void add_to_rlist()
{
-// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 form barfing
+// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 from barfing
assert(obj);
obj->rref();
- // If this is the first reversable handle
+ // If this is the first reversible handle
if(!obj->front_)
{
obj->front_=obj->back_=this;
void del_from_rlist()
{
-// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 form barfing
+// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 from barfing
assert(obj);
obj->runref();
- // If this is the last reversable handle
+ // If this is the last reversible handle
if(obj->front_==obj->back_)
{
obj->front_=obj->back_=0;
//! Constructor that constructs from a pointer to new object
rhandle(pointer x):handle<T>(x)
{
-// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 form barfing
+// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 from barfing
if(obj)add_to_rlist();
}
rhandle(const handle<value_type> &x):handle<T>(x)
{
-// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 form barfing
+// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 from barfing
if(obj)add_to_rlist();
}
//! Default copy constructor
rhandle(const rhandle<value_type> &x):handle<T>(x)
{
-// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 form barfing
+// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 from barfing
if(obj)add_to_rlist();
}
rhandle<value_type> &
operator=(const rhandle<value_type> &x)
{
-// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 form barfing
+// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 from barfing
if(x.get()==obj)
return *this;
rhandle<value_type>&
operator=(const handle<value_type> &x)
{
-// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 form barfing
+// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 from barfing
if(x.get()==obj)
return *this;
rhandle<value_type>&
operator=(value_type* x)
{
-// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 form barfing
+// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 from barfing
if(x==obj)
return *this;
void
detach()
{
-// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 form barfing
+// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 from barfing
if(obj)del_from_rlist();
handle<value_type>::detach();
obj=0;
/*! Uses the default constructor */
void spawn() { operator=(handle<value_type>(new T())); }
- //! Returns number of reversable instances
+ //! Returns number of reversible instances
count_type
rcount()const
{
-// value_type*const& obj(handle<T>::obj); // Required to keep gcc 3.4.2 form barfing
+// value_type*const& obj(handle<T>::obj); // Required to keep gcc 3.4.2 from barfing
return obj?obj->rcount():0;
}
bool
runique()const
{
-// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 form barfing
+// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 from barfing
assert(obj); return obj->front_==obj->back_;
}
//! \writeme
int replace(const handle<value_type> &x)
{
-// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 form barfing
+// value_type*& obj(handle<T>::obj); // Required to keep gcc 3.4.2 from barfing
assert(obj);
assert(x.get()!=obj);