std::string a_name;
std::string a_parentName;
- void _initialize(const Dictionary *d) throw() {
+ void _initialize(const Dictionary *d) {
a_dictionary = d;
a_name = "";
a_parentName = "";
*
* @return Format type name
*/
- const std::string & getName(void) const throw() { return a_name; }
+ const std::string & getName(void) const { return a_name; }
/**
* Gets the format parent type name
*
* @return Format parent type name, empty string for diameter basic format types (and reserved like 'Any, Unknown')
*/
- const std::string & getParentName(void) const throw() { return a_parentName; }
+ const std::string & getParentName(void) const { return a_parentName; }
// helpers
*
* @return Diameter parent type reference, NULL for diameter basic format types (and reserved like 'Any, Unknown')
*/
- const Format * getParent(void) const throw();
+ const Format * getParent(void) const ;
/**
* The diameter format is a derived type
*
* @return The format is derived
*/
- bool isDerived(void) const throw() { return (a_parentName != ""); }
+ bool isDerived(void) const { return (a_parentName != ""); }
/**
* The diameter format is a basic type:
*
* @return The format is basic
*/
- bool isBasic(void) const throw() { return (!isDerived() && !isReserved()); }
+ bool isBasic(void) const { return (!isDerived() && !isReserved()); }
/**
* Gets the diameter basic format type from which a derived type inherit, or basic type itself for non-derived
*
* @return Diameter basic format type
*/
- codec::Format::_v getBasicType(void) const throw(anna::RuntimeException);
+ codec::Format::_v getBasicType(void) const noexcept(false);
/**
* The diameter format belongs to RFC3588 diameter format family:
*
* @return The format belongs to RFC3588
*/
- bool isRFC3588(void) const throw() { return (codec::Format::isRFC3588(a_name)); }
+ bool isRFC3588(void) const { return (codec::Format::isRFC3588(a_name)); }
// Reserved
/** @return The format is 'Any' (generic AVP) */
- bool isAny() const throw() { return (a_name == codec::Format::asText(codec::Format::Any)); }
+ bool isAny() const { return (a_name == codec::Format::asText(codec::Format::Any)); }
// /** @return The format is 'Unknown' */
-// bool isUnknown() const throw() { return (a_name == codec::Format::asText(codec::Format::Unknown)); }
+// bool isUnknown() const { return (a_name == codec::Format::asText(codec::Format::Unknown)); }
// RFC 3588
/** @return The format is 'OctetString' */
- bool isOctetString() const throw() { return (a_name == codec::Format::asText(codec::Format::OctetString)); }
+ bool isOctetString() const { return (a_name == codec::Format::asText(codec::Format::OctetString)); }
/** @return The format is 'Integer32' */
- bool isInteger32() const throw() { return (a_name == codec::Format::asText(codec::Format::Integer32)); }
+ bool isInteger32() const { return (a_name == codec::Format::asText(codec::Format::Integer32)); }
/** @return The format is 'Integer64' */
- bool isInteger64() const throw() { return (a_name == codec::Format::asText(codec::Format::Integer64)); }
+ bool isInteger64() const { return (a_name == codec::Format::asText(codec::Format::Integer64)); }
/** @return The format is 'Unsigned32' */
- bool isUnsigned32() const throw() { return (a_name == codec::Format::asText(codec::Format::Unsigned32)); }
+ bool isUnsigned32() const { return (a_name == codec::Format::asText(codec::Format::Unsigned32)); }
/** @return The format is 'Unsigned64' */
- bool isUnsigned64() const throw() { return (a_name == codec::Format::asText(codec::Format::Unsigned64)); }
+ bool isUnsigned64() const { return (a_name == codec::Format::asText(codec::Format::Unsigned64)); }
/** @return The format is 'Float32' */
- bool isFloat32() const throw() { return (a_name == codec::Format::asText(codec::Format::Float32)); }
+ bool isFloat32() const { return (a_name == codec::Format::asText(codec::Format::Float32)); }
/** @return The format is 'Float64' */
- bool isFloat64() const throw() { return (a_name == codec::Format::asText(codec::Format::Float64)); }
+ bool isFloat64() const { return (a_name == codec::Format::asText(codec::Format::Float64)); }
/** @return The format is 'Grouped' */
