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irregular_sampled_datasets.py
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irregular_sampled_datasets.py
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# Copyright 2021 The ODE-LSTM Authors. All Rights Reserved.
import numpy as np
import os
import tensorflow as tf
from tqdm import tqdm
class Walker2dImitationData:
def __init__(self, seq_len):
self.seq_len = seq_len
all_files = sorted(
[
os.path.join("data/walker", d)
for d in os.listdir("data/walker")
if d.endswith(".npy")
]
)
self.rng = np.random.RandomState(891374)
np.random.RandomState(125487).shuffle(all_files)
# 15% test set, 10% validation set, the rest is for training
test_n = int(0.15 * len(all_files))
valid_n = int((0.15 + 0.1) * len(all_files))
test_files = all_files[:test_n]
valid_files = all_files[test_n:valid_n]
train_files = all_files[valid_n:]
train_x, train_t, train_y = self._load_files(train_files)
valid_x, valid_t, valid_y = self._load_files(valid_files)
test_x, test_t, test_y = self._load_files(test_files)
train_x, train_t, train_y = self.perturb_sequences(train_x, train_t, train_y)
valid_x, valid_t, valid_y = self.perturb_sequences(valid_x, valid_t, valid_y)
test_x, test_t, test_y = self.perturb_sequences(test_x, test_t, test_y)
self.train_x, self.train_times, self.train_y = self.align_sequences(
train_x, train_t, train_y
)
self.valid_x, self.valid_times, self.valid_y = self.align_sequences(
valid_x, valid_t, valid_y
)
self.test_x, self.test_times, self.test_y = self.align_sequences(
test_x, test_t, test_y
)
self.input_size = self.train_x.shape[-1]
print("train_times: ", str(self.train_times.shape))
print("train_x: ", str(self.train_x.shape))
print("train_y: ", str(self.train_y.shape))
def align_sequences(self, set_x, set_t, set_y):
times = []
x = []
y = []
for i in range(len(set_y)):
seq_x = set_x[i]
seq_t = set_t[i]
seq_y = set_y[i]
for t in range(0, seq_y.shape[0] - self.seq_len, self.seq_len // 4):
x.append(seq_x[t : t + self.seq_len])
times.append(seq_t[t : t + self.seq_len])
y.append(seq_y[t : t + self.seq_len])
return (
np.stack(x, axis=0),
np.expand_dims(np.stack(times, axis=0), axis=-1),
np.stack(y, axis=0),
)
def perturb_sequences(self, set_x, set_t, set_y):
x = []
times = []
y = []
for i in range(len(set_y)):
seq_x = set_x[i]
seq_y = set_y[i]
new_x, new_times = [], []
new_y = []
skip = 0
for t in range(seq_y.shape[0]):
skip += 1
if self.rng.rand() < 0.9:
new_x.append(seq_x[t])
new_times.append(skip)
new_y.append(seq_y[t])
skip = 0
x.append(np.stack(new_x, axis=0))
times.append(np.stack(new_times, axis=0))
y.append(np.stack(new_y, axis=0))
return x, times, y
def _load_files(self, files):
all_x = []
all_t = []
all_y = []
for f in files:
arr = np.load(f)
x_state = arr[:-1, :].astype(np.float32)
y = arr[1:, :].astype(np.float32)
x_times = np.ones(x_state.shape[0])
all_x.append(x_state)
all_t.append(x_times)
all_y.append(y)
print("Loaded file '{}' of length {:d}".format(f, x_state.shape[0]))
return all_x, all_t, all_y
class ETSMnistData:
def __init__(self, time_major, pad_size=256):
self.threshold = 128
self.pad_size = pad_size
if not self.load_from_cache():
self.create_dataset()
self.train_elapsed /= self.pad_size
self.test_elapsed /= self.pad_size
def load_from_cache(self):
if os.path.isfile("dataset/test_mask.npy"):
self.train_events = np.load("dataset/train_events.npy")
self.train_elapsed = np.load("dataset/train_elapsed.npy")
self.train_mask = np.load("dataset/train_mask.npy")
self.train_y = np.load("dataset/train_y.npy")
self.test_events = np.load("dataset/test_events.npy")
self.test_elapsed = np.load("dataset/test_elapsed.npy")
