/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include #include #include #include #include #include #include #include #include #include "cmString.hxx" #define ASSERT_TRUE(x) \ do { \ if (!(x)) { \ std::cout << "ASSERT_TRUE(" #x ") failed on line " << __LINE__ << "\n"; \ return false; \ } \ } while (false) static bool testConstructDefault() { std::cout << "testConstructDefault()\n"; cm::String str; cm::String const& str_const = str; ASSERT_TRUE(bool(str_const) == false); ASSERT_TRUE(str_const.data() == nullptr); ASSERT_TRUE(str_const.size() == 0); ASSERT_TRUE(str_const.empty()); ASSERT_TRUE(str_const.is_stable()); ASSERT_TRUE(str.c_str() == nullptr); ASSERT_TRUE(str.str().empty()); ASSERT_TRUE(str.is_stable()); return true; } static bool testFromNullPtr(cm::String str) { cm::String const& str_const = str; ASSERT_TRUE(bool(str_const) == false); ASSERT_TRUE(str_const.data() == nullptr); ASSERT_TRUE(str_const.size() == 0); ASSERT_TRUE(str_const.empty()); ASSERT_TRUE(str_const.is_stable()); ASSERT_TRUE(str.c_str() == nullptr); ASSERT_TRUE(str.str().empty()); ASSERT_TRUE(str.is_stable()); return true; } static bool testConstructFromNullPtr() { std::cout << "testConstructFromNullPtr()\n"; return testFromNullPtr(nullptr); } static bool testAssignFromNullPtr() { std::cout << "testAssignFromNullPtr()\n"; cm::String str; str = nullptr; return testFromNullPtr(str); } static bool testFromCStrNull(cm::String str) { cm::String const& str_const = str; ASSERT_TRUE(bool(str_const) == false); ASSERT_TRUE(str_const.data() == nullptr); ASSERT_TRUE(str_const.size() == 0); ASSERT_TRUE(str_const.empty()); ASSERT_TRUE(str_const.is_stable()); ASSERT_TRUE(str.c_str() == nullptr); ASSERT_TRUE(str.str().empty()); ASSERT_TRUE(str.is_stable()); return true; } static bool testConstructFromCStrNull() { std::cout << "testConstructFromCStrNull()\n"; const char* null = nullptr; return testFromCStrNull(null); } static bool testAssignFromCStrNull() { std::cout << "testAssignFromCStrNull()\n"; const char* null = nullptr; cm::String str; str = null; return testFromCStrNull(str); } static char const charArray[] = "abc"; static bool testFromCharArray(cm::String str) { cm::String const& str_const = str; ASSERT_TRUE(str_const.data() != charArray); ASSERT_TRUE(str_const.size() == sizeof(charArray) - 1); ASSERT_TRUE(str_const.is_stable()); ASSERT_TRUE(str.c_str() != charArray); ASSERT_TRUE(str.is_stable()); cm::String substr = str.substr(1); cm::String const& substr_const = substr; ASSERT_TRUE(substr_const.data() != &charArray[1]); ASSERT_TRUE(substr_const.size() == 2); ASSERT_TRUE(!substr_const.is_stable()); ASSERT_TRUE(substr.c_str() != &charArray[1]); ASSERT_TRUE(!substr.is_stable()); return true; } static bool testConstructFromCharArray() { std::cout << "testConstructFromCharArray()\n"; return testFromCharArray(charArray); } static bool testAssignFromCharArray() { std::cout << "testAssignFromCharArray()\n"; cm::String str; str = charArray; return testFromCharArray(str); } static const char* cstr = "abc"; static bool testFromCStr(cm::String const& str) { ASSERT_TRUE(str.data() != cstr); ASSERT_TRUE(str.size() == 3); ASSERT_TRUE(std::strncmp(str.data(), cstr, 3) == 0); ASSERT_TRUE(str.is_stable()); return true; } static bool testConstructFromCStr() { std::cout << "testConstructFromCStr()\n"; return testFromCStr(cstr); } static bool testAssignFromCStr() { std::cout << "testAssignFromCStr()\n"; cm::String str; str = cstr; return testFromCStr(str); } static const std::string stdstr = "abc"; static bool testFromStdString(cm::String const& str) { #if defined(_GLIBCXX_USE_CXX11_ABI) && _GLIBCXX_USE_CXX11_ABI // It would be nice to check this everywhere, but several platforms // still use a CoW implementation even in C++11. ASSERT_TRUE(str.data() != stdstr.data()); #endif ASSERT_TRUE(str.size() == 3); ASSERT_TRUE(std::strncmp(str.data(), stdstr.data(), 3) == 0); ASSERT_TRUE(str.is_stable()); return true; } static bool testConstructFromStdString() { std::cout << "testConstructFromStdString()\n"; return testFromStdString(stdstr); } static bool testAssignFromStdString() { std::cout << "testAssignFromStdString()\n"; cm::String str; str = stdstr; return testFromStdString(str); } static bool testConstructFromView() { std::cout << "testConstructFromView()\n"; cm::string_view view = cstr; return testFromCStr(cm::String(view)); } static bool testAssignFromView() { std::cout << "testAssignFromView()\n"; cm::string_view view = cstr; cm::String str; str = view; return testFromCStr(str); } static bool testFromChar(cm::String const& str) { ASSERT_TRUE(str.size() == 1); ASSERT_TRUE(std::strncmp(str.data(), "a", 1) == 0); ASSERT_TRUE(str.is_stable()); return true; } static bool testConstructFromChar() { std::cout << "testConstructFromChar()\n"; return testFromChar('a'); } static bool testAssignFromChar() { std::cout << "testAssignFromChar()\n"; cm::String str; str = 'a'; return testFromChar(str); } static bool testConstructFromInitList() { std::cout << "testConstructFromInitList()\n"; cm::String const str{ 'a', 'b', 'c' }; ASSERT_TRUE(str.size() == 3); ASSERT_TRUE(std::strncmp(str.data(), "abc", 3) == 0); ASSERT_TRUE(str.is_stable()); return true; } static bool testAssignFromInitList() { std::cout << "testAssignFromInitList()\n"; cm::String str; str = { 'a', 'b', 'c' }; ASSERT_TRUE(str.size() == 3); ASSERT_TRUE(std::strncmp(str.data(), "abc", 3) == 0); ASSERT_TRUE(str.is_stable()); return true; } static bool testConstructFromBuffer() { std::cout << "testConstructFromBuffer()\n"; cm::String const str(cstr, 3); return testFromCStr(str); } static bool testConstructFromInputIterator() { std::cout << "testConstructFromInputIterator()\n"; cm::String const str(cstr, cstr + 3); ASSERT_TRUE(str.data() != cstr); ASSERT_TRUE(str.size() == 3); ASSERT_TRUE(std::strncmp(str.data(), cstr, 3) == 0); ASSERT_TRUE(str.is_stable()); return true; } static bool testConstructFromN() { std::cout << "testConstructFromN()\n"; cm::String const str(3, 'a'); ASSERT_TRUE(str.size() == 3); ASSERT_TRUE(std::strncmp(str.data(), "aaa", 3) == 0); ASSERT_TRUE(str.is_stable()); return true; } static const auto staticStringView = "abc"_s; static bool testFromStaticStringView(cm::String str) { cm::String const& str_const = str; ASSERT_TRUE(str_const.data() == staticStringView.data()); ASSERT_TRUE(str_const.size() == staticStringView.size()); ASSERT_TRUE(!str_const.is_stable()); ASSERT_TRUE(str.c_str() == staticStringView); ASSERT_TRUE(!str.is_stable()); cm::String substr = str.substr(1); cm::String const& substr_const = substr; ASSERT_TRUE(substr_const.data() == &staticStringView[1]); ASSERT_TRUE(substr_const.size() == 2); ASSERT_TRUE(!substr_const.is_stable()); ASSERT_TRUE(substr.c_str() == &staticStringView[1]); ASSERT_TRUE(!substr.is_stable()); return true; } static bool testConstructFromStaticStringView() { std::cout << "testConstructFromStaticStringView()\n"; return testFromStaticStringView(cm::String(staticStringView)); } static bool testAssignFromStaticStringView() { std::cout << "testAssignFromStaticStringView()\n"; cm::String str; str = staticStringView; return testFromStaticStringView(str); } static bool testConstructCopy() { std::cout << "testConstructCopy()\n"; cm::String s1 = std::string("abc"); cm::String s2 = s1; ASSERT_TRUE(s1.data() == s2.data()); ASSERT_TRUE(s1.size() == 3); ASSERT_TRUE(s2.size() == 3); ASSERT_TRUE(std::strncmp(s2.data(), "abc", 3) == 0); ASSERT_TRUE(s1.is_stable()); ASSERT_TRUE(s2.is_stable()); return true; } static bool testConstructMove() { std::cout << "testConstructMove()\n"; cm::String s1 = std::string("abc"); cm::String s2 = std::move(s1); #ifndef __clang_analyzer__ /* cplusplus.Move */ ASSERT_TRUE(s1.data() == nullptr); ASSERT_TRUE(s1.size() == 0); ASSERT_TRUE(s2.size() == 3); ASSERT_TRUE(std::strncmp(s2.data(), "abc", 3) == 0); ASSERT_TRUE(s1.is_stable()); ASSERT_TRUE(s2.is_stable()); #endif return true; } static bool testAssignCopy() { std::cout << "testAssignCopy()\n"; cm::String s1 = std::string("abc"); cm::String s2; s2 = s1; ASSERT_TRUE(s1.data() == s2.data()); ASSERT_TRUE(s1.size() == 3); ASSERT_TRUE(s2.size() == 3); ASSERT_TRUE(std::strncmp(s2.data(), "abc", 3) == 