Example 66 with StepMeta
use of org.pentaho.di.trans.step.StepMeta in project pentaho-kettle by pentaho.
the class TransGraph method keyPressed.
@Override
public void keyPressed(KeyEvent e) {
if (e.keyCode == SWT.ESC) {
clearSettings();
redraw();
}
if (e.keyCode == SWT.DEL) {
List<StepMeta> stepMeta = transMeta.getSelectedSteps();
if (stepMeta != null && stepMeta.size() > 0) {
delSelected(null);
}
}
if (e.keyCode == SWT.F1) {
spoon.browseVersionHistory();
}
if (e.keyCode == SWT.F2) {
spoon.editKettlePropertiesFile();
}
// CTRL-UP : allignTop();
if (e.keyCode == SWT.ARROW_UP && (e.stateMask & SWT.MOD1) != 0) {
alligntop();
}
// CTRL-DOWN : allignBottom();
if (e.keyCode == SWT.ARROW_DOWN && (e.stateMask & SWT.MOD1) != 0) {
allignbottom();
}
// CTRL-LEFT : allignleft();
if (e.keyCode == SWT.ARROW_LEFT && (e.stateMask & SWT.MOD1) != 0) {
allignleft();
}
// CTRL-RIGHT : allignRight();
if (e.keyCode == SWT.ARROW_RIGHT && (e.stateMask & SWT.MOD1) != 0) {
allignright();
}
// ALT-RIGHT : distributeHorizontal();
if (e.keyCode == SWT.ARROW_RIGHT && (e.stateMask & SWT.ALT) != 0) {
distributehorizontal();
}
// ALT-UP : distributeVertical();
if (e.keyCode == SWT.ARROW_UP && (e.stateMask & SWT.ALT) != 0) {
distributevertical();
}
// ALT-HOME : snap to grid
if (e.keyCode == SWT.HOME && (e.stateMask & SWT.ALT) != 0) {
snaptogrid(ConstUI.GRID_SIZE);
}
if (e.character == 'E' && (e.stateMask & SWT.CTRL) != 0) {
checkErrorVisuals();
}
// CTRL-W or CTRL-F4 : close tab
if ((e.keyCode == 'w' && (e.stateMask & SWT.MOD1) != 0) || (e.keyCode == SWT.F4 && (e.stateMask & SWT.MOD1) != 0)) {
spoon.tabCloseSelected();
}
// Auto-layout
if (e.character == 'A') {
autoLayout();
}
// SPACE : over a step: show output fields...
if (e.character == ' ' && lastMove != null) {
Point real = lastMove;
// Hide the tooltip!
hideToolTips();
// Set the pop-up menu
StepMeta stepMeta = transMeta.getStep(real.x, real.y, iconsize);
if (stepMeta != null) {
// OK, we found a step, show the output fields...
inputOutputFields(stepMeta, false);
}
}
}
Also used :
Point(org.pentaho.di.core.gui.Point)
KettleExtensionPoint(org.pentaho.di.core.extension.KettleExtensionPoint)
StepMeta(org.pentaho.di.trans.step.StepMeta)
Example 67 with StepMeta
use of org.pentaho.di.trans.step.StepMeta in project pentaho-kettle by pentaho.
the class TransGraph method showLastPreviewResults.
