double numbers[ ] = { 1, 0.5 ,0.333333 ,0.25 ,0.2, 0.166667, 0.142857, 0.125,
                       0.111111, 0.1 } ;
std::vector<double> doublenumbers ( numbers , numbers + 10 ) ;
std::cout << std::accumulate ( doublenumbers.begin( ) , doublenumbers.end( ) , 0 ) ;

This produces 1, which is evidently wrong. Any explanations?

  • 2
    +1, this is an important gotcha that's bitten me several times. – Michael Kristofik Aug 30 '10 at 21:59
  • 2
    also, the vector is not necessary; you can use pointers as iterators: std::accumulate ( numbers, numbers + sizeof numbers / sizeof *numbers, 0.0);. [In real code you'd probably have a constant or variable num_numbers rather than sizeof numbers / sizeof *numbers] – Philip Potter Aug 30 '10 at 22:12
  • See my answer for an easy way to prevent this headache in the future. – Andreas DM Apr 25 '15 at 6:07

You should write the following:

std::cout << 
 std::accumulate ( doublenumbers.begin( ) , doublenumbers.end( ) , 0.0 ) ;

Because the type of 0 is int.

When std::accumulate is instantiated with the type of the third argument is int, then it would convert the right hand side of the sum. e.g.:

   result += *iter;
// int    += double

This would force a conversion of double to int, instead of what you were thinking of which is the opposite.

  • 3
    What is amusing is that even using 0.0 there could still be some discrepancies (for large sums) because of the approximate representation of floating numbers. std::vector<float> v(1000, 1000.1f); std::cout << std::accumulate(v.begin(), v.end(), 0.0f); yields 1.00011e+06 because float only has 5/6 digits worth of precision on my machine. – Matthieu M. Aug 31 '10 at 6:52
  • 2
    I just had to same problem. Now I just wonder, how one is supposed to know this from the documentation (e.g. en.cppreference.com/w/cpp/algorithm/accumulate)? This is a serious question and not a complaint. I really would like to get more used to C++. – user463035818 Jan 29 '15 at 10:49
  • @MatthieuM. This isn't a particular issue with std::accumulate, right? – Isaac Dec 15 '16 at 4:46
  • @Isaac: It's an issue common to all floating points summations. – Matthieu M. Dec 15 '16 at 7:43

You're calling accumulate with 0 as the init argument, so it'll accumulate using integer maths. Use 0.0 instead.

std::accumulate ( doublenumbers.begin( ) , doublenumbers.end( ) , .0 ) ;

or

std::accumulate ( doublenumbers.begin( ) , doublenumbers.end( ) , (double) 0 ) ;

The type of the "accumulator" variable is the type of the last argument of std::accumulate. You supplied 0 as an argument - an int literal - which means that the accumulator will have type int. The "accumulation" is done in an int accumulator (i.e. rounded to int after each individual summation) and produces int result. In this case it is, apparently, 1.

std::accumulate will start to sum the type that is passed as 3rd argument, if you pass an integer, the return type will be int. And in this case implicitly converted to a double.

In C++11 and C++14, if you want to prevent narrowing conversion, you could create an object using direct-list-initialization:

double sum { std::accumulate(doublenumbers.begin(), doublenumbers.end(), 0) };

The compiler will then give you a warning saying that you are trying to convert from int to double and also at which line. This will save you debugging time. And you can easily fix it so that it becomes correct:

double sum { std::accumulate(doublenumbers.begin(), doublenumbers.end(), 0.0) };
  • For flout output we can use 0.0f. – user1436187 Jul 18 '15 at 6:42
std::accumulate<double> (doublenumbers.begin(), doublenumbers.end(), 0); // also works
  • 1
    My suspicion is that some template parameters got gobbled. Enclose your code in ticks (`) to keep that from happening. – Dennis Zickefoose Aug 30 '10 at 22:27
  • 1
    Welcome to Stack Overflow. This would be a better answer if you had mentioned why that works, and also if you had drawn attention to what exactly you changed. It's the difference between giving a man a fish and teaching him to fish. – Rob Kennedy Aug 30 '10 at 23:23
  • Ahh, if that is what you intended, then I'm not certain that will work. std::accumulate takes two template parameters in this case. One to define the iterator type, and one to define the return type. If you only provide one, it will match to the first parameter, and still guess the second. – Dennis Zickefoose Aug 30 '10 at 23:47

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