42 #ifndef TEUCHOS_ARRAY_RCP_HPP
43 #define TEUCHOS_ARRAY_RCP_HPP
59 template<
class T>
inline
68 template<
class T,
class Dealloc_T>
71 T* p, Dealloc_T dealloc,
bool has_ownership_in
78 template<
class T2,
class T1>
106 for (itr_t itr = arcp2.
begin(); itr != arcp2.
end(); ++itr) {
117 template<
class T>
inline
119 : ptr_(NULL), lowerOffset_(0), upperOffset_(-1)
122 template<
class T>
inline
124 : ptr_(NULL), lowerOffset_(0), upperOffset_(-1)
128 template<
class T>
inline
130 : ptr_(0), lowerOffset_(0), upperOffset_(-1)
133 std::fill_n(
begin(), n, val);
136 template<
class T>
inline
138 : ptr_(0), lowerOffset_(0), upperOffset_(-1)
147 template<
class T>
inline
153 #ifndef TEUCHOS_DEBUG
156 lowerOffset_(lowerOffset_in),
157 upperOffset_(size_in + lowerOffset_in - 1)
165 if (existing_RCPNode) {
180 #else // NOT TEUCHOS_DEBUG
181 (void) rcpNodeLookup;
182 #endif // TEUCHOS_DEBUG
185 template<
class T>
inline
190 #ifndef TEUCHOS_DEBUG
193 lowerOffset_(lowerOffset_in),
194 upperOffset_(size_in + lowerOffset_in - 1)
202 if (existing_RCPNode) {
217 #else // NOT TEUCHOS_DEBUG
218 (void) rcpNodeLookup;
219 #endif // TEUCHOS_DEBUG
224 template<
class Dealloc_T>
228 Dealloc_T dealloc,
bool has_ownership_in
231 #ifndef TEUCHOS_DEBUG
234 lowerOffset_(lowerOffset_in),
235 upperOffset_(size_in + lowerOffset_in - 1)
246 #endif // TEUCHOS_DEBUG
250 template<
class Dealloc_T>
254 Dealloc_T dealloc,
bool has_ownership_in
257 #ifndef TEUCHOS_DEBUG
260 lowerOffset_(lowerOffset_in),
261 upperOffset_(size_in + lowerOffset_in - 1)
272 #endif // TEUCHOS_DEBUG
276 template<
class T>
inline
280 lowerOffset_(r_ptr.lowerOffset_),
281 upperOffset_(r_ptr.upperOffset_)
284 template<
class T>
inline
288 lowerOffset_(r_ptr.lowerOffset_),
289 upperOffset_(r_ptr.upperOffset_)
293 template<
class T>
inline
296 template<
class T>
inline
300 template<
class T>
inline
305 node_ = r_ptr.access_private_node();
314 template<
class T>
inline
318 if (
this == &r_ptr) {
321 node_ = r_ptr.access_private_node ();
334 template<
class T>
inline
339 template<
class T>
inline
345 template<
class T>
inline
348 debug_assert_valid_ptr();
349 debug_assert_in_range(0,1);
353 template<
class T>
inline
362 template<
class T>
inline
365 debug_assert_valid_ptr();
366 debug_assert_in_range(0,1);
370 template<
class T>
inline
379 template<
class T>
inline
383 debug_assert_valid_ptr();
384 debug_assert_in_range(0,1);
389 template<
class T>
inline
400 template<
class T>
inline
405 template<
class T>
inline
411 template<
class T>
inline
414 debug_assert_valid_ptr();
415 debug_assert_in_range(offset,1);
419 template<
class T>
inline
431 template<
class T>
inline
434 debug_assert_valid_ptr();
441 template<
class T>
inline
452 template<
class T>
inline
455 debug_assert_valid_ptr();
461 template<
class T>
inline
471 template<
class T>
inline
474 debug_assert_valid_ptr();
481 template<
class T>
inline
492 template<
class T>
inline
495 debug_assert_valid_ptr();
501 template<
class T>
inline
511 template<
class T>
inline
514 debug_assert_valid_ptr();
516 lowerOffset_ -= offset;
517 upperOffset_ -= offset;
521 template<
class T>
inline
532 template<
class T>
inline
535 debug_assert_valid_ptr();
537 lowerOffset_ += offset;
538 upperOffset_ += offset;
542 template<
class T>
inline
553 template<
class T>
inline
561 template<
class T>
inline
570 template<
class T>
inline
578 template<
class T>
inline
590 template<
class T>
inline
593 debug_assert_valid_ptr();
594 #ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
601 template<
class T>
inline
605 #ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
613 template<
class T>
inline
616 debug_assert_valid_ptr();
617 #ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
618 return *
this + (upperOffset_ + 1);
620 return ptr_ + (upperOffset_ + 1);
624 template<
class T>
inline
628 #ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
639 template<
class T>
inline
643 debug_assert_valid_ptr();
644 const T *cptr = ptr_;
650 template<
class T>
inline
657 template<
class T>
inline
664 debug_assert_valid_ptr();
665 debug_assert_in_range(lowerOffset_in, size_in);
667 ptr.
