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The NetCDF-Java Library is a Java interface to NetCDF files,
as well as to many other types of scientific data formats.
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/*
* Copyright 1998-2009 University Corporation for Atmospheric Research/Unidata
*
* Portions of this software were developed by the Unidata Program at the
* University Corporation for Atmospheric Research.
*
* Access and use of this software shall impose the following obligations
* and understandings on the user. The user is granted the right, without
* any fee or cost, to use, copy, modify, alter, enhance and distribute
* this software, and any derivative works thereof, and its supporting
* documentation for any purpose whatsoever, provided that this entire
* notice appears in all copies of the software, derivative works and
* supporting documentation. Further, UCAR requests that the user credit
* UCAR/Unidata in any publications that result from the use of this
* software or in any product that includes this software. The names UCAR
* and/or Unidata, however, may not be used in any advertising or publicity
* to endorse or promote any products or commercial entity unless specific
* written permission is obtained from UCAR/Unidata. The user also
* understands that UCAR/Unidata is not obligated to provide the user with
* any support, consulting, training or assistance of any kind with regard
* to the use, operation and performance of this software nor to provide
* the user with any updates, revisions, new versions or "bug fixes."
*
* THIS SOFTWARE IS PROVIDED BY UCAR/UNIDATA "AS IS" AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL UCAR/UNIDATA BE LIABLE FOR ANY SPECIAL,
* INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING
* FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT,
* NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION
* WITH THE ACCESS, USE OR PERFORMANCE OF THIS SOFTWARE.
*/
package ucar.nc2.iosp.misc;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import ucar.ma2.*;
import ucar.nc2.*;
import ucar.nc2.constants.AxisType;
import ucar.nc2.constants.CDM;
import ucar.nc2.util.CancelTask;
import ucar.unidata.io.RandomAccessFile;
//import ucar.unidata.util.StringUtil;
import java.io.IOException;
import java.nio.ByteBuffer;
import java.text.ParseException;
import java.text.SimpleDateFormat;
import java.util.ArrayList;
import java.util.Date;
import java.util.StringTokenizer;
import java.util.regex.Pattern;
/**
* IOSP for the USPLN/NAPLN original and extended formats.
*
* @author caron, dmurray
* @see "http://www.unidata.ucar.edu/data/lightning.html"
*/
public class Uspln extends AbstractLightningIOSP {
static private final Logger logger = LoggerFactory.getLogger(Uspln.class);
/*
USPLN/NAPLN data format:
Each 1 minute packet sent has an ASCII header, followed by a record for
each lightning detection during the past 1 minute.
Header
The ASCII header provides information on the creation time of the one
minute packet and ending date and time of the file.
Sample Header:
(original format)
LIGHTNING-USPLN1,2004-10-11T20:45:02,2004-10-11T20:45:02
(extended format)
LIGHTNING-USPLN1EX,2004-10-11T20:45:02,2004-10-11T20:45:02
Description:
Name of Product: LIGHTNING-USPLN1
Creation of 1 min Packet (yyyy-mm-ddThh:mm:ss): 2004-10-11T20:45:02
Ending of 1 min Packet (yyyy-mm-ddThh:mm:ss): 2004-10-11T20:45:02
NOTE: All times in UTC
Stroke Record Following the header, an individual record is provided for
each lightning stroke in a comma delimited format.
