// File: string-operations.cpp #include #include #include #include #include #include "fstring.h" int main (int, char**) { printf ("----------------[ terminal ]-------------------\n"); // init current locale printf (" Locale: %s\n", std::setlocale(LC_CTYPE, "") ); if ( isatty(1) && ! std::strcmp(nl_langinfo(CODESET), "ANSI_X3.4-1968") ) { // locale C -> switch from 7bit ascii -> latin1 std::setlocale(LC_ALL, "C"); } printf (" Codeset: %s\n", nl_langinfo(CODESET)); std::cout << "--------------[ FString test ]-----------------" << std::endl; // Test: input stream (operator >>) FString in; std::cout << " Input: "; std::cin >> in; std::cout << " instream >> " << in << std::endl; // Test: output stream (operator <<) const FString& out = L"A test string for 0 \x20ac"; std::cout << " outstream << " << out << std::endl; // Test: c-string output printf (" c_str: \"%s\"\n", out.c_str()); // Test: copy a c++ string const FString& cpp_str( std::string("c++ String") ); std::cout << " cpp_str: \"" << cpp_str << "\"" << std::endl; // Test: copy a character const FString& ch('c'); std::cout << " char: '" << ch << "'" << std::endl; // Test: copy a wide character const FString& wch(L'w'); std::cout << " wchar_t: '" << wch << "'" << std::endl; // Test: utf-8 string const FString& len = "длина́"; std::cout << " length: \"" << len << "\" has " << len.getLength() << " characters" << std::endl; // Test: convert uppercase letter to lowercase const FString& lower = FString(L"InPut").toLower(); std::wcout << L" toLower: " << lower << std::endl; // Test: convert lowercase letter to uppercase const FString& upper = FString("inPut").toUpper(); std::cout << " toUpper: " << upper << std::endl; // Test: concatenate two FStrings (operator +) const FString& add1 = FString("FString + ") + FString("FString"); std::cout << " add: " << add1 << std::endl; // Test: concatenate a FString and a c++ wide string (operator +) const FString& add2 = FString("FString + ") + std::wstring(L"std::wstring"); std::cout << " add: " << add2 << std::endl; // Test: concatenate a FString and a wide string (operator +) const FString& add3 = FString("FString + ") + const_cast(L"wchar_t*"); std::cout << " add: " << add3 << std::endl; // Test: concatenate a FString and a c++ string (operator +) const FString& add4 = FString("FString + ") + std::string("std::string"); std::cout << " add: " << add4 << std::endl; // Test: concatenate a FString and a c-string (operator +) const FString& add5 = FString("FString + ") + const_cast("char*"); std::cout << " add: " << add5 << std::endl; // Test: concatenate a FString and a wide character (operator +) const FString& add6 = FString("FString + ") + wchar_t(L'w'); std::cout << " add: " << add6 << std::endl; // Test: concatenate a FString and a character (operator +) const FString& add7 = FString("FString + ") + char('c'); std::cout << " add: " << add7 << std::endl; // Test: concatenate a character and a FString (operator +) const FString& add8 = 'c' + FString(" + FString"); std::cout << " add: " << add8 << std::endl; // Test: concatenate a wide character and a FString (operator +) const FString& add9 = L'w' + FString(" + FString"); std::cout << " add: " << add9 << std::endl; // Test: concatenate a c-string and a FString (operator +) const FString& add10 = const_cast("char*") + FString(" + FString"); std::cout << " add: " << add10 << std::endl; // Test: concatenate a c++ string and a FString (operator +) const FString& add11 = std::string("std::string") + FString(" + FString"); std::cout << " add: " << add11 << std::endl; // Test: concatenate a wide string and a FString (operator +) const FString& add12 = const_cast(L"wchar_t*") + FString(" + FString"); std::cout << " add: " << add12 << std::endl; // Test: concatenate a c++ wide string and a FString (operator +) const FString& add13 = std::wstring(L"std::wstring") + FString(" + FString"); std::cout << " add: " << add13 << std::endl; // Test: compare operators ==, <=, <, >=, >, != const FString& cmp = "compare"; if ( cmp == FString("compare") ) std::cout << " cmp: == Ok" << std::endl; else std::cout << " cmp: == Not Ok" << std::endl; if ( cmp <= FString("d_compare") ) std::cout << " cmp: <= Ok" << std::endl; else std::cout << " cmp: <= Not Ok" << std::endl; if ( cmp < FString("e_compare") ) std::cout << " cmp: < Ok" << std::endl; else std::cout << " cmp: < Not Ok" << std::endl; if ( cmp >= FString("b_compare") ) std::cout << " cmp: >= Ok" << std::endl; else std::cout << " cmp: >= Not Ok" << std::endl; if ( cmp > FString("a_compare") ) std::cout << " cmp: > Ok" << std::endl; else std::cout << " cmp: > Not Ok" << std::endl; if ( cmp != FString("equal") ) std::cout << " cmp: != Ok" << std::endl; else std::cout << " cmp: != Not Ok" << std::endl; // Test: split a string with a delimiter and returns a vector (array) FString split_str = "a,b,c,d"; std::cout << " split: \"" << split_str << "\" into substrings ->"; std::vector parts = split_str.split(","); std::vector::iterator it, end; end = parts.end(); for (it = parts.begin(); it != end; ++it) std::cout << " \"" << (*it) << "\""; std::cout << std::endl; // Test: format a string with sprintf FString formatStr = ""; std::cout << " formatted: " << formatStr.sprintf("sqrt(%d) = %d", 16, 4) << std::endl; // Test: convert a string to a unsigned long interger try { const uLong ulong_num = FString("123456789").toULong(); std::cout << " toULong: " << ulong_num << std::endl; } catch (const