libs/regex/test/regress/test_icu.cpp
/* * * Copyright (c) 2004 * John Maddock * * Use, modification and distribution are subject to 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) * */ /* * LOCATION: see http://www.boost.org for most recent version. * FILE test_icu.cpp * VERSION see <boost/version.hpp> * DESCRIPTION: Test code for Unicode regexes with ICU support. */ // // We can only build this if we have ICU support: // #include <boost/regex/config.hpp> #if defined(BOOST_HAS_ICU) && !defined(BOOST_NO_STD_WSTRING) #include <boost/regex/icu.hpp> #include "test.hpp" namespace unnecessary_fix{ // // Some outrageously broken std lib's don't have a conforming // back_insert_iterator, which means we can't use the std version // as an argument to regex_replace, sigh... use our own: // template <class Seq> class back_insert_iterator #ifndef BOOST_NO_STD_ITERATOR : public std::iterator<std::output_iterator_tag,void,void,void,void> #endif { private: Seq* container; public: typedef const typename Seq::value_type value_type; typedef Seq container_type; typedef std::output_iterator_tag iterator_category; explicit back_insert_iterator(Seq& x) : container(&x) {} back_insert_iterator& operator=(const value_type& val) { container->push_back(val); return *this; } back_insert_iterator& operator*() { return *this; } back_insert_iterator& operator++() { return *this; } back_insert_iterator operator++(int) { return *this; } }; template <class Seq> inline back_insert_iterator<Seq> back_inserter(Seq& x) { return back_insert_iterator<Seq>(x); } } // // compare two match_results struct's for equality, // converting the iterator as needed: // template <class MR1, class MR2> void compare_result(const MR1& w1, const MR2& w2, boost::mpl::int_<2> const*) { typedef typename MR2::value_type MR2_value_type; typedef typename MR2_value_type::const_iterator MR2_iterator_type; typedef boost::u16_to_u32_iterator<MR2_iterator_type> iterator_type; //typedef typename MR1::size_type size_type; if(w1.size() != w2.size()) { BOOST_REGEX_TEST_ERROR("Size mismatch in match_results class", UChar32); } for(int i = 0; i < (int)w1.size(); ++i) { if(w1[i].matched) { if(w2[i].matched == 0) { BOOST_REGEX_TEST_ERROR("Matched mismatch in match_results class", UChar32); } if((w1.position(i) != boost::BOOST_REGEX_DETAIL_NS::distance(iterator_type(w2.prefix().first), iterator_type(w2[i].first))) || (w1.length(i) != boost::BOOST_REGEX_DETAIL_NS::distance(iterator_type(w2[i].first), iterator_type(w2[i].second)))) { BOOST_REGEX_TEST_ERROR("Iterator mismatch in match_results class", UChar32); } } else if(w2[i].matched) { BOOST_REGEX_TEST_ERROR("Matched mismatch in match_results class", UChar32); } } } template <class MR1, class MR2> void compare_result(const MR1& w1, const MR2& w2, boost::mpl::int_<1> const*) { typedef typename MR2::value_type MR2_value_type; typedef typename MR2_value_type::const_iterator MR2_iterator_type; typedef boost::u8_to_u32_iterator<MR2_iterator_type> iterator_type; //typedef typename MR1::size_type size_type; if(w1.size() != w2.size()) { BOOST_REGEX_TEST_ERROR("Size mismatch in match_results class", UChar32); } for(int i = 0; i < (int)w1.size(); ++i) { if(w1[i].matched) { if(w2[i].matched == 0) { BOOST_REGEX_TEST_ERROR("Matched mismatch in match_results class", UChar32); } if((w1.position(i) != boost::BOOST_REGEX_DETAIL_NS::distance(iterator_type(w2.prefix().first), iterator_type(w2[i].first))) || (w1.length(i) != boost::BOOST_REGEX_DETAIL_NS::distance(iterator_type(w2[i].first), iterator_type(w2[i].second)))) { BOOST_REGEX_TEST_ERROR("Iterator mismatch in match_results class", UChar32); } } else if(w2[i].matched) { BOOST_REGEX_TEST_ERROR("Matched mismatch in match_results class", UChar32); } } } void test_icu_grep(const boost::u32regex& r, const std::vector< ::UChar32>& search_text) { typedef std::vector< ::UChar32>::const_iterator const_iterator; typedef boost::u32regex_iterator<const_iterator> test_iterator; boost::regex_constants::match_flag_type opts = test_info<wchar_t>::match_options(); const int* answer_table = test_info<wchar_t>::answer_table(); test_iterator start(search_text.begin(), search_text.end(), r, opts), end; test_iterator copy(start); const_iterator last_end = search_text.begin(); while(start != end) { if(start != copy) { BOOST_REGEX_TEST_ERROR("Failed iterator != comparison.", wchar_t); } if(!