self.test_mask = np.load("dataset/test_mask.npy")
self.test_y = np.load("dataset/test_y.npy")
print("train_events.shape: ", str(self.train_events.shape))
print("train_elapsed.shape: ", str(self.train_elapsed.shape))
print("train_mask.shape: ", str(self.train_mask.shape))
print("train_y.shape: ", str(self.train_y.shape))
print("test_events.shape: ", str(self.test_events.shape))
print("test_elapsed.shape: ", str(self.test_elapsed.shape))
print("test_mask.shape: ", str(self.test_mask.shape))
print("test_y.shape: ", str(self.test_y.shape))
return True
return False
def transform_sample(self, x):
x = x.flatten()
events = np.zeros([self.pad_size, 1], dtype=np.float32)
elapsed = np.zeros([self.pad_size, 1], dtype=np.float32)
mask = np.zeros([self.pad_size], dtype=np.bool)
last_char = -1
write_index = 0
elapsed_counter = 0
for i in range(x.shape[0]):
elapsed_counter += 1
char = int(x[i] > self.threshold)
if last_char != char:
events[write_index] = char
elapsed[write_index] = elapsed_counter
mask[write_index] = True
write_index += 1
if write_index >= self.pad_size:
# Enough 1s in this sample, abort
self._abort_counter += 1
break
elapsed_counter = 0
last_char = char
self._all_lenghts.append(write_index)
return events, elapsed, mask
def transform_array(self, x):
events_list = []
elapsed_list = []
mask_list = []
for i in tqdm(range(x.shape[0])):
events, elapsed, mask = self.transform_sample(x[i])
events_list.append(events)
elapsed_list.append(elapsed)
mask_list.append(mask)
return (
np.stack(events_list, axis=0),
np.stack(elapsed_list, axis=0),
np.stack(mask_list, axis=0),
)
def create_dataset(self):
(train_x, train_y), (test_x, test_y) = tf.keras.datasets.mnist.load_data()
self._all_lenghts = []
self._abort_counter = 0
train_x = train_x.reshape([-1, 28 * 28])
test_x = test_x.reshape([-1, 28 * 28])
self.train_y = train_y
self.test_y = test_y
print("Transforming training samples")
self.train_events, self.train_elapsed, self.train_mask = self.transform_array(
train_x
)
print("Transforming test samples")
self.test_events, self.test_elapsed, self.test_mask = self.transform_array(
test_x
)
print("Average time-series length: {:0.2f}".format(np.mean(self._all_lenghts)))
print("Abort counter: ", str(self._abort_counter))
os.makedirs("dataset", exist_ok=True)
np.save("dataset/train_events.npy", self.train_events)
np.save("dataset/train_elapsed.npy", self.train_elapsed)
np.save("dataset/train_mask.npy", self.train_mask)
np.save("dataset/train_y.npy", self.train_y)
np.save("dataset/test_events.npy", self.test_events)
np.save("dataset/test_elapsed.npy", self.test_elapsed)
np.save("dataset/test_mask.npy", self.test_mask)
np.save("dataset/test_y.npy", self.test_y)
class PersonData:
class_map = {
"lying down": 0,
"lying": 0,
"sitting down": 1,
"sitting": 1,
"standing up from lying": 2,
"standing up from sitting": 2,
"standing up from sitting on the ground": 2,
"walking": 3,
"falling": 4,
"on all fours": 5,
"sitting on the ground": 6,
}
sensor_ids = {
"010-000-024-033": 0,
"010-000-030-096": 1,
"020-000-033-111": 2,
"020-000-032-221": 3,
}
def __init__(self, seq_len=32):
self.seq_len = seq_len
self.num_classes = 7
all_x, all_t, all_y = self.load_crappy_formated_csv()
all_x, all_t, all_y = self.cut_in_sequences(
all_x, all_t, all_y, seq_len=seq_len, inc=seq_len // 2
)
print("all_x.shape: ", str(all_x.shape))
print("all_t.shape: ", str(all_t.shape))
print("all_y.shape: ", str(all_y.shape))
total_seqs = all_x.shape[0]
print("Total number of sequences: {}".format(total_seqs))
permutation = np.random.RandomState(98841).permutation(total_seqs)
test_size = int(0.2 * total_seqs)
self.test_x = all_x[permutation[:test_size]]