public synchronized void showLastPreviewResults() {
if (lastTransDebugMeta == null || lastTransDebugMeta.getStepDebugMetaMap().isEmpty()) {
return;
}
final List<String> stepnames = new ArrayList<>();
final List<RowMetaInterface> rowMetas = new ArrayList<>();
final List<List<Object[]>> rowBuffers = new ArrayList<>();
//
for (StepMeta stepMeta : lastTransDebugMeta.getStepDebugMetaMap().keySet()) {
StepDebugMeta stepDebugMeta = lastTransDebugMeta.getStepDebugMetaMap().get(stepMeta);
stepnames.add(stepMeta.getName());
rowMetas.add(stepDebugMeta.getRowBufferMeta());
rowBuffers.add(stepDebugMeta.getRowBuffer());
}
getDisplay().asyncExec(new Runnable() {
@Override
public void run() {
EnterPreviewRowsDialog dialog = new EnterPreviewRowsDialog(shell, SWT.NONE, stepnames, rowMetas, rowBuffers);
dialog.open();
}
});
}
Also used :
ArrayList(java.util.ArrayList)
RowMetaInterface(org.pentaho.di.core.row.RowMetaInterface)
StepMeta(org.pentaho.di.trans.step.StepMeta)
ArrayList(java.util.ArrayList)
List(java.util.List)
SimpleLoggingObject(org.pentaho.di.core.logging.SimpleLoggingObject)
EnterPreviewRowsDialog(org.pentaho.di.ui.spoon.dialog.EnterPreviewRowsDialog)
StepDebugMeta(org.pentaho.di.trans.debug.StepDebugMeta)
Example 68 with StepMeta
use of org.pentaho.di.trans.step.StepMeta in project pentaho-kettle by pentaho.
the class JobEntryTrans method execute.
/**
* Execute this job entry and return the result. In this case it means, just set the result boolean in the Result
* class.
*
* @param result The result of the previous execution
* @param nr the job entry number
* @return The Result of the execution.
*/
@Override
public Result execute(Result result, int nr) throws KettleException {
result.setEntryNr(nr);
LogChannelFileWriter logChannelFileWriter = null;
LogLevel transLogLevel = parentJob.getLogLevel();
// Set Embedded NamedCluter MetatStore Provider Key so that it can be passed to VFS
if (parentJobMeta.getNamedClusterEmbedManager() != null) {
parentJobMeta.getNamedClusterEmbedManager().passEmbeddedMetastoreKey(this, parentJobMeta.getEmbeddedMetastoreProviderKey());
}
String realLogFilename = "";
if (setLogfile) {
transLogLevel = logFileLevel;
realLogFilename = environmentSubstitute(getLogFilename());
// if we do not have one, we must fail
if (Utils.isEmpty(realLogFilename)) {
logError(BaseMessages.getString(PKG, "JobTrans.Exception.LogFilenameMissing"));
result.setNrErrors(1);
result.setResult(false);
return result;
}
// create parent folder?
if (!FileUtil.createParentFolder(PKG, realLogFilename, createParentFolder, this.getLogChannel(), this)) {
result.setNrErrors(1);
result.setResult(false);
return result;
}
try {
logChannelFileWriter = new LogChannelFileWriter(this.getLogChannelId(), KettleVFS.getFileObject(realLogFilename, this), setAppendLogfile);
logChannelFileWriter.startLogging();
} catch (KettleException e) {
logError(BaseMessages.getString(PKG, "JobTrans.Error.UnableOpenAppender", realLogFilename, e.toString()));
logError(Const.getStackTracker(e));
result.setNrErrors(1);
result.setResult(false);
return result;
}
}
//
switch(specificationMethod) {
case FILENAME:
if (isDetailed()) {
logDetailed(BaseMessages.getString(PKG, "JobTrans.Log.OpeningTrans", environmentSubstitute(getFilename())));
}
break;
case REPOSITORY_BY_NAME:
if (isDetailed()) {
logDetailed(BaseMessages.getString(PKG, "JobTrans.Log.OpeningTransInDirec", environmentSubstitute(getFilename()), environmentSubstitute(directory)));
}
break;
case REPOSITORY_BY_REFERENCE:
if (isDetailed()) {
logDetailed(BaseMessages.getString(PKG, "JobTrans.Log.OpeningTransByReference", transObjectId));
}
break;
default:
break;
}
// Load the transformation only once for the complete loop!
// Throws an exception if it was not possible to load the transformation. For example, the XML file doesn't exist or
// the repository is down.
