/**
* Read data from a top level Variable and send data to a WritableByteChannel.
*
* @param v2 Variable
* @param section wanted section of data of Variable. The section list is a list of ucar.ma2.Range
* which define the requested data subset.
* @param channel WritableByteChannel object - channel that can write bytes.
* @return the number of bytes written, possibly zero.
*/
public long readToByteChannel11(
ucar.nc2.Variable v2, Section section, WritableByteChannel channel)
throws java.io.IOException, ucar.ma2.InvalidRangeException {
Array data = readData(v2, section);
float[] ftdata = new float[(int) data.getSize()];
byte[] bytedata = new byte[(int) data.getSize() * 4];
IndexIterator iter = data.getIndexIterator();
int i = 0;
ByteBuffer buffer = ByteBuffer.allocateDirect(bytedata.length);
while (iter.hasNext()) {
ftdata[i] = iter.getFloatNext();
bytedata[i] = new Float(ftdata[i]).byteValue();
buffer.put(bytedata[i]);
i++;
}
buffer = ByteBuffer.wrap(bytedata);
// write the bytes to the channel
int count = channel.write(buffer);
System.out.println("COUNT=" + count);
// check if all bytes where written
if (buffer.hasRemaining()) {
// if not all bytes were written, move the unwritten bytes to the beginning and
// set position just after the last unwritten byte
buffer.compact();
} else {
buffer.clear();
}
return (long) count;
}
// @todo Make sure units are meters
public Array getElevation(Range range) throws IOException, InvalidRangeException {
List section = new ArrayList(1);
section.add(range);
Array a = elevVar.read(section);
if (elevVarUnitsConversionFactor == 1.0) return (a);
for (IndexIterator it = a.getIndexIterator(); it.hasNext(); ) {
if (elevVar.getDataType() == DataType.DOUBLE) {
double val = it.getDoubleNext();
it.setDoubleCurrent(val * elevVarUnitsConversionFactor);
} else if (elevVar.getDataType() == DataType.FLOAT) {
float val = it.getFloatNext();
it.setFloatCurrent((float) (val * elevVarUnitsConversionFactor));
} else if (elevVar.getDataType() == DataType.INT) {
int val = it.getIntNext();
it.setIntCurrent((int) (val * elevVarUnitsConversionFactor));
} else if (elevVar.getDataType() == DataType.LONG) {
long val = it.getLongNext();
it.setLongCurrent((long) (val * elevVarUnitsConversionFactor));
} else {
throw new IllegalStateException(
"Elevation variable type <"
+ elevVar.getDataType().toString()
+ "> not double, float, int, or long.");
}
}
return (a);
}
private float testReadScalar(Variable v) throws IOException {
if (show) System.out.printf(" read %s%n", v.getNameAndDimensions());
assert (null != v);
Array a = v.read();
assert (null != a);
IndexIterator ii = a.getIndexIterator();
return ii.getFloatNext();
}
private void writeCoordinateVariable(VariableEntry variable, NetcdfFileWriteable ncFile)
throws IOException, InvalidRangeException {
int[] dimensions = {variable.getSize()};
Array array;
// so far, everything is a float or an int
// way too much code duplication but I'm done fightin java for now
if (variable.getType() == DataType.INT) {
array = new ArrayInt(dimensions);
int tempInt = 0;
IndexIterator iter = array.getIndexIterator();
while (iter.hasNext()) {
iter.getIntNext();
iter.setIntCurrent(tempInt);
tempInt++;
}
ncFile.write(variable.getVariableName(), array);
} else if (variable.getType() == DataType.FLOAT) {
array = new ArrayFloat(dimensions);
float tempFloat = 0;
IndexIterator iter = array.getIndexIterator();
while (iter.hasNext()) {
iter.getFloatNext();
iter.setFloatCurrent(tempFloat);
tempFloat++;
}
