/usr/include/CGAL/vector.h is in libcgal-dev 4.5-2.
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// Utrecht University (The Netherlands),
// ETH Zurich (Switzerland),
// INRIA Sophia-Antipolis (France),
// Max-Planck-Institute Saarbruecken (Germany),
// and Tel-Aviv University (Israel). All rights reserved.
//
// This file is part of CGAL (www.cgal.org); you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public License as
// published by the Free Software Foundation; either version 3 of the License,
// or (at your option) any later version.
//
// Licensees holding a valid commercial license may use this file in
// accordance with the commercial license agreement provided with the software.
//
// This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
// WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
//
// $URL$
// $Id$
//
//
// Author(s) : Andreas Fabri <Andreas.Fabri@sophia.inria.fr>
// Lutz Kettner <kettner@mpi-sb.mpg.de>
#ifndef CGAL_VECTOR_H
#define CGAL_VECTOR_H 1
#include <CGAL/basic.h>
#include <CGAL/memory.h>
#include <iterator>
#include <algorithm>
#include <memory>
#include <cstddef>
#include <boost/type_traits/remove_const.hpp>
#include <boost/type_traits/remove_reference.hpp>
#include <boost/type_traits/remove_pointer.hpp>
namespace CGAL {
namespace internal {
// We give the vector container class a class based iterator implementation.
// It ensures that iterator_traits work on compilers not supporting
// partial specializations and it guarantees that default initialization
// initializes the internal pointer to 0. Allows explicit construction
// from a pointer.
template < class T, class Ref, class Ptr>
class vector_iterator {
private:
Ptr ptr;
public:
typedef vector_iterator< T, Ref, Ptr> Self;
typedef T value_type;
typedef Ref reference;
typedef Ptr pointer;
typedef std::ptrdiff_t difference_type;
typedef std::random_access_iterator_tag iterator_category;
// CREATION
// --------
vector_iterator() : ptr(0) {} // explicitly set to 0
explicit vector_iterator( Ptr p) : ptr(p) {} // construction from pointer
// Allows construction of const_iterator from iterator
template < class A, class B, class C>
vector_iterator( const vector_iterator<A,B,C>& i) : ptr( &*i) {}
// OPERATIONS Forward Category
// ---------------------------
bool operator==( const Self& i) const { return ( ptr == i.ptr); }
bool operator!=( const Self& i) const { return !(*this == i); }
reference operator*() const { return *ptr; }
pointer operator->() const { return ptr; }
Self& operator++() {
++ptr;
return *this;
}
Self operator++(int) {
Self tmp = *this;
++*this;
return tmp;
}
// OPERATIONS Bidirectional Category
// ---------------------------------
Self& operator--() {
--ptr;
return *this;
}
Self operator--(int) {
Self tmp = *this;
--*this;
return tmp;
}
// OPERATIONS Random Access Category
// ---------------------------------
Self& operator+=( difference_type n) {
ptr += n;
return *this;
}
Self operator+( difference_type n) const {
Self tmp = *this;
return tmp += n;
}
Self& operator-=( difference_type n) { return operator+=( -n); }
Self operator-( difference_type n) const {
Self tmp = *this;
return tmp += -n;
}
difference_type operator-( const Self& i) const { return ptr - i.ptr; }
reference operator[]( difference_type n) const {
Self tmp = *this;
tmp += n;
return tmp.operator*();
}
bool operator< ( const Self& i) const { return ( ptr < i.ptr); }
bool operator> ( const Self& i) const { return i < *this; }
bool operator<=( const Self& i) const { return !(i < *this); }
bool operator>=( const Self& i) const { return !(*this < i); }
vector_iterator< T,
typename boost::remove_const<
typename boost::remove_reference<Ref>::type
>::type&,
typename boost::remove_const<
typename boost::remove_pointer<Ptr>::type
>::type* >
remove_const() const
{
typedef typename boost::remove_const<
typename boost::remove_pointer<Ptr>::type
>::type* Ptr_no_c;
return vector_iterator< T,
typename boost::remove_const<typename boost::remove_reference<Ref>::type>::type&,
Ptr_no_c>
( const_cast<Ptr_no_c>(ptr) );
}
};
template < class T, class Ref, class Ptr> inline
vector_iterator<T,Ref,Ptr>
operator+( std::ptrdiff_t n, vector_iterator<T,Ref,Ptr> i) {
return i += n;
}
template < class T, class Alloc = CGAL_ALLOCATOR(T)>
class vector {
public:
typedef Alloc Allocator;
typedef Alloc allocator_type; // STL compliant
// Note: the standard requires the following types to be equivalent
// to T, T*, const T*, T&, const T&, size_t, and ptrdiff_t, respectively.