// Log the stack trace and return an error condition from this
//
TransMeta transMeta = null;
try {
transMeta = getTransMeta(rep, metaStore, this);
} catch (KettleException e) {
logError(BaseMessages.getString(PKG, "JobTrans.Exception.UnableToRunJob", parentJobMeta.getName(), getName(), StringUtils.trim(e.getMessage())), e);
result.setNrErrors(1);
result.setResult(false);
return result;
}
int iteration = 0;
String[] args1 = arguments;
if (args1 == null || args1.length == 0) {
// No arguments set, look at the parent job.
args1 = parentJob.getArguments();
}
// initializeVariablesFrom(parentJob);
//
// For the moment only do variable translation at the start of a job, not
// for every input row (if that would be switched on). This is for safety,
// the real argument setting is later on.
//
String[] args = null;
if (args1 != null) {
args = new String[args1.length];
for (int idx = 0; idx < args1.length; idx++) {
args[idx] = environmentSubstitute(args1[idx]);
}
}
RowMetaAndData resultRow = null;
boolean first = true;
List<RowMetaAndData> rows = new ArrayList<RowMetaAndData>(result.getRows());
while ((first && !execPerRow) || (execPerRow && rows != null && iteration < rows.size() && result.getNrErrors() == 0) && !parentJob.isStopped()) {
//
if (execPerRow) {
result.getRows().clear();
}
if (rows != null && execPerRow) {
resultRow = rows.get(iteration);
} else {
resultRow = null;
}
NamedParams namedParam = new NamedParamsDefault();
if (parameters != null) {
for (int idx = 0; idx < parameters.length; idx++) {
if (!Utils.isEmpty(parameters[idx])) {
// We have a parameter
//
namedParam.addParameterDefinition(parameters[idx], "", "Job entry runtime");
if (Utils.isEmpty(Const.trim(parameterFieldNames[idx]))) {
// There is no field name specified.
//
String value = Const.NVL(environmentSubstitute(parameterValues[idx]), "");
namedParam.setParameterValue(parameters[idx], value);
} else {
// something filled in, in the field column...
//
String value = "";
if (resultRow != null) {
value = resultRow.getString(parameterFieldNames[idx], "");
}
namedParam.setParameterValue(parameters[idx], value);
}
}
}
}
first = false;
Result previousResult = result;
try {
if (isDetailed()) {
logDetailed(BaseMessages.getString(PKG, "JobTrans.StartingTrans", getFilename(), getName(), getDescription()));
}
if (clearResultRows) {
previousResult.setRows(new ArrayList<RowMetaAndData>());
}
if (clearResultFiles) {
previousResult.getResultFiles().clear();
}
/*
* Set one or more "result" rows on the transformation...
*/
if (execPerRow) {
if (argFromPrevious) {
// Copy the input row to the (command line) arguments
args = null;
if (resultRow != null) {
args = new String[resultRow.size()];
for (int i = 0; i < resultRow.size(); i++) {
args[i] = resultRow.getString(i, null);
}
}
} else {
// Just pass a single row
List<RowMetaAndData> newList = new ArrayList<RowMetaAndData>();
newList.add(resultRow);
// This previous result rows list can be either empty or not.
// Depending on the checkbox "clear result rows"
// In this case, it would execute the transformation with one extra row each time
// Can't figure out a real use-case for it, but hey, who am I to decide that, right?