Sample Stroke Records (original format):
2004-10-11T20:44:02,32.6785331,-105.4344587,-96.1,1
2004-10-11T20:44:05,21.2628231,-86.9596634,53.1,1
2004-10-11T20:44:05,21.2967119,-86.9702106,50.3,1
2004-10-11T20:44:06,19.9044769,-100.7082608,43.1,1
2004-10-11T20:44:11,21.4523434,-82.5202274,-62.8,1
2004-10-11T20:44:11,21.8155306,-82.6708778,80.9,1
Sample Stroke Records (extended format):
2004-10-11T20:44:02,32.6785331,-105.4344587,-96.1,0.5,0.25,0
2004-10-11T20:44:05,21.2628231,-86.9596634,53.1,0.25,0.25,41
2004-10-11T20:44:05,21.2967119,-86.9702106,50.3,0.25,0.25,78
2004-10-11T20:44:06,19.9044769,-100.7082608,43.1,0.75,0.25,-51
2004-10-11T20:44:11,21.4523434,-82.5202274,-62.8,0.25,0.25,-58
2004-10-11T20:44:11,21.8155306,-82.6708778,80.9,0.25,0.25,-86
Description:
Stroke Date/Time (yyyy-mm-ddThh:mm:ss): 2004-10-11T20:44:02
Stroke Latitude (deg): 32.6785331
Stroke Longitude (deg): -105.4344587
Stroke Amplitude (kAmps, see note below): -96.1
(original format)
Stroke Count (number of strokes per flash): 1
Note: At the present time USPLN data are only provided in stroke format,
so the stroke count will always be 1.
(extended format)
Error Ellipse Major Axis (km): 0.5
Error Ellipse Minor Axis (km): 0.25
Error Ellipse Major Axis Orientation (degrees): 0
Notes about Decoding Stroke Amplitude
The amplitude field is utilized to indicate the amplitude of strokes and
polarity of strokes for all Cloud-to- Ground Strokes.
For other types of detections this field is utilized to provide
information on the type of stroke detected.
The amplitude number for Cloud-to-Ground strokes provides the amplitude
of the stroke and the sign (+/-) provides the polarity of the stroke.
An amplitude of 0 indicates USPLN Cloud Flash Detections rather than
Cloud-to-Ground detections.
Cloud flash detections include cloud-to-cloud, cloud-to-air, and
intra-cloud flashes.
An amplitude of -999 or 999 indicates a valid cloud-to-ground stroke
detection in which an amplitude was not able to be determined. Typically
these are long-range detections.
*/
/**
* Magic string for determining if this is my type of file.
*/
private static final String MAGIC = "LIGHTNING-.*(P|G)LN1";
private Pattern pMAGIC = Pattern.compile(MAGIC);
/**
* Magic string for determining if this is my type of file.
*/
private static final String MAGIC_OLD = "..PLN-LIGHTNING";
private Pattern pMAGIC_OLD = Pattern.compile(MAGIC_OLD);
/**
* Magic string for determining if this is and extended type of file.
*/
private static final String MAGIC_EX = ".*(GLN1|PLN1EX).*";
private Pattern pMAGIC_EX = Pattern.compile(MAGIC_EX);
/**
* original time format
*/
private static final String TIME_FORMAT = "yyyy-MM-dd'T'HH:mm:ss";
/**
* extended time format
*/
private static final String TIME_FORMAT_EX = "yyyy-MM-dd'T'HH:mm:ss.SSS";
/**
* is this extended data
*/
private boolean isExtended = false;
/**
* offsets int the file
*/
private long[] offsets;
/**
* max/min latitude
*/
private double lat_min, lat_max;
/**
* max/min longitude
*/
private double lon_min, lon_max;
/**
* max/min time
*/
private double time_min, time_max;
/**
* The structure members
*/
private StructureMembers sm;
/**
* the date format
*/
private SimpleDateFormat isoDateFormat = null;
/**
* Check if this is a valid file for this IOServiceProvider.
*
* @param raf RandomAccessFile
* @return true if valid.
* @throws IOException if read error
*/
public boolean isValidFile(RandomAccessFile raf) throws IOException {
raf.seek(0);
int n = MAGIC.length();
if (raf.length() < n) {
return false;
}
String got = raf.readString(n);
return (pMAGIC.matcher(got).find() || pMAGIC_OLD.matcher(got).find());
}
/**
* Open existing file, and populate ncfile with it. This method is only
* called by the NetcdfFile constructor on itself. The provided NetcdfFile
* object will be empty except for the location String and the
* IOServiceProvider associated with this NetcdfFile object.
