hyper/resampler.py

import argparse
import logging
import os
import sys
import sqlite3
import pandas as pd
import json
from datetime import datetime, timezone

# Assuming logging_utils.py is in the same directory
from logging_utils import setup_logging

class Resampler:
    """
    Reads new 1-minute candle data from the SQLite database, resamples it to
    various timeframes, and appends the new candles to the corresponding tables.
    """

    def __init__(self, log_level: str, coins: list, timeframes: dict):
        setup_logging(log_level, 'Resampler')
        self.db_path = os.path.join("_data", "market_data.db")
        self.status_file_path = os.path.join("_data", "resampling_status.json")
        self.coins_to_process = coins
        self.timeframes = timeframes
        self.aggregation_logic = {
            'open': 'first',
            'high': 'max',
            'low': 'min',
            'close': 'last',
            'volume': 'sum',
            'number_of_trades': 'sum'
        }
        self.resampling_status = self._load_existing_status()
        self.job_start_time = None

    def _load_existing_status(self) -> dict:
        """Loads the existing status file if it exists, otherwise returns an empty dict."""
        if os.path.exists(self.status_file_path):
            try:
                with open(self.status_file_path, 'r', encoding='utf-8') as f:
                    logging.debug(f"Loading existing status from '{self.status_file_path}'")
                    return json.load(f)
            except (IOError, json.JSONDecodeError) as e:
                logging.warning(f"Could not read existing status file. Starting fresh. Error: {e}")
        return {}

    def run(self):
        """
        Main execution function to process all configured coins and update the database.
        """
        self.job_start_time = datetime.now(timezone.utc)
        logging.info(f"--- Resampling job started at {self.job_start_time.strftime('%Y-%m-%d %H:%M:%S %Z')} ---")
        
        if not os.path.exists(self.db_path):
            logging.error(f"Database file '{self.db_path}' not found.")
            return

        with sqlite3.connect(self.db_path) as conn:
            conn.execute("PRAGMA journal_mode=WAL;")
            
            logging.debug(f"Processing {len(self.coins_to_process)} coins...")

            for coin in self.coins_to_process:
                source_table_name = f"{coin}_1m"
                logging.debug(f"--- Processing {coin} ---")
                
                try:
                    # Load the full 1m history once per coin
                    df_1m = pd.read_sql(f'SELECT * FROM "{source_table_name}"', conn, parse_dates=['datetime_utc'])
                    if df_1m.empty:
                        logging.warning(f"Source table '{source_table_name}' is empty. Skipping.")
                        continue
                    df_1m.set_index('datetime_utc', inplace=True)

                    for tf_name, tf_code in self.timeframes.items():
                        target_table_name = f"{coin}_{tf_name}"
                        logging.debug(f"  Updating {tf_name} table...")
                        
                        last_timestamp = self._get_last_timestamp(conn, target_table_name)
                        
                        # Get the new 1-minute data that needs to be processed
                        new_df_1m = df_1m[df_1m.index > last_timestamp] if last_timestamp else df_1m

                        if new_df_1m.empty:
                            logging.debug(f"    -> No new 1-minute data for {tf_name}. Table is up to date.")
                            continue
                        
                        resampled_df = new_df_1m.resample(tf_code).agg(self.aggregation_logic)
                        resampled_df.dropna(how='all', inplace=True)

                        if not resampled_df.empty:
                            # Append the newly resampled data to the target table
                            resampled_df.to_sql(target_table_name, conn, if_exists='append', index=True)
                            logging.debug(f"    -> Appended {len(resampled_df)} new candles to '{target_table_name}'.")