ptr_ = ptr.
ptr_ + lowerOffset_in;
673 template<
class T>
inline
683 ptr.
ptr_ = ptr.
ptr_ + lowerOffset_in;
693 template<
class T>
inline
697 debug_assert_valid_ptr();
701 template<
class T>
inline
710 template<
class T>
inline
714 debug_assert_valid_ptr();
718 template<
class T>
inline
727 template<
class T>
inline
731 debug_assert_valid_ptr();
732 return upperOffset_ - lowerOffset_ + 1;
735 template<
class T>
inline
747 template<
class T>
inline
753 debug_assert_valid_ptr();
754 debug_assert_in_range(lowerOffset_in,size_in);
755 #ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
756 return ArrayView<T>(persistingView(lowerOffset_in, size_in).create_weak());
758 return arrayView(ptr_ + lowerOffset_in, size_in);
763 template<
class T>
inline
772 #ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
775 return arrayView(
ptr_ + lowerOffset_in, size_in);
781 template<
class T>
inline
784 return view(lowerOffset_in, size_in);
787 template<
class T>
inline
791 return view (lowerOffset_in, size_in);
795 template<
class T>
inline
799 return view(lowerOffset_, size());
804 template<
class T>
inline
817 template<
class T>
inline
838 template<
class T>
inline
841 std::fill_n (this->begin (), n, val);
849 const size_type new_n = std::distance (first, last);
850 if (new_n != size ()) {
851 *
this = arcp<T> (new_n);
853 std::copy (first, last, begin ());
857 template<
class T>
inline
871 const size_type small_n = std::min(n, orig_n);
880 template<
class T>
inline
897 const size_type small_n = std::min (n, orig_n);
898 for (
size_type i = 0; i < small_n; ++i) {
899 nonconstThis[i] = tmp[i];
902 nonconstThis[i] = val;
910 template<
class T>
inline
915 template<
class T>
inline
924 template<
class T>
inline
927 if (av.
