/usr/include/sidl_rmi_Call.h is in libsidl-dev 1.4.0.dfsg-8.2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 | /*
* File: sidl_rmi_Call.h
* Symbol: sidl.rmi.Call-v0.9.17
* Symbol Type: interface
* Babel Version: 1.4.0 (Revision: 6607 release-1-4-0-branch)
* Release: $Name: $
* Revision: @(#) $Id: $
* Description: Client-side glue code for sidl.rmi.Call
*
* Copyright (c) 2000-2002, Lawrence Livermore National Security, LLC.
* Produced at the Lawrence Livermore National Laboratory.
* Written by the Components Team <components@llnl.gov>
* All rights reserved.
*
* This file is part of Babel. For more information, see
* http://www.llnl.gov/CASC/components/. Please read the COPYRIGHT file
* for Our Notice and the LICENSE file for the GNU Lesser General Public
* License.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU Lesser General Public License (as published by
* the Free Software Foundation) version 2.1 dated February 1999.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the IMPLIED WARRANTY OF
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the terms and
* conditions of the GNU Lesser General Public License for more details.
*
* You should have recieved a copy of the GNU Lesser General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* WARNING: Automatically generated; changes will be lost
*
*/
#ifndef included_sidl_rmi_Call_h
#define included_sidl_rmi_Call_h
/**
* Symbol "sidl.rmi.Call" (version 0.9.17)
*
*
* This interface is implemented by the Server side deserializer.
* Deserializes method arguments in preperation for the method
* call.
*/
struct sidl_rmi_Call__object;
struct sidl_rmi_Call__array;
typedef struct sidl_rmi_Call__object* sidl_rmi_Call;
/*
* Includes for all header dependencies.
*/
#ifndef included_sidl_header_h
#include "sidl_header.h"
#endif
#ifndef included_sidl_BaseException_h
#include "sidl_BaseException.h"
#endif
#ifndef included_sidl_BaseInterface_h
#include "sidl_BaseInterface.h"
#endif
#ifndef included_sidl_ClassInfo_h
#include "sidl_ClassInfo.h"
#endif
#ifndef included_sidl_RuntimeException_h
#include "sidl_RuntimeException.h"
#endif
#ifndef included_sidl_SIDLException_h
#include "sidl_SIDLException.h"
#endif
#ifndef included_sidl_io_Serializable_h
#include "sidl_io_Serializable.h"
#endif
#ifndef included_sidl_rmi_Call_h
#include "sidl_rmi_Call.h"
#endif
#ifndef included_sidl_rmi_Return_h
#include "sidl_rmi_Return.h"
#endif
#ifdef SIDL_C_HAS_INLINE
#ifndef included_sidl_rmi_Call_IOR_h
#include "sidl_rmi_Call_IOR.h"
#endif
#endif /* SIDL_C_HAS_INLINE */
#ifdef __cplusplus
extern "C" {
#endif
#if !defined(SIDL_RMI_CALL_INLINE_DECL) && defined(SIDL_C_HAS_INLINE)
#if (defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 199901L)) || defined(__INTEL_COMPILER) || !defined(__GNUC__)
#define SIDL_RMI_CALL_INLINE_DECL inline
#else
#define SIDL_RMI_CALL_INLINE_DECL extern inline
#endif
#endif /* inline preprocessor definitions */
#ifdef WITH_RMI
/**
* RMI constructor function for the class.
*/
sidl_rmi_Call
sidl_rmi_Call__createRemote(const char * url, sidl_BaseInterface *_ex);
/**
* RMI connector function for the class.(addrefs)
*/
sidl_rmi_Call
sidl_rmi_Call__connect(const char *, sidl_BaseInterface *_ex);
#endif /*WITH_RMI*/
/**
* Method to enable/disable interface contract enforcement.
*/
void
sidl_rmi_Call__set_contracts(
sidl_rmi_Call self,
sidl_bool enable,
const char* enfFilename,
sidl_bool resetCounters,
struct sidl_BaseInterface__object **_ex);
/**
* Method to dump interface contract enforcement statistics.
