for (int ray = 0; ray < nrays; ray++) { double elev = s.getElevation(ray); double azi = s.getAzimuth(ray); double t = s.getTime(ray); result += elev * azi * t;
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(); } }
float [] az = new float[nrays]; for (int j = 0; j < nrays; j++) { float azi = sw.getAzimuth(j); az[j] = azi; float azi = sw.getAzimuth(i); assert(azi > 0); az[i] = azi;
float[] az = new float[nrays]; for (int j = 0; j < nrays; j++) { float azi = sw.getAzimuth(j); az[j] = azi; float[] azz = sw.getAzimuth(); float[] dat = sw.readData(); float[] da = sw.getAzimuth(); float[] de = sw.getElevation(); float azi = sw.getAzimuth(i); assert (azi > 0); az[i] = azi;
float [] az = new float[nrays]; for (int j = 0; j < nrays; j++) { float azi = sw.getAzimuth(j); az[j] = azi; sw.getAzimuth(); sw.readData(); sw.getAzimuth(); sw.getElevation(); float azi = sw.getAzimuth(i); assert(azi > 0); az[i] = azi;
float [] az = new float[nrays]; for (int j = 0; j < nrays; j++) { float azi = sw.getAzimuth(j); az[j] = azi; float [] azz = sw.getAzimuth(); float [] dat = sw.readData(); float [] da = sw.getAzimuth(); float [] de = sw.getElevation(); float azi = sw.getAzimuth(i); assert(azi > 0); az[i] = azi;
float [] az = new float[nrays]; for (int j = 0; j < nrays; j++) { float azi = sw.getAzimuth(j); az[j] = azi; sw.getAzimuth(); sw.readData(); sw.getAzimuth(); sw.getElevation(); float azi = sw.getAzimuth(i); assert(azi > 0); az[i] = azi;
az = new float[nrays]; for (int j = 0; j < nrays; j++) { float azi = sw.getAzimuth(j); az[j] = azi; float [] da = sw.getAzimuth(); float [] de = sw.getElevation(); float azi = sw.getAzimuth(i); assert(azi > 0); az[i] = azi;
float [] az = new float[nrays]; for (int j = 0; j < nrays; j++) { float azi = sw.getAzimuth(j); az[j] = azi; float [] azz = sw.getAzimuth(); float [] dat = sw.readData(); float [] da = sw.getAzimuth(); float [] de = sw.getElevation(); float azi = sw.getAzimuth(i); assert(azi > 0); az[i] = azi;
float [] az = new float[nrays]; for (int j = 0; j < nrays; j++) { float azi = sw.getAzimuth(j); az[j] = azi; float azi = sw.getAzimuth(i); assert(azi > 0); az[i] = azi;
az = new float[nrays]; for (int j = 0; j < nrays; j++) { float azi = sw.getAzimuth(j); az[j] = azi; sw.getAzimuth(); sw.getElevation(); float azi = sw.getAzimuth(i); assert (azi > 0); az[i] = azi;
az = new float[nrays]; for (int j = 0; j < nrays; j++) { float azi = sw.getAzimuth(j); az[j] = azi; sw.getAzimuth(); sw.getElevation(); float azi = sw.getAzimuth(i); assert(azi > 0); az[i] = azi;
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(); } }