5

Imagine the following Loans table:

BorrowerID       StartDate         DueDate
=============================================
1                2012-09-02        2012-10-01
2                2012-10-05        2012-10-21
3                2012-11-07        2012-11-09
4                2012-12-01        2013-01-01
4                2012-12-01        2013-01-14
1                2012-12-20        2013-01-06
3                2013-01-07        2013-01-22
3                2013-01-15        2013-01-18
1                2013-02-20        2013-02-24

How would I go about selecting the distinct BorrowerIDs of those who have only ever taken out a single loan at a time? This includes borrowers who have only ever taken out a single loan, as well as those who have taken out more than one, provided if you were to draw a time line of their loans, none of them would overlap. For example, in the table above, it should find borrowers 1 and 2 only.

I've tried experimenting with joining the table to itself, but haven't really managed to get anywhere. Any pointers much appreciated!

9

Solution for dbo.Loan with PRIMARY KEY

To solve this you need a two step approach as detailed in the following SQL Fiddle. I did add a LoanId column to your example data and the query requires that such a unique id exists. If you don't have that, you need to adjust the join clause to make sure that a loan does not get matched to itself.

MS SQL Server 2008 Schema Setup:

CREATE TABLE dbo.Loans
    (LoanID INT, [BorrowerID] int, [StartDate] datetime, [DueDate] datetime)
GO

INSERT INTO dbo.Loans
    (LoanID, [BorrowerID], [StartDate], [DueDate])
VALUES
    (1, 1, '2012-09-02 00:00:00', '2012-10-01 00:00:00'),
    (2, 2, '2012-10-05 00:00:00', '2012-10-21 00:00:00'),
    (3, 3, '2012-11-07 00:00:00', '2012-11-09 00:00:00'),
    (4, 4, '2012-12-01 00:00:00', '2013-01-01 00:00:00'),
    (5, 4, '2012-12-01 00:00:00', '2013-01-14 00:00:00'),
    (6, 1, '2012-12-20 00:00:00', '2013-01-06 00:00:00'),
    (7, 3, '2013-01-07 00:00:00', '2013-01-22 00:00:00'),
    (8, 3, '2013-01-15 00:00:00', '2013-01-18 00:00:00'),
    (9, 1, '2013-02-20 00:00:00', '2013-02-24 00:00:00')
GO

First you need to find out which loans overlap with another loan. The query uses <= to compare the start and due dates. That counts loans where the second one starts the same day the first one ends as overlapping. If you need those to not be overlapping use < instead in both places.

Query 1:

SELECT 
   *,
   CASE WHEN EXISTS(SELECT 1 FROM dbo.Loans L2 
                     WHERE L2.BorrowerID = L1.BorrowerID
                       AND L2.LoanID <> L1.LoanID
                       AND L1.StartDate <= L2.DueDate
                       AND L2.StartDate <= l1.DueDate) 
        THEN 1
        ELSE 0
   END AS HasOverlappingLoan
  FROM dbo.Loans L1;

Results:

| LOANID | BORROWERID |                        STARTDATE |                         DUEDATE | HASOVERLAPPINGLOAN |
|--------|------------|----------------------------------|---------------------------------|--------------------|
|      1 |          1 | September, 02 2012 00:00:00+0000 |  October, 01 2012 00:00:00+0000 |                  0 |
|      2 |          2 |   October, 05 2012 00:00:00+0000 |  October, 21 2012 00:00:00+0000 |                  0 |
|      3 |          3 |  November, 07 2012 00:00:00+0000 | November, 09 2012 00:00:00+0000 |                  0 |
|      4 |          4 |  December, 01 2012 00:00:00+0000 |  January, 01 2013 00:00:00+0000 |                  1 |
|      5 |          4 |  December, 01 2012 00:00:00+0000 |  January, 14 2013 00:00:00+0000 |                  1 |
|      6 |          1 |  December, 20 2012 00:00:00+0000 |  January, 06 2013 00:00:00+0000 |                  0 |
|      7 |          3 |   January, 07 2013 00:00:00+0000 |  January, 22 2013 00:00:00+0000 |                  1 |
|      8 |          3 |   January, 15 2013 00:00:00+0000 |  January, 18 2013 00:00:00+0000 |                  1 |
|      9 |          1 |  February, 20 2013 00:00:00+0000 | February, 24 2013 00:00:00+0000 |                  0 |

