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// Boost string_algo library finder.hpp header file ---------------------------// // Copyright Pavol Droba 2002-2006. // // Distributed under the Boost Software License, Version 1.0. // (See accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) // See http://www.boost.org/ for updates, documentation, and revision history. #ifndef BOOST_STRING_FINDER_DETAIL_HPP #define BOOST_STRING_FINDER_DETAIL_HPP #include <boost/algorithm/string/config.hpp> #include <boost/algorithm/string/constants.hpp> #include <boost/detail/iterator.hpp> #include <boost/range/iterator_range.hpp> #include <boost/range/begin.hpp> #include <boost/range/end.hpp> #include <boost/range/empty.hpp> #include <boost/range/as_literal.hpp> namespace boost { namespace algorithm { namespace detail { // find first functor -----------------------------------------------// // find a subsequence in the sequence ( functor ) /* Returns a pair <begin,end> marking the subsequence in the sequence. If the find fails, functor returns <End,End> */ template<typename SearchIteratorT,typename PredicateT> struct first_finderF { typedef SearchIteratorT search_iterator_type; // Construction template< typename SearchT > first_finderF( const SearchT& Search, PredicateT Comp ) : m_Search(begin(Search), end(Search)), m_Comp(Comp) {} first_finderF( search_iterator_type SearchBegin, search_iterator_type SearchEnd, PredicateT Comp ) : m_Search(SearchBegin, SearchEnd), m_Comp(Comp) {} // Operation template< typename ForwardIteratorT > iterator_range<ForwardIteratorT> operator()( ForwardIteratorT Begin, ForwardIteratorT End ) const { typedef iterator_range<ForwardIteratorT> result_type; typedef ForwardIteratorT input_iterator_type; // Outer loop for(input_iterator_type OuterIt=Begin; OuterIt!=End; ++OuterIt) { // Sanity check if( boost::empty(m_Search) ) return result_type( End, End ); input_iterator_type InnerIt=OuterIt; search_iterator_type SubstrIt=m_Search.begin(); for(; InnerIt!=End && SubstrIt!=m_Search.end(); ++InnerIt,++SubstrIt) { if( !( m_Comp(*InnerIt,*SubstrIt) ) ) break; } // Substring matching succeeded if ( SubstrIt==m_Search.end() ) return result_type( OuterIt, InnerIt ); } return result_type( End, End ); } private: iterator_range<search_iterator_type> m_Search; PredicateT m_Comp; }; // find last functor -----------------------------------------------// // find the last match a subseqeunce in the sequence ( functor ) /* Returns a pair <begin,end> marking the subsequence in the sequence. If the find fails, returns <End,End> */ template<typename SearchIteratorT, typename PredicateT> struct last_finderF { typedef SearchIteratorT search_iterator_type; typedef first_finderF< search_iterator_type, PredicateT> first_finder_type; // Construction template< typename SearchT > last_finderF( const SearchT& Search, PredicateT Comp ) : m_Search(begin(Search), end(Search)), m_Comp(Comp) {} last_finderF( search_iterator_type SearchBegin, search_iterator_type SearchEnd, PredicateT Comp ) : m_Search(SearchBegin, SearchEnd), m_Comp(Comp) {} // Operation template< typename ForwardIteratorT > iterator_range<ForwardIteratorT> operator()( ForwardIteratorT Begin, ForwardIteratorT End ) const { typedef iterator_range<ForwardIteratorT> result_type; if( boost::empty(m_Search) ) return result_type( End, End ); typedef BOOST_STRING_TYPENAME boost::detail:: iterator_traits<ForwardIteratorT>::iterator_category category; return findit( Begin, End, category() ); } private: // forward iterator template< typename ForwardIteratorT > iterator_range<ForwardIteratorT> findit( ForwardIteratorT Begin, ForwardIteratorT End, std::forward_iterator_tag ) const { typedef ForwardIteratorT input_iterator_type; typedef iterator_range<ForwardIteratorT> result_type; first_finder_type first_finder( m_Search.begin(), m_Search.end(), m_Comp ); result_type M=first_finder( Begin, End ); result_type Last=M; while( M ) { Last=M; M=first_finder( end(M), End ); } return Last; } // bidirectional iterator template< typename ForwardIteratorT > iterator_range<ForwardIteratorT> findit( ForwardIteratorT Begin, ForwardIteratorT End, std::bidirectional_iterator_tag ) const { typedef iterator_range<ForwardIteratorT> result_type; typedef ForwardIteratorT input_iterator_type; // Outer loop for(input_iterator_type OuterIt=End; OuterIt!=Begin; ) { input_iterator_type OuterIt2=--OuterIt; input_iterator_type InnerIt=OuterIt2; search_iterator_type SubstrIt=m_Search.begin(); for(; InnerIt!=End && SubstrIt!=m_Search.end(); ++InnerIt,++SubstrIt) { if( !