CrossCorrelationTable EEG_to_CrossCorrelationTable (EEG me, double startTime, double endTime, double lagTime, const wchar_t *channelRanges)
{
	try {
		// autowindow
		if (startTime == endTime) {
			startTime = my xmin; endTime = my xmax;
		}
		// don't allow times outside domain
		if (startTime < my xmin) {
			startTime = my xmin;
		}
		if (endTime > my xmax) {
			endTime = my xmax;
		}
		autoEEG thee = my f_extractPart (startTime, endTime, true);
		long numberOfChannels;
		autoNUMvector <long> channels (NUMstring_getElementsOfRanges (channelRanges, thy d_numberOfChannels, & numberOfChannels, NULL, L"channel", true), 1);
		autoSound soundPart = Sound_copyChannelRanges (thy d_sound, channelRanges);
		autoCrossCorrelationTable him = Sound_to_CrossCorrelationTable (soundPart.peek(), startTime, endTime, lagTime);
		// assign channel names
		for (long i = 1; i <= numberOfChannels; i++) {
			long ichannel = channels[i];
			wchar_t *label = my d_channelNames[ichannel];
			TableOfReal_setRowLabel (him.peek(), i, label);
			TableOfReal_setColumnLabel (him.peek(), i, label);
		}
		return him.transfer();
	} catch (MelderError) {
		Melder_throw (me, ": no CrossCorrelationTable calculated.");
	}
}
CrossCorrelationTables EEG_to_CrossCorrelationTables (EEG me, double startTime, double endTime, double lagTime, long ncovars, const wchar_t *channelRanges) {
	try {
		// autowindow
		if (startTime == endTime) {
			startTime = my xmin; endTime = my xmax;
		}
		// don't allow times outside domain
		if (startTime < my xmin) {
			startTime = my xmin;
		}
		if (endTime > my xmax) {
			endTime = my xmax;
		}
		autoEEG thee = my f_extractPart (startTime, endTime, true);
		long numberOfChannels;
		autoNUMvector <long> channels (NUMstring_getElementsOfRanges (channelRanges, thy d_numberOfChannels, & numberOfChannels, NULL, L"channel", true), 1);
		autoSound soundPart = Sound_copyChannelRanges (thy d_sound, channelRanges);
		autoCrossCorrelationTables him = Sound_to_CrossCorrelationTables (soundPart.peek(), startTime, endTime, lagTime, ncovars);
		return him.transfer();
	} catch (MelderError) {
		Melder_throw (me, ": no CrossCorrelationTables calculated.");
	}
}
Exemplo n.º 3
0
autoCrossCorrelationTableList EEG_to_CrossCorrelationTableList (EEG me, double startTime, double endTime, double lagStep, long ncovars, const char32 *channelRanges) {
	try {
		// autowindow
		if (startTime == endTime) {
			startTime = my xmin; endTime = my xmax;
		}
		// don't allow times outside domain
		if (startTime < my xmin) {
			startTime = my xmin;
		}
		if (endTime > my xmax) {
			endTime = my xmax;
		}
		autoEEG thee = EEG_extractPart (me, startTime, endTime, true);
		long numberOfChannels;
		autoNUMvector <long> channels (NUMstring_getElementsOfRanges (channelRanges, thy numberOfChannels, & numberOfChannels, nullptr, U"channel", true), 1);
		autoSound soundPart = Sound_copyChannelRanges (thy sound.get(), channelRanges);
		autoCrossCorrelationTableList him = Sound_to_CrossCorrelationTableList (soundPart.get(), startTime, endTime, lagStep, ncovars);
		return him;
	} catch (MelderError) {
		Melder_throw (me, U": no CrossCorrelationTables calculated.");
	}
}