85 lines
5.1 KiB
Python
85 lines
5.1 KiB
Python
import pandas as pd
|
|
from datetime import datetime, timedelta, time
|
|
|
|
SEGMENT = {"night": 0, "morning": 1, "afternoon": 2, "evening": 3}
|
|
EPOCH_TIMES = {"night": [0,5], "morning": [6,11], "afternoon": [12,17], "evening": [18,23]}
|
|
|
|
def truncateTime(df, segment_column, new_day_segment, datetime_column, date_column, new_time):
|
|
df.loc[:, segment_column] = new_day_segment
|
|
df.loc[:, datetime_column] = df[date_column].apply(lambda date: datetime.combine(date, new_time))
|
|
return df
|
|
|
|
# calculate truncated time differences and truncated extra_cols if it is not empty
|
|
def computeTruncatedDifferences(df, extra_cols):
|
|
df["truncated_time_diff"] = df["local_end_date_time"] - df["local_start_date_time"]
|
|
df["truncated_time_diff"] = df["truncated_time_diff"].apply(lambda time: time.total_seconds()/60)
|
|
if extra_cols:
|
|
for extra_col in extra_cols:
|
|
df[extra_col] = df[extra_col] * (df["truncated_time_diff"] / df["time_diff"])
|
|
del df["time_diff"]
|
|
df.rename(columns={"truncated_time_diff": "time_diff"}, inplace=True)
|
|
return df
|
|
|
|
def splitOvernightEpisodes(sensor_deltas, extra_cols, fixed_cols):
|
|
overnight = sensor_deltas[(sensor_deltas["local_start_date"] + timedelta(days=1)) == sensor_deltas["local_end_date"]]
|
|
not_overnight = sensor_deltas[sensor_deltas["local_start_date"] == sensor_deltas["local_end_date"]]
|
|
|
|
if not overnight.empty:
|
|
today = overnight[extra_cols + fixed_cols + ["time_diff", "local_start_date_time", "local_start_date", "local_start_day_segment"]].copy()
|
|
tomorrow = overnight[extra_cols + fixed_cols + ["time_diff", "local_end_date_time", "local_end_date", "local_end_day_segment"]].copy()
|
|
|
|
# truncate the end time of all overnight periods to midnight
|
|
today = truncateTime(today, "local_end_day_segment", "evening", "local_end_date_time", "local_start_date", time(23,59,59))
|
|
today["local_end_date"] = overnight["local_start_date"]
|
|
|
|
# set the start time of all periods after midnight to midnight
|
|
tomorrow = truncateTime(tomorrow, "local_start_day_segment", "night", "local_start_date_time", "local_end_date", time(0,0,0))
|
|
tomorrow["local_start_date"] = overnight["local_end_date"]
|
|
|
|
overnight = pd.concat([today, tomorrow], axis=0, sort=False)
|
|
|
|
# calculate new time_diff and extra_cols for split overnight periods
|
|
overnight = computeTruncatedDifferences(overnight, extra_cols)
|
|
|
|
# sort by local_start_date_time and reset the index
|
|
days = pd.concat([not_overnight, overnight], axis=0, sort=False)
|
|
days = days.sort_values(by=['local_start_date_time']).reset_index(drop=True)
|
|
|
|
return days
|
|
|
|
def splitMultiSegmentEpisodes(sensor_deltas, day_segment, extra_cols):
|
|
# extract episodes that start and end at the same epochs
|
|
exact_segments = sensor_deltas.query("local_start_day_segment == local_end_day_segment and local_start_day_segment == @day_segment").copy()
|
|
|
|
# extract episodes that start and end at different epochs
|
|
across_segments = sensor_deltas.query("local_start_day_segment != local_end_day_segment").copy()
|
|
# 1) if start time is in current day_segment
|
|
start_segment = across_segments[across_segments["local_start_day_segment"] == day_segment].copy()
|
|
if not start_segment.empty:
|
|
start_segment = truncateTime(start_segment, "local_end_day_segment", day_segment, "local_end_date_time", "local_end_date", time(EPOCH_TIMES[day_segment][1],59,59))
|
|
# 2) if end time is in current day_segment
|
|
end_segment = across_segments[across_segments["local_end_day_segment"] == day_segment].copy()
|
|
if not end_segment.empty:
|
|
end_segment = truncateTime(end_segment, "local_start_day_segment", day_segment, "local_start_date_time", "local_start_date", time(EPOCH_TIMES[day_segment][0],0,0))
|
|
# 3) if current episode comtains day_segment
|
|
across_segments.loc[:,"start_segment"] = across_segments["local_start_day_segment"].apply(lambda seg: SEGMENT[seg])
|
|
across_segments.loc[:,"end_segment"] = across_segments["local_end_day_segment"].apply(lambda seg: SEGMENT[seg])
|
|
day_segment_num = SEGMENT[day_segment]
|
|
within_segments = across_segments.query("start_segment < @day_segment_num and end_segment > @day_segment_num")
|
|
del across_segments["start_segment"], across_segments["end_segment"]
|
|
del within_segments["start_segment"], within_segments["end_segment"]
|
|
|
|
if not within_segments.empty:
|
|
within_segments = truncateTime(within_segments, "local_start_day_segment", day_segment, "local_start_date_time", "local_start_date", time(EPOCH_TIMES[day_segment][0],0,0))
|
|
within_segments = truncateTime(within_segments, "local_end_day_segment", day_segment, "local_end_date_time", "local_end_date", time(EPOCH_TIMES[day_segment][1],59,59))
|
|
|
|
across_segments = pd.concat([start_segment, end_segment, within_segments], axis=0, sort=False)
|
|
|
|
if not across_segments.empty:
|
|
accross_segments = computeTruncatedDifferences(across_segments, extra_cols)
|
|
|
|
# sort by local_start_date_time and reset the index
|
|
segments = pd.concat([exact_segments, across_segments], axis=0, sort=False)
|
|
segments = segments.sort_values(by=['local_start_date_time']).reset_index(drop=True)
|
|
|
|
return segments |