*
* @param raf the file to work on, it has already passed the
* isValidFile() test.
* @param ncfile add objects to this empty NetcdfFile
* @param cancelTask used to monitor user cancellation; may be null.
* @throws IOException if read error
*/
public void open(RandomAccessFile raf, NetcdfFile ncfile, CancelTask cancelTask) throws IOException {
super.open(raf, ncfile, cancelTask);
isExtended = checkFormat();
isoDateFormat = new SimpleDateFormat();
isoDateFormat.setTimeZone(java.util.TimeZone.getTimeZone("GMT"));
isoDateFormat.applyPattern(isExtended
? TIME_FORMAT_EX
: TIME_FORMAT);
Sequence seq = makeSequence(ncfile);
ncfile.addVariable(null, seq);
addLightningGlobalAttributes(ncfile);
ncfile.finish();
sm = seq.makeStructureMembers();
ArrayStructureBB.setOffsets(sm);
}
protected Sequence makeSequence(NetcdfFile ncfile) {
Sequence seq = new Sequence(ncfile, null, null, RECORD);
Variable v = makeLightningVariable(ncfile, null, seq, TIME,
DataType.DOUBLE, "",
"time of stroke", null,
secondsSince1970, AxisType.Time);
seq.addMemberVariable(v);
v = makeLightningVariable(ncfile, null, seq, LAT, DataType.DOUBLE,
"", "latitude", "latitude", CDM.LAT_UNITS, AxisType.Lat);
seq.addMemberVariable(v);
v = makeLightningVariable(ncfile, null, seq, LON, DataType.DOUBLE,
"", "longitude", "longitude",
CDM.LON_UNITS, AxisType.Lon);
seq.addMemberVariable(v);
v = makeLightningVariable(ncfile, null, seq, SIGNAL, DataType.FLOAT,
"", "signed peak amplitude (signal strength)", null, "kAmps", null);
v.addAttribute(new Attribute(CDM.MISSING_VALUE, new Double(999)));
seq.addMemberVariable(v);
if (isExtended) { // extended
v = makeLightningVariable(ncfile, null, seq, MAJOR_AXIS,
DataType.FLOAT, "",
"error ellipse semi-major axis", null,
"km", null);
seq.addMemberVariable(v);
v = makeLightningVariable(ncfile, null, seq, MINOR_AXIS,
DataType.FLOAT, "",
"error ellipse minor axis ", null,
"km", null);
seq.addMemberVariable(v);
v = makeLightningVariable(
ncfile, null, seq, ELLIPSE_ANGLE, DataType.INT, "",
"error ellipse axis angle of orientation ", null, "degrees",
null);
seq.addMemberVariable(v);
} else { // original format
v = makeLightningVariable(ncfile, null, seq, MULTIPLICITY,
DataType.INT, "",
"multiplicity [#strokes per flash]",
null, "", null);
seq.addMemberVariable(v);
}
return seq;
}
/**
* Add the global attributes.
