restructure project

2021-01-09 23:59:34 +01:00 · 2021-01-09 23:59:34 +01:00 · ea580863b1
commit ea580863b1
parent 309b30b9fa
55 changed files with 206 additions and 190 deletions
--- a/Figures_Baseline.py
+++ b/Figures_Baseline.py
@ -4,17 +4,17 @@ import matplotlib.pyplot as plt
 import matplotlib.gridspec as gridspec
 import numpy as np
 import os
-import functions as fu
+from my_util import functions as fu
 import helperFunctions as hF
-from CellData import CellData
+from parser.CellData import CellData
-from Baseline import BaselineCellData
+from experiments.Baseline import BaselineCellData
-from FiCurve import FICurveCellData, FICurveModel
+from experiments.FiCurve import FICurveCellData, FICurveModel
 import Figure_constants as consts
-from ModelFit import get_best_fit
+from fitting.ModelFit import get_best_fit
 EXAMPLE_CELL = "data/final/2012-12-20-ac-invivo-1"
 def main():
    # data_isi_histogram()
    # data_mean_freq_step_stimulus_examples()
--- a/Figures_Model.py
+++ b/Figures_Model.py
@ -1,7 +1,7 @@
 from models.LIFACnoise import LifacNoiseModel
 from stimuli.SinusoidalStepStimulus import SinusoidalStepStimulus
-import helperFunctions as hF
+from my_util import helperFunctions as hF
 import Figure_constants as consts
 import matplotlib.pyplot as plt
 import numpy as np
--- a/Figures_Stimuli.py
+++ b/Figures_Stimuli.py
@ -1,7 +1,7 @@
 from stimuli.SinusoidalStepStimulus import SinusoidalStepStimulus
 from stimuli.SinusAmplitudeModulation import SinusAmplitudeModulationStimulus
-from CellData import CellData
+from parser.CellData import CellData
 import numpy as np
 import matplotlib.pyplot as plt
 import Figure_constants as consts
--- a/Figures_results.py
+++ b/Figures_results.py
@ -2,18 +2,15 @@ import numpy as np
 import matplotlib.pyplot as plt
 import matplotlib.gridspec as gridspec
 import matplotlib as mpl
-from analysis import get_filtered_fit_info, get_behaviour_values, get_parameter_values, behaviour_correlations, parameter_correlations, calculate_percent_errors
+from analysis import get_filtered_fit_info, get_behaviour_values, get_parameter_values, behaviour_correlations, parameter_correlations
-from ModelFit import get_best_fit
+from fitting.ModelFit import get_best_fit
-from Baseline import BaselineModel, BaselineCellData
+from experiments.Baseline import BaselineModel, BaselineCellData
-from FiCurve import FICurveModel, FICurveCellData
+from experiments.FiCurve import FICurveModel, FICurveCellData
-from CellData import CellData
+from parser.CellData import CellData
-import functions as fu
+from my_util import functions as fu
 import Figure_constants as consts
 from scipy.stats import pearsonr
 from matplotlib.ticker import FormatStrFormatter
 parameter_titles = {"input_scaling": r"$\alpha$", "delta_a": r"$\Delta_A$",
                    "mem_tau": r"$\tau_m$", "noise_strength": r"$\sqrt{2D}$",
                    "refractory_period": "$t_{ref}$", "tau_a": r"$\tau_A$",
--- a/RelationAdaptionVariables.py
+++ b/RelationAdaptionVariables.py
@ -2,11 +2,10 @@
 from models.FirerateModel import FirerateModel
 from models.LIFACnoise import LifacNoiseModel
 from stimuli.StepStimulus import StepStimulus
-import helperFunctions as hf
+from my_util import helperFunctions as hf, functions as fu
 import numpy as np
 import matplotlib.pyplot as plt
 from scipy.optimize import curve_fit
 import functions as fu
 def main():
--- a/analysis.py
+++ b/analysis.py
@ -1,14 +1,13 @@
 import argparse
 import os
 import numpy as np
 import matplotlib.pyplot as plt
 from scipy.stats import pearsonr
 import my_util.save_load as sl
-from ModelFit import get_best_fit
+from fitting.ModelFit import get_best_fit
-from Baseline import BaselineModel
+from experiments.Baseline import BaselineModel
-from FiCurve import FICurveModel
+from experiments.FiCurve import FICurveModel, FICurveCellData
-from CellData import CellData
+from parser.CellData import CellData
 from models.LIFACnoise import LifacNoiseModel
 from stimuli.SinusoidalStepStimulus import SinusoidalStepStimulus
@ -18,8 +17,9 @@ def main():
    # parser.add_argument("dir", help="folder containing the cell folders with the fit results")
    # args = parser.parse_args()
-    dir_path = "results/final_2/"  # args.dir
+    dir_path = "results/final_sam/"  # args.dir
-
+    plot_fi_curves_differences(dir_path)
    quit()
