historical/toontown-classic.git/panda/include/pointerTo.I

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/**
* PANDA 3D SOFTWARE
* Copyright (c) Carnegie Mellon University. All rights reserved.
*
* All use of this software is subject to the terms of the revised BSD
* license. You should have received a copy of this license along
* with this source code in a file named "LICENSE."
*
* @file pointerTo.I
* @author drose
* @date 1999-02-10
*/
/**
*
*/
template<class T>
ALWAYS_INLINE PointerTo<T>::
PointerTo(To *ptr) noexcept : PointerToBase<T>(ptr) {
}
/**
*
*/
template<class T>
INLINE PointerTo<T>::
PointerTo(const PointerTo<T> &copy) :
PointerToBase<T>((const PointerToBase<T> &)copy)
{
}
/**
*
*/
template<class T>
INLINE PointerTo<T>::
PointerTo(PointerTo<T> &&from) noexcept :
PointerToBase<T>(std::move(from))
{
}
#ifndef CPPPARSER
/**
*
*/
template<class T>
template<class Y>
ALWAYS_INLINE PointerTo<T>::
PointerTo(Y *ptr) noexcept :
PointerToBase<T>(ptr)
{
}
/**
*
*/
template<class T>
template<class Y>
ALWAYS_INLINE PointerTo<T>::
PointerTo(const PointerTo<Y> &r) noexcept :
PointerToBase<T>(r.p())
{
}
/**
*
*/
template<class T>
template<class Y>
ALWAYS_INLINE PointerTo<T>::
PointerTo(PointerTo<Y> &&r) noexcept :
PointerToBase<T>(std::move(r))
{
}
#endif // !CPPPARSER
/**
*
*/
template<class T>
INLINE PointerTo<T> &PointerTo<T>::
operator = (PointerTo<T> &&from) noexcept {
this->reassign(std::move(from));
return *this;
}
#ifndef CPPPARSER
/**
*
*/
template<class T>
template<class Y>
ALWAYS_INLINE PointerTo<T> &PointerTo<T>::
operator = (const PointerTo<Y> &r) noexcept {
this->reassign(r.p());
return *this;
}
/**
*
*/
template<class T>
template<class Y>
ALWAYS_INLINE PointerTo<T> &PointerTo<T>::
operator = (PointerTo<Y> &&r) noexcept {
this->reassign(std::move(r));
return *this;
}
#endif // !CPPPARSER
/**
*
*/
template<class T>
constexpr typename PointerTo<T>::To &PointerTo<T>::
operator *() const noexcept {
return *((To *)(this->_void_ptr));
}
/**
*
*/
template<class T>
constexpr typename PointerTo<T>::To *PointerTo<T>::
operator -> () const noexcept {
return (To *)(this->_void_ptr);
}
/**
* We also have the typecast operator to automatically convert PointerTo's to
* the required kind of actual pointer. This introduces ambiguities which the
* compiler will resolve one way or the other, but we don't care which way it
* goes because either will be correct.
*/
template<class T>
constexpr PointerTo<T>::
operator T * () const noexcept {
return (To *)(this->_void_ptr);
}
/**
* Returns a reference to the underlying pointer. This is a very unsafe
* method. It's only used by some interrogate code. If you think this method
* might be useful to you, you're probably wrong.
*
* Promise me you won't use this, okay?
*/
template<class T>
INLINE T *&PointerTo<T>::
cheat() {
return (To *&)(this->_void_ptr);
}
/**
* Returns an ordinary pointer instead of a PointerTo. Useful to work around
* compiler problems, particularly for implicit upcasts.
