id
int64
22
34.9k
comment_id
int64
0
328
comment
stringlengths
2
2.55k
code
stringlengths
31
107k
classification
stringclasses
6 values
isFinished
bool
1 class
code_context_2
stringlengths
21
27.3k
code_context_10
stringlengths
29
27.3k
code_context_20
stringlengths
29
27.3k
24,576
0
// If a manifest doesn't have a version, the other attributes won't get written out. Lame.
private void addEntriesToMainManifest(Manifest manifest) { Attributes attrs = manifest.getMainAttributes(); // If a manifest doesn't have a version, the other attributes won't get written out. Lame. attrs.put(Attributes.Name.MANIFEST_VERSION, new Date().toString()); for (Map.Entry<Attributes.Name, String> entry : this.manifestEntries.entrySet()) { attrs.put(entry.getKey(), entry.getValue()); } }
DEFECT
true
private void addEntriesToMainManifest(Manifest manifest) { Attributes attrs = manifest.getMainAttributes(); // If a manifest doesn't have a version, the other attributes won't get written out. Lame. attrs.put(Attributes.Name.MANIFEST_VERSION, new Date().toString()); for (Map.Entry<Attributes.Name, String> entry : this.manifestEntries.entrySet()) {
private void addEntriesToMainManifest(Manifest manifest) { Attributes attrs = manifest.getMainAttributes(); // If a manifest doesn't have a version, the other attributes won't get written out. Lame. attrs.put(Attributes.Name.MANIFEST_VERSION, new Date().toString()); for (Map.Entry<Attributes.Name, String> entry : this.manifestEntries.entrySet()) { attrs.put(entry.getKey(), entry.getValue()); } }
private void addEntriesToMainManifest(Manifest manifest) { Attributes attrs = manifest.getMainAttributes(); // If a manifest doesn't have a version, the other attributes won't get written out. Lame. attrs.put(Attributes.Name.MANIFEST_VERSION, new Date().toString()); for (Map.Entry<Attributes.Name, String> entry : this.manifestEntries.entrySet()) { attrs.put(entry.getKey(), entry.getValue()); } }
22
0
// FIXME: this is almost certainly boned. a Reg could appear in the // address expressions.
public boolean usesRegs() { // FIXME: this is almost certainly boned. a Reg could appear in the // address expressions. for (int i=0;i<rhs().length;++i) { if (usesDirectly(i) && rhs()[i] instanceof Reg) { return true; } } if (opcode.form().implicitUses(head().code()).length!=0) { return true; } return false; }
DEFECT
true
public boolean usesRegs() { // FIXME: this is almost certainly boned. a Reg could appear in the // address expressions. for (int i=0;i<rhs().length;++i) { if (usesDirectly(i) && rhs()[i] instanceof Reg) {
public boolean usesRegs() { // FIXME: this is almost certainly boned. a Reg could appear in the // address expressions. for (int i=0;i<rhs().length;++i) { if (usesDirectly(i) && rhs()[i] instanceof Reg) { return true; } } if (opcode.form().implicitUses(head().code()).length!=0) { return true; } return false; }
public boolean usesRegs() { // FIXME: this is almost certainly boned. a Reg could appear in the // address expressions. for (int i=0;i<rhs().length;++i) { if (usesDirectly(i) && rhs()[i] instanceof Reg) { return true; } } if (opcode.form().implicitUses(head().code()).length!=0) { return true; } return false; }
28
0
//TODO: For each model create separate implementation.
@Override public void process(JCas jCas) throws AnalysisEngineProcessException { long startTime = System.currentTimeMillis(); FeatureExtractor fe = new NYTEntitySalienceFeatureExtractor(); List<EntityInstance> entityInstances; try { entityInstances = fe.getEntityInstances(jCas, TrainingSettings.FeatureExtractor.ENTITY_SALIENCE); final int featureVectorSize = FeatureSetFactory.createFeatureSet(TrainingSettings.FeatureExtractor.ENTITY_SALIENCE).getFeatureVectorSize(); //TODO: For each model create separate implementation. RandomForestClassificationModel rfm = (RandomForestClassificationModel)trainingModel.stages()[2]; for(EntityInstance ei : entityInstances) { Vector vei = FeatureValueInstanceUtils.convertToSparkMLVector(ei, featureVectorSize); double label = rfm.predict(vei); Vector probabilities = rfm.predictProbability(vei); double salience = probabilities.toArray()[1]; SalientEntity salientEntity = new SalientEntity(jCas, 0, 0); salientEntity.setLabel(label); salientEntity.setID(ei.getEntityId()); salientEntity.setSalience(salience); salientEntity.addToIndexes(); } long endTime = System.currentTimeMillis() - startTime; logger.debug("Annotating salient entities finished in {}ms.", endTime); } catch (Exception e) { throw new AnalysisEngineProcessException(e); } }
IMPLEMENTATION
true
entityInstances = fe.getEntityInstances(jCas, TrainingSettings.FeatureExtractor.ENTITY_SALIENCE); final int featureVectorSize = FeatureSetFactory.createFeatureSet(TrainingSettings.FeatureExtractor.ENTITY_SALIENCE).getFeatureVectorSize(); //TODO: For each model create separate implementation. RandomForestClassificationModel rfm = (RandomForestClassificationModel)trainingModel.stages()[2]; for(EntityInstance ei : entityInstances) {
@Override public void process(JCas jCas) throws AnalysisEngineProcessException { long startTime = System.currentTimeMillis(); FeatureExtractor fe = new NYTEntitySalienceFeatureExtractor(); List<EntityInstance> entityInstances; try { entityInstances = fe.getEntityInstances(jCas, TrainingSettings.FeatureExtractor.ENTITY_SALIENCE); final int featureVectorSize = FeatureSetFactory.createFeatureSet(TrainingSettings.FeatureExtractor.ENTITY_SALIENCE).getFeatureVectorSize(); //TODO: For each model create separate implementation. RandomForestClassificationModel rfm = (RandomForestClassificationModel)trainingModel.stages()[2]; for(EntityInstance ei : entityInstances) { Vector vei = FeatureValueInstanceUtils.convertToSparkMLVector(ei, featureVectorSize); double label = rfm.predict(vei); Vector probabilities = rfm.predictProbability(vei); double salience = probabilities.toArray()[1]; SalientEntity salientEntity = new SalientEntity(jCas, 0, 0); salientEntity.setLabel(label); salientEntity.setID(ei.getEntityId()); salientEntity.setSalience(salience);
@Override public void process(JCas jCas) throws AnalysisEngineProcessException { long startTime = System.currentTimeMillis(); FeatureExtractor fe = new NYTEntitySalienceFeatureExtractor(); List<EntityInstance> entityInstances; try { entityInstances = fe.getEntityInstances(jCas, TrainingSettings.FeatureExtractor.ENTITY_SALIENCE); final int featureVectorSize = FeatureSetFactory.createFeatureSet(TrainingSettings.FeatureExtractor.ENTITY_SALIENCE).getFeatureVectorSize(); //TODO: For each model create separate implementation. RandomForestClassificationModel rfm = (RandomForestClassificationModel)trainingModel.stages()[2]; for(EntityInstance ei : entityInstances) { Vector vei = FeatureValueInstanceUtils.convertToSparkMLVector(ei, featureVectorSize); double label = rfm.predict(vei); Vector probabilities = rfm.predictProbability(vei); double salience = probabilities.toArray()[1]; SalientEntity salientEntity = new SalientEntity(jCas, 0, 0); salientEntity.setLabel(label); salientEntity.setID(ei.getEntityId()); salientEntity.setSalience(salience); salientEntity.addToIndexes(); } long endTime = System.currentTimeMillis() - startTime; logger.debug("Annotating salient entities finished in {}ms.", endTime); } catch (Exception e) { throw new AnalysisEngineProcessException(e); } }
32
0
// TODO: check here, may be necessary to remove the last space.
private void generateArttribute() { String temp = ""; for (String s : connectedElements) temp = temp + s + " "; // TODO: check here, may be necessary to remove the last space. linkingResourceElement.setAttribute( "connectedResourceContainers_LinkingResource", temp); }
DESIGN
true
for (String s : connectedElements) temp = temp + s + " "; // TODO: check here, may be necessary to remove the last space. linkingResourceElement.setAttribute( "connectedResourceContainers_LinkingResource", temp);
private void generateArttribute() { String temp = ""; for (String s : connectedElements) temp = temp + s + " "; // TODO: check here, may be necessary to remove the last space. linkingResourceElement.setAttribute( "connectedResourceContainers_LinkingResource", temp); }
private void generateArttribute() { String temp = ""; for (String s : connectedElements) temp = temp + s + " "; // TODO: check here, may be necessary to remove the last space. linkingResourceElement.setAttribute( "connectedResourceContainers_LinkingResource", temp); }
32,849
0
//验证手机号是否11位
private boolean isTelLenthLegal(String tel) { //TODO: Replace this with your own logic return tel.length() == 11; }
NONSATD
true
private boolean isTelLenthLegal(String tel) { //TODO: Replace this with your own logic return tel.length() == 11; }
private boolean isTelLenthLegal(String tel) { //TODO: Replace this with your own logic return tel.length() == 11; }
private boolean isTelLenthLegal(String tel) { //TODO: Replace this with your own logic return tel.length() == 11; }
32,849
1
//TODO: Replace this with your own logic
private boolean isTelLenthLegal(String tel) { //TODO: Replace this with your own logic return tel.length() == 11; }
IMPLEMENTATION
true
private boolean isTelLenthLegal(String tel) { //TODO: Replace this with your own logic return tel.length() == 11; }
private boolean isTelLenthLegal(String tel) { //TODO: Replace this with your own logic return tel.length() == 11; }
private boolean isTelLenthLegal(String tel) { //TODO: Replace this with your own logic return tel.length() == 11; }
32,850
0
//是否是邮箱
private boolean isEmailValid(String email) { //TODO: Replace this with your own logic return email.contains("@")&&email.contains("."); }
NONSATD
true
private boolean isEmailValid(String email) { //TODO: Replace this with your own logic return email.contains("@")&&email.contains("."); }
private boolean isEmailValid(String email) { //TODO: Replace this with your own logic return email.contains("@")&&email.contains("."); }
private boolean isEmailValid(String email) { //TODO: Replace this with your own logic return email.contains("@")&&email.contains("."); }
32,850
1
//TODO: Replace this with your own logic
private boolean isEmailValid(String email) { //TODO: Replace this with your own logic return email.contains("@")&&email.contains("."); }
IMPLEMENTATION
true
private boolean isEmailValid(String email) { //TODO: Replace this with your own logic return email.contains("@")&&email.contains("."); }
private boolean isEmailValid(String email) { //TODO: Replace this with your own logic return email.contains("@")&&email.contains("."); }
private boolean isEmailValid(String email) { //TODO: Replace this with your own logic return email.contains("@")&&email.contains("."); }
83
0
// Operator op = ((OperatorItem) item0)._operator; // TODO check this value if we can, somehow
@Test public void parseNegativeIntegerLiteral( ) throws ExpressionException { LineSpecifier ls = new LineSpecifier(0, 10); Locale locale = new Locale(ls, 10); ExpressionParser parser = new ExpressionParser("-14458", locale); Expression exp = parser.parse(new Assembler.Builder().build()); assertEquals(2, exp._items.size()); ExpressionItem item0 = exp._items.get(0); assertTrue(item0 instanceof OperatorItem); // Operator op = ((OperatorItem) item0)._operator; // TODO check this value if we can, somehow ExpressionItem item1 = exp._items.get(1); assertTrue(item1 instanceof ValueItem); Value v1 = ((ValueItem)item1)._value; assertTrue(v1 instanceof IntegerValue); assertEquals(14458L, ((IntegerValue)v1)._value.get().longValue()); }
DESIGN
true
ExpressionItem item0 = exp._items.get(0); assertTrue(item0 instanceof OperatorItem); // Operator op = ((OperatorItem) item0)._operator; // TODO check this value if we can, somehow ExpressionItem item1 = exp._items.get(1); assertTrue(item1 instanceof ValueItem);
@Test public void parseNegativeIntegerLiteral( ) throws ExpressionException { LineSpecifier ls = new LineSpecifier(0, 10); Locale locale = new Locale(ls, 10); ExpressionParser parser = new ExpressionParser("-14458", locale); Expression exp = parser.parse(new Assembler.Builder().build()); assertEquals(2, exp._items.size()); ExpressionItem item0 = exp._items.get(0); assertTrue(item0 instanceof OperatorItem); // Operator op = ((OperatorItem) item0)._operator; // TODO check this value if we can, somehow ExpressionItem item1 = exp._items.get(1); assertTrue(item1 instanceof ValueItem); Value v1 = ((ValueItem)item1)._value; assertTrue(v1 instanceof IntegerValue); assertEquals(14458L, ((IntegerValue)v1)._value.get().longValue()); }
@Test public void parseNegativeIntegerLiteral( ) throws ExpressionException { LineSpecifier ls = new LineSpecifier(0, 10); Locale locale = new Locale(ls, 10); ExpressionParser parser = new ExpressionParser("-14458", locale); Expression exp = parser.parse(new Assembler.Builder().build()); assertEquals(2, exp._items.size()); ExpressionItem item0 = exp._items.get(0); assertTrue(item0 instanceof OperatorItem); // Operator op = ((OperatorItem) item0)._operator; // TODO check this value if we can, somehow ExpressionItem item1 = exp._items.get(1); assertTrue(item1 instanceof ValueItem); Value v1 = ((ValueItem)item1)._value; assertTrue(v1 instanceof IntegerValue); assertEquals(14458L, ((IntegerValue)v1)._value.get().longValue()); }
85
0
/** * Adds a module for placing a voice call. * * <p>The method is a no-op if the number is blocked. */
public HistoryItemActionModulesBuilder addModuleForVoiceCall() { if (moduleInfo.getIsBlocked()) { return this; } // TODO(zachh): Support post-dial digits; consider using DialerPhoneNumber. // Do not set PhoneAccountHandle so that regular PreCall logic will be used. The account used to // place or receive the call should be ignored for voice calls. CallIntentBuilder callIntentBuilder = new CallIntentBuilder(moduleInfo.getNormalizedNumber(), getCallInitiationType()) .setAllowAssistedDial(moduleInfo.getCanSupportAssistedDialing()); modules.add(IntentModule.newCallModule(context, callIntentBuilder)); return this; }
NONSATD
true
public HistoryItemActionModulesBuilder addModuleForVoiceCall() { if (moduleInfo.getIsBlocked()) { return this; } // TODO(zachh): Support post-dial digits; consider using DialerPhoneNumber. // Do not set PhoneAccountHandle so that regular PreCall logic will be used. The account used to // place or receive the call should be ignored for voice calls. CallIntentBuilder callIntentBuilder = new CallIntentBuilder(moduleInfo.getNormalizedNumber(), getCallInitiationType()) .setAllowAssistedDial(moduleInfo.getCanSupportAssistedDialing()); modules.add(IntentModule.newCallModule(context, callIntentBuilder)); return this; }
public HistoryItemActionModulesBuilder addModuleForVoiceCall() { if (moduleInfo.getIsBlocked()) { return this; } // TODO(zachh): Support post-dial digits; consider using DialerPhoneNumber. // Do not set PhoneAccountHandle so that regular PreCall logic will be used. The account used to // place or receive the call should be ignored for voice calls. CallIntentBuilder callIntentBuilder = new CallIntentBuilder(moduleInfo.getNormalizedNumber(), getCallInitiationType()) .setAllowAssistedDial(moduleInfo.getCanSupportAssistedDialing()); modules.add(IntentModule.newCallModule(context, callIntentBuilder)); return this; }
public HistoryItemActionModulesBuilder addModuleForVoiceCall() { if (moduleInfo.getIsBlocked()) { return this; } // TODO(zachh): Support post-dial digits; consider using DialerPhoneNumber. // Do not set PhoneAccountHandle so that regular PreCall logic will be used. The account used to // place or receive the call should be ignored for voice calls. CallIntentBuilder callIntentBuilder = new CallIntentBuilder(moduleInfo.getNormalizedNumber(), getCallInitiationType()) .setAllowAssistedDial(moduleInfo.getCanSupportAssistedDialing()); modules.add(IntentModule.newCallModule(context, callIntentBuilder)); return this; }
85
1
// TODO(zachh): Support post-dial digits; consider using DialerPhoneNumber. // Do not set PhoneAccountHandle so that regular PreCall logic will be used. The account used to // place or receive the call should be ignored for voice calls.
