Please use the form below to provide your feedback. Because your feedback is valuable to us, the information you submit in this form is recorded in our issue tracking system (JIRA), which is publicly available. You can track the status of your feedback using the ticket number displayed in the dialog once you submit the form.

Aggregate Functions

  • Capella Columnar
  • reference
    +
    This topic contains detailed descriptions of the built-in aggregate functions in the query language. Aggregate functions take an array—typically with a single argument—as input and produce a single, aggreagate value.

    The query language also supports standard SQL aggregate functions, for example, MIN, MAX, SUM, COUNT, and AVG. These are not real functions in the query language, but just syntactic sugars over corresponding builtin aggregate functions, for example, ARRAY_MIN, ARRAY_MAX, ARRAY_SUM, ARRAY_COUNT, and ARRAY_AVG. Refer to Aggregation Pseudo-Functions for details.

    You can use the DISTINCT keyword with builtin aggregate functions and standard SQL aggregate functions. You can use DISTINCT with aggregate functions used as window functions. It determines whether the function aggregates all values in the group, or distinct values only. Refer to Function Calls for details.

    You can use aggregate functions as window functions when you include an OVER clause. Refer to OVER Clauses for details.

    array_count

    • Syntax:

      array_count(collection)

    • Gets the number of non-null and non-missing items in the given collection.

    • Arguments:

      • collection could be:

        • an array or multiset to count,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • a bigint value representing the number of non-null and non-missing items in the given collection,

      • null if the input is null or missing,

      • any other non-array and non-multiset input value causes an error.

    • Example:

      array_count( ['hello', 'world', 1, 2, 3, null, missing] );

    • The expected result is:

      5

    array_avg

    • Syntax:

      array_avg(num_collection)

    • Gets the average value of the non-null and non-missing numeric items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • a double value representing the average of the non-null and non-missing numbers in the given collection,

      • null if the input is null or missing,

      • null if the given collection does not contain any non-null and non-missing items,

      • any other non-array and non-multiset input value causes a type error,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      array_avg( [1.2, 2.3, 3.4, 0, null] );

    • The expected result is:

      1.725

    array_sum

    • Syntax:

      array_sum(num_collection)

    • Gets the sum of non-null and non-missing items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • the sum of the non-null and non-missing numbers in the given collection. The returning type is decided by the item type with the highest order in the numeric type promotion order (tinyint-> smallint->integer->bigint->float->double) among items.

      • null if the input is null or missing,

      • null if the given collection does not contain any non-null and non-missing items,

      • any other non-array and non-multiset input value causes a type error,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      array_sum( [1.2, 2.3, 3.4, 0, null, missing] );

    • The expected result is:

      6.9

    array_min

    • Syntax:

      array_min(num_collection)

    • Gets the min value of non-null and non-missing comparable items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • the min value of non-null and non-missing values in the given collection. The returning type is decided by the item type with the highest order in the type promotion order (tinyint-> smallint->integer->bigint->float->double) among numeric items.

      • null if the input is null or missing,

      • null if the given collection does not contain any non-null and non-missing items,

      • multiple incomparable items in the input array or multiset causes a type error,

      • any other non-array and non-multiset input value causes a type error.

    • Example:

      array_min( [1.2, 2.3, 3.4, 0, null, missing] );

    • The expected result is:

      0.0

    array_max

    • Syntax:

      array_max(num_collection)

    • Gets the max value of the non-null and non-missing comparable items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • the max value of non-null and non-missing numbers in the given collection. The returning type is decided by the item type with the highest order in the type promotion order (tinyint-> smallint->integer->bigint->float->double) among numeric items.

      • null if the input is null or missing,

      • null if the given collection does not contain any non-null and non-missing items,

      • multiple incomparable items in the input array or multiset causes a type error,

      • any other non-array and non-multiset input value causes a type error.

