Scalar Functions

Scalar functions return a single value (not a table).

Table of Contents

String Functions

concat('first_arg', second_arg, [ parameter , ... ])

Concatenates a variable number of arguments into a single string. It ignores NULL values.

Returns: string

cr> select concat('foo', null, 'bar');
+----------------------------+
| concat('foo', NULL, 'bar') |
+----------------------------+
| foobar                     |
+----------------------------+
SELECT 1 row in set (... sec)

You can also use the || operator:

cr> select 'foo' || 'bar';
+----------------------+
| concat('foo', 'bar') |
+----------------------+
| foobar               |
+----------------------+
SELECT 1 row in set (... sec)

format('format_string', parameter, [ parameter , ... ])

Formats a string similar to the C function printf. For details about the format string syntax, see formatter

Returns: string

cr> select format('%s.%s', schema_name, table_name) from sys.shards
... where table_name = 'locations'
... limit 1;
+------------------------------------------+
| format('%s.%s', schema_name, table_name) |
+------------------------------------------+
| doc.locations                            |
+------------------------------------------+
SELECT 1 row in set (... sec)
cr> select format('%tY', date) from locations
... group by format('%tY', date)
... order by 1;
+---------------------+
| format('%tY', date) |
+---------------------+
|                1979 |
|                2013 |
+---------------------+
SELECT 2 rows in set (... sec)

substr('string', from, [ count ])

Extracts a part of a string. from specifies where to start and count the length of the part.

Returns: string

cr> select substr('crate.io', 3, 2);
+--------------------------+
| substr('crate.io', 3, 2) |
+--------------------------+
| at                       |
+--------------------------+
SELECT 1 row in set (... sec)

char_length('string')

Counts the number of characters in a string.

Returns: integer

cr> select char_length('crate.io');
+-------------------------+
| char_length('crate.io') |
+-------------------------+
|                       8 |
+-------------------------+
SELECT 1 row in set (... sec)

Each character counts only once, regardless of its byte size.

cr> select char_length('©rate.io');
+-------------------------+
| char_length('©rate.io') |
+-------------------------+
|                       8 |
+-------------------------+
SELECT 1 row in set (... sec)

bit_length('string')

Counts the number of bits in a string.

Returns: integer

Note

CrateDB uses UTF-8 encoding internally, which uses between 1 and 4 bytes per character.

cr> select bit_length('crate.io');
+------------------------+
| bit_length('crate.io') |
+------------------------+
|                     64 |
+------------------------+
SELECT 1 row in set (... sec)
cr> select bit_length('©rate.io');
+------------------------+
| bit_length('©rate.io') |
+------------------------+
|                     72 |
+------------------------+
SELECT 1 row in set (... sec)

octet_length('string')

Counts the number of bytes (octets) in a string.

Returns: integer

cr> select octet_length('crate.io');
+--------------------------+
| octet_length('crate.io') |
+--------------------------+
|                        8 |
+--------------------------+
SELECT 1 row in set (... sec)
cr> select octet_length('©rate.io');
+--------------------------+
| octet_length('©rate.io') |
+--------------------------+
|                        9 |
+--------------------------+
SELECT 1 row in set (... sec)

lower('string')

Converts all characters to lowercase. lower does not perform locale-sensitive or context-sensitive mappings.

Returns: string

cr> select lower('TransformMe');
+----------------------+
| lower('TransformMe') |
+----------------------+
| transformme          |
+----------------------+
SELECT 1 row in set (... sec)

upper('string')

Converts all characters to uppercase. upper does not perform locale-sensitive or context-sensitive mappings.

Returns: string

cr> select upper('TransformMe');
+----------------------+
| upper('TransformMe') |
+----------------------+
| TRANSFORMME          |
+----------------------+
SELECT 1 row in set (... sec)

initcap('string')

Converts the first letter of each word to upper case and the rest to lower case (capitalize letters).

Returns: string

cr> select initcap('heLlo WORLD');
 +------------------------+
 | initcap('heLlo WORLD') |
 +------------------------+
 | Hello World            |
 +------------------------+
 SELECT 1 row in set (... sec)

sha1('string')

Returns: string

Computes the SHA1 checksum of the given string.

cr> select sha1('foo');
+------------------------------------------+
| sha1('foo')                              |
+------------------------------------------+
| 0beec7b5ea3f0fdbc95d0dd47f3c5bc275da8a33 |
+------------------------------------------+
SELECT 1 row in set (... sec)

md5('string')

Returns: string

Computes the MD5 checksum of the given string.

See sha1 for an example.

replace(text, from, to)

Replaces all occurrences of from in text with to.

cr> select replace('Hello World', 'World', 'Stranger');
+---------------------------------------------+
| replace('Hello World', 'World', 'Stranger') |
+---------------------------------------------+
| Hello Stranger                              |
+---------------------------------------------+
SELECT 1 row in set (... sec)

Date and Time Functions

date_trunc('interval', ['timezone',] timestamp)

Returns: timestamp

Limits a timestamps precision to a given interval.

Valid intervals are:

  • second

  • minute

  • hour

  • day

  • week

  • month

  • quarter

  • year

Valid values for timezone are either the name of a time zone (for example ‘Europe/Vienna’) or the UTC offset of a time zone (for example ‘+01:00’). To get a complete overview of all possible values take a look at the available time zones supported by Joda-Time.

