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prepare_physionet.py
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prepare_physionet.py
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import argparse
import glob
import math
import ntpath
import os
import shutil
import urllib.request, urllib.parse, urllib.error
import urllib.request, urllib.error, urllib.parse
from datetime import datetime
import numpy as np
from mne import Epochs, pick_types, find_events
from mne.io import concatenate_raws, read_raw_edf
import dhedfreader
# Label values
W = 0
N1 = 1
N2 = 2
N3 = 3
REM = 4
UNKNOWN = 5
stage_dict = {
"W": W,
"N1": N1,
"N2": N2,
"N3": N3,
"REM": REM,
"UNKNOWN": UNKNOWN
}
class_dict = {
0: "W",
1: "N1",
2: "N2",
3: "N3",
4: "REM",
5: "UNKNOWN"
}
ann2label = {
"Sleep stage W": 0,
"Sleep stage 1": 1,
"Sleep stage 2": 2,
"Sleep stage 3": 3,
"Sleep stage 4": 3,
"Sleep stage R": 4,
"Sleep stage ?": 5,
"Movement time": 5
}
EPOCH_SEC_SIZE = 30
def main():
parser = argparse.ArgumentParser()
parser.add_argument("--data_dir", type=str, default="../sleep-edf-database/sleep-cassette",
help="File path to the CSV or NPY file that contains walking data.")
parser.add_argument("--output_dir", type=str, default="../data/data-153/eeg_pz_oz",
help="Directory where to save outputs.")
# parser.add_argument("--select_ch", type=str, default="EEG Fpz-Cz",
parser.add_argument("--select_ch", type=str, default="EEG Pz-Oz",
help="File path to the trained model used to estimate walking speeds.")
args = parser.parse_args()
# Output dir
if not os.path.exists(args.output_dir):
os.makedirs(args.output_dir)
else:
shutil.rmtree(args.output_dir)
os.makedirs(args.output_dir)
# Select channel
select_ch = args.select_ch
# Read raw and annotation EDF files
psg_fnames = glob.glob(os.path.join(args.data_dir, "*PSG.edf"))
ann_fnames = glob.glob(os.path.join(args.data_dir, "*Hypnogram.edf"))
psg_fnames.sort()
ann_fnames.sort()
psg_fnames = np.asarray(psg_fnames)
ann_fnames = np.asarray(ann_fnames)
for i in range(len(psg_fnames)):
# if not "ST7171J0-PSG.edf" in psg_fnames[i]:
# continue
raw = read_raw_edf(psg_fnames[i], preload=True, stim_channel=None)
sampling_rate = raw.info['sfreq']
raw_ch_df = raw.to_data_frame(scaling_time=100.0)[select_ch]
raw_ch_df = raw_ch_df.to_frame()
raw_ch_df.set_index(np.arange(len(raw_ch_df)))
# Get raw header
f = open(psg_fnames[i], 'r', encoding='iso-8859-1')
reader_raw = dhedfreader.BaseEDFReader(f)
reader_raw.read_header()
h_raw = reader_raw.header
f.close()
raw_start_dt = datetime.strptime(h_raw['date_time'], "%Y-%m-%d %H:%M:%S")
# Read annotation and its header
f = open(ann_fnames[i], 'r', encoding='iso-8859-1')
reader_ann = dhedfreader.BaseEDFReader(f)
reader_ann.read_header()
h_ann = reader_ann.header
_, _, ann = list(zip(*reader_ann.records()))
f.close()
ann_start_dt = datetime.strptime(h_ann['date_time'], "%Y-%m-%d %H:%M:%S")
# Assert that raw and annotation files start at the same time
assert raw_start_dt == ann_start_dt
# Generate label and remove indices
remove_idx = [] # indicies of the data that will be removed
labels = [] # indicies of the data that have labels
label_idx = []
for a in ann[0]:
onset_sec, duration_sec, ann_char = a