public HistoryItemActionModulesBuilder addModuleForVoiceCall() { if (moduleInfo.getIsBlocked()) { return this; } // TODO(zachh): Support post-dial digits; consider using DialerPhoneNumber. // Do not set PhoneAccountHandle so that regular PreCall logic will be used. The account used to // place or receive the call should be ignored for voice calls. CallIntentBuilder callIntentBuilder = new CallIntentBuilder(moduleInfo.getNormalizedNumber(), getCallInitiationType()) .setAllowAssistedDial(moduleInfo.getCanSupportAssistedDialing()); modules.add(IntentModule.newCallModule(context, callIntentBuilder)); return this; }
IMPLEMENTATION
true
return this; } // TODO(zachh): Support post-dial digits; consider using DialerPhoneNumber. // Do not set PhoneAccountHandle so that regular PreCall logic will be used. The account used to // place or receive the call should be ignored for voice calls. CallIntentBuilder callIntentBuilder = new CallIntentBuilder(moduleInfo.getNormalizedNumber(), getCallInitiationType())
public HistoryItemActionModulesBuilder addModuleForVoiceCall() { if (moduleInfo.getIsBlocked()) { return this; } // TODO(zachh): Support post-dial digits; consider using DialerPhoneNumber. // Do not set PhoneAccountHandle so that regular PreCall logic will be used. The account used to // place or receive the call should be ignored for voice calls. CallIntentBuilder callIntentBuilder = new CallIntentBuilder(moduleInfo.getNormalizedNumber(), getCallInitiationType()) .setAllowAssistedDial(moduleInfo.getCanSupportAssistedDialing()); modules.add(IntentModule.newCallModule(context, callIntentBuilder)); return this; }
public HistoryItemActionModulesBuilder addModuleForVoiceCall() { if (moduleInfo.getIsBlocked()) { return this; } // TODO(zachh): Support post-dial digits; consider using DialerPhoneNumber. // Do not set PhoneAccountHandle so that regular PreCall logic will be used. The account used to // place or receive the call should be ignored for voice calls. CallIntentBuilder callIntentBuilder = new CallIntentBuilder(moduleInfo.getNormalizedNumber(), getCallInitiationType()) .setAllowAssistedDial(moduleInfo.getCanSupportAssistedDialing()); modules.add(IntentModule.newCallModule(context, callIntentBuilder)); return this; }
32,858
0
// TODO(felly): Support directory traversal.
@Override protected Collection<String> getDirectoryEntries(Path path) throws IOException { // TODO(felly): Support directory traversal. return ImmutableList.of(); }
DESIGN
true
@Override protected Collection<String> getDirectoryEntries(Path path) throws IOException { // TODO(felly): Support directory traversal. return ImmutableList.of(); }
@Override protected Collection<String> getDirectoryEntries(Path path) throws IOException { // TODO(felly): Support directory traversal. return ImmutableList.of(); }
@Override protected Collection<String> getDirectoryEntries(Path path) throws IOException { // TODO(felly): Support directory traversal. return ImmutableList.of(); }
24,672
0
//TODO Capitalize first char??
public String getJavaName() { return service.getName(); //TODO Capitalize first char?? }
IMPLEMENTATION
true
public String getJavaName() { return service.getName(); //TODO Capitalize first char?? }
public String getJavaName() { return service.getName(); //TODO Capitalize first char?? }
public String getJavaName() { return service.getName(); //TODO Capitalize first char?? }
24,673
0
/** * Checks if the provided zone is an option for the client to connect to. * Any zone provided must have previously been created by ZoneManagement. * * @param tenantId The tenantId of the connecting envoy. * @param zone The zone provided in the envoySummary. * @throws IllegalArgumentException if the zone is not found. */
private void validateZoneAvailable(String tenantId, String zone) throws IllegalArgumentException { List<ZoneDTO> zones; try { zones = zoneApi.getAvailableZones(tenantId); } catch (ResourceAccessException e) { // need to do something here to handle things more gracefully. throw new RuntimeException("Unable to validate zones.", e); } boolean found = zones.stream().anyMatch(z -> z.getName().equals(zone)); log.debug("Found {} zones for tenant", zoneApi.getAvailableZones(tenantId).size()); if (!found) throw new IllegalArgumentException("Provided zone does not exist: " + zone); }
NONSATD
true
private void validateZoneAvailable(String tenantId, String zone) throws IllegalArgumentException { List<ZoneDTO> zones; try { zones = zoneApi.getAvailableZones(tenantId); } catch (ResourceAccessException e) { // need to do something here to handle things more gracefully. throw new RuntimeException("Unable to validate zones.", e); } boolean found = zones.stream().anyMatch(z -> z.getName().equals(zone)); log.debug("Found {} zones for tenant", zoneApi.getAvailableZones(tenantId).size()); if (!found) throw new IllegalArgumentException("Provided zone does not exist: " + zone); }
private void validateZoneAvailable(String tenantId, String zone) throws IllegalArgumentException { List<ZoneDTO> zones; try { zones = zoneApi.getAvailableZones(tenantId); } catch (ResourceAccessException e) { // need to do something here to handle things more gracefully. throw new RuntimeException("Unable to validate zones.", e); } boolean found = zones.stream().anyMatch(z -> z.getName().equals(zone)); log.debug("Found {} zones for tenant", zoneApi.getAvailableZones(tenantId).size()); if (!found) throw new IllegalArgumentException("Provided zone does not exist: " + zone); }
private void validateZoneAvailable(String tenantId, String zone) throws IllegalArgumentException { List<ZoneDTO> zones; try { zones = zoneApi.getAvailableZones(tenantId); } catch (ResourceAccessException e) { // need to do something here to handle things more gracefully. throw new RuntimeException("Unable to validate zones.", e); } boolean found = zones.stream().anyMatch(z -> z.getName().equals(zone)); log.debug("Found {} zones for tenant", zoneApi.getAvailableZones(tenantId).size()); if (!found) throw new IllegalArgumentException("Provided zone does not exist: " + zone); }
24,673
1
// need to do something here to handle things more gracefully.
private void validateZoneAvailable(String tenantId, String zone) throws IllegalArgumentException { List<ZoneDTO> zones; try { zones = zoneApi.getAvailableZones(tenantId); } catch (ResourceAccessException e) { // need to do something here to handle things more gracefully. throw new RuntimeException("Unable to validate zones.", e); } boolean found = zones.stream().anyMatch(z -> z.getName().equals(zone)); log.debug("Found {} zones for tenant", zoneApi.getAvailableZones(tenantId).size()); if (!found) throw new IllegalArgumentException("Provided zone does not exist: " + zone); }
DESIGN
true
zones = zoneApi.getAvailableZones(tenantId); } catch (ResourceAccessException e) { // need to do something here to handle things more gracefully. throw new RuntimeException("Unable to validate zones.", e); }
private void validateZoneAvailable(String tenantId, String zone) throws IllegalArgumentException { List<ZoneDTO> zones; try { zones = zoneApi.getAvailableZones(tenantId); } catch (ResourceAccessException e) { // need to do something here to handle things more gracefully. throw new RuntimeException("Unable to validate zones.", e); } boolean found = zones.stream().anyMatch(z -> z.getName().equals(zone)); log.debug("Found {} zones for tenant", zoneApi.getAvailableZones(tenantId).size()); if (!found) throw new IllegalArgumentException("Provided zone does not exist: " + zone); }
private void validateZoneAvailable(String tenantId, String zone) throws IllegalArgumentException { List<ZoneDTO> zones; try { zones = zoneApi.getAvailableZones(tenantId); } catch (ResourceAccessException e) { // need to do something here to handle things more gracefully. throw new RuntimeException("Unable to validate zones.", e); } boolean found = zones.stream().anyMatch(z -> z.getName().equals(zone)); log.debug("Found {} zones for tenant", zoneApi.getAvailableZones(tenantId).size()); if (!found) throw new IllegalArgumentException("Provided zone does not exist: " + zone); }
32,867
0
// TODO: Configuration is not used because we don't support any other mode for now. For that : ISPN-8413
@Override public boolean defineLock(String name, ClusteredLockConfiguration configuration) { // TODO: Configuration is not used because we don't support any other mode for now. For that : ISPN-8413 CacheHolder cacheHolder = extractCacheHolder(cacheHolderFuture); cache = cacheHolder.getClusteredLockCache(); ClusteredLockKey key = new ClusteredLockKey(ByteString.fromString(name)); ClusteredLockValue clusteredLockValue = cache.putIfAbsent(key, ClusteredLockValue.INITIAL_STATE); locks.putIfAbsent(name, new ClusteredLockImpl(name, key, cache, this)); return clusteredLockValue == null; }
DESIGN
true
@Override public boolean defineLock(String name, ClusteredLockConfiguration configuration) { // TODO: Configuration is not used because we don't support any other mode for now. For that : ISPN-8413 CacheHolder cacheHolder = extractCacheHolder(cacheHolderFuture); cache = cacheHolder.getClusteredLockCache();
@Override public boolean defineLock(String name, ClusteredLockConfiguration configuration) { // TODO: Configuration is not used because we don't support any other mode for now. For that : ISPN-8413 CacheHolder cacheHolder = extractCacheHolder(cacheHolderFuture); cache = cacheHolder.getClusteredLockCache(); ClusteredLockKey key = new ClusteredLockKey(ByteString.fromString(name)); ClusteredLockValue clusteredLockValue = cache.putIfAbsent(key, ClusteredLockValue.INITIAL_STATE); locks.putIfAbsent(name, new ClusteredLockImpl(name, key, cache, this)); return clusteredLockValue == null; }
@Override public boolean defineLock(String name, ClusteredLockConfiguration configuration) { // TODO: Configuration is not used because we don't support any other mode for now. For that : ISPN-8413 CacheHolder cacheHolder = extractCacheHolder(cacheHolderFuture); cache = cacheHolder.getClusteredLockCache(); ClusteredLockKey key = new ClusteredLockKey(ByteString.fromString(name)); ClusteredLockValue clusteredLockValue = cache.putIfAbsent(key, ClusteredLockValue.INITIAL_STATE); locks.putIfAbsent(name, new ClusteredLockImpl(name, key, cache, this)); return clusteredLockValue == null; }
100
0
// TODO Auto-generated method stub // return super.hasRole(principal, roleIdentifier);
@Override public boolean hasRole(final PrincipalCollection principal, final String roleIdentifier) { // TODO Auto-generated method stub // return super.hasRole(principal, roleIdentifier); for (final Object p : principal.fromRealm(REALM_NAME)) { if (p instanceof GenericPrincipal) { final GenericPrincipal gp = (GenericPrincipal) p; for (final String r : gp.getRoles()) { if (r.equals(roleIdentifier)) { return true; } } } } return false; }
DESIGN
true
@Override public boolean hasRole(final PrincipalCollection principal, final String roleIdentifier) { // TODO Auto-generated method stub // return super.hasRole(principal, roleIdentifier); for (final Object p : principal.fromRealm(REALM_NAME)) { if (p instanceof GenericPrincipal) {
@Override public boolean hasRole(final PrincipalCollection principal, final String roleIdentifier) { // TODO Auto-generated method stub // return super.hasRole(principal, roleIdentifier); for (final Object p : principal.fromRealm(REALM_NAME)) { if (p instanceof GenericPrincipal) { final GenericPrincipal gp = (GenericPrincipal) p; for (final String r : gp.getRoles()) { if (r.equals(roleIdentifier)) { return true; } } } }
@Override public boolean hasRole(final PrincipalCollection principal, final String roleIdentifier) { // TODO Auto-generated method stub // return super.hasRole(principal, roleIdentifier); for (final Object p : principal.fromRealm(REALM_NAME)) { if (p instanceof GenericPrincipal) { final GenericPrincipal gp = (GenericPrincipal) p; for (final String r : gp.getRoles()) { if (r.equals(roleIdentifier)) { return true; } } } } return false; }
16,486
0
//TODO check rewrite in future
