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// @HEADER
// ***********************************************************************
//
//                    Teuchos: Common Tools Package
//                 Copyright (2004) Sandia Corporation
//
// Under terms of Contract DE-AC04-94AL85000, there is a non-exclusive
// license for use of this work by or on behalf of the U.S. Government.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// 1. Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
//
// 3. Neither the name of the Corporation nor the names of the
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY SANDIA CORPORATION "AS IS" AND ANY
// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
// PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL SANDIA CORPORATION OR THE
// CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
// PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
// NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
// Questions? Contact Michael A. Heroux (maherou@sandia.gov)
//
// ***********************************************************************
// @HEADER

#ifndef TEUCHOS_ARRAY_VIEW_HPP
#define TEUCHOS_ARRAY_VIEW_HPP


#include "Teuchos_ArrayViewDecl.hpp"
#include "Teuchos_ArrayRCP.hpp"
#include "Teuchos_as.hpp"


namespace Teuchos {


// Constructors/Destructors


template<class T> inline
ArrayView<T>::ArrayView( ENull )
  : ptr_(0), size_(0)
{
  setUpIterators();
}

template<class T> inline
ArrayView<const T>::ArrayView( ENull )
  : ptr_(0), size_(0)
{
  setUpIterators();
}



template<class T> inline
ArrayView<T>::ArrayView( T* p, size_type size_in, const ERCPNodeLookup rcpNodeLookup )
  :ptr_(p), size_(size_in)
{
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
  TEUCHOS_TEST_FOR_EXCEPT( p != 0 && size_in <= 0 );
  TEUCHOS_TEST_FOR_EXCEPT( p == 0 && size_in != 0 );
  // This only does something if HAVE_TEUCHOS_ARRAY_BOUNDSCHECK is defined.
  setUpIterators(rcpNodeLookup);
#else
  (void) rcpNodeLookup; // Silence "unused variable" compiler warning.
#endif // HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
}

template<class T> inline
ArrayView<const T>::ArrayView(const T* p, size_type size_in, const ERCPNodeLookup rcpNodeLookup )
  : ptr_(p), size_(size_in)
{
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
  TEUCHOS_TEST_FOR_EXCEPT( p != 0 && size_in <= 0 );
  TEUCHOS_TEST_FOR_EXCEPT( p == 0 && size_in != 0 );
  // This only does something if HAVE_TEUCHOS_ARRAY_BOUNDSCHECK is defined.
  setUpIterators(rcpNodeLookup);
#else
  (void) rcpNodeLookup; // Silence "unused variable" compiler warning.
#endif // HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
}


template<class T> inline
ArrayView<T>::ArrayView(const ArrayView<T>& array)
  :ptr_(array.ptr_), size_(array.size_)
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
  ,arcp_(array.arcp_)
#endif
{}

template<class T> inline
ArrayView<const T>::ArrayView(const ArrayView<const T>& array)
  :ptr_(array.ptr_), size_(array.size_)
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
  ,arcp_(array.arcp_)
#endif
{}


template<class T> inline
ArrayView<T>::ArrayView(
  std::vector<typename ConstTypeTraits<T>::NonConstType>& vec
  )
  : ptr_( vec.empty() ? 0 : &vec[0] ), size_(vec.size())
{
  setUpIterators();
}

template<class T> inline
ArrayView<const T>::ArrayView(
  std::vector<typename ConstTypeTraits<T>::NonConstType>& vec
  )
  : ptr_( vec.empty() ? 0 : &vec[0] ), size_(vec.size())
{
  setUpIterators();
}


template<class T> inline
ArrayView<T>::ArrayView(
  const std::vector<typename ConstTypeTraits<T>::NonConstType>& vec
  )
  : ptr_( vec.empty() ? 0 : &vec[0] ), size_(vec.size())
{
  setUpIterators();
}

template<class T> inline
ArrayView<const T>::ArrayView(
  const std::vector<typename ConstTypeTraits<T>::NonConstType>& vec
  )
  : ptr_( vec.empty() ? 0 : &vec[0] ), size_(vec.size())
{
  setUpIterators();
}


template<class T> inline
ArrayView<T>& ArrayView<T>::operator=(const ArrayView<T>& array)
{
  ptr_ = array.ptr_;
  size_ = array.size_;
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
  arcp_ = array.arcp_;
#endif
  return *this;
}

template<class T> inline
ArrayView<const T>& ArrayView<const T>::operator= (const ArrayView<const T>& array)
{
  ptr_ = array.ptr_;
  size_ = array.size_;
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
  arcp_ = array.arcp_;
#endif
  return *this;
}