The following example shows how to use the date_trunc function to generate a day based histogram in the Europe/Moscow timezone:

cr> select
... date_trunc('day', 'Europe/Moscow', date) as day,
... count(*) as num_locations
... from locations
... group by date_trunc('day', 'Europe/Moscow', date)
... order by date_trunc('day', 'Europe/Moscow', date);
+---------------+---------------+
| day           | num_locations |
+---------------+---------------+
| 308523600000  | 4             |
| 1367352000000 | 1             |
| 1373918400000 | 8             |
+---------------+---------------+
SELECT 3 rows in set (... sec)

If you don’t specify a time zone, truncate uses UTC time:

cr> select date_trunc('day', date) as day, count(*) as num_locations
... from locations
... group by date_trunc('day', date)
... order by date_trunc('day', date);
+---------------+---------------+
| day           | num_locations |
+---------------+---------------+
| 308534400000  | 4             |
| 1367366400000 | 1             |
| 1373932800000 | 8             |
+---------------+---------------+
SELECT 3 rows in set (... sec)

extract(field from source)

extract is a special expression that translates to a function which retrieves subfields such as day, hour or minute from a timestamp.

The return type depends on the used field.

Synopsis

EXTRACT( field FROM expression )
field

An identifier or string literal which identifies the part of the timestamp that should be extracted.

expression

An expression that resolves to a timestamp or is castable to timestamp.

cr> select extract(day from '2014-08-23');
+--------------------------------+
| EXTRACT(DAY FROM '2014-08-23') |
+--------------------------------+
|                             23 |
+--------------------------------+
SELECT 1 row in set (... sec)

source must be an expression that returns a timestamp. In case the expression has a different return type but is known to be castable to timestamp an implicit cast will be attempted.

field is an identifier that selects which part of the timestamp to extract. The following fields are supported:

CENTURY
Return type: integer
century of era

Returns the ISO representation which is a straight split of the date.

Year 2000 century 20 and year 2001 is also century 20. This is different to the GregorianJulian (GJ) calendar system where 2001 would be century 21.

YEAR
Return type: integer
the year field
QUARTER
Return type: integer
the quarter of the year (1 - 4)
MONTH
Return type: integer
the month of the year
WEEK
Return type: integer
the week of the year
DAY
Return type: integer
the day of the month
DAY_OF_MONTH
Return type: integer
same as day
DAY_OF_WEEK
Return type: integer
day of the week. Starting with Monday (1) to Sunday (7)
DOW
Return type: integer
same as day_of_week
DAY_OF_YEAR
Return type: integer
the day of the year (1 - 365 / 366)
DOY
Return type: integer
same as day_of_year
HOUR
Return type: integer
the hour field
MINUTE
Return type: integer
the minute field
SECOND
Return type: integer
the second field
EPOCH
Return type: double
The number of seconds since Jan 1, 1970.
Can be negative if earlier than Jan 1, 1970.

CURRENT_TIMESTAMP

The CURRENT_TIMESTAMP expression returns the timestamp in milliseconds since epoch at the time the SQL statement was handled. Therefore, the same timestamp value is returned for every invocation of a single statement.

Note

If the CURRENT_TIMESTAMP function is used in Generated Columns it behaves slightly different in UPDATE operations. In such a case the actual timestamp of each row update is returned.

synopsis:

CURRENT_TIMESTAMP [ ( precision ) ]

precision must be a positive integer between 0 and 3. The default value is 3. It determines the number of fractional seconds to output. A value of 0 means the timestamp will have second precision, no fractional seconds (milliseconds) are given.

Note

The CURRENT_TIMESTAMP will be evaluated using javas System.currentTimeMillis(). So its actual result depends on the underlying operating system.

date_format([format_string, [timezone,]] timestamp)

The date_format function formats a timestamp as string according to the (optional) format string.

Returns: string

Synopsis

DATE_FORMAT( [ format_string, [ timezone, ] ] timestamp )

The only mandatory argument is the timestamp value to format. It can be any expression that is safely convertible to timestamp.

Format

The syntax for the format_string is 100% compatible to the syntax of the MySQL date_format function. For reference, the format is listed in detail below 1:

date_format Format

Format Specifier

Description

%a

Abbreviated weekday name (Sun..Sat)

%b

Abbreviated month name (Jan..Dec)

%c

Month in year, numeric (0..12)

%D

Day of month as ordinal number (1st, 2nd, … 24th)

%d

Day of month, padded to 2 digits (00..31)

%e

Day of month (0..31)

%f

Microseconds, padded to 6 digits (000000..999999)

%H

Hour in 24-hour clock, padded to 2 digits (00..23)

%h

Hour in 12-hour clock, padded to 2 digits (01..12)

%I

Hour in 12-hour clock, padded to 2 digits (01..12)

%i

Minutes, numeric (00..59)

%j

Day of year, padded to 3 digits (001..366)

%k

Hour in 24-hour clock (0..23)

%l

Hour in 12-hour clock (1..12)

%M

Month name (January..December)