size() == 0) {
938 template<
class T>
inline
940 return node_.strength();
943 template<
class T>
inline
949 template<
class T>
inline
953 return node_.is_valid_ptr();
957 template<
class T>
inline
966 template<
class T>
inline
969 return node_.strong_count();
972 template<
class T>
inline
979 template<
class T>
inline
982 return node_.weak_count();
985 template<
class T>
inline
992 template<
class T>
inline
995 return node_.total_count();
998 template<
class T>
inline
1005 template<
class T>
inline
1008 node_.has_ownership(
true);
1011 template<
class T>
inline
1018 template<
class T>
inline
1021 return node_.has_ownership();
1024 template<
class T>
inline
1031 template<
class T>
inline
1034 debug_assert_valid_ptr();
1035 node_.has_ownership(
false);
1039 template<
class T>
inline
1048 template<
class T>
inline
1050 debug_assert_valid_ptr ();
1051 return ArrayRCP<T> (ptr_, lowerOffset_, size (), node_.create_weak ());
1054 template<
class T>
inline
1061 template<
class T>
inline
1063 debug_assert_valid_ptr ();
1064 return ArrayRCP<T> (ptr_, lowerOffset_, size (), node_.create_strong ());
1067 template<
class T>
inline
1079 return node_.same_node (r_ptr.access_private_node ());
1100 template<
class T>
inline
1105 throw_null_ptr_error(
typeName(*
this));
1109 template<
class T>
inline
1114 throw_null_ptr_error (
typeName (*
this));
1120 template<
class T>
inline
1124 node_.assert_valid_ptr (*
this);
1129 template<
class T>
inline
1139 template<
class T>
inline
1146 (lowerOffset_ <= lowerOffset_in && lowerOffset_in+size_in-1 <= upperOffset_)
1151 typeName(*
this)<<
"::assert_in_range:"
1152 " Error, [lowerOffset,lowerOffset+size-1] = ["
1153 <<lowerOffset_in<<
","<<(lowerOffset_in+size_in-1)<<
"] does not lie in the"
1154 " range ["<<lowerOffset_<<
","<<upperOffset_<<
"]!"
1159 template<
class T>
inline
1172 typeName (*
this) <<
"::assert_in_range:"
1173 " Error, [lowerOffset,lowerOffset+size-1] = ["
1174 <<lowerOffset_in<<
","<<(lowerOffset_in+size_in-1)<<
"] does not lie in the"
1184 template<
class T>
inline
1191 lowerOffset_(lowerOffset_in),
1192 upperOffset_(size_in + lowerOffset_in - 1)
1195 template<
class T>
inline
1202 lowerOffset_(lowerOffset_in),
1203 upperOffset_(size_in + lowerOffset_in - 1)
1207 template<
class T>
inline
1213 template<
class T>
inline
1214 const T* ArrayRCP<const T>::access_private_ptr ()
const
1220 template<
class T>
inline
1221 RCPNodeHandle& ArrayRCP<T>::nonconst_access_private_node()
1226 template<
class T>
inline
1227 RCPNodeHandle& ArrayRCP<const T>::nonconst_access_private_node()
1233 template<
class T>
inline
1234 const RCPNodeHandle& ArrayRCP<T>::access_private_node()
const
1239 template<
class T>
inline
1240 const RCPNodeHandle& ArrayRCP<const T>::access_private_node()
const
1269 namespace Utilities {
1270 template<
class T1,
class T2>
1275 #ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
1278 "Error, these iterators are *not* pointing to the same valid memory!"
1286 template<
class T>
inline
1289 T* p,
typename ArrayRCP<T>::size_type lowerOffset
1290 ,
typename ArrayRCP<T>::size_type size_in
1294 return ArrayRCP<T>(p, lowerOffset, size_in, owns_mem);
1298 template<
class T,
class Dealloc_T>
1302 T* p,
typename ArrayRCP<T>::size_type lowerOffset
1303 ,
typename ArrayRCP<T>::size_type size_in
1304 ,Dealloc_T dealloc,
bool owns_mem
1307 return ArrayRCP<T>(p, lowerOffset, size_in, dealloc, owns_mem);