// :-)
//
previousResult.getRows().addAll(newList);
}
if (paramsFromPrevious) {
if (parameters != null) {
for (int idx = 0; idx < parameters.length; idx++) {
if (!Utils.isEmpty(parameters[idx])) {
// We have a parameter
if (Utils.isEmpty(Const.trim(parameterFieldNames[idx]))) {
namedParam.setParameterValue(parameters[idx], Const.NVL(environmentSubstitute(parameterValues[idx]), ""));
} else {
String fieldValue = "";
if (resultRow != null) {
fieldValue = resultRow.getString(parameterFieldNames[idx], "");
}
// Get the value from the input stream
namedParam.setParameterValue(parameters[idx], Const.NVL(fieldValue, ""));
}
}
}
}
}
} else {
if (argFromPrevious) {
// Only put the first Row on the arguments
args = null;
if (resultRow != null) {
args = new String[resultRow.size()];
for (int i = 0; i < resultRow.size(); i++) {
args[i] = resultRow.getString(i, null);
}
}
}
if (paramsFromPrevious) {
// Copy the input the parameters
if (parameters != null) {
for (int idx = 0; idx < parameters.length; idx++) {
if (!Utils.isEmpty(parameters[idx])) {
// We have a parameter
if (Utils.isEmpty(Const.trim(parameterFieldNames[idx]))) {
namedParam.setParameterValue(parameters[idx], Const.NVL(environmentSubstitute(parameterValues[idx]), ""));
} else {
String fieldValue = "";
if (resultRow != null) {
fieldValue = resultRow.getString(parameterFieldNames[idx], "");
}
// Get the value from the input stream
namedParam.setParameterValue(parameters[idx], Const.NVL(fieldValue, ""));
}
}
}
}
}
}
// Handle the parameters...
//
transMeta.clearParameters();
String[] parameterNames = transMeta.listParameters();
StepWithMappingMeta.activateParams(transMeta, transMeta, this, parameterNames, parameters, parameterValues);
boolean doFallback = true;
SlaveServer remoteSlaveServer = null;
TransExecutionConfiguration executionConfiguration = new TransExecutionConfiguration();
if (!Utils.isEmpty(runConfiguration)) {
log.logBasic(BaseMessages.getString(PKG, "JobTrans.RunConfig.Message"), runConfiguration);
runConfiguration = environmentSubstitute(runConfiguration);
executionConfiguration.setRunConfiguration(runConfiguration);
try {
ExtensionPointHandler.callExtensionPoint(log, KettleExtensionPoint.SpoonTransBeforeStart.id, new Object[] { executionConfiguration, parentJob.getJobMeta(), transMeta, rep });
if (!executionConfiguration.isExecutingLocally() && !executionConfiguration.isExecutingRemotely() && !executionConfiguration.isExecutingClustered()) {
result.setResult(true);
return result;
}
clustering = executionConfiguration.isExecutingClustered();
remoteSlaveServer = executionConfiguration.getRemoteServer();
doFallback = false;
} catch (KettleException e) {
log.logError(e.getMessage(), getName());
result.setNrErrors(1);
result.setResult(false);
return result;
}
}
if (doFallback) {
//
if (!Utils.isEmpty(remoteSlaveServerName)) {
String realRemoteSlaveServerName = environmentSubstitute(remoteSlaveServerName);
remoteSlaveServer = parentJob.getJobMeta().findSlaveServer(realRemoteSlaveServerName);
if (remoteSlaveServer == null) {
throw new KettleException(BaseMessages.getString(PKG, "JobTrans.Exception.UnableToFindRemoteSlaveServer", realRemoteSlaveServerName));
}
}
}
//
if (clustering) {
executionConfiguration.setClusterPosting(true);
executionConfiguration.setClusterPreparing(true);
executionConfiguration.setClusterStarting(true);
executionConfiguration.setClusterShowingTransformation(false);
executionConfiguration.setSafeModeEnabled(false);
executionConfiguration.setRepository(rep);
executionConfiguration.setLogLevel(transLogLevel);
executionConfiguration.setPreviousResult(previousResult);
// Also pass the variables from the transformation into the execution configuration
// That way it can go over the HTTP connection to the slave server.
//
executionConfiguration.setVariables(transMeta);
// Also set the arguments...
//
executionConfiguration.setArgumentStrings(args);
if (parentJob.getJobMeta().isBatchIdPassed()) {
executionConfiguration.setPassedBatchId(parentJob.getPassedBatchId());
}
TransSplitter transSplitter = null;
long errors = 0;
try {
transSplitter = Trans.executeClustered(transMeta, executionConfiguration);
// Monitor the running transformations, wait until they are done.
// Also kill them all if anything goes bad
// Also clean up afterwards...