0); ASSERT_TRUE(s1.is_stable()); ASSERT_TRUE(s2.is_stable()); return true; } static bool testAssignMove() { std::cout << "testAssignMove()\n"; cm::String s1 = std::string("abc"); cm::String s2; s2 = std::move(s1); #ifndef __clang_analyzer__ /* cplusplus.Move */ ASSERT_TRUE(s1.data() == nullptr); ASSERT_TRUE(s1.size() == 0); ASSERT_TRUE(s2.size() == 3); ASSERT_TRUE(std::strncmp(s2.data(), "abc", 3) == 0); ASSERT_TRUE(s1.is_stable()); ASSERT_TRUE(s2.is_stable()); #endif return true; } static bool testOperatorBool() { std::cout << "testOperatorBool()\n"; cm::String str; ASSERT_TRUE(!str); str = ""; ASSERT_TRUE(str); str = static_cast(nullptr); ASSERT_TRUE(!str); str = std::string(); ASSERT_TRUE(str); str = nullptr; ASSERT_TRUE(!str); return true; } static bool testOperatorIndex() { std::cout << "testOperatorIndex()\n"; cm::String str = "abc"; ASSERT_TRUE(str[0] == 'a'); ASSERT_TRUE(str[1] == 'b'); ASSERT_TRUE(str[2] == 'c'); return true; } static bool testOperatorPlusEqual() { std::cout << "testOperatorPlusEqual()\n"; cm::String str = "a"; str += "b"; { const char* c = "c"; str += c; } str += 'd'; str += std::string("e"); str += cm::string_view("f", 1); str += cm::String("g"); ASSERT_TRUE(str.size() == 7); ASSERT_TRUE(std::strncmp(str.data(), "abcdefg", 7) == 0); ASSERT_TRUE(str.is_stable()); return true; } static bool testOperatorCompare() { std::cout << "testOperatorCompare()\n"; cm::String str = "b"; { ASSERT_TRUE(str == "b"); ASSERT_TRUE("b" == str); ASSERT_TRUE(str != "a"); ASSERT_TRUE("a" != str); ASSERT_TRUE(str < "c"); ASSERT_TRUE("a" < str); ASSERT_TRUE(str > "a"); ASSERT_TRUE("c" > str); ASSERT_TRUE(str <= "b"); ASSERT_TRUE("b" <= str); ASSERT_TRUE(str >= "b"); ASSERT_TRUE("b" >= str); } { const char* a = "a"; const char* b = "b"; const char* c = "c"; ASSERT_TRUE(str == b); ASSERT_TRUE(b == str); ASSERT_TRUE(str != a); ASSERT_TRUE(a != str); ASSERT_TRUE(str < c); ASSERT_TRUE(a < str); ASSERT_TRUE(str > a); ASSERT_TRUE(c > str); ASSERT_TRUE(str <= b); ASSERT_TRUE(b <= str); ASSERT_TRUE(str >= b); ASSERT_TRUE(b >= str); } { ASSERT_TRUE(str == 'b'); ASSERT_TRUE('b' == str); ASSERT_TRUE(str != 'a'); ASSERT_TRUE('a' != str); ASSERT_TRUE(str < 'c'); ASSERT_TRUE('a' < str); ASSERT_TRUE(str > 'a'); ASSERT_TRUE('c' > str); ASSERT_TRUE(str <= 'b'); ASSERT_TRUE('b' <= str); ASSERT_TRUE(str >= 'b'); ASSERT_TRUE('b' >= str); } { std::string const a = "a"; std::string const b = "b"; std::string const c = "c"; ASSERT_TRUE(str == b); ASSERT_TRUE(b == str); ASSERT_TRUE(str != a); ASSERT_TRUE(a != str); ASSERT_TRUE(str < c); ASSERT_TRUE(a < str); ASSERT_TRUE(str > a); ASSERT_TRUE(c > str); ASSERT_TRUE(str <= b); ASSERT_TRUE(b <= str); ASSERT_TRUE(str >= b); ASSERT_TRUE(b >= str); } { cm::string_view const a("a", 1); cm::string_view const b("b", 1); cm::string_view const c("c", 1); ASSERT_TRUE(str == b); ASSERT_TRUE(b == str); ASSERT_TRUE(str != a); ASSERT_TRUE(a != str); ASSERT_TRUE(str < c); ASSERT_TRUE(a < str); ASSERT_TRUE(str > a); ASSERT_TRUE(c > str); ASSERT_TRUE(str <= b); ASSERT_TRUE(b <= str); ASSERT_TRUE(str >= b); ASSERT_TRUE(b >= str); } { cm::String const a("a"); cm::String const b("b"); cm::String const c("c"); ASSERT_TRUE(str == b); ASSERT_TRUE(b == str); ASSERT_TRUE(str != a); ASSERT_TRUE(a != str); ASSERT_TRUE(str < c); ASSERT_TRUE(a < str); ASSERT_TRUE(str > a); ASSERT_TRUE(c > str); ASSERT_TRUE(str <= b); ASSERT_TRUE(b <= str); ASSERT_TRUE(str >= b); ASSERT_TRUE(b >= str); } return true; } static bool testOperatorStream() { std::cout << "testOperatorStream()\n"; std::ostringstream ss; ss << "a" << cm::String("b") << 'c'; ASSERT_TRUE(ss.str() == "abc"); return true; } static bool testOperatorStdStringPlusEqual() { std::cout << "testOperatorStdStringPlusEqual()\n"; std::string s = "a"; s += cm::String("b"); ASSERT_TRUE(s == "ab"); return true; } static bool testMethod_borrow() { std::cout << "testMethod_borrow()\n"; std::string s = "abc"; cm::String str = cm::String::borrow(s); ASSERT_TRUE(str.data() == s.data()); ASSERT_TRUE(str.size() == s.size()); ASSERT_TRUE(str == s); return true; } static bool testMethod_view() { std::cout << "testMethod_view()\n"; cm::String