    # if not os.path.isdir(dir_path):
    #     print("Argument dir is not a directory.")
    #     parser.print_usage()
@ -46,7 +46,66 @@ def main():
    # create_parameter_distributions(get_parameter_values(fits_info))
    cell_b, model_b = get_behaviour_values(fits_info)
    create_behaviour_distributions(cell_b, model_b)
-    pass
+
 def plot_fi_curves_differences(folder, recalculate=False):
    save_path = "temp/analysis/fi_curve_errors_plot.pkl"
    if not recalculate and os.path.exists(save_path):
        # load
        loaded_values = sl.load(save_path)
        model_f_inf_slopes, f_inf_ref_slope, stim_values, model_f_zero_points, f_zero_ref_values, fit_errors = loaded_values
    else:
        fit_errors = []
        model_f_inf_slopes = []
        f_inf_ref_slope = []
        stim_values = []
        model_f_zero_points = []
        f_zero_ref_values = []
        for item in sorted(os.listdir(folder)):
            print(item)
            cell_folder = os.path.join(folder, item)
            fit = get_best_fit(cell_folder, use_comparable_error=False)
            model = fit.get_model()
            cell_data_path = fit.get_cell_path()
            if "final_sam" in cell_data_path:
                cell_data_path = cell_data_path.replace("final_sam", "final")
            cell = CellData(cell_data_path)
            fit_errors.append(fit.get_fit_routine_error())
            fi_curve_cell = FICurveCellData(cell, cell.get_fi_contrasts(), cell.get_data_path())
            cell_f_inf_slope = fi_curve_cell.get_f_inf_slope()
            f_inf_ref_slope.append(cell_f_inf_slope)
            cell_f_zero_values = fi_curve_cell.get_f_zero_frequencies()
            f_zero_ref_values.append(cell_f_zero_values)
            stim_values.append(cell.get_fi_contrasts())
            fi_curve_model = FICurveModel(model, cell.get_fi_contrasts(), cell.get_eod_frequency())
            model_f_inf_slope = fi_curve_model.get_f_inf_slope()
            model_f_inf_slopes.append(model_f_inf_slope)
            model_f_zero_values = fi_curve_model.get_f_zero_frequencies()
            model_f_zero_points.append(model_f_zero_values)
        # save
        sl.save([model_f_inf_slopes, f_inf_ref_slope, stim_values, model_f_zero_points, f_zero_ref_values, fit_errors],
                save_path, create_folders=True)
    cmap = 'brg'
    maximum_err = 100
    colors = [fe if fe < maximum_err else maximum_err for fe in fit_errors]
    colors = np.array(colors) / max(colors)
    fig, axes = plt.subplots(1, 3)
    axes[0].scatter(range(len(fit_errors)), fit_errors, c=colors, cmap=cmap)
    # axes[1].scatter(f_inf_ref_slope, [(model_f_inf_slopes[i]-f_inf_ref_slope[i]) / f_inf_ref_slope[i] for i in range(len(model_f_inf_slopes))], c=colors, cmap=cmap)
    axes[1].scatter(f_inf_ref_slope, [(model_f_inf_slopes[i]-f_inf_ref_slope[i]) for i in range(len(model_f_inf_slopes))], c=colors, cmap=cmap)
    cmap_obj = plt.get_cmap(cmap)
    for i in range(len(stim_values)):
        axes[2].plot(stim_values[i], [(model_f_zero_points[i][j] - f_zero_ref_values[i][j]) / f_zero_ref_values[i][j] for j in range(len(model_f_zero_points[i]))], c=cmap_obj(colors[i]), alpha=0.5)
    plt.show()
 def get_filtered_fit_info(folder, filter=True):
--- a/cell_overview.py
+++ b/cell_overview.py
@ -1,11 +1,10 @@
-from CellData import icelldata_of_dir, CellData
+from parser.CellData import icelldata_of_dir, CellData
-from Baseline import BaselineCellData
+from experiments.Baseline import BaselineCellData
-from FiCurve import FICurveCellData
+from experiments.FiCurve import FICurveCellData
-from DataParserFactory import DatParser
+from parser.DataParserFactory import DatParser
 import os
 import numpy as np
 import matplotlib.pyplot as plt
 def main():
--- a/experiments/AdaptionCurrent.py
+++ b/experiments/AdaptionCurrent.py
@ -1,11 +1,10 @@
-from FiCurve import FICurve, get_fi_curve_class
+from FiCurve import FICurve
 from CellData import CellData
 import matplotlib.pyplot as plt
 from scipy.optimize import curve_fit
 import os
 import numpy as np
