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author | Allen Byrne <byrn@hdfgroup.org> | 2016-02-29 02:43:00 (GMT) |
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committer | Allen Byrne <byrn@hdfgroup.org> | 2016-02-29 02:43:00 (GMT) |
commit | 63249be0e10a8726acb5a7cf64491319eaa46227 (patch) | |
tree | ebb2b75ece8852e8a58804631c0004f06a9bba9f /java/examples/datatypes/H5Ex_T_Compound.java | |
parent | a1617b7cdbe14173fcf690b4627059fa4528c19b (diff) | |
download | hdf5-63249be0e10a8726acb5a7cf64491319eaa46227.zip hdf5-63249be0e10a8726acb5a7cf64491319eaa46227.tar.gz hdf5-63249be0e10a8726acb5a7cf64491319eaa46227.tar.bz2 |
[svn-r29226] HDFFV-9552: merge in java code.
Diffstat (limited to 'java/examples/datatypes/H5Ex_T_Compound.java')
-rw-r--r-- | java/examples/datatypes/H5Ex_T_Compound.java | 443 |
1 files changed, 443 insertions, 0 deletions
diff --git a/java/examples/datatypes/H5Ex_T_Compound.java b/java/examples/datatypes/H5Ex_T_Compound.java new file mode 100644 index 0000000..f270cb9 --- /dev/null +++ b/java/examples/datatypes/H5Ex_T_Compound.java @@ -0,0 +1,443 @@ +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * + * Copyright by The HDF Group. * + * Copyright by the Board of Trustees of the University of Illinois. * + * All rights reserved. * + * * + * This file is part of HDF5. The full HDF5 copyright notice, including * + * terms governing use, modification, and redistribution, is contained in * + * the files COPYING and Copyright.html. COPYING can be found at the root * + * of the source code distribution tree; Copyright.html can be found at the * + * root level of an installed copy of the electronic HDF5 document set and * + * is linked from the top-level documents page. It can also be found at * + * http://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have * + * access to either file, you may request a copy from help@hdfgroup.org. * + * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +/************************************************************ + This example shows how to read and write compound + datatypes to a dataset. The program first writes + compound structures to a dataset with a dataspace of DIM0, + then closes the file. Next, it reopens the file, reads + back the data, and outputs it to the screen. + ************************************************************/ + +package examples.datatypes; + +import hdf.hdf5lib.H5; +import hdf.hdf5lib.HDF5Constants; + +import java.nio.ByteBuffer; +import java.nio.ByteOrder; +import java.nio.charset.Charset; + +public class H5Ex_T_Compound { + private static String FILENAME = "H5Ex_T_Compound.h5"; + private static String DATASETNAME = "DS1"; + private static final int DIM0 = 4; + private static final int RANK = 1; + protected static final int INTEGERSIZE = 4; + protected static final int DOUBLESIZE = 8; + protected final static int MAXSTRINGSIZE = 80; + + static class Sensor_Datatype { + static int numberMembers = 4; + static int[] memberDims = { 1, 1, 1, 1 }; + + static String[] memberNames = { "Serial number", "Location", "Temperature (F)", "Pressure (inHg)" }; + static long[] memberMemTypes = { HDF5Constants.H5T_NATIVE_INT, HDF5Constants.H5T_C_S1, + HDF5Constants.H5T_NATIVE_DOUBLE, HDF5Constants.H5T_NATIVE_DOUBLE }; + static long[] memberFileTypes = { HDF5Constants.H5T_STD_I32BE, HDF5Constants.H5T_C_S1, + HDF5Constants.H5T_IEEE_F64BE, HDF5Constants.H5T_IEEE_F64BE }; + static int[] memberStorage = { INTEGERSIZE, MAXSTRINGSIZE, DOUBLESIZE, DOUBLESIZE }; + + // Data size is