/* Small, safe and fast printf-like formatting library for C++ Author: Victor Zverovich */ #ifndef FORMAT_H_ #define FORMAT_H_ #include #include #include #include #include #include namespace format { class FormatError : public std::runtime_error { public: FormatError(const std::string &message) : std::runtime_error(message) {} }; class ArgFormatter; template class ArgFormatterWithCallback; // A sprintf-like formatter that automatically allocates enough storage to // fit all the output. class Formatter { private: std::vector buffer_; // Output buffer. enum Type { CHAR, INT, UINT, LONG, ULONG, DOUBLE, LONG_DOUBLE, STRING, WSTRING, POINTER, CUSTOM }; // An argument. struct Arg { Type type; union { int int_value; unsigned uint_value; double double_value; long long_value; unsigned long ulong_value; long double long_double_value; struct { union { const char *string_value; const wchar_t *wstring_value; const void *pointer_value; }; std::size_t size; }; struct { const void *custom_value; void (Formatter::*format)(const void *value); }; }; explicit Arg(char value) : type(CHAR), int_value(value) {} explicit Arg(int value) : type(INT), int_value(value) {} explicit Arg(unsigned value) : type(UINT), uint_value(value) {} explicit Arg(long value) : type(LONG), long_value(value) {} explicit Arg(unsigned long value) : type(ULONG), ulong_value(value) {} explicit Arg(double value) : type(DOUBLE), double_value(value) {} explicit Arg(long double value) : type(LONG_DOUBLE), long_double_value(value) {} explicit Arg(const char *value, std::size_t size = 0) : type(STRING), string_value(value), size(size) {} explicit Arg(const wchar_t *value) : type(WSTRING), wstring_value(value) {} explicit Arg(const void *value) : type(POINTER), pointer_value(value) {} explicit Arg(const void *value, void (Formatter::*format)(const void *)) : type(CUSTOM), custom_value(value), format(format) {} }; std::vector args_; const char *format_; // Format string. friend class ArgFormatter; void Add(const Arg &arg) { if (args_.empty()) args_.reserve(10); args_.push_back(arg); } // Formats an argument of a built-in type, such as "int" or "double". template void FormatBuiltinArg( const char *format, const T &arg, int width, int precision); // Formats an argument of a custom type, such as a user-defined class. template void FormatCustomArg(const void *arg); void Format(); public: Formatter() : format_(0) {} ArgFormatter operator()(const char *format); template ArgFormatterWithCallback FormatWithCallback(const char *format); const char *c_str() const { return &buffer_[0]; } const char *data() const { return &buffer_[0]; } std::size_t size() const { return buffer_.size(); } void Swap(Formatter &f) { buffer_.swap(f.buffer_); args_.swap(f.args_); } }; class ArgFormatter { private: friend class Formatter; protected: mutable Formatter *formatter_; ArgFormatter(const ArgFormatter& other) : formatter_(other.formatter_) { other.formatter_ = 0; } ArgFormatter& operator=(const ArgFormatter& other) { formatter_ = other.formatter_; other.formatter_ = 0; return *this; } Formatter *FinishFormatting() const { Formatter *f = formatter_; if (f) { formatter_ = 0; f->Format(); } return f; } public: explicit ArgFormatter(Formatter &f) : formatter_(&f) {} ~ArgFormatter(); friend const char *c_str(const ArgFormatter &af) { return af.FinishFormatting()->c_str(); } friend std::string str(const ArgFormatter &af) { return af.FinishFormatting()->c_str(); } ArgFormatter &operator<<(char value) { formatter_->Add(Formatter::Arg(value)); return *this; } ArgFormatter &operator<<(int value) { formatter_->Add(Formatter::Arg(value)); return *this; } ArgFormatter &operator<<(unsigned value) { formatter_->Add(Formatter::Arg(value)); return *this; } ArgFormatter &operator<<(long value) { formatter_->Add(Formatter::Arg(value)); return *this; } ArgFormatter &operator<<(unsigned long value) { formatter_->Add(Formatter::Arg(value)); return *this; } ArgFormatter &operator<<(double value) { formatter_->Add(Formatter::Arg(value)); return *this; } ArgFormatter &operator<<(long double value) { formatter_->Add(Formatter::Arg(value)); return *this; } ArgFormatter &operator<<(const char *value) { formatter_->Add(Formatter::Arg(value)); return *this; } ArgFormatter &operator<<(const wchar_t *value) { formatter_->Add(Formatter::Arg(value)); return *this; } ArgFormatter &operator<<(const std::string &value) { formatter_->Add(Formatter::Arg(value.c_str(), value.size())); return *this; } ArgFormatter &operator<<(const void *value) { formatter_->Add(Formatter::Arg(value)); return *this; } // This method is not implemented intentionally to disallow output of // arbitrary pointers. If you want to output a pointer cast it to void*. template ArgFormatter &operator<<(const T *value); template ArgFormatter &operator<<(T *value) { const T *const_value = value; return *this << const_value; } // If T is a pointer type, say "U*", AddPtrConst::Value will be // "const U*". This additional const ensures that operator<<(const void *) // and not this method is called both for "const void*" and "void*". template ArgFormatter &operator<<(const T &value) { formatter_->Add(Formatter::Arg(&value, &Formatter::FormatCustomArg)); return *this; } }; template class ArgFormatterWithCallback : public ArgFormatter { public: explicit ArgFormatterWithCallback(Formatter &f) : ArgFormatter(f) {} ~ArgFormatterWithCallback() { if (!formatter_) return; Callback callback; callback(*formatter_); } }; template void Formatter::FormatCustomArg(const void *arg) { const T &value = *static_cast(arg); std::ostringstream os; os << value; std::string str(os.str()); // Extra char is reserved for terminating '\0'. buffer_.reserve(buffer_.size() + str.size() + 1); buffer_.insert(buffer_.end(), str.begin(), str.end()); } inline ArgFormatter Formatter::operator()(const char *format) { format_ = format; return ArgFormatter(*this); } template ArgFormatterWithCallback Formatter::FormatWithCallback(const char *format) { format_ = format; return ArgFormatterWithCallback(*this); } class FullFormat : public ArgFormatter { private: mutable Formatter formatter_; // Do not implement. FullFormat& operator=(const FullFormat&); public: explicit FullFormat(const char *format) : ArgFormatter(formatter_) { ArgFormatter::operator=(formatter_(format)); } FullFormat(const FullFormat& other) : ArgFormatter(other) { formatter_.Swap(other.formatter_); } ~FullFormat() { FinishFormatting(); } }; inline FullFormat Format(const char *format) { return FullFormat(format); } class Print : public ArgFormatter { private: Formatter formatter_; // Do not implement. Print(const Print&); Print& operator=(const Print&); public: explicit Print(const char *format) : ArgFormatter(formatter_) { ArgFormatter::operator=(formatter_(format)); } ~Print() { FinishFormatting(); std::fwrite(formatter_.data(), 1, formatter_.size(), stdout); } }; } namespace fmt = format; #endif // FORMAT_H_