public override void writeDescription(MCacheFormatDescription description, string descriptionFileLocation, string baseFileName)
{
string fileName = descriptionFileLocation + baseFileName + ".txt";
XmlDocument xmlDoc = new XmlDocument();
XmlNode root = xmlDoc.CreateElement(Autodesk_Cache_File);
xmlDoc.AppendChild(root);
XmlNode cacheType = xmlDoc.CreateElement(cacheType_Type);
MCacheFormatDescription.CacheFileDistribution destribution = description.getDistribution();
switch (destribution)
{
case MCacheFormatDescription.CacheFileDistribution.kOneFile:
cacheType.InnerText = OneFile;
break;
case MCacheFormatDescription.CacheFileDistribution.kOneFilePerFrame:
cacheType.InnerText = OneFilePerFrame;
break;
}
root.AppendChild(cacheType);
XmlNode cacheFormat = xmlDoc.CreateElement(cacheType_Format);
cacheFormat.InnerText = fCacheFormatName;
root.AppendChild(cacheFormat);
MTime startTime = new MTime(0.0, MTime.Unit.k6000FPS);
MTime endTime = new MTime(0.0, MTime.Unit.k6000FPS);
description.getStartAndEndTimes(startTime, endTime);
XmlNode startTimeNode = xmlDoc.CreateElement(startTimeTag);
startTimeNode.InnerText = Convert.ToString(startTime.value);
root.AppendChild(startTimeNode);
XmlNode endTimeNode = xmlDoc.CreateElement(endTimeTag);
endTimeNode.InnerText = Convert.ToString(endTime.value);
root.AppendChild(endTimeNode);
MTime timePerFrame = description.timePerFrame;
XmlNode timePerFrameNode = xmlDoc.CreateElement(cacheTimePerFrame_TimePerFrame);
timePerFrameNode.InnerText = Convert.ToString(timePerFrame.value);
root.AppendChild(timePerFrameNode);
XmlNode version = xmlDoc.CreateElement(cacheVersion_Version);
version.InnerText = "2.0";
root.AppendChild(version);
MStringArray info = description.getDescriptionInfo();
for (int i = 0; i < info.length; i++)
{
XmlNode extraNode = xmlDoc.CreateElement(extra);
extraNode.InnerText = info[i];
root.AppendChild(extraNode);
}
XmlNode channelsNode = xmlDoc.CreateElement(Channels);
uint channelNum = description.numChannels;
root.AppendChild(channelsNode);
for (uint i = 0; i < channelNum; i++)
{
string channelName = description.getChannelName(i);
string interpretation = description.getChannelInterpretation(i);
MCacheFormatDescription.CacheDataType dataType = description.getChannelDataType(i);
MCacheFormatDescription.CacheSamplingType sampleType = description.getChannelSamplingType(i);
MTime sampleRate = description.getChannelSamplingRate(i);
MTime channelStartTime = description.getChannelStartTime(i);
MTime channelEndTime = description.getChannelEndTime(i);
XmlNode channelNode = xmlDoc.CreateElement(channelTag);
XmlAttribute channelNameAtrr = xmlDoc.CreateAttribute(ChannelNameTag);
channelNameAtrr.InnerText = channelName;
channelNode.Attributes.Append(channelNameAtrr);
string dataTypeStr = "";
switch (dataType)
{
case MCacheFormatDescription.CacheDataType.kDouble:
dataTypeStr = Double;
break;
case MCacheFormatDescription.CacheDataType.kDoubleArray:
dataTypeStr = DoubleArray;
break;
case MCacheFormatDescription.CacheDataType.kDoubleVectorArray:
dataTypeStr = DoubleVectorArray;
break;
case MCacheFormatDescription.CacheDataType.kInt32Array:
dataTypeStr = Int32Array;
break;
case MCacheFormatDescription.CacheDataType.kFloatArray:
dataTypeStr = FloatArray;
break;
case MCacheFormatDescription.CacheDataType.kFloatVectorArray:
dataTypeStr = FloatVectorArray;
break;
}
XmlAttribute channelTypeAtrr = xmlDoc.CreateAttribute(ChannelTypeTag);
channelTypeAtrr.InnerText = dataTypeStr;
channelNode.Attributes.Append(channelTypeAtrr);
XmlAttribute channelInterpAtrr = xmlDoc.CreateAttribute(ChannelInterpretation);
channelInterpAtrr.InnerText = interpretation;
channelNode.Attributes.Append(channelInterpAtrr);
XmlAttribute channelSampleTypeAtrr = xmlDoc.CreateAttribute(SamplingType);
switch (sampleType)
{
case MCacheFormatDescription.CacheSamplingType.kIrregular:
channelSampleTypeAtrr.InnerText = Irregular;