public static void main(String[] args) throws IOException, ClassNotFoundException, InterruptedException { if(args.length != 4) { System.out.print("args should be 2 : <inputpath> <outpath> <number of centroids> <dimensions> .") ; System.exit(-1); } int k = Integer.valueOf(args[2]) ; int dim = Integer.valueOf(args[3]) ; Job init_job = Job.getInstance() ; Configuration init_conf = init_job.getConfiguration(); init_conf.set("kmeans.k", args[2]); init_conf.set("kmeans.dim", args[3]); init_job.setJarByClass(KMean.class); init_job.setJobName("clustered kmeans"); init_job.setMapperClass(KMeanInitMapper.class); init_job.setReducerClass(KMeanInitReducer.class); init_job.setOutputKeyClass(IntWritable.class); init_job.setOutputValueClass(Text.class); FileInputFormat.addInputPath(init_job, new Path(args[0])); //TODO check rewrite in future FileOutputFormat.setOutputPath(init_job, new Path(args[1] + "_m_" + Integer.toString(0))); init_job.waitForCompletion(true); double[][] old_centroids = new double[k][dim] ; int fi = 1 ; long t1 = System.currentTimeMillis() ; while(true) { System.out.print("start iteration") ; Job kmean_cluster_jb = Job.getInstance() ; Configuration conf = kmean_cluster_jb.getConfiguration() ; conf.set("kmeans.k", args[2]); conf.set("kmeans.dim", args[3]); kmean_cluster_jb.setJarByClass(KMean.class); kmean_cluster_jb.setJobName("clustered kmeans"); kmean_cluster_jb.setMapperClass(KMeanIterationMapper.class); kmean_cluster_jb.setReducerClass(KMeanIterationReducer.class); kmean_cluster_jb.setOutputKeyClass(IntWritable.class); kmean_cluster_jb.setOutputValueClass(Text.class); // TODO check rewrite in future String uri = args[1] + "_m_" + Integer.toString(fi-1) + "/part-r-00000"; Configuration temp_conf = new Configuration(); FileSystem fs = FileSystem.get(URI.create(uri), temp_conf); Path input_path = new Path(uri); FSDataInputStream input_stream = fs.open(input_path); BufferedReader input_buffer = new BufferedReader(new InputStreamReader(input_stream)); double total_dis = 0 ; double[][] new_centroids = new double[k][dim] ; for(int i = 0 ; i < k ; i++) { String line = input_buffer.readLine() ; if(line == null) { for(int j = 0 ; j < dim ; j++) { new_centroids[i][j] = Double.valueOf(old_centroids[i][j]) ; } continue ; } int key = Integer.valueOf(line.split("\t")[0]) ; String[] new_centroid = line.split("\t")[1].split(",") ; for(int j = 0 ; j < dim ; j++) { new_centroids[key][j] = Double.valueOf(new_centroid[j]) ; total_dis += Math.pow(new_centroids[key][j] - old_centroids[key][j], 2) ; } conf.set("kmeans.centroid" + key, line.split("\t")[1]); } double threshold = Math.pow(0.001 ,2) * k * dim ; if(total_dis < threshold) break ; FileInputFormat.addInputPath(kmean_cluster_jb, new Path(args[0])); //TODO check rewrite in future FileOutputFormat.setOutputPath(kmean_cluster_jb, new Path(args[1] + "_m_" + Integer.toString(fi))); kmean_cluster_jb.waitForCompletion(true); old_centroids = new_centroids; fi++ ; } long t2 = System.currentTimeMillis() ; System.out.println("\n Time token by un-parallel is : " + (t2-t1) + "ms"); }
IMPLEMENTATION
true
init_job.setOutputValueClass(Text.class); FileInputFormat.addInputPath(init_job, new Path(args[0])); //TODO check rewrite in future FileOutputFormat.setOutputPath(init_job, new Path(args[1] + "_m_" + Integer.toString(0))); init_job.waitForCompletion(true);
Configuration init_conf = init_job.getConfiguration(); init_conf.set("kmeans.k", args[2]); init_conf.set("kmeans.dim", args[3]); init_job.setJarByClass(KMean.class); init_job.setJobName("clustered kmeans"); init_job.setMapperClass(KMeanInitMapper.class); init_job.setReducerClass(KMeanInitReducer.class); init_job.setOutputKeyClass(IntWritable.class); init_job.setOutputValueClass(Text.class); FileInputFormat.addInputPath(init_job, new Path(args[0])); //TODO check rewrite in future FileOutputFormat.setOutputPath(init_job, new Path(args[1] + "_m_" + Integer.toString(0))); init_job.waitForCompletion(true); double[][] old_centroids = new double[k][dim] ; int fi = 1 ; long t1 = System.currentTimeMillis() ; while(true) { System.out.print("start iteration") ; Job kmean_cluster_jb = Job.getInstance() ; Configuration conf = kmean_cluster_jb.getConfiguration() ; conf.set("kmeans.k", args[2]);
public static void main(String[] args) throws IOException, ClassNotFoundException, InterruptedException { if(args.length != 4) { System.out.print("args should be 2 : <inputpath> <outpath> <number of centroids> <dimensions> .") ; System.exit(-1); } int k = Integer.valueOf(args[2]) ; int dim = Integer.valueOf(args[3]) ; Job init_job = Job.getInstance() ; Configuration init_conf = init_job.getConfiguration(); init_conf.set("kmeans.k", args[2]); init_conf.set("kmeans.dim", args[3]); init_job.setJarByClass(KMean.class); init_job.setJobName("clustered kmeans"); init_job.setMapperClass(KMeanInitMapper.class); init_job.setReducerClass(KMeanInitReducer.class); init_job.setOutputKeyClass(IntWritable.class); init_job.setOutputValueClass(Text.class); FileInputFormat.addInputPath(init_job, new Path(args[0])); //TODO check rewrite in future FileOutputFormat.setOutputPath(init_job, new Path(args[1] + "_m_" + Integer.toString(0))); init_job.waitForCompletion(true); double[][] old_centroids = new double[k][dim] ; int fi = 1 ; long t1 = System.currentTimeMillis() ; while(true) { System.out.print("start iteration") ; Job kmean_cluster_jb = Job.getInstance() ; Configuration conf = kmean_cluster_jb.getConfiguration() ; conf.set("kmeans.k", args[2]); conf.set("kmeans.dim", args[3]); kmean_cluster_jb.setJarByClass(KMean.class); kmean_cluster_jb.setJobName("clustered kmeans"); kmean_cluster_jb.setMapperClass(KMeanIterationMapper.class); kmean_cluster_jb.setReducerClass(KMeanIterationReducer.class); kmean_cluster_jb.setOutputKeyClass(IntWritable.class); kmean_cluster_jb.setOutputValueClass(Text.class); // TODO check rewrite in future String uri = args[1] + "_m_" + Integer.toString(fi-1) + "/part-r-00000"; Configuration temp_conf = new Configuration();
16,486
1
// TODO check rewrite in future
public static void main(String[] args) throws IOException, ClassNotFoundException, InterruptedException { if(args.length != 4) { System.out.print("args should be 2 : <inputpath> <outpath> <number of centroids> <dimensions> .") ; System.exit(-1); } int k = Integer.valueOf(args[2]) ; int dim = Integer.valueOf(args[3]) ; Job init_job = Job.getInstance() ; Configuration init_conf = init_job.getConfiguration(); init_conf.set("kmeans.k", args[2]); init_conf.set("kmeans.dim", args[3]); init_job.setJarByClass(KMean.class); init_job.setJobName("clustered kmeans"); init_job.setMapperClass(KMeanInitMapper.class); init_job.setReducerClass(KMeanInitReducer.class); init_job.setOutputKeyClass(IntWritable.class); init_job.setOutputValueClass(Text.class); FileInputFormat.addInputPath(init_job, new Path(args[0])); //TODO check rewrite in future FileOutputFormat.setOutputPath(init_job, new Path(args[1] + "_m_" + Integer.toString(0))); init_job.waitForCompletion(true); double[][] old_centroids = new double[k][dim] ; int fi = 1 ; long t1 = System.currentTimeMillis() ; while(true) { System.out.print("start iteration") ; Job kmean_cluster_jb = Job.getInstance() ; Configuration conf = kmean_cluster_jb.getConfiguration() ; conf.set("kmeans.k", args[2]); conf.set("kmeans.dim", args[3]); kmean_cluster_jb.setJarByClass(KMean.class); kmean_cluster_jb.setJobName("clustered kmeans"); kmean_cluster_jb.setMapperClass(KMeanIterationMapper.class); kmean_cluster_jb.setReducerClass(KMeanIterationReducer.class); kmean_cluster_jb.setOutputKeyClass(IntWritable.class); kmean_cluster_jb.setOutputValueClass(Text.class); // TODO check rewrite in future String uri = args[1] + "_m_" + Integer.toString(fi-1) + "/part-r-00000"; Configuration temp_conf = new Configuration(); FileSystem fs = FileSystem.get(URI.create(uri), temp_conf); Path input_path = new Path(uri); FSDataInputStream input_stream = fs.open(input_path); BufferedReader input_buffer = new BufferedReader(new InputStreamReader(input_stream)); double total_dis = 0 ; double[][] new_centroids = new double[k][dim] ; for(int i = 0 ; i < k ; i++) { String line = input_buffer.readLine() ; if(line == null) { for(int j = 0 ; j < dim ; j++) { new_centroids[i][j] = Double.valueOf(old_centroids[i][j]) ; } continue ; } int key = Integer.valueOf(line.split("\t")[0]) ; String[] new_centroid = line.split("\t")[1].split(",") ; for(int j = 0 ; j < dim ; j++) { new_centroids[key][j] = Double.valueOf(new_centroid[j]) ; total_dis += Math.pow(new_centroids[key][j] - old_centroids[key][j], 2) ; } conf.set("kmeans.centroid" + key, line.split("\t")[1]); } double threshold = Math.pow(0.001 ,2) * k * dim ; if(total_dis < threshold) break ; FileInputFormat.addInputPath(kmean_cluster_jb, new Path(args[0])); //TODO check rewrite in future FileOutputFormat.setOutputPath(kmean_cluster_jb, new Path(args[1] + "_m_" + Integer.toString(fi))); kmean_cluster_jb.waitForCompletion(true); old_centroids = new_centroids; fi++ ; } long t2 = System.currentTimeMillis() ; System.out.println("\n Time token by un-parallel is : " + (t2-t1) + "ms"); }
IMPLEMENTATION
true
kmean_cluster_jb.setOutputKeyClass(IntWritable.class); kmean_cluster_jb.setOutputValueClass(Text.class); // TODO check rewrite in future String uri = args[1] + "_m_" + Integer.toString(fi-1) + "/part-r-00000"; Configuration temp_conf = new Configuration();
Job kmean_cluster_jb = Job.getInstance() ; Configuration conf = kmean_cluster_jb.getConfiguration() ; conf.set("kmeans.k", args[2]); conf.set("kmeans.dim", args[3]); kmean_cluster_jb.setJarByClass(KMean.class); kmean_cluster_jb.setJobName("clustered kmeans"); kmean_cluster_jb.setMapperClass(KMeanIterationMapper.class); kmean_cluster_jb.setReducerClass(KMeanIterationReducer.class); kmean_cluster_jb.setOutputKeyClass(IntWritable.class); kmean_cluster_jb.setOutputValueClass(Text.class); // TODO check rewrite in future String uri = args[1] + "_m_" + Integer.toString(fi-1) + "/part-r-00000"; Configuration temp_conf = new Configuration(); FileSystem fs = FileSystem.get(URI.create(uri), temp_conf); Path input_path = new Path(uri); FSDataInputStream input_stream = fs.open(input_path); BufferedReader input_buffer = new BufferedReader(new InputStreamReader(input_stream)); double total_dis = 0 ; double[][] new_centroids = new double[k][dim] ; for(int i = 0 ; i < k ; i++) { String line = input_buffer.readLine() ;
init_job.setOutputValueClass(Text.class); FileInputFormat.addInputPath(init_job, new Path(args[0])); //TODO check rewrite in future FileOutputFormat.setOutputPath(init_job, new Path(args[1] + "_m_" + Integer.toString(0))); init_job.waitForCompletion(true); double[][] old_centroids = new double[k][dim] ; int fi = 1 ; long t1 = System.currentTimeMillis() ; while(true) { System.out.print("start iteration") ; Job kmean_cluster_jb = Job.getInstance() ; Configuration conf = kmean_cluster_jb.getConfiguration() ; conf.set("kmeans.k", args[2]); conf.set("kmeans.dim", args[3]); kmean_cluster_jb.setJarByClass(KMean.class); kmean_cluster_jb.setJobName("clustered kmeans"); kmean_cluster_jb.setMapperClass(KMeanIterationMapper.class); kmean_cluster_jb.setReducerClass(KMeanIterationReducer.class); kmean_cluster_jb.setOutputKeyClass(IntWritable.class); kmean_cluster_jb.setOutputValueClass(Text.class); // TODO check rewrite in future String uri = args[1] + "_m_" + Integer.toString(fi-1) + "/part-r-00000"; Configuration temp_conf = new Configuration(); FileSystem fs = FileSystem.get(URI.create(uri), temp_conf); Path input_path = new Path(uri); FSDataInputStream input_stream = fs.open(input_path); BufferedReader input_buffer = new BufferedReader(new InputStreamReader(input_stream)); double total_dis = 0 ; double[][] new_centroids = new double[k][dim] ; for(int i = 0 ; i < k ; i++) { String line = input_buffer.readLine() ; if(line == null) { for(int j = 0 ; j < dim ; j++) { new_centroids[i][j] = Double.valueOf(old_centroids[i][j]) ; } continue ; } int key = Integer.valueOf(line.split("\t")[0]) ; String[] new_centroid = line.split("\t")[1].split(",") ; for(int j = 0 ; j < dim ; j++) { new_centroids[key][j] = Double.valueOf(new_centroid[j]) ;
16,486
2
//TODO check rewrite in future
public static void main(String[] args) throws IOException, ClassNotFoundException, InterruptedException { if(args.length != 4) { System.out.print("args should be 2 : <inputpath> <outpath> <number of centroids> <dimensions> .") ; System.exit(-1); } int k = Integer.valueOf(args[2]) ; int dim = Integer.valueOf(args[3]) ; Job init_job = Job.getInstance() ; Configuration init_conf = init_job.getConfiguration(); init_conf.set("kmeans.k", args[2]); init_conf.set("kmeans.dim", args[3]); init_job.setJarByClass(KMean.class); init_job.setJobName("clustered kmeans"); init_job.setMapperClass(KMeanInitMapper.class); init_job.setReducerClass(KMeanInitReducer.class); init_job.setOutputKeyClass(IntWritable.class); init_job.setOutputValueClass(Text.class); FileInputFormat.addInputPath(init_job, new Path(args[0])); //TODO check rewrite in future FileOutputFormat.setOutputPath(init_job, new Path(args[1] + "_m_" + Integer.toString(0))); init_job.waitForCompletion(true); double[][] old_centroids = new double[k][dim] ; int fi = 1 ; long t1 = System.currentTimeMillis() ; while(true) { System.out.print("start iteration") ; Job kmean_cluster_jb = Job.getInstance() ; Configuration conf = kmean_cluster_jb.getConfiguration() ; conf.set("kmeans.k", args[2]); conf.set("kmeans.dim", args[3]); kmean_cluster_jb.setJarByClass(KMean.class); kmean_cluster_jb.setJobName("clustered kmeans"); kmean_cluster_jb.setMapperClass(KMeanIterationMapper.class); kmean_cluster_jb.setReducerClass(KMeanIterationReducer.class); kmean_cluster_jb.setOutputKeyClass(IntWritable.class); kmean_cluster_jb.setOutputValueClass(Text.class); // TODO check rewrite in future String uri = args[1] + "_m_" + Integer.toString(fi-1) + "/part-r-00000"; Configuration temp_conf = new Configuration(); FileSystem fs = FileSystem.get(URI.create(uri), temp_conf); Path input_path = new Path(uri); FSDataInputStream input_stream = fs.open(input_path); BufferedReader input_buffer = new BufferedReader(new InputStreamReader(input_stream)); double total_dis = 0 ; double[][] new_centroids = new double[k][dim] ; for(int i = 0 ; i < k ; i++) { String line = input_buffer.readLine() ; if(line == null) { for(int j = 0 ; j < dim ; j++) { new_centroids[i][j] = Double.valueOf(old_centroids[i][j]) ; } continue ; } int key = Integer.valueOf(line.split("\t")[0]) ; String[] new_centroid = line.split("\t")[1].split(",") ; for(int j = 0 ; j < dim ; j++) { new_centroids[key][j] = Double.valueOf(new_centroid[j]) ; total_dis += Math.pow(new_centroids[key][j] - old_centroids[key][j], 2) ; } conf.set("kmeans.centroid" + key, line.split("\t")[1]); } double threshold = Math.pow(0.001 ,2) * k * dim ; if(total_dis < threshold) break ; FileInputFormat.addInputPath(kmean_cluster_jb, new Path(args[0])); //TODO check rewrite in future FileOutputFormat.setOutputPath(kmean_cluster_jb, new Path(args[1] + "_m_" + Integer.toString(fi))); kmean_cluster_jb.waitForCompletion(true); old_centroids = new_centroids; fi++ ; } long t2 = System.currentTimeMillis() ; System.out.println("\n Time token by un-parallel is : " + (t2-t1) + "ms"); }
