Added heartrate alarm

bluesleep.py.orig

@@ -1,164 +0,0 @@
-#!/usr/bin/env python3
-
-import time, re, threading
-from bluepy.btle import BTLEDisconnectError
-from miband import miband
-import sleepdata
-from vibrate import Vibrate
-
-
-
-
-auth_key_filename = 'auth_key.txt'
-mac_filename = 'mac.txt'
-
-maximize_graph = False
-
-vibration_settings = {
-<<<<<<< Updated upstream
-<<<<<<< Updated upstream
-<<<<<<< Updated upstream
-    'interval_minutes': 0.1,
-    'duration_seconds': 5,
-    'type': 'random'
-=======
-=======
->>>>>>> Stashed changes
-    'interval_minutes': 20,
-    'duration_seconds': 10,
-    'type': 'random',
-    'heartrate_alarm_pct': 17
-<<<<<<< Updated upstream
->>>>>>> Stashed changes
-=======
->>>>>>> Stashed changes
-||||||| constructed merge base
-    'interval_minutes': 45,
-    'duration_seconds': 5,
-    'type': 'random'
-=======
-    'interval_minutes': 20,
-    'duration_seconds': 10,
-    'type': 'random',
-    'heartrate_alarm_pct': 17
->>>>>>> Stashed changes
-    }
-
-band = None
-
-#-------------------------------------------------------------------------#
-
-
-class regex_patterns():
-    mac_regex_pattern = re.compile(r'([0-9a-fA-F]{2}(?::[0-9a-fA-F]{2}){5})')
-    authkey_regex_pattern = re.compile(r'([0-9a-fA-F]){32}')
-
-
-def get_mac_address(filename):
-    try:
-        with open(filename, "r") as f:
-            hwaddr_search = re.search(regex_patterns.mac_regex_pattern, f.read().strip())
-            if hwaddr_search:
-                MAC_ADDR = hwaddr_search[0]
-            else:
-                print ("No valid MAC address found in {}".format(filename))
-                exit(1)
-    except FileNotFoundError:
-            print ("MAC file not found: {}".format(filename))
-            exit(1)
-    return MAC_ADDR
-
-
-def get_auth_key(filename):
-    try:
-        with open(filename, "r") as f:
-            key_search = re.search(regex_patterns.authkey_regex_pattern, f.read().strip())
-            if key_search:
-                AUTH_KEY = bytes.fromhex(key_search[0])
-            else:
-                print ("No valid auth key found in {}".format(filename))
-                exit(1)
-    except FileNotFoundError:
-            print ("Auth key file not found: {}".format(filename))
-            exit(1)
-    return AUTH_KEY
-
-
-def average_data(tick_time):
-    if (tick_time - sleepdata.last_tick_time) >= sleepdata.tick_seconds:
-        sleepdata.average_raw_data(tick_time)
-        sleepdata.last_tick_time = time.time()
-
-   
-def sleep_monitor_callback(data):
-    tick_time = time.time()
-
-    if not sleepdata.last_tick_time:
-        sleepdata.last_tick_time = time.time()
-
-    if data[0] == "GYRO_RAW":
-        sleepdata.process_gyro_data(data[1], tick_time)
-    elif data[0] == "HR":
-        sleepdata.process_heartrate_data(data[1], tick_time)
-
-    average_data(tick_time)
-
-    vibration.heartrate_increase_pct = sleepdata.analyze_heartrate(10)
-    print("HR increase percent: {}".format(vibration.heartrate_increase_pct))
-
-
-def connect():
-    global band
-    success = False
-    timeout = 3
-    msg = 'Connection to the band failed. Trying again in {} seconds'
-
-    MAC_ADDR = get_mac_address(mac_filename)
-    AUTH_KEY = get_auth_key(auth_key_filename)
-
-    while not success:
-        try:
-            band = miband(MAC_ADDR, AUTH_KEY, debug=True)
-            success = band.initialize()
-        except BTLEDisconnectError:
-            print(msg.format(timeout))
-            time.sleep(timeout)
-        except KeyboardInterrupt:
-            print("\nExit.")
