# Something wrong with assigning the value of the equation to a variable [duplicate]

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;
power--;
}
std::cin >> n;
return 0;
}
``````

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

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

• cannot reproduce – Kerrek SB Apr 13 at 14:52
• Something is wrong with your environment, not your code. The expected result is: 500, 500, 500, 500, 503, 503. – JimPri Apr 13 at 15:23
• it's a bad idea to use `pow` to calculate values from digits like that. Just iterate in reverse and then use `n = n*10 + el` which is much faster – phuclv Apr 13 at 15:46

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.precision(20);
std::cout << n + el * pow(10, power) << std::endl;
``````

I suspect that this will print something like:

``````499.99999499999995578
``````

(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.

NOTE:

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.

Solution:

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.