IMPLEMENTATION
true
init_job.setOutputValueClass(Text.class); FileInputFormat.addInputPath(init_job, new Path(args[0])); //TODO check rewrite in future FileOutputFormat.setOutputPath(init_job, new Path(args[1] + "_m_" + Integer.toString(0))); init_job.waitForCompletion(true);
Configuration init_conf = init_job.getConfiguration(); init_conf.set("kmeans.k", args[2]); init_conf.set("kmeans.dim", args[3]); init_job.setJarByClass(KMean.class); init_job.setJobName("clustered kmeans"); init_job.setMapperClass(KMeanInitMapper.class); init_job.setReducerClass(KMeanInitReducer.class); init_job.setOutputKeyClass(IntWritable.class); init_job.setOutputValueClass(Text.class); FileInputFormat.addInputPath(init_job, new Path(args[0])); //TODO check rewrite in future FileOutputFormat.setOutputPath(init_job, new Path(args[1] + "_m_" + Integer.toString(0))); init_job.waitForCompletion(true); double[][] old_centroids = new double[k][dim] ; int fi = 1 ; long t1 = System.currentTimeMillis() ; while(true) { System.out.print("start iteration") ; Job kmean_cluster_jb = Job.getInstance() ; Configuration conf = kmean_cluster_jb.getConfiguration() ; conf.set("kmeans.k", args[2]);
public static void main(String[] args) throws IOException, ClassNotFoundException, InterruptedException { if(args.length != 4) { System.out.print("args should be 2 : <inputpath> <outpath> <number of centroids> <dimensions> .") ; System.exit(-1); } int k = Integer.valueOf(args[2]) ; int dim = Integer.valueOf(args[3]) ; Job init_job = Job.getInstance() ; Configuration init_conf = init_job.getConfiguration(); init_conf.set("kmeans.k", args[2]); init_conf.set("kmeans.dim", args[3]); init_job.setJarByClass(KMean.class); init_job.setJobName("clustered kmeans"); init_job.setMapperClass(KMeanInitMapper.class); init_job.setReducerClass(KMeanInitReducer.class); init_job.setOutputKeyClass(IntWritable.class); init_job.setOutputValueClass(Text.class); FileInputFormat.addInputPath(init_job, new Path(args[0])); //TODO check rewrite in future FileOutputFormat.setOutputPath(init_job, new Path(args[1] + "_m_" + Integer.toString(0))); init_job.waitForCompletion(true); double[][] old_centroids = new double[k][dim] ; int fi = 1 ; long t1 = System.currentTimeMillis() ; while(true) { System.out.print("start iteration") ; Job kmean_cluster_jb = Job.getInstance() ; Configuration conf = kmean_cluster_jb.getConfiguration() ; conf.set("kmeans.k", args[2]); conf.set("kmeans.dim", args[3]); kmean_cluster_jb.setJarByClass(KMean.class); kmean_cluster_jb.setJobName("clustered kmeans"); kmean_cluster_jb.setMapperClass(KMeanIterationMapper.class); kmean_cluster_jb.setReducerClass(KMeanIterationReducer.class); kmean_cluster_jb.setOutputKeyClass(IntWritable.class); kmean_cluster_jb.setOutputValueClass(Text.class); // TODO check rewrite in future String uri = args[1] + "_m_" + Integer.toString(fi-1) + "/part-r-00000"; Configuration temp_conf = new Configuration();
118
0
// Bug report: cached GeoPoint is being returned as the first value. // Wait for the 2nd value to be returned, which is hopefully not cached?
@Override public void onLocationChanged(Location location) { mLocation = location; if (mLocation != null) { // Bug report: cached GeoPoint is being returned as the first value. // Wait for the 2nd value to be returned, which is hopefully not cached? ++mLocationCount; InfoLogger.geolog("GeoPointActivity: " + System.currentTimeMillis() + " onLocationChanged(" + mLocationCount + ") lat: " + mLocation.getLatitude() + " long: " + mLocation.getLongitude() + " acc: " + mLocation.getAccuracy()); if (mLocationCount > 1) { mLocationDialog.setMessage(getString(R.string.location_provider_accuracy, mLocation.getProvider(), truncateDouble(mLocation.getAccuracy()))); if (mLocation.getAccuracy() <= mLocationAccuracy) { returnLocation(); } } } else { InfoLogger.geolog("GeoPointActivity: " + System.currentTimeMillis() + " onLocationChanged(" + mLocationCount + ") null location"); } }
DEFECT
true
mLocation = location; if (mLocation != null) { // Bug report: cached GeoPoint is being returned as the first value. // Wait for the 2nd value to be returned, which is hopefully not cached? ++mLocationCount; InfoLogger.geolog("GeoPointActivity: " + System.currentTimeMillis() +
@Override public void onLocationChanged(Location location) { mLocation = location; if (mLocation != null) { // Bug report: cached GeoPoint is being returned as the first value. // Wait for the 2nd value to be returned, which is hopefully not cached? ++mLocationCount; InfoLogger.geolog("GeoPointActivity: " + System.currentTimeMillis() + " onLocationChanged(" + mLocationCount + ") lat: " + mLocation.getLatitude() + " long: " + mLocation.getLongitude() + " acc: " + mLocation.getAccuracy()); if (mLocationCount > 1) { mLocationDialog.setMessage(getString(R.string.location_provider_accuracy, mLocation.getProvider(), truncateDouble(mLocation.getAccuracy()))); if (mLocation.getAccuracy() <= mLocationAccuracy) {
@Override public void onLocationChanged(Location location) { mLocation = location; if (mLocation != null) { // Bug report: cached GeoPoint is being returned as the first value. // Wait for the 2nd value to be returned, which is hopefully not cached? ++mLocationCount; InfoLogger.geolog("GeoPointActivity: " + System.currentTimeMillis() + " onLocationChanged(" + mLocationCount + ") lat: " + mLocation.getLatitude() + " long: " + mLocation.getLongitude() + " acc: " + mLocation.getAccuracy()); if (mLocationCount > 1) { mLocationDialog.setMessage(getString(R.string.location_provider_accuracy, mLocation.getProvider(), truncateDouble(mLocation.getAccuracy()))); if (mLocation.getAccuracy() <= mLocationAccuracy) { returnLocation(); } } } else { InfoLogger.geolog("GeoPointActivity: " + System.currentTimeMillis() + " onLocationChanged(" + mLocationCount + ") null location"); } }
119
0
/** * Reduce la lista de vulnerabilidades de zap. * * @param site * @param zapRelations * @param groupVulnerabilities * @throws MalformedURLException */
private void reduceList(Site site, Map<String, String> zapRelations, Map<String, Vulnerability> groupVulnerabilities) throws MalformedURLException { /** * De las vulnerabilidades encontradas las mapeamos a objetos * y las agrupamos por tipo de vulnerabilidad y url */ for (Alert alert: site.getAlerts()) { String nameVuln = zapRelations.get(alert.getPluginid()); if(StringUtils.isBlank(nameVuln)){ Vulnerability vulnerability = new Vulnerability(); vulnerability.setName(Constantes.COMMON_MESSAGE_NOT_FOUND + alert.getName()); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "").trim()); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } else if(groupVulnerabilities.containsKey(nameVuln)){ Vulnerability vulnerability = groupVulnerabilities.get(nameVuln); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } } else { Vulnerability vulnerability = new Vulnerability(); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "")); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } } }
NONSATD
true
private void reduceList(Site site, Map<String, String> zapRelations, Map<String, Vulnerability> groupVulnerabilities) throws MalformedURLException { /** * De las vulnerabilidades encontradas las mapeamos a objetos * y las agrupamos por tipo de vulnerabilidad y url */ for (Alert alert: site.getAlerts()) { String nameVuln = zapRelations.get(alert.getPluginid()); if(StringUtils.isBlank(nameVuln)){ Vulnerability vulnerability = new Vulnerability(); vulnerability.setName(Constantes.COMMON_MESSAGE_NOT_FOUND + alert.getName()); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "").trim()); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } else if(groupVulnerabilities.containsKey(nameVuln)){ Vulnerability vulnerability = groupVulnerabilities.get(nameVuln); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } } else { Vulnerability vulnerability = new Vulnerability(); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "")); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } } }
private void reduceList(Site site, Map<String, String> zapRelations, Map<String, Vulnerability> groupVulnerabilities) throws MalformedURLException { /** * De las vulnerabilidades encontradas las mapeamos a objetos * y las agrupamos por tipo de vulnerabilidad y url */ for (Alert alert: site.getAlerts()) { String nameVuln = zapRelations.get(alert.getPluginid()); if(StringUtils.isBlank(nameVuln)){ Vulnerability vulnerability = new Vulnerability(); vulnerability.setName(Constantes.COMMON_MESSAGE_NOT_FOUND + alert.getName()); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "").trim()); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } else if(groupVulnerabilities.containsKey(nameVuln)){ Vulnerability vulnerability = groupVulnerabilities.get(nameVuln); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } } else { Vulnerability vulnerability = new Vulnerability(); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "")); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } } }
private void reduceList(Site site, Map<String, String> zapRelations, Map<String, Vulnerability> groupVulnerabilities) throws MalformedURLException { /** * De las vulnerabilidades encontradas las mapeamos a objetos * y las agrupamos por tipo de vulnerabilidad y url */ for (Alert alert: site.getAlerts()) { String nameVuln = zapRelations.get(alert.getPluginid()); if(StringUtils.isBlank(nameVuln)){ Vulnerability vulnerability = new Vulnerability(); vulnerability.setName(Constantes.COMMON_MESSAGE_NOT_FOUND + alert.getName()); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "").trim()); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } else if(groupVulnerabilities.containsKey(nameVuln)){ Vulnerability vulnerability = groupVulnerabilities.get(nameVuln); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } } else { Vulnerability vulnerability = new Vulnerability(); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "")); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } } }
119
1
/** * De las vulnerabilidades encontradas las mapeamos a objetos * y las agrupamos por tipo de vulnerabilidad y url */
private void reduceList(Site site, Map<String, String> zapRelations, Map<String, Vulnerability> groupVulnerabilities) throws MalformedURLException { /** * De las vulnerabilidades encontradas las mapeamos a objetos * y las agrupamos por tipo de vulnerabilidad y url */ for (Alert alert: site.getAlerts()) { String nameVuln = zapRelations.get(alert.getPluginid()); if(StringUtils.isBlank(nameVuln)){ Vulnerability vulnerability = new Vulnerability(); vulnerability.setName(Constantes.COMMON_MESSAGE_NOT_FOUND + alert.getName()); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "").trim()); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } else if(groupVulnerabilities.containsKey(nameVuln)){ Vulnerability vulnerability = groupVulnerabilities.get(nameVuln); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } } else { Vulnerability vulnerability = new Vulnerability(); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "")); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } } }
NONSATD
true
private void reduceList(Site site, Map<String, String> zapRelations, Map<String, Vulnerability> groupVulnerabilities) throws MalformedURLException { /** * De las vulnerabilidades encontradas las mapeamos a objetos * y las agrupamos por tipo de vulnerabilidad y url */ for (Alert alert: site.getAlerts()) { String nameVuln = zapRelations.get(alert.getPluginid());
private void reduceList(Site site, Map<String, String> zapRelations, Map<String, Vulnerability> groupVulnerabilities) throws MalformedURLException { /** * De las vulnerabilidades encontradas las mapeamos a objetos * y las agrupamos por tipo de vulnerabilidad y url */ for (Alert alert: site.getAlerts()) { String nameVuln = zapRelations.get(alert.getPluginid()); if(StringUtils.isBlank(nameVuln)){ Vulnerability vulnerability = new Vulnerability(); vulnerability.setName(Constantes.COMMON_MESSAGE_NOT_FOUND + alert.getName()); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "").trim()); vulnerability.setCwe(Integer.parseInt(alert.getCweid()));
private void reduceList(Site site, Map<String, String> zapRelations, Map<String, Vulnerability> groupVulnerabilities) throws MalformedURLException { /** * De las vulnerabilidades encontradas las mapeamos a objetos * y las agrupamos por tipo de vulnerabilidad y url */ for (Alert alert: site.getAlerts()) { String nameVuln = zapRelations.get(alert.getPluginid()); if(StringUtils.isBlank(nameVuln)){ Vulnerability vulnerability = new Vulnerability(); vulnerability.setName(Constantes.COMMON_MESSAGE_NOT_FOUND + alert.getName()); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "").trim()); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } else if(groupVulnerabilities.containsKey(nameVuln)){ Vulnerability vulnerability = groupVulnerabilities.get(nameVuln); for(Endpoint endPointZap : alert.getInstances()){
119
2
//TODO: Convertir la serveridad