(start == copy)) { BOOST_REGEX_TEST_ERROR("Failed iterator == comparison.", wchar_t); } test_result(*start, search_text.begin(), answer_table); // test $` and $' : if(start->prefix().first != last_end) { BOOST_REGEX_TEST_ERROR("Incorrect position for start of $`", wchar_t); } if(start->prefix().second != (*start)[0].first) { BOOST_REGEX_TEST_ERROR("Incorrect position for end of $`", wchar_t); } if(start->prefix().matched != (start->prefix().first != start->prefix().second)) { BOOST_REGEX_TEST_ERROR("Incorrect position for matched member of $`", wchar_t); } if(start->suffix().first != (*start)[0].second) { BOOST_REGEX_TEST_ERROR("Incorrect position for start of $'", wchar_t); } if(start->suffix().second != search_text.end()) { BOOST_REGEX_TEST_ERROR("Incorrect position for end of $'", wchar_t); } if(start->suffix().matched != (start->suffix().first != start->suffix().second)) { BOOST_REGEX_TEST_ERROR("Incorrect position for matched member of $'", wchar_t); } last_end = (*start)[0].second; ++start; ++copy; // move on the answer table to next set of answers; if(*answer_table != -2) while(*answer_table++ != -2){} } if(answer_table[0] >= 0) { // we should have had a match but didn't: BOOST_REGEX_TEST_ERROR("Expected match was not found.", wchar_t); } } void test_icu(const wchar_t&, const test_regex_search_tag& ) { boost::u32regex r; if(*test_locale::c_str()) { U_NAMESPACE_QUALIFIER Locale l(test_locale::c_str()); if(l.isBogus()) return; r.imbue(l); } std::vector< ::UChar32> expression; #ifndef BOOST_NO_TEMPLATED_ITERATOR_CONSTRUCTORS expression.assign(test_info<wchar_t>::expression().begin(), test_info<wchar_t>::expression().end()); #else std::copy(test_info<wchar_t>::expression().begin(), test_info<wchar_t>::expression().end(), std::back_inserter(expression)); #endif boost::regex_constants::syntax_option_type syntax_options = test_info<UChar32>::syntax_options(); #ifndef BOOST_NO_EXCEPTIONS try #endif { #if !defined(BOOST_NO_MEMBER_TEMPLATES) && !defined(__IBMCPP__) r.assign(expression.begin(), expression.end(), syntax_options); #else if(expression.size()) r.assign(&*expression.begin(), expression.size(), syntax_options); else r.assign(static_cast<UChar32 const*>(0), expression.size(), syntax_options); #endif if(r.status()) { BOOST_REGEX_TEST_ERROR("Expression did not compile when it should have done, error code = " << r.status(), UChar32); } std::vector< ::UChar32> search_text; #ifndef BOOST_NO_TEMPLATED_ITERATOR_CONSTRUCTORS search_text.assign(test_info<wchar_t>::search_text().begin(), test_info<wchar_t>::search_text().end()); #else std::copy(test_info<wchar_t>::search_text().begin(), test_info<wchar_t>::search_text().end(), std::back_inserter(search_text)); #endif boost::regex_constants::match_flag_type opts = test_info<wchar_t>::match_options(); const int* answer_table = test_info<wchar_t>::answer_table(); boost::match_results<std::vector< ::UChar32>::const_iterator> what; if(boost::u32regex_search( const_cast<std::vector< ::UChar32>const&>(search_text).begin(), const_cast<std::vector< ::UChar32>const&>(search_text).end(), what, r, opts)) { test_result(what, const_cast<std::vector< ::UChar32>const&>(search_text).begin(), answer_table); } else if(answer_table[0] >= 0) { // we should have had a match but didn't: BOOST_REGEX_TEST_ERROR("Expected match was not found.", UChar32); } if(0 == *test_locale::c_str()) { // // Now try UTF-16 construction: // typedef