319 lines
10 KiB
Python
319 lines
10 KiB
Python
from collections.abc import Collection
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import numpy as np
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import pandas as pd
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from config.models import ESM, Participant
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from features import helper
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from setup import db_engine, session
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ESM_STATUS_ANSWERED = 2
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GROUP_SESSIONS_BY = ["participant_id", "device_id", "esm_session"]
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SESSION_STATUS_UNANSWERED = "ema_unanswered"
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SESSION_STATUS_DAY_FINISHED = "day_finished"
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SESSION_STATUS_COMPLETE = "ema_completed"
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ANSWER_DAY_FINISHED = "DayFinished3421"
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ANSWER_DAY_OFF = "DayOff3421"
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ANSWER_SET_EVENING = "DayFinishedSetEvening"
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MAX_MORNING_LENGTH = 3
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# When the participant was not yet at work at the time of the first (morning) EMA,
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# only three items were answered.
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# Two sleep related items and one indicating NOT starting work yet.
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# Daytime EMAs are all longer, in fact they always consist of at least 6 items.
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QUESTIONNAIRE_IDS = {
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"sleep_quality": 1,
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"PANAS_positive_affect": 8,
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"PANAS_negative_affect": 9,
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"JCQ_job_demand": 10,
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"JCQ_job_control": 11,
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"JCQ_supervisor_support": 12,
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"JCQ_coworker_support": 13,
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"PFITS_supervisor": 14,
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"PFITS_coworkers": 15,
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"UWES_vigor": 16,
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"UWES_dedication": 17,
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"UWES_absorption": 18,
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"COPE_active": 19,
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"COPE_support": 20,
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"COPE_emotions": 21,
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"balance_life_work": 22,
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"balance_work_life": 23,
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"recovery_experience_detachment": 24,
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"recovery_experience_relaxation": 25,
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"symptoms": 26,
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"appraisal_stressfulness_event": 87,
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"appraisal_threat": 88,
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"appraisal_challenge": 89,
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"appraisal_event_time": 90,
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"appraisal_event_duration": 91,
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"appraisal_event_work_related": 92,
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"appraisal_stressfulness_period": 93,
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"late_work": 94,
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"work_hours": 95,
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"left_work": 96,
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"activities": 97,
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"coffee_breaks": 98,
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"at_work_yet": 99,
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}
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def get_esm_data(usernames: Collection) -> pd.DataFrame:
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"""
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Read the data from the esm table and return it in a dataframe.
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Parameters
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----------
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usernames: Collection
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A list of usernames to put into the WHERE condition.
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Returns
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-------
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df_esm: pd.DataFrame
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A dataframe of esm data.
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"""
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query_esm = (
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session.query(ESM, Participant.username)
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.filter(Participant.id == ESM.participant_id)
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.filter(Participant.username.in_(usernames))
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)
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with db_engine.connect() as connection:
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df_esm = pd.read_sql(query_esm.statement, connection)
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return df_esm
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def preprocess_esm(df_esm: pd.DataFrame) -> pd.DataFrame:
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"""
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Convert timestamps and expand JSON column.
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Convert timestamps into human-readable datetimes and dates
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and expand the JSON column into several Pandas DF columns.
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Parameters
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----------
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df_esm: pd.DataFrame
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A dataframe of esm data.
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Returns
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-------
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df_esm_preprocessed: pd.DataFrame
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A dataframe with added columns: datetime in Ljubljana timezone
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and all fields from ESM_JSON column.
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"""
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df_esm = helper.get_date_from_timestamp(df_esm)
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df_esm_json = pd.json_normalize(df_esm["esm_json"]).drop(
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columns=["esm_trigger"]
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) # The esm_trigger column is already present in the main df.
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return df_esm.join(df_esm_json)
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def classify_sessions_by_completion(df_esm_preprocessed: pd.DataFrame) -> pd.DataFrame:
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"""
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For each distinct EMA session, determine how the participant responded to it.
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Possible outcomes are: SESSION_STATUS_UNANSWERED, SESSION_STATUS_DAY_FINISHED,
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and SESSION_STATUS_COMPLETE
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This is done in three steps.
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First, the esm_status is considered.
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If any of the ESMs in a session has a status *other than* "answered",
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then this session is taken as unfinished.
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Second, the sessions which do not represent full questionnaires are identified.
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These are sessions where participants only marked they are finished with the day
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or have not yet started working.
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Third, the sessions with only one item are marked with their trigger.
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We never offered questionnaires with single items,
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so we can be sure these are unfinished.
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Finally, all sessions that remain are marked as completed.
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By going through different possibilities in expl_esm_adherence.ipynb,
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this turned out to be a reasonable option.
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Parameters
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----------
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df_esm_preprocessed: pd.DataFrame
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A preprocessed dataframe of esm data,
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which must include the session ID (esm_session).
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Returns
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-------
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df_session_counts: pd.Dataframe
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A dataframe of all sessions (grouped by GROUP_SESSIONS_BY)
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with their statuses and the number of items.
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"""
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sessions_grouped = df_esm_preprocessed.groupby(GROUP_SESSIONS_BY)
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# 0. First, assign all session statuses as NaN.
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df_session_counts = pd.DataFrame(sessions_grouped.count()["id"]).rename(
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columns={"id": "esm_session_count"}
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)
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df_session_counts["session_response"] = np.nan
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# 1. Identify all ESMs with status other than answered.
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esm_not_answered = sessions_grouped.apply(
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lambda x: (x.esm_status != ESM_STATUS_ANSWERED).any()
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)
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df_session_counts.loc[
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esm_not_answered, "session_response"
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] = SESSION_STATUS_UNANSWERED
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# 2. Identify non-sessions, i.e. answers about the end of the day.
