Merge branch 'master' into run_test_participant

Snakefile

@@ -403,9 +403,10 @@ for provider in config["ALL_CLEANING_OVERALL"]["PROVIDERS"].keys():
     if config["ALL_CLEANING_OVERALL"]["PROVIDERS"][provider]["COMPUTE"]:
         files_to_compute.extend(expand("data/processed/features/all_participants/all_sensor_features_cleaned_" + provider.lower() +".csv"))
 
-# Demographic features
+# Baseline features
 files_to_compute.extend(expand("data/raw/baseline_merged.csv"))
 files_to_compute.extend(expand("data/raw/{pid}/participant_baseline_raw.csv", pid=config["PIDS"]))
+files_to_compute.extend(expand("data/processed/features/{pid}/baseline_features.csv", pid=config["PIDS"]))
 
 rule all:
     input:

config.yaml

@@ -634,5 +634,6 @@ PARAMS_FOR_ANALYSIS:
                 results-survey358134_final.csv,  # Belgium 1
                 results-survey413767_final.csv  # Belgium 2
     ]
+    QUESTION_LIST: survey637813+question_text.csv
     FEATURES: [age, gender, startlanguage]
     CATEGORICAL_FEATURES: [gender]

rules/models.smk

@@ -20,8 +20,10 @@ rule baseline_features:
         "data/raw/{pid}/participant_baseline_raw.csv"
     params:
         pid="{pid}",
-        features=config["PARAMS_FOR_ANALYSIS"]["BASELINE"]["FEATURES"]
+        features=config["PARAMS_FOR_ANALYSIS"]["BASELINE"]["FEATURES"],
+        question_filename=config["PARAMS_FOR_ANALYSIS"]["BASELINE"]["FOLDER"] + "/" + config["PARAMS_FOR_ANALYSIS"]["BASELINE"]["QUESTION_LIST"]
     output:
-        "data/processed/features/{pid}/baseline_features.csv"
+        interim="data/interim/{pid}/baseline_questionnaires.csv",
+        features="data/processed/features/{pid}/baseline_features.csv"
     script:
         "../src/data/baseline_features.py"

src/data/baseline_features.py

@@ -1,23 +1,177 @@
+import numpy as np
 import pandas as pd
 
 pid = snakemake.params["pid"]
 requested_features = snakemake.params["features"]
+baseline_interim = pd.DataFrame(columns=["qid", "question", "score_original", "score"])
 baseline_features = pd.DataFrame(columns=requested_features)
+question_filename = snakemake.params["question_filename"]
+
+JCQ_DEMAND = "JobEisen"
+JCQ_CONTROL = "JobControle"
+
+dict_JCQ_demand_control_reverse = {
+    JCQ_DEMAND: {
+        3: " [Od mene se ne zahteva,",
+        4: " [Imam dovolj časa, da končam",
+        5: " [Pri svojem delu se ne srečujem s konfliktnimi",
+    },
+    JCQ_CONTROL: {
+        2: " |Moje delo vključuje veliko ponavljajočega",
+        6: " [Pri svojem delu imam zelo malo svobode",
+    },
+}
+
+LIMESURVEY_JCQ_MIN = 1
+LIMESURVEY_JCQ_MAX = 4
+
+DEMAND_CONTROL_RATIO_MIN = 5 / (9 * 4)
+DEMAND_CONTROL_RATIO_MAX = (4 * 5) / 9
+
+JCQ_NORMS = {
+    "F": {
+        0: DEMAND_CONTROL_RATIO_MIN,
+        1: 0.45,
+        2: 0.52,
+        3: 0.62,
+        4: DEMAND_CONTROL_RATIO_MAX,
+    },
+    "M": {
+        0: DEMAND_CONTROL_RATIO_MIN,
+        1: 0.41,
+        2: 0.48,
+        3: 0.56,
+        4: DEMAND_CONTROL_RATIO_MAX,
+    },
+}
 
 participant_info = pd.read_csv(snakemake.input[0], parse_dates=["date_of_birth"])
+
 if not participant_info.empty:
     if "age" in requested_features:
         now = pd.Timestamp("now")
         baseline_features.loc[0, "age"] = (
             now - participant_info.loc[0, "date_of_birth"]
-        ).dt.days / 365.25245
+        ).days / 365.25245
     if "gender" in requested_features:
         baseline_features.loc[0, "gender"] = participant_info.loc[0, "gender"]
     if "startlanguage" in requested_features:
         baseline_features.loc[0, "startlanguage"] = participant_info.loc[
             0, "startlanguage"
         ]
+    if (
+        ("demand" in requested_features)
+        or ("control" in requested_features)
+        or ("demand_control_ratio" in requested_features)
+    ):
+        participant_info_t = participant_info.T
+        rows_baseline = participant_info_t.index
 
