I may be wrong but from what I understand

**conversions.id** is the **primary key** of your table **conversions**
**stats.id** is the **primary key** of your table **stats**

Thus for each conversions.id you have at most one links.id impacted.

You request is a bit like doing the cartesian product of 2 sets :

```
[clicks]
SELECT *
FROM links
LEFT OUTER JOIN stats ON links.id = stats.parent_id
[conversions]
SELECT *
FROM links
LEFT OUTER JOIN conversions ON links.id = conversions.link_id
```

and for each link, you get sizeof([clicks]) x sizeof([conversions]) lines

As you noted the number of unique conversions in your request can be obtained via a

```
count(distinct conversions.id) = sizeof([conversions])
```

this distinct manages to remove all the [clicks] lines in the cartesian product

but clearly

```
sum(conversions.value) = sum([conversions].value) * sizeof([clicks])
```

In your case, since

```
count(*) = sizeof([clicks]) x sizeof([conversions])
count(*) = sizeof([clicks]) x count(distinct conversions.id)
```

you have

```
sizeof([clicks]) = count(*)/count(distinct conversions.id)
```

so I would test your request with

```
SELECT links.id,
count(DISTINCT stats.id) as clicks,
count(DISTINCT conversions.id) as conversions,
sum(conversions.value)*count(DISTINCT conversions.id)/count(*) as conversion_value
FROM links
LEFT OUTER JOIN stats ON links.id = stats.parent_id
LEFT OUTER JOIN conversions ON links.id = conversions.link_id
GROUP BY links.id
ORDER BY links.created desc;
```

Keep me posted !
Jerome

`GROUP BY`

? – Matthew Mar 12 '10 at 22:31