Initial design for database

Before considering Django models.
2018-05-23 23:36:38 -04:00
parent 96b7bfb2bb
commit c831e5b9a8
5 changed files with 424 additions and 224 deletions
--- a/.gitignore
+++ b/.gitignore
@@ -6,3 +6,6 @@ db.sqlite3
 api-keys.sh
 Pipfile
 super-pass.txt
 *.js
 *.ini
--- a/database-design.txt
+++ b/database-design.txt
@@ -0,0 +1,47 @@
 UserLibrary as ul
 -
 UserID PK varchar
 SavedTracks array # array of track ID's (varchar)
 ArtistName
 -
 TrackID PK varchar FK >- ul.SavedTracks
 ArtistName varchar
 AudioFeatures
 -
 TrackID PK varchar FK >- ul.SavedTracks
 Danceability decimal
 Energy decimal
 Loudness decimal
 Speechiness decimal
 Acousticness decimal
 Instrumentalness decimal
 Valence decimal
 Tempo decimal
 Genre
 -
 TrackID PK varchar FK >- ul.SavedTracks
 MainGenre NULL varchar
 OtherGenres NULL array
 Popularity
 -
 TrackID PK varchar FK >- ul.SavedTracks
 Popularity decimal
 Runtime
 -
 TrackID PK varchar FK >- ul.SavedTracks
 Runtime smallint # seconds
 TrackName
 -
 TrackID PK varchar FK >- ul.SavedTracks
 TrackName varchar
 Year
 -
 TrackID PK varchar FK >- ul.SavedTracks
 Year smallint
--- a/spotifyvis/tests.py
+++ b/spotifyvis/tests.py
@@ -1,3 +1,67 @@
 from django.test import TestCase
-
+from .views import update_std_dev
 import math
 # Create your tests here.
 class UpdateStdDevTest(TestCase):
    def test_two_data_points(self):
        """
        tests if update_std_dev behaves correctly for two data points
        """
        cur_mean = 5
        cur_std_dev = 0
        new_mean, new_std_dev = update_std_dev(cur_mean, cur_std_dev, 10, 2)
        self.assertTrue(math.isclose(new_mean, 7.5, rel_tol=0.01))
        self.assertTrue(math.isclose(new_std_dev, 3.5355, rel_tol=0.01))
    def test_three_data_points(self):
        """
        tests if update_std_dev behaves correctly for three data points
        """
        cur_mean = 7.5
        cur_std_dev = 3.5355
        new_mean, new_std_dev = update_std_dev(cur_mean, cur_std_dev, 15, 3)
        self.assertTrue(math.isclose(new_mean, 10, rel_tol=0.01))
        self.assertTrue(math.isclose(new_std_dev, 5, rel_tol=0.01))
    def test_four_data_points(self):
        """
        tests if update_std_dev behaves correctly for four data points
        """
        cur_mean = 10 
        cur_std_dev = 5 
        new_mean, new_std_dev = update_std_dev(cur_mean, cur_std_dev, 20, 4) 
        self.assertTrue(math.isclose(new_mean, 12.5, rel_tol=0.01))
        self.assertTrue(math.isclose(new_std_dev, 6.455, rel_tol=0.01))
    def test_five_data_points(self):
        """
        tests if update_std_dev behaves correctly for five data points
        """
        cur_mean = 12.5
        cur_std_dev = 6.455 
        new_mean, new_std_dev = update_std_dev(cur_mean, cur_std_dev, 63, 5) 
        self.assertTrue(math.isclose(new_mean, 22.6, rel_tol=0.01)) 
        self.assertTrue(math.isclose(new_std_dev, 23.2658, rel_tol=0.01))
    def test_sixteen_data_points(self):
        """
        tests if update_std_dev behaves correctly for sixteen data points
        """
        cur_mean = 0.4441 
        cur_std_dev = 0.2855 
        new_mean, new_std_dev = update_std_dev(cur_mean, cur_std_dev, 0.7361, 16) 
        self.assertTrue(math.isclose(new_mean, 0.4624, rel_tol=0.01)) 
        self.assertTrue(math.isclose(new_std_dev, 0.2853, rel_tol=0.01))
--- a/spotifyvis/utils.py
+++ b/spotifyvis/utils.py
@@ -0,0 +1,289 @@
 import requests
 import math
 import pprint
 #  parse_library {{{ # 
 def parse_library(headers, tracks, library_stats):
    """Scans user's library for certain number of tracks to update library_stats with.
    :headers: For API call.
    :tracks: Number of tracks to get from user's library.
