class PilotPlotter(BaseReporter): _typeName = "Pilot" _typeKeyFields = [dF[0] for dF in Pilot().definitionKeyFields] def _reportCumulativeNumberOfJobs(self, reportRequest): selectFields = ( self._getSelectStringForGrouping(reportRequest['groupingFields']) + ", %s, %s, SUM(%s)", reportRequest['groupingFields'][1] + ['startTime', 'bucketLength', 'Jobs']) retVal = self._getTimedData(reportRequest['startTime'], reportRequest['endTime'], selectFields, reportRequest['condDict'], reportRequest['groupingFields'], {}) if not retVal['OK']: return retVal dataDict, granularity = retVal['Value'] self.stripDataField(dataDict, 0) dataDict = self._fillWithZero(granularity, reportRequest['startTime'], reportRequest['endTime'], dataDict) dataDict = self._accumulate(granularity, reportRequest['startTime'], reportRequest['endTime'], dataDict) baseDataDict, graphDataDict, maxValue, unitName = self._findSuitableUnit( dataDict, self._getAccumulationMaxValue(dataDict), "jobs") return S_OK({ 'data': baseDataDict, 'graphDataDict': graphDataDict, 'granularity': granularity, 'unit': unitName }) def _plotCumulativeNumberOfJobs(self, reportRequest, plotInfo, filename): metadata = { 'title': 'Cumulative Jobs by %s' % reportRequest['grouping'], 'starttime': reportRequest['startTime'], 'endtime': reportRequest['endTime'], 'span': plotInfo['granularity'], 'ylabel': plotInfo['unit'], 'sort_labels': 'last_value' } return self._generateCumulativePlot(filename, plotInfo['graphDataDict'], metadata) def _reportNumberOfJobs(self, reportRequest): selectFields = ( self._getSelectStringForGrouping(reportRequest['groupingFields']) + ", %s, %s, SUM(%s)", reportRequest['groupingFields'][1] + ['startTime', 'bucketLength', 'Jobs']) retVal = self._getTimedData(reportRequest['startTime'], reportRequest['endTime'], selectFields, reportRequest['condDict'], reportRequest['groupingFields'], {}) if not retVal['OK']: return retVal dataDict, granularity = retVal['Value'] self.stripDataField(dataDict, 0) dataDict, maxValue = self._divideByFactor(dataDict, granularity) dataDict = self._fillWithZero(granularity, reportRequest['startTime'], reportRequest['endTime'], dataDict) baseDataDict, graphDataDict, maxValue, unitName = self._findSuitableRateUnit( dataDict, self._getAccumulationMaxValue(dataDict), "jobs") return S_OK({ 'data': baseDataDict, 'graphDataDict': graphDataDict, 'granularity': granularity, 'unit': unitName }) def _plotNumberOfJobs(self, reportRequest, plotInfo, filename): metadata = { 'title': 'Jobs by %s' % reportRequest['grouping'], 'starttime': reportRequest['startTime'], 'endtime': reportRequest['endTime'], 'span': plotInfo['granularity'], 'ylabel': plotInfo['unit'] } return self._generateTimedStackedBarPlot(filename, plotInfo['graphDataDict'], metadata) def _reportCumulativeNumberOfPilots(self, reportRequest): selectFields = ( self._getSelectStringForGrouping(reportRequest['groupingFields']) + ", %s, %s, SUM(%s)", reportRequest['groupingFields'][1] + ['startTime', 'bucketLength', 'entriesInBucket']) retVal = self._getTimedData(reportRequest['startTime'], reportRequest['endTime'], selectFields, reportRequest['condDict'], reportRequest['groupingFields'], {}) if not retVal['OK']: return retVal dataDict, granularity = retVal['Value'] self.stripDataField(dataDict, 0) dataDict = self._fillWithZero(granularity, reportRequest['startTime'], reportRequest['endTime'], dataDict) dataDict = self._accumulate(granularity, reportRequest['startTime'], reportRequest['endTime'], dataDict) baseDataDict, graphDataDict, maxValue, unitName = self._findSuitableUnit( dataDict, self._getAccumulationMaxValue(dataDict), "jobs") return S_OK({ 'data': baseDataDict, 'graphDataDict': graphDataDict, 'granularity': granularity, 'unit': unitName }) def _plotCumulativeNumberOfPilots(self, reportRequest, plotInfo, filename): metadata = { 'title': 'Cumulative Pilots by %s' % reportRequest['grouping'], 'starttime': reportRequest['startTime'], 'endtime': reportRequest['endTime'], 'span': plotInfo['granularity'], 'ylabel': plotInfo['unit'].replace('job', 'pilot'), 'sort_labels': 'last_value' } return self._generateCumulativePlot(filename, plotInfo['graphDataDict'], metadata) def _reportNumberOfPilots(self, reportRequest): selectFields = ( self._getSelectStringForGrouping(reportRequest['groupingFields']) + ", %s, %s, SUM(%s)", reportRequest['groupingFields'][1] + ['startTime', 'bucketLength', 'entriesInBucket']) retVal = self._getTimedData(reportRequest['startTime'], reportRequest['endTime'], selectFields, reportRequest['condDict'], reportRequest['groupingFields'], {}) if not retVal['OK']: return retVal dataDict, granularity = retVal['Value'] self.stripDataField(dataDict, 0) dataDict, maxValue = self._divideByFactor(dataDict, granularity) dataDict = self._fillWithZero(granularity, reportRequest['startTime'], reportRequest['endTime'], dataDict) baseDataDict, graphDataDict, maxValue, unitName = self._findSuitableRateUnit( dataDict, self._getAccumulationMaxValue(dataDict), "jobs") return S_OK({ 'data': baseDataDict, 'graphDataDict': graphDataDict, 'granularity': granularity, 'unit': unitName }) def _plotNumberOfPilots(self, reportRequest, plotInfo, filename): metadata = { 'title': 'Pilots by %s' % reportRequest['grouping'], 'starttime': reportRequest['startTime'], 'endtime': reportRequest['endTime'], 'span': plotInfo['granularity'], 'ylabel': plotInfo['unit'].replace('job', 'pilot') } return self._generateTimedStackedBarPlot(filename, plotInfo['graphDataDict'], metadata) def _reportJobsPerPilot(self, reportRequest): selectFields = ( self._getSelectStringForGrouping(reportRequest['groupingFields']) + ", %s, %s, SUM(%s), SUM(%s)", reportRequest['groupingFields'][1] + ['startTime', 'bucketLength', 'Jobs', 'entriesInBucket']) retVal = self._getTimedData( reportRequest['startTime'], reportRequest['endTime'], selectFields, reportRequest['condDict'], reportRequest['groupingFields'], { 'checkNone': True, 'convertToGranularity': 'sum', 'calculateProportionalGauges': False, 'consolidationFunction': self._averageConsolidation }) if not retVal['OK']: return retVal dataDict, granularity = retVal['Value'] self.stripDataField(dataDict, 0) dataDict = self._fillWithZero(granularity, reportRequest['startTime'], reportRequest['endTime'], dataDict) return S_OK({'data': dataDict, 'granularity': granularity}) def _plotJobsPerPilot(self, reportRequest, plotInfo, filename): metadata = { 'title': 'Jobs per pilot by %s' % reportRequest['grouping'], 'starttime': reportRequest['startTime'], 'endtime': reportRequest['endTime'], 'span': plotInfo['granularity'], 'ylabel': "jobs/pilot", 'normalization': max(x for y in plotInfo['data'].values() for x in y.values()) } return self._generateQualityPlot(filename, plotInfo['data'], metadata) def _reportTotalNumberOfPilots(self, reportRequest): selectFields = ( self._getSelectStringForGrouping(reportRequest['groupingFields']) + ", SUM(%s)", reportRequest['groupingFields'][1] + ['entriesInBucket']) retVal = self._getSummaryData(reportRequest['startTime'], reportRequest['endTime'], selectFields, reportRequest['condDict'], reportRequest['groupingFields'], {}) if not retVal['OK']: return retVal dataDict = retVal['Value'] return S_OK({'data': dataDict}) def _plotTotalNumberOfPilots(self, reportRequest, plotInfo, filename): metadata = { 'title': 'Total Number of Pilots by %s' % reportRequest['grouping'], 'ylabel': 'Pilots', 'starttime': reportRequest['startTime'], 'endtime': reportRequest['endTime'] } return self._generatePiePlot(filename, plotInfo['data'], metadata)
