Ejemplo n.º 1
0
def getSamplesAtTimes(grid,
                      year=None,
                      season=None,
                      mon=None,
                      day=None,
                      hour=None,
                      min=None,
                      sec=None,
                      ms=None):
    """ Samples a grid at specified time periods, multiple arguments can be used in complex sampling 
      eg.., using hour = 5 would return all samples corresponding  to 5 am, further specifing year = 2008 
      would give samples at 5am in year 2008
  """
    from visad import RealType
    from visad import Gridded1DDoubleSet
    from visad import FieldImpl
    from visad import FunctionType
    from visad import VisADException
    if (str(mon) != "None" and str(season) != "None"):
        raise VisADException("One of Month or Season can be used, not both")
    timeSet = GridUtil.getTimeSet(grid)
    indices = getSampleTimeIndices(grid, year, season, mon, day, hour, min,
                                   sec, ms)
    timevals = timeSet.getSamples()[0]
    subsetTimeValues = [timevals[i] for i in indices]
    newTimes = Gridded1DDoubleSet(RealType.Time, [subsetTimeValues],
                                  len(subsetTimeValues), None,
                                  timeSet.getSetUnits(), None)
    subsetgrid = FieldImpl(
        FunctionType(RealType.Time,
                     grid.getSample(0).getType()), newTimes)
    for i in range(len(subsetTimeValues)):
        subsetgrid.setSample(i, grid[indices[i]])
    return subsetgrid
Ejemplo n.º 2
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def makeTimeComposite(variable, avgvariable, minvalue, maxvalue):
    """ Make a time composite of grid supplied(variable) between min max ranges 
      of a 1d avg variable supplied.
  """
    from visad import FunctionType
    from visad import FieldImpl
    from visad import RealType
    from visad import Gridded1DDoubleSet
    from visad import VisADException
    from ucar.unidata.util.Misc import getAverage
    timeSet = GridUtil.getTimeSet(avgvariable)
    newTimeIndexList = java.util.ArrayList()
    newTimeValues = []
    for i in range(timeSet.getLength()):
        avg = getAverage(avgvariable.getSample(i).getFloats()[0])
        if minvalue < avg <= maxvalue:
            newTimeIndexList.add(Integer(i))
            newTimeValues.append(timeSet[i].getValue())
    print(len(newTimeIndexList))
    if (len(newTimeIndexList) < 1):
        raise VisADException("No Matches found to make a time composite")
    newTimes = Gridded1DDoubleSet(RealType.Time, [newTimeValues],
                                  len(newTimeValues), None,
                                  timeSet.getSetUnits(), None)
    compvariable = FieldImpl(
        FunctionType(RealType.Time,
                     variable.getSample(0).getType()), newTimes)
    for i in range(len(newTimeValues)):
        compvariable.setSample(i, variable[newTimeIndexList[i]])
    return compvariable
Ejemplo n.º 3
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def anomalyFromTimeMeans(grid, meanType="None"):
    """ Returns deviation from time means, timemean can be monthly, daily etc..
      eg.., meanType="day" will return deviation of each step from its
      corresponding daily mean.
  """
    from visad import Real
    from visad import Gridded1DDoubleSet
    from visad import FieldImpl
    from visad import FunctionType
    from visad import RealType
    from visad.Data import NEAREST_NEIGHBOR
    from visad.Data import NO_ERRORS
    from visad import VisADException
    timeMean = createTimeMeans(grid, meanType)
    grid.subtract(timeMean)
    if (str(meanType).lower() in ("mon", "month", "months", "montly")):
        searchFormat = "MM"
    elif (str(meanType).lower() in ("day", "d", "days", "daily")):
        searchFormat = "dd"
    elif (str(meanType).lower() in ("hr", "hour", "hours", "hourly")):
        searchFormat = "hh"
    elif (str(meanType).lower()
          in ("m", "min", "minute", "minutes", "minutely")):
        searchFormat = "mm"
    elif (str(meanType).lower() in ("s", "sec", "second", "seconds")):
        searchFormat = "ss"
    else:
        raise VisADException(
            "Unrecognized time mean type, use yearly or monthly etc")
    return grid.subtract(timeMean, NEAREST_NEIGHBOR, NO_ERRORS)
Ejemplo n.º 4
0
def getSampleTimesInFormat(grid,
                           timeformat,
                           timezone="UTC",
                           outformat="string"):
    """ A Helper function to return times of a grid in specified format as a list.
  """
    from ucar.visad.data import CalendarDateTime
    from visad import DateTime
    from ucar.visad.UtcDate import formatUtcDate
    from visad import VisADException
    from java.util import TimeZone
    dateTimes = CalendarDateTime.timeSetToArray(GridUtil.getTimeSet(grid))
    TIMEZONE = TimeZone.getTimeZone(timezone)
    temp = []
    for i in range(grid.getDomainSet().getLength()):
        if (str(outformat).lower() in ("string", "str")):
            temp.append(str(dateTimes[i].formattedString(timeformat,
                                                         TIMEZONE)))
        elif (str(outformat).lower() in ("float", "flt")):
            temp.append(
                float(dateTimes[i].formattedString(timeformat, TIMEZONE)))
        elif (str(outformat).lower() in ("int", "integer")):
            temp.append(
                Integer(dateTimes[i].formattedString(timeformat, TIMEZONE)))
        else:
            raise VisADException("Unrecognized output format")
    return temp
Ejemplo n.º 5
0
def calcMonAnom(monthly, ltm, normalize=0):
    """ Calculate the monthly anomaly from a long term mean.
      The number of timesteps in ltm must be 12
  """
    from visad import VisADException
    monAnom = monthly.clone()
    months = len(ltm)
    if (not months == 12):
        raise VisADException("Number of months in ltm must be a 12")
    years = int(len(monthly) / months) + 1
    startMonth = getStartMonth(GridUtil.getTimeSet(monthly)) - 1
    #print "Start month = " , startMonth
    index = 0
    for year in range(years):
        for month in range(12):
            if index > len(monthly) - 1:
                break
            thisMonth = (startMonth + month) % 12
            #print thisMonth
            diff = sub(monthly[index], ltm[thisMonth])
            if normalize != 0:
                diff = sub(diff, xav(diff))
                diff = GridUtil.setParamType(diff,
                                             GridUtil.getParamType(monAnom))
            monAnom[index] = diff
            index = index + 1
    return monAnom
Ejemplo n.º 6
0
def cdo2(variable1, variable2, user_cdo_options):
    """ Does a cdo operation on 2 grids supplied and returns a grid.
      The function outsources the two grids to CDOs (code.zmaw.de/cdo) user option decides what
      operation can be done.
      evalues in cdo as cdo user_cdo_options variable1_written_to_temp_file.nc variable2_written.nc output_temp_file.nc
  """
    import java
    from java.util import Random
    import sys
    import commands
    from visad import VisADException
    rand = Random()

