# Cast the return value of a function that returns a floating point type

I have difficulty understanding the article Cast the return value of a function that returns a floating point type

(1) In

Conversion as if by assignment to the type of the function is required if the return expression has a different type than the function, but not if the return expression has a wider value only because of wide evaluation.

What is "wide evaluation"? What does it try to say?

(2） in the example

``````float f(float x) {
return x * 0.1f;
}

float g(float x) {
return x * 0.1;
}
``````

Why "Function f is allowed to return a value wider than float, but function g (which uses the wider constant) is not"?

In f(), x and 0.1f are both float type so I think x * 0.1f is also float type? In g(), 0.1 is probably regarded as double, so x * 0.1 is double?

(3) What's the moralities of the article?

Thanks and regards!

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smells like homework – JonH Feb 15 '10 at 20:42
@JonH: I highly doubt secured coding restrictions are being done as homework.... Sounds like trying to get up to speed for a job. – Reed Copsey Feb 15 '10 at 20:43
This does not smell like homework. Who in the right mind would teach crazy peculiarities of C language in a classroom? This is what real world is for! – Hamish Grubijan Feb 15 '10 at 20:44
It's not homework. I am trying to figure out the Dos and Don'ts when using floating point. – Tim Feb 15 '10 at 20:55

Function g returns type float which is a 32 bit value. 0.1 is interpreted as a double which means that the expression x * 0.1 returns a double. A double is a 64 bit value which will cause a narrowing conversion in order to be returned as a float. x can safely be converted to a double because that is a widening conversion from float to double.

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(1) In

``````Conversion as if by assignment to the type of the function is required
``````

if the return expression has a different type than the function, but not if the return expression has a wider value only because of wide evaluation.

What is "wide evaluation"? What does it try to say?

If you declare a byte variable or constant, it may actually be stored as DWORD on 32-bit platform. Byte arithmetics may also be implemented as 32-bit arithmetics (wide evaluation). It does not cause problems for integer types.

(2） in the example

float f(float x) { return x * 0.1f; }

float g(float x) { return x * 0.1; }

Why "Function f is allowed to return a value wider than float, but function g (which uses the wider constant) is not"?

That is what the current C standard says: 0.1f may be stored in a wider format (than float), x * 0.1f may also be evaluated in a wider format, and return operator is not required to perform conversion to float and may return the result "as is". With the g function, the return operator is required to perform a conversion from double to float.

In f(), x and 0.1f are both float type so I think x * 0.1f is also float type? In g(), 0.1 is probably regarded as double, so x * 0.1 is double?

Yes, that is right for all 32-bit compilers (at least I think so :) ). But the article is dealing with the issue in general.

(3) What's the moralities of the article?

The C standard is a hard thing to learn :)

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