// So we don't pass these types to the iterators explicitly.
typedef typename Allocator::value_type value_type;
typedef typename Allocator::pointer pointer;
typedef typename Allocator::const_pointer const_pointer;
typedef typename Allocator::reference reference;
typedef typename Allocator::const_reference const_reference;
typedef typename Allocator::size_type size_type;
typedef typename Allocator::difference_type difference_type;
typedef std::random_access_iterator_tag iterator_category;
typedef vector_iterator< T, reference, pointer> iterator;
typedef vector_iterator< T, const_reference, const_pointer>
const_iterator;
typedef vector< T, Alloc> Self;
typedef std::reverse_iterator<iterator> reverse_iterator;
typedef std::reverse_iterator<const_iterator> const_reverse_iterator;
protected:
#ifndef _MSC_VER
// Somehow the static initialization does not work correctly for MSVC
// ---> strange linker errors
static
#endif // _MSC_VER
Allocator alloc;
iterator start_;
iterator finish;
iterator end_of_storage;
// ALLOCATION AND CONSTRUCTION HELPERS
void construct( iterator i, const T& x) { alloc.construct( &*i, x);}
void destroy( iterator i) { alloc.destroy( &*i); }
void destroy( iterator first, iterator last) {
// destroy in reverse order than construction
while ( last != first) {
--last;
destroy( last);
}
}
void deallocate() {
if ( &*start_)
alloc.deallocate( &*start_, end_of_storage - start_ );
}
protected:
// pointer versions of begin()/end() to call the various
// standard algorithms with the (possibly) more efficient pointers.
pointer pbegin() { return &*start_; }
const_pointer pbegin() const { return &*start_; }
pointer pend() { return &*finish; }
const_pointer pend() const { return &*finish; }
public:
// ACCESS
// ------
iterator begin() { return start_; }
const_iterator begin() const { return start_; }
iterator end() { return finish; }
const_iterator end() const { return finish; }
size_type size() const { return size_type(end() - begin()); }
size_type max_size() const { return size_type(-1) / sizeof(T); }
size_type capacity() const {
return size_type(end_of_storage - start_);
}
bool empty() const { return begin() == end(); }
reference front() { return *begin(); }
const_reference front() const { return *begin(); }
reference back() { return *(end() - 1); }
const_reference back() const { return *(end() - 1); }
reference operator[] ( size_type n) { return *(begin() + n); }
const_reference operator[] ( size_type n) const { return *(begin() + n); }
reference at( size_type n) { return *(begin() + n); }
const_reference at( size_type n) const { return *(begin() + n); }
Allocator get_allocator() const { return alloc; }
reverse_iterator rbegin() { return reverse_iterator(end()); }
const_reverse_iterator rbegin() const {
return const_reverse_iterator(end());
}
reverse_iterator rend() { return reverse_iterator(begin()); }
const_reverse_iterator rend() const {
return const_reverse_iterator(begin());
}
// COMPARISON
// ----------
bool operator==( const Self& y) const {
return size() == y.size() && std::equal( pbegin(), pend(), y.pbegin());
}
bool operator!=( const Self& y) const { return !(*this == y); }
bool operator< ( const Self& y) const {
return std::lexicographical_compare( pbegin(), pend(),
y.pbegin(), y.pend());
}
bool operator> ( const Self& y) const { return y < *this; }
bool operator<=( const Self& y) const { return !(y < *this); }
bool operator>=( const Self& y) const { return !(*this < y); }
// CREATION
// --------
explicit vector()
: start_(0), finish(0), end_of_storage(0) {}
explicit vector( const Alloc& a)
: start_(0), finish(0), end_of_storage(0) { alloc = a; }
explicit vector( size_type n, const T& val) { fill_initialize(n, val); }
explicit vector( size_type n) { fill_initialize(n, T()); }
vector( const Self& x) {
start_ = allocate_and_copy( x.end() - x.begin(), x.begin(), x.end());
finish = start_ + (x.end() - x.begin());
end_of_storage = finish;
}
template <class InputIterator>
