X-Git-Url: https://git.teslayout.com/public/public/public/?p=anna.git;a=blobdiff_plain;f=include%2Fanna%2Fcore%2Futil%2FMillisecond.hpp;fp=include%2Fanna%2Fcore%2Futil%2FMillisecond.hpp;h=c9e60f00d60ad92210c9c7753581aff593aa91b9;hp=ea4aacac232a64ab89fd06f18d5937d9ee71684a;hb=5a6cba5fde2b2f538a7515f8293cc0a8d9589dfa;hpb=af9c86ffb0e28d35ad94d99c5f77e41578c972b4 diff --git a/include/anna/core/util/Millisecond.hpp b/include/anna/core/util/Millisecond.hpp index ea4aaca..c9e60f0 100644 --- a/include/anna/core/util/Millisecond.hpp +++ b/include/anna/core/util/Millisecond.hpp @@ -58,66 +58,66 @@ public: * Conversor a numérico. * \return El valor asociado a esta instancia. */ - operator type_t () const throw() { return a_value; } + operator type_t () const { return a_value; } /** * \internal */ - type_t& refValue() throw() { return a_value; } + type_t& refValue() { return a_value; } - Millisecond& operator= (const type_t other) throw() { a_value = other; return *this; } + Millisecond& operator= (const type_t other) { a_value = other; return *this; } - Millisecond& operator= (const Millisecond& other) throw() { a_value = other.a_value; return *this; } + Millisecond& operator= (const Millisecond& other) { a_value = other.a_value; return *this; } - Millisecond& operator= (const Second& other) throw(); + Millisecond& operator= (const Second& other) ; - Millisecond& operator= (const Microsecond& other) throw(); + Millisecond& operator= (const Microsecond& other) ; - bool operator== (const Millisecond& other) const throw() { return a_value == other.a_value; } + bool operator== (const Millisecond& other) const { return a_value == other.a_value; } - bool operator== (const Second& other) const throw(); + bool operator== (const Second& other) const ; - bool operator== (const Microsecond& other) const throw(); + bool operator== (const Microsecond& other) const ; - bool operator!= (const Millisecond& other) const throw() { return a_value != other.a_value; } + bool operator!= (const Millisecond& other) const { return a_value != other.a_value; } - bool operator!= (const Second& other) const throw(); + bool operator!= (const Second& other) const ; - bool operator!= (const Microsecond& other) const throw(); + bool operator!= (const Microsecond& other) const ; - bool operator> (const Millisecond& other) const throw() { return a_value > other.a_value; } + bool operator> (const Millisecond& other) const { return a_value > other.a_value; } - bool operator> (const Second& other) const throw(); + bool operator> (const Second& other) const ; - bool operator> (const Microsecond& other) const throw(); + bool operator> (const Microsecond& other) const ; - bool operator< (const Millisecond& other) const throw() { return a_value < other.a_value; } + bool operator< (const Millisecond& other) const { return a_value < other.a_value; } - bool operator< (const Second& other) const throw(); + bool operator< (const Second& other) const ; - bool operator< (const Microsecond& other) const throw(); + bool operator< (const Microsecond& other) const ; - bool operator>= (const Millisecond& other) const throw() { return a_value >= other.a_value; } + bool operator>= (const Millisecond& other) const { return a_value >= other.a_value; } - bool operator>= (const Second& other) const throw() { return (operator==(other) == true) ? true : operator>(other); } + bool operator>= (const Second& other) const { return (operator==(other) == true) ? true : operator>(other); } - bool operator>= (const Microsecond& other) const throw() { return (operator==(other) == true) ? true : operator>(other); } + bool operator>= (const Microsecond& other) const { return (operator==(other) == true) ? true : operator>(other); } - bool operator<= (const Millisecond& other) const throw() { return a_value <= other.a_value; } + bool operator<= (const Millisecond& other) const { return a_value <= other.a_value; } - bool operator<= (const Second& other) const throw() { return (operator==(other) == true) ? true : operator<(other); } + bool operator<= (const Second& other) const { return (operator==(other) == true) ? true : operator<(other); } - bool operator<= (const Microsecond& other) const throw() { return (operator==(other) == true) ? true : operator<(other); } + bool operator<= (const Microsecond& other) const { return (operator==(other) == true) ? true : operator<(other); } - Millisecond& operator+= (const Millisecond& other) throw() { a_value += other.a_value; return *this; } + Millisecond& operator+= (const Millisecond& other) { a_value += other.a_value; return *this; } - Millisecond& operator-= (const Millisecond& other) throw() {(a_value > other.a_value) ? (a_value -= other.a_value) : (a_value = 0); return *this; } + Millisecond& operator-= (const Millisecond& other) {(a_value > other.a_value) ? (a_value -= other.a_value) : (a_value = 0); return *this; } /** * Devuelve el valor asociado a esta instancia. * \return el valor asociado a esta instancia. */ - type_t getValue() const throw() { return a_value; } + type_t getValue() const { return a_value; } /** * Si el valor de esta instancia es positivo devuelve el valor asociado a esta instancia en una estructura de @@ -126,26 +126,26 @@ public: * \return Si el valor de esta instancia es positivo devuelve el valor asociado a esta instancia en una estructura de * time \em timeval usada habitualmente para temporizar operaciones a nivel de SO, en otro caso retorna NULL. */ - timeval* getTimeVal(timeval& tv) const throw(); + timeval* getTimeVal(timeval& tv) const ; /** * Devuelve la hora actual de sistema expresada en milisegundos transcurridos desde el 1 de Enero de 1970 * \return la hora actual de sistema expresada en milisegundos transcurridos desde el 1 de Enero de 1970 */ - static Millisecond getTime() throw(); + static Millisecond getTime() ; /** * Devuelve una cadena con el valor de esta instancia y las unidades "ms". * \return una cadena con el valor de esta instancia y las unidades "ms". */ - std::string asString() const throw(); + std::string asString() const ; /** * Obtiene los microsegundos del valor contenido en la cadena recibida como parámetro. * \param value Cadena que contiene los microsegundos habrá sido obtenida con #asString. * \return los microsegundos del valor contenido en la cadena recibida como parámetro. */ - static Millisecond fromString(const std::string& value) throw(RuntimeException); + static Millisecond fromString(const std::string& value) noexcept(false); private: type_t a_value; @@ -153,41 +153,41 @@ private: friend class Second; friend class Microsecond; - friend class Millisecond operator / (const Millisecond& left, const Millisecond& right) throw(); - friend class Millisecond operator + (const Millisecond& left, const Millisecond& right) throw(); - friend class Millisecond operator - (const Millisecond& left, const Millisecond& right) throw(); - friend class Millisecond operator / (const Millisecond& left, const int right) throw(); - friend class Millisecond operator / (const Millisecond& left, const unsigned int right) throw(); - friend class Millisecond operator *(const Millisecond& left, const int right) throw(); + friend class Millisecond operator / (const Millisecond& left, const Millisecond& right) ; + friend class Millisecond operator + (const Millisecond& left, const Millisecond& right) ; + friend class Millisecond operator - (const Millisecond& left, const Millisecond& right) ; + friend class Millisecond operator / (const Millisecond& left, const int right) ; + friend class Millisecond operator / (const Millisecond& left, const unsigned int right) ; + friend class Millisecond operator *(const Millisecond& left, const int right) ; }; inline Millisecond operator / (const Millisecond& left, const Millisecond& right) -throw() { +{ return Millisecond(left.a_value / right.a_value); } inline Millisecond operator + (const Millisecond& left, const Millisecond& right) -throw() { +{ return Millisecond(left.a_value + right.a_value); } inline Millisecond operator - (const Millisecond& left, const Millisecond& right) -throw() { +{ return Millisecond(left.a_value - right.a_value); } inline Millisecond operator / (const Millisecond& left, const int right) -throw() { +{ return Millisecond(left.a_value / right); } inline Millisecond operator / (const Millisecond& left, const unsigned int right) -throw() { +{ return Millisecond(left.a_value / right); } inline Millisecond operator *(const Millisecond& left, const int right) -throw() { +{ return Millisecond(left.a_value * right); }