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@pprett
Created November 26, 2012 20:40
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Benchmark sklearn RankSVM implementations
import itertools
import numpy as np
from sklearn.linear_model import SGDClassifier
from sklearn import metrics
def transform_pairwise(X, y):
"""Transforms data into pairs with balanced labels for ranking
Transforms a n-class ranking problem into a two-class classification
problem. Subclasses implementing particular strategies for choosing
pairs should override this method.
In this method, all pairs are choosen, except for those that have the
same target value. The output is an array of balanced classes, i.e.
there are the same number of -1 as +1
Parameters
----------
X : array, shape (n_samples, n_features)
The data
y : array, shape (n_samples,) or (n_samples, 2)
Target labels. If it's a 2D array, the second column represents
the grouping of samples, i.e., samples with different groups will
not be considered.
Returns
-------
X_trans : array, shape (k, n_feaures)
Data as pairs
y_trans : array, shape (k,)
Output class labels, where classes have values {-1, +1}
"""
X_new = []
y_new = []
y = np.asarray(y)
if y.ndim == 1:
y = np.c_[y, np.ones(y.shape[0])]
comb = itertools.combinations(range(X.shape[0]), 2)
for k, (i, j) in enumerate(comb):
if y[i, 0] == y[j, 0] or y[i, 1] != y[j, 1]:
# skip if same target or different group
continue
X_new.append(X[i] - X[j])
y_new.append(np.sign(y[i, 0] - y[j, 0]))
# output balanced classes
if y_new[-1] != (-1) ** k:
y_new[-1] = - y_new[-1]
X_new[-1] = - X_new[-1]
return np.asarray(X_new), np.asarray(y_new).ravel()
class RankSVM(SGDClassifier):
"""Performs pairwise ranking with an underlying SGDClassifer model
Input should be a n-class ranking problem, this object will convert it
into a two-class classification problem, a setting known as
`pairwise ranking`.
Authors: Fabian Pedregosa <[email protected]>
Alexandre Gramfort <[email protected]>
https://gist.github.com/2071994
"""
def fit(self, X, y):
"""
Fit a pairwise ranking model.
Parameters
----------
X : array, shape (n_samples, n_features)
y : array, shape (n_samples,) or (n_samples, 2)
Returns
-------
self
"""
X_trans, y_trans = transform_pairwise(X, y)
super(RankSVM, self).fit(X_trans, y_trans)
return self
def predict(self, X):
pred = super(RankSVM, self).predict(X)
# preds are mapped to {-1,1}
# FIXME only works in this example!!!
pred[pred == -1] = 0
return pred
def score(self, X, y):
"""
Because we transformed into a pairwise problem, chance level is at 0.5
"""
X_trans, y_trans = transform_pairwise(X, y)
return np.mean(super(RankSVM, self).predict(X_trans) == y_trans)
if __name__=="__main__":
rs = np.random.RandomState(0)
n_samples_1 = 10000
n_samples_2 = 100
X = np.r_[1.5 * rs.randn(n_samples_1, 2),
0.5 * rs.randn(n_samples_2, 2) + [2, 2]]
y = np.array([0] * (n_samples_1) + [1] * (n_samples_2))
idx = np.arange(y.shape[0])
rs.shuffle(idx)
X = X[idx]
y = y[idx]
mean = X.mean(axis=0)
std = X.std(axis=0)
X = (X - mean) / std
for clf, name in ((SGDClassifier(n_iter=100, alpha=0.01), "plain sgd"),
(SGDClassifier(n_iter=100, alpha=0.01,
class_weight={1: 10}),"weighted sgd"),
(SGDClassifier(n_iter=1000, alpha=0.01,
loss='roc_pairwise_ranking'), "pairwise sgd"),
(RankSVM(n_iter=10, alpha=0.01, loss='hinge'), 'RankSVM'),
):
clf.fit(X, y)
print clf
pred = clf.predict(X)
print "ACC: %.4f" % metrics.zero_one_score(y, pred)
print "AUC: %.4f" % metrics.auc_score(y, pred)
print "CONFUSION MATRIX: "
print metrics.confusion_matrix(y, pred)
print 80*'='
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