schain Files · schainpy/zerorpc/MyClient01.py

Modificación a kmamisr para ejecutarse en la versión 3, creación de scripts con terminación v3 para difereciarlos, se comentó la linea #720 de JroIO_param.py debido a que reiniciaba la lista de archivos, ocasionando la reescritura del archivo hdf5. Alguna otra modificación aparente es producto de algunas variaciones en espacios al usar la función print()

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             MyClient01.py
        
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      '''

      Created on Jul 11, 2014

      @author: roj-idl71

      '''

      import time

      from gevent import sleep

      import zerorpc

      from schainpy.model import *

      from schainpy.serializer.DataTranslate import serial2Obj, serial2Dict

      # import schainpy.model.io.jroIO_usrp

      def createObjVolt():

          '''

          This function creates a processing object "VoltProc" with some operations.

          such as: "CohInt", "Scope", etc

          These class are found inside schainpy.model.proc and schainpy.model.graphics

          '''

          procObj = VoltageProc()

          opObj = CohInt()

          procObj.addOperation(opObj, 1)

          opObj = Scope()

          procObj.addOperation(opObj, 2)

          return procObj

      def createObjSpec():

          '''

          This function creates a processing object "SpecProc" with some operation objects

          such as: "IncohInt", "SpectraPlot", "RTIPlot", etc

          These class are found inside schainpy.model.proc and schainpy.model.graphics

          '''

          procObj = SpectraProc()

          opObj = IncohInt()

          procObj.addOperation(opObj, objId = 1)

          opObj = SpectraPlot()

          procObj.addOperation(opObj, objId = 2)

          opObj = RTIPlot()

          procObj.addOperation(opObj, objId = 3)

          opObj = SpectraPlot()

          procObj.addOperation(opObj, objId = 4)

          opObj = RTIPlot()

          procObj.addOperation(opObj, objId = 5)

          return procObj

      def processingSpec(procObj, dataInObj):

          procObj.setInput(dataInObj)

          procObj.run(nFFTPoints = 16)

          procObj.call(opType = "external",

                       opId = 1,

                       n=1)

          procObj.call(opType = "external",

                       opId = 2,

                       id=191,

                       zmin=-100,

                       zmax=-40)

          procObj.call(opType = "external",

                       opId = 3,

                       id=192,

                       zmin=-100,

                       zmax=-40,

                       timerange=10*60)

      #     procObj.call(opType = "self",

      #                  opName = "selectChannels",

      #                  channelList = [0,1])

      #     

      #     procObj.call(opType = "self",

      #                  opName = "selectHeights",

      #                  minHei = 300,

      #                  maxHei = 400)

      #     

      #     procObj.call(opType = "external",

      #                  opId = 4,

      #                  id=193,

      #                  zmin=-100,

      #                  zmax=-40)

      # 

      #     procObj.call(opType = "external",

      #                  opId = 5,

      #                  id=194,

      #                  zmin=-100,

      #                  zmax=-40,

      #                  timerange=10*60)

      def printSpeed(deltaTime, mySerial):

          ####################

          size = len(mySerial)/1024.

          vel = 1.0*size / deltaTime

          print("Index [", replayerObj.getProfileIndex(), "]: ", end=' ')

          print("Total time %5.2f ms, Data size %5.2f KB, Speed %5.2f MB/s" %(deltaTime, size, vel))

          ####################

      if __name__ == '__main__':

          procObj = createObjSpec()

          replayerObj = zerorpc.Client()

          replayerObj.connect("tcp://127.0.0.1:4242")

          serializer = replayerObj.getSerializer()

          ini = time.time()

          mySerialMetadata = replayerObj.getSerialMetaData()

          deltaTime = (time.time() - ini)*1024

          printSpeed(deltaTime, mySerialMetadata)

          myMetaDict = serial2Dict(mySerialMetadata,

                                   serializer = serializer)