    file_prefix = rand.nextInt(9999)
    file_inp1 = str(file_prefix) + "_inp1.nc"
    file_inp2 = str(file_prefix) + "_inp2.nc"
    exportGridToNetcdf(variable1, file_inp1)
    exportGridToNetcdf(variable2, file_inp2)

    timeunit1 = GridUtil.getTimeSet(variable1).getSetUnits()[0]
    timeunit2 = GridUtil.getTimeSet(variable2).getSetUnits()[0]
    if (str(timeunit1).split()[0] == "s"):
        newtimeunit1 = str(timeunit1).replace("s", "seconds", 1)
        nco_status = commands.getstatusoutput("ncatted -a units,time,m,c," +
                                              "\"" + newtimeunit1 + "\"" +
                                              " " + file_inp1)
        if (nco_status[0]):
            raise VisADException(nco_status[1])

    if (str(timeunit2).split()[0] == "s"):
        newtimeunit2 = str(timeunit2).replace("s", "seconds", 1)
        nco_status = commands.getstatusoutput("ncatted -a units,time,m,c," +
                                              "\"" + newtimeunit2 + "\"" +
                                              " " + file_inp2)
        if (nco_status[0]):
            raise VisADException(nco_status[1])

    file_out = str(file_prefix) + "_out.nc"
    cdo_status = commands.getstatusoutput("cdo " + user_cdo_options + " " +
                                          file_inp1 + " " + file_inp2 + " " +
                                          file_out)
    if (cdo_status[0]):
        raise VisADException(cdo_status[1])

