/usr/include/cxx/sidlx_rmi_SimCall.hxx is in libsidl-dev 1.4.0.dfsg-8build3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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// File: sidlx_rmi_SimCall.hxx
// Symbol: sidlx.rmi.SimCall-v0.1
// Symbol Type: class
// Babel Version: 1.4.0 (Revision: 6607 release-1-4-0-branch)
// Description: Client-side glue code for sidlx.rmi.SimCall
//
// WARNING: Automatically generated; changes will be lost
//
//
#ifndef included_sidlx_rmi_SimCall_hxx
#define included_sidlx_rmi_SimCall_hxx
#ifndef included_sidl_cxx_hxx
#include "sidl_cxx.hxx"
#endif
// declare class before main #includes
// (this alleviates circular #include guard problems)[BUG#393]
namespace sidlx {
namespace rmi {
class SimCall;
} // end namespace rmi
} // end namespace sidlx
// Some compilers need to define array template before the specializations
namespace sidl {
template<>
class array< ::sidlx::rmi::SimCall >;
}
//
// Forward declarations for method dependencies.
//
namespace sidl {
class RuntimeException;
} // end namespace sidl
namespace sidl {
namespace io {
class Serializable;
} // end namespace io
} // end namespace sidl
namespace sidlx {
namespace rmi {
class Socket;
} // end namespace rmi
} // end namespace sidlx
namespace sidlx {
namespace rmi {
class UnauthorizedCallException;
} // end namespace rmi
} // end namespace sidlx
#ifndef included_sidl_cxx_hxx
#include "sidl_cxx.hxx"
#endif
#ifndef included_sidlx_rmi_SimCall_IOR_h
#include "sidlx_rmi_SimCall_IOR.h"
#endif
#ifndef included_sidl_BaseClass_hxx
#include "sidl_BaseClass.hxx"
#endif
#ifndef included_sidl_rmi_Call_hxx
#include "sidl_rmi_Call.hxx"
#endif
#ifndef included_sidlx_rmi_CallType_hxx
#include "sidlx_rmi_CallType.hxx"
#endif
namespace sidl {
namespace rmi {
class Call;
class Return;
class Ticket;
}
namespace rmi {
class InstanceHandle;
}
}
namespace sidlx {
namespace rmi {
/**
* Symbol "sidlx.rmi.SimCall" (version 0.1)
*
* This type is created on the server side to get inargs off the network and
* pass them into exec.
*/
class SimCall: public virtual ::sidl::BaseClass, public virtual
::sidl::rmi::Call {
//////////////////////////////////////////////////
//
// Special methods for throwing exceptions
//
private:
static
void
throwException0(
const char* methodName,
struct sidl_BaseInterface__object *_exception
)
// throws:
;
static
void
throwException1(
const char* methodName,
struct sidl_BaseInterface__object *_exception
)
// throws:
// ::sidl::RuntimeException
// ::sidlx::rmi::UnauthorizedCallException
;
//////////////////////////////////////////////////
//
// User Defined Methods
//
public:
/**
* user defined non-static method
*/
void
init (
/* in */const ::sidlx::rmi::Socket& sock,
/* in rarray[len] */char* cookie,
/* in */int32_t len
)
// throws:
// ::sidl::RuntimeException
// ::sidlx::rmi::UnauthorizedCallException
;
/**
* user defined non-static method
*/
void
init (
/* in */const ::sidlx::rmi::Socket& sock,
/* in rarray[len] */const ::sidl::array<char>& cookie
)
// throws:
// ::sidl::RuntimeException
// ::sidlx::rmi::UnauthorizedCallException
;
/**
* user defined non-static method
*/
::std::string
getMethodName() ;
/**
* user defined non-static method
*/
::std::string
getObjectID() ;
/**
* user defined non-static method
*/
::sidlx::rmi::CallType
getCallType() ;
/**
* user defined non-static method
*/
void
unpackBool (
/* in */const ::std::string& key,
/* inout */bool& value
)
;
/**
* user defined non-static method
