schain Files · schainpy/test/testMeteors.py

Se agrega a JROData el flag realtime, para este caso se da prioridad al procesamiento de datos. Los graficos se generan solo cuando el tiempo de procesamiento es cercano al tiempo de adquisición.

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             testMeteors.py
        
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      from controller import *

      def meteors():

          desc = "Segundo Test"

          filename = "schain.xml"

          controllerObj = Project()

          controllerObj.setup(id = '191', name='test01', description=desc)

          readUnitConfObj = controllerObj.addReadUnit(datatype='Voltage',

                                                      path='/Data/Data/RAWDATA/Meteors',

                                                      startDate='2012/06/20',

                                                      endDate='2012/06/20',

                                                      startTime='04:00:00',

                                                      endTime='06:00:00',

                                                      online=0,

                                                      walk=1)

          ##  if you want to look at the coded data, process only channels 0, 1, 2 

          ##  and ranges between 80 and 130 km. Then you need to input the code we are using for proper decoding.

      #    procUnitConfObj0 = controllerObj.addProcUnit(datatype='Voltage', inputId=readUnitConfObj.getId())

      #    

      #    opObj10 = procUnitConfObj0.addOperation(name='selectChannels')

      #    opObj10.addParameter(name='channelList', value='0,1,2', format='intlist')

      #

      #    opObj10 = procUnitConfObj0.addOperation(name='selectHeights')

      #    opObj10.addParameter(name='minHei', value='80', format='float')

      #    opObj10.addParameter(name='maxHei', value='130', format='float')

      #

      #    opObj12 = procUnitConfObj0.addOperation(name='Decoder', optype='other')

      #    

      #    opObj12 = procUnitConfObj0.addOperation(name='CohInt', optype='other')

      #    opObj12.addParameter(name='n', value='4', format='int')

      #    

      #    procUnitConfObj1 = controllerObj.addProcUnit(datatype='Spectra', inputId=procUnitConfObj0.getId())

      #    procUnitConfObj1.addParameter(name='nFFTPoints', value='16', format='int')

      #    procUnitConfObj1.addParameter(name='pairsList', value='(0,1),(0,2),(1,2)', format='pairslist')

      #

      #    opObj12 = procUnitConfObj1.addOperation(name='IncohInt', optype='other')

      #    opObj12.addParameter(name='n', value='10', format='int')

      #    opObj11 = procUnitConfObj1.addOperation(name='SpectraPlot', optype='other')

      #    opObj11.addParameter(name='idfigure', value='1', format='int')

      #    opObj11.addParameter(name='wintitle', value='LongPulse', format='str')

      #    opObj11.addParameter(name='zmin', value='35', format='int')

      #    opObj11.addParameter(name='zmax', value='90', format='int')

      #    opObj11.addParameter(name='showprofile', value='1', format='int')

      #    opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')

      #    opObj11.addParameter(name='save', value='1', format='int')

      #

      #    opObj11 = procUnitConfObj1.addOperation(name='CrossSpectraPlot', optype='other')

      #    opObj11.addParameter(name='idfigure', value='2', format='int')

      #    opObj11.addParameter(name='wintitle', value='LongPulse', format='str')

      #    opObj11.addParameter(name='zmin', value='35', format='int')

      #    opObj11.addParameter(name='zmax', value='90', format='int')

      #    opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')

      #    opObj11.addParameter(name='save', value='1', format='int')

      #    opObj11 = procUnitConfObj1.addOperation(name='CoherenceMap', optype='other')

      #    opObj11.addParameter(name='idfigure', value='3', format='int')

      #    opObj11.addParameter(name='wintitle', value='LongPulse', format='str')

      #    opObj11.addParameter(name='zmin', value='10', format='int')

      #    opObj11.addParameter(name='zmax', value='90', format='int')    

      #    opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')

      #    opObj11.addParameter(name='save', value='1', format='int')

      #    opObj11.addParameter(name='timerange', value=2*60*60, format='int')

      #    

      #    opObj11 = procUnitConfObj1.addOperation(name='RTIPlot', optype='other')

      #    opObj11.addParameter(name='idfigure', value='4', format='int')

      #    opObj11.addParameter(name='wintitle', value='LongPulse', format='str')

      #    opObj11.addParameter(name='zmin', value='10', format='int')

      #    opObj11.addParameter(name='zmax', value='90', format='int')

      #    opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')

      #    opObj11.addParameter(name='save', value='1', format='int')

      #    opObj11.addParameter(name='timerange', value=2*60*60, format='int')

          ##

          ## For the narrow pulse data, process channels 3,4 and 5 and ranges 140 km and above (remember

          ## this pulse was shifted 60 km). In this processing you don't need to add a code.

          ##

          procUnitConfObj0 = controllerObj.addProcUnit(datatype='Voltage', inputId=readUnitConfObj.getId())

