makegefs850windcsv.py

#!/bin/usr/env python
import pygrib
import csv
import datetime
import ncepy
import numpy as np
import matplotlib
import math
import subprocess
matplotlib.use('Agg')
import matplotlib.pyplot as plt
from scipy import interpolate
import sys
ymdh = str(sys.argv[1])

#station info arrays
slist=[]
slats=[]
slons=[]
with open('gfsxstations.txt','r') as f:
  for row in f:
    x=row.split(',')
    slist.append(x[0])
    slats.append(float(x[1]))
    slons.append(float(x[2]))
#column headers
members=['time','date','c00','p01','p02','p03','p04','p05','p06','p07','p08','p09','p10','p11','p12','p13','p14','p15','p16','p17','p18','p19','p20','p21','p22','p23','p24','p25','p26','p27','p28','p29','p30','GFS']
closest=0  #starting range of forecast hour
furthest=195 #3 hours more than the actual ending forecast hour you want
ymd=ymdh[0:8]
year=int(ymdh[0:4])
month=int(ymdh[4:6])
day=int(ymdh[6:8])
hour=int(ymdh[8:10])
print(year, month , day, hour)
dtime=datetime.datetime(year,month,day,hour,0)
date_list = [dtime + datetime.timedelta(hours=x) for x in range(closest,furthest,3)]
fhours1=list(range(closest,furthest,3))

#array that gets written to csv. Everything will be put in it 
nmbtotal=np.empty((len(slist),len(fhours1),len(members)+1),dtype='object')
print(nmbtotal.shape)


for i in range(len(members)):
  print(members[i])
  ptotal=0
  #do different things for different columns and forecast hours
  for j in range(len(fhours1)):
    if i==0:
      nmbtotal[:,j,i]=fhours1[j]
    elif i==1:
      nmbtotal[:,j,i]=date_list[j].strftime("%m-%d-%Y:%H")
    elif i>1 and members[i]!='GFS':
      grbs = pygrib.open('/gpfs/dell4/nco/ops/com/gefs/prod/gefs.'+str(ymd)+'/'+str(hour).zfill(2)+'/atmos/pgrb2ap5/ge'+members[i]+'.t'+str(hour).zfill(2)+'z.pgrb2a.0p50.f'+str(fhours1[j]).zfill(3))
      print('/gpfs/dell4/nco/ops/com/gefs/prod/gefs.'+str(ymd)+'/'+str(hour).zfill(2)+'/atmos/pgrb2ap5/ge'+members[i]+'.t'+str(hour).zfill(2)+'z.pgrb2a.0p50.f'+str(fhours1[j]).zfill(3))

      #grib message order changes from f00 to f03 to f06
      if j==0:
        uwind=grbs[45].values*1.94
        vwind=grbs[46].values*1.94
        precip=(uwind**2+vwind**2)**.5
        precip=np.asarray(precip[::-1,:])
      elif j==1:
        uwind=grbs[45].values*1.94
        vwind=grbs[46].values*1.94
        precip=(uwind**2+vwind**2)**.5
        precip=np.asarray(precip[::-1,:])
      else:
        #for grb in grbs:
        uwind=grbs[45].values*1.94
        vwind=grbs[46].values*1.94
        precip=(uwind**2+vwind**2)**.5
        precip=np.asarray(precip[::-1,:])
      lats,lons = grbs[31].latlons()
      latlist=lats[::-1,0]
      lonlist=lons[0,:]
      lonlist=np.asarray(lonlist)
      latlist=np.asarray(latlist)
 
      #create interpolation function
      f=interpolate.interp2d(lonlist,latlist,precip,kind='linear')
      for k in range(len(slats)):
        znew=np.round(f((360+slons[k]),slats[k]),3)
        nmbtotal[k,j,i]=znew

    #get GFS data
    else:
      grbs = pygrib.open('/gpfs/dell1/nco/ops/com/gfs/prod/gfs.'+str(ymd)+'/'+str(hour).zfill(2)+'/atmos/gfs.t'+str(hour).zfill(2)+'z.pgrb2.0p50.f' +str(fhours1[j]).zfill(3))
      for grb in grbs:
        print(grb)
      if j==0:
        uwind=grbs[468].values*1.94
        vwind=grbs[469].values*1.94
        precip=(uwind**2+vwind**2)**.5
        precip=np.asarray(precip[::-1,:])
      elif j==1:
        uwind=grbs[468].values*1.94
        vwind=grbs[469].values*1.94
        precip=(uwind**2+vwind**2)**.5
        precip=np.asarray(precip[::-1,:])
      else:
        uwind=grbs[468].values*1.94
        vwind=grbs[469].values*1.94
        precip=(uwind**2+vwind**2)**.5
        precip=np.asarray(precip[::-1,:])
      lats,lons = grbs[31].latlons()
      latlist=lats[::-1,0]
      lonlist=lons[0,:]
      lonlist=np.asarray(lonlist)
      latlist=np.asarray(latlist)
      f=interpolate.interp2d(lonlist,latlist,precip,kind='linear')
      for k in range(len(slats)):
        znew=np.round(f((360+slons[k]),slats[k]),3)
        nmbtotal[k,j,34]=znew

#compute mean
for k in range(len(slats)):
  for j in range(len(fhours1)):
    nmbtotal[k,j,33]=np.round(np.sum(nmbtotal[k,j,2:33])/31.0,3)

#write csv files
for k in range(len(slats)):
  f = open("GEFS"+slist[k]+ymdh+"850wind.csv","wt")
  try:
    writer = csv.writer(f)
    writer.writerow(('time','date','c0','p1','p2','p3','p4','p5','p6','p7','p8','p9','p10','p11','p12','p13','p14','p15','p16','p17','p18','p19','p20','p21','p22','p23','p24','p25','p26','p27','p28','p29','p30','mean','GFS'))
    for i in range(nmbtotal.shape[1]):
      writer.writerow((str(m).replace("[","")).replace("]","") for m in nmbtotal[k,i,:])
  finally:
    f.close()