// // h4609.cxx // // Code automatically generated by asnparse. // #ifdef P_USE_PRAGMA #pragma implementation "h4609.h" #endif #include #include #include "h460/h4609.h" #if OPAL_H460 #define new PNEW // // EstimatedEnd2EndDelay // H4609_EstimatedEnd2EndDelay::H4609_EstimatedEnd2EndDelay(unsigned tag, PASN_Object::TagClass tagClass) : PASN_Integer(tag, tagClass) { SetConstraints(PASN_Object::FixedConstraint, 0, 4294967295U); } H4609_EstimatedEnd2EndDelay & H4609_EstimatedEnd2EndDelay::operator=(int v) { SetValue(v); return *this; } H4609_EstimatedEnd2EndDelay & H4609_EstimatedEnd2EndDelay::operator=(unsigned v) { SetValue(v); return *this; } PObject * H4609_EstimatedEnd2EndDelay::Clone() const { #ifndef PASN_LEANANDMEAN PAssert(IsClass(H4609_EstimatedEnd2EndDelay::Class()), PInvalidCast); #endif return new H4609_EstimatedEnd2EndDelay(*this); } // // CalculatedJitter // H4609_CalculatedJitter::H4609_CalculatedJitter(unsigned tag, PASN_Object::TagClass tagClass) : PASN_Integer(tag, tagClass) { SetConstraints(PASN_Object::FixedConstraint, 0, 4294967295U); } H4609_CalculatedJitter & H4609_CalculatedJitter::operator=(int v) { SetValue(v); return *this; } H4609_CalculatedJitter & H4609_CalculatedJitter::operator=(unsigned v) { SetValue(v); return *this; } PObject * H4609_CalculatedJitter::Clone() const { #ifndef PASN_LEANANDMEAN PAssert(IsClass(H4609_CalculatedJitter::Class()), PInvalidCast); #endif return new H4609_CalculatedJitter(*this); } // // Extension // H4609_Extension::H4609_Extension(unsigned tag, PASN_Object::TagClass tagClass) : PASN_Sequence(tag, tagClass, 1, TRUE, 0) { } #ifndef PASN_NOPRINTON void H4609_Extension::PrintOn(ostream & strm) const { std::streamsize indent = strm.precision() + 2; strm << "{\n"; strm << setw(indent+14) << "extensionId = " << setprecision(indent) << m_extensionId << '\n'; if (HasOptionalField(e_extensionContent)) strm << setw(indent+19) << "extensionContent = " << setprecision(indent) << m_extensionContent << '\n'; strm << setw(indent-1) << setprecision(indent-2) << "}"; } #endif PObject::Comparison H4609_Extension::Compare(const PObject & obj) const { #ifndef PASN_LEANANDMEAN PAssert(PIsDescendant(&obj, H4609_Extension), PInvalidCast); #endif const H4609_Extension & other = (const H4609_Extension &)obj; Comparison result; if ((result = m_extensionId.Compare(other.m_extensionId)) != EqualTo) return result; if ((result = m_extensionContent.Compare(other.m_extensionContent)) != EqualTo) return result; return PASN_Sequence::Compare(other); } PINDEX H4609_Extension::GetDataLength() const { PINDEX length = 0; length += m_extensionId.GetObjectLength(); if (HasOptionalField(e_extensionContent)) length += m_extensionContent.GetObjectLength(); return length; } PBoolean H4609_Extension::Decode(PASN_Stream & strm) { if (!PreambleDecode(strm)) return FALSE; if (!m_extensionId.Decode(strm)) return FALSE; if (HasOptionalField(e_extensionContent) && !m_extensionContent.Decode(strm)) return FALSE; return UnknownExtensionsDecode(strm); } void H4609_Extension::Encode(PASN_Stream & strm) const { PreambleEncode(strm); m_extensionId.Encode(strm); if (HasOptionalField(e_extensionContent)) m_extensionContent.Encode(strm); UnknownExtensionsEncode(strm); } PObject * H4609_Extension::Clone() const { #ifndef PASN_LEANANDMEAN PAssert(IsClass(H4609_Extension::Class()), PInvalidCast); #endif return new H4609_Extension(*this); } #ifndef PASN_NOPRINTON const static PASN_Names Names_H4609_QosMonitoringReportData[]={ {"periodic",0} ,{"final",1} ,{"interGK",2} }; #endif // // QosMonitoringReportData // H4609_QosMonitoringReportData::H4609_QosMonitoringReportData(unsigned tag, PASN_Object::TagClass tagClass) : PASN_Choice(tag, tagClass, 3, TRUE #ifndef PASN_NOPRINTON ,(const PASN_Names *)Names_H4609_QosMonitoringReportData,3 #endif ) { } #if defined(__GNUC__) && __GNUC__ <= 2 && __GNUC_MINOR__ < 9 H4609_QosMonitoringReportData::operator H4609_PeriodicQoSMonReport &() const #else H4609_QosMonitoringReportData::operator H4609_PeriodicQoSMonReport &() { #ifndef PASN_LEANANDMEAN PAssert(PIsDescendant(PAssertNULL(choice), H4609_PeriodicQoSMonReport), PInvalidCast); #endif return *(H4609_PeriodicQoSMonReport *)choice; } H4609_QosMonitoringReportData::operator const H4609_PeriodicQoSMonReport &() const #endif { #ifndef PASN_LEANANDMEAN PAssert(PIsDescendant(PAssertNULL(choice), H4609_PeriodicQoSMonReport), PInvalidCast); #endif return *(H4609_PeriodicQoSMonReport *)choice; } #if defined(__GNUC__) && __GNUC__ <= 2 && __GNUC_MINOR__ < 9 H4609_QosMonitoringReportData::operator H4609_FinalQosMonReport &() const #else H4609_QosMonitoringReportData::operator H4609_FinalQosMonReport &() { #ifndef PASN_LEANANDMEAN PAssert(PIsDescendant(PAssertNULL(choice), H4609_FinalQosMonReport), PInvalidCast); #endif return *(H4609_FinalQosMonReport *)choice; } H4609_QosMonitoringReportData::operator const H4609_FinalQosMonReport &() const #endif { #ifndef PASN_LEANANDMEAN PAssert(PIsDescendant(PAssertNULL(choice), H4609_FinalQosMonReport), PInvalidCast); #endif return *(H4609_FinalQosMonReport *)choice; } #if defined(__GNUC__) && __GNUC__ <= 2 && __GNUC_MINOR__ < 9 H4609_QosMonitoringReportData::operator H4609_InterGKQosMonReport &() const #else H4609_QosMonitoringReportData::operator H4609_InterGKQosMonReport &() { #ifndef PASN_LEANANDMEAN PAssert(PIsDescendant(PAssertNULL(choice), H4609_InterGKQosMonReport), PInvalidCast); #endif return *(H4609_InterGKQosMonReport *)choice; } H4609_QosMonitoringReportData::operator const H4609_InterGKQosMonReport &() const #endif { #ifndef PASN_LEANANDMEAN PAssert(PIsDescendant(PAssertNULL(choice), H4609_InterGKQosMonReport), PInvalidCast); #endif return *(H4609_InterGKQosMonReport *)choice; } PBoolean H4609_QosMonitoringReportData::CreateObject() { switch (tag) { case e_periodic : choice = new H4609_PeriodicQoSMonReport(); return TRUE; case e_final : choice = new H4609_FinalQosMonReport(); return TRUE; case e_interGK : choice = new H4609_InterGKQosMonReport(); return TRUE; } choice = NULL; return FALSE; } PObject * H4609_QosMonitoringReportData::Clone() const { #ifndef PASN_LEANANDMEAN PAssert(IsClass(H4609_QosMonitoringReportData::Class()), PInvalidCast); #endif return new H4609_QosMonitoringReportData(*this); } // // RTCPMeasures_mediaSenderMeasures // H4609_RTCPMeasures_mediaSenderMeasures::H4609_RTCPMeasures_mediaSenderMeasures(unsigned tag, PASN_Object::TagClass tagClass) : PASN_Sequence(tag, tagClass, 2, TRUE, 0) { } #ifndef PASN_NOPRINTON void H4609_RTCPMeasures_mediaSenderMeasures::PrintOn(ostream & strm) const { std::streamsize indent = strm.precision() + 2; strm << "{\n"; if (HasOptionalField(e_worstEstimatedEnd2EndDelay)) strm << setw(indent+29) << "worstEstimatedEnd2EndDelay = " << setprecision(indent) << m_worstEstimatedEnd2EndDelay << '\n'; if (HasOptionalField(e_meanEstimatedEnd2EndDelay)) strm << setw(indent+28) << "meanEstimatedEnd2EndDelay = " << setprecision(indent) << m_meanEstimatedEnd2EndDelay << '\n'; strm << setw(indent-1) << setprecision(indent-2) << "}"; } #endif PObject::Comparison H4609_RTCPMeasures_mediaSenderMeasures::Compare(const PObject & obj) const { #ifndef PASN_LEANANDMEAN PAssert(PIsDescendant(&obj, H4609_RTCPMeasures_mediaSenderMeasures), PInvalidCast); #endif const H4609_RTCPMeasures_mediaSenderMeasures & other = (const H4609_RTCPMeasures_mediaSenderMeasures &)obj; Comparison result; if ((result = m_worstEstimatedEnd2EndDelay.Compare(other.m_worstEstimatedEnd2EndDelay)) != EqualTo) return result; if ((result = m_meanEstimatedEnd2EndDelay.Compare(other.m_meanEstimatedEnd2EndDelay)) != EqualTo) return result; return PASN_Sequence::Compare(other); } PINDEX H4609_RTCPMeasures_mediaSenderMeasures::GetDataLength() const { PINDEX length = 0; if (HasOptionalField(e_worstEstimatedEnd2EndDelay)) length += m_worstEstimatedEnd2EndDelay.GetObjectLength(); if (HasOptionalField(e_meanEstimatedEnd2EndDelay)) length += m_meanEstimatedEnd2EndDelay.GetObjectLength(); return length; } PBoolean H4609_RTCPMeasures_mediaSenderMeasures::Decode(PASN_Stream & strm) { if (!PreambleDecode(strm)) return FALSE; if (HasOptionalField(e_worstEstimatedEnd2EndDelay) && !m_worstEstimatedEnd2EndDelay.Decode(strm)) return FALSE; if (HasOptionalField(e_meanEstimatedEnd2EndDelay) && !m_meanEstimatedEnd2EndDelay.Decode(strm)) return FALSE; return UnknownExtensionsDecode(strm); } void H4609_RTCPMeasures_mediaSenderMeasures::Encode(PASN_Stream & strm) const { PreambleEncode(strm); if (HasOptionalField(e_worstEstimatedEnd2EndDelay)) m_worstEstimatedEnd2EndDelay.Encode(strm); if (HasOptionalField(e_meanEstimatedEnd2EndDelay)) m_meanEstimatedEnd2EndDelay.Encode(strm); UnknownExtensionsEncode(strm); } PObject * H4609_RTCPMeasures_mediaSenderMeasures::Clone() const { #ifndef PASN_LEANANDMEAN PAssert(IsClass(H4609_RTCPMeasures_mediaSenderMeasures::Class()), PInvalidCast); #endif return new H4609_RTCPMeasures_mediaSenderMeasures(*this); } // // RTCPMeasures_mediaReceiverMeasures // H4609_RTCPMeasures_mediaReceiverMeasures::H4609_RTCPMeasures_mediaReceiverMeasures(unsigned tag, PASN_Object::TagClass tagClass) : PASN_Sequence(tag, tagClass, 6, TRUE, 0) { m_cumulativeNumberOfPacketsLost.SetConstraints(PASN_Object::FixedConstraint, 0, 4294967295U); m_packetLostRate.SetConstraints(PASN_Object::FixedConstraint, 0, 65535); m_fractionLostRate.SetConstraints(PASN_Object::FixedConstraint, 0, 65535); } #ifndef PASN_NOPRINTON void H4609_RTCPMeasures_mediaReceiverMeasures::PrintOn(ostream & strm) const { std::streamsize indent = strm.precision() + 2; strm << "{\n"; if (HasOptionalField(e_cumulativeNumberOfPacketsLost)) strm << setw(indent+32) << "cumulativeNumberOfPacketsLost = " << setprecision(indent) << m_cumulativeNumberOfPacketsLost << '\n'; if (HasOptionalField(e_packetLostRate)) strm << setw(indent+17) << "packetLostRate = " << setprecision(indent) << m_packetLostRate << '\n'; if (HasOptionalField(e_worstJitter)) strm << setw(indent+14) << "worstJitter = " << setprecision(indent) << m_worstJitter << '\n'; if (HasOptionalField(e_estimatedThroughput)) strm << setw(indent+22) << "estimatedThroughput = " << setprecision(indent) << m_estimatedThroughput << '\n'; if (HasOptionalField(e_fractionLostRate)) strm << setw(indent+19) << "fractionLostRate = " << setprecision(indent) << m_fractionLostRate << '\n'; if (HasOptionalField(e_meanJitter)) strm << setw(indent+13) << "meanJitter = " << setprecision(indent) << m_meanJitter << '\n'; strm << setw(indent-1) << setprecision(indent-2) << "}"; } #endif PObject::Comparison H4609_RTCPMeasures_mediaReceiverMeasures::Compare(const PObject & obj) const { #ifndef PASN_LEANANDMEAN PAssert(PIsDescendant(&obj, H4609_RTCPMeasures_mediaReceiverMeasures), PInvalidCast); #endif const H4609_RTCPMeasures_mediaReceiverMeasures & other = (const H4609_RTCPMeasures_mediaReceiverMeasures &)obj; Comparison result; if ((result = m_cumulativeNumberOfPacketsLost.Compare(other.m_cumulativeNumberOfPacketsLost)) != EqualTo) return result; if ((result = m_packetLostRate.Compare(other.m_packetLostRate)) != EqualTo) return result; if ((result = m_worstJitter.Compare(other.m_worstJitter)) != EqualTo) return result; if ((result = m_estimatedThroughput.Compare(other.m_estimatedThroughput)) != EqualTo) return result; if ((result = m_fractionLostRate.Compare(other.m_fractionLostRate)) != EqualTo) return