template<class T> inline
ArrayView<T>::~ArrayView()
{}

template<class T> inline
ArrayView<const T>::~ArrayView()
{}


// General query functions


template<class T>
inline
bool ArrayView<T>::is_null() const
{
  return ptr_ == 0;
}

template<class T>
inline
bool ArrayView<const T>::is_null() const
{
  return ptr_ == 0;
}


template<class T> inline
typename ArrayView<T>::size_type ArrayView<T>::size() const
{
  debug_assert_valid_ptr();
  return size_;
}

template<class T> inline
typename ArrayView<const T>::size_type ArrayView<const T>::size() const
{
  debug_assert_valid_ptr();
  return size_;
}


template<typename T>
std::string ArrayView<T>::toString() const
{
  using Teuchos::as;
  std::ostringstream ss;

  debug_assert_valid_ptr();

  ss << "{";
  for (size_type i = 0; i < size (); ++i) {
    // NOTE: This depends on std::ostream::operator<<(const T&).
    ss << operator[] (i);
    if (i + 1 < size ()) {
      ss << ", ";
    }
  }
  ss << "}";
  return ss.str ();
}

template<typename T>
std::string ArrayView<const T>::toString() const
{
  using Teuchos::as;
  std::ostringstream ss;

  debug_assert_valid_ptr();

  ss << "{";
  for (size_type i = 0; i < size (); ++i) {
    // NOTE: This depends on std::ostream::operator<<(const T&).
    ss << operator[] (i);
    if (i + 1 < size ()) {
      ss << ", ";
    }
  }
  ss << "}";
  return ss.str ();
}


// Specialization for float.  We use sufficient precision that no
// digits are lost after writing to string and reading back in again.
template<>
TEUCHOSCORE_LIB_DLL_EXPORT std::string
ArrayView<float>::toString() const;

// Specialization for (const) float.  We use sufficient precision that no
// digits are lost after writing to string and reading back in again.
template<>
TEUCHOSCORE_LIB_DLL_EXPORT std::string
ArrayView<const float>::toString() const;

// Specialization for double.  We use sufficient precision that no
// digits are lost after writing to string and reading back in again.
template<>
TEUCHOSCORE_LIB_DLL_EXPORT std::string
ArrayView<double>::toString() const;

// Specialization for (const) double.  We use sufficient precision that no
// digits are lost after writing to string and reading back in again.
template<>
TEUCHOSCORE_LIB_DLL_EXPORT std::string
ArrayView<const double>::toString() const;


// Element Access Functions


template<class T> inline
T* ArrayView<T>::getRawPtr() const
{
  debug_assert_valid_ptr();
  return ptr_;
}

template<class T> inline
const T* ArrayView<const T>::getRawPtr() const
{
  debug_assert_valid_ptr();
  return ptr_;
}


template<class T> inline
T& ArrayView<T>::operator[](size_type i) const
{
  debug_assert_valid_ptr();
  debug_assert_in_range(i,1);
  return ptr_[i];
}

template<class T> inline
const T& ArrayView<const T>::operator[](size_type i) const
{
  debug_assert_valid_ptr();
  debug_assert_in_range(i,1);
  return ptr_[i];
}


template<class T> inline
T& ArrayView<T>::front() const
{
  debug_assert_not_null();
  debug_assert_valid_ptr();
  return *ptr_;
}

template<class T> inline
const T& ArrayView<const T>::front() const
{
  debug_assert_not_null();
  debug_assert_valid_ptr();
  return *ptr_;
}

template<class T> inline
T& ArrayView<T>::back() const
{
  debug_assert_not_null();
  debug_assert_valid_ptr();
  return *(ptr_+size_-1);
}

template<class T> inline
const T& ArrayView<const T>::back() const
{
  debug_assert_not_null();
  debug_assert_valid_ptr();
  return *(ptr_+size_-1);
}


// Views


template<class T> inline
ArrayView<T> ArrayView<T>::view(size_type offset, size_type size_in) const
{
  if (size_in == 0) { return null; }
  debug_assert_valid_ptr();
  debug_assert_in_range(offset, size_in);
  return ArrayView<T>(
    ptr_+offset, size_in
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
    ,arcp_.persistingView(offset, size_in)
#endif
    );
  // WARNING: The above code had better be correct since we are using raw
  // pointer arithmetic!
}

