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'''
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Created on 23/01/2012
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@author $Author$
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@version $Id$
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'''
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import os, sys
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import numpy
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import glob
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import fnmatch
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import time, datetime
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path = os.path.split(os.getcwd())[0]
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sys.path.append(path)
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from IO.HeaderIO import *
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from IO.DataIO import DataReader
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from IO.DataIO import DataWriter
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from Model.Voltage import Voltage
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def isThisFileinRange(filename, startUTSeconds, endUTSeconds):
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"""
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Esta funcion determina si un archivo de datos en formato Jicamarca(.r) se encuentra
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o no dentro del rango de fecha especificado.
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Inputs:
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filename : nombre completo del archivo de datos en formato Jicamarca (.r)
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startUTSeconds : fecha inicial del rango seleccionado. La fecha esta dada en
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segundos contados desde 01/01/1970.
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endUTSeconds : fecha final del rango seleccionado. La fecha esta dada en
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segundos contados desde 01/01/1970.
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Return:
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Boolean : Retorna True si el archivo de datos contiene datos en el rango de
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fecha especificado, de lo contrario retorna False.
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Excepciones:
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Si el archivo no existe o no puede ser abierto
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Si la cabecera no puede ser leida.
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"""
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m_BasicHeader = BasicHeader()
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try:
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fp = open(filename,'rb')
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except:
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raise IOError, "The file %s can't be opened" %(filename)
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if not(m_BasicHeader.read(fp)):
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raise IOError, "The file %s has not a valid header" %(filename)
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fp.close()
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if not ((startUTSeconds <= m_BasicHeader.utc) and (endUTSeconds >= m_BasicHeader.utc)):
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return 0
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return 1
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class VoltageReader(DataReader):
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"""
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Esta clase permite leer datos de voltage desde archivos en formato rawdata (.r). La lectura
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de los datos siempre se realiza por bloques. Los datos leidos (array de 3 dimensiones:
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perfiles*alturas*canales) son almacenados en la variable "buffer".
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Esta clase contiene instancias (objetos) de las clases BasicHeader, SystemHeader,
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RadarControllerHeader y Voltage. Los tres primeros se usan para almacenar informacion de la
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cabecera de datos (metadata), y el cuarto (Voltage) para obtener y almacenar un perfil de
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datos desde el "buffer" cada vez que se ejecute el metodo "getData".
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Example:
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dpath = "/home/myuser/data"
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startTime = datetime.datetime(2010,1,20,0,0,0,0,0,0)
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endTime = datetime.datetime(2010,1,21,23,59,59,0,0,0)
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readerObj = VoltageReader()
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readerObj.setup(dpath, startTime, endTime)
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while(True):
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readerObj.getData()
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print readerObj.m_Voltage.data
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if readerObj.noMoreFiles:
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break
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"""
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#speed of light
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__c = 3E8
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def __init__(self, m_Voltage = None):
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"""
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Inicializador de la clase VoltageReader para la lectura de datos de voltage.
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Input:
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m_Voltage : Objeto de la clase Voltage. Este objeto sera utilizado para
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almacenar un perfil de datos cada vez que se haga un requerimiento
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(getData). El perfil sera obtenido a partir del buffer de datos,
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si el buffer esta vacio se hara un nuevo proceso de lectura de un
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bloque de datos.
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Si este parametro no es pasado se creara uno internamente.