str; ASSERT_TRUE(str.view().data() == nullptr); ASSERT_TRUE(str.view().size() == 0); str = charArray; ASSERT_TRUE(str.view().data() != charArray); ASSERT_TRUE(str.view().size() == sizeof(charArray) - 1); str = std::string("abc"); ASSERT_TRUE(str.view().size() == 3); ASSERT_TRUE(strncmp(str.view().data(), "abc", 3) == 0); return true; } static bool testMethod_empty() { std::cout << "testMethod_empty()\n"; cm::String str; ASSERT_TRUE(str.empty()); str = ""; ASSERT_TRUE(str.empty()); str = "abc"; ASSERT_TRUE(!str.empty()); str = std::string(); ASSERT_TRUE(str.empty()); str = std::string("abc"); ASSERT_TRUE(!str.empty()); return true; } static bool testMethod_length() { std::cout << "testMethod_length()\n"; cm::String str; ASSERT_TRUE(str.length() == 0); str = ""; ASSERT_TRUE(str.length() == 0); str = "abc"; ASSERT_TRUE(str.length() == 3); str = std::string(); ASSERT_TRUE(str.length() == 0); str = std::string("abc"); ASSERT_TRUE(str.length() == 3); return true; } static bool testMethod_at() { std::cout << "testMethod_at()\n"; cm::String str = "abc"; ASSERT_TRUE(str.at(0) == 'a'); ASSERT_TRUE(str.at(1) == 'b'); ASSERT_TRUE(str.at(2) == 'c'); bool except_out_of_range = false; try { str.at(3); } catch (std::out_of_range&) { except_out_of_range = true; } ASSERT_TRUE(except_out_of_range); return true; } static bool testMethod_front_back() { std::cout << "testMethod_front_back()\n"; cm::String str = "abc"; ASSERT_TRUE(str.front() == 'a'); ASSERT_TRUE(str.back() == 'c'); return true; } static bool testMethodIterators() { std::cout << "testMethodIterators()\n"; cm::String str = "abc"; ASSERT_TRUE(*str.begin() == 'a'); ASSERT_TRUE(*(str.end() - 1) == 'c'); ASSERT_TRUE(str.end() - str.begin() == 3); ASSERT_TRUE(*str.cbegin() == 'a'); ASSERT_TRUE(*(str.cend() - 1) == 'c'); ASSERT_TRUE(str.cend() - str.cbegin() == 3); ASSERT_TRUE(*str.rbegin() == 'c'); ASSERT_TRUE(*(str.rend() - 1) == 'a'); ASSERT_TRUE(str.rend() - str.rbegin() == 3); ASSERT_TRUE(*str.crbegin() == 'c'); ASSERT_TRUE(*(str.crend() - 1) == 'a'); ASSERT_TRUE(str.crend() - str.crbegin() == 3); return true; } static bool testMethod_clear() { std::cout << "testMethod_clear()\n"; cm::String str = "abc"; ASSERT_TRUE(!str.empty()); str.clear(); ASSERT_TRUE(str.empty()); return true; } static bool testMethod_insert() { std::cout << "testMethod_insert()\n"; cm::String str = "abc"; str.insert(1, 2, 'd').insert(0, 1, '_'); ASSERT_TRUE(str.size() == 6); ASSERT_TRUE(std::strncmp(str.data(), "_addbc", 6) == 0); return true; } static bool testMethod_erase() { std::cout << "testMethod_erase()\n"; cm::String str = "abcdefg"; str.erase(5).erase(1, 2); ASSERT_TRUE(str.size() == 3); ASSERT_TRUE(std::strncmp(str.data(), "ade", 3) == 0); return true; } static bool testMethod_push_back() { std::cout << "testMethod_push_back()\n"; cm::String str = "abc"; str.push_back('d'); ASSERT_TRUE(str == "abcd"); return true; } static bool testMethod_pop_back() { std::cout << "testMethod_pop_back()\n"; cm::String str = "abc"; str.pop_back(); ASSERT_TRUE(str == "ab"); return true; } static bool testMethod_replace() { std::cout << "testMethod_replace()\n"; { cm::String str = "abcd"; const char* bc = "bc"; ASSERT_TRUE(str.replace(1, 2, "BC") == "aBCd"); ASSERT_TRUE(str.replace(1, 2, bc) == "abcd"); ASSERT_TRUE(str.replace(1, 2, 'x') == "axd"); ASSERT_TRUE(str.replace(1, 1, std::string("bc")) == "abcd"); ASSERT_TRUE(str.replace(1, 2, cm::string_view("BC", 2)) == "aBCd"); ASSERT_TRUE(str.replace(1, 2, cm::String("bc")) == "abcd"); } { cm::String str = "abcd"; const char* bc = "bc"; ASSERT_TRUE(str.replace(str.begin() + 1, str.begin() + 3, "BC") == "aBCd"); ASSERT_TRUE(str.replace(str.begin() + 1, str.begin() + 3, bc) == "abcd"); ASSERT_TRUE(str.replace(str.begin() + 1, str.begin() + 3, 'x') == "axd"); ASSERT_TRUE(str.replace(str.begin() + 1, str.begin() + 2, std::string("bc")) == "abcd"); ASSERT_TRUE(str.replace(str.begin() + 1, str.begin() + 3, cm::string_view("BC", 2)) == "aBCd"); ASSERT_TRUE(str.replace(str.begin() + 1, str.begin() + 3, cm::String("bc")) == "abcd"); } { cm::String str = "abcd"; const