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boost:boost-1.90.0 boost:boost-1.90.0.beta1 boost:boost-1.89.0 boost:boost-1.88.0 boost:boost-1.88.0.beta1 boost:boost-1.87.0 boost:boost-1.87.0.beta1 boost:boost-1.86.0 boost:boost-1.86.0.beta1 boost:boost-1.85.0 boost:boost-1.85.0.beta1 boost:boost-1.84.0 boost:boost-1.84.0.beta1 boost:boost-1.83.0.beta1 boost:boost-1.83.0 boost:boost-1.81.0 boost:boost-1.82.0 boost:boost-1.82.0.beta1 boost:boost-1.81.0.beta1 boost:boost-1.80.0 boost:boost-1.80.0.beta1 boost:boost-1.79.0 boost:boost-1.79.0.beta1 boost:boost-1.78.0 boost:boost-1.78.0.beta1 boost:boost-1.77.0 boost:boost-1.77.0.beta1 boost:boost-1.76.0 boost:boost-1.76.0.beta1 boost:boost-1.75.0 boost:boost-1.75.0.beta1 boost:boost-1.74.0.beta1 boost:boost-1.74.0 boost:boost-1.73.0 boost:boost-1.73.0.beta1 boost:boost-1.72.0 boost:boost-1.72.0.beta1 boost:boost-1.70.0 boost:boost-1.70.0.beta1 boost:boost-1.71.0 boost:boost-1.71.0.beta1 boost:boost-1.69.0 boost:boost-1.69.0-beta1 boost:boost-1.67.0 boost:boost-1.68.0 boost:boost-1.66.0 boost:boost-1.65.0 boost:boost-1.65.1 boost:boost-1.64.0 boost:boost-1.64.0-beta1 boost:boost-1.64.0-beta2 boost:boost-1.63.0 boost:boost-1.60.0 boost:boost-1.61.0 boost:boost-1.62.0 boost:boost-1.59.0 boost:boost-1.58.0 boost:boost-1.57.0 boost:boost-1.56.0 boost:boost-1.55.0 boost:boost-1.54.0 boost:boost-1.54.0-beta1 boost:boost-1.53.0 boost:boost-1.52.0 boost:boost-1.51.0 boost:boost-1.50.0 boost:boost-1.50.0-beta1 boost:boost-1.49.0 boost:boost-1.49.0-beta1 boost:boost-1.48.0 boost:boost-1.48.0-beta1 boost:boost-1.47.0 boost:boost-1.47.0-beta1 boost:boost-1.46.1 boost:boost-1.46.0 boost:boost-1.46.0-beta1 boost:boost-1.45.0 boost:boost-1.45.0-beta1 boost:boost-1.44.0 boost:boost-1.44.0-beta1 boost:boost-1.43.0 boost:boost-1.43.0-beta1 boost:boost-1.42.0 boost:boost-1.41.0 boost:boost-1.41.0-beta1 boost:boost-1.40.0 boost:boost-1.39.0 boost:boost-1.39.0-beta1 boost:boost-1.38.0 boost:boost-1.37.0 boost:boost-1.37.0-beta1 boost:boost-1.36.0 boost:boost-1.36.0-beta1 boost:boost-1.35.0 boost:boost-1.35.0-rc3 boost:boost-1.35.0-rc1 boost:boost-1.34.1 boost:boost-1.34.1-rc3 boost:boost-1.34.1-rc2 boost:boost-1.34.1-rc1 boost:boost-1.34.0 boost:boost-1.34.0-rc3 boost:boost-1.34.0-rc2 boost:boost-1.34.0-rc1 boost:boost-1.34.0-beta1 boost:boost-1.33.1 boost:boost-1.33.1-beta1 boost:boost-1.33.0 boost:boost-1.32.0 boost:boost-1.31.0 boost:boost-1.30.2 boost:boost-1.30.1 boost:boost-1.30.2-rc1 boost:boost-1.30.0 boost:boost-1.29.0 boost:boost-1.28.0 boost:boost-1.27.0 boost:boost-1.26.0 boost:boost-1.25.1-bgl boost:boost-1.25.1 boost:boost-1.25.0 boost:boost-1.24.0 boost:boost-1.23.0 boost:boost-1.22.0 boost:boost-1.21.2 boost:boost-1.21.1 boost:boost-1.21.0 boost:boost-1.20.2 boost:boost-1.20.1 boost:boost-1.20.0 boost:boost-1.19.0 boost:boost-1.17.0 boost:boost-1.18.3 boost:boost-1.18.2 boost:boost-1.18.0 boost:boost-1.16.1

2 Commits
boost-1.21 ... svn-branch

Author SHA1 Message Date
Dave Abrahams
5aeb0855b4 Moved pointer parameter 
[SVN r9348]
 2001-02-27 02:18:48 +00:00
nobody
7a4887eff0 This commit was manufactured by cvs2svn to create branch 
'moved_pointer'.

[SVN r9293]
 2001-02-20 16:01:01 +00:00
15 changed files with 90 additions and 2259 deletions
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199
development/boost/iterator_concepts.hpp
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@@ -1,199 +0,0 @@
#ifndef BOOST_ITERATOR_CONCEPTS_HPP
#define BOOST_ITERATOR_CONCEPTS_HPP
#include <boost/concept_check.hpp>
#include <boost/iterator_traits.hpp>
#include <boost/type_traits/conversion_traits.hpp>
#include <boost/static_assert.hpp>
namespace boost_concepts {
// Used a different namespace here (instead of "boost") so that the
// concept descriptions do not take for granted the names in
// namespace boost.
//===========================================================================
// Iterator Access Concepts
template <typename Iterator>
class ReadableIteratorConcept {
public:
typedef typename boost::iterator_traits<Iterator>::value_type value_type;
typedef typename boost::iterator_traits<Iterator>::reference reference;
typedef typename boost::iterator_traits<Iterator>::return_category
return_category;
void constraints() {
boost::function_requires< boost::SGIAssignableConcept<Iterator> >();
boost::function_requires< boost::EqualityComparableConcept<Iterator> >();
boost::function_requires<
boost::DefaultConstructibleConcept<Iterator> >();
BOOST_STATIC_ASSERT((boost::is_convertible<return_category*,
boost::readable_iterator_tag*>::value));
reference r = *i; // or perhaps read(x)
value_type v(r);
boost::ignore_unused_variable_warning(v);
}
Iterator i;
};
template <typename Iterator, typename ValueType>
class WritableIteratorConcept {
public:
typedef typename boost::iterator_traits<Iterator>::return_category
return_category;
void constraints() {
boost::function_requires< boost::SGIAssignableConcept<Iterator> >();
boost::function_requires< boost::EqualityComparableConcept<Iterator> >();
boost::function_requires<
boost::DefaultConstructibleConcept<Iterator> >();
BOOST_STATIC_ASSERT((boost::is_convertible<return_category*,
boost::writable_iterator_tag*>::value));
*i = v; // an alternative could be something like write(x, v)
}
ValueType v;
Iterator i;
};
template <typename Iterator>
class ConstantLvalueIteratorConcept {
public:
typedef typename boost::iterator_traits<Iterator>::value_type value_type;
typedef typename boost::iterator_traits<Iterator>::reference reference;
typedef typename boost::iterator_traits<Iterator>::return_category
return_category;
void constraints() {
boost::function_requires< ReadableIteratorConcept<Iterator> >();
BOOST_STATIC_ASSERT((boost::is_convertible<return_category*,
boost::constant_lvalue_iterator_tag*>::value));
BOOST_STATIC_ASSERT((boost::is_same<reference,
const value_type&>::value));
reference v = *i;
boost::ignore_unused_variable_warning(v);
}
Iterator i;
};
template <typename Iterator>
class MutableLvalueIteratorConcept {
public:
typedef typename boost::iterator_traits<Iterator>::value_type value_type;
typedef typename boost::iterator_traits<Iterator>::reference reference;
typedef typename boost::iterator_traits<Iterator>::return_category
return_category;
void constraints() {
boost::function_requires< ReadableIteratorConcept<Iterator> >();
boost::function_requires<
WritableIteratorConcept<Iterator, value_type> >();
BOOST_STATIC_ASSERT((boost::is_convertible<return_category*,
boost::mutable_lvalue_iterator_tag*>::value));
BOOST_STATIC_ASSERT((boost::is_same<reference, value_type&>::value));
reference v = *i;
boost::ignore_unused_variable_warning(v);
}
Iterator i;
};
//===========================================================================
// Iterator Traversal Concepts
template <typename Iterator>
class SinglePassIteratorConcept {
public:
typedef typename boost::iterator_traits<Iterator>::traversal_category
traversal_category;
typedef typename boost::iterator_traits<Iterator>::difference_type
difference_type;
void constraints() {
boost::function_requires< boost::SGIAssignableConcept<Iterator> >();
boost::function_requires< boost::EqualityComparableConcept<Iterator> >();
boost::function_requires<
boost::DefaultConstructibleConcept<Iterator> >();
BOOST_STATIC_ASSERT((boost::is_convertible<traversal_category*,
boost::single_pass_iterator_tag*>::value));
// difference_type must be a signed integral type
++i;
(void)i++;
}
Iterator i;
};
template <typename Iterator>
class ForwardIteratorConcept {
public:
typedef typename boost::iterator_traits<Iterator>::traversal_category
traversal_category;
void constraints() {
boost::function_requires< SinglePassIteratorConcept<Iterator> >();
BOOST_STATIC_ASSERT((boost::is_convertible<traversal_category*,
boost::forward_iterator_tag*>::value));
}
};
template <typename Iterator>
class BidirectionalIteratorConcept {
public:
typedef typename boost::iterator_traits<Iterator>::traversal_category
traversal_category;
void constraints() {
boost::function_requires< ForwardIteratorConcept<Iterator> >();
BOOST_STATIC_ASSERT((boost::is_convertible<traversal_category*,
boost::bidirectional_iterator_tag*>::value));
--i;
(void)i--;
}
Iterator i;
};
template <typename Iterator>
class RandomAccessIteratorConcept {
public:
typedef typename boost::iterator_traits<Iterator>::traversal_category
traversal_category;
typedef typename boost::iterator_traits<Iterator>::difference_type
difference_type;
void constraints() {
boost::function_requires< BidirectionalIteratorConcept<Iterator> >();
BOOST_STATIC_ASSERT((boost::is_convertible<traversal_category*,
boost::random_access_iterator_tag*>::value));
i += n;
i = i + n;
i = n + i;
i -= n;
i = i - n;
n = i - j;
}
difference_type n;
Iterator i, j;
};
} // namespace boost_concepts
#endif // BOOST_ITERATOR_CONCEPTS_HPP