1311 template<
class T>
inline
1313 Teuchos::arcp(
typename ArrayRCP<T>::size_type
size )
1315 #ifdef TEUCHOS_DEBUG
1321 return ArrayRCP<T>(
new T[
size], 0,
size,
true);
1325 template<
class T>
inline
1327 Teuchos::arcpCloneNode(
const ArrayRCP<T> &a)
1337 template<
class T>
inline
1339 Teuchos::arcpClone(
const ArrayView<const T> &v )
1341 const ArrayRCP<T> new_arcp = arcp<T>(v.size());
1342 std::copy( v.begin(), v.end(), new_arcp.begin() );
1347 template<
class T,
class Embedded>
1349 Teuchos::arcpWithEmbeddedObjPreDestroy(
1351 typename ArrayRCP<T>::size_type lowerOffset,
1352 typename ArrayRCP<T>::size_type size,
1353 const Embedded &embedded,
1358 p, lowerOffset, size,
1359 embeddedObjDeallocArrayDelete<T>(embedded,
PRE_DESTROY),
1365 template<
class T,
class Embedded>
1367 Teuchos::arcpWithEmbeddedObjPostDestroy(
1369 typename ArrayRCP<T>::size_type lowerOffset,
1370 typename ArrayRCP<T>::size_type size,
1371 const Embedded &embedded,
1376 p, lowerOffset, size,
1377 embeddedObjDeallocArrayDelete<T>(embedded,
POST_DESTROY),
1383 template<
class T,
class Embedded>
1385 Teuchos::arcpWithEmbeddedObj(
1387 typename ArrayRCP<T>::size_type lowerOffset,
1388 typename ArrayRCP<T>::size_type size,
1389 const Embedded &embedded,
1393 return arcpWithEmbeddedObjPostDestroy<T,Embedded>(
1394 p, lowerOffset,
size, embedded, owns_mem );
1398 template<
class T>
inline
1400 Teuchos::arcp(
const RCP<std::vector<T> > &v )
1402 if (
is_null(v) || !v->size() )
1404 return arcpWithEmbeddedObjPostDestroy<T,RCP<std::vector<T> > >(
1405 &(*v)[0], 0, v->size(),
1411 template<
class T>
inline
1413 Teuchos::arcp(
const RCP<
const std::vector<T> > &v )
1415 if (
is_null(v) || !v->size() )
1417 return arcpWithEmbeddedObjPostDestroy<const T,RCP<const std::vector<T> > >(
1418 &(*v)[0], 0, v->size(),
1424 template<
class T>
inline
1426 Teuchos::arcpFromArrayView(
const ArrayView<T> &av)
1428 #ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
1429 return av.access_private_arcp();
1431 return arcp(av.getRawPtr(), 0, av.size(),
false);
1436 template<
class T>
inline
1438 Teuchos::get_std_vector(
const ArrayRCP<T> &
ptr )
1440 return getEmbeddedObj<T, RCP<std::vector<T> > >(
ptr);
1444 template<
class T>
inline
1446 Teuchos::get_std_vector(
const ArrayRCP<const T> &
ptr )
1448 return getEmbeddedObj<const T, RCP<const std::vector<T> > >(
ptr);
1452 template<
class T>
inline
1459 template<
class T>
inline
1462 return !p.is_null();
1466 template<
class T>
inline
1473 template<
class T>
inline
1476 return !p.is_null();
1480 template<
class T1,
class T2>
1484 return p1.access_private_ptr() == p2.access_private_ptr();
1488 template<
class T1,
class T2>
1492 return p1.access_private_ptr() != p2.access_private_ptr();
1496 template<
class T1,
class T2>
1498 bool Teuchos::operator<( const ArrayRCP<T1> &p1,
const ArrayRCP<T2> &p2 )
1500 return p1.access_private_ptr() < p2.access_private_ptr();
1504 template<
class T1,
class T2>
1506 bool Teuchos::operator<=( const ArrayRCP<T1> &p1,
const ArrayRCP<T2> &p2 )
1509 return p1.access_private_ptr() <= p2.access_private_ptr();
1513 template<
class T1,
class T2>
1518 return p1.access_private_ptr() > p2.access_private_ptr();
1522 template<
class T1,
class T2>
1527 return p1.access_private_ptr() >= p2.access_private_ptr();
1536 return p1.access_private_ptr() - p2.access_private_ptr();
1540 template<
class T2,
class T1>