-            exit()
-
-
-def start_data_pull():
-    while True:
-        try:
-            band.start_heart_and_gyro(sensitivity=1, callback=sleep_monitor_callback)
-        except BTLEDisconnectError:
-            band.gyro_started_flag = False
-            connect()
-
-
-def start_vibration():
-    while True:
-        try:
-            #vibration.timed_vibration(vibration_settings)
-            vibration.heartrate_alarm(vibration_settings)
-
-        except BTLEDisconnectError:
-            print("Vibration thread waiting for band reconnect...")
-            time.sleep(1)
-
-
-if __name__ == "__main__":
-    connect()
-    vibration = Vibrate(band)
-    threading.Thread(target=start_data_pull).start()
-    threading.Thread(target=start_vibration).start()
-    sleepdata.init_graph(maximize=maximize_graph, graph_displaytime_mins=5)
-
-
-
-#import simpleaudio as sa
-# comfort_wav = 'comfort.wav'
-# wave_obj = sa.WaveObject.from_wave_file(comfort_wav)
-# comfort_delay = 30
-# comfort_lasttime = time.time()

bluesleep_BACKUP_570995.py

@@ -1,153 +0,0 @@
-#!/usr/bin/env python3
-
-import time, re, threading
-from bluepy.btle import BTLEDisconnectError
-from miband import miband
-import sleepdata
-from vibrate import Vibrate
-
-
-
-
-auth_key_filename = 'auth_key.txt'
-mac_filename = 'mac.txt'
-
-maximize_graph = False
-
-vibration_settings = {
-<<<<<<< Updated upstream
-<<<<<<< Updated upstream
-    'interval_minutes': 0.1,
-    'duration_seconds': 5,
-    'type': 'random'
-=======
-=======
->>>>>>> Stashed changes
-    'interval_minutes': 20,
-    'duration_seconds': 10,
-    'type': 'random',
-    'heartrate_alarm_pct': 17
-<<<<<<< Updated upstream
->>>>>>> Stashed changes
-=======
->>>>>>> Stashed changes
-    }
-
-band = None
-
-#-------------------------------------------------------------------------#
-
-
-class regex_patterns():
-    mac_regex_pattern = re.compile(r'([0-9a-fA-F]{2}(?::[0-9a-fA-F]{2}){5})')
-    authkey_regex_pattern = re.compile(r'([0-9a-fA-F]){32}')
-
-
-def get_mac_address(filename):
-    try:
-        with open(filename, "r") as f:
-            hwaddr_search = re.search(regex_patterns.mac_regex_pattern, f.read().strip())
-            if hwaddr_search:
-                MAC_ADDR = hwaddr_search[0]
-            else:
-                print ("No valid MAC address found in {}".format(filename))
-                exit(1)
-    except FileNotFoundError:
-            print ("MAC file not found: {}".format(filename))
-            exit(1)
-    return MAC_ADDR
-
-
-def get_auth_key(filename):
-    try:
-        with open(filename, "r") as f:
-            key_search = re.search(regex_patterns.authkey_regex_pattern, f.read().strip())
-            if key_search:
-                AUTH_KEY = bytes.fromhex(key_search[0])
-            else:
-                print ("No valid auth key found in {}".format(filename))
-                exit(1)
-    except FileNotFoundError:
-            print ("Auth key file not found: {}".format(filename))
-            exit(1)
-    return AUTH_KEY
-
-
-def average_data(tick_time):
-    if (tick_time - sleepdata.last_tick_time) >= sleepdata.tick_seconds:
-        sleepdata.average_raw_data(tick_time)
-        sleepdata.last_tick_time = time.time()
-
-   
-def sleep_monitor_callback(data):
-    tick_time = time.time()
-
-    if not sleepdata.last_tick_time:
-        sleepdata.last_tick_time = time.time()
-
-    if data[0] == "GYRO_RAW":
-        sleepdata.process_gyro_data(data[1], tick_time)
-    elif data[0] == "HR":
-        sleepdata.process_heartrate_data(data[1], tick_time)
-
-    average_data(tick_time)
-
-    vibration.heartrate_increase_pct = sleepdata.analyze_heartrate(10)
-    print("HR increase percent: {}".format(vibration.heartrate_increase_pct))
-
-
-def connect():
-    global band
-    success = False
-    timeout = 3
-    msg = 'Connection to the band failed. Trying again in {} seconds'
-
-    MAC_ADDR = get_mac_address(mac_filename)
-    AUTH_KEY = get_auth_key(auth_key_filename)
-
-    while not success:
-        try:
-            band = miband(MAC_ADDR, AUTH_KEY, debug=True)
-            success = band.initialize()
-        except BTLEDisconnectError:
-            print(msg.format(timeout))
-            time.sleep(timeout)
-        except KeyboardInterrupt:
-            print("\nExit.")