      #     print myMetaDict

          while True:

              ini = time.time()

              mySerialData = replayerObj.getSerialData()

              deltaTime = (time.time() - ini)*1024

              if not mySerialData:

                  print("No more data")

                  break

      #         myDataDict = SERIALIZER.loads(mySerialData)

      #         print myDataDict

      #         continue

              printSpeed(deltaTime, mySerialData)

              dataInObj = serial2Obj(mySerialData,

                                     metadataDict=myMetaDict,

                                     serializer = serializer)

              processingSpec(procObj, dataInObj)

              sleep(1e-1)

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				'''
				Created on Jul 11, 2014

				@author: roj-idl71
				'''
				import time
				from gevent import sleep

				import zerorpc
				from schainpy.model import *
				from schainpy.serializer.DataTranslate import serial2Obj, serial2Dict
				# import schainpy.model.io.jroIO_usrp

				def createObjVolt():
				'''
				This function creates a processing object "VoltProc" with some operations.
				such as: "CohInt", "Scope", etc
				These class are found inside schainpy.model.proc and schainpy.model.graphics
				'''
				procObj = VoltageProc()

				opObj = CohInt()
				procObj.addOperation(opObj, 1)

				opObj = Scope()
				procObj.addOperation(opObj, 2)

				return procObj

				def createObjSpec():
				'''
				This function creates a processing object "SpecProc" with some operation objects
				such as: "IncohInt", "SpectraPlot", "RTIPlot", etc
				These class are found inside schainpy.model.proc and schainpy.model.graphics
				'''

				procObj = SpectraProc()

				opObj = IncohInt()
				procObj.addOperation(opObj, objId = 1)

				opObj = SpectraPlot()
				procObj.addOperation(opObj, objId = 2)

				opObj = RTIPlot()
				procObj.addOperation(opObj, objId = 3)

				opObj = SpectraPlot()
				procObj.addOperation(opObj, objId = 4)

				opObj = RTIPlot()
				procObj.addOperation(opObj, objId = 5)

				return procObj

				def processingSpec(procObj, dataInObj):

				procObj.setInput(dataInObj)
				procObj.run(nFFTPoints = 16)

				procObj.call(opType = "external",
				opId = 1,
				n=1)

				procObj.call(opType = "external",
				opId = 2,
				id=191,
				zmin=-100,
				zmax=-40)

				procObj.call(opType = "external",
				opId = 3,
				id=192,
				zmin=-100,
				zmax=-40,
				timerange=10*60)

				# procObj.call(opType = "self",
				# opName = "selectChannels",
				# channelList = [0,1])
				#
				# procObj.call(opType = "self",
				# opName = "selectHeights",
				# minHei = 300,
				# maxHei = 400)
				#
				# procObj.call(opType = "external",
				# opId = 4,
				# id=193,
				# zmin=-100,
				# zmax=-40)
				#
				# procObj.call(opType = "external",
				# opId = 5,
				# id=194,
				# zmin=-100,
				# zmax=-40,
				# timerange=10*60)

				def printSpeed(deltaTime, mySerial):

				####################
				size = len(mySerial)/1024.
				vel = 1.0*size / deltaTime

				print("Index [", replayerObj.getProfileIndex(), "]: ", end=' ')
				print("Total time %5.2f ms, Data size %5.2f KB, Speed %5.2f MB/s" %(deltaTime, size, vel))
				####################

				if __name__ == '__main__':

				procObj = createObjSpec()

				replayerObj = zerorpc.Client()
				replayerObj.connect("tcp://127.0.0.1:4242")

				serializer = replayerObj.getSerializer()

				ini = time.time()
				mySerialMetadata = replayerObj.getSerialMetaData()
				deltaTime = (time.time() - ini)*1024

				printSpeed(deltaTime, mySerialMetadata)

				myMetaDict = serial2Dict(mySerialMetadata,
				serializer = serializer)
				# print myMetaDict
				while True:
				ini = time.time()
				mySerialData = replayerObj.getSerialData()
				deltaTime = (time.time() - ini)*1024

				if not mySerialData:
				print("No more data")
				break

				# myDataDict = SERIALIZER.loads(mySerialData)
				# print myDataDict
				# continue

				printSpeed(deltaTime, mySerialData)

				dataInObj = serial2Obj(mySerialData,
				metadataDict=myMetaDict,
				serializer = serializer)
				processingSpec(procObj, dataInObj)
				sleep(1e-1)