1543 Teuchos::arcp_reinterpret_cast(
const ArrayRCP<T1>& p1)
1546 const int sizeOfT1 =
sizeof(T1);
1547 const int sizeOfT2 =
sizeof(T2);
1548 size_type lowerOffset2 = (p1.lowerOffset()*sizeOfT1) / sizeOfT2;
1549 size_type upperOffset2 = ((p1.upperOffset()+1)*sizeOfT1) / sizeOfT2 - 1;
1550 T2 *ptr2 =
reinterpret_cast<T2*
>(p1.get());
1551 return ArrayRCP<T2>(
1552 ptr2, lowerOffset2, upperOffset2 - lowerOffset2 + 1,
1553 p1.access_private_node()
1559 template<
class T2,
class T1>
1561 Teuchos::arcp_reinterpret_cast_nonpod(
const ArrayRCP<T1>& p1,
const T2& val)
1563 typedef typename ArrayRCP<T2>::iterator itr_t;
1565 for (itr_t itr = arcp2.begin(); itr != arcp2.end(); ++itr) {
1566 new (&*itr) T2(val);
1569 arcp2.getRawPtr(), 0, arcp2.size(),
1570 ArcpReinterpretCastEmbeddedObj<T2, T1>(p1),
1578 template<
class T2,
class T1>
1581 Teuchos::arcp_const_cast(
const ArrayRCP<T1>& p1)
1583 T2 *ptr2 =
const_cast<T2*
>(p1.get());
1584 return ArrayRCP<T2>(
1585 ptr2, p1.lowerOffset(), p1.size(),
1586 p1.access_private_node()
1592 template<
class T2,
class T1>
1595 Teuchos::arcp_implicit_cast(
const ArrayRCP<T1>& p1)
1597 T2 * raw_ptr2 = p1.
get();
1598 return ArrayRCP<T2>(
1599 raw_ptr2, p1.lowerOffset(), p1.size(),
1600 p1.access_private_node()
1606 template<
class T1,
class T2>
1608 void Teuchos::set_extra_data(
1609 const T1 &extra_data,
const std::string& name,
1614 p->assert_not_null();
1615 p->nonconst_access_private_node().set_extra_data( any(extra_data), name, destroy_when,
1620 template<
class T1,
class T2>
1622 T1& Teuchos::get_extra_data( ArrayRCP<T2>& p,
const std::string& name )
1624 p.assert_not_null();
1626 p.nonconst_access_private_node().get_extra_data(
1627 TypeNameTraits<T1>::name(), name
1633 template<
class T1,
class T2>
1635 const T1& Teuchos::get_extra_data(
const ArrayRCP<T2>& p,
const std::string& name )
1637 p.assert_not_null();
1639 p.access_private_node().get_extra_data(
1640 TypeNameTraits<T1>::name() ,name
1646 template<
class T1,
class T2>
1648 T1* Teuchos::get_optional_extra_data( ArrayRCP<T2>& p,
const std::string& name )
1650 p.assert_not_null();
1651 any *extra_data = p.nonconst_access_private_node().get_optional_extra_data(
1652 TypeNameTraits<T1>::name(), name);
1653 if( extra_data )
return &
any_cast<T1>(*extra_data);
1658 template<
class T1,
class T2>
1660 const T1* Teuchos::get_optional_extra_data(
const ArrayRCP<T2>& p,
const std::string& name )
1662 p.assert_not_null();
1663 any *extra_data = p.access_private_node().get_optional_extra_data(
1664 TypeNameTraits<T1>::name(), name);
1665 if( extra_data )
return &
any_cast<T1>(*extra_data);
1670 template<
class Dealloc_T,
class T>
1673 Teuchos::get_dealloc(
const ArrayRCP<T>& p )
1675 return get_nonconst_dealloc<Dealloc_T>(p);
1679 template<
class Dealloc_T,
class T>
1684 typedef RCPNodeTmpl<typename Dealloc_T::ptr_t,Dealloc_T> requested_type;
1686 RCPNodeTmpl<typename Dealloc_T::ptr_t,Dealloc_T>
1687 *dnode =
dynamic_cast<RCPNodeTmpl<typename Dealloc_T::ptr_t,Dealloc_T>*
>(
1688 p.access_private_node().node_ptr());
1690 dnode==NULL, NullReferenceError
1691 ,
"get_dealloc<" << TypeNameTraits<Dealloc_T>::name()
1692 <<
"," << TypeNameTraits<T>::name() <<
">(p): "
1693 <<
"Error, requested type \'" << TypeNameTraits<requested_type>::name()
1694 <<
"\' does not match actual type of the node \'"
1695 <<
typeName(*p.access_private_node().node_ptr()) <<
"!"