    :library_stats: Dictionary containing the data mined from user's library 
    :returns: None
    """
    #  TODO: implement importing entire library with 0 as tracks param
    # number of tracks to get with each call
    limit = 5
    # keeps track of point to get songs from
    offset = 0
    payload = {'limit': str(limit)}
    for _ in range(0, tracks, limit):
        payload['offset'] = str(offset)
        saved_tracks_response = requests.get('https://api.spotify.com/v1/me/tracks', headers=headers, params=payload).json()
        num_samples = offset
        for track_dict in saved_tracks_response['items']:
            # Track the number of samples for calculating
            # audio feature averages and standard deviations on the fly
            num_samples += 1 
            get_track_info(track_dict['track'], library_stats, num_samples)
            #  get_genre(headers, track_dict['track']['album']['id'])
            audio_features_dict = get_audio_features(headers, track_dict['track']['id'])
            for feature, feature_data in audio_features_dict.items():
                update_audio_feature_stats(feature, feature_data, num_samples, library_stats)
            for artist_dict in track_dict['track']['artists']:
                increase_artist_count(headers, artist_dict['name'], artist_dict['id'], library_stats)
        # calculates num_songs with offset + songs retrieved
        library_stats['num_songs'] = offset + len(saved_tracks_response['items'])
        offset += limit
    calculate_genres_from_artists(headers, library_stats)
    pprint.pprint(library_stats)
 #  }}} parse_library # 
 def get_audio_features(headers, track_id):
    """Returns the audio features of a soundtrack
    Args:
        headers: headers containing the API token
        track_id: the id of the soundtrack, needed to query the Spotify API
    Returns:
        A dictionary with the features as its keys
    """
    response = requests.get("https://api.spotify.com/v1/audio-features/{}".format(track_id), headers = headers).json()
    features_dict = {}
    # Data that we don't need
    useless_keys = [ 
        "key", "mode", "type", "liveness", "id", "uri", "track_href", "analysis_url", "time_signature",
    ]
    for key, val in response.items():
        if key not in useless_keys:
            features_dict[key] = val
    return features_dict
 def update_std_dev(cur_mean, cur_std_dev, new_data_point, sample_size):
    """Calculates the standard deviation for a sample without storing all data points
    Args:
        cur_mean: the current mean for N = (sample_size - 1)
        cur_std_dev: the current standard deviation for N = (sample_size - 1)
        new_data_point: a new data point
        sample_size: sample size including the new data point
    Returns:
        (new_mean, new_std_dev)
    """
    # This is an implementation of Welford's method
    # http://jonisalonen.com/2013/deriving-welfords-method-for-computing-variance/
    new_mean = ((sample_size - 1) * cur_mean + new_data_point) / sample_size
    delta_variance = (new_data_point - new_mean) * (new_data_point - cur_mean)
    new_std_dev = math.sqrt(
        (math.pow(cur_std_dev, 2) * (sample_size - 2) + delta_variance) / (
        sample_size - 1
    ))
    return new_mean, new_std_dev
 def update_audio_feature_stats(feature, new_data_point, sample_size, library_stats):
    """Updates the audio feature statistics in library_stats
    Args:
        feature: the audio feature to be updated (string)
        new_data_point: new data to update the stats with
        sample_size: sample size including the new data point
        library_stats Dictionary containing the data mined from user's Spotify library
    Returns:
        None
    """
    # first time the feature is considered
    if sample_size < 2:
        library_stats['audio_features'][feature] = {
            "average": new_data_point,
            "std_dev": 0,
        }
    else:
        cur_mean = library_stats['audio_features'][feature]['average']
        cur_std_dev = library_stats['audio_features'][feature]['std_dev']
        new_mean, new_std_dev = update_std_dev(cur_mean, cur_std_dev, new_data_point, sample_size)
        library_stats['audio_features'][feature] = {
            "average": new_mean,
            "std_dev": new_std_dev
        }
 #  increase_nested_key {{{ # 
 def increase_nested_key(top_key, nested_key, library_stats, amount=1):
    """Increases count for the value of library_stats[top_key][nested_key]. Checks if nested_key exists already and takes
    appropriate action.
    :top_key: First key of library_stats.
    :nested_key: Key in top_key's dict for which we want to increase value of.
    :library_stats: Dictionary containing the data mined from user's Spotify library
    :returns: None
    """
    if nested_key not in library_stats[top_key]:
        library_stats[top_key][nested_key] = amount
    else:
        library_stats[top_key][nested_key] += amount
 #  }}} increase_nested_key # 
 #  increase_artist_count {{{ # 
 def increase_artist_count(headers, artist_name, artist_id, library_stats):
    """Increases count for artist in library_stats and stores the artist_id. 
