Okay, I did this more for the challenge than because I necessarily think it's a good idea. I'm inclined to believe Aaron that a cursor may be more appropriate. Anyhow:

```
declare @Items table (ID int not null,LENGTH_IN_CM decimal(5,1) not null)
insert into @Items(ID,LENGTH_IN_CM) values
(1,1.0),
(2,1.0),
(3,9.0),
(4,5.0),
(5,15.0),
(6,3.0),
(7,6.0)
;With PossiblePages as (
select ID as MinID,ID as MaxID,LENGTH_IN_CM as TotalLength from @Items
union all
select MinID,MaxID + 1,CONVERT(decimal(5,1),TotalLength + LENGTH_IN_CM)
from
PossiblePages pp
inner join
@Items it
on
pp.MaxID + 1 = it.ID
where
TotalLength + LENGTH_IN_CM <= 20.0
), LongPages as (
select MinID,MAX(MaxID) as MaxID,MAX(TotalLength) as TotalLength from PossiblePages group by MinID
), FinalPages as (
select MinID,MaxID,TotalLength from LongPages where MinID = 1
union all
select lp.MinID,lp.MaxID,lp.TotalLength
from
LongPages lp
inner join
FinalPages fp
on
lp.MinID = fp.MaxID + 1
), PageNumbers as (
select MinID,MaxID,ROW_NUMBER() OVER (ORDER BY MinID) as PageNo
from FinalPages
)
select * from PageNumbers
```

Result:

```
MinID MaxID PageNo
----------- ----------- --------------------
1 4 1
5 6 2
7 7 3
```

Which should be easy enough to join back to the original table, if you want to assign a page number to each row.

`PossiblePages`

calculates every possible page - for every row, it acts as if that row is the first one on that page, and then works out how many additional rows can be appended to that, and the total length that that range of rows represents (there may be cleaner ways to calculate this expression, not sure at the moment).

`LongPages`

then finds the longest value that `PossiblePages`

calculated, for each starting row number.

Finally, `FinalPages`

starts with the first page (that must, logically, be the one started with `ID`

1 - you can always introduce another calculation if you're not guaranteed to start at 1, and need to find the earliest). Then, the next page is the one that starts from the row ID one higher than the previous row.

You don't *need* `PageNumbers`

, but as I said, I was thinking of joining back to the original table.

And as predicted by the commenters, I don't think this is going to perform well - just on the sample, I'm seeing at least 4 table scans to compute this.

Bonus insanity. This one only scans the table 3 times:

```
;With PageRows as (
select ID as MinID,ID as MaxID,LENGTH_IN_CM as TotalLength from @Items where ID=1
union all
select MinID,MaxID + 1,CONVERT(decimal(5,1),TotalLength + LENGTH_IN_CM)
from
PageRows pr
inner join
@Items ir
on
pr.MaxID = ir.ID-1
where
TotalLength + LENGTH_IN_CM <= 20.0
union all
select ir.ID as MinID,ir.ID as MaxID,ir.LENGTH_IN_CM as TotalLength
from
PageRows pr
inner join
@Items ir
on
pr.MaxID = ir.ID-1
where
TotalLength + LENGTH_IN_CM > 20.0
), PageNumbers as (
select MinID,MAX(MaxID) as MaxID,ROW_NUMBER() OVER (ORDER BY MinID) as PageNo
from PageRows
group by MinID
)
select * from PageNumbers
```

supportedoption. – Aaron Bertrand Jul 6 '12 at 13:05