1697 return dnode->get_nonconst_dealloc();
1701 template<
class Dealloc_T,
class T>
1704 Teuchos::get_optional_dealloc(
const ArrayRCP<T>& p )
1706 return get_optional_dealloc<Dealloc_T>(p);
1710 template<
class Dealloc_T,
class T>
1716 typedef RCPNodeTmpl<typename Dealloc_T::ptr_t,Dealloc_T>
1718 RCPNT *dnode =
dynamic_cast<RCPNT*
>(p.access_private_node().node_ptr());
1720 return &dnode->get_nonconst_dealloc();
1725 template<
class TOrig,
class Embedded,
class T>
1726 const Embedded& Teuchos::getEmbeddedObj(
const ArrayRCP<T>& p )
1728 typedef EmbeddedObjDealloc<TOrig,Embedded,DeallocArrayDelete<TOrig> > Dealloc_t;
1729 return get_dealloc<Dealloc_t>(p).getObj();
1733 template<
class TOrig,
class Embedded,
class T>
1734 Embedded& Teuchos::getNonconstEmbeddedObj(
const ArrayRCP<T>& p )
1736 typedef EmbeddedObjDealloc<TOrig,Embedded,DeallocArrayDelete<TOrig> > Dealloc_t;
1737 return get_nonconst_dealloc<Dealloc_t>(p).getNonconstObj();
1742 std::ostream& Teuchos::operator<<( std::ostream& out, const ArrayRCP<T>& p )
1750 << TypeNameTraits<ArrayRCP<T> >::name() <<
"{"
1752 if (p.access_private_ptr () == NULL) {
1755 out << (
const void*) (p.access_private_ptr ());
1760 <<
",size="<<p.
size()
1761 <<
",node=" << p.access_private_node ()
1773 #endif // TEUCHOS_ARRAY_RCP_HPP
size_type lowerOffset_
Lower offset to the data; 0 if this array is null.
int weak_count() const
The weak count for this RCPNode, or 0 if the node is NULL.
ERCPStrength
Used to specify if the pointer is weak or strong.
ArrayRCP< T > create_weak() const
Create a new weak reference from another (strong) reference.
ArcpReinterpretCastEmbeddedObj & operator=(const ArcpReinterpretCastEmbeddedObj &arceo)
const ArrayRCP< T > & assert_in_range(size_type lowerOffset, size_type size) const
Throws NullReferenceError if this->get()==NULL orthis->get()!=NULL, throws RangeError if (lowerOffset...
std::string typeName(const T &t)
Template function for returning the concrete type name of a passed-in object.
BigUInt< n > operator-(BigUInt< n > const &a, BigUInt< n > const &b)
ArrayRCP(ENull null_arg=null)
Default constructor; initialize to an empty array.
ArrayRCP< T > persistingView(size_type lowerOffset, size_type size) const
Return a persisting view of a contiguous range of elements.
RCPNode * ArrayRCP_createNewDeallocRCPNodeRawPtr(T *p, Dealloc_T dealloc, bool has_ownership_in)
Partial specialization of ArrayRCP for const T.
Ordinal difference_type
Type representing the difference between two size_type values.
ArrayRCP< T > & operator++()
Prefix increment of pointer (i.e. ++ptr).
ArrayRCP< T > & operator+=(size_type offset)
Pointer integer increment (i.e. ptr+=offset).
int weak_count() const
Return the number of active RCP<> objects that have a "weak" reference to the underlying reference-co...
bool nonnull(const std::shared_ptr< T > &p)
Returns true if p.get()!=NULL.
