Mercurial > dive4elements > gnv-client
view doc/config-manual/model_of_transitions.tex @ 928:3b67f53ff57b
Adapted name of gnv-wrapper to clearify function
doc/trunk@1065 c6561f87-3c4e-4783-a992-168aeb5c3f6f
author | Hans Plum <hans.plum@intevation.de> |
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date | Thu, 06 May 2010 08:17:35 +0000 |
parents | 63bc0044ff72 |
children | 4615bc4dc822 |
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\section{Model of transitions} \subsection{Overview of Subject-Specific Configuration: From FIS, Products, States, Transitions and SQL-statements} The GNV-system provides several expert information systems (FIS). Within a FIS users can select products for analysing and visualising different subject-specific issues like timeseries diagrams and different types of profiles. In order to generate these products, different kind of data out of the dataware house is needed. The configuration is mainly split up into two steps\footnote{Except for integrating the MapViewer. There is a third step necessary by configuring additional tables in the datawarehouse}: \begin{enumerate} \item FIS and their according products (Metainformation) \item products with their states, transitions, outputs and SQL-statements (Implementation) \end{enumerate} %% TODO: Add a Screenshot of the GNV WebClient marking GUI elements for FIS, %% product, states and transitions Main entry point for the configuration is the file \verb+ conf/conf.xml + defining the list of FIS and the according products based on the different datamodels in the datawarehouse. The provided datamodels are: \begin{enumerate} \item ESRI ArcMarineBSH with following subtypes \begin{enumerate} \item TimeSeriesPoints \item MeshFeatures \item Measurements/InstantaneousPoints \item Marine Features \end{enumerate} \item ESRI ArcS57, \item CONTIS \end{enumerate} Each product configuration consists of a datamodel specific configuration organized in a product specific folder in \verb+ conf/products+ \footnote{The special case of a "Horizontales Schnittprofil" is configured in conf/horizontalprofile/conf\_mesh\_cross.xml }. The directory layout looks like this: \begin{verbatim} products/ |-- horizontalcrosssection | `-- conf_mesh.xml |-- horizontalprofile | |-- conf_instantaneouspoint.xml | |-- conf_mesh.xml | `-- conf_mesh_cross.xml |-- layer | `-- conf.xml |-- timeseries | |-- conf_mesh.xml | |-- conf_timeseriespoint.xml | `-- timegap_definition.xml |-- verticalcrosssection | `-- conf_mesh.xml `-- verticalprofile |-- conf_instantaneouspoint.xml |-- conf_mesh.xml `-- conf_timeseriespoint.xml \end{verbatim} The subtypes of the ArcMarineBSH based datamodel are configured in the files below: \begin{itemize} \item TimeSeriesPoints: conf\_timeseriespoint.xml \item Mesh: conf\_mesh.xml \item InstantaneousPoints: conf\_instantaneouspoint.xml \end{itemize} Within each of these files, the steps for gathering the values for the parameterisation are configured by defining states, transitions and outputs (c.f. \ref{ref:config-a-product}). The definition of states, transitions and outputs reference the actual SQL-statements via identifier. The SQL-statements are gathered in the file \verb+conf/queries.txt+. \subsection{General principle of model of transitions} It is possible to configure the GNV in many ways. It is possible to add or remove FIS, add or remove Products from a FIS or to manipulate the steps which must be gone until a product can be create a diagram or generate an CSV-Export. The configuration of the provided FIS are divided in three main parts. \begin{itemize} \item Configuration of the list of FIS via Artifactfactories \item Configuration of main Artifacts which will be instantiated if an Artifactfactory was called. \item Configuration of the different Artifacts which provides Products which can be served by the FIS. \end{itemize} \subsubsection{Configuration of a FIS} The Point of Entry into the system is to configure an Artifactfactory. Each Artifactfactory represents one FIS. It is possible to configure several Artifactfactories. The Artifactfactories will be configured in the Section /artifact-database/artifact-factories of the Configurationfile. \begin{lstlisting} <artifact-factory name='fis\_marnet' description='Factory to create an artifact to be used with the FIS NEWFISNAME' ttl='3600000' artifact='de.intevation.artifactdatabase.ProxyArtifact'> de.intevation.gnv.artifacts.GNVProductArtifactFactory </artifact-factory> \end{lstlisting} At this moment the following Attributes of an Artifact-Factory are configurable. \begin{itemize} \item name: The Name of the Artifact. Must be unique in one Artifact-Server \item description: Short description which Job the Artifactfactory has to do. \item ttl: The Time to Live: The Time using Milliseconds an Artifact, created using this factory, can live without any User interaction. \item artifact: The Name of the Class of the Artifact which should be created. \end{itemize} The next listing shows the dependencies between the FIS and the Name of the Artifactfactory which belongs to it. \begin{itemize} \item Marnet: fis\_marnet \item IMIS: fis\_imis \item STAUN: fis\_staun \item Modeldata fis\_modeldata \item Iceclimatology: fis\_eisklimatologie \item Ice Station Report: fis\_icestations \item SST: fis\_sst \item Delphin: fis\_delphin \item Thermosalinograph: fis\_thermosalinograph \item Chemusurvey: fis\_chemusurvey \item GTS: fis\_gts \item CTD: fis\_bsh\_ctd \item XBT: fis\_bsh\_xbt \item SeaCat: is\_seacat \item Sea State: fis\_seastate \item Current Meter: fis\_currentmeter \item Nauthis: fis\_nauthis \item Contis: fis\_contis \item Marine Features: fis\_marinefeatures \end{itemize} \subsubsection{Configuration of main Artifact} For each Artifact-Factory it is necessary to configure one Artifact which will be created using the Factory. This Artifact is the representation of the specific FIS. It contains the Configuration which products will be served for this FIS. The Artifacts are configured in the Section /artifact-database/artifacts of the Configurationfile. \begin{lstlisting} <artifact name='fis\_marnet'> <products> ... </products> </artifact> \end{lstlisting} The Key is to use the same Name for the Artifact as used for the Artifactfactory. The Name has to be unique. In the Section /artifact/products it is possible to define several Products as explained in the next Section. \paragraph{Products to an FIS} One FIS can provide several Products. To do this it is required to configure them as shown below in the Section /artifact/products \begin{lstlisting} <product name= "timeSeries"> <artifact-factory name="timeSeries" description="Artiefactfactory for Instantiating the Artifact for TimeSeries on TimeSeriesPoints" ttl="300000" artifact="de.intevation.gnv.timeseries.TimeSeriesArtifact"> de.intevation.gnv.artifacts.GNVArtifactFactory </artifact-factory> <parameters> <parameter name="sourceid" value="4"/> <parameter name="fisname" value="fis\_marnet"/> </parameters> </product> \end{lstlisting} Each Product is also represented by an Artifact. To create this Artifact we have to use an Artifact-Factory which is configured in each product (/product/artifact-factory). Each Product can have several parameters /product/parameters/parameters. The Parameter named sourceid and fisname are required Parameters. The Parameter fisname contains the key to the Name of the FIS. The Key must be unique. The Parameter sourceid contains the key to identify the FIS in the DataWareHouse. (MEDIAN.SOURCEINFO) \subsubsection{Configuration of an Product} \label{ref:config-a-product} The Products of the different FIS are also modeled as Artifact-Objects. The different Products which are currently available are stored in separate Files in the Folder project. In those Files the Workflow of each product is configured. Each step which is required to model a new diagram is represented using a state in the Configuration-File. To move between those States it is required to model Transitions which define between which States it is possible to move and which conditions must be fulfilled. The Last step is called OutputState. This State is responsible to generate the output for the different Formats which can be served from the Product (Diagram, CSV, ODV, WMS,...). \paragraph{States} A state is one Step which is required to fetch the Data for generating e.g. an Diagram. For example in each Product it is Possible to choose one or more Parameters. To configure a State you have to use a XML-Fragment as shown below: \begin{lstlisting} <state id="timeseries_parameter" description="timeseries_parameter" state="de.intevation.gnv.state.DefaultState"> <queryID>timeseries_parameter</queryID> <dataname>parameterid</dataname> <data-multiselect>true</data-multiselect> <inputvalues> ... </inputvalues> </state> \end{lstlisting} At