    dstemp = makeDataSource(file_out)
    varout = getData(dstemp.getName())
    return varout
Ejemplo n.º 7
0
def cdoSubGrid(variable, user_nlon, user_nlat):
    """ Computes a subgrid difference between a fine resolution and 
      coarsened resolution grid (from regriding the 
      original grid to user_nlon and user_nlat) using CDOs.Works
      best for regular grids.
      Note: Also needs ncatted from NCO's also to be on your path.
  """
    import java
    from java.util import Random
    import sys
    import commands
    import os
    try:
        os.remove(idv.getObjectStore().getJythonCacheDir() +
                  "/Lib/threading.py")
    except:
        pass
    from visad import VisADException
    rand = Random()

    file_prefix = rand.nextInt(9999)
    file_inp = str(file_prefix) + "_inp.nc"

    exportGridToNetcdf(variable, file_inp)

    timeunit = GridUtil.getTimeSet(variable).getSetUnits()[0]
    if (str(timeunit).split()[0] == "s"):
        newtimeunit = str(timeunit).replace("s", "seconds", 1)
        nco_status = commands.getstatusoutput("ncatted -a units,time,m,c," +
                                              "\"" + newtimeunit + "\"" + " " +
                                              file_inp)
        if (nco_status[0]):
            raise VisADException(nco_status[1])

    file_out = str(file_prefix) + "_out.nc"
    cdo_command = "cdo sub " + file_inp + " -remapnn," + file_inp + " -remapcon,r" + user_nlon + "x" + user_nlat + " " + file_inp + " " + file_out
    cdo_status = commands.getstatusoutput(cdo_command)
    if (cdo_status[0]):
        raise VisADException(cdo_status[1])

    dstemp = makeDataSource(file_out)
    varout = getData(dstemp.getName())
    return varout
Ejemplo n.º 8
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def ddz(grid):
    """ Computes a vertical coordinate derivative of grid specifed. 
  """
    from visad import VisADException
    #doesnt work well to raise exception for case when one level is present,
    #in that case does derivative for longitude
    if (GridUtil.is3D(GridUtil.getSpatialDomain(grid))):
        leveldim = GridUtil.getSpatialDomain(grid).getManifoldDimension()
    else:
        raise VisADException("Not a 3D Spatial Grid")
    return GridMath.partial(grid, (leveldim - 1))
Ejemplo n.º 9
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def getLevels(grid):
    """ A helper function to get levels values inside a grid as a list.
  """
    from visad import VisADException
    if GridUtil.is3D(GridUtil.getSpatialDomain(grid)):
        leveldim = GridUtil.getSpatialDomain(grid).getManifoldDimension()
        levels = remove_duplicates(
            GridUtil.getSpatialDomain(grid).getSamples()[leveldim - 1])
    else:
        raise VisADException("No Vertical Levels Found")
    return levels
Ejemplo n.º 10
0
def getTimeDict(grid):
    """ A helper function to return timestamps of grid as dictionary of years, months etc.
  """
    from ucar.visad.data import CalendarDateTime
    from visad import DateTime
    from ucar.visad.UtcDate import formatUtcDate
    if (GridUtil.isTimeSequence(grid) == 1):
        dateTimes = CalendarDateTime.timeSetToArray(grid.getDomainSet())
        YYYY = []
        MM = []
        dd = []
        DD = []
        mm = []
        hh = []
        ss = []
        YYYYMMdd = []
        HHmmss = []
        for i in range(ds.getDomainSet().getLength()):
            print formatUtcDate(dateTimes[i], "DD", DateTime.DEFAULT_TIMEZONE)
            YYYY.append(
                str(dateTimes[i].formattedString("yyyy",
                                                 DateTime.DEFAULT_TIMEZONE)))
            MM.append(
                str(dateTimes[i].formattedString("MM",
                                                 DateTime.DEFAULT_TIMEZONE)))
            dd.append(
                str(dateTimes[i].formattedString("dd",
                                                 DateTime.DEFAULT_TIMEZONE)))
            DD.append(
                str(dateTimes[i].formattedString("DD",
                                                 DateTime.DEFAULT_TIMEZONE)))
            hh.append(
                str(dateTimes[i].formattedString("HH",
                                                 DateTime.DEFAULT_TIMEZONE)))
            mm.append(
                str(dateTimes[i].formattedString("mm",
                                                 DateTime.DEFAULT_TIMEZONE)))
            ss.append(
                str(dateTimes[i].formattedString("ss",
                                                 DateTime.DEFAULT_TIMEZONE)))
            YYYYMMdd.append(
                str(dateTimes[i].formattedString("YYYYMMdd",
                                                 DateTime.DEFAULT_TIMEZONE)))
            HHmmss.append(
                str(dateTimes[i].formattedString("HHmmss",
                                                 DateTime.DEFAULT_TIMEZONE)))
        timeDict = dict([('YYYYMMdd', YYYYMMdd), ('HHmmss', HHmmss),
                         ('YYYY', YYYY), ('MM', MM), ('dd', dd), ('DD', DD),
                         ('mm', mm), ('ss', ss)])
    else:
        raise VisADException("This grid is not a time sequence")
    return timeDict
Ejemplo n.º 11
0
def correlation(xvar, yvar):
    """ Computes time correlation at each grid point in xvar with corresponding grid 
      in yvar.
  """
    if (GridUtil.isTimeSequence(xvar) and GridUtil.isTimeSequence(yvar)
            and GridUtil.getTimeSet(xvar).getLength()
            == GridUtil.getTimeSet(yvar).getLength()):
        xavg = averageOverTime(xvar, makeTimes=0)
        yavg = averageOverTime(yvar, makeTimes=0)
        xdev = xvar - xavg
        ydev = yvar - yavg
        xydevsumbyn = sumOverTime(
            xdev.multiply(ydev)) / (GridUtil.getTimeSet(xdev).getLength() - 1)
        xstddev = sumOverTime(
            xdev**2, makeTimes=0) / (GridUtil.getTimeSet(xdev).getLength() - 1)
        ystddev = sumOverTime(
            ydev**2, makeTimes=0) / (GridUtil.getTimeSet(ydev).getLength() - 1)
    else:
        raise VisADException(
            "Number of timesteps for correlation should be same")
    return noUnit(xydevsumbyn) / noUnit((xstddev**0.5) * (ystddev**0.5))
Ejemplo n.º 12
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    def wavefilter(tempF, minwave, maxwave):
        if GridUtil.is3D(grid):
            raise VisADException(
                'This implementation of filtering supports only 2d,eg.., lat-lon grids'
            )