%m

Month in year, numeric, padded to 2 digits (00..12)

%p

AM or PM

%r

Time, 12-hour (hh:mm:ss followed by AM or PM)

%S

Seconds, padded to 2 digits (00..59)

%s

Seconds, padded to 2 digits (00..59)

%T

Time, 24-hour (hh:mm:ss)

%U

Week number, sunday as first day of the week, first week of the year (01) is the one starting in this year, week 00 starts in last year (00..53)

%u

Week number, monday as first day of the week, first week of the year (01) is the one with at least 4 days in this year (00..53)

%V

Week number, sunday as first day of the week, first week of the year (01) is the one starting in this year, uses the week number of the last year, if the week started in last year (01..53)

%v

Week number, monday as first day of the week, first week of the year (01) is the one with at least 4 days in this year, uses the week number of the last year, if the week started in last year (01..53)

%W

Weekday name (Sunday..Saturday)

%w

Day of the week (0=Sunday..6=Saturday)

%X

weekyear, sunday as first day of the week, numeric, four digits; used with %V

%x

weekyear, monday as first day of the week, numeric, four digits; used with %v

%Y

Year, numeric, four digits

%y

Year, numeric, two digits

%%

A literal ‘%’ character

%x

x, for any ‘x’ not listed above

If no format_string is given the default format will be used:

%Y-%m-%dT%H:%i:%s.%fZ
cr> select date_format('1970-01-01') as epoque;
+-----------------------------+
| epoque                      |
+-----------------------------+
| 1970-01-01T00:00:00.000000Z |
+-----------------------------+
SELECT 1 row in set (... sec)

Timezone

Valid values for timezone are either the name of a time zone (for example ‘Europe/Vienna’) or the UTC offset of a time zone (for example ‘+01:00’). To get a complete overview of all possible values take a look at the available time zones supported by Joda-Time.

The timezone will be UTC if not provided:

cr> select date_format('%W the %D of %M %Y %H:%i %p', 0) as epoque;
+-------------------------------------------+
| epoque                                    |
+-------------------------------------------+
| Thursday the 1st of January 1970 00:00 AM |
+-------------------------------------------+
SELECT 1 row in set (... sec)
cr> select date_format('%Y/%m/%d %H:%i', 'EST',  0) as est_epoque;
+------------------+
| est_epoque       |
+------------------+
| 1969/12/31 19:00 |
+------------------+
SELECT 1 row in set (... sec)

Geo Functions

distance(geo_point1, geo_point2)

Returns: double

The distance function can be used to calculate the distance between two points on earth. It uses the Haversine formula which gives great-circle distances between 2 points on a sphere based on their latitude and longitude.

The return value is the distance in meters.

Below is an example of the distance function where both points are specified using WKT. See geo_point for more information on the implicit type casting of geo points:

cr> select distance('POINT (10 20)', 'POINT (11 21)');
+--------------------------------------------+
| distance('POINT (10 20)', 'POINT (11 21)') |
+--------------------------------------------+
|                          152354.3209044634 |
+--------------------------------------------+
SELECT 1 row in set (... sec)

This scalar function can always be used in both the WHERE and ORDER BY clauses. With the limitation that one of the arguments must be a literal and the other argument must be a column reference.

Note

The algorithm of the calculation which is used when the distance function is used as part of the result column list has a different precision than what is stored inside the index which is utilized if the distance function is part of a WHERE clause.

For example if select distance(...) returns 0.0 an equality check with where distance(...) = 0 might not yield anything at all due to the precision difference.

within(shape1, shape2)

Returns: boolean

The within function returns true if shape1 is within shape2. If that is not the case false is returned.

shape1 can either be a geo_shape or a geo_point. shape2 must be a geo_shape.

Below is an example of the within function which makes use of the implicit type casting from strings to geo point and geo shapes:

cr> select within(
...   'POINT (10 10)',
...   'POLYGON ((5 5, 10 5, 10 10, 5 10, 5 5))'
... );
+--------------------------------------------------------------------+
| within('POINT (10 10)', 'POLYGON ((5 5, 10 5, 10 10, 5 10, 5 5))') |
+--------------------------------------------------------------------+
| TRUE                                                               |
+--------------------------------------------------------------------+
SELECT 1 row in set (... sec)

This function can always be used within the WHERE clause.

intersects(geo_shape, geo_shape)

Returns: boolean

The intersects function returns true if both argument shapes share some points or area, they overlap. This also includes two shapes where one lies within the other.

If false is returned, both shapes are considered disjoint.

Example:

cr> select
... intersects(
...   {type='Polygon', coordinates=[
...         [[13.4252, 52.7096],[13.9416, 52.0997],
...          [12.7221, 52.1334],[13.4252, 52.7096]]]},
...   'LINESTRING(13.9636 52.6763, 13.2275 51.9578,
...               12.9199 52.5830, 11.9970 52.6830)'
... ) as intersects,
... intersects(
...   {type='Polygon', coordinates=[
...         [[13.4252, 52.7096],[13.9416, 52.0997],
...          [12.7221, 52.1334],[13.4252, 52.7096]]]},
...   'LINESTRING (11.0742 49.4538, 11.5686 48.1367)'
... ) as disjoint;
+------------+----------+
| intersects | disjoint |
+------------+----------+
| TRUE       | FALSE    |
+------------+----------+
SELECT 1 row in set (... sec)

Due to a limitation on the geo_shape datatype this function cannot be used in the ORDER BY.

latitude(geo_point) and longitude(geo_point)

Returns: double

The latitude and longitude function return the coordinates of latitude or longitude of a point, or NULL if not available. The input must be a column of type geo_point, a valid WKT string or a double-array. See geo_point for more information on the implicit type casting of geo points.

