In the below example app I calculate the floating point remainder from dividing 953 by 0.1, using std::fmod
What I was expecting is that since 953.0 / 0.1 == 9530, that std::fmod(953, 0.1) == 0
I'm getting 0.1 - why is this the case?
Note that with std::remainder I get the correct result.
That is:
std::fmod (953, 0.1) == 0.1 // unexpected
std::remainder(953, 0.1) == 0 // expected
Difference between the two functions:
According to cppreference.com
std::fmod calculates the following:
exactly the value x - n*y, where n is x/y with its fractional part truncated
std::remainder calculates the following:
exactly the value x - n*y, where n is the integral value nearest the exact value x/y
Given my inputs I would expect both functions to have the same output. Why is this not the case?
Exemplar app:
#include <iostream>
#include <cmath>
bool is_zero(double in)
{
return std::fabs(in) < 0.0000001;
}
int main()
{
double numerator = 953;
double denominator = 0.1;
double quotient = numerator / denominator;
double fmod = std::fmod (numerator, denominator);
double rem = std::remainder(numerator, denominator);
if (is_zero(fmod))
fmod = 0;
if (is_zero(rem))
rem = 0;
std::cout << "quotient: " << quotient << ", fmod: " << fmod << ", rem: " << rem << std::endl;
return 0;
}
Output:
quotient: 9530, fmod: 0.1, rem: 0
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