private static void putArrayData(IndexIterator ii, DataType dataType, Number data) { switch (dataType) { case INT: ii.setIntNext(data.intValue()); break; case LONG: ii.setLongNext(data.longValue()); break; case FLOAT: ii.setFloatNext(data.floatValue()); break; case DOUBLE: ii.setDoubleNext(data.doubleValue()); break; } }
private void makeCoordinateDataWithMissing( int datatype, Variable time, Variable elev, Variable azi, Variable nradialsVar, Variable ngatesVar, List groups) { Array timeData = Array.factory(time.getDataType().getPrimitiveClassType(), time.getShape()); Index timeIndex = timeData.getIndex(); Array elevData = Array.factory(elev.getDataType().getPrimitiveClassType(), elev.getShape()); Index elevIndex = elevData.getIndex(); Array aziData = Array.factory(azi.getDataType().getPrimitiveClassType(), azi.getShape()); Index aziIndex = aziData.getIndex(); Array nradialsData = Array.factory(nradialsVar.getDataType().getPrimitiveClassType(), nradialsVar.getShape()); IndexIterator nradialsIter = nradialsData.getIndexIterator(); Array ngatesData = Array.factory(ngatesVar.getDataType().getPrimitiveClassType(), ngatesVar.getShape()); IndexIterator ngatesIter = ngatesData.getIndexIterator(); // first fill with missing data IndexIterator ii = timeData.getIndexIterator(); while (ii.hasNext()) ii.setIntNext(MISSING_INT); ii = elevData.getIndexIterator(); while (ii.hasNext()) ii.setFloatNext(MISSING_FLOAT); ii = aziData.getIndexIterator(); while (ii.hasNext()) ii.setFloatNext(MISSING_FLOAT); // now set the coordinate variables from the Cinrad2Record radial int last_msecs = Integer.MIN_VALUE; int nscans = groups.size(); try { for (int scan = 0; scan < nscans; scan++) { List scanGroup = (List) groups.get(scan); int nradials = scanGroup.size(); Cinrad2Record first = null; for (int j = 0; j < nradials; j++) { Cinrad2Record r = (Cinrad2Record) scanGroup.get(j); if (first == null) first = r; int radial = r.radial_num - 1; timeData.setInt(timeIndex.set(scan, radial), r.data_msecs); elevData.setFloat(elevIndex.set(scan, radial), r.getElevation()); aziData.setFloat(aziIndex.set(scan, radial), r.getAzimuth()); if (r.data_msecs < last_msecs) logger.warn("makeCoordinateData time out of order " + r.data_msecs); last_msecs = r.data_msecs; } nradialsIter.setIntNext(nradials); ngatesIter.setIntNext(first.getGateCount(datatype)); } } catch (java.lang.ArrayIndexOutOfBoundsException ae) { logger.debug("Cinrad2IOSP.uncompress ", ae); } time.setCachedData(timeData, false); elev.setCachedData(elevData, false); azi.setCachedData(aziData, false); nradialsVar.setCachedData(nradialsData, false); ngatesVar.setCachedData(ngatesData, false); }
private void makeCoordinateData( int datatype, Variable time, Variable elev, Variable azi, Variable nradialsVar, Variable ngatesVar, List groups) { Array timeData = Array.factory(time.getDataType().getPrimitiveClassType(), time.getShape()); IndexIterator timeDataIter = timeData.getIndexIterator(); Array elevData = Array.factory(elev.getDataType().getPrimitiveClassType(), elev.getShape()); IndexIterator elevDataIter = elevData.getIndexIterator(); Array aziData = Array.factory(azi.getDataType().getPrimitiveClassType(), azi.getShape()); IndexIterator aziDataIter = aziData.getIndexIterator(); Array nradialsData = Array.factory(nradialsVar.getDataType().getPrimitiveClassType(), nradialsVar.getShape()); IndexIterator nradialsIter = nradialsData.getIndexIterator(); Array ngatesData = Array.factory(ngatesVar.getDataType().getPrimitiveClassType(), ngatesVar.getShape()); IndexIterator ngatesIter = ngatesData.getIndexIterator(); int last_msecs = Integer.MIN_VALUE; int nscans = groups.size(); int maxRadials = volScan.getMaxRadials(); for (int i = 0; i < nscans; i++) { List scanGroup = (List) groups.get(i); int nradials = scanGroup.size(); Cinrad2Record first = null; for (int j = 0; j < nradials; j++) { Cinrad2Record r = (Cinrad2Record) scanGroup.get(j); if (first == null) first = r; timeDataIter.setIntNext(r.data_msecs); elevDataIter.setFloatNext(r.getElevation()); aziDataIter.setFloatNext(r.getAzimuth()); if (r.data_msecs < last_msecs) logger.warn("makeCoordinateData time out of order " + r.data_msecs); last_msecs = r.data_msecs; } for (int j = nradials; j < maxRadials; j++) { timeDataIter.setIntNext(MISSING_INT); elevDataIter.setFloatNext(MISSING_FLOAT); aziDataIter.setFloatNext(MISSING_FLOAT); } nradialsIter.setIntNext(nradials); ngatesIter.setIntNext(first.getGateCount(datatype)); } time.setCachedData(timeData, false); elev.setCachedData(elevData, false); azi.setCachedData(aziData, false); nradialsVar.setCachedData(nradialsData, false); ngatesVar.setCachedData(ngatesData, false); }