//
errors += Trans.monitorClusteredTransformation(log, transSplitter, parentJob);
} catch (Exception e) {
logError("Error during clustered execution. Cleaning up clustered execution.", e);
// In case something goes wrong, make sure to clean up afterwards!
//
errors++;
if (transSplitter != null) {
Trans.cleanupCluster(log, transSplitter);
} else {
// Try to clean anyway...
//
SlaveServer master = null;
for (StepMeta stepMeta : transMeta.getSteps()) {
if (stepMeta.isClustered()) {
for (SlaveServer slaveServer : stepMeta.getClusterSchema().getSlaveServers()) {
if (slaveServer.isMaster()) {
master = slaveServer;
break;
}
}
}
}
if (master != null) {
master.deAllocateServerSockets(transMeta.getName(), null);
}
}
}
result.clear();
if (transSplitter != null) {
Result clusterResult = Trans.getClusteredTransformationResult(log, transSplitter, parentJob, executionConfiguration.isLogRemoteExecutionLocally());
result.add(clusterResult);
}
result.setNrErrors(result.getNrErrors() + errors);
} else if (remoteSlaveServer != null) {
// Execute this transformation remotely
//
// Make sure we can parameterize the slave server connection
//
remoteSlaveServer.shareVariablesWith(this);
// Remote execution...
//
executionConfiguration.setPreviousResult(previousResult.clone());
executionConfiguration.setArgumentStrings(args);
executionConfiguration.setVariables(this);
executionConfiguration.setRemoteServer(remoteSlaveServer);
executionConfiguration.setLogLevel(transLogLevel);
executionConfiguration.setRepository(rep);
executionConfiguration.setLogFileName(realLogFilename);
executionConfiguration.setSetAppendLogfile(setAppendLogfile);
executionConfiguration.setSetLogfile(setLogfile);
Map<String, String> params = executionConfiguration.getParams();
for (String param : transMeta.listParameters()) {
String value = Const.NVL(transMeta.getParameterValue(param), Const.NVL(transMeta.getParameterDefault(param), transMeta.getVariable(param)));
params.put(param, value);
}
if (parentJob.getJobMeta().isBatchIdPassed()) {
executionConfiguration.setPassedBatchId(parentJob.getPassedBatchId());
}
// Send the XML over to the slave server
// Also start the transformation over there...
//
String carteObjectId = Trans.sendToSlaveServer(transMeta, executionConfiguration, rep, metaStore);
// Now start the monitoring...
//
SlaveServerTransStatus transStatus = null;
while (!parentJob.isStopped() && waitingToFinish) {
try {
transStatus = remoteSlaveServer.getTransStatus(transMeta.getName(), carteObjectId, 0);
if (!transStatus.isRunning()) {
// The transformation is finished, get the result...
//
// get the status with the result ( we don't do it above because of changing PDI-15781)
transStatus = remoteSlaveServer.getTransStatus(transMeta.getName(), carteObjectId, 0, true);
Result remoteResult = transStatus.getResult();
result.clear();
result.add(remoteResult);
//
if (remoteResult.isStopped()) {
//
result.setNrErrors(result.getNrErrors() + 1);
}
// Make sure to clean up : write a log record etc, close any left-over sockets etc.
//
remoteSlaveServer.cleanupTransformation(transMeta.getName(), carteObjectId);
break;
}
} catch (Exception e1) {
logError(BaseMessages.getString(PKG, "JobTrans.Error.UnableContactSlaveServer", "" + remoteSlaveServer, transMeta.getName()), e1);
result.setNrErrors(result.getNrErrors() + 1L);
// Stop looking too, chances are too low the server will come back on-line
break;
}
// sleep for 2 seconds
try {
Thread.sleep(2000);
} catch (InterruptedException e) {
// Ignore
}
}
if (parentJob.isStopped()) {
//
if (transStatus == null || transStatus.isRunning()) {
// Try a remote abort ...
//
remoteSlaveServer.stopTransformation(transMeta.getName(), transStatus.getId());
// And a cleanup...
