So your table is in the form of

```
Order Group Sequence
1 1 4
1 1 5
1 1 7
```

..and you want to find out that 1,1,6 is missing?

With

```
select
min(Sequence) MinSequence,
max(Seqence) MaxSequence
from
Orders
group by
[Order],
[Group]
```

you can find out the bounds for a given Order and Group.

Now you can simulate the correct data by using a special **numbers table**, which just contains every single number you could ever use for a sequence. Here is a good example of such a numbers table. It's not important how you create it, you could also create an excel file with all the numbers from x to y and import that excel sheet.

In my example I assume such a numbers table called "Numbers" with only one column "n":

```
select
[Order],
[Group],
n Sequence
from
(select min(Sequence) MinSequence, max(Seqence) MaxSequence from [Table] group by [Order], [Group]) MinMaxSequence
left join Numbers on n >= MinSequence and n <= MaxSequence
```

Put that SQL into a new view. In my example I will call the view "vwCorrectOrders".

This gives you the data where the sequences are continuous. Now you can join that data with the original data to find out which sequences are missing:

```
select
correctOrders.*
from
vwCorrectOrders co
left join Orders o on
co.[Order] = o.[Order]
and co.[Group] = o.[Group]
and co.Sequence = o.Sequence
where
o.Sequence is null
```

Should give you

```
Order Group Sequence
1 1 6
```