void NewExperimentSettingsDialog::on_tableWidget_Znach_cellChanged(int row, int column)
{
// NEW NEW 24.01 NEW NEW NEW //
ui->tableWidget_Znach->resizeColumnsToContents();
ui->tableWidget_Znach->resizeRowsToContents();
// NEW NEW 24.01 NEW NEW NEW //
if(auto_check)
switch(column)
{
case FACT_NAME_COLUMN: // псевдоним
{
QString FactorName= ui->tableWidget_Znach->item(row,1)->text();
SetFactorInfo(row,FactorName,0,1);
break;
}
case FACT_CENTER_COLUMN: // центр фактора
onCenterChanged(row, column);
break;
case FACT_DIAPAZON_COLUMN: // диапазон выррирования
{
ui->tableWidget_Znach->blockSignals(true);
double diapazon=ui->tableWidget_Znach->item(row,FACT_DIAPAZON_COLUMN)->text().toDouble();
ui->tableWidget_Znach->item(row,FACT_INTERVAL_COLUMN)->setText(QString::number(diapazon/2.));
ui->tableWidget_Znach->blockSignals(false);
onCenterChanged(row, column - 1);
break;
}
case FACT_MIN_COLUMN: // минимальное значение
onMinMaxChanged(row, column + 1);
break;
case FACT_MAX_COLUMN: // максимальное
onMinMaxChanged(row, column);
break;
case FACT_INTERVAL_COLUMN:
{
ui->tableWidget_Znach->blockSignals(true);
double interval=ui->tableWidget_Znach->item(row,FACT_INTERVAL_COLUMN)->text().toDouble();
ui->tableWidget_Znach->item(row,FACT_DIAPAZON_COLUMN)->setText(QString::number(interval*2.));
ui->tableWidget_Znach->blockSignals(false);
onCenterChanged(row, FACT_DIAPAZON_COLUMN - 1);
break;
}
}
}
void View::onSetCenter(const glm::vec3 &v) {
if (mCenter == v) return;
mCenter = v;
mTransformDirty = true;
// if (mHooks) mHooks->onRotationChanged(mRotation);
onCenterChanged(v);
}
void QxrdImagePlot::setProcessor(QxrdDataProcessorWPtr proc)
{
m_DataProcessor = proc;
QxrdDataProcessorPtr dp(m_DataProcessor);
if (dp) {
QxrdCenterFinderPtr cf(dp->centerFinder());
if (cf) {
connect(m_CenterFinderPicker, SIGNAL(selected(QPointF)),
cf.data(), SLOT(onCenterChanged(QPointF)));
connect(m_Circles, SIGNAL(selected(QRectF)),
dp.data(), SLOT(maskCircle(QRectF)));
connect(m_Polygons, SIGNAL(selected(QVector<QPointF>)),
dp.data(), SLOT(maskPolygon(QVector<QPointF>)));
connect(m_Measurer, SIGNAL(selected(QVector<QPointF>)),
dp.data(), SLOT(measurePolygon(QVector<QPointF>)));
// connect(m_Slicer, SIGNAL(selected(QVector<QPointF>)),
// m_DataProcessor, SLOT(slicePolygon(QVector<QPointF>)));
connect(m_PowderPointPicker, SIGNAL(selected(QPointF)),
cf.data(), SLOT(onPointSelected(QPointF)));
onCenterChanged(QPointF(cf->get_CenterX(), cf->get_CenterY()));
connect(cf->prop_MarkedPoints(), SIGNAL(valueChanged(QxrdPowderPointVector,int)),
this, SLOT(onMarkedPointsChanged()));
onMarkedPointsChanged();
}
}
connect(m_Slicer, SIGNAL(selected(QVector<QPointF>)),
this, SIGNAL(slicePolygon(QVector<QPointF>)));
connect(m_HistogramSelector, SIGNAL(selected(QRectF)),
this, SIGNAL(selectHistogram(QRectF)));
}
