rowsandall/rowers/runkeeperstuff.py

from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
from __future__ import unicode_literals
from __future__ import unicode_literals, absolute_import
# All the functionality needed to connect to Runkeeper
from rowers.imports import *
import re

from rowsandall_app.settings import (
    C2_CLIENT_ID, C2_REDIRECT_URI, C2_CLIENT_SECRET,
    STRAVA_CLIENT_ID, STRAVA_REDIRECT_URI, STRAVA_CLIENT_SECRET,
    RUNKEEPER_CLIENT_ID, RUNKEEPER_CLIENT_SECRET,RUNKEEPER_REDIRECT_URI,
    )

oauth_data = {
    'client_id': RUNKEEPER_CLIENT_ID,
    'client_secret': RUNKEEPER_CLIENT_SECRET,
    'redirect_uri': RUNKEEPER_REDIRECT_URI,
    'autorization_uri': "https://www.runkeeper.com/apps/authorize",
    'content_type': 'application/x-www-form-urlencoded',
    'tokenname': 'runkeepertoken',
    'refreshtokenname': None,
    'expirydatename': None,
    'bearer_auth': True,
    'base_url': "https://runkeeper.com/apps/token",
    'headers': {'user-agent': 'sanderroosendaal'},
    'scope':'write',
    }


import numpy

def splitrunkeeperlatlongdata(lijst,tname,latname,lonname):
    t = []
    lat = []
    lon = []
    for d in lijst:
        t.append(d[tname])
        lat.append(d[latname])
        lon.append(d[lonname])

    return [np.array(t),np.array(lat),np.array(lon)]

def splitrunkeeperdata(lijst,xname,yname):
    x = []
    y = []
    for d in lijst:
        x.append(d[xname])
        y.append(d[yname])

    return [np.array(x),np.array(y)]


# Checks if user has SportTracks token, renews them if they are expired
def runkeeper_open(user):
    return imports_open(user,oauth_data)

# Exchange access code for long-lived access token
def get_token(code):
    return imports_get_token(code,oauth_data)

# Make authorization URL including random string
def make_authorization_url(request):
    return imports_make_authorization_url(oauth_data)

# Get list of workouts available on Runkeeper
def get_runkeeper_workout_list(user):
    r = Rower.objects.get(user=user)
    if (r.runkeepertoken == '') or (r.runkeepertoken is None):
        s = "Token doesn't exist. Need to authorize"
        return custom_exception_handler(401,s)
    else:
        # ready to fetch. Hurray
        authorizationstring = str('Bearer ' + r.runkeepertoken)
        headers = {'Authorization': authorizationstring,
                   'user-agent': 'sanderroosendaal',
                   'Content-Type': 'application/json'}
        url = "https://api.runkeeper.com/fitnessActivities"
        s = requests.get(url,headers=headers)

    return s

# Get workout summary data by Runkeeper ID
def get_workout(user,runkeeperid):
    r = Rower.objects.get(user=user)
    if (r.runkeepertoken == '') or (r.runkeepertoken is None):
        return custom_exception_handler(401,s)
        s = "Token doesn't exist. Need to authorize"
    else:
        # ready to fetch. Hurray
        authorizationstring = str('Bearer ' + r.runkeepertoken)
        headers = {'Authorization': authorizationstring,
                   'user-agent': 'sanderroosendaal',
                   'Content-Type': 'application/json'}
        url = "https://api.runkeeper.com/fitnessActivities/"+str(runkeeperid)
        s = requests.get(url,headers=headers)

    try:
        data = s.json()
    except ValueError:
        data = {}

    strokedata = pd.DataFrame.from_dict({
        key: pd.Series(value) for key, value in data.items()
    })
        
    return data,strokedata

# Create Workout Data for upload to SportTracks
def createrunkeeperworkoutdata(w):
    filename = w.csvfilename
    try:
        row = rowingdata(filename)
    except:
        return 0
    
    averagehr = int(row.df[' HRCur (bpm)'].mean())
    maxhr = int(row.df[' HRCur (bpm)'].max())
    duration = w.duration.hour*3600
    duration += w.duration.minute*60
    duration += w.duration.second
    duration += +1.0e-6*w.duration.microsecond

