@Test
public void testGetInstanceById() {
try {
InstanceElement ie = applicationElement.getInstanceById(ODSHelper.asODSLongLong(58));
assertEquals("1/3 Octave - Zusammenfassung", ie.getName());
assertEquals(58, ODSHelper.asJLong(ie.getId()));
} catch (AoException e) {
fail(e.reason);
}
// query non existing instance
try {
applicationElement.getInstanceById(ODSHelper.asODSLongLong(999));
fail("AoException expected");
} catch (AoException e) {
}
}
@Test
public void testCreateInstance() {
try {
InstanceElement ie = applicationElement.createInstance("new_instance");
assertEquals(83, ODSHelper.asJLong(ie.getId()));
InstanceElement ie1 = applicationElement.createInstance("ni1");
assertEquals(84, ODSHelper.asJLong(ie1.getId()));
applicationElement.removeInstance(ie.getId(), false);
InstanceElement ie2 = applicationElement.createInstance("ni2");
assertEquals(85, ODSHelper.asJLong(ie2.getId()));
applicationElement.removeInstance(ie1.getId(), false);
applicationElement.removeInstance(ie2.getId(), false);
} catch (AoException e) {
fail(e.reason);
}
}
@Test
public void testGetId() {
try {
assertEquals(19, ODSHelper.asJLong(applicationElement.getId()));
} catch (AoException e) {
fail(e.reason);
}
}
@Test
public void testGetInstanceByName() {
try {
InstanceElement ie = applicationElement.getInstanceByName("1/3 Octave - Zusammenfassung");
assertEquals(58, ODSHelper.asJLong(ie.getId()));
ie = applicationElement.getInstanceByName("not existing instance");
assertEquals(null, ie);
} catch (AoException e) {
fail(e.reason);
}
// check duplicate names
try {
ApplicationElement aeParamSet =
applicationElement.getApplicationStructure().getElementByName("pas");
aeParamSet.getInstanceByName("basic");
fail("AoException expected");
} catch (AoException e) {
}
}
@Test
public void testRemoveInstance() {
try {
assertEquals(3, applicationElement.getInstances("*").getCount());
InstanceElement ie = applicationElement.createInstance("new_instance");
assertEquals(4, applicationElement.getInstances("*").getCount());
assertEquals(ie.getName(), applicationElement.getInstanceByName("new_instance").getName());
applicationElement.removeInstance(ie.getId(), false);
assertEquals(3, applicationElement.getInstances("*").getCount());
assertEquals(null, applicationElement.getInstanceByName("new_instance"));
} catch (AoException e) {
fail(e.reason);
}
// non existing instance
try {
applicationElement.removeInstance(ODSHelper.asODSLongLong(999), false);
fail("AoException expected");
} catch (AoException e) {
}
}
public TS_Value readFlags(AtfxCache atfxCache, long iidLc) throws AoException {
long start = System.currentTimeMillis();
// read external component instances
long aidLc = atfxCache.getAidsByBaseType("aolocalcolumn").iterator().next();
ApplicationRelation relExtComps =
atfxCache.getApplicationRelationByBaseName(aidLc, "external_component");
Collection<Long> iidExtComps = atfxCache.getRelatedInstanceIds(aidLc, iidLc, relExtComps);
if (iidExtComps.size() < 1) {
return null;
} else if (iidExtComps.size() != 1) {
throw new AoException(
ErrorCode.AO_NOT_IMPLEMENTED,
SeverityFlag.ERROR,
0,
"The implementation currently only may read exactly one external component file");
}
long iidExtComp = iidExtComps.iterator().next();
long aidExtComp = atfxCache.getAidsByBaseType("aoexternalcomponent").iterator().next();
// get filename
Integer attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "flags_filename_url");
if (attrNo == null) {
return null;
}
TS_Value v = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp);
if ((v == null)
|| (v.flag != 15)
|| (v.u.stringVal() == null)
|| (v.u.stringVal().length() < 1)) {
return null;
}
String flagsFilenameUrl = v.u.stringVal();
File fileRoot = new File(atfxCache.getContext().get("FILE_ROOT").value.u.stringVal());
File flagsFile = new File(fileRoot, flagsFilenameUrl);
// read start offset, may be DT_LONG or DT_LONGLONG
int flagsStartOffset = 0;
attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "flags_start_offset");
if (attrNo == null) {
throw new AoException(
ErrorCode.AO_NOT_FOUND,
SeverityFlag.ERROR,
0,
"Application attribute derived from base attribute 'flags_start_offset' not found");
}
TS_Value vStartOffset = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp);