*
* @param ncfile the file to add to
*/
protected void addLightningGlobalAttributes(NetcdfFile ncfile) {
super.addLightningGlobalAttributes(ncfile);
ncfile.addAttribute(null,
new Attribute("title", "USPLN Lightning Data"));
ncfile.addAttribute(null,
new Attribute("file_format",
"USPLN1 " + (isExtended
? "(extended)"
: "(original)")));
/*
ncfile.addAttribute(null,
new Attribute("time_coverage_start",
time_min + " " + secondsSince1970));
ncfile.addAttribute(null,
new Attribute("time_coverage_end",
time_max + " " + secondsSince1970));
ncfile.addAttribute(null,
new Attribute("geospatial_lat_min",
new Double(lat_min)));
ncfile.addAttribute(null,
new Attribute("geospatial_lat_max",
new Double(lat_max)));
ncfile.addAttribute(null,
new Attribute("geospatial_lon_min",
new Double(lon_min)));
ncfile.addAttribute(null,
new Attribute("geospatial_lon_max",
new Double(lon_max)));
*/
}
/**
* Read all the data and return the number of strokes
*
* @return true if extended format
* @throws IOException if read error
*/
private boolean checkFormat() throws IOException {
raf.seek(0);
boolean extended = false;
while (true) {
long offset = raf.getFilePointer();
String line = raf.readLine();
if (line == null) {
break;
}
if (pMAGIC.matcher(line).find() || pMAGIC_OLD.matcher(line).find()) {
extended = pMAGIC_EX.matcher(line).find();
break;
}
}
return extended;
}
/**
* Read all the data and return the number of strokes
*
* @param raf the file to read
* @return the number of strokes
* @throws IOException if read error
* @throws NumberFormatException if problem parsing data
* @throws ParseException if parse problem
*/
int readAllData(RandomAccessFile raf)
throws IOException, NumberFormatException, ParseException {
ArrayList offsetList = new ArrayList();
java.text.SimpleDateFormat isoDateTimeFormat =
new java.text.SimpleDateFormat(TIME_FORMAT);
isoDateTimeFormat.setTimeZone(java.util.TimeZone.getTimeZone("GMT"));
lat_min = 1000.0;
lat_max = -1000.0;
lon_min = 1000.0;
lon_max = -1000.0;
time_min = Double.POSITIVE_INFINITY;
time_max = Double.NEGATIVE_INFINITY;
raf.seek(0);
int count = 0;
boolean knowExtended = false;
while (true) {
long offset = raf.getFilePointer();
String line = raf.readLine();
if (line == null) {
break;
}
if (pMAGIC.matcher(line).find() || pMAGIC_OLD.matcher(line).find()) {
if (!knowExtended) {
isExtended = pMAGIC_EX.matcher(line).find();
if (isExtended) {
isoDateTimeFormat.applyPattern(TIME_FORMAT_EX);
}
knowExtended = true;
}
continue;
}
// 2006-10-23T17:59:39,18.415434,-93.480526,-26.8,1 (original)
// 2006-10-23T17:59:39,18.415434,-93.480526,-26.8,0.25,0.5,80 (extended)
StringTokenizer stoker = new StringTokenizer(line, ",\r\n");
while (stoker.hasMoreTokens()) {
Date date = isoDateTimeFormat.parse(stoker.nextToken());
double lat = Double.parseDouble(stoker.nextToken());
double lon = Double.parseDouble(stoker.nextToken());
double amp = Double.parseDouble(stoker.nextToken());
int nstrokes = 1;
double axisMaj = Double.NaN;
double axisMin = Double.NaN;
int orient = 0;
if (isExtended) {
axisMaj = Double.parseDouble(stoker.nextToken());
axisMin = Double.parseDouble(stoker.nextToken());
orient = Integer.parseInt(stoker.nextToken());
} else {
nstrokes = Integer.parseInt(stoker.nextToken());
}
Stroke s = isExtended
? new Stroke(date, lat, lon, amp, axisMaj,
axisMin, orient)
: new Stroke(date, lat, lon, amp, nstrokes);
lat_min = Math.min(lat_min, s.lat);
lat_max = Math.max(lat_max, s.lat);
lon_min = Math.min(lon_min, s.lon);
lon_max = Math.max(lon_max, s.lon);
time_min = Math.min(time_min, s.secs);
time_max = Math.max(time_max, s.secs);
}
offsetList.add(new Long(offset));
count++;
}
offsets = new long[count];
for (int i = 0; i < offsetList.size(); i++) {
Long off = (Long) offsetList.get(i);
offsets[i] = off.longValue();
}
//System.out.println("processed " + count + " records");
return count;
}
/**
* Read data from a top level Variable and return a memory resident Array.
* This Array has the same element type as the Variable, and the requested shape.
*
* @param v2 a top-level Variable
* @param section the section of data to read.
* There must be a Range for each Dimension in the variable, in order.
* Note: no nulls allowed. IOSP may not modify.