      #    opObj10 = procUnitConfObj0.addOperation(name='selectChannels')

      #    opObj10.addParameter(name='channelList', value='3,4,5', format='intlist')

          opObj10 = procUnitConfObj0.addOperation(name='selectHeights')

          opObj10.addParameter(name='minHei', value='140', format='float')

          opObj10.addParameter(name='maxHei', value='180', format='float')

          opObj12 = procUnitConfObj0.addOperation(name='CohInt', optype='other')

          opObj12.addParameter(name='n', value='4', format='int')

          procUnitConfObj1 = controllerObj.addProcUnit(datatype='Spectra', inputId=procUnitConfObj0.getId())

          procUnitConfObj1.addParameter(name='nFFTPoints', value='16', format='int')

          procUnitConfObj1.addParameter(name='pairsList', value='(0,1),(0,2),(1,2)', format='pairslist')

          opObj12 = procUnitConfObj1.addOperation(name='IncohInt', optype='other')

          opObj12.addParameter(name='n', value='10', format='int')

      #    opObj11 = procUnitConfObj1.addOperation(name='SpectraPlot', optype='other')

      #    opObj11.addParameter(name='idfigure', value='11', format='int')

      #    opObj11.addParameter(name='wintitle', value='NarrowPulse', format='str')

      #    opObj11.addParameter(name='zmin', value='35', format='int')

      #    opObj11.addParameter(name='zmax', value='90', format='int')

      #    opObj11.addParameter(name='showprofile', value='1', format='int')

      #    opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')

      #    opObj11.addParameter(name='save', value='1', format='int')

      #

          opObj11 = procUnitConfObj1.addOperation(name='CrossSpectraPlot', optype='other')

          opObj11.addParameter(name='idfigure', value='12', format='int')

          opObj11.addParameter(name='wintitle', value='NarrowPulse', format='str')

      #    opObj11.addParameter(name='zmin', value='15', format='int')

      #    opObj11.addParameter(name='zmax', value='60', format='int')

          opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')

          opObj11.addParameter(name='save', value='1', format='int')

      #    

          opObj11 = procUnitConfObj1.addOperation(name='CoherenceMap', optype='other')

          opObj11.addParameter(name='idfigure', value='13', format='int')

          opObj11.addParameter(name='wintitle', value='NarrowPulse', format='str')

          opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')

          opObj11.addParameter(name='zmin', value='0', format='int')

          opObj11.addParameter(name='zmax', value='50', format='int')

          opObj11.addParameter(name='save', value='1', format='int')

          opObj11.addParameter(name='xmin', value='4', format='int')

          opObj11.addParameter(name='xmax', value='6', format='int')

      #    opObj11.addParameter(name='timerange', value=60, format='int')

      #    

      #    

          opObj11 = procUnitConfObj1.addOperation(name='RTIPlot', optype='other')

          opObj11.addParameter(name='idfigure', value='14', format='int')

          opObj11.addParameter(name='wintitle', value='NarrowPulse', format='str')

          opObj11.addParameter(name='zmin', value='0', format='int')

          opObj11.addParameter(name='zmax', value='50', format='int')

          opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')

          opObj11.addParameter(name='save', value='1', format='int')

          opObj11.addParameter(name='xmin', value='4', format='int')

          opObj11.addParameter(name='xmax', value='6', format='int')    

      #    opObj11.addParameter(name='timerange', value=2*60*60, format='int')

          print "Escribiendo el archivo XML"

          controllerObj.writeXml(filename)

          print "Leyendo el archivo XML"

          controllerObj.readXml(filename)