-            exit()
-
-
-def start_data_pull():
-    while True:
-        try:
-            band.start_heart_and_gyro(sensitivity=1, callback=sleep_monitor_callback)
-        except BTLEDisconnectError:
-            band.gyro_started_flag = False
-            connect()
-
-
-def start_vibration():
-    while True:
-        try:
-            #vibration.timed_vibration(vibration_settings)
-            vibration.heartrate_alarm(vibration_settings)
-
-        except BTLEDisconnectError:
-            print("Vibration thread waiting for band reconnect...")
-            time.sleep(1)
-
-
-if __name__ == "__main__":
-    connect()
-    vibration = Vibrate(band)
-    threading.Thread(target=start_data_pull).start()
-    threading.Thread(target=start_vibration).start()
-    sleepdata.init_graph(maximize=maximize_graph, graph_displaytime_mins=5)
-
-
-
-#import simpleaudio as sa
-# comfort_wav = 'comfort.wav'
-# wave_obj = sa.WaveObject.from_wave_file(comfort_wav)
-# comfort_delay = 30
-# comfort_lasttime = time.time()

bluesleep_BASE_570995.py

@@ -1,135 +0,0 @@
-#!/usr/bin/env python3
-
-import time, re, threading
-from bluepy.btle import BTLEDisconnectError
-from miband import miband
-import sleepdata
-from vibrate import Vibrate
-
-
-
-
-auth_key_filename = 'auth_key.txt'
-mac_filename = 'mac.txt'
-
-maximize_graph = False
-
-vibration_settings = {
-    'interval_minutes': 45,
-    'duration_seconds': 5,
-    'type': 'random'
-    }
-
-band = None
-
-#-------------------------------------------------------------------------#
-
-
-class regex_patterns():
-    mac_regex_pattern = re.compile(r'([0-9a-fA-F]{2}(?::[0-9a-fA-F]{2}){5})')
-    authkey_regex_pattern = re.compile(r'([0-9a-fA-F]){32}')
-
-
-def get_mac_address(filename):
-    try:
-        with open(filename, "r") as f:
-            hwaddr_search = re.search(regex_patterns.mac_regex_pattern, f.read().strip())
-            if hwaddr_search:
-                MAC_ADDR = hwaddr_search[0]
-            else:
-                print ("No valid MAC address found in {}".format(filename))
-                exit(1)
-    except FileNotFoundError:
-            print ("MAC file not found: {}".format(filename))
-            exit(1)
-    return MAC_ADDR
-
-
-def get_auth_key(filename):
-    try:
-        with open(filename, "r") as f:
-            key_search = re.search(regex_patterns.authkey_regex_pattern, f.read().strip())
-            if key_search:
-                AUTH_KEY = bytes.fromhex(key_search[0])
-            else:
-                print ("No valid auth key found in {}".format(filename))
-                exit(1)
-    except FileNotFoundError:
-            print ("Auth key file not found: {}".format(filename))
-            exit(1)
-    return AUTH_KEY
-
-
-def average_data(tick_time):
-    if (tick_time - sleepdata.last_tick_time) >= sleepdata.tick_seconds:
-        sleepdata.average_raw_data(tick_time)
-        sleepdata.last_tick_time = time.time()
-
-    
-def sleep_monitor_callback(data):
-    tick_time = time.time()
-
-    if not sleepdata.last_tick_time:
-        sleepdata.last_tick_time = time.time()
-
-    if data[0] == "GYRO_RAW":
-        sleepdata.process_gyro_data(data[1], tick_time)
-    elif data[0] == "HR":
-        sleepdata.process_heartrate_data(data[1], tick_time)
-
-    average_data(tick_time)
-
-
-def connect():
-    global band
-    success = False
-    timeout = 3
-    msg = 'Connection to the band failed. Trying again in {} seconds'
-
-    MAC_ADDR = get_mac_address(mac_filename)
-    AUTH_KEY = get_auth_key(auth_key_filename)
-
-    while not success:
-        try:
-            band = miband(MAC_ADDR, AUTH_KEY, debug=True)
-            success = band.initialize()
-        except BTLEDisconnectError:
-            print(msg.format(timeout))
-            time.sleep(timeout)
-        except KeyboardInterrupt:
-            print("\nExit.")
-            exit()
-
-
-def start_data_pull():
-    while True:
-        try:
-            band.start_heart_and_gyro(sensitivity=1, callback=sleep_monitor_callback)
-        except BTLEDisconnectError:
-            band.gyro_started_flag = False
-            connect()
-
-
-def start_vibration():
-    while True:
-        try:
-            vibration.timed_vibration(vibration_settings)
-        except BTLEDisconnectError:
-            print("Vibration thread waiting for band reconnect...")
-            time.sleep(1)
-
-
-if __name__ == "__main__":
-    connect()
-    vibration = Vibrate(band)
-    threading.Thread(target=start_data_pull).start()
-    threading.Thread(target=start_vibration).start()
-    sleepdata.init_graph(maximize=maximize_graph, graph_displaytime_mins=5)
-
-
-
-#import simpleaudio as sa
-# comfort_wav = 'comfort.wav'
-# wave_obj = sa.WaveObject.from_wave_file(comfort_wav)
-# comfort_delay = 30
-# comfort_lasttime = time.time()

bluesleep_LOCAL_570995.py

@@ -1,147 +0,0 @@
-#!/usr/bin/env python3
-
-import time, re, threading
-from bluepy.btle import BTLEDisconnectError
-from miband import miband
-import sleepdata
-from vibrate import Vibrate
-
-
-
-
-auth_key_filename = 'auth_key.txt'
-mac_filename = 'mac.txt'
-
-maximize_graph = False
-
-vibration_settings = {
-<<<<<<< Updated upstream
-    'interval_minutes': 0.1,
-    'duration_seconds': 5,
-    'type': 'random'
-=======
-    'interval_minutes': 20,
-    'duration_seconds': 10,
-    'type': 'random',
-    'heartrate_alarm_pct': 17
->>>>>>> Stashed changes
-    }
-
-band = None
-
-#-------------------------------------------------------------------------#
-
-
-class regex_patterns():
-    mac_regex_pattern = re.compile(r'([0-9a-fA-F]{2}(?::[0-9a-fA-F]{2}){5})')
-    authkey_regex_pattern = re.compile(r'([0-9a-fA-F]){32}')
-
-
