gcc/testsuite/g++.dg/torture/pr39362.C - gcc - Git at Google

 /* { dg-do compile } */
 /* { dg-additional-options "-Wno-return-type" } */

 void *fastMalloc (int n);
 void fastFree (void *p);
 template <class T> struct C
 {
   void deref () { delete static_cast <T *>(this); }
 };
 template <typename T>
 struct D
 {
   D (T *ptr) : m_ptr (ptr) { }
   ~D () { if (T * ptr = m_ptr) ptr->deref (); }
   T *operator-> () const;
   T *m_ptr;
   typedef T *UnspecifiedBoolType;
   operator UnspecifiedBoolType () const;
 };
 template <typename T> struct E
 {
   static void destruct (T * begin, T * end)
     {
       for (T * cur = begin; cur != end; ++cur)
 	cur->~T ();
     }
 };
 template <typename T> class F;
 template <typename T> struct G
 {
   static void destruct (T * begin, T * end)
     {
       E <T>::destruct (begin, end);
     }
   static void uninitializedFill (T * dst, T * dstEnd, const T & val)
     {
       F<T>::uninitializedFill (dst, dstEnd, val);
     }
 };
 template <typename T> struct H
 {
   void allocateBuffer (int newCapacity)
     {
       m_buffer = static_cast <T *>(fastMalloc (newCapacity * sizeof (T)));
     }
   void deallocateBuffer (T * bufferToDeallocate)
     {
       if (m_buffer == bufferToDeallocate)
 	fastFree (bufferToDeallocate);
     }
   T *buffer () { }
   int capacity () const { }
   T *m_buffer;
 };
 template <typename T, int cap> class I;
 template <typename T> struct I <T, 0> : H <T>
 {
   I (int capacity) { allocateBuffer (capacity); }
   ~I () { this->deallocateBuffer (buffer ()); }
   using H <T>::allocateBuffer;
   H <T>::buffer; // { dg-warning "deprecated" }
 };
 template <typename T, int cap = 0> struct J
 {
   typedef T *iterator;
   ~J () { if (m_size) shrink (0); }
   J (const J &);
   int capacity () const { m_buffer.capacity (); }
   T & operator[](int i) { }
   iterator begin () { }
   iterator end () { return begin () + m_size; }
   void shrink (int size);
   template <typename U> void append (const U &);
   int m_size;
   I <T, cap> m_buffer;
 };
 template <typename T, int cap>
 J <T, cap>::J (const J & other) : m_buffer (other.capacity ())
 {
 }
 template <typename T, int cap>
 void J <T, cap>::shrink (int size)
 {
   G <T>::destruct (begin () + size, end ());
   m_size = size;
 }
 struct A : public C <A>
 {
   virtual ~A ();
   typedef J <D <A> > B;
   virtual A *firstChild () const;
   virtual A *nextSibling () const;
   virtual const B & children (int length);
   B m_children;
 };
 const A::B &
 A::children (int length)
 {
   for (D <A> obj = firstChild (); obj; obj = obj->nextSibling ())
     {
       B children = obj->children (2);
       for (unsigned i = 0; i <length; ++i)
 	m_children.append (children[i]);
     }
 }
	/* { dg-do compile } */
	/* { dg-additional-options "-Wno-return-type" } */

	void *fastMalloc (int n);
	void fastFree (void *p);
	template <class T> struct C
	{
	void deref () { delete static_cast <T *>(this); }
	};
	template <typename T>
	struct D
	{
	D (T *ptr) : m_ptr (ptr) { }
	~D () { if (T * ptr = m_ptr) ptr->deref (); }
	T *operator-> () const;
	T *m_ptr;
	typedef T *UnspecifiedBoolType;
	operator UnspecifiedBoolType () const;
	};
	template <typename T> struct E
	{
	static void destruct (T * begin, T * end)
	{
	for (T * cur = begin; cur != end; ++cur)
	cur->~T ();
	}
	};
	template <typename T> class F;
	template <typename T> struct G
	{
	static void destruct (T * begin, T * end)
	{
	E <T>::destruct (begin, end);
	}
	static void uninitializedFill (T * dst, T * dstEnd, const T & val)
	{
	F<T>::uninitializedFill (dst, dstEnd, val);
	}
	};
	template <typename T> struct H
	{
	void allocateBuffer (int newCapacity)
	{
	m_buffer = static_cast <T >(fastMalloc (newCapacity sizeof (T)));
	}
	void deallocateBuffer (T * bufferToDeallocate)
	{
	if (m_buffer == bufferToDeallocate)
	fastFree (bufferToDeallocate);
	}
	T *buffer () { }
	int capacity () const { }
	T *m_buffer;
	};
	template <typename T, int cap> class I;
	template <typename T> struct I <T, 0> : H <T>
	{
	I (int capacity) { allocateBuffer (capacity); }
	~I () { this->deallocateBuffer (buffer ()); }
	using H <T>::allocateBuffer;
	H <T>::buffer; // { dg-warning "deprecated" }
	};
	template <typename T, int cap = 0> struct J
	{
	typedef T *iterator;
	~J () { if (m_size) shrink (0); }
	J (const J &);
	int capacity () const { m_buffer.capacity (); }
	T & operator[](int i) { }
	iterator begin () { }
	iterator end () { return begin () + m_size; }
	void shrink (int size);
	template <typename U> void append (const U &);
	int m_size;
	I <T, cap> m_buffer;
	};
	template <typename T, int cap>
	J <T, cap>::J (const J & other) : m_buffer (other.capacity ())
	{
	}
	template <typename T, int cap>
	void J <T, cap>::shrink (int size)
	{
	G <T>::destruct (begin () + size, end ());
	m_size = size;
	}
	struct A : public C <A>
	{
	virtual ~A ();
	typedef J <D <A> > B;
	virtual A *firstChild () const;
	virtual A *nextSibling () const;
	virtual const B & children (int length);
	B m_children;
	};
	const A::B &
	A::children (int length)
	{
	for (D <A> obj = firstChild (); obj; obj = obj->nextSibling ())
	{
	B children = obj->children (2);
	for (unsigned i = 0; i <length; ++i)
	m_children.append (children[i]);
	}
	}