def __init__(self, **kw):
"""Initialize.
Ideally called with constructor methods. Optional parameters include:
* year, month, day: year, month, day according to the calendar system.
* date: modified julian date
* gregorian: if true (the default), use the Gregorian calendar to
* convert year,month,day to a julian date.julian: if true, use the
* Julian calendar to convert year,month,day to a julian date.
"""
if 'calendar' in kw:
cal = kw['calendar']
else:
# default calendar: Gregorian
cal = GREGORIAN
if 'date' in kw:
self.date = kw['date']
else:
y = kw['year']
m = kw['month']
d = kw['day']
if cal == GREGORIAN:
self.date = int(jdcal.gcal2jd(y, m, d)[1])
elif cal == JULIAN:
self.date = int(jdcal.jcal2jd(y, m, d)[1])
else:
raise ValueError("Unknown calendar:{}".format(cal))
self.calendar = cal
self.sync_ymd()
def getJulian(self, gDate=None):
#
if gDate == None:
date = datetime.now()
else:
if gDate.find(" ") < 0:
date = datetime.strptime(gDate, "%m/%d/%Y")
else:
date = datetime.strptime(gDate, "%m/%d/%Y %H:%M:%S")
jTplDate = jdcal.jcal2jd(date.year, date.month, date.day)
return int(jTplDate[0] + jTplDate[1] +
float("0." + str(jTplDate[1]).split(".")[1]))
def test_jcal2jd_and_back_through_jd2jcal():
"""Check round trip from jcal2jd to jd2jcal."""
import random
n = 1000
year = [random.randint(-4699, 2200) for i in range(n)]
month = [random.randint(1, 12) for i in range(n)]
day = [random.randint(1, 28) for i in range(n)]
jd = [jcal2jd(y, m, d)[1] for y, m, d in zip(year, month, day)]
x = [jd2jcal(MJD_0, i) for i in jd]
for i in range(n):
assert x[i][0] == year[i]
assert x[i][1] == month[i]
assert x[i][2] == day[i]
assert x[i][3] <= 1e-15
def test_jcal2jd_and_back_through_jd2jcal():
"""Check round trip from jcal2jd to jd2jcal."""
import random
n = 1000
year = [random.randint(-4699, 2200) for i in range(n)]
month = [random.randint(1, 12) for i in range(n)]
day = [random.randint(1, 28) for i in range(n)]
jd = [jcal2jd(y, m, d)[1]
for y, m, d in zip(year, month, day)]
x = [jd2jcal(MJD_0, i) for i in jd]
for i in range(n):
assert x[i][0] == year[i]
assert x[i][1] == month[i]
assert x[i][2] == day[i]
assert x[i][3] <= 1e-15
def toJulianDay(year,month,day): jd=jcal2jd(year,month,day) jd2=jcal2jd(year,'1','1') jd=str(int(jd[1]-jd2[1]) + 1) return(jd)
def toJulianDay(year, month, day):
jd = jcal2jd(year, month, day)
jd2 = jcal2jd(year, '1', '1')
jd = str(int(jd[1] - jd2[1]) + 1)
return (jd)
year2, month2, day2 = endDate.split('-')
print year2, month2, day2
# MJD0 = jdcal.jcal2jd(year1,refMonth,refDay)[1]
# exit()
fpath = "/home/xuj/work/project/novaFloat/"
foutPath = "/home/xuj/work/project/novaFloat/output/"
fdataPath = "/home/xuj/work/project/novaFloat/data"
# dayStart = jdcal.jcal2jd(year1,month1,day1)[1]-MJD_JD2000+1
# dayEnd = jdcal.jcal2jd(year2,month2,day2)[1]-MJD_JD2000+1
dstart0, dayStart = jdcal.jcal2jd(year1, month1, day1)
dend0, dayEnd = jdcal.jcal2jd(year2, month2, day2)
# print dstart0,dayStart,dend0,dayEnd
# exit(1)
# daytime=[]
datenum = []
lat = []
lon = []
salinity = []
temperature = []
pressure = []
