Beautify with yapf

master
Dan Howe 5 years ago
parent 7d618e9d2f
commit 11c8aaf190

@ -25,237 +25,240 @@ from pylab import *
#
# the harmonics included below in the python code were provided directly to WRL from BOM.
harm = {}
speed = 0
amp = 1
lag = 2
harm={}
speed=0
amp=1
lag=2
def readlinenocomm(F):
l=F.readline()
while l[0]=='#':
l=F.readline()
l = F.readline()
while l[0] == '#':
l = F.readline()
return l
#
H=open("HARMONIC","r")
l=readlinenocomm(H)
numconstits=int(l)
H = open("HARMONIC", "r")
l = readlinenocomm(H)
numconstits = int(l)
print("Number of Constituents = ",numconstits)
print("Number of Constituents = ", numconstits)
# Read in the constituent speeds
constitspeed={}
i=0
while i<numconstits:
l=readlinenocomm(H)
ll=l.split()
constitspeed[ll[0]]=float(ll[1])
i=i+1
constitspeed = {}
i = 0
while i < numconstits:
l = readlinenocomm(H)
ll = l.split()
constitspeed[ll[0]] = float(ll[1])
i = i + 1
l=readlinenocomm(H)
sy=int(l)
l=readlinenocomm(H)
numyears=int(l)
l = readlinenocomm(H)
sy = int(l)
l = readlinenocomm(H)
numyears = int(l)
# Read in the equalibrium arguements
equalibrium_arg={}
i=0
while i<numconstits:
l=readlinenocomm(H)
ll=l.split()
constit=ll[0]
v=[]
j=0
while j<=numyears/10:
l=readlinenocomm(H)
ll=l.split()
equalibrium_arg = {}
i = 0
while i < numconstits:
l = readlinenocomm(H)
ll = l.split()
constit = ll[0]
v = []
j = 0
while j <= numyears / 10:
l = readlinenocomm(H)
ll = l.split()
for lll in ll:
v.append(float(lll))
j=j+1
equalibrium_arg[constit]=v
i=i+1
j = j + 1
equalibrium_arg[constit] = v
i = i + 1
l=readlinenocomm(H)
if l[0:5]!='*END*':
print("Error, expected end after eq args. Got: ",l)
l = readlinenocomm(H)
if l[0:5] != '*END*':
print("Error, expected end after eq args. Got: ", l)
# Read in the node factors
l=readlinenocomm(H)
numyears=int(l)
l = readlinenocomm(H)
numyears = int(l)
node_factor={}
i=0
while i<numconstits:
l=readlinenocomm(H)
ll=l.split()
constit=ll[0]
v=[]
j=0
while j<=numyears/10:
l=readlinenocomm(H)
ll=l.split()
node_factor = {}
i = 0
while i < numconstits:
l = readlinenocomm(H)
ll = l.split()
constit = ll[0]
v = []
j = 0
while j <= numyears / 10:
l = readlinenocomm(H)
ll = l.split()
for lll in ll:
v.append(float(lll))
j=j+1
node_factor[constit]=v
i=i+1
j = j + 1
node_factor[constit] = v
i = i + 1
l=readlinenocomm(H)
if l[0:5]!='*END*':
print("Error, expected end after node factors. Got: ",l)
l = readlinenocomm(H)
if l[0:5] != '*END*':
print("Error, expected end after node factors. Got: ", l)
harm['sa']=[0.0410686,0.04,44.3373]
harm['ssa']=[0.0821373,0.0233,140.8642]
harm['Mm']=[0.5443747,0.0022,163.3925]
harm['MSF']=[1.0158958,0.0019,73.4003]
harm['MF']=[1.0980331,0.0025,203.8471]
