in lib/model/FunctionTypes.cc [1706:1862]
std::string print(EFunction function) {
switch (function) {
case E_IndividualCount:
return "individual count";
case E_IndividualNonZeroCount:
return "individual non-zero count";
case E_IndividualRareCount:
return "individual rare count";
case E_IndividualRareNonZeroCount:
return "individual rare non-zero count";
case E_IndividualRare:
return "individual rare";
case E_IndividualLowCounts:
return "individual low counts";
case E_IndividualHighCounts:
return "individual high counts";
case E_IndividualLowNonZeroCount:
return "individual low non-zero count";
case E_IndividualHighNonZeroCount:
return "individual high non-zero count";
case E_IndividualDistinctCount:
return "individual distinct count";
case E_IndividualLowDistinctCount:
return "individual low distinct count";
case E_IndividualHighDistinctCount:
return "individual high distinct count";
case E_IndividualInfoContent:
return "individual info_content";
case E_IndividualHighInfoContent:
return "individual high_info_content";
case E_IndividualLowInfoContent:
return "individual low_info_content";
case E_IndividualTimeOfDay:
return "individual time-of-day";
case E_IndividualTimeOfWeek:
return "individual time-of-week";
case E_IndividualMetric:
return "individual metric";
case E_IndividualMetricMean:
return "individual metric mean";
case E_IndividualMetricLowMean:
return "individual metric low mean";
case E_IndividualMetricHighMean:
return "individual metric high mean";
case E_IndividualMetricMedian:
return "individual metric median";
case E_IndividualMetricLowMedian:
return "individual metric low median";
case E_IndividualMetricHighMedian:
return "individual metric high median";
case E_IndividualMetricMin:
return "individual metric minimum";
case E_IndividualMetricMax:
return "individual metric maximum";
case E_IndividualMetricVariance:
return "individual metric variance";
case E_IndividualMetricLowVariance:
return "individual metric low variance";
case E_IndividualMetricHighVariance:
return "individual metric high variance";
case E_IndividualMetricSum:
return "individual metric sum";
case E_IndividualMetricLowSum:
return "individual metric low sum";
case E_IndividualMetricHighSum:
return "individual metric high sum";
case E_IndividualMetricNonNullSum:
return "individual metric non-null sum";
case E_IndividualMetricLowNonNullSum:
return "individual metric low non-null sum";
case E_IndividualMetricHighNonNullSum:
return "individual high non-null sum";
case E_IndividualLatLong:
return "individual latitude/longitude";
case E_IndividualMaxVelocity:
return "individual max velocity";
case E_IndividualMinVelocity:
return "individual min velocity";
case E_IndividualMeanVelocity:
return "individual mean velocity";
case E_IndividualSumVelocity:
return "individual sum velocity";
case E_PopulationCount:
return "population count";
case E_PopulationDistinctCount:
return "population distinct count";
case E_PopulationLowDistinctCount:
return "population low distinct count";
case E_PopulationHighDistinctCount:
return "population high distinct count";
case E_PopulationRare:
return "population rare";
case E_PopulationRareCount:
return "population rare count";
case E_PopulationFreqRare:
return "population frequent rare";
case E_PopulationFreqRareCount:
return "population frequent rare count";
case E_PopulationLowCounts:
return "population low count";
case E_PopulationHighCounts:
return "population high count";
case E_PopulationInfoContent:
return "population information content";
case E_PopulationLowInfoContent:
return "population low information content";
case E_PopulationHighInfoContent:
return "population high information content";
case E_PopulationTimeOfDay:
return "population time-of-day";
case E_PopulationTimeOfWeek:
return "population time-of-week";
case E_PopulationMetric:
return "population metric";
case E_PopulationMetricMean:
return "population metric mean";
case E_PopulationMetricLowMean:
return "population metric low mean";
case E_PopulationMetricHighMean:
return "population metric high mean";
case E_PopulationMetricMedian:
return "population metric median";
case E_PopulationMetricLowMedian:
return "population metric low median";
case E_PopulationMetricHighMedian:
return "population metric high median";
case E_PopulationMetricMin:
return "population metric minimum";
case E_PopulationMetricMax:
return "population metric maximum";
case E_PopulationMetricVariance:
return "population metric variance";
case E_PopulationMetricLowVariance:
return "population metric low variance";
case E_PopulationMetricHighVariance:
return "population metric high variance";
case E_PopulationMetricSum:
return "population metric sum";
case E_PopulationMetricLowSum:
return "population metric low sum";
case E_PopulationMetricHighSum:
return "population metric high sum";
case E_PopulationLatLong:
return "population latitude/longitude";
case E_PopulationMaxVelocity:
return "population max velocity";
case E_PopulationMinVelocity:
return "population min velocity";
case E_PopulationMeanVelocity:
return "population mean velocity";
case E_PopulationSumVelocity:
return "population sum velocity";
}
LOG_ERROR(<< "Unexpected function = " << static_cast<int>(function));
return "-";
}