def ahurst(settings, signal, data):
object = wla.toolbox()
transtype = settings.transtype
l = settings.l
type = settings.type
refl = settings.refl
j_0 = settings.j_0
j_min = settings.j_min
j_max = settings.j_max#Must set j_0 wvar needs this
bias = settings.bias
p = settings.p
n = len(signal.e1) #Assume same length of all epochs!!!!
print l, type, refl, j_0, j_min, j_max, bias, p, n
for i in range(0,j_0):
data.y1.append(0)
data.y2.append(0)
data.y3.append(0)
for j in range (0, j_0):
data.y_hat1.append(0)
data.y_hat2.append(0)
data.y_hat3.append(0)
for k in range(0,2*j_0):
data.ci1.append(0)
data.ci2.append(0)
data.ci3.append(0)
#e4 = list_to_array(data.e4)
e1 = list_to_array(signal.e1)
e2 = list_to_array(signal.e2)
e3 = list_to_array(signal.e3)
y1 = list_to_array(data.y1)
y2 = list_to_array(data.y2)
y3 = list_to_array(data.y3)
#y4 = list_to_array(data.y4)
y_hat1 = list_to_array(data.y_hat1)
y_hat2 = list_to_array(data.y_hat2)
y_hat3 = list_to_array(data.y_hat3)
#wvar4 = list_to_array(data.y_hat4)
ci1 = list_to_array(data.ci1)
ci2 = list_to_array(data.ci2)
ci3 = list_to_array(data.ci3)
#ci4 = list_to_array(data.ci4)
out1 = list_to_array(data.out1)
out2 = list_to_array(data.out2)
out3 = list_to_array(data.out3)
#out4 = list_to_array(data.out4)
#if settings.filetype is 1:
#object.ahurst(transtype, l, type, bias, refl, n, j_0, j_min, j_max, p, e1, y1, y_hat1, ci1, out1)#What about j_0???
#object.ahurst(transtype, l, type, bias, refl, n, j_0, j_min, j_max, p, e2, y2, y_hat2, ci2, out2)
#object.ahurst(transtype, l, type, bias, refl, n, j_0, j_min, j_max, p, e3, y3, y_hat3, ci3, out3)
#if settings.filetype is 0:
# object.ahurst(transtype, l, type, bias, refl, n, j_min, j_max, p, e4, y4, wvar4, out4)#Error with wvar
for i in range(0,3):
data.out1[i] = carray_get(out1,i)
data.out2[i] = carray_get(out2,i)
data.out3[i] = carray_get(out3,i)
def wa(settings, signal, data):
object = wla.toolbox()
transtype = settings.transtype
l = settings.l
type = settings.type
refl = settings.refl
j_0 = settings.j_0
n = len(signal.etime) #Assume constant length!!
print transtype, l, type, refl, j_0, n
for i in range(0, 2*(j_0+1)):
data.boundaries.append(0)
e1 = list_to_array(signal.signal)
e2 = list_to_array(signal.e2)
e3 = list_to_array(signal.e3)
boundaries = list_to_array(data.boundaries)
wv1 = new_cmatrix(j_0+1,n)
wv2 = new_cmatrix(j_0+1,n)
wv3 = new_cmatrix(j_0+1,n)
object.wa(transtype, l, type, refl, j_0, n, boundaries, e1, wv1)
object.wa(transtype, l, type, refl, j_0, n, boundaries, e2, wv2)
object.wa(transtype, l, type, refl, j_0, n, boundaries, e3, wv3)
#Check for filetype and do extra round...
if transtype is 0:
for i in range(j_0+1,0,-1):
level = i-1
dummy = 0
tmp_list1 = []
for j in range(0,n):
tmp_list1.append(0)
for k in range(0,n,2**i):
tmp_list1[k] = (cmatrix_get(wv1,level,dummy))
dummy +=1
data.wv1.append(tmp_list1)
#boundaries too...
