# By Jhonny Saavedra jhonnysaavedra@gmail.com # as part of a research project of the 'Instituto Geografico Agustin Codazzi' # Geometry2RDF tool http://mayor2.dia.fi.upm.es/oeg-upm/index.php/en/technologies/151-geometry2rdf was the base for this one # (CC BY-SA) Was developed like a Netbeans project a prebuild version is in the carper dist take care of inlude the libs for new developments ======================== BUILD OUTPUT DESCRIPTION ======================== When you build an Java application project that has a main class, the IDE automatically copies all of the JAR files on the projects classpath to your projects dist/lib folder. The IDE also adds each of the JAR files to the Class-Path element in the application JAR files manifest file (MANIFEST.MF). To run the project from the command line, go to the dist folder and type the following: java -jar "shp2geosparql.jar" To distribute this project, zip up the dist folder (including the lib folder) and distribute the ZIP file. Notes: * If two JAR files on the project classpath have the same name, only the first JAR file is copied to the lib folder. * Only JAR files are copied to the lib folder. If the classpath contains other types of files or folders, these files (folders) are not copied. * If a library on the projects classpath also has a Class-Path element specified in the manifest,the content of the Class-Path element has to be on the projects runtime path. * To set a main class in a standard Java project, right-click the project node in the Projects window and choose Properties. Then click Run and enter the class name in the Main Class field. Alternatively, you can manually type the class name in the manifest Main-Class element. The script use a configuration file that should exist in a file called configuration with the next parameters. Here is an example and descripcion of them. # yes or not to include the label of the instance in the RDF includeLabel = yes # yes or not to include the spatial relation among instance of the SHP in geosparql vocabulary includeRelations = yes # yes or not to include an alternative representation as point (only for polygons) includePoints = yes # rout of the shp shpDir = C:/shp2geosparql/shp # name of the shp shpName = prueba # identificator a field in the shp idField = SCaCodigo labelField = SCaNombre # language of the laabel lang = es # name of class in the ontology o vocabulary that will be used ontologyClass = SCat # Uri used as base of the classes of the ontology ontologyUri = http://datos.igac.gov.co/ontologias/catastro/bogota/ # namespace to represent the URI of the ontology in the RDF nsOntology = igac # URI of the resources that will be used in the RDF resourceUri = http://datos.igac.gov.co/id/catastro/bogota/ # rout in that will be keep the RDF generated outputFileDir = C:/shp2geosparql/rdf/scat.rdf
sunyong2016/shp2geosparql
Java console tool to convert geometries from shape files to RDF using GeoSPARQL OGC standard . You can extract geometries and spatial relations of a SHP and convert them to RDF in WGS84 Reference System. Geometry2RDF: https://github.com/boricles/geometry2rdf was taken as the base of this develpment.
Java