void AMExternalScanDataSourceAB::copyValues(int dataSourceIndex)
{
	AMDataSource* ds = scan_->dataSourceAt(dataSourceIndex);
	const AMnDIndex size = ds->size();

	switch(ds->rank()) {
	case 0:
		values_.clear();
		values_ << ds->value(AMnDIndex());
		break;

	case 1: {
		values_.resize(size.i());
		for(int i=0; i<size.i(); i++)
			values_[i] = ds->value(i);
		break;
	}
	case 2: {
		values_.resize(size.i()*size.j());
		for(int i=0; i<size.i(); i++)
			for(int j=0; j<size.j(); j++)
				values_[i*size.j() + j] = ds->value(AMnDIndex(i,j));
		break;
	}
	case 3: {
		values_.resize(size.i()*size.j()*size.k());
		for(int i=0; i<size.i(); i++)
			for(int j=0; j<size.j(); j++)
				for(int k=0; k<size.k(); k++)
					values_[i*size.j()*size.k() + j*size.k() + k] = ds->value(AMnDIndex(i,j,k));
		break;
	}
	case 4: {
		values_.resize(size.i()*size.j()*size.k()*size.l());
		for(int i=0; i<size.i(); i++)
			for(int j=0; j<size.j(); j++)
				for(int k=0; k<size.k(); k++)
					for(int l=0; l<size.l(); l++)
						values_[i*size.j()*size.k()*size.l() + j*size.k()*size.l() + k*size.l() + l] = ds->value(AMnDIndex(i,j,k,l));
		break;
	}
	case 5: {
		values_.resize(size.i()*size.j()*size.k()*size.l()*size.m());
		for(int i=0; i<size.i(); i++)
			for(int j=0; j<size.j(); j++)
				for(int k=0; k<size.k(); k++)
					for(int l=0; l<size.l(); l++)
						for(int m=0; m<size.m(); m++)
							values_[i*size.j()*size.k()*size.l()*size.m() + j*size.k()*size.l()*size.m() + k*size.l()*size.m() + l*size.m() + m] = ds->value(AMnDIndex(i,j,k,l,m));
		/// \todo oh god, we really need a block copy or a multi-dimensional iterator for AMDataSource::value()...
		break;
	}
	}
}
void VESPERSExporterSMAK::writeMainTable()
{
	QTextStream ts(file_);

	// 1. Column header.
	if(option_->columnHeaderIncluded()) {

		ts << "# ";

		for(int c=0; c<mainTableDataSources_.count(); c++) {

			setCurrentDataSource(mainTableDataSources_.at(c));

			if(mainTableIncludeX_.at(c))
				ts << "H" << option_->columnDelimiter() << "V" << option_->columnDelimiter();

			ts << parseKeywordString(option_->columnHeader()) << option_->columnDelimiter();
		}
	}

	ts << option_->newlineDelimiter() << option_->columnHeaderDelimiter() << option_->newlineDelimiter();

	// 2. rows
	VESPERS2DScanConfiguration *config = qobject_cast<VESPERS2DScanConfiguration *>(const_cast<AMScanConfiguration *>(currentScan_->scanConfiguration()));
	if (!config)
		return;

	QString suffix;

	if (config->ccdDetector().testFlag(VESPERS::Roper))
		suffix = "spe";

	else if (config->ccdDetector().testFlag(VESPERS::Mar))
		suffix = "tif";

	else if (config->ccdDetector().testFlag(VESPERS::Pilatus))
		suffix = "tif";

	QString ccdFileName = config->ccdFileName();
	int yRange = yRange_ == -1 ? currentScan_->scanSize(1) : (yRange_-1);
	int xRange = currentScan_->scanSize(0);

	for(int y = 0; y < yRange; y++) {

		for (int x = 0; x < xRange; x++){

			// over rows within columns
			for(int c=0; c<mainTableDataSources_.count(); c++) {

				setCurrentDataSource(mainTableDataSources_.at(c));
				AMDataSource* ds = currentScan_->dataSourceAt(currentDataSourceIndex_);
				int precision = option_->exportPrecision(ds->name());

				// print x and y column?
				if(mainTableIncludeX_.at(c)) {

					ts << ds->axisValue(0,x).toString(precision);
					ts << option_->columnDelimiter();
					ts << ds->axisValue(1, y).toString(precision);
					ts << option_->columnDelimiter();
				}

				if(ds->name().contains("FileNumber"))
					ts << QString("%1_%2.%3").arg(ccdFileName).arg(int(ds->value(AMnDIndex(x, y)))-1).arg(suffix);	// The -1 is because the value stored here is the NEXT number in the scan.  Purely a nomenclature setup from the EPICS interface.

