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Is this:

int i = 100 * 0.6;

less correct than this?

int i = 100 * (0.6F);

I apologize for such a simple question, but I haven't memorized all the rules for data type promotions and I'm not really sure how to even verify this.

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The parentheses are definitely not required and do look strange. 0.6F is a token. – undur_gongor Dec 18 '13 at 17:46
up vote 14 down vote accepted

It can make a difference. For example:

int i = (1 << 24) + 3;

printf("%d\n", (int)(i * 0.6));    // 10066331
printf("%d\n", (int)(i * 0.6f));   // 10066332

The reason is that the calculation for the first is done in double-precision, the latter in single-precision. Single-precision cannot represent all integers greater than 1 << 24.

Another example (courtesy of @EricPostpischil in the comments below):

int i = 100;

printf("%d\n", (int)(i * 0.29));    // 28
printf("%d\n", (int)(i * 0.29f));   // 29

Here the reason is that the intermediate result in the double-precision case falls slightly below 29, and so is truncated down to 28.

So I would suggest allowing double-precision (i.e. omitting the f/F) (and then using round() rather than relying on implicit truncation) unless you have a good reason to do otherwise.

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A smaller example, and a case where using double leads to a less accurate result, is that int i = 100 * .29f; produces 29 while int i = 100 * .29; produces 28 (using IEEE-754 binary floating-point). – Eric Postpischil Dec 18 '13 at 17:48
@EricPostpischil: Oh that's interesting. Why the discrepancy there? Neither single nor double can exactly represent 0.29; does one quantize up and the other down? – Oliver Charlesworth Dec 18 '13 at 17:50
+1 , but a question: Is not the compiler allowed, though not required, to do the calculation in higher precision math? Thus the answer could be the same? – chux Dec 18 '13 at 17:50
@chux: That's an interesting question, and my answer is "I don't know!". I imagine Eric can give you a better answer ;) – Oliver Charlesworth Dec 18 '13 at 17:52
@chux: True. "The values of floating operands and of the results of floating expressions may be represented in greater precision and range than that required by the type; the types are not changed thereby." ISO/IEC 9899:1999 – undur_gongor Dec 18 '13 at 17:55

The F is not required in this particular case. All it does is specify the constant as being of type float instead of type double.

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The first says, and reduces to

i [int] = 100 [int] * 0.6 [double]
i [int] = 100.0 [double] * 0.6 [double]
i [int] = 60.0 [double]

The second says

i [int] = 100 [int] * 0.6 [float]
i [int] = 100.0 [float] * 0.6 [float]
i [int] = 60.0 [float]

Both are effectively the same, unless you specifically care about float vs. double precision.

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On embedded systems, the difference may be significant besides in precision also in execution time. f suffix makes the number a floating point constant as opposed to double precision floating point constant as others have already noted.

If all operands are floats the math operation will happen using single precision floating point. If the processor has a single precision floating point unit, the calculations may use it (depending on compiler options).

If on the other hand any operand is a double, the calculation happens in double precision. If the cpu has only single precision FPU, it means that the calculation will be done using a SW library. The execution time of the code in question in that case will be several times longer.

Example of such CPU is ARM Cortex-M4F.

Similar but not so radical difference effect is in the case of no FPU. All floating point operations use sw library. Double precision will take more time.

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+1 For embedded considerations. In a embedded environment I used, float and double were that same, hence double took the same time as float. – chux Dec 18 '13 at 18:03

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