ecency-mobile/ios/Pods/boost-for-react-native/boost/test/utils/algorithm.hpp

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// (C) Copyright Gennadiy Rozental 2001.
// 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/libs/test for the library home page.
//
/// @file
/// Addition to STL algorithms
// ***************************************************************************
#ifndef BOOST_TEST_UTILS_ALGORITHM_HPP
#define BOOST_TEST_UTILS_ALGORITHM_HPP
// STL
#include <utility>
#include <algorithm> // std::find
#include <functional> // std::bind1st
#include <boost/test/detail/suppress_warnings.hpp>
//____________________________________________________________________________//
namespace boost {
namespace unit_test {
namespace utils {
/// @brief this algorithm search through two collections for first mismatch position that get returned as a pair
/// of iterators, first pointing to the mismatch position in first collection, second iterator in second one
///
/// @param first1 - first collection begin iterator
/// @param last1 - first collection end iterator
/// @param first2 - second collection begin iterator
/// @param last2 - second collection end iterator
template <class InputIter1, class InputIter2>
inline std::pair<InputIter1, InputIter2>
mismatch( InputIter1 first1, InputIter1 last1,
InputIter2 first2, InputIter2 last2 )
{
while( first1 != last1 && first2 != last2 && *first1 == *first2 ) {
++first1;
++first2;
}
return std::pair<InputIter1, InputIter2>(first1, first2);
}
//____________________________________________________________________________//
/// @brief this algorithm search through two collections for first mismatch position that get returned as a pair
/// of iterators, first pointing to the mismatch position in first collection, second iterator in second one. This algorithms
/// uses supplied predicate for collection elements comparison
///
/// @param first1 - first collection begin iterator
/// @param last1 - first collection end iterator
/// @param first2 - second collection begin iterator
/// @param last2 - second collection end iterator
/// @param pred - predicate to be used for search
template <class InputIter1, class InputIter2, class Predicate>
inline std::pair<InputIter1, InputIter2>
mismatch( InputIter1 first1, InputIter1 last1,
InputIter2 first2, InputIter2 last2,
Predicate pred )
{
while( first1 != last1 && first2 != last2 && pred( *first1, *first2 ) ) {
++first1;
++first2;
}
return std::pair<InputIter1, InputIter2>(first1, first2);
}
//____________________________________________________________________________//
/// @brief this algorithm search through first collection for first element that does not belong a second one
///
/// @param first1 - first collection begin iterator
/// @param last1 - first collection end iterator
/// @param first2 - second collection begin iterator
/// @param last2 - second collection end iterator
template<class ForwardIterator1, class ForwardIterator2>
inline ForwardIterator1
find_first_not_of( ForwardIterator1 first1, ForwardIterator1 last1,
ForwardIterator2 first2, ForwardIterator2 last2 )
{
while( first1 != last1 ) {
if( std::find( first2, last2, *first1 ) == last2 )
break;
++first1;
}
return first1;
}
//____________________________________________________________________________//
/// @brief this algorithm search through first collection for first element that does not satisfy binary
/// predicate in conjunction will any element in second collection
///
/// @param first1 - first collection begin iterator
/// @param last1 - first collection end iterator
/// @param first2 - second collection begin iterator
/// @param last2 - second collection end iterator
/// @param pred - predicate to be used for search
template<class ForwardIterator1, class ForwardIterator2, class Predicate>
inline ForwardIterator1
find_first_not_of( ForwardIterator1 first1, ForwardIterator1 last1,
ForwardIterator2 first2, ForwardIterator2 last2,
Predicate pred )
{
while( first1 != last1 ) {
if( std::find_if( first2, last2, std::bind1st( pred, *first1 ) ) == last2 )
break;
++first1;
}
return first1;
}
//____________________________________________________________________________//
/// @brief this algorithm search through first collection for last element that belongs to a second one
///
/// @param first1 - first collection begin iterator
/// @param last1 - first collection end iterator
/// @param first2 - second collection begin iterator
/// @param last2 - second collection end iterator
template<class BidirectionalIterator1, class ForwardIterator2>