template<class T> inline
ArrayView<const T> ArrayView<const T>::view(size_type offset, size_type size_in) const
{
  if (size_in == 0) { return null; }
  debug_assert_valid_ptr();
  debug_assert_in_range(offset, size_in);
  return ArrayView<const T>(
    ptr_+offset, size_in
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
    ,arcp_.persistingView(offset, size_in)
#endif
    );
  // WARNING: The above code had better be correct since we are using raw
  // pointer arithmetic!
}


template<class T> inline
ArrayView<T> ArrayView<T>::operator()(size_type offset, size_type size_in) const
{
  return view(offset, size_in);
}

template<class T> inline
ArrayView<const T> ArrayView<const T>::operator()(size_type offset, size_type size_in) const
{
  return view(offset, size_in);
}


template<class T> inline
const ArrayView<T>& ArrayView<T>::operator()() const
{
  debug_assert_valid_ptr();
  return *this;
}

template<class T> inline
const ArrayView<const T>& ArrayView<const T>::operator()() const
{
  debug_assert_valid_ptr();
  return *this;
}


template<class T> inline
ArrayView<const T> ArrayView<T>::getConst() const
{
  debug_assert_valid_ptr();
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
  return ArrayView<const T>(arcp_.getConst());
#else
  return ArrayView<const T>(ptr_, size_);
#endif
}

template<class T> inline
ArrayView<const T> ArrayView<const T>::getConst() const {
  return *this;
}


template<class T> inline
ArrayView<T>::operator ArrayView<const T>() const
{
  return getConst();
}


// Assignment


template<class T>
void ArrayView<T>::assign(const ArrayView<const T>& array) const
{
  debug_assert_valid_ptr();
  debug_assert_not_null();
  if (this->getRawPtr()==array.getRawPtr() && this->size()==array.size())
    return; // Assignment to self
  debug_assert_in_range(0,array.size());
  std::copy( array.begin(), array.end(), this->begin() );
  // Note: Above, in debug mode, the iterators are range checked!  In
  // optimized mode, these are raw pointers which should run very fast!
}


// Standard Container-Like Functions


template<class T>
typename ArrayView<T>::iterator ArrayView<T>::begin() const
{
  debug_assert_valid_ptr();
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
  return arcp_.create_weak();
#else
  return ptr_;
#endif
}

template<class T>
typename ArrayView<const T>::iterator ArrayView<const T>::begin() const
{
  debug_assert_valid_ptr();
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
  return arcp_.create_weak();
#else
  return ptr_;
#endif
}


template<class T>
typename ArrayView<T>::iterator ArrayView<T>::end() const
{
  debug_assert_valid_ptr();
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
  return arcp_.create_weak() + size_;
#else
  return ptr_ + size_;
#endif
}

template<class T>
typename ArrayView<const T>::iterator ArrayView<const T>::end() const
{
  debug_assert_valid_ptr();
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
  return arcp_.create_weak() + size_;
#else
  return ptr_ + size_;
#endif
}


// Assertion Functions.


template<class T>
const ArrayView<T>& ArrayView<T>::assert_not_null() const
{
  if(!ptr_)
    throw_null_ptr_error(typeName(*this));
  return *this;
}

template<class T>
const ArrayView<const T>& ArrayView<const T>::assert_not_null() const
{
  if(!ptr_)
    throw_null_ptr_error(typeName(*this));
  return *this;
}


template<class T>
const ArrayView<T>&
ArrayView<T>::assert_in_range(size_type offset, size_type size_in) const
{
  assert_not_null();
  TEUCHOS_TEST_FOR_EXCEPTION( size_in == as<size_type>(0), RangeError,
    "Error, size=0 is not allowed!" );
  TEUCHOS_TEST_FOR_EXCEPTION(
    !(
      ( 0 <= offset && offset+size_in <= this->size() )
      &&
      size_in >= 0
      ),
    RangeError,
    typeName(*this)<<"::assert_in_range():"
    " Error, [offset,offset+size) = ["<<offset<<","<<(offset+size_in)<<")"
    " does not lie in the range [0,"<<this->size()<<")!"
    );
  return*this;
}

template<class T>
const ArrayView<const T>&
ArrayView<const T>::assert_in_range(size_type offset, size_type size_in) const
{
  assert_not_null();
  TEUCHOS_TEST_FOR_EXCEPTION( size_in == as<size_type>(0), RangeError,
    "Error, size=0 is not allowed!" );
  TEUCHOS_TEST_FOR_EXCEPTION(
    !(
      ( 0 <= offset && offset+size_in <= this->size() )
      &&
      size_in >= 0
      ),
    RangeError,
    typeName(*this)<<"::assert_in_range():"
    " Error, [offset,offset+size) = ["<<offset<<","<<(offset+size_in)<<")"
    " does not lie in the range [0,"<<this->size()<<")!"
    );
  return*this;
}