ArcpReinterpretCastEmbeddedObj()
bool is_null(const std::shared_ptr< T > &p)
Returns true if p.get()==NULL.
#define TEUCHOS_ASSERT_INEQUALITY(val1, comp, val2)
This macro is checks that an inequality between two numbers is satisified and if not then throws a go...
ValueType & any_cast(any &operand)
Used to extract the templated value held in Teuchos::any to a given value type.
ArrayRCP< T > & operator-=(size_type offset)
Pointer integer increment (i.e. ptr-=offset).
#define TEUCHOS_TEST_FOR_EXCEPTION(throw_exception_test, Exception, msg)
Macro for throwing an exception with breakpointing to ease debugging.
T * getRawPtr() const
Get the raw C++ pointer to the underlying object.
size_type upperOffset() const
Return the upper offset to valid data.
ArrayRCP< T > & operator--()
Prefix decrement of pointer (i.e. –ptr).
T * release()
Release the ownership of the underlying array.
ERCPNodeLookup
Used to determine if RCPNode lookup is performed or not.
ArrayRCP< T > arcp(const RCP< Array< T > > &v)
Wrap an RCP<Array<T> > object as an ArrayRCP<T> object.
ArrayRCP< const T > getConst() const
Return object for only const access to data.
void release()
Releaes the RCPNode pointer before the destructor is called.
ENull
Used to initialize a RCP object to NULL using an implicit conversion!
void clear()
Resize to zero.
size_type size() const
The total number of entries in the array.
Ordinal size_type
Type representing the number of elements in an ArrayRCP or view thereof.
~ArrayRCP()
Destructor, that decrements the reference count.
ERCPStrength strength() const
Strength of the pointer.
bool is_null(const ArrayRCP< T > &p)
Returns true if p.get()==NULL.
void debug_assert_valid_ptr() const
RCPNodeHandle node_
Reference-counting machinery.
bool shares_resource(const ArrayRCP< T2 > &r_ptr) const
Returns true if the smart pointers share the same underlying reference-counted object.
bool is_valid_ptr() const
Return whether the underlying object pointer is still valid.
const ArrayRCP< T > & assert_not_null() const
Throws NullReferenceError if this->get()==NULL, otherwise returns reference to *this.
bool operator!=(const Allocator< T > &a_t, const Allocator< U > &a_u)
Return ! (a_t == a_u) (see above).
T * operator->() const
Pointer (->) access to members of underlying object for current position.
ArrayRCP< T2 > arcp_reinterpret_cast(const ArrayRCP< T1 > &p1)
Reinterpret cast of underlying ArrayRCP type from T1* to T2*.
void resize(const size_type n, const T &val=T())
Resize and append new elements if necessary.
Node class to keep track of address and the reference count for a reference-counted utility class and...
Deallocator class that uses delete [] to delete memory allocated uisng new []
Templated implementation class of RCPNode that has the responsibility for deleting the reference-coun...
bool operator>(BigUInt< n > const &a, BigUInt< n > const &b)
std::string concreteTypeName(const T &t)
Template function for returning the type name of the actual concrete name of a passed-in object...
bool operator>=(BigUInt< n > const &a, BigUInt< n > const &b)
void assert_valid_ptr(const RCPType &rcp_obj) const
ArrayRCP< T > create_strong() const
Create a new strong RCP object from another (weak) RCP object.
RCPNodeHandle create_strong() const
Return a strong handle.
ArrayRCP< T > operator+(size_type offset) const
Pointer integer increment (i.e. ptr+offset).
ERCPStrength strength() const
The strength of this handle.
void deepCopy(const ArrayView< const T > &av)
Deep copy the elements from one ArrayView object into this object.
size_type lowerOffset() const
Return the lower offset to valid data.
int total_count() const
Total count (strong_count() + weak_count()).
int size(const Comm< Ordinal > &comm)
Get the number of processes in the communicator.
