// Copyright (C) 2014-2019 Free Software Foundation, Inc. // // This file is part of the GNU ISO C++ Library. This library is free // software; you can redistribute it and/or modify it under the // terms of the GNU General Public License as published by the // Free Software Foundation; either version 3, or (at your option) // any later version. // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // You should have received a copy of the GNU General Public License along // with this library; see the file COPYING3. If not see // . // { dg-options "-std=gnu++17" } #include #include #ifdef _GLIBCXX_USE_WCHAR_T # include #endif #include #include #ifndef __cpp_lib_boyer_moore_searcher # error "Feature-test macro for searchers missing" #elif __cpp_lib_boyer_moore_searcher < 201603 # error "Feature-test macro for searchers has wrong value" #endif using std::default_searcher; using std::boyer_moore_searcher; using std::boyer_moore_horspool_searcher; void test01() { const char s[] = { 'a', (char)-97, 'a', '\0' }; const char* needles[] = { s, "", "a", "aa", "aaa", "ab", "cd", "abcd", "abcdabcd", "abcabcd" }; const char* haystacks[] = { s, "", "a", "aa", "aaa", "ab", "cd", "abcd", "abcdabcd", "abcabcd", "aaaaaaa", "aabaa", "aaacab", "cdabcdab", "abcdabcd", "xyzabcdxyz" }; for (auto n : needles) { auto nlen = std::strlen(n); auto ne = n + nlen; default_searcher d(n, ne); boyer_moore_searcher bm(n, ne); boyer_moore_horspool_searcher bmh(n, ne); for (auto h : haystacks) { auto he = h + std::strlen(h); auto res = std::search(h, he, n, ne); auto d_res = d(h, he); VERIFY( d_res.first == res ); if (res == he) VERIFY( d_res.second == d_res.first ); else VERIFY( d_res.second == (d_res.first + nlen) ); auto bm_res = bm(h, he); VERIFY( bm_res.first == res ); if (res == he) VERIFY( bm_res.second == bm_res.first ); else VERIFY( bm_res.second == (bm_res.first + nlen) ); auto bmh_res = bmh(h, he); VERIFY( bmh_res.first == res ); if (res == he) VERIFY( bmh_res.second == bmh_res.first ); else VERIFY( bmh_res.second == (bmh_res.first + nlen) ); } } } void test02() { #ifdef _GLIBCXX_USE_WCHAR_T const wchar_t s[] = { L'a', (wchar_t)-97, L'a', L'\0' }; const wchar_t* needles[] = { s, L"", L"a", L"aa", L"aaa", L"ab", L"cd", L"abcd", L"abcdabcd", L"abcabcd" }; const wchar_t* haystacks[] = { s, L"", L"a", L"aa", L"aaa", L"ab", L"cd", L"abcd", L"abcdabcd", L"abcabcd", L"aaaaaaa", L"aabaa", L"aaacab", L"cdabcdab", L"abcdabcd", L"xyzabcdxyz" }; for (auto n : needles) { auto nlen = std::wcslen(n); auto ne = n + nlen; default_searcher d(n, ne); boyer_moore_searcher bm(n, ne); boyer_moore_horspool_searcher bmh(n, ne); for (auto h : haystacks) { auto he = h + std::wcslen(h); auto res = std::search(h, he, n, ne); auto d_res = d(h, he); VERIFY( d_res.first == res ); if (res == he) VERIFY( d_res.second == d_res.first ); else VERIFY( d_res.second == (d_res.first + nlen) ); auto bm_res = bm(h, he); VERIFY( bm_res.first == res ); if (res == he) VERIFY( bm_res.second == bm_res.first ); else VERIFY( bm_res.second == (bm_res.first + nlen) ); auto bmh_res = bmh(h, he); VERIFY( bmh_res.first == res ); if (res == he) VERIFY( bmh_res.second == bmh_res.first ); else VERIFY( bmh_res.second == (bmh_res.first + nlen) ); } } #endif } void test03() { // custom predicate struct { static unsigned char norm(unsigned char c) { return std::isalnum(c) ? c : '#'; } // equality bool operator()(char l, char r) const { return norm(l) == norm(r); } // hash std::size_t operator()(char c) const { return std::hash{}(norm(c)); } } eq; const char* needle = " foo 123 "; const char* haystack = "*****foo*123******"; auto nlen = std::strlen(needle); const char* ne = needle + nlen; const char* he = haystack + std::strlen(haystack); default_searcher d(needle, ne, eq); boyer_moore_searcher bm(needle, ne, eq, eq); boyer_moore_horspool_searcher bmh(needle, ne, eq, eq); auto res = std::search(haystack, he, needle, ne, eq); auto d_res = d(haystack, he); VERIFY( d_res.first == res ); if (res == he) VERIFY( d_res.second == d_res.first ); else VERIFY( d_res.second == (d_res.first + nlen) ); auto bm_res = bm(haystack, he); VERIFY( bm_res.first == res ); if (res == he) VERIFY( bm_res.second == bm_res.first ); else VERIFY( bm_res.second == (bm_res.first + nlen) ); auto bmh_res = bmh(haystack, he); VERIFY( bmh_res.first == res ); if (res == he) VERIFY( bmh_res.second == bmh_res.first ); else VERIFY( bmh_res.second == (bmh_res.first + nlen) ); } int main() { test01(); test02(); test03(); }