private void reduceList(Site site, Map<String, String> zapRelations, Map<String, Vulnerability> groupVulnerabilities) throws MalformedURLException { /** * De las vulnerabilidades encontradas las mapeamos a objetos * y las agrupamos por tipo de vulnerabilidad y url */ for (Alert alert: site.getAlerts()) { String nameVuln = zapRelations.get(alert.getPluginid()); if(StringUtils.isBlank(nameVuln)){ Vulnerability vulnerability = new Vulnerability(); vulnerability.setName(Constantes.COMMON_MESSAGE_NOT_FOUND + alert.getName()); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "").trim()); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } else if(groupVulnerabilities.containsKey(nameVuln)){ Vulnerability vulnerability = groupVulnerabilities.get(nameVuln); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } } else { Vulnerability vulnerability = new Vulnerability(); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "")); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } } }
IMPLEMENTATION
true
vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "").trim()); vulnerability.setCwe(Integer.parseInt(alert.getCweid()));
* De las vulnerabilidades encontradas las mapeamos a objetos * y las agrupamos por tipo de vulnerabilidad y url */ for (Alert alert: site.getAlerts()) { String nameVuln = zapRelations.get(alert.getPluginid()); if(StringUtils.isBlank(nameVuln)){ Vulnerability vulnerability = new Vulnerability(); vulnerability.setName(Constantes.COMMON_MESSAGE_NOT_FOUND + alert.getName()); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "").trim()); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } else if(groupVulnerabilities.containsKey(nameVuln)){
private void reduceList(Site site, Map<String, String> zapRelations, Map<String, Vulnerability> groupVulnerabilities) throws MalformedURLException { /** * De las vulnerabilidades encontradas las mapeamos a objetos * y las agrupamos por tipo de vulnerabilidad y url */ for (Alert alert: site.getAlerts()) { String nameVuln = zapRelations.get(alert.getPluginid()); if(StringUtils.isBlank(nameVuln)){ Vulnerability vulnerability = new Vulnerability(); vulnerability.setName(Constantes.COMMON_MESSAGE_NOT_FOUND + alert.getName()); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "").trim()); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } else if(groupVulnerabilities.containsKey(nameVuln)){ Vulnerability vulnerability = groupVulnerabilities.get(nameVuln); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } } else { Vulnerability vulnerability = new Vulnerability(); vulnerability.setShortName(alert.getName());
119
3
//TODO: Convertir la serveridad
private void reduceList(Site site, Map<String, String> zapRelations, Map<String, Vulnerability> groupVulnerabilities) throws MalformedURLException { /** * De las vulnerabilidades encontradas las mapeamos a objetos * y las agrupamos por tipo de vulnerabilidad y url */ for (Alert alert: site.getAlerts()) { String nameVuln = zapRelations.get(alert.getPluginid()); if(StringUtils.isBlank(nameVuln)){ Vulnerability vulnerability = new Vulnerability(); vulnerability.setName(Constantes.COMMON_MESSAGE_NOT_FOUND + alert.getName()); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "").trim()); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } else if(groupVulnerabilities.containsKey(nameVuln)){ Vulnerability vulnerability = groupVulnerabilities.get(nameVuln); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } } else { Vulnerability vulnerability = new Vulnerability(); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "")); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } } }
IMPLEMENTATION
true
vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "").trim()); vulnerability.setCwe(Integer.parseInt(alert.getCweid()));
* De las vulnerabilidades encontradas las mapeamos a objetos * y las agrupamos por tipo de vulnerabilidad y url */ for (Alert alert: site.getAlerts()) { String nameVuln = zapRelations.get(alert.getPluginid()); if(StringUtils.isBlank(nameVuln)){ Vulnerability vulnerability = new Vulnerability(); vulnerability.setName(Constantes.COMMON_MESSAGE_NOT_FOUND + alert.getName()); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "").trim()); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } else if(groupVulnerabilities.containsKey(nameVuln)){
private void reduceList(Site site, Map<String, String> zapRelations, Map<String, Vulnerability> groupVulnerabilities) throws MalformedURLException { /** * De las vulnerabilidades encontradas las mapeamos a objetos * y las agrupamos por tipo de vulnerabilidad y url */ for (Alert alert: site.getAlerts()) { String nameVuln = zapRelations.get(alert.getPluginid()); if(StringUtils.isBlank(nameVuln)){ Vulnerability vulnerability = new Vulnerability(); vulnerability.setName(Constantes.COMMON_MESSAGE_NOT_FOUND + alert.getName()); vulnerability.setShortName(alert.getName()); vulnerability.setLongName(alert.getName()); //TODO: Convertir la serveridad vulnerability.setSeverity(alert.getRiskdesc().replaceAll("\\(.*\\)", "").trim()); vulnerability.setCwe(Integer.parseInt(alert.getCweid())); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } groupVulnerabilities.put(vulnerability.getName(), vulnerability); } else if(groupVulnerabilities.containsKey(nameVuln)){ Vulnerability vulnerability = groupVulnerabilities.get(nameVuln); for(Endpoint endPointZap : alert.getInstances()){ if(!vulnerability.getEndpoint().stream().anyMatch(obj -> obj.getUrl().equals(getUrlWithoutParameters(endPointZap.getUrl())) && obj.getMethod().equals(endPointZap.getMethod()))){ vulnerability.getEndpoint().add(new Endpoint(endPointZap.getMethod(), getUrlWithoutParameters(endPointZap.getUrl()))); } } } else { Vulnerability vulnerability = new Vulnerability(); vulnerability.setShortName(alert.getName());
24,703
0
// TODO: andrus, 4/28/2006 - actually we need to analyze preloaded classes and // see how they were annotated to choose the right access type...
@Override public boolean onStartNode(ProjectPath path) { JpaEntityMap entityMap = (JpaEntityMap) path.getObject(); // TODO: andrus, 4/28/2006 - actually we need to analyze preloaded classes and // see how they were annotated to choose the right access type... entityMap.setAccess(AccessType.FIELD); return true; }
DESIGN
true
public boolean onStartNode(ProjectPath path) { JpaEntityMap entityMap = (JpaEntityMap) path.getObject(); // TODO: andrus, 4/28/2006 - actually we need to analyze preloaded classes and // see how they were annotated to choose the right access type... entityMap.setAccess(AccessType.FIELD); return true;
@Override public boolean onStartNode(ProjectPath path) { JpaEntityMap entityMap = (JpaEntityMap) path.getObject(); // TODO: andrus, 4/28/2006 - actually we need to analyze preloaded classes and // see how they were annotated to choose the right access type... entityMap.setAccess(AccessType.FIELD); return true; }
@Override public boolean onStartNode(ProjectPath path) { JpaEntityMap entityMap = (JpaEntityMap) path.getObject(); // TODO: andrus, 4/28/2006 - actually we need to analyze preloaded classes and // see how they were annotated to choose the right access type... entityMap.setAccess(AccessType.FIELD); return true; }
24,704
0
// JPA Spec, 2.1.8.2 (same for all relationship owners): // The following mapping defaults apply: [...] // Table A contains a foreign key to table B. The foreign key column // name is formed as the concatenation of the following: the name of // the relationship property or field of entityA; "_" ; the name of // the primary key column in table B. The foreign key column has the // same type as the primary key of table B.
@Override public boolean onStartNode(ProjectPath path) { JpaRelationship relationship = (JpaRelationship) path.getObjectParent(); JpaJoinColumn column = (JpaJoinColumn) path.getObject(); if (column.getTable() == null) { JpaEntity entity = path.firstInstanceOf(JpaEntity.class); column.setTable(entity.getTable().getName()); } // JPA Spec, 2.1.8.2 (same for all relationship owners): // The following mapping defaults apply: [...] // Table A contains a foreign key to table B. The foreign key column // name is formed as the concatenation of the following: the name of // the relationship property or field of entityA; "_" ; the name of // the primary key column in table B. The foreign key column has the // same type as the primary key of table B. JpaEntityMap map = path.firstInstanceOf(JpaEntityMap.class); JpaEntity target = map.entityForClass(relationship.getTargetEntityName()); if (target == null) { context.recordConflict(new SimpleValidationFailure( relationship, "Invalid relationship target " + relationship.getTargetEntityName())); } else if (target.getAttributes() == null || target.getAttributes().getIds().isEmpty()) { context.recordConflict(new SimpleValidationFailure( target, "Relationship target has no PK defined: " + relationship.getTargetEntityName())); } else if (target.getAttributes().getIds().size() > 1) { // TODO: andrus, 4/30/2006 implement this; note that instead of // checking for "attribute.getJoinColumns().isEmpty()" above, // we'll have to match individual columns context.recordConflict(new SimpleValidationFailure( relationship, "Defaults for compound FK are not implemented.")); } else { JpaId id = target.getAttributes().getIds().iterator().next(); String pkName = id.getColumn() != null ? id.getColumn().getName() : id .getName(); column.setName(relationship.getName() + '_' + pkName); column.setReferencedColumnName(id.getColumn() != null ? id .getColumn() .getName() : id.getName()); } return true; }
NONSATD
true
column.setTable(entity.getTable().getName()); } // JPA Spec, 2.1.8.2 (same for all relationship owners): // The following mapping defaults apply: [...] // Table A contains a foreign key to table B. The foreign key column // name is formed as the concatenation of the following: the name of // the relationship property or field of entityA; "_" ; the name of // the primary key column in table B. The foreign key column has the // same type as the primary key of table B. JpaEntityMap map = path.firstInstanceOf(JpaEntityMap.class); JpaEntity target = map.entityForClass(relationship.getTargetEntityName());
@Override public boolean onStartNode(ProjectPath path) { JpaRelationship relationship = (JpaRelationship) path.getObjectParent(); JpaJoinColumn column = (JpaJoinColumn) path.getObject(); if (column.getTable() == null) { JpaEntity entity = path.firstInstanceOf(JpaEntity.class); column.setTable(entity.getTable().getName()); } // JPA Spec, 2.1.8.2 (same for all relationship owners): // The following mapping defaults apply: [...] // Table A contains a foreign key to table B. The foreign key column // name is formed as the concatenation of the following: the name of // the relationship property or field of entityA; "_" ; the name of // the primary key column in table B. The foreign key column has the // same type as the primary key of table B. JpaEntityMap map = path.firstInstanceOf(JpaEntityMap.class); JpaEntity target = map.entityForClass(relationship.getTargetEntityName()); if (target == null) { context.recordConflict(new SimpleValidationFailure( relationship, "Invalid relationship target " + relationship.getTargetEntityName())); } else if (target.getAttributes() == null || target.getAttributes().getIds().isEmpty()) {
@Override public boolean onStartNode(ProjectPath path) { JpaRelationship relationship = (JpaRelationship) path.getObjectParent(); JpaJoinColumn column = (JpaJoinColumn) path.getObject(); if (column.getTable() == null) { JpaEntity entity = path.firstInstanceOf(JpaEntity.class); column.setTable(entity.getTable().getName()); } // JPA Spec, 2.1.8.2 (same for all relationship owners): // The following mapping defaults apply: [...] // Table A contains a foreign key to table B. The foreign key column // name is formed as the concatenation of the following: the name of // the relationship property or field of entityA; "_" ; the name of // the primary key column in table B. The foreign key column has the // same type as the primary key of table B. JpaEntityMap map = path.firstInstanceOf(JpaEntityMap.class); JpaEntity target = map.entityForClass(relationship.getTargetEntityName()); if (target == null) { context.recordConflict(new SimpleValidationFailure( relationship, "Invalid relationship target " + relationship.getTargetEntityName())); } else if (target.getAttributes() == null || target.getAttributes().getIds().isEmpty()) { context.recordConflict(new SimpleValidationFailure( target, "Relationship target has no PK defined: " + relationship.getTargetEntityName())); } else if (target.getAttributes().getIds().size() > 1) { // TODO: andrus, 4/30/2006 implement this; note that instead of // checking for "attribute.getJoinColumns().isEmpty()" above, // we'll have to match individual columns context.recordConflict(new SimpleValidationFailure(
24,704
1
// TODO: andrus, 4/30/2006 implement this; note that instead of // checking for "attribute.getJoinColumns().isEmpty()" above, // we'll have to match individual columns