        tempFF = domainFactor(tempF, int(not (GridUtil.isLatLonOrder(tempF))))
        for j, lat in enumerate(tempFF.domainEnumeration()):
            fieldfft = fft(field(tempFF.evaluate(lat).getFloats()[0]))
            reals = fieldfft.getFloats()[0]
            imags = fieldfft.getFloats()[1]
            if maxwave == None or int(maxwave) > len(reals):
                maxwave = len(reals) - 1

            for i in range(int(minwave), int(maxwave) + 1):
                reals[i] = 0.0
                imags[i] = 0.0
            fieldfft.setSamples([reals, imags])
            fieldifft = ifft(fieldfft)
            tempFF[j].setSamples(GridUtil.getParam(fieldifft, 0).getFloats())
        return tempFF.domainMultiply()
Ejemplo n.º 13
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def stdMon(grid):
    """ Create monthly standard deviations from a grid of monthly data over 
      a period of years. The number of timesteps must be a multiple of 12.
  """
    from visad import VisADException
    from visad import Gridded1DDoubleSet
    from visad import FunctionType
    from visad import FieldImpl
    from visad import RealType
    timeSet = GridUtil.getTimeSet(grid)
    numT = timeSet.getLength()
    if (numT % 12 > 0):
        raise VisADException("Number of times must be a multiple of 12")
    numYears = numT / 12
    days = [[0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334]]
    units = [Util.parseUnit("days since 0001-01-01 00:00")]
    newTimes = Gridded1DDoubleSet(RealType.Time, days, 12, None, units, None)
    stdev = FieldImpl(FunctionType(RealType.Time,
                                   grid.getSample(0).getType()), newTimes)
    for month in range(12):
        a = GridMath.applyFunctionOverTime(grid, GridMath.FUNC_STDEV, month,
                                           12, 0)
        stdev.setSample(month, a, 0)
    return stdev
Ejemplo n.º 14
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def getSampleTimeIndices(grid,
                         year=None,
                         season=None,
                         mon=None,
                         day=None,
                         hour=None,
                         min=None,
                         sec=None,
                         ms=None):
    """ A Helper function to get indices a grid at specified time periods, multiple arguments can be used in 
      complex sampling. This function returns list of indices in grid.
  """
    from visad import VisADException
    searchformat = ""
    searchstring = ""
    if (str(mon) != "None" and str(season) != "None"):
        raise VisADException("One of Month or Season can be used, not both")
    if (str(year) != "None" and len(str(year)) == 4):
        searchformat = searchformat + "yyyy"
        searchstring = searchstring + str(year)
    if (str(mon) != "None" and int(mon) in ([range(1, 13)])
            and len(str(mon)) <= 2):
        searchformat = searchformat + "MM"
        if (len(str(mon)) < 2):
            searchstring = searchstring + "0" + str(mon)
        else:
            searchstring = searchstring + str(mon)

