Aggregate functions
This page describes the available functions to assist with performing aggregate calculations.
approx_count_distinct
approx_count_distinct(column_name, precision)
- estimates the number of
distinct non-null
values in IPv4
, int
, or long
columns using the
HyperLogLog data structure, which provides an
approximation rather than an exact count.
The precision of HyperLogLog can be controlled via the optional precision
parameter, typically between 4 and 16. A higher precision leads to more accurate
results with increased memory usage. The default is 1.
This function is useful within high cardinality datasets where an exact count is
not required. Thus consider it the higher cardinality alternative to
count_dinstinct
.
Parameters
column_name
: The name of the column for which to estimate the count of distinct values.precision
(optional): A number specifying the precision of the HyperLogLog algorithm, which influences the trade-off between accuracy and memory usage. A higher precision gives a more accurate estimate, but consumes more memory. Defaults to 1 (lower accuracy, high efficiency).
Return value
Return value type is long
.
Examples
Please note that exact example values will vary as they are approximations derived from the HyperLogLog algorithm.
SELECT approx_count_distinct(ip_address, 5) FROM logs;
approx_count_distinct |
---|
1234567 |
SELECT date, approx_count_distinct(user_id) FROM sessions GROUP BY date;
date | approx_count_distinct |
---|---|
2023-01-01 | 2358 |
2023-01-02 | 2491 |
... | ... |
SELECT region, approx_count_distinct(product_id) FROM sales GROUP BY region;
region | approx_count_distinct |
---|---|
North | 1589 |
South | 1432 |
East | 1675 |
West | 1543 |
SELECT approx_count_distinct(order_id, 8) FROM orders;
approx_count_distinct |
---|
3456789 |
SELECT store_id, approx_count_distinct(transaction_id) FROM transactions GROUP BY store_id;
store_id | approx_count_distinct |
---|---|
1 | 56789 |
2 | 67890 |
... | ... |
approx_percentile
approx_percentile(value, percentile, precision)
calculates the approximate
value for the given non-negative column and percentile using the
HdrHistogram algorithm.
Arguments
value
is any numeric non-negative value.percentile
is adouble
value between 0.0 and 1.0, inclusive.precision
is an optionalint
value between 0 and 5, inclusive. This is the number of significant decimal digits to which the histogram will maintain value resolution and separation. For example, when the input column contains integer values between 0 and 3,600,000,000 and the precision is set to 3, value quantization within the range will be no larger than 1/1,000th (or 0.1%) of any value. In this example, the function tracks and analyzes the counts of observed response times ranging between 1 microsecond and 1 hour in magnitude, while maintaining a value resolution of 1 microsecond up to 1 millisecond, a resolution of 1 millisecond (or better) up to one second, and a resolution of 1 second (or better) up to 1,000 seconds. At its maximum tracked value (1 hour), it would still maintain a resolution of 3.6 seconds (or better).
Return value
Return value type is double
.
Examples
SELECT approx_percentile(latency, 0.99) FROM request_logs;
approx_percentile |
---|
101.5 |
avg
avg(value)
calculates simple average of values ignoring missing data (e.g
null
values).
Arguments
value
is any numeric value.
Return value
Return value type is double
.
Examples
SELECT avg(amount) FROM transactions;
avg |
---|
22.4 |
SELECT payment_type, avg(amount) FROM transactions;
payment_type | avg |
---|---|
cash | 22.1 |
card | 27.4 |
null | 18.02 |
corr
corr(arg0, arg1)
is a function that measures how closely two sets of numbers
move in the same direction. It does this by comparing how much each number in
each set differs from the average of its set. This calculation is based on
Welford's Algorithm.
-
If the numbers in both sets tend to be above or below their average values at the same time, the function will return a value close to 1.
-
If one set of numbers tends to be above its average value when the other set is below its average, the function will return a value close to -1.
-
If there's no clear pattern, the function will return a value close to 0.
Arguments
arg0
is any numeric value representing the first variablearg1
is any numeric value representing the second variable
Return value
Return value type is double
.
Examples
SELECT corr(price, quantity) FROM transactions;
corr |
---|
0.89 |
SELECT payment_type, corr(price, quantity) FROM transactions GROUP BY payment_type;
payment_type | avg |
---|---|
cash | 0.85 |
card | 0.92 |
null | 0.78 |
count
count()
orcount(*)
- counts the number of rows irrespective of underlying data.count(column_name)
- counts the number of non-null values in a given column.
