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Sequence Diagram Create Object

8/27/2021
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SequenceDiagram.org is an online tool / software for creating UML sequence diagrams. Founded in 2014 with the purpose to improve the efficiency when creating and working with sequence diagrams by combining text notation scripting and drawing by clicking and dragging in the same model.

Sequence Diagram is an Interaction diagram, which shows the message communication between various Objects. In this video you will learn about various constru. Object Creation and Deletion Visual Paradigm Online (VP Online), an online Sequence Diagram drawing editor that supports Sequence Diagram and other diagram types such as ERD, Organization Chart and more. With the intuitive Sequence Diagram editor you can draw Sequence Diagram in seconds.

Sequence Diagram Create Object

A sequence diagram is a type of interaction diagram because it describes how—and in what order—a group of objects works together. These diagrams are used by software developers and business professionals to understand requirements for a new system or to document an existing process.

All parsing, processing, and drawing is done client side. The benefit of this is that SequenceDiagram.org is fast and convenient to work with; it also doesn’t transfer your diagram data over the Internet like many other sequence diagram tools on the market. This also means that it is possible to work with the tool offline.

The tool is developed, maintained, and used by people who create a lot of sequence diagrams in their daily work. If you have any question / comments / suggestions / bugs please contact [email protected] The more feedback we get the better we can prioritize.

To build a sequence diagram, use a UML Sequence template or starter diagram, which includes the UML Sequence stencil. Drag shapes from the stencil onto the drawing canvas to build the diagram. Start a sequence diagram. The sequence diagram is a specific kind of interaction diagram Statechart diagrams describe the states of an individual object and the possible transitions between states Activity diagrams model behavior in terms of activities.


Privacy and data protection information

The tool itself does not collect data, however services it relies on such as Content Delivery Network, hosting, and cloud storage does. See privacy policy for details.


Are diagrams/scripts created using SequenceDiagram.org subject to any license?

No license is imposed by SequenceDiagram.org on the generated output. However, like with all images containing text, the fonts used might. The default font used in diagrams is the default sans-serif font selected by your browser. You can specify a different font using the fontfamily keyword, see help for more information. See LICENSE for details.


How do I generate a PDF of my sequence diagram?

Zoom to a chosen level in the editor and Print to PDF from your browser. The print css makes sure to only show the diagram on the page.


Are there any example sequence diagrams?

Yes, clicking the help menu and selecting 'Instructions' will show examples of all possible diagram elements. A copy icon is available for copying the text notation.


Is the codebase of SequenceDiagram.org open source?

No, the codebase is currently not available under any open source license


Can I run the SequenceDiagram.org tool in my company's private network (on-prem)?

Yes, by donating 400$ you are licensed to run the SequenceDiagram.org tool and its REST-like API inside your company's network (enterprise license). You are also eligible to receive any new published versions of the software for the duration of 1 year from the donation date by request. Your donation is highly appreciated and allows us to keep SequenceDiagram.org online and free for everyone to use. Please contact [email protected] for any questions.
The software is delivered in three formats:

  • A Node JS application with the Sequencediagram.org tool and a REST-like API for integration with other services, see README.txt for details
  • A war file with the Sequencediagram.org tool for deployment in a Java Servlet Container such as Tomcat, Jboss, Wildfly, Jetty, etc
  • A zip file with the Sequencediagram.org tool for static web page hosting inside the DocumentRoot of a web server such as Apache, IIS, etc, or static on any cloud provider

What libraries are used by SequenceDiagram.org?

