Aggregation Functions

Aggregate functions return a single result for a group of rows.

Aggregate functions return a single result for a group of rows. The following table shows supported aggregate functions in Pinot.

Function
Description
Example
Default Value When No Record Selected

Project a column where the maxima appears in a series of measuring columns.

ARG_MAX(measuring1, measuring2, measuring3, projection)

Will return no result

0

Returns the count of the records as Long

COUNT(*)

0

Returns the population covariance between of 2 numerical columns as Double

COVAR_POP(col1, col2)

Double.NEGATIVE_INFINITY

Returns the sample covariance between of 2 numerical columns as Double

COVAR_SAMP(col1, col2)

Double.NEGATIVE_INFINITY

Calculate the histogram of a numeric column as Double[]

HISTOGRAM(numberOfGames,0,200,10)

0, 0, ..., 0

Returns the minimum value of a numeric column as Double

MIN(playerScore)

Double.POSITIVE_INFINITY

Returns the maximum value of a numeric column as Double

MAX(playerScore)

Double.NEGATIVE_INFINITY

Returns the sum of the values for a numeric column as Double

SUM(playerScore)

0

Returns the sum of the values for a numeric column with optional precision and scale as BigDecimal

SUMPRECISION(salary), SUMPRECISION(salary, precision, scale)

0.0

Returns the average of the values for a numeric column as Double

AVG(playerScore)

Double.NEGATIVE_INFINITY

Returns the most frequent value of a numeric column as Double. When multiple modes are present it gives the minimum of all the modes. This behavior can be overridden to get the maximum or the average mode.

MODE(playerScore)

MODE(playerScore, 'MIN')

MODE(playerScore, 'MAX')

MODE(playerScore, 'AVG')

Double.NEGATIVE_INFINITY

Returns the max - min value for a numeric column as Double

MINMAXRANGE(playerScore)

Double.NEGATIVE_INFINITY

Returns the Nth percentile of the values for a numeric column as Double. N is a decimal number between 0 and 100 inclusive.

PERCENTILE(playerScore, 50) PERCENTILE(playerScore, 99.9)

Double.NEGATIVE_INFINITY

PERCENTILEEST(playerScore, 50)

PERCENTILEEST(playerScore, 99.9)

Long.MIN_VALUE

PERCENTILETDIGEST(playerScore, 50)

PERCENTILETDIGEST(playerScore, 99.9)

Double.NaN

PERCENTILETDIGEST(playerScore, 50, 1000)

PERCENTILETDIGEST(playerScore, 99.9, 500)

Double.NaN

PERCENTILESMARTTDIGEST

Returns the Nth percentile of the values for a numeric column as Double. When there are too many values, automatically switch to approximate percentile using TDigest. The switch threshold (100_000 by default) and compression (100 by default) for the TDigest can be configured via the optional second argument.

PERCENTILESMARTTDIGEST(playerScore, 50)

PERCENTILESMARTTDIGEST(playerScore, 99.9, 'threshold=100;compression=50)

Double.NEGATIVE_INFINITY

Returns the count of distinct values of a column as Integer

DISTINCTCOUNT(playerName)

0

Returns the count of distinct values of a column as Integer. This function is accurate for INT column, but approximate for other cases where hash codes are used in distinct counting and there may be hash collisions.

DISTINCTCOUNTBITMAP(playerName)

0

Returns an approximate distinct count using HyperLogLog as Long. It also takes an optional second argument to configure the log2m for the HyperLogLog.

DISTINCTCOUNTHLL(playerName, 12)

0

Returns HyperLogLog response serialized as String. The serialized HLL can be converted back into an HLL and then aggregated with other HLLs. A common use case may be to merge HLL responses from different Pinot tables, or to allow aggregation after client-side batching.

DISTINCTCOUNTRAWHLL(playerName)

0

Returns an approximate distinct count using HyperLogLogPlus as Long. It also takes an optional second and third arguments to configure the p and sp for the HyperLogLogPlus.

DISTINCTCOUNTHLLPLUS(playerName)

0

Returns HyperLogLogPlus response serialized as String. The serialized HLLPlus can be converted back into an HLLPlus and then aggregated with other HLLPluses. A common use case may be to merge HLLPlus responses from different Pinot tables, or to allow aggregation after client-side batching.