    if (str(day) != "None"):
        searchformat = searchformat + "dd"
        searchstring = searchstring + str(day)
    if (str(hour) != "None"):
        searchformat = searchformat + "HH"
        searchstring = searchstring + str(hour)
    if (str(min) != "None"):
        searchformat = searchformat + "mm"
        searchstring = searchstring + str(min)
    if (str(sec) != "None"):
        searchformat = searchformat + "ss"
        searchstring = searchstring + str(sec)
    if (str(ms) != "None"):
        searchformat = searchformat + "ms"
        searchstring = searchstring + str(ms)

    if (str(season) != "None"):
        seasons = ("djf", "jfm", "mam", "jja", "son", "ond", "jjas")
        seasmons = ((12, 1, 2), (1, 2, 3), (3, 4, 5), (6, 7, 8), (9, 10, 11),
                    (10, 11, 12), (6, 7, 8, 9))
        if (str(season).lower() in seasons):
            montimes = getSampleTimesInFormat(grid, "MM")
            alltimes = getSampleTimesInFormat(grid, searchformat.strip())
            seasonlist = [list(seasons)]
            seasonsearch = seasmons[list(seasons).index(str(season).lower())]
            matchindices = [
                i for i, t, m in zip(range(len(alltimes)), alltimes, montimes)
                if t == searchstring and int(m) in seasonsearch
            ]
        else:
            raise VisADException("Season " + str(season) + " not found")
    else:
        alltimes = getSampleTimesInFormat(grid, searchformat.strip())
        matchindices = [i for i, t in enumerate(alltimes) if t == searchstring]
    return matchindices
Ejemplo n.º 15
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def ddt(grid, timegradunit):
    """ compute tendency (time derivative) using forward difference, 
      units of returned grid are units of grid per timegradient unit 
      timegradient unit can be month, day, hour, minute, seconds
      
  """
    from visad import Real
    from visad import FunctionType
    from visad import FieldImpl
    from visad import RealType
    from visad import Gridded1DDoubleSet
    from ucar.visad.data import CalendarDateTime
    from visad import CommonUnit
    from visad import VisADException
    if (GridUtil.isTimeSequence(grid) == 1):
        newTimeValues = []
        timediffs = []
        ts = GridUtil.getTimeSet(grid)
        if (str(timegradunit).lower() in ("mon", "month", "months")):
            timefactor = 86400.0 * 30
            timegradunit = "month"
        elif (str(timegradunit).lower() in ("day", "d", "days")):
            timefactor = 86400.0
            timegradunit = "day"
        elif (str(timegradunit).lower() in ("hr", "hour", "hours")):
            timefactor = 3600.0
            timegradunit = "hr"
        elif (str(timegradunit).lower() in ("m", "min", "minute", "minutes")):
            timefactor = 60.0
            timegradunit = "min"
        elif (str(timegradunit).lower() in ("s", "sec", "second", "seconds")):
            timefactor = 1.0
            timegradunit = "s"
        else:
            raise VisADException(
                "Requested time gradient unit is ambigious,use month,day,hour etc"
            )
        for i in range(grid.getDomainSet().getLength() - 1):
            newTimeValues.append((ts[i].getValue() + ts[i + 1].getValue()) / 2)
            prevtime = float(ts[i].getValue(CommonUnit.secondsSinceTheEpoch))
            nexttime = float(ts[i + 1].getValue(
                CommonUnit.secondsSinceTheEpoch))
            timediffs.append((nexttime - prevtime) / timefactor)
        newTimes = Gridded1DDoubleSet(RealType.Time, [newTimeValues],
                                      len(newTimeValues), None,
                                      ts.getSetUnits(), None)
        ddtgrid = FieldImpl(
            FunctionType(RealType.Time,
                         grid.getSample(0).getType()), newTimes)
        for i in range(grid.getDomainSet().getLength() - 1):
            diff = (grid.getSample(i + 1) - grid.getSample(i)).divide(
                Real(timediffs[i]))
            ddtgrid.setSample(i, diff)
        unitname = str(
            GridUtil.getParamType(grid).getComponent(0).getDefaultUnit())
        print("[" + unitname + "]/" + str(timegradunit))
        newunit = Util.parseUnit("(" + unitname + ")/" + str(timegradunit))
        newType = Util.makeRealType("ddt of " + getVarName(grid), newunit)
    else:
        raise VisADException(
            "Well, this data is not a time series, hard to do a time derivative!"
        )
    return GridUtil.setParamType(ddtgrid, newType, 0)
Ejemplo n.º 16
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def createTimeMeans(grid, meanType="None"):
    """ Create time mean of a grid at periods specified by type.
      meanType can be yearly, monthly, daily, hourly, minutes, seconds
  """
    from visad import Real
    from visad import Gridded1DDoubleSet
    from visad import FieldImpl
    from visad import FunctionType
    from visad import RealType
    from visad import VisADException

