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I'm currently having some trouble understanding ternary associations in UML. I get the binary ones, but I am unsure how multiplicity works on ternary. I'm doing exercises that I got from my university, the current one goes like this:

One department may sell many products, but only to one market. On a market one product may only be sold by one department.

enter image description here

I've read on different sources about how I'm supposed to think about a pair of the two classes I'm not trying to figure out the multiplicity for, but my brain just isn't getting it. Help me Overflow Kenobi, you're my only hope.

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There seems to be some ambiguity in the specification of multiplicities on ternary associations. See also this paper

But I understand it like this:

The multiplicity says something about how many times an instance may be present in this associations for any given tuple of linked instances.

As an example, consider the following (traditional) family enter image description here
I would understand that as

In any given family there must be one father, one mother and zero or more children.

If we apply that to your case then I come to something like this:

enter image description here
I understand that as

For any given Offering there must be exactly one market, one department and one or more products

That seems to satisfy more or less all of your constraints

  • A Product can only be offered to one market by one department
  • A Department can offer multiple products, but one product can only be offered to one market

I don't think it's waterproof though, but as the paper already stated, UML does not have enough tools to make a waterproof design with the multiplicities on the ends alone. So for good measure, your constraints should also be modeled as UML constraints.

Disclaimer: Ternary associations are really nice for academical discussions, but are not really used in the (IT) industry, probably because they are so hard to understand.

  • Great @Bellekens, I presume that at the end, in code, only binaries associations are implemented ... – granier Oct 25 '17 at 7:18
  • @granier not necessarily. I think the implementation in "code" is more common than the use in UML. Think of a struct with fields Market, Department, list<Product>, or a "link" table with FK's to Product, Market and Department. – Geert Bellekens Oct 25 '17 at 7:24
  • @Bellekens yes you will have a struct/object managing a list of others thinghs with "business rules", and this more near an association class or an object managing a list of binaries associations ... – granier Oct 25 '17 at 8:16
  • @Geert Bellekens: There is no ambiguity in the definition of multiplicities for n-ary associations, but they are just harder to understand. Notice that your association name "Family" in your example above is not a good choice since neither the ternary association, nor any of the triples instantiating it, represent a family. – Gerd Wagner Oct 27 '17 at 10:36
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    @GeertBellekens, For question softwareengineering.stackexchange.com/questions/391341/… , I have consulted the UML 2.5 spec and I think the n-ary association is well specified nowadays. If you have time, please read my answer over there. I think Gerd Wagner's answer below is correct. – www.admiraalit.nl May 3 '19 at 7:32
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This unspecific ternary association just tells that you have relations where

  • Market controls Department-Product,
  • Department controls Market-Product and
  • Product controls Department-Market.

There is no statement as to how the single classes control the other two.

The UML specs is not defining the ternary operator in detail. So using that element seems to be on your own risk. You could blame OMG for using but not defining it more than

Any Association may be drawn as a diamond (larger than a terminator on a line) with a solid line for each Association memberEnd connecting the diamond to the Classifier that is the end’s type. An Association with more than two ends can only be drawn this way.

and a single example in a picture on p. 202.

The simple association class

enter image description here

tells you that the Product is in between Department and Market where the multiplicity 1 tells that there's only one Market for a Department. That's more what your requirement sounds like.

N.B. It does not make much sense to split hairs regarding the requirements, so as "is there a Product without a Market". Those are details which need to be discussed with domain specialists before being fixed in a model.

  • Your model would allow that a department offers its products on many markets, and it would not allow a department to offer more than one product on the same market, contrary to the requirements. – Gerd Wagner Oct 27 '17 at 11:28
  • @GerdWagner You are right. That sketch was more a general shot from the hip. I'll make a correction. – qwerty_so Oct 27 '17 at 12:07
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The model in the answer of Geert Bellekens is correct, but his explananation is confusing. The ternary association "Offering" with its multiplicities (cardinality constraints) cannot be explained by the statement

For any given Offering there must be exactly one market, one department and one or more products

but rather by stating that

  • a combination of department and product is linked to exactly one market
  • a combination of market and product is linked to exactly one department
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    Ternary and higher association should be modeled conform the ISO standaard where owning ends are reversed in the notation. So for binary association, use the normal meaning of owning ends.

    An intelligent tool should switch parsing mode if encountering a ternary or higher association.

    It has been proved you can split a N-ary association into a lot of binary associations, so we avoid these N-ary usually.

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