harm['2Q1']=[12.8542862,0.0036,9.8664]
harm['SIGMA1']=[12.9271398,0.0043,16.6066]
harm['Q1']=[13.3986609,0.023,52.3723]
harm['RHO1']=[13.4715145,0.0043,55.9113]
harm['O1']=[13.9430356,0.0963,79.6431]
harm['MP1']=[14.0251729,0.001,45.9175]
harm['M1']=[14.4920521,0.0044,99.5325]
harm['CHI1']=[14.5695476,0.0013,102.4847]
harm['PI1']=[14.9178647,0.0028,125.9361]
harm['P1']=[14.9589314,0.0439,115.4037]
harm['S1']=[15,0.0033,129.8967]
harm['K1']=[15.0410686,0.148,119.6599]
harm['PSI1']=[15.0821353,0.002,11.0025]
harm['PHI1']=[15.1232059,0.0015,103.8567]
harm['THETA1']=[15.5125897,0.0017,137.3796]
harm['J1']=[15.5854433,0.0096,142.7051]
harm['SO1']=[16.0569644,0.0017,173.2765]
harm['OO1']=[16.1391017,0.0062,180.0375]
harm['OQ2']=[27.3416964,0.0006,75.4143]
harm['MNS2']=[27.4238337,0.0061,193.1893]
harm['2N2']=[27.8953548,0.0205,199.6233]
harm['MEU2']=[27.9682084,0.021,212.8684]
harm['N2']=[28.4397295,0.1127,223.5144]
harm['NEU2']=[28.5125831,0.0206,223.5377]
harm['OP2']=[28.9019669,0.0024,128.4082]
harm['M2']=[28.9841042,0.5022,237.061]
harm['MKS2']=[29.0662415,0.0014,313.3572]
harm['LAMDA2']=[29.4556253,0.0058,224.4572]
harm['L2']=[29.5284789,0.0135,243.1576]
harm['T2']=[29.9589333,0.0073,281.2802]
harm['S2']=[30,0.1247,260.7625]
harm['R2']=[30.0410667,0.0022,206.1633]
harm['K2']=[30.0821373,0.0373,250.3219]
harm['MSN2']=[30.5443747,0.0016,124.387]
harm['KJ2']=[30.626512,0.0023,62.9849]
harm['2SM2']=[31.0158958,0.0019,145.4123]
harm['MO3']=[42.9271398,0.0004,148.654]
harm['M3']=[43.4761563,0.0023,327.537]
harm['SO3']=[43.9430356,0.0002,307.6915]
harm['MK3']=[44.0251729,0.0005,248.2678]
harm['SK3']=[45.0410686,0.0016,113.2852]
harm['MN4']=[57.4238337,0.001,90.6269]
harm['M4']=[57.9682084,0.0031,114.2894]
harm['SN4']=[58.4397295,0.0003,103.5135]
harm['MS4']=[58.9841042,0.0014,183.7788]
harm['MK4']=[59.0662415,0.0004,196.3685]
harm['S4']=[60,0.0006,299.9646]
harm['SK4']=[60.0821373,0.0002,45.1703]
harm['2MN6']=[86.407938,0.0009,6.8059]
harm['M6']=[86.9523127,0.002,52.2368]
harm['MSN6']=[87.4238337,0.0007,64.4301]
harm['2MS6']=[87.9682084,0.0025,114.6867]
harm['2MK6']=[88.0503457,0.0007,131.372]
harm['2SM6']=[88.9841042,0.0003,157.8974]
harm['MSK6']=[89.0662415,0.0003,204.7339]
harm['2MN2S2']=[26.4079379,0.0003,1.3443]
harm['3M(SK)2']=[26.8701753,0.0005,3.6145]
harm['3M2S2']=[26.9523127,0.0008,78.7665]
harm['MNK2S2']=[27.505971,0.0001,225.556]
harm['SNK2']=[28.3575922,0.0003,218.9001]
harm['2SK2']=[29.9178627,0.0011,321.0943]
harm['MQ3']=[42.3827651,0.0004,43.8537]
harm['2MP3']=[43.009277,0.0001,134.0684]
harm['2MQ3']=[44.5695475,0.0001,329.7593]
harm['3MK4']=[56.8701754,0,39.731]
harm['3MS4']=[56.9523127,0.0001,97.9154]
harm['2MSK4']=[57.8860711,0.0002,283.9222]
