# What is wrong in this Python code for Regularized Linear Regression?

I wrote code with numpy(theta, X is numpy array):

``````def CostRegFunction(X, y, theta, lambda_):
m = len(X)
X = np.concatenate((np.ones((m,1)),X),1)

H = np.dot(X,theta)

J = (1 / (2 * m)) * (np.sum([(H[i] - y[i][0])**2 for i in range(len(H))])) + (lambda_ / (2 * m)) * np.sum(theta[1:]**2)

grad_.append((1 / m) * np.sum([(H[j] - y[j][0]) for j in range(len(H))]))
for i in range(len(theta)-1):
grad_.append((1 / m) * np.sum([(H[j] - y[j]) * X[j][i+1] for j in range(len(H))]) + (lambda_ / m) * theta[i+1])

def TrainLinearReg(X, y, theta, lambda_, alpha, iter):

JHistory = list()
for i in range(iter):
J, grad = CostRegFunction(X, y, theta, Lambda_)
JHistory.append(J)
for j in range(len(theta)):
theta[j] = theta[j] - alpha * grad[j]

return theta, JHistory

Theta, JH = TrainLinearReg(X, y, th, Lambda_, 0.01, 50)
``````

But when I try learn theta this code gives me a realy huge grow of theta and value of J. For example first iteration grad = [-15.12452, 598.435436] - it is correct. J is 303.3255 2nd iteration - grad = [10.23566,-3646.2345] J = 7924 and so on J grows faster and faster but on idea of LR it must be lower.

But if I use Normal Linear Equation in gives me a good Theta.

What is wrong in that code?

-
Did you check with various `alpha` values? –  amit Jul 17 '13 at 10:05
Yes.. I tried earlier alpha = 0.001 but it gave me constant J on each iteration = 141. But I try varios values now and it gave me corect answer!(alpha = 0.001) I'm wondering, really. Perhaps I find a mistake and fix it but doesn't try varios alpha no more. Thank you. –  user1972060 Jul 17 '13 at 10:19
Can you explain a bit more what is what in your regression functions? what is X,Y,theta etc? and what is the shape of each of the things? because i think somehow with those for j in range(len(... statements, you complicate a lot of things –  usethedeathstar Jul 17 '13 at 11:01