Like most other relational database products,
LightDB supports
aggregate functions.
An aggregate function computes a single result from multiple input rows.
For example, there are aggregates to compute the
count
, sum
,
avg
(average), max
(maximum) and
min
(minimum) over a set of rows.
As an example, we can find the highest low-temperature reading anywhere with:
SELECT max(temp_lo) FROM weather;
max ----- 46 (1 row)
If we wanted to know what city (or cities) that reading occurred in, we might try:
SELECT city FROM weather WHERE temp_lo = max(temp_lo); WRONG
but this will not work since the aggregate
max
cannot be used in the
WHERE
clause. (This restriction exists because
the WHERE
clause determines which rows will be
included in the aggregate calculation; so obviously it has to be evaluated
before aggregate functions are computed.)
However, as is often the case
the query can be restated to accomplish the desired result, here
by using a subquery:
SELECT city FROM weather WHERE temp_lo = (SELECT max(temp_lo) FROM weather);
city --------------- San Francisco (1 row)
This is OK because the subquery is an independent computation that computes its own aggregate separately from what is happening in the outer query.
Aggregates are also very useful in combination with GROUP
BY
clauses. For example, we can get the maximum low
temperature observed in each city with:
SELECT city, max(temp_lo) FROM weather GROUP BY city;
city | max ---------------+----- Hayward | 37 San Francisco | 46 (2 rows)
which gives us one output row per city. Each aggregate result is
computed over the table rows matching that city.
We can filter these grouped
rows using HAVING
and the output count using
FILTER
:
SELECT city, max(temp_lo), count(*) FILTER (WHERE temp_lo < 30) FROM weather GROUP BY city HAVING max(temp_lo) < 40;
city | max | count ---------+-----+------- Hayward | 37 | 5 (1 row)
which gives us the same results for only the cities that have all
temp_lo
values below 40. Finally, if we only care about
cities whose
names begin with “S
”, we might do:
SELECT city, max(temp_lo), count(*) FILTER (WHERE temp_lo < 30) FROM weather WHERE city LIKE 'S%' -- (1) GROUP BY city HAVING max(temp_lo) < 40;
The |
It is important to understand the interaction between aggregates and
SQL's WHERE
and HAVING
clauses.
The fundamental difference between WHERE
and
HAVING
is this: WHERE
selects
input rows before groups and aggregates are computed (thus, it controls
which rows go into the aggregate computation), whereas
HAVING
selects group rows after groups and
aggregates are computed. Thus, the
WHERE
clause must not contain aggregate functions;
it makes no sense to try to use an aggregate to determine which rows
will be inputs to the aggregates. On the other hand, the
HAVING
clause always contains aggregate functions.
(Strictly speaking, you are allowed to write a HAVING
clause that doesn't use aggregates, but it's seldom useful. The same
condition could be used more efficiently at the WHERE
stage.)
In the previous example, we can apply the city name restriction in
WHERE
, since it needs no aggregate. This is
more efficient than adding the restriction to HAVING
,
because we avoid doing the grouping and aggregate calculations
for all rows that fail the WHERE
check.
Starting with version 24.1, LightDB in oracle compatibility mode supports the use of constant grouping fields (which can be either string or numeric constants) after the group by clause, which are automatically discarded at execution time because grouping by one or more constants does not make sense. Also, if a constant grouping field is discarded, LightDB records a log message indicating that some of the constant grouping fields were automatically discarded during syntax parsing phase.