  • lz-string is used to create URLs for sharing sequence diagrams. LICENSE
  • Canvas2Svg is used to export the diagram into SVG file format. LICENSE
  • CodeMirror is used as the text editor. LICENSE
  • Font Awesome is used to provide icons for the icon participants. LICENSE
  • Material Design Icons from the Community is used to provide icons for the icon participants. LICENSE
  • Material Design icons by Google (included in materialdesignicons.com collection) is used to provide icons for the icon participants. LICENSE
  • Font Awesome 5 Free is used to provide icons for the icon participants. LICENSE
  • RBush is used for collision detection calculations for onmousemove events. LICENSE
  • MSAL.js from Microsoft is used for authentication towards Microsoft services.
  • OneDrive.js from Microsoft is used for file picker for OneDrive and SharePoint.
  • platform.js from Google is used for authentication towards Google services and file picker for Google Drive and Team Drives.
  1. Specifying Sequence Diagram Editors
    1. Prerequisites
    2. Mappings
    3. Tools

Introduction

This document describes how to specify sequence diagram modelers with Sirius. It has been written for software architects who want to specify sequence diagrams on their own meta-models.

This tutorial is based on an example, i.e. the specification of a UML sequence diagram editor. The resulting diagram is available in the Obeo UML Behavioral viewpoint (available for free at https://github.com/ObeoNetwork/UML-Modeling ) which is based on the Eclipse Foundation’s UML2 meta-model.

Sequence Diagrams Semantics

As their name says, sequence diagrams are meant to represent ordered sequences of elements. Typically, they represent events sent and received between some entities over time. The canonical case is a UML Sequence Diagram (where the notation comes from), which represents the messages exchanged between objects in a software system.

The most important consequence of this is that contrary to what happens on a classical diagram, the relative graphical positions of elements on a sequence diagram have strong meaning. This is true for the vertical placement and for the left-to-right order of lifelines. However placing a message above or below another one has a strong implication on the ordering of the events they represent, and thus on the structure of the underlying semantic model which is represented. Sirius works hard to ensure that what you see on you sequence diagram (in terms of vertical ordering of elements and horizontal ordering of lifelines) always correspond to the semantic ordering of the represented events.

This works both ways:

  • Assuming a diagram is synchronized (i.e. you are in Automatic Refresh mode or your manually refreshed it since the last semantic changes), Sirius will always organize the elements on the diagram in a way which is compatible with the semantic ordering of the events: if you see an execution E1 placed above another execution E2, you can be sure the events corresponding to E1 happen before the events of E2 in the semantic model.
  • Symmetrically, and perhaps more importantly, moving elements on a sequence diagram may trigger changes in the underlying semantic model to reflect the new event order implied by the positions you changed. This is very different from what happens in other diagrams, where most graphical repositioning of elements are only cosmetic. Keeping the example above, moving execution E2 graphically above E1 will trigger changes in the semantic model to move the corresponding event of E2 before the events of E1.

Most of the specific features and restrictions of sequence diagrams compared to other diagrams derive from this strong guarantee that at all time, the graphical (vertical) order of the elements you see on the diagram match exactly the semantic order of the events which exist in the underlying model and the horizontal order of the instance roles you see on the diagram match exactly the semantic order of the corresponding elements which exist in the underlying model.

From the specifier point of view, this means that sequence diagrams can only be defined on meta-models in which you can provide a total ordering of the events represented, and that you can reorder these elements in a predictable way (see the description of the Event Reorder Tool and Instance Role Reorder Tool for details).

Restrictions and Limitations

In order to guarantee the strong guarantee described above, some of the features present on normal diagrams are not supported, or even completely disabled on sequence diagrams. Basically, anything which would make it possible on a normal diagram to have meaningful semantic elements not visible on the diagram is forbidden. This would make it impossible for Sirius to keep consistent tracking of the “position” of these invisible elements relative to the ones which are visible.

  • Layers: sequence diagrams may define optional layers, as long as they do not make graphical elements appear or disappear on the diagram when they are selected or de-selected. Layers which contribute new tools in the palette for example are fine.
  • Filters: filters which may hide elements from a sequence diagram when enabled are not supported.
  • Hide/Reveal: hiding elements explicitly is not supported. The actions are disabled in the UI.
  • Pin/Unpin: pinning graphical elements has no effect on the automatic layout of sequence diagrams. Even if an element has been marked as pinned, Sirius must be able to move it graphically as needed in order to maintain the graphical order of element in sync with the semantic order. The actions are disabled in the UI.