if (vStartOffset.u.discriminator() == DataType.DT_LONG) {
flagsStartOffset = vStartOffset.u.longVal();
} else if (vStartOffset.u.discriminator() == DataType.DT_LONGLONG) {
flagsStartOffset = (int) ODSHelper.asJLong(vStartOffset.u.longlongVal());
}
// read length
attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "component_length");
int componentLength = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp).u.longVal();
// read values
TS_Value tsValue = new TS_Value();
tsValue.flag = (short) 15;
tsValue.u = new TS_Union();
tsValue.u.shortSeq(new short[componentLength]);
RandomAccessFile raf = null;
byte[] backingBuffer = new byte[2];
try {
// open source channel
raf = new BufferedRandomAccessFile(flagsFile, "r", BUFFER_SIZE);
raf.seek(flagsStartOffset);
for (int i = 0; i < componentLength; i++) {
raf.read(backingBuffer, 0, backingBuffer.length);
ByteBuffer sourceMbb = ByteBuffer.wrap(backingBuffer);
sourceMbb.order(ByteOrder.LITTLE_ENDIAN);
tsValue.u.shortSeq()[i] = sourceMbb.getShort();
}
LOG.info(
"Read "
+ componentLength
+ " flags from component file '"
+ flagsFilenameUrl
+ "' in "
+ (System.currentTimeMillis() - start)
+ "ms");
return tsValue;
} catch (IOException e) {
LOG.error(e.getMessage(), e);
throw new AoException(ErrorCode.AO_NOT_FOUND, SeverityFlag.ERROR, 0, e.getMessage());
} finally {
backingBuffer = null;
try {
if (raf != null) {
raf.close();
}
raf = null;
} catch (Exception e) {
LOG.error(e.getMessage(), e);
}
}
}
private Collection<String> readStringValues(AtfxCache atfxCache, long iidExtComp)
throws AoException {
long start = System.currentTimeMillis();
long aidExtComp = atfxCache.getAidsByBaseType("aoexternalcomponent").iterator().next();
// get filename
int attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "filename_url");
String filenameUrl = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp).u.stringVal();
File fileRoot = new File(atfxCache.getContext().get("FILE_ROOT").value.u.stringVal());
File extCompFile = new File(fileRoot, filenameUrl);
// get datatype
attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "value_type");
int valueType = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp).u.enumVal();
if (valueType != 12) {
throw new AoException(
ErrorCode.AO_NOT_IMPLEMENTED,
SeverityFlag.ERROR,
0,
"Unsupported 'value_type' for data type DT_STRING or DT_DATE: " + valueType);
}
// read length
attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "component_length");
int componentLength = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp).u.longVal();
// read start offset, may be DT_LONG or DT_LONGLONG
long startOffset = 0;
attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "start_offset");
TS_Value vStartOffset = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp);
if (vStartOffset.u.discriminator() == DataType.DT_LONG) {
startOffset = vStartOffset.u.longVal();
} else if (vStartOffset.u.discriminator() == DataType.DT_LONGLONG) {
startOffset = ODSHelper.asJLong(vStartOffset.u.longlongVal());
}
// value_offset is irrelevant according ODS Standard 3.42, page 3-51
// read values
RandomAccessFile raf = null;
byte[] backingBuffer = new byte[componentLength];
List<String> list = new ArrayList<String>();
try {
// open source channel
raf = new BufferedRandomAccessFile(extCompFile, "r", BUFFER_SIZE);
raf.seek(startOffset);
raf.read(backingBuffer, 0, backingBuffer.length);
int startPosition = 0;
for (int position = 0; position < componentLength; position++) {
if (backingBuffer[position] == 0) {
list.add(
new String(backingBuffer, startPosition, position - startPosition, "ISO-8859-1"));
startPosition = position + 1;
}
}
LOG.info(
"Read "
+ list.size()
+ " string values from component file '"
+ filenameUrl
+ "' in "
+ (System.currentTimeMillis() - start)
+ "ms [value_type="
+ ODSHelper.valueType2String(valueType)
+ "]");
return list;
} catch (IOException e) {
LOG.error(e.getMessage(), e);
throw new AoException(ErrorCode.AO_NOT_FOUND, SeverityFlag.ERROR, 0, e.getMessage());
} finally {
try {
if (raf != null) {
raf.close();
}
raf = null;
} catch (Exception e) {
LOG.error(e.getMessage(), e);
}
}
}
public TS_Value readValues(AtfxCache atfxCache, long iidLc, DataType targetDataType)
throws AoException {
// read external component instances
