libs/regex/test/regress/test_mfc.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_mfc.cpp * VERSION see <boost/version.hpp> * DESCRIPTION: Test code for MFC/ATL strings with Boost.Regex. */ // // We can only build this if we have ATL support: // #include <boost/config.hpp> #ifdef TEST_MFC #include <boost/regex/mfc.hpp> #include "test.hpp" #include "atlstr.h" #pragma warning(disable:4267) void test_mfc(const char&, const test_regex_search_tag&) { const std::string& ss = test_info<char>::search_text(); const std::string& ss2 = test_info<char>::expression(); CAtlStringA s(ss.c_str(), ss.size()); CAtlStringA s2(ss2.c_str(), ss2.size()); boost::regex_constants::match_flag_type opts = test_info<char>::match_options(); const int* answer_table = test_info<char>::answer_table(); boost::regex r = boost::make_regex(s2, test_info<char>::syntax_options()); boost::cmatch what; if(boost::regex_search( s, what, r, opts)) { test_result(what, s.GetString(), 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.", char); } // // regex_match tests: // if(answer_table[0] < 0) { if(boost::regex_match(s, r, opts)) { BOOST_REGEX_TEST_ERROR("boost::regex_match found a match when it should not have done so.", char); } } else { if((answer_table[0] > 0) && boost::regex_match(s, r, opts)) { BOOST_REGEX_TEST_ERROR("boost::regex_match found a match when it should not have done so.", char); } else if((answer_table[0] == 0) && (answer_table[1] == static_cast<int>(ss.size()))) { if(boost::regex_match( s, what, r, opts)) { test_result(what, s.GetString(), answer_table); if(!boost::regex_match(s, r, opts)) { // we should have had a match but didn't: BOOST_REGEX_TEST_ERROR("Expected match was not found.", char); } } else if(answer_table[0] >= 0) { // we should have had a match but didn't: BOOST_REGEX_TEST_ERROR("Expected match was not found.", char); } } } // // test regex_iterator: // boost::cregex_iterator start(boost::make_regex_iterator(s, r, opts)), end; boost::cregex_iterator copy(start); while(start != end) { if(start != copy) { BOOST_REGEX_TEST_ERROR("Failed iterator != comparison.", char); } if(!(start == copy)) { BOOST_REGEX_TEST_ERROR("Failed iterator == comparison.", char); } test_result(*start, s.GetString(), answer_table); ++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.", char); } // // test regex_token_iterator: // typedef boost::regex_token_iterator<const char*> token_iterator; answer_table = test_info<char>::answer_table(); // // we start by testing sub-expression 0: // token_iterator tstart(boost::make_regex_token_iterator(s, r, 0, opts)), tend; token_iterator tcopy(tstart); while(tstart != tend) { if(tstart != tcopy) { BOOST_REGEX_TEST_ERROR("Failed iterator != comparison.", char); } if(!(tstart == tcopy)) { BOOST_REGEX_TEST_ERROR("Failed iterator == comparison.", char); } test_sub_match(*tstart, s.GetString(), answer_table, 0); ++tstart; ++tcopy; // 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.", char); } // // and now field spitting: // token_iterator tstart2(boost::make_regex_token_iterator(s, r, -1, opts)), tend2; token_iterator tcopy2(tstart2); int last_end2 = 0; answer_table = test_info<char>::answer_table(); while(tstart2 != tend2) { if(tstart2 != tcopy2) { BOOST_REGEX_TEST_ERROR("Failed iterator != comparison.", char); } if(!(tstart2 == tcopy2)) { BOOST_REGEX_TEST_ERROR("Failed iterator == comparison.", char); } #ifdef BOOST_MSVC #pragma warning(push) #pragma warning(disable:4244) #endif if(boost::re_detail::distance(s.GetString(), tstart2->first) != last_end2) { BOOST_REGEX_TEST_ERROR( "Error in location of start of field split, found: " << boost::re_detail::distance(s.GetString(), tstart2->first) << ", expected: " << last_end2 << ".", char); } int expected_end = static_cast<int>(answer_table[0] < 0 ? s.GetLength() : answer_table[0]); if(boost::re_detail::distance(s.GetString(), tstart2->second) != expected_end) { BOOST_REGEX_TEST_ERROR( "Error in location of end2 of field split, found: " << boost::re_detail::distance(s.GetString(), tstart2->second) << ", expected: " << expected_end << ".", char); } #ifdef BOOST_MSVC #pragma warning(pop) #endif last_end2 = answer_table[1]; ++tstart2; ++tcopy2; // 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.", char); } } void test_mfc(const wchar_t&, const test_regex_search_tag&) { const std::wstring& ss = test_info<wchar_t>::search_text(); const std::wstring& ss2 = test_info<wchar_t>::expression(); CAtlStringW