double getMaximumRadialDist() { double maxdist = 0.0; Iterator iter = dataVariables.iterator(); while (iter.hasNext()) { RadialVariable rv = (RadialVariable) iter.next(); Sweep sp = rv.getSweep(0); double dist = sp.getGateNumber() * sp.getGateSize(); if (dist > maxdist) maxdist = dist; } return maxdist; }
double getMaximumRadialDist() { double maxdist = 0.0; Iterator iter = dataVariables.iterator(); while (iter.hasNext()) { RadialDatasetSweep.RadialVariable rv = (RadialDatasetSweep.RadialVariable) iter.next(); RadialDatasetSweep.Sweep sp = rv.getSweep(0); double dist = sp.getGateNumber() * sp.getGateSize(); if (dist > maxdist) maxdist = dist; } return maxdist; }
double getMaximumRadialDist() { double maxdist = 0.0; Iterator iter = dataVariables.iterator(); while (iter.hasNext()) { RadialVariable rv = (RadialVariable) iter.next(); Sweep sp = rv.getSweep(0); double dist = sp.getGateNumber() * sp.getGateSize(); if (dist > maxdist) maxdist = dist; } return maxdist; }
" nyqFreq= "+s.getNyquistFrequency()+ " firstGate= "+s.getRangeToFirstGate()+ " sizeGate= "+s.getGateSize() + " meanElev= "+s.getMeanElevation() + " meanAzi= "+s.getMeanAzimuth() +
Sweep spn = (Sweep)sweeps.get(sweeps.size()-1); Variable v = spn.getsweepVar(); float vGateSize = spn.getGateSize(); try { allData = v.read(); Sweep sp0 = (Sweep)sweeps.get(0); Variable v0 = sp0.getsweepVar(); float v0GateSize = sp0.getGateSize(); int [] stride;
Sweep spn = (Sweep)sweeps.get(sweeps.size()-1); Variable v = spn.getsweepVar(); float vGateSize = spn.getGateSize(); allData = v.read(); if( !isHighResolution(ds) ) Sweep sp0 = (Sweep)sweeps.get(0); Variable v0 = sp0.getsweepVar(); float v0GateSize = sp0.getGateSize(); int [] stride;
Sweep spn = (Sweep)sweeps.get(sweeps.size()-1); Variable v = spn.getsweepVar(); float vGateSize = spn.getGateSize(); allData = v.read(); if( !isHighResolution(ds) ) Sweep sp0 = (Sweep)sweeps.get(0); Variable v0 = sp0.getsweepVar(); float v0GateSize = sp0.getGateSize(); int [] stride;
private static void testRadialVariable(RadialDatasetSweep.RadialVariable rv) throws IOException { //ucar.nc2.dt.radial.RadialCoordSys rcsys = rv.getRadialCoordSys(); //assert rcsys != null; int nsweep = rv.getNumSweeps(); if (nsweep != 1) { } Sweep sw = rv.getSweep(0); int nrays = sw.getRadialNumber(); float [] ddd = sw.readData(); for (int i = 0; i < nrays; i++) { int ngates = sw.getGateNumber(); float [] d = sw.readData(i); float azi = sw.getAzimuth(i); float ele = sw.getElevation(i); double t = sw.getTime(i); Date da = new Date((long) t); //da.setTime((long)t); String start_datetime = da.toString(); float dis = sw.getRangeToFirstGate(); float beamW = sw.getBeamWidth(); float gsize = sw.getGateSize(); float la = (float) sw.getOrigin(i).getLatitude(); float lo = (float) sw.getOrigin(i).getLongitude(); float al = (float) sw.getOrigin(i).getAltitude(); } }
private static void testRadialVariable(RadialDatasetSweep.RadialVariable rv) throws IOException { int nsweep = rv.getNumSweeps(); System.out.println("*** radar Sweep number is: \n" + nsweep); Sweep sw; sw = rv.getSweep(0); float gsize = sw.getGateSize(); System.out.println("*** radar Sweep gate is: \n" + gsize); /* assert (null != ddd); int nrays = sw.getRadialNumber(); for (int i = 0; i < nrays; i++) { float t = sw.getTime(i); assert (t > 0); int ngates = sw.getGateNumber(); assert (ngates > 0); float[] d = sw.readData(i); assert (null != d); float azi = sw.getAzimuth(i); assert (azi > 0); float ele = sw.getElevation(i); assert (ele > 0); float la = (float) sw.getOrigin(i).getLatitude(); assert (la > 0); float lo = (float) sw.getOrigin(i).getLongitude(); assert (lo > 0); float al = (float) sw.getOrigin(i).getAltitude(); assert (al > 0); } */ }
