refactoring and demand estimation

experiments/procesing/extract.py

@@ -15,106 +15,98 @@ N_PRICE_BUCKETS = 5
 
 supabase: Client = create_client(SUPABASE_URL, SUPABASE_KEY)
 
-def get_data_from_kafka() -> pd.DataFrame:
-    """fetch all events from backend dump endpoint"""
-    resp = requests.get(f"{BACKEND_URL}/api/kafka/dump")
-    resp.raise_for_status()
-    data = resp.json()
 
-    if not data.get('success') or not data.get('data'):
-        return pd.DataFrame()
-
-    df = pd.DataFrame(data['data'])
-    # explode metadata col json
-    if 'metadata' in df.columns:
-        df = df.join(pd.json_normalize(df.pop("metadata"), sep=".").add_prefix("metadata_"))
-    df = df.dropna(subset=['eventName'])
-    return df
-
-
-def join_with_experiments(df: pd.DataFrame) -> pd.DataFrame:
-    if df.empty or 'experimentId' not in df.columns:
-        return df
-
-    unique_exp_ids = df['experimentId'].dropna().unique()
-    if len(unique_exp_ids) == 0:
-        return df
-
-    resp = supabase.table('experiments').select(
-        'id, subject_name, xp_human_only, xp_market_mode, xp_task_id, task:tasks(task_name, task_description, task_def_of_done)'
-    ).in_('id', unique_exp_ids.tolist()).execute()
-
-    if not resp.data:
-        return df
-
-    exp_df = pd.DataFrame(resp.data)
-
-    # flatten task nested object if present
-    if 'task' in exp_df.columns and exp_df['task'].notnull().any():
-        task_normalized = pd.json_normalize(exp_df['task'].dropna())
-        task_normalized.index = exp_df[exp_df['task'].notnull()].index
-        exp_df = exp_df.drop(columns=['task']).join(task_normalized, rsuffix='_task')
-
-    # rename experiment columns for clarity
-    exp_df = exp_df.rename(columns={
-        'id': 'experimentId',
-        'subject_name': 'exp_subject',
-        'xp_human_only': 'exp_human_only',
-        'xp_market_mode': 'exp_market_mode',
-        'xp_task_id': 'exp_task_id'
-    })
-
-    df = df.merge(exp_df, on='experimentId', how='left')
-    return df
-
-
-def augment_event_titles(df: pd.DataFrame) -> pd.DataFrame:
-    # from taking standard view_item_page in eventName to view_item_page_{metadata_schema}
-    # we want metadata schema to create product specific event names
-
-    # only create price buckets if we have enough unique prices
-    if df["metadata_price"].notnull().sum() > 0:
-        try:
-            price_buckets = pd.qcut(
-                df["metadata_price"],
-                q=N_PRICE_BUCKETS,
-                labels=[f"PB_{i+1}" for i in range(N_PRICE_BUCKETS)],
-                duplicates='drop'  # handle duplicate bin edges
-            )
-        except ValueError:
-            # fallback: if still not enough unique values, use cut with fixed ranges or just use raw price
-            price_buckets = df["metadata_price"].apply(lambda x: f"P_{int(x)}" if pd.notnull(x) else "")
-    else:
-        price_buckets = pd.Series([""] * len(df), index=df.index)
-
-    # metadata_schema: _product_id@price_bucket_{i} only if we have product metadata otherswise keep original event name
-    # TODO: make this adaptive, if we have hover_over_title we append the title, if its view_page we say which page
-    df["metadata_schema"] = np.where(
-        df["productId"].notnull() & df["metadata_price"].notnull(),
-        "_" + df["productId"].astype(str) + "@" + price_buckets.astype(str),
-        ""
-    )
-    df["eventName"] = df["eventName"] + df["metadata_schema"].astype(str)
-    return df
-
-
-def extract() -> pd.DataFrame:
-    df = get_data_from_kafka()
-    df = join_with_experiments(df)
-    df = augment_event_titles(df)
-    return df
-
-
-class DataExtractor(BaseEstimator, TransformerMixin):
+class KafkaDataFetcher(BaseEstimator, TransformerMixin):
     def fit(self, X=None, y=None):
         return self
 