137
development/boost/iterator_traits.hpp
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@@ -1,137 +0,0 @@
#ifndef BOOST_ITERATOR_TRAITS_HPP
#define BOOST_ITERATOR_TRAITS_HPP
#include <boost/config.hpp>
#include <boost/type_traits/conversion_traits.hpp>
#include <boost/type_traits/cv_traits.hpp>
#include <boost/pending/ct_if.hpp>
#include <boost/detail/iterator.hpp>
namespace boost {
// Traversal Categories
struct single_pass_iterator_tag { };
struct forward_iterator_tag : public single_pass_iterator_tag { };
struct bidirectional_iterator_tag : public forward_iterator_tag { };
struct random_access_iterator_tag : public bidirectional_iterator_tag { };
// Return Type Categories
struct readable_iterator_tag { };
struct writable_iterator_tag { };
struct mutable_lvalue_iterator_tag : virtual public writable_iterator_tag,
virtual public readable_iterator_tag { };
struct constant_lvalue_iterator_tag : public readable_iterator_tag { };
struct error_iterator_tag { };
// Inherit from iterator_base if your iterator defines its own
// return_category and traversal_category. Otherwise, the "old style"
// iterator category will be mapped to the return_category and
// traversal_category.
struct new_iterator_base { };
namespace detail {
struct iter_traits_from_nested_types {
template <typename Iterator> struct bind {
typedef typename Iterator::value_type value_type;
typedef typename Iterator::reference reference;
typedef typename Iterator::pointer pointer;
typedef typename Iterator::difference_type difference_type;
typedef typename Iterator::return_category return_category;
typedef typename Iterator::traversal_category traversal_category;
};
};
template <typename ValueType>
struct choose_lvalue_return {
typedef typename ct_if<is_const<ValueType>::value,
boost::constant_lvalue_iterator_tag,
boost::mutable_lvalue_iterator_tag>::type type;
};
template <typename Category, typename ValueType>
struct iter_category_to_return {
typedef typename ct_if<
is_convertible<Category*, std::forward_iterator_tag*>::value,
typename choose_lvalue_return<ValueType>::type,
typename ct_if<
is_convertible<Category*, std::input_iterator_tag*>::value,
boost::readable_iterator_tag,
typename ct_if<
is_convertible<Category*, std::output_iterator_tag*>::value,
boost::writable_iterator_tag,
boost::error_iterator_tag
>::type
>::type
>::type type;
};
template <typename Category>
struct iter_category_to_traversal {
typedef typename ct_if<
is_convertible<Category*, std::random_access_iterator_tag*>::value,
boost::random_access_iterator_tag,
typename ct_if<
is_convertible<Category*, std::bidirectional_iterator_tag*>::value,
boost::bidirectional_iterator_tag,
typename ct_if<
is_convertible<Category*, std::forward_iterator_tag*>::value,
boost::forward_iterator_tag,
boost::single_pass_iterator_tag>::type
>::type
>::type type;
};
struct iter_traits_from_old_traits {
template <typename Iterator> class bind {
typedef boost::detail::iterator_traits<Iterator> OldTraits;
typedef typename OldTraits::iterator_category Cat;
public:
typedef typename OldTraits::value_type value_type;
typedef typename OldTraits::reference reference;
typedef typename OldTraits::pointer pointer;
typedef typename OldTraits::difference_type difference_type;
typedef iter_category_to_return<Cat,value_type>::type return_category;
typedef iter_category_to_traversal<Cat>::type traversal_category;
};
};
template <typename Iterator>
class choose_iter_traits {
typedef typename ct_if<is_convertible<Iterator*,
new_iterator_base*>::value,
iter_traits_from_nested_types,
iter_traits_from_old_traits>::type Choice;
public:
typedef typename Choice:: template bind<Iterator> type;
};
} // namespace detail
template <typename Iterator>
class iterator_traits
: public detail::choose_iter_traits<Iterator>::type { };
#if !defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION)
template <typename T>
struct iterator_traits<T*>
{
typedef T value_type;
typedef T& reference;
typedef T* pointer;
typedef std::ptrdiff_t difference_type;
typedef typename ct_if<is_const<T>::value,
boost::constant_lvalue_iterator_tag,
boost::mutable_lvalue_iterator_tag>::type
return_category;
typedef boost::random_access_iterator_tag traversal_category;
};
#endif
} // namespace boost
#endif // BOOST_ITERATOR_TRAITS_HPP

76
development/libs/iterator/concept_tests.cpp
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#include <boost/iterator_concepts.hpp>
#include <boost/operators.hpp>
struct new_iterator
: public boost::iterator<std::random_access_iterator_tag, int>,
public boost::new_iterator_base
{
typedef boost::random_access_iterator_tag traversal_category;
typedef boost::mutable_lvalue_iterator_tag return_category;
int& operator*() const { return *m_x; }
new_iterator& operator++() { return *this; }
new_iterator operator++(int) { return *this; }
new_iterator& operator--() { return *this; }
new_iterator operator--(int) { return *this; }
new_iterator& operator+=(std::ptrdiff_t) { return *this; }
new_iterator operator+(std::ptrdiff_t) { return *this; }
new_iterator& operator-=(std::ptrdiff_t) { return *this; }
std::ptrdiff_t operator-(const new_iterator&) const { return 0; }
new_iterator operator-(std::ptrdiff_t) const { return *this; }
bool operator==(const new_iterator&) const { return false; }
bool operator!=(const new_iterator&) const { return false; }
bool operator<(const new_iterator&) const { return false; }
int* m_x;
};
new_iterator operator+(std::ptrdiff_t, new_iterator x) { return x; }
struct old_iterator
: public boost::iterator<std::random_access_iterator_tag, int>
{
int& operator*() const { return *m_x; }
old_iterator& operator++() { return *this; }
old_iterator operator++(int) { return *this; }
old_iterator& operator--() { return *this; }
old_iterator operator--(int) { return *this; }
old_iterator& operator+=(std::ptrdiff_t) { return *this; }
old_iterator operator+(std::ptrdiff_t) { return *this; }
old_iterator& operator-=(std::ptrdiff_t) { return *this; }
old_iterator operator-(std::ptrdiff_t) const { return *this; }
std::ptrdiff_t operator-(const old_iterator&) const { return 0; }
bool operator==(const old_iterator&) const { return false; }
bool operator!=(const old_iterator&) const { return false; }
bool operator<(const old_iterator&) const { return false; }
int* m_x;
};
old_iterator operator+(std::ptrdiff_t, old_iterator x) { return x; }
struct bar { };
void foo(bar) { }
int
main()
{
#if !defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION)
boost::function_requires<
boost_concepts::MutableLvalueIteratorConcept<int*> >();
boost::function_requires<
boost_concepts::RandomAccessIteratorConcept<int*> >();
boost::function_requires<
boost_concepts::ConstantLvalueIteratorConcept<const int*> >();
boost::function_requires<
boost_concepts::RandomAccessIteratorConcept<const int*> >();
#endif
boost::function_requires<
boost_concepts::MutableLvalueIteratorConcept<new_iterator> >();
boost::function_requires<
boost_concepts::RandomAccessIteratorConcept<new_iterator> >();
boost::function_requires<
boost_concepts::MutableLvalueIteratorConcept<old_iterator> >();
boost::function_requires<
boost_concepts::RandomAccessIteratorConcept<old_iterator> >();
return 0;
}

