For 6-from-50, I'm not too sure I'd worry about efficiency since the chance of a duplicate is relatively low (30% overall, from my back-of-the-envelope calculations). You could quite easily just remember the previous numbers you'd generated and throw them away, something like (pseudo-code):
n[0] = rnd(50)
for each i in 1..5:
n[i] = n[0]
while n[1] == n[0]:
n[1] = rnd(50)
while n[2] == any of (n[0], n[1]):
n[2] = rnd(50)
while n[3] == any of (n[0], n[1], n[2]):
n[3] = rnd(50)
while n[4] == any of (n[0], n[1], n[2], n[3]):
n[4] = rnd(50)
while n[5] == any of (n[0], n[1], n[2], n[3], n[4]):
n[5] = rnd(50)
However, this will break down as you move from 6-from-50 to 48-from-50, or 6-from-6, since the duplicates start getting far more probable. That's because the pool of available numbers gets smaller and you end up throwing away more and more.
For a very efficient solution that gives you a subset of your values with zero possibility of duplicates (and no unnecessary up-front sorting), Fisher-Yates is the way to go.
dim n[50] // gives n[0] through n[9]
for each i in 0..49:
n[i] = i // initialise them to their indexes
nsize = 50 // starting pool size
do 6 times:
i = rnd(nsize) // give a number between 0 and nsize-1
print n[i]
nsize = nsize - 1 // these two lines effectively remove the used number
n[i] = n[nsize]
By simply selecting a random number from the pool, replacing it with the top number from that pool, then reducing the size of the pool, you get a shuffle without having to worry about a large number of swaps up front.
This is important if the number is high in that it doesn't introduce an unnecessary startup delay.
For example, examine the following bench-check, choosing 10-from-10:
<------ n[] ------>
0 1 2 3 4 5 6 7 8 9 nsize rnd(nsize) output
------------------- ----- ---------- ------
0 1 2 3 4 5 6 7 8 9 10 4 4
0 1 2 3 9 5 6 7 8 9 7 7
0 1 2 3 9 5 6 8 8 2 2
0 1 8 3 9 5 6 7 6 6
0 1 8 3 9 5 6 0 0
5 1 8 3 9 5 2 8
5 1 9 3 4 1 1
5 3 9 3 0 5
9 3 2 1 3
9 1 0 9
You can see the pool reducing as you go and, because you're always replacing the used one with an unused one, you'll never have a repeat.
Using the results returned from that as indexes into your collection will guarantee that no duplicate items will be selected.