-def get_mac_address(filename):
-    try:
-        with open(filename, "r") as f:
-            hwaddr_search = re.search(regex_patterns.mac_regex_pattern, f.read().strip())
-            if hwaddr_search:
-                MAC_ADDR = hwaddr_search[0]
-            else:
-                print ("No valid MAC address found in {}".format(filename))
-                exit(1)
-    except FileNotFoundError:
-            print ("MAC file not found: {}".format(filename))
-            exit(1)
-    return MAC_ADDR
-
-
-def get_auth_key(filename):
-    try:
-        with open(filename, "r") as f:
-            key_search = re.search(regex_patterns.authkey_regex_pattern, f.read().strip())
-            if key_search:
-                AUTH_KEY = bytes.fromhex(key_search[0])
-            else:
-                print ("No valid auth key found in {}".format(filename))
-                exit(1)
-    except FileNotFoundError:
-            print ("Auth key file not found: {}".format(filename))
-            exit(1)
-    return AUTH_KEY
-
-
-def average_data(tick_time):
-    if (tick_time - sleepdata.last_tick_time) >= sleepdata.tick_seconds:
-        sleepdata.average_raw_data(tick_time)
-        sleepdata.last_tick_time = time.time()
-
-   
-def sleep_monitor_callback(data):
-    tick_time = time.time()
-
-    if not sleepdata.last_tick_time:
-        sleepdata.last_tick_time = time.time()
-
-    if data[0] == "GYRO_RAW":
-        sleepdata.process_gyro_data(data[1], tick_time)
-    elif data[0] == "HR":
-        sleepdata.process_heartrate_data(data[1], tick_time)
-
-    average_data(tick_time)
-
-    vibration.heartrate_increase_pct = sleepdata.analyze_heartrate(10)
-    print("HR increase percent: {}".format(vibration.heartrate_increase_pct))
-
-
-def connect():
-    global band
-    success = False
-    timeout = 3
-    msg = 'Connection to the band failed. Trying again in {} seconds'
-
-    MAC_ADDR = get_mac_address(mac_filename)
-    AUTH_KEY = get_auth_key(auth_key_filename)
-
-    while not success:
-        try:
-            band = miband(MAC_ADDR, AUTH_KEY, debug=True)
-            success = band.initialize()
-        except BTLEDisconnectError:
-            print(msg.format(timeout))
-            time.sleep(timeout)
-        except KeyboardInterrupt:
-            print("\nExit.")
-            exit()
-
-
-def start_data_pull():
-    while True:
-        try:
-            band.start_heart_and_gyro(sensitivity=1, callback=sleep_monitor_callback)
-        except BTLEDisconnectError:
-            band.gyro_started_flag = False
-            connect()
-
-
-def start_vibration():
-    while True:
-        try:
-            #vibration.timed_vibration(vibration_settings)
-            vibration.heartrate_alarm(vibration_settings)
-
-        except BTLEDisconnectError:
-            print("Vibration thread waiting for band reconnect...")