-baseline_features.to_csv(
-    snakemake.output[0], index=False, encoding="utf-8",
-)
+        if ("demand" in requested_features) or (
+            "demand_control_ratio" in requested_features
+        ):
+            # Find questions about demand, but disregard time (duration of filling in questionnaire)
+            rows_demand = rows_baseline.str.startswith(
+                JCQ_DEMAND
+            ) & ~rows_baseline.str.endswith("Time")
+            limesurvey_demand = (
+                participant_info_t[rows_demand]
+                .reset_index()
+                .rename(columns={"index": "question", 0: "score_original"})
+            )
+            # Extract question IDs from names such as JobEisen[3]
+            limesurvey_demand.loc[:, "qid"] = (
+                limesurvey_demand["question"].str.extract(r"\[(\d+)\]").astype(int)
+            )
+            limesurvey_demand["score"] = limesurvey_demand["score_original"]
+            # Identify rows that include questions to be reversed.
+            rows_demand_reverse = limesurvey_demand["qid"].isin(
+                dict_JCQ_demand_control_reverse[JCQ_DEMAND].keys()
+            )
+            # Reverse the score, so that the maximum value becomes the minimum etc.
+            limesurvey_demand.loc[rows_demand_reverse, "score"] = (
+                LIMESURVEY_JCQ_MAX
+                + LIMESURVEY_JCQ_MIN
+                - limesurvey_demand.loc[rows_demand_reverse, "score_original"]
+            )
+            pd.concat([baseline_interim, limesurvey_demand], axis=0, ignore_index=True)
+            if "demand" in requested_features:
+                baseline_features.loc[0, "limesurvey_demand"] = limesurvey_demand[
+                    "score"
+                ].sum()
+
+        if ("control" in requested_features) or (
+            "demand_control_ratio" in requested_features
+        ):
+            # Find questions about control, but disregard time (duration of filling in questionnaire)
+            rows_control = rows_baseline.str.startswith(
+                JCQ_CONTROL
+            ) & ~rows_baseline.str.endswith("Time")
+            limesurvey_control = (
+                participant_info_t[rows_control]
+                .reset_index()
+                .rename(columns={"index": "question", 0: "score_original"})
+            )
+            # Extract question IDs from names such as JobControle[3]
+            limesurvey_control.loc[:, "qid"] = (
+                limesurvey_control["question"].str.extract(r"\[(\d+)\]").astype(int)
+            )
+            limesurvey_control["score"] = limesurvey_control["score_original"]
+            # Identify rows that include questions to be reversed.
+            rows_control_reverse = limesurvey_control["qid"].isin(
+                dict_JCQ_demand_control_reverse[JCQ_CONTROL].keys()
+            )
+            # Reverse the score, so that the maximum value becomes the minimum etc.
+            limesurvey_control.loc[rows_control_reverse, "score"] = (
+                LIMESURVEY_JCQ_MAX
+                + LIMESURVEY_JCQ_MIN
+                - limesurvey_control.loc[rows_control_reverse, "score_original"]
+            )
+            pd.concat([baseline_interim, limesurvey_control], axis=0, ignore_index=True)
+            if "control" in requested_features:
+                baseline_features.loc[0, "limesurvey_control"] = limesurvey_control[
+                    "score"
+                ].sum()
+
+        if "demand_control_ratio" in requested_features:
+            limesurvey_demand_control_ratio = (
+                limesurvey_demand["score"].sum() / limesurvey_control["score"].sum()
+            )
+            if (
+                JCQ_NORMS[participant_info.loc[0, "gender"]][0]
+                <= limesurvey_demand_control_ratio
+                < JCQ_NORMS[participant_info.loc[0, "gender"]][1]
+            ):
+                limesurvey_quartile = 1
+            elif (
+                JCQ_NORMS[participant_info.loc[0, "gender"]][1]
+                <= limesurvey_demand_control_ratio
+                < JCQ_NORMS[participant_info.loc[0, "gender"]][2]
+            ):
+                limesurvey_quartile = 2
+            elif (
+                JCQ_NORMS[participant_info.loc[0, "gender"]][2]
+                <= limesurvey_demand_control_ratio
+                < JCQ_NORMS[participant_info.loc[0, "gender"]][3]
+            ):
+                limesurvey_quartile = 3
+            elif (
+                JCQ_NORMS[participant_info.loc[0, "gender"]][3]
+                <= limesurvey_demand_control_ratio
+                < JCQ_NORMS[participant_info.loc[0, "gender"]][4]
+            ):
+                limesurvey_quartile = 4
+            else:
+                limesurvey_quartile = np.nan
+
+            baseline_features.loc[
+                0, "limesurvey_demand_control_ratio"
+            ] = limesurvey_demand_control_ratio
+            baseline_features.loc[
+                0, "limesurvey_demand_control_ratio_quartile"
+            ] = limesurvey_quartile
+
+if not baseline_interim.empty:
+    baseline_interim.to_csv(snakemake.output["interim"], index=False, encoding="utf-8")
+
+baseline_features.to_csv(snakemake.output["features"], index=False, encoding="utf-8")