				else
					ts << ds->value(AMnDIndex(x, y)).toString(precision);

				ts << option_->columnDelimiter();
			}

			ts << option_->newlineDelimiter();
		}
	}

	if (yRange_ != -1 && xIndex_ != -1){

		for (int x = 0; x < xIndex_; x++){

			// over rows within columns
			for(int c=0; c<mainTableDataSources_.count(); c++) {

				setCurrentDataSource(mainTableDataSources_.at(c));
				AMDataSource* ds = currentScan_->dataSourceAt(currentDataSourceIndex_);
				int precision = option_->exportPrecision(ds->name());

				// print x and y column?
				if(mainTableIncludeX_.at(c)) {

					ts << ds->axisValue(0,x).toString(precision);
					ts << option_->columnDelimiter();
					ts << ds->axisValue(1, yRange_-1).toString(precision);
					ts << option_->columnDelimiter();
				}

				if(ds->name().contains("FileNumber"))
					ts << QString("%1_%2.%3").arg(ccdFileName).arg(int(ds->value(AMnDIndex(x, yRange_-1)))-1).arg(suffix);	// The -1 is because the value stored here is the NEXT number in the scan.  Purely a nomenclature setup from the EPICS interface.

				else
					ts << ds->value(AMnDIndex(x, yRange_-1)).toString(precision);

				ts << option_->columnDelimiter();
			}


			ts << option_->newlineDelimiter();
		}
	}


	ts << option_->newlineDelimiter();
}
bool AMExporter2DAscii::writeSeparateFiles(const QString &destinationFolderPath)
{
	if (option_->higherDimensionsInRows()){

		for (int s = 0, sSize = separateFileDataSources_.size(); s < sSize; s++) {

			setCurrentDataSource(separateFileDataSources_.at(s));	// sets currentDataSourceIndex_
			AMDataSource* source = currentScan_->dataSourceAt(currentDataSourceIndex_);

			QFile output;
			QString separateFileName = parseKeywordString( destinationFolderPath % "/" % option_->separateSectionFileName() );
			separateFileName = removeNonPrintableCharacters(separateFileName);

			if(!openFile(&output, separateFileName)) {
				AMErrorMon::report(AMErrorReport(this, AMErrorReport::Alert, -4, "Export failed (partially): You selected to create separate files for certain data sets. Could not open the file '" % separateFileName % "' for writing.  Check that you have permission to save files there, and that a file with that name doesn't already exists."));
				return false;
			}

			int spectraSize = source->size(2);
			QString columnDelimiter = option_->columnDelimiter();
			QString newLineDelimiter = option_->newlineDelimiter();
			QTextStream out(&output);
			int yRange = yRange_ == -1 ? currentScan_->scanSize(1) : (yRange_-1);
			int xRange = currentScan_->scanSize(0);

			for (int y = 0; y < yRange; y++){

				for (int x = 0; x < xRange; x++){

					QVector<double> data(spectraSize);
					source->values(AMnDIndex(x, y, 0), AMnDIndex(x, y, spectraSize-1), data.data());

					for (int i = 0; i < spectraSize; i++)
						out << data.at(i) << columnDelimiter;

					out << newLineDelimiter;
				}
			}

			if (yRange_ != -1 && xIndex_ != -1){

				for (int i = 0; i < xIndex_; i++){

					QVector<double> data(spectraSize);
					source->values(AMnDIndex(i, yRange_-1, 0), AMnDIndex(i, yRange_-1, spectraSize-1), data.data());

					for (int i = 0; i < spectraSize; i++)
						out << data.at(i) << columnDelimiter;

					out << newLineDelimiter;
				}

				out << newLineDelimiter;
			}

			output.close();
		}
	}

	else{

		for (int s = 0, sSize = separateFileDataSources_.size(); s < sSize; s++) {

			setCurrentDataSource(separateFileDataSources_.at(s));	// sets currentDataSourceIndex_
			AMDataSource* source = currentScan_->dataSourceAt(currentDataSourceIndex_);

			QFile output;
			QString separateFileName = parseKeywordString( destinationFolderPath % "/" % option_->separateSectionFileName() );
			separateFileName = removeNonPrintableCharacters(separateFileName);

			if(!openFile(&output, separateFileName)) {
				AMErrorMon::report(AMErrorReport(this, AMErrorReport::Alert, -4, "Export failed (partially): You selected to create separate files for certain data sets. Could not open the file '" % separateFileName % "' for writing.  Check that you have permission to save files there, and that a file with that name doesn't already exists."));
				return false;
			}

			int spectraSize = source->size(2);
			QString columnDelimiter = option_->columnDelimiter();
			QString newLineDelimiter = option_->newlineDelimiter();
			QTextStream out(&output);
			int yRange = yRange_ == -1 ? currentScan_->scanSize(1) : (yRange_-1);
			int xRange = currentScan_->scanSize(0);

			for (int i = 0; i < spectraSize; i++){

				for (int y = 0; y < yRange; y++)
					for (int x = 0; x < xRange; x++)
						out << double(source->value(AMnDIndex(x, y, i))) << columnDelimiter;

				if (yRange_ != -1 && xIndex_ != -1){

					for (int x = 0; x < xIndex_; x++)
						out << double(source->value(AMnDIndex(x, yRange_-1, i))) << columnDelimiter;
				}

				out << newLineDelimiter;
			}

			output.close();
		}
	}

	return true;
}
void AMExporter2DAscii::writeMainTable()
{
	QTextStream ts(file_);

