#!/usr/bin/env python3 # -*- coding: utf-8 -*- from fitparse import FitFile from datetime import datetime import inotify.adapters import os, sys, shutil import sqlite3 path = "/home/manuel/Dropbox/Apps/HealthFitExporter/" #path = "/Users/manuel/Projekte/eBike-Influx-Calculation/test/" ext = ('.fit') db_file = "/www/wwwroot/www.manuelw.de/ebike/ebike.db" #db_file = "/Users/manuel/Projekte/eBike-Influx-Calculation/ebike.db" fitData = {} ## ### auf neue Files überwachen def main(): i = inotify.adapters.InotifyTree(path) for event in i.event_gen(yield_nones=False): (_, type_names, fpath, filename) = event if event != None: #print("PATH=[{}] FILENAME=[{}] EVENT_TYPES={}".format(path, filename, type_names)) if type_names[0] == "IN_MOVED_TO": if filename.endswith(ext): processFIT(filename) pass ## ### parse FIT file und bestimme Handling def processFIT(filename): file = FitFile(path+filename) for record in file.get_messages("session"): ## nur wenn Radfahren if record.get_value("sport") == "cycling": ## Verarbeitung starten doAll(file) writeDB() ## ### todo on all fit files def doAll(file): global fitData for record in file.get_messages("session"): fitData["avg_cadence"] = record.get_value("avg_cadence") #fitData["avg_speed"] += round(float(record.get_value("avg_speed")) / 0.27777777777778, 1) fitData["avg_speed"] = record.get_value("avg_speed") #fitData["total_ascent"] = float(record.get_value("total_ascent")) if record.get_value("total_ascent") != None else 0 fitData["total_distance"] = round(record.get_value("total_distance") / 1000, 1) #fitData["date"] = record.get_value("start_time").strftime("%d.%m.%Y") fitData["date"] = record.get_value("start_time") fitData["total_calories"] = record.get_value("total_calories") if record.get_value("max_altitude"): fitData["max_altitude"] = round(float(record.get_value("max_altitude")), 1) else: fitData["max_altitude"] = 0 fitData["max_heart_rate"] = record.get_value("max_heart_rate") fitData["avg_heart_rate"] = record.get_value("avg_heart_rate") fitData["avg_speed"] = round(float(fitData["avg_speed"]), 1) doHealthFit(file, record.get_value("min_altitude")) def doHealthFit(file, min_alt=0.0): global fitData ### Kadenz i=0 cadence=0 last_elev=min_alt ges_elev=0.0 for record in file.get_messages("record"): ## korrekte Kadenz ermitteln if record.get_value("cadence") != None and record.get_value("cadence") > 0: i+=1 cadence += record.get_value("cadence") ## korrekte Höhenmeter ermitteln if record.get_value("altitude") != None: if record.get_value("altitude") > last_elev: ges_elev += record.get_value("altitude") - last_elev last_elev = record.get_value("altitude") #fitData["avg_cadence"] = int(cadence/i) fitData["total_ascent"] = round(float(ges_elev), 1) def writeDB(): global fitData, db_file try: db = sqlite3.connect(db_file) cursor = db.cursor() sql = ''' INSERT INTO bike_drives (d_date, d_total_distance, d_total_ascent, d_max_alt, d_avg_speed, d_avg_hr, d_calories) VALUES (?, ?, ?, ?, ?, ?, ?); ''' data = (fitData["date"], fitData["total_distance"], fitData["total_ascent"], fitData["max_altitude"], fitData["avg_speed"], fitData["avg_heart_rate"], fitData["total_calories"]) cursor.execute(sql, data) db.commit() print("Data inserted successfully into bike_drives table") cursor.close() except sqlite3.Error as error: print("Failed to insert data into sqlite table", error) finally: if db: db.close() print("The SQLite connection is closed") #row.extend(["Date", "Total Distance", "Total Ascent", "Max Alt.", "AVG Speed", "AVG HR", "Calories"]) #row.extend([fitData["date"], fitData["total_distance"], fitData["total_ascent"], fitData["max_altitude"], fitData["avg_speed"], # fitData["avg_heart_rate"], fitData["total_calories"] ]) if __name__ == '__main__': main()