# Operator >= returns false when it actually true

I'm trying to compare two coordinates. I found that my loop never stops because of this:

``````exit = ((p.x * sign_x) >= end_pos.x) && ((p.y * sign_y) >= end_pos.y);
cout<< p.x * sign_x << " >= " << end_pos.x
<< "=" << std::boolalpha << ((p.x * sign_x) >= end_pos.x)
<< " "
<< p.y * sign_y << " >= "<< end_pos.y
<< "=" << std::boolalpha << ((p.y * sign_y) >= end_pos.y)<<endl;
``````

The `exit` variable never becomes `true`. In the console I see:

``````9435.6 >= 132.6=true 180 >= 180=false
``````

How it can be?

All variables are `float`. Values are written above. Variables with `180` as value never change.

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what type are your values? –  mydogisbox Apr 28 '12 at 13:12
If they are floats/doubles, it can happen. –  iccthedral Apr 28 '12 at 13:13
Isn't this about operator `>=`? –  Mark Byers Apr 28 '12 at 13:13
@DenisErmolin: The downvotes are probably because you haven't specified e.g. the types of your variables, nor example values for which this fails. (In other words, you haven't provided a minimal test-case.) Also, your question title doesn't match your question. –  Oliver Charlesworth Apr 28 '12 at 13:15

You haven't provided example values of `p.y` and `sign_y`, so it's difficult to tell for sure.

But the problem is almost certainly that `p.y * sign_y` is not exactly equal to `180`; however it will be rounded when you print it.

I suspect that if your print the value of `(p.y * sign_y) - end_pos.y`, the result will not be `0`.

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Didnt know that operator << with cout rounds values. –  Denis Ermolin Apr 28 '12 at 13:40
@DenisErmolin: Yes, that's its default behaviour. You can specify the precision using `std::setprecision`. –  Oliver Charlesworth Apr 28 '12 at 13:41

180 >= 180=false

This is a standard floating point accuracy problem. You should see it when you use a debugger, the actual value is probably something like 179.9999. You solve it like this:

``````bool closeEnough = p.y * sign_y - end_pos.y >= -epsilon;
``````

Where epsilon is a small value that is large enough to absorb floating point calculation errors. The float type has only 6 significant digits so with a value around 180.0, epsilon should be at least 0.001f. If that's not good enough then you need to use double instead of float, it has 15 significant digits.

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you can use with cout, setprecision() from <iomanip> to get more exact result. –  hradecek Apr 28 '12 at 13:37
Meh, what's the point? It doesn't actually solve the problem. Using cout is no substitute for a real debugger anyway. –  Hans Passant Apr 28 '12 at 13:46
he wants to use cout to printing values. I'm not suggesting using std::cout instead of debbuger...only better way of using it ;d –  hradecek Apr 28 '12 at 13:52