	// 1. Column header.
	if(option_->columnHeaderIncluded()) {

		ts << "# ";

		for(int c=0; c<mainTableDataSources_.count(); c++) {

			setCurrentDataSource(mainTableDataSources_.at(c));

			if(mainTableIncludeX_.at(c))
				ts << currentScan_->rawData()->scanAxisAt(0).name << option_->columnDelimiter() << currentScan_->rawData()->scanAxisAt(1).name << option_->columnDelimiter();

			ts << parseKeywordString(option_->columnHeader()) << option_->columnDelimiter();
		}
	}

	ts << option_->newlineDelimiter() << option_->columnHeaderDelimiter() << option_->newlineDelimiter();

	// 2. rows
	int yRange = yRange_ == -1 ? currentScan_->scanSize(1) : (yRange_-1);
	int xRange = currentScan_->scanSize(0);

	for(int y = 0; y < yRange; y++) {

		for (int x = 0; x < xRange; x++){

			// over rows within columns
			for(int c=0; c<mainTableDataSources_.count(); c++) {
				setCurrentDataSource(mainTableDataSources_.at(c));
				AMDataSource* ds = currentScan_->dataSourceAt(currentDataSourceIndex_);

				// print x and y column?
				if(mainTableIncludeX_.at(c)) {

					ts << ds->axisValue(0, x).toString();
					ts << option_->columnDelimiter();
					ts << ds->axisValue(1, y).toString();
					ts << option_->columnDelimiter();
				}

				ts << ds->value(AMnDIndex(x, y)).toString();

				ts << option_->columnDelimiter();
			}

			ts << option_->newlineDelimiter();
		}
	}

	if (yRange_ != -1 && xIndex_ != -1){

		for (int i = 0; i < xIndex_; i++){

			// over rows within columns
			for(int c=0; c<mainTableDataSources_.count(); c++) {
				setCurrentDataSource(mainTableDataSources_.at(c));
				AMDataSource* ds = currentScan_->dataSourceAt(currentDataSourceIndex_);

				// print x and y column?
				if(mainTableIncludeX_.at(c)) {

					ts << ds->axisValue(0,i).toString();
					ts << option_->columnDelimiter();
					ts << ds->axisValue(1, yRange_-1).toString();
					ts << option_->columnDelimiter();
				}

				ts << ds->value(AMnDIndex(i, yRange_-1)).toString();

				ts << option_->columnDelimiter();
			}

			ts << option_->newlineDelimiter();
		}
	}

	ts << option_->newlineDelimiter();
}
Exemple #5
0
bool AMExporterGeneralAscii::writeSeparateFiles(const QString& destinationFolderPath)
{
	for(int s=0; s<separateFileDataSources_.count(); s++) {

		setCurrentDataSource(separateFileDataSources_.at(s));	// sets currentDataSourceIndex_
		AMDataSource* ds = currentScan_->dataSourceAt(currentDataSourceIndex_);

		QFile file;
		QString separateFileName = parseKeywordString( destinationFolderPath % "/" % option_->separateSectionFileName() );

		if(!openFile(&file, separateFileName)) {
			AMErrorMon::report(AMErrorReport(this, AMErrorReport::Alert, -4, "Export failed (partially): You selected to create separate files for certain data sets. Could not open the file '" % separateFileName % "' for writing.  Check that you have permission to save files there, and that a file with that name doesn't already exists."));
			return false;
		}

		QTextStream ts(&file);

		// section header?
		if(option_->sectionHeaderIncluded()) {
			ts << parseKeywordString(option_->sectionHeader());
			ts << option_->newlineDelimiter();
		}