s(ss.c_str(), ss.size()); CAtlStringW s2(ss2.c_str(), ss2.size()); boost::regex_constants::match_flag_type opts = test_info<wchar_t>::match_options(); const int* answer_table = test_info<wchar_t>::answer_table(); boost::wregex r = boost::make_regex(s2, test_info<wchar_t>::syntax_options()); boost::wcmatch what; if(boost::regex_search( s, what, r, opts)) { test_result(what, s.GetString(), 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.", wchar_t); } // // regex_match tests: // if(answer_table[0] < 0) { if(boost::regex_match(s, r, opts)) { BOOST_REGEX_TEST_ERROR("boost::regex_match found a match when it should not have done so.", wchar_t); } } else { if((answer_table[0] > 0) && boost::regex_match(s, r, opts)) { BOOST_REGEX_TEST_ERROR("boost::regex_match found a match when it should not have done so.", wchar_t); } else if((answer_table[0] == 0) && (answer_table[1] == static_cast<int>(ss.size()))) { if(boost::regex_match( s, what, r, opts)) { test_result(what, s.GetString(), answer_table); if(!boost::regex_match(s, r, opts)) { // we should have had a match but didn't: BOOST_REGEX_TEST_ERROR("Expected match was not found.", wchar_t); } } else 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); } } } // // test regex_iterator: // boost::wcregex_iterator start(boost::make_regex_iterator(s, r, opts)), end; boost::wcregex_iterator copy(start); 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, s.GetString(), answer_table); ++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); } // // test regex_token_iterator: // typedef boost::regex_token_iterator<const wchar_t*> token_iterator; answer_table = test_info<wchar_t>::answer_table(); // // we start by testing sub-expression 0: // token_iterator tstart(boost::make_regex_token_iterator(s, r, 0, opts)), tend; token_iterator tcopy(tstart); while(tstart != tend) { if(tstart != tcopy) { BOOST_REGEX_TEST_ERROR("Failed iterator != comparison.", wchar_t); } if(!(tstart == tcopy)) { BOOST_REGEX_TEST_ERROR("Failed iterator == comparison.", wchar_t); } test_sub_match(*tstart, s.GetString(), answer_table, 0); ++tstart; ++tcopy; // 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); } // // and now field spitting: // token_iterator tstart2(boost::make_regex_token_iterator(s, r, -1, opts)), tend2; token_iterator tcopy2(tstart2); int last_end2 = 0; answer_table = test_info<wchar_t>::answer_table(); while(tstart2 != tend2) { if(tstart2 != tcopy2) { BOOST_REGEX_TEST_ERROR("Failed iterator != comparison.", wchar_t); } if(!(tstart2 == tcopy2)) { BOOST_REGEX_TEST_ERROR("Failed iterator == comparison.", wchar_t); } #ifdef BOOST_MSVC #pragma warning(push) #pragma warning(disable:4244) #endif if(boost::re_detail::distance(s.GetString(), tstart2->first) != last_end2) { BOOST_REGEX_TEST_ERROR( "Error in location of start of field split, found: " << boost::re_detail::distance(s.GetString(), tstart2->first) << ", expected: " << last_end2 << ".", wchar_t); } int expected_end = static_cast<int>(answer_table[0] < 0 ? s.GetLength() : answer_table[0]); if(boost::re_detail::distance(s.GetString(), tstart2->second) != expected_end) { BOOST_REGEX_TEST_ERROR( "Error in location of end2 of field split, found: " << boost::re_detail::distance(s.GetString(), tstart2->second) << ", expected: " << expected_end << ".", wchar_t); } #ifdef BOOST_MSVC #pragma warning(pop) #endif last_end2 = answer_table[1]; ++tstart2; ++tcopy2; // 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_mfc(const char&, const test_invalid_regex_tag&) { std::string ss = test_info<char>::expression(); CAtlStringA s(ss.c_str(), ss.size()); bool have_catch = false; try{ boost::regex e = boost::make_regex(s, test_info<char>::syntax_options()); if(e.error_code()) have_catch = true; } catch(const boost::bad_expression&) { have_catch = true; } catch(const std::runtime_error& r) { have_catch = true; BOOST_REGEX_TEST_ERROR("Expected a bad_expression exception, but a std::runtime_error instead: " << r.what(), char); } catch(const std::exception& r) { have_catch = true; BOOST_REGEX_TEST_ERROR("Expected a bad_expression exception, but a std::exception instead: " << r.what(), char); } catch(...) { have_catch = true; BOOST_REGEX_TEST_ERROR("Expected a bad_expression exception, but got an exception of unknown type instead", char); } if(!have_catch) { // oops expected exception was not thrown: BOOST_REGEX_TEST_ERROR("Expected an exception, but didn't find one.", char); } } void