@Override public boolean onStartNode(ProjectPath path) { JpaRelationship relationship = (JpaRelationship) path.getObjectParent(); JpaJoinColumn column = (JpaJoinColumn) path.getObject(); if (column.getTable() == null) { JpaEntity entity = path.firstInstanceOf(JpaEntity.class); column.setTable(entity.getTable().getName()); } // JPA Spec, 2.1.8.2 (same for all relationship owners): // The following mapping defaults apply: [...] // Table A contains a foreign key to table B. The foreign key column // name is formed as the concatenation of the following: the name of // the relationship property or field of entityA; "_" ; the name of // the primary key column in table B. The foreign key column has the // same type as the primary key of table B. JpaEntityMap map = path.firstInstanceOf(JpaEntityMap.class); JpaEntity target = map.entityForClass(relationship.getTargetEntityName()); if (target == null) { context.recordConflict(new SimpleValidationFailure( relationship, "Invalid relationship target " + relationship.getTargetEntityName())); } else if (target.getAttributes() == null || target.getAttributes().getIds().isEmpty()) { context.recordConflict(new SimpleValidationFailure( target, "Relationship target has no PK defined: " + relationship.getTargetEntityName())); } else if (target.getAttributes().getIds().size() > 1) { // TODO: andrus, 4/30/2006 implement this; note that instead of // checking for "attribute.getJoinColumns().isEmpty()" above, // we'll have to match individual columns context.recordConflict(new SimpleValidationFailure( relationship, "Defaults for compound FK are not implemented.")); } else { JpaId id = target.getAttributes().getIds().iterator().next(); String pkName = id.getColumn() != null ? id.getColumn().getName() : id .getName(); column.setName(relationship.getName() + '_' + pkName); column.setReferencedColumnName(id.getColumn() != null ? id .getColumn() .getName() : id.getName()); } return true; }
IMPLEMENTATION
true
} else if (target.getAttributes().getIds().size() > 1) { // TODO: andrus, 4/30/2006 implement this; note that instead of // checking for "attribute.getJoinColumns().isEmpty()" above, // we'll have to match individual columns context.recordConflict(new SimpleValidationFailure( relationship,
+ relationship.getTargetEntityName())); } else if (target.getAttributes() == null || target.getAttributes().getIds().isEmpty()) { context.recordConflict(new SimpleValidationFailure( target, "Relationship target has no PK defined: " + relationship.getTargetEntityName())); } else if (target.getAttributes().getIds().size() > 1) { // TODO: andrus, 4/30/2006 implement this; note that instead of // checking for "attribute.getJoinColumns().isEmpty()" above, // we'll have to match individual columns context.recordConflict(new SimpleValidationFailure( relationship, "Defaults for compound FK are not implemented.")); } else { JpaId id = target.getAttributes().getIds().iterator().next(); String pkName = id.getColumn() != null ? id.getColumn().getName() : id .getName(); column.setName(relationship.getName() + '_' + pkName); column.setReferencedColumnName(id.getColumn() != null ? id
// name is formed as the concatenation of the following: the name of // the relationship property or field of entityA; "_" ; the name of // the primary key column in table B. The foreign key column has the // same type as the primary key of table B. JpaEntityMap map = path.firstInstanceOf(JpaEntityMap.class); JpaEntity target = map.entityForClass(relationship.getTargetEntityName()); if (target == null) { context.recordConflict(new SimpleValidationFailure( relationship, "Invalid relationship target " + relationship.getTargetEntityName())); } else if (target.getAttributes() == null || target.getAttributes().getIds().isEmpty()) { context.recordConflict(new SimpleValidationFailure( target, "Relationship target has no PK defined: " + relationship.getTargetEntityName())); } else if (target.getAttributes().getIds().size() > 1) { // TODO: andrus, 4/30/2006 implement this; note that instead of // checking for "attribute.getJoinColumns().isEmpty()" above, // we'll have to match individual columns context.recordConflict(new SimpleValidationFailure( relationship, "Defaults for compound FK are not implemented.")); } else { JpaId id = target.getAttributes().getIds().iterator().next(); String pkName = id.getColumn() != null ? id.getColumn().getName() : id .getName(); column.setName(relationship.getName() + '_' + pkName); column.setReferencedColumnName(id.getColumn() != null ? id .getColumn() .getName() : id.getName()); } return true; }
24,712
0
// TODO: optimize
public void deleteAll(User user, Conversation conversation) { // TODO: optimize messageRepository.getAllBySenderAndConversation(user, conversation) .stream() .parallel() .forEach(this::delete); }
DESIGN
true
public void deleteAll(User user, Conversation conversation) { // TODO: optimize messageRepository.getAllBySenderAndConversation(user, conversation) .stream()
public void deleteAll(User user, Conversation conversation) { // TODO: optimize messageRepository.getAllBySenderAndConversation(user, conversation) .stream() .parallel() .forEach(this::delete); }
public void deleteAll(User user, Conversation conversation) { // TODO: optimize messageRepository.getAllBySenderAndConversation(user, conversation) .stream() .parallel() .forEach(this::delete); }
24,717
0
/** * * @see org.springframework.web.servlet.mvc.Controller#handleRequest(javax.servlet.http.HttpServletRequest, * javax.servlet.http.HttpServletResponse) */
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian; } else if (algorithm instanceof EvolutionAlgorithm) { algorithmType = Constants.ALGORITHM_Evolution; } else if (algorithm instanceof JoiningAlgorithm) { algorithmType = Constants.ALGORITHM_Joining; } else if (algorithm instanceof UPGMAAlgorithm) { algorithmType = Constants.ALGORITHM_UPGMA; } // add algorithm type for analysisStepCommand analysisStepCommand.setAlgorithmType(algorithmType); // analyzed data for each analysis step List<AnalyzedData> analyzedDataSet = analysisStep.getDataSetReadOnly(); List<AnalyzedDataCommand> analyzedDataCommandList = new ArrayList<AnalyzedDataCommand>(); // Matrix or Tree? for (AnalyzedData analyzedData : analyzedDataSet) { AnalyzedDataCommand analyzedDataCommand = new AnalyzedDataCommand(); BeanUtils.copyProperties(analyzedDataCommand, analyzedData); String inputOutput = (analyzedData.isInputData()) ? ("Input") : ("Output"); analyzedDataCommand.setInputOutputType(inputOutput); if (analyzedData instanceof AnalyzedMatrix) { AnalyzedMatrix analyzedMatrix = (AnalyzedMatrix) analyzedData; analyzedDataCommand.setDataType(Constants.MATRIX_KEY); analyzedDataCommand.setDisplayName(analyzedMatrix.getMatrix().getTitle()); analyzedDataCommand.setId(analyzedMatrix.getId()); analyzedDataCommand.setDataId(analyzedMatrix.getMatrix().getId()); } else if (analyzedData instanceof AnalyzedTree) { AnalyzedTree analyzedTree = (AnalyzedTree) analyzedData; analyzedDataCommand.setDataType(Constants.TREE_KEY); analyzedDataCommand.setDisplayName(analyzedTree.getTree().getLabel()); analyzedDataCommand.setId(analyzedTree.getId()); analyzedDataCommand.setDataId(analyzedTree.getTree().getId()); } analyzedDataCommandList.add(analyzedDataCommand); } // end for // add analyzedData for analysisStepCommand Collections.sort(analyzedDataCommandList, new AnalyzedDataComparator()); analysisStepCommand.setAnalyzedDataCommandList(analyzedDataCommandList); analysisStepCommandList.add(analysisStepCommand); } analysisCommand.setAnalysisStepCommandList(analysisStepCommandList); analysisCommandList.add(analysisCommand); } getStudyService().updateCollection(changedAnalyses); studyCommand.setAnalysisCommandList(analysisCommandList); return new ModelAndView("analysisSection", Constants.STUDY_COMMAND_KEY, studyCommand); }
NONSATD
true
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian; } else if (algorithm instanceof EvolutionAlgorithm) { algorithmType = Constants.ALGORITHM_Evolution; } else if (algorithm instanceof JoiningAlgorithm) { algorithmType = Constants.ALGORITHM_Joining; } else if (algorithm instanceof UPGMAAlgorithm) { algorithmType = Constants.ALGORITHM_UPGMA; } // add algorithm type for analysisStepCommand analysisStepCommand.setAlgorithmType(algorithmType); // analyzed data for each analysis step List<AnalyzedData> analyzedDataSet = analysisStep.getDataSetReadOnly(); List<AnalyzedDataCommand> analyzedDataCommandList = new ArrayList<AnalyzedDataCommand>(); // Matrix or Tree? for (AnalyzedData analyzedData : analyzedDataSet) { AnalyzedDataCommand analyzedDataCommand = new AnalyzedDataCommand(); BeanUtils.copyProperties(analyzedDataCommand, analyzedData); String inputOutput = (analyzedData.isInputData()) ? ("Input") : ("Output"); analyzedDataCommand.setInputOutputType(inputOutput); if (analyzedData instanceof AnalyzedMatrix) { AnalyzedMatrix analyzedMatrix = (AnalyzedMatrix) analyzedData; analyzedDataCommand.setDataType(Constants.MATRIX_KEY); analyzedDataCommand.setDisplayName(analyzedMatrix.getMatrix().getTitle()); analyzedDataCommand.setId(analyzedMatrix.getId()); analyzedDataCommand.setDataId(analyzedMatrix.getMatrix().getId()); } else if (analyzedData instanceof AnalyzedTree) { AnalyzedTree analyzedTree = (AnalyzedTree) analyzedData; analyzedDataCommand.setDataType(Constants.TREE_KEY); analyzedDataCommand.setDisplayName(analyzedTree.getTree().getLabel()); analyzedDataCommand.setId(analyzedTree.getId()); analyzedDataCommand.setDataId(analyzedTree.getTree().getId()); } analyzedDataCommandList.add(analyzedDataCommand); } // end for // add analyzedData for analysisStepCommand Collections.sort(analyzedDataCommandList, new AnalyzedDataComparator()); analysisStepCommand.setAnalyzedDataCommandList(analyzedDataCommandList); analysisStepCommandList.add(analysisStepCommand); } analysisCommand.setAnalysisStepCommandList(analysisStepCommandList); analysisCommandList.add(analysisCommand); } getStudyService().updateCollection(changedAnalyses); studyCommand.setAnalysisCommandList(analysisCommandList); return new ModelAndView("analysisSection", Constants.STUDY_COMMAND_KEY, studyCommand); }
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian; } else if (algorithm instanceof EvolutionAlgorithm) { algorithmType = Constants.ALGORITHM_Evolution; } else if (algorithm instanceof JoiningAlgorithm) { algorithmType = Constants.ALGORITHM_Joining; } else if (algorithm instanceof UPGMAAlgorithm) { algorithmType = Constants.ALGORITHM_UPGMA; } // add algorithm type for analysisStepCommand analysisStepCommand.setAlgorithmType(algorithmType); // analyzed data for each analysis step List<AnalyzedData> analyzedDataSet = analysisStep.getDataSetReadOnly(); List<AnalyzedDataCommand> analyzedDataCommandList = new ArrayList<AnalyzedDataCommand>(); // Matrix or Tree? for (AnalyzedData analyzedData : analyzedDataSet) { AnalyzedDataCommand analyzedDataCommand = new AnalyzedDataCommand(); BeanUtils.copyProperties(analyzedDataCommand, analyzedData); String inputOutput = (analyzedData.isInputData()) ? ("Input") : ("Output"); analyzedDataCommand.setInputOutputType(inputOutput); if (analyzedData instanceof AnalyzedMatrix) { AnalyzedMatrix analyzedMatrix = (AnalyzedMatrix) analyzedData; analyzedDataCommand.setDataType(Constants.MATRIX_KEY); analyzedDataCommand.setDisplayName(analyzedMatrix.getMatrix().getTitle()); analyzedDataCommand.setId(analyzedMatrix.getId()); analyzedDataCommand.setDataId(analyzedMatrix.getMatrix().getId()); } else if (analyzedData instanceof AnalyzedTree) { AnalyzedTree analyzedTree = (AnalyzedTree) analyzedData; analyzedDataCommand.setDataType(Constants.TREE_KEY); analyzedDataCommand.setDisplayName(analyzedTree.getTree().getLabel()); analyzedDataCommand.setId(analyzedTree.getId()); analyzedDataCommand.setDataId(analyzedTree.getTree().getId()); } analyzedDataCommandList.add(analyzedDataCommand); } // end for // add analyzedData for analysisStepCommand Collections.sort(analyzedDataCommandList, new AnalyzedDataComparator()); analysisStepCommand.setAnalyzedDataCommandList(analyzedDataCommandList); analysisStepCommandList.add(analysisStepCommand); } analysisCommand.setAnalysisStepCommandList(analysisStepCommandList); analysisCommandList.add(analysisCommand); } getStudyService().updateCollection(changedAnalyses); studyCommand.setAnalysisCommandList(analysisCommandList); return new ModelAndView("analysisSection", Constants.STUDY_COMMAND_KEY, studyCommand); }
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian; } else if (algorithm instanceof EvolutionAlgorithm) { algorithmType = Constants.ALGORITHM_Evolution; } else if (algorithm instanceof JoiningAlgorithm) { algorithmType = Constants.ALGORITHM_Joining; } else if (algorithm instanceof UPGMAAlgorithm) { algorithmType = Constants.ALGORITHM_UPGMA; } // add algorithm type for analysisStepCommand analysisStepCommand.setAlgorithmType(algorithmType); // analyzed data for each analysis step List<AnalyzedData> analyzedDataSet = analysisStep.getDataSetReadOnly(); List<AnalyzedDataCommand> analyzedDataCommandList = new ArrayList<AnalyzedDataCommand>(); // Matrix or Tree? for (AnalyzedData analyzedData : analyzedDataSet) { AnalyzedDataCommand analyzedDataCommand = new AnalyzedDataCommand(); BeanUtils.copyProperties(analyzedDataCommand, analyzedData); String inputOutput = (analyzedData.isInputData()) ? ("Input") : ("Output"); analyzedDataCommand.setInputOutputType(inputOutput); if (analyzedData instanceof AnalyzedMatrix) { AnalyzedMatrix analyzedMatrix = (AnalyzedMatrix) analyzedData; analyzedDataCommand.setDataType(Constants.MATRIX_KEY); analyzedDataCommand.setDisplayName(analyzedMatrix.getMatrix().getTitle()); analyzedDataCommand.setId(analyzedMatrix.getId()); analyzedDataCommand.setDataId(analyzedMatrix.getMatrix().getId()); } else if (analyzedData instanceof AnalyzedTree) { AnalyzedTree analyzedTree = (AnalyzedTree) analyzedData; analyzedDataCommand.setDataType(Constants.TREE_KEY); analyzedDataCommand.setDisplayName(analyzedTree.getTree().getLabel()); analyzedDataCommand.setId(analyzedTree.getId()); analyzedDataCommand.setDataId(analyzedTree.getTree().getId()); } analyzedDataCommandList.add(analyzedDataCommand); } // end for // add analyzedData for analysisStepCommand Collections.sort(analyzedDataCommandList, new AnalyzedDataComparator()); analysisStepCommand.setAnalyzedDataCommandList(analyzedDataCommandList); analysisStepCommandList.add(analysisStepCommand); } analysisCommand.setAnalysisStepCommandList(analysisStepCommandList); analysisCommandList.add(analysisCommand); } getStudyService().updateCollection(changedAnalyses); studyCommand.setAnalysisCommandList(analysisCommandList); return new ModelAndView("analysisSection", Constants.STUDY_COMMAND_KEY, studyCommand); }