char* bc = "_bc"; ASSERT_TRUE(str.replace(1, 2, "_BC_", 1, 2) == "aBCd"); ASSERT_TRUE(str.replace(1, 2, bc, 1) == "abcd"); ASSERT_TRUE(str.replace(1, 2, 'x', 0) == "axd"); ASSERT_TRUE(str.replace(1, 1, std::string("_bc_"), 1, 2) == "abcd"); ASSERT_TRUE(str.replace(1, 2, cm::string_view("_BC", 3), 1) == "aBCd"); ASSERT_TRUE(str.replace(1, 2, cm::String("_bc_"), 1, 2) == "abcd"); } { cm::String str = "abcd"; const char* bc = "_bc_"; ASSERT_TRUE(str.replace(1, 2, 2, 'x') == "axxd"); ASSERT_TRUE(str.replace(str.begin() + 1, str.begin() + 3, 2, 'y') == "ayyd"); ASSERT_TRUE( str.replace(str.begin() + 1, str.begin() + 3, bc + 1, bc + 3) == "abcd"); } return true; } static bool testMethod_copy() { std::cout << "testMethod_copy()\n"; cm::String str = "abc"; char dest[2]; cm::String::size_type n = str.copy(dest, 2, 1); ASSERT_TRUE(n == 2); ASSERT_TRUE(std::strncmp(dest, "bc", 2) == 0); n = str.copy(dest, 2); ASSERT_TRUE(n == 2); ASSERT_TRUE(std::strncmp(dest, "ab", 2) == 0); return true; } static bool testMethod_resize() { std::cout << "testMethod_resize()\n"; cm::String str = "abc"; str.resize(3); ASSERT_TRUE(str == "abc"); str.resize(2); ASSERT_TRUE(str == "ab"); str.resize(3, 'c'); ASSERT_TRUE(str == "abc"); return true; } static bool testMethod_swap() { std::cout << "testMethod_swap()\n"; cm::String str1 = std::string("1"); cm::String str2 = std::string("2"); str1.swap(str2); ASSERT_TRUE(str1 == "2"); ASSERT_TRUE(str2 == "1"); return true; } static bool testMethod_substr_AtEnd(cm::String str) { cm::String substr = str.substr(1); ASSERT_TRUE(substr.data() == str.data() + 1); ASSERT_TRUE(substr.size() == 2); ASSERT_TRUE(!substr.is_stable()); // c_str() at the end of the buffer does not internally mutate. ASSERT_TRUE(std::strcmp(substr.c_str(), "bc") == 0); ASSERT_TRUE(substr.c_str() == str.data() + 1); ASSERT_TRUE(substr.data() == str.data() + 1); ASSERT_TRUE(substr.size() == 2); ASSERT_TRUE(!substr.is_stable()); // str() internally mutates. ASSERT_TRUE(substr.str() == "bc"); ASSERT_TRUE(substr.is_stable()); ASSERT_TRUE(substr.data() != str.data() + 1); ASSERT_TRUE(substr.size() == 2); ASSERT_TRUE(substr.c_str() != str.data() + 1); ASSERT_TRUE(std::strcmp(substr.c_str(), "bc") == 0); return true; } static bool testMethod_substr_AtEndBorrowed() { std::cout << "testMethod_substr_AtEndBorrowed()\n"; return testMethod_substr_AtEnd(cm::String("abc"_s)); } static bool testMethod_substr_AtEndOwned() { std::cout << "testMethod_substr_AtEndOwned()\n"; return testMethod_substr_AtEnd(std::string("abc")); } static bool testMethod_substr_AtStart(cm::String str) { { cm::String substr = str.substr(0, 2); ASSERT_TRUE(substr.data() == str.data()); ASSERT_TRUE(substr.size() == 2); // c_str() not at the end of the buffer internally mutates. const char* substr_c = substr.c_str(); ASSERT_TRUE(std::strcmp(substr_c, "ab") == 0); ASSERT_TRUE(substr_c != str.data()); ASSERT_TRUE(substr.data() != str.data()); ASSERT_TRUE(substr.size() == 2); ASSERT_TRUE(substr.is_stable()); // str() does not need to internally mutate after c_str() did so ASSERT_TRUE(substr.str() == "ab"); ASSERT_TRUE(substr.is_stable()); ASSERT_TRUE(substr.data() == substr_c); ASSERT_TRUE(substr.size() == 2); ASSERT_TRUE(substr.c_str() == substr_c); } { cm::String substr = str.substr(0, 2); ASSERT_TRUE(substr.data() == str.data()); ASSERT_TRUE(substr.size() == 2); ASSERT_TRUE(!substr.is_stable()); // str() internally mutates. ASSERT_TRUE(substr.str() == "ab"); ASSERT_TRUE(substr.is_stable()); ASSERT_TRUE(substr.data() != str.data()); ASSERT_TRUE(substr.size() == 2); ASSERT_TRUE(substr.c_str() != str.data()); // c_str() does not internally after str() did so const char* substr_c = substr.c_str(); ASSERT_TRUE(std::strcmp(substr_c, "ab") == 0); ASSERT_TRUE(substr_c == substr.data()); ASSERT_TRUE(substr.size() == 2); ASSERT_TRUE(substr.is_stable()); } return true; } static bool testMethod_substr_AtStartBorrowed() { std::cout << "testMethod_substr_AtStartBorrowed()\n"; return testMethod_substr_AtStart(cm::String("abc"_s)); } static bool testMethod_substr_AtStartOwned() { std::cout << "testMethod_substr_AtStartOwned()\n"; return testMethod_substr_AtStart(std::string("abc")); } static bool testMethod_compare() { std::cout << "testMethod_compare()\n"; cm::String str = "b"; ASSERT_TRUE(str.compare("a") > 0); ASSERT_TRUE(str.compare("b") == 0); ASSERT_TRUE(str.compare("c") < 0); { const char* a = "a"; const char* b = "b"; const char* c = "c"; ASSERT_TRUE(str.compare(a) > 0); ASSERT_TRUE(str.compare(b) == 0); ASSERT_TRUE(str.compare(c) < 0); } ASSERT_TRUE(str.compare('a') > 0); ASSERT_TRUE(str.compare('b') == 0); ASSERT_TRUE(str.compare('c') < 0); ASSERT_TRUE(str.compare(std::string("a")) > 0); ASSERT_TRUE(str.compare(std::string("b")) == 0); ASSERT_TRUE(str.compare(std::string("c")) < 0); ASSERT_TRUE(str.compare(cm::string_view("a_", 1)) > 0); ASSERT_TRUE(str.compare(cm::string_view("b_", 1)) == 0); ASSERT_TRUE(str.compare(cm::string_view("c_", 1)) < 0); ASSERT_TRUE(str.compare(cm::String("a")) > 0); ASSERT_TRUE(str.compare(cm::String("b")) == 0); ASSERT_TRUE(str.compare(cm::String("c")) < 0); ASSERT_TRUE(str.compare(0, 1, cm::string_view("a", 1)) > 0); ASSERT_TRUE(str.compare(1, 0, cm::string_view("", 0)) == 0); ASSERT_TRUE(str.compare(0, 1, cm::string_view("ac", 2), 1, 1) < 0); ASSERT_TRUE(str.compare(1, 0, "") == 0); ASSERT_TRUE(str.compare(1, 0, "_", 0) == 0); return true; } static bool testMethod_find() { std::cout << "testMethod_find()\n"; cm::String str = "abcabc"; ASSERT_TRUE(str.find("a") == 0); ASSERT_TRUE(str.find("a", 1) == 3); { const char* a = "a"; ASSERT_TRUE(str.find(a) == 0); ASSERT_TRUE(str.find(a, 1) == 3); } ASSERT_TRUE(str.find('a') == 0); ASSERT_TRUE(str.find('a', 1) == 3); ASSERT_TRUE(str.find(std::string("a")) == 0); ASSERT_TRUE(str.find(std::string("a"), 1) == 3); ASSERT_TRUE(str.find(cm::string_view("a_", 1)) == 0); ASSERT_TRUE(str.find(cm::string_view("a_", 1), 1) == 3); ASSERT_TRUE(str.find(cm::String("a")) == 0); ASSERT_TRUE(str.find(cm::String("a"), 1) == 3); ASSERT_TRUE(str.find("ab_", 1, 2) == 3); return true; } static bool testMethod_rfind() { std::cout << "testMethod_rfind()\n"; cm::String str = "abcabc"; ASSERT_TRUE(str.rfind("a") == 3); ASSERT_TRUE(str.rfind("a", 1) == 0); { const char* a = "a"; ASSERT_TRUE(str.rfind(a) == 3); ASSERT_TRUE(str.rfind(a, 1) == 0); } ASSERT_TRUE(str.rfind('a') == 3); ASSERT_TRUE(str.rfind('a', 1) == 0); ASSERT_TRUE(str.rfind(std::string("a")) == 3); ASSERT_TRUE(str.rfind(std::string("a"), 1) == 0); ASSERT_TRUE(str.rfind(cm::string_view("a_", 1)) == 3); ASSERT_TRUE(str.rfind(cm::string_view("a_", 1), 1) == 0); ASSERT_TRUE(str.rfind(cm::String("a")) == 3); ASSERT_TRUE(str.rfind(cm::String("a"), 1) == 0); ASSERT_TRUE(str.rfind("ab_", 1, 2) == 0); return true; } static bool testMethod_find_first_of() { std::cout << "testMethod_find_first_of()\n"; cm::String str = "abcabc"; ASSERT_TRUE(str.find_first_of("_a") == 0); ASSERT_TRUE(str.find_first_of("_a", 1) == 3); { const char* a = "_a"; ASSERT_TRUE(str.find_first_of(a) == 0); ASSERT_TRUE(str.find_first_of(a, 1) == 3); } ASSERT_TRUE(str.find_first_of('a') == 0); ASSERT_TRUE(str.find_first_of('a', 1) == 3); ASSERT_TRUE(str.find_first_of(std::string("_a")) == 0); ASSERT_TRUE(str.find_first_of(std::string("_a"), 1) == 3); ASSERT_TRUE(str.find_first_of(cm::string_view("ba_", 1)) == 1); ASSERT_TRUE(str.find_first_of(cm::string_view("ba_", 1), 2) == 4); ASSERT_TRUE(str.find_first_of(cm::String("ab")) == 0); ASSERT_TRUE(str.find_first_of(cm::String("ab"), 2) == 3); ASSERT_TRUE(str.find_first_of("_ab", 1, 2) == 3); return true; } static bool testMethod_find_first_not_of() { std::cout << "testMethod_find_first_not_of()\n"; cm::String str = "abcabc"; ASSERT_TRUE(str.find_first_not_of("_a") == 1); ASSERT_TRUE(str.find_first_not_of("_a", 2) == 2); { const char* a = "_a"; ASSERT_TRUE(str.find_first_not_of(a) == 1); ASSERT_TRUE(str.find_first_not_of(a, 2) == 2); } ASSERT_TRUE(str.find_first_not_of('a') == 1); ASSERT_TRUE(str.find_first_not_of('a', 2) == 2); ASSERT_TRUE(str.find_first_not_of(std::string("_a")) == 1); ASSERT_TRUE(str.find_first_not_of(std::string("_a"), 2) == 2); ASSERT_TRUE(str.find_first_not_of(cm::string_view("ba_", 