		// column header?
		if(option_->columnHeaderIncluded()) {
			// 1D data sources:
			if(ds->rank() == 0) {
				ts << parseKeywordString(option_->columnHeader()) << option_->columnDelimiter();
			}
			else if(ds->rank() == 1) {
				if(separateFileIncludeX_.at(s))
					ts << parseKeywordString(option_->columnHeader()) << ".X" << option_->columnDelimiter();
				ts << parseKeywordString(option_->columnHeader()) << option_->columnDelimiter();
			}
			else if(ds->rank() == 2) {	// 2D
				if(separateFileIncludeX_.at(s))
					ts << parseKeywordString(option_->columnHeader()) << ".X" << option_->columnDelimiter();
				// need a loop over the second axis columns
				for(int cc=0; cc<ds->size(1); cc++) {
					setCurrentColumnIndex(cc);
					ts << parseKeywordString(option_->columnHeader()) << "[" << ds->axisValue(1, cc).toString() << ds->axisInfoAt(1).units << "]" << option_->columnDelimiter();
				}
			}
			ts << option_->newlineDelimiter() << option_->columnHeaderDelimiter() << option_->newlineDelimiter();
		}

		// table
		switch(ds->rank()) {
		case 0:
			ts << ds->value(AMnDIndex()).toString() << option_->columnDelimiter() << option_->newlineDelimiter();
			break;
		case 1: {
			int maxTableRows = ds->size(0);
			for(int r=0; r<maxTableRows; r++) {
				if(separateFileIncludeX_.at(s)) {
					ts << ds->axisValue(0,r).toString() << option_->columnDelimiter();
				}
				ts << ds->value(r).toString() << option_->columnDelimiter() << option_->newlineDelimiter();
			}
		}
		break;
		case 2: {
			int maxTableRows = ds->size(0);
			for(int r=0; r<maxTableRows; r++) {
				if(separateFileIncludeX_.at(s))
					ts << ds->axisValue(0,r).toString() << option_->columnDelimiter();
				// need a loop over the second axis columns
				for(int cc=0; cc<ds->size(1); cc++) {
					ts << ds->value(AMnDIndex(r,cc)).toString() << option_->columnDelimiter();
				}
				ts << option_->newlineDelimiter();
			}
		}
		break;
		default:
			/// \todo Implement 3D
			break;
		}
	}

	return true;
}
Exemple #6
0
void AMExporterGeneralAscii::writeSeparateSections()
{
	QTextStream ts(file_);

	for(int s=0; s<separateSectionDataSources_.count(); s++) {

		ts << option_->newlineDelimiter();

		setCurrentDataSource(separateSectionDataSources_.at(s));	// sets currentDataSourceIndex_
		AMDataSource* ds = currentScan_->dataSourceAt(currentDataSourceIndex_);

		// section header?
		if(option_->sectionHeaderIncluded()) {
			ts << parseKeywordString(option_->sectionHeader());
			ts << option_->newlineDelimiter();
		}

		// column header?
		if(option_->columnHeaderIncluded()) {
			// 1D data sources:
			if(ds->rank() == 0) {
				ts << parseKeywordString(option_->columnHeader()) << option_->columnDelimiter();
			}
			else if(ds->rank() == 1) {
				if(separateSectionIncludeX_.at(s))
					ts << parseKeywordString(option_->columnHeader()) << ".X" << option_->columnDelimiter();
				ts << parseKeywordString(option_->columnHeader()) << option_->columnDelimiter();
			}
			else if(ds->rank() == 2) {	// 2D
				if(separateSectionIncludeX_.at(s))
					ts << parseKeywordString(option_->columnHeader()) << ".X" << option_->columnDelimiter();
				// need a loop over the second axis columns
				for(int cc=0; cc<ds->size(1); cc++) {
					setCurrentColumnIndex(cc);
					ts << parseKeywordString(option_->columnHeader()) << "[" << ds->axisValue(1, cc).toString() << ds->axisInfoAt(1).units << "]" << option_->columnDelimiter();
				}
			}
			ts << option_->newlineDelimiter() << option_->columnHeaderDelimiter() << option_->newlineDelimiter();
		}

		// table
		switch(ds->rank()) {
		case 0:
			ts << ds->value(AMnDIndex()).toString() << option_->columnDelimiter() << option_->newlineDelimiter();
			break;
		case 1: {
			int maxTableRows = ds->size(0);
			for(int r=0; r<maxTableRows; r++) {
				if(separateSectionIncludeX_.at(s)) {
					ts << ds->axisValue(0,r).toString() << option_->columnDelimiter();
				}
				ts << ds->value(r).toString() << option_->columnDelimiter() << option_->newlineDelimiter();
			}
		}
		break;
		case 2: {
			int maxTableRows = ds->size(0);
			for(int r=0; r<maxTableRows; r++) {
				if(separateSectionIncludeX_.at(s))
					ts << ds->axisValue(0,r).toString() << option_->columnDelimiter();
				// need a loop over the second axis columns
				for(int cc=0; cc<ds->size(1); cc++) {
					ts << ds->value(AMnDIndex(r,cc)).toString() << option_->columnDelimiter();
				}
				ts << option_->newlineDelimiter();
			}
		}
		break;
		default:
			/// \todo Implement 3D
			break;
		}
	}
}
Exemple #7
0
void AMExporterGeneralAscii::writeMainTable()
{
	QTextStream ts(file_);

