// $Id$ // // ****** 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_SCIOP_Endpoint_Info_var // ************************************************************* #if !defined (TAO_USE_SEQUENCE_TEMPLATES) #if !defined (__TAO_UNBOUNDED_SEQUENCE_TAO_SCIOPENDPOINTSEQUENCE_CI_) #define __TAO_UNBOUNDED_SEQUENCE_TAO_SCIOPENDPOINTSEQUENCE_CI_ // = Static operations. ACE_INLINE TAO_SCIOP_Endpoint_Info * _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::allocbuf (CORBA::ULong size) // Allocate storage for the sequence. { TAO_SCIOP_Endpoint_Info *retval = 0; ACE_NEW_RETURN (retval, TAO_SCIOP_Endpoint_Info[size], 0); return retval; } ACE_INLINE void _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::freebuf (TAO_SCIOP_Endpoint_Info *buffer) // Free the sequence. { delete [] buffer; } ACE_INLINE _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::_TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence (void) // Default constructor. { } ACE_INLINE _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::_TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence (CORBA::ULong maximum) // Constructor using a maximum length value. : TAO_Unbounded_Base_Sequence (maximum, _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::allocbuf (maximum)) { } ACE_INLINE _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::_TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence (CORBA::ULong maximum, CORBA::ULong length, TAO_SCIOP_Endpoint_Info *data, CORBA::Boolean release) : TAO_Unbounded_Base_Sequence (maximum, length, data, release) { } ACE_INLINE _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::_TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence (const _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence &rhs) // Copy constructor. : TAO_Unbounded_Base_Sequence (rhs) { if (rhs.buffer_ != 0) { TAO_SCIOP_Endpoint_Info *tmp1 = _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::allocbuf (this->maximum_); TAO_SCIOP_Endpoint_Info * const tmp2 = ACE_reinterpret_cast (TAO_SCIOP_Endpoint_Info * ACE_CAST_CONST, rhs.buffer_); for (CORBA::ULong i = 0; i < this->length_; ++i) tmp1[i] = tmp2[i]; this->buffer_ = tmp1; } else { this->buffer_ = 0; } } ACE_INLINE _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence & _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::operator= (const _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence &rhs) // Assignment operator. { if (this == &rhs) return *this; if (this->release_) { if (this->maximum_ < rhs.maximum_) { // free the old buffer TAO_SCIOP_Endpoint_Info *tmp = ACE_reinterpret_cast (TAO_SCIOP_Endpoint_Info *, this->buffer_); _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::freebuf (tmp); this->buffer_ = _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::allocbuf (rhs.maximum_); } } else this->buffer_ = _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::allocbuf (rhs.maximum_); TAO_Unbounded_Base_Sequence::operator= (rhs); TAO_SCIOP_Endpoint_Info *tmp1 = ACE_reinterpret_cast (TAO_SCIOP_Endpoint_Info *, this->buffer_); TAO_SCIOP_Endpoint_Info * const tmp2 = ACE_reinterpret_cast (TAO_SCIOP_Endpoint_Info * ACE_CAST_CONST, rhs.buffer_); for (CORBA::ULong i = 0; i < this->length_; ++i) tmp1[i] = tmp2[i]; return *this; } // = Accessors. ACE_INLINE TAO_SCIOP_Endpoint_Info & _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::operator[] (CORBA::ULong i) // operator [] { ACE_ASSERT (i < this->maximum_); TAO_SCIOP_Endpoint_Info* tmp = ACE_reinterpret_cast(TAO_SCIOP_Endpoint_Info*,this->buffer_); return tmp[i]; } ACE_INLINE const TAO_SCIOP_Endpoint_Info & _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::operator[] (CORBA::ULong i) const // operator [] { ACE_ASSERT (i < this->maximum_); TAO_SCIOP_Endpoint_Info * const tmp = ACE_reinterpret_cast (TAO_SCIOP_Endpoint_Info* ACE_CAST_CONST, this->buffer_); return tmp[i]; } // Implement the TAO_Base_Sequence methods (see Sequence.h) ACE_INLINE TAO_SCIOP_Endpoint_Info * _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::get_buffer (CORBA::Boolean orphan) { TAO_SCIOP_Endpoint_Info *result = 0; if (orphan == 0) { // We retain ownership. if (this->buffer_ == 0) { result = _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::allocbuf (this->length_); this->buffer_ = result; this->release_ = 1; } else { result = ACE_reinterpret_cast (TAO_SCIOP_Endpoint_Info*, this->buffer_); } } else // if (orphan == 1) { if (this->release_ != 0) { // We set the state back to default and relinquish // ownership. result = ACE_reinterpret_cast(TAO_SCIOP_Endpoint_Info*,this->buffer_); this->maximum_ = 0; this->length_ = 0; this->buffer_ = 0; this->release_ = 0; } } return result; } ACE_INLINE const TAO_SCIOP_Endpoint_Info * _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::get_buffer (void) const { return ACE_reinterpret_cast(const TAO_SCIOP_Endpoint_Info * ACE_CAST_CONST, this->buffer_); } ACE_INLINE void _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::replace (CORBA::ULong max, CORBA::ULong length, TAO_SCIOP_Endpoint_Info *data, CORBA::Boolean release) { this->maximum_ = max; this->length_ = length; if (this->buffer_ && this->release_ == 1) { TAO_SCIOP_Endpoint_Info *tmp = ACE_reinterpret_cast(TAO_SCIOP_Endpoint_Info*,this->buffer_); _TAO_Unbounded_Sequence_TAO_SCIOPEndpointSequence::freebuf (tmp); } this->buffer_ = data; this->release_ = release; } #endif /* end #if !defined */ #endif /* !TAO_USE_SEQUENCE_TEMPLATES */ #if !defined (_TAO_SCIOPENDPOINTSEQUENCE_CI_) #define _TAO_SCIOPENDPOINTSEQUENCE_CI_ // ************************************************************* // Inline operations for class TAO_SCIOPEndpointSequence_var // ************************************************************* ACE_INLINE TAO_SCIOPEndpointSequence_var::TAO_SCIOPEndpointSequence_var (void) // default constructor : ptr_ (0) {} ACE_INLINE TAO_SCIOPEndpointSequence_var::TAO_SCIOPEndpointSequence_var (TAO_SCIOPEndpointSequence *p) : ptr_ (p) {} ACE_INLINE TAO_SCIOPEndpointSequence_var::TAO_SCIOPEndpointSequence_var (const ::TAO_SCIOPEndpointSequence_var &p) // copy constructor { if (p.ptr_) ACE_NEW (this->ptr_, ::TAO_SCIOPEndpointSequence (*p.ptr_)); else this->ptr_ = 0; } ACE_INLINE TAO_SCIOPEndpointSequence_var::~TAO_SCIOPEndpointSequence_var (void) // destructor { delete this->ptr_; } ACE_INLINE TAO_SCIOPEndpointSequence_var & TAO_SCIOPEndpointSequence_var::operator= (TAO_SCIOPEndpointSequence *p) { delete this->ptr_; this->ptr_ = p; return *this; } ACE_INLINE TAO_SCIOPEndpointSequence_var & TAO_SCIOPEndpointSequence_var::operator= (const ::TAO_SCIOPEndpointSequence_var &p) // deep copy { if (this != &p) { delete this->ptr_; ACE_NEW_RETURN (this->ptr_, ::TAO_SCIOPEndpointSequence (*p.ptr_), *this); } return *this; } ACE_INLINE const ::TAO_SCIOPEndpointSequence * TAO_SCIOPEndpointSequence_var::operator-> (void) const { return this->ptr_; } ACE_INLINE ::TAO_SCIOPEndpointSequence * TAO_SCIOPEndpointSequence_var::operator-> (void) { return this->ptr_; } ACE_INLINE TAO_SCIOPEndpointSequence_var::operator const ::TAO_SCIOPEndpointSequence &() const // cast { return *this->ptr_; } ACE_INLINE TAO_SCIOPEndpointSequence_var::operator ::TAO_SCIOPEndpointSequence &() // cast { return *this->ptr_; } ACE_INLINE TAO_SCIOPEndpointSequence_var::operator ::TAO_SCIOPEndpointSequence &() const // cast { return *this->ptr_; } // variable-size types only ACE_INLINE TAO_SCIOPEndpointSequence_var::operator ::TAO_SCIOPEndpointSequence *&() // cast { return this->ptr_; } ACE_INLINE TAO_SCIOP_Endpoint_Info & TAO_SCIOPEndpointSequence_var::operator[] (CORBA::ULong index) { return this->ptr_->operator[] (index); } ACE_INLINE const ::TAO_SCIOPEndpointSequence & TAO_SCIOPEndpointSequence_var::in (void) const { return *this->ptr_; } ACE_INLINE ::TAO_SCIOPEndpointSequence & TAO_SCIOPEndpointSequence_var::inout (void) { return *this->ptr_; } // mapping for variable size ACE_INLINE ::TAO_SCIOPEndpointSequence *& TAO_SCIOPEndpointSequence_var::out (void) { delete this->ptr_; this->ptr_ = 0; return this->ptr_; } ACE_INLINE ::TAO_SCIOPEndpointSequence * TAO_SCIOPEndpointSequence_var::_retn (void) { ::TAO_SCIOPEndpointSequence *tmp = this->ptr_; this->ptr_ = 0; return tmp; } ACE_INLINE ::TAO_SCIOPEndpointSequence * TAO_SCIOPEndpointSequence_var::ptr (void) const { return this->ptr_; } #endif /* end #if !defined */ ACE_INLINE CORBA::Boolean operator<< (TAO_OutputCDR &strm, const TAO_SCIOP_Endpoint_Info &_tao_aggregate) { if ( (strm << _tao_aggregate.host.in ()) && (strm << _tao_aggregate.port) && (strm << _tao_aggregate.priority) ) return 1; else return 0; } ACE_INLINE CORBA::Boolean operator>> (TAO_InputCDR &strm, TAO_SCIOP_Endpoint_Info &_tao_aggregate) { if ( (strm >> _tao_aggregate.host.out ()) && (strm >> _tao_aggregate.port) && (strm >> _tao_aggregate.priority) ) return 1; else return 0; } #if !defined _TAO_CDR_OP_TAO_SCIOPEndpointSequence_I_ #define _TAO_CDR_OP_TAO_SCIOPEndpointSequence_I_ CORBA::Boolean TAO_Strategies_Export operator<< ( TAO_OutputCDR &, const TAO_SCIOPEndpointSequence & ); CORBA::Boolean TAO_Strategies_Export operator>> ( TAO_InputCDR &, TAO_SCIOPEndpointSequence & ); #endif /* _TAO_CDR_OP_TAO_SCIOPEndpointSequence_I_ */