-------------------- J P R O J . 4 -------------------- This is the first release of a JNI wrap of the main proj4 functions. PLEASE read the following information. For more information regarding JPROJ4 please contact me through the web page at: http://www.hydrologis.com --------------------------------------------------- What is JPROJ4: ------------- JPROJ is a small library of java classes that wrap a few proj functions by using the java native interface. Compilation: ------------- With the right flag during configuration time (see ./configure --help), the native part of the jproj lib is compiled inside the main proj library and the java part is automatically built into the jproj.jar library. The java part as standalone is compiled by running ant inside the "jniwrap" folder. This will compile the classes and archive them in a jar library. This applies to Linux, Macos and Windows (and virtually to every system supporting java). Requirements: ------------- Beyond the ones already put by proj, you need: - j2sdk, the java standard development kit - ant, to run the build - doxygen for the documentation generation Documentation: -------------- The documentation is held inside the code and can be retrieved by running doxygen inside the folder jniwrap. This will create the html format documentation inside of jniwrap/docs The standard way to achive this is to use an ant target: ant do_make_help License: -------- GPL Authors: -------- Andrea Antonello (andrea.antonello@hydrologis.com) Usage & a fast example: ----------------------- The jproj.jar is all is needed to implement proj support in java applications. The whole job is done by the proj4, so there are just a couple of functions that be used. The best way is to see everything through an example. In the following example we read projection informations and data from a file and then transform the data and query the information. ________________________________________________________________________________ First step: create a text file, let's say test.txt, with the following in it: srcProj: +proj=latlong +datum=WGS84 destProj: +init=epsg:32632 rows: 1 46 11 194.0 This contains info about a source and destination projection, the number of data triplets and then the data (in this case just one point) ________________________________________________________________________________ Step two: create a test code. Simply copy the following into a file called Main.java. The code is commented to see what we are doing: import java.io.BufferedReader; import java.io.File; import java.io.FileInputStream; import java.io.IOException; import java.io.InputStreamReader; import java.util.LinkedHashMap; import org.proj4.Proj4; import org.proj4.ProjectionData; public class Main { public static void main(String[] args) throws IOException { // print out the usage if no argument was given if (args.length < 1) { System.out.println(); System.out.println("Usage: Proj datafile"); System.out.println(); System.exit(0); } // now the input file is going to be read BufferedReader br = new BufferedReader(new InputStreamReader( new FileInputStream(new File(args[0])))); LinkedHashMap mapHeader = new LinkedHashMap(); // read the header String line = null; for (int i = 0; i < 3; i++) { if ((line = br.readLine()) != null) { String[] header = line.split(":", 2); if (header.length <= 2) { mapHeader.put(header[0].trim(), header[1].trim()); } else { System.out.println("Wrong file format"); System.exit(0); } } } // with what you see above, the header was read // now I can define the number of rows of data triplets int rows = new Integer((String) mapHeader.get("rows")).intValue(); double[][] testCoord = new double[rows][2]; double[] testValues = new double[rows]; System.out.println("Source coordinates and values:"); // start reading the data for (int i = 0; i < rows; i++) { if ((line = br.readLine()) != null) { String[] values = line.split(" +"); if (values.length == 3) { testCoord[i][0] = new Double(values[0].trim()).doubleValue(); testCoord[i][1] = new Double(values[1].trim()).doubleValue(); testValues[i] = new Double(values[2].trim()).doubleValue(); System.out.println("x = " + testCoord[i][0] + " y = " + testCoord[i][1] + " z = " + testValues[i]); } else { System.out.println("Wrong file format or empty line found"); } } } // create the dataset // this is necessary to be able to transform ProjectionData dataTP = new ProjectionData(testCoord, testValues); // here we go with the instantiation of the proj4 object Proj4 testProjection = new Proj4((String) mapHeader.get("srcProj"), (String) mapHeader.get("destProj")); // the instantiation of the proj4 object instantiated also the projection // objects for source and destination projection // therefore we can already print the projection infos: testProjection.printSrcProjInfo(); testProjection.printDestProjInfo(); // and transform, passing as parameter the created dataset: testProjection.transform(dataTP, 1, 1); // if we need the parameters as Hashmap for a later use: LinkedHashMap testMap = testProjection.getSrcProjInfo(); // and let us print them to screen to see them System.out.println(); System.out.println("Proj as a Hashmap"); System.out.println("******************************************************"); System.out.println(testMap.toString()); } } ________________________________________________________________________________ Step three compile the Main code: we assume that proj was compiled with the right flag to support jproj. Therefore we have a library called jproj.jar. Thus we compile the Main.java with the command: javac -classpath /jproj.jar Main.java and execute the created test case with: java -cp .:/jproj.jar -Djava.library.path= Main test.txt That's it, enjoy!