tim@906: \section{Model of transitions} hans@911: \subsection{Overview of Subject-Specific Configuration: From FIS, Products, States, hans@911: Transitions and SQL-statements} tim@910: hans@911: The GNV-system provides several expert information systems (FIS). Within a FIS hans@911: users can select products for analysing and visualising different hans@911: subject-specific issues like timeseries diagrams and different types of hans@911: profiles. In order to generate these products, different kind of data out of the hans@911: dataware house is needed. tim@910: hans@911: The configuration is mainly split up into two steps\footnote{Except for hans@911: integrating the MapViewer. There is a third step necessary by configuring hans@911: additional tables in the datawarehouse}: hans@911: \begin{enumerate} hans@911: \item FIS and their according products (Metainformation) hans@911: \item products with their states, transitions, outputs and SQL-statements hans@911: (Implementation) hans@911: \end{enumerate} tim@910: hans@911: %% TODO: Add a screenshoot of the GNV WebClient marking GUI elements for FIS, hans@911: %% product, states and transitions tim@910: hans@911: Main entry point for the configuration is the file \verb+ conf/conf.xml + hans@911: defining the list of FIS and the according products based on the different hans@911: datamodels in the datawarehouse. The provided datamodels are: tim@910: hans@911: \begin{enumerate} hans@911: \item ESRI ArcMarineBSH with following subtypes hans@911: \begin{enumerate} hans@911: \item TimeSeriesPoints hans@911: \item MeshFeatures hans@911: \item Measurements/InstantaneousPoints tim@914: \item Marine Features hans@911: \end{enumerate} hans@911: \item ESRI ArcS57, hans@911: \item CONTIS hans@911: \end{enumerate} tim@910: hans@911: Each product configuration consists of a datamodel specific configuration hans@912: organized in a product specific folder in \verb+ conf/products+ \footnote{The hans@911: special case of a "Horizontales Schnittprofil" is configured in hans@912: conf/horizontalprofile/conf\_mesh\_cross.xml }. The directory layout looks hans@911: like this: hans@911: hans@911: \begin{verbatim} hans@911: products/ hans@911: |-- horizontalcrosssection hans@911: | `-- conf_mesh.xml hans@911: |-- horizontalprofile hans@911: | |-- conf_instantaneouspoint.xml hans@911: | |-- conf_mesh.xml hans@911: | `-- conf_mesh_cross.xml hans@911: |-- layer hans@911: | `-- conf.xml hans@911: |-- timeseries hans@911: | |-- conf_mesh.xml hans@911: | |-- conf_timeseriespoint.xml hans@911: | `-- timegap_definition.xml hans@911: |-- verticalcrosssection hans@911: | `-- conf_mesh.xml hans@911: `-- verticalprofile hans@911: |-- conf_instantaneouspoint.xml hans@911: |-- conf_mesh.xml hans@911: `-- conf_timeseriespoint.xml hans@911: \end{verbatim} hans@911: hans@911: The subtypes of the ArcMarineBSH based datamodel are configured in the files below: tim@910: \begin{itemize} tim@910: \item TimeSeriesPoints: conf\_timeseriespoint.xml tim@910: \item Mesh: conf\_mesh.xml tim@910: \item InstantaneousPoints: conf\_instantaneouspoint.xml tim@910: \end{itemize} tim@910: hans@911: Within each of these files, the steps for gathering the values for the hans@911: parameterisation are configured by defining states, transitions and outputs hans@911: (c.f. \ref{ref:config-a-product}). The defintion of states, transitions and hans@911: outputs reference the actual SQL-statements via identifier. The SQL-statements hans@911: are gathered in the file \verb+conf/queries.txt+. hans@911: tim@910: tim@906: \subsection{General principle of model of transitions} tim@907: tim@908: It is possible to configure the GNV in many ways. tim@908: It is possible to add or remove FIS, add or remove Products from a FIS or tim@908: to manipulate the steps which must be gone until a product can be create tim@908: a diagramm or generate an CSV-Export. tim@908: tim@908: The configuration of the provided FIS are devided in three main parts. tim@908: tim@908: \begin{itemize} hans@911: \item Configuration of the list of FIS via Artifactfactories tim@908: \item Configuration of main Artifacts which will be instantiated if an tim@907: Artifactfactory was called. tim@908: \item Configuration of the different Artifacts which provides Products which can be tim@907: served by the FIS. tim@908: \end{itemize} tim@907: tim@910: \subsubsection{Configuration of a FIS} tim@907: The Point of Enty into the system is to configure an Artifactfactory. tim@907: Each Artifactfactory represents one FIS. tim@907: It is possible to configure several Artifactfactories. tim@908: The Artifactfactories will be configured in the Section tim@907: /artifact-database/artifact-factories of the Configurationfile. tim@907: tim@907: \begin{lstlisting} tim@907: tim@907: de.intevation.gnv.artifacts.GNVProductArtifactFactory tim@907: tim@907: \end{lstlisting} tim@907: tim@907: At this moment the following Attributes of an Artifact-Factory are configurabel. tim@908: \begin{itemize} tim@908: \item name: The Name of the Artifact. Must be unique in one Artifact-Server tim@908: \item description: Short description which Job the Artifactfactory has to do. tim@908: \item ttl: The Time to Live: The Time using Milliseconds an Artifact, created using this tim@908: factory, can live without any Userinteraction. tim@908: \item artifact: The Name of the Class of the Artifact which should be created. tim@908: \end{itemize} tim@907: hans@911: The next listing shows the dependencies between the FIS and the Name hans@911: of the Artifactfactory which belongs to it. hans@911: hans@911: \begin{itemize} hans@911: \item Marnet: fis\_marnet hans@911: \item IMIS: fis\_imis hans@911: \item STAUN: fis\_staun hans@911: \item Modeldata fis\_modeldata hans@911: \item Iceclimatology: fis\_eisklimatologie hans@911: \item Ice Station Report: fis\_icestations hans@911: \item SST: fis\_sst hans@911: \item Delphin: fis\_delphin hans@911: \item Thermosalinograph: fis\_thermosalinograph hans@911: \item Chemusurvey: fis\_chemusurvey hans@911: \item GTS: fis\_gts hans@911: \item CTD: fis\_bsh\_ctd hans@911: \item XBT: fis\_bsh\_xbt hans@911: \item SeaCat: is\_seacat hans@911: \item Sea State: fis\_seastate hans@911: \item Current Meter: fis\_currentmeter hans@911: \item Nauthis: fis\_nauthis hans@911: \item Contis: fis\_contis hans@911: \item Marine Features: fis\_marinefeatures hans@911: \end{itemize} hans@911: tim@907: \subsubsection{Configuration of main Artifact} tim@908: For each Artifact-Factory it is necessary to configure one Artifact which will be tim@908: created using the Factory. tim@907: This Artifact is the representation of the specific FIS. tim@908: It contains the Configuration which products will be serverd for ths FIS. tim@907: tim@907: The Artifacts are configured in the Section /artifact-database/artifacts of tim@907: the Configurationfile. tim@907: tim@907: \begin{lstlisting} tim@907: tim@907: tim@907: ... tim@907: tim@907: tim@907: \end{lstlisting} tim@907: tim@907: The Key is to use the same Name for the Artifact as used for the Artifactfactory. tim@907: The Name has to be unique. tim@907: In the Section /artifact/products it is possible to define several Products as tim@907: explained in the next Section. tim@907: tim@910: \paragraph{Products to an FIS} tim@910: One FIS can provide several Products. tim@907: To do this it is required to configure them as shown below in the Section tim@907: /artifact/products tim@907: tim@907: \begin{lstlisting} tim@907: tim@907: tim@907: