7.1. Data Types
Presto has a set of built-in data types, described below.Additional types can be provided by plugins.
Note
Connectors are not required to support all types.See connector documentation for details on supported types.
- Boolean
- Integer
- Floating-Point
- Fixed-Precision
- String
- Date and Time
- Structural
- Network Address
- HyperLogLog
- Quantile Digest
Boolean
BOOLEAN
This type captures boolean valuestrue
andfalse
.
Integer
TINYINT
A 8-bit signed two’s complement integer with a minimum value of-2^7
and a maximum value of2^7 - 1
.
SMALLINT
A 16-bit signed two’s complement integer with a minimum value of-2^15
and a maximum value of2^15 - 1
.
INTEGER
A 32-bit signed two’s complement integer with a minimum value of-2^31
and a maximum value of2^31 - 1
. The nameINT
isalso available for this type.
BIGINT
A 64-bit signed two’s complement integer with a minimum value of-2^63
and a maximum value of2^63 - 1
.
Floating-Point
REAL
A real is a 32-bit inexact, variable-precision implementing theIEEE Standard 754 for Binary Floating-Point Arithmetic.
DOUBLE
A double is a 64-bit inexact, variable-precision implementing theIEEE Standard 754 for Binary Floating-Point Arithmetic.
Fixed-Precision
DECIMAL
A fixed precision decimal number. Precision up to 38 digits is supportedbut performance is best up to 18 digits.
The decimal type takes two literal parameters:
- precision - total number of digits
- scale - number of digits in fractional part. Scale is optional and defaults to 0.
Example type definitions:
DECIMAL(10,3)
,DECIMAL(20)
Example literals:
DECIMAL '10.3'
,DECIMAL '1234567890'
,1.1
Note
For compatibility reasons decimal literals without explicit type specifier (e.g.
1.2
)are treated as the values of theDOUBLE
type by default, but this is subject to changein future releases. This behavior is controlled by:
- System wide property:
parse-decimal-literals-as-double
- Session wide property:
parse_decimal_literals_as_double
String
VARCHAR
Variable length character data with an optional maximum length.
Example type definitions:
varchar
,varchar(20)
CHAR
Fixed length character data. A
CHAR
type without length specified has a default length of 1.ACHAR(x)
value always hasx
characters. For instance, castingdog
toCHAR(7)
adds 4 implicit trailing spaces. Leading and trailing spaces are included in comparisons ofCHAR
values. As a result, two character values with different lengths (CHAR(x)
andCHAR(y)
wherex != y
) will never be equal.Example type definitions:
char
,char(20)
VARBINARY
Variable length binary data.
Note
Binary strings with length are not yet supported:
varbinary(n)
JSON
JSON value type, which can be a JSON object, a JSON array, a JSON number, a JSON string,true
,false
ornull
.
Date and Time
DATE
Calendar date (year, month, day).
Example:
DATE '2001-08-22'
TIME
Time of day (hour, minute, second, millisecond) without a time zone.Values of this type are parsed and rendered in the session time zone.
Example:
TIME '01:02:03.456'
TIME WITH TIME ZONE
Time of day (hour, minute, second, millisecond) with a time zone.Values of this type are rendered using the time zone from the value.
Example:
TIME '01:02:03.456 America/Los_Angeles'
TIMESTAMP
Instant in time that includes the date and time of day without a time zone.Values of this type are parsed and rendered in the session time zone.
Example:
TIMESTAMP '2001-08-22 03:04:05.321'
TIMESTAMP WITH TIME ZONE
Instant in time that includes the date and time of day with a time zone.Values of this type are rendered using the time zone from the value.
Example:
TIMESTAMP '2001-08-22 03:04:05.321 America/Los_Angeles'
INTERVAL YEAR TO MONTH
Span of years and months.
Example:
INTERVAL '3' MONTH
INTERVAL DAY TO SECOND
Span of days, hours, minutes, seconds and milliseconds.
Example:
INTERVAL '2' DAY
Structural
ARRAY
An array of the given component type.
Example:
ARRAY[1, 2, 3]
MAP
A map between the given component types.
Example:
MAP(ARRAY['foo', 'bar'], ARRAY[1, 2])
ROW
A structure made up of named fields. The fields may be of any SQL type, and areaccessed with field reference operator
.
Example:
CAST(ROW(1, 2.0) AS ROW(x BIGINT, y DOUBLE))
Network Address
IPADDRESS
An IP address that can represent either an IPv4 or IPv6 address. Internally,the type is a pure IPv6 address. Support for IPv4 is handled using theIPv4-mapped IPv6 address range (RFC 4291#section-2.5.5.2).When creating an
IPADDRESS
, IPv4 addresses will be mapped into that range.When formatting anIPADDRESS
, any address within the mapped range willbe formatted as an IPv4 address. Other addresses will be formatted as IPv6using the canonical format defined in RFC 5952.Examples:
IPADDRESS '10.0.0.1'
,IPADDRESS '2001:db8::1'
HyperLogLog
Calculating the approximate distinct count can be done much more cheaply than an exact count using theHyperLogLog data sketch. See HyperLogLog Functions.
HyperLogLog
A HyperLogLog sketch allows efficient computation ofapprox_distinct()
. It starts as asparse representation, switching to a dense representation when it becomes more efficient.
P4HyperLogLog
A P4HyperLogLog sketch is similar to HyperLogLog, but it starts (and remains)in the dense representation.
Quantile Digest
QDigest
A quantile digest (qdigest) is a summary structure which captures the approximatedistribution of data for a given input set, and can be queried to retrieve approximatequantile values from the distribution. The level of accuracy for a qdigestis tunable, allowing for more precise results at the expense of space.
A qdigest can be used to give approximate answer to queries asking for what valuebelongs at a certain quantile. A useful property of qdigests is that they areadditive, meaning they can be merged together without losing precision.
A qdigest may be helpful whenever the partial results of
approx_percentile
can be reused. For example, one may be interested in a daily reading of the 99thpercentile values that are read over the course of a week. Instead of calculatingthe past week of data withapprox_percentile
,qdigest
s could be storeddaily, and quickly merged to retrieve the 99th percentile value.