jar_project/second_try.py

import matplotlib.pyplot as plt
import os
import glob
import IPython
import numpy as np
from IPython import embed
from scipy.optimize import curve_fit
from jar_functions import parse_dataset
from jar_functions import parse_infodataset
from jar_functions import mean_traces
from jar_functions import mean_noise_cut
from jar_functions import norm_function
from jar_functions import step_response
from jar_functions import sort_values

#nicht: 19-aa, 22-ae, 22-ad (?)
datasets = [#(os.path.join('D:\\jar_project\\JAR\\2020-06-19-aa\\beats-eod.dat')),   #-5Hz delta f, horrible fit
            #(os.path.join('D:\\jar_project\\JAR\\2020-06-19-ab\\beats-eod.dat')),   #-5Hz delta f, bad fit
            #(os.path.join('D:\\jar_project\\JAR\\2020-06-22-aa\\beats-eod.dat')),   #-5Hz delta f, bad fit
            #(os.path.join('D:\\jar_project\\JAR\\2020-06-22-ab\\beats-eod.dat')),   #-5Hz delta f, bad fit
            (os.path.join('D:\\jar_project\\JAR\\2020-06-22-ac\\beats-eod.dat')),   #-15Hz delta f, good fit
            #(os.path.join('D:\\jar_project\\JAR\\2020-06-22-ad\\beats-eod.dat')),   #-15Hz delta f, horrible fit
            #(os.path.join('D:\\jar_project\\JAR\\2020-06-22-ae\\beats-eod.dat')),   #-15Hz delta f, maxfev way to high so horrible
            (os.path.join('D:\\jar_project\\JAR\\2020-06-22-af\\beats-eod.dat'))]   #-15Hz delta f, good fit

#np.array(sorted(glob.glob('D:\\jar_project\\JAR\\2020*\\beats-eod.dat')))

infodatasets = [(os.path.join('D:\\jar_project\\JAR\\2020-06-22-ac\\info.dat')),
                (os.path.join('D:\\jar_project\\JAR\\2020-06-22-af\\info.dat'))]


time_all = []
freq_all = []

ID = []

for infodataset in infodatasets:
    i = parse_infodataset(infodataset)
    identifier = i[0]
    ID.append(identifier)


for dataset in datasets:
    #input of the function
    frequency, time, amplitude, eodf, deltaf, stimulusf, duration, pause = parse_dataset(dataset)
    dm = np.mean(duration)
    pm = np.mean(pause)
    timespan = dm + pm
    start = (time[0][0] + time[1][0]) / 2
    stop = (time[0][-1] + time[1][-1]) / 2
    mf , tnew = mean_traces(start, stop, timespan, frequency, time) # maybe fixed timespan/sampling rate

    #for i in range(len(mf)):

    cf, ct = mean_noise_cut(mf, tnew, n=1250)

    cf_arr = np.array(cf)
    ct_arr = np.array(ct)

    norm = norm_function(cf_arr, ct_arr, onset_point = dm - dm, offset_point = dm) #dm-dm funktioniert nur wenn onset = 0 sec

    freq_all.append(norm.tolist())
    time_all.append(ct_arr)

    plt.plot(ct_arr, norm, color = 'grey', label='fish=%s' % ID)

    # fit function
    sv, sc = curve_fit(step_response, ct_arr[ct_arr < dm], norm[ct_arr < dm]) #step_values and step_cov

    # sorted a and tau
    values = sort_values(sv)

    '''
    plt.plot(ct_arr[ct_arr < 100], step_response(ct_arr, *sv)[ct_arr < 100], color='orange',
             label='fit: a1=%.2f, a2=%.2f, tau1=%.2f, tau2=%.2f' % tuple(values))
    '''

    print('fish: a1, a2, tau1, tau2', values)

# average over all fish
mf_all , tnew_all = mean_traces(start, stop, timespan, freq_all, time_all)

plt.plot(tnew_all, mf_all, color = 'b', label = 'average', ls = 'dashed')

# fit for average
sv_all, sc_all = curve_fit(step_response, tnew_all[tnew_all < dm], mf_all[tnew_all < dm]) #step_values and step_cov

values_all = sort_values(sv_all)

plt.plot(tnew_all[tnew_all < 100], step_response(tnew_all, *sv_all)[tnew_all < 100], color='orange',
         label='average_fit: a1=%.2f, a2=%.2f, tau1=%.2f, tau2=%.2f' % tuple(values_all))

print('average: a1, a2, tau1, tau2', values_all)

const_line = plt.axhline(y = 0.632)
stimulus_duration = plt.hlines(y = -0.25, xmin = 0, xmax = 100, color = 'r', label = 'stimulus_duration')
base_line = plt.axhline(y = 0, color = 'black', ls = 'dotted', linewidth = '1')

plt.xlim([-10,220])
plt.xlabel('time [s]')
plt.ylabel('rel. JAR magnitude')
plt.title('relative JAR')
plt.savefig('relative JAR')
plt.legend(loc = 'lower right')
plt.show()
embed()

# Fragen:
# wie offset point wenn nicht start bei 0 sec? über zeitdatenpunkt? oder einfach immer bei 0 onset..?
# wie zip ich ID liste mit plot (für eine for schleife) zusammen?
# welche Stimulusintesität?
# start/stop/timespan ok?