boost::u32_to_u16_iterator<std::vector<UChar32>::const_iterator> u16_conv; std::vector<UChar> expression16, text16; boost::match_results<std::vector<UChar>::const_iterator> what16; boost::match_results<const UChar*> what16c; #ifndef BOOST_NO_TEMPLATED_ITERATOR_CONSTRUCTORS expression16.assign(u16_conv(expression.begin()), u16_conv(expression.end())); text16.assign(u16_conv(search_text.begin()), u16_conv(search_text.end())); #else expression16.clear(); std::copy(u16_conv(expression.begin()), u16_conv(expression.end()), std::back_inserter(expression16)); text16.clear(); std::copy(u16_conv(search_text.begin()), u16_conv(search_text.end()), std::back_inserter(text16)); #endif r = boost::make_u32regex(expression16.begin(), expression16.end(), syntax_options); if(boost::u32regex_search(const_cast<const std::vector<UChar>&>(text16).begin(), const_cast<const std::vector<UChar>&>(text16).end(), what16, r, opts)) { compare_result(what, what16, static_cast<boost::mpl::int_<2> const*>(0)); } else if(answer_table[0] >= 0) { // we should have had a match but didn't: BOOST_REGEX_TEST_ERROR("Expected match was not found.", UChar32); } if(std::find(expression16.begin(), expression16.end(), 0) == expression16.end()) { expression16.push_back(0); r = boost::make_u32regex(&*expression16.begin(), syntax_options); if(std::find(text16.begin(), text16.end(), 0) == text16.end()) { text16.push_back(0); if(boost::u32regex_search((const UChar*)&*text16.begin(), what16c, r, opts)) { compare_result(what, what16c, static_cast<boost::mpl::int_<2> const*>(0)); } else if(answer_table[0] >= 0) { // we should have had a match but didn't: BOOST_REGEX_TEST_ERROR("Expected match was not found.", UChar32); } } } // // Now try UTF-8 construction: // typedef boost::u32_to_u8_iterator<std::vector<UChar32>::const_iterator, unsigned char> u8_conv; std::vector<unsigned char> expression8, text8; boost::match_results<std::vector<unsigned char>::const_iterator> what8; boost::match_results<const unsigned char*> what8c; #ifndef BOOST_NO_TEMPLATED_ITERATOR_CONSTRUCTORS expression8.assign(u8_conv(expression.begin()), u8_conv(expression.end())); text8.assign(u8_conv(search_text.begin()), u8_conv(search_text.end())); #else expression8.clear(); std::copy(u8_conv(expression.begin()), u8_conv(expression.end()), std::back_inserter(expression8)); text8.clear(); std::copy(u8_conv(search_text.begin()), u8_conv(search_text.end()), std::back_inserter(text8)); #endif r = boost::make_u32regex(expression8.begin(), expression8.end(), syntax_options); if(boost::u32regex_search(const_cast<const std::vector<unsigned char>&>(text8).begin(), const_cast<const std::vector<unsigned char>&>(text8).end(), what8, r, opts)) { compare_result(what, what8, static_cast<boost::mpl::int_<1> const*>(0)); } else if(answer_table[0] >= 0) { // we should have had a match but didn't: BOOST_REGEX_TEST_ERROR("Expected match was not found.", UChar32); } if(std::find(expression8.begin(), expression8.end(), 0) == expression8.end()) { expression8.push_back(0); r = boost::make_u32regex(&*expression8.begin(), syntax_options); if(std::find(text8.begin(), text8.end(), 0) == text8.end()) { text8.push_back(0); if(boost::u32regex_search((const unsigned char*)&*text8.begin(), what8c, r, opts)) { compare_result(what, what8c, static_cast<boost::mpl::int_<1> const*>(0)); } else if(answer_table[0] >= 0) { // we should have had a match but didn't: BOOST_REGEX_TEST_ERROR("Expected match was not found.", UChar32); } } } } // // finally try a grep: // test_icu_grep(r, search_text); } #ifndef BOOST_NO_EXCEPTIONS catch(const boost::bad_expression& e) { BOOST_REGEX_TEST_ERROR("Expression did not compile when it should have done: " << e.what(), UChar32); } catch(const std::runtime_error& e) { BOOST_REGEX_TEST_ERROR("Received an unexpected std::runtime_error: " << e.what(), UChar32); } catch(const std::exception& e) { BOOST_REGEX_TEST_ERROR("Received an unexpected std::exception: " << e.what(), UChar32); } catch(...) { BOOST_REGEX_TEST_ERROR("Received an unexpected exception