public float[] readData() throws java.io.IOException { if(!isHighResolution(ds) ) { return sweepData(sweepno); } else { if( sweepno > (nsweepsHR-1) ) { int swpNo = sweepno - nsweepsHR; return sweepData(swpNo); } else { return sweepData(sweepno); } } }
public float[] readData() throws java.io.IOException { if(!isHighResolution(ds) ) { return sweepData(sweepno); } else { if( sweepno > (nsweepsHR-1) ) { int swpNo = sweepno - nsweepsHR; return sweepData(swpNo); } else { return sweepData(sweepno); } } }
public float[] readData(int ray) throws java.io.IOException { if(!isHighResolution(ds) ) { return rayData(sweepno, ray); } else { if( sweepno >= nsweepsHR ) { int swpNo = sweepno - (nsweepsHR); return rayData(swpNo, ray); } else { return rayData(sweepno, ray); } } }
public int getNumSweeps() { if(isHighResolution(ds)) { return nsweepsHR + nsweeps; } return nsweeps; }
/** * _more_ * * @param ray _more_ * * @return _more_ * * @throws java.io.IOException _more_ */ public float[] readData(int ray) throws java.io.IOException { return rayData(ray); }
public void setMeanElevation() { String eleName; eleName = "elevation" + abbrev; setMeanEle(eleName, sweepno); }
public float[] readData(int ray) throws java.io.IOException { if(!isHighResolution(ds) ) { return rayData(sweepno, ray); } else { if( sweepno >= nsweepsHR ) { int swpNo = sweepno - (nsweepsHR); return rayData(swpNo, ray); } else { return rayData(sweepno, ray); } } }
/** * _more_ * * @return _more_ * @throws java.io.IOException _more_ */ public float[] readData() throws java.io.IOException { return sweepData(); }
public float getMeanAzimuth() { if (getType() != null) return azi; return 0f; }
public float getElevation(int ray) throws IOException { String eleName = "elevation" + abbrev; return getEle(eleName, sweepno, ray); }
public float getTime(int ray) throws IOException { String tName = "time" + abbrev; return getT(tName, sweepno, ray); }
/** * _more_ * * @return _more_ * @throws java.io.IOException _more_ */ public float[] readData() throws java.io.IOException { return sweepData(); }
public float getMeanAzimuth() { if (getType() != null) return azi; return 0f; }
public int getNumSweeps() { if(isHighResolution(ds)) { return nsweepsHR + nsweeps; } return nsweeps; }
/** * Return data for 1 ray * * @param ray _more_ * @return _more_ * @throws java.io.IOException _more_ */ public float[] readData(int ray) throws java.io.IOException { return rayData(ray); }
public float[] readData() throws java.io.IOException { if(!isHighResolution(ds) ) { return sweepData(sweepno); } else { if( sweepno > (nsweepsHR-1) ) { int swpNo = sweepno - nsweepsHR; return sweepData(swpNo); } else { return sweepData(sweepno); } } }
public float[] readData(int ray) throws java.io.IOException { if(!isHighResolution(ds) ) { return rayData(sweepno, ray); } else { if( sweepno >= nsweepsHR ) { int swpNo = sweepno - (nsweepsHR); return rayData(swpNo, ray); } else { return rayData(sweepno, ray); } } }
public int getNumSweeps() { if(isHighResolution(ds)) { return nsweepsHR + nsweeps; } return nsweeps; }
/** * Return data for 1 ray * * @param ray _more_ * @return _more_ * @throws java.io.IOException _more_ */ public float[] readData(int ray) throws java.io.IOException { return rayData(ray); }
public void setMeanElevation() { String eleName; eleName = "elevation" + abbrev; setMeanEle(eleName, sweepno); }