long aidLc = atfxCache.getAidsByBaseType("aolocalcolumn").iterator().next();
ApplicationRelation relExtComps =
atfxCache.getApplicationRelationByBaseName(aidLc, "external_component");
List<Long> iidExtComps = atfxCache.getRelatedInstanceIds(aidLc, iidLc, relExtComps);
if (iidExtComps.size() > 0) {
Collections.sort(iidExtComps, new ExternalComponentComparator(atfxCache));
}
TS_Value tsValue = new TS_Value();
tsValue.flag = (short) 15;
tsValue.u = new TS_Union();
// get raw data type
DataType rawDataType = targetDataType;
Integer attrNo = atfxCache.getAttrNoByBaName(aidLc, "raw_datatype");
if (attrNo != null) {
TS_Value valRawDatatype = atfxCache.getInstanceValue(aidLc, attrNo, iidLc);
if (valRawDatatype != null && valRawDatatype.flag == 15) {
int val = valRawDatatype.u.enumVal();
if (val == 1) { // DT_STRING
rawDataType = DataType.DS_STRING;
} else if (val == 2) { // DT_SHORT
rawDataType = DataType.DS_SHORT;
} else if (val == 3) { // DT_FLOAT
rawDataType = DataType.DS_FLOAT;
} else if (val == 4) { // DT_BOOLEAN
rawDataType = DataType.DS_BOOLEAN;
} else if (val == 5) { // DT_BYTE
rawDataType = DataType.DS_BYTE;
} else if (val == 6) { // DT_LONG
rawDataType = DataType.DS_LONG;
} else if (val == 7) { // DT_DOUBLE
rawDataType = DataType.DS_DOUBLE;
} else if (val == 8) { // DT_LONGLONG
rawDataType = DataType.DS_LONGLONG;
} else if (val == 10) { // DT_DATE
rawDataType = DataType.DS_DATE;
} else if (val == 11) { // DT_BYTESTR
rawDataType = DataType.DS_BYTESTR;
} else if (val == 13) { // DT_COMPLEX
rawDataType = DataType.DS_COMPLEX;
} else if (val == 14) { // DT_DCOMPLEX
rawDataType = DataType.DS_DCOMPLEX;
} else if (val == 28) { // DT_EXTERNALREFERENCE
rawDataType = DataType.DS_EXTERNALREFERENCE;
} else if (val == 30) { // DT_ENUM
rawDataType = DataType.DS_ENUM;
}
}
}
// DS_STRING
if (rawDataType == DataType.DS_STRING || rawDataType == DataType.DS_BYTESTR) {
List<String> list = new ArrayList<String>();
for (long iidExtComp : iidExtComps) {
list.addAll(readStringValues(atfxCache, iidExtComp));
}
tsValue.u.stringSeq(list.toArray(new String[0]));
} // DS_DATE
else if (rawDataType == DataType.DS_DATE) {
List<String> list = new ArrayList<String>();
for (long iidExtComp : iidExtComps) {
list.addAll(readStringValues(atfxCache, iidExtComp));
}
tsValue.u.dateSeq(list.toArray(new String[0]));
}
// DS_NUMBER
else {
List<Number> list = new ArrayList<Number>();
for (long iidExtComp : iidExtComps) {
list.addAll(readNumberValues(atfxCache, iidExtComp, rawDataType));
}
// DS_BOOLEAN
if (rawDataType == DataType.DS_BOOLEAN) {
boolean[] ar = new boolean[list.size()];
for (int i = 0; i < list.size(); i++) {
ar[i] = list.get(i).byteValue() != 0;
}
tsValue.u.booleanSeq(ar);
}
// DS_BYTE
else if (rawDataType == DataType.DS_BYTE) {
byte[] ar = new byte[list.size()];
for (int i = 0; i < list.size(); i++) {
ar[i] = list.get(i).byteValue();
}
tsValue.u.byteSeq(ar);
}
// DS_SHORT
else if (rawDataType == DataType.DS_SHORT) {
short[] ar = new short[list.size()];
for (int i = 0; i < list.size(); i++) {
ar[i] = list.get(i).shortValue();
}
tsValue.u.shortSeq(ar);
}
// DS_LONG
else if (rawDataType == DataType.DS_LONG) {
int[] ar = new int[list.size()];
for (int i = 0; i < list.size(); i++) {
ar[i] = list.get(i).intValue();
}
tsValue.u.longSeq(ar);
}
// DS_DOUBLE
else if (rawDataType == DataType.DS_DOUBLE) {
double[] ar = new double[list.size()];
for (int i = 0; i < list.size(); i++) {
ar[i] = list.get(i).doubleValue();
}
tsValue.u.doubleSeq(ar);
}
// DS_LONGLONG
else if (rawDataType == DataType.DS_LONGLONG) {
T_LONGLONG[] ar = new T_LONGLONG[list.size()];
for (int i = 0; i < list.size(); i++) {
ar[i] = ODSHelper.asODSLongLong(list.get(i).longValue());
}
tsValue.u.longlongSeq(ar);
}
// DS_FLOAT
else if (rawDataType == DataType.DS_FLOAT) {
float[] ar = new float[list.size()];
for (int i = 0; i < list.size(); i++) {
ar[i] = list.get(i).floatValue();
}
tsValue.u.floatSeq(ar);
}
// DS_COMPLEX
else if (rawDataType == DataType.DS_COMPLEX) {
int size = list.size() / 2;
T_COMPLEX[] ar = new T_COMPLEX[size];
for (int i = 0; i < size; i++) {
ar[i] = new T_COMPLEX();
ar[i].r = list.get(i * 2).floatValue();
ar[i].i = list.get(i * 2 + 1).floatValue();
}
tsValue.u.complexSeq(ar);
}
// DS_DCOMPLEX
else if (rawDataType == DataType.DS_DCOMPLEX) {