-import functions as fu
+from my_util import functions as fu
 class Adaption:
--- a/experiments/Baseline.py
+++ b/experiments/Baseline.py
@ -1,8 +1,8 @@
-from CellData import CellData
+from parser.CellData import CellData
 from models.LIFACnoise import LifacNoiseModel
 from stimuli.SinusoidalStepStimulus import SinusoidalStepStimulus
-import helperFunctions as hF
+from my_util import helperFunctions as hF
 import numpy as np
 import matplotlib.pyplot as plt
 import pickle
--- a/experiments/FiCurve.py
+++ b/experiments/FiCurve.py
@ -1,12 +1,11 @@
-from CellData import CellData
+from parser.CellData import CellData
 from models.LIFACnoise import LifacNoiseModel
 from stimuli.SinusoidalStepStimulus import SinusoidalStepStimulus
 import numpy as np
 import matplotlib.pyplot as plt
 from warnings import warn
-import functions as fu
+from my_util import helperFunctions as hF, functions as fu
 import helperFunctions as hF
 from os.path import join, exists
 import pickle
 from sys import stderr
--- a/experiments/Sam.py
+++ b/experiments/Sam.py
@ -1,5 +1,5 @@
-from CellData import CellData
+from parser.CellData import CellData
 from models.LIFACnoise import LifacNoiseModel
--- a/experiments/init.py
+++ b/experiments/init.py
--- a/find_thresholds_for_spike_detection.py
+++ b/find_thresholds_for_spike_detection.py
@ -1,5 +1,5 @@
-from CellData import CellData, icelldata_of_dir
+from parser.CellData import CellData, icelldata_of_dir
 from os import listdir
 import os
--- a/fitting/Fitter.py
+++ b/fitting/Fitter.py
@ -1,17 +1,12 @@
 from models.LIFACnoise import LifacNoiseModel
 from stimuli.SinusoidalStepStimulus import SinusoidalStepStimulus
-from CellData import CellData
+from parser.CellData import CellData
-from Baseline import get_baseline_class
+from experiments.Baseline import get_baseline_class
-from FiCurve import get_fi_curve_class
+from experiments.FiCurve import get_fi_curve_class
 from AdaptionCurrent import Adaption
 import numpy as np
 from warnings import warn
 from scipy.optimize import minimize
 import time
 from helperFunctions import plot_errors
 import matplotlib.pyplot as plt
 class Fitter:
--- a/fitting/ModelFit.py
+++ b/fitting/ModelFit.py
@ -2,12 +2,11 @@
 import os
 from models.LIFACnoise import LifacNoiseModel
 from stimuli.SinusoidalStepStimulus import SinusoidalStepStimulus
-from Baseline import get_baseline_class
+from experiments.Baseline import get_baseline_class
-from FiCurve import get_fi_curve_class
+from experiments.FiCurve import get_fi_curve_class
-from CellData import CellData
+from parser.CellData import CellData
-import helperFunctions as hF
+from my_util import helperFunctions as hF, functions as fu
 import numpy as np
 import functions as fu
 import matplotlib.pyplot as plt
--- a/fitting/init.py
+++ b/fitting/init.py
--- a/glm_prediction.py
+++ b/glm_prediction.py
@ -1,9 +1,8 @@
-from ModelFit import get_best_fit
+from fitting.ModelFit import get_best_fit
 import numpy as np
 import os
 import pandas
 import matplotlib.pyplot as plt
 import statsmodels.api as sm
--- a/introduction/NeuronModel.py
+++ b/introduction/NeuronModel.py
@ -1,7 +1,7 @@
-from CellData import CellData
+from parser.CellData import CellData
-from FiCurve import FICurve
+from experiments.FiCurve import FICurve
-from AdaptionCurrent import Adaption
+from experiments.AdaptionCurrent import Adaption
 import numpy as np
 import matplotlib.pyplot as plt
--- a/introduction/introductionFICurve.py
+++ b/introduction/introductionFICurve.py
@ -2,8 +2,7 @@ import numpy as np
 import matplotlib.pyplot as plt
 import pyrelacs.DataLoader as dl
 import os
-import helperFunctions as hf
+from my_util import helperFunctions as hf
 from IPython import embed
 from scipy.optimize import curve_fit
 import warnings
--- a/introduction/test.py
+++ b/introduction/test.py
@ -1,9 +1,7 @@
 import numpy as np
 import matplotlib.pyplot as plt
-import helperFunctions as hF
+from my_util import functions as fu
 import functions as fu
 import time
 from stimuli.SinusoidalStepStimulus import SinusoidalStepStimulus
 def main():