Arguments
count()
does not require arguments.count(column_name)
- supports the following data types:double
float
integer
character
short
byte
timestamp
date
long
long256
geohash
varchar
string
symbol
Return value
Return value type is long
.
Examples
Count of rows in the transactions
table:
SELECT count() FROM transactions;
count |
---|
100 |
Count of rows in the transactions
table aggregated by the payment_type
value:
SELECT payment_type, count() FROM transactions;
payment_type | count |
---|---|
cash | 25 |
card | 70 |
null | 5 |
Count non-null transaction amounts:
SELECT count(amount) FROM transactions;
count |
---|
95 |
Count non-null transaction amounts by payment_type
:
SELECT payment_type, count(amount) FROM transactions;
payment_type | count |
---|---|
cash | 24 |
card | 67 |
null | 4 |
null
values are aggregated with count()
, but not with count(column_name)
count_distinct
count_distinct(column_name)
- counts distinct non-null
values in varchar
,
symbol
, long256
, UUID
, IPv4
, long
, int
or string
columns.
Return value
Return value type is long
.
Examples
- Count of distinct sides in the transactions table. Side column can either be
BUY
orSELL
ornull
.
SELECT count_distinct(side) FROM transactions;
count_distinct |
---|
2 |
- Count of distinct counterparties in the transactions table aggregated by
payment_type
value.
SELECT payment_type, count_distinct(counterparty) FROM transactions;
payment_type | count_distinct |
---|---|
cash | 3 |
card | 23 |
null | 5 |
covar_pop
covar_pop(arg0, arg1)
is a function that measures how much two sets of numbers
change together. It does this by looking at how much each number in each set
differs from the average of its set. It multiplies these differences together,
adds them all up, and then divides by the total number of pairs. This gives a
measure of the overall trend.
-
If the numbers in both sets tend to be above or below their average values at the same time, the function will return a positive number.
-
If one set of numbers tends to be above its average value when the other set is below its average, the function will return a negative number.
-
The closer the result is to zero, the less relationship there is between the two sets of numbers.
Arguments
arg0
is any numeric value representing the first variablearg1
is any numeric value representing the second variable.
Return value
Return value type is double
.
Examples
SELECT covar_pop(price, quantity) FROM transactions;
covar_pop |
---|
15.2 |
SELECT payment_type, covar_pop(price, quantity) FROM transactions GROUP BY payment_type;
payment_type | covar_pop |
---|---|
cash | 14.8 |
card | 16.2 |
null | 13.5 |
covar_samp
covar_samp(arg0, arg1)
is a function that finds the relationship between two
sets of numbers. It does this by looking at how much the numbers vary from the
average in each set.
-
If the numbers in both sets tend to be above or below their average values at the same time, the function will return a positive number.
-
If one set of numbers tends to be above its average value when the other set is below its average, the function will return a negative number.
-
The closer the result is to zero, the less relationship there is between the two sets of numbers.
Arguments
arg0
is any numeric value representing the first variable.arg1
is any numeric value representing the second variable.
Return value
Return value type is double
.
Examples
SELECT covar_samp(price, quantity) FROM transactions;
covar_samp |
---|
15.8 |
SELECT payment_type, covar_samp(price, quantity) FROM transactions GROUP BY payment_type;
payment_type | covar_samp |
---|---|
cash | 15.4 |
card | 16.8 |
null | 14.1 |
first/last
first(column_name)
- returns the first value of a column.last(column_name)
- returns the last value of a column.
Supported column datatype: double
, float
, integer
, IPv4
, character
,
short
, byte
, timestamp
, date
, long
, geohash
, symbol
, varchar
and uuid
.
If a table has a designated timestamp,
then the first row is always the row with the lowest timestamp (oldest) and the
last row is always the one with the highest (latest) timestamp. For a table
without a designated timestamp column, first
returns the first row and last
returns the last inserted row, regardless of any timestamp column.
Return value
Return value type is the same as the type of the argument.
Examples
Given a table sensors
, which has a designated timestamp column:
device_id | temperature | ts |
---|---|---|
arduino-01 | 12 | 2021-06-02T14:33:19.970258Z |
arduino-02 | 10 | 2021-06-02T14:33:21.703934Z |
arduino-03 | 18 | 2021-06-02T14:33:23.707013Z |
The following query returns oldest value for the device_id
column:
SELECT first(device_id) FROM sensors;
first |
---|
arduino-01 |
The following query returns the latest symbol value for the device_id
column:
SELECT last(device_id) FROM sensors;
last |
---|
arduino-03 |
Without selecting a designated timestamp column, the table may be unordered and
the query may return different result. Given an unordered table
sensors_unordered
:
device_id | temperature | ts |
---|---|---|
arduino-01 | 12 | 2021-06-02T14:33:19.970258Z |
arduino-03 | 18 | 2021-06-02T14:33:23.707013Z |
arduino-02 | 10 | 2021-06-02T14:33:21.703934Z |
The following query returns the first record for the device_id
column:
SELECT first(device_id) FROM sensors_unordered;
first |
---|
arduino-01 |
The following query returns the last record for the device_id
column:
SELECT last(device_id) FROM sensors_unordered;
last |
---|
arduino-02 |
first_not_null
first_not_null(column_name)
- returns the first non-null value of a column.
Supported column datatype: double
, float
, integer
, IPv4
, char
,
short
, byte
, timestamp
, date
, long
, geohash
, symbol
, varchar
and uuid
.
If a table has a designated timestamp, then the first non-null row is always the
row with the lowest timestamp (oldest). For a table without a designated
timestamp column, first_not_null
returns the first non-null row, regardless of
any timestamp column.
Return value
Return value type is the same as the type of the argument.
Examples
Given a table sensors
, which has a designated timestamp column:
device_id | temperature | ts |
---|---|---|
null | 12 | 2021-06-02T14:33:19.970258Z |
arduino-02 | 10 | 2021-06-02T14:33:21.703934Z |
arduino-03 | 18 | 2021-06-02T14:33:23.707013Z |
The following query returns oldest non-null value for the device_id column:
SELECT first_not_null(device_id) FROM sensors;
first_not_null |
---|
arduino-02 |
Without selecting a designated timestamp column, the table may be unordered and
the query may return different result. Given an unordered table
sensors_unordered
:
device_id | temperature | ts |
---|---|---|
null | 12 | 2021-06-02T14:33:19.970258Z |
arduino-03 | 18 | 2021-06-02T14:33:23.707013Z |
arduino-02 | 10 | 2021-06-02T14:33:21.703934Z |
The following query returns the first non-null record for the device_id column:
SELECT first_not_null(device_id) FROM sensors_unordered;
first_not_null |
---|
arduino-03 |
last_not_null
last_not_null(column_name)
- returns the last non-null value of a column.
Supported column datatype: double
, float
, integer
, IPv4
, char
,
short
, byte
, timestamp
, date
, long
, geohash
, symbol
, varchar
and uuid
.
If a table has a designated timestamp, then the last non-null row is always the
row with the highest timestamp (most recent). For a table without a designated
timestamp column, last_not_null
returns the last non-null row, regardless of
any timestamp column.
Return value
Return value type is the same as the type of the argument.
Examples
Given a table sensors
, which has a designated timestamp column:
device_id | temperature | ts |
---|---|---|
null | 12 | 2021-06-02T14:33:19.970258Z |
arduino-02 | 10 | 2021-06-02T14:33:21.703934Z |
arduino-03 | 18 | 2021-06-02T14:33:23.707013Z |
The following query returns most recent non-null value for the device_id column:
SELECT last_not_null(device_id) FROM sensors;
last_not_null |
---|
arduino-03 |
Without selecting a designated timestamp column, the table may be unordered and
the query may return different result. Given an unordered table
sensors_unordered
:
device_id | temperature | ts |
---|---|---|
null | 12 | 2021-06-02T14:33:19.970258Z |
arduino-03 | 18 | 2021-06-02T14:33:23.707013Z |
arduino-02 | 10 | 2021-06-02T14:33:21.703934Z |
The following query returns the last non-null record for the device_id
column:
SELECT last_not_null(device_id) FROM sensors_unordered;
last_not_null |
---|
arduino-02 |
haversine_dist_deg
haversine_dist_deg(lat, lon, ts)
- calculates the traveled distance for a
series of latitude and longitude points.
Arguments
lat
is the latitude expressed as degrees in decimal format (double
)lon
is the longitude expressed as degrees in decimal format (double
)ts
is thetimestamp
for the data point
Return value
Return value type is double
.
Examples
SELECT car_id, haversine_dist_deg(lat, lon, k)
FROM table rides
ksum
ksum(value)
- adds values ignoring missing data (e.g null
values). Values
are added using the
Kahan compensated sum algorithm.
This is only beneficial for floating-point values such as float
or double
.
Arguments
value
is any numeric value.