Example:

cr> select mountain, height, longitude(coordinates) as "lon", latitude(coordinates) as "lat"
... from sys.summits order by height desc limit 1;
+------------+--------+---------+---------+
| mountain   | height |     lon |     lat |
+------------+--------+---------+---------+
| Mont Blanc |   4808 | 6.86444 | 45.8325 |
+------------+--------+---------+---------+
SELECT 1 row in set (... sec)

Below is an example of the latitude/longitude functions which make use of the implicit type casting from strings to geo point:

cr> select latitude('POINT (10 20)'), longitude([10.0, 20.0]);
+---------------------------+-------------------------+
| latitude('POINT (10 20)') | longitude([10.0, 20.0]) |
+---------------------------+-------------------------+
|                      20.0 |                    10.0 |
+---------------------------+-------------------------+
SELECT 1 row in set (... sec)

geohash(geo_point)

Returns: string

Returns a GeoHash representation based on full precision (12 characters) of the input point, or NULL if not available. The input has to be a column of type geo_point, a valid WKT string or a double-array.See geo_point for more information of the implicit type casting of geo points.

Example:

cr> select mountain, height, geohash(coordinates) as "geohash" from sys.summits
... order by height desc limit 1;
+------------+--------+--------------+
| mountain   | height | geohash      |
+------------+--------+--------------+
| Mont Blanc |   4808 | u0huspw99j1r |
+------------+--------+--------------+
SELECT 1 row in set (... sec)

Mathematical Functions

All mathematical functions can be used within WHERE and ORDER BY clauses.

abs(number)

Returns the absolute value of the given number in the datatype of the given number:

cr> select abs(214748.0998), abs(0), abs(-214748);
+------------------+--------+---------------+
| abs(214748.0998) | abs(0) | abs(- 214748) |
+------------------+--------+---------------+
|      214748.0998 |      0 |        214748 |
+------------------+--------+---------------+
SELECT 1 row in set (... sec)

ceil(number)

Returns the smallest integer or long value that is not less than the argument.

Returns: long or integer

Return value will be of type integer if the input value is an integer or float. If the input value is of type long or double the return value will be of type long:

cr> select ceil(29.9);
+------------+
| ceil(29.9) |
+------------+
|         30 |
+------------+
SELECT 1 row in set (... sec)

floor(number)

Returns the largest integer or long value that is not greater than the argument.

Returns: long or integer

Return value will be an integer if the input value is an integer or a float. If the input value is of type long or double the return value will be of type long.

See below for an example:

cr> select floor(29.9);
+-------------+
| floor(29.9) |
+-------------+
|          29 |
+-------------+
SELECT 1 row in set (... sec)

ln(number)

Returns the natural logarithm of given number.

Returns: double

See below for an example:

cr> SELECT ln(1);
+-------+
| ln(1) |
+-------+
|   0.0 |
+-------+
SELECT 1 row in set (... sec)

Note

An error is returned for arguments which lead to undefined or illegal results. E.g. ln(0) results in minus infinity, and therefore, an error is returned.

log(x : number, b : number)

Returns the logarithm of given x to base b.

Returns: double

See below for an example, which essentially is the same as above:

cr> SELECT log(100, 10);
+--------------+
| log(100, 10) |
+--------------+
|          2.0 |
+--------------+
SELECT 1 row in set (... sec)

The second argument (b) is optional. If not present, base 10 is used:

cr> SELECT log(100);
+----------+
| log(100) |
+----------+
|      2.0 |
+----------+
SELECT 1 row in set (... sec)

Note

An error is returned for arguments which lead to undefined or illegal results. E.g. log(0) results in minus infinity, and therefore, an error is returned.

The same is true for arguments which lead to a division by zero, as e.g. log(10, 1) does.

power(a: number, b: number)

Returns the given argument a raised to the power of argument b.

Returns: double

The return type of the power function is always double, even when both the inputs are integral types, in order to be consistent across positive and negative exponents (which will yield decimal types)

See below for an example:

cr> SELECT power(2,3);
+-------------+
| power(2, 3) |
+-------------+
|         8.0 |
+-------------+
SELECT 1 row in set (... sec)

random()

The random function returns a random value in the range 0.0 <= X < 1.0.

Returns: double

Note

Every call to random will yield a new random number.

round(number)

If the input is of type double or long the result is the closest long to the argument, with ties rounding up.

If the input is of type float or integer the result is the closest integer to the argument, with ties rounding up.

Returns: long or integer

See below for an example:

cr> select round(42.2);
+-------------+
| round(42.2) |
+-------------+
|          42 |
+-------------+
SELECT 1 row in set (... sec)

sqrt(number)

Returns the square root of the argument.