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Variables afectadas:
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self.m_Voltage
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self.m_BasicHeader
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self.m_SystemHeader
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self.m_RadarControllerHeader
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self.m_ProcessingHeader
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Return:
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Void
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"""
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if m_Voltage == None:
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m_Voltage = Voltage()
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if not(isinstance(m_Voltage, Voltage)):
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raise ValueError, "in VoltageReader, m_Voltage must be an Voltage class object"
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self.m_Voltage = m_Voltage
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self.m_BasicHeader = BasicHeader()
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self.m_SystemHeader = SystemHeader()
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self.m_RadarControllerHeader = RadarControllerHeader()
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self.m_ProcessingHeader = ProcessingHeader()
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self.__fp = None
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self.__idFile = None
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self.__startDateTime = None
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self.__endDateTime = None
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self.__dataType = None
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self.__fileSizeByHeader = 0
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self.__pathList = []
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self.filenameList = []
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self.__lastUTTime = 0
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self.__maxTimeStep = 30
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self.__flagIsNewFile = 0
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self.__ippSeconds = 0
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self.flagResetProcessing = 0
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self.flagIsNewBlock = 0
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self.noMoreFiles = 0
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self.nReadBlocks = 0
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self.online = 0
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self.filename = None
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self.fileSize = None
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self.firstHeaderSize = 0
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self.basicHeaderSize = 24
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self.idProfile = 0
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self.__buffer = 0
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self.__buffer_id = 9999
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def __rdSystemHeader(self,fp=None):
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if fp == None:
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fp = self.__fp
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self.m_SystemHeader.read(fp)
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def __rdRadarControllerHeader(self,fp=None):
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if fp == None:
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fp = self.__fp
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self.m_RadarControllerHeader.read(fp)
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def __rdProcessingHeader(self,fp=None):
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if fp == None:
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fp = self.__fp
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self.m_ProcessingHeader.read(fp)
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def __rdBasicHeader(self, fp=None):
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if fp == None:
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fp = self.__fp
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self.m_BasicHeader.read(fp)
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def __readFirstHeader(self):
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self.__rdBasicHeader()
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self.__rdSystemHeader()
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self.__rdRadarControllerHeader()
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self.__rdProcessingHeader()
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self.firstHeaderSize = self.m_BasicHeader.size
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data_type=int(numpy.log2((self.m_ProcessingHeader.processFlags & PROCFLAG.DATATYPE_MASK))-numpy.log2(PROCFLAG.DATATYPE_CHAR))
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if data_type == 0:
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tmp = numpy.dtype([('real','<i1'),('imag','<i1')])
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elif data_type == 1:
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tmp = numpy.dtype([('real','<i2'),('imag','<i2')])
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elif data_type == 2:
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tmp = numpy.dtype([('real','<i4'),('imag','<i4')])
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elif data_type == 3:
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tmp = numpy.dtype([('real','<i8'),('imag','<i8')])
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elif data_type == 4:
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tmp = numpy.dtype([('real','<f4'),('imag','<f4')])
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elif data_type == 5:
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tmp = numpy.dtype([('real','<f8'),('imag','<f8')])
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else:
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raise ValueError, 'Data type was not defined'
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xi = self.m_ProcessingHeader.firstHeight
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step = self.m_ProcessingHeader.deltaHeight
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xf = xi + self.m_ProcessingHeader.numHeights*step
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self.__heights = numpy.arange(xi, xf, step)
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self.__dataType = tmp
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self.__fileSizeByHeader = self.m_ProcessingHeader.dataBlocksPerFile * self.m_ProcessingHeader.blockSize + self.firstHeaderSize + self.basicHeaderSize*(self.m_ProcessingHeader.dataBlocksPerFile - 1)
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self.__ippSeconds = 2*1000*self.m_RadarControllerHeader.ipp/self.__c
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def __setNextFileOnline(self):
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return 0
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def __setNextFileOffline(self):
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idFile = self.__idFile
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while(True):
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idFile += 1
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if not(idFile < len(self.filenameList)):
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self.noMoreFiles = 1
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return 0
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filename = self.filenameList[idFile]
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fileSize = os.path.getsize(filename)
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try:
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fp = open(filename,'rb')
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except:
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raise IOError, "The file %s can't be opened" %filename
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currentSize = fileSize - fp.tell()
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neededSize = self.m_ProcessingHeader.blockSize + self.firstHeaderSize
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if (currentSize < neededSize):
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print "Skipping the file %s due to it hasn't enough data" %filename
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continue
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break
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self.__flagIsNewFile = 1
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self.__idFile = idFile
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self.filename = filename
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self.fileSize = fileSize
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self.__fp = fp
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print 'Setting the file: %s'%self.filename
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return 1
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def __setNextFile(self):
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if self.online:
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newFile = self.__setNextFileOnline()
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else:
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newFile = self.__setNextFileOffline()
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if not(newFile):
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return 0
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self.__readFirstHeader()
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return 1
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def __setNewBlock(self):
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if self.__fp == None:
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return 0
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if self.__flagIsNewFile:
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return 1
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currentSize = self.fileSize - self.__fp.tell()
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neededSize = self.m_ProcessingHeader.blockSize + self.basicHeaderSize
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#If there is enough data setting new data block
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if (currentSize >= neededSize):
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self.__rdBasicHeader()
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return 1
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#Setting new file
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if not(self.__setNextFile()):
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return 0
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deltaTime = self.m_BasicHeader.utc - self.__lastUTTime # check this
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self.flagResetProcessing = 0
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if deltaTime > self.__maxTimeStep:
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self.flagResetProcessing = 1
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self.nReadBlocks = 0
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return 1
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def __readBlock(self):
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"""
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__readBlock lee el bloque de datos desde la posicion actual del puntero del archivo
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(self.__fp) y actualiza todos los parametros relacionados al bloque de datos
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(metadata + data). La data leida es almacenada en el buffer y el contador del buffer
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es seteado a 0
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Inputs:
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None
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Return:
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None
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Variables afectadas:
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self.__buffer_id
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self.__buffer
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self.__flagIsNewFile
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self.idProfile
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self.flagIsNewBlock
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self.nReadBlocks
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"""
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pts2read = self.m_ProcessingHeader.profilesPerBlock*self.m_ProcessingHeader.numHeights*self.m_SystemHeader.numChannels
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junk = numpy.fromfile(self.__fp, self.__dataType, pts2read)
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junk = junk.reshape((self.m_ProcessingHeader.profilesPerBlock, self.m_ProcessingHeader.numHeights, self.m_SystemHeader.numChannels))
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data = junk['real'] + junk['imag']*1j
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self.__buffer_id = 0
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self.__buffer = data
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self.__flagIsNewFile = 0
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self.idProfile = 0
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self.flagIsNewBlock = 1
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self.nReadBlocks += 1
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def __hasNotDataInBuffer(self):
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if self.__buffer_id >= self.m_ProcessingHeader.profilesPerBlock:
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return 1
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return 0
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def __searchFiles(self, path, startDateTime, endDateTime, set=None, expLabel = "", ext = ".r"):
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"""
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__searchFiles realiza una busqueda de los archivos que coincidan con los parametros
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especificados y se encuentren ubicados en el path indicado. Para realizar una busqueda
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correcta la estructura de directorios debe ser la siguiente:
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...path/D[yyyy][ddd]/expLabel/D[yyyy][ddd][sss].ext
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[yyyy]: anio
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[ddd] : dia del anio
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[sss] : set del archivo
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Inputs:
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path : Directorio de datos donde se realizara la busqueda. Todos los
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ficheros que concidan con el criterio de busqueda seran
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almacenados en una lista y luego retornados.
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startDateTime : Fecha inicial. Rechaza todos los archivos donde
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file end time < startDateTime (obejto datetime.datetime)
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endDateTime : Fecha final. Rechaza todos los archivos donde
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file start time > endDateTime (obejto datetime.datetime)
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set : Set del primer archivo a leer. Por defecto None
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expLabel : Nombre del subdirectorio de datos. Por defecto ""
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ext : Extension de los archivos a leer. Por defecto .r
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Return:
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(pathList, filenameList)
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pathList : Lista de directorios donde se encontraron archivos dentro
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de los parametros especificados
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filenameList : Lista de archivos (ruta completa) que coincidieron con los
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parametros especificados.
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Variables afectadas:
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self.filenameList: Lista de archivos (ruta completa) que la clase utiliza
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como fuente para leer los bloque de datos, si se termina
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de leer todos los bloques de datos de un determinado
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archivo se pasa al siguiente archivo de la lista.
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Excepciones:
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"""
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print "Searching files ..."
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dirList = []
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for thisPath in os.listdir(path):
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if os.path.isdir(os.path.join(path,thisPath)):
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dirList.append(thisPath)
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pathList = []
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thisDateTime = startDateTime
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while(thisDateTime <= endDateTime):
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year = thisDateTime.timetuple().tm_year
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doy = thisDateTime.timetuple().tm_yday
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match = fnmatch.filter(dirList, '?' + '%4.4d%3.3d' % (year,doy))
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if len(match) == 0:
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thisDateTime += datetime.timedelta(1)
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continue
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pathList.append(os.path.join(path,match[0],expLabel))
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thisDateTime += datetime.timedelta(1)
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startUtSeconds = time.mktime(startDateTime.timetuple())
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endUtSeconds = time.mktime(endDateTime.timetuple())
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filenameList = []
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for thisPath in pathList:
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fileList = glob.glob1(thisPath, "*%s" %ext)
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fileList.sort()
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for file in fileList:
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filename = os.path.join(thisPath,file)
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if isThisFileinRange(filename, startUtSeconds, endUtSeconds):
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filenameList.append(filename)
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self.filenameList = filenameList
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return pathList, filenameList
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def setup(self, path, startDateTime, endDateTime=None, set=None, expLabel = "", ext = ".r", online = 0):
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"""
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setup configura los parametros de lectura de la clase VoltageReader.
