private void createASCConverter(ASCConverter conv)
{
conv.syncToFirst = (bool)SyncToFirst.IsChecked;
conv.specs = new EpisodeDescription[this.EpisodeEntries.Items.Count];
for (int i = 0; i < this.EpisodeEntries.Items.Count; i++)
{
conv.specs[i] = getEpisode((EpisodeDescriptionEntry)this.EpisodeEntries.Items[i]);
}
conv.channels = this.channels;
conv.directory = this.directory;
conv.headerFileName = this.headerFileName;
conv.GVCopyAcross = listView2.SelectedItems.Cast<GVEntry>().ToList<GVEntry>();
conv.head = this.head;
conv.decimation = _decimation;
conv.removeOffsets = (bool)removeOffsets.IsChecked;
conv.removeTrends = (bool)removeTrends.IsChecked;
conv.radinOffset = Radin.IsEnabled && (bool)Radin.IsChecked;
if (conv.radinOffset)
{
conv.radinLow = System.Convert.ToInt32(RadinLowPts.Text);
conv.radinHigh = System.Convert.ToInt32(RadinHighPts.Text);
}
if ((bool)radioButton2.IsChecked) //list of reference channels
{
conv.referenceGroups = new List<List<int>>(1);
conv.referenceGroups.Add(conv.channels); // All channels are referenced to
conv.referenceChannels = new List<List<int>>(1); // this list of channels
conv.referenceChannels.Add(_refChan);
}
else if ((bool)radioButton4.IsChecked) //Reference expression
{
conv.referenceGroups = new List<List<int>>();
conv.referenceChannels = new List<List<int>>();
for (int i = 0; i < _refChanExp.Count; i += 2)
{
conv.referenceGroups.Add(_refChanExp[i]);
conv.referenceChannels.Add(_refChanExp[i + 1]);
}
correctReferenceLists(conv);
}
else // no overall reference
{
conv.referenceGroups = null;
conv.referenceChannels = null;
}
conv.bdf = this.bdf;
conv.ED = this.ED;
conv.FMRecLength = this._recLength;
conv.samplingRate = this.samplingRate;
if (conv.ignoreStatus = (bool)NoSyncToStatus.IsChecked)
conv.offsetToFirstEvent = offsetToFirstEvent;
}
public void registerHeader(ASCConverter c)
{
string conversionType;
double recordLength;
conversionType = "ASC";
recordLength = ((ASCConverter)c).FMRecLength;
logStream.WriteStartElement("Conversion");
logStream.WriteAttributeString("Type", conversionType);
logStream.WriteElementString("Computer", Environment.MachineName);
logStream.WriteElementString("User", Environment.UserName);
logStream.WriteElementString("Source", c.directory);
logStream.WriteStartElement("Episodes");
bool addPKGVs=false;
foreach (EpisodeDescription ED in c.specs)
{
logStream.WriteStartElement("EpisodeDefinition");
logStream.WriteAttributeString("NewGV", ED.GVValue.ToString("0"));
logStream.WriteStartElement("Start");
logStream.WriteElementString("Event", ED.Start.EventName());
if(ED.Start._GV!=null){
logStream.WriteStartElement("GVCriterium");
logStream.WriteAttributeString("Name", ED.Start._GV.Name);
logStream.WriteAttributeString("Comp", ED.Start.CompToString());
logStream.WriteAttributeString("Value", ED.Start._GV.ConvertGVValueIntegerToString(ED.Start._GVVal));
logStream.WriteEndElement(/* GVCriterium */);
}
logStream.WriteElementString("Offset", ED.Start._offset.ToString("0"));
logStream.WriteEndElement(/* Start */);
logStream.WriteStartElement("End");
logStream.WriteElementString("Event", ED.End.EventName());
if (ED.End._GV != null)
{
logStream.WriteStartElement("GVCriterium");
logStream.WriteAttributeString("Name", ED.End._GV.Name);
logStream.WriteAttributeString("Comp", ED.End.CompToString());
logStream.WriteAttributeString("Value", ED.End._GV.ConvertGVValueIntegerToString(ED.End._GVVal));
logStream.WriteEndElement(/* GVCriterium */);
}
logStream.WriteElementString("Offset", ED.End._offset.ToString("0"));
logStream.WriteEndElement(/* End */);
if(ED.PKCounter!=null)
{
addPKGVs = true;
PKDetectorEventCounterDescription pkd = ED.PKCounter;
logStream.WriteStartElement("PKDetectorCounter");
logStream.WriteStartElement("Events");
foreach (string s in pkd.EventNames)
{
logStream.WriteElementString("Name", s);
}
logStream.WriteEndElement(/* Events */);