DISTINCTCOUNTRAWHLLPLUS(playerName)

0

DISTINCTCOUNTSMARTHLL

Returns the count of distinct values of a column as Integer. When there are too many distinct values, automatically switch to approximate distinct count using HyperLogLog. The switch threshold (100_000 by default) and log2m (12 by default) for the HyperLogLog can be configured via the optional second argument.

DISTINCTCOUNTSMARTHLL(playerName),

DISTINCTCOUNTSMARTHLL(playerName, 'threshold=100;log2m=8')

0

0

0

0

0

0

0

0

0

Returns the count of distinct values of a column as Long when the column is pre-partitioned for each segment, where there is no common value within different segments. This function calculates the exact count of distinct values within the segment, then simply sums up the results from different segments to get the final result.

SEGMENTPARTITIONEDDISTINCTCOUNT(playerName)

0

Returns the count of distinct values of a column as Long when the column is pre-partitioned for each segment, where there is no common value within different segments. This function calculates the exact count of distinct values within the segment, then simply sums up the results from different segments to get the final result.

SEGMENTPARTITIONEDDISTINCTCOUNT(playerName)

0

0

Get the last value of dataColumn where the timeColumn is used to define the time of dataColumn and the dataType specifies the type of dataColumn, which can be BOOLEAN, INT, LONG, FLOAT, DOUBLE, STRING

LASTWITHTIME(playerScore, timestampColumn, 'BOOLEAN')

LASTWITHTIME(playerScore, timestampColumn, 'INT')

LASTWITHTIME(playerScore, timestampColumn, 'LONG')

LASTWITHTIME(playerScore, timestampColumn, 'FLOAT')

LASTWITHTIME(playerScore, timestampColumn, 'DOUBLE')

LASTWITHTIME(playerScore, timestampColumn, 'STRING')

INT: Int.MIN_VALUE LONG: Long.MIN_VALUE FLOAT: Float.NaN DOUBLE: Double.NaN STRING: ""

Get the first value of dataColumn where the timeColumn is used to define the time of dataColumn and the dataType specifies the type of dataColumn, which can be BOOLEAN, INT, LONG, FLOAT, DOUBLE, STRING

FIRSTWITHTIME(playerScore, timestampColumn, 'BOOLEAN')

FIRSTWITHTIME(playerScore, timestampColumn, 'INT')

FIRSTWITHTIME(playerScore, timestampColumn, 'LONG')

FIRSTWITHTIME(playerScore, timestampColumn, 'FLOAT')

FIRSTWITHTIME(playerScore, timestampColumn, 'DOUBLE')

FIRSTWITHTIME(playerScore, timestampColumn, 'STRING')

INT: Int.MIN_VALUE LONG: Long.MIN_VALUE FLOAT: Float.NaN DOUBLE: Double.NaN STRING: ""

Deprecated functions:

Function
Description
Example

FASTHLL

FASTHLL stores serialized HyperLogLog in String format, which performs worse than DISTINCTCOUNTHLL, which supports serialized HyperLogLog in BYTES (byte array) format

FASTHLL(playerName)

Multi-value column functions

The following aggregation functions can be used for multi-value columns

Function

FILTER Clause in aggregation

Pinot supports FILTER clause in aggregation queries as follows:

SELECT SUM(COL1) FILTER (WHERE COL2 > 300),
       AVG(COL2) FILTER (WHERE COL2 < 50) 
FROM MyTable WHERE COL3 > 50

In the query above, COL1 is aggregated only for rows where COL2 > 300 and COL3 > 50 . Similarly, COL2 is aggregated where COL2 < 50 and COL3 > 50.

With NULL Value Support enabled, this allows to filter out the null values while performing aggregation as follows:

SELECT SUM(COL1) FILTER (WHERE COL1 IS NOT NULL)
FROM MyTable WHERE COL3 > 50

In the above query, COL1 is aggregated only for the non-null values. Without NULL value support, we would have to filter using the default null value.

Deprecated functions:

Function
Description
Example

FASTHLLMV (Deprecated)

stores serialized HyperLogLog in String format, which performs worse than DISTINCTCOUNTHLL, which supports serialized HyperLogLog in BYTES (byte array) format

FASTHLLMV(playerNames)

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