Returns: double

See below for an example:

cr> select sqrt(25.0);
+------------+
| sqrt(25.0) |
+------------+
|        5.0 |
+------------+
SELECT 1 row in set (... sec)

sin(number)

Returns the sine of the argument.

Returns: double

See below for an example:

cr> SELECT sin(1);
+--------------------+
|             sin(1) |
+--------------------+
| 0.8414709848078965 |
+--------------------+
SELECT 1 row in set (... sec)

asin(number)

Returns the arcsine of the argument.

Returns: double

See below for an example:

cr> SELECT asin(1);
+--------------------+
|            asin(1) |
+--------------------+
| 1.5707963267948966 |
+--------------------+
SELECT 1 row in set (... sec)

cos(number)

Returns the cosine of the argument.

Returns: double

See below for an example:

cr> SELECT cos(1);
+--------------------+
|             cos(1) |
+--------------------+
| 0.5403023058681398 |
+--------------------+
SELECT 1 row in set (... sec)

acos(number)

Returns the arccosine of the argument.

Returns: double

See below for an example:

cr> SELECT acos(-1);
+-------------------+
|         acos(- 1) |
+-------------------+
| 3.141592653589793 |
+-------------------+
SELECT 1 row in set (... sec)

tan(number)

Returns the tangent of the argument.

Returns: double

See below for an example:

cr> SELECT tan(1);
+--------------------+
|             tan(1) |
+--------------------+
| 1.5574077246549023 |
+--------------------+
SELECT 1 row in set (... sec)

atan(number)

Returns the arctangent of the argument.

Returns: double

See below for an example:

cr> SELECT atan(1);
+--------------------+
|            atan(1) |
+--------------------+
| 0.7853981633974483 |
+--------------------+
SELECT 1 row in set (... sec)

Regular Expression Functions

The regular expression functions in CrateDB use Java Regular Expressions.

See the api documentation for more details.

Note

Be aware that, in contrast to the functions, the regular expression operator is using Lucene Regular Expressions.

regexp_matches(source, pattern [, flags])

This function uses the regular expression pattern in pattern to match against the source string.

Returns: string_array

If source matches, an array of the matched regular expression groups is returned.

If no regular expression group was used, the whole pattern is used as a group.

If source does not match, this function returns NULL.

A regular expression group is formed by a subexpression that is surrounded by parentheses.The position of a group is determined by the position of its opening parenthesis.

For example when matching the pattern \b([A-Z]) a match for the subexpression ([A-Z]) would create group No. 1. If you want to group stuff with parentheses, but without grouping, use (?...).

For example matching the regular expression ([Aa](.+)z) against alcatraz, results in these groups:

  • group 1: alcatraz (from first to last parenthesis or whole pattern)

  • group 2: lcatra (beginning at second parenthesis)

The regexp_matches function will return all groups as a string array:

cr> select regexp_matches('alcatraz', '(a(.+)z)') as matched;
+------------------------+
| matched                |
+------------------------+
| ["alcatraz", "lcatra"] |
+------------------------+
SELECT 1 row in set (... sec)
cr> select regexp_matches('alcatraz', 'traz') as matched;
+----------+
| matched  |
+----------+
| ["traz"] |
+----------+
SELECT 1 row in set (... sec)

Through array element access functionality, a group can be selected directly. See Selecting Array Elements for details.

cr> select regexp_matches('alcatraz', '(a(.+)z)')[2] as second_group;
+--------------+
| second_group |
+--------------+
| lcatra       |
+--------------+
SELECT 1 row in set (... sec)

Flags

This function takes a number of flags as optional third parameter. These flags are given as a string containing any of the characters listed below. Order does not matter.

Flag

Description

i

enable case insensitive matching

u

enable unicode case folding when used together with i

U

enable unicode support for character classes like \W

s

make . match line terminators, too

m

make ^ and $ match on the beginning or end of a line too.

x

permit whitespace and line comments starting with #

d

only \n is considered a line-terminator when using ^, $ and .

Examples

cr> select regexp_matches('foobar', '^(a(.+)z)$') as matched;
+---------+
| matched |
+---------+
| NULL    |
+---------+
SELECT 1 row in set (... sec)
cr> select regexp_matches('99 bottles of beer on the wall', '\d{2}\s(\w+).*', 'ixU')
... as matched;
+-------------+
| matched     |
+-------------+
| ["bottles"] |
+-------------+
SELECT 1 row in set (... sec)

regexp_replace(source, pattern, replacement [, flags])

regexp_replace can be used to replace every (or only the first) occurence of a subsequence matching pattern in the source string with the replacement string. If no subsequence in source matches the regular expression pattern, source is returned unchanged.

Returns: string

pattern is a java regular expression. For details on the regexp syntax, see Java Regular Expressions.

The replacement string may contain expressions like $N where N is a digit between 0 and 9. It references the Nth matched group of pattern and the matching subsequence of that group will be inserted in the returned string. The expression $0 will insert the whole matching source.

Per default, only the first occurrence of a subsequence matching pattern will be replaced. If all occurrences shall be replaced use the g flag.

