12 KiB
sidebar_position |
---|
202 |
quantileExact Functions
quantileExact
Exactly computes the quantile of a numeric data sequence.
To get exact value, all the passed values are combined into an array, which is then partially sorted. Therefore, the function consumes O(n)
memory, where n
is a number of values that were passed. However, for a small number of values, the function is very effective.
When using multiple quantile*
functions with different levels in a query, the internal states are not combined (that is, the query works less efficiently than it could). In this case, use the quantiles function.
Syntax
quantileExact(level)(expr)
Alias: medianExact
.
Arguments
level
— Level of quantile. Optional parameter. Constant floating-point number from 0 to 1. We recommend using alevel
value in the range of[0.01, 0.99]
. Default value: 0.5. Atlevel=0.5
the function calculates median.expr
— Expression over the column values resulting in numeric data types, Date or DateTime.
Returned value
- Quantile of the specified level.
Type:
- Float64 for numeric data type input.
- Date if input values have the
Date
type. - DateTime if input values have the
DateTime
type.
Example
Query:
SELECT quantileExact(number) FROM numbers(10)
Result:
┌─quantileExact(number)─┐
│ 5 │
└───────────────────────┘
quantileExactLow
Similar to quantileExact
, this computes the exact quantile of a numeric data sequence.
To get the exact value, all the passed values are combined into an array, which is then fully sorted. The sorting algorithm's complexity is O(N·log(N))
, where N = std::distance(first, last)
comparisons.
The return value depends on the quantile level and the number of elements in the selection, i.e. if the level is 0.5, then the function returns the lower median value for an even number of elements and the middle median value for an odd number of elements. Median is calculated similarly to the median_low implementation which is used in python.
For all other levels, the element at the index corresponding to the value of level * size_of_array
is returned. For example:
SELECT quantileExactLow(0.1)(number) FROM numbers(10)
┌─quantileExactLow(0.1)(number)─┐
│ 1 │
└───────────────────────────────┘
When using multiple quantile*
functions with different levels in a query, the internal states are not combined (that is, the query works less efficiently than it could). In this case, use the quantiles function.
Syntax
quantileExactLow(level)(expr)
Alias: medianExactLow
.
Arguments
level
— Level of quantile. Optional parameter. Constant floating-point number from 0 to 1. We recommend using alevel
value in the range of[0.01, 0.99]
. Default value: 0.5. Atlevel=0.5
the function calculates median.expr
— Expression over the column values resulting in numeric data types, Date or DateTime.
Returned value
- Quantile of the specified level.
Type:
- Float64 for numeric data type input.
- Date if input values have the
Date
type. - DateTime if input values have the
DateTime
type.
Example
Query:
SELECT quantileExactLow(number) FROM numbers(10)
Result:
┌─quantileExactLow(number)─┐
│ 4 │
└──────────────────────────┘
quantileExactHigh
Similar to quantileExact
, this computes the exact quantile of a numeric data sequence.
All the passed values are combined into an array, which is then fully sorted, to get the exact value. The sorting algorithm's complexity is O(N·log(N))
, where N = std::distance(first, last)
comparisons.
The return value depends on the quantile level and the number of elements in the selection, i.e. if the level is 0.5, then the function returns the higher median value for an even number of elements and the middle median value for an odd number of elements. Median is calculated similarly to the median_high implementation which is used in python. For all other levels, the element at the index corresponding to the value of level * size_of_array
is returned.
This implementation behaves exactly similar to the current quantileExact
implementation.
When using multiple quantile*
functions with different levels in a query, the internal states are not combined (that is, the query works less efficiently than it could). In this case, use the quantiles function.
Syntax
quantileExactHigh(level)(expr)
Alias: medianExactHigh
.
Arguments
level
— Level of quantile. Optional parameter. Constant floating-point number from 0 to 1. We recommend using alevel
value in the range of[0.01, 0.99]
. Default value: 0.5. Atlevel=0.5
the function calculates median.expr
— Expression over the column values resulting in numeric data types, Date or DateTime.
Returned value
- Quantile of the specified level.
Type:
- Float64 for numeric data type input.
- Date if input values have the
Date
type. - DateTime if input values have the
DateTime
type.
Example
Query:
SELECT quantileExactHigh(number) FROM numbers(10)
Result:
┌─quantileExactHigh(number)─┐
│ 5 │
└───────────────────────────┘
quantileExactExclusive
Exactly computes the quantile of a numeric data sequence.
To get exact value, all the passed values are combined into an array, which is then partially sorted. Therefore, the function consumes O(n)
memory, where n
is a number of values that were passed. However, for a small number of values, the function is very effective.
This function is equivalent to PERCENTILE.EXC Excel function, (type R6).
When using multiple quantileExactExclusive
functions with different levels in a query, the internal states are not combined (that is, the query works less efficiently than it could). In this case, use the quantilesExactExclusive function.
Syntax
quantileExactExclusive(level)(expr)
Arguments
expr
— Expression over the column values resulting in numeric data types, Date or DateTime.
Parameters
level
— Level of quantile. Optional. Possible values: (0, 1) — bounds not included. Default value: 0.5. Atlevel=0.5
the function calculates median. Float.
Returned value
- Quantile of the specified level.
Type:
- Float64 for numeric data type input.
- Date if input values have the
Date
type. - DateTime if input values have the
DateTime
type.
Example
Query:
CREATE TABLE num AS numbers(1000);
SELECT quantileExactExclusive(0.6)(x) FROM (SELECT number AS x FROM num);
Result:
┌─quantileExactExclusive(0.6)(x)─┐
│ 599.6 │
└────────────────────────────────┘
quantileExactInclusive
Exactly computes the quantile of a numeric data sequence.
To get exact value, all the passed values are combined into an array, which is then partially sorted. Therefore, the function consumes O(n)
memory, where n
is a number of values that were passed. However, for a small number of values, the function is very effective.
This function is equivalent to PERCENTILE.INC Excel function, (type R7).
When using multiple quantileExactInclusive
functions with different levels in a query, the internal states are not combined (that is, the query works less efficiently than it could). In this case, use the quantilesExactInclusive function.
Syntax
quantileExactInclusive(level)(expr)
Arguments
expr
— Expression over the column values resulting in numeric data types, Date or DateTime.
Parameters
level
— Level of quantile. Optional. Possible values: [0, 1] — bounds included. Default value: 0.5. Atlevel=0.5
the function calculates median. Float.
Returned value
- Quantile of the specified level.
Type:
- Float64 for numeric data type input.
- Date if input values have the
Date
type. - DateTime if input values have the
DateTime
type.
Example
Query:
CREATE TABLE num AS numbers(1000);
SELECT quantileExactInclusive(0.6)(x) FROM (SELECT number AS x FROM num);
Result:
┌─quantileExactInclusive(0.6)(x)─┐
│ 599.4 │
└────────────────────────────────┘
See Also