int main()
{
char str[2];
strcpy(str,"0123456789");
for (int i=0;str[i]!='\0';i++)
{
printf("%c %d \n",str[i],i);
}
return 0;
}
Not sure how this works but it does not crash. Given that the array has been declared to contain just 2 elements, How does it hold the whole "0-9" elements and prints out the following: 0 0 ,1 1 ,2 2 ,3 3 ,4 4 ,5 5 ,6 6 ,7 7 ,8 8 ,9 9
This is undefined behavior: more characters are copied into str than it can hold. (Un)fortunately, the program does not crash; it does not make it right, though.
Precisely this issue (incorrect programs appearing to work fine) is a major obstacle in debugging C code: programmers do not detect invalid behavior simply by running a program. One way to deal with this is to run your program through a memory profiler, such as valgrind. This tool will immediately tell you that the program has performed an invalid operation that needs to be fixed.
Because undefined behaviour. You are rather unlucky that your compiler lets you get away with that. A different runtime environment, or some other variables on the stack, or a different compiler will easily yield a different result.
(The technical explanation is: there just so happens to be no user-visible objects after your str array on the stack, so you write past the end of the stack array and nothing odd seems to happen.
At some unspecified time later, the corrupted stack contents may cause a crash, but only if you're lucky. If you're unlucky, someone pwns your computer via buffer overflow.)