if (pkd.found != null)
logStream.WriteElementString("FoundFit", (bool)pkd.found ? "True" : "False");
if (pkd.includeChi2)
{
logStream.WriteStartElement("ChiSquare");
logStream.WriteAttributeString("Comp", pkd.comp1.ToString());
logStream.WriteAttributeString("Value", pkd.chi2.ToString("0.0"));
logStream.WriteEndElement(/* ChiSquare */);
}
if (pkd.includeMagnitude)
{
logStream.WriteStartElement("Magnitude");
logStream.WriteAttributeString("Comp", pkd.comp2.ToString());
logStream.WriteAttributeString("Value", pkd.magnitude.ToString("0.0"));
logStream.WriteEndElement(/* Magnitude */);
}
if (pkd.positive != null)
logStream.WriteElementString("Sign", (bool)pkd.positive ? "Positive" : "Negative");
logStream.WriteEndElement(/* PKDetectorCounter */);
}
logStream.WriteEndElement(/* EpisodeDefinition */);
}
logStream.WriteEndElement(/* Episodes */);
logStream.WriteStartElement("GroupVars");
foreach (GVEntry gv in c.GVCopyAcross)
{
logStream.WriteStartElement("GroupVar");
logStream.WriteAttributeString("Type", "CopyOver");
logStream.WriteString(gv.Name);
logStream.WriteEndElement(/* GroupVar */);
}
if (addPKGVs)
{
logStream.WriteStartElement("GroupVar");
logStream.WriteAttributeString("Type", "PKCount");
logStream.WriteString("PK-rate");
logStream.WriteEndElement(/* GroupVar */);
logStream.WriteStartElement("GroupVar");
logStream.WriteAttributeString("Type", "PKCount");
logStream.WriteString("PK-velocity");
logStream.WriteEndElement(/* GroupVar */);
logStream.WriteStartElement("GroupVar");
logStream.WriteAttributeString("Type", "PKCount");
logStream.WriteString("PK-accel");
logStream.WriteEndElement(/* GroupVar */);
}
logStream.WriteEndElement(/* GroupVars */);
logStream.WriteElementString("Channels", CCIUtilities.Utilities.intListToString(c.channels, true));
logStream.WriteStartElement("Records");
logStream.WriteElementString("Length", recordLength.ToString("0.00") + "secs");
logStream.WriteElementString("Decimation", c.decimation.ToString("0"));
logStream.WriteStartElement("Processing");
string p;
if (c.radinOffset)
p = "Radin: " + c.radinLow.ToString("0") + " to " + c.radinHigh.ToString("0") + "pts";
else
{
p = "None";
if (c.removeTrends) p = "Offset and linear trend removal";
else if (c.removeOffsets) p = "Offset removal";
}
logStream.WriteString(p);
logStream.WriteEndElement(/* Processing */);
logStream.WriteEndElement(/* Record */);
logStream.WriteStartElement("Reference");
if (c.referenceGroups == null || c.referenceGroups.Count == 0)
logStream.WriteAttributeString("Type", "None");
else
{
logStream.WriteAttributeString("Type", "Channel");
for (int i = 0; i < c.referenceGroups.Count; i++)
{
logStream.WriteStartElement("ReferenceGroup");
logStream.WriteElementString("Channels", CCIUtilities.Utilities.intListToString(c.referenceGroups[i], true));
logStream.WriteElementString("ReferenceChans", CCIUtilities.Utilities.intListToString(c.referenceChannels[i], true));
logStream.WriteEndElement(/*ReferenceGroup*/);
}
}
logStream.WriteEndElement(/* Reference */);
logStream.WriteEndElement(/* Conversion */);
}
private void correctReferenceLists(ASCConverter conv)
{
List<List<int>> list = conv.referenceGroups;
for (int c = 1; c < list.Count; c++) //don't need to check first list
{
List<int> chanList1 = list[c];
for (int chan = 0; chan < chanList1.Count; chan++)
{
int chan1 = chanList1[chan]; //channel number to look for
for (int d = 0; d < c; d++) //look into previous lists only
{
List<int> chanList2 = list[d];
for (int comp = chanList2.Count - 1; comp >= 0; comp--) //always work backwards to avoid changing indices
if (chan1 == chanList2[comp]) //remove element from chanList2
chanList2.Remove(chanList2[comp]); //assumes that no dupes within lists (enforced by parser)
}
}
}
for (int i = list.Count - 1; i >= 0; i--)
{
if (list[i].Count == 0)
{
list.Remove(list[i]);
conv.referenceChannels.Remove(conv.referenceChannels[i]);
}
}
}