self.test_y = all_y[permutation[:test_size]]
self.test_t = all_t[permutation[:test_size]]
self.train_x = all_x[permutation[test_size:]]
self.train_t = all_t[permutation[test_size:]]
self.train_y = all_y[permutation[test_size:]]
self.feature_size = int(self.train_x.shape[-1])
print("train_x.shape: ", str(self.train_x.shape))
print("train_t.shape: ", str(self.train_t.shape))
print("train_y.shape: ", str(self.train_y.shape))
print("Total number of train sequences: {}".format(self.train_x.shape[0]))
print("Total number of test sequences: {}".format(self.test_x.shape[0]))
def load_crappy_formated_csv(self):
all_x = []
all_y = []
all_t = []
series_x = []
series_t = []
series_y = []
last_millis = None
if not os.path.isfile("data/person/ConfLongDemo_JSI.txt"):
print("ERROR: File 'data/person/ConfLongDemo_JSI.txt' not found")
print("Please execute the command")
print("source download_dataset.sh")
import sys
sys.exit(-1)
with open("data/person/ConfLongDemo_JSI.txt", "r") as f:
current_person = "A01"
for line in f:
arr = line.split(",")
if len(arr) < 6:
break
if arr[0] != current_person:
# Enque and reset
series_x = np.stack(series_x, axis=0)
series_t = np.stack(series_t, axis=0)
series_y = np.array(series_y, dtype=np.int32)
all_x.append(series_x)
all_t.append(series_t)
all_y.append(series_y)
last_millis = None
series_x = []
series_y = []
series_t = []
millis = np.int64(arr[2]) / (100 * 1000)
# 100ms will be normalized to 1.0
millis_mapped_to_1 = 10.0
if last_millis is None:
elasped_sec = 0.05
else:
elasped_sec = float(millis - last_millis) / 1000.0
elasped = elasped_sec * 1000 / millis_mapped_to_1
last_millis = millis
current_person = arr[0]
sensor_id = self.sensor_ids[arr[1]]
label_col = self.class_map[arr[7].replace("\n", "")]
feature_col_2 = np.array(arr[4:7], dtype=np.float32)
# Last 3 entries of the feature vector contain sensor value
# First 4 entries of the feature vector contain sensor ID
feature_col_1 = np.zeros(4, dtype=np.float32)
feature_col_1[sensor_id] = 1
feature_col = np.concatenate([feature_col_1, feature_col_2])
series_x.append(feature_col)
series_t.append(elasped)
series_y.append(label_col)
return all_x, all_t, all_y
def cut_in_sequences(self, all_x, all_t, all_y, seq_len, inc=1):
sequences_x = []
sequences_t = []
sequences_y = []
for i in range(len(all_x)):
x, t, y = all_x[i], all_t[i], all_y[i]
for s in range(0, x.shape[0] - seq_len, inc):
start = s
end = start + seq_len
sequences_x.append(x[start:end])
sequences_t.append(t[start:end])
sequences_y.append(y[start:end])
return (
np.stack(sequences_x, axis=0),
np.stack(sequences_t, axis=0).reshape([-1, seq_len, 1]),
np.stack(sequences_y, axis=0),
)
class XORData:
def __init__(self, time_major, event_based=True, pad_size=24):
self.pad_size = pad_size
self.event_based = event_based
self._abort_counter = 0
if not self.load_from_cache():
self.create_dataset()
self.train_elapsed /= self.pad_size
self.test_elapsed /= self.pad_size
def load_from_cache(self):
if os.path.isfile("dataset/xor_test_y.npy"):
self.train_events = np.load("dataset/xor_train_events.npy")
self.train_elapsed = np.load("dataset/xor_train_elapsed.npy")
self.train_mask = np.load("dataset/xor_train_mask.npy")
self.train_y = np.load("dataset/xor_train_y.npy")
self.test_events = np.load("dataset/xor_test_events.npy")
self.test_elapsed = np.load("dataset/xor_test_elapsed.npy")
self.test_mask = np.load("dataset/xor_test_mask.npy")
self.test_y = np.load("dataset/xor_test_y.npy")
print("train_events.shape: ", str(self.train_events.shape))
print("train_elapsed.shape: ", str(self.train_elapsed.shape))
print("train_mask.shape: ", str(self.train_mask.shape))