24,717
1
// copy study information
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian; } else if (algorithm instanceof EvolutionAlgorithm) { algorithmType = Constants.ALGORITHM_Evolution; } else if (algorithm instanceof JoiningAlgorithm) { algorithmType = Constants.ALGORITHM_Joining; } else if (algorithm instanceof UPGMAAlgorithm) { algorithmType = Constants.ALGORITHM_UPGMA; } // add algorithm type for analysisStepCommand analysisStepCommand.setAlgorithmType(algorithmType); // analyzed data for each analysis step List<AnalyzedData> analyzedDataSet = analysisStep.getDataSetReadOnly(); List<AnalyzedDataCommand> analyzedDataCommandList = new ArrayList<AnalyzedDataCommand>(); // Matrix or Tree? for (AnalyzedData analyzedData : analyzedDataSet) { AnalyzedDataCommand analyzedDataCommand = new AnalyzedDataCommand(); BeanUtils.copyProperties(analyzedDataCommand, analyzedData); String inputOutput = (analyzedData.isInputData()) ? ("Input") : ("Output"); analyzedDataCommand.setInputOutputType(inputOutput); if (analyzedData instanceof AnalyzedMatrix) { AnalyzedMatrix analyzedMatrix = (AnalyzedMatrix) analyzedData; analyzedDataCommand.setDataType(Constants.MATRIX_KEY); analyzedDataCommand.setDisplayName(analyzedMatrix.getMatrix().getTitle()); analyzedDataCommand.setId(analyzedMatrix.getId()); analyzedDataCommand.setDataId(analyzedMatrix.getMatrix().getId()); } else if (analyzedData instanceof AnalyzedTree) { AnalyzedTree analyzedTree = (AnalyzedTree) analyzedData; analyzedDataCommand.setDataType(Constants.TREE_KEY); analyzedDataCommand.setDisplayName(analyzedTree.getTree().getLabel()); analyzedDataCommand.setId(analyzedTree.getId()); analyzedDataCommand.setDataId(analyzedTree.getTree().getId()); } analyzedDataCommandList.add(analyzedDataCommand); } // end for // add analyzedData for analysisStepCommand Collections.sort(analyzedDataCommandList, new AnalyzedDataComparator()); analysisStepCommand.setAnalyzedDataCommandList(analyzedDataCommandList); analysisStepCommandList.add(analysisStepCommand); } analysisCommand.setAnalysisStepCommandList(analysisStepCommandList); analysisCommandList.add(analysisCommand); } getStudyService().updateCollection(changedAnalyses); studyCommand.setAnalysisCommandList(analysisCommandList); return new ModelAndView("analysisSection", Constants.STUDY_COMMAND_KEY, studyCommand); }
NONSATD
true
Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) {
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis);
24,717
2
// study from TBI do not contain submission_id
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian; } else if (algorithm instanceof EvolutionAlgorithm) { algorithmType = Constants.ALGORITHM_Evolution; } else if (algorithm instanceof JoiningAlgorithm) { algorithmType = Constants.ALGORITHM_Joining; } else if (algorithm instanceof UPGMAAlgorithm) { algorithmType = Constants.ALGORITHM_UPGMA; } // add algorithm type for analysisStepCommand analysisStepCommand.setAlgorithmType(algorithmType); // analyzed data for each analysis step List<AnalyzedData> analyzedDataSet = analysisStep.getDataSetReadOnly(); List<AnalyzedDataCommand> analyzedDataCommandList = new ArrayList<AnalyzedDataCommand>(); // Matrix or Tree? for (AnalyzedData analyzedData : analyzedDataSet) { AnalyzedDataCommand analyzedDataCommand = new AnalyzedDataCommand(); BeanUtils.copyProperties(analyzedDataCommand, analyzedData); String inputOutput = (analyzedData.isInputData()) ? ("Input") : ("Output"); analyzedDataCommand.setInputOutputType(inputOutput); if (analyzedData instanceof AnalyzedMatrix) { AnalyzedMatrix analyzedMatrix = (AnalyzedMatrix) analyzedData; analyzedDataCommand.setDataType(Constants.MATRIX_KEY); analyzedDataCommand.setDisplayName(analyzedMatrix.getMatrix().getTitle()); analyzedDataCommand.setId(analyzedMatrix.getId()); analyzedDataCommand.setDataId(analyzedMatrix.getMatrix().getId()); } else if (analyzedData instanceof AnalyzedTree) { AnalyzedTree analyzedTree = (AnalyzedTree) analyzedData; analyzedDataCommand.setDataType(Constants.TREE_KEY); analyzedDataCommand.setDisplayName(analyzedTree.getTree().getLabel()); analyzedDataCommand.setId(analyzedTree.getId()); analyzedDataCommand.setDataId(analyzedTree.getTree().getId()); } analyzedDataCommandList.add(analyzedDataCommand); } // end for // add analyzedData for analysisStepCommand Collections.sort(analyzedDataCommandList, new AnalyzedDataComparator()); analysisStepCommand.setAnalyzedDataCommandList(analyzedDataCommandList); analysisStepCommandList.add(analysisStepCommand); } analysisCommand.setAnalysisStepCommandList(analysisStepCommandList); analysisCommandList.add(analysisCommand); } getStudyService().updateCollection(changedAnalyses); studyCommand.setAnalysisCommandList(analysisCommandList); return new ModelAndView("analysisSection", Constants.STUDY_COMMAND_KEY, studyCommand); }
NONSATD
true
// copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId());
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController.
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } }
24,717
3
// FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController.
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian; } else if (algorithm instanceof EvolutionAlgorithm) { algorithmType = Constants.ALGORITHM_Evolution; } else if (algorithm instanceof JoiningAlgorithm) { algorithmType = Constants.ALGORITHM_Joining; } else if (algorithm instanceof UPGMAAlgorithm) { algorithmType = Constants.ALGORITHM_UPGMA; } // add algorithm type for analysisStepCommand analysisStepCommand.setAlgorithmType(algorithmType); // analyzed data for each analysis step List<AnalyzedData> analyzedDataSet = analysisStep.getDataSetReadOnly(); List<AnalyzedDataCommand> analyzedDataCommandList = new ArrayList<AnalyzedDataCommand>(); // Matrix or Tree? for (AnalyzedData analyzedData : analyzedDataSet) { AnalyzedDataCommand analyzedDataCommand = new AnalyzedDataCommand(); BeanUtils.copyProperties(analyzedDataCommand, analyzedData); String inputOutput = (analyzedData.isInputData()) ? ("Input") : ("Output"); analyzedDataCommand.setInputOutputType(inputOutput); if (analyzedData instanceof AnalyzedMatrix) { AnalyzedMatrix analyzedMatrix = (AnalyzedMatrix) analyzedData; analyzedDataCommand.setDataType(Constants.MATRIX_KEY); analyzedDataCommand.setDisplayName(analyzedMatrix.getMatrix().getTitle()); analyzedDataCommand.setId(analyzedMatrix.getId()); analyzedDataCommand.setDataId(analyzedMatrix.getMatrix().getId()); } else if (analyzedData instanceof AnalyzedTree) { AnalyzedTree analyzedTree = (AnalyzedTree) analyzedData; analyzedDataCommand.setDataType(Constants.TREE_KEY); analyzedDataCommand.setDisplayName(analyzedTree.getTree().getLabel()); analyzedDataCommand.setId(analyzedTree.getId()); analyzedDataCommand.setDataId(analyzedTree.getTree().getId()); } analyzedDataCommandList.add(analyzedDataCommand); } // end for // add analyzedData for analysisStepCommand Collections.sort(analyzedDataCommandList, new AnalyzedDataComparator()); analysisStepCommand.setAnalyzedDataCommandList(analyzedDataCommandList); analysisStepCommandList.add(analysisStepCommand); } analysisCommand.setAnalysisStepCommandList(analysisStepCommandList); analysisCommandList.add(analysisCommand); } getStudyService().updateCollection(changedAnalyses); studyCommand.setAnalysisCommandList(analysisCommandList); return new ModelAndView("analysisSection", Constants.STUDY_COMMAND_KEY, studyCommand); }
DEFECT
true
StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate();
studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } }
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly();
24,717
4
// save to db if the validated flag is updated:
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian; } else if (algorithm instanceof EvolutionAlgorithm) { algorithmType = Constants.ALGORITHM_Evolution; } else if (algorithm instanceof JoiningAlgorithm) { algorithmType = Constants.ALGORITHM_Joining; } else if (algorithm instanceof UPGMAAlgorithm) { algorithmType = Constants.ALGORITHM_UPGMA; } // add algorithm type for analysisStepCommand analysisStepCommand.setAlgorithmType(algorithmType); // analyzed data for each analysis step List<AnalyzedData> analyzedDataSet = analysisStep.getDataSetReadOnly(); List<AnalyzedDataCommand> analyzedDataCommandList = new ArrayList<AnalyzedDataCommand>(); // Matrix or Tree? for (AnalyzedData analyzedData : analyzedDataSet) { AnalyzedDataCommand analyzedDataCommand = new AnalyzedDataCommand(); BeanUtils.copyProperties(analyzedDataCommand, analyzedData); String inputOutput = (analyzedData.isInputData()) ? ("Input") : ("Output"); analyzedDataCommand.setInputOutputType(inputOutput); if (analyzedData instanceof AnalyzedMatrix) { AnalyzedMatrix analyzedMatrix = (AnalyzedMatrix) analyzedData; analyzedDataCommand.setDataType(Constants.MATRIX_KEY); analyzedDataCommand.setDisplayName(analyzedMatrix.getMatrix().getTitle()); analyzedDataCommand.setId(analyzedMatrix.getId()); analyzedDataCommand.setDataId(analyzedMatrix.getMatrix().getId()); } else if (analyzedData instanceof AnalyzedTree) { AnalyzedTree analyzedTree = (AnalyzedTree) analyzedData; analyzedDataCommand.setDataType(Constants.TREE_KEY); analyzedDataCommand.setDisplayName(analyzedTree.getTree().getLabel()); analyzedDataCommand.setId(analyzedTree.getId()); analyzedDataCommand.setDataId(analyzedTree.getTree().getId()); } analyzedDataCommandList.add(analyzedDataCommand); } // end for // add analyzedData for analysisStepCommand Collections.sort(analyzedDataCommandList, new AnalyzedDataComparator()); analysisStepCommand.setAnalyzedDataCommandList(analyzedDataCommandList); analysisStepCommandList.add(analysisStepCommand); } analysisCommand.setAnalysisStepCommandList(analysisStepCommandList); analysisCommandList.add(analysisCommand); } getStudyService().updateCollection(changedAnalyses); studyCommand.setAnalysisCommandList(analysisCommandList); return new ModelAndView("analysisSection", Constants.STUDY_COMMAND_KEY, studyCommand); }
NONSATD
true
} if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); }
StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand();
StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo();
24,717
5
//FIXME: display err message in GUI
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian; } else if (algorithm instanceof EvolutionAlgorithm) { algorithmType = Constants.ALGORITHM_Evolution; } else if (algorithm instanceof JoiningAlgorithm) { algorithmType = Constants.ALGORITHM_Joining; } else if (algorithm instanceof UPGMAAlgorithm) { algorithmType = Constants.ALGORITHM_UPGMA; } // add algorithm type for analysisStepCommand analysisStepCommand.setAlgorithmType(algorithmType); // analyzed data for each analysis step List<AnalyzedData> analyzedDataSet = analysisStep.getDataSetReadOnly(); List<AnalyzedDataCommand> analyzedDataCommandList = new ArrayList<AnalyzedDataCommand>(); // Matrix or Tree? for (AnalyzedData analyzedData : analyzedDataSet) { AnalyzedDataCommand analyzedDataCommand = new AnalyzedDataCommand(); BeanUtils.copyProperties(analyzedDataCommand, analyzedData); String inputOutput = (analyzedData.isInputData()) ? ("Input") : ("Output"); analyzedDataCommand.setInputOutputType(inputOutput); if (analyzedData instanceof AnalyzedMatrix) { AnalyzedMatrix analyzedMatrix = (AnalyzedMatrix) analyzedData; analyzedDataCommand.setDataType(Constants.MATRIX_KEY); analyzedDataCommand.setDisplayName(analyzedMatrix.getMatrix().getTitle()); analyzedDataCommand.setId(analyzedMatrix.getId()); analyzedDataCommand.setDataId(analyzedMatrix.getMatrix().getId()); } else if (analyzedData instanceof AnalyzedTree) { AnalyzedTree analyzedTree = (AnalyzedTree) analyzedData; analyzedDataCommand.setDataType(Constants.TREE_KEY); analyzedDataCommand.setDisplayName(analyzedTree.getTree().getLabel()); analyzedDataCommand.setId(analyzedTree.getId()); analyzedDataCommand.setDataId(analyzedTree.getTree().getId()); } analyzedDataCommandList.add(analyzedDataCommand); } // end for // add analyzedData for analysisStepCommand Collections.sort(analyzedDataCommandList, new AnalyzedDataComparator()); analysisStepCommand.setAnalyzedDataCommandList(analyzedDataCommandList); analysisStepCommandList.add(analysisStepCommand); } analysisCommand.setAnalysisStepCommandList(analysisStepCommandList); analysisCommandList.add(analysisCommand); } getStudyService().updateCollection(changedAnalyses); studyCommand.setAnalysisCommandList(analysisCommandList); return new ModelAndView("analysisSection", Constants.STUDY_COMMAND_KEY, studyCommand); }