harm['3MK5']=[71.9112441,0.0002,182.3575]
harm['M5']=[72.4602605,0,24.2117]
harm['3MO5']=[73.0092771,0.0005,264.7303]
harm['2(MN)S6']=[84.8476674,0,129.7631]
harm['3MNS6']=[85.3920422,0.0001,260.1927]
harm['4MK6']=[85.8542795,0.0001,332.2482]
harm['4MS6']=[85.9364168,0.0001,249.9087]
harm['2MSNK6']=[86.3258006,0,280.3885]
harm['2MNU6']=[86.4807915,0.0003,28.4884]
harm['3MSK6']=[86.8701754,0.0001,222.0912]
harm['4MN6']=[87.4966873,0.0003,292.3403]
harm['3MSN6']=[88.5125832,0.0006,338.3166]
harm['MKL6']=[88.5947204,0.0001,176.1921]
harm['2MN8']=[114.8476674,0.0001,219.9735]
harm['3MN8']=[115.3920422,0.0002,245.3801]
harm['M8']=[115.9364168,0.0002,284.0175]
harm['2MSN8']=[116.4079379,0.0002,203.8838]
harm['3MS8']=[116.9523127,0.0001,280.466]
harm['3MK8']=[117.03445,0.0001,286.3325]
harm['MSNK8']=[117.505971,0,219.0404]
harm['2MS8']=[117.9682084,0.0002,188.3974]
harm['2MSK8']=[118.0503457,0.0001,195.8549]
harm['4MS10']=[145.9364168,0.0002,293.7057]
harm['3M2S10']=[146.9523127,0.0002,307.5005]
harm['4MSN12']=[174.3761463,0.0001,110.9933]
harm['5MS12']=[174.920521,0,180.6601]
harm['4M2S12']=[175.9364168,0,108.791]
harm['SP3']=[44.9589314,0.0019,112.6443]
harm['S3']=[45,0.0012,23.4633]
harm['MA2']=[28.9430375,0.0039,117.2716]
harm['Ma2']=[29.0251709,0.0027,150.6304]
harm['MSV2']=[30.4715211,0,98.718]
harm['SKM2']=[31.0980331,0.0008,156.4092]
harm['2MNS4']=[56.407938,0.0001,26.7109]
harm['MV4']=[57.4966873,0.0003,94.1175]
harm['3MN4']=[58.5125832,0.0003,339.4208]
harm['2MSN4']=[59.5284789,0.0001,264.4342]
harm['NA2']=[28.3986628,0.0004,16.9727]
harm['MSO5']=[72.9271398,0.0001,247.7639]
harm['MSK5']=[74.0251729,0.0002,189.3859]
harm['sa'] = [0.0410686, 0.04, 44.3373]
harm['ssa'] = [0.0821373, 0.0233, 140.8642]
harm['Mm'] = [0.5443747, 0.0022, 163.3925]
harm['MSF'] = [1.0158958, 0.0019, 73.4003]
harm['MF'] = [1.0980331, 0.0025, 203.8471]
harm['2Q1'] = [12.8542862, 0.0036, 9.8664]
harm['SIGMA1'] = [12.9271398, 0.0043, 16.6066]
harm['Q1'] = [13.3986609, 0.023, 52.3723]
harm['RHO1'] = [13.4715145, 0.0043, 55.9113]
harm['O1'] = [13.9430356, 0.0963, 79.6431]
harm['MP1'] = [14.0251729, 0.001, 45.9175]
harm['M1'] = [14.4920521, 0.0044, 99.5325]
harm['CHI1'] = [14.5695476, 0.0013, 102.4847]
harm['PI1'] = [14.9178647, 0.0028, 125.9361]
harm['P1'] = [14.9589314, 0.0439, 115.4037]
harm['S1'] = [15, 0.0033, 129.8967]
harm['K1'] = [15.0410686, 0.148, 119.6599]
harm['PSI1'] = [15.0821353, 0.002, 11.0025]
harm['PHI1'] = [15.1232059, 0.0015, 103.8567]
harm['THETA1'] = [15.5125897, 0.0017, 137.3796]
harm['J1'] = [15.5854433, 0.0096, 142.7051]
harm['SO1'] = [16.0569644, 0.0017, 173.2765]
harm['OO1'] = [16.1391017, 0.0062, 180.0375]
harm['OQ2'] = [27.3416964, 0.0006, 75.4143]