--- a/main.py
+++ b/main.py
@ -1,17 +0,0 @@
 from CellData import icelldata_of_dir
 # TODO command line interface needed/nice ?
 def main():
    for cell_data in icelldata_of_dir("./data/"):
        print()
        print(cell_data.get_data_path())
        quit()
 if __name__ == '__main__':
    main()
--- a/models/FirerateModel.py
+++ b/models/FirerateModel.py
@ -1,7 +1,7 @@
 from stimuli.AbstractStimulus import AbstractStimulus
 from models.AbstractModel import AbstractModel
 import numpy as np
-from functions import line
+from my_util.functions import line
 class FirerateModel(AbstractModel):
--- a/models/LIFACnoise.py
+++ b/models/LIFACnoise.py
@ -1,13 +1,9 @@
 from stimuli.AbstractStimulus import AbstractStimulus
 from models.AbstractModel import AbstractModel
 import numpy as np
-import functions as fu
+from my_util import functions as fu
 from numba import jit
 import helperFunctions as hF
 from stimuli.SinusoidalStepStimulus import SinusoidalStepStimulus
 from scipy.optimize import curve_fit
 from warnings import warn
 import matplotlib.pyplot as plt
 from collections import OrderedDict
--- a/models/smallModels.py
+++ b/models/smallModels.py
@ -1,7 +1,5 @@
 import numpy as np
 import matplotlib.pyplot as plt
 import helperFunctions as hF
 def main():
--- a/my_util/Sounds.py
+++ b/my_util/Sounds.py
--- a/my_util/init.py
+++ b/my_util/init.py
--- a/my_util/functions.py
+++ b/my_util/functions.py
--- a/my_util/helperFunctions.py
+++ b/my_util/helperFunctions.py
@ -2,7 +2,7 @@ import numpy as np
 from warnings import warn
 from thunderfish.eventdetection import threshold_crossing_times, threshold_crossings, detect_peaks
 from scipy.optimize import curve_fit
-import functions as fu
+import my_util.functions as fu
 from numba import jit
 import matplotlib.pyplot as plt
 import time
--- a/my_util/lines_of_code.py
+++ b/my_util/lines_of_code.py
@ -21,7 +21,9 @@ def count_lines_folder(folder):
 total_lines = 0
 total_files = 0
-folders = [".", "tests/", "models/", "introduction/", "stimuli/"]
+folders = ["..", "../tests/", "../models/", "../introduction/",
           "../stimuli/", "../experiments/", "../my_util/", "../parser/",
           "../fitting/", "../unittests/"]
 for folder in folders:
    lines, files = count_lines_folder(folder)
--- a/my_util/save_load.py
+++ b/my_util/save_load.py
@ -0,0 +1,28 @@
 import pickle
 import os
 #  small module to handle quick saving and loading of (pre-analyzed) data (for figures)
 def save(python_object, path, create_folders=True):
    """
    save a python object in a file,
    creates all necessary the folders
    """
    if create_folders and not os.path.exists(os.path.dirname(path)):
        os.makedirs(os.path.dirname(path))
    with open(path, 'wb') as file:
        pickle.dump(python_object, file)
 def load(path):
    """
    load pickled python object saved in the file at path.
