Hey guys, i have trouble generating unique random numbers using js. Can someone lend me a hand?







Generate permutation of 100 numbers and then choose serially. Use Knuth Shuffle(aka the FisherYates shuffle) Algorithm. JavaScript:
EDIT: Improved code:
Potential problem: Suppose we have array of 100 numbers {e.g. [1,2,3...100]} and we stop swapping after 8 swaps; then most of the times array will look like {1,2,3,76,5,6,7,8,...numbers here will be shuffled ...10}. Because every number will be swapped with probability 1/100 so prob. of swapping first 8 numbers is 8/100 whereas prob. of swapping other 92 is 92/100. But if we run algorithm for full array then we are sure (almost)every entry is swapped. Otherwise we face a question : which 8 numbers to choose? 


To avoid any long and unreliable shuffles, I'd do the following...
Voila  no repeated numbers. I may post some actual code later, if anybody is interested. Edit: It's probably the competitive streak in me but, having seen the post by @Alsciende, I couldn't resist posting the code that I promised.



The above techniques are good if you want to avoid a library, but depending if you would be alright with a library, I would suggest checking out Chance for generating random stuff in JavaScript. Specifically to solve your question, using Chance it's as easy as:
Disclaimer, as the author of Chance, I am a bit biased ;) 


I would do this:



Shuffling the numbers from 1 to 100 is the right basic strategy, but if you need only 8 shuffled numbers, there's no need to shuffle all 100 numbers. I don't know Javascript very well, but I believe it's easy to create an array of 100 nulls quickly. Then, for 8 rounds, you swap the n'th element of the array (n starting at 0) with a randomly selected element from n+1 through 99. Of course, any elements not populated yet mean that the element would really have been the original index plus 1, so that's trivial to factor in. When you're done with the 8 rounds, the first 8 elements of your array will have your 8 shuffled numbers. 


Same permutation algorithm as The Machine Charmer, but with a prototyped implementation. Better suited to large number of picks. Uses js 1.7 destructuring assignment if available.
Edit: An other proposition, better suited to small number of picks, based on belugabob's answer. To guarantee uniqueness, we remove the picked numbers from the array.



In spite of what you might think, incrementing 'randomnumber' doesn't skew any probabilities  it is mathematically equivalent to removing the previous selections from the array. It's faster than shuffling an array of 100 values, and does not involve 'repicking'. 


for arrays with holes like this the following modified solution worked for me :)



The best earlier answer is the answer by My solution is very similar to his solution. However, sometimes you want the random numbers in random order, and that is why I decided to post an answer. In addition, I provide a general function.



How about using object properties as a hash table? This way your best scenario is to only randomize 8 times. It would only be effective if you want a small part of the range of numbers. It's also much less memory intensive than FisherYates because you don't have to allocate space for an array.
I then found out that Object.keys(obj) is an ECMAScript 5 feature so the above is pretty much useless on the internets right now. Fear not, because I made it ECMAScript 3 compatible by adding a keys function like this.






if you need more unique you must generate a array(1..100).
above code is faster: 


Adding another better version of same code (accepted answer) with JavaScript 1.6 indexOf function. Do not need to loop thru whole array every time you are checking the duplicate.
Older version of Javascript can still use the version at top PS: Tried suggesting an update to the wiki but it was rejected. I still think it may be useful for others. 


This is my personal solution :
It randomly generates 8 unique array values (between 0 and 7), then displays them using an alert box. 


I think this method is different from methods given in most of the answers, so I thought I might add an answer here (though the question was asked 4 years ago). We generate 100 random numbers, and tag each of them with numbers from 1 to 100. Then we sort these tagged random numbers, and the tags get shuffled randomly. Alternatively, as needed in this question, one could do away with just finding top 8 of the tagged random numbers. Finding top 8 items is cheaper than sorting the whole array. One must note here, that the sorting algorithm influences this algorithm. If the sorting algorithm used is stable, there is slight bias in favor of smaller numbers. Ideally, we would want the sorting algorithm to be unstable and not even biased towards stability (or instability) to produce an answer with perfectly uniform probability distribution. 