Prerequisites

As with any Sirius diagram, the semantic model used for a sequence diagram defines some elements and relationships that must be mapped to graphical elements in order to be represented on the sequence diagrams. For the UML2 modeler, the semantic model is defined in .uml files and the mapping in the uml2.odesign Viewpoint Specification file.

The job of the architect is to map the UML2 interactions, life-lines, executions and messages. Even if the support for sequence diagrams in Sirius is not dedicated to UML2, these four kinds of elements (or similar ones) must be provided by the sequence meta-model in order to be represented as sequence diagrams in Sirius.

Interaction

The interaction is the semantic container for all the sequence diagram elements.

In UML2, the interaction is represented by an element of type Interaction.

Lifeline and Instance role

The instance role and the lifeline represents one participant in the interaction.

In UML2, the instance role and the lifeline are represented by one element of type Lifeline.

Execution

The execution typically represents a period in the participant’s lifetime when it is active. An execution is composed of three elements:

  • Execution start: the start occurrence of the execution;
  • Execution: the execution by itself (the duration of the execution);
  • Execution finish: the finish occurrence of the execution.

In UML2, the execution is represented by an element of type Execution Specification, the execution start and finish are defined by an abstract type Occurrence Specification.

Message

The message represents a kind of communication between lifelines of an interaction. A message is composed by three elements:

Diagram
  • Message send (or source): the send occurrence of the message;
  • Message: the message by itself (the kind of communication, e.g. synchronous/asynchronous call);
  • Message receive (or target): the receive occurrence of the message

In UML2, the message is represented by an element of type Message Specification, the message send and receive are defined by one abstract type Occurrence Specification.

SingleEventEnd and CompoundEventEnd

Sirius internally manages a list of start/finish execution occurrences and sender/receiver message occurrences defined for each interaction. All these occurrences are event ends contained in the EventEnds list.

An eventEnd contains two properties:

  • semanticEvent: points to the semantic event which could be a message or an execution,
  • semanticEnd: points to one connection end of the semantic event, i.e. the semantic element which could be a message sender, a message receiver, an execution start or an execution finish.

There are two kinds of EventEnds:

  • SingleEventEnd: Is an element which is used only as start/send or finish/receive by one execution/message. In UML2, an execution could be started or finished by an Execution Occurrence Specification and a message could be sent or received by a Message occurrence Specification.
  • CompoundEventEnd: Is an element that represents the combination of a message and an execution. This kind of EventEnd exists in order to associate graphically a message to an execution. As the CompoundEventEnd is an EventEnd, it contains the two properties:
    • semanticEvent which points to a message or an execution.
    • semanticEnd which points to a MixEnd element.

Depending on how the meta-model is defined, the MixEnd could be represented by:

  • one SingleEventEnd: This is the case in UML2, the Execution Specification could be defined with a start/finish element of type Execution Occurrence Specification or Message Occurrence Specification
  • two SingleEventEnds: one SingleEventElement which points to the message and one SingleEventElement which points to the execution.

The Operation_0 message ends on the left border of the Operation_0() execution because Operation_0_receiver is associated to the start of the execution. Otherwise, the message would be associated to the lifeline. For example, the Message_3 is a simple message not linked to an execution. Consequently, the Message_3_receiver is a SingleEventEnd and is attached to the lifeline.

Hence, for an asynchronous call, we get:

  • one SingleEventEnd for the message sending: Operation_0_sender
    • semanticEvent = Operation_0 message
    • semanticEnd = Operation_0_sender message occurrence specification
  • one CompoundEventEnd for the Operation_0 message receiving and Operation_0 execution startingEnd composed by one SingleEventEnd = Operation_receiver
    • semanticEvent = Operation_0 message
    • semanticEnd = Operation_0_receiver message occurrence specification
  • one SingleEventEnd for the execution finish: Operation_0_finish
    • semanticEvent = Operation_0 execution
    • semanticEnd = Operation_0_finish execution occurrence specification

Ordering

In a Sirius sequence diagram, the elements are totally ordered.