Flags

regexp_replace supports the same flags than regexp_matches, see regexp_matches Flags and additionally the g flag:

Flag

Description

g

replace all occurrences of a subsequence matching pattern, not only the first

Examples

cr> select name, regexp_replace(name, '(\w+)\s(\w+)+', '$1 - $2') as replaced from locations
... order by name limit 5;
 +---------------------+-----------------------+
 | name                | replaced              |
 +---------------------+-----------------------+
 |                     |                       |
 | Aldebaran           | Aldebaran             |
 | Algol               | Algol                 |
 | Allosimanius Syneca | Allosimanius - Syneca |
 | Alpha Centauri      | Alpha - Centauri      |
 +---------------------+-----------------------+
 SELECT 5 rows in set (... sec)
cr> select regexp_replace('alcatraz', '(foo)(bar)+', '$1baz') as replaced;
 +----------+
 | replaced |
 +----------+
 | alcatraz |
 +----------+
 SELECT 1 row in set (... sec)
cr> select name, regexp_replace(name, '([A-Z]\w+) .+', '$1', 'ig') as replaced from locations
... order by name limit 5;
 +---------------------+--------------+
 | name                | replaced     |
 +---------------------+--------------+
 |                     |              |
 | Aldebaran           | Aldebaran    |
 | Algol               | Algol        |
 | Allosimanius Syneca | Allosimanius |
 | Alpha Centauri      | Alpha        |
 +---------------------+--------------+
 SELECT 5 rows in set (... sec)

Array Functions

array_cat(first_array, second_array)

The array_cat function concatenates two arrays into one array

Returns: array

cr> select array_cat([1,2,3],[3,4,5,6]);
+------------------------------------+
| array_cat([1, 2, 3], [3, 4, 5, 6]) |
+------------------------------------+
| [1, 2, 3, 3, 4, 5, 6]              |
+------------------------------------+
SELECT 1 row in set (... sec)

It can be used to append elements to array fields

cr> create table array_cat_example (list array(integer));
CREATE OK, 1 row affected (... sec)
cr> insert into array_cat_example (list) values ([1,2,3]);
INSERT OK, 1 row affected (... sec)
cr> update array_cat_example set list = array_cat(list, [4, 5, 6]);
UPDATE OK, 1 row affected (... sec)
cr> select * from array_cat_example;
+--------------------+
| list               |
+--------------------+
| [1, 2, 3, 4, 5, 6] |
+--------------------+
SELECT 1 row in set (... sec)

Note

Appending to arrays with array_cat in updates is handy, but unfortunately not isolated. We use optimistic concurrency control to ensure that your update operation used the latest state of the row. But only 3 retry attempts are made by fetching the newest version again and if they all fail, the query fails.

You can also use the concat operator || with arrays

cr> select [1,2,3] || [4,5,6] || [7,8,9];
+-------------------------------------------------+
| concat(concat([1, 2, 3], [4, 5, 6]), [7, 8, 9]) |
+-------------------------------------------------+
| [1, 2, 3, 4, 5, 6, 7, 8, 9]                     |
+-------------------------------------------------+
SELECT 1 row in set (... sec)

array_unique(first_array, [ second_array])

The array_unique function merges two arrays into one array with unique elements

Returns: array

cr> select array_unique([1, 2, 3], [3, 4, 4]);
+------------------------------------+
| array_unique([1, 2, 3], [3, 4, 4]) |
+------------------------------------+
| [1, 2, 3, 4]                       |
+------------------------------------+
SELECT 1 row in set (... sec)

If the arrays have different types all elements will be cast to the element type of the first array with a defined type:

cr> select array_unique([10, 20], [10.2, 20.3]);
+--------------------------------------+
| array_unique([10, 20], [10.2, 20.3]) |
+--------------------------------------+
| [10, 20]                             |
+--------------------------------------+
SELECT 1 row in set (... sec)

array_difference(first_array, second_array)

The array_difference function removes elements from the first array that are contained in the second array.

Returns: array

cr> select array_difference([1,2,3,4,5,6,7,8,9,10],[2,3,6,9,15]);
+---------------------------------------------------------------------+
| array_difference([1, 2, 3, 4, 5, 6, 7, 8, 9, 10], [2, 3, 6, 9, 15]) |
+---------------------------------------------------------------------+
| [1, 4, 5, 7, 8, 10]                                                 |
+---------------------------------------------------------------------+
SELECT 1 row in set (... sec)

It can be used to remove elements from array fields.

cr> create table array_difference_example (list array(integer));
CREATE OK, 1 row affected (... sec)
cr> insert into array_difference_example (list) values ([1,2,3,4,5,6,7,8,9,10]);
INSERT OK, 1 row affected (... sec)
cr> update array_difference_example set list = array_difference(list, [6]);
UPDATE OK, 1 row affected (... sec)
cr> select * from array_difference_example;
+------------------------------+
| list                         |
+------------------------------+
| [1, 2, 3, 4, 5, 7, 8, 9, 10] |
+------------------------------+
SELECT 1 row in set (... sec)

array(subquery)

The array(subquery) expression is an array constructor function which operates on the result of the subquery.

Returns: array

array_upper(anyarray, dimension)

The array_upper function returns the number of elements in the requested array dimmension (the upper bound of the dimension).