class PilotPlotter(BaseReporter): _typeName = "Pilot" _typeKeyFields = [dF[0] for dF in Pilot().definitionKeyFields] def _reportCumulativeNumberOfJobs(self, reportRequest): selectFields = ( self._getSelectStringForGrouping(reportRequest["groupingFields"]) + ", %s, %s, SUM(%s)", reportRequest["groupingFields"][1] + ["startTime", "bucketLength", "Jobs"], ) retVal = self._getTimedData( reportRequest["startTime"], reportRequest["endTime"], selectFields, reportRequest["condDict"], reportRequest["groupingFields"], {}, ) if not retVal["OK"]: return retVal dataDict, granularity = retVal["Value"] self.stripDataField(dataDict, 0) dataDict = self._fillWithZero(granularity, reportRequest["startTime"], reportRequest["endTime"], dataDict) dataDict = self._accumulate(granularity, reportRequest["startTime"], reportRequest["endTime"], dataDict) baseDataDict, graphDataDict, maxValue, unitName = self._findSuitableUnit( dataDict, self._getAccumulationMaxValue(dataDict), "jobs") return S_OK({ "data": baseDataDict, "graphDataDict": graphDataDict, "granularity": granularity, "unit": unitName }) def _plotCumulativeNumberOfJobs(self, reportRequest, plotInfo, filename): metadata = { "title": "Cumulative Jobs by %s" % reportRequest["grouping"], "starttime": reportRequest["startTime"], "endtime": reportRequest["endTime"], "span": plotInfo["granularity"], "ylabel": plotInfo["unit"], "sort_labels": "last_value", } return self._generateCumulativePlot(filename, plotInfo["graphDataDict"], metadata) def _reportNumberOfJobs(self, reportRequest): selectFields = ( self._getSelectStringForGrouping(reportRequest["groupingFields"]) + ", %s, %s, SUM(%s)", reportRequest["groupingFields"][1] + ["startTime", "bucketLength", "Jobs"], ) retVal = self._getTimedData( reportRequest["startTime"], reportRequest["endTime"], selectFields, reportRequest["condDict"], reportRequest["groupingFields"], {}, ) if not retVal["OK"]: return retVal dataDict, granularity = retVal["Value"] self.stripDataField(dataDict, 0) dataDict, maxValue = self._divideByFactor(dataDict, granularity) dataDict = self._fillWithZero(granularity, reportRequest["startTime"], reportRequest["endTime"], dataDict) baseDataDict, graphDataDict, maxValue, unitName = self._findSuitableRateUnit( dataDict, self._getAccumulationMaxValue(dataDict), "jobs") return S_OK({ "data": baseDataDict, "graphDataDict": graphDataDict, "granularity": granularity, "unit": unitName }) def _plotNumberOfJobs(self, reportRequest, plotInfo, filename): metadata = { "title": "Jobs by %s" % reportRequest["grouping"], "starttime": reportRequest["startTime"], "endtime": reportRequest["endTime"], "span": plotInfo["granularity"], "ylabel": plotInfo["unit"], } return self._generateTimedStackedBarPlot(filename, plotInfo["graphDataDict"], metadata) def _reportCumulativeNumberOfPilots(self, reportRequest): selectFields = ( self._getSelectStringForGrouping(reportRequest["groupingFields"]) + ", %s, %s, SUM(%s)", reportRequest["groupingFields"][1] + ["startTime", "bucketLength", "entriesInBucket"], ) retVal = self._getTimedData( reportRequest["startTime"], reportRequest["endTime"], selectFields, reportRequest["condDict"], reportRequest["groupingFields"], {}, ) if not retVal["OK"]: return retVal dataDict, granularity = retVal["Value"] self.stripDataField(dataDict, 0) dataDict = self._fillWithZero(granularity, reportRequest["startTime"], reportRequest["endTime"], dataDict) dataDict = self._accumulate(granularity, reportRequest["startTime"], reportRequest["endTime"], dataDict) baseDataDict, graphDataDict, maxValue, unitName = self._findSuitableUnit( dataDict, self._getAccumulationMaxValue(dataDict), "jobs") return S_OK({ "data": baseDataDict, "graphDataDict": graphDataDict, "granularity": granularity, "unit": unitName }) def _plotCumulativeNumberOfPilots(self, reportRequest, plotInfo, filename): metadata = { "title": "Cumulative Pilots by %s" % reportRequest["grouping"], "starttime": reportRequest["startTime"], "endtime": reportRequest["endTime"], "span": plotInfo["granularity"], "ylabel": plotInfo["unit"].replace("job", "pilot"), "sort_labels": "last_value", } return self._generateCumulativePlot(filename, plotInfo["graphDataDict"], metadata) def _reportNumberOfPilots(self, reportRequest): selectFields = ( self._getSelectStringForGrouping(reportRequest["groupingFields"]) + ", %s, %s, SUM(%s)", reportRequest["groupingFields"][1] + ["startTime", "bucketLength", "entriesInBucket"], ) retVal = self._getTimedData( reportRequest["startTime"], reportRequest["endTime"], selectFields, reportRequest["condDict"], reportRequest["groupingFields"], {}, ) if not retVal["OK"]: return retVal dataDict, granularity = retVal["Value"] self.stripDataField(dataDict, 0) dataDict, maxValue = self._divideByFactor(dataDict, granularity) dataDict = self._fillWithZero(granularity, reportRequest["startTime"], reportRequest["endTime"], dataDict) baseDataDict, graphDataDict, maxValue, unitName = self._findSuitableRateUnit( dataDict, self._getAccumulationMaxValue(dataDict), "jobs") return S_OK({ "data": baseDataDict, "graphDataDict": graphDataDict, "granularity": granularity, "unit": unitName }) def _plotNumberOfPilots(self, reportRequest, plotInfo, filename): metadata = { "title": "Pilots by %s" % reportRequest["grouping"], "starttime": reportRequest["startTime"], "endtime": reportRequest["endTime"], "span": plotInfo["granularity"], "ylabel": plotInfo["unit"].replace("job", "pilot"), } return self._generateTimedStackedBarPlot(filename, plotInfo["graphDataDict"], metadata) def _reportJobsPerPilot(self, reportRequest): selectFields = ( self._getSelectStringForGrouping(reportRequest["groupingFields"]) + ", %s, %s, SUM(%s), SUM(%s)", reportRequest["groupingFields"][1] + ["startTime", "bucketLength", "Jobs", "entriesInBucket"], ) retVal = self._getTimedData( reportRequest["startTime"], reportRequest["endTime"], selectFields, reportRequest["condDict"], reportRequest["groupingFields"], { "checkNone": True, "convertToGranularity": "sum", "calculateProportionalGauges": False, "consolidationFunction": self._averageConsolidation, }, ) if not retVal["OK"]: return retVal dataDict, granularity = retVal["Value"] self.stripDataField(dataDict, 0) dataDict = self._fillWithZero(granularity, reportRequest["startTime"], reportRequest["endTime"], dataDict) return S_OK({"data": dataDict, "granularity": granularity}) def _plotJobsPerPilot(self, reportRequest, plotInfo, filename): metadata = { "title": "Jobs per pilot by %s" % reportRequest["grouping"], "starttime": reportRequest["startTime"], "endtime": reportRequest["endTime"], "span": plotInfo["granularity"], "ylabel": "jobs/pilot", "normalization": max(x for y in plotInfo["data"].values() for x in y.values()), } return self._generateQualityPlot(filename, plotInfo["data"], metadata) def _reportTotalNumberOfPilots(self, reportRequest): selectFields = ( self._getSelectStringForGrouping(reportRequest["groupingFields"]) + ", SUM(%s)", reportRequest["groupingFields"][1] + ["entriesInBucket"], ) retVal = self._getSummaryData( reportRequest["startTime"], reportRequest["endTime"], selectFields, reportRequest["condDict"], reportRequest["groupingFields"], {}, ) if not retVal["OK"]: return retVal dataDict = retVal["Value"] return S_OK({"data": dataDict}) def _plotTotalNumberOfPilots(self, reportRequest, plotInfo, filename): metadata = { "title": "Total Number of Pilots by %s" % reportRequest["grouping"], "ylabel": "Pilots", "starttime": reportRequest["startTime"], "endtime": reportRequest["endTime"], } return self._generatePiePlot(filename, plotInfo["data"], metadata)