#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK

template<class T>
ArrayView<T>::ArrayView( const ArrayRCP<T> &arcp )
  : ptr_(arcp.getRawPtr()), size_(arcp.size()), arcp_(arcp)
{}

template<class T>
ArrayView<const T>::ArrayView( const ArrayRCP<const T> &arcp )
  : ptr_(arcp.getRawPtr()), size_(arcp.size()), arcp_(arcp)
{}


template<class T>
ArrayView<T>::ArrayView(T* p, size_type size_in, const ArrayRCP<T> &arcp)
  : ptr_(p), size_(size_in), arcp_(arcp)
{}

template<class T>
ArrayView<const T>::ArrayView(const T* p, size_type size_in, const ArrayRCP<const T> &arcp)
  : ptr_(p), size_(size_in), arcp_(arcp)
{}


#endif // HAVE_TEUCHOS_ARRAY_BOUNDSCHECK


// private


template<class T>
void ArrayView<T>::setUpIterators(const ERCPNodeLookup rcpNodeLookup)
{
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
  if (ptr_ && arcp_.is_null()) {
    arcp_ = ArrayRCP<T>(ptr_, 0, size_, false, rcpNodeLookup);
  }
#else
  (void) rcpNodeLookup; // Silence "unused variable" compiler warning.
#endif // HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
}

template<class T>
void ArrayView<const T>::setUpIterators(const ERCPNodeLookup rcpNodeLookup)
{
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
  if (ptr_ && arcp_.is_null()) {
    arcp_ = ArrayRCP<const T>(ptr_, 0, size_, false, rcpNodeLookup);
  }
#else
  (void) rcpNodeLookup; // Silence "unused variable" compiler warning.
#endif // HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
}


} // namespace Teuchos


//
// Nonmember helper functions
//


template<class T> inline
Teuchos::ArrayView<T>
Teuchos::arrayView( T* p, typename ArrayView<T>::size_type size )
{
  if (size == 0)
    return null;
  return ArrayView<T>(p, size);
}


template<class T> inline
Teuchos::ArrayView<T> Teuchos::arrayViewFromVector( std::vector<T>& vec )
{
  if (vec.size() == 0)
    return null;
  return ArrayView<T>(vec);
}


template<class T> inline
Teuchos::ArrayView<const T> Teuchos::arrayViewFromVector( const std::vector<T>& vec )
{
  if (vec.size() == 0)
    return null;
  return ArrayView<const T>(vec);
}


#ifndef __sun

template<class T> inline
std::vector<T> Teuchos::createVector( const ArrayView<T> &av )
{
  std::vector<T> v(av.begin(), av.end());
  return v;
}

#endif // __sun


template<class T> inline
std::vector<T> Teuchos::createVector( const ArrayView<const T> &av )
{
  std::vector<T> v(av.begin(), av.end());
  return v;
}


template<class T> inline
bool Teuchos::is_null( const ArrayView<T> &av )
{
  return av.is_null();
}


template<class T> inline
bool Teuchos::nonnull( const ArrayView<T> &av )
{
  return !av.is_null();
}


template<class T>
std::ostream& Teuchos::operator<<( std::ostream& out, const ArrayView<T>& p )
{
  return out << p.toString();
}


template<class T2, class T1>
REFCOUNTPTR_INLINE
Teuchos::ArrayView<T2>
Teuchos::av_const_cast(const ArrayView<T1>& p1)
{
  T2 *ptr2 = const_cast<T2*>(p1.getRawPtr());
  return ArrayView<T2>(ptr2, p1.size());
  // Note: Above is just fine even if p1.get()==NULL!
}


template<class T2, class T1>
REFCOUNTPTR_INLINE
Teuchos::ArrayView<T2>
Teuchos::av_reinterpret_cast(const ArrayView<T1>& p1)
{
  typedef typename ArrayView<T1>::size_type size_type;
  const int sizeOfT1 = sizeof(T1);
  const int sizeOfT2 = sizeof(T2);
  size_type size2 = (p1.size()*sizeOfT1) / sizeOfT2;
  T2 *ptr2 = reinterpret_cast<T2*>(p1.getRawPtr());
  return ArrayView<T2>(
    ptr2, size2
#ifdef HAVE_TEUCHOS_ARRAY_BOUNDSCHECK
    ,arcp_reinterpret_cast<T2>(p1.access_private_arcp())
#endif
    );
  // Note: Above is just fine even if p1.get()==NULL!
}


#endif  // TEUCHOS_ARRAY_VIEW_HPP