189 lines
8.7 KiB
C++
189 lines
8.7 KiB
C++
// Boost.Range library
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//
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// Copyright Neil Groves 2009.
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// Use, modification and distribution is subject to the Boost Software
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// License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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//
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// For more information, see http://www.boost.org/libs/range/
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//
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#ifndef BOOST_RANGE_ALGORITHM_EQUAL_HPP_INCLUDED
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#define BOOST_RANGE_ALGORITHM_EQUAL_HPP_INCLUDED
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#include <boost/config.hpp>
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#include <boost/range/concepts.hpp>
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#include <iterator>
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namespace boost
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{
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namespace range_detail
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{
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// An implementation of equality comparison that is optimized for iterator
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// traversal categories less than RandomAccessTraversal.
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template< class SinglePassTraversalReadableIterator1,
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class SinglePassTraversalReadableIterator2,
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class IteratorCategoryTag1,
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class IteratorCategoryTag2 >
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inline bool equal_impl( SinglePassTraversalReadableIterator1 first1,
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SinglePassTraversalReadableIterator1 last1,
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SinglePassTraversalReadableIterator2 first2,
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SinglePassTraversalReadableIterator2 last2,
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IteratorCategoryTag1,
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IteratorCategoryTag2 )
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{
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do
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{
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// If we have reached the end of the left range then this is
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// the end of the loop. They are equal if and only if we have
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// simultaneously reached the end of the right range.
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if (first1 == last1)
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return first2 == last2;
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// If we have reached the end of the right range at this line
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// it indicates that the right range is shorter than the left
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// and hence the result is false.
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if (first2 == last2)
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return false;
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// continue looping if and only if the values are equal
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} while(*first1++ == *first2++);
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// Reaching this line in the algorithm indicates that a value
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// inequality has been detected.
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return false;
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}
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template< class SinglePassTraversalReadableIterator1,
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class SinglePassTraversalReadableIterator2,
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class IteratorCategoryTag1,
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class IteratorCategoryTag2,
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class BinaryPredicate >
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inline bool equal_impl( SinglePassTraversalReadableIterator1 first1,
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SinglePassTraversalReadableIterator1 last1,
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SinglePassTraversalReadableIterator2 first2,
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SinglePassTraversalReadableIterator2 last2,
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BinaryPredicate pred,
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IteratorCategoryTag1,
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IteratorCategoryTag2 )
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{
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do
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{
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// If we have reached the end of the left range then this is
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// the end of the loop. They are equal if and only if we have
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// simultaneously reached the end of the right range.
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if (first1 == last1)
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return first2 == last2;
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// If we have reached the end of the right range at this line
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// it indicates that the right range is shorter than the left
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// and hence the result is false.
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if (first2 == last2)
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return false;
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// continue looping if and only if the values are equal
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} while(pred(*first1++, *first2++));
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// Reaching this line in the algorithm indicates that a value
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// inequality has been detected.
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return false;
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}
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// An implementation of equality comparison that is optimized for
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// random access iterators.
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template< class RandomAccessTraversalReadableIterator1,
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class RandomAccessTraversalReadableIterator2 >
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inline bool equal_impl( RandomAccessTraversalReadableIterator1 first1,
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RandomAccessTraversalReadableIterator1 last1,
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RandomAccessTraversalReadableIterator2 first2,
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RandomAccessTraversalReadableIterator2 last2,
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std::random_access_iterator_tag,
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std::random_access_iterator_tag )
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{
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return ((last1 - first1) == (last2 - first2))
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&& std::equal(first1, last1, first2);
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}
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template< class RandomAccessTraversalReadableIterator1,
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class RandomAccessTraversalReadableIterator2,
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class BinaryPredicate >
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inline bool equal_impl( RandomAccessTraversalReadableIterator1 first1,
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RandomAccessTraversalReadableIterator1 last1,
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RandomAccessTraversalReadableIterator2 first2,
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RandomAccessTraversalReadableIterator2 last2,
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BinaryPredicate pred )
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{
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return ((last1 - first1) == (last2 - first2))
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&& std::equal(first1, last1, first2, pred);
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}
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template< class SinglePassTraversalReadableIterator1,
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class SinglePassTraversalReadableIterator2 >
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inline bool equal( SinglePassTraversalReadableIterator1 first1,
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SinglePassTraversalReadableIterator1 last1,
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SinglePassTraversalReadableIterator2 first2,
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SinglePassTraversalReadableIterator2 last2 )
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{
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BOOST_DEDUCED_TYPENAME std::iterator_traits< SinglePassTraversalReadableIterator1 >::iterator_category tag1;
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BOOST_DEDUCED_TYPENAME std::iterator_traits< SinglePassTraversalReadableIterator2 >::iterator_category tag2;
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return equal_impl(first1, last1, first2, last2, tag1, tag2);
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}
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template< class SinglePassTraversalReadableIterator1,
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class SinglePassTraversalReadableIterator2,
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class BinaryPredicate >
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inline bool equal( SinglePassTraversalReadableIterator1 first1,
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SinglePassTraversalReadableIterator1 last1,
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SinglePassTraversalReadableIterator2 first2,
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SinglePassTraversalReadableIterator2 last2,
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BinaryPredicate pred )
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{
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BOOST_DEDUCED_TYPENAME std::iterator_traits< SinglePassTraversalReadableIterator1 >::iterator_category tag1;
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BOOST_DEDUCED_TYPENAME std::iterator_traits< SinglePassTraversalReadableIterator2 >::iterator_category tag2;
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return equal_impl(first1, last1, first2, last2, pred, tag1, tag2);
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}
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} // namespace range_detail
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namespace range
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{
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/// \brief template function equal
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///
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/// range-based version of the equal std algorithm
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///
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/// \pre SinglePassRange1 is a model of the SinglePassRangeConcept
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/// \pre SinglePassRange2 is a model of the SinglePassRangeConcept
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/// \pre BinaryPredicate is a model of the BinaryPredicateConcept
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template< class SinglePassRange1, class SinglePassRange2 >
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inline bool equal( const SinglePassRange1& rng1, const SinglePassRange2& rng2 )
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{
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BOOST_RANGE_CONCEPT_ASSERT(( SinglePassRangeConcept<const SinglePassRange1> ));
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BOOST_RANGE_CONCEPT_ASSERT(( SinglePassRangeConcept<const SinglePassRange2> ));
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return ::boost::range_detail::equal(
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::boost::begin(rng1), ::boost::end(rng1),
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::boost::begin(rng2), ::boost::end(rng2) );
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}
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/// \overload
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template< class SinglePassRange1, class SinglePassRange2, class BinaryPredicate >
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inline bool equal( const SinglePassRange1& rng1, const SinglePassRange2& rng2,
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BinaryPredicate pred )
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{
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BOOST_RANGE_CONCEPT_ASSERT(( SinglePassRangeConcept<const SinglePassRange1> ));
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BOOST_RANGE_CONCEPT_ASSERT(( SinglePassRangeConcept<const SinglePassRange2> ));
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return ::boost::range_detail::equal(
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::boost::begin(rng1), ::boost::end(rng1),
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::boost::begin(rng2), ::boost::end(rng2),
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pred);
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}
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} // namespace range
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using range::equal;
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} // namespace boost
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#endif // include guard
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