void DatabaseWidget::applyConfiguration(void)
{
try
{
//Apply the basic configurations
BaseObjectWidget::applyConfiguration();
model->setAuthor(author_edt->text().toUtf8());
model->setTemplateDB(templatedb_edt->text());
if(encoding_cmb->currentIndex() > 0)
model->setEncoding(EncodingType(encoding_cmb->currentText()));
if(lccollate_cmb->currentIndex() > 0)
model->setLocalization(LC_COLLATE, lccollate_cmb->currentText());
else
model->setLocalization(LC_COLLATE, "");
if(lcctype_cmb->currentIndex() > 0)
model->setLocalization(LC_CTYPE, lcctype_cmb->currentText());
else
model->setLocalization(LC_CTYPE, "");
finishConfiguration();
}
catch(Exception &e)
{
throw Exception(e.getErrorMessage(),e.getErrorType(),__PRETTY_FUNCTION__,__FILE__,__LINE__, &e);
}
}
void CollationWidget::applyConfiguration(void)
{
try
{
Collation *collation=nullptr;
startConfiguration<Collation>();
collation=dynamic_cast<Collation *>(this->object);
BaseObjectWidget::applyConfiguration();
if(encoding_cmb->currentIndex() > 0)
collation->setEncoding(EncodingType(encoding_cmb->currentText()));
if(locale_cmb->currentIndex() > 0)
collation->setLocale(locale_cmb->currentText());
if(lccollate_cmb->currentIndex() > 0)
collation->setLocalization(LC_COLLATE, lccollate_cmb->currentText());
if(lcctype_cmb->currentIndex() > 0)
collation->setLocalization(LC_CTYPE, lcctype_cmb->currentText());
finishConfiguration();
}
catch(Exception &e)
{
cancelConfiguration();
throw Exception(e.getErrorMessage(),e.getErrorType(),__PRETTY_FUNCTION__,__FILE__,__LINE__, &e);
}
}
void DatabaseWidget::applyConfiguration(void)
{
try
{
//Apply the basic configurations
BaseObjectWidget::applyConfiguration();
model->setAuthor(author_edt->text().toUtf8());
model->setTemplateDB(templatedb_edt->text());
model->setConnectionLimit(connlim_sb->value());
if(encoding_cmb->currentIndex() > 0)
model->setEncoding(EncodingType(encoding_cmb->currentText()));
else
model->setEncoding(EncodingType(BaseType::null));
if(lccollate_cmb->currentText()!=trUtf8("Default"))
model->setLocalization(Collation::_LC_COLLATE, lccollate_cmb->currentText());
else
model->setLocalization(Collation::_LC_COLLATE, QString());
if(lcctype_cmb->currentText()!=trUtf8("Default"))
model->setLocalization(Collation::_LC_CTYPE, lcctype_cmb->currentText());
else
model->setLocalization(Collation::_LC_CTYPE, QString());
model->setDefaultObject(def_schema_sel->getSelectedObject(), OBJ_SCHEMA);
model->setDefaultObject(def_owner_sel->getSelectedObject(), OBJ_ROLE);
model->setDefaultObject(def_collation_sel->getSelectedObject(), OBJ_COLLATION);
model->setDefaultObject(def_tablespace_sel->getSelectedObject(), OBJ_TABLESPACE);
finishConfiguration();
}
catch(Exception &e)
{
throw Exception(e.getErrorMessage(),e.getErrorType(),__PRETTY_FUNCTION__,__FILE__,__LINE__, &e);
}
}
bool ConvolutionFilterShell::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
if (pInArgList == NULL || pOutArgList == NULL)
{
return false;
}
if (!extractInputArgs(pInArgList))
{
return false;
}
if (!populateKernel() || mInput.mKernel.Nrows() % 2 == 0 || mInput.mKernel.Ncols() % 2 == 0)
{
mProgress.report("Invalid kernel.", 0, ERRORS, true);
return false;
}
BitMaskIterator iterChecker((mpAoi == NULL) ? NULL : mpAoi->getSelectedPoints(), 0, 0,
mInput.mpDescriptor->getColumnCount() - 1, mInput.mpDescriptor->getRowCount() - 1);
EncodingType resultType = mInput.mForceFloat ? EncodingType(FLT8BYTES) : mInput.mpDescriptor->getDataType();
if (resultType == INT4SCOMPLEX)
{
resultType = INT4SBYTES;
}
else if (resultType == FLT8COMPLEX)
{
resultType = FLT8BYTES;
}
if (!isBatch())
{
RasterElement* pResult = static_cast<RasterElement*>(
Service<ModelServices>()->getElement(mResultName, TypeConverter::toString<RasterElement>(), NULL));
if (pResult != NULL)
{
if (QMessageBox::question(Service<DesktopServices>()->getMainWidget(), "Result data set exists",
"The result data set already exists. Would you like to replace it?",
QMessageBox::Yes | QMessageBox::No, QMessageBox::Yes) == QMessageBox::No)
{
return false;
}
Service<ModelServices>()->destroyElement(pResult);
}
}
mProgress.report("Begin convolution matrix execution.", 0, NORMAL);
ModelResource<RasterElement> pResult(RasterUtilities::createRasterElement(
mResultName, iterChecker.getNumSelectedRows(), iterChecker.getNumSelectedColumns(),
mInput.mBands.size(), resultType, mInput.mpDescriptor->getInterleaveFormat(),
mInput.mpDescriptor->getProcessingLocation() == IN_MEMORY));
pResult->copyClassification(mInput.mpRaster);
pResult->getMetadata()->merge(mInput.mpDescriptor->getMetadata()); //copy original metadata
//chip metadata by bands
vector<DimensionDescriptor> orgBands = mInput.mpDescriptor->getBands();
vector<DimensionDescriptor> newBands;
newBands.reserve(mInput.mBands.size());
for (unsigned int index = 0; index < mInput.mBands.size(); ++index)
{
unsigned int selectedBand = mInput.mBands[index];
if (selectedBand < orgBands.size())
{
newBands.push_back(orgBands[selectedBand]);
}
}
RasterUtilities::chipMetadata(pResult->getMetadata(), mInput.mpDescriptor->getRows(),
mInput.mpDescriptor->getColumns(), newBands);
mInput.mpResult = pResult.get();
if (mInput.mpResult == NULL)
{
mProgress.report("Unable to create result data set.", 0, ERRORS, true);
return false;
}
mInput.mpAbortFlag = &mAborted;
mInput.mpIterCheck = &iterChecker;
ConvolutionFilterThreadOutput outputData;
mta::ProgressObjectReporter reporter("Convolving", mProgress.getCurrentProgress());
mta::MultiThreadedAlgorithm<ConvolutionFilterThreadInput,
ConvolutionFilterThreadOutput,
ConvolutionFilterThread>
alg(mta::getNumRequiredThreads(iterChecker.getNumSelectedRows()), mInput, outputData, &reporter);
switch(alg.run())
{
case mta::SUCCESS:
if (!isAborted())
{
mProgress.report("Convolution filter complete.", 100, NORMAL);
SpatialDataView* pView = displayResult();
if (Service<ApplicationServices>()->isInteractive() && pView == NULL)
{
return false;
}
pOutArgList->setPlugInArgValue("View", pView);
pResult.release();
mProgress.upALevel();
return true;
}
// fall through
case mta::ABORT:
mProgress.report("Convolution filter aborted.", 0, ABORT, true);
return false;
case mta::FAILURE:
mProgress.report("Convolution filter failed.", 0, ERRORS, true);
return false;
default:
VERIFY(false); // can't happen
}
}