de.intevation.gnv.artifacts.GNVArtifactFactory tim@907: tim@907: tim@907: tim@907: tim@907: tim@907: tim@907: \end{lstlisting} tim@907: tim@908: Each Product is also represented by an Artifact. To create this Artifact we have to tim@907: use an Artifact-Factory which is configured in each product tim@907: (/product/artifact-factory). tim@907: tim@907: Each Product can have several parameters /product/parameters/parameters. tim@907: The Parameter named sourceid and fisname are required Parameters. tim@907: tim@907: The Parameter fisname contains the key to the Name of the FIS. The Key must be tim@907: unique. tim@907: The Parameter sourceid contains the key to identify the FIS in the tim@907: DataWareHouse. (MEDIAN.SOURCEINFO) tim@907: tim@907: tim@910: \subsubsection{Configuration of an Product} hans@911: \label{ref:config-a-product} tim@908: The Products of the different FIS are also modeled as Artifact-Objects. tim@908: The different Products which are currently avaliable are stored in separate tim@908: Files in the Folder project. tim@908: tim@908: In those Files the Workflow of each product is configured. Each step which is tim@908: required to model a new Diagramm is represented using a state in the tim@908: Configuration-File. tim@908: tim@908: To move between those States it is required to model Transitions which define tim@908: between which States it is possible to move and which conditions must be tim@908: fulfilled. tim@908: tim@908: The Last step is called OutputState. This State is responsible to generate the tim@908: output for the different Formats which can be served from the Product (Diagramm, tim@908: CSV, ODV, WMS,...). tim@908: tim@907: \paragraph{States} tim@908: A state is one Step which is required to fetch the Data for generating e.g. an tim@908: Diagramm. tim@908: tim@908: For example in each Product it is Possible to choose one or more Parameters. tim@908: tim@908: To configure a State you have to use a XML-Fragment as shown below: tim@908: tim@908: \begin{lstlisting} tim@908: tim@908: timeseries_parameter tim@908: parameterid tim@908: true tim@908: tim@913: ... tim@908: tim@908: tim@908: \end{lstlisting} tim@908: tim@908: At this moment the following Attributes of an Artifact-Factory are configurabel. tim@908: \begin{itemize} tim@908: \item id: The Name of the Artifact. Must be unique in one Artifact-Server tim@908: \item description: Short description which Job the Artifactfactory has to do. tim@908: \item queryID: The ID of the Query which should be used to fetch the Data tim@908: displayed in this state. //TODO: Reference to queries.properties tim@908: \item dataname: The ID of the Data which will be displaied in this State. tim@908: The ID will be use to localize the description of the Data. tim@908: \item data-multiselect: true it is possible to select 1 or more Items. tim@908: false ist is possible to select only one Item. tim@913: \item inputvalues: The Values which can be "feed" to this State and which tim@913: will be used as Values in SQL-statements. tim@909: \end{itemize} tim@908: tim@913: \paragraph{Input Values of a State} tim@913: At Section /state/inputvalues it is possible to add Definitions for InputValues. tim@913: Those values have two meanings for the State. tim@913: tim@913: \begin{itemize} tim@913: \item They were used to fill the SQL-Statements to fetch the Data tim@913: (Each entry replace one ore more "?" ) tim@913: \item They were used to validate the Inputdata which is "feed" to tim@913: the FIS in the current State tim@913: \end{itemize} tim@913: tim@913: WARNING: The Order of the InputValues is significant at which position the Value will tim@913: be put into the SQL-Statement. tim@913: tim@913: It is possible to add one InputValue twice or more often to put its value