Datatypes
Datatypes and Fixed Encoding
This topic describes standard datatypes and space-saving variations for values stored in HEAVY.AI.
Datatypes
Each HEAVY.AI datatype uses space in memory and on disk. For certain datatypes, you can use fixed encoding for a more compact representation of these values. You can set a default value for a column by using the DEFAULT
constraint; for more information, see CREATE TABLE.
Datatypes, variations, and sizes are described in the following table.
Datatype
Size (bytes)
Notes
BIGINT
8
Minimum value: -9,223,372,036,854,775,807
; maximum value: 9,223,372,036,854,775,807
.
BIGINT ENCODING FIXED(8)
1
Minimum value: -127
; maximum value: 127
BIGINT ENCODING FIXED(16)
2
Same as SMALLINT
.
BIGINT ENCODING FIXED(32)
4
Same as INTEGER
.
BOOLEAN
1
TRUE: 'true'
, '1'
, 't'
. FALSE: 'false'
, '0'
, 'f'
. Text values are not case-sensitive.
DATE ENCODING DAYS(16)
2
Range in days: -32,768
- 32,767
Range in years: +/-90
around epoch, April 14, 1880 - September 9, 2059.
Minumum value: -2,831,155,200
; maximum value: 2,831,068,800
.
Supported formats when using COPY FROM
: mm/dd/yyyy
, dd-mmm-yy
, yyyy-mm-dd
, dd/mmm/yyyy
.
DATE ENCODING DAYS(32)
4
Range in years: +/-5,883,517
around epoch. Maximum date January 1, 5885487 (approximately). Minimum value: -2,147,483,648
; maximum value: 2,147,483,647
. Supported formats when using COPY FROM
: mm/dd/yyyy
, dd-mmm-yy
, yyyy-mm-dd
, dd/mmm/yyyy
.
DATE ENCODING FIXED(16)
2
In DDL statements defaults to DATE ENCODING DAYS(16)
. Deprecated.
DATE ENCODING FIXED(32)
4
In DDL statements defaults to DATE ENCODING DAYS(16)
. Deprecated.
DECIMAL
2, 4, or 8
Takes precision and scale parameters: DECIMAL(precision,scale)
Size depends on precision:
Up to
4
: 2 bytes5
to9
: 4 bytes10
to18
(maximum): 8 bytes
Scale must be less than precision.
DOUBLE
8
Variable precision. Minimum value: -1.79e308
; maximum value: 1.79e308
EPOCH
8
Seconds ranging from -30610224000
(1/1/1000 00:00:00
) through 185542587100800
(1/1/5885487 23:59:59
).
FLOAT
4
Variable precision. Minimum value: -3.4e38
; maximum value: 3.4e38
.
INTEGER
4
Minimum value: -2,147,483,647
; maximum value: 2,147,483,647
.
INTEGER ENCODING FIXED(8)
1
Minumum value: -127
; maximum value: 127
.
INTEGER ENCODING FIXED(16)
2
Same as SMALLINT
.
LINESTRING
Variable[2]
Geospatial datatype. A sequence of 2 or more points and the lines that connect them. For example: LINESTRING(0 0,1 1,1 2)
MULTILINESTRING
Variable[2]
Geospatial datatype. A set of associated lines. For example: MULTILINESTRING((0 0, 1 0, 2 0), (0 1, 1 1, 2 1))
MULTIPOINT
Variable[2]
Geospatial datatype. A set of points. For example: MULTIPOINT((0 0), (1 0), (2 0))
MULTIPOLYGON
Variable[2]
Geospatial datatype. A set of one or more polygons. For example:MULTIPOLYGON(((0 0,4 0,4 4,0 4,0 0),(1 1,2 1,2 2,1 2,1 1)), ((-1 -1,-1 -2,-2 -2,-2 -1,-1 -1)))
POINT
Variable[2]
Geospatial datatype. A point described by two coordinates. When the coordinates are longitude and latitude, HEAVY.AI stores longitude first, and then latitude. For example: POINT(0 0)
POLYGON
Variable[2]
Geospatial datatype. A set of one or more rings (closed line strings), with the first representing the shape (external ring) and the rest representing holes in that shape (internal rings). For example: POLYGON((0 0,4 0,4 4,0 4,0 0),(1 1, 2 1, 2 2, 1 2,1 1))
SMALLINT
2
Minimum value: -32,767
; maximum value: 32,767
.
SMALLINT ENCODING FIXED(8)
1
Minumum value: -127
; maximum value: 127
.
TEXT ENCODING DICT
4
Max cardinality 2 billion distinct string values. Maximum string length is 32,767.
TEXT ENCODING DICT(8)
1
Max cardinality 255 distinct string values.
TEXT ENCODING DICT(16)
2
Max cardinality 64 K distinct string values.
TEXT ENCODING NONE
Variable
Size of the string + 6 bytes. Maximum string length is 32,767.
Note: Importing
TEXT ENCODING NONE
fields using the Data Manager has limitations for Immerse. When you use string instead of string [dict. encode] for a column when importing, you cannot use that column in Immerse dashboards.
TIME
8
Minimum value: 00:00:00
; maximum value: 23:59:59
.
TIME ENCODING FIXED(32)
4
Minimum value: 00:00:00
; maximum value: 23:59:59
.
TIMESTAMP(0)
8
Linux timestamp from -30610224000
(1/1/1000 00:00:00
) through 29379542399
(12/31/2900 23:59:59
). Can also be inserted and stored in human-readable format: YYYY-MM-DD HH:MM:SS
or YYYY-MM-DDTHH:MM:SS
(the T
is dropped when the field is populated).