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Si el modo de lectura es offline, primero se realiza una busqueda de todos los archivos
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que coincidan con los parametros especificados; esta lista de archivos son almacenados en
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self.filenameList.
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Input:
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path : Directorios donde se ubican los datos a leer. Dentro de este
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directorio deberia de estar subdirectorios de la forma:
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path/D[yyyy][ddd]/expLabel/P[yyyy][ddd][sss][ext]
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startDateTime : Fecha inicial. Rechaza todos los archivos donde
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file end time < startDatetime (obejto datetime.datetime)
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endDateTime : Fecha final. Si no es None, rechaza todos los archivos donde
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file end time < startDatetime (obejto datetime.datetime)
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set : Set del primer archivo a leer. Por defecto None
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expLabel : Nombre del subdirectorio de datos. Por defecto ""
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ext : Extension de los archivos a leer. Por defecto .r
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online :
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Return:
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Affected:
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Excepciones:
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Example:
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"""
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if online == 0:
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pathList, filenameList = self.__searchFiles(path, startDateTime, endDateTime, set, expLabel, ext)
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self.__idFile = -1
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if not(self.__setNextFile()):
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print "No files in range: %s - %s" %(startDateTime.ctime(), endDateTime.ctime())
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return 0
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self.startUTCSeconds = time.mktime(startDateTime.timetuple())
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self.endUTCSeconds = time.mktime(endDateTime.timetuple())
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self.startYear = startDateTime.timetuple().tm_year
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self.endYear = endDateTime.timetuple().tm_year
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self.startDoy = startDateTime.timetuple().tm_yday
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self.endDoy = endDateTime.timetuple().tm_yday
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#call fillHeaderValues() - to Data Object
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self.__pathList = pathList
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self.filenameList = filenameList
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self.online = online
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def readNextBlock(self):
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"""
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readNextBlock establece un nuevo bloque de datos a leer y los lee, si es que no existiese
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mas bloques disponibles en el archivo actual salta al siguiente.
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"""
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if not(self.__setNewBlock()):
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return 0
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self.__readBlock()
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self.__lastUTTime = self.m_BasicHeader.utc
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return 1
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def getData(self):
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"""
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getData obtiene una unidad de datos del buffer de lectura y la copia a la clase "Voltage"
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con todos los parametros asociados a este (metadata). cuando no hay datos en el buffer de
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lectura es necesario hacer una nueva lectura de los bloques de datos usando "readNextBlock"
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Ademas incrementa el contador del buffer en 1.
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Inputs:
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None
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Return:
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data : retorna un perfil de voltages (alturas * canales) copiados desde el
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buffer. Si no hay mas archivos a leer retorna None.