Now, with that information you can determine the borrowers that have no overlapping loans with this query:

Query 2:

WITH OverlappingLoans AS (
  SELECT 
   *,
   CASE WHEN EXISTS(SELECT 1 FROM dbo.Loans L2 
                     WHERE L2.BorrowerID = L1.BorrowerID
                       AND L2.LoanID <> L1.LoanID
                       AND L1.StartDate <= L2.DueDate
                       AND L2.StartDate <= l1.DueDate) 
        THEN 1
        ELSE 0
   END AS HasOverlappingLoan
  FROM dbo.Loans L1
),
OverlappingBorrower AS (
  SELECT BorrowerID, MAX(HasOverlappingLoan) HasOverlappingLoan
    FROM OverlappingLoans
   GROUP BY BorrowerID
)
SELECT * 
  FROM OverlappingBorrower
 WHERE hasOverlappingLoan = 0;

Or you could even get more information by counting the loans as well as counting the number of loans that have overlapping other loans for each borrower in the database. (Note, if loan A and loan B overlap, both will be counted as overlapping loan by this query)

Results:

| BORROWERID | HASOVERLAPPINGLOAN |
|------------|--------------------|
|          1 |                  0 |
|          2 |                  0 |

Query 3:

WITH OverlappingLoans AS (
  SELECT 
   *,
   CASE WHEN EXISTS(SELECT 1 FROM dbo.Loans L2 
                     WHERE L2.BorrowerID = L1.BorrowerID
                       AND L2.LoanID <> L1.LoanID
                       AND L1.StartDate <= L2.DueDate
                       AND L2.StartDate <= l1.DueDate) 
        THEN 1
        ELSE 0
   END AS HasOverlappingLoan
  FROM dbo.Loans L1
)
SELECT BorrowerID,COUNT(1) LoanCount, SUM(hasOverlappingLoan) OverlappingCount
  FROM OverlappingLoans
 GROUP BY BorrowerID;

Results:

| BORROWERID | LOANCOUNT | OVERLAPPINGCOUNT |
|------------|-----------|------------------|
|          1 |         3 |                0 |
|          2 |         1 |                0 |
|          3 |         3 |                2 |
|          4 |         2 |                2 |


Solution for dbo.Loan without PRIMARY KEY

UPDATE: As the requirement actually calls for a solution that does not rely on a unique identifier for each loan, I made the following changes:

1) I added a borrower that has two loans with the same start and due dates

SQL Fiddle

MS SQL Server 2008 Schema Setup:

CREATE TABLE dbo.Loans
    ([BorrowerID] int, [StartDate] datetime, [DueDate] datetime)
GO

INSERT INTO dbo.Loans
    ([BorrowerID], [StartDate], [DueDate])
VALUES
    ( 1, '2012-09-02 00:00:00', '2012-10-01 00:00:00'),
    ( 2, '2012-10-05 00:00:00', '2012-10-21 00:00:00'),
    ( 3, '2012-11-07 00:00:00', '2012-11-09 00:00:00'),
    ( 4, '2012-12-01 00:00:00', '2013-01-01 00:00:00'),
    ( 4, '2012-12-01 00:00:00', '2013-01-14 00:00:00'),
    ( 1, '2012-12-20 00:00:00', '2013-01-06 00:00:00'),
    ( 3, '2013-01-07 00:00:00', '2013-01-22 00:00:00'),
    ( 3, '2013-01-15 00:00:00', '2013-01-18 00:00:00'),
    ( 1, '2013-02-20 00:00:00', '2013-02-24 00:00:00'),
    ( 5, '2013-02-20 00:00:00', '2013-02-24 00:00:00'),
    ( 5, '2013-02-20 00:00:00', '2013-02-24 00:00:00')
GO

2) Those "equal date" loans require an additional step:

Query 1:

SELECT BorrowerID, StartDate, DueDate, COUNT(1) LoanCount
  FROM dbo.Loans
 GROUP BY BorrowerID, StartDate, DueDate;