//
remoteSlaveServer.cleanupTransformation(transMeta.getName(), transStatus.getId());
// Set an error state!
//
result.setNrErrors(result.getNrErrors() + 1L);
}
}
} else {
// Execute this transformation on the local machine
//
// Create the transformation from meta-data
//
// trans = new Trans( transMeta, this );
final TransMeta meta = transMeta;
trans = new TransSupplier(transMeta, log, () -> new Trans(meta)).get();
trans.setParent(this);
// Pass the socket repository as early as possible...
//
trans.setSocketRepository(parentJob.getSocketRepository());
if (parentJob.getJobMeta().isBatchIdPassed()) {
trans.setPassedBatchId(parentJob.getPassedBatchId());
}
// set the parent job on the transformation, variables are taken from here...
//
trans.setParentJob(parentJob);
trans.setParentVariableSpace(parentJob);
trans.setLogLevel(transLogLevel);
trans.setPreviousResult(previousResult);
trans.setArguments(arguments);
// Mappings need the repository to load from
//
trans.setRepository(rep);
// inject the metaStore
trans.setMetaStore(metaStore);
// First get the root job
//
Job rootJob = parentJob;
while (rootJob.getParentJob() != null) {
rootJob = rootJob.getParentJob();
}
// Get the start and end-date from the root job...
//
trans.setJobStartDate(rootJob.getStartDate());
trans.setJobEndDate(rootJob.getEndDate());
//
for (DelegationListener delegationListener : parentJob.getDelegationListeners()) {
// TODO: copy some settings in the job execution configuration, not strictly needed
// but the execution configuration information is useful in case of a job re-start
//
delegationListener.transformationDelegationStarted(trans, new TransExecutionConfiguration());
}
try {
// Start execution...
//
trans.execute(args);
// TODO is it possible to implement Observer pattern to avoid Thread.sleep here?
while (!trans.isFinished() && trans.getErrors() == 0) {
if (parentJob.isStopped()) {
trans.stopAll();
break;
} else {
try {
Thread.sleep(0, 500);
} catch (InterruptedException e) {
// Ignore errors
}
}
}
trans.waitUntilFinished();
if (parentJob.isStopped() || trans.getErrors() != 0) {
trans.stopAll();
result.setNrErrors(1);
}
Result newResult = trans.getResult();
// clear only the numbers, NOT the files or rows.
result.clear();
result.add(newResult);
// Set the result rows too, if any ...
if (!Utils.isEmpty(newResult.getRows())) {
result.setRows(newResult.getRows());
}
if (setLogfile) {
ResultFile resultFile = new ResultFile(ResultFile.FILE_TYPE_LOG, KettleVFS.getFileObject(realLogFilename, this), parentJob.getJobname(), toString());
result.getResultFiles().put(resultFile.getFile().toString(), resultFile);
}
} catch (KettleException e) {
logError(BaseMessages.getString(PKG, "JobTrans.Error.UnablePrepareExec"), e);
result.setNrErrors(1);
}
}
} catch (Exception e) {
logError(BaseMessages.getString(PKG, "JobTrans.ErrorUnableOpenTrans", e.getMessage()));
logError(Const.getStackTracker(e));
result.setNrErrors(1);
}
iteration++;
}
if (setLogfile) {
if (logChannelFileWriter != null) {
logChannelFileWriter.stopLogging();
ResultFile resultFile = new ResultFile(ResultFile.FILE_TYPE_LOG, logChannelFileWriter.getLogFile(), parentJob.getJobname(), getName());
result.getResultFiles().put(resultFile.getFile().toString(), resultFile);
//
if (logChannelFileWriter.getException() != null) {
logError("Unable to open log file [" + getLogFilename() + "] : ");
logError(Const.getStackTracker(logChannelFileWriter.getException()));
result.setNrErrors(1);
result.setResult(false);
return result;
}
}
}
if (result.getNrErrors() == 0) {
result.setResult(true);
} else {
result.setResult(false);
}
return result;