1)) == 0); ASSERT_TRUE(str.find_first_not_of(cm::string_view("ba_", 1), 1) == 2); ASSERT_TRUE(str.find_first_not_of(cm::String("_a")) == 1); ASSERT_TRUE(str.find_first_not_of(cm::String("_a"), 2) == 2); ASSERT_TRUE(str.find_first_not_of("_bca", 1, 3) == 3); return true; } static bool testMethod_find_last_of() { std::cout << "testMethod_find_last_of()\n"; cm::String str = "abcabc"; ASSERT_TRUE(str.find_last_of("_a") == 3); ASSERT_TRUE(str.find_last_of("_a", 1) == 0); { const char* a = "_a"; ASSERT_TRUE(str.find_last_of(a) == 3); ASSERT_TRUE(str.find_last_of(a, 1) == 0); } ASSERT_TRUE(str.find_last_of('a') == 3); ASSERT_TRUE(str.find_last_of('a', 1) == 0); ASSERT_TRUE(str.find_last_of(std::string("_a")) == 3); ASSERT_TRUE(str.find_last_of(std::string("_a"), 1) == 0); ASSERT_TRUE(str.find_last_of(cm::string_view("ba_", 1)) == 4); ASSERT_TRUE(str.find_last_of(cm::string_view("ba_", 1), 2) == 1); ASSERT_TRUE(str.find_last_of(cm::String("ab")) == 4); ASSERT_TRUE(str.find_last_of(cm::String("ab"), 2) == 1); ASSERT_TRUE(str.find_last_of("_ab", 1, 2) == 0); return true; } static bool testMethod_find_last_not_of() { std::cout << "testMethod_find_last_not_of()\n"; cm::String str = "abcabc"; ASSERT_TRUE(str.find_last_not_of("_a") == 5); ASSERT_TRUE(str.find_last_not_of("_a", 1) == 1); { const char* a = "_a"; ASSERT_TRUE(str.find_last_not_of(a) == 5); ASSERT_TRUE(str.find_last_not_of(a, 1) == 1); } ASSERT_TRUE(str.find_last_not_of('a') == 5); ASSERT_TRUE(str.find_last_not_of('a', 1) == 1); ASSERT_TRUE(str.find_last_not_of(std::string("_a")) == 5); ASSERT_TRUE(str.find_last_not_of(std::string("_a"), 1) == 1); ASSERT_TRUE(str.find_last_not_of(cm::string_view("cb_", 1)) == 4); ASSERT_TRUE(str.find_last_not_of(cm::string_view("cb_", 1), 2) == 1); ASSERT_TRUE(str.find_last_not_of(cm::String("_a")) == 5); ASSERT_TRUE(str.find_last_not_of(cm::String("_a"), 1) == 1); ASSERT_TRUE(str.find_last_not_of("cb_", 2, 2) == 0); return true; } static bool testAddition() { std::cout << "testAddition()\n"; { ASSERT_TRUE(cm::String("a") + "b" == "ab"); ASSERT_TRUE("ab" == "a" + cm::String("b")); ASSERT_TRUE("a" + cm::String("b") + "c" == "abc"); ASSERT_TRUE("abc" == "a" + cm::String("b") + "c"); ASSERT_TRUE("a" + (cm::String("b") + "c") + "d" == "abcd"); ASSERT_TRUE("abcd" == "a" + (cm::String("b") + "c") + "d"); } { ASSERT_TRUE(cm::String("a"_s) + "b"_s == "ab"_s); ASSERT_TRUE("ab"_s == "a"_s + cm::String("b"_s)); ASSERT_TRUE("a"_s + cm::String("b"_s) + "c"_s == "abc"_s); ASSERT_TRUE("abc"_s == "a"_s + cm::String("b"_s) + "c"_s); ASSERT_TRUE("a"_s + (cm::String("b"_s) + "c"_s) + "d"_s == "abcd"_s); ASSERT_TRUE("abcd"_s == "a"_s + (cm::String("b"_s) + "c"_s) + "d"_s); } { const char* a = "a"; const char* b = "b"; const char* ab = "ab"; ASSERT_TRUE(cm::String(a) + b == ab); ASSERT_TRUE(ab == a + cm::String(b)); const char* c = "c"; const char* abc = "abc"; ASSERT_TRUE(a + cm::String(b) + c == abc); ASSERT_TRUE(abc == a + cm::String(b) + c); const char* d = "d"; const char* abcd = "abcd"; ASSERT_TRUE(a + (cm::String(b) + c) + d == abcd); ASSERT_TRUE(abcd == a + (cm::String(b) + c) + d); } { ASSERT_TRUE(cm::String('a') + 'b' == "ab"); ASSERT_TRUE("ab" == 'a' + cm::String('b')); ASSERT_TRUE('a' + cm::String('b') + 'c' == "abc"); ASSERT_TRUE("abc" == 'a' + cm::String('b') + 'c'); ASSERT_TRUE('a' + (cm::String('b') + 'c') + 'd' == "abcd"); ASSERT_TRUE("abcd" == 'a' + (cm::String('b') + 'c') + 'd'); } { std::string a = "a"; std::string b = "b"; std::string ab = "ab"; ASSERT_TRUE(cm::String(a) + b == ab); ASSERT_TRUE(ab == a + cm::String(b)); std::string c = "c"; std::string abc = "abc"; ASSERT_TRUE(a + cm::String(b) + c == abc); ASSERT_TRUE(abc == a + cm::String(b) + c); std::string d = "d"; std::string abcd = "abcd"; ASSERT_TRUE(a + (cm::String(b) + c) + d == abcd); ASSERT_TRUE(abcd == a + (cm::String(b) + c) + d); } { cm::string_view a("a", 1); cm::string_view b("b", 1); cm::string_view ab("ab", 2); ASSERT_TRUE(cm::String(a) + b == ab); ASSERT_TRUE(ab == a + cm::String(b)); cm::string_view c("c", 1); cm::string_view abc("abc", 3); ASSERT_TRUE(a + cm::String(b) + c == abc); ASSERT_TRUE(abc == a + cm::String(b) + c); cm::string_view d("d", 1); cm::string_view abcd("abcd", 4); ASSERT_TRUE(a + (cm::String(b) + c) + d == abcd); ASSERT_TRUE(abcd == a + (cm::String(b) + c) + d); } { cm::String a = "a"; cm::String b = "b"; cm::String ab = "ab"; ASSERT_TRUE(a + b == ab); ASSERT_TRUE(ab == a + b); cm::String c = "c"; cm::String abc = "abc"; ASSERT_TRUE(a + cm::String(b) + c == abc); ASSERT_TRUE(abc == a + cm::String(b) + c); cm::String d = "d"; cm::String abcd = "abcd"; ASSERT_TRUE(a + (cm::String(b) + c) + d == abcd); ASSERT_TRUE(abcd == a + (cm::String(b) + c) + d); } { cm::String str; str += "a" + cm::String("b") + 'c'; ASSERT_TRUE(str == "abc"); ASSERT_TRUE(str.is_stable()); } { std::string s; s += "a" + cm::String("b") + 'c'; ASSERT_TRUE(s == "abc"); } { std::ostringstream ss; ss << ("a" + cm::String("b") + 'c'); ASSERT_TRUE(ss.str() == "abc"); } return true; } static bool testStability() { std::cout << "testStability()\n"; cm::String str("abc"_s); ASSERT_TRUE(!str.is_stable()); ASSERT_TRUE(str.str_if_stable() == nullptr); str.stabilize(); ASSERT_TRUE(str.is_stable()); std::string const* str_if_stable = str.str_if_stable(); ASSERT_TRUE(str_if_stable != nullptr); ASSERT_TRUE(*str_if_stable == "abc"); str.stabilize(); ASSERT_TRUE(str.is_stable()); ASSERT_TRUE(str.str_if_stable() == str_if_stable); return true; } int testString(int /*unused*/, char* /*unused*/[]) { if (!testConstructDefault()) { return 1; } if (!testConstructFromNullPtr()) { return 1; } if (!testConstructFromCStrNull()) { return 1; } if (!testConstructFromCharArray()) { return 1; } if (!testConstructFromCStr()) { return 1; } if (!testConstructFromStdString()) { return 1; } if (!testConstructFromView()) { return 1; } if (!testConstructFromChar()) { return 1; } if (!testConstructFromInitList()) { return 1; } if (!testConstructFromBuffer()) { return 1; } if (!testConstructFromInputIterator()) { return 1; } if (!testConstructFromN()) { return 1; } if (!testConstructFromStaticStringView()) { return 1; } if (!testConstructCopy()) { return 1; } if (!testConstructMove()) { return 1; } if (!testAssignCopy()) { return 1; } if (!testAssignMove()) { return 1; } if (!testAssignFromChar()) { return 1; } if (!testAssignFromView()) { return 1; } if (!testAssignFromStdString()) { return 1; } if (!testAssignFromCStr()) { return 1; } if (!testAssignFromCharArray()) { return 1; } if (!testAssignFromCStrNull()) { return 1; } if (!testAssignFromNullPtr()) { return 1; } if (!testAssignFromInitList()) { return 1; } if (!testAssignFromStaticStringView()) { return 1; } if (!testOperatorBool()) { return 1; } if (!testOperatorIndex()) { return 1; } if (!testOperatorPlusEqual()) { return 1; } if (!testOperatorCompare()) { return 1; } if (!testOperatorStream()) { return 1; } if (!testOperatorStdStringPlusEqual()) { return 1; } if (!testMethod_borrow()) { return 1; } if (!testMethod_view()) { return 1; } if (!testMethod_empty()) { return 1; } if (!testMethod_length()) { return 1; } if (!testMethod_at()) { return 1; } if (!testMethod_front_back()) { return 1; } if (!testMethod_clear()) { return 1; } if (!testMethod_insert()) { return 1; } if (!testMethod_erase()) { return 1; } if (!testMethod_push_back()) { return 1; } if (!testMethod_pop_back()) { return 1; } if (!testMethod_replace()) { return 1; } if (!testMethod_copy()) { return 1; } if (!testMethod_resize()) { return 1; } if (!testMethod_swap()) { return 1; } if (!testMethodIterators()) { return 1; } if (!testMethod_substr_AtEndBorrowed()) { return 1; } if (!testMethod_substr_AtEndOwned()) { return 1; } if (!testMethod_substr_AtStartBorrowed()) { return 1; } if (!testMethod_substr_AtStartOwned()) { return 1; } if (!testMethod_compare()) { return 1; } if (!testMethod_find()) { return 1; } if (!testMethod_rfind()) { return 1; } if (!testMethod_find_first_of()) { return 1; } if (!testMethod_find_first_not_of()) { return 1; } if (!testMethod_find_last_of()) { return 1; } if (!testMethod_find_last_not_of()) { return 1; } if (!testAddition()) { return 1; } if (!testStability()) { return 1; } return 0; }