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<HTML>
<!--
-- Copyright (c) Jeremy Siek 2000
--
-- Permission to use, copy, modify, distribute and sell this software
-- and its documentation for any purpose is hereby granted without fee,
-- provided that the above copyright notice appears in all copies and
-- that both that copyright notice and this permission notice appear
-- in supporting documentation. I make no representations about the
-- suitability of this software for any purpose. It is provided "as is"
-- without express or implied warranty.
-->
<!--
-- Copyright (c) 1996-1999
-- Silicon Graphics Computer Systems, Inc.
--
-- Permission to use, copy, modify, distribute and sell this software
-- and its documentation for any purpose is hereby granted without fee,
-- provided that the above copyright notice appears in all copies and
-- that both that copyright notice and this permission notice appear
-- in supporting documentation. Silicon Graphics makes no
-- representations about the suitability of this software for any
-- purpose. It is provided "as is" without express or implied warranty.
--
-- Copyright (c) 1994
-- Hewlett-Packard Company
--
-- Permission to use, copy, modify, distribute and sell this software
-- and its documentation for any purpose is hereby granted without fee,
-- provided that the above copyright notice appears in all copies and
-- that both that copyright notice and this permission notice appear
-- in supporting documentation. Hewlett-Packard Company makes no
-- representations about the suitability of this software for any
-- purpose. It is provided "as is" without express or implied warranty.
--
-->
<Head>
<Title>Iterator Concepts</Title>
<BODY BGCOLOR="#ffffff" LINK="#0000ee" TEXT="#000000" VLINK="#551a8b"
ALINK="#ff0000">
<IMG SRC="../../../../c++boost.gif"
ALT="C++ Boost" width="277" height="86">
<BR Clear>
<h1>Iterator Concepts</h1>
<p>The standard iterator concepts (the iterator requirements defined
in the C++ Standard) have a flaw. They glom together two separate
issues into a single set of concepts. The two issues are iterator
traversal and dereference return type semantics. These two issues are
inherently orthogonal and therefore ought to be represented by two
separate sets of concepts. The concepts described here do just
that.</p>
One set of concepts handles the return type semantics:
<ul>
<li><a href="#concept:ReadableIterator">Readable Iterator</a></li>
<li><a href="#concept:WritableIterator">Writable Iterator</a></li>
<li><a href="#concept:MutableLvalueIterator">Mutable Lvalue Iterator</a></li>
<li><a href="#concept:ConstantLvalueIterator">Constant Lvalue Iterator</a></li>
</ul>
The other set of concepts handles iterator traversal:
<ul>
<li><a href="#concept:SinglePassIterator">Single-Pass Iterator</a></li>
<li><a href="#concept:ForwardIterator">Forward Iterator</a></li>
<li><a href="#concept:BidirectionalIterator">Bidirectional Iterator</a></li>
<li><a href="#concept:RandomAccessIterator">Random Access Iterator</a></li>
</ul>
<p></p>
<DIV ALIGN="CENTER"><A NAME="fig:graph-concepts"></A></A>
<TABLE>
<CAPTION ALIGN="TOP"><STRONG>Figure 1:</STRONG>
The iterator concepts and refinement relationships.
</CAPTION>
<TR><TD><IMG SRC="./iterator_concepts.gif" width="541" height="214"></TD></TR>
</TABLE>
</DIV>
<p></p>
<h2>Relationship with the standard iterator concepts</h2>
<p>
std::Input Iterator refines boost::Single-Pass Iterator and
boost::ReadableIterator.
<p>
std::Output Iterator refines boost::Single-Pass Iterator and
boost::Writable Iterator.
<p>
std::Forward Iterator refines boost::Forward Iterator and
boost::Constant Lvalue Iterator or boost::Mutable Lvalue Iterator.
<p>
std::Bidirectional Iterator refines boost::Bidirectional Iterator and
boost::Constant Lvalue Iterator or boost::Mutable Lvalue Iterator.
<p>
std::Random Access Iterator refines boost::Random Access Iterator and
boost::Constant Lvalue Iterator or boost::Mutable Lvalue Iterator.
<h3>Notation</h3>
<Table>
<TR>
<TD><tt>X</tt></TD>
<TD>The iterator type.</TD>
</TR>
<TR>
<TD><tt>T</tt></TD>
<TD>The value type of <tt>X</tt>.</TD>
</TR>
<TR>
<TD><tt>x</tt>, <tt>y</tt></TD>
<TD>An object of type <tt>X</tt>.</TD>
</TR>
<TR>
<TD><tt>t</tt></TD>
<TD>An object of type <tt>T</tt>.</TD>
</tr>
</table>
<p>
<hr>
<H2><A NAME="concept:ReadableIterator"></A>
Readable Iterator
</H2>
A Readable Iterator is an iterator that dereferences to produce an
rvalue that is convertible to the <tt>value_type</tt> of the
iterator. For example, derefencing may return a temporary object and
therefore it would be a mistake to bind the result to a reference.
Also, an attempt to assign a value to the result will most likely
cause an error.
<pre>
template &lt;class Readable Iterator&gt;
void foo(Readable Iterator x)
{
typedef std::iterator_traits&lt;Readable Iterator&gt;::value_type T;
T t = *x; // Read a value. This is OK.
T& s = *x; // Bind to a reference. This is a bad idea.
*x = t; // Try to assign. This is a really bad idea.
}
</pre>
<h3>Associated Types</h3>
<Table border>
<TR>
<TD>Value type</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::value_type</tt></TD>
<TD>
The type of the value obtained by dereferencing a LvalueIterator
</TD>
</tr>
<TR>
<TD>Return Category</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::return_category</tt></TD>
<TD>
A type convertible to <tt>boost::readable_iterator_tag</tt>
</TD>
</tr>
</Table>
<h3>Refinement of</h3>
<A href="http://www.sgi.com/Technology/STL/Assignable.html">Assignable</A>,
<A href="http://www.sgi.com/Technology/STL/EqualityComparable.html">Equality Comparable</A>,
<A href="http://www.sgi.com/Technology/STL/DefaultConstructible.html">Default Constructible</A>
<h3>Valid expressions</h3>
<Table border>
<TR><TH>Name</TH><TH>Expression</TH><TH>Type requirements</TH><TH>Return type</TH></TR>
<TR>
<TD>Dereference</TD>
<TD><tt>*x</tt></TD>
<TD>&nbsp;</TD>
<TD>Convertible to <tt>T</tt>.</TD>
</TR>
<TR>
<TD>Member access</TD>
<TD><tt>x-&gt;m</tt></TD>
<TD><tt>T</tt> is a type with a member named <tt>m</tt>.</TD>
<TD>
&nbsp;
</TD>
</tr>
</table>
<p>
<hr>
<H2><A NAME="concept:WritableIterator"></A>
Writable Iterator
</H2>
A Writable Iterator is an iterator that can be used to store a value
using the dereference-assignment expression.
<h3>Definitions</h3>
If <tt>x</tt> is an Writable Iterator of type <tt>X</tt>, then the
expression <tt>*x = a;</tt> stores the value <tt>a</tt> into
<tt>x</tt>. Note that <tt>operator=</tt>, like other C++ functions,
may be overloaded; it may, in fact, even be a template function. In
general, then, <tt>a</tt> may be any of several different types. A
type <tt>A</tt> belongs to the <i>set of value types</i> of <tt>X</tt>
if, for an object <tt>a</tt> of type <tt>A</tt>, <tt>*x = a;</tt> is
well-defined and does not require performing any non-trivial
conversions on <tt>a</tt>.
<h3>Associated Types</h3>
<Table border>
<TR>
<TD>Return Category</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::return_category</tt></TD>
<TD>
A type convertible to <tt>boost::writable_iterator_tag</tt>
</TD>
</tr>
</Table>
<h3>Refinement of</h3>
<A href="http://www.sgi.com/Technology/STL/Assignable.html">Assignable</A>,
<A href="http://www.sgi.com/Technology/STL/EqualityComparable.html">Equality Comparable</A>,
<A href="http://www.sgi.com/Technology/STL/DefaultConstructible.html">Default Constructible</A>
<h3>Valid expressions</h3>
<Table border>
<TR>
<TH>Name</TH><TH>Expression</TH><TH>Return type</TH>
</TR>
<TR>
<TD>Dereference assignment</TD>
<TD><tt>*x = a</tt></TD>
<TD>unspecified</TD>
</TR>
</table>
<p>
<hr>
<H2><A NAME="concept:ConstantLvalueIterator"></A>
Constant Lvalue Iterator
</H2>
A Constant Lvalue Iterator is an iterator that dereferences to produce a
const reference to the pointed-to object, i.e., the associated
<tt>reference</tt> type is <tt>const T&amp;</tt>. Changing the value
of or destroying an iterator that models Constant Lvalue Iterator does
not invalidate pointers and references previously obtained from that
iterator.
<h3>Refinement of</h3>
<a href="#concept:Readable Iterator">Readable Iterator</a>
<h3>Associated Types</h3>
<Table border>
<TR>
<TD>Value type</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::value_type</tt></TD>
<TD>
The type of the value obtained by dereferencing a Constant Lvalue Iterator.
</TD>
</tr>
<TR>
<TD>Reference type</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::reference</tt></TD>
<TD>
The return type of <tt>operator*()</tt>, which must be
<tt>const T&amp;</tt>.
</TD>
</tr>
<TR>
<TD>POinter type</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::pointer</tt></TD>
<TD>
The pointer to the value type, which must be <tt>const T*</tt>.
</TD>
</tr>
<TR>
<TD>Return Category</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::return_category</tt></TD>
<TD>
A type convertible to <tt>boost::constant_lvalue_iterator_tag</tt>
</TD>
</tr>
</table>
<h3>Valid expressions</h3>
<Table border>
<TR><TH>Name</TH><TH>Expression</TH><TH>Type requirements</TH><TH>Return type</TH></TR>
<TR>
<TD>Dereference</TD>
<TD><tt>*x</tt></TD>
<TD>&nbsp;</TD>
<TD><tt>const T&amp;</tt></TD>
</TR>
<TR>
<TD>Member access</TD>
<TD><tt>x-&gt;m</tt></TD>
<TD><tt>T</tt> is a type with a member named <tt>m</tt>.</TD>
<TD>
&nbsp;
</TD>
</tr>
</table>
<H2><A NAME="concept:MutableLvalueIterator"></A>
Mutable Lvalue Iterator
</H2>
A Mutable Lvalue Iterator is an iterator that dereferences to produce a
reference to the pointed-to object. The associated <tt>reference</tt>
type is <tt>T&amp;</tt>. Changing the value of or destroying an
iterator that models Mutable Lvalue Iterator does not invalidate
pointers and references previously obtained from that iterator.
<h3>Refinement of</h3>
<a href="#concept:Readable Iterator">Readable Iterator</a> and
<a href="#concept:WritableIterator">Writable Iterator</a>.
<h3>Associated Types</h3>
<Table border>
<TR>
<TD>Value type</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::value_type</tt></TD>
<TD>
The type of the value obtained by dereferencing a Mutable Lvalue Iterator.
</TD>
</tr>
<TR>
<TD>Reference type</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::reference</tt></TD>
<TD>
The return type of <tt>operator*()</tt>, which is
<tt>T&amp;</tt>.
</TD>
</tr>
<TR>
<TD>Pointer type</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::pointer</tt></TD>
<TD>
The pointer to the value type, which is <tt>T*</tt>.
</TD>
</tr>
<TR>
<TD>Return Category</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::return_category</tt></TD>
<TD>
A type convertible to <tt>boost::mutable_lvalue_iterator_tag</tt>
</TD>
</tr>
</table>
<h3>Valid expressions</h3>
<Table border>
<TR><TH>Name</TH><TH>Expression</TH><TH>Type requirements</TH><TH>Return type</TH></TR>
<TR>
<TD>Dereference</TD>
<TD><tt>*x</tt></TD>
<TD>&nbsp;</TD>
<TD> <tt>T&amp;</tt> </TD>
</TR>
<TR>
<TD>Member access</TD>
<TD><tt>x-&gt;m</tt></TD>
<TD><tt>T</tt> is a type with a member named <tt>m</tt>.</TD>
<TD>
&nbsp;
</TD>
</tr>
</table>
<p>
<hr>
<H2><A NAME="concept:SinglePassIterator"></A>
Single-Pass Iterator
</H2>
A Single-Pass Iterator is an iterator that can be incremented to
traverse through a sequence of objects, but the sequence can only be
traversed a single time.
<h3>Associated types</h3>
<Table border>
<TR>
<TD>Difference type</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::difference_type</tt></TD>
<TD>
A signed integral type used to represent the distance from one
iterator to another, or the number of elements in a range.
</TD>
</TR>
<TR>
<TD>Traversal Category</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::traversal_category</tt></TD>
<TD>
A type convertible to <tt>boost::single_pass_iterator_tag</tt>
</TD>
</tr>
</table>
<h3>Valid expressions</h3>
<Table border>
<TR>
<TH>Name</TH><TH>Expression</TH><TH>Type requirements</TH>
<TH>Return type</TH>
</TR>
<TR>
<TD>Preincrement</TD>
<TD><tt>++i</tt></TD><TD>&nbsp;</TD><TD><tt>X&amp;</tt></TD>
</TR>
<TR>
<TD>Postincrement</TD>
<TD><tt>(void)i++</tt></TD><TD>&nbsp;</TD><TD>&nbsp;</TD>
</TR>
</Table>
<p>
<hr>
<H2><A NAME="concept:ForwardIterator"></A>
Forward Iterator
</H2>
The Forward Iterator is an iterator that can be incremented. Also, it
is permissible to make multiple passes through the sequence.
<h3>Refinement of</h3>
<a href="#concept:SinglePassIterator">Single-Pass Iterator</a>
<h3>Associated types</h3>
<Table border>
<TR>
<TD>Traversal Category</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::traversal_category</tt></TD>
<TD>
A type convertible to <tt>boost::forward_iterator_tag</tt>
</TD>
</tr>
</Table>
<p>
<hr>
<H2><A NAME="concept:BidirectionalIterator"></A>
Bidirectional Iterator
</H2>
An iterator that can be incremented and decremented.
<h3>Refinement of</h3>
<a href="#concept:ForwardIterator">Forward Iterator</a>
<h3>Associated types</h3>
<Table border>
<TR>
<TD>Traversal Category</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::traversal_category</tt></TD>
<TD>
A type convertible to <tt>boost::bidirectional_iterator_tag</tt>
</TD>
</tr>
</Table>
<h3>Valid expressions</h3>
<Table border>
<TR>
<TH>Name</TH><TH>Expression</TH><TH>Type requirements</TH>
<TH>Return type</TH>
</TR>
<TR><TD>Predecrement</TD>
<TD><tt>--i</tt></TD><TD>&nbsp;</TD><TD><tt>X&amp;</tt></TD>
</TR>
<TR><TD>Postdecrement</TD>
<TD><tt>i--</tt></TD><TD>&nbsp;</TD><TD><tt>X</tt></TD>
</tr>
</table>
<p>
<hr>
<H2><A NAME="concept:RandomAccessIterator"></A>
Random Access Iterator
</H2>
An iterator that provides constant-time methods for moving forward and
backward in arbitrary-sized steps
<h3>Refinement of</h3>
<a href="#concept:BidirectionalIterator">Bidirectional Iterator</a>
<h3>Associated types</h3>
<Table border>
<TR>
<TD>Traversal Category</TD>
<TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::traversal_category</tt></TD>
<TD>
A type convertible to <tt>boost::random_access_iterator_tag</tt>
</TD>
</tr>
</Table>
<h3>Valid expressions</h3>
<Table border>
<TR><TH>Name</TH><TH>Expression</TH><TH>Type requirements</TH>
<TH>Return type</TH>
</TR>
<TR><TD>Iterator addition</TD>
<TD><tt>i += n</tt></TD><TD>&nbsp;</TD><TD><tt>X&amp;</tt></TD>
</TR>
<TR><TD>Iterator addition</TD>
<TD><tt>i + n</tt> or <tt>n + i</tt></TD><TD>&nbsp;</TD><TD><tt>X</tt></TD>
</TR>
<TR><TD>Iterator subtraction</TD>
<TD><tt>i -= n</tt></TD><TD>&nbsp;</TD><TD><tt>X&amp;</tt></TD>
</TR>
<TR><TD>Iterator subtraction</TD>
<TD><tt>i - n</tt></TD><TD>&nbsp;</TD><TD><tt>X</tt></TD>
</TR>
<TR><TD>Difference</TD>
<TD><tt>i - j</tt></TD><TD>&nbsp;</TD><TD><tt><a href="./iterator_traits.htm">boost::iterator_traits</a>&lt;X&gt;::difference_type</tt></TD>
</TR>
<TR><TD>Element operator</TD>
<TD><tt>i[n]</tt></TD>
<TD><tt>X</tt> must be a model of
<a href="#concept:Readable Iterator">Readable Iterator</a>. </TD>
<TD>The same return type as <tt>*i</tt>.</TD>
</TR>
<TR><TD>Element assignment</TD>
<TD><tt>i[n] = t</tt></TD>
<TD><tt>X</tt> must be a model of
<a href="#concept:WritableIterator">Writable Iterator</a>.</TD>
<TD>unspecified</TD>
</tr>
</table>
<hr>
<HR>
<TABLE>
<TR valign=top>
<TD nowrap>Copyright &copy 2000</TD><TD>
<A HREF="../../../../people/jeremy_siek.htm">Jeremy Siek</A>, Univ.of Notre Dame (<A HREF="mailto:jsiek@lsc.nd.edu">jsiek@lsc.nd.edu</A>)
</TD></TR></TABLE>
</body>
</html>