*/
void
unpackChar (
/* in */const ::std::string& key,
/* inout */char& value
)
;
/**
* user defined non-static method
*/
void
unpackInt (
/* in */const ::std::string& key,
/* inout */int32_t& value
)
;
/**
* user defined non-static method
*/
void
unpackLong (
/* in */const ::std::string& key,
/* inout */int64_t& value
)
;
/**
* user defined non-static method
*/
void
unpackOpaque (
/* in */const ::std::string& key,
/* inout */void*& value
)
;
/**
* user defined non-static method
*/
void
unpackFloat (
/* in */const ::std::string& key,
/* inout */float& value
)
;
/**
* user defined non-static method
*/
void
unpackDouble (
/* in */const ::std::string& key,
/* inout */double& value
)
;
/**
* user defined non-static method
*/
void
unpackFcomplex (
/* in */const ::std::string& key,
/* inout */::std::complex<float>& value
)
;
/**
* user defined non-static method
*/
void
unpackDcomplex (
/* in */const ::std::string& key,
/* inout */::std::complex<double>& value
)
;
/**
* user defined non-static method
*/
void
unpackString (
/* in */const ::std::string& key,
/* inout */::std::string& value
)
;
/**
* user defined non-static method
*/
void
unpackSerializable (
/* in */const ::std::string& key,
/* inout */::sidl::io::Serializable& value
)
;
/**
* unpack arrays of values
* It is possible to ensure an array is
* in a certain order by passing in ordering and dimension
* requirements. ordering should represent a value in the
* sidl_array_ordering enumeration in sidlArray.h If either
* argument is 0, it means there is no restriction on that
* aspect. The rarray flag should be set if the array being
* passed in is actually an rarray. The semantics are slightly
* different for rarrays. The passed in array MUST be reused,
* even if the array has changed bounds.
*/
void
unpackBoolArray (
/* in */const ::std::string& key,
/* inout array<bool> */::sidl::array<bool>& value,
/* in */int32_t ordering,
/* in */int32_t dimen,
/* in */bool isRarray
)
;
/**
* user defined non-static method
*/
void
unpackCharArray (
/* in */const ::std::string& key,
/* inout array<char> */::sidl::array<char>& value,
/* in */int32_t ordering,
/* in */int32_t dimen,
/* in */bool isRarray
)
;
/**
* user defined non-static method
*/
void
unpackIntArray (
/* in */const ::std::string& key,
/* inout array<int> */::sidl::array<int32_t>& value,
/* in */int32_t ordering,
/* in */int32_t dimen,
/* in */bool isRarray
)
;
/**
* user defined non-static method
*/
void
unpackLongArray (
/* in */const ::std::string& key,
/* inout array<long> */::sidl::array<int64_t>& value,
/* in */int32_t ordering,
/* in */int32_t dimen,
/* in */bool isRarray
)
;
/**
* user defined non-static method
*/
void
unpackOpaqueArray (
/* in */const ::std::string& key,
/* inout array<opaque> */::sidl::array<void*>& value,
/* in */int32_t ordering,
/* in */int32_t dimen,
/* in */bool isRarray
)
;
/**
* user defined non-static method
*/
void
unpackFloatArray (
/* in */const ::std::string& key,
/* inout array<float> */::sidl::array<float>& value,
/* in */int32_t ordering,
/* in */int32_t dimen,
/* in */bool isRarray
)
;
/**
* user defined non-static method
*/
void
unpackDoubleArray (
/* in */const ::std::string& key,
/* inout array<double> */::sidl::array<double>& value,
/* in */int32_t ordering,
/* in */int32_t dimen,
/* in */bool isRarray
)
;
/**
* user defined non-static method
*/
void
unpackFcomplexArray (
/* in */const ::std::string& key,
