Say you want to generate a list of locations `L[1..n]`

, you just randomly pick next location and scan over the `L`

to guarantee the distance is over a threshold, otherwise, pick again.

Then, push this into your list `L`

. So the total run time of generating a n elements list is O(n^2). When n < 1000, this is fast enough. The following method is guaranteed to terminate, which is designed for a relatively small read-to-pick list, say up to 1,000,000.

```
function generateList(orgList, numberToOutput) {
if (orgList.length < numberToOutput)
return false;
var orgListClone = orgList.slice(0);
var L = [];
while (L.length < numberToOutput && orgListClone.length > 0) {
var n = parseInt(Math.random() * orgListClone.length);
// Assume we pick n-th element in the list.
var ok = true;
for (var j = 0; j < L.length; j++)
if (distance(orgListClone[n], L[j]) < kThreshold) {
// n is not an option, swap orgListClone[n] with the last element and pop it out.
orgListClone[n] = orgListClone[orgListClone.length - 1];
orgListClone.pop();
ok = false;
break;
}
if (ok) {
// All tests passed
L.push(orgListClone[n]);
orgListClone[n] = orgListClone[orgListClone.length - 1];
orgListClone.pop();
}
}
if (L.length == numberToOutput)
return L;
// Failed to find the list
return null;
}
```

Another solution is to calcuate distances between each of the locations ahead, and make a list of too close locations for each location.

So that after each pick, just merge the too close locations to the current set, which takes O(n). And then pick another location which is not included in this set. This method only works when the read-to-pick list is large enough, so that the probability (`1 - |too close list| / |read-to-pick list|`

) of choosing a location not included in the set is large. This will take up to O(nm) in total, where m is the average |too close list|.

```
function generateList(orgList, numberToOutput) {
if (orgList.length < numberToOutput)
return false;
var tooCloseSet = {};
var L = [];
var lastLengthOfL = 0;
var repickCount = 0;
for (L.length < numberToOutput) {
if (l.length == lastLengthOfL) {
if (++repickCount > 10)
return false;
} else {
lastLengthOfL = l.length;
repickCount = 0;
}
var n = parseInt(Math.random() * orgList.length);
if (n in tooCloseSet)
continue;
L.push(orgList[n]);
mergeSet(tooCloseSet, orgList[n].tooCloseList);
}
return L;
}
```