Changes for page Infrastructure for Meta Layout (KIML)

Last modified by Richard Kreissig on 2023/09/14 10:13

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From 13.1 to 14.1 From 16.1 to 17.1

From version 14.1

edited by msp
on 2012/04/23 12:44

Change comment: There is no comment for this version

To version 16.1

edited by msp
on 2012/04/23 12:48

Change comment: There is no comment for this version

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@@ -1,7 +1,7 @@
  {{panel title="Project Overview" borderStyle="dashed"}}
  Responsible:
--* {{mention reference="XWiki.msp" style="FULL_NAME" anchor="XWiki-msp-jOaGi"/}}
++* {{mention reference="XWiki.msp" style="FULL_NAME" anchor="XWiki-msp-wooxS"/}}
  Related Publications:
@@ -24,19 +24,14 @@
  In order to use KIML with your own GMF-based editor, you need to do the following steps:
 . Install the "//KIELER Layout for GMF//" feature from our update site, see [[Downloads>>url:http://www.informatik.uni-kiel.de/en/rtsys/kieler/downloads/||shape="rect"]]
--1*. It includes the Java-based layout algorithms developed in the [[KLay project>>doc:Layout Algorithms (KLay)]].
--1. Open a diagram and press the layout button [[image:attach:kieler-arrange.gif]] or use the shortcut Ctrl+R L.
++1*. It includes the Java-based layout algorithms developed in the [[KLay project>>doc:KIELER.Layout Algorithms (KLay)]].
++1. Open a diagram and press the layout button [[image:attach:KIELER.Infrastructure for Meta Layout (KIML)@kieler-arrange.gif]] or use the shortcut Ctrl+R L.
--For development with the KIML plug-ins, check out using team project sets:
--
--* [[Project set for KIML with GMF>>url:http://rtsys.informatik.uni-kiel.de/~~kieler/projectsets/de.cau.cs.kieler.kiml.gmf.psf||style="text-decoration: none;" shape="rect" class="ext-link"]]
--* [[Project set for KIML with Graphiti>>url:http://rtsys.informatik.uni-kiel.de/~~kieler/projectsets/de.cau.cs.kieler.kiml.graphiti.psf||style="text-decoration: none;" shape="rect" class="ext-link"]]
--
  === Terminology ===
  //**Layout Graph**//
--* Internal representation of the graph structure of the current diagram, built on the [[KGraph>>doc:KGraph Meta Model]] model.
++* Internal representation of the graph structure of the current diagram, built on the [[KGraph>>doc:KIELER.KGraph Meta Model]] model.
  **//Layout Algorithm//**
@@ -56,7 +56,7 @@
  **//Layout Data//**
--* Concrete layout data (position and size) and abstract layout data (layout options) attached to elements of the layout graph using the [[KLayoutData>>doc:KLayoutData Meta Model]] model.
++* Concrete layout data (position and size) and abstract layout data (layout options) attached to elements of the layout graph using the [[KLayoutData>>doc:KIELER.KLayoutData Meta Model]] model.
  **//Layout Type//**
@@ -72,11 +72,11 @@
  = User Interface[[url:http://trac.rtsys.informatik.uni-kiel.de/trac/kieler/wiki/Projects/KIML#UserInterface||style="text-decoration: none;" title="Link to this section" shape="rect" class="anchor"]] =
--The main user interface element of KIML is the command to layout the current diagram. This command is availabe in the main KIELER menu, in the toolbar ([[image:attach:kieler-arrange.gif]]), or using the Ctrl+R L shortcut. Additionally, an entry in the context menu allows to layout only a selected part of the diagram.
++The main user interface element of KIML is the command to layout the current diagram. This command is availabe in the main KIELER menu, in the toolbar ([[image:attach:KIELER.Infrastructure for Meta Layout (KIML)@kieler-arrange.gif]]), or using the Ctrl+R L shortcut. Additionally, an entry in the context menu allows to layout only a selected part of the diagram.
  == Layout View[[url:http://trac.rtsys.informatik.uni-kiel.de/trac/kieler/wiki/Projects/KIML#LayoutView||style="text-decoration: none;" title="Link to this section" shape="rect" class="anchor"]] ==
--[[image:attach:layout_view.png]]
++[[image:attach:KIELER.Infrastructure for Meta Layout (KIML)@layout_view.png]]
  The //Layout// view allows flexible customization of layout options for the selected objects in the diagram. If no object is selected, the view shows the options for the top-level container of the diagram. Options are stored persistently in the notation model of the diagram, so that they are still available after the next Eclipse restart. Of course this requires the diagram to be saved after an option was changed.
@@ -86,7 +86,7 @@
  Selecting //Restore Default Value// in the context menu or the view toolbar removes any value for the currently selected option that is stored in the current model file, thus resetting the option to its default value. The view menu has an entry //Remove all Layout Options// which resets all options of the current model by removing persistent data in the model file.
--[[image:attach:context_menu.png]]