    """
    with open(path, "rb") as file:
        py_object = pickle.load(file)
    return py_object
--- a/parser/CellData.py
+++ b/parser/CellData.py
@ -1,11 +1,9 @@
-import DataParserFactory as dpf
+import parser.DataParserFactory as dpf
 from warnings import warn
 import os
-import helperFunctions as hf
+from my_util import helperFunctions as hf
 import numpy as np
 import matplotlib.pyplot as plt
 COUNT = 0
--- a/parser/DataParserFactory.py
+++ b/parser/DataParserFactory.py
--- a/parser/init.py
+++ b/parser/init.py
--- a/random_models.py
+++ b/random_models.py
@ -7,10 +7,10 @@ from scipy.optimize import curve_fit
 from scipy.stats import multivariate_normal, pearsonr
 from analysis import get_parameter_values, get_filtered_fit_info, parameter_correlations, get_behaviour_values
-from ModelFit import get_best_fit
+from fitting.ModelFit import get_best_fit
-import functions as fu
+from my_util import functions as fu
-from Baseline import BaselineModel
+from experiments.Baseline import BaselineModel
-from FiCurve import FICurveModel
+from experiments.FiCurve import FICurveModel
 from models.LIFACnoise import LifacNoiseModel
 from Figures_results import create_correlation_plot
 import Figure_constants as consts
--- a/read_data_infos.py
+++ b/read_data_infos.py
@ -1,4 +1,4 @@
-from CellData import icelldata_of_dir, CellData
+from parser.CellData import icelldata_of_dir, CellData
 import numpy as np
 import os
 import pyrelacs.DataLoader as Dl
--- a/redetect_fi_curve.py
+++ b/redetect_fi_curve.py
@ -1,9 +1,7 @@
-from CellData import CellData
+from parser.CellData import CellData
 from DataParserFactory import DatParser
 import pyrelacs.DataLoader as Dl
 import helperFunctions as hF
 from thunderfish.eventdetection import detect_peaks
 import os
--- a/run_Fitter.py
+++ b/run_Fitter.py
@ -1,16 +1,16 @@
 from models.LIFACnoise import LifacNoiseModel
-from CellData import CellData
+from parser.CellData import CellData
-from Baseline import get_baseline_class
+from experiments.Baseline import get_baseline_class
-from FiCurve import get_fi_curve_class
+from experiments.FiCurve import get_fi_curve_class
-from Fitter import Fitter
+from fitting.Fitter import Fitter
-from ModelFit import get_best_fit, ModelFit
+from fitting.ModelFit import get_best_fit, ModelFit
 import time
 import os
 import argparse
 import numpy as np
-from helperFunctions import plot_errors
+from my_util.helperFunctions import plot_errors
 import multiprocessing as mp
--- a/run_cellwise_fitting.sh
+++ b/run_cellwise_fitting.sh
@ -1,6 +1,13 @@
 # Screen commands to run script remotely:
 # screen -S fitting # open screen session with name: "fitting"
 # press ctrl + A release and then D to detach screen session.
 # screen -r fitting # reconnect after disconnecting ssh / detaching screen
 for file in data/final_sam/*; do
    if [ -d "$file" ]; then
-        nice python3 run_Fitter.py --cell $file
+        nice python3 run_Fitter.py --cell "$file"
    fi
 done
--- a/sam_experiments.py
+++ b/sam_experiments.py
@ -1,19 +1,16 @@
 from stimuli.SinusAmplitudeModulation import SinusAmplitudeModulationStimulus as SAM
 from Baseline import get_baseline_class
 from FiCurve import FICurveModel
 from models.LIFACnoise import LifacNoiseModel
 import numpy as np
 import matplotlib.pyplot as plt
-import helperFunctions as hF
+from my_util import helperFunctions as hF
-from CellData import CellData
+from parser.CellData import CellData
-from ModelFit import ModelFit, get_best_fit
+from fitting.ModelFit import get_best_fit
 import os
 import shutil
 def main():
-    run_sam_analysis_for_all_cells("results/final_2")
+    run_sam_analysis_for_all_cells("results/final_sam")
    # sam_analysis("results/final_2/2011-10-25-ad-invivo-1/")
@ -34,13 +31,14 @@ def run_sam_analysis_for_all_cells(folder):
    count = 0
    for item in os.listdir(folder):
        cell_folder = os.path.join(folder, item)
-        fit = get_best_fit(cell_folder, use_comparable_error=False)
+        # fit = get_best_fit(cell_folder, use_comparable_error=False)
-        cell_data = fit.get_cell_data()
+        # cell_data = fit.get_cell_data()
-
+        #
-        if cell_data.has_sam_recordings():
+        # if cell_data.has_sam_recordings():
-            count += 1
+        #     count += 1
-            # print("Fit quality:", fit.get_fit_routine_error())
+        #     # print("Fit quality:", fit.get_fit_routine_error())
-            sam_analysis(cell_folder)
+        #     sam_analysis(cell_folder)
        sam_analysis(cell_folder)
    print(count)
@ -165,10 +163,14 @@ def plot_mean_of_cuts():
 def sam_analysis(fit_path):
    modelfit = get_best_fit(fit_path)
-    if not os.path.exists(os.path.join(modelfit.get_cell_path(), "samallspikes1.dat")):
+    # if not os.path.exists(os.path.join(modelfit.get_cell_path(), "samallspikes1.dat")):
-        print("Cell: {} \n Has no measured sam stimuli.")