at tim@913: different positions of the SQl-Statement. tim@913: tim@913: \begin{lstlisting} tim@913: tim@913: tim@913: tim@913: tim@913: tim@913: \end{lstlisting} tim@913: tim@913: \begin{itemize} tim@913: \item name: Name of the Value that could be feed or should be used in SQl-statment. tim@913: The name must fit to one dataname configured in this State or one other tim@913: State which was visited before. tim@913: \item type: The type of the Value. This is required for the Validation tim@913: of the Value. tim@913: This might be String, Integer, Double, Date, Point, LineString, tim@913: Polygon, Coordinate, Geometry and AttributeName. tim@913: \item multiselect: true if more than on Value can be feed or put into the SQl-statement. tim@913: false if one on Value will be accepted. tim@913: \item usedinquery: Number how often the value should be put into the SQL-Statement: tim@913: 0: Value will not out into the Statement. tim@913: 1: Value will put once into the Staement, tim@913: 2 or more: Value will be put as often as configured tim@913: into the SQL-Statement (this is useful if tim@913: Inner-Selects are used) tim@913: \end{itemize} tim@913: tim@913: The next part will explain the usage of inputvalues. tim@913: tim@913: This SQL-statment is configured to use in the State above. tim@913: tim@913: \begin{lstlisting} tim@913: SELECT DISTINCT tim@913: p.PARAMETERID KEY, tim@913: p.GERMANNAME || ' ['|| p.UNIT ||']' VALUE, tim@913: p.GERMANNAME tim@913: FROM MEDIAN.PARAMETER P, tim@913: MEDIAN.TIMESERIES TS, tim@913: MEDIAN.TIMESERIESVALUE TSV, tim@913: MEDIAN.MEASUREMENT M, tim@913: MEDIAN.TIMESERIESPOINT TSP tim@913: WHERE M.FEATUREID = TSP.FEATUREID AND tim@913: M.MEASUREMENTID = TSV.MEASUREMENTID AND tim@913: TS.TIMESERIESID = TSV.TIMESERIESID AND tim@913: P.PARAMETERID = TS.PARAMETERID AND tim@913: TSP.FEATUREID = ? tim@913: ORDER BY P.GERMANNAME tim@913: \end{lstlisting} tim@913: tim@913: If there are put the Inputvalues in it it will look like this tim@913: if we assume that the inputvalues has got the following values: tim@913: \begin{itemize} tim@913: \item featureid: 4 (Marnet) tim@913: \item fisname: fis\_marnet tim@913: \item parameterid: not set because it's the value that should be tim@913: chosen in this state. tim@913: \end{itemize} tim@913: tim@913: \begin{lstlisting} tim@913: SELECT DISTINCT tim@913: p.PARAMETERID KEY, tim@913: p.GERMANNAME || ' ['|| p.UNIT ||']' VALUE, tim@913: p.GERMANNAME tim@913: FROM MEDIAN.PARAMETER P, tim@913: MEDIAN.TIMESERIES TS, tim@913: MEDIAN.TIMESERIESVALUE TSV, tim@913: MEDIAN.MEASUREMENT M, tim@913: MEDIAN.TIMESERIESPOINT TSP tim@913: WHERE M.FEATUREID = TSP.FEATUREID AND tim@913: M.MEASUREMENTID = TSV.MEASUREMENTID AND tim@913: TS.TIMESERIESID = TSV.TIMESERIESID AND tim@913: P.PARAMETERID = TS.PARAMETERID AND tim@913: TSP.FEATUREID = 4 tim@913: ORDER BY P.GERMANNAME tim@913: \end{lstlisting} tim@913: tim@913: The value of featureid will be inserted into the Query because tim@913: the Attribute usedinquery is set to "1". tim@913: tim@913: The values of the inputvalues fisname and parameterid will be tim@913: excluded because the Attribute usedinquery is set to "0" tim@913: tim@913: tim@913: If the Attribute usedinquery of the inputvalue featureid is set to "2" tim@913: this might happen. tim@913: tim@913: \begin{lstlisting} tim@913: tim@913: tim@913: tim@913: tim@913: tim@913: \end{lstlisting} tim@913: tim@913: tim@913: \begin{lstlisting} tim@913: SELECT DISTINCT tim@913: ... tim@913: TSP.FEATUREID = ? AND tim@913: TSP.FEATUREID = ? tim@913: ORDER BY P.GERMANNAME tim@913: \end{lstlisting} tim@913: tim@913: This SQL-statement will be modified to tim@913: tim@913: \begin{lstlisting} tim@913: SELECT DISTINCT tim@913: ... tim@913: TSP.FEATUREID = 4 AND tim@913: TSP.FEATUREID = 4 tim@913: ORDER BY P.GERMANNAME tim@913: \end{lstlisting} tim@913: tim@913: tim@913: If the Attribute usedinquery of the inputvalue fisname additionally is set to "1" tim@913: this might happen. tim@913: tim@913: \begin{lstlisting} tim@913: tim@913: tim@913: tim@913: tim@913: tim@913: \end{lstlisting} tim@913: tim@913: tim@913: \begin{lstlisting} tim@913: SELECT DISTINCT tim@913: ... tim@913: TSP.FEATUREID = ? AND tim@913: TSP.FEATUREID = ? AND tim@913: NOCOLUMNINDB = ? tim@913: ORDER BY P.GERMANNAME tim@913: \end{lstlisting} tim@913: tim@913: This SQL-statement will be modified to tim@913: tim@913: \begin{lstlisting} tim@913: SELECT DISTINCT tim@913: ... tim@913: TSP.FEATUREID = 4 AND tim@913: TSP.FEATUREID = 4 AND tim@913: NOCOLUMNINDB = 'fis\_marnet' tim@913: ORDER BY P.GERMANNAME tim@913: \end{lstlisting} tim@913: tim@908: tim@907: \paragraph{Transitions} tim@908: tim@908: To move between two States it is necessary to configure dependencies between tim@908: the different States. tim@908: This dependencies are called. Transitions. tim@908: tim@908: There are different Kind of Transitions which can be used. tim@908: \begin{itemize} tim@908: \item Transitions which only link two States tim@908: \item Transition which link two States with a aditional Condition. tim@908: (e.g. If a region was selected in the Regionfilter or not ) tim@908: \end{itemize} tim@908: tim@908: The listing below shows a Transition with an additional Condition. tim@908: \begin{lstlisting} tim@908: tim@908: tim@908: tim@908: tim@908: tim@908: \end{lstlisting} tim@908: tim@908: \begin{itemize} tim@908: \item from: The ID of the State which you have to come from tim@908: \item to: The ID of the State which can be reached. tim@908: \item condition: The Condition which have to be fulfilled. tim@908: \end{itemize} tim@908: tim@907: \paragraph{Outputstate} tim@907: tim@909: The OutputState is an special State which was created to define tim@909: the different possibilities of Outputs for each Product. tim@909: An OutputState is handled as an State which is described above. tim@909: Additionally you are able to configure which kind of outputs should tim@909: be provided. tim@909: tim@909: There are several OutputStates. Each one is designed to create tim@915: the output for one special Product. tim@909: tim@915: \begin{itemize} tim@915: \item TimeSeries: TimeSeriesOutputState tim@915: \item Horizontalprofile: HorizontalProfileOutputState tim@915: \item Horizontalprofile on Meshes: HorizontalProfileMeshOutputState tim@915: \item Verticalcrosssection:VerticalCrossSectionOutputState tim@915: \item Verticalprofiles: VerticalProfileOutputState tim@915: \item Horizontalcrosssections: HorizontalCrossSectionMeshOutputState tim@915: \item Layer: LayerOutputState tim@915: \end{itemize} tim@915: tim@915: All these Outputstates are Implemented in package de.intevation.gnv.state tim@915: and its subpackages. tim@915: tim@915: You have to put the fullqulified name of the Outputstate to the Attribute State tim@915: as shown below. tim@909: tim@909: You can configure an OutputState as shown below: tim@909: tim@909: \begin{lstlisting} tim@909: tim@909: timeseries_chart_data tim@909: ... tim@909: tim@909: tim@909: ... tim@909: tim@909: tim@909: tim@909: \end{lstlisting} tim@909: tim@909: At Section /state/outputsModes it is possible to add one ore more OutputModes tim@909: to one State as shown in the next Paragraph. tim@909: tim@909: \paragraph{OutputModes} tim@909: tim@909: It is possible to configure several OutputModes in one OutputState. tim@909: Inserting or deleting the Configuration of an special tim@909: OutputMode will cause that the pending Item will be shown or hidden tim@909: in the GUI. tim@909: tim@909: WARNING: IT MIGHT BE POSSIBLE