harm['MNS2'] = [27.4238337, 0.0061, 193.1893]
harm['2N2'] = [27.8953548, 0.0205, 199.6233]
harm['MEU2'] = [27.9682084, 0.021, 212.8684]
harm['N2'] = [28.4397295, 0.1127, 223.5144]
harm['NEU2'] = [28.5125831, 0.0206, 223.5377]
harm['OP2'] = [28.9019669, 0.0024, 128.4082]
harm['M2'] = [28.9841042, 0.5022, 237.061]
harm['MKS2'] = [29.0662415, 0.0014, 313.3572]
harm['LAMDA2'] = [29.4556253, 0.0058, 224.4572]
harm['L2'] = [29.5284789, 0.0135, 243.1576]
harm['T2'] = [29.9589333, 0.0073, 281.2802]
harm['S2'] = [30, 0.1247, 260.7625]
harm['R2'] = [30.0410667, 0.0022, 206.1633]
harm['K2'] = [30.0821373, 0.0373, 250.3219]
harm['MSN2'] = [30.5443747, 0.0016, 124.387]
harm['KJ2'] = [30.626512, 0.0023, 62.9849]
harm['2SM2'] = [31.0158958, 0.0019, 145.4123]
harm['MO3'] = [42.9271398, 0.0004, 148.654]
harm['M3'] = [43.4761563, 0.0023, 327.537]
harm['SO3'] = [43.9430356, 0.0002, 307.6915]
harm['MK3'] = [44.0251729, 0.0005, 248.2678]
harm['SK3'] = [45.0410686, 0.0016, 113.2852]
harm['MN4'] = [57.4238337, 0.001, 90.6269]
harm['M4'] = [57.9682084, 0.0031, 114.2894]
harm['SN4'] = [58.4397295, 0.0003, 103.5135]
harm['MS4'] = [58.9841042, 0.0014, 183.7788]
harm['MK4'] = [59.0662415, 0.0004, 196.3685]
harm['S4'] = [60, 0.0006, 299.9646]
harm['SK4'] = [60.0821373, 0.0002, 45.1703]
harm['2MN6'] = [86.407938, 0.0009, 6.8059]
harm['M6'] = [86.9523127, 0.002, 52.2368]
harm['MSN6'] = [87.4238337, 0.0007, 64.4301]
harm['2MS6'] = [87.9682084, 0.0025, 114.6867]
harm['2MK6'] = [88.0503457, 0.0007, 131.372]
harm['2SM6'] = [88.9841042, 0.0003, 157.8974]
harm['MSK6'] = [89.0662415, 0.0003, 204.7339]
harm['2MN2S2'] = [26.4079379, 0.0003, 1.3443]
harm['3M(SK)2'] = [26.8701753, 0.0005, 3.6145]
harm['3M2S2'] = [26.9523127, 0.0008, 78.7665]
harm['MNK2S2'] = [27.505971, 0.0001, 225.556]
harm['SNK2'] = [28.3575922, 0.0003, 218.9001]
harm['2SK2'] = [29.9178627, 0.0011, 321.0943]
harm['MQ3'] = [42.3827651, 0.0004, 43.8537]
harm['2MP3'] = [43.009277, 0.0001, 134.0684]
harm['2MQ3'] = [44.5695475, 0.0001, 329.7593]
harm['3MK4'] = [56.8701754, 0, 39.731]
harm['3MS4'] = [56.9523127, 0.0001, 97.9154]
harm['2MSK4'] = [57.8860711, 0.0002, 283.9222]
harm['3MK5'] = [71.9112441, 0.0002, 182.3575]
harm['M5'] = [72.4602605, 0, 24.2117]
harm['3MO5'] = [73.0092771, 0.0005, 264.7303]
harm['2(MN)S6'] = [84.8476674, 0, 129.7631]
harm['3MNS6'] = [85.3920422, 0.0001, 260.1927]
harm['4MK6'] = [85.8542795, 0.0001, 332.2482]
harm['4MS6'] = [85.9364168, 0.0001, 249.9087]
harm['2MSNK6'] = [86.3258006, 0, 280.3885]
harm['2MNU6'] = [86.4807915, 0.0003, 28.4884]
harm['3MSK6'] = [86.8701754, 0.0001, 222.0912]
harm['4MN6'] = [87.4966873, 0.0003, 292.3403]
harm['3MSN6'] = [88.5125832, 0.0006, 338.3166]
