def __init__(self, reg_season, tourney, seeds):
"""
Wrapper for sklearn Logistic Regression for Kaggle NCAA Tourney
"""
self.Ranks = RankingsCalculator(reg_season, tourney, seeds)
self.Logit = linear_model.LogisticRegression()
self.team_features = []
def __init__(self, reg_season, tourney, seeds, power_rankings):
"""
Wrapper for sklearn classification models for Kaggle NCAA Tourney
"""
self.Ranks = RankingsCalculator(reg_season, tourney, seeds, power_rankings)
self.Logit = linear_model.LogisticRegression()
self.SVM = svm.SVC(probability=True)
self.GBT = ensemble.GradientBoostingClassifier()
self.team_features = []
def __init__(self, reg_season, tourney, seeds):
"""
Wrapper for sklearn Logistic Regression for Kaggle NCAA Tourney
"""
self.Ranks = RankingsCalculator(reg_season, tourney, seeds)
self.Logit = linear_model.LogisticRegression()
self.team_features = []
class Logistic(object):
def __init__(self, reg_season, tourney, seeds):
"""
Wrapper for sklearn Logistic Regression for Kaggle NCAA Tourney
"""
self.Ranks = RankingsCalculator(reg_season, tourney, seeds)
self.Logit = linear_model.LogisticRegression()
self.team_features = []
def train(self):
X = self.build_matrix()
scaled_X = preprocessing.scale(X[:, :-1])
Y = X[:, -1]
self.Logit.fit(scaled_X, Y)
def predict(self, season):
"""
Infile is tourney_seeds.csv - since removed
Output is predictions, index
"""
#team_list = []
team_list = self.Ranks.tourney_seeds[season].keys()
matrix = []
index = []
#with open(infile, 'r') as f:
# reader = csv.reader(f)
# for row in reader:
# if row[0] == season:
# team_list.append(row[2])
# ####MODIFY LATER FOR SEEDS
#I unindented this whole chunk
team_list.sort()
for (l_team, h_team) in combinations(team_list, 2):
matrix.append(self.build_row(season, l_team, h_team))
index.append((l_team, h_team))
return self.Logit.predict_proba(preprocessing.scale(
np.array(matrix))), index
def score(self):
X = self.build_matrix()
scaled_X = preprocessing.scale(X[:, :-1])
Y = X[:, -1]
scores = cross_validation.cross_val_score(self.Logit,
scaled_X,
Y,
cv=5)
return scores
def build_row(self, season, l_team, h_team):
temp_list = []
l_dict = self.Ranks.reg_season[season][l_team]
h_dict = self.Ranks.reg_season[season][h_team]
temp_list.append(self.Ranks.calc_RPI(season, l_team))
temp_list.append(l_dict['net_score'])
temp_list.append(self.Ranks.calc_SOS(season, l_team))
#temp_list.append(self.)
temp_list.append(self.Ranks.calc_RPI(season, h_team))
temp_list.append(h_dict['net_score'])
temp_list.append(self.Ranks.calc_SOS(season, h_team))
#additions
temp_list += self.Ranks.tourney_seeds[season][l_team]
temp_list += self.Ranks.tourney_seeds[season][h_team]
return temp_list
def build_matrix(self, exclude_season=None):
output_list = []
seasons = [x for x in self.Ranks.tourney if x != exclude_season]
for season in seasons:
for (l_team, h_team) in self.Ranks.tourney[season]:
temp_list = self.build_row(season, l_team, h_team)
temp_list.append(self.Ranks.tourney[season][(l_team, h_team)])
output_list.append(temp_list)
return np.array(output_list)
class Logistic(object):
def __init__(self, reg_season, tourney, seeds):
"""
Wrapper for sklearn Logistic Regression for Kaggle NCAA Tourney
"""
self.Ranks = RankingsCalculator(reg_season, tourney, seeds)
self.Logit = linear_model.LogisticRegression()
self.team_features = []
def train(self):
X = self.build_matrix()
scaled_X = preprocessing.scale(X[:, :-1])
Y = X[:, -1]
self.Logit.fit(scaled_X, Y)
def predict(self, season):
"""
Infile is tourney_seeds.csv - since removed
Output is predictions, index
"""
#team_list = []
team_list = self.Ranks.tourney_seeds[season].keys()
matrix = []
index = []
#with open(infile, 'r') as f:
# reader = csv.reader(f)
# for row in reader:
# if row[0] == season:
# team_list.append(row[2])
# ####MODIFY LATER FOR SEEDS
#I unindented this whole chunk
team_list.sort()
for (l_team, h_team) in combinations(team_list, 2):
matrix.append(self.build_row(season, l_team, h_team))
index.append((l_team, h_team))
return self.Logit.predict_proba(preprocessing.scale(np.array(matrix))), index
def score(self):
X = self.build_matrix()
scaled_X = preprocessing.scale(X[:, :-1])
Y = X[:, -1]
scores = cross_validation.cross_val_score(self.Logit, scaled_X, Y, cv=5)
return scores
def build_row(self, season, l_team, h_team):
temp_list = []
l_dict = self.Ranks.reg_season[season][l_team]
h_dict = self.Ranks.reg_season[season][h_team]
temp_list.append(self.Ranks.calc_RPI(season, l_team))
temp_list.append(l_dict['net_score'])
temp_list.append(self.Ranks.calc_SOS(season, l_team))
#temp_list.append(self.)