          #controllerObj.printattr()

          controllerObj.createObjects()

          controllerObj.connectObjects()

          controllerObj.run()

      if __name__=='__main__':

          meteors()

          """

          from timeit import Timer

          t = Timer("meteors()", "from __main__ import meteors")

          print t.timeit()

          """

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				from controller import *

				def meteors():

				desc = "Segundo Test"
				filename = "schain.xml"

				controllerObj = Project()

				controllerObj.setup(id = '191', name='test01', description=desc)

				readUnitConfObj = controllerObj.addReadUnit(datatype='Voltage',
				path='/Data/Data/RAWDATA/Meteors',
				startDate='2012/06/20',
				endDate='2012/06/20',
				startTime='04:00:00',
				endTime='06:00:00',
				online=0,
				walk=1)

				## if you want to look at the coded data, process only channels 0, 1, 2
				## and ranges between 80 and 130 km. Then you need to input the code we are using for proper decoding.

				# procUnitConfObj0 = controllerObj.addProcUnit(datatype='Voltage', inputId=readUnitConfObj.getId())
				#
				# opObj10 = procUnitConfObj0.addOperation(name='selectChannels')
				# opObj10.addParameter(name='channelList', value='0,1,2', format='intlist')
				#
				# opObj10 = procUnitConfObj0.addOperation(name='selectHeights')
				# opObj10.addParameter(name='minHei', value='80', format='float')
				# opObj10.addParameter(name='maxHei', value='130', format='float')
				#
				# opObj12 = procUnitConfObj0.addOperation(name='Decoder', optype='other')
				#
				# opObj12 = procUnitConfObj0.addOperation(name='CohInt', optype='other')
				# opObj12.addParameter(name='n', value='4', format='int')
				#
				# procUnitConfObj1 = controllerObj.addProcUnit(datatype='Spectra', inputId=procUnitConfObj0.getId())
				# procUnitConfObj1.addParameter(name='nFFTPoints', value='16', format='int')
				# procUnitConfObj1.addParameter(name='pairsList', value='(0,1),(0,2),(1,2)', format='pairslist')
				#
				# opObj12 = procUnitConfObj1.addOperation(name='IncohInt', optype='other')
				# opObj12.addParameter(name='n', value='10', format='int')

				# opObj11 = procUnitConfObj1.addOperation(name='SpectraPlot', optype='other')
				# opObj11.addParameter(name='idfigure', value='1', format='int')
				# opObj11.addParameter(name='wintitle', value='LongPulse', format='str')
				# opObj11.addParameter(name='zmin', value='35', format='int')
				# opObj11.addParameter(name='zmax', value='90', format='int')
				# opObj11.addParameter(name='showprofile', value='1', format='int')
				# opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')
				# opObj11.addParameter(name='save', value='1', format='int')
				#
				# opObj11 = procUnitConfObj1.addOperation(name='CrossSpectraPlot', optype='other')
				# opObj11.addParameter(name='idfigure', value='2', format='int')
				# opObj11.addParameter(name='wintitle', value='LongPulse', format='str')
				# opObj11.addParameter(name='zmin', value='35', format='int')
				# opObj11.addParameter(name='zmax', value='90', format='int')
				# opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')
				# opObj11.addParameter(name='save', value='1', format='int')

				# opObj11 = procUnitConfObj1.addOperation(name='CoherenceMap', optype='other')
				# opObj11.addParameter(name='idfigure', value='3', format='int')
				# opObj11.addParameter(name='wintitle', value='LongPulse', format='str')
				# opObj11.addParameter(name='zmin', value='10', format='int')
				# opObj11.addParameter(name='zmax', value='90', format='int')
				# opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')
				# opObj11.addParameter(name='save', value='1', format='int')
				# opObj11.addParameter(name='timerange', value=26060, format='int')
				#
				# opObj11 = procUnitConfObj1.addOperation(name='RTIPlot', optype='other')
				# opObj11.addParameter(name='idfigure', value='4', format='int')
				# opObj11.addParameter(name='wintitle', value='LongPulse', format='str')
				# opObj11.addParameter(name='zmin', value='10', format='int')
				# opObj11.addParameter(name='zmax', value='90', format='int')
				# opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')
				# opObj11.addParameter(name='save', value='1', format='int')
				# opObj11.addParameter(name='timerange', value=26060, format='int')

