I am trying to write a cpp module that must check for proper initialization. It needs to be initialized with at least one non-NULL pointer. If not, it needs to delete itself and return NULL. The following program does seem to destroy the object, but it doesn't seem to return null.
What's going on here?
#include <iostream>
using namespace std;
class cmod {
public:
cmod(int *p1=NULL, int *p2=NULL)
{
if( p1 == NULL && p2 == NULL){
delete(this);
}
else
cout << __func__ << ": Initialized" << endl;
if(p1 != NULL)
cout << "*p1 = " << *p1 << endl;
if(p2 !=NULL)
cout << "*p2 = " << *p2 << endl;
}
~cmod()
{
cout << __func__ << ": Destroyed" << endl;
}
};
int main()
{
int a=10, b = 20;
cmod *p = new cmod();
if(p == NULL)
cout << __func__ << ": Unable to initialize" << endl;
cmod *p1 = new cmod(&a, &b);
}
The following is the output:
~cmod: Destroyed
cmod: Initialized
*p1 = 10
*p2 = 2
Why is the line Unable to initialize
not printing?
UPDATE: After looking at all the answers, I came up with the following:
#include <iostream>
using namespace std;
class cmod {
private:
int *l1,*l2;
cmod()
{
throw std::runtime_error("Failed to construct object. No arguements");
}
cmod(int *p1=NULL, int *p2=NULL)
{
if( p1 == NULL && p2 == NULL){
throw std::runtime_error("Failed to construct object. Both args NULL");
}
else
cout << __func__ << ": Initialized" << endl;
if(p1 != NULL)
l1 = p1;
if(p2 !=NULL)
l2 = p2;
}
~cmod()
{
cout << __func__ << ": Destroyed" << endl;
}
public:
static cmod * initialize(int *p1=NULL, int *p2 = NULL)
{
if( p1 == NULL && p2 == NULL){
return NULL;
}
else
return new cmod(p1,p2);
}
void dump()
{
cout << __func__ << ": a = " << *l1 << endl;
cout << __func__ << ": b = " << *l2 << endl;
}
int main()
{
int a=10, b = 20;
cmod *p = cmod::initialize(NULL, NULL);
if(p == NULL)
cout << __func__ << ": Unable to initialize" << endl;
cmod *p1 = cmod::initialize(&a, &b);
if(p!=NULL)
p->dump();
if(p1!=NULL)
p1->dump();
}
Is this a proper approach now?
delete
does not set the pointer tonullptr
.new
operator forclass cmod
(though there is probably a better way to implement the whole thing, i.e., a design pattern specifically for this purpose).