of unknown type", UChar32); } #endif } void test_icu(const wchar_t&, const test_invalid_regex_tag&) { //typedef boost::u16_to_u32_iterator<std::wstring::const_iterator, ::UChar32> conv_iterator; std::vector< ::UChar32> expression; #ifndef BOOST_NO_TEMPLATED_ITERATOR_CONSTRUCTORS expression.assign(test_info<wchar_t>::expression().begin(), test_info<wchar_t>::expression().end()); #else std::copy(test_info<wchar_t>::expression().begin(), test_info<wchar_t>::expression().end(), std::back_inserter(expression)); #endif boost::regex_constants::syntax_option_type syntax_options = test_info<wchar_t>::syntax_options(); boost::u32regex r; if(*test_locale::c_str()) { U_NAMESPACE_QUALIFIER Locale l(test_locale::c_str()); if(l.isBogus()) return; r.imbue(l); } // // try it with exceptions disabled first: // #ifndef BOOST_NO_EXCEPTIONS try #endif { #if !defined(BOOST_NO_MEMBER_TEMPLATES) && !defined(__IBMCPP__) if(0 == r.assign(expression.begin(), expression.end(), syntax_options | boost::regex_constants::no_except).status()) #else if(expression.size()) r.assign(&*expression.begin(), expression.size(), syntax_options | boost::regex_constants::no_except); else r.assign(static_cast<UChar32 const*>(0), static_cast<boost::u32regex::size_type>(0), syntax_options | boost::regex_constants::no_except); if(0 == r.status()) #endif { BOOST_REGEX_TEST_ERROR("Expression compiled when it should not have done so.", wchar_t); } } #ifndef BOOST_NO_EXCEPTIONS catch(...) { BOOST_REGEX_TEST_ERROR("Unexpected exception thrown.", wchar_t); } #endif // // now try again with exceptions: // bool have_catch = false; #ifndef BOOST_NO_EXCEPTIONS try #endif { #if !defined(BOOST_NO_MEMBER_TEMPLATES) && !defined(__IBMCPP__) r.assign(expression.begin(), expression.end(), syntax_options); #else if(expression.size()) r.assign(&*expression.begin(), expression.size(), syntax_options); else r.assign(static_cast<UChar32 const*>(0), static_cast<boost::u32regex::size_type>(0), syntax_options); #endif #ifdef BOOST_NO_EXCEPTIONS if(r.status()) have_catch = true; #endif } #ifndef BOOST_NO_EXCEPTIONS catch(const boost::bad_expression&) { have_catch = true; } catch(const std::runtime_error& e) { have_catch = true; BOOST_REGEX_TEST_ERROR("Expected a bad_expression exception, but a std::runtime_error instead: " << e.what(), wchar_t); } catch(const std::exception& e) { have_catch = true; BOOST_REGEX_TEST_ERROR("Expected a bad_expression exception, but a std::exception instead: " << e.what(), wchar_t); } catch(...) { have_catch = true; BOOST_REGEX_TEST_ERROR("Expected a bad_expression exception, but got an exception of unknown type instead", wchar_t); } #endif if(!have_catch) { // oops expected exception was not thrown: BOOST_REGEX_TEST_ERROR("Expected an exception, but didn't find one.", wchar_t); } if(0 == *test_locale::c_str()) { // // Now try UTF-16 construction: // typedef boost::u32_to_u16_iterator<std::vector<UChar32>::const_iterator> u16_conv; std::vector<UChar> expression16; #ifndef BOOST_NO_TEMPLATED_ITERATOR_CONSTRUCTORS expression16.assign(u16_conv(expression.begin()), u16_conv(expression.end())); #else std::copy(u16_conv(expression.begin()), u16_conv(expression.end()), std::back_inserter(expression16)); #endif if(0 == boost::make_u32regex(expression16.begin(), expression16.end(), syntax_options | boost::regex_constants::no_except).status()) { BOOST_REGEX_TEST_ERROR("Expression compiled when it should not have done so.", wchar_t); } if(std::find(expression16.begin(), expression16.end(), 0) == expression16.end()) { expression16.push_back(0); if(0 == boost::make_u32regex(&*expression16.begin(), syntax_options | boost::regex_constants::no_except).status()) { BOOST_REGEX_TEST_ERROR("Expression compiled when it should not have done so.", wchar_t); } } // // Now try UTF-8 construction: // typedef boost::u32_to_u8_iterator<std::vector<UChar32>::const_iterator> u8_conv; std::vector<unsigned char> expression8; #ifndef