Internally, Sirius maintains three ordered sets:

  • two for the vertical ordering : a graphical set which orders the graphical elements, a semantic set which orders the semantic elements.
  • one for the horizontal ordering, a semantic set which orders the semantic instance roles (the graphical ordering of instance roles is available without heavy computation).

To provide a functional diagram, each semantic/graphical orderings couple must always be coherent. Creation tools and reordering tool must manage the semantic orderings. More explanations are given in the next section.

Sequence Diagram Description

First, in an odesign file, from an existing viewpoint, you have to create a new kind of representation : Sequence Diagram Description.

As for other representations, you define mandatory properties:

  • Id: unique identifier for the diagram type in Sirius
  • Label: used to display information to end-user
  • Domain class: type of the semantic element representing the sequence diagram container

For a complete description of each property, have a look at the Help > Sirius Specifier Guide > Reference Guide > Representation > Sequence Diagram.

The most important properties to understand are the Ends Ordering and Instance Roles Ordering.

In a sequence diagram, graphical elements are ordered chronologically and this order is essential. Maintaining and updating the elements global order will be the main purpose of all tools that you will create later. Your tools must keep all the time the order of semantic elements and according to this, Sirius manages the graphical representation order.

The ordered elements in a sequence diagram are defined with the Ends Ordering and Instance Roles Ordering fields. These properties will be used by Sirius to automatically order the graphical elements when you open a sequence diagram for an interaction.

The Ends Ordering handles the vertical order of events. It specifies with an expression how semantic elements must be ordered. These elements should be execution1 start/finish and message send/receive occurrences.

A specific variable exists for this expression: eventEnds . The variable eventEnds contains the list of all EventEnds existing for the current interaction.

Pay attention: the evaluation of the Ends Ordering expression should returned only elements contained in the eventEnds list.

The Instance Roles Ordering handles the horizontal order of instance roles / lifelines. It specifies with an expression how semantic elements must be ordered. These elements should be the semantic elements which will be represented as instance role.

If we have a look at the UML2 meta-model, the fragment reference defined in an Interaction contains all the execution occurrences and the message occurrences. Execution occurrences and messages occurrences are EventEnd elements. But the fragment reference contains also some other types of elements as execution specifications. In order that the Ends Ordering property only references EventEnd elements we need to do an intersection of fragments elements and eventEnds (using either Acceleo or delegating to a Java service using service:).

Furthermore, the lifeline reference defined in an Interaction contains all the Lifeline representing both lifeline and instance role.

For the UML Modeler, the Ends Ordering expression will return for the diagram below, the ordered list: [Operation_0_sender, Operation_0_receiver, Operation_0_finish, test_sender, test_receiver, test_reply_sender, test_reply_receiver, Message_3_sender, Message_3 _receiver].
And the Instance Roles Ordering expression will return for the diagram below, the ordered list: [producers, consumers].

Default Layer

When the sequence diagram description is complete, you can add a Default layer.

Next step is to define the mappings and all the tools to manage the interaction elements.

Object

Create Sequence Diagram In Word

Mappings

We want to represent on a sequence diagram four different elements and then associate a mapping to each element:

  • Instance: instance role mapping
  • Lifetime: execution mapping
  • Execution: execution mapping
  • Message: basic message mapping

Instance Role

Firstly, create the instance role mapping. It graphically corresponds to the box at the top of the lifeline.

Set the mandatory properties Id, Label and Domain class:

The Semantic Candidates Expression is an Acceleo expression returning the semantic elements for which the mapping will be evaluated and then a graphical element will represent the semantic element on the diagram.