result; if ((result = m_meanJitter.Compare(other.m_meanJitter)) != EqualTo) return result; return PASN_Sequence::Compare(other); } PINDEX H4609_RTCPMeasures_mediaReceiverMeasures::GetDataLength() const { PINDEX length = 0; if (HasOptionalField(e_cumulativeNumberOfPacketsLost)) length += m_cumulativeNumberOfPacketsLost.GetObjectLength(); if (HasOptionalField(e_packetLostRate)) length += m_packetLostRate.GetObjectLength(); if (HasOptionalField(e_worstJitter)) length += m_worstJitter.GetObjectLength(); if (HasOptionalField(e_estimatedThroughput)) length += m_estimatedThroughput.GetObjectLength(); if (HasOptionalField(e_fractionLostRate)) length += m_fractionLostRate.GetObjectLength(); if (HasOptionalField(e_meanJitter)) length += m_meanJitter.GetObjectLength(); return length; } PBoolean H4609_RTCPMeasures_mediaReceiverMeasures::Decode(PASN_Stream & strm) { if (!PreambleDecode(strm)) return FALSE; if (HasOptionalField(e_cumulativeNumberOfPacketsLost) && !m_cumulativeNumberOfPacketsLost.Decode(strm)) return FALSE; if (HasOptionalField(e_packetLostRate) && !m_packetLostRate.Decode(strm)) return FALSE; if (HasOptionalField(e_worstJitter) && !m_worstJitter.Decode(strm)) return FALSE; if (HasOptionalField(e_estimatedThroughput) && !m_estimatedThroughput.Decode(strm)) return FALSE; if (HasOptionalField(e_fractionLostRate) && !m_fractionLostRate.Decode(strm)) return FALSE; if (HasOptionalField(e_meanJitter) && !m_meanJitter.Decode(strm)) return FALSE; return UnknownExtensionsDecode(strm); } void H4609_RTCPMeasures_mediaReceiverMeasures::Encode(PASN_Stream & strm) const { PreambleEncode(strm); if (HasOptionalField(e_cumulativeNumberOfPacketsLost)) m_cumulativeNumberOfPacketsLost.Encode(strm); if (HasOptionalField(e_packetLostRate)) m_packetLostRate.Encode(strm); if (HasOptionalField(e_worstJitter)) m_worstJitter.Encode(strm); if (HasOptionalField(e_estimatedThroughput)) m_estimatedThroughput.Encode(strm); if (HasOptionalField(e_fractionLostRate)) m_fractionLostRate.Encode(strm); if (HasOptionalField(e_meanJitter)) m_meanJitter.Encode(strm); UnknownExtensionsEncode(strm); } PObject * H4609_RTCPMeasures_mediaReceiverMeasures::Clone() const { #ifndef PASN_LEANANDMEAN PAssert(IsClass(H4609_RTCPMeasures_mediaReceiverMeasures::Class()), PInvalidCast); #endif return new H4609_RTCPMeasures_mediaReceiverMeasures(*this); } // // ArrayOf_Extension // H4609_ArrayOf_Extension::H4609_ArrayOf_Extension(unsigned tag, PASN_Object::TagClass tagClass) : PASN_Array(tag, tagClass) { } PASN_Object * H4609_ArrayOf_Extension::CreateObject() const { return new H4609_Extension; } H4609_Extension & H4609_ArrayOf_Extension::operator[](PINDEX i) const { return (H4609_Extension &)array[i]; } PObject * H4609_ArrayOf_Extension::Clone() const { #ifndef PASN_LEANANDMEAN PAssert(IsClass(H4609_ArrayOf_Extension::Class()), PInvalidCast); #endif return new H4609_ArrayOf_Extension(*this); } // // ArrayOf_RTCPMeasures // H4609_ArrayOf_RTCPMeasures::H4609_ArrayOf_RTCPMeasures(unsigned tag, PASN_Object::TagClass tagClass) : PASN_Array(tag, tagClass) { } PASN_Object * H4609_ArrayOf_RTCPMeasures::CreateObject() const { return new H4609_RTCPMeasures; } H4609_RTCPMeasures & H4609_ArrayOf_RTCPMeasures::operator[](PINDEX i) const { return (H4609_RTCPMeasures &)array[i]; } PObject * H4609_ArrayOf_RTCPMeasures::Clone() const { #ifndef PASN_LEANANDMEAN PAssert(IsClass(H4609_ArrayOf_RTCPMeasures::Class()), PInvalidCast); #endif return new H4609_ArrayOf_RTCPMeasures(*this); } // // ArrayOf_PerCallQoSReport // H4609_ArrayOf_PerCallQoSReport::H4609_ArrayOf_PerCallQoSReport(unsigned tag, PASN_Object::TagClass tagClass) : PASN_Array(tag, tagClass) { } PASN_Object * H4609_ArrayOf_PerCallQoSReport::CreateObject() const { return new H4609_PerCallQoSReport; } H4609_PerCallQoSReport & H4609_ArrayOf_PerCallQoSReport::operator[](PINDEX i) const { return (H4609_PerCallQoSReport &)array[i]; } PObject * H4609_ArrayOf_PerCallQoSReport::Clone() const { #ifndef PASN_LEANANDMEAN PAssert(IsClass(H4609_ArrayOf_PerCallQoSReport::Class()), PInvalidCast); #endif return new H4609_ArrayOf_PerCallQoSReport(*this); } // // RTCPMeasures // H4609_RTCPMeasures::H4609_RTCPMeasures(unsigned tag, PASN_Object::TagClass tagClass) : PASN_Sequence(tag, tagClass, 4, TRUE, 0) { m_sessionId.SetConstraints(PASN_Object::FixedConstraint, 1, 255); } #ifndef PASN_NOPRINTON void H4609_RTCPMeasures::PrintOn(ostream & strm) const { std::streamsize indent = strm.precision() + 2; strm << "{\n"; strm << setw(indent+13) << "rtpAddress = " << setprecision(indent) << m_rtpAddress << '\n'; strm << setw(indent+14) << "rtcpAddress = " << setprecision(indent) << m_rtcpAddress << '\n'; strm << setw(indent+12) << "sessionId = " << setprecision(indent) << m_sessionId << '\n'; if (HasOptionalField(e_nonStandardData)) strm << setw(indent+18) << "nonStandardData = " << setprecision(indent) << m_nonStandardData << '\n'; if (HasOptionalField(e_mediaSenderMeasures)) strm << setw(indent+22) << "mediaSenderMeasures = " << setprecision(indent) << m_mediaSenderMeasures << '\n'; if (HasOptionalField(e_mediaReceiverMeasures)) strm << setw(indent+24) << "mediaReceiverMeasures = " << setprecision(indent) << m_mediaReceiverMeasures << '\n'; if (HasOptionalField(e_extensions)) strm << setw(indent+13) << "extensions = " << setprecision(indent) << m_extensions << '\n'; strm << setw(indent-1) << setprecision(indent-2) << "}"; } #endif PObject::Comparison H4609_RTCPMeasures::Compare(const PObject & obj) const { #ifndef PASN_LEANANDMEAN PAssert(PIsDescendant(&obj, H4609_RTCPMeasures), PInvalidCast); #endif const H4609_RTCPMeasures & other = (const H4609_RTCPMeasures &)obj; Comparison result; if ((result = m_rtpAddress.Compare(other.m_rtpAddress)) != EqualTo) return result; if ((result = m_rtcpAddress.Compare(other.m_rtcpAddress)) != EqualTo) return result; if ((result = m_sessionId.Compare(other.m_sessionId)) != EqualTo) return result; if ((result = m_nonStandardData.Compare(other.m_nonStandardData)) != EqualTo) return result; if ((result = m_mediaSenderMeasures.Compare(other.m_mediaSenderMeasures)) != EqualTo) return result; if ((result = m_mediaReceiverMeasures.Compare(other.m_mediaReceiverMeasures)) != EqualTo) return result; if ((result = m_extensions.Compare(other.m_extensions)) != EqualTo) return result; return PASN_Sequence::Compare(other); } PINDEX H4609_RTCPMeasures::GetDataLength() const { PINDEX length = 0; length += m_rtpAddress.GetObjectLength(); length += m_rtcpAddress.GetObjectLength(); length += m_sessionId.GetObjectLength(); if (HasOptionalField(e_nonStandardData)) length += m_nonStandardData.GetObjectLength(); if (HasOptionalField(e_mediaSenderMeasures)) length += m_mediaSenderMeasures.GetObjectLength(); if (HasOptionalField(e_mediaReceiverMeasures)) length += m_mediaReceiverMeasures.GetObjectLength(); if (HasOptionalField(e_extensions)) length += m_extensions.GetObjectLength(); return length; } PBoolean H4609_RTCPMeasures::Decode(PASN_Stream & strm) { if (!PreambleDecode(strm)) return FALSE; if (!m_rtpAddress.Decode(strm)) return FALSE; if (!m_rtcpAddress.Decode(strm)) return FALSE; if (!m_sessionId.Decode(strm)) return FALSE; if (HasOptionalField(e_nonStandardData) && !m_nonStandardData.Decode(strm)) return FALSE; if (HasOptionalField(e_mediaSenderMeasures) && !m_mediaSenderMeasures.Decode(strm)) return FALSE; if (HasOptionalField(e_mediaReceiverMeasures) && !m_mediaReceiverMeasures.Decode(strm)) return FALSE; if (HasOptionalField(e_extensions) && !m_extensions.Decode(strm)) return FALSE; return UnknownExtensionsDecode(strm); } void