private static void testRadialVariable(RadialDatasetSweep.RadialVariable rv) throws IOException { int nsweep = rv.getNumSweeps(); System.out.println("*** radar Sweep number is: \n" + nsweep); Sweep sw; sw = rv.getSweep(0); float[] ddd = sw.readData(); float gsize = sw.getGateSize(); System.out.println("*** radar Sweep gate is: \n" + gsize); /* assert (null != ddd); int nrays = sw.getRadialNumber(); for (int i = 0; i < nrays; i++) { float t = sw.getTime(i); assert (t > 0); int ngates = sw.getGateNumber(); assert (ngates > 0); float[] d = sw.readData(i); assert (null != d); float azi = sw.getAzimuth(i); assert (azi > 0); float ele = sw.getElevation(i); assert (ele > 0); float la = (float) sw.getOrigin(i).getLatitude(); assert (la > 0); float lo = (float) sw.getOrigin(i).getLongitude(); assert (lo > 0); float al = (float) sw.getOrigin(i).getAltitude(); assert (al > 0); } */ }
private static void testRadialVariable(RadialDatasetSweep.RadialVariable rv) throws IOException { //ucar.nc2.dt.radial.RadialCoordSys rcsys = rv.getRadialCoordSys(); //assert rcsys != null; int nsweep = rv.getNumSweeps(); if (nsweep != 1) { } Sweep sw = rv.getSweep(0); int nrays = sw.getRadialNumber(); sw.readData(); for (int i = 0; i < nrays; i++) { sw.getGateNumber(); sw.readData(i); sw.getAzimuth(i); sw.getElevation(i); sw.getTime(i); sw.getRangeToFirstGate(); sw.getBeamWidth(); sw.getGateSize(); sw.getOrigin(i).getLatitude(); sw.getOrigin(i).getLongitude(); sw.getOrigin(i).getAltitude(); } }
/** * _more_ * * @return _more_ */ double getMaximumRadialDist() { double maxdist = 0.0; Iterator iter = dataVariables.iterator(); while (iter.hasNext()) { RadialVariable rv = (RadialVariable) iter.next(); Sweep sp = rv.getSweep(0); double dist = sp.getGateNumber() * sp.getGateSize(); if (dist > maxdist) { maxdist = dist; } } return maxdist; }
double getMaximumRadialDist() { double maxdist = 0.0; Iterator iter = dataVariables.iterator(); while (iter.hasNext()) { RadialVariable rv = (RadialVariable) iter.next(); Sweep sp = rv.getSweep(0); double dist = sp.getGateNumber() * sp.getGateSize(); if (dist > maxdist) maxdist = dist; } return maxdist; }
double getMaximumRadialDist() { double maxdist = 0.0; Iterator iter = dataVariables.iterator(); while (iter.hasNext()) { RadialDatasetSweep.RadialVariable rv = (RadialDatasetSweep.RadialVariable) iter.next(); RadialDatasetSweep.Sweep sp = rv.getSweep(0); double dist = sp.getGateNumber() * sp.getGateSize(); if (dist > maxdist) maxdist = dist; } return maxdist; }
double getMaximumRadialDist() { double maxdist = 0.0; Iterator iter = dataVariables.iterator(); while (iter.hasNext()) { RadialDatasetSweep.RadialVariable rv = (RadialDatasetSweep.RadialVariable) iter.next(); RadialDatasetSweep.Sweep sp = rv.getSweep(0); double dist = sp.getGateNumber() * sp.getGateSize(); if (dist > maxdist) maxdist = dist; } return maxdist; }
double getMaximumRadialDist() { double maxdist = 0.0; for (Object dataVariable : dataVariables) { RadialVariable rv = (RadialVariable) dataVariable; Sweep sp = rv.getSweep(0); double dist = sp.getGateNumber() * sp.getGateSize(); if (dist > maxdist) { maxdist = dist; } } return maxdist; }
double getMaximumRadialDist() { double maxdist = 0.0; for (Object dataVariable : dataVariables) { RadialVariable rv = (RadialVariable) dataVariable; Sweep sp = rv.getSweep(0); double dist = sp.getGateNumber() * sp.getGateSize(); if (dist > maxdist) { maxdist = dist; } } return maxdist; }