break;
case MCacheFormatDescription.CacheSamplingType.kRegular:
channelSampleTypeAtrr.InnerText = Regular;
break;
}
channelNode.Attributes.Append(channelSampleTypeAtrr);
XmlAttribute sampleRateAtrr = xmlDoc.CreateAttribute(SamplingRate);
sampleRateAtrr.InnerText = Convert.ToString(sampleRate.value);
channelNode.Attributes.Append(sampleRateAtrr);
XmlAttribute startTimeAtrr = xmlDoc.CreateAttribute(StartTime);
startTimeAtrr.InnerText = Convert.ToString(channelStartTime.value);
channelNode.Attributes.Append(startTimeAtrr);
XmlAttribute endTimeAtrr = xmlDoc.CreateAttribute(EndTime);
endTimeAtrr.InnerText = Convert.ToString(channelEndTime.value);
channelNode.Attributes.Append(endTimeAtrr);
channelsNode.AppendChild(channelNode);
}
xmlDoc.Save(fileName);
return;
}
public override void writeDescription(MCacheFormatDescription description, string descriptionFileLocation, string baseFileName)
{
string fileName = descriptionFileLocation + baseFileName + ".txt";
XmlDocument xmlDoc = new XmlDocument();
XmlNode root = xmlDoc.CreateElement(Autodesk_Cache_File);
xmlDoc.AppendChild(root);
XmlNode cacheType = xmlDoc.CreateElement(cacheType_Type);
MCacheFormatDescription.CacheFileDistribution destribution = description.getDistribution();
switch (destribution)
{
case MCacheFormatDescription.CacheFileDistribution.kOneFile:
cacheType.InnerText = OneFile;
break;
case MCacheFormatDescription.CacheFileDistribution.kOneFilePerFrame:
cacheType.InnerText = OneFilePerFrame;
break;
}
root.AppendChild(cacheType);
XmlNode cacheFormat = xmlDoc.CreateElement(cacheType_Format);
cacheFormat.InnerText = fCacheFormatName;
root.AppendChild(cacheFormat);
MTime startTime = new MTime(0.0, MTime.Unit.k6000FPS);
MTime endTime = new MTime(0.0, MTime.Unit.k6000FPS);
description.getStartAndEndTimes(startTime, endTime);
XmlNode startTimeNode = xmlDoc.CreateElement(startTimeTag);
startTimeNode.InnerText = Convert.ToString(startTime.value);
root.AppendChild(startTimeNode);
XmlNode endTimeNode = xmlDoc.CreateElement(endTimeTag);
endTimeNode.InnerText = Convert.ToString(endTime.value);
root.AppendChild(endTimeNode);
MTime timePerFrame = description.timePerFrame;
XmlNode timePerFrameNode = xmlDoc.CreateElement(cacheTimePerFrame_TimePerFrame);
timePerFrameNode.InnerText = Convert.ToString(timePerFrame.value);
root.AppendChild(timePerFrameNode);
XmlNode version = xmlDoc.CreateElement(cacheVersion_Version);
version.InnerText = "2.0";
root.AppendChild(version);
MStringArray info = description.getDescriptionInfo();
for (int i = 0; i < info.length; i++)
{
XmlNode extraNode = xmlDoc.CreateElement(extra);
extraNode.InnerText = info[i];
root.AppendChild(extraNode);
}
XmlNode channelsNode = xmlDoc.CreateElement(Channels);
uint channelNum = description.numChannels;
root.AppendChild(channelsNode);
for (uint i = 0; i < channelNum; i++)
{
string channelName = description.getChannelName(i);
string interpretation = description.getChannelInterpretation(i);
MCacheFormatDescription.CacheDataType dataType = description.getChannelDataType(i);
MCacheFormatDescription.CacheSamplingType sampleType = description.getChannelSamplingType(i);
MTime sampleRate = description.getChannelSamplingRate(i);
MTime channelStartTime = description.getChannelStartTime(i);
MTime channelEndTime = description.getChannelEndTime(i);
XmlNode channelNode = xmlDoc.CreateElement(channelTag);
XmlAttribute channelNameAtrr = xmlDoc.CreateAttribute(ChannelNameTag);
channelNameAtrr.InnerText = channelName;
channelNode.Attributes.Append(channelNameAtrr);
string dataTypeStr = "";
switch (dataType)
{
case MCacheFormatDescription.CacheDataType.kDouble:
dataTypeStr = Double;
break;
case MCacheFormatDescription.CacheDataType.kDoubleArray:
dataTypeStr = DoubleArray;
break;
case MCacheFormatDescription.CacheDataType.kDoubleVectorArray:
dataTypeStr = DoubleVectorArray;
break;
case MCacheFormatDescription.CacheDataType.kInt32Array:
dataTypeStr = Int32Array;
break;
case MCacheFormatDescription.CacheDataType.kFloatArray:
dataTypeStr = FloatArray;
break;
case MCacheFormatDescription.CacheDataType.kFloatVectorArray:
dataTypeStr = FloatVectorArray;
break;
}
XmlAttribute channelTypeAtrr = xmlDoc.CreateAttribute(ChannelTypeTag);
channelTypeAtrr.InnerText = dataTypeStr;
channelNode.Attributes.Append(channelTypeAtrr);
XmlAttribute channelInterpAtrr = xmlDoc.CreateAttribute(ChannelInterpretation);
channelInterpAtrr.InnerText = interpretation;
channelNode.Attributes.Append(channelInterpAtrr);
XmlAttribute channelSampleTypeAtrr = xmlDoc.CreateAttribute(SamplingType);
switch (sampleType)
{
case MCacheFormatDescription.CacheSamplingType.kIrregular:
channelSampleTypeAtrr.InnerText = Irregular;
break;
case MCacheFormatDescription.CacheSamplingType.kRegular:
channelSampleTypeAtrr.InnerText = Regular;
break;
}
channelNode.Attributes.Append(channelSampleTypeAtrr);
XmlAttribute sampleRateAtrr = xmlDoc.CreateAttribute(SamplingRate);
sampleRateAtrr.InnerText = Convert.ToString(sampleRate.value);
channelNode.Attributes.Append(sampleRateAtrr);
XmlAttribute startTimeAtrr = xmlDoc.CreateAttribute(StartTime);
startTimeAtrr.InnerText = Convert.ToString(channelStartTime.value);
channelNode.Attributes.Append(startTimeAtrr);
XmlAttribute endTimeAtrr = xmlDoc.CreateAttribute(EndTime);
endTimeAtrr.InnerText = Convert.ToString(channelEndTime.value);
channelNode.Attributes.Append(endTimeAtrr);
channelsNode.AppendChild(channelNode);
}
xmlDoc.Save(fileName);
return;
}
public override void readDescription(MCacheFormatDescription description, string descriptionFileLocation, string baseFileName)
{
string filename = descriptionFileLocation + baseFileName + ".txt";
XmlDocument xmldoc = new XmlDocument();
xmldoc.Load(filename);
XmlNode root = xmldoc.SelectSingleNode(Autodesk_Cache_File);
XmlNode cacheTypeNode = root.SelectSingleNode(cacheType_Type);
string cacheTypeStr = cacheTypeNode.InnerText;
if (cacheTypeStr.Equals(OneFile))
description.setDistribution(MCacheFormatDescription.CacheFileDistribution.kOneFile);
else
description.setDistribution(MCacheFormatDescription.CacheFileDistribution.kOneFilePerFrame);
XmlNode timePerFrameNode = root.SelectSingleNode(cacheTimePerFrame_TimePerFrame);
MTime timePerFrame = new MTime(0.0, MTime.Unit.k6000FPS);
double dTime = Convert.ToDouble(timePerFrameNode.InnerText);
timePerFrame.value = dTime;
description.timePerFrame = timePerFrame;
XmlNodeList extraNodes = root.SelectNodes(extra);
foreach (XmlNode node in extraNodes)
{
description.addDescriptionInfo(node.InnerText);
}
XmlNode channelsNodes = root.SelectSingleNode(Channels);
XmlNodeList channelNodeList = channelsNodes.SelectNodes(channelTag);
foreach (XmlNode node in channelNodeList)
{
XmlElement elem = (XmlElement)node;
string channelName = elem.GetAttribute(ChannelNameTag);
string interPretionStr = elem.GetAttribute(ChannelInterpretation);
string dataType = elem.GetAttribute(ChannelTypeTag);
MCacheFormatDescription.CacheDataType cacheDataType = MCacheFormatDescription.CacheDataType.kDouble;
if (dataType.Equals(Double))
cacheDataType = MCacheFormatDescription.CacheDataType.kDouble;
else if (dataType.Equals(DoubleArray))
cacheDataType = MCacheFormatDescription.CacheDataType.kDoubleArray;
else if (dataType.Equals(DoubleVectorArray))
cacheDataType = MCacheFormatDescription.CacheDataType.kDoubleVectorArray;
else if (dataType.Equals(Int32Array))
cacheDataType = MCacheFormatDescription.CacheDataType.kInt32Array;
else if (dataType.Equals(FloatArray))
cacheDataType = MCacheFormatDescription.CacheDataType.kFloatArray;
else if (dataType.Equals(FloatVectorArray))
cacheDataType = MCacheFormatDescription.CacheDataType.kFloatVectorArray;
string sampleTypeStr = elem.GetAttribute(SamplingType);
MCacheFormatDescription.CacheSamplingType sample_type = MCacheFormatDescription.CacheSamplingType.kRegular;