elif transtype is 1:
for i in range(j_0+1,0,-1): #Now it plots only the first half of V_j0
j = i-1
tmp_list1 = []
tmp_list2 = []
tmp_list3 = []
for k in range(0,n):
tmp_list1.append(cmatrix_get(wv1,j,k))
tmp_list2.append(cmatrix_get(wv2,j,k))
tmp_list3.append(cmatrix_get(wv3,j,k))
data.wv1.append(tmp_list1)
data.wv2.append(tmp_list2)
data.wv3.append(tmp_list3)
data.boundaries[0] = carray_get(boundaries, 2*j_0)
data.boundaries[j_0+1] = carray_get(boundaries, 2*j_0+1)
j = 1
for i in range(j_0,0,-1):
data.boundaries[j] = carray_get(boundaries, i-1)
j += 1
j = j_0+2
for i in range(2*j_0,j_0,-1):
data.boundaries[j] = carray_get(boundaries, i-1)
j += 1
def shurst(data):
l = 8
type = 2
bias = 0
refl = 0
j_0 = 11
j_min = 5
j_max = 11
n = len(data.e2)
n_b = 2
signal = list_to_array(data.e2)
object = wla.toolbox()
object.shurst(l, type, refl, j_0, j_min, j_max, n, n_b, signal)
def mra(settings, signal, data):
object = wla.toolbox()
transtype = settings.transtype
l = settings.l
type = settings.type
refl = settings.refl
j_0 = settings.j_0
n = len(signal.e1)
for i in range(0, 2*(j_0+1)):
data.boundaries.append(0)
e1 = list_to_array(signal.e1)
e2 = list_to_array(signal.e2)
e3 = list_to_array(signal.e3)
boundaries = list_to_array(data.boundaries)
ds1 = new_cmatrix(j_0+1,n)
ds2 = new_cmatrix(j_0+1,n)
ds3 = new_cmatrix(j_0+1,n)
object.mra(transtype, l, type, refl, j_0, n, boundaries, e1, ds1)
object.mra(transtype, l, type, refl, j_0, n, boundaries, e2, ds2)
object.mra(transtype, l, type, refl, j_0, n, boundaries, e3, ds3)
for i in range(j_0+1,0,-1):
j = i-1
tmp_list1 = []
tmp_list2 = []
tmp_list3 = []
for k in range(0,n):
tmp_list1.append(cmatrix_get(ds1,j,k))
tmp_list2.append(cmatrix_get(ds2,j,k))
tmp_list3.append(cmatrix_get(ds3,j,k))
data.ds1.append(tmp_list1)
data.ds2.append(tmp_list2)
data.ds3.append(tmp_list3)
data.boundaries[0] = carray_get(boundaries, 2*j_0)
data.boundaries[j_0+1] = carray_get(boundaries, 2*j_0+1)
j = 1
for i in range(j_0,0,-1):
data.boundaries[j] = carray_get(boundaries, i-1)
j += 1
j = j_0+2
for i in range(2*j_0,j_0,-1):
data.boundaries[j] = carray_get(boundaries, i-1)
j += 1
def ihurst(settings, signal, data):
object = wla.toolbox()
l = settings.l
type = settings.type
refl = settings.refl
j_0 = settings.j_0
j_min = settings.j_min
j_max = settings.j_max
n = len(signal.e1)
print l, type, refl, j_0, j_min, j_max, n
for i in range(0, n):
data.hurst1.append(0)
data.hurst2.append(0)
data.hurst3.append(0)
e1 = list_to_array(signal.e1)
e2 = list_to_array(signal.e2)
e3 = list_to_array(signal.e3)
hurst1 = list_to_array(data.hurst1)
hurst2 = list_to_array(data.hurst2)
hurst3 = list_to_array(data.hurst3)
out1 = list_to_array(data.out1)
out2 = list_to_array(data.out2)
out3 = list_to_array(data.out3)
object.ihurst(l, type, refl, j_0, j_min, j_max, n, e1, hurst1, out1)
object.ihurst(l, type, refl, j_0, j_min, j_max, n, e2, hurst2, out2)
object.ihurst(l, type, refl, j_0, j_min, j_max, n, e3, hurst3, out3)
for i in range(0,3):
data.out1[i] = carray_get(out1,i)
data.out2[i] = carray_get(out2,i)
data.out3[i] = carray_get(out3,i)
for i in range(0,n):
data.hurst1[i] = carray_get(hurst1,i)
data.hurst2[i] = carray_get(hurst2,i)
data.hurst3[i] = carray_get(hurst3,i)
def analysis():
object = wla.toolbox()
signal_list = []#Set signal as "global" here
y_list = [] #Get these as input
yhat_list = []#Convert to arrays here
ci_list = []
output_list = [0,0,0]
hurst_list = []
boundaries_list = []
