def load_hydrograph(inputs):
# Load in discharge file as a list
DischargeFile = os.path.join(os.pardir,"Discharge_Files", inputs.DischargeFile)
Qlist = open(DischargeFile).readlines()
inputs.Qlist = map(lambda x: float(x), Qlist)
# Create a duration curve from the list for setting up equilibrium floodplain
# conditions and feed. Other parameters can be customized (see ExtractDC function).
Q = clsTimeSeries([],inputs.Qlist)
inputs.Qw, inputs.p = Q.CreateDurationCurve(inputs.HydroBins)
return inputs
def load_hydrograph(inputs):
# Load in discharge file as a list
# Comment these out for variable Q
#DischargeFile = os.path.join(os.pardir,"Discharge_Files", inputs.DischargeFile)
#Qlist = open(DischargeFile).readlines()
#inputs.Qlist = map(lambda x: float(x), Qlist)
# inputs.Qlist = inputs.Qlist[395:]
# Create a duration curve from the list for setting up equilibrium floodplain
# conditions and feed. Other parameters can be customized (see ExtractDC function).
#wholeQ = open(os.path.join(os.pardir, 'Discharge_Files', inputs.DischargeFile)).readlines()
wholeQ = open(
os.path.join(os.pardir, 'Discharge_Files',
inputs.DischargeFile)).readlines()
wholeQ = map(lambda x: float(x), wholeQ)
Q = clsTimeSeries([], wholeQ)
inputs.Qw, inputs.p = Q.CreateDurationCurve(inputs.HydroBins)
return inputs
def load_hydrographs(inputs):
#Initialize lists
inputs.Qlist = []
inputs.Qw = []
inputs.p = []
for f in inputs.DischargeFiles:
# Load discharge files as a lists
DischargeFile = os.path.join(os.pardir, "Discharge_Files", f)
print(DischargeFile)
Qlist = open(DischargeFile).readlines()
Qlist = list(map(lambda x: float(x), Qlist))
binsize = (max(Qlist) - min(Qlist)) / inputs.NumberofHydroBins
print('binsize = %s' % (binsize))
# Create a duration curve from the list for setting up equilibrium floodplain
# conditions and feed. Other parameters can be customized (see ExtractDC function).
Q = clsTimeSeries([], Qlist)
Qw, p = Q.CreateDurationCurve(binsize)
print('number of bins made = %s' % len(Qw))
inputs.Qlist.append(Qlist)
inputs.Qw.append(Qw)
inputs.p.append(p)
return inputs