++[[image:attach:KIELER.Infrastructure for Meta Layout (KIML)@context_menu.png]]
  The context menu for a specific layout option has different alternatives to set the currently active value as default value: //Set as Default for this Diagram// changes the open model file so that the same value is applied to all similar objects of that model. //Set as Default for ... in this Context// applies the value to all similar objects that are displayed with the same diagram editor (the option is linked to the //edit part// class of the selected object). Choosing //Set as Default for all ...// links the option value with the domain model element or diagram type of the selected object (see the context menu depicted above). These four alternatives have different priorities: if present, the default value for the current diagram is taken first, then the default value for the edit part is checked, then the default value for the domain model element, and then the default value for the diagram type.
@@ -94,7 +94,7 @@
  == Preference Page[[url:http://trac.rtsys.informatik.uni-kiel.de/trac/kieler/wiki/Projects/KIML#PreferencePage||style="text-decoration: none;" title="Link to this section" shape="rect" class="anchor"]] ==
--[[image:attach:preferences.png]]
++[[image:attach:KIELER.Infrastructure for Meta Layout (KIML)@preferences.png]]
  If //Set routing style of all edges to oblique// is active, all routing styles and smoothness settings of edges are removed when automatic layout is performed. Since most layouters compute the routing of edges as part of their algorithm, these styles usually do not yield the expected results.
@@ -120,7 +120,7 @@
  === Available Algorithms and Libraries ===
--* **The [[KLay Project>>doc:Layout Algorithms (KLay)]]** - Java implementations of standard layout approaches, augmented with special processing of graph features such as ports and edge labels.
++* **The [[KLay Project>>doc:KIELER.Layout Algorithms (KLay)]]** - Java implementations of standard layout approaches, augmented with special processing of graph features such as ports and edge labels.
  * (% style="color: rgb(51,51,51);" %)**Randomizer** - Distributes the nodes randomly; not very useful, but it can show how important a good layout is for understanding a graph.
  * (((
  (% style="color: rgb(51,51,51);" %)**Box Layout** - Ignores edges, places all nodes in rows. Can be used to layout collections of unconnected boxes, such as Statechart regions.
@@ -136,11 +136,11 @@
  The following diagram types are predefined:
  * **General** - This type is automatically assigned to all diagrams for which no specific type is declared. A layout algorithm that has the highest priority on the //General// diagram type is taken as the default algorithm when no further information on a diagram is available to KIML.
--* **State Machine** - All kinds of state machines, automata, and activity diagrams. Examples: [[SyncCharts>>doc:Thin SyncCharts Editor (ThinKCharts)]], UML Activity diagrams.
--* **Data Flow Diagram** - Actor-oriented diagrams, where connections are mostly done between //ports// of nodes. These diagrams can only be handled properly by very special layout algorithms, such as those developed in the [[KLay project>>doc:Layout Algorithms (KLay)]].
++* **State Machine** - All kinds of state machines, automata, and activity diagrams. Examples: [[SyncCharts>>doc:KIELER.SyncCharts]], UML Activity diagrams.
++* **Data Flow Diagram** - Actor-oriented diagrams, where connections are mostly done between //ports// of nodes. These diagrams can only be handled properly by very special layout algorithms, such as those developed in the [[KLay project>>doc:KIELER.Layout Algorithms (KLay)]].
  * **Class Diagram** - Class diagrams such as Ecore diagrams for the [[EMF>>url:http://www.eclipse.org/modeling/emf/||shape="rect"]] or UML Class diagrams.
  * **Use Case Diagram** - Use case diagrams as defined by the UML.
--* **Unconnected Boxes** - Sets of nodes that have no connections and are treated as resizable boxes. This is related to mathematical [[packing problems>>url:http://en.wikipedia.org/wiki/Packing_problem||shape="rect"]]. Example: Regions in [[SyncCharts>>doc:Thin SyncCharts Editor (ThinKCharts)]].\\
++* **Unconnected Boxes** - Sets of nodes that have no connections and are treated as resizable boxes. This is related to mathematical [[packing problems>>url:http://en.wikipedia.org/wiki/Packing_problem||shape="rect"]]. Example: Regions in [[SyncCharts>>doc:KIELER.SyncCharts]].\\
  == Other Options ==
@@ -151,7 +151,7 @@
  = Internal Structure[[url:http://trac.rtsys.informatik.uni-kiel.de/trac/kieler/wiki/Projects/KIML#InternalStructure||style="text-decoration: none;" title="Link to this section" shape="rect" class="anchor"]] =