inline BidirectionalIterator1
find_last_of( BidirectionalIterator1 first1, BidirectionalIterator1 last1,
ForwardIterator2 first2, ForwardIterator2 last2 )
{
if( first1 == last1 || first2 == last2 )
return last1;
BidirectionalIterator1 it1 = last1;
while( --it1 != first1 && std::find( first2, last2, *it1 ) == last2 ) {}
return it1 == first1 && std::find( first2, last2, *it1 ) == last2 ? last1 : it1;
}
//____________________________________________________________________________//
/// @brief this algorithm search through first collection for last element that satisfy binary
/// predicate in conjunction will at least one element in second collection
///
/// @param first1 - first collection begin iterator
/// @param last1 - first collection end iterator
/// @param first2 - second collection begin iterator
/// @param last2 - second collection end iterator
/// @param pred - predicate to be used for search
template<class BidirectionalIterator1, class ForwardIterator2, class Predicate>
inline BidirectionalIterator1
find_last_of( BidirectionalIterator1 first1, BidirectionalIterator1 last1,
ForwardIterator2 first2, ForwardIterator2 last2,
Predicate pred )
{
if( first1 == last1 || first2 == last2 )
return last1;
BidirectionalIterator1 it1 = last1;
while( --it1 != first1 && std::find_if( first2, last2, std::bind1st( pred, *it1 ) ) == last2 ) {}
return it1 == first1 && std::find_if( first2, last2, std::bind1st( pred, *it1 ) ) == last2 ? last1 : it1;
}
//____________________________________________________________________________//
/// @brief this algorithm search through first collection for last element that does not belong to a second one
///
/// @param first1 - first collection begin iterator
/// @param last1 - first collection end iterator
/// @param first2 - second collection begin iterator
/// @param last2 - second collection end iterator
template<class BidirectionalIterator1, class ForwardIterator2>
inline BidirectionalIterator1
find_last_not_of( BidirectionalIterator1 first1, BidirectionalIterator1 last1,
ForwardIterator2 first2, ForwardIterator2 last2 )
{
if( first1 == last1 || first2 == last2 )
return last1;
BidirectionalIterator1 it1 = last1;
while( --it1 != first1 && std::find( first2, last2, *it1 ) != last2 ) {}
return it1 == first1 && std::find( first2, last2, *it1 ) != last2 ? last1 : it1;
}
//____________________________________________________________________________//
/// @brief this algorithm search through first collection for last element that does not satisfy binary
/// predicate in conjunction will any element in second collection
///
/// @param first1 - first collection begin iterator
/// @param last1 - first collection end iterator
/// @param first2 - second collection begin iterator
/// @param last2 - second collection end iterator
/// @param pred - predicate to be used for search
template<class BidirectionalIterator1, class ForwardIterator2, class Predicate>
inline BidirectionalIterator1
find_last_not_of( BidirectionalIterator1 first1, BidirectionalIterator1 last1,
ForwardIterator2 first2, ForwardIterator2 last2,
Predicate pred )
{
if( first1 == last1 || first2 == last2 )
return last1;
BidirectionalIterator1 it1 = last1;
while( --it1 != first1 && std::find_if( first2, last2, std::bind1st( pred, *it1 ) ) != last2 ) {}
return it1 == first1 && std::find_if( first2, last2, std::bind1st( pred, *it1 ) ) == last2 ? last1 : it1;
}
//____________________________________________________________________________//
/// @brief This algorithm replaces all occurrences of a set of substrings by another substrings
///
/// @param str - string of operation
/// @param first1 - iterator to the beginning of the substrings to replace
/// @param last1 - iterator to the end of the substrings to replace
/// @param first2 - iterator to the beginning of the substrings to replace with
/// @param last2 - iterator to the end of the substrings to replace with
template<class StringClass, class ForwardIterator>
inline StringClass
replace_all_occurrences_of( StringClass str,
ForwardIterator first1, ForwardIterator last1,
ForwardIterator first2, ForwardIterator last2)
{
for(; first1 != last1 && first2 != last2; ++first1, ++first2) {
std::size_t found = str.find( *first1 );
while( found != StringClass::npos ) {
str.replace(found, first1->size(), *first2 );
found = str.find( *first1, found + first2->size() );
}
}
return str;
}
/// @brief This algorithm replaces all occurrences of a string with basic wildcards
/// with another (optionally containing wildcards as well).