if (sampleTypeStr.Equals(Irregular))
sample_type = MCacheFormatDescription.CacheSamplingType.kIrregular;
string sampleRateStr = elem.GetAttribute(SamplingRate);
MTime sampleRateTime = new MTime(0.0, MTime.Unit.k6000FPS);
sampleRateTime.value = Convert.ToDouble(sampleRateStr);
string startTimeStr = elem.GetAttribute(StartTime);
MTime startTimeTime = new MTime(0.0, MTime.Unit.k6000FPS);
startTimeTime.value = Convert.ToDouble(startTimeStr);
string endTimeStr = elem.GetAttribute(EndTime);
MTime endTimeTime = new MTime(0.0, MTime.Unit.k6000FPS);
endTimeTime.value = Convert.ToDouble(endTimeStr);
description.addChannel(channelName, interPretionStr, cacheDataType, sample_type, sampleRateTime, startTimeTime, endTimeTime);
}
return;
}
public override void readDescription(MCacheFormatDescription description, string descriptionFileLocation, string baseFileName)
{
string filename = descriptionFileLocation + baseFileName + ".txt";
XmlDocument xmldoc = new XmlDocument();
xmldoc.Load(filename);
XmlNode root = xmldoc.SelectSingleNode(Autodesk_Cache_File);
XmlNode cacheTypeNode = root.SelectSingleNode(cacheType_Type);
string cacheTypeStr = cacheTypeNode.InnerText;
if (cacheTypeStr.Equals(OneFile))
{
description.setDistribution(MCacheFormatDescription.CacheFileDistribution.kOneFile);
}
else
{
description.setDistribution(MCacheFormatDescription.CacheFileDistribution.kOneFilePerFrame);
}
XmlNode timePerFrameNode = root.SelectSingleNode(cacheTimePerFrame_TimePerFrame);
MTime timePerFrame = new MTime(0.0, MTime.Unit.k6000FPS);
double dTime = Convert.ToDouble(timePerFrameNode.InnerText);
timePerFrame.value = dTime;
description.timePerFrame = timePerFrame;
XmlNodeList extraNodes = root.SelectNodes(extra);
foreach (XmlNode node in extraNodes)
{
description.addDescriptionInfo(node.InnerText);
}
XmlNode channelsNodes = root.SelectSingleNode(Channels);
XmlNodeList channelNodeList = channelsNodes.SelectNodes(channelTag);
foreach (XmlNode node in channelNodeList)
{
XmlElement elem = (XmlElement)node;
string channelName = elem.GetAttribute(ChannelNameTag);
string interPretionStr = elem.GetAttribute(ChannelInterpretation);
string dataType = elem.GetAttribute(ChannelTypeTag);
MCacheFormatDescription.CacheDataType cacheDataType = MCacheFormatDescription.CacheDataType.kDouble;
if (dataType.Equals(Double))
{
cacheDataType = MCacheFormatDescription.CacheDataType.kDouble;
}
else if (dataType.Equals(DoubleArray))
{
cacheDataType = MCacheFormatDescription.CacheDataType.kDoubleArray;
}
else if (dataType.Equals(DoubleVectorArray))
{
cacheDataType = MCacheFormatDescription.CacheDataType.kDoubleVectorArray;
}
else if (dataType.Equals(Int32Array))
{
cacheDataType = MCacheFormatDescription.CacheDataType.kInt32Array;
}
else if (dataType.Equals(FloatArray))
{
cacheDataType = MCacheFormatDescription.CacheDataType.kFloatArray;
}
else if (dataType.Equals(FloatVectorArray))
{
cacheDataType = MCacheFormatDescription.CacheDataType.kFloatVectorArray;
}
string sampleTypeStr = elem.GetAttribute(SamplingType);
MCacheFormatDescription.CacheSamplingType sample_type = MCacheFormatDescription.CacheSamplingType.kRegular;
if (sampleTypeStr.Equals(Irregular))
{
sample_type = MCacheFormatDescription.CacheSamplingType.kIrregular;
}
string sampleRateStr = elem.GetAttribute(SamplingRate);
MTime sampleRateTime = new MTime(0.0, MTime.Unit.k6000FPS);
sampleRateTime.value = Convert.ToDouble(sampleRateStr);
string startTimeStr = elem.GetAttribute(StartTime);
MTime startTimeTime = new MTime(0.0, MTime.Unit.k6000FPS);
startTimeTime.value = Convert.ToDouble(startTimeStr);
string endTimeStr = elem.GetAttribute(EndTime);
MTime endTimeTime = new MTime(0.0, MTime.Unit.k6000FPS);
endTimeTime.value = Convert.ToDouble(endTimeStr);
description.addChannel(channelName, interPretionStr, cacheDataType, sample_type, sampleRateTime, startTimeTime, endTimeTime);
}
return;
}