- bool isGrouped() const throw() { return (a_name == codec::Format::asText(codec::Format::Grouped)); }
+ bool isGrouped() const { return (a_name == codec::Format::asText(codec::Format::Grouped)); }
/** @return The format is 'Address' */
- bool isAddress() const throw() { return (a_name == codec::Format::asText(codec::Format::Address)); }
+ bool isAddress() const { return (a_name == codec::Format::asText(codec::Format::Address)); }
/** @return The format is 'Time' */
- bool isTime() const throw() { return (a_name == codec::Format::asText(codec::Format::Time)); }
+ bool isTime() const { return (a_name == codec::Format::asText(codec::Format::Time)); }
/** @return The format is 'UTF8String' */
- bool isUTF8String() const throw() { return (a_name == codec::Format::asText(codec::Format::UTF8String)); }
+ bool isUTF8String() const { return (a_name == codec::Format::asText(codec::Format::UTF8String)); }
/** @return The format is 'DiameterIdentity' */
- bool isDiameterIdentity() const throw() { return (a_name == codec::Format::asText(codec::Format::DiameterIdentity)); }
+ bool isDiameterIdentity() const { return (a_name == codec::Format::asText(codec::Format::DiameterIdentity)); }
/** @return The format is 'DiameterURI' */
- bool isDiameterURI() const throw() { return (a_name == codec::Format::asText(codec::Format::DiameterURI)); }
+ bool isDiameterURI() const { return (a_name == codec::Format::asText(codec::Format::DiameterURI)); }
/** @return The format is 'Enumerated' */
- bool isEnumerated() const throw() { return (a_name == codec::Format::asText(codec::Format::Enumerated)); }
+ bool isEnumerated() const { return (a_name == codec::Format::asText(codec::Format::Enumerated)); }
/** @return The format is 'IPFilterRule' */
- bool isIPFilterRule() const throw() { return (a_name == codec::Format::asText(codec::Format::IPFilterRule)); }
+ bool isIPFilterRule() const { return (a_name == codec::Format::asText(codec::Format::IPFilterRule)); }
/** @return The format is 'QoSFilterRule' */
- bool isQoSFilterRule() const throw() { return (a_name == codec::Format::asText(codec::Format::QoSFilterRule)); }
+ bool isQoSFilterRule() const { return (a_name == codec::Format::asText(codec::Format::QoSFilterRule)); }
/**
* The diameter format is application-specific or a format type name not registered on dictionary
*
* @return The format is application-specific
*/
- bool isApplicationSpecific(void) const throw() { return (!isRFC3588() && !isReserved()); }
+ bool isApplicationSpecific(void) const { return (!isRFC3588() && !isReserved()); }
/**
* The diameter format is reserved ('Any' for generic AVP, 'Unknown' for not registered avps)
*
* @return The format is reserved
*/
- bool isReserved(void) const throw() { return (codec::Format::isReserved(a_name)); }
+ bool isReserved(void) const { return (codec::Format::isReserved(a_name)); }
/**
* Class string representation
*
* @return String with class content
*/
- std::string asString(void) const throw();
+ std::string asString(void) const ;
/**
* Class xml representation
*
* @return XML document with relevant information for this instance.
*/
- anna::xml::Node* asXML(anna::xml::Node* parent) const throw();
+ anna::xml::Node* asXML(anna::xml::Node* parent) const ;
// operators
/**
* Initializes the class content
*/
- void initialize(const Dictionary *d = NULL) throw() { _initialize(d); }
+ void initialize(const Dictionary *d = NULL) { _initialize(d); }
/**
* Sets Avp format type name
*
* @param type Avp format type name
*/
- void setName(const char * name) throw(anna::RuntimeException) {
+ void setName(const char * name) noexcept(false) {
if(name == NULL) throw anna::RuntimeException("Null Format-name not allowed", ANNA_FILE_LOCATION);
a_name = name;
*
* @param rfc3588Format RFC3588 format type
*/
- void setRFC3588(codec::Format::_v rfc3588Format) throw() {
+ void setRFC3588(codec::Format::_v rfc3588Format) {
setName(codec::Format::asText(rfc3588Format));
}
*
* @param parent Diameter-basic avp format parent
*/
- void setParentName(const std::string & parentName) throw(anna::RuntimeException);
+ void setParentName(const std::string & parentName) noexcept(false);
};