# Finding CGPoint by adding into distance of two CGPoints

I have two CGPoints A and B. Distance between A and B can be found with ccpDistance(A,B).

With this information, I need to find programmatically CGPoint(x,y) of X by adding small distance into distance of A-B. A-B may can make a connecting line in horizontal, vertical, diagonal or any orientation. Purpose is to extend the imaginary line and find a point at the end of it.

Is it possible in Box2D for iOS? If Yes, then how?

``````          X            Y   X
/               .  \
/                  . \
B                     .B
/                        \
/                          \
/                            \
/                              \
A                                A
``````
-

Use the following function (put it in one of your `.h` files):

``````static inline CGPoint
ccpLineExtend(const CGPoint v1, const CGPoint v2, const CGFloat extension)
{
double angle = atan2(v2.y - v1.y, v2.x - v1.x);
return ccp(v2.x + extension * cos(angle), v2.y + extension * sin(angle));
}
``````
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Thankyou so much. It works like charm for the first figure. It is not considering reverse angle like in figure 2. It is giving Y point at dotted distance. I so much hope you can provide solution for this one too. –  WaJiyaz Mar 23 '11 at 13:39
@WJK: Are you sure you calculated it right? Because a simple test of `ccpLineExtend(ccp(3, 0), ccp(0, 4), 5.0)` gives the correct `-3.0, 8.0` .. the trigonometric formula can't be wrong. Oh yeah, if you want to use it in Box2D, don't forget to divide both x and y components by PTM_RATIO –  Lukman Mar 23 '11 at 15:43
You are right. It's straight trigonometry. It is only happening to me for angle between 90-135 degrees. May be because I have load many calculations, so some value might be impacting it. Thanks. –  WaJiyaz Mar 23 '11 at 17:47
some other value was affecting lineExtend, it's solved now. Thanks again :) –  WaJiyaz Mar 23 '11 at 20:34
``````static inline CGPoint ccpLineExtend(const CGPoint from, const CGPoint to, const CGFloat factor)
`factor = 1.0` means that the resulting point is equal to point `to`. `factor = 2.0` means that the resulting point is as twice as far from `from` as `to` is.