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<html>
<!--
-- Copyright (c) Jeremy Siek 2000
--
-- Permission to use, copy, modify, distribute and sell this software
-- and its documentation for any purpose is hereby granted without fee,
-- provided that the above copyright notice appears in all copies and
-- that both that copyright notice and this permission notice appear
-- in supporting documentation. I make no representations about the
-- suitability of this software for any purpose. It is provided "as is"
-- without express or implied warranty.
-->
<head>
<title>Boost Iterator Traits</title>
</head>
<BODY BGCOLOR="#ffffff" LINK="#0000ee" TEXT="#000000" VLINK="#551a8b"
ALINK="#ff0000">
<IMG SRC="../../../../c++boost.gif"
ALT="C++ Boost" width="277" height="86">
<BR Clear>
<h1>Boost Iterator Traits</h1>
Header <tt><a href="../../boost/iterator_traits.hpp">boost/iterator_traits.hpp</a></tt>
<p>
The <tt>boost::iterator_traits</tt> class provides access to the
associated types of iterators that model the Boost <a
href="./iterator_concepts.htm">Iterator Concepts</a>, which are a
replacement for the iterator requirements in the C++ standard.
The main difference between <tt>std::iterator_traits</tt> and
<tt>boost::iterator_traits</tt> is that the <tt>iterator_category</tt>
type has been removed, and replaced with two new types:
<ul>
<li><tt>traversal_category</tt>:&nbsp;&nbsp; Can the iterator go forward, backward, etc.?
<li><tt>return_category</tt>:&nbsp;&nbsp; Is the iterator read or write only?
Is the dereferenced type an lvalue?
</ul>
<p>
An important feature of the <tt>boost::iterator_traits</tt> is that it
is <b>backwards compatible</b>, i.e., it will automatically work for
iterators for which there are valid definitions of
<tt>std::iterator_traits</tt>. The old <tt>iterator_category</tt> is
mapped to the appropriate traversal and return categories.
<p>
When creating a new iterator type that is meant to work with
<tt>boost::iterator_traits</tt>, you can either create a
specialization of <tt>boost::iterator_traits</tt> for your iterator
type, or you can provide all the necessary associated types as nested
typedefs. In this case, your iterator class will need to inherit from
<tt>new_iterator_base</tt> to let <tt>boost::iterator_traits</tt> know
that it will be able to find typedefs for <tt>traversal_category</tt>
and <tt>return_category</tt> in you iterator class.
<pre>
namespace boost {
<i>// Inherit from iterator_base if your iterator defines its own
// return_category and traversal_category. Otherwise, the "old style"
// iterator category will be mapped to the return_category and
// traversal_category.</i>
struct new_iterator_base { };
template &lt;typename Iterator&gt;
struct iterator_traits
{
if (Iterator inherits from new_iterator_base) {
typedef typename Iterator::value_type value_type;
typedef typename Iterator::reference reference;
typedef typename Iterator::pointer pointer;
typedef typename Iterator::difference_type difference_type;
typedef typename Iterator::return_category return_category;
typedef typename Iterator::traversal_category traversal_category;
} else {
typedef std::iterator_traits&lt;Iterator&gt; OldTraits;
typedef typename OldTraits::value_type value_type;
typedef typename OldTraits::reference reference;
typedef typename OldTraits::pointer pointer;
typedef typename OldTraits::difference_type difference_type;
typedef typename OldTraits::iterator_category Cat;
<i>// Determine the traversal_category based on the old iterator_category</i>
if (Cat inherits from std::random_access_iterator_tag)
typedef boost::random_access_iterator_tag traversal_category;
else if (Cat inherits from std::bidirectional_iterator_tag)
typedef boost::bidirectional_iterator_tag traversal_category;
else if (Cat inherits from std::forward_iterator_tag)
typedef boost::forward_iterator_tag traversal_category;
else
typedef boost::single_pass_iterator_tag traversal_category;
<i>// Determine the return_category based on the old iterator_category and value_type</i>
if (Cat inherits from std::forward_iterator_tag)
if (is-const(T))
typedef boost::constant_lvalue_iterator_tag return_category;
else
typedef boost::mutable_lvalue_iterator_tag return_category;
else if (Cat inherits from std::input_iterator_tag)
typedef boost::readable_iterator_tag return_category;
else if (Cat inherits from std::output_iterator_tag)
typedef boost::writable_iterator_tag return_category;
else
typedef boost::error_iterator_tag return_category;
}
};
template &lt;typename T&gt;
struct iterator_traits&lt;T*&gt;
{
typedef T value_type;
typedef T&amp; reference;
typedef T* pointer;
typedef std::ptrdiff_t difference_type;
if (is-const(T))
typedef boost::constant_lvalue_iterator_tag return_category;
else
typedef boost::mutable_lvalue_iterator_tag return_category;
typedef boost::random_access_iterator_tag traversal_category;
};
}
</pre>
<hr>
<address><a href="mailto:jsiek@lsc.nd.edu">jeremy siek</a></address>
<!-- Created: Sun Mar 18 14:06:57 EST 2001 -->
<!-- hhmts start -->
Last modified: Mon Mar 19 12:59:30 EST 2001
<!-- hhmts end -->
</body>
</html>

4
include/boost/counting_iterator.hpp
View File

@@ -194,9 +194,9 @@ struct counting_iterator_generator
counting_iterator_policies<Incrementable>,
Incrementable,
const Incrementable&,
const Incrementable*,
typename traits::iterator_category,
typename traits::difference_type
typename traits::difference_type,
const Incrementable*
> type;
};

55
include/boost/function_output_iterator.hpp
View File

@@ -1,55 +0,0 @@
// (C) Copyright Jeremy Siek 2001. Permission to copy, use, modify,
// sell and distribute this software is granted provided this
// copyright notice appears in all copies. This software is provided
// "as is" without express or implied warranty, and with no claim as
// to its suitability for any purpose.
// Revision History:
// 27 Feb 2001 Jeremy Siek
// Initial checkin.
#ifndef BOOST_FUNCTION_OUTPUT_ITERATOR_HPP
#define BOOST_FUNCTION_OUTPUT_ITERATOR_HPP
#include <iterator>
namespace boost {
template <class UnaryFunction>
class function_output_iterator {
typedef function_output_iterator self;
public:
typedef std::output_iterator_tag iterator_category;
typedef void value_type;
typedef void difference_type;
typedef void pointer;
typedef void reference;
explicit function_output_iterator(const UnaryFunction& f = UnaryFunction())
: m_f(f) {}
struct output_proxy {
output_proxy(UnaryFunction& f) : m_f(f) { }
template <class T> output_proxy& operator=(const T& value) {
m_f(value);
return *this;
}
UnaryFunction& m_f;
};
output_proxy operator*() { return output_proxy(m_f); }
self& operator++() { return *this; }
self& operator++(int) { return *this; }
private:
UnaryFunction m_f;
};
template <class UnaryFunction>
inline function_output_iterator<UnaryFunction>
make_function_output_iterator(const UnaryFunction& f = UnaryFunction()) {
return function_output_iterator<UnaryFunction>(f);
}
} // namespace boost
#endif // BOOST_FUNCTION_OUTPUT_ITERATOR_HPP

