/**
* Load an ISIS log file into the local workspace.
* @param logFileStream :: The stream of the log file (data).
* @param logFileName :: The name of the log file to load.
* @param run :: The run information object
*/
void LoadLog::loadTwoColumnLogFile(std::ifstream& logFileStream, std::string logFileName, API::Run& run)
{
if (!logFileStream)
{
throw std::invalid_argument("Unable to open file " + m_filename);
}
// figure out if second column is a number or a string
std::string aLine;
if( Mantid::Kernel::Strings::extractToEOL(logFileStream,aLine) )
{
if ( !isDateTimeString(aLine) )
{
throw std::invalid_argument("File" + m_filename + " is not a standard ISIS log file. Expected to be a two column file.");
}
std::string DateAndTime;
std::stringstream ins(aLine);
ins >> DateAndTime;
// read in what follows the date-time string in the log file and figure out what type it is
std::string whatType;
ins >> whatType;
kind l_kind = classify(whatType);
if (LoadLog::string != l_kind && LoadLog::number != l_kind)
{
throw std::invalid_argument("ISIS log file contains unrecognised second column entries: " + m_filename);
}
try
{
Property* log = LogParser::createLogProperty(m_filename,stringToLower(logFileName));
if (log)
{
run.addLogData(log);
}
}
catch(std::exception&)
{
}
}
}
/**
* reads the .log stream and creates timeseries property and sets that to the run object
* @param logFileStream :: The stream of the log file (data).
* @param logFileName :: The name of the log file to load.
* @param run :: The run information object
*/
void LoadLog::loadThreeColumnLogFile(std::ifstream& logFileStream, std::string logFileName, API::Run& run)
{
std::string str;
std::string propname;
Mantid::Kernel::TimeSeriesProperty<double>* logd = 0;
Mantid::Kernel::TimeSeriesProperty<std::string>* logs = 0;
std::map<std::string,Kernel::TimeSeriesProperty<double>*> dMap;
std::map<std::string,Kernel::TimeSeriesProperty<std::string>*> sMap;
typedef std::pair<std::string,Kernel::TimeSeriesProperty<double>* > dpair;
typedef std::pair<std::string,Kernel::TimeSeriesProperty<std::string>* > spair;
kind l_kind(LoadLog::empty);
bool isNumeric(false);
if (!logFileStream)
{
throw std::invalid_argument("Unable to open file " + m_filename);
}
while(Mantid::Kernel::Strings::extractToEOL(logFileStream,str))
{
if ( !isDateTimeString(str) )
{
throw std::invalid_argument("File" + logFileName + " is not a standard ISIS log file. Expected to be a file starting with DateTime String format.");
}
if (!Kernel::TimeSeriesProperty<double>::isTimeString(str) || (str[0]=='#'))
{ //if the line doesn't start with a time read the next line
continue;
}
std::stringstream line(str);
std::string timecolumn;
line >> timecolumn;
std::string blockcolumn;
line >> blockcolumn;
l_kind = classify(blockcolumn);
if ( LoadLog::string != l_kind )
{
throw std::invalid_argument("ISIS log file contains unrecognised second column entries:" + logFileName);
}
std::string valuecolumn;
line >> valuecolumn;
l_kind = classify(valuecolumn);
if ( LoadLog::string != l_kind && LoadLog::number != l_kind)
{
continue; //no value defined, just skip this entry
}
// column two in .log file is called block column
propname = stringToLower(blockcolumn);
//check if the data is numeric
std::istringstream istr(valuecolumn);
double dvalue;
istr >> dvalue;
isNumeric = !istr.fail();
if (isNumeric)
{
std::map<std::string,Kernel::TimeSeriesProperty<double>*>::iterator ditr = dMap.find(propname);
if(ditr != dMap.end())
{
Kernel::TimeSeriesProperty<double>* prop = ditr->second;
if (prop) prop->addValue(timecolumn,dvalue);
}
else
{
logd = new Kernel::TimeSeriesProperty<double>(propname);
logd->addValue(timecolumn,dvalue);
dMap.insert(dpair(propname,logd));
}
}
else
{
std::map<std::string,Kernel::TimeSeriesProperty<std::string>*>::iterator sitr = sMap.find(propname);
if(sitr != sMap.end())
{
Kernel::TimeSeriesProperty<std::string>* prop = sitr->second;
if (prop) prop->addValue(timecolumn,valuecolumn);
}
else
{
logs = new Kernel::TimeSeriesProperty<std::string>(propname);
logs->addValue(timecolumn,valuecolumn);
sMap.insert(spair(propname,logs));
}
}
}
try
{
std::map<std::string,Kernel::TimeSeriesProperty<double>*>::const_iterator itr = dMap.begin();
for(;itr != dMap.end(); ++itr)
{
run.addLogData(itr->second);
}
std::map<std::string,Kernel::TimeSeriesProperty<std::string>*>::const_iterator sitr = sMap.begin();
for(;sitr!=sMap.end();++sitr)
{
run.addLogData(sitr->second);
}
}
catch(std::invalid_argument &e)
{
g_log.warning() << e.what();
}
catch(Exception::ExistsError&e)
{
g_log.warning() << e.what();
}
}