    • Example:

      array_max( [1.2, 2.3, 3.4, 0, null, missing] );

    • The expected result is:

      3.4

    array_stddev_samp

    • Syntax:

      array_stddev_samp(num_collection)

    • Gets the sample standard deviation value of the non-null and non-missing numeric items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • a double value representing the sample standard deviation of the non-null and non-missing numbers in the given collection,

      • null if the input is null or missing,

      • null if the given collection does not contain any non-null and non-missing items,

      • any other non-array and non-multiset input value causes a type error,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      array_stddev_samp( [1.2, 2.3, 3.4, 0, null] );

    • The expected result is:

      1.4591664287073858

    array_stddev_pop

    • Syntax:

      array_stddev_pop(num_collection)

    • Gets the population standard deviation value of the non-null and non-missing numeric items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • a double value representing the population standard deviation of the non-null and non-missing numbers in the given collection,

      • null if the input is null or missing,

      • null if the given collection does not contain any non-null and non-missing items,

      • any other non-array and non-multiset input value causes a type error,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      array_stddev_pop( [1.2, 2.3, 3.4, 0, null] );

    • The expected result is:

      1.2636751956100112

    array_var_samp

    • Syntax:

      array_var_samp(num_collection)

    • Gets the sample variance value of the non-null and non-missing numeric items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • a double value representing the sample variance of the non-null and non-missing numbers in the given collection,

      • null if the input is null or missing,

      • null if the given collection does not contain any non-null and non-missing items,

      • any other non-array and non-multiset input value causes a type error,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      array_var_samp( [1.2, 2.3, 3.4, 0, null] );

    • The expected result is:

      2.1291666666666664

    array_var_pop

    • Syntax:

      array_var_pop(num_collection)

    • Gets the population variance value of the non-null and non-missing numeric items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • a double value representing the population variance of the non-null and non-missing numbers in the given collection,

      • null if the input is null or missing,

      • null if the given collection does not contain any non-null and non-missing items,

      • any other non-array and non-multiset input value causes a type error,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      array_var_pop( [1.2, 2.3, 3.4, 0, null] );

    • The expected result is:

      1.5968749999999998

    array_skewness

    • Syntax:

      array_skewness(num_collection)

    • Gets the skewness value of the non-null and non-missing numeric items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • a double value representing the skewness of the non-null and non-missing numbers in the given collection,

      • null if the input is null or missing,

      • null if the given collection does not contain any non-null and non-missing items,

      • any other non-array and non-multiset input value causes a type error,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      array_skewness( [1.2, 2.3, 3.4, 0, null] );

    • The expected result is:

      -0.04808451539164242

    array_kurtosis

    • Syntax:

      array_kurtosis(num_collection)

    • Gets the kurtosis value from the normal distribution of the non-null and non-missing numeric items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • a double value representing the kurtosis from a normal distribution of the non-null and non-missing numbers in the given collection,

      • null if the input is null or missing,

      • null if the given collection does not contain any non-null and non-missing items,

      • any other non-array and non-multiset input value causes a type error,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      array_kurtosis( [1.2, 2.3, 3.4, 0, null] );

    • The expected result is:

      -1.342049701096427

    strict_count

    • Syntax:

      strict_count(collection)

    • Gets the number of items in the given collection.

    • Arguments:

      • collection could be:

        • an array or multiset containing the items to count,

        • or a null value,

        • or a missing value.

    • Return Value:

      • a bigint value representing the number of items in the given collection,

      • null if the input is null or missing.

    • Example:

      strict_count( [1, 2, null, missing] );

    • The expected result is:

      4

    strict_avg

    • Syntax:

      strict_avg(num_collection)

    • Gets the average value of the numeric items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • a double value representing the average of the numbers in the given collection,

      • null if the input is null or missing,

      • null if there is a null or missing in the input collection,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      strict_avg( [100, 200, 300] );

    • The expected result is:

      200.0

    strict_sum

    • Syntax:

      strict_sum(num_collection)

    • Gets the sum of the items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • the sum of the numbers in the given collection. The returning type is decided by the item type with the highest order in the numeric type promotion order (tinyint-> smallint->integer->bigint->float->double) among items.