*/
template<class T>
constexpr typename PointerTo<T>::To *PointerTo<T>::
p() const noexcept {
return (To *)(this->_void_ptr);
}
/**
*
*/
template<class T>
INLINE PointerTo<T> &PointerTo<T>::
operator = (To *ptr) {
this->reassign(ptr);
return *this;
}
/**
*
*/
template<class T>
INLINE PointerTo<T> &PointerTo<T>::
operator = (const PointerTo<T> &copy) {
this->reassign((const PointerToBase<T> &)copy);
return *this;
}
/**
*
*/
template<class T>
ALWAYS_INLINE ConstPointerTo<T>::
ConstPointerTo(const typename ConstPointerTo<T>::To *ptr) noexcept :
PointerToBase<T>((typename ConstPointerTo<T>::To *)ptr)
{
}
/**
*
*/
template<class T>
INLINE ConstPointerTo<T>::
ConstPointerTo(const PointerTo<T> &copy) :
PointerToBase<T>((const PointerToBase<T> &)copy)
{
}
/**
*
*/
template<class T>
INLINE ConstPointerTo<T>::
ConstPointerTo(const ConstPointerTo<T> &copy) :
PointerToBase<T>((const PointerToBase<T> &)copy)
{
}
/**
*
*/
template<class T>
INLINE ConstPointerTo<T>::
ConstPointerTo(PointerTo<T> &&from) noexcept :
PointerToBase<T>(std::move(from))
{
}
/**
*
*/
template<class T>
INLINE ConstPointerTo<T>::
ConstPointerTo(ConstPointerTo<T> &&from) noexcept :
PointerToBase<T>(std::move(from))
{
}
#ifndef CPPPARSER
/**
*
*/
template<class T>
template<class Y>
ALWAYS_INLINE ConstPointerTo<T>::
ConstPointerTo(const Y *ptr) noexcept :
PointerToBase<T>((Y *)ptr)
{
}
/**
*
*/
template<class T>
template<class Y>
ALWAYS_INLINE ConstPointerTo<T>::
ConstPointerTo(const PointerTo<Y> &r) noexcept :
PointerToBase<T>(r.p())
{
}
/**
*
*/
template<class T>
template<class Y>
ALWAYS_INLINE ConstPointerTo<T>::
ConstPointerTo(const ConstPointerTo<Y> &r) noexcept :
PointerToBase<T>((Y *)r.p())
{
}
/**
*
*/
template<class T>
template<class Y>
ALWAYS_INLINE ConstPointerTo<T>::
ConstPointerTo(PointerTo<Y> &&r) noexcept :
PointerToBase<T>(std::move(r))
{
}
/**
*
*/
template<class T>
template<class Y>
ALWAYS_INLINE ConstPointerTo<T>::
ConstPointerTo(ConstPointerTo<Y> &&r) noexcept :
PointerToBase<T>(std::move(r))
{
}
#endif // !CPPPARSER
/**
*
*/
template<class T>
INLINE ConstPointerTo<T> &ConstPointerTo<T>::
operator = (PointerTo<T> &&from) noexcept {
this->reassign(std::move(from));
return *this;
}
/**
*
*/
template<class T>
INLINE ConstPointerTo<T> &ConstPointerTo<T>::
operator = (ConstPointerTo<T> &&from) noexcept {
this->reassign(std::move(from));
return *this;
}
#ifndef CPPPARSER
/**
*
*/
template<class T>
template<class Y>
ALWAYS_INLINE ConstPointerTo<T> &ConstPointerTo<T>::
operator = (const PointerTo<Y> &r) noexcept {
this->reassign(r.p());
return *this;
}
/**
*
*/
template<class T>
template<class Y>
ALWAYS_INLINE ConstPointerTo<T> &ConstPointerTo<T>::
operator = (const ConstPointerTo<Y> &r) noexcept {
this->reassign((Y *)r.p());
return *this;
}
/**
*
*/
template<class T>
template<class Y>
ALWAYS_INLINE ConstPointerTo<T> &ConstPointerTo<T>::
operator = (PointerTo<Y> &&r) noexcept {
this->reassign(std::move(r));
return *this;
}
/**
*
*/
template<class T>
template<class Y>
ALWAYS_INLINE ConstPointerTo<T> &ConstPointerTo<T>::
operator = (ConstPointerTo<Y> &&r) noexcept {
this->reassign(std::move(r));
return *this;
}
#endif // !CPPPARSER
/**
*
*/
template<class T>
constexpr const typename ConstPointerTo<T>::To &ConstPointerTo<T>::
operator *() const noexcept {
return *((To *)(this->_void_ptr));
}
/**
*
*/
template<class T>
constexpr const typename ConstPointerTo<T>::To *ConstPointerTo<T>::
operator -> () const noexcept {
return (To *)(this->_void_ptr);
}
/**
* We also have the typecast operator to automatically convert
* ConstPointerTo's to the required kind of actual pointer. This introduces
* ambiguities which the compiler will resolve one way or the other, but we
* don't care which way it goes because either will be correct.
*/
template<class T>
constexpr ConstPointerTo<T>::
operator const T * () const noexcept {
return (To *)(this->_void_ptr);
}
/**
* Returns a reference to the underlying pointer. This is a very unsafe
* method. It's only used by some interrogate code. If you think this method
* might be useful to you, you're probably wrong.
*
* Promise me you won't use this, okay?
*/
template<class T>
INLINE const T *&ConstPointerTo<T>::
cheat() {
return (const To *&)(this->_void_ptr);
}
/**
* Returns an ordinary pointer instead of a ConstPointerTo. Useful to work
* around compiler problems, particularly for implicit upcasts.
*/
template<class T>
constexpr const typename ConstPointerTo<T>::To *ConstPointerTo<T>::
p() const noexcept {
return (To *)(this->_void_ptr);
}
/**
*
*/
template<class T>
INLINE ConstPointerTo<T> &ConstPointerTo<T>::
operator = (const To *ptr) {
this->reassign((To *)ptr);
return *this;
}
/**
*
*/
template<class T>
INLINE ConstPointerTo<T> &ConstPointerTo<T>::
operator = (const PointerTo<T> &copy) {
this->reassign((const PointerToBase<T> &)copy);
return *this;
}
/**
*
*/
template<class T>
INLINE ConstPointerTo<T> &ConstPointerTo<T>::
operator = (const ConstPointerTo<T> &copy) {
this->reassign((const PointerToBase<T> &)copy);
return *this;
}