	// 1. Column header.
	int maxTableRows = 0;
	if(option_->columnHeaderIncluded()) {
		for(int c=0; c<mainTableDataSources_.count(); c++) {
			setCurrentDataSource(mainTableDataSources_.at(c));
			AMDataSource* ds = currentScan_->dataSourceAt(currentDataSourceIndex_);

			if(ds->size(0) > maxTableRows)
				maxTableRows = ds->size(0); // convenient... lets figure this out while we're looping through anyway

			// 1D data sources:
			if(ds->rank() == 1) {
				if(mainTableIncludeX_.at(c))
					ts << parseKeywordString(option_->columnHeader()) << ".X" << option_->columnDelimiter();
				ts << parseKeywordString(option_->columnHeader()) << option_->columnDelimiter();
			}
			else {	// 2D
				if(mainTableIncludeX_.at(c))
					ts << parseKeywordString(option_->columnHeader()) << ".X" << option_->columnDelimiter();
				// need a loop over the second axis columns
				for(int cc=0; cc<ds->size(1); cc++) {
					setCurrentColumnIndex(cc);
					ts << parseKeywordString(option_->columnHeader()) << "[" << ds->axisValue(1, cc).toString() << ds->axisInfoAt(1).units << "]" << option_->columnDelimiter();
				}
			}
		}
		ts << option_->newlineDelimiter() << option_->columnHeaderDelimiter() << option_->newlineDelimiter();
	}


	// 2. rows
	for(int r=0; r<maxTableRows; r++) {

		// over rows within columns
		for(int c=0; c<mainTableDataSources_.count(); c++) {
			setCurrentDataSource(mainTableDataSources_.at(c));
			AMDataSource* ds = currentScan_->dataSourceAt(currentDataSourceIndex_);

			bool doPrint = (ds->size(0) > r);

			// print x column?
			if(mainTableIncludeX_.at(c)) {
				if(doPrint)
					ts << ds->axisValue(0,r).toString();
				ts << option_->columnDelimiter();
			}

			// 1D data sources:
			if(ds->rank() == 1) {
				if(doPrint)
					ts << ds->value(r).toString();
				ts << option_->columnDelimiter();
			}
			else if(ds->rank() == 2) {
				// need a loop over the second axis columns
				for(int cc=0; cc<ds->size(1); cc++) {
					if(doPrint)
						ts << ds->value(AMnDIndex(r,cc)).toString();
					ts << option_->columnDelimiter();
				}
			}
		}
		ts << option_->newlineDelimiter();
	}
}
void AMExporterGeneralAscii::writeSeparateSections()
{
	QTextStream ts(file_);

	if (option_->higherDimensionsInRows()){

		for(int s=0; s<separateSectionDataSources_.count(); s++) {

			ts << option_->newlineDelimiter();

			setCurrentDataSource(separateSectionDataSources_.at(s));	// sets currentDataSourceIndex_
			AMDataSource* ds = currentScan_->dataSourceAt(currentDataSourceIndex_);
			int precision = option_->exportPrecision(ds->name());

			// section header?
			if(option_->sectionHeaderIncluded()) {
				ts << parseKeywordString(option_->sectionHeader());
				ts << option_->newlineDelimiter();
			}

			// column header?
			if(option_->columnHeaderIncluded()) {
				// 1D data sources:
				if(ds->rank() == 0) {
					ts << parseKeywordString(option_->columnHeader()) << option_->columnDelimiter();
				}
				else if(ds->rank() == 1) {
					if(separateSectionIncludeX_.at(s))
						ts << parseKeywordString(option_->columnHeader()) << ".X" << option_->columnDelimiter();
					ts << parseKeywordString(option_->columnHeader()) << option_->columnDelimiter();
				}
				else if(ds->rank() == 2) {	// 2D
					if(separateSectionIncludeX_.at(s))
						ts << parseKeywordString(option_->columnHeader()) << ".X" << option_->columnDelimiter();
					// need a loop over the second axis columns
					for(int cc=0; cc<ds->size(1); cc++) {
						setCurrentColumnIndex(cc);
						ts << parseKeywordString(option_->columnHeader()) << "[" << ds->axisValue(1, cc).toString(precision) << ds->axisInfoAt(1).units << "]" << option_->columnDelimiter();
					}
				}
				ts << option_->newlineDelimiter() << option_->columnHeaderDelimiter() << option_->newlineDelimiter();
			}

