Don't attribute speed to language; That attribute belongs to implementations of language. There are fast implementations and slow implementations. There are optimisations assosciated with fast implementations; A compiler that produces well-optimised machine code would optimise the initialisation away if it can deduce that it doesn't need the initialisation.
In this case, it actually does need the initialisation. Consider if scanf were to fail. When scanf fails, it's return value reflects this failure. It'll either return:
- A value less than zero if there was a read error or EOF (which can be triggered in an implementation-defined way, typically CTRL+Z on Windows and CTRL+d on Linux),
- A number less than the number of objects provided to scanf (since you've provided only one object, this failure return value would be 0) when a conversion failure occurs (for example, entering 'a' on stdin when you've told scanf to convert sequences of '0'..'9' into an integer),
- The number of objects scanf managed to assign to. This is 1, in your case.
Since you aren't checking for any of these return values (particular #3), your compiler can't deduce that the initialisation is necessary and hence, can't optimise it away. When the variable is uninitialised, failure to check these return values results in undefined behaviour. A chicken might appear to be living, even when it is missing its head. It would be best to check the return value of scanf. That way, when your variable is uninitialised you can avoid using an uninitialised value, and when it isn't your compiler can optimise away the initialisations, presuming you handle erroneous return values by producing error messages rather than using the variable.
edit: On that topic of undefined behaviour, consider what happens in this code:
if(number < 0)
If number is -32768, and INT_MAX is 32767, then section 6.5, paragraph 5 of the C standard applies because -(-32768) isn't representable as an int.
Section 6.5, paragraph 5 says:
If an exceptional condition occurs during the evaluation of an
expression (that is, if the result is not mathematically defined or
not in the range of representable values for its type), the behavior