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Is it considered "bad style" to use the increment operator (++) on floats? It compiles just fine but I find it smelly and counter-intuitive.

The question: In what cases is using ++ on float variable justified and better than += 1.0f? If there are no use cases, is there a respectable C++ style guide that explicitly says that ++ on float is evil?

For float ++ does not increment by the smallest possble value, but by 1.0. 1.0f has no special meaning (unlike integer 1). It may confuse the reader causing him to think that the variable is int.

For float it is not guaranteed that operator++ changes the argument. For example the following loop is not infinite:

float i, j;
for (i=0.0, j=1.0; i!=j;i=j++);

Consequently doing ++ immediately after -- does not guarantee that the value is unchanged.

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2  
There's a big difference between j++ and ++j –  luke Dec 19 '11 at 12:32
    
Why don't you split your question-answer pair into a proper question and a proper answer? You might get more votes if people agree with you. –  vitaut Dec 19 '11 at 12:36
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+1 - I agree that ++ has a connotation of "advance to the next value", not "increase by the magic number 1". And in that sense it does not make much sense to use with floats. Still, I doubt there will be a satisfying answer to this question. –  tenfour Dec 19 '11 at 12:37
    
The question is whether there is a case where ++ on float is justified. If no is there a C++ style guide that explicitly says that ++ on float is evil? –  Muxecoid Dec 19 '11 at 12:45
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How shocking! C++ compiles something that doesn't make all that much of a sense ;) ? –  ScarletAmaranth Dec 19 '11 at 13:04

4 Answers 4

up vote 6 down vote accepted

In general ++/-- is not defined for floats, since it's not clear with which value the float should be incremented. So, you may have luck on one system where ++ leads to f += 1.0f but there may be situations where this is not valid. Therefore, for floats, you'll have to provide a specific value.

++/-- is defined as "increment/decrement by 1". Therefore this is applicable to floating point values. However, personally i think, that this can be confusing to someone who isn't aware of this definition (or only applies it to integers), so i would recommend using f += 1.0f.

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It is defined for all arithmetic types and pointer: 'The value of the operand object is modified by adding 1 to it, unless the object is of type bool, in which case it is set to true' –  fefe Dec 19 '11 at 12:44
    
Also gcc does not complain about float++ when compiling with -Wall. –  Muxecoid Dec 19 '11 at 12:55
    
@fefe: Thanks for clarification –  Sebastian Dressler Dec 19 '11 at 12:59

When you add a lots of 1.0 to a float, because of floating point arithmetic you might be a little off in the end

The best way is to do

for ( int i = 0; i < 100; i++ )
{
     float f = 2.433f + i * 1.0f;

instead of

for ( float f = 2.433f; f < 102.433f; f += 1.0f )

In the second case the floating point arithmetic error adds up and in the first case it doesn't. As certain users have pointed out in comments below adding integrals floats might not accumulate errors but in general it is a good idea to avoid it.

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Yes. (But why multiply by 1.0f? float f = 2.433f + i; is enough.) –  TonyK Dec 19 '11 at 12:45
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@TonyK I was thinking of a general increment... and let increment be 1.0f...:) –  parapura rajkumar Dec 19 '11 at 12:46
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Actually, adding 1.0f consecutively to 0.0f is exact as long as it is less than 2²⁴ for IEEE single. –  KennyTM Dec 19 '11 at 13:14
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@Ferruccio: Not correct. In single precision, only integers up to 2^24, in double precision, up to 2^53 can be stored exactly (because of the size of the significand). –  phresnel Dec 19 '11 at 14:16
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Yes, you can always overflow any numeric type. –  Ferruccio Dec 19 '11 at 17:09

It's bad style. ++ and -- are intended to set an lvalue to its next or previous value, like the next or previous integer, the next or previous element in an array (for pointers), the next or previous element in a container (iterators), etc.

Next and previous values are not well-defined for floats. Do f += 1. explicitly.

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I'm not sure I follow what you're saying. As far as the increment and decrement operators are "intended" to do anything, they're intended to increment and decrement any type they're defined for - including floating point types. The only difference between f += 1. and ++f is that the former promotes f to a double for the calculation. –  Mike Seymour Dec 19 '11 at 13:01
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@Mike: I think that larsmans and the questioner are in effect asserting that it was a mistake (of bad style) in the C standard to define ++ for floating point types. They assert this based on their perception of the intended purpose of that operator for other types, and that just because the definition can be applied to any type with a += assignment operator that takes 1 on the rhs, doesn't mean the purpose applies. –  Steve Jessop Dec 19 '11 at 13:34
    
@SteveJessop: Exactly. I had an arguement on the subject with my collegue so now I'm looking for a style guide that supports my point. :) –  Muxecoid Dec 19 '11 at 14:06
    
Exactly, I choose to disagree with the Standard's authors on this one; ++ shouldn't have been defined on floating-point types. It just doesn't make sense given the meaning of ++ on all other types and it's confusing. –  larsmans Dec 19 '11 at 16:58
    
Technically, 1. if a double. 1.f is a float. –  Cole Johnson May 6 '13 at 0:21

There is nothing wrong with using ++ and -- on float or double operands. It simply adds or subtracts 1. That's what it's for!

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That's actually untrue as far as I'm concerned, according to 'standard' that doesn't really specify the behavior here, i wouldn't rely on that. –  ScarletAmaranth Dec 19 '11 at 13:07
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@ScarletAmaranth The standard does specify the behavior, very precisely. (That doesn't necessarily mean that it's a good idea.) –  James Kanze Dec 19 '11 at 13:35
    
@TonyK My apologies fine sir, disregard my previous comment, i though it's behavior is undefined when dealing with floats (considering a lot of floating-point-interpretation problems.) So yes, it simply increments by one :) –  ScarletAmaranth Dec 19 '11 at 13:42

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