the storage size for the members. + static long getTotalDataSize() { + long data_size = 0; + for (int indx = 0; indx < numberMembers; indx++) + data_size += memberStorage[indx] * memberDims[indx]; + return DIM0 * data_size; + } + + static long getDataSize() { + long data_size = 0; + for (int indx = 0; indx < numberMembers; indx++) + data_size += memberStorage[indx] * memberDims[indx]; + return data_size; + } + + static int getOffset(int memberItem) { + int data_offset = 0; + for (int indx = 0; indx < memberItem; indx++) + data_offset += memberStorage[indx]; + return data_offset; + } + } + + static class Sensor { + public int serial_no; + public String location; + public double temperature; + public double pressure; + + Sensor(int serial_no, String location, double temperature, double pressure) { + this.serial_no = serial_no; + this.location = location; + this.temperature = temperature; + this.pressure = pressure; + } + + Sensor(ByteBuffer databuf, int dbposition) { + readBuffer(databuf, dbposition); + } + + void writeBuffer(ByteBuffer databuf, int dbposition) { + databuf.putInt(dbposition + Sensor_Datatype.getOffset(0), serial_no); + byte[] temp_str = location.getBytes(Charset.forName("UTF-8")); + int arraylen = (temp_str.length > MAXSTRINGSIZE) ? MAXSTRINGSIZE : temp_str.length; + for (int ndx = 0; ndx < arraylen; ndx++) + databuf.put(dbposition + Sensor_Datatype.getOffset(1) + ndx, temp_str[ndx]); + for (int ndx = arraylen; ndx < MAXSTRINGSIZE; ndx++) + databuf.put(dbposition + Sensor_Datatype.getOffset(1) + arraylen, (byte) 0); + databuf.putDouble(dbposition + Sensor_Datatype.getOffset(2), temperature); + databuf.putDouble(dbposition + Sensor_Datatype.getOffset(3), pressure); + } + + void readBuffer(ByteBuffer databuf, int dbposition) { + this.serial_no = databuf.getInt(dbposition + Sensor_Datatype.getOffset(0)); + ByteBuffer stringbuf = databuf.duplicate(); + stringbuf.position(dbposition + Sensor_Datatype.getOffset(1)); + stringbuf.limit(dbposition + Sensor_Datatype.getOffset(1) + MAXSTRINGSIZE); + byte[] bytearr = new byte[stringbuf.remaining()]; + stringbuf.get(bytearr); + this.location = new String(bytearr, Charset.forName("UTF-8")).trim(); + this.temperature = databuf.getDouble(dbposition + Sensor_Datatype.getOffset(2)); + this.pressure = databuf.getDouble(dbposition + Sensor_Datatype.getOffset(3)); + } + + @Override + public String toString() { + return String.format("Serial number : " + serial_no + "%n" + + "Location : " + location + "%n" + + "Temperature (F) : " + temperature + "%n" + + "Pressure (inHg) : " + pressure + "%n"); + } + } + + private static void CreateDataset() { + long file_id = -1; + long strtype_id = -1; + long memtype_id = -1; + long filetype_id = -1; + long dataspace_id = -1; + long dataset_id = -1; + long[] dims = { DIM0 }; + Sensor[] object_data = new Sensor[DIM0]; + byte[] dset_data = null; + + // Initialize data. + object_data[0] = new Sensor(1153, new String("Exterior (static)"), 53.23, 24.57); + object_data[1] = new Sensor(1184, new String("Intake"), 55.12, 22.95); + object_data[2] = new Sensor(1027, new String("Intake manifold"), 103.55, 31.23); + object_data[3] = new Sensor(1313, new String("Exhaust manifold"), 1252.89, 84.11); + + // Create a new file using default properties. + try { + file_id = H5.H5Fcreate(FILENAME, HDF5Constants.H5F_ACC_TRUNC, HDF5Constants.H5P_DEFAULT, + HDF5Constants.H5P_DEFAULT); + } + catch (Exception e) { + e.printStackTrace(); + } + + // Create string datatype. + try { + strtype_id = H5.H5Tcopy(HDF5Constants.H5T_C_S1); + if (strtype_id >= 0) + H5.H5Tset_size(strtype_id, MAXSTRINGSIZE); + } + catch (Exception e) { + e.printStackTrace(); + } + + // Create the compound datatype for memory. + try { + memtype_id = H5.H5Tcreate(HDF5Constants.H5T_COMPOUND, Sensor_Datatype.getDataSize()); + if (memtype_id >= 0) { + for (int indx = 0; indx < Sensor_Datatype.numberMembers; indx++) { + long type_id = Sensor_Datatype.memberMemTypes[indx]; + if (type_id == HDF5Constants.H5T_C_S1) + type_id = strtype_id; + H5.H5Tinsert(memtype_id, Sensor_Datatype.memberNames[indx], Sensor_Datatype.getOffset(indx), + type_id); + } + } + } + catch (Exception e) { + e.printStackTrace(); + } + + // Create the compound datatype for the file. Because the standard + // types we are using for the file may have different sizes than + // the corresponding native types, we must manually calculate the + // offset of each member. + try { + filetype_id = H5.H5Tcreate(HDF5Constants.H5T_COMPOUND, Sensor_Datatype.getDataSize()); + if (filetype_id >= 0) { + for (int indx = 0; indx < Sensor_Datatype.numberMembers; indx++) { + long type_id = Sensor_Datatype.memberFileTypes[indx]; + if (type_id == HDF5Constants.H5T_C_S1) + type_id = strtype_id; + H5.H5Tinsert(filetype_id, Sensor_Datatype.memberNames[indx], Sensor_Datatype.getOffset(indx), + type_id); + } + } + } + catch (Exception e) { + e.printStackTrace(); + } + + // Create dataspace. Setting maximum size to NULL sets the maximum + // size to be the current size. + try { + dataspace_id = H5.H5Screate_simple(RANK, dims, null); + } + catch (Exception e) { + e.printStackTrace(); + } + + // Create the dataset. + try { + if ((file_id >= 0) && (dataspace_id >= 0) && (filetype_id >= 0)) + dataset_id = H5.H5Dcreate(file_id, DATASETNAME, filetype_id, dataspace_id, HDF5Constants.H5P_DEFAULT, + HDF5Constants.H5P_DEFAULT, HDF5Constants.H5P_DEFAULT); + } + catch (Exception e) { + e.printStackTrace(); + } + + // Write the compound data to the dataset. + // allocate memory for read buffer. + dset_data = new byte[(int)dims[0] * (int)Sensor_Datatype.getDataSize()]; + ByteBuffer outBuf = ByteBuffer.wrap(dset_data); + outBuf.order(ByteOrder.nativeOrder()); + for (int indx = 0; indx < (int) dims[0]; indx++) { + object_data[indx].writeBuffer(outBuf, indx * (int)Sensor_Datatype.getDataSize()); + } + try { + if ((dataset_id >= 0) && (memtype_id >= 0)) + H5.H5Dwrite(dataset_id, memtype_id, HDF5Constants.H5S_ALL, HDF5Constants.H5S_ALL, + HDF5Constants.H5P_DEFAULT, dset_data); + } + catch (Exception e) { + e.printStackTrace(); + } + + // End access to the dataset and release resources used by it. + try { + if (dataset_id >= 0) + H5.H5Dclose(dataset_id); + } + catch (Exception e) { + e.printStackTrace(); + } + + // Terminate access to the data space. + try { + if (dataspace_id >= 0) + H5.H5Sclose(dataspace_id); + } + catch (Exception e) { + e.printStackTrace(); + } + + // Terminate access to the file type. + try { + if (filetype_id >= 0) + H5.H5Tclose(filetype_id); + } + catch (Exception e) { + e.printStackTrace(); + } + + // Terminate access to the mem type. + try { + if (memtype_id >= 0) + H5.H5Tclose(memtype_id); + } + catch (Exception e) { + e.printStackTrace(); + } + + try { + if (strtype_id >= 0) + H5.H5Tclose(strtype_id); + } + catch (Exception e) { + e.printStackTrace(); + } + + // Close the file. + try { + if (file_id >= 0) + H5.H5Fclose(file_id); + } + catch (Exception e) { + e.printStackTrace(); + } + + } + + private static void ReadDataset() { + long file_id = -1; + long strtype_id = -1; + long memtype_id = -1; + long dataspace_id = -1; + long dataset_id = -1; + long[] dims = { DIM0 }; + Sensor[] object_data2; + byte[] dset_data; + + // Open an existing file. + try { + file_id = H5.H5Fopen(FILENAME, HDF5Constants.H5F_ACC_RDONLY, HDF5Constants.H5P_DEFAULT); + } + catch (Exception e) { + e.printStackTrace(); + } + + // Open an existing dataset. + try { + if (file_id >= 0) + dataset_id = H5.H5Dopen(file_id, DATASETNAME, HDF5Constants.H5P_DEFAULT); + } + catch (Exception e) { + e.printStackTrace(); + } + + // Get dataspace and allocate memory for read buffer. + try { + if (dataset_id >= 0) + dataspace_id = H5.H5Dget_space(dataset_id); + } + catch (Exception e) { + e.printStackTrace(); + } + + try { + if (dataspace_id >= 0) + H5.H5Sget_simple_extent_dims(dataspace_id, dims, null); + } + catch (Exception e) { + e.printStackTrace(); + } + + // Create string datatype. + try { + strtype_id = H5.H5Tcopy(HDF5Constants.H5T_C_S1); + if (strtype_id >= 0) + H5.H5Tset_size(strtype_id, MAXSTRINGSIZE); + } + catch (Exception e) { + e.printStackTrace(); + } + + // Create the compound datatype for memory. + try { + memtype_id = H5.H5Tcreate(HDF5Constants.H5T_COMPOUND, Sensor_Datatype.getDataSize()); + if (memtype_id >= 0) { + for (int indx = 0; indx < Sensor_Datatype.numberMembers; indx++) { + long type_id = Sensor_Datatype.memberMemTypes[indx]; + if (type_id == HDF5Constants.H5T_C_S1) + type_id = strtype_id; + H5.H5Tinsert(memtype_id, Sensor_Datatype.memberNames[indx], Sensor_Datatype.getOffset(indx), + type_id); + } + } + } + catch (Exception e) { + e.printStackTrace(); + } + + // allocate memory for read buffer. + dset_data = new byte[(int) dims[0] * (int)Sensor_Datatype.getDataSize()]; + + object_data2 = new Sensor[(int) dims[0]]; + + // Read data. + try { + if ((dataset_id >= 0) && (memtype_id >= 0)) + H5.H5Dread(dataset_id, memtype_id, HDF5Constants.H5S_ALL, HDF5Constants.H5S_ALL, + HDF5Constants.H5P_DEFAULT, dset_data); + + ByteBuffer inBuf = ByteBuffer.wrap(dset_data); + inBuf.order(ByteOrder.nativeOrder()); + for (int indx = 0; indx < (int) dims[0]; indx++) { + object_data2[indx] = new Sensor(inBuf, indx * (int)Sensor_Datatype.getDataSize()); + } + } + catch (Exception e) { + e.printStackTrace(); + } + + // Output the data to the screen. + for (int indx = 0; indx < dims[0]; indx++) { + System.out.println(DATASETNAME + " [" + indx + "]:"); + System.out.println(object_data2[indx].toString()); + } + System.out.println(); + + try { + if (dataset_id >= 0) + H5.H5Dclose(dataset_id); + } + catch (Exception e) { + e.printStackTrace(); + } + + // Terminate access to the data space. + try { + if (dataspace_id >= 0) + H5.H5Sclose(dataspace_id); + } + catch (Exception e) { + e.printStackTrace(); + } + + // Terminate access to the mem type. + try { + if (memtype_id >= 0) + H5.H5Tclose(memtype_id); + } + catch (Exception e) { + e.printStackTrace(); + } + + try { + if (strtype_id >= 0) + H5.H5Tclose(strtype_id); + } + catch (Exception e) { + e.printStackTrace(); + } + + // Close the file. + try { + if (file_id >= 0) + H5.H5Fclose(file_id); + } + catch (Exception e) { + e.printStackTrace(); + } + + } + + public static void main(String[] args) { + H5Ex_T_Compound.CreateDataset(); + // Now we begin the read section of this example. Here we assume + // the dataset and array have the same name and rank, but can have + // any size. Therefore we must allocate a new array to read in + // data using malloc(). + H5Ex_T_Compound.ReadDataset(); + } + +} |