    if (str(meanType).lower() in ("year", "yr", "years", "yearly")):
        searchFormat = "yyyy"
    elif (str(meanType).lower() in ("mon", "month", "months", "monthly")):
        searchFormat = "MM"
    elif (str(meanType).lower() in ("day", "d", "days", "daily")):
        searchFormat = "dd"
    elif (str(meanType).lower() in ("hr", "hour", "hours", "hourly")):
        searchFormat = "hh"
    elif (str(meanType).lower()
          in ("m", "min", "minute", "minutes", "minutely")):
        searchFormat = "mm"
    elif (str(meanType).lower() in ("s", "sec", "second", "seconds")):
        searchFormat = "ss"
    else:
        raise VisADException(
            "Unrecognized time mean type, use yearly or monthly etc")
    alltimes = getSampleTimesInFormat(grid, searchFormat)
    timeSet = GridUtil.getTimeSet(grid)
    timeset = GridUtil.getTimeSet(grid).getSamples()[0]
    timevalues = [i for i in timeset]
    oldtime = alltimes[0]
    temptime = 0
    count = 0
    newtimelist = []
    for currt, tv, i in zip(alltimes, timevalues, range(len(alltimes))):
        #values are always accumulated next time
        if currt == oldtime:
            #takes care of multiple times,first time,last time
            temptime = temptime + tv
            count = count + 1
            if (i == (len(alltimes) - 1)):
                newtimeval = temptime / count
                newtimelist.append(newtimeval)
        else:
            #prev values are accumulated join to list
            newtimeval = temptime / count
            newtimelist.append(newtimeval)
            count = 1
            temptime = tv
            oldtime = currt
            if (i == (len(alltimes) - 1)):
                newtimelist.append(temptime)
    #create new time set
    newTimes = Gridded1DDoubleSet(RealType.Time,
                                  [newtimelist], len(newtimelist), None,
                                  timeSet.getSetUnits(), None)
    newdatalist = FieldImpl(
        FunctionType(RealType.Time,
                     grid.getSample(0).getType()), newTimes)
    timindices = range(len(newtimelist))
    oldtime = alltimes[0]
    tempdata = grid.getSample(0).multiply(Real(0.0))
    count = 0
    newind = 0
    for currt, i in zip(alltimes, range(len(alltimes))):
        #values are always accumulated next time
        if currt == oldtime:
            #takes care of multiple times,first time,last time
            tempdata = tempdata.add(grid.getSample(i))
            count = count + 1
            if (i == (len(alltimes) - 1)):
                newdatalist.setSample(newind, tempdata.divide(Real(count)))
                newind = newind + 1
        else:
            #prev values are accumulated join to list
            newdatalist.setSample(newind, tempdata.divide(Real(count)))
            newind = newind + 1
            count = 1
            tempdata = grid.getSample(i)
            oldtime = currt
            if (i == (len(alltimes) - 1)):
                newdatalist.setSample(newind, tempdata.divide(Real(count)))
    newParamName = "Time Mean " + str(
        Util.cleanTypeName(GridUtil.getParamType(grid)))
    return newName(newdatalist, newParamName)