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In every tutorial on entity relationship diagrams, I read that specifying a fixed cardinality for a relationship is not allowed. Only an informal comment on the ERD may clarify that the number of pilots is exactly 2.

So, for example, a relationship between flights and pilots where each flight has exactly 2 pilots present, would have to be represented as:

<flight> 0..N <------> 1..N <pilot>

rather than

<flight> 0..N <------> 2 <pilot>

My notation is 0..N = optional, many; 1..N = mandatory, many, 1 = mandatory, one.

Is this restriction universal? What's the reason behind it?

EDIT: clarified my notation.

EDIT: I can see how two relationships would enforce the same constraint:

         0..N <------> 1
<flight>                 <pilot>
         0..N <------> 1

But then a query to see if a pilot is on a given flight becomes really ugly, as you'll have to check each of two attributes. And if the number of attributes grows (say, to 15 flight attendants), the queries become completely unmanageable and the schema only barely manageable.

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Your second design does not enforce the same constraint. In particular, it is missing the constraint that the pilots in its two relationships are different. –  philipxy Dec 24 at 0:27

6 Answers 6

up vote 5 down vote accepted

The other responses have provided a few valuable pieces of the answer. Two more pieces need to be added:

First, ER modeling is more than just an ERD. We tend to try to put the entire ER model on one diagram. But complete ER modeling is a lot more than what will fit on a single diagram. There can be business rules that limit the cardinality of a relationship to no less than 10 and no more than 15. But it's important to realize that these must be "Business rules" (i.e. subject matter rules) and not design restrictions imposed for practical reasons. A complete ER model can include all of these business rules on the data and these can be expressed, if necessary, in plain English.

The notation 10..15 is to be preferred because it's more concise, unless more detail is needed to clarify the rule, such as the reason why the rule exists.

The above hints at the second point that needs to be made. It's the difference between analysis and design. If ER modeling is used in the classical manner, it's a tool for data analysis and not a tool for database design. By "data analysis", I mean problem analysis from a data centric point of view. Distinguishing between analysis and design, between features of the problem and features of the solution, is something that is not taught enough in formal CS or IT education. It's absolutely critical to getting things right.

And even those of us who are aware of the difference sometimes slip up and slide features of the solution into the definition of the problem. This is known as "thinking inside of the box".

If you want to diagram the database design, don't use an ERD. Use a relational schematic diagram, provided that the database you are designing is relational. A relational schematic includes features that an ERD ought not to include, like junction tables and foreign keys. Don't use ERD as "relational lite". That's not what it is.

Incidentally, another answer made the comment that an ERD ought to be implementable on any DBMS. That's a consequence of the concept I've just presented, that the ERD captures analysis and not design.

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+100, If I could. –  Erwin Smout Sep 16 '12 at 10:31
Did I get it right: ER model should express any business requirements I like. ER only deals with analysis, so implementation isn't a concern yet. Ideally, ER modelling should be done using a language rich enough to express all actual business requirements. If so, it seems to me EER would be a good choice, since it's more expressive than regular ERD. By the time I get to design, I know what the specific technology (RDBMS, NoSQL, etc.), and at the point I should use the relevant representation (e.g., relational schema). –  max Sep 16 '12 at 12:12
@max, you got it. –  Walter Mitty Sep 16 '12 at 18:51

Cardinality rules are themselves only a special case of "any and all possible rules in general". The only two languages that are capable of expressing "any and all possible rules", are human natural language (which has the downside of being often ambiguous and imprecise no matter how hard you try), and the symbolic language of formal predicate logic.

How to use the latter in a context of data modeling, is the entire topic of the superb (and highly commendedable) book "Applied Mathematics for Database Professionals".

Halpin's ORM is an attempt to come up with a modeling language that can cover (i.e. has graphical symbols to express) more kinds of business rules than E/R can. For example, it has symbols for expressing acyclic graph constraints ("no person is an ancestor of himself"). But even this language cannot express everything, and must necessarily resort to a final class of constraints it calls "others", and which can only be described using natural language.

It's a language problem. If you devise a language with an extremely small number of symbols (rectangle, connecting line, zero, one, and crowfoot), that can be combined in only an extremely small number of ways, then you cannot expect such a language to be able to express just anything conceivable.

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Agree except that relation expressions are equivalent to predicate logic expressions, so anything you can say with one you can say with the other. –  philipxy Dec 24 at 1:54

You have unique indexes ( like primary keys ) and non-unique indexes: which is having 1 record or multiple records allowed according to your unique keys definition


You have null fields or fields forced to have value: Here you may have 0 or 1 value

Combine these 2 things and you should be able to know, why they always say 0 or more

ERD cannot always force RULES, rules usually can be forced by DB design but it will always need another layer from software (or at least stored procedures)

By the way, regarding your example, if you always have 2 pilots in every flight, and you want to enforce this rule by db design, you can simply create 2 relations from Pilots table to Flight table, yes, you will have 2 foreign keys to the same table, ERD allows that