--The primary public interface of KIML is the [[DiagramLayoutEngine>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.ui/src/de/cau/cs/kieler/kiml/ui/diagram/DiagramLayoutEngine.java||shape="rect"]], which is responsible for analyzing diagrams, creating a [[KGraph>>doc:KGraph Meta Model]] structure, configuring and executing the layout algorithms, and writing new position information back to the diagram. The interaction with the diagram editor or viewer is handled by [[IDiagramLayoutManager>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.ui/src/de/cau/cs/kieler/kiml/ui/diagram/IDiagramLayoutManager.java||shape="rect"]] implementations.
++The primary public interface of KIML is the [[DiagramLayoutEngine>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.ui/src/de/cau/cs/kieler/kiml/ui/diagram/DiagramLayoutEngine.java||shape="rect"]], which is responsible for analyzing diagrams, creating a [[KGraph>>doc:KIELER.KGraph Meta Model]] structure, configuring and executing the layout algorithms, and writing new position information back to the diagram. The interaction with the diagram editor or viewer is handled by [[IDiagramLayoutManager>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.ui/src/de/cau/cs/kieler/kiml/ui/diagram/IDiagramLayoutManager.java||shape="rect"]] implementations.
  The meta layout configuration is done by the [[LayoutOptionManager>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.ui/src/de/cau/cs/kieler/kiml/ui/service/LayoutOptionManager.java||shape="rect"]], which iterates over all graph elements and applies a set of layout configurators, represented by the interface [[ILayoutConfig>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml/src/de/cau/cs/kieler/kiml/config/ILayoutConfig.java||shape="rect"]]. Layout configurators analyze the context of each graph element and set specific values for some layout options. Layout options are defined with the extension point {{code language="none"}}layoutProviders{{/code}}. The most relevant layout configurators are listed in the following, with increasing priority.
@@ -159,7 +159,7 @@
  * [[EclipseLayoutConfig>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.ui/src/de/cau/cs/kieler/kiml/ui/service/EclipseLayoutConfig.java||shape="rect"]] - user defined default values for edit parts, domain model elements, or diagram types; contributed by the preference page or the layoutInfo{{code language="none"}}{{/code}} extension point.
  * [[SemanticLayoutConfig>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml/src/de/cau/cs/kieler/kiml/config/SemanticLayoutConfig.java||shape="rect"]] - abstract superclass for configurators that react on specific properties of the domain model.
  * [[GmfLayoutConfig>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.gmf/src/de/cau/cs/kieler/kiml/gmf/GmfLayoutConfig.java||shape="rect"]] / [[GraphitiLayoutConfig>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.graphiti/src/de/cau/cs/kieler/kiml/graphiti/GraphitiLayoutConfig.java||shape="rect"]] - option values selected in the Layout view and stored in the notation model file of a diagram.
--* [[VolatileLayoutConfig>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml/src/de/cau/cs/kieler/kiml/config/VolatileLayoutConfig.java||shape="rect"]] - key-value mapping created for a single layout run. This is helpful for configuring layout from the [[view management>>doc:View Management (KIVi)]].
++* [[VolatileLayoutConfig>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml/src/de/cau/cs/kieler/kiml/config/VolatileLayoutConfig.java||shape="rect"]] - key-value mapping created for a single layout run. This is helpful for configuring layout from the [[view management>>doc:KIELER.View Management (KIVi)]].
  Hierarchically structured graphs are handled by the [[RecursiveGraphLayoutEngine>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml/src/de/cau/cs/kieler/kiml/RecursiveGraphLayoutEngine.java||shape="rect"]], which executes layout algorithms separately on each hierarchy level, starting with the innermost levels. The actual layout computations are performed by subclasses of [[AbstractLayoutProvider>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml/src/de/cau/cs/kieler/kiml/AbstractLayoutProvider.java||shape="rect"]], which are registered with the {{code language="none"}}layoutProviders{{/code}} extension point.
@@ -171,7 +171,7 @@
  == Connecting Layout Algorithms[[url:http://trac.rtsys.informatik.uni-kiel.de/trac/kieler/wiki/Projects/KIML#ConnectingLayoutAlgorithms||style="text-decoration: none;" title="Link to this section" shape="rect" class="anchor"]] ==