    :headers: For making the API call.
    :artist_name: Artist to increase count for.
    :artist_id: The Spotify ID for the artist.
    :library_stats: Dictionary containing the data mined from user's Spotify library
    :returns: None
    """
    if artist_name not in library_stats['artists']:
        library_stats['artists'][artist_name] = {}
        library_stats['artists'][artist_name]['count'] = 1
        library_stats['artists'][artist_name]['id'] = artist_id
    else:
        library_stats['artists'][artist_name]['count'] += 1
 #  }}} increase_artist_count # 
 def update_popularity_stats(new_data_point, library_stats, sample_size):
    """Updates the popularity statistics in library_stats
    Args:
        new_data_point: new data to update the popularity stats with
        library_stats: Dictionary containing data mined from user's Spotify library
        sample_size: The sample size including the new data
    Returns:
        None
    """
    if sample_size < 2:
        library_stats['popularity'] = {
            "average": new_data_point,
            "std_dev": 0,
        }
    else :
        cur_mean_popularity = library_stats['popularity']['average']
        cur_popularity_stdev = library_stats['popularity']['std_dev']
        new_mean, new_std_dev = update_std_dev(
            cur_mean_popularity, cur_popularity_stdev, new_data_point, sample_size)
        library_stats['popularity'] = {
            "average": new_mean,
            "std_dev": new_std_dev,
        }
 #  get_track_info {{{ # 
 def get_track_info(track_dict, library_stats, sample_size):
    """Get all the info from the track_dict directly returned by the API call in parse_library.
    :track_dict: Dict returned from the API call containing the track info.
    :library_stats: Dictionary containing the data mined from user's Spotify library
    :sample_size: The sample size so far including this track
    :returns: None
    """
    # popularity
    update_popularity_stats(track_dict['popularity'], library_stats, sample_size)
    # year
    year_released = track_dict['album']['release_date'].split('-')[0]
    increase_nested_key('year_released', year_released, library_stats)
    # artist
    #  artist_names = [artist['name'] for artist in track_dict['artists']]
    #  for artist_name in artist_names:
        #  increase_nested_key('artists', artist_name)
    # runtime
    library_stats['total_runtime'] += float(track_dict['duration_ms']) / (1000 * 60)
 #  }}} get_track_info # 
 #  calculate_genres_from_artists {{{ # 
 def calculate_genres_from_artists(headers, library_stats):
    """Tallies up genre counts based on artists in library_stats.
    :headers: For making the API call.
    :library_stats: Dictionary containing the data mined from user's Spotify library
    :returns: None
    """
    for artist_entry in library_stats['artists'].values():
        artist_response = requests.get('https://api.spotify.com/v1/artists/' + artist_entry['id'], headers=headers).json()
        # increase each genre count by artist count
        for genre in artist_response['genres']:
            increase_nested_key('genres', genre, library_stats, artist_entry['count'])
 #  }}} calculate_genres_from_artists # 
 def process_library_stats(library_stats):
    """Processes library_stats into format more suitable for D3 consumption
    Args:
        library_stats: Dictionary containing the data mined from user's Spotify library
    Returns:
        A new dictionary that contains the data in library_stats, in a format more suitable for D3 consumption
    """
    processed_library_stats = {}
    for key in library_stats:
        if key == 'artists' or key == 'genres' or key == 'year_released':
            for inner_key in library_stats[key]:
                if key not in processed_library_stats:
                    processed_library_stats[key] = []
                processed_item_key = '' # identifier key for each dict in the list
                count = 0
                if 'artist' in key:
                    processed_item_key = 'name'
                    count = library_stats[key][inner_key]['count']
                elif 'genre' in key:
                    processed_item_key = 'genre'
                    count = library_stats[key][inner_key]
                else:
                    processed_item_key = 'year'
                    count = library_stats[key][inner_key]
                processed_library_stats[key].append({
                    processed_item_key: inner_key,
                    "count": count
                })
        elif key == 'audio_features':
            for audio_feature in library_stats[key]:
                if 'audio_features' not in processed_library_stats:
                    processed_library_stats['audio_features'] = []
                processed_library_stats['audio_features'].append({
                    'feature': audio_feature,