harm['MKL6'] = [88.5947204, 0.0001, 176.1921]
harm['2MN8'] = [114.8476674, 0.0001, 219.9735]
harm['3MN8'] = [115.3920422, 0.0002, 245.3801]
harm['M8'] = [115.9364168, 0.0002, 284.0175]
harm['2MSN8'] = [116.4079379, 0.0002, 203.8838]
harm['3MS8'] = [116.9523127, 0.0001, 280.466]
harm['3MK8'] = [117.03445, 0.0001, 286.3325]
harm['MSNK8'] = [117.505971, 0, 219.0404]
harm['2MS8'] = [117.9682084, 0.0002, 188.3974]
harm['2MSK8'] = [118.0503457, 0.0001, 195.8549]
harm['4MS10'] = [145.9364168, 0.0002, 293.7057]
harm['3M2S10'] = [146.9523127, 0.0002, 307.5005]
harm['4MSN12'] = [174.3761463, 0.0001, 110.9933]
harm['5MS12'] = [174.920521, 0, 180.6601]
harm['4M2S12'] = [175.9364168, 0, 108.791]
harm['SP3'] = [44.9589314, 0.0019, 112.6443]
harm['S3'] = [45, 0.0012, 23.4633]
harm['MA2'] = [28.9430375, 0.0039, 117.2716]
harm['Ma2'] = [29.0251709, 0.0027, 150.6304]
harm['MSV2'] = [30.4715211, 0, 98.718]
harm['SKM2'] = [31.0980331, 0.0008, 156.4092]
harm['2MNS4'] = [56.407938, 0.0001, 26.7109]
harm['MV4'] = [57.4966873, 0.0003, 94.1175]
harm['3MN4'] = [58.5125832, 0.0003, 339.4208]
harm['2MSN4'] = [59.5284789, 0.0001, 264.4342]
harm['NA2'] = [28.3986628, 0.0004, 16.9727]
harm['MSO5'] = [72.9271398, 0.0001, 247.7639]
harm['MSK5'] = [74.0251729, 0.0002, 189.3859]
MSL=0.9952
MSL = 0.9952
# Now do the maths
start_time=datetime.datetime(2019,11,29,0,0,0)
end_time=datetime.datetime(2019,12,5,0,0,0)
start_time = datetime.datetime(2019, 11, 29, 0, 0, 0)
end_time = datetime.datetime(2019, 12, 5, 0, 0, 0)
time_step=datetime.timedelta(minutes=15)
time_step = datetime.timedelta(minutes=15)
x=[]
y=[]
F=open("tide.out","w")
t=start_time
while (t<end_time):
offset = t - datetime.datetime(t.year,1,1,0,0,0)
yr=t.year-sy
t1=(offset.days) * 24.0 + offset.seconds / 3600.0
z=MSL
x = []
y = []
F = open("tide.out", "w")
t = start_time
while (t < end_time):
offset = t - datetime.datetime(t.year, 1, 1, 0, 0, 0)
yr = t.year - sy
t1 = (offset.days) * 24.0 + offset.seconds / 3600.0
z = MSL
for constit in harm.keys():
if constit in node_factor:
nf=node_factor[constit][yr]
ea=equalibrium_arg[constit][yr]
nf = node_factor[constit][yr]
ea = equalibrium_arg[constit][yr]
else:
nf=1.0
ea=0.0
z=z+nf*harm[constit][amp]*math.cos((harm[constit][speed]*t1 + ea - harm[constit][lag]) * (2*3.1415927 / 360.0))
nf = 1.0
ea = 0.0
z = z + nf * harm[constit][amp] * math.cos(
(harm[constit][speed] * t1 + ea - harm[constit][lag]) *
(2 * 3.1415927 / 360.0))
# print t,z
F.write("%s,%s\n" % (t,z))
F.write("%s,%s\n" % (t, z))
x.append(t)
y.append(z)
t=t+time_step
t = t + time_step
F.close
plt.figure()
plot(x,y,c='g',label='Sample')
plot(x, y, c='g', label='Sample')
plt.gcf().autofmt_xdate()
show()

Loading…
Cancel
Save