426
include/boost/half_open_range.hpp
View File

@@ -1,426 +0,0 @@
// (C) Copyright Jeremy Siek and David Abrahams 2000-2001. Permission to copy,
// use, modify, sell and distribute this software is granted provided this
// copyright notice appears in all copies. This software is provided "as is"
// without express or implied warranty, and with no claim as to its suitability
// for any purpose.
//
// Revision History:
// 11 Feb 2001 Use new iterator_adaptor interface, Fixes for Borland.
// (Dave Abrahams)
// 04 Feb 2001 Support for user-defined iterator categories (Dave Abrahams)
// 30 Jan 2001 Initial Checkin (Dave Abrahams)
#ifndef BOOST_HALF_OPEN_RANGE_HPP_
# define BOOST_HALF_OPEN_RANGE_HPP_
# include <boost/counting_iterator.hpp>
# include <functional>
# include <cassert>
# include <boost/operators.hpp>
# include <string>
# include <stdexcept>
# include <iterator>
namespace boost {
namespace detail {
// Template class choose_finish -- allows us to maintain the invariant that
// start() <= finish() on half_open_range specializations that support random
// access.
#ifdef __MWERKS__
template <class T>
const T& choose_finish(const T&, const T& finish, std::input_iterator_tag)
{
return finish;
}
template <class T>
const T& choose_finish(const T&, const T& finish, std::output_iterator_tag)
{
return finish;
}
template <class T>
const T& choose_finish(const T& start, const T& finish, std::random_access_iterator_tag)
{
return finish < start ? start : finish;
}
#else
template <bool is_random_access> struct finish_chooser;
template <>
struct finish_chooser<false>
{
template <class T>
struct rebind
{
static T choose(const T&, const T& finish)
{ return finish; }
};
};
template <>
struct finish_chooser<true>
{
template <class T>
struct rebind
{
static T choose(const T& start, const T& finish)
{ return finish < start ? start : finish; }
};
};
template <class Category, class Incrementable>
struct choose_finish
{
static const Incrementable choose(const Incrementable& start, const Incrementable& finish)
{
return finish_chooser<(
::boost::is_convertible<Category*,std::random_access_iterator_tag*>::value
)>::template rebind<Incrementable>::choose(start, finish);
}
};
#endif
}
template <class Incrementable>
struct half_open_range
{
typedef typename counting_iterator_generator<Incrementable>::type iterator;
private: // utility type definitions
// Using iter_t prevents compiler confusion with boost::iterator
typedef typename counting_iterator_generator<Incrementable>::type iter_t;
typedef std::less<Incrementable> less_value;
typedef typename iter_t::iterator_category category;
typedef half_open_range<Incrementable> self;
public:
typedef iter_t const_iterator;
typedef typename counting_iterator_traits<Incrementable>::value_type value_type;
typedef typename counting_iterator_traits<Incrementable>::difference_type difference_type;
typedef typename counting_iterator_traits<Incrementable>::reference reference;
typedef typename counting_iterator_traits<Incrementable>::reference const_reference;
typedef typename counting_iterator_traits<Incrementable>::pointer pointer;
typedef typename counting_iterator_traits<Incrementable>::pointer const_pointer;
// It would be nice to select an unsigned type, but this is appropriate
// since the library makes an attempt to select a difference_type which can
// hold the difference between any two iterators.
typedef typename counting_iterator_traits<Incrementable>::difference_type size_type;
half_open_range(Incrementable start, Incrementable finish)
: m_start(start),
m_finish(
#ifndef __MWERKS__
detail::choose_finish<category,Incrementable>::choose(start, finish)
#else
detail::choose_finish(start, finish, category())
#endif
)
{}
// Implicit conversion from std::pair<Incrementable,Incrementable> allows us
// to accept the results of std::equal_range(), for example.
half_open_range(const std::pair<Incrementable,Incrementable>& x)
: m_start(x.first),
m_finish(
#ifndef __MWERKS__
detail::choose_finish<category,Incrementable>::choose(x.first, x.second)
#else
detail::choose_finish(x.first, x.second, category())
#endif
)
{}
half_open_range& operator=(const self& x)
{
m_start = x.m_start;
m_finish = x.m_finish;
return *this;
}
half_open_range& operator=(const std::pair<Incrementable,Incrementable>& x)
{
m_start = x.first;
m_finish =
#ifndef __MWERKS__
detail::choose_finish<category,Incrementable>::choose(x.first, x.second);
#else
detail::choose_finish(x.first, x.second, category();
#endif
}
iterator begin() const { return iterator(m_start); }
iterator end() const { return iterator(m_finish); }
Incrementable front() const { assert(!this->empty()); return m_start; }
Incrementable back() const { assert(!this->empty()); return boost::prior(m_finish); }
Incrementable start() const { return m_start; }
Incrementable finish() const { return m_finish; }
size_type size() const { return boost::detail::distance(begin(), end()); }
bool empty() const
{
return m_finish == m_start;
}
void swap(half_open_range& x) {
std::swap(m_start, x.m_start);
std::swap(m_finish, x.m_finish);
}
public: // functions requiring random access elements
// REQUIRES: x is reachable from this->front()
bool contains(const value_type& x) const
{
BOOST_STATIC_ASSERT((boost::is_same<category, std::random_access_iterator_tag>::value));
return !less_value()(x, m_start) && less_value()(x, m_finish);
}
bool contains(const half_open_range& x) const
{
BOOST_STATIC_ASSERT((boost::is_same<category, std::random_access_iterator_tag>::value));
return x.empty() || !less_value()(x.m_start, m_start) && !less_value()(m_finish, x.m_finish);
}
bool intersects(const half_open_range& x) const
{
BOOST_STATIC_ASSERT((boost::is_same<category, std::random_access_iterator_tag>::value));
return less_value()(
less_value()(this->m_start, x.m_start) ? x.m_start : this->m_start,
less_value()(this->m_finish, x.m_finish) ? this->m_finish : x.m_finish);
}
half_open_range& operator&=(const half_open_range& x)
{
BOOST_STATIC_ASSERT((boost::is_same<category, std::random_access_iterator_tag>::value));
if (less_value()(this->m_start, x.m_start))
this->m_start = x.m_start;
if (less_value()(x.m_finish, this->m_finish))
this->m_finish = x.m_finish;
if (less_value()(this->m_finish, this->m_start))
this->m_start = this->m_finish;
return *this;
}
half_open_range& operator|=(const half_open_range& x)
{
BOOST_STATIC_ASSERT((boost::is_same<category, std::random_access_iterator_tag>::value));
if (!x.empty())
{
if (this->empty())
{
*this = x;
}
else
{
if (less_value()(x.m_start, this->m_start))
this->m_start = x.m_start;
if (less_value()(this->m_finish, x.m_finish))
this->m_finish = x.m_finish;
}
}
return *this;
}
// REQUIRES: x is reachable from this->front()
const_iterator find(const value_type& x) const
{
BOOST_STATIC_ASSERT((boost::is_same<category, std::random_access_iterator_tag>::value));
return const_iterator(this->contains(x) ? x : m_finish);
}
// REQUIRES: index >= 0 && index < size()
value_type operator[](size_type index) const
{
assert(index >= 0 && index < size());
return m_start + index;
}
value_type at(size_type index) const
{
if (index < 0 || index >= size())
throw std::out_of_range(std::string("half_open_range"));
return m_start + index;
}
private: // data members
Incrementable m_start, m_finish;
};
template <class Incrementable>
half_open_range<Incrementable> operator|(
half_open_range<Incrementable> x,
const half_open_range<Incrementable>& y)
{
return x |= y;
}
template <class Incrementable>
half_open_range<Incrementable> operator&(
half_open_range<Incrementable> x,
const half_open_range<Incrementable>& y)
{
return x &= y;
}
template <class Incrementable>
inline bool operator==(
const half_open_range<Incrementable>& x,
const half_open_range<Incrementable>& y)
{
const bool y_empty = y.empty();
return x.empty() ? y_empty : !y_empty && x.start() == y.start() && x.finish() == y.finish();
}
template <class Incrementable>
inline bool operator!=(
const half_open_range<Incrementable>& x,
const half_open_range<Incrementable>& y)
{
return !(x == y);
}
template <class Incrementable>
inline half_open_range<Incrementable>
make_half_open_range(Incrementable first, Incrementable last)
{
return half_open_range<Incrementable>(first, last);
}
template <class Incrementable>
bool intersects(
const half_open_range<Incrementable>& x,
const half_open_range<Incrementable>& y)
{
return x.intersects(y);
}
template <class Incrementable>
bool contains(
const half_open_range<Incrementable>& x,
const half_open_range<Incrementable>& y)
{
return x.contains(y);
}
} // namespace boost
#ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
namespace std {
template <class Incrementable> struct less<boost::half_open_range<Incrementable> >
: binary_function<
boost::half_open_range<Incrementable>,
boost::half_open_range<Incrementable>,bool>
{
bool operator()(
const boost::half_open_range<Incrementable>& x,
const boost::half_open_range<Incrementable>& y) const
{
less<Incrementable> cmp;
return !y.empty() && (
cmp(x.start(), y.start())
|| !cmp(y.start(), x.start())
&& cmp(x.finish(), y.finish()));
}
};
template <class Incrementable> struct less_equal<boost::half_open_range<Incrementable> >
: binary_function<
boost::half_open_range<Incrementable>,
boost::half_open_range<Incrementable>,bool>
{
bool operator()(
const boost::half_open_range<Incrementable>& x,
const boost::half_open_range<Incrementable>& y) const
{
typedef boost::half_open_range<Incrementable> range;
less<range> cmp;
return !cmp(y,x);
}
};
template <class Incrementable> struct greater<boost::half_open_range<Incrementable> >
: binary_function<
boost::half_open_range<Incrementable>,
boost::half_open_range<Incrementable>,bool>
{
bool operator()(
const boost::half_open_range<Incrementable>& x,
const boost::half_open_range<Incrementable>& y) const
{
typedef boost::half_open_range<Incrementable> range;
less<range> cmp;
return cmp(y,x);
}
};
template <class Incrementable> struct greater_equal<boost::half_open_range<Incrementable> >
: binary_function<
boost::half_open_range<Incrementable>,
boost::half_open_range<Incrementable>,bool>
{
bool operator()(
const boost::half_open_range<Incrementable>& x,
const boost::half_open_range<Incrementable>& y) const
{
typedef boost::half_open_range<Incrementable> range;
less<range> cmp;
return !cmp(x,y);
}
};
} // namespace std
#else
namespace boost {
// Can't partially specialize std::less et al, so we must provide the operators
template <class Incrementable>
bool operator<(const half_open_range<Incrementable>& x,
const half_open_range<Incrementable>& y)
{
return !y.empty() && (
x.empty() || std::less<Incrementable>()(x.start(), y.start())
|| !std::less<Incrementable>()(y.start(), x.start())
&& std::less<Incrementable>()(x.finish(), y.finish()));
}
template <class Incrementable>
bool operator>(const half_open_range<Incrementable>& x,
const half_open_range<Incrementable>& y)
{
return y < x;
}
template <class Incrementable>
bool operator<=(const half_open_range<Incrementable>& x,
const half_open_range<Incrementable>& y)
{
return !(y < x);
}
template <class Incrementable>
bool operator>=(const half_open_range<Incrementable>& x,
const half_open_range<Incrementable>& y)
{
return !(x < y);
}
} // namespace boost
#endif
#endif // BOOST_HALF_OPEN_RANGE_HPP_