+    #     print("Cell: {} \n Has no measured sam stimuli.")
-        return
+    #     return
-    cell_data = CellData(modelfit.get_cell_path())
+    cell_data_path = modelfit.get_cell_path()
    if "final_sam" in cell_data_path:
        cell_data_path = cell_data_path.replace("final_sam", "final")
    cell_data = CellData(cell_data_path)
    model = modelfit.get_model()
    # parameters = {'delta_a': 0.08820130374685671, 'refractory_period': 0.0006, 'a_zero': 15, 'step_size': 5e-05,
--- a/save_model_fits_as_csv.py
+++ b/save_model_fits_as_csv.py
@ -1,11 +1,9 @@
-from ModelFit import get_best_fit, ModelFit
+from fitting.ModelFit import get_best_fit
 import os
 import pandas as pd
 import numpy as np
 import matplotlib.pyplot as plt
 from Baseline import BaselineCellData
 SAVE_DIR = "results/lab_rotation/"
--- a/test.py
+++ b/test.py
@ -1,24 +1,5 @@
 from Baseline import get_baseline_class
 from CellData import CellData, icelldata_of_dir
 from models.LIFACnoise import LifacNoiseModel
 from Baseline import BaselineCellData, BaselineModel
 from os import listdir
 import numpy as np
 from IPython import embed
 import pyrelacs.DataLoader as Dl
 from ModelFit import ModelFit, get_best_fit
 from FiCurve import FICurveModel, FICurveCellData
 import os
-import matplotlib.pyplot as plt
+
 import functions as fu
 from scipy.optimize import curve_fit
 from scipy.signal import find_peaks
 from thunderfish.eventdetection import threshold_crossing_times, threshold_crossings, detect_peaks
 import helperFunctions as hF
 import models.smallModels as sM
 from stimuli.SinusoidalStepStimulus import SinusoidalStepStimulus
 from matplotlib import gridspec
 # from plottools.axes import labelaxes_params
--- a/test_for_cells.py
+++ b/test_for_cells.py
@ -1,12 +1,12 @@
-from CellData import icelldata_of_dir, CellData
+from parser.CellData import icelldata_of_dir, CellData
-from DataParserFactory import DatParser
+from parser.DataParserFactory import DatParser
 import numpy as np
 import os
 import matplotlib.pyplot as plt
 import pyrelacs.DataLoader as Dl
-from Baseline import BaselineCellData
+from experiments.Baseline import BaselineCellData
-from FiCurve import FICurveCellData
+from experiments.FiCurve import FICurveCellData
 data_save_path = "test_routines/test_files/"
 read = False
--- a/tests/ModelTests.py
+++ b/tests/ModelTests.py
@ -1,12 +1,11 @@
 import matplotlib.pyplot as plt
 import numpy as np
-import helperFunctions as hf
+from my_util import helperFunctions as hf, functions as fu
 from models.FirerateModel import FirerateModel
 from models.LIFACnoise import LifacNoiseModel
 from stimuli.StepStimulus import StepStimulus
 from stimuli.SinusoidalStepStimulus import SinusoidalStepStimulus
 import functions as fu
 def main():
--- a/tests/functionalityTests.py
+++ b/tests/functionalityTests.py
@ -1,7 +1,7 @@
 import numpy as np
 import matplotlib.pyplot as plt
-import functions as fu
+from my_util import functions as fu
 def test_plot_inverses(ficurve):
--- a/tests/generalTests.py
+++ b/tests/generalTests.py
@ -1,20 +1,14 @@
-
+from my_util import helperFunctions as hf, functions as fu
-import helperFunctions as hf
+from parser.CellData import icelldata_of_dir
 from CellData import icelldata_of_dir
 import functions as fu
 import numpy as np
 import time
 import matplotlib.pyplot as plt
 import os
 from scipy.signal import argrelmax
 from thunderfish.eventdetection import detect_peaks
 from stimuli.SinusAmplitudeModulation import SinusAmplitudeModulationStimulus
