/* -*- C++ -*- $Id$ */ // ****** Code generated by the The ACE ORB (TAO) IDL Compiler ******* // TAO and the TAO IDL Compiler have been developed by the Center for // Distributed Object Computing at Washington University, St. Louis. // // Information about TAO is available at: // http://www.cs.wustl.edu/~schmidt/TAO.html // ************************************************************* // Inline operations for class TAO::PrioritySpecification_var // ************************************************************* #if (TAO_HAS_CLIENT_PRIORITY_POLICY == 1) ACE_INLINE TAO::PrioritySpecification_var::PrioritySpecification_var (void) // default constructor : ptr_ (0) {} ACE_INLINE TAO::PrioritySpecification_var::PrioritySpecification_var (PrioritySpecification *p) : ptr_ (p) {} ACE_INLINE TAO::PrioritySpecification_var::PrioritySpecification_var (const ::TAO::PrioritySpecification_var &p) // copy constructor { if (p.ptr_) ACE_NEW (this->ptr_, ::TAO::PrioritySpecification (*p.ptr_)); else this->ptr_ = 0; } // fixed-size types only ACE_INLINE TAO::PrioritySpecification_var::PrioritySpecification_var (const ::TAO::PrioritySpecification &p) { ACE_NEW (this->ptr_, ::TAO::PrioritySpecification (p)); } ACE_INLINE TAO::PrioritySpecification_var::~PrioritySpecification_var (void) // destructor { delete this->ptr_; } ACE_INLINE TAO::PrioritySpecification_var & TAO::PrioritySpecification_var::operator= (PrioritySpecification *p) { delete this->ptr_; this->ptr_ = p; return *this; } ACE_INLINE ::TAO::PrioritySpecification_var & TAO::PrioritySpecification_var::operator= (const ::TAO::PrioritySpecification_var &p) { if (this != &p) { if (p.ptr_ == 0) { delete this->ptr_; this->ptr_ = 0; } else { TAO::PrioritySpecification *deep_copy = new TAO::PrioritySpecification (*p.ptr_); if (deep_copy != 0) { TAO::PrioritySpecification *tmp = deep_copy; deep_copy = this->ptr_; this->ptr_ = tmp; delete deep_copy; } } } return *this; } // fixed-size types only ACE_INLINE TAO::PrioritySpecification_var & TAO::PrioritySpecification_var::operator= (const ::TAO::PrioritySpecification &p) { if (this->ptr_ != &p) { delete this->ptr_; ACE_NEW_RETURN (this->ptr_, ::TAO::PrioritySpecification (p), *this); } return *this; } ACE_INLINE const ::TAO::PrioritySpecification * TAO::PrioritySpecification_var::operator-> (void) const { return this->ptr_; } ACE_INLINE ::TAO::PrioritySpecification * TAO::PrioritySpecification_var::operator-> (void) { return this->ptr_; } ACE_INLINE TAO::PrioritySpecification_var::operator const ::TAO::PrioritySpecification &() const // cast { return *this->ptr_; } ACE_INLINE TAO::PrioritySpecification_var::operator ::TAO::PrioritySpecification &() // cast { return *this->ptr_; } ACE_INLINE TAO::PrioritySpecification_var::operator ::TAO::PrioritySpecification &() const // cast { return *this->ptr_; } ACE_INLINE const ::TAO::PrioritySpecification & TAO::PrioritySpecification_var::in (void) const { return *this->ptr_; } ACE_INLINE ::TAO::PrioritySpecification & TAO::PrioritySpecification_var::inout (void) { return *this->ptr_; } // mapping for fixed size ACE_INLINE ::TAO::PrioritySpecification & TAO::PrioritySpecification_var::out (void) { return *this->ptr_; } ACE_INLINE ::TAO::PrioritySpecification TAO::PrioritySpecification_var::_retn (void) { return *this->ptr_; } ACE_INLINE ::TAO::PrioritySpecification * TAO::PrioritySpecification_var::ptr (void) const { return this->ptr_; } ACE_INLINE TAO::ClientPriorityPolicy::ClientPriorityPolicy (void) // default constructor {} ACE_INLINE TAO::ClientPriorityPolicy::~ClientPriorityPolicy (void) // destructor {} #if !defined (_TAO_CLIENTPRIORITYPOLICY___VAR_CI_) #define _TAO_CLIENTPRIORITYPOLICY___VAR_CI_ // ************************************************************* // Inline operations for class TAO::ClientPriorityPolicy_var // ************************************************************* ACE_INLINE TAO::ClientPriorityPolicy_var::ClientPriorityPolicy_var (void) // default constructor : ptr_ (ClientPriorityPolicy::_nil ()) {} ACE_INLINE TAO::ClientPriorityPolicy_var::ClientPriorityPolicy_var (ClientPriorityPolicy_ptr p) : ptr_ (p) {} ACE_INLINE ::TAO::ClientPriorityPolicy_ptr TAO::ClientPriorityPolicy_var::ptr (void) const { return this->ptr_; } ACE_INLINE TAO::ClientPriorityPolicy_var::ClientPriorityPolicy_var (const ::TAO::ClientPriorityPolicy_var &p) // copy constructor : TAO_Base_var (), ptr_ (ClientPriorityPolicy::_duplicate (p.ptr ())) {} ACE_INLINE TAO::ClientPriorityPolicy_var::~ClientPriorityPolicy_var (void) // destructor { CORBA::release (this->ptr_); } ACE_INLINE TAO::ClientPriorityPolicy_var & TAO::ClientPriorityPolicy_var::operator= (ClientPriorityPolicy_ptr p) { CORBA::release (this->ptr_); this->ptr_ = p; return *this; } ACE_INLINE TAO::ClientPriorityPolicy_var & TAO::ClientPriorityPolicy_var::operator= (const ::TAO::ClientPriorityPolicy_var &p) { if (this != &p) { CORBA::release (this->ptr_); this->ptr_ = ::TAO::ClientPriorityPolicy::_duplicate (p.ptr ()); } return *this; } ACE_INLINE TAO::ClientPriorityPolicy_var::operator const ::TAO::ClientPriorityPolicy_ptr &() const // cast { return this->ptr_; } ACE_INLINE TAO::ClientPriorityPolicy_var::operator ::TAO::ClientPriorityPolicy_ptr &() // cast { return this->ptr_; } ACE_INLINE ::TAO::ClientPriorityPolicy_ptr TAO::ClientPriorityPolicy_var::operator-> (void) const { return this->ptr_; } ACE_INLINE ::TAO::ClientPriorityPolicy_ptr TAO::ClientPriorityPolicy_var::in (void) const { return this->ptr_; } ACE_INLINE ::TAO::ClientPriorityPolicy_ptr & TAO::ClientPriorityPolicy_var::inout (void) { return this->ptr_; } ACE_INLINE ::TAO::ClientPriorityPolicy_ptr & TAO::ClientPriorityPolicy_var::out (void) { CORBA::release (this->ptr_); this->ptr_ = ::TAO::ClientPriorityPolicy::_nil (); return this->ptr_; } ACE_INLINE ::TAO::ClientPriorityPolicy_ptr TAO::ClientPriorityPolicy_var::_retn (void) { // yield ownership of managed obj reference ::TAO::ClientPriorityPolicy_ptr val = this->ptr_; this->ptr_ = ::TAO::ClientPriorityPolicy::_nil (); return val; } #endif /* end #if !defined */ #if !defined (_TAO_CLIENTPRIORITYPOLICY___OUT_CI_) #define _TAO_CLIENTPRIORITYPOLICY___OUT_CI_ // ************************************************************* // Inline operations for class TAO::ClientPriorityPolicy_out // ************************************************************* ACE_INLINE TAO::ClientPriorityPolicy_out::ClientPriorityPolicy_out (ClientPriorityPolicy_ptr &p) : ptr_ (p) { this->ptr_ = ::TAO::ClientPriorityPolicy::_nil (); } ACE_INLINE TAO::ClientPriorityPolicy_out::ClientPriorityPolicy_out (ClientPriorityPolicy_var &p) // constructor from _var : ptr_ (p.out ()) { CORBA::release (this->ptr_); this->ptr_ = ::TAO::ClientPriorityPolicy::_nil (); } ACE_INLINE