--Layout algorithms must be connected by extending [[AbstractLayoutProvider>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml/src/de/cau/cs/kieler/kiml/AbstractLayoutProvider.java||shape="rect"]]. The input of [[t>>url:http://trac.rtsys.informatik.uni-kiel.de/trac/kieler/wiki/Projects/AbstractLayoutProvider||rel="nofollow" style="text-decoration: none;" shape="rect" class="missing wiki"]]he {{code language="none"}}doLayout{{/code}} method is an instance of the [[KGraph>>doc:KGraph Meta Model]], an [[EMF>>url:http://www.eclipse.org/modeling/emf/||shape="rect"]] based graph structure, together with a progress monitor ([[IKielerProgressMonitor>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.core/src/de/cau/cs/kieler/core/alg/IKielerProgressMonitor.java||shape="rect"]]). The graph is represented by a [[KNode>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.core.kgraph/src/de/cau/cs/kieler/core/kgraph/KNode.java||shape="rect"]], which serves as top-level container. The contained graph elements initially have attached [[KShapeLayout>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml/src/de/cau/cs/kieler/kiml/klayoutdata/KShapeLayout.java||shape="rect"]] or [[KEdgeLayout>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml/src/de/cau/cs/kieler/kiml/klayoutdata/KEdgeLayout.java||shape="rect"]] with information on the original layout of the diagram as well as an abstract layout specified by layout options. The layout provider should consider layout options from the attached layout data, execute a layout algorithm, and write the concrete results back to the layout data. A good example for a layout provider implementation is [[LayeredLayoutProvider>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.klay.layered/src/de/cau/cs/kieler/klay/layered/LayeredLayoutProvider.java||shape="rect"]].
++Layout algorithms must be connected by extending [[AbstractLayoutProvider>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml/src/de/cau/cs/kieler/kiml/AbstractLayoutProvider.java||shape="rect"]]. The input of [[t>>url:http://trac.rtsys.informatik.uni-kiel.de/trac/kieler/wiki/Projects/AbstractLayoutProvider||rel="nofollow" style="text-decoration: none;" shape="rect" class="missing wiki"]]he {{code language="none"}}doLayout{{/code}} method is an instance of the [[KGraph>>doc:KIELER.KGraph Meta Model]], an [[EMF>>url:http://www.eclipse.org/modeling/emf/||shape="rect"]] based graph structure, together with a progress monitor ([[IKielerProgressMonitor>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.core/src/de/cau/cs/kieler/core/alg/IKielerProgressMonitor.java||shape="rect"]]). The graph is represented by a [[KNode>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.core.kgraph/src/de/cau/cs/kieler/core/kgraph/KNode.java||shape="rect"]], which serves as top-level container. The contained graph elements initially have attached [[KShapeLayout>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml/src/de/cau/cs/kieler/kiml/klayoutdata/KShapeLayout.java||shape="rect"]] or [[KEdgeLayout>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml/src/de/cau/cs/kieler/kiml/klayoutdata/KEdgeLayout.java||shape="rect"]] with information on the original layout of the diagram as well as an abstract layout specified by layout options. The layout provider should consider layout options from the attached layout data, execute a layout algorithm, and write the concrete results back to the layout data. A good example for a layout provider implementation is [[LayeredLayoutProvider>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.klay.layered/src/de/cau/cs/kieler/klay/layered/LayeredLayoutProvider.java||shape="rect"]].
  The {{code language="none"}}layoutProviders{{/code}} extension point is needed to register layout algorithms; one layout provider class may provide multiple layout algorithms by giving a parameter string in the extension point. The extension point allows to attach information on known layout options, supported diagrams types, and supported graph features to a layout algorithm. The known layout options are those that are offered in the Layout view when the respective algorithm is selected. The supported diagram types are used to automatically select the most suitable algorithm for a specific diagram type: from all algorithms that state to support a given type, the one with the highest priority is taken. The supported graph features are used to state which special features that a graph can contain can be handled by the algorithm; examples for such features are edge labels, ports, or clusters. Furthermore, the extension point can be used to specify new layout options, layout types, and categories of layout algorithms.
@@ -190,8 +190,8 @@