ncFile.write(variable.getVariableName(), array);
} else if (variable.getType() == DataType.LONG) {
array = new ArrayLong(dimensions);
long tempLong = 0;
IndexIterator iter = array.getIndexIterator();
while (iter.hasNext()) {
iter.getLongNext();
iter.setLongCurrent(tempLong);
tempLong++;
}
ncFile.write(variable.getVariableName(), array);
}
// ncFile.write(variable.getVariableName(),array);
}
/**
* Translate missing data to NaNs. Data must be DOUBLE or FLOAT
*
* @param in convert this array
* @return same array, with missing values replaced by NaNs
*/
private Array convertMissing(Array in) {
if (debugRead) System.out.println("convertMissing ");
IndexIterator iterIn = in.getIndexIterator();
if (in.getElementType() == double.class) {
while (iterIn.hasNext()) {
double val = iterIn.getDoubleNext();
if (isMissing_(val)) iterIn.setDoubleCurrent(Double.NaN);
}
} else if (in.getElementType() == float.class) {
while (iterIn.hasNext()) {
float val = iterIn.getFloatNext();
if (isMissing_(val)) iterIn.setFloatCurrent(Float.NaN);
}
}
return in;
}
private boolean compareData(String name, Array data1, Array data2, double tol, boolean justOne) {
boolean ok = true;
if (data1.getSize() != data2.getSize()) {
f.format(" DIFF %s: size %d !== %d%n", name, data1.getSize(), data2.getSize());
ok = false;
}
if (data1.getElementType() != data2.getElementType()) {
f.format(
" DIFF %s: element type %s !== %s%n",
name, data1.getElementType(), data2.getElementType());
ok = false;
}
if (!ok) return false;
DataType dt = DataType.getType(data1.getElementType());
IndexIterator iter1 = data1.getIndexIterator();
IndexIterator iter2 = data2.getIndexIterator();
if (dt == DataType.DOUBLE) {
while (iter1.hasNext() && iter2.hasNext()) {
double v1 = iter1.getDoubleNext();
double v2 = iter2.getDoubleNext();
if (!Double.isNaN(v1) || !Double.isNaN(v2))
if (!closeEnough(v1, v2, tol)) {
f.format(
" DIFF %s: %f != %f count=%s diff = %f pdiff = %f %n",
name, v1, v2, iter1, diff(v1, v2), pdiff(v1, v2));
ok = false;
if (justOne) break;
}
}
} else if (dt == DataType.FLOAT) {
while (iter1.hasNext() && iter2.hasNext()) {
float v1 = iter1.getFloatNext();
float v2 = iter2.getFloatNext();
if (!Float.isNaN(v1) || !Float.isNaN(v2))
if (!closeEnough(v1, v2, (float) tol)) {
f.format(
" DIFF %s: %f != %f count=%s diff = %f pdiff = %f %n",
name, v1, v2, iter1, diff(v1, v2), pdiff(v1, v2));
ok = false;
if (justOne) break;
}
}
} else if (dt == DataType.INT) {
while (iter1.hasNext() && iter2.hasNext()) {
int v1 = iter1.getIntNext();
int v2 = iter2.getIntNext();
if (v1 != v2) {
f.format(
" DIFF %s: %d != %d count=%s diff = %f pdiff = %f %n",
name, v1, v2, iter1, diff(v1, v2), pdiff(v1, v2));
ok = false;
if (justOne) break;
}
}
} else if (dt == DataType.SHORT) {
while (iter1.hasNext() && iter2.hasNext()) {
short v1 = iter1.getShortNext();
short v2 = iter2.getShortNext();
if (v1 != v2) {
f.format(
" DIFF %s: %d != %d count=%s diff = %f pdiff = %f %n",
name, v1, v2, iter1, diff(v1, v2), pdiff(v1, v2));
ok = false;
if (justOne) break;
}
}
} else if (dt == DataType.BYTE) {
while (iter1.hasNext() && iter2.hasNext()) {
byte v1 = iter1.getByteNext();
byte v2 = iter2.getByteNext();
if (v1 != v2) {
f.format(
" DIFF %s: %d != %d count=%s diff = %f pdiff = %f %n",
name, v1, v2, iter1, diff(v1, v2), pdiff(v1, v2));
ok = false;
if (justOne) break;
}
}
} else if (dt == DataType.STRUCTURE) {
while (iter1.hasNext() && iter2.hasNext()) {
compareStructureData(
(StructureData) iter1.next(), (StructureData) iter2.next(), tol, justOne);
}
}
return ok;
}
