Having this struct:
struct Coordinates
{
int x;
int y;
Coordinates(int x_axis, int y_axis)
{
x = x_axis;
y = y_axis;
}
Coordinates()
{
std::cout << " CALL " << std::endl;
}
};
And having this class:
class Character
{
public:
bool canS...
Just a note on using printf instead of puts: never, ever do a printf(variable) to print a string. Use puts(variable) or printf("%s', variable). There's a security risk in using a variable format string: if the variable can be written by an attacker they can attack the program by using format strings.
Is this because my executable built without debugging symbols or is the problem about glibc?
This has nothing to do with your executable.
GDB needs a version of libthread_db.so.1 that matches your libpthread.so.0, and is not finding such version.
Probable causes (from most to least probab...
if I hear shared library and stripping I typically would assume debug symbols, but I'm not sure why you would need debug symbols in this case, I don't think they're in most system libs
The static function and variable get removed, then what's gonna happen? Still works? Or is it the main progam can not call those static function and use the static variable anymore?
Damn forget it. It's not related to my problem. Anyway I didn't strip the shared library.
I don't know why it even exists anymore anyways. Non glibc implementations like musl just put it all in libc and create a small dummy libpthread, libm, etc
/**
* Your MyLinkedList object will be instantiated and called as such:
* MyLinkedList* obj = new MyLinkedList();
* int param_1 = obj->get(index);
* obj->addAtHead(val);
* obj->addAtTail(val);
* obj->addAtIndex(index,val);
* obj->deleteAtIndex(index);
*/
So for example I'd probably still use std::unique_ptr for each of the nodes. Then in the destructor I'd call reset to delete each node. Or just use a std::vector to hold all the nodes.. probably do the latter.
/**
* Your MyLinkedList object will be instantiated and called as such:
* MyLinkedList* obj = new MyLinkedList();
* int param_1 = obj->get(index);
* obj->addAtHead(val);
* obj->addAtTail(val);
* obj->addAtIndex(index,val);
* obj->deleteAtIndex(index);
*/
@Permian Technically it's not. The reason it's leaked is because the delete obj; which is assumed to come later is not executed because the exception prevents further execution of the function.
If I had a situation like this: void f(int x){...} void f(const int& x){...} Would it be possible to call any of the listed functions ? I'm getting ambiguous for every try so far.
I was just playing with overloading functions and thought of this example. I know it doesn't make sense since all my tries of calling it failed, but I'm still wondering.
If you really really wanted to call one you could declare a function pointer of the appropriate type and assign f to it and then call it. Or cast directly. But that kinda defeats the purpose of function overloading.
What apparently happens is that void puts(int argument, int...) is equivalent to void puts(int argument, int, ...). That second int just doesn't have a name, but that's what goes into va_start.
template<typename T> void f(const T& t); bool a = false; f(a); In cpp reference it says that "deduced A = const bool". Does that mean we're getting temporary object created and then binding a const reference to it ?
well, the entire thing is quite long, but from what I understand, the entire purpose of this, is to make sure this rule gets satisfied
> If there are multiple parameters, each P/A pair is deduced separately and the deduced template arguments are then combined. If deduction fails or is ambiguous for any P/A pair or if different pairs yield different deduced template arguments, or if any template argument remains neither deduced nor explicitly specified, compilation fails.
consider that a function can accept a reference, and then take an address to the referred object with an & operator inside, and store it somewhere, so the distinction between creating a temporary and not creating a temporary is significant
T* p = new T(); // dynamic storage duration, so the object won't die before deleting it
void f(const T& t); // function accepts a const reference
f(*p); // here it's significant whether a temporary is created, let's say that f stores an address...
g(); // and g uses it - creating and not creating affects program's correctness
OTOH, I don't know whether conversion from int* to const int* creates a temporary object because the function accepts by value either way
Is this because my executable built without debugging symbols or is the problem about glibc?
This has nothing to do with your executable.
GDB needs a version of libthread_db.so.1 that matches your libpthread.so.0, and is not finding such version.
Probable causes (from most to least probab...
