# C++ int float casting

Why is m always = 0? The x and y members of someClass are integers.

``````float getSlope(someClass a, someClass b)
{
float m = (a.y - b.y) / (a.x - b.x);
cout << " m = " << m << "\n";
return m;
}
``````
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Integer division occurs, then the result, which is an integer, is assigned as a float. If the result is less than 1 then it ends up as 0.

You'll want to cast the expressions to floats first before dividing, e.g.

``````float m = (float)(a.y - b.y) / (float)(a.x - b.x);
``````
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..And watch out for division by zero! – GrahamS Mar 28 '11 at 9:18
@GrahamS - It's not that dangerous to divide by 0, when we're talking about floating point numbers. You could safely divide any float number by 0.0 or -0.0, will give you `inf`. But yes, if it's unexpected, it will cause problems. – Kiril Kirov Mar 28 '11 at 9:45
@Kiril Kirov: Yeah it won't cause an exception/crash like integer division-by-zero does, but it leaves you with either `+INF`, `-INF` or `NaN` which will probably cause the OP further problems when he tries to use `m`. – GrahamS Mar 28 '11 at 9:51
@GrahamS - yep, I absolutely agree with that (: – Kiril Kirov Mar 28 '11 at 9:54
@BoltClock isn't it enough to cast any one of the elements of the expression to float? e.g. `(static_cast<float>(a.y)-b.y)/(a.x-b.x)` – juanchopanza Mar 28 '11 at 10:08

he does an integer divide, which means 3 / 4 = 0. cast one of the brackets to float

`````` (float)(a.y - b.y) / (a.x - b.x);
``````
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if (a.y - b.y) is less than (a.x - b.x), `m` is always zero.

so cast it like this.

``````float m = ((float)(a.y - b.y)) / ((float)(a.x - b.x));
``````
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Because (a.y - b.y) is probably less then (a.x - b.x) and in your code the casting is done after the divide operation so the result is an integer so 0.

You should cast to float before the / operation

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You need to use cast. I see the other answers, and they will really work, but as the tag is `C++` I'd suggest you to use `static_cast`:

``float m = static_cast< float >( a.y - b.y ) / static_cast< float >( a.x - b.x );``
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You should be aware that in evaluating an expression containing integers, the temporary results from each stage of evaluation are also rounded to be integers. In your assignment to `float m`, the value is only converted to the real-number capable `float` type after the integer arithmetic. This means that, for example, 3 / 4 would already be a "0" value before becoming 0.0. You need to force the conversion to float to happen earlier. You can do this by using the syntax `float(value)` on any of `a.y`, `b.y`, `a.x`, `b.x`, `a.y - b.y`, or `a.x - b.x`: it doesn't matter when it's done as long as one of the terms is a float before the division happens, e.g.

``````float m = float(a.y - b.y) / (a.x - b.x);
float m = (float(a.y) - b.y) / (a.x - b.x);
...etc...
``````
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You are performing calculations on integers and assigning its result to float. So compiler is implicitly converting your integer result into float

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