TIMESTAMP(3) (milliseconds)
8
Linux timestamp from -30610224000000
(1/1/1000 00:00:00.000
) through 29379542399999
(12/31/2900 23:59:59.999
). Can also be inserted and stored in human-readable format: YYYY-MM-DD HH:MM:SS.fff
or YYYY-MM-DDTHH:MM:SS.fff
(the T
is dropped when the field is populated).
TIMESTAMP(6) (microseconds)
8
Linux timestamp from -30610224000000000
(1/1/1000 00:00:00.000000
) through 29379542399999999
(12/31/2900 23:59:59.999999
). Can also be inserted and stored in human-readable format: YYYY-MM-DD HH:MM:SS.ffffff
or YYYY-MM-DDTHH:MM:SS.ffffff
(the T
is dropped when the field is populated).
TIMESTAMP(9) (nanoseconds)
8
Linux timestamp from -9223372036854775807
(09/21/1677 00:12:43.145224193
) through 9223372036854775807
(11/04/2262 23:47:16.854775807
). Can also be inserted and stored in human-readable format: YYYY-MM-DD HH:MM:SS.fffffffff
or YYYY-MM-DDTHH:MM:SS.fffffffff
(the T
is dropped when the field is populated).
TIMESTAMP ENCODING FIXED(32)
4
Range: 1901-12-13 20:45:53
- 2038-01-19 03:14:07
. Can also be inserted and stored in human-readable format: YYYY-MM-DD HH:MM:SS
or YYYY-MM-DDTHH:MM:SS
(the T
is dropped when the field is populated).
TINYINT
1
Minimum value: -127
; maximum value: 127
.
[1] - In OmniSci release 4.4.0 and higher, you can use existing 8-byte DATE
columns, but you can create only 4-byte DATE
columns (default) and 2-byte DATE
columns (see DATE ENCODING DAYS(16)
).
[2] - See Storage and Compression below for information about geospatial datatype sizes.
HEAVY.AI does not support geometry arrays.
Timestamp values are always stored in 8 bytes. The greater the precision, the lower the fidelity.
Geospatial Datatypes
HEAVY.AI supports the LINESTRING, MULTILINESTRING
, POLYGON, MULTIPOLYGON
, POINT
, and MULTIPOINT
geospatial datatypes.
In the following example:
p0
,p1
,ls0
, andpoly0
are simple (planar) geometries.p4
is point geometry with Web Mercator longitude/latitude coordinates.p2
,p3
,mp, ls1
,ls2, mls1, mls2
,poly1
, andmpoly0
are geometries using WGS84 SRID=4326 longitude/latitude coordinates.
Storage
Geometry storage requirements are largely dependent on coordinate data. Coordinates are normally stored as 8-byte doubles, two coordinates per point, for all points that form a geometry. Each POINT geometry in the p1 column, for example, requires 16 bytes.
Compression
WGS84 (SRID 4326) coordinates are compressed to 32 bits by default. This sacrifices some precision but reduces storage requirements by half.
For example, columns p2, mp, ls1, mls1, poly1, and mpoly0 in the table defined above are compressed. Each geometry in the p2 column requires 8 bytes, compared to 16 bytes for p0.
You can explicitly disable compression. WGS84 columns p3, ls2, mls2 are not compressed and continue using doubles. Simple (planar) columns p0, p1, ls0, poly1 and non-4326 column p4 are not compressed.
For more information about geospatial datatypes and functions, see Geospatial Capabilities.
Defining Arrays
Define datatype arrays by appending square brackets, as shown in the arrayexamples
DDL sample.
You can also define fixed-length arrays. For example:
Fixed-length arrays require less storage space than variable-length arrays.
Fixed Encoding
To use fixed-length fields, the range of the data must fit into the constraints as described. Understanding your schema and the scope of potential values in each field helps you to apply fixed encoding types and save significant storage space.
These encodings are most effective on low-cardinality TEXT
fields, where you can achieve large savings of storage space and improved processing speed, and on TIMESTAMP
fields where the timestamps range between 1901-12-13 20:45:53
and 2038-01-19 03:14:07
. If a TEXT ENCODING
field does not match the defined cardinality, HEAVY.AI substitutes a NULL
value and logs the change.
For DATE
types, you can use the terms FIXED
and DAYS
interchangeably. Both are synonymous for the DATE
type in HEAVY.AI.
Some of the INTEGER
options overlap. For example, INTEGER ENCODINGFIXED(8)
and SMALLINT ENCODINGFIXED(8)
are essentially identical.
Shared Dictionaries
You can improve performance of string operations and optimize storage using shared dictionaries. You can share dictionaries within a table or between different tables in the same database. The table with which you want to share dictionaries must exist when you create the table that references the TEXT ENCODING DICT
field, and the column that you are referencing in that table must also exist. The following small DDL shows the basic structure:
In the table definition, make sure that referenced columns appear before the referencing columns.
For example, this DDL is a portion of the schema for the flights database. Because airports are both origin and destination locations, it makes sense to reuse the same dictionaries for name, city, state, and country values.
To share a dictionary in a different existing table, replace the table name in the REFERENCES
instruction. For example, if you have an existing table called us_geography
, you can share the dictionary by following the pattern in the DDL fragment below.
The referencing column cannot specify the encoding of the dictionary, because it uses the encoding from the referenced column.
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