/* inout array<fcomplex> */::sidl::array< ::sidl::fcomplex>& value,
/* in */int32_t ordering,
/* in */int32_t dimen,
/* in */bool isRarray
)
;
/**
* user defined non-static method
*/
void
unpackDcomplexArray (
/* in */const ::std::string& key,
/* inout array<dcomplex> */::sidl::array< ::sidl::dcomplex>& value,
/* in */int32_t ordering,
/* in */int32_t dimen,
/* in */bool isRarray
)
;
/**
* user defined non-static method
*/
void
unpackStringArray (
/* in */const ::std::string& key,
/* inout array<string> */::sidl::array< ::std::string>& value,
/* in */int32_t ordering,
/* in */int32_t dimen,
/* in */bool isRarray
)
;
/**
* user defined non-static method
*/
void
unpackGenericArray (
/* in */const ::std::string& key,
/* inout array<> */::sidl::basearray& value
)
;
/**
* user defined non-static method
*/
void
unpackSerializableArray (
/* in */const ::std::string& key,
/* inout array<sidl.io.Serializable> */::sidl::array<
::sidl::io::Serializable>& value,
/* in */int32_t ordering,
/* in */int32_t dimen,
/* in */bool isRarray
)
;
//////////////////////////////////////////////////
//
// End User Defined Methods
// (everything else in this file is specific to
// Babel's C++ bindings)
//
public:
typedef struct sidlx_rmi_SimCall__object ior_t;
typedef struct sidlx_rmi_SimCall__external ext_t;
typedef struct sidlx_rmi_SimCall__sepv sepv_t;
// default constructor
SimCall() { }
// static constructor
static ::sidlx::rmi::SimCall _create();
#ifdef WITH_RMI
// RMI constructor
static ::sidlx::rmi::SimCall _create( /*in*/ const std::string& url );
// RMI connect
static inline ::sidlx::rmi::SimCall _connect( /*in*/ const std::string&
url ) {
return _connect(url, true);
}
// RMI connect 2
static ::sidlx::rmi::SimCall _connect( /*in*/ const std::string& url,
/*in*/ const bool ar );
#endif /*WITH_RMI*/
// default destructor
virtual ~SimCall () { }
// copy constructor
SimCall ( const SimCall& original );
// assignment operator
SimCall& operator= ( const SimCall& rhs );
protected:
// Internal data wrapping method
static ior_t* _wrapObj(void* private_data);
public:
// conversion from ior to C++ class
SimCall ( SimCall::ior_t* ior );
// Alternate constructor: does not call addRef()
// (sets d_weak_reference=isWeak)
// For internal use by Impls (fixes bug#275)
SimCall ( SimCall::ior_t* ior, bool isWeak );
inline ior_t* _get_ior() const throw() {
return reinterpret_cast< ior_t*>(d_self);
}
inline void _set_ior( ior_t* ptr ) throw () {
if(d_self == ptr) {return;}
d_self = reinterpret_cast< void*>(ptr);
if( ptr != NULL ) {
sidl_io_Deserializer_IORCache = &((*ptr).d_sidl_io_deserializer);
sidl_rmi_Call_IORCache = &((*ptr).d_sidl_rmi_call);
} else {
sidl_io_Deserializer_IORCache = NULL;
sidl_rmi_Call_IORCache = NULL;
}
}
virtual int _set_ior_typesafe( struct sidl_BaseInterface__object *obj,
const ::std::type_info &argtype );
bool _is_nil() const throw () { return (d_self==0); }
bool _not_nil() const throw () { return (d_self!=0); }
bool operator !() const throw () { return (d_self==0); }
static inline const char * type_name() throw () { return
"sidlx.rmi.SimCall";}
static struct sidlx_rmi_SimCall__object* _cast(const void* src);
// execute member function by name
void _exec(const std::string& methodName,
::sidl::rmi::Call& inArgs,
::sidl::rmi::Return& outArgs);
/**
* Get the URL of the Implementation of this object (for RMI)
*/
::std::string
_getURL() // throws:
// ::sidl::RuntimeException
;
/**
* Method to enable/disable method hooks invocation.