                    'average': library_stats[key][audio_feature]['average'],
                    'std_dev': library_stats[key][audio_feature]['std_dev']
                })
        # TODO: Not sure about final form for 'popularity'
        # elif key == 'popularity':
        #     processed_library_stats[key] = []
        #     processed_library_stats[key].append({
        #     })
        elif key == 'num_songs' or key == 'total_runtime' or key == 'popularity':
            processed_library_stats[key] = library_stats[key]
    return processed_library_stats
--- a/spotifyvis/views.py
+++ b/spotifyvis/views.py
@@ -1,5 +1,3 @@
 #  imports {{{ # 
 from django.shortcuts import render, redirect
 from django.http import HttpResponse, HttpResponseBadRequest
 import math
@@ -10,16 +8,11 @@ import urllib
 import json
 import pprint
 from datetime import datetime
-
+from .utils import parse_library, process_library_stats
 #  }}} imports # 
 #  global vars {{{ # 
 TIME_FORMAT = '%Y-%m-%d-%H-%M-%S'
 library_stats = {"audio_features":{}, "genres":{}, "year_released":{}, "artists":{}, "num_songs":0, "popularity":[], "total_runtime":0}
 #  }}} global vars # 
 #  generate_random_string {{{ # 
 def generate_random_string(length):
@@ -139,226 +132,30 @@ def user_data(request):
        'Authorization': auth_token_str
    }
    tracks_to_query = 5
    parse_library(headers, tracks_to_query)
    user_data_response = requests.get('https://api.spotify.com/v1/me', headers = headers).json()
    context = {
        'user_name': user_data_response['display_name'],
        'id': user_data_response['id'],
        'genre_dict': library_stats['genres']
    }
    tracks_to_query = 5
    library_stats = {
        "audio_features":{}, 
        "genres":{}, 
        "year_released":{}, 
        "artists":{}, 
        "num_songs": 0, 
        "popularity": {
            "average": 0,
            "std_dev": 0,
        },   
        "total_runtime": 0
    }
    parse_library(headers, tracks_to_query, library_stats)
    processed_library_stats = process_library_stats(library_stats)
    print("================================================")
    print("Processed data follows\n")
    pprint.pprint(processed_library_stats)
    return render(request, 'spotifyvis/user_data.html', context)
 #  }}} user_data  # 
 #  parse_library {{{ # 
 def parse_library(headers, tracks):
    """Scans user's library for certain number of tracks to update library_stats with.
    :headers: For API call.
    :tracks: Number of tracks to get from user's library.
    :returns: None
    """
    #  TODO: implement importing entire library with 0 as tracks param
    # number of tracks to get with each call
    limit = 5
    # keeps track of point to get songs from
    offset = 0
    payload = {'limit': str(limit)}
    for _ in range(0, tracks, limit):
        payload['offset'] = str(offset)
        saved_tracks_response = requests.get('https://api.spotify.com/v1/me/tracks', headers=headers, params=payload).json()
        num_samples = offset
        for track_dict in saved_tracks_response['items']:
            # Track the number of samples for calculating
            # audio feature averages and standard deviations on the fly
            num_samples += 1 
            get_track_info(track_dict['track'])
            #  get_genre(headers, track_dict['track']['album']['id'])
            audio_features_dict = get_audio_features(headers, track_dict['track']['id'])
            for feature, feature_data in audio_features_dict.items():
                update_audio_feature_stats(feature, feature_data, num_samples)
            for artist_dict in track_dict['track']['artists']:
                increase_artist_count(headers, artist_dict['name'], artist_dict['id'])
        # calculates num_songs with offset + songs retrieved
        library_stats['num_songs'] = offset + len(saved_tracks_response['items'])
        offset += limit
    calculate_genres_from_artists(headers)
    pprint.pprint(library_stats)
 #  }}} parse_library # 
 #  get_audio_features {{{ # 
 def get_audio_features(headers, track_id):
    """Returns the audio features of a soundtrack
    Args:
        headers: headers containing the API token
        track_id: the id of the soundtrack, needed to query the Spotify API
    Returns:
        A dictionary with the features as its keys
    """
    response = requests.get("https://api.spotify.com/v1/audio-features/{}".format(track_id), headers = headers).json()
    features_dict = {}
    # Data that we don't need
    useless_keys = [ 
        "key", "mode", "type", "liveness", "id", "uri", "track_href", "analysis_url", "time_signature",
    ]
    for key, val in response.items():
        if key not in useless_keys:
            features_dict[key] = val
    return features_dict
 #  }}} get_audio_features # 
 #  update_std_dev {{{ # 
 def update_std_dev(cur_mean, cur_std_dev, new_data_point, sample_size):