TAO::ClientPriorityPolicy_out::ClientPriorityPolicy_out (const ::TAO::ClientPriorityPolicy_out &p) // copy constructor : ptr_ (ACE_const_cast (ClientPriorityPolicy_out &, p).ptr_) {} ACE_INLINE ::TAO::ClientPriorityPolicy_out & TAO::ClientPriorityPolicy_out::operator= (const ::TAO::ClientPriorityPolicy_out &p) { this->ptr_ = ACE_const_cast (ClientPriorityPolicy_out&, p).ptr_; return *this; } ACE_INLINE TAO::ClientPriorityPolicy_out & TAO::ClientPriorityPolicy_out::operator= (const ::TAO::ClientPriorityPolicy_var &p) { this->ptr_ = ::TAO::ClientPriorityPolicy::_duplicate (p.ptr ()); return *this; } ACE_INLINE TAO::ClientPriorityPolicy_out & TAO::ClientPriorityPolicy_out::operator= (ClientPriorityPolicy_ptr p) { this->ptr_ = p; return *this; } ACE_INLINE TAO::ClientPriorityPolicy_out::operator ::TAO::ClientPriorityPolicy_ptr &() // cast { return this->ptr_; } ACE_INLINE ::TAO::ClientPriorityPolicy_ptr & TAO::ClientPriorityPolicy_out::ptr (void) // ptr { return this->ptr_; } ACE_INLINE ::TAO::ClientPriorityPolicy_ptr TAO::ClientPriorityPolicy_out::operator-> (void) { return this->ptr_; } #endif /* end #if !defined */ ACE_INLINE CORBA::Boolean operator<< (TAO_OutputCDR &strm, const TAO::PrioritySpecification &_tao_aggregate) { if ( (strm << _tao_aggregate.mode) && (strm << _tao_aggregate.min_priority) && (strm << _tao_aggregate.max_priority) ) return 1; else return 0; } ACE_INLINE CORBA::Boolean operator>> (TAO_InputCDR &strm, TAO::PrioritySpecification &_tao_aggregate) { if ( (strm >> _tao_aggregate.mode) && (strm >> _tao_aggregate.min_priority) && (strm >> _tao_aggregate.max_priority) ) return 1; else return 0; } #endif /* TAO_HAS_CLIENT_PRIORITY_POLICY == 1 */ #if (TAO_HAS_BUFFERING_CONSTRAINT_POLICY == 1) // ************************************************************* // Inline operations for class TAO::BufferingConstraint_var // ************************************************************* ACE_INLINE TAO::BufferingConstraint_var::BufferingConstraint_var (void) // default constructor : ptr_ (0) {} ACE_INLINE TAO::BufferingConstraint_var::BufferingConstraint_var (BufferingConstraint *p) : ptr_ (p) {} ACE_INLINE TAO::BufferingConstraint_var::BufferingConstraint_var (const ::TAO::BufferingConstraint_var &p) // copy constructor { if (p.ptr_) ACE_NEW (this->ptr_, ::TAO::BufferingConstraint (*p.ptr_)); else this->ptr_ = 0; } // fixed-size types only ACE_INLINE TAO::BufferingConstraint_var::BufferingConstraint_var (const ::TAO::BufferingConstraint &p) { ACE_NEW (this->ptr_, ::TAO::BufferingConstraint (p)); } ACE_INLINE TAO::BufferingConstraint_var::~BufferingConstraint_var (void) // destructor { delete this->ptr_; } ACE_INLINE TAO::BufferingConstraint_var & TAO::BufferingConstraint_var::operator= (BufferingConstraint *p) { delete this->ptr_; this->ptr_ = p; return *this; } ACE_INLINE ::TAO::BufferingConstraint_var & TAO::BufferingConstraint_var::operator= (const ::TAO::BufferingConstraint_var &p) { if (this != &p) { if (p.ptr_ == 0) { delete this->ptr_; this->ptr_ = 0; } else { TAO::BufferingConstraint *deep_copy = new TAO::BufferingConstraint (*p.ptr_); if (deep_copy != 0) { TAO::BufferingConstraint *tmp = deep_copy; deep_copy = this->ptr_; this->ptr_ = tmp; delete deep_copy; } } } return *this; } // fixed-size types only ACE_INLINE TAO::BufferingConstraint_var & TAO::BufferingConstraint_var::operator= (const ::TAO::BufferingConstraint &p) { if (this->ptr_ != &p) { delete this->ptr_; ACE_NEW_RETURN (this->ptr_, ::TAO::BufferingConstraint (p), *this); } return *this; } ACE_INLINE const ::TAO::BufferingConstraint * TAO::BufferingConstraint_var::operator-> (void) const { return this->ptr_; } ACE_INLINE ::TAO::BufferingConstraint * TAO::BufferingConstraint_var::operator-> (void) { return this->ptr_; } ACE_INLINE TAO::BufferingConstraint_var::operator const ::TAO::BufferingConstraint &() const // cast { return *this->ptr_; } ACE_INLINE TAO::BufferingConstraint_var::operator ::TAO::BufferingConstraint &() // cast { return *this->ptr_; } ACE_INLINE TAO::BufferingConstraint_var::operator ::TAO::BufferingConstraint &() const // cast { return *this->ptr_; } ACE_INLINE const ::TAO::BufferingConstraint & TAO::BufferingConstraint_var::in (void) const { return *this->ptr_; } ACE_INLINE ::TAO::BufferingConstraint & TAO::BufferingConstraint_var::inout (void) { return *this->ptr_; } // mapping for fixed size ACE_INLINE ::TAO::BufferingConstraint & TAO::BufferingConstraint_var::out (void) { return *this->ptr_; } ACE_INLINE ::TAO::BufferingConstraint TAO::BufferingConstraint_var::_retn (void) { return *this->ptr_; } ACE_INLINE ::TAO::BufferingConstraint * TAO::BufferingConstraint_var::ptr (void) const { return this->ptr_; } ACE_INLINE TAO::BufferingConstraintPolicy::BufferingConstraintPolicy (void) // default constructor {} ACE_INLINE TAO::BufferingConstraintPolicy::~BufferingConstraintPolicy (void) // destructor {} #if !defined (_TAO_BUFFERINGCONSTRAINTPOLICY___VAR_CI_) #define _TAO_BUFFERINGCONSTRAINTPOLICY___VAR_CI_ // ************************************************************* // Inline operations for class TAO::BufferingConstraintPolicy_var // ************************************************************* ACE_INLINE TAO::BufferingConstraintPolicy_var::BufferingConstraintPolicy_var (void) // default constructor : ptr_ (BufferingConstraintPolicy::_nil ()) {} ACE_INLINE TAO::BufferingConstraintPolicy_var::BufferingConstraintPolicy_var (BufferingConstraintPolicy_ptr p) : ptr_ (p) {} ACE_INLINE ::TAO::BufferingConstraintPolicy_ptr TAO::BufferingConstraintPolicy_var::ptr (void) const { return this->ptr_; } ACE_INLINE TAO::BufferingConstraintPolicy_var::BufferingConstraintPolicy_var (const ::TAO::BufferingConstraintPolicy_var &p) // copy constructor : TAO_Base_var (), ptr_ (BufferingConstraintPolicy::_duplicate (p.ptr ())) {} ACE_INLINE TAO::BufferingConstraintPolicy_var::~BufferingConstraintPolicy_var (void) // destructor { CORBA::release (this->ptr_); } ACE_INLINE TAO::BufferingConstraintPolicy_var & TAO::BufferingConstraintPolicy_var::operator= (BufferingConstraintPolicy_ptr p) { CORBA::release (this->ptr_); this->ptr_ = p; return *this; } ACE_INLINE TAO::BufferingConstraintPolicy_var & TAO::BufferingConstraintPolicy_var::operator= (const ::TAO::BufferingConstraintPolicy_var &p) { if (this != &p) { CORBA::release (this->ptr_); this->ptr_ = ::TAO::BufferingConstraintPolicy::_duplicate (p.ptr ()); } return *this; } ACE_INLINE TAO::BufferingConstraintPolicy_var::operator const ::TAO::BufferingConstraintPolicy_ptr &() const // cast { return this->ptr_; } ACE_INLINE TAO::BufferingConstraintPolicy_var::operator ::TAO::BufferingConstraintPolicy_ptr &() // cast { return this->ptr_; } ACE_INLINE ::TAO::BufferingConstraintPolicy_ptr TAO::BufferingConstraintPolicy_var::operator-> (void) const { return this->ptr_; } ACE_INLINE ::TAO::BufferingConstraintPolicy_ptr TAO::BufferingConstraintPolicy_var::in (void) const { return this->ptr_; } ACE_INLINE ::TAO::BufferingConstraintPolicy_ptr & TAO::BufferingConstraintPolicy_var::inout (void) { return this->ptr_; } ACE_INLINE ::TAO::BufferingConstraintPolicy_ptr & TAO::BufferingConstraintPolicy_var::out (void) { CORBA::release (this->ptr_); this->ptr_ = ::TAO::BufferingConstraintPolicy::_nil (); return this->ptr_; } ACE_INLINE ::TAO::BufferingConstraintPolicy_ptr TAO::BufferingConstraintPolicy_var::_retn (void) { // yield ownership of managed obj reference ::TAO::BufferingConstraintPolicy_ptr val = this->ptr_; this->ptr_ = ::TAO::BufferingConstraintPolicy::_nil (); return val; } #endif /* end #if !defined */ #if !defined (_TAO_BUFFERINGCONSTRAINTPOLICY___OUT_CI_) #define _TAO_BUFFERINGCONSTRAINTPOLICY___OUT_CI_ // ************************************************************* // Inline operations for class TAO::BufferingConstraintPolicy_out // ************************************************************* ACE_INLINE TAO::BufferingConstraintPolicy_out::BufferingConstraintPolicy_out (BufferingConstraintPolicy_ptr &p) : ptr_ (p) { this->ptr_ = ::TAO::BufferingConstraintPolicy::_nil (); } ACE_INLINE TAO::BufferingConstraintPolicy_out::BufferingConstraintPolicy_out (BufferingConstraintPolicy_var &p) // constructor from _var : ptr_ (p.out ()) { CORBA::release (this->ptr_); this->ptr_ = ::TAO::BufferingConstraintPolicy::_nil (); } ACE_INLINE TAO::BufferingConstraintPolicy_out::BufferingConstraintPolicy_out (const ::TAO::BufferingConstraintPolicy_out &p) // copy constructor : ptr_ (ACE_const_cast (BufferingConstraintPolicy_out &, p).ptr_) {} ACE_INLINE ::TAO::BufferingConstraintPolicy_out & TAO::BufferingConstraintPolicy_out::operator= (const ::TAO::BufferingConstraintPolicy_out &p) { this->ptr_ = ACE_const_cast (BufferingConstraintPolicy_out&, p).ptr_; return *this; } ACE_INLINE TAO::BufferingConstraintPolicy_out & TAO::BufferingConstraintPolicy_out::operator= (const ::TAO::BufferingConstraintPolicy_var &p) { this->ptr_ = ::TAO::BufferingConstraintPolicy::_duplicate (p.ptr ()); return *this; } ACE_INLINE TAO::BufferingConstraintPolicy_out & TAO::BufferingConstraintPolicy_out::operator= (BufferingConstraintPolicy_ptr p) { this->ptr_ = p; return *this; } ACE_INLINE TAO::BufferingConstraintPolicy_out::operator ::TAO::BufferingConstraintPolicy_ptr &() // cast { return this->ptr_; } ACE_INLINE ::TAO::BufferingConstraintPolicy_ptr & TAO::BufferingConstraintPolicy_out::ptr (void) // ptr { return this->ptr_; } ACE_INLINE ::TAO::BufferingConstraintPolicy_ptr TAO::BufferingConstraintPolicy_out::operator-> (void) { return this->ptr_; } #endif /* end #if !defined */ ACE_INLINE CORBA::Boolean operator<< (TAO_OutputCDR &strm, const TAO::BufferingConstraint &_tao_aggregate) { if ( (strm << _tao_aggregate.mode) && (strm << _tao_aggregate.timeout) && (strm << _tao_aggregate.message_count) && (strm << _tao_aggregate.message_bytes) ) return 1; else return 0; } ACE_INLINE CORBA::Boolean operator>> (TAO_InputCDR &strm, TAO::BufferingConstraint &_tao_aggregate) { if ( (strm >> _tao_aggregate.mode) && (strm >> _tao_aggregate.timeout) && (strm >> _tao_aggregate.message_count) && (strm >> _tao_aggregate.message_bytes) ) return 1; else return 0; } #endif /* TAO_HAS_BUFFERING_CONSTRAINT_POLICY == 1 */