*/
void
_set_hooks (
/* in */bool enable
)
// throws:
// ::sidl::RuntimeException
;
/**
* Method to enable/disable interface contract enforcement.
*/
void
_set_contracts (
/* in */bool enable,
/* in */const ::std::string& enfFilename,
/* in */bool resetCounters
)
// throws:
// ::sidl::RuntimeException
;
/**
* Method to dump contract enforcement statistics.
*/
void
_dump_stats (
/* in */const ::std::string& filename,
/* in */const ::std::string& prefix
)
// throws:
// ::sidl::RuntimeException
;
// return true iff object is remote
bool _isRemote() const {
ior_t* self = const_cast<ior_t*>(_get_ior() );
struct sidl_BaseInterface__object *throwaway_exception;
return (*self->d_epv->f__isRemote)(self, &throwaway_exception) == TRUE;
}
// return true iff object is local
bool _isLocal() const {
return !_isRemote();
}
protected:
// Pointer to external (DLL loadable) symbols (shared among instances)
static const ext_t * s_ext;
public:
static const ext_t * _get_ext() throw ( ::sidl::NullIORException );
}; // end class SimCall
} // end namespace rmi
} // end namespace sidlx
extern "C" {
#pragma weak sidlx_rmi_SimCall__connectI
/**
* RMI connector function for the class. (no addref)
*/
struct sidlx_rmi_SimCall__object*
sidlx_rmi_SimCall__connectI(const char * url, sidl_bool ar, struct
sidl_BaseInterface__object **_ex);
} // end extern "C"
namespace sidl {
// traits specialization
template<>
struct array_traits< ::sidlx::rmi::SimCall > {
typedef array< ::sidlx::rmi::SimCall > cxx_array_t;
typedef ::sidlx::rmi::SimCall cxx_item_t;
typedef struct sidlx_rmi_SimCall__array ior_array_t;
typedef sidl_interface__array ior_array_internal_t;
typedef struct sidlx_rmi_SimCall__object ior_item_t;
typedef cxx_item_t value_type;
typedef value_type reference;
typedef value_type* pointer;
typedef const value_type const_reference;
typedef const value_type* const_pointer;
typedef array_iter< array_traits< ::sidlx::rmi::SimCall > > iterator;
typedef const_array_iter< array_traits< ::sidlx::rmi::SimCall > >
const_iterator;
};
// array specialization
template<>
class array< ::sidlx::rmi::SimCall >: public interface_array< array_traits<
::sidlx::rmi::SimCall > > {
public:
typedef interface_array< array_traits< ::sidlx::rmi::SimCall > > Base;
typedef array_traits< ::sidlx::rmi::SimCall >::cxx_array_t
cxx_array_t;
typedef array_traits< ::sidlx::rmi::SimCall >::cxx_item_t
cxx_item_t;
typedef array_traits< ::sidlx::rmi::SimCall >::ior_array_t
ior_array_t;
typedef array_traits< ::sidlx::rmi::SimCall >::ior_array_internal_t
ior_array_internal_t;
typedef array_traits< ::sidlx::rmi::SimCall >::ior_item_t
ior_item_t;
/**
* conversion from ior to C++ class
* (constructor/casting operator)
*/
array( struct sidlx_rmi_SimCall__array* src = 0) : Base(src) {}
/**
* copy constructor
*/
array( const array< ::sidlx::rmi::SimCall >&src) : Base(src) {}
/**
* assignment
*/
array< ::sidlx::rmi::SimCall >&
operator =( const array< ::sidlx::rmi::SimCall >&rhs ) {
if (d_array != rhs._get_baseior()) {
if (d_array) deleteRef();
d_array = const_cast<sidl__array *>(rhs._get_baseior());
if (d_array) addRef();
}
return *this;
}
};
}
#ifndef included_sidlx_rmi_Socket_hxx
#include "sidlx_rmi_Socket.hxx"
#endif
#endif
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