			// table
			switch(ds->rank()) {
			case 0:
				ts << ds->value(AMnDIndex()).toString(precision) << option_->columnDelimiter() << option_->newlineDelimiter();
				break;
			case 1: {
				int maxTableRows = ds->size(0);
				for(int r=0; r<maxTableRows; r++) {
					if(separateSectionIncludeX_.at(s)) {
						ts << ds->axisValue(0,r).toString(precision) << option_->columnDelimiter();
					}
					ts << ds->value(r).toString(precision) << option_->columnDelimiter() << option_->newlineDelimiter();
				}
			}
				break;
			case 2: {
				int maxTableRows = ds->size(0);
				for(int r=0; r<maxTableRows; r++) {
					if(separateSectionIncludeX_.at(s))
						ts << ds->axisValue(0,r).toString(precision) << option_->columnDelimiter();
					// need a loop over the second axis columns
					for(int cc=0; cc<ds->size(1); cc++) {
						ts << ds->value(AMnDIndex(r,cc)).toString(precision) << option_->columnDelimiter();
					}
					ts << option_->newlineDelimiter();
				}
			}
				break;
			default:
				/// \todo Implement 3D
				break;
			}
		}
	}

	// For writing out in columns.  Essentially transposing the file.
	else{

		for(int s=0; s<separateSectionDataSources_.count(); s++) {

			setCurrentDataSource(separateSectionDataSources_.at(s));	// sets currentDataSourceIndex_
			AMDataSource* ds = currentScan_->dataSourceAt(currentDataSourceIndex_);
			int precision = option_->exportPrecision(ds->name());

			// section header?
			if(option_->sectionHeaderIncluded()) {
				ts << parseKeywordString(option_->sectionHeader());
				ts << option_->newlineDelimiter();
			}

			// If including the X values.
			if (separateSectionIncludeX_.at(s)){

				switch(ds->rank()){

				case 0:
					break;

				case 1:
				case 2:{

					ts << parseKeywordString(option_->columnHeader()) << ".X" << option_->columnDelimiter();

					int maxTableColumns = ds->size(0);

					for(int column = 0; column < maxTableColumns; column++)
						ts << ds->axisValue(0,column).toString(precision) << option_->columnDelimiter();

					ts << option_->newlineDelimiter();

					break;
				}

				default:
					/// \todo 3D.
					break;
				}
			}

			// Main table with column headers prefacing rows.
			switch (ds->rank()){

			case 0:{

				if(option_->columnHeaderIncluded())
					ts << parseKeywordString(option_->columnHeader()) << option_->columnDelimiter();

				ts << ds->value(AMnDIndex()).toString(precision) << option_->columnDelimiter() << option_->newlineDelimiter();

				break;
			}

			case 1:{

				if (option_->columnHeaderIncluded())
					ts << parseKeywordString(option_->columnHeader()) << option_->columnDelimiter();

				int maxTableColumns = ds->size(0);

				for(int column = 0; column < maxTableColumns; column++)
					ts << ds->value(column).toString(precision) << option_->columnDelimiter();

				ts << option_->newlineDelimiter();

				break;
			}

			case 2:{

				for (int cc = 0; cc < ds->size(1); cc++){

					if (option_->columnHeaderIncluded())
						ts << parseKeywordString(option_->columnHeader()) << "[" << ds->axisValue(1, cc).toString(precision) << ds->axisInfoAt(1).units << "]" << option_->columnDelimiter();

					int maxTableColumns = ds->size(0);

					for (int column = 0; column < maxTableColumns; column++)
						ts << ds->value(AMnDIndex(column, cc)).toString(precision) << option_->columnDelimiter();

					ts << option_->newlineDelimiter();
				}

				break;
			}

			default:
				/// \todo 3D
				break;
			}
		}
	}
}
Exemple #9
0
void AM3dDataSourceView::updatePlotFromDataSource()
{
	// Know from previously that the rank of this data source is 2.

	// Or the scan is 0, which means we have no data to show.
	if(scan_ == 0) {
		surfacePlot_->loadFromData(0,0,0);
		return;
	}


	AMDataSource* ds = scan_->dataSourceAt(dataSourceIndex_);

	double minZ = 0, maxZ = 1;
	int sizeX = ds->size(0);
	int sizeY = ds->size(1);

	bool uniformAxisScales = ds->axisInfoAt(0).isUniform && ds->axisInfoAt(1).isUniform;

	if(uniformAxisScales) {
		qDebug() << "Uniform axis scales. Using simplest (uniform) grid filling";
		double** zValues = new2dArray<double>(sizeX, sizeY);

		if(logScaleEnabled_) {
			if(sizeX > 0 && sizeY > 0)
				minZ = maxZ = log(qMax(logMin_,(double)ds->value(AMnDIndex(0,0))));