int size = list.size() / 2;
T_DCOMPLEX[] ar = new T_DCOMPLEX[size];
for (int i = 0; i < size; i++) {
ar[i] = new T_DCOMPLEX();
ar[i].r = list.get(i * 2).doubleValue();
ar[i].i = list.get(i * 2 + 1).doubleValue();
}
tsValue.u.dcomplexSeq(ar);
}
// unsupported
else {
throw new AoException(
ErrorCode.AO_NOT_IMPLEMENTED,
SeverityFlag.ERROR,
0,
"Reading values from external component not yet supported for datatype: "
+ ODSHelper.dataType2String(targetDataType));
}
}
return tsValue;
}
private List<Number> readNumberValues(AtfxCache atfxCache, long iidExtComp, DataType rawDataType)
throws AoException {
long start = System.currentTimeMillis();
List<Number> list = new ArrayList<Number>();
long aidExtComp = atfxCache.getAidsByBaseType("aoexternalcomponent").iterator().next();
// get filename
Integer attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "filename_url");
String filenameUrl = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp).u.stringVal();
File fileRoot = new File(atfxCache.getContext().get("FILE_ROOT").value.u.stringVal());
File extCompFile = new File(fileRoot, filenameUrl);
// get value type
attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "value_type");
int valueType = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp).u.enumVal();
// read length
attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "component_length");
int componentLength = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp).u.longVal();
// read start offset, may be DT_LONG or DT_LONGLONG
int startOffset = 0;
attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "start_offset");
TS_Value vStartOffset = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp);
if (vStartOffset.u.discriminator() == DataType.DT_LONG) {
startOffset = vStartOffset.u.longVal();
} else if (vStartOffset.u.discriminator() == DataType.DT_LONGLONG) {
startOffset = (int) ODSHelper.asJLong(vStartOffset.u.longlongVal());
}
// read value offset
attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "value_offset");
int valueOffset = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp).u.longVal();
// read bit count
short bitCount = 0;
attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "ao_bit_count");
if (attrNo != null) {
bitCount = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp).u.shortVal();
}
// read bit offset
short bitOffset = 0;
attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "ao_bit_offset");
if (attrNo != null) {
bitOffset = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp).u.shortVal();
}
// block_size, valuesperblock
attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "block_size");
int blockSize = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp).u.longVal();
// valuesperblock
attrNo = atfxCache.getAttrNoByBaName(aidExtComp, "valuesperblock");
int valuesperblock = atfxCache.getInstanceValue(aidExtComp, attrNo, iidExtComp).u.longVal();
// read values
RandomAccessFile raf = null;
try {
// open source file
raf = new BufferedRandomAccessFile(extCompFile, "r", BUFFER_SIZE);
raf.seek(startOffset);
// initialize buffer
ByteBuffer sourceMbb = ByteBuffer.allocate(blockSize);
ByteOrder byteOrder = ByteOrder.LITTLE_ENDIAN;
// dt_short_beo [7], dt_long_beo [8], dt_longlong_beo [9], ieeefloat4_beo [10], ieeefloat8_beo
// [11],
// dt_boolean_flags_beo [15], dt_byte_flags_beo [16], dt_string_flags_beo [17], dt_bytestr_beo
// [18],
// dt_sbyte_flags_beo [20], dt_ushort_beo [22], dt_ulong_beo [24], dt_string_utf8_beo [26]
// dt_bit_int_beo [28], dt_bit_uint_beo [30], dt_bit_float_beo [32]
if ((valueType == 7)
|| (valueType == 8)
|| (valueType == 9)
|| (valueType == 10)
|| (valueType == 11)
|| (valueType == 15)
|| (valueType == 16)
|| (valueType == 17)
|| (valueType == 18)
|| (valueType == 20)
|| (valueType == 22)
|| (valueType == 24)
|| (valueType == 26)
|| (valueType == 28)
|| (valueType == 30)
|| (valueType == 32)) {
byteOrder = ByteOrder.BIG_ENDIAN;
}
sourceMbb.order(byteOrder);
// loop over blocks
for (int i = 0; i < componentLength; i += valuesperblock) {
// read whole block into memory
byte[] record = new byte[blockSize];
raf.read(record, 0, record.length);
sourceMbb.clear();
sourceMbb.put(record);
sourceMbb.position(valueOffset);
// sub blocks are consecutive, puhh!