}
Also used :
KettleException(org.pentaho.di.core.exception.KettleException)
NamedParams(org.pentaho.di.core.parameters.NamedParams)
TransMeta(org.pentaho.di.trans.TransMeta)
ArrayList(java.util.ArrayList)
SlaveServer(org.pentaho.di.cluster.SlaveServer)
LogLevel(org.pentaho.di.core.logging.LogLevel)
Result(org.pentaho.di.core.Result)
RowMetaAndData(org.pentaho.di.core.RowMetaAndData)
Job(org.pentaho.di.job.Job)
Trans(org.pentaho.di.trans.Trans)
NamedParamsDefault(org.pentaho.di.core.parameters.NamedParamsDefault)
LogChannelFileWriter(org.pentaho.di.core.logging.LogChannelFileWriter)
ResultFile(org.pentaho.di.core.ResultFile)
StepMeta(org.pentaho.di.trans.step.StepMeta)
KettleExtensionPoint(org.pentaho.di.core.extension.KettleExtensionPoint)
KettleXMLException(org.pentaho.di.core.exception.KettleXMLException)
KettleException(org.pentaho.di.core.exception.KettleException)
KettleDatabaseException(org.pentaho.di.core.exception.KettleDatabaseException)
TransSupplier(org.pentaho.di.trans.TransSupplier)
TransExecutionConfiguration(org.pentaho.di.trans.TransExecutionConfiguration)
SlaveServerTransStatus(org.pentaho.di.www.SlaveServerTransStatus)
TransSplitter(org.pentaho.di.trans.cluster.TransSplitter)
Map(java.util.Map)
DelegationListener(org.pentaho.di.job.DelegationListener)
Example 69 with StepMeta
use of org.pentaho.di.trans.step.StepMeta in project pentaho-kettle by pentaho.
the class TransDataLineage method calculateLineage.
/**
* Using the transformation, we will calculate the data lineage for each field in each step.
*
* @throws KettleStepException
* In case there is an exception calculating the lineage. This is usually caused by unavailable data sources
* etc.
*/
public void calculateLineage() throws KettleStepException {
// After sorting the steps we get a map of all the previous steps of a certain step.
//
final Map<StepMeta, Map<StepMeta, Boolean>> stepMap = transMeta.sortStepsNatural();
// However, the we need a sorted list of previous steps per step, not a map.
// So lets sort the maps, turn them into lists...
//
Map<StepMeta, List<StepMeta>> previousStepListMap = new HashMap<StepMeta, List<StepMeta>>();
for (StepMeta stepMeta : stepMap.keySet()) {
List<StepMeta> previousSteps = new ArrayList<StepMeta>();
previousStepListMap.put(stepMeta, previousSteps);
previousSteps.addAll(stepMap.get(stepMeta).keySet());
// Sort this list...
//
Collections.sort(previousSteps, new Comparator<StepMeta>() {
public int compare(StepMeta o1, StepMeta o2) {
Map<StepMeta, Boolean> beforeMap = stepMap.get(o1);
if (beforeMap != null) {
if (beforeMap.get(o2) == null) {
return -1;
} else {
return 1;
}
} else {
return o1.getName().compareToIgnoreCase(o2.getName());
}
}
});
System.out.println("Step considered: " + stepMeta.getName());
for (StepMeta prev : previousSteps) {
System.out.println(" --> previous step: " + prev.getName());
}
}
fieldStepsMap = new HashMap<ValueMetaInterface, List<StepMeta>>();
List<StepMeta> usedSteps = transMeta.getUsedSteps();
for (StepMeta stepMeta : usedSteps) {
calculateLineage(stepMeta);
}
}Example 70 with StepMeta
use of org.pentaho.di.trans.step.StepMeta in project pentaho-kettle by pentaho.
the class RepositoryExporter method convertFromFileRepository.
private void convertFromFileRepository(TransMeta transMeta) {
Object[] metaInjectObjectArray = new Object[4];
metaInjectObjectArray[0] = transMeta;
metaInjectObjectArray[1] = PKG;
if (repository instanceof KettleFileRepository) {
KettleFileRepository fileRep = (KettleFileRepository) repository;
metaInjectObjectArray[2] = fileRep;
// The id of the transformation is the relative filename.