Returns: integer

cr> select array_upper([[1, 4], [3]], 1);
+-------------------------------+
| array_upper([[1, 4], [3]], 1) |
+-------------------------------+
| 2                             |
+-------------------------------+
SELECT 1 row in set (... sec)

array_length(anyarray, dimension)

The array_length function returns the number of elements in the requested array dimmension.

Returns: integer

cr> select array_length([[1, 4], [3]], 1);
+--------------------------------+
| array_length([[1, 4], [3]], 1) |
+--------------------------------+
| 2                              |
+--------------------------------+
SELECT 1 row in set (... sec)

array_lower(anyarray, dimension)

The array_lower function returns the lower bound of the requested array dimension (which is 1 if the dimension is valid and has at least one element).

Returns: integer

cr> select array_lower([[1, 4], [3]], 1);
+-------------------------------+
| array_lower([[1, 4], [3]], 1) |
+-------------------------------+
| 1                             |
+-------------------------------+
SELECT 1 row in set (... sec)

Conditional Functions and Expressions

CASE WHEN ... THEN ... END

The case expression is a generic conditional expression similar to if/else statements in other programming languages and can be used wherever an expression is valid.

CASE WHEN condition THEN result
     [WHEN ...]
     [ELSE result]
END

Each condition expression must result in a boolean value. If the condition’s result is true, the value of the result expression that follows the condition will be the final result of the case expression and the subsequent when branches will not be processed. If the condition’s result is not true, any subsequent when clauses are examined in the same manner. If no when condition yields true, the value of the case expression is the result of the else clause. If the else clause is omitted and no condition is true, the result is null.

Example:

cr> select id,
...   case when id = 0 then 'zero'
...        when id % 2 = 0 then 'even'
...        else 'odd'
...   end as parity
... from case_example order by id;
+----+--------+
| id | parity |
+----+--------+
|  0 | zero   |
|  1 | odd    |
|  2 | even   |
|  3 | odd    |
+----+--------+
SELECT 4 rows in set (... sec)

As a variant, a case expression can be written using the simple form:

CASE expression
     WHEN value THEN result
     [WHEN ...]
     [ELSE result]
END

Example:

cr> select id,
...   case id when 0 then 'zero'
...           when 1 then 'one'
...           else 'other'
...   end as description
... from case_example order by id;
+----+-------------+
| id | description |
+----+-------------+
|  0 | zero        |
|  1 | one         |
|  2 | other       |
|  3 | other       |
+----+-------------+
SELECT 4 rows in set (... sec)

Note

All result expressions must be convertible to a single data type.

if(condition, result [, default])

The if function is a conditional function comparing to if statements of most other programming languages. If the given condition expresion evaluates to true, the result expression is evaluated and it’s value is returned. If the condition evaluates to false, the result expression is not evaluated and the optional given default expression is evaluated instead and it’s value will be returned. If the default argument is omitted, NULL will be returned instead.

cr> select id, if(id = 0, 'zero', 'other') as description from if_example order by id;
 +----+-------------+
 | id | description |
 +----+-------------+
 |  0 | zero        |
 |  1 | other       |
 |  2 | other       |
 |  3 | other       |
 +----+-------------+
 SELECT 4 rows in set (... sec)

coalesce('first_arg', second_arg [, ... ])

The coalesce function takes one or more arguments of the same type and returns the first non-null value of these. The result will be NULL only if all the arguments evaluate to NULL.

Returns: same type as arguments

cr> select coalesce(clustered_by, 'nothing')
...   from information_schema.tables
...   where table_name='nodes';
+-----------------------------------+
| coalesce(clustered_by, 'nothing') |
+-----------------------------------+
| nothing                           |
+-----------------------------------+
SELECT 1 row in set (... sec)

greatest('first_arg', second_arg[ , ... ])

The greatest function takes one or more arguments of the same type and will return the largest value of these. NULL values in the arguments list are ignored. The result will be NULL only if all the arguments evaluate to NULL.

Returns: same type as arguments

cr> select greatest(1, 2);
+----------------+
| greatest(1, 2) |
+----------------+
| 2              |
+----------------+
SELECT 1 row in set (... sec)

least('first_arg', second_arg[ , ... ])

The least function takes one or more arguments of the same type and will return the smallest value of these. NULL values in the arguments list are ignored. The result will be NULL only if all the arguments evaluate to NULL.

Returns: same type as arguments

cr> select least(1, 2);
+-------------+
| least(1, 2) |
+-------------+
| 1           |
+-------------+
SELECT 1 row in set (... sec)

nullif('first_arg', second_arg)

The nullif function compares two arguments of the same type and, if they have the same value, returns NULL; otherwise returns the first argument.

Returns: same type as arguments

cr> select nullif(table_schema, 'sys')
...   from information_schema.tables
...   where table_name='nodes';
+-----------------------------+
| nullif(table_schema, 'sys') |
+-----------------------------+
| NULL                        |
+-----------------------------+
SELECT 1 row in set (... sec)

System Information Functions

CURRENT_SCHEMA

The CURRENT_SCHEMA system information function returns the name of the current schema of the session. If no current schema is set, this function will return the default schema, which is doc.

Returns: string

The default schema can be set when using the JDBC and HTTP clients such as CrateDB PDO.