60
include/boost/iterator.hpp
View File

@@ -1,60 +0,0 @@
// interator.hpp workarounds for non-conforming standard libraries ---------//
// (C) Copyright Boost.org 2000. Permission to copy, use, modify, sell and
// distribute this software is granted provided this copyright notice appears
// in all copies. This software is provided "as is" without express or implied
// warranty, and with no claim as to its suitability for any purpose.
// See http://www.boost.org for most recent version including documentation.
// Revision History
// 12 Jan 01 added <cstddef> for std::ptrdiff_t (Jens Maurer)
// 28 Jun 00 Workarounds to deal with known MSVC bugs (David Abrahams)
// 26 Jun 00 Initial version (Jeremy Siek)
#ifndef BOOST_ITERATOR_HPP
#define BOOST_ITERATOR_HPP
#include <iterator>
#include <cstddef> // std::ptrdiff_t
#include <boost/config.hpp>
namespace boost
{
# ifdef BOOST_NO_STD_ITERATOR
template <class Category, class T,
class Distance = std::ptrdiff_t,
class Pointer = T*, class Reference = T&>
struct iterator
{
typedef T value_type;
typedef Distance difference_type;
typedef Pointer pointer;
typedef Reference reference;
typedef Category iterator_category;
};
# else
// declare iterator_base in namespace detail to work around MSVC bugs which
// prevent derivation from an identically-named class in a different namespace.
namespace detail {
template <class Category, class T, class Distance, class Pointer, class Reference>
# if !defined(BOOST_MSVC_STD_ITERATOR)
struct iterator_base : std::iterator<Category, T, Distance, Pointer, Reference> {};
# else
struct iterator_base : std::iterator<Category, T, Distance>
{
typedef Reference reference;
typedef Pointer pointer;
typedef Distance difference_type;
};
# endif
}
template <class Category, class T, class Distance = std::ptrdiff_t,
class Pointer = T*, class Reference = T&>
struct iterator : detail::iterator_base<Category, T, Distance, Pointer, Reference> {};
# endif
} // namespace boost
#endif // BOOST_ITERATOR_HPP