Don’t forget to create a new Style for the instance role mapping.

Executions

Execution mappings are used when you have an element which is composed by a start, a duration and a finish element.

We will define the execution mappings: Who is ip address location.

First, create the execution mapping for the lifeline execution. This represents the dashed line of lifeline.

And create the execution mapping for the execution. This represents the execution square on lifeline or other execution.

Enterprise Architect Sequence Diagram Create Object

Set the mandatory properties:

  • Id, Label, Domain class
  • Semantic Candidates Expression: expression that returns the first level executions associated to the current execution.

Here, a java service1 executionSemanticCandidates() is called.

  • Starting End Finder Expression: semantic element defining the execution start
  • Finishing End Finder Expression: semantic element defining the execution finish

The end finder expressions are used by Sirius to graphically link the execution to its start and finish elements and to find during creation and reorder operations where to reattach the dragged element.

As an execution could recursively contain other executions, don’t forget to import the mapping on itself by setting the property Reused bordered node mappings :

For both execution mappings, don’t forget to create a New Style:

Basic Messages

Now, we will define the basic message mapping:

Create the basic message mapping:

Set the mandatory properties:

  • Id, Label, Domain class
  • Semantic Candidates Expression: expression to get all the messages defined in an interaction
  • Semantic Elements: Associates a group of logical semantic elements to the graphical element. For example, here we associate to the graphical message the semantic element of type Message, the message send event of type Message Occurrence Specification and the message receive event of type Message Occurrence Specification. Sirius will use this information to:
    • show associated semantic elements in properties view,
    • listen for associated elements changes to refresh if necessary,
    • delete associated elements if there is no specific delete tool.
  • Source/Target mapping: a list of graphical mappings that could be source/target of the message. Several mappings could be defined as source or target mapping for a message. In UML2, Lifeline mapping and Execution mapping can be source/target of message. On the illustration below, the consumers lifeline and the compute() execution can be selected as source for the get message. The producers lifeline and the get execution can be selected as target for the get message.
  • Source/Target finder expression: the expression which must return the source/target semantic element, i.e. the source/target context of the message. In UML2, the expression return is the lifeline or the execution for example. On the illustration below, the compute execution is the semantic source element for the message get and the get execution is the semantic target element.
  • Sending/Receiving End Finder Expression: expression which must return the semantic element which represents the message sender/receiver.

Lost and Found Messages

Standard node mappings, direct children of a layer of the current sequence diagram description, can be used to represent the unknown message end. Lost and found messages should be created using a generic tool.

Tools

Java Services

To use a java service in an Acceleo expression, service must be define like this in odesign:

Creation Tools

Define a new Section to add creation tools:

Create Lifeline

Lifelines should be created using an Instance Role Creation Tool associated to the instance role mapping.

The predecessor variable represents in the global instance role ordering, the element preceding the new instance role.

Create Execution

An Execution can be created using Execution Creation Tool.

The following variables can be used from inside the tool definition:

  • container: the element (lifeline or execution) that will contain graphically the new execution, in the example below the container would be the get() execution.
  • startingEndPredecessor and finishingEndPredecessor: represent in the global event ends list, the element preceding the new execution start and the element preceding the new execution finish. To get the corresponding semantic end element associated to event end: startingEndPredecessor.semanticEnd or finishingEndPredecessor.semanticEnd.

In the example above, we want to create a new BehaviorExecution_2 on the existing get execution. Thus, the startingEndPredecessor and finishingEndPredecessor will point to the get_receiver message occurrence. This variables represent the semantic elements ( get_receiver) associated to the graphical element preceding the startingEnd ( BehaviorExecution_2_start) and finishingEnd ( BehaviorExecution_2_finish) of the new element.

Message Creation Tool

A Message can be created using Message Creation Tool.

The following variables can be used from inside the tool definition:

  • source: Semantic element associated to message send;
  • target: Semantic element associated to message receive;
  • startingEndPredecessor and finishingEndPredecessor: represent in the global event ends list, the element preceding the new message send and the element preceding the new message receive.