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non_session = sessions_grouped.apply(
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lambda x: (
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(x.esm_user_answer == ANSWER_DAY_FINISHED) # I finished working for today.
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| (x.esm_user_answer == ANSWER_DAY_OFF) # I am not going to work today.
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| (
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x.esm_user_answer == ANSWER_SET_EVENING
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) # When would you like to answer the evening EMA?
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).any()
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)
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df_session_counts.loc[non_session, "session_response"] = SESSION_STATUS_DAY_FINISHED
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# 3. Identify sessions appearing only once, as those were not true EMAs for sure.
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singleton_sessions = (df_session_counts.esm_session_count == 1) & (
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df_session_counts.session_response.isna()
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)
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df_session_1 = df_session_counts[singleton_sessions]
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df_esm_unique_session = df_session_1.join(
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df_esm_preprocessed.set_index(GROUP_SESSIONS_BY), how="left"
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)
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df_esm_unique_session = df_esm_unique_session.assign(
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session_response=lambda x: x.esm_trigger
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)["session_response"]
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df_session_counts.loc[
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df_esm_unique_session.index, "session_response"
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] = df_esm_unique_session
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# 4. Mark the remaining sessions as completed.
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df_session_counts.loc[
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df_session_counts.session_response.isna(), "session_response"
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] = SESSION_STATUS_COMPLETE
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return df_session_counts
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def classify_sessions_by_time(df_esm_preprocessed: pd.DataFrame) -> pd.DataFrame:
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"""
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Classify EMA sessions into morning, workday, or evening.
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For each EMA session, determine the time of the first user answer
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and its time type (morning, workday, or evening).
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Parameters
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----------
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df_esm_preprocessed: pd.DataFrame
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A preprocessed dataframe of esm data,
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which must include the session ID (esm_session).
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Returns
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-------
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df_session_time: pd.DataFrame
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A dataframe of all sessions (grouped by GROUP_SESSIONS_BY)
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with their time type and timestamp of first answer.
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"""
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df_session_time = (
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df_esm_preprocessed.sort_values(["participant_id", "datetime_lj"])
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.groupby(GROUP_SESSIONS_BY)
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.first()[["time", "datetime_lj"]]
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)
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return df_session_time
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def classify_sessions_by_completion_time(
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df_esm_preprocessed: pd.DataFrame,
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) -> pd.DataFrame:
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"""
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Classify sessions and correct the time type.
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The point of this function is to not only classify sessions
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by using the previously defined functions.
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It also serves to "correct" the time type of some EMA sessions.
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A morning questionnaire could seamlessly transition into a daytime questionnaire,
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if the participant was already at work.
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In this case, the "time" label changed mid-session.
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Because of the way classify_sessions_by_time works,
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this questionnaire was classified as "morning".
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But for all intents and purposes, it can be treated as a "daytime" EMA.
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The way this scenario is differentiated from a true "morning" questionnaire,
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where the participants NOT yet at work, is by considering their length.
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Parameters
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----------
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df_esm_preprocessed: pd.DataFrame
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A preprocessed dataframe of esm data,
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which must include the session ID (esm_session).
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Returns
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-------
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df_session_counts_time: pd.DataFrame
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A dataframe of all sessions (grouped by GROUP_SESSIONS_BY) with statuses,
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the number of items,
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their time type (with some morning EMAs reclassified)
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and timestamp of first answer.
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"""
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df_session_counts = classify_sessions_by_completion(df_esm_preprocessed)
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df_session_time = classify_sessions_by_time(df_esm_preprocessed)
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df_session_counts_time = df_session_time.join(df_session_counts)
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morning_transition_to_daytime = (df_session_counts_time.time == "morning") & (
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df_session_counts_time.esm_session_count > MAX_MORNING_LENGTH
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)
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df_session_counts_time.loc[morning_transition_to_daytime, "time"] = "daytime"
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return df_session_counts_time
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def clean_up_esm(df_esm_preprocessed: pd.DataFrame) -> pd.DataFrame:
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"""
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Eliminate invalid ESM responses.
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It removes unanswered ESMs and those that indicate end of work and similar.
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It also extracts a numeric answer from strings such as "4 - I strongly agree".
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Parameters
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----------
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df_esm_preprocessed: pd.DataFrame
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A preprocessed dataframe of esm data.
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Returns
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-------
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df_esm_clean: pd.DataFrame
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A subset of the original dataframe.
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"""
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df_esm_clean = df_esm_preprocessed[
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df_esm_preprocessed["esm_status"] == ESM_STATUS_ANSWERED
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]
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df_esm_clean = df_esm_clean[
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~df_esm_clean["esm_user_answer"].isin(
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[ANSWER_DAY_FINISHED, ANSWER_DAY_OFF, ANSWER_SET_EVENING]
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)
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]
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df_esm_clean["esm_user_answer_numeric"] = np.nan
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esm_type_numeric = [
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ESM.ESM_TYPE.get("radio"),
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ESM.ESM_TYPE.get("scale"),
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ESM.ESM_TYPE.get("number"),
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]
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df_esm_clean.loc[
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df_esm_clean["esm_type"].isin(esm_type_numeric)
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] = df_esm_clean.loc[df_esm_clean["esm_type"].isin(esm_type_numeric)].assign(
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esm_user_answer_numeric=lambda x: x.esm_user_answer.str.slice(stop=1).astype(
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int
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)
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)
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return df_esm_clean
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