    # adding diff, trying to see if this is valid
    #t = row.df.ix[:,'TimeStamp (sec)'].values-10*row.df.ix[0,'TimeStamp (sec)']
    t = row.df.loc[:,'TimeStamp (sec)'].values-row.df.loc[:,'TimeStamp (sec)'].iloc[0]
    t[0] = t[1]

    d = row.df.loc[:,'cum_dist'].values
    d[0] = d[1]
    t = t.astype(int)
    d = d.astype(int)
    spm = row.df[' Cadence (stokes/min)'].astype(int)
    spm[0] = spm[1]
    hr = row.df[' HRCur (bpm)'].astype(int)
    
    haslatlon=1
    
    try:
        lat = row.df[' latitude'].values
        lon = row.df[' longitude'].values
        if not lat.std() and not lon.std():
            haslatlon = 0
    except KeyError:
        haslatlon = 0

    t = t.tolist()
    hr = hr.tolist()
    d = d.tolist()
        
    # path data
    if haslatlon:
        lat = lat.tolist()
        lon = lon.tolist()
        locdata = [] 
        for e in zip(t,lat,lon):
            point = {'timestamp':e[0],
                     'latitude':e[1],
                     'longitude':e[2],
                     'altitude':0,
                     "type":"gps"}
            locdata.append(point)

    hrdata = []
    for e in zip(t,hr):
        point = {'timestamp':e[0],
                 'heart_rate':e[1]
                 }
        hrdata.append(point)

    distancedata = []
    for e in zip(t,d):
        point = {'timestamp':e[0],
                 'distance':e[1]
                 }
        distancedata.append(point)

    st = w.startdatetime.astimezone(pytz.timezone(w.timezone))
    start_time = st.strftime("%a, %d %b %Y %H:%M:%S")

    try:
        newnotes = w.notes+'\n from '+w.workoutsource+' via rowsandall.com'
    except TypeError:
        newnotes = 'from '+w.workoutsource+' via rowsandall.com'
        
    if haslatlon:
        data = {
            "type": "Rowing",
            "start_time": start_time,
            "total_distance": int(w.distance),
            "duration": duration,
            "notes": newnotes,
            "average_heart_rate": averagehr,
            "path": locdata,
            "distance": distancedata,
            "heart_rate": hrdata,
            "post_to_twitter":"false",
            "post_to_facebook":"false",
            }
    else:
        data = {
            "type": "Rowing",
            "start_time": start_time,
            "total_distance": int(w.distance),
            "duration": duration,
            "notes": newnotes,
            "avg_heartrate": averagehr,
            "distance": distancedata,
            "heart_rate": hrdata,
            "post_to_twitter":"false",
            "post_to_facebook":"false",
            }


    return data

# Obtain Runkeeper Workout ID from the response returned on successful
# upload
def getidfromresponse(response):
    uri = response.headers["Location"]

    tester = re.compile('^\/fitnessActivities\/(\d+)$')
    id = int(tester.match(uri).group(1))
                        
    return int(id)

def geturifromid(access_token,id):
    authorizationstring = str('Bearer ' + access_token)
    headers = {'Authorization': authorizationstring,
               'user-agent': 'sanderroosendaal',
               'Content-Type': 'application/json'}
    import urllib
    url = "https://api.runkeeper.com/fitnessActivities/"+str(id)
    response = requests.get(url,headers=headers)
    try:
        me_json = response.json()
    except:
        return ''

    try:
        res = me_json['uri']
    except KeyError:
        res = ''