H4609_RTCPMeasures::Encode(PASN_Stream & strm) const { PreambleEncode(strm); m_rtpAddress.Encode(strm); m_rtcpAddress.Encode(strm); m_sessionId.Encode(strm); if (HasOptionalField(e_nonStandardData)) m_nonStandardData.Encode(strm); if (HasOptionalField(e_mediaSenderMeasures)) m_mediaSenderMeasures.Encode(strm); if (HasOptionalField(e_mediaReceiverMeasures)) m_mediaReceiverMeasures.Encode(strm); if (HasOptionalField(e_extensions)) m_extensions.Encode(strm); UnknownExtensionsEncode(strm); } PObject * H4609_RTCPMeasures::Clone() const { #ifndef PASN_LEANANDMEAN PAssert(IsClass(H4609_RTCPMeasures::Class()), PInvalidCast); #endif return new H4609_RTCPMeasures(*this); } // // PerCallQoSReport // H4609_PerCallQoSReport::H4609_PerCallQoSReport(unsigned tag, PASN_Object::TagClass tagClass) : PASN_Sequence(tag, tagClass, 3, TRUE, 0) { } #ifndef PASN_NOPRINTON void H4609_PerCallQoSReport::PrintOn(ostream & strm) const { std::streamsize indent = strm.precision() + 2; strm << "{\n"; if (HasOptionalField(e_nonStandardData)) strm << setw(indent+18) << "nonStandardData = " << setprecision(indent) << m_nonStandardData << '\n'; strm << setw(indent+21) << "callReferenceValue = " << setprecision(indent) << m_callReferenceValue << '\n'; strm << setw(indent+15) << "conferenceID = " << setprecision(indent) << m_conferenceID << '\n'; strm << setw(indent+17) << "callIdentifier = " << setprecision(indent) << m_callIdentifier << '\n'; if (HasOptionalField(e_mediaChannelsQoS)) strm << setw(indent+19) << "mediaChannelsQoS = " << setprecision(indent) << m_mediaChannelsQoS << '\n'; if (HasOptionalField(e_extensions)) strm << setw(indent+13) << "extensions = " << setprecision(indent) << m_extensions << '\n'; strm << setw(indent-1) << setprecision(indent-2) << "}"; } #endif PObject::Comparison H4609_PerCallQoSReport::Compare(const PObject & obj) const { #ifndef PASN_LEANANDMEAN PAssert(PIsDescendant(&obj, H4609_PerCallQoSReport), PInvalidCast); #endif const H4609_PerCallQoSReport & other = (const H4609_PerCallQoSReport &)obj; Comparison result; if ((result = m_nonStandardData.Compare(other.m_nonStandardData)) != EqualTo) return result; if ((result = m_callReferenceValue.Compare(other.m_callReferenceValue)) != EqualTo) return result; if ((result = m_conferenceID.Compare(other.m_conferenceID)) != EqualTo) return result; if ((result = m_callIdentifier.Compare(other.m_callIdentifier)) != EqualTo) return result; if ((result = m_mediaChannelsQoS.Compare(other.m_mediaChannelsQoS)) != EqualTo) return result; if ((result = m_extensions.Compare(other.m_extensions)) != EqualTo) return result; return PASN_Sequence::Compare(other); } PINDEX H4609_PerCallQoSReport::GetDataLength() const { PINDEX length = 0; if (HasOptionalField(e_nonStandardData)) length += m_nonStandardData.GetObjectLength(); length += m_callReferenceValue.GetObjectLength(); length += m_conferenceID.GetObjectLength(); length += m_callIdentifier.GetObjectLength(); if (HasOptionalField(e_mediaChannelsQoS)) length += m_mediaChannelsQoS.GetObjectLength(); if (HasOptionalField(e_extensions)) length += m_extensions.GetObjectLength(); return length; } PBoolean H4609_PerCallQoSReport::Decode(PASN_Stream & strm) { if (!PreambleDecode(strm)) return FALSE; if (HasOptionalField(e_nonStandardData) && !m_nonStandardData.Decode(strm)) return FALSE; if (!m_callReferenceValue.Decode(strm)) return FALSE; if (!m_conferenceID.Decode(strm)) return FALSE; if (!m_callIdentifier.Decode(strm)) return FALSE; if (HasOptionalField(e_mediaChannelsQoS) && !m_mediaChannelsQoS.Decode(strm)) return FALSE; if (HasOptionalField(e_extensions) && !m_extensions.Decode(strm)) return FALSE; return UnknownExtensionsDecode(strm); } void H4609_PerCallQoSReport::Encode(PASN_Stream & strm) const { PreambleEncode(strm); if (HasOptionalField(e_nonStandardData)) m_nonStandardData.Encode(strm); m_callReferenceValue.Encode(strm); m_conferenceID.Encode(strm); m_callIdentifier.Encode(strm); if (HasOptionalField(e_mediaChannelsQoS)) m_mediaChannelsQoS.Encode(strm); if (HasOptionalField(e_extensions)) m_extensions.Encode(strm); UnknownExtensionsEncode(strm); } PObject * H4609_PerCallQoSReport::Clone() const { #ifndef PASN_LEANANDMEAN PAssert(IsClass(H4609_PerCallQoSReport::Class()), PInvalidCast); #endif return new H4609_PerCallQoSReport(*this); } // // PeriodicQoSMonReport // H4609_PeriodicQoSMonReport::H4609_PeriodicQoSMonReport(unsigned tag, PASN_Object::TagClass tagClass) : PASN_Sequence(tag, tagClass, 1, TRUE, 0) { } #ifndef PASN_NOPRINTON void H4609_PeriodicQoSMonReport::PrintOn(ostream & strm) const { std::streamsize indent = strm.precision() + 2; strm << "{\n"; strm << setw(indent+14) << "perCallInfo = " << setprecision(indent) << m_perCallInfo << '\n'; if (HasOptionalField(e_extensions)) strm << setw(indent+13) << "extensions = " << setprecision(indent) << m_extensions << '\n'; strm << setw(indent-1) << setprecision(indent-2) << "}"; } #endif PObject::Comparison H4609_PeriodicQoSMonReport::Compare(const PObject & obj) const { #ifndef PASN_LEANANDMEAN PAssert(PIsDescendant(&obj, H4609_PeriodicQoSMonReport), PInvalidCast); #endif const H4609_PeriodicQoSMonReport & other = (const H4609_PeriodicQoSMonReport &)obj; Comparison result; if ((result = m_perCallInfo.Compare(other.m_perCallInfo)) != EqualTo) return result; if ((result = m_extensions.Compare(other.m_extensions)) != EqualTo) return result; return PASN_Sequence::Compare(other); } PINDEX H4609_PeriodicQoSMonReport::GetDataLength() const { PINDEX length = 0; length += m_perCallInfo.GetObjectLength(); if (HasOptionalField(e_extensions)) length += m_extensions.GetObjectLength(); return length; } PBoolean H4609_PeriodicQoSMonReport::Decode(PASN_Stream & strm) { if (!PreambleDecode(strm)) return FALSE; if (!m_perCallInfo.Decode(strm)) return FALSE; if (HasOptionalField(e_extensions) && !m_extensions.Decode(strm)) return FALSE; return UnknownExtensionsDecode(strm); } void H4609_PeriodicQoSMonReport::Encode(PASN_Stream & strm) const { PreambleEncode(strm); m_perCallInfo.Encode(strm); if (HasOptionalField(e_extensions)) m_extensions.Encode(strm); UnknownExtensionsEncode(strm); } PObject * H4609_PeriodicQoSMonReport::Clone() const { #ifndef PASN_LEANANDMEAN PAssert(IsClass(H4609_PeriodicQoSMonReport::Class()), PInvalidCast); #endif return new H4609_PeriodicQoSMonReport(*this); } // // FinalQosMonReport // H4609_FinalQosMonReport::H4609_FinalQosMonReport(unsigned tag, PASN_Object::TagClass tagClass) : PASN_Sequence(tag, tagClass, 2, TRUE, 0) { } #ifndef PASN_NOPRINTON void H4609_FinalQosMonReport::PrintOn(ostream & strm) const { std::streamsize indent = strm.precision() + 2; strm << "{\n"; strm << setw(indent+12) << "mediaInfo = " << setprecision(indent) << m_mediaInfo << '\n'; if (HasOptionalField(e_nonStandardData)) strm << setw(indent+18) << "nonStandardData = " << setprecision(indent) << m_nonStandardData << '\n'; if (HasOptionalField(e_extensions)) strm << setw(indent+13) << "extensions = " << setprecision(indent) << m_extensions << '\n'; strm << setw(indent-1) << setprecision(indent-2) << "}"; } #endif PObject::Comparison H4609_FinalQosMonReport::Compare(const PObject & obj) const { #ifndef PASN_LEANANDMEAN PAssert(PIsDescendant(&obj, H4609_FinalQosMonReport), PInvalidCast); #endif const H4609_FinalQosMonReport & other = (const H4609_FinalQosMonReport &)obj; Comparison result; if ((result = m_mediaInfo.Compare(other.m_mediaInfo)) != EqualTo) return result; if ((result = m_nonStandardData.Compare(other.m_nonStandardData)) != EqualTo) return result; if ((result = m_extensions.Compare(other.m_extensions)) != EqualTo) return result; return PASN_Sequence::Compare(other); } PINDEX H4609_FinalQosMonReport::GetDataLength() const { PINDEX length = 0; length += m_mediaInfo.GetObjectLength(); if (HasOptionalField(e_nonStandardData)) length += m_nonStandardData.GetObjectLength(); if (HasOptionalField(e_extensions)) length += m_extensions.GetObjectLength(); return length; } PBoolean H4609_FinalQosMonReport::Decode(PASN_Stream & strm) { if (!PreambleDecode(strm)) return FALSE; if (!m_mediaInfo.Decode(strm)) return FALSE; if (HasOptionalField(e_nonStandardData) && !m_nonStandardData.Decode(strm)) return FALSE; if (HasOptionalField(e_extensions) && !m_extensions.Decode(strm)) return FALSE; return UnknownExtensionsDecode(strm); } void H4609_FinalQosMonReport::Encode(PASN_Stream & strm) const { PreambleEncode(strm); m_mediaInfo.Encode(strm); if (HasOptionalField(e_nonStandardData)) m_nonStandardData.Encode(strm); if (HasOptionalField(e_extensions)) m_extensions.Encode(strm); UnknownExtensionsEncode(strm); } PObject * H4609_FinalQosMonReport::Clone() const { #ifndef PASN_LEANANDMEAN PAssert(IsClass(H4609_FinalQosMonReport::Class()), PInvalidCast); #endif return new H4609_FinalQosMonReport(*this); } // // InterGKQosMonReport // H4609_InterGKQosMonReport::H4609_InterGKQosMonReport(unsigned tag, PASN_Object::TagClass tagClass) : PASN_Sequence(tag, tagClass, 2, TRUE, 0) { } #ifndef PASN_NOPRINTON void H4609_InterGKQosMonReport::PrintOn(ostream & strm) const { std::streamsize indent = strm.precision() + 2; strm << "{\n"; strm << setw(indent+12) << "mediaInfo = " << setprecision(indent) << m_mediaInfo << '\n'; if (HasOptionalField(e_nonStandardData)) strm << setw(indent+18) << "nonStandardData = " << setprecision(indent) << m_nonStandardData << '\n'; if (HasOptionalField(e_extensions)) strm << setw(indent+13) << "extensions = " << setprecision(indent) << m_extensions << '\n'; strm << setw(indent-1) << setprecision(indent-2) << "}"; } #endif PObject::Comparison H4609_InterGKQosMonReport::Compare(const PObject & obj) const { #ifndef PASN_LEANANDMEAN PAssert(PIsDescendant(&obj, H4609_InterGKQosMonReport), PInvalidCast); #endif const H4609_InterGKQosMonReport & other = (const H4609_InterGKQosMonReport &)obj; Comparison result; if ((result = m_mediaInfo.Compare(other.m_mediaInfo)) != EqualTo) return result; if ((result = m_nonStandardData.Compare(other.m_nonStandardData)) != EqualTo) return result; if ((result = m_extensions.Compare(other.m_extensions)) != EqualTo) return result; return PASN_Sequence::Compare(other); } PINDEX H4609_InterGKQosMonReport::GetDataLength() const { PINDEX length = 0; length += m_mediaInfo.GetObjectLength(); if (HasOptionalField(e_nonStandardData)) length += m_nonStandardData.GetObjectLength(); if (HasOptionalField(e_extensions)) length += m_extensions.GetObjectLength(); return length; } PBoolean H4609_InterGKQosMonReport::Decode(PASN_Stream & strm) { if (!PreambleDecode(strm)) return FALSE; if (!m_mediaInfo.Decode(strm)) return FALSE; if (HasOptionalField(e_nonStandardData) && !m_nonStandardData.Decode(strm)) return FALSE; if (HasOptionalField(e_extensions) && !m_extensions.Decode(strm)) return FALSE; return UnknownExtensionsDecode(strm); } void H4609_InterGKQosMonReport::Encode(PASN_Stream & strm) const { PreambleEncode(strm); m_mediaInfo.Encode(strm); if (HasOptionalField(e_nonStandardData)) m_nonStandardData.Encode(strm); if (HasOptionalField(e_extensions)) m_extensions.Encode(strm); UnknownExtensionsEncode(strm); } PObject * H4609_InterGKQosMonReport::Clone() const { #ifndef PASN_LEANANDMEAN PAssert(IsClass(H4609_InterGKQosMonReport::Class()), PInvalidCast); #endif return new H4609_InterGKQosMonReport(*this); } #endif // OPAL_H460 // End of h4609.cxx