示例#1
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    def load(self):
        self.data = {}
        for ind, ncfile in enumerate(self.files_path):
            print("Working on {0}").format(ncfile)

            df = EcoFOCI_netCDF(ncfile)
            df.get_global_atts()
            vars_dic = df.get_vars()
            if self.plot_var in vars_dic:
                ncdata = df.ncreadfile_dic()
                df.close()
                ncdata[self.plot_var][np.where(
                    ncdata[self.plot_var] > 1e34)] = np.nan
            else:
                continue

            self.ncdata = ncdata  #only save last file
            self.data[self.pointer_dic['nominal_depth'][ind]] = {
                'data': ncdata[self.plot_var][:, 0, 0, 0],
                'time': EPIC2Datetime(ncdata['time'], ncdata['time2'])
            }
示例#2
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                    metavar='sourcefile',
                    type=str,
                    help='complete path to netcdf file')
parser.add_argument('-m360',
                    '--m360',
                    action="store_true",
                    help='make range 0-360')

args = parser.parse_args()

###nc readin
ncfile = args.sourcefile
df = EcoFOCI_netCDF(ncfile)
global_atts = df.get_global_atts()
vars_dic = df.get_vars()
data = df.ncreadfile_dic()

if 'lon' in df.variables.keys():
    if args.m360:
        df.variables['lon'][:] = -1. * df.variables['lon'][:] + 360
    else:
        df.variables['lon'][:] = -1. * df.variables['lon'][:]
    vars_dic['lon'].units = 'degree_east'
elif 'longitude' in df.variables.keys():
    if args.m360:
        df.variables['longitude'][:] = -1. * df.variables['longitude'][:] + 360
    else:
        df.variables['longitude'][:] = -1. * df.variables['longitude'][:]
    vars_dic['longitude'].units = 'degree_east'
else:
    print("Longitude variable not found")
示例#3
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if args.multi:

    ### cycle through all files, retrieve data and plot
    print files_path
    writer = pd.ExcelWriter('data/' + MooringID + '_' + plot_var + '.xlsx',
                            engine='xlsxwriter',
                            datetime_format='YYYY-MM-DD HH:MM:SS')
    label_thin = []
    for ind, ncfile in enumerate(files_path):
        print "Working on {activefile}".format(activefile=ncfile)

        #open/read netcdf files
        df = EcoFOCI_netCDF(ncfile)
        global_atts = df.get_global_atts()
        vars_dic = df.get_vars()
        ncdata = df.ncreadfile_dic()
        df.close()

        nctime = EPIC2Datetime(ncdata['time'], ncdata['time2'])

        #find and replace missing values with nans so they don't plot
        try:
            ncdata[plot_var][np.where(ncdata[plot_var] > 1e30)] = np.nan
            try:
                label_thin = label_thin + [label[ind]]
            except TypeError:
                label_thin = label_thin + ['']

        except KeyError:
            pass
示例#4
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                    nargs=2,
                    type=float,
                    help='fixed temperature scale (min max)')
parser.add_argument(
    '-timebounds',
    '--timebounds',
    nargs=3,
    type=str,
    help='fixed timebounds start: yyyy-mm-dd end: yyyy-mm-dd "month"')

args = parser.parse_args()

print "Working on file %s " % args.DataPath

nc = EcoFOCI_netCDF(args.DataPath)
ncdata = nc.ncreadfile_dic()
g_atts = nc.get_global_atts()
nc.close()

cast_time = EPIC2Datetime(ncdata['time'], ncdata['time2'])
doy = np.array([x.timetuple().tm_yday for x in cast_time])

p1 = TimeseriesPorpertyPropertyPlot()
try:
    t1 = p1.add_title(mooringid=global_atts['MOORING'],
                      lat=ncdata['lat'][0],
                      lon=ncdata['lon'][0],
                      depth=ncdata['depth'][0],
                      instrument=args.instname)
except KeyError:
    t1 = p1.add_title(mooringid=global_atts['MOORING'],
示例#5
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import numpy as np

import gsw

from io_utils.EcoFOCI_netCDF_read import EcoFOCI_netCDF

#godas is a function of time, depth, lat, lon (12, 40, 418, 360)

godas_ptemp = '/Volumes/WDC_internal/Users/bell/Data_Local/Reanalysis_Files/GODAS/pottmp.1980.nc'
godas_sal = '/Volumes/WDC_internal/Users/bell/Data_Local/Reanalysis_Files/GODAS/salt.1980.nc'

#GODAS PTEMP
df = EcoFOCI_netCDF(godas_ptemp)
global_atts = df.get_global_atts()
vars_dic = df.get_vars()
gd_ptmp = df.ncreadfile_dic()
df.close()

#GODAS SAL
df = EcoFOCI_netCDF(godas_sal)
global_atts = df.get_global_atts()
vars_dic = df.get_vars()
gd_sal = df.ncreadfile_dic()
df.close()

#ABS Sal f(sal, pres, lat, lon)
#pressure needs to be determined from depth

ABS_SA = np.ones_like(gd_sal['salt'])
CONS_T = np.ones_like(gd_sal['salt'])
for time_ind, month in enumerate(gd_sal['time']):
示例#6
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        help='output non-epic formatted netcdf as csv')
parser.add_argument("-is_whoi","--is_whoi", action="store_true",
        help='flag if is directly from WHOI')
parser.add_argument("-plots","--plots", action="store_true",
        help='generate plots')
args = parser.parse_args()



###nc readin/out
file1 = '/Volumes/WDC_internal/Users/bell/ecoraid/2016/Additional_FieldData/ArcticHeat/AlamoFloats/netcdf/arctic_heat_alamo_profiles_9058_9f75_d5e5_f5f9.nc'
df = EcoFOCI_netCDF(file1)
global_atts = df.get_global_atts()
vars_dic = df.get_vars()
dims = df.get_dims()
data0 = df.ncreadfile_dic()
df.close()

file2 = '/Volumes/WDC_internal/Users/bell/ecoraid/2016/Additional_FieldData/ArcticHeat/AlamoFloats/netcdf/arctic_heat_alamo_profiles_9115_bb97_cc7e_a9c0.nc'
df = EcoFOCI_netCDF(file2)
global_atts = df.get_global_atts()
vars_dic = df.get_vars()
dims = df.get_dims()
data1 = df.ncreadfile_dic()

if args.is_whoi:
    timestr = 'days since 1950-01-01T00:00:00Z'
else:
    timestr = 'seconds since 1970-01-01'

skipped_vars = ['STATION_PARAMETERS','FLOAT_SERIAL_NO',