this moment the following Attributes of an Artifact-Factory are configurable. \begin{itemize} \item id: The Name of the Artifact. Must be unique in one Artifact-Server \item description: Short description which Job the Artifactfactory has to do. \item queryID: The ID of the Query which should be used to fetch the Data displayed in this state. All Queries are defined in the File conf/queries.properties \item dataname: The ID of the Data which will be displayed in this State. The ID will be use to localize the description of the Data. \item data-multiselect: true it is possible to select 1 or more Items. false it is possible to select only one Item. \item inputvalues: The Values which can be "feed" to this State and which will be used as Values in SQL-statements. \end{itemize} \paragraph{Input Values of a State} At Section /state/inputvalues it is possible to add Definitions for InputValues. Those values have two meanings for the State. \begin{itemize} \item They were used to fill the SQL-Statements to fetch the Data (Each entry replace one ore more "?" ) \item They were used to validate the Inputdata which is "feed" to the FIS in the current State \end{itemize} WARNING: The Order of the InputValues is significant at which position the Value will be put into the SQL-Statement. It is possible to add one InputValue twice or more often to put its value at different positions of the SQL-statement. \begin{lstlisting} <inputvalues> <inputvalue name="featureid" type="Integer" multiselect="false" usedinquery="1"/> <inputvalue name="fisname" type="String" multiselect="false" usedinquery="0"/> <inputvalue name="parameterid" type="Integer" multiselect="true" usedinquery="0"/> </inputvalues> \end{lstlisting} \begin{itemize} \item name: Name of the Value that could be feed or should be used in SQL-statment. The name must fit to one dataname configured in this State or one other State which was visited before. \item type: The type of the Value. This is required for the Validation of the Value. This might be String, Integer, Double, Date, Point, LineString, Polygon, Coordinate, Geometry and AttributeName. \item multiselect: true if more than on Value can be feed or put into the SQL-statement. false if one on Value will be accepted. \item usedinquery: Number how often the value should be put into the SQL-Statement: 0: Value will not out into the Statement. 1: Value will put once into the Statement, 2 or more: Value will be put as often as configured into the SQL-Statement (this is useful if Inner-Selects are used) \end{itemize} The next part will explain the usage of inputvalues. This SQL-statement is configured to use in the State above. \begin{lstlisting} SELECT DISTINCT p.PARAMETERID KEY, p.GERMANNAME || ' ['|| p.UNIT ||']' VALUE, p.GERMANNAME FROM MEDIAN.PARAMETER P, MEDIAN.TIMESERIES TS, MEDIAN.TIMESERIESVALUE TSV, MEDIAN.MEASUREMENT M, MEDIAN.TIMESERIESPOINT TSP WHERE M.FEATUREID = TSP.FEATUREID AND M.MEASUREMENTID = TSV.MEASUREMENTID AND TS.TIMESERIESID = TSV.TIMESERIESID AND P.PARAMETERID = TS.PARAMETERID AND TSP.FEATUREID = ? ORDER BY P.GERMANNAME \end{lstlisting} If there are put the Inputvalues in it it will look like this if we assume that the inputvalues has got the following values: \begin{itemize} \item featureid: 4 (Marnet) \item fisname: fis\_marnet \item parameterid: not set because it's the value that should be chosen in this state. \end{itemize} \begin{lstlisting} SELECT DISTINCT p.PARAMETERID KEY, p.GERMANNAME || ' ['|| p.UNIT ||']' VALUE, p.GERMANNAME FROM MEDIAN.PARAMETER P, MEDIAN.TIMESERIES TS, MEDIAN.TIMESERIESVALUE TSV, MEDIAN.MEASUREMENT M, MEDIAN.TIMESERIESPOINT TSP WHERE M.FEATUREID = TSP.FEATUREID AND M.MEASUREMENTID = TSV.MEASUREMENTID AND TS.TIMESERIESID = TSV.TIMESERIESID AND P.PARAMETERID = TS.PARAMETERID AND TSP.FEATUREID = 4 ORDER BY P.GERMANNAME \end{lstlisting} The value of featureid will be inserted into the Query because the Attribute usedinquery is set to "1". The values of the inputvalues fisname and parameterid will be excluded because the Attribute usedinquery is set to "0" If the Attribute usedinquery of the inputvalue featureid is set to "2" this might happen. \begin{lstlisting} <inputvalues> <inputvalue name="featureid" type="Integer" multiselect="false" usedinquery="2"/> <inputvalue name="fisname" type="String" multiselect="false" usedinquery="0"/> <inputvalue