void QmitkImageStatisticsView::OnClipboardHistogramButtonClicked() { if ( m_CurrentStatisticsValid && !( m_SelectedPlanarFigure != NULL)) { const unsigned int t = this->GetRenderWindowPart()->GetTimeNavigationController()->GetTime()->GetPos(); typedef mitk::ImageStatisticsCalculator::HistogramType HistogramType; const HistogramType *histogram = this->m_CalculationThread->GetTimeStepHistogram(t).GetPointer(); QString clipboard( "Measurement \t Frequency\n" ); for ( HistogramType::ConstIterator it = histogram->Begin(); it != histogram->End(); ++it ) { if( m_Controls->m_HistogramBinSizeSpinbox->value() == 1.0) { clipboard = clipboard.append( "%L1 \t %L2\n" ) .arg( it.GetMeasurementVector()[0], 0, 'f', 0 ) .arg( it.GetFrequency() ); } else { clipboard = clipboard.append( "%L1 \t %L2\n" ) .arg( it.GetMeasurementVector()[0], 0, 'f', 2 ) .arg( it.GetFrequency() ); } } QApplication::clipboard()->setText( clipboard, QClipboard::Clipboard ); } // If a (non-closed) PlanarFigure is selected, display a line profile widget else if ( m_CurrentStatisticsValid && (m_SelectedPlanarFigure != NULL )) { auto intensity = m_Controls->m_JSHistogram->GetFrequency(); auto pixel = m_Controls->m_JSHistogram->GetMeasurement(); QString clipboard( "Pixel \t Intensity\n" ); auto j = pixel.begin(); for (auto i = intensity.begin(); i < intensity.end(); i++) { assert(j != pixel.end()); clipboard = clipboard.append( "%L1 \t %L2\n" ) .arg( (*j).toString()) .arg( (*i).toString()); j++; } QApplication::clipboard()->setText( clipboard, QClipboard::Clipboard ); } else { QApplication::clipboard()->clear(); } }
void QmitkImageStatisticsView::ClipboardHistogramButtonClicked() { if ( m_CurrentStatisticsValid && (m_CurrentStatisticsCalculator.IsNotNull()) ) { typedef mitk::ImageStatisticsCalculator::HistogramType HistogramType; const HistogramType *histogram = m_CurrentStatisticsCalculator->GetHistogram(); QString clipboard( "Measurement \t Frequency\n" ); for ( HistogramType::ConstIterator it = histogram->Begin(); it != histogram->End(); ++it ) { clipboard = clipboard.append( "%L1 \t %L2\n" ) .arg( it.GetMeasurementVector()[0], 0, 'f', 2 ) .arg( it.GetFrequency() ); } QApplication::clipboard()->setText( clipboard, QClipboard::Clipboard ); } else { QApplication::clipboard()->clear(); } }
float mitk::HistogramGenerator::CalculateMaximumFrequency(const HistogramType* histogram) { HistogramType::ConstIterator itr = histogram->Begin(); HistogramType::ConstIterator end = histogram->End(); float maxFreq = 0; while( itr != end ) { maxFreq = vnl_math_max(maxFreq, // get rid of ambiguity with type signature // for vnl_math_max static_cast<float>(itr.GetFrequency())); ++itr; } return maxFreq; };