BOOST_NO_TEMPLATED_ITERATOR_CONSTRUCTORS expression8.assign(u8_conv(expression.begin()), u8_conv(expression.end())); #else std::copy(u8_conv(expression.begin()), u8_conv(expression.end()), std::back_inserter(expression8)); #endif if(0 == boost::make_u32regex(expression8.begin(), expression8.end(), syntax_options | boost::regex_constants::no_except).status()) { BOOST_REGEX_TEST_ERROR("Expression compiled when it should not have done so.", wchar_t); } if(std::find(expression8.begin(), expression8.end(), 0) == expression8.end()) { expression8.push_back(0); if(0 == boost::make_u32regex(&*expression8.begin(), syntax_options | boost::regex_constants::no_except).status()) { BOOST_REGEX_TEST_ERROR("Expression compiled when it should not have done so.", wchar_t); } } } } void test_icu(const wchar_t&, const test_regex_replace_tag&) { std::vector< ::UChar32> expression; #ifndef BOOST_NO_TEMPLATED_ITERATOR_CONSTRUCTORS expression.assign(test_info<wchar_t>::expression().begin(), test_info<wchar_t>::expression().end()); #else std::copy(test_info<wchar_t>::expression().begin(), test_info<wchar_t>::expression().end(), std::back_inserter(expression)); #endif boost::regex_constants::syntax_option_type syntax_options = test_info<UChar32>::syntax_options(); boost::u32regex r; #ifndef BOOST_NO_EXCEPTIONS try #endif { #if !defined(BOOST_NO_MEMBER_TEMPLATES) && !defined(__IBMCPP__) r.assign(expression.begin(), expression.end(), syntax_options); #else if(expression.size()) r.assign(&*expression.begin(), expression.size(), syntax_options); else r.assign(static_cast<UChar32 const*>(0), static_cast<boost::u32regex::size_type>(0), syntax_options); #endif if(r.status()) { BOOST_REGEX_TEST_ERROR("Expression did not compile when it should have done, error code = " << r.status(), UChar32); } typedef std::vector<UChar32> string_type; string_type search_text; boost::regex_constants::match_flag_type opts = test_info<UChar32>::match_options(); string_type format_string; string_type result_string; #ifndef BOOST_NO_TEMPLATED_ITERATOR_CONSTRUCTORS search_text.assign(test_info<UChar32>::search_text().begin(), test_info<UChar32>::search_text().end()); format_string.assign(test_info<UChar32>::format_string().begin(), test_info<UChar32>::format_string().end()); format_string.push_back(0); result_string.assign(test_info<UChar32>::result_string().begin(), test_info<UChar32>::result_string().end()); #else std::copy(test_info<UChar32>::search_text().begin(), test_info<UChar32>::search_text().end(), std::back_inserter(search_text)); std::copy(test_info<UChar32>::format_string().begin(), test_info<UChar32>::format_string().end(), std::back_inserter(format_string)); format_string.push_back(0); std::copy(test_info<UChar32>::result_string().begin(), test_info<UChar32>::result_string().end(), std::back_inserter(result_string)); #endif string_type result; boost::u32regex_replace(unnecessary_fix::back_inserter(result), search_text.begin(), search_text.end(), r, &*format_string.begin(), opts); if(result != result_string) { BOOST_REGEX_TEST_ERROR("regex_replace generated an incorrect string result", UChar32); } // // Mixed mode character encoding: // if(0 == *test_locale::c_str()) { // // Now try UTF-16 construction: // typedef boost::u32_to_u16_iterator<std::vector<UChar32>::const_iterator> u16_conv; std::vector<UChar> expression16, text16, format16, result16, found16; #ifndef BOOST_NO_TEMPLATED_ITERATOR_CONSTRUCTORS expression16.assign(u16_conv(expression.begin()), u16_conv(expression.end())); text16.assign(u16_conv(search_text.begin()), u16_conv(search_text.end())); format16.assign(u16_conv(format_string.begin()), u16_conv(format_string.end())); result16.assign(u16_conv(result_string.begin()), u16_conv(result_string.end())); #else