* @return the requested data in a memory-resident Array
* @throws IOException if read error
* @throws InvalidRangeException if invalid section
* @see ucar.ma2.Range
*/
public Array readData(Variable v2, Section section)
throws IOException, InvalidRangeException {
return new ArraySequence(sm, getStructureIterator(null, 0), nelems);
}
private int nelems = -1;
/**
* Get the structure iterator
*
* @param s the Structure
* @param bufferSize the buffersize
* @return the data iterator
* @throws java.io.IOException if problem reading data
*/
public StructureDataIterator getStructureIterator(Structure s,
int bufferSize)
throws java.io.IOException {
return new UsplnSeqIter();
}
/**
* Uspln Sequence Iterator
*
* @author Unidata Development Team
*/
private class UsplnSeqIter implements StructureDataIterator {
/**
* the wrapped asbb
*/
private ArrayStructureBB asbb = null;
/**
* number read
*/
int numFlashes = 0;
/**
* Create a new one
*
* @throws IOException problem reading the file
*/
UsplnSeqIter() throws IOException {
raf.seek(0);
}
@Override
public StructureDataIterator reset() {
numFlashes = 0;
try {
raf.seek(0);
} catch (IOException e) {
throw new RuntimeException(e);
}
return this;
}
@Override
public boolean hasNext() throws IOException {
return readStroke();
}
@Override
public StructureData next() throws IOException {
numFlashes++;
return asbb.getStructureData(0);
}
/**
* Read the header
*
* @return true if okay
* @throws IOException problem reading file
*/
private boolean readStroke() throws IOException {
String line = raf.readLine();
if (line == null) {
nelems = numFlashes; // track this for next time
return false;
}
if (pMAGIC.matcher(line).find() || pMAGIC_OLD.matcher(line).find()) {
return readStroke();
}
// 2006-10-23T17:59:39,18.415434,-93.480526,-26.8,1 (original)
// 2006-10-23T17:59:39,18.415434,-93.480526,-26.8,0.25,0.5,80 (extended)
Stroke stroke = null;
StringTokenizer stoker = new StringTokenizer(line, ",\r\n");
try {
while (stoker.hasMoreTokens()) {
Date date = isoDateFormat.parse(stoker.nextToken());
double lat = Double.parseDouble(stoker.nextToken());
double lon = Double.parseDouble(stoker.nextToken());
double amp = Double.parseDouble(stoker.nextToken());
int nstrokes = 1;
double axisMaj = Double.NaN;
double axisMin = Double.NaN;
int orient = 0;
if (isExtended) {
axisMaj = Double.parseDouble(stoker.nextToken());
axisMin = Double.parseDouble(stoker.nextToken());
orient = Integer.parseInt(stoker.nextToken());
} else {
nstrokes = Integer.parseInt(stoker.nextToken());
}
stroke = isExtended
? new Stroke(date, lat, lon, amp, axisMaj,
axisMin, orient)
: new Stroke(date, lat, lon, amp, nstrokes);
}
} catch (Exception e) {
logger.error("bad header: {}", line.trim());
return false;
}
if (stroke == null) {
logger.error("bad header: {}", line.trim());
return false;
}
byte[] data = new byte[sm.getStructureSize()];
ByteBuffer bbdata = ByteBuffer.wrap(data);
for (String mbrName : sm.getMemberNames()) {
switch (mbrName) {
case TIME:
bbdata.putDouble(stroke.secs);
break;
case LAT:
bbdata.putDouble(stroke.lat);
break;
case LON:
bbdata.putDouble(stroke.lon);
break;
case SIGNAL:
bbdata.putFloat((float) stroke.amp);
break;
case MULTIPLICITY:
bbdata.putInt(stroke.n);
break;
case MAJOR_AXIS:
bbdata.putFloat((float) stroke.axisMajor);
break;
case MINOR_AXIS:
bbdata.putFloat((float) stroke.axisMinor);
break;
case ELLIPSE_ANGLE:
bbdata.putInt(stroke.axisOrient);
break;
}
}
asbb = new ArrayStructureBB(sm, new int[]{1}, bbdata, 0);
return true;
}
@Override
public void setBufferSize(int bytes) {
}
@Override
public int getCurrentRecno() {
return numFlashes - 1;
}
@Override
public void finish() {
// ignored
}
}
/**
* Get a unique id for this file type.
