# How can I return a random line from a file? Interview Question

I am preparing for a phone interview. I came upon these questions on the internet. Can anyone tell me some good answers for these?

1. Suppose I give you a text file and ask you a to write a program that will return a random line from the file (all lines must have equal probability to be returned)

2. Same as part 1, except this time the entire text file cannot fit into main memory

3. Same as part 2, except now you have a stream instead of a file.

Ok...@Everyone, I really had a few ideas in my mintod before asking this...Seeing the relentless attack by my fellow SOers, I am posting my answers. Please feel free to attack them too...

1: Count the number of '\n' in the file. Generate a random number between 1 and the number and return the line after the number-1 '\n'.

2: Bring the file into main memory part by part and follow the above procedure.

Its wonderful that you guys really give an inspiration to push forward.....

-
@Adam: wait, what's wrong with asking programming related questions on SO? –  Konrad Rudolph Jan 6 '10 at 21:10
Are you planning to let Stack Overflow do your work when you get hired? –  Jimmy Shelter Jan 6 '10 at 21:11
Why not post what answers you have here and then we can suggest things based on that? –  John Jan 6 '10 at 21:11
The question could be interesting (although imo this one isn't that interesting), but the motives to ask it is very wrong. –  Jimmy Shelter Jan 6 '10 at 21:12
What usually worries me is that he might be my next co-worker thanks to SO. –  Hans Passant Jan 6 '10 at 21:18

1. Read all lines into an array, return a random line in the range of 1 and the amount of lines.

2. Most simple: Count the lines, choose a line number at random, go through the file a second time and return it.

3. You just have to remember one line. Each new line has a probability of 1/N (N being lines read).

Pseudocode:

``````i = 1
chosen_line = ""
for line in lines:
if random() < 1/i:    # random returns a uniform random number in [0,1)
chosen_line = line
i += 1
return chosen_line
``````

Algorithm number 3 could be used for 1 and 2 too.

-
Your solution #3 is correct but perhaps a bit confusing... to clarify, at each line you read, the chance that you should choose the new line will be 1/N where N is the number of lines you've read. Saying to "choose" (1,2,3) for example is unnecessary and (IMO) confusing. Just keep track of which line you chose last, and update percentages as you go. +1. –  Michael Bray Jan 6 '10 at 21:22
Solution 3 works and is the same that I came up with. It's apparently a well known algorithm too. It does not require the entire file in memory, just the most recently selected line. See stackoverflow.com/questions/232237/… –  Mark Ransom Jan 6 '10 at 21:24
gs: small comment error in your code... random() should NOT return 1 - it must be 0 (inclusive) to 1 (non-inclusive) otherwise there is a chance (however small) that a one-line file wouldn't select any line. either that or change < to <= –  Michael Bray Jan 6 '10 at 21:43
@KingRadical: picking a random point and getting that line won't give every line equal probability to be picked up. Say, file with two lines, the first line is 10 characters, the second one is 30 characters. The second line has 75% chance of being picked, instead of 50%. –  sbk Jan 6 '10 at 21:55
@jslap: in practice, it works quite well (code up a prototype to play with and see). After reading N lines, the chance that the selected line is still the first line read is 1 in N-1. –  John Bode Jan 7 '10 at 18:03

You can do this without having to read all the lines in memory, thus working well for huge files. Pseudocode:

``````linenum := 0
ret := ''
linenum := linenum + 1
r := uniform_random(0, linenum)
if r < 1:
ret := line

return ret
``````

Proof: We begin by noting that we always save the first line in `ret`. If the file has one line, you are going to choose it, and you're done.

For two-line file, `ret` will save the first line 100% of the times, and the second line will be saved in `ret` 50% of the time during the second iteration of the loop. Thus, each line has a probability of 0.5 of being selected.

Now, let's assume that this method works for files of ≤`N` lines. To prove that this means it works for `N+1`, in the `(N+1)`th iteration of the loop, there is a probability of `1/(N+1)` that the last line will be selected (`random(0, N+1) < 1` has that probability). Thus, the last line has `1/(N+1)` probability of being selected. The probability of all other lines being selected is still going to be equal to each other, let's call this `x`. Then, `N*x + 1/(N+1) == 1`, which means that `x = 1/(N+1)`.

Proof by induction is complete.

Edit: Oops, didn't see the first answer's third method before replying. Still, I will keep this post here if only for the proof, and the opportunity for other people to correct it if there are any errors in it.

-
Good. We can also prove it without the induction... +1 –  jslap Jan 13 '10 at 14:36
@jslap: yes. I did it by induction because it was an interesting exercise for me. :-) –  Alok Singhal Jan 13 '10 at 22:54

Re 1: Use solution to 2

Re 2: You would want to scan the whole file using a RandomAccessFile access to count the number of lines and (possibly) cache the file pointers for each start of line. Then you could choose one at random (I'm assuming this question is not about how to generate random numbers) and move back to that start point, read the line and return it. If you want it fast then make sure you are buffering the reads (raf is v slow otherwise).

Re 3: If the stream doesn't fit in memory (i.e. you cannot cache the whole thing) and you don't know how many lines are in the stream without reading the whole stream (assuming you only get to read it once) then I cannot see a solution. I too wait for answers...

-
you can do it without knowing the number of lines and without reading all the lines in memory. See my answer for details. –  Alok Singhal Jan 6 '10 at 23:08

#3: write the stream to a file on disk and use solution 2. Not the most efficient solution, of course, but very simple.

-
#4: the stream doesn't fit on disk, (if you prefer: the device doesn't have a writeable filesystem). At least, that's the next thing I'd say in an interview, assuming I was setting this problem in the first place. –  Steve Jessop Jan 6 '10 at 23:02
Yep, but that was not the OPs question ;-) –  Doc Brown Jan 7 '10 at 6:44