#ifndef ARABICA_TEST_SILLY_STRING_HPP #define ARABICA_TEST_SILLY_STRING_HPP #include #include #include #include // testing purposes only // a string with as minimal interface as possible class silly_string { public: silly_string(); silly_string(const silly_string& rhs); ~silly_string(); bool operator==(const silly_string& rhs) const; bool operator!=(const silly_string& rhs) const { return !(this->operator==(rhs)); } silly_string& operator=(const silly_string& rhs); private: // use a std::string to the actual work std::string s_; friend class silly_string_adaptor; friend bool operator<(const silly_string& lhs, const silly_string& rhs); friend bool operator>(const silly_string& lhs, const silly_string& rhs); }; // class silly_string bool operator<(const silly_string& lhs, const silly_string& rhs); bool operator>(const silly_string& lhs, const silly_string& rhs); class silly_string_adaptor : public Arabica::string_adaptor_tag { public: typedef silly_string string_type; typedef std::string::const_iterator const_iterator; typedef std::string::iterator mutable_iterator; typedef std::string::const_reverse_iterator const_reverse_iterator; typedef char value_type; typedef std::string::size_type size_type; static size_type npos() { return std::string::npos; } static const silly_string& empty_string() { static silly_string es; return es; } template static silly_string construct(InputIterator from, InputIterator to) { silly_string ss; ss.s_ = std::string(from, to); return ss; } // construct static string_type construct(const value_type* s) { silly_string ss; ss.s_ = std::string(s); return ss; } // construct static silly_string construct(const std::basic_string& str) { return construct(str.c_str()); } // construct static char convert_from_utf8(char c); static silly_string construct_from_utf8(const char* str); static silly_string construct_from_utf8(const char* str, int length); #ifndef ARABICA_NO_WCHAR_T static silly_string construct_from_utf16(const wchar_t* str); static silly_string construct_from_utf16(const wchar_t* str, int length); #endif // here we go static bool empty(const silly_string& s); static size_type find(const silly_string& str, const silly_string& what); static size_type find(const silly_string& str, value_type c); static size_type find(const silly_string& str, const silly_string& what, size_type from); static size_type find(const silly_string& str, value_type c, size_type from); static silly_string substr(const silly_string& str, const size_type& offset); static silly_string substr(const silly_string& str, const size_type& offset, const size_type& count); static size_type length(const silly_string& str); static void append(silly_string& str, const silly_string& a); static void append(silly_string& str, const char& a); static silly_string concat(const silly_string& str, const silly_string& a); static silly_string concat(const silly_string& str, const char& a); static void insert(silly_string& str, size_type offset, const silly_string& a); static void replace(silly_string& str, size_type offset, size_type count, const silly_string& a); static const_iterator begin(const silly_string& str) { return str.s_.begin(); } static mutable_iterator begin(silly_string& str) { return str.s_.begin(); } static const_iterator end(const silly_string& str) { return str.s_.end(); } static mutable_iterator end(silly_string& str) { return str.s_.end(); } static const_reverse_iterator rbegin(const silly_string& str) { return str.s_.rbegin(); } // mainly used to constuct error strings - don't have to be highly efficient! static std::string asStdString(const silly_string& str); #ifndef ARABICA_NO_WCHAR_T static std::wstring asStdWString(const silly_string& str); #endif }; // class silly_string_adaptor template std::basic_ostream& operator<<(std::basic_ostream& os, const silly_string& s) { os << silly_string_adaptor::asStdString(s); return os; } // operator<< namespace std { template<> struct less : public binary_function { // functor for operator< bool operator()(const silly_string& lhs, const silly_string& rhs) const { // apply operator< to operands return (silly_string_adaptor::asStdString(lhs) < silly_string_adaptor::asStdString(rhs)); } // operator() }; } // namespace std #endif