///
/// @param str - string to transform
/// @param it_string_to_find - iterator to the beginning of the substrings to replace
/// @param it_string_to_find_end - iterator to the end of the substrings to replace
/// @param it_string_to_replace - iterator to the beginning of the substrings to replace with
/// @param it_string_to_replace_end - iterator to the end of the substrings to replace with
///
/// The wildcard is the symbol '*'. Only a unique wildcard per string is supported. The replacement
/// string may also contain a wildcard, in which case it is considered as a placeholder to the content
/// of the wildcard in the source string.
/// Example:
/// - In order to replace the occurrences of @c 'time=\"some-variable-value\"' to a constant string,
/// one may use @c 'time=\"*\"' as the string to search for, and 'time=\"0.0\"' as the replacement string.
/// - In order to replace the occurrences of 'file.cpp(XX)' per 'file.cpp:XX', where XX is a variable to keep,
/// on may use @c 'file.cpp(*)' as the string to search for, and 'file.cpp:*' as the replacement string.
template<class StringClass, class ForwardIterator>
inline StringClass
replace_all_occurrences_with_wildcards(
StringClass str,
ForwardIterator it_string_to_find, ForwardIterator it_string_to_find_end,
ForwardIterator it_string_to_replace, ForwardIterator it_string_to_replace_end)
{
for(; it_string_to_find != it_string_to_find_end && it_string_to_replace != it_string_to_replace_end;
++it_string_to_find, ++ it_string_to_replace) {
std::size_t wildcard_pos = it_string_to_find->find("*");
if(wildcard_pos == StringClass::npos) {
ForwardIterator it_to_find_current_end(it_string_to_find);
ForwardIterator it_to_replace_current_end(it_string_to_replace);
str = replace_all_occurrences_of(
str,
it_string_to_find, ++it_to_find_current_end,
it_string_to_replace, ++it_to_replace_current_end);
continue;
}
std::size_t wildcard_pos_replace = it_string_to_replace->find("*");
std::size_t found_begin = str.find( it_string_to_find->substr(0, wildcard_pos) );
while( found_begin != StringClass::npos ) {
std::size_t found_end = str.find(it_string_to_find->substr(wildcard_pos+1), found_begin + wildcard_pos + 1); // to simplify
if( found_end != StringClass::npos ) {
if( wildcard_pos_replace == StringClass::npos ) {
StringClass replace_content = *it_string_to_replace;
str.replace(
found_begin,
found_end + (it_string_to_find->size() - wildcard_pos - 1 ) - found_begin,
replace_content);
} else {
StringClass replace_content =
it_string_to_replace->substr(0, wildcard_pos_replace)
+ str.substr(found_begin + wildcard_pos,
found_end - found_begin - wildcard_pos)
+ it_string_to_replace->substr(wildcard_pos_replace+1) ;
str.replace(
found_begin,
found_end + (it_string_to_find->size() - wildcard_pos - 1 ) - found_begin,
replace_content);
}
}
// may adapt the restart to the replacement and be more efficient
found_begin = str.find( it_string_to_find->substr(0, wildcard_pos), found_begin + 1 );
}
}
return str;
}
} // namespace utils
} // namespace unit_test
} // namespace boost
#include <boost/test/detail/enable_warnings.hpp>
#endif // BOOST_TEST_UTILS_ALGORITHM_HPP