name="parameterid" type="Integer" multiselect="true" usedinquery="0"/> </inputvalues> \end{lstlisting} \begin{lstlisting} SELECT DISTINCT ... TSP.FEATUREID = ? AND TSP.FEATUREID = ? ORDER BY P.GERMANNAME \end{lstlisting} This SQL-statement will be modified to \begin{lstlisting} SELECT DISTINCT ... TSP.FEATUREID = 4 AND TSP.FEATUREID = 4 ORDER BY P.GERMANNAME \end{lstlisting} If the Attribute usedinquery of the inputvalue fisname additionally is set to "1" this might happen. \begin{lstlisting} <inputvalues> <inputvalue name="featureid" type="Integer" multiselect="false" usedinquery="2"/> <inputvalue name="fisname" type="String" multiselect="false" usedinquery="1"/> <inputvalue name="parameterid" type="Integer" multiselect="true" usedinquery="0"/> </inputvalues> \end{lstlisting} \begin{lstlisting} SELECT DISTINCT ... TSP.FEATUREID = ? AND TSP.FEATUREID = ? AND NOCOLUMNINDB = ? ORDER BY P.GERMANNAME \end{lstlisting} This SQL-statement will be modified to \begin{lstlisting} SELECT DISTINCT ... TSP.FEATUREID = 4 AND TSP.FEATUREID = 4 AND NOCOLUMNINDB = 'fis\_marnet' ORDER BY P.GERMANNAME \end{lstlisting} \paragraph{Transitions} To move between two States it is necessary to configure dependencies between the different States. This dependencies are called. Transitions. There are different Kind of Transitions which can be used. \begin{itemize} \item Transitions which only link two States \item Transition which link two States with a additional Condition. (e.g. If a region was selected in the Regionfilter or not ) \end{itemize} The listing below shows a Transition with an additional Condition. \begin{lstlisting} <transition transition="de.intevation.gnv.transition.ValueCompareTransition"> <from state="timeseries_area"/> <to state="timeseries_without_geom"/> <condition inputvalue="areaid" value="n/n" operator="equal"/> </transition> \end{lstlisting} \begin{itemize} \item from: The ID of the State which you have to come from \item to: The ID of the State which can be reached. \item condition: The Condition which have to be fulfilled. \end{itemize} \paragraph{Outputstate} The OutputState is an special State which was created to define the different possibilities of Outputs for each Product. An OutputState is handled as an State which is described above. Additionally you are able to configure which kind of outputs should be provided. There are several OutputStates. Each one is designed to create the output for one special Product. \begin{itemize} \item TimeSeries: TimeSeriesOutputState \item Horizontalprofile: HorizontalProfileOutputState \item Horizontalprofile on Meshes: HorizontalProfileMeshOutputState \item Verticalcrosssection:VerticalCrossSectionOutputState \item Verticalprofiles: VerticalProfileOutputState \item Horizontalcrosssections: HorizontalCrossSectionMeshOutputState \item Layer: LayerOutputState \end{itemize} All these Outputstates are Implemented in package de.intevation.gnv.state and its subpackages. You have to put the fullqualified name of the Outputstate to the Attribute State as shown below. You can configure an OutputState as shown below: \begin{lstlisting} <state id="timeseries_calculate_results" description="timeseries_interval" state="de.intevation.gnv.state.timeseries.TimeSeriesOutputState"> <queryID>timeseries_chart_data</queryID> ... <outputsModes> <outputsMode name="chart" description="Chartrepresentation of the Values" mime-type="image/png"> ... </outputsMode> </outputsModes> </state> \end{lstlisting} At Section /state/outputsModes it is possible to add one ore more OutputModes to one State as shown in the next Paragraph. \paragraph{OutputModes} It is possible to configure several OutputModes in one OutputState. Inserting or deleting the Configuration of an special OutputMode will cause that the pending Item will be shown or hidden in the GUI. WARNING: IT MIGHT BE POSSIBLE THAT ONE OR MORE OUTPUTMODES ARE NOT SUPPORTED BY AN PRODUCT. IN THAT CASE IT IS NECESSARY TO IMPLEMENT THE REQUIRED FUNCTIONALITY BEFORE IT IS POSSIBLE TO OFFER THIS OUTPUTMODE. Currently the following OutputModes are supported: \begin{itemize} \item chart \item histogram \item csv \item odv \item statistics \item wms \item shapefile \end{itemize} The following Example shows the Configuration for the OutputMode Chart. \begin{lstlisting} <outputsMode name="chart" description="Chartrepresentation of the Values" mime-type="image/png"> <parameters> <inputvalue name="width" type="Integer" value="600"/> <inputvalue