IMPLEMENTATION
true
} } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$
if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>();
if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) {
24,717
6
//$NON-NLS-1$
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian; } else if (algorithm instanceof EvolutionAlgorithm) { algorithmType = Constants.ALGORITHM_Evolution; } else if (algorithm instanceof JoiningAlgorithm) { algorithmType = Constants.ALGORITHM_Joining; } else if (algorithm instanceof UPGMAAlgorithm) { algorithmType = Constants.ALGORITHM_UPGMA; } // add algorithm type for analysisStepCommand analysisStepCommand.setAlgorithmType(algorithmType); // analyzed data for each analysis step List<AnalyzedData> analyzedDataSet = analysisStep.getDataSetReadOnly(); List<AnalyzedDataCommand> analyzedDataCommandList = new ArrayList<AnalyzedDataCommand>(); // Matrix or Tree? for (AnalyzedData analyzedData : analyzedDataSet) { AnalyzedDataCommand analyzedDataCommand = new AnalyzedDataCommand(); BeanUtils.copyProperties(analyzedDataCommand, analyzedData); String inputOutput = (analyzedData.isInputData()) ? ("Input") : ("Output"); analyzedDataCommand.setInputOutputType(inputOutput); if (analyzedData instanceof AnalyzedMatrix) { AnalyzedMatrix analyzedMatrix = (AnalyzedMatrix) analyzedData; analyzedDataCommand.setDataType(Constants.MATRIX_KEY); analyzedDataCommand.setDisplayName(analyzedMatrix.getMatrix().getTitle()); analyzedDataCommand.setId(analyzedMatrix.getId()); analyzedDataCommand.setDataId(analyzedMatrix.getMatrix().getId()); } else if (analyzedData instanceof AnalyzedTree) { AnalyzedTree analyzedTree = (AnalyzedTree) analyzedData; analyzedDataCommand.setDataType(Constants.TREE_KEY); analyzedDataCommand.setDisplayName(analyzedTree.getTree().getLabel()); analyzedDataCommand.setId(analyzedTree.getId()); analyzedDataCommand.setDataId(analyzedTree.getTree().getId()); } analyzedDataCommandList.add(analyzedDataCommand); } // end for // add analyzedData for analysisStepCommand Collections.sort(analyzedDataCommandList, new AnalyzedDataComparator()); analysisStepCommand.setAnalyzedDataCommandList(analyzedDataCommandList); analysisStepCommandList.add(analysisStepCommand); } analysisCommand.setAnalysisStepCommandList(analysisStepCommandList); analysisCommandList.add(analysisCommand); } getStudyService().updateCollection(changedAnalyses); studyCommand.setAnalysisCommandList(analysisCommandList); return new ModelAndView("analysisSection", Constants.STUDY_COMMAND_KEY, studyCommand); }
NONSATD
true
//FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } //
if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand();
} List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) {
24,717
7
// // Analysis
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian; } else if (algorithm instanceof EvolutionAlgorithm) { algorithmType = Constants.ALGORITHM_Evolution; } else if (algorithm instanceof JoiningAlgorithm) { algorithmType = Constants.ALGORITHM_Joining; } else if (algorithm instanceof UPGMAAlgorithm) { algorithmType = Constants.ALGORITHM_UPGMA; } // add algorithm type for analysisStepCommand analysisStepCommand.setAlgorithmType(algorithmType); // analyzed data for each analysis step List<AnalyzedData> analyzedDataSet = analysisStep.getDataSetReadOnly(); List<AnalyzedDataCommand> analyzedDataCommandList = new ArrayList<AnalyzedDataCommand>(); // Matrix or Tree? for (AnalyzedData analyzedData : analyzedDataSet) { AnalyzedDataCommand analyzedDataCommand = new AnalyzedDataCommand(); BeanUtils.copyProperties(analyzedDataCommand, analyzedData); String inputOutput = (analyzedData.isInputData()) ? ("Input") : ("Output"); analyzedDataCommand.setInputOutputType(inputOutput); if (analyzedData instanceof AnalyzedMatrix) { AnalyzedMatrix analyzedMatrix = (AnalyzedMatrix) analyzedData; analyzedDataCommand.setDataType(Constants.MATRIX_KEY); analyzedDataCommand.setDisplayName(analyzedMatrix.getMatrix().getTitle()); analyzedDataCommand.setId(analyzedMatrix.getId()); analyzedDataCommand.setDataId(analyzedMatrix.getMatrix().getId()); } else if (analyzedData instanceof AnalyzedTree) { AnalyzedTree analyzedTree = (AnalyzedTree) analyzedData; analyzedDataCommand.setDataType(Constants.TREE_KEY); analyzedDataCommand.setDisplayName(analyzedTree.getTree().getLabel()); analyzedDataCommand.setId(analyzedTree.getId()); analyzedDataCommand.setDataId(analyzedTree.getTree().getId()); } analyzedDataCommandList.add(analyzedDataCommand); } // end for // add analyzedData for analysisStepCommand Collections.sort(analyzedDataCommandList, new AnalyzedDataComparator()); analysisStepCommand.setAnalyzedDataCommandList(analyzedDataCommandList); analysisStepCommandList.add(analysisStepCommand); } analysisCommand.setAnalysisStepCommandList(analysisStepCommandList); analysisCommandList.add(analysisCommand); } getStudyService().updateCollection(changedAnalyses); studyCommand.setAnalysisCommandList(analysisCommandList); return new ModelAndView("analysisSection", Constants.STUDY_COMMAND_KEY, studyCommand); }
NONSATD
true
Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) {
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); }
24,717
8
// Analysis Steps for Analysis and add algorithm type
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian; } else if (algorithm instanceof EvolutionAlgorithm) { algorithmType = Constants.ALGORITHM_Evolution; } else if (algorithm instanceof JoiningAlgorithm) { algorithmType = Constants.ALGORITHM_Joining; } else if (algorithm instanceof UPGMAAlgorithm) { algorithmType = Constants.ALGORITHM_UPGMA; } // add algorithm type for analysisStepCommand analysisStepCommand.setAlgorithmType(algorithmType); // analyzed data for each analysis step List<AnalyzedData> analyzedDataSet = analysisStep.getDataSetReadOnly(); List<AnalyzedDataCommand> analyzedDataCommandList = new ArrayList<AnalyzedDataCommand>(); // Matrix or Tree? for (AnalyzedData analyzedData : analyzedDataSet) { AnalyzedDataCommand analyzedDataCommand = new AnalyzedDataCommand(); BeanUtils.copyProperties(analyzedDataCommand, analyzedData); String inputOutput = (analyzedData.isInputData()) ? ("Input") : ("Output"); analyzedDataCommand.setInputOutputType(inputOutput); if (analyzedData instanceof AnalyzedMatrix) { AnalyzedMatrix analyzedMatrix = (AnalyzedMatrix) analyzedData; analyzedDataCommand.setDataType(Constants.MATRIX_KEY); analyzedDataCommand.setDisplayName(analyzedMatrix.getMatrix().getTitle()); analyzedDataCommand.setId(analyzedMatrix.getId()); analyzedDataCommand.setDataId(analyzedMatrix.getMatrix().getId()); } else if (analyzedData instanceof AnalyzedTree) { AnalyzedTree analyzedTree = (AnalyzedTree) analyzedData; analyzedDataCommand.setDataType(Constants.TREE_KEY); analyzedDataCommand.setDisplayName(analyzedTree.getTree().getLabel()); analyzedDataCommand.setId(analyzedTree.getId()); analyzedDataCommand.setDataId(analyzedTree.getTree().getId()); } analyzedDataCommandList.add(analyzedDataCommand); } // end for // add analyzedData for analysisStepCommand Collections.sort(analyzedDataCommandList, new AnalyzedDataComparator()); analysisStepCommand.setAnalyzedDataCommandList(analyzedDataCommandList); analysisStepCommandList.add(analysisStepCommand); } analysisCommand.setAnalysisStepCommandList(analysisStepCommandList); analysisCommandList.add(analysisCommand); } getStudyService().updateCollection(changedAnalyses); studyCommand.setAnalysisCommandList(analysisCommandList); return new ModelAndView("analysisSection", Constants.STUDY_COMMAND_KEY, studyCommand); }
NONSATD
true
AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>();
} } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) {
// FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian; } else if (algorithm instanceof EvolutionAlgorithm) { algorithmType = Constants.ALGORITHM_Evolution; } else if (algorithm instanceof JoiningAlgorithm) {
24,717
9
// analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo());
public ModelAndView handleRequest(HttpServletRequest request, HttpServletResponse response) throws Exception { Study study = ControllerUtil.findStudy(request, mStudyService); Submission submission = (Submission) study.getSubmission(); StudyCommand studyCommand = new StudyCommand(); // copy study information studyCommand.setStudy(study); // study from TBI do not contain submission_id if (submission != null) { studyCommand.setSubmission_id(submission.getId()); } List<Analysis> analysisList = study.getAnalyses(); List<AnalysisCommand> analysisCommandList = new ArrayList<AnalysisCommand>(); List<Analysis> changedAnalyses = new ArrayList<Analysis>(); StringBuilder errBuilder = new StringBuilder(); for (Analysis analysis : analysisList) { // FIXME: next if block needs to me moved to the onSumbit method when // we this controller will extend BaseFormController. if (!analysis.getValidated()) { ExecutionResult result = analysis.validate(); if (!result.isSuccessful()) { errBuilder.append(result.getErrorMessage()); } if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian; } else if (algorithm instanceof EvolutionAlgorithm) { algorithmType = Constants.ALGORITHM_Evolution; } else if (algorithm instanceof JoiningAlgorithm) { algorithmType = Constants.ALGORITHM_Joining; } else if (algorithm instanceof UPGMAAlgorithm) { algorithmType = Constants.ALGORITHM_UPGMA; } // add algorithm type for analysisStepCommand analysisStepCommand.setAlgorithmType(algorithmType); // analyzed data for each analysis step List<AnalyzedData> analyzedDataSet = analysisStep.getDataSetReadOnly(); List<AnalyzedDataCommand> analyzedDataCommandList = new ArrayList<AnalyzedDataCommand>(); // Matrix or Tree? for (AnalyzedData analyzedData : analyzedDataSet) { AnalyzedDataCommand analyzedDataCommand = new AnalyzedDataCommand(); BeanUtils.copyProperties(analyzedDataCommand, analyzedData); String inputOutput = (analyzedData.isInputData()) ? ("Input") : ("Output"); analyzedDataCommand.setInputOutputType(inputOutput); if (analyzedData instanceof AnalyzedMatrix) { AnalyzedMatrix analyzedMatrix = (AnalyzedMatrix) analyzedData; analyzedDataCommand.setDataType(Constants.MATRIX_KEY); analyzedDataCommand.setDisplayName(analyzedMatrix.getMatrix().getTitle()); analyzedDataCommand.setId(analyzedMatrix.getId()); analyzedDataCommand.setDataId(analyzedMatrix.getMatrix().getId()); } else if (analyzedData instanceof AnalyzedTree) { AnalyzedTree analyzedTree = (AnalyzedTree) analyzedData; analyzedDataCommand.setDataType(Constants.TREE_KEY); analyzedDataCommand.setDisplayName(analyzedTree.getTree().getLabel()); analyzedDataCommand.setId(analyzedTree.getId()); analyzedDataCommand.setDataId(analyzedTree.getTree().getId()); } analyzedDataCommandList.add(analyzedDataCommand); } // end for // add analyzedData for analysisStepCommand Collections.sort(analyzedDataCommandList, new AnalyzedDataComparator()); analysisStepCommand.setAnalyzedDataCommandList(analyzedDataCommandList); analysisStepCommandList.add(analysisStepCommand); } analysisCommand.setAnalysisStepCommandList(analysisStepCommandList); analysisCommandList.add(analysisCommand); } getStudyService().updateCollection(changedAnalyses); studyCommand.setAnalysisCommandList(analysisCommandList); return new ModelAndView("analysisSection", Constants.STUDY_COMMAND_KEY, studyCommand); }
NONSATD
true
AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String();
// // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian;
} if (analysis.getValidated()) { // save to db if the validated flag is updated: changedAnalyses.add(analysis); } } //FIXME: display err message in GUI if (LOGGER.isDebugEnabled()) { LOGGER.debug(errBuilder.toString()); //$NON-NLS-1$ } // // Analysis AnalysisCommand analysisCommand = new AnalysisCommand(); BeanUtils.copyProperties(analysisCommand, analysis); // Analysis Steps for Analysis and add algorithm type List<AnalysisStep> analysisStepList = analysis.getAnalysisStepsReadOnly(); List<AnalysisStepCommand> analysisStepCommandList = new ArrayList<AnalysisStepCommand>(); for (AnalysisStep analysisStep : analysisStepList) { AnalysisStepCommand analysisStepCommand = new AnalysisStepCommand(); BeanUtils.copyProperties(analysisStepCommand, analysisStep); // analysisStepCommand.setId(analysisStep.getId()); // analysisStepCommand.setSoftwareInfo(analysisStep.getSoftwareInfo()); Algorithm algorithm = analysisStep.getAlgorithmInfo(); String algorithmType = new String(); if (algorithm instanceof LikelihoodAlgorithm) { algorithmType = Constants.ALGORITHM_LIKELIHOOD; } else if (algorithm instanceof ParsimonyAlgorithm) { algorithmType = Constants.ALGORITHM_PARSIMONY; } else if (algorithm instanceof OtherAlgorithm) { algorithmType = Constants.ALGORITHM_OTHER; }else if (algorithm instanceof BayesianAlgorithm) { algorithmType = Constants.ALGORITHM_Bayesian; } else if (algorithm instanceof EvolutionAlgorithm) { algorithmType = Constants.ALGORITHM_Evolution; } else if (algorithm instanceof JoiningAlgorithm) { algorithmType = Constants.ALGORITHM_Joining; } else if (algorithm instanceof UPGMAAlgorithm) { algorithmType = Constants.ALGORITHM_UPGMA; } // add algorithm type for analysisStepCommand analysisStepCommand.setAlgorithmType(algorithmType); // analyzed data for each analysis step
README.md exists but content is empty. Use the Edit dataset card button to edit it.
Downloads last month
38
Edit dataset card

Collection including NamCyan/tesoro-comment