THAT ONE OR MORE OUTPUTMODES ARE NOT tim@909: SUPPORTED BY AN PRODUCT. IN THAT CASE IT IS NECESSARY TO tim@909: IMPLEMENT THE REQUIRED FUNCTIONALITY BEFORE IT IS POSSIBLE tim@909: TO OFFER THIS OUTPUTMODE. tim@909: tim@909: Currently the following outputmodes are supported: tim@909: tim@909: \begin{itemize} tim@909: \item chart tim@909: \item histogram tim@909: \item csv tim@909: \item odv tim@909: \item statistics tim@909: \item wms tim@909: \item shapefile tim@909: \end{itemize} tim@909: tim@909: The following Example shows the Configuration for the OutputMode Chart. tim@909: tim@909: \begin{lstlisting} tim@909: tim@909: tim@909: tim@909: tim@909: tim@909: tim@909: tim@909: tim@909: tim@909: tim@909: tim@909: tim@909: \end{lstlisting} tim@909: tim@909: // TODO add simple OutputMode e.g. for CSV?? tim@909: tim@909: \begin{itemize} tim@909: \item name: The name of the Mode. This must not be changed because it is used tim@909: by the Programm. tim@909: \item description: a short description of this OutputMode. tim@909: \item parameters: one ore more parameters which will be shown in the GUI e.g. tim@909: for changing the Size of an Chart. tim@909: \item exportModes: one or more formats which can be served. tim@909: \end{itemize} tim@909: tim@907: tim@906: \subsection{Adding a new FIS} tim@908: In this Section it will be explained which steps has to be done to integrate a tim@908: new FIS into the Artifact-Server. This will be done using the Configuration for tim@908: an FIS which use data from MEDIAN.TIMESERIES Section of the DataWareHouse e.g. tim@908: MARNET or STAUN tim@906: tim@906: Pay attention that for publishing the Changes to the Artifact-Server you will tim@906: have to restart it. tim@906: tim@906: \subsubsection{Adding a new Artifactfactory} tim@906: First step is to add a new Artifactfactory to the Configuration conf/conf.xml tim@906: To do this you have to add a new XML-Fragment into the Section tim@906: /factories/artifact-factories which look like that: tim@906: tim@906: \begin{lstlisting} tim@906: tim@906: de.intevation.gnv.artifacts.GNVProductArtifactFactory tim@906: tim@906: \end{lstlisting} tim@906: tim@906: In this XML-Fragment you only have to replace the placeholder NEWFISNAME with a tim@906: unique short Name for the new FIS. tim@906: tim@916: \paragraph{Example} tim@916: This Example shows how to add an FIS and which effects it took to the tim@916: REST-Server. tim@916: tim@916: At first we add the follwing Artifactfactory into the file conf/conf.xml tim@916: in Section /artifact-database/artifact-factories which add a new tim@916: FIS called justanewfis to the Server: tim@916: tim@916: \begin{lstlisting} tim@916: tim@916: de.intevation.gnv.artifacts.GNVProductArtifactFactory tim@916: tim@916: \end{lstlisting} tim@916: tim@916: Then we restart the Artifact-database executing the followinig command: tim@916: tim@916: /etc/init.d/artifactdb restart tim@916: tim@916: Then we check if the new FIS is served by the REST-Server tim@916: calling the following command: tim@916: tim@916: curl http://localhost:8181/factories |grep fis\_justanewfis tim@916: tim@916: If the FIS was added the new Artifactfactory will be found in the generated tim@916: XML-Output and it will be shown. tim@916: Otherwise no XML-Output will be shown. tim@916: tim@906: \subsubsection{Adding a new Artifact for Artifactfactory} tim@906: The next Step is to define the Artifact itself. tim@906: For this it is necessary to add an XML-Fragment into the Section /artifacts of tim@906: the main Configuration-File /conf/conf.xml tim@906: \begin{lstlisting} tim@906: tim@906: tim@906: ... tim@906: tim@906: tim@906: \end{lstlisting} tim@906: tim@906: In this XML- Fragment it is also required to replave the placeholder NEWFISNAME