ann_str = "".join(ann_char)
label = ann2label[ann_str]
if label != UNKNOWN:
if duration_sec % EPOCH_SEC_SIZE != 0:
raise Exception("Something wrong")
duration_epoch = int(duration_sec / EPOCH_SEC_SIZE)
label_epoch = np.ones(duration_epoch, dtype=np.int) * label
labels.append(label_epoch)
idx = int(onset_sec * sampling_rate) + np.arange(duration_sec * sampling_rate, dtype=np.int)
label_idx.append(idx)
print("Include onset:{}, duration:{}, label:{} ({})".format(
onset_sec, duration_sec, label, ann_str
))
else:
idx = int(onset_sec * sampling_rate) + np.arange(duration_sec * sampling_rate, dtype=np.int)
remove_idx.append(idx)
print("Remove onset:{}, duration:{}, label:{} ({})".format(
onset_sec, duration_sec, label, ann_str
))
labels = np.hstack(labels)
print("before remove unwanted: {}".format(np.arange(len(raw_ch_df)).shape))
if len(remove_idx) > 0:
remove_idx = np.hstack(remove_idx)
select_idx = np.setdiff1d(np.arange(len(raw_ch_df)), remove_idx)
else:
select_idx = np.arange(len(raw_ch_df))
print("after remove unwanted: {}".format(select_idx.shape))
# Select only the data with labels
print("before intersect label: {}".format(select_idx.shape))
label_idx = np.hstack(label_idx)
select_idx = np.intersect1d(select_idx, label_idx)
print("after intersect label: {}".format(select_idx.shape))
# Remove extra index
if len(label_idx) > len(select_idx):
print("before remove extra labels: {}, {}".format(select_idx.shape, labels.shape))
extra_idx = np.setdiff1d(label_idx, select_idx)
# Trim the tail
if np.all(extra_idx > select_idx[-1]):
# n_trims = len(select_idx) % int(EPOCH_SEC_SIZE * sampling_rate)
# n_label_trims = int(math.ceil(n_trims / (EPOCH_SEC_SIZE * sampling_rate)))
n_label_trims = int(math.ceil(len(extra_idx) / (EPOCH_SEC_SIZE * sampling_rate)))
if n_label_trims!=0:
# select_idx = select_idx[:-n_trims]
labels = labels[:-n_label_trims]
print("after remove extra labels: {}, {}".format(select_idx.shape, labels.shape))
# Remove movement and unknown stages if any
raw_ch = raw_ch_df.values[select_idx]
# Verify that we can split into 30-s epochs
if len(raw_ch) % (EPOCH_SEC_SIZE * sampling_rate) != 0:
raise Exception("Something wrong")
n_epochs = len(raw_ch) / (EPOCH_SEC_SIZE * sampling_rate)
# Get epochs and their corresponding labels
x = np.asarray(np.split(raw_ch, n_epochs)).astype(np.float32)
y = labels.astype(np.int32)
assert len(x) == len(y)
# Select on sleep periods
w_edge_mins = 30
nw_idx = np.where(y != stage_dict["W"])[0]
start_idx = nw_idx[0] - (w_edge_mins * 2)
end_idx = nw_idx[-1] + (w_edge_mins * 2)
if start_idx < 0: start_idx = 0
if end_idx >= len(y): end_idx = len(y) - 1
select_idx = np.arange(start_idx, end_idx+1)
print(("Data before selection: {}, {}".format(x.shape, y.shape)))
x = x[select_idx]
y = y[select_idx]
print(("Data after selection: {}, {}".format(x.shape, y.shape)))
# Save
filename = ntpath.basename(psg_fnames[i]).replace("-PSG.edf", ".npz")
save_dict = {
"x": x,
"y": y,
"fs": sampling_rate,
"ch_label": select_ch,
"header_raw": h_raw,
"header_annotation": h_ann,
}
np.savez(os.path.join(args.output_dir, filename), **save_dict)
print("\n=======================================\n")
if __name__ == "__main__":
main()