300
include/boost/iterator_adaptors.hpp
View File

@@ -12,8 +12,6 @@
//
// Revision History:
// 08 Mar 2001 Jeremy Siek
// Added support for optional named template parameters.
// 19 Feb 2001 David Abrahams
// Rolled back reverse_iterator_pair_generator again, as it doesn't
// save typing on a conforming compiler.
@@ -106,7 +104,6 @@
# include <boost/type_traits.hpp>
# include <boost/detail/iterator.hpp>
# include <boost/detail/select_type.hpp>
# include <boost/detail/named_template_params.hpp>
// I was having some problems with VC6. I couldn't tell whether our hack for
// stock GCC was causing problems so I needed an easy way to turn it on and
@@ -223,9 +220,6 @@ struct default_iterator_policies
void initialize(Base&)
{ }
// The "type<Reference>" parameter is a portable mechanism for
// the iterator_adaptor class to tell this member function what
// the Reference type is, which is needed for the return type.
template <class Reference, class Base>
Reference dereference(type<Reference>, const Base& x) const
{ return *x; }
@@ -435,111 +429,8 @@ namespace detail {
};
# endif
//===========================================================================
// Specify the defaults for iterator_adaptor's template parameters
struct default_value_type {
template <class Base, class Traits>
struct bind {
typedef typename boost::detail::iterator_traits<Base>::value_type type;
};
};
struct default_difference_type {
template <class Base, class Traits>
struct bind {
typedef typename boost::detail::iterator_traits<Base>::difference_type type;
};
};
struct default_iterator_category {
template <class Base, class Traits>
struct bind {
typedef typename boost::detail::iterator_traits<Base>::iterator_category type;
};
};
struct default_pointer {
template <class Base, class Traits>
struct bind {
typedef typename Traits::value_type Value;
typedef typename boost::detail::iterator_defaults<Base,Value>::pointer
type;
};
};
struct default_reference {
template <class Base, class Traits>
struct bind {
typedef typename Traits::value_type Value;
typedef typename boost::detail::iterator_defaults<Base,Value>::reference
type;
};
};
//===========================================================================
// Support for named template parameters
#if !defined(__BORLANDC__)
// Borland C++ thinks the nested recursive inheritance here is illegal.
template <class V = default_argument,
class R = default_argument,
class P = default_argument,
class C = default_argument,
class D = default_argument>
struct iter_traits_gen : public named_template_param_base {
template <class T>
struct value_type : public iter_traits_gen<T,R,P,C,D> { };
template <class T>
struct reference : public iter_traits_gen<V,T,P,C,D> { };
template <class T>
struct pointer : public iter_traits_gen<V,R,T,C,D> { };
template <class T>
struct iterator_category : public iter_traits_gen<V,R,P,T,D>{};
template <class T>
struct difference_type : public iter_traits_gen<V,R,P,C,T> { };
typedef boost::iterator<C, V, D, P, R> traits;
};
#endif
BOOST_NAMED_TEMPLATE_PARAM(value_type);
BOOST_NAMED_TEMPLATE_PARAM(reference);
BOOST_NAMED_TEMPLATE_PARAM(pointer);
BOOST_NAMED_TEMPLATE_PARAM(iterator_category);
BOOST_NAMED_TEMPLATE_PARAM(difference_type);
template <class Base, class Value, class Reference, class Pointer,
class Category, class Distance>
class iterator_adaptor_traits_gen
{
typedef boost::iterator<Category, Value, Distance, Pointer, Reference>
Traits0;
typedef typename get_value_type<Base,
typename boost::remove_const<Value>::type, Traits0
>::type value_type;
typedef typename get_difference_type<Base, Distance, Traits0>::type
difference_type;
typedef typename get_iterator_category<Base, Category, Traits0>::type
iterator_category;
typedef boost::iterator<iterator_category, value_type, difference_type,
Pointer, Reference> Traits1;
typedef typename get_pointer<Base, Pointer, Traits1>::type pointer;
typedef typename get_reference<Base, Reference, Traits1>::type reference;
public:
typedef boost::iterator<iterator_category, value_type, difference_type,
pointer, reference> type;
};
} // namespace detail
#if !defined(__BORLANDC__)
struct iterator_traits_generator
: public detail::iter_traits_gen<> { };
#endif
// This macro definition is only temporary in this file
# if !defined(BOOST_MSVC)
# define BOOST_ARG_DEPENDENT_TYPENAME typename
@@ -547,8 +438,6 @@ struct iterator_traits_generator
# define BOOST_ARG_DEPENDENT_TYPENAME
# endif
template <class T> struct undefined;
//============================================================================
//iterator_adaptor - Adapts a generic piece of data as an iterator. Adaptation
// is especially easy if the data being adapted is itself an iterator
@@ -566,44 +455,41 @@ template <class T> struct undefined;
// particular, the result type of operator*(). If not supplied but
// Value is supplied, Value& is used. Otherwise
// iterator_traits<Base>::reference is used.
// Category - the iterator_category of the resulting iterator. If not
// supplied, iterator_traits<Base>::iterator_category is used.
//
// Distance - the difference_type of the resulting iterator. If not
// supplied, iterator_traits<Base>::difference_type is used.
//
// Pointer - the pointer type of the resulting iterator, and in
// particular, the result type of operator->(). If not
// supplied but Value is supplied, Value* is used. Otherwise
// iterator_traits<Base>::pointer is used.
//
// Category - the iterator_category of the resulting iterator. If not
// supplied, iterator_traits<Base>::iterator_category is used.
//
// Distance - the difference_type of the resulting iterator. If not
// supplied, iterator_traits<Base>::difference_type is used.
template <class Base, class Policies,
class Value = detail::default_argument,
class Reference = BOOST_ARG_DEPENDENT_TYPENAME detail::choose_default_argument<Value>::type,
class Pointer = BOOST_ARG_DEPENDENT_TYPENAME detail::choose_default_argument<Reference>::type,
class Category = BOOST_ARG_DEPENDENT_TYPENAME detail::choose_default_argument<Pointer>::type,
class Distance = BOOST_ARG_DEPENDENT_TYPENAME detail::choose_default_argument<Category>::type
class Value = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<Base>::value_type,
class Reference = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_defaults<Base,Value>::reference,
class Category = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<Base>::iterator_category,
class Distance = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<Base>::difference_type,
class Pointer = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_defaults<Base,Value>::pointer
>
struct iterator_adaptor :
#ifdef BOOST_RELOPS_AMBIGUITY_BUG
iterator_comparisons<
iterator_adaptor<Base,Policies,Value,Reference,Pointer,Category,Distance>,
typename detail::iterator_adaptor_traits_gen<Base,Value,Reference,Pointer,Category, Distance>::type
>
#else
detail::iterator_adaptor_traits_gen<Base,Value,Reference,Pointer,Category,Distance>::type
iterator_adaptor<Base,Policies,Value,Reference,Category,Distance,Pointer>,
#endif
boost::iterator<Category,Value,Distance,Pointer,Reference>
#ifdef BOOST_RELOPS_AMBIGUITY_BUG
>
#endif
{
typedef iterator_adaptor<Base,Policies,Value,Reference,Pointer,Category,Distance> self;
typedef iterator_adaptor<Base,Policies,Value,Reference,Category,Distance,Pointer> self;
public:
typedef typename detail::iterator_adaptor_traits_gen<Base,Value,Reference,Pointer,Category,Distance>::type Traits;
typedef typename Traits::difference_type difference_type;
typedef typename Traits::value_type value_type;
typedef typename Traits::pointer pointer;
typedef typename Traits::reference reference;
typedef typename Traits::iterator_category iterator_category;
typedef Distance difference_type;
typedef typename boost::remove_const<Value>::type value_type;
typedef Pointer pointer;
typedef Reference reference;
typedef Category iterator_category;
typedef Base base_type;
typedef Policies policies_type;
@@ -615,18 +501,14 @@ struct iterator_adaptor :
// Iterators should satisfy one of the known categories
BOOST_STATIC_ASSERT(is_input_or_output_iter);
// Iterators >= ForwardIterator must produce real references
// as required by the C++ standard requirements in Table 74.
// Iterators >= ForwardIterator must produce real references.
BOOST_STATIC_CONSTANT(bool, forward_iter_with_real_reference =
(!boost::is_convertible<iterator_category*,std::forward_iterator_tag*>::value
|| boost::is_same<reference,value_type&>::value
|| boost::is_same<reference,const value_type&>::value));
#if !defined(BOOST_MSVC)
// This check gives incorrect results in iter_traits_gen_test.cpp
BOOST_STATIC_ASSERT(forward_iter_with_real_reference);
#endif
public:
iterator_adaptor() { }
@@ -638,7 +520,7 @@ struct iterator_adaptor :
template <class Iter2, class Value2, class Pointer2, class Reference2>
iterator_adaptor (
const iterator_adaptor<Iter2,Policies,Value2,Reference2,Pointer2,Category,Distance>& src)
const iterator_adaptor<Iter2,Policies,Value2,Reference2,Category,Distance,Pointer2>& src)
: m_iter_p(src.iter(), src.policies())
{
policies().initialize(iter());
@@ -661,9 +543,9 @@ struct iterator_adaptor :
# pragma warning( disable : 4284 )
#endif
typename boost::detail::operator_arrow_result_generator<iterator_category,value_type,pointer>::type
typename boost::detail::operator_arrow_result_generator<Category,value_type,Pointer>::type
operator->() const
{ return detail::operator_arrow(*this, iterator_category()); }
{ return detail::operator_arrow(*this, Category()); }
#ifdef _MSC_VER
# pragma warning(pop)
@@ -706,7 +588,7 @@ struct iterator_adaptor :
// Moved from global scope to avoid ambiguity with the operator-() which
// subtracts iterators from one another.
self operator-(difference_type x) const
self operator-(Distance x) const
{ self result(*this); return result -= x; }
private:
compressed_pair<Base,Policies> m_iter_p;
@@ -719,102 +601,99 @@ public: // implementation details (too many compilers have trouble when these ar
const Base& iter() const { return m_iter_p.first(); }
};
template <class Base, class Policies, class Value, class Reference, class Pointer,
class Category, class Distance1, class Distance2>
iterator_adaptor<Base,Policies,Value,Reference,Pointer,Category,Distance1>
template <class Base, class Policies, class Value, class Reference,
class Category, class Distance1, class Pointer, class Distance2>
iterator_adaptor<Base,Policies,Value,Reference,Category,Distance1,Pointer>
operator+(
iterator_adaptor<Base,Policies,Value,Reference,Pointer,Category,Distance1> p,
iterator_adaptor<Base,Policies,Value,Reference,Category,Distance1,Pointer> p,
Distance2 x)
{
return p += x;
}
template <class Base, class Policies, class Value, class Reference, class Pointer,
class Category, class Distance1, class Distance2>
iterator_adaptor<Base,Policies,Value,Reference,Pointer,Category,Distance1>
template <class Base, class Policies, class Value, class Reference,
class Category, class Distance1, class Pointer, class Distance2>
iterator_adaptor<Base,Policies,Value,Reference,Category,Distance1,Pointer>
operator+(
Distance2 x,
iterator_adaptor<Base,Policies,Value,Reference,Pointer,Category,Distance1> p)
iterator_adaptor<Base,Policies,Value,Reference,Category,Distance1,Pointer> p)
{
return p += x;
}
template <class Iterator1, class Iterator2, class Policies, class Value1, class Value2,
class Reference1, class Reference2, class Pointer1, class Pointer2, class Category,
class Distance>
typename iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>::difference_type
operator-(
const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>& x,
const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Pointer2,Category,Distance>& y)
class Reference1, class Reference2, class Category,
class Distance, class Pointer1, class Pointer2>
Distance operator-(
const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Category,Distance,Pointer1>& x,
const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Category,Distance,Pointer2>& y)
{
typedef typename iterator_adaptor<Iterator1,Policies,Value1,Reference1,
Pointer1,Category,Distance>::difference_type difference_type;
return x.policies().distance(type<difference_type>(), y.iter(), x.iter());
return x.policies().distance(type<Distance>(), y.iter(), x.iter());
}
#ifndef BOOST_RELOPS_AMBIGUITY_BUG
template <class Iterator1, class Iterator2, class Policies, class Value1, class Value2,
class Reference1, class Reference2, class Pointer1, class Pointer2,
class Category, class Distance>
class Reference1, class Reference2,
class Category, class Distance, class Pointer1, class Pointer2>
inline bool
operator==(
const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>& x,
const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Pointer2,Category,Distance>& y)
const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Category,Distance,Pointer1>& x,
const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Category,Distance,Pointer2>& y)
{
return x.policies().equal(x.iter(), y.iter());
}
template <class Iterator1, class Iterator2, class Policies, class Value1, class Value2,
class Reference1, class Reference2, class Pointer1, class Pointer2,
class Category, class Distance>
class Reference1, class Reference2,
class Category, class Distance, class Pointer1, class Pointer2>
inline bool
operator<(
const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>& x,
const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Pointer2,Category,Distance>& y)
const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Category,Distance,Pointer1>& x,
const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Category,Distance,Pointer2>& y)
{
return x.policies().less(x.iter(), y.iter());
}
template <class Iterator1, class Iterator2, class Policies, class Value1, class Value2,
class Reference1, class Reference2, class Pointer1, class Pointer2,
class Category, class Distance>
class Reference1, class Reference2,
class Category, class Distance, class Pointer1, class Pointer2>
inline bool
operator>(
const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>& x,
const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Pointer2,Category,Distance>& y)
const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Category,Distance,Pointer1>& x,
const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Category,Distance,Pointer2>& y)
{
return x.policies().less(y.iter(), x.iter());
}
template <class Iterator1, class Iterator2, class Policies, class Value1, class Value2,
class Reference1, class Reference2, class Pointer1, class Pointer2,
class Category, class Distance>
class Reference1, class Reference2,
class Category, class Distance, class Pointer1, class Pointer2>
inline bool
operator>=(
const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>& x,
const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Pointer2,Category,Distance>& y)
const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Category,Distance,Pointer1>& x,
const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Category,Distance,Pointer2>& y)
{
return !x.policies().less(x.iter(), y.iter());
}
template <class Iterator1, class Iterator2, class Policies, class Value1, class Value2,
class Reference1, class Reference2, class Pointer1, class Pointer2,
class Category, class Distance>
class Reference1, class Reference2,
class Category, class Distance, class Pointer1, class Pointer2>
inline bool
operator<=(
const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>& x,
const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Pointer2,Category,Distance>& y)
const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Category,Distance,Pointer1>& x,
const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Category,Distance,Pointer2>& y)
{
return !x.policies().less(y.iter(), x.iter());
}
template <class Iterator1, class Iterator2, class Policies, class Value1, class Value2,
class Reference1, class Reference2, class Pointer1, class Pointer2,
class Category, class Distance>
class Reference1, class Reference2,
class Category, class Distance, class Pointer1, class Pointer2>
inline bool
operator!=(
const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>& x,
const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Pointer2,Category,Distance>& y)
const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Category,Distance,Pointer1>& x,
const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Category,Distance,Pointer2>& y)
{
return !x.policies().equal(x.iter(), y.iter());
}
@@ -846,7 +725,7 @@ class transform_iterator_generator
public:
typedef iterator_adaptor<Iterator,
transform_iterator_policies<AdaptableUnaryFunction>,
value_type, value_type, value_type*, std::input_iterator_tag>
value_type, value_type, std::input_iterator_tag>
type;
};
@@ -903,8 +782,11 @@ template <class OuterIterator, // Mutable or Immutable, does not matter
>
struct indirect_iterator_generator
{
private:
typedef typename boost::detail::iterator_traits<OuterIterator>::difference_type difference_type;
public:
typedef iterator_adaptor<OuterIterator,
indirect_iterator_policies,Value,Reference,Pointer,Category> type;
indirect_iterator_policies,Value,Reference,Category,difference_type,Pointer> type;
};
template <class OuterIterator, // Mutable or Immutable, does not matter
@@ -912,18 +794,14 @@ template <class OuterIterator, // Mutable or Immutable, does not matter
#if !defined(BOOST_MSVC)
= BOOST_ARG_DEPENDENT_TYPENAME detail::value_type_of_value_type<OuterIterator>::type
#endif
, class Reference = Value&
, class ConstReference = const Value&
, class Category = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<OuterIterator>::iterator_category
, class Pointer = Value*
, class ConstPointer = const Value*
>
struct indirect_iterator_pair_generator
{
typedef typename indirect_iterator_generator<OuterIterator,
Value, Reference,Category,Pointer>::type iterator;
Value,Value&,Category,Value*>::type iterator;
typedef typename indirect_iterator_generator<OuterIterator,
Value, ConstReference,Category,ConstPointer>::type const_iterator;
Value,const Value&,Category,const Value*>::type const_iterator;
};
#ifndef BOOST_MSVC
@@ -975,14 +853,14 @@ struct reverse_iterator_policies : public default_iterator_policies
template <class BidirectionalIterator,
class Value = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<BidirectionalIterator>::value_type,
class Reference = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_defaults<BidirectionalIterator,Value>::reference,
class Pointer = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_defaults<BidirectionalIterator,Value>::pointer,
class Category = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<BidirectionalIterator>::iterator_category,
class Distance = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<BidirectionalIterator>::difference_type
class Distance = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<BidirectionalIterator>::difference_type,
class Pointer = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_defaults<BidirectionalIterator,Value>::pointer
>
struct reverse_iterator_generator
{
typedef iterator_adaptor<BidirectionalIterator,reverse_iterator_policies,
Value,Reference,Pointer,Category,Distance> type;
Value,Reference,Category,Distance,Pointer> type;
};
template <class BidirectionalIterator>
@@ -1022,8 +900,12 @@ template <class AdaptableUnaryFunction, class Iterator>
class const_projection_iterator_generator {
typedef typename AdaptableUnaryFunction::result_type value_type;
typedef projection_iterator_policies<AdaptableUnaryFunction> policies;
typedef boost::detail::iterator_traits<Iterator> base_traits;
typedef typename base_traits::iterator_category iterator_category;
typedef typename base_traits::difference_type difference_type;
public:
typedef iterator_adaptor<Iterator,policies,value_type,const value_type&,const value_type*> type;
typedef iterator_adaptor<Iterator,policies,value_type,const value_type&,
iterator_category,difference_type, const value_type*> type;
};
template <class AdaptableUnaryFunction, class Iterator, class ConstIterator>
@@ -1086,19 +968,14 @@ public:
{ return x == y; }
private:
void satisfy_predicate(Iterator& iter);
void satisfy_predicate(Iterator& iter)
{
while (m_end != iter && !m_predicate(*iter))
++iter;
}
Predicate m_predicate;
Iterator m_end;
};
template <class Predicate, class Iterator>
void filter_iterator_policies<Predicate,Iterator>
::satisfy_predicate(Iterator& iter)
{
while (m_end != iter && !m_predicate(*iter))
++iter;
}
namespace detail {
// A type generator returning Base if T is derived from Base, and T otherwise.
@@ -1129,7 +1006,6 @@ namespace detail {
# else
// is_convertible doesn't work with MWERKS
typedef typename iterator_traits<Iterator>::iterator_category input_category;
public:
typedef typename if_true<(
boost::is_same<input_category,std::random_access_iterator_tag>::value
|| boost::is_same<input_category,std::bidirectional_iterator_tag>::value
@@ -1144,9 +1020,9 @@ namespace detail {
template <class Predicate, class Iterator,
class Value = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<Iterator>::value_type,
class Reference = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_defaults<Iterator,Value>::reference,
class Pointer = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_defaults<Iterator,Value>::pointer,
class Category = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::non_bidirectional_category<Iterator>::type,
class Distance = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<Iterator>::difference_type
class Distance = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<Iterator>::difference_type,
class Pointer = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_defaults<Iterator,Value>::pointer
>
class filter_iterator_generator {
BOOST_STATIC_CONSTANT(bool, is_bidirectional
@@ -1157,7 +1033,7 @@ class filter_iterator_generator {
typedef filter_iterator_policies<Predicate,Iterator> policies_type;
public:
typedef iterator_adaptor<Iterator,policies_type,
Value,Reference,Pointer,Category,Distance> type;
Value,Reference,Category,Distance,Pointer> type;
};
// This keeps MSVC happy; it doesn't like to deduce default template arguments

