Here is the idea. For each number in the column, add a flag to determine if it is the beginning of a sequence (which will be anything following a negative number). Do a cumulative sum of this value to get a "sequence count". Then, get the maximum of this value. I am going to show the code for one column:

The only problem is the implementation, which requires multiple levels of correlated subqueries. The first is to assign `SequenceStart`

:

```
select r.*, rprev.A as prevA, rprev.B as prevB, rprev.C as prevC, rprev.D as prevD,
(case when (rprev.A < 0 or rprev.A is NULL) then 1 else 0 end) as ASeqStart,
(case when (rprev.B < 0 or rprev.B is NULL) then 1 else 0 end) as BSeqStart,
(case when (rprev.C < 0 or rprev.C is NULL) then 1 else 0 end) as CSeqStart,
(case when (rprev.D < 0 or rprev.D is NULL) then 1 else 0 end) as DSeqStart
from (select r.*,
(select max(id)
from results r2
where r2.id < r.id
) previd
from results r
) r left outer join
results rprev
on r.previd = rprev.id;
```

Now, getting the cumulative sum is tricky because you need the value twice. Unfortunately, MySQL does not allow subqueries in views. Although you can use the same query below, let me assume the results are put into a table `TempSeq`

. Then do the following to assign a sequence to each value.

```
select ts.*,
sum(tsprev.ASeqStart) as ASeqId,
sum(tsprev.BSeqStart) as BSeqId,
sum(tsprev.CSeqStart) as CSeqId,
sum(tsprev.DSeqStart) as DSeqId
from TempSeq ts join
TempSeq tsprev
on tsprev.id <= ts.id
group by ts.id;
```

Once again, let me assume that the results are stored in another temporary table, say `TempSeqId`

, because you have to aggregate the results multiple times. Here is an example for A:

```
select coalesce(max(seqlen), 0)
from (select ASeqId, count(*) as seqlen
from TempSeqId
where a > 0
) t
```

The condition on `a`

might seem redundant. But there is an off-by-one challenge -- most sequences will end with the final negative number. For these, you can just subtract one from the count. However, the final sequence may not end that way, and you would undercount it. The coalesce is for the case where all values are negative.

At this point, let me say that the queries would actually be feasible (as a single query even) if the data structure were stored on a row with the `id`

and `sequencename`

and one value on a row.

EDIT:

The above reasoning is how I think about the problem. In MySQL, you can approach this differently using variables. The code is much simpler:

```
select MAX(APosCounter) as AMaxLen,
MAX(BPosCounter) as BMaxLen,
MAX(CPosCounter) as CMaxLen,
MAX(DPosCounter) as DMaxLen
from (select r.*,
@APosCounter := if(A > 0, @APosCounter + 1, 0) as APosCounter,
@BPosCounter := if(B > 0, @BPosCounter + 1, 0) as BPosCounter,
@CPosCounter := if(C > 0, @CPosCounter + 1, 0) as CPosCounter,
@DPosCounter := if(D > 0, @DPosCounter + 1, 0) as DPosCounter
from results r cross join
(select @APosCounter := 0, @AMaxLen := 0,
@BPosCounter := 0, @BMaxLen := 0,
@CPosCounter := 0, @CMaxLen := 0,
@DPosCounter := 0, @DMaxLen := 0
end) const
order by id
) r
```

This code uses variable logic to keep the length of the "positive sequence length" on each row. It then aggregates the data to get the maximum.

Here is even a SQLFiddle to demonstrate that it works.

the max count of the consecutive positive numbers"? Can you give an example? Remember, tables are not stored in any particular order so the notion of "consecutive" is ill-defined in the absence of an`ORDER BY`

clause. – eggyal Jul 19 '13 at 10:11