     def transform(self, X=None):
-        return extract()
+        resp = requests.get(f"{BACKEND_URL}/api/kafka/dump")
+        resp.raise_for_status()
+        data = resp.json()
+
+        if not data.get('success') or not data.get('data'):
+            return pd.DataFrame()
+
+        df = pd.DataFrame(data['data'])
+        # explode metadata col json
+        if 'metadata' in df.columns:
+            df = df.join(pd.json_normalize(df.pop("metadata"), sep=".").add_prefix("metadata_"))
+        df = df.dropna(subset=['eventName'])
+        # remape dateIndex
+        df['dateIndex'] = df['metadata_dateIndex'].astype('Int64')
+        return df
 
 
-if __name__ == "__main__":
-    df = extract()
-    print(df.head())
-    print(df.tail())
-    print(df.info())
+class ExperimentJoiner(BaseEstimator, TransformerMixin):
+    def fit(self, X=None, y=None):
+        return self
+
+    def transform(self, df):
+        if df.empty or 'experimentId' not in df.columns:
+            return df
+
+        unique_exp_ids = df['experimentId'].dropna().unique()
+        if len(unique_exp_ids) == 0:
+            return df
+
+        resp = supabase.table('experiments').select(
+            'id, subject_name, xp_human_only, xp_market_mode, xp_task_id, task:tasks(task_name, task_description, task_def_of_done)'
+        ).in_('id', unique_exp_ids.tolist()).execute()
+
+        if not resp.data:
+            return df
+
+        exp_df = pd.DataFrame(resp.data)
+
+        # flatten task nested object if present
+        if 'task' in exp_df.columns and exp_df['task'].notnull().any():
+            task_normalized = pd.json_normalize(exp_df['task'].dropna())
+            task_normalized.index = exp_df[exp_df['task'].notnull()].index
+            exp_df = exp_df.drop(columns=['task']).join(task_normalized, rsuffix='_task')
+
+        # rename experiment columns for clarity
+        exp_df = exp_df.rename(columns={
+            'id': 'experimentId',
+            'subject_name': 'exp_subject',
+            'xp_human_only': 'exp_human_only',
+            'xp_market_mode': 'exp_market_mode',
+            'xp_task_id': 'exp_task_id'
+        })
+
+        df = df.merge(exp_df, on='experimentId', how='left')
+        return df
+
+
+class EventTitleAugmenter(BaseEstimator, TransformerMixin):
+    def fit(self, X=None, y=None):
+        return self
+
+    def transform(self, df):
+        # from taking standard view_item_page in eventName to view_item_page_{metadata_schema}
+        # we want metadata schema to create product specific event names
+
+        # only create price buckets if we have enough unique prices
+        if df["metadata_price"].notnull().sum() > 0:
+            try:
+                price_buckets = pd.qcut(
+                    df["metadata_price"],
+                    q=N_PRICE_BUCKETS,
+                    labels=[f"PB_{i+1}" for i in range(N_PRICE_BUCKETS)],
+                    duplicates='drop'  # handle duplicate bin edges
+                )
+            except ValueError:
+                # fallback: if still not enough unique values, use cut with fixed ranges or just use raw price
+                price_buckets = df["metadata_price"].apply(lambda x: f"P_{int(x)}" if pd.notnull(x) else "")
+        else:
+            price_buckets = pd.Series([""] * len(df), index=df.index)
+
+        # metadata_schema: _product_id@price_bucket_{i} only if we have product metadata otherswise keep original event name
+        # TODO: make this adaptive, if we have hover_over_title we append the title, if its view_page we say which page
+        df["metadata_schema"] = np.where(
+            df["productId"].notnull() & df["metadata_price"].notnull(),
+            "_" + df["productId"].astype(str) + "@" + price_buckets.astype(str),
+            ""
+        )
+        df["eventName"] = df["eventName"] + df["metadata_schema"].astype(str)
+        return df