test_mfc(const wchar_t&, const test_invalid_regex_tag&) { std::wstring ss = test_info<wchar_t>::expression(); CAtlStringW s(ss.c_str(), ss.size()); bool have_catch = false; try{ boost::wregex e = boost::make_regex(s, test_info<wchar_t>::syntax_options()); if(e.error_code()) have_catch = true; } catch(const boost::bad_expression&) { have_catch = true; } catch(const std::runtime_error& r) { have_catch = true; BOOST_REGEX_TEST_ERROR("Expected a bad_expression exception, but a std::runtime_error instead: " << r.what(), wchar_t); } catch(const std::exception& r) { have_catch = true; BOOST_REGEX_TEST_ERROR("Expected a bad_expression exception, but a std::exception instead: " << r.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); } if(!have_catch) { // oops expected exception was not thrown: BOOST_REGEX_TEST_ERROR("Expected an exception, but didn't find one.", wchar_t); } } void test_mfc(const char&, const test_regex_replace_tag&) { const CStringA expression(test_info<char>::expression().c_str(), test_info<char>::expression().size()); boost::regex_constants::syntax_option_type syntax_options = test_info<char>::syntax_options(); try{ boost::regex r = boost::make_regex(expression, syntax_options); if(r.status()) { BOOST_REGEX_TEST_ERROR("Expression did not compile when it should have done, error code = " << r.status(), char); } const CStringA search_text(test_info<char>::search_text().c_str(), test_info<char>::search_text().size()); boost::regex_constants::match_flag_type opts = test_info<char>::match_options(); const CStringA format_string(test_info<char>::format_string().c_str(), test_info<char>::format_string().size()); const CStringA result_string(test_info<char>::result_string().c_str(), test_info<char>::result_string().size()); CStringA result = boost::regex_replace(search_text, r, format_string, opts); if(result != result_string) { BOOST_REGEX_TEST_ERROR("regex_replace generated an incorrect string result", char); } } catch(const boost::bad_expression& e) { BOOST_REGEX_TEST_ERROR("Expression did not compile when it should have done: " << e.what(), char); } catch(const std::runtime_error& r) { BOOST_REGEX_TEST_ERROR("Received an unexpected std::runtime_error: " << r.what(), char); } catch(const std::exception& r) { BOOST_REGEX_TEST_ERROR("Received an unexpected std::exception: " << r.what(), char); } catch(...) { BOOST_REGEX_TEST_ERROR("Received an unexpected exception of unknown type", char); } } void test_mfc(const wchar_t&, const test_regex_replace_tag&) { const CStringW expression(test_info<wchar_t>::expression().c_str(), test_info<wchar_t>::expression().size()); boost::regex_constants::syntax_option_type syntax_options = test_info<wchar_t>::syntax_options(); try{ boost::wregex r = boost::make_regex(expression, syntax_options); if(r.status()) { BOOST_REGEX_TEST_ERROR("Expression did not compile when it should have done, error code = " << r.status(), wchar_t); } const CStringW search_text(test_info<wchar_t>::search_text().c_str(), test_info<wchar_t>::search_text().size()); boost::regex_constants::match_flag_type opts = test_info<wchar_t>::match_options(); const CStringW format_string(test_info<wchar_t>::format_string().c_str(), test_info<wchar_t>::format_string().size()); const CStringW result_string(test_info<wchar_t>::result_string().c_str(), test_info<wchar_t>::result_string().size()); CStringW result = boost::regex_replace(search_text, r, format_string, opts); if(result != result_string) { BOOST_REGEX_TEST_ERROR("regex_replace generated an incorrect string result", wchar_t); } } catch(const boost::bad_expression& e) { BOOST_REGEX_TEST_ERROR("Expression did not compile when it should have done: " << e.what(), wchar_t); } catch(const std::runtime_error& r) { BOOST_REGEX_TEST_ERROR("Received an unexpected std::runtime_error: " << r.what(), wchar_t); } catch(const std::exception& r) { BOOST_REGEX_TEST_ERROR("Received an unexpected std::exception: " << r.what(), wchar_t); } catch(...) { BOOST_REGEX_TEST_ERROR("Received an unexpected exception of unknown type", wchar_t); } } #else #include "test.hpp" void test_mfc(const char&, const test_regex_search_tag&){} void test_mfc(const wchar_t&, const test_regex_search_tag&){} void test_mfc(const char&, const test_invalid_regex_tag&){} void test_mfc(const wchar_t&, const test_invalid_regex_tag&){} void test_mfc(const char&, const test_regex_replace_tag&){} void test_mfc(const wchar_t&, const test_regex_replace_tag&){} #endif