191 lines
6.5 KiB
Python
191 lines
6.5 KiB
Python
from collections.abc import Collection
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import pandas as pd
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from config.models import SMS, Call, Participant
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from setup import db_engine, session
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call_types = {1: "incoming", 2: "outgoing", 3: "missed"}
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sms_types = {1: "received", 2: "sent"}
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def get_call_data(usernames: Collection) -> pd.DataFrame:
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"""
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Read the data from the calls 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_calls: pd.DataFrame
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A dataframe of call data.
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"""
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query_calls = (
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session.query(Call, Participant.username)
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.filter(Participant.id == Call.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_calls = pd.read_sql(query_calls.statement, connection)
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return df_calls
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def get_sms_data(usernames: Collection) -> pd.DataFrame:
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"""
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Read the data from the sms 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_sms: pd.DataFrame
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A dataframe of call data.
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"""
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query_sms = (
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session.query(SMS, Participant.username)
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.filter(Participant.id == SMS.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_sms = pd.read_sql(query_sms.statement, connection)
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return df_sms
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def enumerate_contacts(comm_df: pd.DataFrame) -> pd.DataFrame:
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"""
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Count contacts (callers, senders) and enumerate them by their frequency.
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Parameters
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----------
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comm_df: pd.DataFrame
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A dataframe of calls or SMSes.
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Returns
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-------
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comm_df: pd.DataFrame
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The altered dataframe with the column contact_id, arranged by frequency.
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"""
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contact_counts = (
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comm_df.groupby(
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["participant_id", "trace"]
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) # We want to count rows by participant_id and trace
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.size() # Count rows
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.reset_index() # Make participant_id a regular column.
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.rename(columns={0: "freq"})
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.sort_values(["participant_id", "freq"], ascending=False)
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# First sort by participant_id and then by call frequency.
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)
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# We now have a frequency table of different traces (contacts) *within* each participant_id.
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# Next, enumerate these contacts.
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# In other words, recode the contacts into integers from 0 to n_contacts,
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# so that the first one is contacted the most often.
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contact_ids = (
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contact_counts.groupby("participant_id") # Group again for enumeration.
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.cumcount() # Enumerate (count) rows *within* participants.
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.to_frame("contact_id")
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)
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contact_counts = contact_counts.join(contact_ids)
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# Add these contact_ids to the temporary (grouped) data frame.
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comm_df = comm_df.merge(contact_counts, on=["participant_id", "trace"])
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# Add these contact_ids to the original data frame.
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return comm_df
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def count_comms(comm_df: pd.DataFrame) -> pd.DataFrame:
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"""
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Calculate frequencies (and duration) of messages (or calls), grouped by their types.
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Parameters
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----------
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comm_df: pd.DataFrame
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A dataframe of calls or SMSes.
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Returns
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-------
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comm_features: pd.DataFrame
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A list of communication features for every participant.
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These are:
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* the number of calls by type (incoming, outgoing missed) and in total,
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* the ratio of incoming and outgoing calls to the total number of calls,
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* the total and maximum duration of calls by type, and
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* the number of messages by type (received, sent).
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"""
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if "call_type" in comm_df:
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comm_counts = (
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comm_df.value_counts(subset=["participant_id", "call_type"])
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.unstack()
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.rename(columns=call_types)
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.add_prefix("no_")
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)
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# Count calls by type.
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comm_counts["no_all"] = comm_counts.sum(axis=1)
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# Add a total count of calls.
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comm_counts = comm_counts.assign(
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no_incoming_ratio=lambda x: x.no_incoming / x.no_all,
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no_outgoing_ratio=lambda x: x.no_outgoing / x.no_all,
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)
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# Ratio of incoming and outgoing calls to all calls.
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comm_duration_total = (
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comm_df.groupby(["participant_id", "call_type"])
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.sum()["call_duration"]
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.unstack()
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.rename(columns=call_types)
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.add_prefix("duration_total_")
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)
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# Total call duration by type.
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comm_duration_max = (
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comm_df.groupby(["participant_id", "call_type"])
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.max()["call_duration"]
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.unstack()
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.rename(columns=call_types)
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.add_prefix("duration_max_")
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)
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# Max call duration by type
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comm_features = comm_counts.join(comm_duration_total)
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comm_features = comm_features.join(comm_duration_max)
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try:
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comm_features.drop(columns="duration_total_" + call_types[3], inplace=True)
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comm_features.drop(columns="duration_max_" + call_types[3], inplace=True)
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# The missed calls are always of 0 duration.
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except KeyError:
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pass
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# If there were no missed calls, this exception is raised.
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# But we are dropping the column anyway, so no need to deal with the exception.
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elif "message_type" in comm_df:
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comm_counts = (
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comm_df.value_counts(subset=["participant_id", "message_type"])
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.unstack()
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.rename(columns=sms_types)
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.add_prefix("no_")
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)
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comm_counts["no_all"] = comm_counts.sum(axis=1)
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# Add a total count of messages.
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comm_features = comm_counts.assign(
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no_received_ratio=lambda x: x.no_received / x.no_all,
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no_sent_ratio=lambda x: x.no_sent / x.no_all,
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)
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# Ratio of incoming and outgoing messages to all messages.
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else:
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raise KeyError("The dataframe contains neither call_type or message_type")
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return comm_features
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def contact_features():
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# TODO Implement a method that takes a DF with enumerated contacts as argument and calculates:
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# * Duration of calls per caller (for most common callers)
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# * Determine work vs non-work contacts by work hours heuristics
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# * Numer of people contacted
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# And similarly for SMS.
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pass
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def calls_sms_features():
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# TODO Relate the calls and sms data, such as comparing the number of (missed) calls and messages.
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pass
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