temp_list.append(self.Ranks.calc_RPI(season, h_team))
temp_list.append(h_dict['net_score'])
temp_list.append(self.Ranks.calc_SOS(season, h_team))
#additions
temp_list += self.Ranks.tourney_seeds[season][l_team]
temp_list += self.Ranks.tourney_seeds[season][h_team]
return temp_list
def build_matrix(self, exclude_season=None):
output_list = []
seasons = [x for x in self.Ranks.tourney if x != exclude_season]
for season in seasons:
for (l_team, h_team) in self.Ranks.tourney[season]:
temp_list = self.build_row(season, l_team, h_team)
temp_list.append(self.Ranks.tourney[season][(l_team, h_team)])
output_list.append(temp_list)
return np.array(output_list)
class ClassificationModels(object):
def __init__(self, reg_season, tourney, seeds, power_rankings):
"""
Wrapper for sklearn classification models for Kaggle NCAA Tourney
"""
self.Ranks = RankingsCalculator(reg_season, tourney, seeds, power_rankings)
self.Logit = linear_model.LogisticRegression()
self.SVM = svm.SVC(probability=True)
self.GBT = ensemble.GradientBoostingClassifier()
self.team_features = []
def train(self, exclude_seasons=[]):
X = self.build_matrix(exclude_seasons)
scaled_X = preprocessing.scale(X[:, :-1])
Y = X[:, -1]
imputer = preprocessing.Imputer(missing_values='NaN', strategy='mean', axis=0)
imputer.fit(scaled_X)
scaled_X = imputer.transform(scaled_X)
self.Logit.fit(scaled_X, Y)
self.SVM.fit(scaled_X, Y)
self.GBT.fit(scaled_X, Y)
def predict(self, season, a=1, b=1, c=1):
"""
Output is predictions, index
"""
#team_list = []
team_list = self.Ranks.tourney_seeds[season].keys()
matrix = []
index = []
#with open(infile, 'r') as f:
# reader = csv.reader(f)
# for row in reader:
# if row[0] == season:
# team_list.append(row[2])
# ####MODIFY LATER FOR SEEDS
#I unindented this whole chunk
team_list.sort()
for (l_team, h_team) in combinations(team_list, 2):
matrix.append(self.build_row(season, l_team, h_team))
index.append((l_team, h_team))
matrix = np.array(matrix)
imputer = preprocessing.Imputer(missing_values='NaN', strategy='mean', axis=0)
imputer.fit(matrix)
logit = self.Logit.predict_proba(preprocessing.scale(imputer.transform(matrix)))
SVM = self.SVM.predict_proba(preprocessing.scale(imputer.transform(matrix)))
GBT = self.GBT.predict_proba(preprocessing.scale(imputer.transform(matrix)))
pred = []
for i in range(len(logit)):
pred.append((a*logit[i][1] + b*SVM[i][1] + c*GBT[i][1])/(a+b+c))
return pd.DataFrame(pred, index=index)
def score(self):
X = self.build_matrix()
scaled_X = preprocessing.scale(X[:, :-1])
imputer = preprocessing.Imputer(missing_values='NaN', strategy='mean', axis=0)
imputer.fit(scaled_X)
scaled_X = imputer.transform(scaled_X)
Y = X[:, -1]
svm_scores = cross_validation.cross_val_score(self.SVM, scaled_X, Y, cv=10)
log_scores = cross_validation.cross_val_score(self.Logit, scaled_X, Y, cv=10)
gbt_scores = cross_validation.cross_val_score(self.GBT, scaled_X, Y, cv=10)
return svm_scores.mean(), log_scores.mean(), gbt_scores.mean()
def build_row(self, season, l_team, h_team):
temp_list = []
l_dict = self.Ranks.reg_season[season][l_team]
h_dict = self.Ranks.reg_season[season][h_team]
temp_list.append(self.Ranks.calc_RPI(season, l_team))
temp_list.append(l_dict['net_score'])
try:
temp_list.append(l_dict['power'])
except KeyError:
temp_list.append(np.NaN)
temp_list.append(self.Ranks.calc_SOS(season, l_team))
temp_list.append(self.Ranks.calc_RPI(season, h_team))
temp_list.append(h_dict['net_score'])
try:
temp_list.append(l_dict['power'])
except KeyError:
temp_list.append(np.NaN)
temp_list.append(self.Ranks.calc_SOS(season, h_team))
#additions
temp_list += self.Ranks.tourney_seeds[season][l_team]
temp_list += self.Ranks.tourney_seeds[season][h_team]
return temp_list
def build_matrix(self, exclude_seasons=[]):
output_list = []
seasons = [x for x in self.Ranks.tourney if x not in exclude_seasons]
for season in seasons:
for (l_team, h_team) in self.Ranks.tourney[season]:
temp_list = self.build_row(season, l_team, h_team)
temp_list.append(self.Ranks.tourney[season][(l_team, h_team)])
output_list.append(temp_list)
return np.array(output_list)
def cross_validate(self):
seasons = [chr(x) for x in range(65, 83)]
shuffle(seasons)
test = seasons[:3]
train = seasons[3:]
self.train(exclude_seasons=test)
for a in range(1,6):
for b in range(1,6):
for c in range(1,6):
for season in test:
df = self.predict(season, a=a, b=b, c=c)
#results =
def eval_log_loss(self, pred_frame, results_frame):
run_sum = 0
for i in range(len(pred_frame[0])):
y = results_frame[0][i]
y_hat = pred_frame[0][i]
run_sum += y * log(y_hat) + (1 - y) * log(1-y_hat)
return (-1.0/len(pred_frame[0])) * run_sum