I'm trying to understand if there are any standard best practice approaches for modelling number ranges in a Relational Database (In this case MySQL) and if this is in fact a sensible thing to do.

I shall explain the task that prompted the question for context.

I'm currently in the process of designing a database which will model the allocation of a pool of Identifiers to Customers.

The pool of potential Identifiers has a range from 0 to about 2^30

A given customer could be allocated any number of Identifiers from a single Identifier to millions in multiple contiguous blocks.

A given Identifier may only be allocated to a single customer (i.e. it is a one to many relationship)

Clearly there will be a Customer table and and an Identifier table containing the Customer key.

The complexity comes with how to model the Identifiers:

Option one would be to have a row represent single identifier. This will result in a potentially huge number of rows in the table, but would make searching for who owns which identifier and if a given identifier is in use trivial.

The second (and I think more promising) option would be to have a row represent a range of values with a minimum and maximum value. This would make queries a bit more complex (I'm assuming the query for checking if an identifier was in use would be to query for ranges with "Minimum lower than X" and a "Maximum higher than X") but would result in far fewer rows and would likely be easier to manage and update.

I would welcome any views on if this is a good approach and if not if there is an obvious better approach that I am missing.


If the ranges do not intersect, then you may store them as pairs of INT values:

CREATE TABLE customer_range
        customerId INT,
        rgStart INT,
        rgEnd INT,
        PRIMARY KEY (customerId, rgStart),
        UNIQUE KEY (rgStart)

To query the customer a number belongs to, use this:

SELECT  customerId
FROM    customer_range
WHERE   rgStart <= $mynum
        AND rgEnd >= $mynum
        rgStart DESC
  • This is the approach I would suggest too. If you index these fields it'll be far easier for MySQL to find the relevant customer record.
    – James C
    May 3 '11 at 11:55
  • Great it looks like the approach I was considering wasn't totally stupid. I kept thinking there must be a gotcha somewhere I was missing.
    – Nick Long
    May 3 '11 at 12:08
  • 1
    @Nick: you should check whether the ranges do not intersect on inserting. There may be some caveats, especially with InnoDB.
    – Quassnoi
    May 3 '11 at 12:15
  • The gotcha is that SQL (standard SQL, that is) has no native support for interval types, thus no support for Allen's operators either. So you have to spell out "I1begin <= I2end and I1end >= I2begin" instead of just "I1 overlaps I2". Expressions quickly become too cumbersome to write, let alone to decode when reading/trying to understand them. But the answer does point out the most appropriate approach. May 3 '11 at 12:19
  • And as Quassnoi's comment points out, another gotcha is that you can forget about referential integrity support if your intervals (/ranges) are (part of) a "temporal (/range) key". May 3 '11 at 12:22

If I understand you correctly you're needing to work with multiple ranges, which could get tricky. You might want to look at PostgreSQL 9.2 range types. They look relevant to what you're trying to do.

In the real world ranges can overlap, contain each other or not overlap, and they can be open or closed, making range-checking queries potentially complex and error-prone. Range types remove most of this complexity and they're supported natively by indexing.


Best wishes,



Normally, I wouldn't try to reduce the number of rows just for the sake of it - in principle, a well-indexed table with a billion rows should be just as quick as a table with 100 rows, as long as your queries hit the index.

I'd work some more on the actual queries you are likely to want to run, and design the solution on that basis. For instance, would you want to list all the IDs that belong to a single customer? Would you want to check which customer owns several IDs? Would you want to find how many IDs a customer owns? The latter is a little tricky if you have "range" tables - instead of doing "select count(*) from ranges where customer = 1", you'd have to calculate the number IPs in each range for the customer, and add them up. Not rocket science, but might be slower in the real world...

  • This is one of the things I'm most interested in. Which types of queries will be slow or over complicated with either approach. Unfortunately the types queries likely to be run against it are still fairly poorly defined.
    – Nick Long
    May 3 '11 at 12:04
  • I think SELECT SUM(end - start) on three ranges 1M numbers each instead of SELECT COUNT(*) on 3M records would be faster in real world.
    – Quassnoi
    May 3 '11 at 12:06
  • "in principle, a well-indexed table with a billion rows should be just as quick as a table with 100 rows, as long as your queries hit the index." - So inserting a billion rows is as quick as inserting 100 rows "if the table is well-indexed and the insert hits the index" ? May 3 '11 at 12:24
  • @Erwin - you're right, I should have clarified that I meant "querying". However, in principle, the time per record for an insert shouldn't change materially whether you're inserting into a table with 100 records or a table with 1 billion records. May 3 '11 at 12:57
  • A B-Tree insert takes O(log(n)) only on seeking, not regarding cache, page splits etc.
    – Quassnoi
    May 3 '11 at 13:17

If you make a table like so

table ids

id_start not null unsigned integer /*not autoincrement!*/
id_end not null unsigned integer 
customer_id unsigned integer not null
foreign key FK_customer (customer_id) REFERENCES customer.id
primary key (id_start, id_end)
key id_end (id_end)

Now you can simply check for a free key by doing

SELECT count(*) as occupied FROM ids
WHERE 100 between id_start and id_end;

To check a free range do

SELECT count(*) as occupied FROM ids
WHERE NOT ('$low' > id_end) AND NOT ('$high' < id_start)

One possibility is to use a regular expression to represent the pool of identifiers, casting between strings and numbers as needed. The problem here is to find a regular expression for a given list of identifiers. This might be automated using the Aho–Corasick algorithm. This is only practical if these pools of IDs mostly look the same. Obviously if they are randomly assigned, then its going to be hard to find a regular expression much better than a long list of ORd literals.

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