tim@906: with the name which was used to configure the Artifact-Factory. tim@906: tim@906: Now the ArtifactServer can serv an additional FIS without any Products yet. tim@906: tim@906: To prevent needless Configuration-Work it is useful way to clone an Artifact tim@906: which handle the same Kind of work as the new FIS. tim@906: tim@917: tim@917: \paragraph{Example} tim@917: Now we will configure an Artifact to the FIS justanewfis. tim@917: tim@917: For this we have to add the following XML-Fragment to the File conf/conf.xml tim@917: in Section /artifact-database/artifacts: tim@917: tim@917: \begin{lstlisting} tim@917: tim@917: tim@917: tim@917: tim@917: \end{lstlisting} tim@917: tim@917: Restart the Artifact-Database: tim@917: tim@917: /etc/init.d/artifactdb restart tim@917: tim@917: Now we should be able to choose the Artifact. tim@917: The Listbox with products will be empty. tim@917: //TODO: USE Screenshots the commandline is to complex? tim@917: tim@906: \subsubsection{Adding removing Products to the specific Artifact} tim@906: Now it is Time to configure the different Products which the FIS should be able tim@906: to provide. tim@906: To do this it is necessary to Copy the XML-Fragments of the products into the tim@906: XML-Element of the previously integrated Artifact. tim@906: \begin{lstlisting} tim@906: tim@906: tim@906: tim@906: tim@906: de.intevation.gnv.artifacts.GNVArtifactFactory tim@906: tim@906: tim@906: tim@906: tim@906: tim@906: tim@906: tim@906: tim@906: de.intevation.gnv.artifacts.GNVArtifactFactory tim@906: tim@906: tim@906: tim@906: tim@906: tim@906: tim@906: tim@906: tim@906: \end{lstlisting} tim@906: tim@908: In this XML-Fragment you have to replace the placeholders NEWFISNAME as before tim@906: and VALUEOFSOURCEID with the value for the new FIS as defined in the Table tim@906: MEDIAN.SOURCEINFO. tim@906: tim@906: \subsubsection{Putting SourceID to specific Artifact} tim@906: \subsection{Adding a new Product} tim@906: To add a new Product to the System it is necessary that the required tim@906: Artifactrepresentation is Implemented in the SourceCode. tim@906: Without doing that step it is not possible to create a new Product. tim@906: tim@906: All Products are configured in separate Files that will be included into the tim@908: Mainconfiguration using Xlink-References. tim@906: tim@906: First Step is to create a new File in the Folder products and there in the tim@906: subfolder where the Product belongs to (timeseries,verticalprofile, tim@906: horizontalprofile,horizontalcrosssection,layer,...) tim@906: tim@906: Then you have tor reference this File in the File /conf/conf.xml in the Section tim@906: /artifacts using the following XML-Fragment. tim@906: tim@906: \begin{lstlisting} tim@906: tim@906: \end{lstlisting} tim@906: tim@906: The placeholder PATHTOFILE has to be replaced with the relative Path and the tim@906: Name of the File starting in the Folder products. tim@906: tim@906: Then it is possible to add the product to a FIS as explained in the next section. tim@906: Please note that the defined Name of the ArtifactFactory has to match to the tim@906: Name of the added Products which is also designed as an Artifact. tim@906: tim@906: \subsection{Adding a additional Product to a FIS} tim@906: To add a additional Product to a FIS you only have to add the XML-Fragment which tim@906: represents the product to the Artifact-configuration of the FIS in Section tim@906: /artifacts/artifact/products. tim@906: tim@906: \begin{lstlisting} tim@906: tim@906: tim@906: de.intevation.gnv.artifacts.GNVArtifactFactory tim@906: tim@906: tim@906: tim@906: tim@906: tim@906: tim@906: \end{lstlisting} tim@906: tim@906: Please note that you have to replace the Placeholders as explained above. tim@906: