Say you have a tree of data
A
|
+----B
| |
| +----C
|
+----D
to represent this in an oracle database we might have
create table mydata (id number(10), parent_id number(10), name varchar2(10))
and use a hierarchical query to traverse the tree.
What is the best way to define a sparse property set, such that child nodes inherit property values from the closest parent node?
In the above example, say we want to add owner and colour to the tree - how can the hierarchical query be modified to provide the inherited values?
My first thought was to create a new table
create table myproperties (id number(10), owner varchar2(30), colour varchar2(30));
We'd want the values in this table to be sparse as well - so a row in myproperties might specify 'owner' but leave 'colour' null. A given node in mydata would have a merged set of all non-null parent properties.
Then do an analytic query to fill in the gaps:
select * from (
select
id, groupid, parent_id,
last_value(owner ignore nulls) over (partition by groupid order by l desc) owner,
last_value(colour ignore nulls) over (partition by groupid order by l desc) colour
from
(
-- query from leaf to root
select
id, connect_by_root id groupid, level l, p.owner, p.colour
from
mydata d left outer join myproperties p on p.id=d.id
start with
id in (select id from mydata)
connect by prior
parent_id=id
)
)
where
id=groupid -- filter out redundant rows required by the analytic function
Is this a reasonable way to achieve the goal of a dense view on sparse hierarchical properties, or is there a better way (more efficient, more comprehensible)?
SELECT level, id, perent_id, NVL(color, prior color)
and realized it would not work. :)NVL(color, Get_Inherited_Color(parent_id)
. WithPRAGMA RESTRICT_REFERENCES(WNDS, WNPS, RNPS)
oracle will probably cache the values for you (I'm not sure though).