The table consists of columns calling_party and called_party and the record describes the connection between two users where one plays a role of calling party and the other is called party.
The same two users can have two connections - in this case the roles calling/called party are switched when the direction is changed.
In the original table (monthly_connections) I added additional columns common_neighbors and total_neighbors where the number of common and total neighbors are stored. To clarify the terms common and total_neighbors I added the following image:
In this case for the observed connection there are 2 common neighbors of calling and called party and 6 total neighbors.
In order to get these two values I wrote the following stored procedure:
CREATE PROCEDURE [dbo].[spCountNeighbors] AS Declare @CallingParty varchar(50), @CalledParty varchar(50), @RecordsUpdated int SET @CallingParty ='a' SET @RecordsUpdated = 0 PRINT GETDATE() WHILE @CallingParty IS NOT NULL BEGIN SET @CallingParty = NULL SELECT TOP 1 @CallingParty = calling_party, @CalledParty = called_party FROM monthly_connections WHERE common_neighbors IS NULL --PRINT @CallingParty IF @CallingParty IS NOT NULL BEGIN WITH callingPartyNeighbors AS ( SELECT called_party as neighbor FROM monthly_connections WHERE calling_party = @CallingParty UNION SELECT calling_party as neighbor FROM monthly_connections WHERE called_party = @CallingParty ), calledPartyNeighbors AS ( SELECT calling_party as neighbor FROM monthly_connections WHERE called_party = @CalledParty UNION SELECT called_party as neighbor FROM monthly_connections WHERE calling_party = @CalledParty ) UPDATE mc SET common_neighbors = (SELECT COUNT (*) FROM ( SELECT neighbor FROM callingPartyNeighbors INTERSECT SELECT neighbor FROM calledPartyNeighbors ) t1 ), total_neighbors = (SELECT COUNT (*) FROM ( SELECT neighbor FROM callingPartyNeighbors UNION SELECT neighbor FROM calledPartyNeighbors ) t2 ) FROM monthly_connections mc WHERE (mc.calling_party = @CallingParty AND mc.called_party = @CalledParty) OR (mc.called_party = @CallingParty AND mc.calling_party = @CalledParty); SET @RecordsUpdated = @RecordsUpdated + @@ROWCOUNT PRINT @RecordsUpdated END END PRINT @RecordsUpdated
The procedure above is supposed to go through the table of connections which contains 23M connections and update values common_neighbors and total_neighbors for each row. The problem however is that the procedure is too slow - it took 212 s to update 1000 records.
I would really appreciate if anyone of you suggested any fix for the procedure above in order to speed up the execution time.