Note

The CURRENT_SCHEMA function has a special SQL syntax, meaning that it must be called without trailing parenthesis (()). However, CrateDB also supports the optional parenthesis.

Synopsis:

CURRENT_SCHEMA [ ( ) ]

Example:

cr> SELECT CURRENT_SCHEMA;
+----------------+
| current_schema |
+----------------+
|            doc |
+----------------+
SELECT 1 row in set (... sec)

CURRENT_SCHEMAS(boolean)

The CURRENT_SCHEMAS() system information function returns the current stored schemas inside the search_path session state, optionally including implicit schemas (e.g. pg_catalog). If no custom search_path is set, this function will return the default search_path schemas.

Returns: array(string)

Synopsis:

CURRENT_SCHEMAS ( boolean )

Example:

cr> SELECT CURRENT_SCHEMAS(true);
+-----------------------+
| current_schemas(true) |
+-----------------------+
| ["pg_catalog", "doc"] |
+-----------------------+
SELECT 1 row in set (... sec)

CURRENT_USER

Note

CURRENT_USER is an enterprise feature.

The CURRENT_USER system information function returns the name of the current connected user or crate if the user management module is disabled.

Returns: string

Synopsis:

CURRENT_USER

Example:

cr> select current_user;
+--------------+
| current_user |
+--------------+
| crate        |
+--------------+
SELECT 1 row in set (... sec)

USER

Note

USER is an enterprise feature.

Equivalent to CURRENT_USER.

Returns: string

Synopsis:

USER

Example:

cr> select user;
+--------------+
| current_user |
+--------------+
| crate        |
+--------------+
SELECT 1 row in set (... sec)

SESSION_USER

Note

SESSION_USER is an enterprise feature.

The SESSION_USER system information function returns the name of the current connected user or crate if the user management module is disabled.

Returns: string

Synopsis:

SESSION_USER

Example:

cr> select session_user;
+--------------+
| session_user |
+--------------+
| crate        |
+--------------+
SELECT 1 row in set (... sec)

Note

CrateDB doesn’t currently support the switching of execution context. This makes SESSION_USER functionally equivalent to CURRENT_USER. We provide it as it’s part of the SQL standard.

Additionally, the CURRENT_USER, SESSION_USER and USER functions have a a special SQL syntax, meaning that they must be called without trailing parenthesis (()).

pg_backend_pid()

The pg_backend_pid() system information function is implemented for enhanced compatibility with PostgreSQL. CrateDB will always return -1 as there isn’t a single process attached to one query. This is different to PostgreSQL, where this represents the process ID of the server process attached to the current session.

Returns: integer

Synopsis:

pg_backend_pid()

Example:

cr> select pg_backend_pid();
+------------------+
| pg_backend_pid() |
+------------------+
|               -1 |
+------------------+
SELECT 1 row in set (... sec)

current_database()

The current_database function returns the name of the current database, which in CrateDB will always be crate:

cr> select current_database();
+--------------------+
| current_database() |
+--------------------+
| crate              |
+--------------------+
SELECT 1 row in set (... sec)

Special Functions

ignore3vl(boolean)

The ignore3vl function operates on a boolean argument and eliminates the 3-valued logic on the whole tree of operators beneath it. More specifically, FALSE is evaluated to FALSE, TRUE to TRUE and NULL to FALSE.

Returns: boolean

Note

The main usage of the ignore3vl function is in the WHERE clause when a NOT operator is involved. Such filtering, with 3-valued logic, cannot be translated to an optimized query in the internal storage engine, and therefore can result into slow performance. E.g.:

SELECT * FROM t
WHERE NOT 5 = ANY(t.int_array_col);

If we can ignore the 3-valued logic, we can write the query as:

SELECT * FROM t
WHERE NOT IGNORE3VL(5 = ANY(t.int_array_col));

which will yield better performance (in execution time) than before.

Caution

If there are NULL values in the long_array_col, in the case that 5 = ANY(t.long_array_col) evaluates to NULL, without the ignore3vl, it would be evaluated as NOT NULL => NULL, resulting to zero matched rows. With the IGNORE3VL in place it will be evaluated as NOT FALSE => TRUE resulting to all rows matching the filter. E.g:

cr> SELECT * FROM t
... WHERE NOT 5 = ANY(t.int_array_col);
+---------------+
| int_array_col |
+---------------+
+---------------+
SELECT 0 rows in set (... sec)
cr> SELECT * FROM t
... WHERE NOT IGNORE3VL(5 = ANY(t.int_array_col));
+-----------------+
| int_array_col   |
+-----------------+
| [1, 2, 3, null] |
+-----------------+
SELECT 1 row in set (... sec)

Synopsis:

ignore3vl(boolean)

Example:

cr> SELECT ignore3vl(true) as v1, ignore3vl(false) as v2, ignore3vl(null) as v3;
+------+-------+-------+
| v1   | v2    | v3    |
+------+-------+-------+
| TRUE | FALSE | FALSE |
+------+-------+-------+
SELECT 1 row in set (... sec)

Footnotes

1

http://dev.mysql.com/doc/refman/5.6/en/date-and-time-functions.html#function_date-format