Enable reading features from csv files.
parent
af9e81fe40
commit
28699a0fdf
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@ -20,6 +20,8 @@ import importlib
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import os
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import sys
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import numpy as np
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import pandas as pd
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import seaborn as sns
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import yaml
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from sklearn import linear_model
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@ -37,7 +39,7 @@ import machine_learning.model
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import participants.query_db
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from features import esm, helper, proximity
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# %% [markdown]
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# %% [markdown] tags=[]
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# # 1. Get the relevant data
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# %%
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@ -47,7 +49,7 @@ participants_inactive_usernames = participants.query_db.get_usernames(
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# Consider only two participants to simplify.
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ptcp_2 = participants_inactive_usernames[0:2]
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# %% [markdown]
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# %% [markdown] jp-MarkdownHeadingCollapsed=true tags=[]
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# ## 1.1 Labels
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# %%
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@ -98,7 +100,7 @@ df_esm_PANAS_daily_means = (
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# %%
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df_proximity_daily_counts = proximity.count_proximity(
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df_proximity, ["participant_id", "date_lj"]
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df_proximity, ["date_lj"]
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)
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# %%
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@ -159,10 +161,10 @@ lin_reg_proximity.score(
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# # Merging these into a pipeline
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# %%
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from machine_learning import pipeline
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from machine_learning import features_sensor, labels, model, pipeline
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# %%
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importlib.reload(pipeline)
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importlib.reload(features_sensor)
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# %%
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with open("../machine_learning/config/minimal_features.yaml", "r") as file:
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@ -192,10 +194,22 @@ sensor_features.set_sensor_data()
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sensor_features.get_sensor_data("proximity")
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# %%
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sensor_features.calculate_features()
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sensor_features.calculate_features(cached=False)
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features_all_calculated = sensor_features.get_features("all", "all")
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# %%
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sensor_features.get_features("all", "all")
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sensor_features.calculate_features(cached=True)
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features_all_read = sensor_features.get_features("all", "all")
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# %%
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features_all_read = features_all_read.reset_index()
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features_all_read["date_lj"] = features_all_read["date_lj"].dt.date
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features_all_read.set_index(["participant_id", "date_lj"], inplace=True)
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# date_lj column is parsed as a date and represented as Timestamp, when read from csv.
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# When calculated, it is represented as date.
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# %%
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np.isclose(features_all_read, features_all_calculated).all()
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# %%
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with open("../machine_learning/config/minimal_labels.yaml", "r") as file:
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@ -128,35 +128,69 @@ class SensorFeatures:
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else:
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raise KeyError("This data type has not been implemented.")
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def calculate_features(self):
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def calculate_features(self, cached=True):
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print("Calculating features ...")
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if not self.participants_label:
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raise ValueError(WARNING_PARTICIPANTS_LABEL)
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self.df_features_all = pd.DataFrame()
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if "proximity" in self.data_types:
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self.df_proximity_counts = proximity.count_proximity(
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self.df_proximity, self.grouping_variable
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)
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self.df_features_all = safe_outer_merge_on_index(
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self.df_features_all, self.df_proximity_counts
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)
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print("Calculated proximity features.")
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to_csv_with_settings(
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self.df_proximity, self.folder, self.filename_prefix, data_type="prox"
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)
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try:
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if not cached: # Do not use the file, even if it exists.
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raise FileNotFoundError
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self.df_proximity_counts = read_csv_with_settings(
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self.folder,
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self.filename_prefix,
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data_type="prox",
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grouping_variable=self.grouping_variable,
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)
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print("Read proximity features from the file.")
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except FileNotFoundError:
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# We need to recalculate the features in this case.
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self.df_proximity_counts = proximity.count_proximity(
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self.df_proximity, self.grouping_variable
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)
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print("Calculated proximity features.")
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to_csv_with_settings(
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self.df_proximity_counts,
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self.folder,
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self.filename_prefix,
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data_type="prox",
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)
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finally:
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self.df_features_all = safe_outer_merge_on_index(
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self.df_features_all, self.df_proximity_counts
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)
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if "communication" in self.data_types:
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self.df_calls_sms = communication.calls_sms_features(
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df_calls=self.df_calls,
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df_sms=self.df_sms,
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group_by=self.grouping_variable,
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)
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self.df_features_all = safe_outer_merge_on_index(
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self.df_features_all, self.df_calls_sms
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)
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print("Calculated communication features.")
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to_csv_with_settings(
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self.df_calls_sms, self.folder, self.filename_prefix, data_type="comm"
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)
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try:
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if not cached: # Do not use the file, even if it exists.
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raise FileNotFoundError
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self.df_calls_sms = read_csv_with_settings(
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self.folder,
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self.filename_prefix,
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data_type="comm",
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grouping_variable=self.grouping_variable,
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)
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print("Read communication features from the file.")
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except FileNotFoundError:
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# We need to recalculate the features in this case.
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self.df_calls_sms = communication.calls_sms_features(
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df_calls=self.df_calls,
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df_sms=self.df_sms,
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group_by=self.grouping_variable,
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)
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print("Calculated communication features.")
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to_csv_with_settings(
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self.df_calls_sms,
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self.folder,
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self.filename_prefix,
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data_type="comm",
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)
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finally:
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self.df_features_all = safe_outer_merge_on_index(
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self.df_features_all, self.df_calls_sms
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)
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self.df_features_all.fillna(
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value=proximity.FILL_NA_PROXIMITY, inplace=True, downcast="infer",
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@ -211,14 +245,35 @@ def safe_outer_merge_on_index(left, right):
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def to_csv_with_settings(
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df: pd.DataFrame, folder: Path, filename_prefix: str, data_type: str
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) -> None:
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export_filename = filename_prefix + "_" + data_type + ".csv"
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full_path = folder / export_filename
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full_path = construct_full_path(folder, filename_prefix, data_type)
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df.to_csv(
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path_or_buf=full_path,
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sep=",",
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na_rep="NA",
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header=True,
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index=False,
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index=True,
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encoding="utf-8",
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)
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print("Exported the dataframe to " + str(full_path))
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def read_csv_with_settings(
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folder: Path, filename_prefix: str, data_type: str, grouping_variable: list
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) -> pd.DataFrame:
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full_path = construct_full_path(folder, filename_prefix, data_type)
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return pd.read_csv(
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filepath_or_buffer=full_path,
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sep=",",
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header=0,
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na_values="NA",
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encoding="utf-8",
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index_col=(["participant_id"] + grouping_variable),
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parse_dates=True,
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infer_datetime_format=True,
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)
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def construct_full_path(folder: Path, filename_prefix: str, data_type: str) -> Path:
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export_filename = filename_prefix + "_" + data_type + ".csv"
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full_path = folder / export_filename
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return full_path
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