			for(int i=0; i<sizeX; i++)
				for(int j=0; j<sizeY; j++) {
					double zValue = log(qMax(logMin_,(double)ds->value(AMnDIndex(i,j))));
					minZ = qMin(minZ, zValue);
					maxZ = qMax(maxZ, zValue);
					zValues[i][j] = zValue;
				}
		}
		else {
			if(sizeX > 0 && sizeY > 0)
				minZ = maxZ = ds->value(AMnDIndex(0,0));

			for(int i=0; i<sizeX; i++)
				for(int j=0; j<sizeY; j++) {
					double zValue = ds->value(AMnDIndex(i,j));
					minZ = qMin(minZ, zValue);
					maxZ = qMax(maxZ, zValue);
					zValues[i][j] = zValue;
				}
		}

		surfacePlot_->loadFromData(zValues,
								   sizeX,
								   sizeY,
								   ds->axisValue(0,0),
								   ds->axisValue(0,sizeX-1),
								   ds->axisValue(1,0),
								   ds->axisValue(1,sizeY-1));

		// called from loadFromData(): surfacePlot_->updateData();
		// not necessary?: surfacePlot_->updateGL();

		delete2dArray(zValues);
	}
	else {	// non-uniform axis scale grid
		qDebug() << "Non-uniform axis scale. Using irregular grid";

		Qwt3D::Triple** gridValues = new2dArray<Qwt3D::Triple>(sizeX, sizeY);

		if(logScaleEnabled_) {
			if(sizeX >0 && sizeY > 0)
				minZ = maxZ = log(qMax(logMin_,(double)ds->value(AMnDIndex(0,0))));

			for(int i=0; i<sizeX; i++) {
				double xAxisValue = ds->axisValue(0,i);
				for(int j=0; j<sizeY; j++) {
					double zValue = log(qMax(logMin_,(double)ds->value(AMnDIndex(i,j))));
					minZ = qMin(minZ, zValue);
					maxZ = qMax(maxZ, zValue);
					gridValues[i][j] = Qwt3D::Triple(xAxisValue, ds->axisValue(1,j), zValue);
				}
			}
		}
		else {
			if(sizeX >0 && sizeY > 0)
				minZ = maxZ = ds->value(AMnDIndex(0,0));

			for(int i=0; i<sizeX; i++) {
				double xAxisValue = ds->axisValue(0,i);
				for(int j=0; j<sizeY; j++) {
					double zValue = ds->value(AMnDIndex(i,j));
					minZ = qMin(minZ, zValue);
					maxZ = qMax(maxZ, zValue);
					gridValues[i][j] = Qwt3D::Triple(xAxisValue, ds->axisValue(1,j), zValue);
				}
			}
		}

		surfacePlot_->loadFromData(gridValues, sizeX, sizeY);
		delete2dArray(gridValues);
	}

	// doesnt realy do anyting: surfacePlot_->coordinates()->setAutoScale(true);

	double zRange = maxZ - minZ;
	double xRange = (double)ds->axisValue(0, sizeX-1) - (double)ds->axisValue(0,0);
	double yRange = (double)ds->axisValue(1, sizeY-1) - (double)ds->axisValue(1,0);

	surfacePlot_->setScale(100*zRange/xRange, 100*zRange/yRange, 100);

	double drad = (surfacePlot_->hull().maxVertex-surfacePlot_->hull().minVertex).length();
	drad *= 30/20.;
	surfacePlot_->setLightShift(drad,drad,drad);
	surfacePlot_->setLightRotation(90,0,0);

	AMAxisInfo xInfo = ds->axisInfoAt(0);
	AMAxisInfo yInfo = ds->axisInfoAt(1);

	QString xLabel = xInfo.description % " (" % xInfo.units % ")";
	QString yLabel = yInfo.description % " (" % yInfo.units % ")";
	QString zLabel = ds->description();

	surfacePlot_->coordinates()->axes[Qwt3D::X1].setLabelString(xLabel);
	surfacePlot_->coordinates()->axes[Qwt3D::X2].setLabelString(xLabel);
	surfacePlot_->coordinates()->axes[Qwt3D::X3].setLabelString(xLabel);
	surfacePlot_->coordinates()->axes[Qwt3D::X4].setLabelString(xLabel);

	surfacePlot_->coordinates()->axes[Qwt3D::Y1].setLabelString(yLabel);
	surfacePlot_->coordinates()->axes[Qwt3D::Y2].setLabelString(yLabel);
	surfacePlot_->coordinates()->axes[Qwt3D::Y3].setLabelString(yLabel);
	surfacePlot_->coordinates()->axes[Qwt3D::Y4].setLabelString(yLabel);

	surfacePlot_->coordinates()->axes[Qwt3D::Z1].setLabelString(zLabel);
	surfacePlot_->coordinates()->axes[Qwt3D::Z2].setLabelString(zLabel);
	surfacePlot_->coordinates()->axes[Qwt3D::Z3].setLabelString(zLabel);
	surfacePlot_->coordinates()->axes[Qwt3D::Z4].setLabelString(zLabel);
}
void VESPERSExporter2DAscii::writeMainTable()
{
	QTextStream ts(file_);