In this example, we want to create a new Message_1 from the existing compute execution to the producers lifeline. Thus, the startingEndPredecessor and finishingEndPredecessor will point to the get_finish execution occurrence. These variables represent the semantic elements ( get_finish) associated to the graphical element preceding the startingEnd ( Message_1_sender) and finishingEnd ( Message_1_receiver) of the new element.

Precondition. As for many other tools, it is possible to define a precondition for message creation tools. Depending on the precondition expression, the tool allows the element creation only under certain conditions. The precondition is defined as an interpreted expression.

A variable is available for the Acceleo expression : $preTarget. This variable is the semantic element associated to graphical element that is currently hovered by the mouse.

Event Reorder Tool

This tool is called when the user moves or changes the size of graphical elements on the diagram.

A single unique event reorder tool can and must be specified for message and execution mappings. The purpose of the tool is to re-synchronize the graphical ordering with the semantic ordering. When the user reorders a graphical element, the global order of graphical elements changes and the tool must then reorder the semantic elements according to these changes.

This tool has access to the following two variables usable in expressions:

  • startingEndPredecessorAfter: represents in the global event end list the element preceding the moved element start/send. It is the event which, after the move, will be directly preceding the starting end (top) of the moved element;
  • finishingEndPredecessorAfter: represents in the global event end list the element preceding the moved element finish/receive. It is the event which, after the move, will be directly preceding the finishing end (bottom) of the moved element.

In this example, we want to move the get execution after the Message_0. Thus, the startingEndPredecessorAfter variable will point to the compute_finish execution occurrence. This variable represents the semantic elements ( compute_finish) associated to the graphical element preceding the startingEnd ( get_start) after the move of get execution. The finishingEndPredecessorAfter variable will point to the get_start execution occurrence. This variable represents the semantic elements ( get_start) associated to the graphical element preceding the finishingEnd ( get_finish) after the move of get execution.

Now, we will have a look to a more complex reorder operation.

In this example, we want to move the get execution after the Message_1. The get execution is linked to the get synchronous message, thus the get execution startingEnd is a compoundEvent representing the get_receiver message occurrence. When we move the execution, the associated message must be also moved. In this case, the startingEndPredecessorAfter variable will point to the compute_finish execution occurrence. This variable represents the semantic elements ( compute_finish) associated to the graphical element preceding the startingEnd ( get_send) after the move of get execution. The finishingEndPredecessorAfter variable will point to the get_receiver message occurrence. This variable represents the semantic elements ( get_receiver) associated to the graphical element preceding the finishingEnd ( get_finish) after the move of get execution.

Instance Role Reorder Tool

This tool is called when the user horizontally moves an instance role on the diagram.

Uml Sequence Diagram Create Object

A single unique event reorder tool can and must be specified for instance role mappings. The purpose of the tool is to re-synchronize the graphical ordering with the semantic ordering. When the user reorders a graphical instance role, the global order of graphical instance roles changes and the tool must then reorder the semantic instance roles according to these changes.

This tool has access to the following two variables usable in expressions:

  • predecessorBefore: represents in the global instance role ordering the element previously preceding the moved instance role. It is the element which, before the move, was directly preceding the moved element;
  • predecessorAfter: represents in the global instance role ordering the element preceding the moved instance role. It is the event which, after the move, will be directly preceding the moved element;

Sequence Diagram Create Objectives

In this example, we want to move the consumers instance role after the producers instance role. Thus, the predecessorAfter variable will point to the producers execution occurrence. This variable represents the semantic elements ( producers) associated to the graphical element preceding the consumers instance role after its move. The predecessorBefore variable will be null, because consumers was the first element of the ordering.

Other Tools

Nothing specific for deletion tool, edit label tool, diagram creation and diagram navigation tool, have a look at the Sirius Specifier Guide.