-            time.sleep(1)
-
-
-if __name__ == "__main__":
-    connect()
-    vibration = Vibrate(band)
-    threading.Thread(target=start_data_pull).start()
-    threading.Thread(target=start_vibration).start()
-    sleepdata.init_graph(maximize=maximize_graph, graph_displaytime_mins=5)
-
-
-
-#import simpleaudio as sa
-# comfort_wav = 'comfort.wav'
-# wave_obj = sa.WaveObject.from_wave_file(comfort_wav)
-# comfort_delay = 30
-# comfort_lasttime = time.time()

bluesleep_REMOTE_570995.py

@@ -1,141 +0,0 @@
-#!/usr/bin/env python3
-
-import time, re, threading
-from bluepy.btle import BTLEDisconnectError
-from miband import miband
-import sleepdata
-from vibrate import Vibrate
-
-
-
-
-auth_key_filename = 'auth_key.txt'
-mac_filename = 'mac.txt'
-
-maximize_graph = False
-
-vibration_settings = {
-    'interval_minutes': 20,
-    'duration_seconds': 10,
-    'type': 'random',
-    'heartrate_alarm_pct': 17
-    }
-
-band = None
-
-#-------------------------------------------------------------------------#
-
-
-class regex_patterns():
-    mac_regex_pattern = re.compile(r'([0-9a-fA-F]{2}(?::[0-9a-fA-F]{2}){5})')
-    authkey_regex_pattern = re.compile(r'([0-9a-fA-F]){32}')
-
-
-def get_mac_address(filename):
-    try:
-        with open(filename, "r") as f:
-            hwaddr_search = re.search(regex_patterns.mac_regex_pattern, f.read().strip())
-            if hwaddr_search:
-                MAC_ADDR = hwaddr_search[0]
-            else:
-                print ("No valid MAC address found in {}".format(filename))
-                exit(1)
-    except FileNotFoundError:
-            print ("MAC file not found: {}".format(filename))
-            exit(1)
-    return MAC_ADDR
-
-
-def get_auth_key(filename):
-    try:
-        with open(filename, "r") as f:
-            key_search = re.search(regex_patterns.authkey_regex_pattern, f.read().strip())
-            if key_search:
-                AUTH_KEY = bytes.fromhex(key_search[0])
-            else:
-                print ("No valid auth key found in {}".format(filename))
-                exit(1)
-    except FileNotFoundError:
-            print ("Auth key file not found: {}".format(filename))
-            exit(1)
-    return AUTH_KEY
-
-
-def average_data(tick_time):
-    if (tick_time - sleepdata.last_tick_time) >= sleepdata.tick_seconds:
-        sleepdata.average_raw_data(tick_time)
-        sleepdata.last_tick_time = time.time()
-
-   
-def sleep_monitor_callback(data):
-    tick_time = time.time()
-
-    if not sleepdata.last_tick_time:
-        sleepdata.last_tick_time = time.time()
-
-    if data[0] == "GYRO_RAW":
-        sleepdata.process_gyro_data(data[1], tick_time)
-    elif data[0] == "HR":
-        sleepdata.process_heartrate_data(data[1], tick_time)
-
-    average_data(tick_time)
-
-    vibration.heartrate_increase_pct = sleepdata.analyze_heartrate(10)
-    print("HR increase percent: {}".format(vibration.heartrate_increase_pct))
-
-
-def connect():
-    global band
-    success = False
-    timeout = 3
-    msg = 'Connection to the band failed. Trying again in {} seconds'
-
-    MAC_ADDR = get_mac_address(mac_filename)
-    AUTH_KEY = get_auth_key(auth_key_filename)
-
-    while not success:
-        try:
-            band = miband(MAC_ADDR, AUTH_KEY, debug=True)
-            success = band.initialize()
-        except BTLEDisconnectError:
-            print(msg.format(timeout))
-            time.sleep(timeout)
-        except KeyboardInterrupt:
-            print("\nExit.")
-            exit()
-
-
-def start_data_pull():
-    while True:
-        try:
-            band.start_heart_and_gyro(sensitivity=1, callback=sleep_monitor_callback)
-        except BTLEDisconnectError:
-            band.gyro_started_flag = False
-            connect()
-
-
-def start_vibration():
-    while True:
-        try:
-            #vibration.timed_vibration(vibration_settings)
-            vibration.heartrate_alarm(vibration_settings)
-
-        except BTLEDisconnectError:
-            print("Vibration thread waiting for band reconnect...")
-            time.sleep(1)
-
-
-if __name__ == "__main__":
-    connect()
-    vibration = Vibrate(band)
-    threading.Thread(target=start_data_pull).start()
-    threading.Thread(target=start_vibration).start()
-    sleepdata.init_graph(maximize=maximize_graph, graph_displaytime_mins=5)
-
-
-
-#import simpleaudio as sa
-# comfort_wav = 'comfort.wav'
-# wave_obj = sa.WaveObject.from_wave_file(comfort_wav)
-# comfort_delay = 30
-# comfort_lasttime = time.time()