I have a million integers in sorted order and I would like to find the longest subsequence where the difference between consecutive pairs is equal. For example

```
1, 4, 5, 7, 8, 12
```

has a subsequence

```
4, 8, 12
```

My naive method is greedy and just checks how far you can extend a subsequence from each point. This takes `O(n²)`

time per point it seems.

Is there a faster way to solve this problem?

**Update.** I will test the code given in the answers as soon as possible (thank you). However it is clear already that using n^2 memory will not work. So far there is no code that terminates with the input as `[random.randint(0,100000) for r in xrange(200000)]`

.

**Timings.** I tested with the following input data on my 32 bit system.

```
a= [random.randint(0,10000) for r in xrange(20000)]
a.sort()
```

- The dynamic programming method of ZelluX uses 1.6G of RAM and takes 2 minutes and 14 seconds. With pypy it takes only 9 seconds! However it crashes with a memory error on large inputs.
- The O(nd) time method of Armin took 9 seconds with pypy but only 20MB of RAM. Of course this would be much worse if the range were much larger. The low memory usage meant I could also test it with a= [random.randint(0,100000) for r in xrange(200000)] but it didn't finish in the few minutes I gave it with pypy.

In order to be able to test the method of Kluev's I reran with

```
a= [random.randint(0,40000) for r in xrange(28000)]
a = list(set(a))
a.sort()
```

to make a list of length roughly `20000`

. All timings with pypy

- ZelluX, 9 seconds
- Kluev, 20 seconds
- Armin, 52 seconds

It seems that if the ZelluX method could be made linear space it would be the clear winner.

Seriously?). It's an interesting problem that I'd like to see answers to, too. So, +1 from me.`4, 8, 12`

is the correct output over`1, 4, 7`

which is an equally long sequence?20more comments