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An object diagram in the Unified Modeling Language (UML), is a diagram that shows a complete or partial view of the structure of a modeled system at a specific time.

Overview

In the Unified Modeling Language (UML) an object diagram focuses on some particular set of object instances and attributes, and the links between the instances. A correlated set of object diagrams provides insight into how an arbitrary view of a system is expected to evolve over time. In early UML specifications the object diagram is described as:

"An object diagram is a graph of instances, including objects and data values. A static object diagram is an instance of a class diagram; it shows a snapshot of the detailed state of a system at a point in time. The use of obect diagrams is fairly limited, namely to show examples of data structure."^[1]^[2]

The latest UML 2.4 specification doesn't provided any definition of the object diagram.^[3]

The object diagrams and class diagrams are close relate,^[4] and use almost identical notation.^[5] Both diagrams are meant to visualize static structure of a system. While the class diagram show classes the object diagram displays instances of classes' or objects.^[6] Object diagrams are more concrete than class diagrams. They are often used to provide examples, or act as test cases for the class diagrams. Only those aspects of a model that are of current interest need be shown on an object diagram.

Object diagram topics

Instance specifications

Each object and link on an object diagram is represented by an InstanceSpecification. This can show an object's classifier (e.g. an abstract or concrete class) and instance name, as well as attributes and other structural features using slots. Each slot corresponds to a single attribute or feature, and may include a value for that entity.

The name on an instance specification optionally shows an instance name, a ':' separator, and optionally one or more classifier names separated by commas. The contents of slots, if any, are included below the names, in a separate attribute compartment. A link is shown as a solid line, and represents an instance of an association.

Object diagram example

As an example, consider one possible way of modeling production of the Fibonacci sequence.

In the first UML object diagram on the right, the instance in the leftmost instance specification is named v1, has IndependentVariable as its classifier, plays the NMinus2 role within the FibonacciSystem, and has a slot for the val attribute with a value of 0. The second object is named v2, is of class IndependentVariable, plays the NMinus1 role, and has val = 1. The DependentVariable object is named v3, and plays the N role. The topmost instance, an anonymous instance specification, has FibonacciFunction as its classifier, and may have an instance name, a role, and slots, but these are not shown here. The diagram also includes three named links, shown as lines. Links are instances of an association.

After the first iteration, when n = 3, and f(n-2) = 1, and f(n-1) = 1, then f(n) = 1 + 1 = 2.

In the second diagram, at a slightly later point in time, the IndependentVariable and DependentVariable objects are the same, but the slots for the val attribute have different values. The role names are not shown here.

After several more iterations, when n = 7, and f(n-2) = 5, and f(n-1) = 8, then f(n) = 5 + 8 = 13.

In the last object diagram, a still later snapshot, the same three objects are involved. Their slots have different values. The instance and role names are not shown here.

Usage

If you are using a UML modeling tool, you will typically draw object diagrams using some other diagram type, such as on a class diagram. An object instance may be called an instance specification or just an instance. A link between instances is generally referred to as a link. Other UML entities, such as an aggregation or composition symbol (a diamond) may also appear on an object diagram.

References

^ Object Management Group (2001) UML specification 1.4, September 2001
^ Anne Banks Pidduck, John Mylopoulos, Carson C. Woo (2002) Advanced Information Systems Engineering. p.776.
^ Classification of UML 2.5 Diagrams on uml-diagrams.org. Retrieved Dec 7, 2012
^ Marcus Fontoura, Wolfgang Pree, Bernhard Rumpe (2002) The UML profile for framework architectures. p.19
^ Kassem A. Saleh (2009) Software Engineering. p.47
^ Bianca Scholten (2007) The Road to Integration: A Guide to Applying the ISA-95 Standard in Manufacturing. p.155

External links

General information on UML including the official UML 2.0 specification. See especially the section on InstanceSpecification.
The Expressive Power of Object Diagrams, an illustration from the real world
Modal object diagrams, an extension of object diagrams with existential/universal and positive/negative modes.

[1] Object Management Group (2001) UML specification 1.4, September 2001

[2] Anne Banks Pidduck, John Mylopoulos, Carson C. Woo (2002) Advanced Information Systems Engineering. p.776.

[3] Classification of UML 2.5 Diagrams on uml-diagrams.org. Retrieved Dec 7, 2012

[4] Marcus Fontoura, Wolfgang Pree, Bernhard Rumpe (2002) The UML profile for framework architectures. p.19

[5] Kassem A. Saleh (2009) Software Engineering. p.47

[6] Bianca Scholten (2007) The Road to Integration: A Guide to Applying the ISA-95 Standard in Manufacturing. p.155

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@@ Line 8: / Line 8: @@
 The latest UML 2.4 specification doesn't provided any definition of the object diagram.<ref>[http://www.uml-diagrams.org/uml-25-diagrams.html Classification of UML 2.5 Diagrams] on uml-diagrams.org. Retrieved Dec 7, 2012</ref>
-The object diagrams and class diagrams are close relate<ref> Marcus Fontoura, Wolfgang Pree, Bernhard Rumpe (2002) ''The UML profile for framework architectures''. p.19</ref>, and use almost identical notation.<ref>Kassem A. Saleh (2009) ''Software Engineering''. p.47</ref> Both diagrams are meant to visualize static structure of a system. While the class diagram show [[Class (computer programming)|classes]] the object diagram displays instances of classes' or [[Object (computer science)|objects]].<ref>Bianca Scholten (2007) ''The Road to Integration: A Guide to Applying the ISA-95 Standard in Manufacturing''. p.155</ref> Object diagrams are more concrete than [[class diagram]]s. They are often used to provide examples, or act as test cases for the class diagrams. Only those aspects of a model that are of current interest need be shown on an object diagram.
+The object diagrams and class diagrams are close relate,<ref>Marcus Fontoura, Wolfgang Pree, Bernhard Rumpe (2002) ''The UML profile for framework architectures''. p.19</ref> and use almost identical notation.<ref>Kassem A. Saleh (2009) ''Software Engineering''. p.47</ref> Both diagrams are meant to visualize static structure of a system. While the class diagram show [[Class (computer programming)|classes]] the object diagram displays instances of classes' or [[Object (computer science)|objects]].<ref>Bianca Scholten (2007) ''The Road to Integration: A Guide to Applying the ISA-95 Standard in Manufacturing''. p.155</ref> Object diagrams are more concrete than [[class diagram]]s. They are often used to provide examples, or act as test cases for the class diagrams. Only those aspects of a model that are of current interest need be shown on an object diagram.
 ==Object diagram topics==
 ===Instance specifications===
 Each object and link on an object diagram is represented by an ''InstanceSpecification''. This can show an object's classifier (e.g. an abstract or concrete [[Class (computer science)|class]]) and instance name, as well as attributes and other structural features using ''slots''. Each ''slot'' corresponds to a single attribute or feature, and may include a value for that entity.
@@ Line 39: / Line 40: @@
 ==External links==
-{{Commonscat|Object diagrams}}
+{{Commons category|Object diagrams}}
 * [http://www.uml.org/ General information on UML] including the official UML 2.0 specification. See especially the section on InstanceSpecification.
 * [http://advanceduml.wordpress.com/2008/09/26/what-a-month-in-the-financial-sector/ The Expressive Power of Object Diagrams], an illustration from the real world