	// 1. Column header.
	if(option_->columnHeaderIncluded()) {

		ts << "# ";

		for(int c=0; c<mainTableDataSources_.count(); c++) {

			setCurrentDataSource(mainTableDataSources_.at(c));

			if(mainTableIncludeX_.at(c))
				ts << currentScan_->rawData()->scanAxisAt(0).name << option_->columnDelimiter() << currentScan_->rawData()->scanAxisAt(1).name << option_->columnDelimiter();

			ts << parseKeywordString(option_->columnHeader()) << option_->columnDelimiter();
		}
	}

	ts << option_->newlineDelimiter() << option_->columnHeaderDelimiter() << option_->newlineDelimiter();

	// 2. rows
	VESPERS::CCDDetectors ccdDetector;
	QString ccdFileName = "";

	VESPERS2DScanConfiguration *configuration2D = qobject_cast<VESPERS2DScanConfiguration *>(const_cast<AMScanConfiguration *>(currentScan_->scanConfiguration()));
	VESPERSTimedLineScanConfiguration *timedConfiguration = qobject_cast<VESPERSTimedLineScanConfiguration *>(const_cast<AMScanConfiguration *>(currentScan_->scanConfiguration()));

	if (configuration2D){

		ccdDetector = configuration2D->ccdDetector();
		ccdFileName = configuration2D->ccdFileName();
	}

	else if (timedConfiguration){

		ccdDetector = timedConfiguration->ccdDetector();
		ccdFileName = timedConfiguration->ccdFileName();
	}

	else
		return;

	QString ccdString;

	// This will return -1 if it fails.  This means any checks inside this loop will always fail if the CCD was not included.
	int yRange = yRange_ == -1 ? currentScan_->scanSize(1) : (yRange_-1);
	int xRange = currentScan_->scanSize(0);


	if (ccdDetector.testFlag(VESPERS::Roper))
		ccdString = ccdFileName % "_%1.spe";

	else if (ccdDetector.testFlag(VESPERS::Mar))
		ccdString = ccdFileName % "_%1.tif";

	else if (ccdDetector.testFlag(VESPERS::Pilatus))
		ccdString = ccdFileName % "-%1.tif";
	else
		ccdString = "";

	for(int y = 0; y < yRange; y++) {

		for (int x = 0; x < xRange; x++){

			// over rows within columns
			for(int c=0; c<mainTableDataSources_.count(); c++) {
				setCurrentDataSource(mainTableDataSources_.at(c));
				AMDataSource* ds = currentScan_->dataSourceAt(currentDataSourceIndex_);
				int precision = option_->exportPrecision(ds->name());

				// print x and y column?
				if(mainTableIncludeX_.at(c)) {

					ts << ds->axisValue(0, x).toString(precision);
					ts << option_->columnDelimiter();
					ts << ds->axisValue(1, y).toString(precision);
					ts << option_->columnDelimiter();
				}

				if(ds->name().contains("FileNumber"))
					ts << QString(ccdString).arg(int(ds->value(AMnDIndex(x, y)))-1);	// The -1 is because the value stored here is the NEXT number in the scan.  Purely a nomenclature setup from the EPICS interface.
				else
					ts << ds->value(AMnDIndex(x, y)).toString(precision);

				ts << option_->columnDelimiter();
			}

			ts << option_->newlineDelimiter();
		}
	}

	if (yRange_ != -1 && xIndex_ != -1){

		for (int x = 0; x < xIndex_; x++){

			// over rows within columns
			for(int c=0; c<mainTableDataSources_.count(); c++) {

				setCurrentDataSource(mainTableDataSources_.at(c));
				AMDataSource* ds = currentScan_->dataSourceAt(currentDataSourceIndex_);
				int precision = option_->exportPrecision(ds->name());

				// print x and y column?
				if(mainTableIncludeX_.at(c)) {

					ts << ds->axisValue(0,x).toString(precision);
					ts << option_->columnDelimiter();
					ts << ds->axisValue(1, yRange_-1).toString(precision);
					ts << option_->columnDelimiter();
				}

				if(ds->name().contains("FileNumber"))
					ts << QString(ccdString).arg(int(ds->value(AMnDIndex(x, yRange_-1)))-1);	// The -1 is because the value stored here is the NEXT number in the scan.  Purely a nomenclature setup from the EPICS interface.

				else
					ts << ds->value(AMnDIndex(x, yRange_-1)).toString(precision);

				ts << option_->columnDelimiter();
			}


			ts << option_->newlineDelimiter();
		}
	}


	ts << option_->newlineDelimiter();
}