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Variables afectadas:
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self.m_Voltage
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self.__buffer_id
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self.idProfile
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Excepciones:
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"""
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self.flagResetProcessing = 0
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self.flagIsNewBlock = 0
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if self.__hasNotDataInBuffer():
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self.readNextBlock()
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if self.noMoreFiles == 1:
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print 'Process finished'
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return None
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#data es un numpy array de 3 dmensiones (perfiles, alturas y canales)
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data = self.__buffer[self.__buffer_id,:,:]
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time = self.m_BasicHeader.utc + self.__buffer_id*self.__ippSeconds
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self.m_Voltage.m_BasicHeader = self.m_BasicHeader.copy()
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self.m_Voltage.m_ProcessingHeader = self.m_ProcessingHeader.copy()
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self.m_Voltage.m_RadarControllerHeader = self.m_RadarControllerHeader.copy()
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self.m_Voltage.m_SystemHeader = self.m_SystemHeader.copy()
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self.m_Voltage.m_BasicHeader.utc = time
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self.m_Voltage.data = data
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self.m_Voltage.heights = self.__heights
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self.m_Voltage.idProfile = self.idProfile
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self.m_Voltage.dataType = self.__dataType
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self.__buffer_id += 1
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self.idProfile += 1
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#call setData - to Data Object
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return data
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class VoltageWriter(DataWriter):
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def __init__(self, m_Voltage = None):
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if m_Voltage == None:
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m_Voltage = Voltage()
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self.m_Voltage = m_Voltage
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self.__fp = None
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self.__blocksCounter = 0
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self.__setFile = None
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self.__flagIsNewFile = 0
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self.__buffer = 0
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self.__buffer_id = 0
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self.__dataType = None
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self.__ext = None
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self.nWriteBlocks = 0
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self.flagIsNewBlock = 0
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self.noMoreFiles = 0
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self.filename = None
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self.m_BasicHeader= BasicHeader()
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self.m_SystemHeader = SystemHeader()
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self.m_RadarControllerHeader = RadarControllerHeader()
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self.m_ProcessingHeader = ProcessingHeader()
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def __setNextFile(self):
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setFile = self.__setFile
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ext = self.__ext
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path = self.__path
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setFile += 1
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if not(self.__blocksCounter >= self.m_ProcessingHeader.dataBlocksPerFile):
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self.__fp.close()
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return 0
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timeTuple = time.localtime(self.m_Voltage.m_BasicHeader.utc) # utc from m_Voltage
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file = 'D%4.4d%3.3d%3.3d%s' % (timeTuple.tm_year,timeTuple.tm_doy,setFile,ext)
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subfolder = 'D%4.4d%3.3d' % (timeTuple.tm_year,timeTuple.tm_doy)
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tmp = os.path.join(path,subfolder)
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if not(os.path.exists(tmp)):
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os.mkdir(tmp)
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filename = os.path.join(path,subfolder,file)
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fp = open(filename,'wb')
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#guardando atributos
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self.filename = filename
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self.__subfolder = subfolder
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self.__fp = fp
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self.__setFile = setFile
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self.__flagIsNewFile = 1
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print 'Writing the file: %s'%self.filename
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return 1
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def __setNewBlock(self):
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if self.__fp == None:
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return 0
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if self.__flagIsNewFile:
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return 1
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#Bloques completados?
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if self.__blocksCounter < self.m_ProcessingHeader.profilesPerBlock:
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self.__writeBasicHeader()
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return 1
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if not(self.__setNextFile()):
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return 0
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self.__writeFirstHeader()
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return 1
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def __writeBlock(self):
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numpy.save(self.__fp,self.__buffer)
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self.__buffer = numpy.array([],self.__dataType)
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self.__buffer_id = 0
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self.__flagIsNewFile = 0
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self.flagIsNewBlock = 1
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self.nWriteBlocks += 1
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self.__blocksCounter += 1
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def writeNextBlock(self):
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if not(self.__setNewBlock()):
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return 0
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self.__writeBlock()
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return 1
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def __hasAllDataInBuffer(self):
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if self.__buffer_id >= self.m_ProcessingHeader.profilesPerBlock:
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return 1
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return 0
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def putData(self):
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self.flagIsNewBlock = 0
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if self.m_Voltage.noData:
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return None
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shape = self.m_Voltage.data.shape
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data = numpy.zeros(shape,self.__dataType)
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data['real'] = self.m_Voltage.data.real
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data['imag'] = self.m_Voltage.data.imag
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data = data.reshape((-1))
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self.__buffer = numpy.hstack((self.__buffer,data))
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self.__buffer_id += 1
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if __hasAllDataInBuffer():
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self.writeNextBlock()
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if self.noMoreFiles:
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print 'Process finished'
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return None
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return 1
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def setup(self,path,set=None,format=None):
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if set == None:
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set = -1
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else:
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set -= 1
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if format == 'hdf5':
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ext = '.hdf5'
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print 'call hdf5 library'
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return 0
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if format == 'rawdata':
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ext = '.r'
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#call to config_headers
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self.__setFile = set
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if not(self.__setNextFile()):
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print "zzzzzzzzzzzz"
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return 0
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self.__writeFirstHeader() # dentro de esta funcion se debe setear e __dataType
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self.__buffer = numpy.array([],self.__dataType)
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def __writeBasicHeader(self):
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pass
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def __writeFirstHeader(self):
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pass
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