Incompatiable iterators error exception class.
T & operator*() const
Dereference the underlying object for the current pointer position.
static RCPNode * getExistingRCPNode(T *p)
Return a raw pointer to an existing owning RCPNode given the address to the underlying object if it e...
Ptr< T > ptr(T *p)
Create a pointer to an object from a raw pointer.
T * ptr_
Raw pointer to the array; NULL if this array is null.
void set_has_ownership()
Give this and other ArrayRCP<> objects ownership of the underlying referenced array to delete it...
EPrePostDestruction
Used to specify a pre or post destruction of extra data.
Handle class that manages the RCPNode's reference counting.
int strong_count() const
The strong count for this RCPNode, or 0 if the node is NULL.
void has_ownership(bool has_ownership_in)
void debug_assert_in_range(size_type lowerOffset_in, size_type size_in) const
ArrayView< T > operator()() const
Return a nonpersisting view of *this.
int total_count() const
The sum of the weak and string counts.
int strong_count() const
Return the number of active RCP<> objects that have a "strong" reference to the underlying reference-...
ArrayRCP< T > arcpWithEmbeddedObj(T *p, typename ArrayRCP< T >::size_type lowerOffset, typename ArrayRCP< T >::size_type size, const Embedded &embedded, bool owns_mem=true)
Create an ArrayRCP with and also put in an embedded object.
ArrayRCP< T2 > arcp_const_cast(const ArrayRCP< T1 > &p1)
Const cast of underlying ArrayRCP type from const T* to T*.
bool is_valid_ptr() const
Whether the underlying pointer is valid.
ArrayRCP< T > & operator=(const ArrayRCP< T > &r_ptr)
Assignment operator: Makes *this reference the input array.
void assert_shares_resource(const ArrayRCP< T1 > &p1, const ArrayRCP< T2 > &p2)
ArcpReinterpretCastEmbeddedObj(const ArrayRCP< T1 > &arcp_pod)
ArrayRCP< T > operator-(size_type offset) const
Pointer integer decrement (i.e. ptr-offset).
Smart reference counting pointer class for automatic garbage collection.
bool same_node(const RCPNodeHandle &node2) const
Whether the RCPNode for which node2 is a handle is the same RCPNode as this object's RCPNode...
T & operator[](size_type offset) const
Random object access.
Deletes a (non-owning) RCPNode but not it's underlying object in case of a throw. ...
T * iterator
Nonconstant iterator type used if bounds checking is disabled.
iterator end() const
Return an iterator to past the end of the array of data.
Partial specialization of ArrayView for const T.
RCPNode * ArrayRCP_createNewRCPNodeRawPtr(T *p, bool has_ownership_in)
Range error exception class.
#define TEUCHOS_ASSERT_EQUALITY(val1, val2)
This macro is checks that to numbers are equal and if not then throws an exception with a good error ...
size_type upperOffset_
Upper offset to the data; -1 if this array is null.
RCPNodeHandle create_weak() const
Return a weak handle.
bool operator==(BigUInt< n > const &a, BigUInt< n > const &b)
bool is_null() const
True if the underlying pointer is null, else false.
~ArcpReinterpretCastEmbeddedObj()
T * get() const
Get the raw C++ pointer to the underlying object.
Definition of Teuchos::as, for conversions between types.
const ArrayRCP< T > & assert_valid_ptr() const
If the object pointer is non-null, assert that it is still valid.
#define TEUCHOS_TEST_FOR_EXCEPT(throw_exception_test)
This macro is designed to be a short version of TEUCHOS_TEST_FOR_EXCEPTION() that is easier to call...
iterator begin() const
Return an iterator to beginning of the array of data.
bool has_ownership() const
Returns true if this has ownership of object pointed to by this->get() in order to deallocate it...
void assign(size_type n, const T &val)
Resize and assign n elements of val.
ArrayView< T > view(size_type lowerOffset, size_type size) const
Return a nonpersisting view of a contiguous range of elements.