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So is it correct to say that ERD is trying to avoid allowing too many rules, in case they happen to be unenforceable with the barebones relational database? So while rules of arbitrary complexity may be enforced in the application layer, ERD is not intended to model that? –  max Sep 16 '12 at 9:37
ERD is general, it should be implementable by any RDBMS, when you dig in further to a certain RDBMS you'll find that rules can be enforced much more using triggers and stored procedures and even table metadata. By the way, I don't think that ERD is trying to avoid anything, you're still able to force or flex some rules in DB design itself, but sure not every rule. –  Hawili Sep 16 '12 at 9:57
Indexes have nothing to do with E/R modeling. There are engines that can enforce all "rules", and this without any "additional layer of software". Relations is not the same thing as "relationships". And if you "create two relations", then that still is no guarantee that there will effectively be exactly two pilots. EVERYTHING, and I really mean everything in this answer is ridiculously flawed. –  Erwin Smout Sep 16 '12 at 9:59
@ErwinSmout please post your answer, I would really be delighted to see a better one. In my answer I tried to use simple things to describe it, I know no indexes are forced in ERD but the result will have one, I was answering the question using the physical result of ERD, and Yes I can enforce having 2 pilots if the relation is 1..n per each field, and I said I can enforce the rules using features from certain RDBMS but not all of them, please read my answers carefully before bashing me like this, again, I'll be really pleased to see your better answer, its the whole idea about this site –  Hawili Sep 16 '12 at 10:13

E-R diagrams provide a way to indicate constraints on the number of times each entity participates in a relationship.
An edge between an entity set and a binary relationship set can have an associated minimum and maximum cardinality as: min...max
A min value of 1 indicates total participation. A max value of 1 indicates at most one participation, a max of * or N indicates no upper limit.
Now coming to your question. Your modeling is wrong to begin with because a pilot would be in many flights and not one as you seem to imply.
Also if each flight has exactly 2 pilots and both are required then this is not modeled as a 1-N relationship but as 2 attributes of a flight (the pilot id) since they would never be null or optional (can not have a flight without 2 pilots).
So an upper limit of a constant number shows some problem in the design which is not generic enough to model your system.

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Sorry, my notation was unclear. Just updated the question. –  max Sep 16 '12 at 9:56
But N is a more general notation for 15.And what do you mean exactly 15?Are they all mandatory?If are optional then it is up to 15 which is the same as saying N –  Cratylus Sep 16 '12 at 9:56
Yes, like let's say a football team needs exactly 11 players. If for my application it doesn't matter which player is in which position, I just need to mark them as being on a team, I thought it would be useful to have notation for that. –  max Sep 16 '12 at 10:01

Not a direct answer to your question, but you might be interested how to enforce this kind of constraint in an actual database...

Let's say you can have at most 2 pilots on a flight. You can simply create two "0..N to 0..1" relationships:

enter image description here

And if you want exactly 2 pilots, just make PILOT1_ID and PILOT2_ID NOT NULL (and ensure they are different, through a CHECK).

However, as you already noted, this quickly becomes unwieldy for greater cardinalities, so a different technique is warranted. Let's say you need to limit the number of flight attendants to 15, you can do it like this...

enter image description here

...with the following constraint on the junction table:


Note that there is a UNIQUE constraint on {FLIGHT_ID, POSITION}, as denoted by U1 in the diagram above.

Essentially, we are pigeon-holing attendants to specific positions per each flight. No two attendants can occupy the same position for the same flight (thanks to the U1), so since there are exactly 15 positions per flight, there cannot be more than 15 attendants per flight.

Unfortunately, there is no good way to force that all positions are filled, so there can still be less than 15 attendants per flight. If that's important, you'll likely have to enforce it from the application code.

--- EDIT ---

To look for a free position (to use for the next INSERT), even if it's a "hole" between the two already-filled positions, you can do something like this (replace 1 with the desired FLIGHT_ID):

        WHERE FLIGHT_ID = 1

This query could have the following results:

  • It could returns no rows, indicating all positions are free so just pick any one within the valid range.
  • It could return rows, first and last of which may be out of the valid range, so ignore them if they are. Use one of the remaining rows. If there are no remaining rows, this is the indication all positions have been filled.

Here is a working SQL Fiddle example under Oracle, but the same technique should applicable to any DBMS. There are more elegant, DBMS specific ways for doing these kinds of queries (especially if you want all free positions, not just some), but even this "generic" solution should be more than enough for most practical purposes...

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Cool, thx. I am curious, wouldn't the second approach present a problem for INSERTs? Assuming there were some DELETEs, would it possible, with just standard SQL (without stored procs), to find an appropriate POSITION value for the attendant being added? –  max Sep 16 '12 at 12:23
@max Yes, you need to find a free position before INSERT. Please see my edit for one way to do it - it will work for "holes" produced by DELETE as well. –  Branko Dimitrijevic Sep 16 '12 at 13:11

I've experienced a similar problem. My scenario was having two football teams partaking in one fixture. So the two tables were "Team" and "Fixture". In the fixture table, I just had a "team_home" column and a "team_away" column. I'm not sure if this is the best or even correct way to do it, but it worked for me.

How did you implement your solution max?

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I just used enhanced ER diagram (EER). If you look at the first pages, you'll see they have a notation for any cardinality. More importantly, I concluded that my time is far too valuable to spend it struggling with notation. From now on, I just add any notation I like to ER diagrams, as long as I feel my colleagues will understand what I mean. –  max Oct 3 '12 at 19:02

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