std::copy(u16_conv(expression.begin()), u16_conv(expression.end()), std::back_inserter(expression16)); std::copy(u16_conv(search_text.begin()), u16_conv(search_text.end()), std::back_inserter(text16)); std::copy(u16_conv(format_string.begin()), u16_conv(format_string.end()), std::back_inserter(format16)); std::copy(u16_conv(result_string.begin()), u16_conv(result_string.end()), std::back_inserter(result16)); #endif r = boost::make_u32regex(expression16.begin(), expression16.end(), syntax_options); boost::u32regex_replace(unnecessary_fix::back_inserter(found16), text16.begin(), text16.end(), r, &*format16.begin(), opts); if(result16 != found16) { BOOST_REGEX_TEST_ERROR("u32regex_replace with UTF-16 string returned incorrect result", UChar32); } // // Now with UnicodeString: // U_NAMESPACE_QUALIFIER UnicodeString expression16u, text16u, format16u, result16u, found16u; if(expression16.size()) expression16u.setTo(&*expression16.begin(), expression16.size()); if(text16.size()) text16u.setTo(&*text16.begin(), text16.size()); format16u.setTo(&*format16.begin(), format16.size()-1); if(result16.size()) result16u.setTo(&*result16.begin(), result16.size()); r = boost::make_u32regex(expression16.begin(), expression16.end(), syntax_options); found16u = boost::u32regex_replace(text16u, r, format16u, opts); if(result16u != found16u) { BOOST_REGEX_TEST_ERROR("u32regex_replace with UTF-16 string returned incorrect result", UChar32); } // // Now try UTF-8 construction: // typedef boost::u32_to_u8_iterator<std::vector<UChar32>::const_iterator, unsigned char> u8_conv; std::vector<char> expression8, text8, format8, result8, found8; #ifndef BOOST_NO_TEMPLATED_ITERATOR_CONSTRUCTORS expression8.assign(u8_conv(expression.begin()), u8_conv(expression.end())); text8.assign(u8_conv(search_text.begin()), u8_conv(search_text.end())); format8.assign(u8_conv(format_string.begin()), u8_conv(format_string.end())); result8.assign(u8_conv(result_string.begin()), u8_conv(result_string.end())); #else std::copy(u8_conv(expression.begin()), u8_conv(expression.end()), std::back_inserter(expression8)); std::copy(u8_conv(search_text.begin()), u8_conv(search_text.end()), std::back_inserter(text8)); std::copy(u8_conv(format_string.begin()), u8_conv(format_string.end()), std::back_inserter(format8)); std::copy(u8_conv(result_string.begin()), u8_conv(result_string.end()), std::back_inserter(result8)); #endif r = boost::make_u32regex(expression8.begin(), expression8.end(), syntax_options); boost::u32regex_replace(unnecessary_fix::back_inserter(found8), text8.begin(), text8.end(), r, &*format8.begin(), opts); if(result8 != found8) { BOOST_REGEX_TEST_ERROR("u32regex_replace with UTF-8 string returned incorrect result", UChar32); } // // Now with std::string and UTF-8: // std::string expression8s, text8s, format8s, result8s, found8s; if(expression8.size()) expression8s.assign(&*expression8.begin(), expression8.size()); if(text8.size()) text8s.assign(&*text8.begin(), text8.size()); format8s.assign(&*format8.begin(), format8.size()-1); if(result8.size()) result8s.assign(&*result8.begin(), result8.size()); r = boost::make_u32regex(expression8.begin(), expression8.end(), syntax_options); found8s = boost::u32regex_replace(text8s, r, format8s, opts); if(result8s != found8s) { BOOST_REGEX_TEST_ERROR("u32regex_replace with UTF-8 string returned incorrect result", UChar32); } } } #ifndef BOOST_NO_EXCEPTIONS catch(const boost::bad_expression& e) { BOOST_REGEX_TEST_ERROR("Expression did not compile when it should have done: " << e.what(), UChar32); } catch(const std::runtime_error& e) { BOOST_REGEX_TEST_ERROR("Received an unexpected std::runtime_error: " << e.what(), UChar32); } catch(const std::exception& e) { BOOST_REGEX_TEST_ERROR("Received an unexpected std::exception: " << e.what(), UChar32); } catch(...) { BOOST_REGEX_TEST_ERROR("Received an unexpected exception of unknown type", UChar32); } #endif } #else #include "test.hpp" void test_icu(const wchar_t&, const test_regex_search_tag&){} void test_icu(const wchar_t&, const test_invalid_regex_tag&){} void test_icu(const wchar_t&, const test_regex_replace_tag&){} #endif