*
* @return registered id of the file type
* @see "http://www.unidata.ucar.edu/software/netcdf-java/formats/FileTypes.html"
*/
public String getFileTypeId() {
return "USPLN";
}
/**
* Get a human-readable description for this file type.
*
* @return description of the file type
* @see "http://www.unidata.ucar.edu/software/netcdf-java/formats/FileTypes.html"
*/
public String getFileTypeDescription() {
return "US Precision Lightning Network";
}
/**
* Get the version of this file type.
*
* @return version of the file type
* @see "http://www.unidata.ucar.edu/software/netcdf-java/formats/FileTypes.html"
*/
public String getFileTypeVersion() {
return "1";
}
/**
* Class to hold stroke information
*/
private class Stroke {
/**
* the date as seconds since the epoch
*/
double secs;
/**
* lat, lon and amplitude
*/
double lat, lon, amp;
/**
* number of strokes
*/
int n = 1;
/**
* major axis
*/
double axisMajor;
/**
* minor axis
*/
double axisMinor;
/**
* major axis orientation
*/
int axisOrient;
/**
* Create a Stroke from the file data and time formatter
*
* @param offset offset into the file
* @param isoDateTimeFormat the time formatter
* @throws IOException problem reading the file
* @throws ParseException problem parsing the file
*/
Stroke(long offset, java.text.SimpleDateFormat isoDateTimeFormat)
throws IOException, ParseException {
raf.seek(offset);
String line = raf.readLine();
if ((line == null) || pMAGIC.matcher(line).find() || pMAGIC_OLD.matcher(line).find()) {
throw new IllegalStateException();
}
StringTokenizer stoker = new StringTokenizer(line, ",\r\n");
Date date =
isoDateTimeFormat.parse(stoker.nextToken());
makeSecs(date);
lat = Double.parseDouble(stoker.nextToken());
lon = Double.parseDouble(stoker.nextToken());
amp = Double.parseDouble(stoker.nextToken());
if (isExtended) {
n = 1;
axisMajor = Double.parseDouble(stoker.nextToken());
axisMinor = Double.parseDouble(stoker.nextToken());
axisOrient = Integer.parseInt(stoker.nextToken());
} else {
n = Integer.parseInt(stoker.nextToken());
}
}
/**
* Create a stroke from the info
*
* @param date The Date
* @param lat the latitude
* @param lon the longitude
* @param amp the amplitude
* @param n the number of strokes
*/
Stroke(Date date, double lat, double lon, double amp, int n) {
makeSecs(date);
this.lat = lat;
this.lon = lon;
this.amp = amp;
this.n = n;
}
/**
* Create a stroke from the info
*
* @param date The Date
* @param lat the latitude
* @param lon the longitude
* @param amp the amplitude
* @param maj error ellipse major axis
* @param min error ellipse minor axis
* @param orient orientation of the major axis
*/
Stroke(Date date, double lat, double lon, double amp, double maj,
double min, int orient) {
makeSecs(date);
this.lat = lat;
this.lon = lon;
this.amp = amp;
this.axisMajor = maj;
this.axisMinor = min;
this.axisOrient = orient;
}
/**
* Make the date variable
*
* @param date the date
*/
void makeSecs(Date date) {
this.secs = (int) (date.getTime() / 1000);
}
/**
* Get a String representation of this object
*
* @return the String representation
*/
public String toString() {
return (isExtended)
? lat + " " + lon + " " + amp + " " + axisMajor + "/"
+ axisMinor + " " + axisOrient
: lat + " " + lon + " " + amp + " " + n;
}
}
}
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