( m_Comp(*InnerIt,*SubstrIt) ) ) break; } // Substring matching succeeded if( SubstrIt==m_Search.end() ) return result_type( OuterIt2, InnerIt ); } return result_type( End, End ); } private: iterator_range<search_iterator_type> m_Search; PredicateT m_Comp; }; // find n-th functor -----------------------------------------------// // find the n-th match of a subsequence in the sequence ( functor ) /* Returns a pair <begin,end> marking the subsequence in the sequence. If the find fails, returns <End,End> */ template<typename SearchIteratorT, typename PredicateT> struct nth_finderF { typedef SearchIteratorT search_iterator_type; typedef first_finderF< search_iterator_type, PredicateT> first_finder_type; typedef last_finderF< search_iterator_type, PredicateT> last_finder_type; // Construction template< typename SearchT > nth_finderF( const SearchT& Search, int Nth, PredicateT Comp) : m_Search(begin(Search), end(Search)), m_Nth(Nth), m_Comp(Comp) {} nth_finderF( search_iterator_type SearchBegin, search_iterator_type SearchEnd, int Nth, PredicateT Comp) : m_Search(SearchBegin, SearchEnd), m_Nth(Nth), m_Comp(Comp) {} // Operation template< typename ForwardIteratorT > iterator_range<ForwardIteratorT> operator()( ForwardIteratorT Begin, ForwardIteratorT End ) const { if(m_Nth>=0) { return find_forward(Begin, End, m_Nth); } else { return find_backward(Begin, End, -m_Nth); } } private: // Implementation helpers template< typename ForwardIteratorT > iterator_range<ForwardIteratorT> find_forward( ForwardIteratorT Begin, ForwardIteratorT End, unsigned int N) const { typedef ForwardIteratorT input_iterator_type; typedef iterator_range<ForwardIteratorT> result_type; // Sanity check if( boost::empty(m_Search) ) return result_type( End, End ); // Instantiate find functor first_finder_type first_finder( m_Search.begin(), m_Search.end(), m_Comp ); result_type M( Begin, Begin ); for( unsigned int n=0; n<=N; ++n ) { // find next match M=first_finder( end(M), End ); if ( !M ) { // Subsequence not found, return return M; } } return M; } template< typename ForwardIteratorT > iterator_range<ForwardIteratorT> find_backward( ForwardIteratorT Begin, ForwardIteratorT End, unsigned int N) const { typedef ForwardIteratorT input_iterator_type; typedef iterator_range<ForwardIteratorT> result_type; // Sanity check if( boost::empty(m_Search) ) return result_type( End, End ); // Instantiate find functor last_finder_type last_finder( m_Search.begin(), m_Search.end(), m_Comp ); result_type M( End, End ); for( unsigned int n=1; n<=N; ++n ) { // find next match M=last_finder( Begin, begin(M) ); if ( !M ) { // Subsequence not found, return return M; } } return M; } private: iterator_range<search_iterator_type> m_Search; int m_Nth; PredicateT m_Comp; }; // find head/tail implementation helpers ---------------------------// template<typename ForwardIteratorT> iterator_range<ForwardIteratorT> find_head_impl( ForwardIteratorT Begin, ForwardIteratorT End, unsigned int N, std::forward_iterator_tag ) { typedef ForwardIteratorT input_iterator_type; typedef iterator_range<ForwardIteratorT> result_type; input_iterator_type It=Begin; for( unsigned int Index=0; Index<N && It!=End; ++Index,++It ) {}; return result_type( Begin, It ); } template< typename ForwardIteratorT > iterator_range<ForwardIteratorT> find_head_impl( ForwardIteratorT Begin, ForwardIteratorT End, unsigned int N, std::random_access_iterator_tag ) { typedef ForwardIteratorT input_iterator_type; typedef iterator_range<ForwardIteratorT> result_type; if ( (End<=Begin) || ( static_cast<unsigned int>(End-Begin) < N ) ) return result_type( Begin, End ); return result_type(Begin,Begin+N); } // Find head implementation template<typename ForwardIteratorT> iterator_range<ForwardIteratorT> find_head_impl( ForwardIteratorT Begin, ForwardIteratorT End, unsigned int N ) { typedef BOOST_STRING_TYPENAME boost::detail:: iterator_traits<ForwardIteratorT>::iterator_category category; return find_head_impl( Begin, End, N, category() ); } template< typename ForwardIteratorT > iterator_range<ForwardIteratorT> find_tail_impl( ForwardIteratorT Begin, ForwardIteratorT End, unsigned int N, std::forward_iterator_tag ) { typedef ForwardIteratorT input_iterator_type; typedef iterator_range<ForwardIteratorT> result_type; unsigned int Index=0; input_iterator_type It=Begin; input_iterator_type It2=Begin; // Advance It2 by N increments for( Index=0; Index<N && It2!=End; ++Index,++It2 ) {}; // Advance It, It2 to the end for(; It2!=End; ++It,++It2 ) {}; return result_type( It, It2 ); } template< typename ForwardIteratorT > iterator_range<ForwardIteratorT> find_tail_impl( ForwardIteratorT Begin, ForwardIteratorT End, unsigned int N, std::bidirectional_iterator_tag ) { typedef ForwardIteratorT input_iterator_type; typedef iterator_range<ForwardIteratorT> result_type; input_iterator_type It=End; for( unsigned int Index=0; Index<N && It!