  The extension point {{code language="none"}}layoutInfo{{/code}} is used to define diagram types and to assign default layout options to specific parts of a diagram. Layout options can be associated with elements of the domain model, where the qualified name of the model element interface must be given, or with edit parts of a specific diagram editor, where the qualified class name of the edit part must be given. The diagram type can be assigned by setting the predefined layout option {{code language="none"}}de.cau.cs.kieler.diagramType{{/code}} with the diagram type identifier as value. This helps KIML to find a suitable layout algorithm for a part of the diagram editor without the need of referencing a specific algorithm. For cases when it is not sufficient to bind a layout option value with a domain model class, but the actual value depends on some properties of the runtime domain model instance, the {{code language="none"}}layoutInfo{{/code}} extension point allows to register implementations of [[SemanticLayoutConfig>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml/src/de/cau/cs/kieler/kiml/config/SemanticLayoutConfig.java||shape="rect"]]. This allows to include arbitrary analysis of the domain model in order to derive a layout configuration.
--The transformation of input diagrams to [[KGraph>>doc:KGraph Meta Model]] instances as well as the transfer of computed layouts back to the input diagrams is done by [[IDiagramLayoutManager>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.ui/src/de/cau/cs/kieler/kiml/ui/diagram/IDiagramLayoutManager.java||shape="rect"]] implementations. For most diagram editors that are based on [[GMF>>url:http://www.eclipse.org/modeling/gmp/||shape="rect"]] the generic [[GmfDiagramLayoutManager>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.gmf/src/de/cau/cs/kieler/kiml/gmf/GmfDiagramLayoutManager.java||shape="rect"]] can be used, while for [[Graphiti>>url:http://www.eclipse.org/graphiti/||shape="rect"]] there is the generic [[GraphitiDiagramLayoutManager>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.graphiti/src/de/cau/cs/kieler/kiml/graphiti/GraphitiDiagramLayoutManager.java||shape="rect"]]. However, some customized diagram editors do not work with the generic diagram layout managers and hence require their own specialized implementations, which can be contributed with the extension point layoutManagers{{code language="none"}}{{/code}}.
++The transformation of input diagrams to [[KGraph>>doc:KIELER.KGraph Meta Model]] instances as well as the transfer of computed layouts back to the input diagrams is done by [[IDiagramLayoutManager>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.ui/src/de/cau/cs/kieler/kiml/ui/diagram/IDiagramLayoutManager.java||shape="rect"]] implementations. For most diagram editors that are based on [[GMF>>url:http://www.eclipse.org/modeling/gmp/||shape="rect"]] the generic [[GmfDiagramLayoutManager>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.gmf/src/de/cau/cs/kieler/kiml/gmf/GmfDiagramLayoutManager.java||shape="rect"]] can be used, while for [[Graphiti>>url:http://www.eclipse.org/graphiti/||shape="rect"]] there is the generic [[GraphitiDiagramLayoutManager>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.graphiti/src/de/cau/cs/kieler/kiml/graphiti/GraphitiDiagramLayoutManager.java||shape="rect"]]. However, some customized diagram editors do not work with the generic diagram layout managers and hence require their own specialized implementations, which can be contributed with the extension point layoutManagers{{code language="none"}}{{/code}}.
  = Graph Analysis[[url:http://trac.rtsys.informatik.uni-kiel.de/trac/kieler/wiki/Projects/KIML#GraphAnalysis||style="text-decoration: none;" title="Link to this section" shape="rect" class="anchor"]] =
--KIML offers an interface for graph analysis, available with the [[image:attach:analyzediagram.gif]] button. Here a selection of analyses can be made, which refer to the structure or to the drawing of the graph. After performing the analyses, the results are shown in a dialog and in the Analysis view. New analyses, which must implement [[IAnalysis>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.service/src/de/cau/cs/kieler/kiml/service/grana/IAnalysis.java||shape="rect"]], can be registered using the {{code language="none"}}analysisProviders{{/code}} extension point.
++KIML offers an interface for graph analysis, available with the [[image:attach:KIELER.Infrastructure for Meta Layout (KIML)@analyzediagram.gif]] button. Here a selection of analyses can be made, which refer to the structure or to the drawing of the graph. After performing the analyses, the results are shown in a dialog and in the Analysis view. New analyses, which must implement [[IAnalysis>>url:http://rtsys.informatik.uni-kiel.de/fisheye/browse/kieler/plugins/de.cau.cs.kieler.kiml.service/src/de/cau/cs/kieler/kiml/service/grana/IAnalysis.java||shape="rect"]], can be registered using the {{code language="none"}}analysisProviders{{/code}} extension point.

Confluence.Code.ConfluencePageClass[0]

Id

@@ -1,1 +1,1 @@
--885138
++885144

URL

@@ -1,1 +1,1 @@
--https://rtsys.informatik.uni-kiel.de/confluence//wiki/spaces/KIELER/pages/885138/Infrastructure for Meta Layout (KIML)
++https://rtsys.informatik.uni-kiel.de/confluence//wiki/spaces/KIELER/pages/885144/Infrastructure for Meta Layout (KIML)

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