 from models.LIFACnoise import LifacNoiseModel
-from FiCurve import FICurveModel, get_fi_curve_class
+from experiments.FiCurve import FICurveModel, get_fi_curve_class
-from Baseline import get_baseline_class
+from experiments.Baseline import get_baseline_class
-from AdaptionCurrent import Adaption
+from experiments.AdaptionCurrent import Adaption
 from stimuli.StepStimulus import StepStimulus
 from stimuli.SinusoidalStepStimulus import SinusoidalStepStimulus
 def time_test_function():
--- a/thesis/figures/f_point_detection.pdf
+++ b/thesis/figures/f_point_detection.pdf
--- a/thesis/figures/isi_hist_heterogeneity.pdf
+++ b/thesis/figures/isi_hist_heterogeneity.pdf
--- a/thesis/figures/p_unit_example.pdf
+++ b/thesis/figures/p_unit_example.pdf
--- a/unittests/testBaseline.py
+++ b/unittests/testBaseline.py
@ -1,11 +1,7 @@
 import unittest
-import numpy as np
+from parser.CellData import icelldata_of_dir
-import helperFunctions as hF
+from experiments.Baseline import BaselineCellData
 import matplotlib.pyplot as plt
 from CellData import icelldata_of_dir
 from Baseline import BaselineCellData
 import os
 class BaselineTester(unittest.TestCase):
--- a/unittests/testFrequencyFunctions.py
+++ b/unittests/testFrequencyFunctions.py
@ -1,6 +1,6 @@
 import unittest
 import numpy as np
-import helperFunctions as hF
+from my_util import helperFunctions as hF
 import matplotlib.pyplot as plt
 from warnings import warn
--- a/unittests/testHelperFunctions.py
+++ b/unittests/testHelperFunctions.py
@ -1,9 +1,8 @@
 import unittest
 import numpy as np
-import helperFunctions as hF
+from my_util import helperFunctions as hF
-import matplotlib.pyplot as plt
+from parser.CellData import icelldata_of_dir
-from CellData import icelldata_of_dir
+from experiments.Baseline import BaselineCellData
 from Baseline import BaselineCellData
 import os
--- a/unittests/testLifacNoise.py
+++ b/unittests/testLifacNoise.py
@ -1,8 +1,7 @@
 import unittest
 import numpy as np
-import helperFunctions as hF
+from my_util import helperFunctions as hF
 import matplotlib.pyplot as plt
 from models.LIFACnoise import LifacNoiseModel
 from stimuli.SinusAmplitudeModulation import SinusAmplitudeModulationStimulus
--- a/unittests/testSinusAmplitudeModulation.py
+++ b/unittests/testSinusAmplitudeModulation.py
@ -1,9 +1,7 @@
 from stimuli.SinusAmplitudeModulation import SinusAmplitudeModulationStimulus
 import unittest
 import numpy as np
 import helperFunctions as hF
 import matplotlib.pyplot as plt
 from warnings import warn
 class SinusoidalStimulusTester(unittest.TestCase):
--- a/unittests/testSinusoidalStepStimulus.py
+++ b/unittests/testSinusoidalStepStimulus.py
@ -1,9 +1,7 @@
 from stimuli.SinusoidalStepStimulus import SinusoidalStepStimulus
 import unittest
 import numpy as np
 import helperFunctions as hF
 import matplotlib.pyplot as plt
 from warnings import warn
 class SinusoidalStepStimulusTester(unittest.TestCase):
--- a/variableEffect.py
+++ b/variableEffect.py
@ -1,7 +1,7 @@
 from models.LIFACnoise import LifacNoiseModel
-from Baseline import BaselineModel
+from experiments.Baseline import BaselineModel
-from FiCurve import FICurveModel
+from experiments.FiCurve import FICurveModel
 import numpy as np
 import matplotlib.pyplot as plt
 import copy
`@ -1,5 +1,5 @@`

	`from CellData import CellData`	`from parser.CellData import CellData`
	`from models.LIFACnoise import LifacNoiseModel`	`from models.LIFACnoise import LifacNoiseModel`