vector( InputIterator first, InputIterator last, const Alloc& a = Alloc())
: start_(0), finish(0), end_of_storage(0)
{
alloc = a;
typedef std::iterator_traits<InputIterator> Traits;
typedef typename Traits::iterator_category iterator_category;
range_initialize( first, last, iterator_category());
}
~vector() {
destroy( start_, finish);
deallocate();
}
vector<T, Alloc>& operator=(const Self& x) {
if (&x != this) {
if ( x.size() > capacity()) {
iterator tmp = allocate_and_copy( x.end() - x.begin(),
x.begin(),
x.end());
destroy( start_, finish);
deallocate();
start_ = tmp;
end_of_storage = start_ + (x.end() - x.begin());
} else if (size() >= x.size()) {
iterator i = std::copy( x.begin(), x.end(), begin());
destroy( i, finish);
} else {
std::copy( x.begin(), x.begin() + size(), begin());
std::uninitialized_copy(x.pbegin() + size(), x.pend(), pend());
}
finish = start_ + x.size();
}
return *this;
}
void swap( Self& x) {
std::swap( start_, x.start_);
std::swap( finish, x.finish);
std::swap( end_of_storage, x.end_of_storage);
}
void reserve( size_type n) {
if ( capacity() < n) {
const size_type old_size = size();
iterator tmp = allocate_and_copy( n, start_, finish);
destroy(start_, finish);
deallocate();
start_ = tmp;
finish = tmp + old_size;
end_of_storage = start_ + n;
}
}
// INSERTION
// ---------
void push_back( const T& x) {
if ( finish != end_of_storage) {
construct( finish, x);
++finish;
} else {
insert_aux( end(), x);
}
}
iterator insert( iterator position, const T& x) {
size_type n = position - begin();
if (finish != end_of_storage && position == end()) {
construct( finish, x);
++finish;
} else {
insert_aux( position, x);
}
return begin() + n;
}
iterator insert(iterator position) { return insert( position, T()); }
template <class InputIterator>
void insert( iterator position, InputIterator first, InputIterator last) {
typedef std::iterator_traits<InputIterator> Traits;
typedef typename Traits::iterator_category iterator_category;
range_insert( position, first, last, iterator_category());
}
void insert( iterator pos, size_type n, const T& x);
// REMOVAL
// -------
void pop_back() {
--finish;
destroy( finish);
}
iterator erase( iterator position) {
if (position + 1 != end())
std::copy( position + 1, finish, position);
--finish;
destroy(finish);
return position;
}
iterator erase( iterator first, iterator last) {
iterator i = std::copy( last, finish, first);
destroy( i, finish);
finish = finish - (last - first);
return first;
}
void clear() { erase( begin(), end()); }
// ASSIGNMENT
// ----------
template <class InputIterator>
void assign( InputIterator first, InputIterator last) {
clear();
insert( begin(), first, last);
}
void assign( size_type n, const T& u) {
clear();
insert( begin(), n, u);
}
void resize( size_type new_size, const T& x) {
if (new_size < size())
erase( begin() + new_size, end());
else
insert( end(), new_size - size(), x);
}
void resize( size_type new_size) { resize( new_size, T()); }
protected:
// INTERNAL
// --------
void insert_aux( iterator position, const T& x);
void fill_initialize( size_type n, const T& value) {
start_ = allocate_and_fill(n, value);
finish = start_ + n;
end_of_storage = finish;
}
iterator allocate_and_fill( size_type n, const T& x) {
iterator result = iterator( alloc.allocate(n));
try {
std::uninitialized_fill_n( &*result, n, x);
return result;
}
catch(...) {
alloc.deallocate( &*result, n);
throw;
}
}
template <class ForwardIterator>
iterator allocate_and_copy( size_type n,
ForwardIterator first,
ForwardIterator last) {
iterator result = iterator( alloc.allocate(n));
try {
std::uninitialized_copy( first, last, &*result);
return result;
}
catch(...) {
alloc.deallocate( &*result, n);
throw;
}
}
template <class InputIterator>
void range_initialize(InputIterator first,
InputIterator last,
std::input_iterator_tag) {
for ( ; first != last; ++first)
push_back(*first);
}
// This function is only called by the constructor. We have to worry
// about resource leaks, but not about maintaining invariants.
