# What is difference between my atoi() calls?

I have a big number stored in a string and try to extract a single digit. But what are the differences between those calls?

``````#include <iostream>
#include <string>

int main(){
std::string bigNumber = "93485720394857230";
char tmp = bigNumber.at(5);
int digit = atoi(&tmp);
int digit2 = atoi(&bigNumber.at(5))
int digit3 = atoi(&bigNumber.at(12));
std::cout << "digit: " << digit << std::endl;
std::cout << "digit2: " << digit2 << std::endl;
std::cout << "digit3: " << digit3 << std::endl;
}
``````

This will produce the following output.

digit: 7

digit2: 2147483647

digit3: 57230

The first one is the desired result. The second one seems to me to be a random number, which I cannot find in the string. The third one is the end of the string, but not just a single digit as I expected, but up from the 12th index to the end of the string. Can somebody explain the different outputs to me?

EDIT: Would this be an acceptable solution?

``````char tmp[2] = {bigNumber.at(5), '\0'};
int digit = atoi(tmp);
std::cout << "digit: " << digit << std::endl;
``````
-
This seems like homework. –  Eric Jun 22 '09 at 9:13
Well, I was actually trying to solve the problem 8 of the Euler Project. I am already done for this semester :-) –  Lucas Jun 22 '09 at 9:23

It is all more or less explicable.

``````int main(){
std::string bigNumber = "93485720394857230";
``````

This line copies the single character '5' into the character variable. `atoi` will convert this correctly. `atoi` expects that the string parameter is a valid 0 terminated string. `&tmp` is only a pointer to the character variable - the behaviour of this call is undefined since the memory immediately following the character in memory is unknown. To be exact, you would have to create a null terminated string and pass that in.*

``````    char tmp = bigNumber.at(5);
int digit = atoi(&tmp);
``````

This line gets a pointer to the character in position 5 in the string. This happens to be a pointer into the original big number string above - so the string parameter to `atoi` looks like the string "5720394857230". `atoi` will clearly oveflow trying to turn this into an integer since no 32 bit integer will hold this.

``````    int digit2 = atoi(&bigNumber.at(5))
``````

This line gets a pointer into the string at position 12. The parameter to `atoi` is the string "57230". This is converted into the integer 57230 correctly.

``````    int digit3 = atoi(&bigNumber.at(12));
``````

... }

Since you are using C++, there are nicer methods to convert strings of characters into integers. One that I am partial to is the Boost lexical_cast library. You would use it like this:

``````char tmp = bigNumber.at(5);
// convert the character to a string then to an integer
int digit = boost::lexical_cast<int>(std::string(tmp));

// this copies the whole target string at position 5 and then attempts conversion
// if the conversion fails, then a bad_lexical_cast is thrown
int digit2=boost::lexical_cast<int>(std::string(bigNumber.at(5)));
``````

* Strictly, `atoi` will scan through the numeric characters until a non-numeric one is found. It is clearly undefined when it would find one and what it will do when reading over invalid memory locations.

-
Thank you for this fancy solution. Is using lexical_cast safer than using atoi() or why do you suggest to use it? –  Lucas Jun 22 '09 at 9:44
lexical_cast is a lot safer because it takes advantage of modern C++ idioms to give type safety. You specify the target and source types (the source is inferred in the code above) - it will check for errors along the way and throw exceptions in the case if it was unable to perform the conversion. atoi is an older style API from the C standard library. lexical_cast has additional advantages in that it can work with many more defined types (including your own defined types and classes) –  1800 INFORMATION Jun 22 '09 at 9:56
Thank you for the clarification. I think you need to at the size of the string in your string constructor, so "string ( size_t n, char c );" can be called. I now use: int digit=boost::lexical_cast<int>(std::string(1, bigNumber.at(5))); –  Lucas Jun 22 '09 at 10:20
Or digit=boost::lexical_cast<int>(std::string(&bigNumber.at(5),1)); to call string ( const char * s, size_t n ). –  Lucas Jun 22 '09 at 10:30
Please be aware that boost::lexical_cast is much slower as atoi. I also use it very often in a performance non-critical code. The problem with lexical_cast is that it uses stringstream for conversion. If you are working in a multi-threaded environement any stream class from the standard lib will use locks on a mutex for every character being inserted, even if the stream object is used from a single thread.Your number consisting of 17 chars will involve 17 mutex locks when put into stream. –  ovanes Jun 22 '09 at 11:59
show 1 more comment

I know why the 2nd number is displayed.

From the atoi reference.

If the correct value is out of the range of representable values, `INT_MAX` or INT_MIN is returned.

2147483647 is INT_MAX

-

`bigNumber.at()` doesn't return a new string with a single character but the address of a character in the string. So the second call is actually:

``````atoi("720394857230")
``````

which causes the internal algorithm to overflow.

Also, the first call is very dangerous since it depends on the (random) value in memory at `(&tmp)+1`.

You have to allocate a string with two characters, assign the single character from `bigNumber.at()` to the first and `\0` to the second and then call `atoi()` with the address of the temporary string.

-
Thank you for the quick answer. Does this mean, that my first solution only works, because I have "\0" by chance in my memory after &tmp? –  Lucas Jun 22 '09 at 9:19
atoi() will stop on any non-numeric character, so you have a chance of 96% (245 to 10) that it works. –  Aaron Digulla Jun 22 '09 at 12:06
The argument to `atoi` should be a zero-terminated string.
Function `at` gives pointer to char in the string. Function `atoi` converts string to int, not only one char.