When I "cout" an empty array, I get gibberish. Why?
int main() { char test[10]; cout << test; return 0; }
...returns some unicode blather. An easy answer I'm sure.
Because your array isn't initialized. Its contents can be anything, and you get undefined behavior using them.
You can initialize them all to zero:
char test[10] = {};
And when printed, will print nothing.
Since you didn't initialize the array you got a garbage value (test[0] is what you are printing out).
Initialize it:
int main() {
char test[10] = {};
cout << test;
return 0;
}
Just like to note:
Just because some compilers initialize stuff (like some compilers initialize ints, floats etc., at 0) it is not always the case, and you can get a garbage value otherwise.
There's no such thing as an "empty array" in C++. You defined an array of 10 char
s - you got an array of 10 char
s. Since it is a local array, by default it is left uninitialized, meaning that each of the 10 char
s contains garbage. That garbage is what you printed.
Your array isn't initialized to anything and you're outputting the first element of that uninitialized array.
If you want predictable behavior, you need to initialize the array first (the following initializes to an empty array):
int main() { char test[10] = {}; cout << test; return 0; }
An array without initialization will be filled with whatever occupied the memory before, this is what you're setting in the output. It might also be worth noting you'll likely see differences between debug and release compilations. Many compilers will automatically initialize variables in debug mode, oftens it's a compiler setting. You should not rely on this though. There are a couple of ways you can initialise a character array.
Simply
char test[10] = {};
With some text
char test[] = "some text";
As individual characters
char test[] = { 's', 'o', 'm', 'e' };
The first value set (for strings this is an empty string as '\0' is seen as terminator
char test[] = { 0 };
Or like this.
char test[];
test[0] = '\0';
Also remember array and pointer equivalence(s)
Where
char* test = "some text";
is the same as
char test[] = "some text";
char *test
and char test[]
are not equivalent at all. An array type is converted to a pointer to char type when used in an expression except when it is the operand of &
or sizeof
.