    """Calculates the standard deviation for a sample without storing all data points
    Args:
        cur_mean: the current mean for N = (sample_size - 1)
        cur_std_dev: the current standard deviation for N = (sample_size - 1)
        new_data_point: a new data point
        sample_size: sample size including the new data point
    Returns:
        (new_mean, new_std_dev)
    """
    # This is an implementationof Welford's method
    # http://jonisalonen.com/2013/deriving-welfords-method-for-computing-variance/
    new_mean = ((sample_size - 1) * cur_mean + new_data_point) / sample_size
    delta_variance = (new_data_point - new_mean) * (new_data_point - cur_mean)
    new_std_dev = math.sqrt(
        (math.pow(cur_std_dev, 2) * (sample_size - 2) + delta_variance) / (
        sample_size - 1
    ))
    return new_mean, new_std_dev
 #  }}} update_std_dev # 
 #  update_audio_feature_stats {{{ # 
 def update_audio_feature_stats(feature, new_data_point, sample_size):
    """Updates the audio feature statistics in library_stats
    Args:
        feature: the audio feature to be updated (string)
        new_data_point: new data to update the stats with
        sample_size: sample size including the new data point
    Returns:
        None
    """
    # first time the feature is considered
    if sample_size < 2:
        library_stats['audio_features'][feature] = {
            "average": new_data_point,
            "std_dev": 0,
        }
    else:
        cur_mean = library_stats['audio_features'][feature]['average']
        cur_std_dev = library_stats['audio_features'][feature]['std_dev']
        new_mean, new_std_dev = update_std_dev(cur_mean, cur_std_dev, new_data_point, sample_size)
        library_stats['audio_features'][feature]['average'] = new_mean
        library_stats['audio_features'][feature]['std_dev'] = new_std_dev
 #  }}} update_audio_feature_stats # 
 #  increase_nested_key {{{ # 
 def increase_nested_key(top_key, nested_key, amount=1):
    """Increases count for the value of library_stats[top_key][nested_key]. Checks if nested_key exists already and takes
    appropriate action.
    :top_key: First key of library_stats.
    :nested_key: Key in top_key's dict for which we want to increase value of.
    :returns: None
    """
    if nested_key not in library_stats[top_key]:
        library_stats[top_key][nested_key] = amount
    else:
        library_stats[top_key][nested_key] += amount
 #  }}} increase_nested_key # 
 #  increase_artist_count {{{ # 
 def increase_artist_count(headers, artist_name, artist_id):
    """Increases count for artist in library_stats and stores the artist_id. 
    :headers: For making the API call.
    :artist_name: Artist to increase count for.
    :artist_id: The Spotify ID for the artist.
    :returns: None
    """
    if artist_name not in library_stats['artists']:
        library_stats['artists'][artist_name] = {}
        library_stats['artists'][artist_name]['count'] = 1
        library_stats['artists'][artist_name]['id'] = artist_id
    else:
        library_stats['artists'][artist_name]['count'] += 1
 #  }}} increase_artist_count # 
 #  get_track_info {{{ # 
 def get_track_info(track_dict):
    """Get all the info from the track_dict directly returned by the API call in parse_library.
    :track_dict: Dict returned from the API call containing the track info.
    :returns: None
    """
    #  popularity
    library_stats['popularity'].append(track_dict['popularity'])
    # year
    year_released = track_dict['album']['release_date'].split('-')[0]
    increase_nested_key('year_released', year_released)
    # artist
    #  artist_names = [artist['name'] for artist in track_dict['artists']]
    #  for artist_name in artist_names:
        #  increase_nested_key('artists', artist_name)
    # runtime
    library_stats['total_runtime'] += float(track_dict['duration_ms']) / 60
 #  }}} get_track_info # 
 #  calculate_genres_from_artists {{{ # 
 def calculate_genres_from_artists(headers):
    """Tallies up genre counts based on artists in library_stats.
    :headers: For making the API call.
    :returns: None
    """
    for artist_entry in library_stats['artists'].values():
        artist_response = requests.get('https://api.spotify.com/v1/artists/' + artist_entry['id'], headers=headers).json()
        # increase each genre count by artist count
        #  for genre in artist_response['genres']:
            #  print(genre, end='')
            #  increase_nested_key('genres', genre, artist_entry['count'])
        #  print('')
        # only use first genre for simplicity right now
        if len(artist_response['genres']) > 0:
            print(artist_response['genres'][0])
            increase_nested_key('genres', artist_response['genres'][0], artist_entry['count'])
 #  }}} calculate_genres_from_artists #