Return value
Return value type is the same as the type of the argument.
Examples
SELECT ksum(a)
FROM (SELECT rnd_double() a FROM long_sequence(100));
ksum |
---|
52.79143968514029 |
max
max(value)
- returns the highest value ignoring missing data (e.g null
values).
Arguments
value
is any numeric or string value
Return value
Return value type is the same as the type of the argument.
Examples
SELECT max(amount) FROM transactions;
max |
---|
55.3 |
SELECT payment_type, max(amount) FROM transactions;
payment_type | amount |
---|---|
cash | 31.5 |
card | 55.3 |
null | 29.2 |
min
min(value)
- returns the lowest value ignoring missing data (e.g null
values).
Arguments
value
is any numeric or string value
Return value
Return value type is the same as the type of the argument.
Examples
SELECT min(amount) FROM transactions;
min |
---|
12.5 |
SELECT payment_type, min(amount) FROM transactions;
payment_type | min |
---|---|
cash | 12.5 |
card | 15.3 |
null | 22.2 |
nsum
nsum(value)
- adds values ignoring missing data (e.g null
values). Values
are added using the
Neumaier sum algorithm.
This is only beneficial for floating-point values such as float
or double
.
Arguments
value
is any numeric value.
Return value
Return value type is double
.
Examples
SELECT nsum(a)
FROM (SELECT rnd_double() a FROM long_sequence(100));
nsum |
---|
49.5442334742831 |
stddev / stddev_samp
stddev_samp(value)
- Calculates the sample standard deviation of a set of
values, ignoring missing data (e.g., null values). The sample standard deviation
is a measure of the amount of variation or dispersion in a sample of a
population. A low standard deviation indicates that the values tend to be close
to the mean of the set, while a high standard deviation indicates that the
values are spread out over a wider range.
stddev
is an alias for stddev_samp
.
Arguments
value
is any numeric value.
Return value
Return value type is double
.
Examples
SELECT stddev_samp(x)
FROM (SELECT x FROM long_sequence(100));
stddev_samp |
---|
29.011491975882 |
stddev_pop
stddev_pop(value)
- Calculates the population standard deviation of a set of
values. The population standard deviation is a measure of the amount of
variation or dispersion of a set of values. A low standard deviation indicates
that the values tend to be close to the mean of the set, while a high standard
deviation indicates that the values are spread out over a wider range.
Arguments
value
is any numeric value.
Return value
Return value type is double
.
Examples
SELECT stddev_pop(x)
FROM (SELECT x FROM long_sequence(100));
stddev_samp |
---|
28.86607004772212 |
string_agg
string_agg(value, delimiter)
- Concatenates the given string values into a
single string with the delimiter used as a value separator.
Arguments
value
is avarchar
value.delimiter
is achar
value.
Return value
Return value type is varchar
.
Examples
SELECT string_agg(x::varchar, ',')
FROM (SELECT x FROM long_sequence(5));
string_agg |
---|
1,2,3,4,5 |
sum
sum(value)
- adds values ignoring missing data (e.g null
values).
Arguments
value
is any numeric value.
Return value
Return value type is the same as the type of the argument.
Examples
SELECT sum(quantity) FROM transactions;
sum |
---|
100 |
SELECT item, sum(quantity) FROM transactions;
item | count |
---|---|
apple | 53 |
orange | 47 |
Overflow
sum
does not perform overflow check. To avoid overflow, you can cast the
argument to wider type.
SELECT sum(cast(a AS LONG)) FROM table;
variance / var_samp
var_samp(value)
- Calculates the sample variance of a set of values. The
sample variance is a measure of the amount of variation or dispersion of a set
of values in a sample from a population. A low variance indicates that the
values tend to be very close to the mean, while a high variance indicates that
the values are spread out over a wider range.
variance()
is an alias for var_samp
.
Arguments
value
is any numeric value.
Return value
Return value type is double
.
Examples
SELECT var_samp(x)
FROM (SELECT x FROM long_sequence(100));
stddev_samp |
---|
841.666666666666 |
var_pop
var_pop(value)
- Calculates the population variance of a set of values. The
population variance is a measure of the amount of variation or dispersion of a
set of values. A low variance indicates that the values tend to be very close to
the mean, while a high variance indicates that the values are spread out over a
wider range.
Arguments
value
is any numeric value.
Return value
Return value type is double
.
Examples
SELECT var_pop(x)
FROM (SELECT x FROM long_sequence(100));
stddev_samp |
---|
833.25 |