75
include/boost/pending/detail/int_iterator.hpp
View File

@@ -1,75 +0,0 @@
// (C) Copyright Jeremy Siek 1999. Permission to copy, use, modify,
// sell and distribute this software is granted provided this
// copyright notice appears in all copies. This software is provided
// "as is" without express or implied warranty, and with no claim as
// to its suitability for any purpose.
#ifndef BOOST_INT_ITERATOR_H
#define BOOST_INT_ITERATOR_H
#include <boost/iterator.hpp>
#if !defined BOOST_MSVC
#include <boost/operators.hpp>
#endif
#include <iostream>
//using namespace std;
#ifndef BOOST_NO_OPERATORS_IN_NAMESPACE
namespace boost {
#endif
// this should use random_access_iterator_helper but I've had
// VC++ portablility problems with that. -JGS
template <class IntT>
class int_iterator
{
typedef int_iterator self;
public:
typedef std::random_access_iterator_tag iterator_category;
typedef IntT value_type;
typedef IntT& reference;
typedef IntT* pointer;
typedef std::ptrdiff_t difference_type;
inline int_iterator() : _i(0) { }
inline int_iterator(IntT i) : _i(i) { }
inline int_iterator(const self& x) : _i(x._i) { }
inline self& operator=(const self& x) { _i = x._i; return *this; }
inline IntT operator*() { return _i; }
inline IntT operator[](IntT n) { return _i + n; }
inline self& operator++() { ++_i; return *this; }
inline self operator++(int) { self t = *this; ++_i; return t; }
inline self& operator+=(IntT n) { _i += n; return *this; }
inline self operator+(IntT n) { self t = *this; t += n; return t; }
inline self& operator--() { --_i; return *this; }
inline self operator--(int) { self t = *this; --_i; return t; }
inline self& operator-=(IntT n) { _i -= n; return *this; }
inline IntT operator-(const self& x) const { return _i - x._i; }
inline bool operator==(const self& x) const { return _i == x._i; }
// vc++ had a problem finding != in random_access_iterator_helper
// need to look into this... for now implementing everything here -JGS
inline bool operator!=(const self& x) const { return _i != x._i; }
inline bool operator<(const self& x) const { return _i < x._i; }
inline bool operator<=(const self& x) const { return _i <= x._i; }
inline bool operator>(const self& x) const { return _i > x._i; }
inline bool operator>=(const self& x) const { return _i >= x._i; }
protected:
IntT _i;
};
template <class IntT>
inline int_iterator<IntT>
operator+(IntT n, int_iterator<IntT> t) { t += n; return t; }
#ifndef BOOST_NO_OPERATORS_IN_NAMESPACE
} /* namespace boost */
#endif
#ifdef BOOST_NO_OPERATORS_IN_NAMESPACE
namespace boost {
using ::int_iterator;
}
#endif
#endif /* BOOST_INT_ITERATOR_H */

59
include/boost/pending/integer_range.hpp
View File

@@ -1,59 +0,0 @@
// (C) Copyright David Abrahams and Jeremy Siek 2000-2001. Permission to copy,
// use, modify, sell and distribute this software is granted provided this
// copyright notice appears in all copies. This software is provided "as is"
// without express or implied warranty, and with no claim as to its suitability
// for any purpose.
//
// Revision History:
// 04 Jan 2001 Factored counting_iterator stuff into
// boost/counting_iterator.hpp (David Abrahams)
#ifndef BOOST_INTEGER_RANGE_HPP_
#define BOOST_INTEGER_RANGE_HPP_
#include <boost/config.hpp>
#include <boost/counting_iterator.hpp>
namespace boost {
//=============================================================================
// Counting Iterator and Integer Range Class
template <class IntegerType>
struct integer_range {
typedef typename counting_iterator_generator<IntegerType>::type iterator;
typedef iterator const_iterator;
typedef IntegerType value_type;
typedef std::ptrdiff_t difference_type;
typedef IntegerType reference;
typedef IntegerType const_reference;
typedef const IntegerType* pointer;
typedef const IntegerType* const_pointer;
typedef IntegerType size_type;
integer_range(IntegerType start, IntegerType finish)
: m_start(start), m_finish(finish) { }
iterator begin() const { return iterator(m_start); }
iterator end() const { return iterator(m_finish); }
size_type size() const { return m_finish - m_start; }
bool empty() const { return m_finish == m_start; }
void swap(integer_range& x) {
std::swap(m_start, x.m_start);
std::swap(m_finish, x.m_finish);
}
protected:
IntegerType m_start, m_finish;
};
template <class IntegerType>
inline integer_range<IntegerType>
make_integer_range(IntegerType first, IntegerType last)
{
return integer_range<IntegerType>(first, last);
}
} // namespace boost
#endif // BOOST_INTEGER_RANGE_HPP_

1
include/boost/pending/iterator_adaptors.hpp
View File

@@ -1 +0,0 @@
#include <boost/iterator_adaptors.hpp>

214
include/boost/pending/iterator_tests.hpp
View File

@@ -1,214 +0,0 @@
#ifndef BOOST_ITERATOR_TESTS_HPP
# define BOOST_ITERATOR_TESTS_HPP
// This is meant to be the beginnings of a comprehensive, generic
// test suite for STL concepts such as iterators and containers.
//
// Revision History:
// 08 Feb 2001 Fixed bidirectional iterator test so that
// --i is no longer a precondition.
// (Jeremy Siek)
// 04 Feb 2001 Added lvalue test, corrected preconditions
// (David Abrahams)
# include <iterator>
# include <assert.h>
# include <boost/type_traits.hpp>
# include <boost/static_assert.hpp>
# include <boost/concept_archetype.hpp> // for detail::dummy_constructor
namespace boost {
// use this for the value type
struct dummyT {
dummyT() { }
dummyT(detail::dummy_constructor) { }
dummyT(int x) : m_x(x) { }
int foo() const { return m_x; }
bool operator==(const dummyT& d) const { return m_x == d.m_x; }
int m_x;
};
// Tests whether type Iterator satisfies the requirements for a
// TrivialIterator.
// Preconditions: i != j, *i == val
template <class Iterator, class T>
void trivial_iterator_test(const Iterator i, const Iterator j, T val)
{
Iterator k;
assert(i == i);
assert(j == j);
assert(i != j);
#ifdef BOOST_NO_STD_ITERATOR_TRAITS
T v = *i;
#else
typename std::iterator_traits<Iterator>::value_type v = *i;
#endif
assert(v == val);
#if 0
// hmm, this will give a warning for transform_iterator... perhaps
// this should be separated out into a stand-alone test since there
// are several situations where it can't be used, like for
// integer_range::iterator.
assert(v == i->foo());
#endif
k = i;
assert(k == k);
assert(k == i);
assert(k != j);
assert(*k == val);
}
// Preconditions: i != j
template <class Iterator, class T>
void mutable_trivial_iterator_test(const Iterator i, const Iterator j, T val)
{
*i = val;
trivial_iterator_test(i, j, val);
}
// Preconditions: *i == v1, *++i == v2
template <class Iterator, class T>
void input_iterator_test(Iterator i, T v1, T v2)
{
Iterator i1 = i, i2 = i;
assert(i == i1++);
assert(i != ++i2);
trivial_iterator_test(i, i1, v1);
trivial_iterator_test(i, i2, v1);
++i;
assert(i == i1);
assert(i == i2);
++i1;
++i2;
trivial_iterator_test(i, i1, v2);
trivial_iterator_test(i, i2, v2);
}
// how to test output iterator?
template <bool is_pointer> struct lvalue_test
{
template <class Iterator> static void check(Iterator)
{
# ifndef BOOST_NO_STD_ITERATOR_TRAITS
typedef typename std::iterator_traits<Iterator>::reference reference;
typedef typename std::iterator_traits<Iterator>::value_type value_type;
# else
typedef typename Iterator::reference reference;
typedef typename Iterator::value_type value_type;
# endif
BOOST_STATIC_ASSERT(boost::is_reference<reference>::value);
BOOST_STATIC_ASSERT((boost::is_same<reference,value_type&>::value
|| boost::is_same<reference,const value_type&>::value
));
}
};
# ifdef BOOST_NO_STD_ITERATOR_TRAITS
template <> struct lvalue_test<true> {
template <class T> static void check(T) {}
};
#endif
template <class Iterator, class T>
void forward_iterator_test(Iterator i, T v1, T v2)
{
input_iterator_test(i, v1, v2);
// borland doesn't allow non-type template parameters
# if !defined(__BORLANDC__) || (__BORLANDC__ > 0x551)
lvalue_test<(boost::is_pointer<Iterator>::value)>::check(i);
#endif
}
// Preconditions: *i == v1, *++i == v2
template <class Iterator, class T>
void bidirectional_iterator_test(Iterator i, T v1, T v2)
{
forward_iterator_test(i, v1, v2);
++i;
Iterator i1 = i, i2 = i;
assert(i == i1--);
assert(i != --i2);
trivial_iterator_test(i, i1, v2);
trivial_iterator_test(i, i2, v2);
--i;
assert(i == i1);
assert(i == i2);
++i1;
++i2;
trivial_iterator_test(i, i1, v1);
trivial_iterator_test(i, i2, v1);
}
// mutable_bidirectional_iterator_test
// Preconditions: [i,i+N) is a valid range
template <class Iterator, class TrueVals>
void random_access_iterator_test(Iterator i, int N, TrueVals vals)
{
bidirectional_iterator_test(i, vals[0], vals[1]);
const Iterator j = i;
int c;
for (c = 0; c < N-1; ++c) {
assert(i == j + c);
assert(*i == vals[c]);
assert(*i == j[c]);
assert(*i == *(j + c));
assert(*i == *(c + j));
++i;
assert(i > j);
assert(i >= j);
assert(j <= i);
assert(j < i);
}
Iterator k = j + N - 1;
for (c = 0; c < N-1; ++c) {
assert(i == k - c);
assert(*i == vals[N - 1 - c]);
assert(*i == j[N - 1 - c]);
Iterator q = k - c;
assert(*i == *q);
assert(i > j);
assert(i >= j);
assert(j <= i);
assert(j < i);
--i;
}
}
// Precondition: i != j
template <class Iterator, class ConstIterator>
void const_nonconst_iterator_test(Iterator i, ConstIterator j)
{
assert(i != j);
assert(j != i);
ConstIterator k(i);
assert(k == i);
assert(i == k);
k = i;
assert(k == i);
assert(i == k);
}
} // namespace boost
#endif // BOOST_ITERATOR_TESTS_HPP