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The idea follows the polynomial nature of a number. 123 is the same as 1*102 + 2*101 + 3*100 In other words, I had to multiply the first digit by ten two times. I had to multiply 2 by ten one time. And I multiplied the last digit by one. Again, reading from left to right: Multiply zero by ten and add the 1 → 0*10+1 = 1. Multiply that by ten and add the 2 ...


I found out what was happening, when I inputted "1234567890" it would skip over the '0' so I had to modify the code. The other problem was that long was indeed 32-bits, so I changed it to uint64_t as suggested by @Bathsheba. Here's the final working code. #include <iostream> using namespace std; uint64_t htoi(char s[]); int main() { char ...


You need more than 32 bits to store that number. Your long type could well be as small as 32 bits. Use a std::uint64_t instead. This is always a 64 bit unsigned type. If your compiler doesn't support that, use a long long. That must be at least 64 bits.


long probably is 32 bits on your computer as well. Try long long.

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