for (int j = 0; j < valuesperblock; j++) {
// 1=dt_byte
if (valueType == 1) {
// int b = sourceMbb.get() & 0xFF;
list.add(sourceMbb.get());
}
// 19=dt_sbyte
else if (valueType == 19) {
// short b = (short) (sourceMbb.get() & 0xFF);
list.add(sourceMbb.get());
}
// 2=dt_short, 7=dt_short_beo
else if ((valueType == 2) || (valueType == 7)) {
list.add(sourceMbb.getShort());
}
// 3=dt_long, 8=dt_long_beo
else if ((valueType == 3) || (valueType == 8)) {
list.add(sourceMbb.getInt());
}
// 4=dt_longlong, 9=dt_longlong_beo
else if ((valueType == 4) || (valueType == 9)) {
list.add(sourceMbb.getLong());
}
// 5=ieeefloat4, 10=ieeefloat4_beo
else if ((valueType == 5) || (valueType == 10)) {
list.add(sourceMbb.getFloat());
}
// 6=ieeefloat8, 11=ieeefloat8_beo
else if ((valueType == 6) || (valueType == 11)) {
list.add(sourceMbb.getDouble());
}
// 21=dt_ushort, 22=dt_ushort_beo
else if ((valueType == 21) || (valueType == 22)) {
int val = sourceMbb.getShort() & 0xffff;
list.add(val);
}
// 23=dt_ulong, 24=dt_ulong_beo
else if ((valueType == 23) || (valueType == 24)) {
long val = sourceMbb.getInt() & 0xffffffffL;
list.add(val);
}
// 29=dt_bit_uint, 30=dt_bit_uint_beo
else if ((valueType == 29) || (valueType == 30)) {
// read that number of bytes from the byte position within the file
int bytesToRead = ((bitCount + bitOffset - 1) / 8) + 1;
byte[] tmp = new byte[bytesToRead];
sourceMbb.get(tmp);
// put the byte into an integer to enable bit shifting
if (tmp.length <= 4) {
ByteBuffer bb = ByteBuffer.allocate(4);
bb.order(byteOrder);
bb.put(tmp);
bb.rewind();
int intValue = bb.getInt();
intValue = intValue >> bitOffset; // shift right bit offset
int mask = 0xFFFFFFFF >>> (32 - bitCount); // mask out unnecessary bits
intValue = intValue & mask;
list.add(intValue);
}
// put the byte into a long to enable bit shifting
else {
ByteBuffer bb = ByteBuffer.allocate(8);
bb.order(byteOrder);
bb.put(tmp);
bb.rewind();
long longValue = bb.getLong();
longValue = longValue >> bitOffset; // shift right bit offset
long mask = 0xFFFFFFFFFFFFFFFFl >>> (64 - bitCount); // mask out unnecessary bits
longValue = longValue & mask;
list.add(longValue);
}
}
// unsupported data type
else {
throw new AoException(
ErrorCode.AO_NOT_IMPLEMENTED,
SeverityFlag.ERROR,
0,
"Unsupported 'value_type': " + ODSHelper.valueType2String(valueType));
}
}
}
LOG.info(
"Read "
+ list.size()
+ " numeric values from component file '"
+ filenameUrl
+ "' in "
+ (System.currentTimeMillis() - start)
+ "ms [value_type="
+ ODSHelper.valueType2String(valueType)
+ "]");
return list;
} catch (IOException e) {
LOG.error(e.getMessage(), e);
throw new AoException(ErrorCode.AO_NOT_FOUND, SeverityFlag.ERROR, 0, e.getMessage());
} finally {
if (raf != null) {
try {
raf.close();
} catch (IOException ioe) {
LOG.error(ioe.getMessage(), ioe);
}
raf = null;
}
}
}