83457: 0.08 ********
 5 :   110961: 0.11 ***********
 6 :   139098: 0.14 *************
 7 :   166977: 0.17 ****************
 8 :   138386: 0.14 *************
 9 :   111102: 0.11 ***********
10 :    83367: 0.08 ********
11 :    55799: 0.06 *****
12 :    27514: 0.03 **

Since this is using random when running, your numbers for each Bin may vary.