name="height" type="Integer" value="400"/> <inputvalue name="points" type="Boolean" value="false"/> </parameters> <exportModes> <export name="img" description="IMG-Export der Daten" mime-type="image/png" /> <export name="pdf" description="PDF-Export der Daten" mime-type="application/pdf" /> <export name="svg" description="SVG-Export der Daten" mime-type="image/svg+xml" /> </exportModes> </outputsMode> \end{lstlisting} // TODO add simple OutputMode e.g. for CSV?? \begin{itemize} \item name: The name of the Mode. This must not be changed because it is used by the Program. \item description: a short description of this OutputMode. \item parameters: one ore more parameters which will be shown in the GUI e.g. for changing the Size of an Chart. \item exportModes: one or more formats which can be served. \end{itemize} \subsection{Adding a new FIS} In this Section it will be explained which steps has to be done to integrate a new FIS into the Artifact-Server. This will be done using the Configuration for an FIS which use data from MEDIAN.TIMESERIES Section of the DataWareHouse e.g. MARNET or STAUN Pay attention that for publishing the Changes to the Artifact-Server you will have to restart it. \subsubsection{Adding a new Artifactfactory} First step is to add a new Artifactfactory to the Configuration conf/conf.xml To do this you have to add a new XML-Fragment into the Section /factories/artifact-factories which look like that: \begin{lstlisting} <artifact-factory name='fis\_NEWFISNAME' description='Factory to create an artifact to be used with the FIS NEWFISNAME' ttl='3600000' artifact='de.intevation.artifactdatabase.ProxyArtifact'> de.intevation.gnv.artifacts.GNVProductArtifactFactory </artifact-factory> \end{lstlisting} In this XML-Fragment you only have to replace the placeholder NEWFISNAME with a unique short Name for the new FIS. \paragraph{Example} This Example shows how to add an FIS and which effects it took to the REST-Server. At first we add the following Artifactfactory into the file conf/conf.xml in Section /artifact-database/artifact-factories which add a new FIS called justanewfis to the Server: \begin{lstlisting} <artifact-factory name='fis\_justanewfis' description='Factory to create an artifact to be used with the FIS NEWFISNAME' ttl='3600000' artifact='de.intevation.artifactdatabase.ProxyArtifact'> de.intevation.gnv.artifacts.GNVProductArtifactFactory </artifact-factory> \end{lstlisting} Then we restart the Artifact-database executing the following command: \begin{lstlisting} /etc/init.d/artifactdb restart \end{lstlisting} Then we check if the new FIS is served by the REST-Server calling the following command: \begin{lstlisting} curl http://localhost:8181/factories | xmllint --format - | grep fis\_justanewfis \end{lstlisting} If the FIS was added the new Artifactfactory will be found in the generated XML-Output and it will be shown. Otherwise no XML-Output will be shown. \subsubsection{Adding a new Artifact for Artifactfactory} The next Step is to define the Artifact itself. For this it is necessary to add an XML-Fragment into the Section /artifacts of the main Configuration-File /conf/conf.xml \begin{lstlisting} <artifact name='fis\_NEWFISNAME'> <products> ... </products> </artifact> \end{lstlisting} In this XML- Fragment it is also required to replace the placeholder NEWFISNAME with the name which was used to configure the Artifact-Factory. Now the ArtifactServer can handle an additional FIS without any Products yet. To prevent needless Configuration-Work it is useful way to clone an Artifact which handle the same Kind of work as the new FIS. \paragraph{Example} Now we will configure an Artifact to the FIS justanewfis. For this we have to add the following XML-Fragment to the File conf/conf.xml in Section /artifact-database/artifacts: \begin{lstlisting} <artifact name='fis\_justanewfis'> <products> </products> </artifact> \end{lstlisting} Restart the Artifact-Database: \begin{lstlisting} /etc/init.d/artifactdb restart \end{lstlisting} Now we should be able to choose the Artifact. The Listbox with products will be empty. \begin{lstlisting} curl -d "@sample-documents/create-artifact.xml" http://localhost:8181/create | xmllint --format - \end{lstlisting} \subsubsection{Adding removing Products to the specific Artifact} Now it is Time to configure the different Products which the FIS should be able to provide. To do this it is necessary to Copy the