I'm trying to write out a bit of code for the gradient descent algorithm explained in the Stanford Machine Learning lecture (lecture 2 at around 25:00). Below is the implementation I used at first, and I think it's properly copied over from the lecture, but it doesn't converge when I add large numbers (`>8`

) to the training set.

I'm inputting a number `X`

, and the `point (X,X)`

is added to the training set, so at the moment, I'm only trying to get it to converge to `y=ax+b`

where `a=1=theta\[1\]`

and `b=0=theta\[0\]`

.
The training set is the array `x`

and `y`

, where `(x[i],y[i])`

is a point.

```
void train()
{
double delta;
for (int i = 0; i < x.size(); i++)
{
delta = y[i]-hypothesis(x[i]);
theta[1] += alpha*delta*x[i];
theta[0] += alpha*delta*1;
}
}
void C_Approx::display()
{
std::cout<<theta[1]<<"x + "<<theta[0]<<" \t "<<"f(x)="<<hypothesis(1)<<std::endl;
}
```

some of the results I'm getting:
I input a number, it runs `train()`

a few times, then `display()`

```
1
0.33616x + 0.33616 f(x)=0.67232
1
0.482408x + 0.482408 f(x)=0.964816
1
0.499381x + 0.499381 f(x)=0.998762
1
0.499993x + 0.499993 f(x)=0.999986
1
0.5x + 0.5 f(x)=1
```

An example of it diverging after it passed `8`

:

```
1
0.33616x + 0.33616 f(x)=0.67232
2
0.705508x + 0.509914 f(x)=1.21542
3
0.850024x + 0.449928 f(x)=1.29995
4
0.936062x + 0.330346 f(x)=1.26641
5
0.951346x + 0.231295 f(x)=1.18264
6
0.992876x + 0.137739 f(x)=1.13062
7
0.932206x + 0.127372 f(x)=1.05958
8
1.00077x + 0.000493063 f(x)=1.00126
9
-0.689325x + -0.0714712 f(x)=-0.760797
10
4.10321e+08x + 4.365e+07 f(x)=4.53971e+08
11
1.79968e+22x + 1.61125e+21 f(x)=1.9608e+22
12
-3.9452e+41x + -3.26957e+40 f(x)=-4.27216e+41
```

I tried the solution proposed here of scaling the step and ended up with similar results. What am I doing wrong?