    return res

    
# Get user id, having access token
# Handy for checking if the API access is working
def get_userid(access_token):
    authorizationstring = str('Bearer ' + access_token)
    headers = {'Authorization': authorizationstring,
               'user-agent': 'sanderroosendaal',
               'Content-Type': 'application/json'}
    import urllib
    url = "https://api.runkeeper.com/user"
    response = requests.get(url,headers=headers)
    

    try:
        me_json = response.json()
    except:
        return ''

    try:
        res = me_json['userID']
    except KeyError:
        res = ''

    return str(res)

def default(o):
    if isinstance(o, numpy.int64): return int(o)  
    raise TypeError

def workout_runkeeper_upload(user,w):
    message = "Uploading to Runkeeper"
    rkid = 0

    r = w.user

    
    thetoken = runkeeper_open(r.user)

    # ready to upload. Hurray

    if (checkworkoutuser(user,w)):
        data = createrunkeeperworkoutdata(w)
        if not data:
            message = "Data error in Runkeeper Upload"
            rkid = 0
            return message, rkid
        
        authorizationstring = str('Bearer ' + thetoken)
        headers = {'Authorization': authorizationstring,
                   'user-agent': 'sanderroosendaal',
                   'Content-Type': 'application/vnd.com.runkeeper.NewFitnessActivity+json',
                   'Content-Length':'nnn'}

        url = "https://api.runkeeper.com/fitnessActivities"
        response = requests.post(url,headers=headers,data=json.dumps(data,default=default))

        # check for duplicate error first
        if (response.status_code == 409 ):
            message = "Duplicate error"
            w.uploadedtorunkeeper = -1
            rkid = -1
            w.save()
            return message, rkid
        elif (response.status_code == 201 or response.status_code==200):
            rkid = getidfromresponse(response)
            rkuri = geturifromid(thetoken,rkid)
            w.uploadedtorunkeeper = rkid
            w.save()
            return 'Successfully synchronized to Runkeeper',rkid
        else:
            s = response
            message = "Something went wrong in workout_runkeeper_upload_view: %s - %s" % (s.reason,s.text)
            rkid = 0
            return message, rkid
                
    else:
        message = "You are not authorized to upload this workout"
        rkid = 0
        return message, rkid

    return message,rkid

# Create workout from RunKeeper Data
def add_workout_from_data(user,importid,data,strokedata,source='runkeeper',
                          workoutsource='runkeeper'):
    # To Do - add utcoffset to time
    workouttype = data['type']
    if workouttype not in [x[0] for x in Workout.workouttypes]:
        workouttype = 'other'
    try:
        comments = data['notes']
    except:
        comments = ''
    
    try:
        utcoffset = tz(data['utcoffset'])
    except:
        utcoffset = 0

    r = Rower.objects.get(user=user)

    try:
        rowdatetime = iso8601.parse_date(data['start_time'])
    except iso8601.ParseError:
        try:
            rowdatetime = datetime.strptime(data['start_time'],"%Y-%m-%d %H:%M:%S")
            rowdatetime = thetimezone.localize(rowdatetime).astimezone(utc)
        except ValueError:
            try:
                rowdatetime = parser.parse(data['start_time'])
                #rowdatetime = thetimezone.localize(rowdatetime).astimezone(utc)
            except:
                rowdatetime = datetime.strptime(data['date'],"%Y-%m-%d %H:%M:%S")
                rowdatetime = thetimezone.localize(rowdatetime).astimezone(utc)
    starttimeunix = arrow.get(rowdatetime).timestamp
    #starttimeunix = mktime(rowdatetime.utctimetuple())
    starttimeunix += utcoffset*3600
    
        
    try:
        title = data['name']
    except:
        title = "Imported data"



    res = splitrunkeeperdata(data['distance'],'timestamp','distance')

    distance = res[1]
    times_distance = res[0]

    try:
        l = data['path']
    
