MAPITEMS
Returns information about items in a VMap. Use this transform function with one or more optional arguments to access polystructured values within the VMap data. This function requires an over()
clause.
Syntax
MAPITEMS (VMap-data [, passthrough-arg[,...] ])
Arguments
VMap-data
Any VMap data. The VMap can exist as:
-
The
__raw__
column of a flex table -
Data returned from a map function such as MAPLOOKUP
-
Other database content
-
max_key_length
- In a
__raw__
column, determines the maximum length of keys that the function can return. Keys that are longer than*
max_key_length*
cause the query to fail. Defaults to the smaller of VMap column length and 65K. max_value_length
- In a
__raw__
column, determines the maximum length of values the function can return. Values that are larger than*
max_value_length*
cause the query to fail. Defaults to the smaller of VMap column length and 65K. passthrough-arg
- One or more arguments indicating keys within the map data in
VMap-data
.
Examples
The following examples illustrate using MAPITEMS()
with the over(PARTITION BEST)
clause.
This example determines the number of virtual columns in the map data using a flex table, labeled darkmountain
. Query using the count()
function to return the number of virtual columns in the map data:
=> SELECT COUNT(keys) FROM (SELECT MAPITEMS(darkmountain.__raw__) OVER(PARTITION BEST) FROM
darkmountain) AS a;
count
-------
19
(1 row)
The next example determines what items exist in the map data:
=> SELECT * FROM (SELECT MAPITEMS(darkmountain.__raw__) OVER(PARTITION BEST) FROM darkmountain) AS a;
keys | values
-------------+---------------
hike_safety | 50.6
name | Mt Washington
type | mountain
height | 17000
hike_safety | 12.2
name | Denali
type | mountain
height | 29029
hike_safety | 34.1
name | Everest
type | mountain
height | 14000
hike_safety | 22.8
name | Kilimanjaro
type | mountain
height | 29029
hike_safety | 15.4
name | Mt St Helens
type | volcano
(19 rows)
The following example shows how to restrict the length of returned values to 100000:
=> SELECT LENGTH(keys), LENGTH(values) FROM (SELECT MAPITEMS(__raw__ USING PARAMETERS max_value_length=100000) OVER() FROM t1) x;
LENGTH | LENGTH
--------+--------
9 | 98899
(1 row)
Directly Query a Key Value in a VMap
Review the following JSON input file, simple.json
. In particular, notice the array called three_Array
, and its four values:
{
"one": "one",
"two": 2,
"three_Array":
[
"three_One",
"three_Two",
3,
"three_Four"
],
"four": 4,
"five_Map":
{
"five_One": 51,
"five_Two": "Fifty-two",
"five_Three": "fifty three",
"five_Four": 54,
"five_Five": "5 x 5"
},
"six": 6
}
-
Create a flex table mapper:
=> CREATE FLEX TABLE mapper(); CREATE TABLE
-
Load
simple.json
into the flex table mapper:=> COPY mapper FROM '/home/dbadmin/data/simple.json' parser fjsonparser (flatten_arrays=false, flatten_maps=false); Rows Loaded ------------- 1 (1 row)
-
Call MAPKEYS on the flex table's
__raw__
column to see the flex table's keys, but not the key submaps. The return values indicatethree_Array
as one of the virtual columns:=> SELECT MAPKEYS(__raw__) OVER() FROM mapper; keys ------------- five_Map four one six three_Array two (6 rows)
-
Call
mapitems
on flex tablemapper
withthree_Array
as a pass-through argument to the function. The call returns these array values:=> SELECT __identity__, MAPITEMS(three_Array) OVER(PARTITION BY __identity__) FROM mapper; __identity__ | keys | values --------------+------+------------ 1 | 0 | three_One 1 | 1 | three_Two 1 | 2 | 3 1 | 3 | three_Four (4 rows)