Results:

| BORROWERID |                        STARTDATE |                         DUEDATE | LOANCOUNT |
|------------|----------------------------------|---------------------------------|-----------|
|          1 | September, 02 2012 00:00:00+0000 |  October, 01 2012 00:00:00+0000 |         1 |
|          1 |  December, 20 2012 00:00:00+0000 |  January, 06 2013 00:00:00+0000 |         1 |
|          1 |  February, 20 2013 00:00:00+0000 | February, 24 2013 00:00:00+0000 |         1 |
|          2 |   October, 05 2012 00:00:00+0000 |  October, 21 2012 00:00:00+0000 |         1 |
|          3 |  November, 07 2012 00:00:00+0000 | November, 09 2012 00:00:00+0000 |         1 |
|          3 |   January, 07 2013 00:00:00+0000 |  January, 22 2013 00:00:00+0000 |         1 |
|          3 |   January, 15 2013 00:00:00+0000 |  January, 18 2013 00:00:00+0000 |         1 |
|          4 |  December, 01 2012 00:00:00+0000 |  January, 01 2013 00:00:00+0000 |         1 |
|          4 |  December, 01 2012 00:00:00+0000 |  January, 14 2013 00:00:00+0000 |         1 |
|          5 |  February, 20 2013 00:00:00+0000 | February, 24 2013 00:00:00+0000 |         2 |

3) Now, with each loan range unique, we can use the old technique again. However, we also need to account for those "equal date" loans. (L1.StartDate <> L2.StartDate OR L1.DueDate <> L2.DueDate) prevents a loan getting matched with itself. OR LoanCount > 1 accounts for "equal date" loans.

Query 2:

WITH NormalizedLoans AS (
  SELECT BorrowerID, StartDate, DueDate, COUNT(1) LoanCount
    FROM dbo.Loans
   GROUP BY BorrowerID, StartDate, DueDate  
)
SELECT 
   *,
   CASE WHEN EXISTS(SELECT 1 FROM dbo.Loans L2 
                     WHERE L2.BorrowerID = L1.BorrowerID
                       AND L1.StartDate <= L2.DueDate
                       AND L2.StartDate <= l1.DueDate
                       AND (L1.StartDate <> L2.StartDate
                            OR L1.DueDate <> L2.DueDate)
                   ) 
             OR LoanCount > 1
        THEN 1
        ELSE 0
   END AS HasOverlappingLoan
  FROM NormalizedLoans L1;

Results:

| BORROWERID |                        STARTDATE |                         DUEDATE | LOANCOUNT | HASOVERLAPPINGLOAN |
|------------|----------------------------------|---------------------------------|-----------|--------------------|
|          1 | September, 02 2012 00:00:00+0000 |  October, 01 2012 00:00:00+0000 |         1 |                  0 |
|          1 |  December, 20 2012 00:00:00+0000 |  January, 06 2013 00:00:00+0000 |         1 |                  0 |
|          1 |  February, 20 2013 00:00:00+0000 | February, 24 2013 00:00:00+0000 |         1 |                  0 |
|          2 |   October, 05 2012 00:00:00+0000 |  October, 21 2012 00:00:00+0000 |         1 |                  0 |
|          3 |  November, 07 2012 00:00:00+0000 | November, 09 2012 00:00:00+0000 |         1 |                  0 |
|          3 |   January, 07 2013 00:00:00+0000 |  January, 22 2013 00:00:00+0000 |         1 |                  1 |
|          3 |   January, 15 2013 00:00:00+0000 |  January, 18 2013 00:00:00+0000 |         1 |                  1 |
|          4 |  December, 01 2012 00:00:00+0000 |  January, 01 2013 00:00:00+0000 |         1 |                  1 |
|          4 |  December, 01 2012 00:00:00+0000 |  January, 14 2013 00:00:00+0000 |         1 |                  1 |
|          5 |  February, 20 2013 00:00:00+0000 | February, 24 2013 00:00:00+0000 |         2 |                  1 |

This query logic did not change (other than switching out the beginning).

Query 3:

WITH NormalizedLoans AS (
  SELECT BorrowerID, StartDate, DueDate, COUNT(1) LoanCount
    FROM dbo.Loans
   GROUP BY BorrowerID, StartDate, DueDate  
),
OverlappingLoans AS (
SELECT 
   *,
   CASE WHEN EXISTS(SELECT 1 FROM dbo.Loans L2 
                     WHERE L2.BorrowerID = L1.BorrowerID
                       AND L1.StartDate <= L2.DueDate
                       AND L2.StartDate <= l1.DueDate
                       AND (L1.StartDate <> L2.StartDate
                            OR L1.DueDate <> L2.DueDate)
                   ) 
             OR LoanCount > 1
        THEN 1
        ELSE 0
   END AS HasOverlappingLoan
  FROM NormalizedLoans L1
),
OverlappingBorrower AS (
  SELECT BorrowerID, MAX(HasOverlappingLoan) HasOverlappingLoan
    FROM OverlappingLoans
   GROUP BY BorrowerID
)
SELECT * 
  FROM OverlappingBorrower
 WHERE hasOverlappingLoan = 0;

