Can anyone provide some pseudo code for a roulette selection function? How would I implement this:
I don't really understand how to read this math notation. I never took any probability or statistics.
Can anyone provide some pseudo code for a roulette selection function? How would I implement this: I don't really understand how to read this math notation. I never took any probability or statistics. 


It's been a few years since i've done this myself, however the following pseudo code was found easily enough on google. for all members of population sum += fitness of this individual end for for all members of population probability = sum of probabilities + (fitness / sum) sum of probabilities += probability end for loop until new population is full do this twice number = Random between 0 and 1 for all members of population if number > probability but less than next probability then you have been selected end for end create offspring end loop The site where this came from can be found here if you need further details. 


Lots of correct solutions already, but I think this code is clearer.
In addition, if you accumulate the fs, you can produce a more efficient solution.
This is both faster and it's extremely concise code. STL in C++ has a similar bisection algorithm available if that's the language you're using. 


The pseudocode posted contained some unclear elements, and it adds the complexity of generating offspring in stead of performing pure selection. Here is a simple python implementation of that pseudocode:



Here is some code in C :



From the above answer, I got the following, which was clearer to me than the answer itself. To give an example: Random(sum) :: Random(12) Iterating through the population, we check the following: random < sum Let us chose 7 as the random number.
Through this example, the most fit (Index 3) has the highest percentage of being chosen (33%); as the random number only has to land within 6>10, and it will be chosen.



Prof. Thrun of Stanford AI lab also presented a fast(er?) resampling code in python during his CS373 of Udacity. Google search result led to the following link: http://www.udacityforums.com/cs373/questions/20194/fastresamplingalgorithm Hope this helps 


I wrote a version in C# and am really looking for confirmation that it is indeed correct: (roulette_selector is a random number which will be in the range 0.0 to 1.0)



Here's a compact java implementation I wrote recently for roulette selection, hopefully of use.



I'm doing an implementation of proportional selection with roulette wheel in javascript, and i was wondering if i'm doing it right. According to Jarod Elliott code I'am doing it right. this.population is sorted in ascending order, so the elements with lower probability are best, because they have a better fitness score. So i first select two parents, and make sure they are not same, crossover them and save best children to new_population. Crossover rate is 0.7 in that case. I'm just not sure if a condition if( spin_num < this.population[i].prob) is right?






This is called roulettewheel selection via stochastic acceptance:
The average number of attempts needed for a single selection is: τ = f_{max} / avg(f)
τ doesn't depend explicitly on the number of individual in the population (N), but the ratio can change with N. However in many application (where the fitness remains bounded and the average fitness doesn't diminish to 0 for increasing N) τ doesn't increase unboundedly with N and thus a typical complexity of this algorithm is O(1) (roulette wheel selection using search algorithms has O(N) or O(log N) complexity). The probability distribution of this procedure is indeed the same as in the classical roulettewheel selection. For further details see:


