/* * Author: Patrick-Christopher Mattulat * Company: Lynar Studios * E-Mail: webmaster@lynarstudios.com * Created: 2020-08-14 * Changed: 2021-07-08 * * */ #include #include #include ls_std::Float::Float() : ls_std::Class("Float"), epsilon(0.00001f) {} ls_std::Float::Float(float _value) : ls_std::Class("Float"), epsilon(0.00001f), value(_value) {} ls_std::Float::operator float() const { return this->value; } ls_std::Float &ls_std::Float::operator=(float _value) { this->value = _value; return *this; } float ls_std::Float::operator-() const { return -this->value; } float ls_std::Float::operator+(const ls_std::Float &_float) const { return this->value + _float; } float ls_std::Float::operator+(float _value) const { return this->value + _value; } float ls_std::Float::operator*(const ls_std::Float &_float) const { return this->value * _float; } float ls_std::Float::operator*(float _value) const { return this->value * _value; } float ls_std::Float::operator-(const ls_std::Float &_float) const { return this->value - _float; } float ls_std::Float::operator-(float _value) const { return this->value - _value; } float ls_std::Float::operator/(const ls_std::Float &_float) const { return this->value / _float; } float ls_std::Float::operator/(float _value) const { return this->value / _value; } ls_std::Float &ls_std::Float::operator+=(const ls_std::Float &_float) { this->value += _float; return *this; } ls_std::Float &ls_std::Float::operator+=(float _value) { this->value += _value; return *this; } ls_std::Float &ls_std::Float::operator-=(const ls_std::Float &_float) { this->value -= _float; return *this; } ls_std::Float &ls_std::Float::operator-=(float _value) { this->value -= _value; return *this; } ls_std::Float &ls_std::Float::operator*=(const ls_std::Float &_float) { this->value *= _float; return *this; } ls_std::Float &ls_std::Float::operator*=(float _value) { this->value *= _value; return *this; } ls_std::Float &ls_std::Float::operator/=(const ls_std::Float &_float) { this->value /= _float; return *this; } ls_std::Float &ls_std::Float::operator/=(float _value) { this->value /= _value; return *this; } bool ls_std::Float::operator==(const ls_std::Float &_float) const { return std::fabs(this->value - _float) < this->epsilon; } bool ls_std::Float::operator==(float _value) const { return std::fabs(this->value - _value) < this->epsilon; } bool ls_std::Float::operator!=(const ls_std::Float &_float) const { return std::fabs(this->value - _float) >= this->epsilon; } bool ls_std::Float::operator!=(float _value) const { return std::fabs(this->value - _value) >= this->epsilon; } bool ls_std::Float::operator>(const ls_std::Float &_float) const { return this->value > _float; } bool ls_std::Float::operator>(float _value) const { return this->value > _value; } bool ls_std::Float::operator>=(const ls_std::Float &_float) const { return this->value >= _float; } bool ls_std::Float::operator>=(float _value) const { return this->value >= _value; } bool ls_std::Float::operator<(const ls_std::Float &_float) const { return this->value < _float; } bool ls_std::Float::operator<(float _value) const { return this->value < _value; } bool ls_std::Float::operator<=(const ls_std::Float &_float) const { return this->value <= _float; } bool ls_std::Float::operator<=(float _value) const { return this->value <= _value; } void ls_std::Float::operator++() { this->value += 1.0f; } void ls_std::Float::operator--() { this->value -= 1.0f; } ls_std::byte_field ls_std::Float::load() { ls_std::byte_field data{}; if (this->storable != nullptr && this->serializable != nullptr) { data = this->storable->load(); this->serializable->unmarshal(data); } return data; } ls_std::byte_field ls_std::Float::marshal() { ls_std::byte_field data{}; if (this->serializable != nullptr) { data = this->serializable->marshal(); } return data; } void ls_std::Float::parse(std::string _parseText) { this->value = std::stof(_parseText); } void ls_std::Float::save(const ls_std::byte_field &_data) { if (this->serializable != nullptr) { if (_data.empty()) { this->storable->save(this->serializable->marshal()); } else { this->storable->save(_data); } } } std::string ls_std::Float::toString() { return std::to_string(this->value); } void ls_std::Float::unmarshal(const ls_std::byte_field &_data) { if (this->serializable != nullptr) { this->serializable->unmarshal(_data); } } float ls_std::Float::getEpsilon() { return this->epsilon; } float ls_std::Float::getValue() { return this->value; } void ls_std::Float::setEpsilon(float _epsilon) { this->_assignEpsilon(_epsilon); } void ls_std::Float::setSerializable(const std::shared_ptr& _serializable) { this->_assignSerializable(_serializable); } void ls_std::Float::setStorable(const std::shared_ptr& _storable) { this->_assignStorable(_storable); } void ls_std::Float::_assignEpsilon(float _epsilon) { if (_epsilon <= 0.0) { throw ls_std::IllegalArgumentException{}; } this->epsilon = _epsilon; } void ls_std::Float::_assignSerializable(const std::shared_ptr &_serializable) { if (_serializable == nullptr) { throw ls_std::IllegalArgumentException{}; } this->serializable = _serializable; } void ls_std::Float::_assignStorable(const std::shared_ptr &_storable) { if (_storable == nullptr) { throw ls_std::IllegalArgumentException{}; } this->storable = _storable; }