std::invalid_argument& ex) { std::cerr << "Invalid argument: " << ex.what() << std::endl; } catch (const std::exception& ex) { std::cerr << "Arithmetic error: " << ex.what() << std::endl; } // Test: convert a string to a signed long interger try { const long long_num = FString("-9876543210").toLong(); std::cout << " toLong: " << long_num << std::endl; } catch (const std::invalid_argument& ex) { std::cerr << "Invalid argument: " << ex.what() << std::endl; } catch (const std::exception& ex) { std::cerr << "Arithmetic error: " << ex.what() << std::endl; } // Test: convert a string to a double value std::setlocale(LC_NUMERIC, "C"); try { const double double_num = FString("2.7182818284590452353").toDouble(); std::ios_base::fmtflags save_flags = std::cout.flags(); std::cout << " toDouble: " << std::setprecision(11) << double_num << std::endl; std::cout.flags(save_flags); } catch (const std::invalid_argument& ex) { std::cerr << "Invalid argument: " << ex.what() << std::endl; } catch (const std::exception& ex) { std::cerr << "Arithmetic error: " << ex.what() << std::endl; } // Test: convert integer and double value to a string FString num1, num2, num3; num1.setNumber(137); num2.setNumber(-512); num3.setNumber(3.141592653589793238L, 12); std::cout << " setNumber: " << num1 << " (unsigned)" << std::endl; std::cout << " setNumber: " << num2 << " (signed)" << std::endl; std::cout << " setNumber: " << num3 << " (long double)" << std::endl; // Test: convert and format a integer number with thousand separator std::setlocale (LC_NUMERIC, ""); FString fnum1, fnum2; #if defined(__LP64__) || defined(_LP64) // 64-bit architecture fnum1.setFormatedNumber(0xffffffffffffffff, '\''); fnum2.setFormatedNumber(-9223372036854775807); #else // 32-bit architecture fnum1.setFormatedNumber(0xffffffff, '\''); fnum2.setFormatedNumber(-2147483647); #endif std::cout << "setFormatedNumber: " << fnum1 << " (unsigned)" << std::endl; std::cout << "setFormatedNumber: " << fnum2 << " (signed)" << std::endl; // Test: remove whitespace from the end of a string const FString& trim_str = " A string \t"; std::wcout << " rtrim: \"" << trim_str.rtrim() << "\"" << std::endl; // Test: remove whitespace from the beginning of a string std::cout << " ltrim: \"" << trim_str.ltrim() << "\"" << std::endl; // Test: remove whitespace from the beginning and end of a string std::cout << " trim: \"" << trim_str.trim() << "\"" << std::endl; // Test: 11 characters from the left of the string const FString& alphabet = "a b c d e f g h i j k l m n o p q r s t u v w x y z"; std::cout << " left: \"" << alphabet.left(11) << "\"" << std::endl; // Test: extract a substring of 27 characters from position 12 std::cout << " mid: \"" << alphabet.mid(13,27) << "\"" << std::endl; // Test: 11 characters from the right of the string std::cout << " right: \"" << alphabet.right(11) << "\"" << std::endl; // Test: insert a string at index position 7 FString insert_str = "I am a string"; try { std::cout << " insert: " << insert_str.insert("changed ", 7) << std::endl; } catch (const std::out_of_range& ex) { std::cerr << "Out of Range error: " << ex.what() << std::endl; } // Test: get character access at a specified index position FString index(5); // string with five characters index = "index"; try { index[0] = L'I'; // write a wide character at position 0 printf ( " index: [0] = %c ; [4] = %c\n" , char(index[0]) , char(index[4]) ); } catch (const std::out_of_range& ex) { std::cerr << "Out of Range error: " << ex.what() << std::endl; } // Test: character access with std::iterator const FString& stringIterator = "iterator"; FString::iterator iter; iter = stringIterator.begin(); std::cout << " " << stringIterator << ": "; while ( iter != stringIterator.end() ) { std::cout << char(*iter) << "|"; ++iter; } std::cout << " (front='" << char(stringIterator.front()) << "', back='" << char(stringIterator.back()) << "')" << std::endl; // Test: overwrite string at position 10 with "for t" FString overwrite_std = "Overwrite the rest"; std::cout << "overwrite: " << overwrite_std.overwrite("for t", 10) << std::endl; // Test: remove 2 characters at position 7 FString remove_std = "A fast remove"; std::cout << " remove: " << remove_std.remove(7,2) << std::endl; // Test: includes a substring (positive test) FString include_std = "string"; if ( include_std.includes("ring") ) std::cout << " includes: \"" << include_std << "\" includes \"ring\" " << std::endl; else std::cout << " includes: \"" << include_std << "\" includes no \"ring\" " << std::endl; // Test: includes a substring (negativ test) if ( include_std.includes("data") ) std::cout << " includes: \"" << include_std << "\" includes \"data\" " << std::endl; else std::cout << " includes: \"" << include_std << "\" includes no \"data\" " << std::endl; // Test: find and replace a substring FString source_str = "computer and software"; const FString& replace_str = source_str.replace("computer", "hard-"); std::cout << " replace: " << replace_str << std::endl; // Test: convert tabs to spaces const FString& tab_str = "1234\t5678"; std::cout << " tab: " << tab_str.expandTabs() << std::endl; // Test: backspaces remove characters in the string const FString& bs_str = "t\b\bTesT\bt"; std::cout << "backspace: " << bs_str.removeBackspaces() << std::endl; // Test: delete characters remove characters in the string const FString& del_str = "apple \177\177\177pietree"; std::cout << " delete: " << del_str.removeDel() << std::endl; }