Results:

| BORROWERID | HASOVERLAPPINGLOAN |
|------------|--------------------|
|          1 |                  0 |
|          2 |                  0 |

4) In this counting query we need to incorporate the "equal date" loan counts again. For that we use SUM(LoanCount) instead of a plain COUNT. We also have to multiply hasOverlappingLoan with the LoanCount to get the correct overlapping count again.

Query 4:

WITH NormalizedLoans AS (
  SELECT BorrowerID, StartDate, DueDate, COUNT(1) LoanCount
    FROM dbo.Loans
   GROUP BY BorrowerID, StartDate, DueDate  
),
OverlappingLoans AS (
SELECT 
   *,
   CASE WHEN EXISTS(SELECT 1 FROM dbo.Loans L2 
                     WHERE L2.BorrowerID = L1.BorrowerID
                       AND L1.StartDate <= L2.DueDate
                       AND L2.StartDate <= l1.DueDate
                       AND (L1.StartDate <> L2.StartDate
                            OR L1.DueDate <> L2.DueDate)
                   ) 
             OR LoanCount > 1
        THEN 1
        ELSE 0
   END AS HasOverlappingLoan
  FROM NormalizedLoans L1
)
SELECT BorrowerID,SUM(LoanCount) LoanCount, SUM(hasOverlappingLoan*LoanCount) OverlappingCount
  FROM OverlappingLoans
 GROUP BY BorrowerID;

Results:

| BORROWERID | LOANCOUNT | OVERLAPPINGCOUNT |
|------------|-----------|------------------|
|          1 |         3 |                0 |
|          2 |         1 |                0 |
|          3 |         3 |                2 |
|          4 |         2 |                2 |
|          5 |         2 |                2 |

I strongly suggest finding a way to use my first solution, as a loan table without a primary key is a, let's say "odd" design. However, if you really can't get there, use the second solution.

  • Thanks for the effort. The only problem is there is unfortunately no LoanID column - those 3 are all I get. – George Brighton Oct 13 '13 at 23:31
  • can you have multiple loans for the same borrower that can have the same start and the same end date? – Sebastian Meine Oct 13 '13 at 23:37
  • Potentially - if the same person borrows 2 items for the same length of time at the same time. – George Brighton Oct 13 '13 at 23:38
1

I got it working but in a bit convoluted way. It first gets borrowers that don't meet criteria in the inner query and returns the rest. The inner query has 2 parts:

Get all overlapping borrowings not starting on the same day.

Get all borrowings starting on the same date.

select distinct BorrowerID from borrowings
where BorrowerID NOT IN

(
    select b1.BorrowerID from borrowings b1
    inner join borrowings b2
        on b1.BorrowerID = b2.BorrowerID
        and b1.StartDate < b2.StartDate
        and b1.DueDate > b2.StartDate

    union 

    select BorrowerID from borrowings
    group by BorrowerID, StartDate
    having count(*) > 1
)

I had to use 2 separate inner queries as your table doesn't have a unique identifier for each record and using b1.StartDate <= b2.StartDate as I should have makes a record join to itself. It would be good to have a separate identifier for each record.

  • Seems reasonable - thanks for taking the time to answer! I'll leave it open a little while longer to see if any other ideas emerge... – George Brighton Oct 13 '13 at 23:14
0

try

with cte as 
(
    select *, 
      row_number() over (partition by b order by s) r
      from loans
 )

select l1.b
from loans l1
except
select c1.b
from cte c1
where exists (
    select 1
    from cte c2 
    where c2.b = c1.b
    and c2.r <> c1.r
    and (c2.s between c1.s and c1.e
             or c1.s between c2.s and c2.e)
 )
0

If you're on SQL 2012, you can do it like this:

with cte as (
select 
    BorrowerID, 
    StartDate, 
    DueDate,
    lag(DueDate) over (partition by borrowerid order by StartDate, DueDate) as PrevDueDate
from test
)

select 
    distinct BorrowerID 
from cte
where BorrowerID not in
    (select BorrowerID 
    from cte 
    where StartDate <= PrevDueDate)

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