The assignment of the value of the equation to the variable (second line inside the loop) is always less by 1 -on the first iteration only- although the equation (first line inside the loop) on its own calculates fine.

I am using MinGW compiler, codeLite software on a Windows machine.

#include <iostream>
#include <cmath>
#include <vector>

int main(){
    std::vector<int> elements_of_num {5, 0, 3};
    size_t power = 2;
    int n {0};
    for(int el: elements_of_num){
        std::cout << n + el * pow(10, power) << std::endl;
        n = n + el * pow(10, power);
        std::cout << n << std::endl;
    std::cin >> n;
    return 0;

Expected result: {500, 500} {499, 499} {503, 503}

Actual result: {500, 499} {499, 499} {502, 502}


It seems that your pow implementation is inaccurate for these values. I have managed to get the same results as you by forcefully making pow(10, power) inaccurate.

In case of the first variant in your code:

std::cout << n + el * pow(10, power) << std::endl;

The value of the expression is slightly less than 500. You can verify this by

 std::cout << n + el * pow(10, power) << std::endl;

I suspect that this will print something like:


(Note that since your original code prints numbers with a lower precision, you are deceived to believe that the expression results with 500. However, the actual value is slightly smaller).

In the case of the second line of code:

n = n + el * pow(10, power);

the 499.99999499999995578 is assigned to an int variable, truncating the fraction and leaving you with 499. Everything goes south after that.


I don't think that IEEE 754 dictates how pow(10, 2) should be implemented, and in theory it can be implemented using eln(10)*2, which introduces inaccuracies. Moreover C++ does not mandates IEEE 754 conformance. This means that pow(10,2) could be inaccurate on some systems and make a small error down or up, just like in your case.


Don't use pow at all, or else use round(pow(10, power)). In your case, it is better to use regular integer multiplication by 10.

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