=Begin; ++Index,--It ) {}; return result_type( It, End ); } template< typename ForwardIteratorT > iterator_range<ForwardIteratorT> find_tail_impl( ForwardIteratorT Begin, ForwardIteratorT End, unsigned int N, std::random_access_iterator_tag ) { typedef ForwardIteratorT input_iterator_type; typedef iterator_range<ForwardIteratorT> result_type; if ( (End<=Begin) || ( static_cast<unsigned int>(End-Begin) < N ) ) return result_type( Begin, End ); return result_type( End-N, End ); } // Operation template< typename ForwardIteratorT > iterator_range<ForwardIteratorT> find_tail_impl( ForwardIteratorT Begin, ForwardIteratorT End, unsigned int N ) { typedef BOOST_STRING_TYPENAME boost::detail:: iterator_traits<ForwardIteratorT>::iterator_category category; return find_tail_impl( Begin, End, N, category() ); } // find head functor -----------------------------------------------// // find a head in the sequence ( functor ) /* This functor find a head of the specified range. For a specified N, the head is a subsequence of N starting elements of the range. */ struct head_finderF { // Construction head_finderF( int N ) : m_N(N) {} // Operation template< typename ForwardIteratorT > iterator_range<ForwardIteratorT> operator()( ForwardIteratorT Begin, ForwardIteratorT End ) const { if(m_N>=0) { return find_head_impl( Begin, End, m_N ); } else { iterator_range<ForwardIteratorT> Res= find_tail_impl( Begin, End, -m_N ); return make_iterator_range(Begin, Res.begin()); } } private: int m_N; }; // find tail functor -----------------------------------------------// // find a tail in the sequence ( functor ) /* This functor find a tail of the specified range. For a specified N, the head is a subsequence of N starting elements of the range. */ struct tail_finderF { // Construction tail_finderF( int N ) : m_N(N) {} // Operation template< typename ForwardIteratorT > iterator_range<ForwardIteratorT> operator()( ForwardIteratorT Begin, ForwardIteratorT End ) const { if(m_N>=0) { return find_tail_impl( Begin, End, m_N ); } else { iterator_range<ForwardIteratorT> Res= find_head_impl( Begin, End, -m_N ); return make_iterator_range(Res.end(), End); } } private: int m_N; }; // find token functor -----------------------------------------------// // find a token in a sequence ( functor ) /* This find functor finds a token specified be a predicate in a sequence. It is equivalent of std::find algorithm, with an exception that it return range instead of a single iterator. If bCompress is set to true, adjacent matching tokens are concatenated into one match. */ template< typename PredicateT > struct token_finderF { // Construction token_finderF( PredicateT Pred, token_compress_mode_type eCompress=token_compress_off ) : m_Pred(Pred), m_eCompress(eCompress) {} // Operation template< typename ForwardIteratorT > iterator_range<ForwardIteratorT> operator()( ForwardIteratorT Begin, ForwardIteratorT End ) const { typedef iterator_range<ForwardIteratorT> result_type; ForwardIteratorT It=std::find_if( Begin, End, m_Pred ); if( It==End ) { return result_type( End, End ); } else { ForwardIteratorT It2=It; if( m_eCompress==token_compress_on ) { // Find first non-matching character while( It2!=End && m_Pred(*It2) ) ++It2; } else { // Advance by one position ++It2; } return result_type( It, It2 ); } } private: PredicateT m_Pred; token_compress_mode_type m_eCompress; }; // find range functor -----------------------------------------------// // find a range in the sequence ( functor ) /* This functor actually does not perform any find operation. It always returns given iterator range as a result. */ template<typename ForwardIterator1T> struct range_finderF { typedef ForwardIterator1T input_iterator_type; typedef iterator_range<input_iterator_type> result_type; // Construction range_finderF( input_iterator_type Begin, input_iterator_type End ) : m_Range(Begin, End) {} range_finderF(const iterator_range<input_iterator_type>& Range) : m_Range(Range) {} // Operation template< typename ForwardIterator2T > iterator_range<ForwardIterator2T> operator()( ForwardIterator2T, ForwardIterator2T ) const { #if BOOST_WORKAROUND( __MWERKS__, <= 0x3003 ) return iterator_range<const ForwardIterator2T>(this->m_Range); #elif BOOST_WORKAROUND(BOOST_MSVC, <= 1300) return iterator_range<ForwardIterator2T>(m_Range.begin(), m_Range.end()); #else return m_Range; #endif } private: iterator_range<input_iterator_type> m_Range; }; } // namespace detail } // namespace algorithm } // namespace boost #endif // BOOST_STRING_FINDER_DETAIL_HPP
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