				##
				## For the narrow pulse data, process channels 3,4 and 5 and ranges 140 km and above (remember
				## this pulse was shifted 60 km). In this processing you don't need to add a code.
				##

				procUnitConfObj0 = controllerObj.addProcUnit(datatype='Voltage', inputId=readUnitConfObj.getId())

				# opObj10 = procUnitConfObj0.addOperation(name='selectChannels')
				# opObj10.addParameter(name='channelList', value='3,4,5', format='intlist')

				opObj10 = procUnitConfObj0.addOperation(name='selectHeights')
				opObj10.addParameter(name='minHei', value='140', format='float')
				opObj10.addParameter(name='maxHei', value='180', format='float')

				opObj12 = procUnitConfObj0.addOperation(name='CohInt', optype='other')
				opObj12.addParameter(name='n', value='4', format='int')

				procUnitConfObj1 = controllerObj.addProcUnit(datatype='Spectra', inputId=procUnitConfObj0.getId())
				procUnitConfObj1.addParameter(name='nFFTPoints', value='16', format='int')
				procUnitConfObj1.addParameter(name='pairsList', value='(0,1),(0,2),(1,2)', format='pairslist')

				opObj12 = procUnitConfObj1.addOperation(name='IncohInt', optype='other')
				opObj12.addParameter(name='n', value='10', format='int')

				# opObj11 = procUnitConfObj1.addOperation(name='SpectraPlot', optype='other')
				# opObj11.addParameter(name='idfigure', value='11', format='int')
				# opObj11.addParameter(name='wintitle', value='NarrowPulse', format='str')
				# opObj11.addParameter(name='zmin', value='35', format='int')
				# opObj11.addParameter(name='zmax', value='90', format='int')
				# opObj11.addParameter(name='showprofile', value='1', format='int')
				# opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')
				# opObj11.addParameter(name='save', value='1', format='int')
				#
				opObj11 = procUnitConfObj1.addOperation(name='CrossSpectraPlot', optype='other')
				opObj11.addParameter(name='idfigure', value='12', format='int')
				opObj11.addParameter(name='wintitle', value='NarrowPulse', format='str')
				# opObj11.addParameter(name='zmin', value='15', format='int')
				# opObj11.addParameter(name='zmax', value='60', format='int')
				opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')
				opObj11.addParameter(name='save', value='1', format='int')
				#
				opObj11 = procUnitConfObj1.addOperation(name='CoherenceMap', optype='other')
				opObj11.addParameter(name='idfigure', value='13', format='int')
				opObj11.addParameter(name='wintitle', value='NarrowPulse', format='str')
				opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')
				opObj11.addParameter(name='zmin', value='0', format='int')
				opObj11.addParameter(name='zmax', value='50', format='int')
				opObj11.addParameter(name='save', value='1', format='int')
				opObj11.addParameter(name='xmin', value='4', format='int')
				opObj11.addParameter(name='xmax', value='6', format='int')
				# opObj11.addParameter(name='timerange', value=60, format='int')
				#
				#
				opObj11 = procUnitConfObj1.addOperation(name='RTIPlot', optype='other')
				opObj11.addParameter(name='idfigure', value='14', format='int')
				opObj11.addParameter(name='wintitle', value='NarrowPulse', format='str')
				opObj11.addParameter(name='zmin', value='0', format='int')
				opObj11.addParameter(name='zmax', value='50', format='int')
				opObj11.addParameter(name='figpath', value='/home/roj-idl71/Data/RAWDATA/Meteors/graphs')
				opObj11.addParameter(name='save', value='1', format='int')
				opObj11.addParameter(name='xmin', value='4', format='int')
				opObj11.addParameter(name='xmax', value='6', format='int')
				# opObj11.addParameter(name='timerange', value=26060, format='int')

				print "Escribiendo el archivo XML"

				controllerObj.writeXml(filename)

				print "Leyendo el archivo XML"
				controllerObj.readXml(filename)
				#controllerObj.printattr()

				controllerObj.createObjects()
				controllerObj.connectObjects()
				controllerObj.run()

				if __name__=='__main__':

				meteors()

				"""
				from timeit import Timer

				t = Timer("meteors()", "from __main__ import meteors")

				print t.timeit()
				"""