// Setting the filename also sets internal variables needed to load the trans/job referenced.
//
String transMetaFilename = fileRep.calcFilename(transMeta.getObjectId());
transMeta.setFilename(transMetaFilename);
for (StepMeta stepMeta : transMeta.getSteps()) {
if (stepMeta.isMapping()) {
MappingMeta mappingMeta = (MappingMeta) stepMeta.getStepMetaInterface();
//
if (mappingMeta.getSpecificationMethod() == ObjectLocationSpecificationMethod.FILENAME) {
try {
TransMeta meta = MappingMeta.loadMappingMeta(mappingMeta, fileRep, fileRep.metaStore, transMeta);
FileObject fileObject = KettleVFS.getFileObject(meta.getFilename());
mappingMeta.setSpecificationMethod(ObjectLocationSpecificationMethod.REPOSITORY_BY_NAME);
mappingMeta.setFileName(null);
mappingMeta.setTransName(meta.getName());
mappingMeta.setDirectoryPath(Const.NVL(calcRepositoryDirectory(fileRep, fileObject), "/"));
} catch (Exception e) {
log.logError(BaseMessages.getString(PKG, "Repository.Exporter.Log.UnableToLoadTransInMap", mappingMeta.getName()), e);
}
}
}
metaInjectObjectArray[3] = stepMeta;
try {
ExtensionPointHandler.callExtensionPoint(log, KettleExtensionPoint.RepositoryExporterPatchTransStep.id, metaInjectObjectArray);
} catch (KettleException ke) {
log.logError(ke.getMessage(), ke);
}
}
}
}
Also used :
KettleException(org.pentaho.di.core.exception.KettleException)
MappingMeta(org.pentaho.di.trans.steps.mapping.MappingMeta)
TransMeta(org.pentaho.di.trans.TransMeta)
FileObject(org.apache.commons.vfs2.FileObject)
FileObject(org.apache.commons.vfs2.FileObject)
StepMeta(org.pentaho.di.trans.step.StepMeta)
KettleFileRepository(org.pentaho.di.repository.filerep.KettleFileRepository)
KettleException(org.pentaho.di.core.exception.KettleException)
FileSystemException(org.apache.commons.vfs2.FileSystemException)
IOException(java.io.IOException)
UnsupportedEncodingException(java.io.UnsupportedEncodingException)
Aggregations
StepMeta (org.pentaho.di.trans.step.StepMeta)637
TransMeta (org.pentaho.di.trans.TransMeta)228
KettleException (org.pentaho.di.core.exception.KettleException)174
BaseStepMeta (org.pentaho.di.trans.step.BaseStepMeta)167
Test (org.junit.Test)162
RowMetaInterface (org.pentaho.di.core.row.RowMetaInterface)147
TransHopMeta (org.pentaho.di.trans.TransHopMeta)128
Trans (org.pentaho.di.trans.Trans)119
ValueMetaString (org.pentaho.di.core.row.value.ValueMetaString)113
DummyTransMeta (org.pentaho.di.trans.steps.dummytrans.DummyTransMeta)107
PluginRegistry (org.pentaho.di.core.plugins.PluginRegistry)106
StepInterface (org.pentaho.di.trans.step.StepInterface)92
RowMetaAndData (org.pentaho.di.core.RowMetaAndData)79
Point (org.pentaho.di.core.gui.Point)79
FormAttachment (org.eclipse.swt.layout.FormAttachment)76
FormData (org.eclipse.swt.layout.FormData)76
FormLayout (org.eclipse.swt.layout.FormLayout)76
Label (org.eclipse.swt.widgets.Label)76
Shell (org.eclipse.swt.widgets.Shell)76
Button (org.eclipse.swt.widgets.Button)75
