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.
Is this:
less correct than this?
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. 


It can make a difference. For example:
The reason is that the calculation for the first is done in doubleprecision, the latter in singleprecision. Singleprecision cannot represent all integers greater than Another example (courtesy of @EricPostpischil in the comments below):
Here the reason is that the intermediate result in the doubleprecision case falls slightly below 29, and so is truncated down to 28. So I would suggest allowing doubleprecision (i.e. omitting the 


The 


The first says, and reduces to
The second says
Both are effectively the same, unless you specifically care about float vs. double precision. 


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 CortexM4F. 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. 