print("train_y.shape: ", str(self.train_y.shape))
print("test_events.shape: ", str(self.test_events.shape))
print("test_elapsed.shape: ", str(self.test_elapsed.shape))
print("test_mask.shape: ", str(self.test_mask.shape))
print("test_y.shape: ", str(self.test_y.shape))
return True
return False
def create_event_based_sample(self, rng):
label = 0
events = np.zeros([self.pad_size, 1], dtype=np.float32)
elapsed = np.zeros([self.pad_size, 1], dtype=np.float32)
mask = np.zeros([self.pad_size], dtype=np.bool)
last_char = -1
write_index = 0
elapsed_counter = 0
length = rng.randint(low=2, high=self.pad_size)
for i in range(length):
elapsed_counter += 1
char = int(rng.randint(low=0, high=2))
label += char
if last_char != char:
events[write_index] = char
elapsed[write_index] = elapsed_counter
mask[write_index] = True
write_index += 1
elapsed_counter = 0
if write_index >= self.pad_size - 1:
# Enough 1s in this sample, abort
self._abort_counter += 1
break
last_char = char
if elapsed_counter > 0:
events[write_index] = char
elapsed[write_index] = elapsed_counter
mask[write_index] = True
label = label % 2
return events, elapsed, mask, label
def create_dense_sample(self, rng):
label = 0
events = np.zeros([self.pad_size, 1], dtype=np.float32)
elapsed = np.zeros([self.pad_size, 1], dtype=np.float32)
mask = np.zeros([self.pad_size], dtype=np.bool)
last_char = -1
write_index = 0
elapsed_counter = 0
length = rng.randint(low=2, high=self.pad_size)
for i in range(length):
elapsed_counter += 1
char = int(rng.randint(low=0, high=2))
label += char
events[write_index] = char
elapsed[write_index] = elapsed_counter
mask[write_index] = True
write_index += 1
elapsed_counter = 0
label = label % 2
label2 = int(np.sum(events)) % 2
assert label == label2
return events, elapsed, mask, label
def create_set(self, size, seed):
rng = np.random.RandomState(seed)
events_list = []
elapsed_list = []
mask_list = []
label_list = []
for i in tqdm(range(size)):
if self.event_based:
events, elapsed, mask, label = self.create_event_based_sample(rng)
else:
events, elapsed, mask, label = self.create_dense_sample(rng)
events_list.append(events)
elapsed_list.append(elapsed)
mask_list.append(mask)
label_list.append(label)
return (
np.stack(events_list, axis=0),
np.stack(elapsed_list, axis=0),
np.stack(mask_list, axis=0),
np.stack(label_list, axis=0),
)
def create_dataset(self):
print("Transforming training samples")
(
self.train_events,
self.train_elapsed,
self.train_mask,
self.train_y,
) = self.create_set(100000, 1234984)
print("Transforming test samples")
(
self.test_events,
self.test_elapsed,
self.test_mask,
self.test_y,
) = self.create_set(10000, 48736)
print("train_events.shape: ", str(self.train_events.shape))
print("train_elapsed.shape: ", str(self.train_elapsed.shape))
print("train_mask.shape: ", str(self.train_mask.shape))
print("train_y.shape: ", str(self.train_y.shape))
print("test_events.shape: ", str(self.test_events.shape))
print("test_elapsed.shape: ", str(self.test_elapsed.shape))
print("test_mask.shape: ", str(self.test_mask.shape))
print("test_y.shape: ", str(self.test_y.shape))
print("Abort counter: ", str(self._abort_counter))
os.makedirs("dataset", exist_ok=True)
np.save("dataset/xor_train_events.npy", self.train_events)
np.save("dataset/xor_train_elapsed.npy", self.train_elapsed)
np.save("dataset/xor_train_mask.npy", self.train_mask)
np.save("dataset/xor_train_y.npy", self.train_y)
np.save("dataset/xor_test_events.npy", self.test_events)
np.save("dataset/xor_test_elapsed.npy", self.test_elapsed)
np.save("dataset/xor_test_mask.npy", self.test_mask)
np.save("dataset/xor_test_y.npy", self.test_y)