      • null if the input is null or missing,

      • null if there is a null or missing in the input collection,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      strict_sum( [100, 200, 300] );

    • The expected result is:

      600

    strict_min

    • Syntax:

      strict_min(num_collection)

    • Gets the min value of comparable items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • the min value of the given collection. The returning type is decided by the item type with the highest order in the type promotion order (tinyint-> smallint->integer->bigint->float->double) among numeric items.

      • null if the input is null or missing,

      • null if there is a null or missing in the input collection,

      • multiple incomparable items in the input array or multiset causes a type error,

      • any other non-array and non-multiset input value causes a type error.

    • Example:

      strict_min( [10.2, 100, 5] );

    • The expected result is:

      5.0

    strict_max

    • Syntax:

      strict_max(num_collection)

    • Gets the max value of numeric items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • The max value of the given collection. The returning type is decided by the item type with the highest order in the type promotion order (tinyint-> smallint->integer->bigint->float->double) among numeric items.

      • null if the input is null or missing,

      • null if there is a null or missing in the input collection,

      • multiple incomparable items in the input array or multiset causes a type error,

      • any other non-array and non-multiset input value causes a type error.

    • Example:

      strict_max( [10.2, 100, 5] );

    • The expected result is:

      100.0

    strict_stddev_samp

    • Syntax:

      strict_stddev_samp(num_collection)

    • Gets the sample standard deviation value of the numeric items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • a double value representing the sample standard deviation of the numbers in the given collection,

      • null if the input is null or missing,

      • null if there is a null or missing in the input collection,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      strict_stddev_samp( [100, 200, 300] );

    • The expected result is:

      100.0

    strict_stddev_pop

    • Syntax:

      strict_stddev_pop(num_collection)

    • Gets the population standard deviation value of the numeric items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • a double value representing the population standard deviation of the numbers in the given collection,

      • null if the input is null or missing,

      • null if there is a null or missing in the input collection,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      strict_stddev_pop( [100, 200, 300] );

    • The expected result is:

      81.64965809277261

    strict_var_samp

    • Syntax:

      strict_var_samp(num_collection)

    • Gets the sample variance value of the numeric items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • a double value representing the sample variance of the numbers in the given collection,

      • null if the input is null or missing,

      • null if there is a null or missing in the input collection,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      strict_var_samp( [100, 200, 300] );

    • The expected result is:

      10000.0

    strict_var_pop

    • Syntax:

      strict_var_pop(num_collection)

    • Gets the population variance value of the numeric items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • a double value representing the population variance of the numbers in the given collection,

      • null if the input is null or missing,

      • null if there is a null or missing in the input collection,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      strict_var_pop( [100, 200, 300] );

    • The expected result is:

      6666.666666666667

    strict_skewness

    • Syntax:

      strict_skewness(num_collection)

    • Gets the skewness value of the numeric items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • a double value representing the skewness of the numbers in the given collection,

      • null if the input is null or missing,

      • null if there is a null or missing in the input collection,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      strict_skewness( [100, 200, 300] );

    • The expected result is:

      0.0

    strict_kurtosis

    • Syntax:

      strict_kurtosis(num_collection)

    • Gets the kurtosis value from the normal distribution of the numeric items in the given collection.

    • Arguments:

      • num_collection could be:

        • an array or multiset containing numeric values, nulls or missings,

        • or, a null value,

        • or, a missing value.

    • Return Value:

      • a double value representing the kurtosis from a normal distribution of the numbers in the given collection,

      • null if the input is null or missing,

      • null if there is a null or missing in the input collection,

      • any other non-numeric value in the input collection causes a type error.

    • Example:

      strict_kurtosis( [100, 200, 300] );

    • The expected result is:

      -1.5