template <class ForwardIterator>
void range_initialize( ForwardIterator first,
ForwardIterator last,
std::forward_iterator_tag) {
size_type n = std::distance( first, last);
start_ = allocate_and_copy( n, first, last);
finish = start_ + n;
end_of_storage = finish;
}
template <class InputIterator>
void range_insert( iterator pos,
InputIterator first,
InputIterator last,
std::input_iterator_tag) {
for ( ; first != last; ++first) {
pos = insert( pos, *first);
++pos;
}
}
template <class ForwardIterator>
void range_insert( iterator position,
ForwardIterator first,
ForwardIterator last,
std::forward_iterator_tag) {
if (first != last) {
size_type n = std::distance(first, last);
if ( size_type(end_of_storage - finish) >= n) {
const size_type elems_after = finish - position;
iterator old_finish = finish;
if (elems_after > n) {
std::uninitialized_copy( pend() - n, pend(), pend());
finish += n;
std::copy_backward( position, old_finish - n, old_finish);
std::copy( first, last, position);
} else {
ForwardIterator mid = first;
std::advance( mid, elems_after);
std::uninitialized_copy( mid, last, pend());
finish += n - elems_after;
std::uninitialized_copy( position, old_finish, pend());
finish += elems_after;
std::copy( first, mid, position);
}
} else {
const size_type old_size = size();
const size_type len = old_size + (std::max)( old_size, n);
iterator new_start = iterator( alloc.allocate(len));
iterator new_finish = new_start;
try {
new_finish = iterator(
std::uninitialized_copy(start_, position,&*new_start));
new_finish = iterator(
std::uninitialized_copy( first, last, &*new_finish));
new_finish = iterator(
std::uninitialized_copy(position,finish,&*new_finish));
}
catch(...) {
destroy( new_start, new_finish);
alloc.deallocate( &*new_start, len);
throw;
}
destroy( start_, finish);
deallocate();
start_ = new_start;
finish = new_finish;
end_of_storage = new_start + len;
}
}
}
}; // class vector
#ifndef _MSC_VER
// init static member allocator object
template <class T, class Alloc>
Alloc vector< T, Alloc>::alloc = Alloc();
#endif // _MSC_VER
template <class T, class Alloc>
inline void swap( vector<T, Alloc>& x, vector<T, Alloc>& y) {
x.swap(y);
}
template <class T, class Alloc>
void vector<T, Alloc>::insert_aux( iterator position, const T& x) {
if ( finish != end_of_storage) {
construct( finish, *(finish - 1));
++finish;
T x_copy = x;
std::copy_backward( position, finish - 2, finish - 1);
*position = x_copy;
} else {
const size_type old_size = size();
const size_type len = old_size != 0 ? 2 * old_size : 1;
iterator new_start = iterator( alloc.allocate(len));
iterator new_finish = new_start;
try {
new_finish = iterator(
std::uninitialized_copy(start_, position, &*new_start));
construct( new_finish, x);
++new_finish;
new_finish = iterator(
std::uninitialized_copy(position,finish,&*new_finish));
}
catch(...) {
destroy( new_start, new_finish);
alloc.deallocate( &*new_start, len);
throw;
}
destroy( begin(), end());
deallocate();
start_ = new_start;
finish = new_finish;
end_of_storage = new_start + len;
}
}
template <class T, class Alloc>
void vector<T, Alloc>::insert( iterator position, size_type n, const T& x) {
if (n != 0) {
if ( size_type(end_of_storage - finish) >= n) {
T x_copy = x;
const size_type elems_after = finish - position;
iterator old_finish = finish;
if (elems_after > n) {
std::uninitialized_copy( pend() - n, pend(), pend());
finish += n;
std::copy_backward( position, old_finish - n, old_finish);
std::fill( position, position + n, x_copy);
} else {
std::uninitialized_fill_n( pend(), n - elems_after, x_copy);
finish += n - elems_after;
std::uninitialized_copy( position, old_finish, pend());
finish += elems_after;
std::fill(position, old_finish, x_copy);
}
} else {
const size_type old_size = size();
const size_type len = old_size + (std::max)(old_size, n);
iterator new_start = iterator( alloc.allocate(len));
iterator new_finish = new_start;
try {
new_finish = iterator(
std::uninitialized_copy( start_, position, &*new_start));
std::uninitialized_fill_n( &*new_finish, n, x);
new_finish += n;
new_finish = iterator(
std::uninitialized_copy( position, finish, &*new_finish));
}
catch(...) {
destroy( new_start, new_finish);
alloc.deallocate( &*new_start, len);
throw;
}
destroy( start_, finish);
deallocate();
start_ = new_start;
finish = new_finish;
end_of_storage = new_start + len;
}
}
}
} // namespace internal
} //namespace CGAL
#endif // CGAL_VECTOR_H //
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