##
#
# for value in open('/Users/vegard/Master/Hurst05.dat'): #('/Users/vegard/Master/ocean2.dat'):
# signal_list.append(float(value.split()[1])) #For reading Ingve's files...
# hurst_list.append(0)
# #signal_list.append(float(value))
# for i in range(j_min-1,j_max):
# y_list.append(0)
# for j in range(0, 3*j_max):
# wvar_list.append(0)
# for k in range(0, 2*(j_max+1)):
# boundaries_list.append(0)
# n = len(signal_list)
# signal = list_to_array(signal_list)
# y = list_to_array(y_list)
# wvar = list_to_array(wvar_list)
# output = list_to_array(output_list)
# hurst = list_to_array(hurst_list)
# boundaries = list_to_array(boundaries_list)
# wv = new_cmatrix(j_max+1,n)
# ds = new_cmatrix(j_max+1,n)
# object = wla.toolbox()
# #
#
# if(wa.get_active() == 1):
# transtype = wa.get_transtype()
# l = wa.get_l()
# type = wa.get_type()
# refl = wa.get_refl()
# j_max = wa.get_jmax()
#
# #Get epochs
# object.wa(transtype, l, type, refl, j_max, n, boundaries, signal, w)
#
# if(mra.get_active() == 1):
# transtype = mra.get_transtype()
# l = mra.get_l()
# type = mra.get_type()
# refl = mra.get_refl()
# j_max = mra.get_jmax()
#
# #Get epochs
# object.mra(transtype, l, type, refl, j_max, n, boundaries, signal, ds)
#
# if(ahurst.get_active() == 1):
# transtype = ahurst.get_transtype()
# l = ahurst.get_l()
# type = ahurst.get_type()
# refl = ahurst.get_refl()
# j_min = ahurst.get_jmin()
# j_max = ahurst.get_jmax()
# bias = ahurst.get_bias()
# p = ahurst.get_p()
#
# #Get epochs
# object.ahurst(transtype, l, type, bias, refl, n, j_min, j_max, p, signal, y, wvar, output) #
#
# if(ihurst.get_active() == 1):
# l = ihurst.get_l()
# type = ihurst.get_type()
# refl = ihurst.get_refl() #Not implemented yet in C++
# j_min = ihurst.get_jmin()
# j_max = ihurst.get_jmax()
#
# #Get epochs
# object.ihurst(l, type, j_min, j_max, len(signal_list), signal, hurst, output)
#
transtype = 1
l = 8
type = 2
bias = 0
refl = 0
j_0 = 6
j_min = 2
j_max = 6
p = 95
for value in open('/Users/vegard/Master/ecg.dat'): #('/Users/vegard/Master/ocean2.dat'):
#signal_list.append(float(value.split()[1])) #For reading Ingve's files...
hurst_list.append(0)
signal_list.append(float(value))
for i in range(0,j_0):
y_list.append(0)
for j in range(0, j_0):
yhat_list.append(0)
for k in range(0,2*j_0):
ci_list.append(0)
for k in range(0, 2*(j_max+1)):
boundaries_list.append(0)
n = len(signal_list)
signal = list_to_array(signal_list)
y = list_to_array(y_list)
yhat = list_to_array(yhat_list)
ci = list_to_array(ci_list)
output = list_to_array(output_list)
hurst = list_to_array(hurst_list)
boundaries = list_to_array(boundaries_list)
wv = new_cmatrix(j_max+1,n)
#ds = new_cmatrix(j_max+1,n)
#object = wla.toolbox()
#For iHurst use j_min:1, j_max:10
object.ahurst(transtype, l, type, bias, refl, n, j_0, j_min, j_max, p, signal, y, yhat, ci, output)
signal_list = []
#for value in open('/Users/vegard/Master/ecg.dat'): #('/Users/vegard/Master/ocean2.dat'):
# signal_list.append(float(value.split()[1]))
#signal_list.append(float(value))
l = 8
type = 2
bias = 0
refl = 0
j_0 = 6
j_min = 1
j_max = 6
n = len(signal_list)
n_b = 6
signal = list_to_array(signal_list)
object = wla.toolbox()
# object.shurst(l, type, refl, j_0, j_min, j_max, n, n_b, signal)
analysis()
#ahurstdata = Data()
#ihurstdata = Data()
#genset = Settings()
#ahurstset = Settings()
#ihurstset = Settings()
#test = [1,2,3]
#tittel = "Testfil"
#ofilename = "/Users/vegard/Master/saves/testfile"
#ahurstdata.out1 = test
#ahurstdata.out2 = test
#ahurstdata.out3 = test
#save(ofilename, tittel, genset, ahurstset, ihurstset, ahurstdata, ihurstdata)