                            if coin not in self.resampling_status: self.resampling_status[coin] = {}
                            total_candles = int(self._get_table_count(conn, target_table_name))
                            self.resampling_status[coin][tf_name] = {
                                "last_candle_utc": resampled_df.index[-1].strftime('%Y-%m-%d %H:%M:%S'),
                                "total_candles": total_candles
                            }

                except Exception as e:
                    logging.error(f"Failed to process coin '{coin}': {e}")
    
        self._log_summary()
        self._save_status()
        logging.info(f"--- Resampling job finished at {datetime.now(timezone.utc).strftime('%Y-%m-%d %H:%M:%S %Z')} ---")

    def _log_summary(self):
        """Logs a summary of the total candles for each timeframe."""
        logging.info("--- Resampling Job Summary ---")
        timeframe_totals = {}
        # Iterate through coins, skipping metadata keys
        for coin, tfs in self.resampling_status.items():
            if not isinstance(tfs, dict): continue
            for tf_name, tf_data in tfs.items():
                total = tf_data.get("total_candles", 0)
                if tf_name not in timeframe_totals:
                    timeframe_totals[tf_name] = 0
                timeframe_totals[tf_name] += total
        
        if not timeframe_totals:
            logging.info("No candles were resampled in this run.")
            return

        logging.info("Total candles per timeframe across all processed coins:")
        for tf_name, total in sorted(timeframe_totals.items()):
            logging.info(f"  - {tf_name:<10}: {total:,} candles")

    def _get_last_timestamp(self, conn, table_name):
        """Gets the timestamp of the last entry in a table."""
        try:
            return pd.read_sql(f'SELECT MAX(datetime_utc) FROM "{table_name}"', conn).iloc[0, 0]
        except (pd.io.sql.DatabaseError, IndexError):
            return None

    def _get_table_count(self, conn, table_name):
        """Gets the total row count of a table."""
        try:
            return pd.read_sql(f'SELECT COUNT(*) FROM "{table_name}"', conn).iloc[0, 0]
        except (pd.io.sql.DatabaseError, IndexError):
            return 0

    def _save_status(self):
        """Saves the final resampling status to a JSON file."""
        if not self.resampling_status:
            return
            
        stop_time = datetime.now(timezone.utc)
        self.resampling_status['job_start_time_utc'] = self.job_start_time.strftime('%Y-%m-%d %H:%M:%S')
        self.resampling_status['job_stop_time_utc'] = stop_time.strftime('%Y-%m-%d %H:%M:%S')
        
        # Clean up old key if it exists from previous versions
        self.resampling_status.pop('last_completed_utc', None)

        try:
            with open(self.status_file_path, 'w', encoding='utf-8') as f:
                json.dump(self.resampling_status, f, indent=4, sort_keys=True)
            logging.info(f"Successfully saved resampling status to '{self.status_file_path}'")
        except IOError as e:
            logging.error(f"Failed to write resampling status file: {e}")


def parse_timeframes(tf_strings: list) -> dict:
    """Converts a list of timeframe strings into a dictionary for pandas."""
    tf_map = {}
    for tf_str in tf_strings:
        numeric_part = ''.join(filter(str.isdigit, tf_str))
        unit = ''.join(filter(str.isalpha, tf_str)).lower()
        
        code = ''
        if unit == 'm': code = f"{numeric_part}min"
        elif unit == 'w': code = f"{numeric_part}W"
        elif unit in ['h', 'd']: code = f"{numeric_part}{unit}"
        else: code = tf_str
        tf_map[tf_str] = code
    return tf_map


if __name__ == "__main__":
    parser = argparse.ArgumentParser(description="Resample 1-minute candle data from SQLite to other timeframes.")
    parser.add_argument("--coins", nargs='+', required=True, help="List of coins to process.")
    parser.add_argument("--timeframes", nargs='+', required=True, help="List of timeframes to generate.")
    parser.add_argument("--log-level", default="normal", choices=['off', 'normal', 'debug'])
    args = parser.parse_args()
    
    timeframes_dict = parse_timeframes(args.timeframes)
    
    resampler = Resampler(log_level=args.log_level, coins=args.coins, timeframes=timeframes_dict)
    resampler.run()