        res = splitrunkeeperlatlongdata(l,'timestamp','latitude','longitude')
        times_location = res[0]
        latcoord = res[1]
        loncoord = res[2]

    except:
        times_location = times_distance
        latcoord = np.zeros(len(times_distance))
        loncoord = np.zeros(len(times_distance))
        if workouttype in types.otwtypes:
            workouttype = 'rower'
        
    try:
        res = splitrunkeeperdata(data['cadence'],'timestamp','cadence')
        times_spm = res[0]
        spm = res[1]
    except KeyError:
        times_spm = times_distance
        spm = 0*times_distance
    
    try:
        res = splitrunkeeperdata(data['heart_rate'],'timestamp','heart_rate')
        hr = res[1]
        times_hr = res[0]
    except KeyError:
        times_hr = times_distance
        hr = 0*times_distance


    # create data series and remove duplicates
    distseries = pd.Series(distance,index=times_distance)
    distseries = distseries.groupby(distseries.index).first()
    latseries = pd.Series(latcoord,index=times_location)
    try:
        latseries = latseries.groupby(latseries.index).first()
    except TypeError:
        latseries = 0.0*distseries
        
    lonseries = pd.Series(loncoord,index=times_location)
    try:
        lonseries = lonseries.groupby(lonseries.index).first()
    except TypeError:
        lonseries = 0.0*distseries
        
    spmseries = pd.Series(spm,index=times_spm)
    spmseries = spmseries.groupby(spmseries.index).first()
    hrseries = pd.Series(hr,index=times_hr)
    try:
        hrseries = hrseries.groupby(hrseries.index).first()
    except TypeError:
        hrseries = 0*distseries


    # Create dicts and big dataframe
    d = {
        ' Horizontal (meters)': distseries,
        ' latitude': latseries,
        ' longitude': lonseries,
        ' Cadence (stokes/min)': spmseries,
        ' HRCur (bpm)' : hrseries,
        }

    

    df = pd.DataFrame(d)

    df = df.groupby(level=0).last()

    cum_time = df.index.values
    df[' ElapsedTime (sec)'] = cum_time

    velo = df[' Horizontal (meters)'].diff()/df[' ElapsedTime (sec)'].diff()
    
    df[' Power (watts)'] = 0.0*velo

    nr_rows = len(velo.values)

    df[' DriveLength (meters)'] = np.zeros(nr_rows)
    df[' StrokeDistance (meters)'] = np.zeros(nr_rows)
    df[' DriveTime (ms)'] = np.zeros(nr_rows)
    df[' StrokeRecoveryTime (ms)'] = np.zeros(nr_rows)
    df[' AverageDriveForce (lbs)'] = np.zeros(nr_rows)
    df[' PeakDriveForce (lbs)'] = np.zeros(nr_rows)
    df[' lapIdx'] = np.zeros(nr_rows)



    unixtime = cum_time+starttimeunix
    try:
        unixtime[0] = starttimeunix
    except IndexError:
        return (0,'No data to import')
        
    df['TimeStamp (sec)'] = unixtime

 
    dt = np.diff(cum_time).mean()
    wsize = round(5./dt)

    # velo2 = stravastuff.ewmovingaverage(velo,wsize)

    # df[' Stroke500mPace (sec/500m)'] = 500./velo2


    df = df.fillna(0)

    df.sort_values(by='TimeStamp (sec)',ascending=True)
        
    timestr = strftime("%Y%m%d-%H%M%S")

#    csvfilename ='media/Import_'+str(importid)+'.csv'
    csvfilename ='media/{code}_{importid}.csv'.format(
        importid=importid,
        code = uuid4().hex[:16]
        )

    res =  df.to_csv(csvfilename+'.gz',index_label='index',
                     compression='gzip')

    id,message = dataprep.save_workout_database(csvfilename,r,
                                                workouttype=workouttype,
                                                workoutsource='runkeeper',
                                                title=title,
                                                notes=comments)

    return (id,message)