I have recently been studying UML and drawing simple diagrams with ordinary plain arrows between classes, but I know it's not enough. There are plenty of other arrows: generalization, realisation and etc. which have meaning to the diagram reader.

Is there a nice resource which could explain each arrow (ordinary, plain, dotted, diamond-filled, diamond)?

It would be the best if it will have some code examples for them.

up vote 394 down vote accepted

Here's some explanations from the Visual Studio 2015 docs:

UML Class Diagrams: Reference: https://msdn.microsoft.com/library/dd409437%28VS.140%29.aspx

UML class diagram

5: Association: A relationship between the members of two classifiers.

5a: Aggregation: An association representing a shared ownership relationship. The Aggregation property of the owner role is set to Shared.

5b: Composition: An association representing a whole-part relationship. The Aggregation property of the owner role is set to Composite.

9: Generalization: The specific classifier inherits part of its definition from the general classifier. The general classifier is at the arrow end of the connector. Attributes, associations, and operations are inherited by the specific classifier. Use the Inheritance tool to create a generalization between two classifiers.

Package diagram

13: Import: A relationship between packages, indicating that one package includes all the definitions of another.

14: Dependency: The definition or implementation of the dependent classifier might change if the classifier at the arrowhead end is changed.

Realization relationship

15: Realization: The class implements the operations and attributes defined by the interface. Use the Inheritance tool to create a realization between a class and an interface.

16: Realization: An alternative presentation of the same relationship. The label on the lollipop symbol identifies the interface.

UML Class Diagrams: Guidelines: http://msdn.microsoft.com/library/dd409416%28VS.140%29.aspx

Properties of an Association

Aggregation: This appears as a diamond shape at one end of the connector. You can use it to indicate that instances at the aggregating role own or contain instances of the other.

Is Navigable: If true for only one role, an arrow appears in the navigable direction. You can use this to indicate navigability of links and database relations in the software.


Generalization: Generalization means that the specializing or derived type inherits attributes, operations, and associations of the general or base type. The general type appears at the arrowhead end of the relationship.

Realization: Realization means that a class implements the attributes and operations specified by the interface. The interface is at the arrow end of the connector.

Let me know if you have more questions.

  • 1
    Nice reference but to me a Menu -> MenuItem has the same relation like a Order -> OrderItem so both of them are Compositions. – Ignacio Soler Garcia Jun 28 '13 at 10:53
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    That both only mean, that the order item belongs to an order and can't be moved, whereas the Menu Item can be adjustable - the user may can to change the position of Menu Item. It is the solution chosen. Why not? – Gangnus Feb 3 '14 at 13:17
  • @Gangnus, thank you. That explanation clarified the difference that has eluded me for a long time. – JMD Jan 13 '15 at 18:06
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    @JMD, The order items can be moved as well. Composite aggregation is defined in the UML spec as follows: Composite aggregation is a strong form of aggregation that requires a part object be included in at most one composite object at a time. If a composite object is deleted, all of its partinstances that are objects are deleted with it. A part object may (where otherwise allowed) be removed from a composite object before the composite object is deleted, and thus not be deleted as part of the composite object. – www.admiraalit.nl Jan 26 '16 at 10:43
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    @aGer Thanks, I've updated the topic and image links. – Esther Fan - MSFT May 22 '17 at 16:39

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I think these pictures are understandable.

A nice cheat sheet: http://loufranco.com/wp-content/uploads/2012/11/cheatsheet.pdf

It covers:

  • Class Diagram
  • Sequence Diagram
  • Package Diagram
  • Object Diagram
  • Use Case Diagram

And provides a few samples.

  • 3
    I've been looking for exactly this for the last 30 minutes. I know the concepts, I just forget the symbols. – aclave1 Sep 17 '14 at 20:32

My favourite UML "cheat sheet" is UML Distilled, by Martin Fowler. It's the only one of his books that I've read that I do recommend.

  • 1
    Interesting, I quite liked Refactoring. Is that one you have opinions on. – djna Dec 9 '09 at 14:27
  • Yes, I found it all a bit obvious, and didn't like the concentration on Java. Also, please don't take my answer as saying that his other books are rubbish. – anon Dec 9 '09 at 14:30
  • Fowler's book also has a cheat sheet on the inside of the book covers. Really good for starting out, especially as your next question will be what direction do the arrows go? – Ted Johnson Dec 12 '09 at 16:48
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    PoEAA is pretty good, IMHO. – devlord Nov 21 '12 at 19:08
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    185 pages seems a little excessive for a "cheat sheet"! – cdyson37 Jul 14 '15 at 13:35

Here is simplified tutorial:

Practical UML

For more I recommend to get some literature.

For quick reference along with clear concise examples, Allen Holub's UML Quick Reference is excellent:

http://www.holub.com/goodies/uml/

(There are quite a few specific examples of arrows and pointers in the first column of a table, with descriptions in the second column.)

  • I liked his very first example and was hoping hew would go incrementally on same lines with basics, but it is a good read – killjoy Sep 29 at 15:30

A very easy to understand description is the documentation of yuml, with examples for class diagrams, use cases, and activities.

  • Probably the best UML-for-idiots while going down this list; note: this site also lets you draw your own UMLs for free (5). – killjoy Sep 29 at 15:33

The accepted answer being said, It is missing some explanations. for example, what is the difference between a uni-directional and a bi-directional association; both used in the example provided. ( numberS '5' in the arrows) So if looking for a more complete answer and have more time, look here.

If you are more of a MOOC person, one free course that I'd recommend that teaches you all the in and outs of most UML diagrams is this one from Udacity: https://www.udacity.com/course/software-architecture-design--ud821

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