XML-Fragments of the products into the XML-Element <products> of the previously integrated Artifact. \begin{lstlisting} <artifact name='fis\_NEWFISNAME'> <products> <product name= "timeSeries"> <artifact-factory name="timeSeries" description="Artiefactfactory for Instantiating the Artifact for TimeSeries on TimeSeriesPoints" ttl="300000" artifact="de.intevation.gnv.timeseries.TimeSeriesArtifact"> de.intevation.gnv.artifacts.GNVArtifactFactory </artifact-factory> <parameters> <parameter name="sourceid" value="VALUEOFSOURCEID"/> <parameter name="fisname" value="fis\_NEWFISNAME"/> </parameters> </product> <product name= "verticalProfile"> <artifact-factory name="verticalProfile" description="Artiefactfactory for Instantiating the Artifact for Verticalprofiles on TimeSeriesPoints" ttl="300000" artifact="de.intevation.gnv.profile.vertical.VerticalProfileArtifact"> de.intevation.gnv.artifacts.GNVArtifactFactory </artifact-factory> <parameters> <parameter name="sourceid" value="VALUEOFSOURCEID"/> <parameter name="fisname" value="fis\_NEWFISNAME"/> </parameters> </product> </products> </artifact> \end{lstlisting} In this XML-Fragment you have to replace the placeholders NEWFISNAME as before and VALUEOFSOURCEID with the value for the new FIS as defined in the Table MEDIAN.SOURCEINFO. \paragraph{Example} Now we will add a Product to the new FIS. To let the Products work we will choose a Product which will contain the sourceid of an existing FIS (e.g 4 Marnet). At first add the following XML-Fragment to the new Artifact. \begin{lstlisting} <product name= "timeSeries"> <artifact-factory name="timeSeries" description="Artiefactfactory for Instantiating the Artifact for TimeSeries on TimeSeriesPoints" ttl="300000" artifact="de.intevation.gnv.timeseries.TimeSeriesArtifact"> de.intevation.gnv.artifacts.GNVArtifactFactory </artifact-factory> <parameters> <parameter name="sourceid" value="4"/> <parameter name="fisname" value="fis\_justanewfis"/> </parameters> </product> \end{lstlisting} Restart the Artifact-Database: \begin{lstlisting} /etc/init.d/artifactdb restart \end{lstlisting} If we call \begin{lstlisting} curl -d "@sample-documents/create-artifact.xml" http://localhost:8181/create | xmllint --format - \end{lstlisting} The Product timeSeries should be available for the FIS justanewfis. Now we should be able to choose the Product. This Product should work and you should be able to generate even the defined Outputformats. \subsection{Adding a new Product} To add a new Product to the System it is necessary that the required Artifact representation is Implemented in the SourceCode. Without doing that step it is not possible to create a new Product. All Products are configured in separate Files that will be included into the main configuration using Xlink-References. First Step is to create a new File in the Folder products and there in the sub-folder where the Product belongs to (timeseries,verticalprofile, horizontalprofile,horizontalcrosssection,layer,...) Then you have tor reference this File in the File /conf/conf.xml in the Section /artifacts using the following XML-Fragment. \begin{lstlisting} <artifact name="timeSeries" xmlns:xlink="http://www.w3.org/1999/xlink" xlink:href="${artifacts.config.dir}/products/PATHTOFILE" /> \end{lstlisting} The placeholder PATHTOFILE has to be replaced with the relative Path and the Name of the File starting in the Folder products. Then it is possible to add the product to a FIS as explained in the next section. Please note that the defined Name of the ArtifactFactory has to match to the Name of the added Products which is also designed as an Artifact. \subsection{Adding a additional Product to a FIS} To add a additional Product to a FIS you only have to add the XML-Fragment which represents the product to the Artifact-configuration of the FIS in Section /artifacts/artifact/products. \begin{lstlisting} <product name= "timeSeries"> <artifact-factory name="timeSeries" description="Artiefactfactory for Instantiating the Artifact for TimeSeries on TimeSeriesPoints" ttl="300000" artifact="de.intevation.gnv.timeseries.TimeSeriesArtifact"> de.intevation.gnv.artifacts.GNVArtifactFactory </artifact-factory> <parameters> <parameter name="sourceid" value="VALUEOFSOURCEID"/> <parameter name="fisname" value="fis\_NEWFISNAME"/> </parameters> </product> \end{lstlisting} Please note that you have to replace the Placeholders as explained above.