*/
void
sidl_rmi_Call__dump_stats(
sidl_rmi_Call self,
const char* filename,
const char* prefix,
struct sidl_BaseInterface__object **_ex);
/**
* Method: unpackBool[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackBool(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout */ sidl_bool* value,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackBool)(
self->d_object,
key,
value,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackChar[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackChar(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout */ char* value,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackChar)(
self->d_object,
key,
value,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackInt[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackInt(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout */ int32_t* value,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackInt)(
self->d_object,
key,
value,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackLong[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackLong(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout */ int64_t* value,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackLong)(
self->d_object,
key,
value,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackOpaque[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackOpaque(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout */ void** value,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackOpaque)(
self->d_object,
key,
value,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackFloat[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackFloat(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout */ float* value,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackFloat)(
self->d_object,
key,
value,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackDouble[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackDouble(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout */ double* value,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackDouble)(
self->d_object,
key,
value,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackFcomplex[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackFcomplex(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout */ struct sidl_fcomplex* value,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackFcomplex)(
self->d_object,
key,
value,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackDcomplex[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackDcomplex(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout */ struct sidl_dcomplex* value,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackDcomplex)(
self->d_object,
key,
value,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackString[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackString(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout */ char** value,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackString)(
self->d_object,
key,
value,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackSerializable[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackSerializable(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout */ sidl_io_Serializable* value,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackSerializable)(
self->d_object,
key,
value,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* 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.
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackBoolArray(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout array<bool> */ struct sidl_bool__array** value,
/* in */ int32_t ordering,
/* in */ int32_t dimen,
/* in */ sidl_bool isRarray,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackBoolArray)(
self->d_object,
key,
value,
ordering,
dimen,
isRarray,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackCharArray[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackCharArray(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout array<char> */ struct sidl_char__array** value,
/* in */ int32_t ordering,
/* in */ int32_t dimen,
/* in */ sidl_bool isRarray,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackCharArray)(
self->d_object,
key,
value,
ordering,
dimen,
isRarray,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackIntArray[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackIntArray(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout array<int> */ struct sidl_int__array** value,
/* in */ int32_t ordering,
/* in */ int32_t dimen,
/* in */ sidl_bool isRarray,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackIntArray)(
self->d_object,
key,
value,
ordering,
dimen,
isRarray,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackLongArray[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackLongArray(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout array<long> */ struct sidl_long__array** value,
/* in */ int32_t ordering,
/* in */ int32_t dimen,
/* in */ sidl_bool isRarray,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackLongArray)(
self->d_object,
key,
value,
ordering,
dimen,
isRarray,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackOpaqueArray[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackOpaqueArray(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout array<opaque> */ struct sidl_opaque__array** value,
/* in */ int32_t ordering,
/* in */ int32_t dimen,
/* in */ sidl_bool isRarray,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackOpaqueArray)(
self->d_object,
key,
value,
ordering,
dimen,
isRarray,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackFloatArray[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackFloatArray(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout array<float> */ struct sidl_float__array** value,
/* in */ int32_t ordering,
/* in */ int32_t dimen,
/* in */ sidl_bool isRarray,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackFloatArray)(
self->d_object,
key,
value,
ordering,
dimen,
isRarray,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackDoubleArray[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackDoubleArray(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout array<double> */ struct sidl_double__array** value,
/* in */ int32_t ordering,
/* in */ int32_t dimen,
/* in */ sidl_bool isRarray,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackDoubleArray)(
self->d_object,
key,
value,
ordering,
dimen,
isRarray,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackFcomplexArray[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackFcomplexArray(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout array<fcomplex> */ struct sidl_fcomplex__array** value,
/* in */ int32_t ordering,
/* in */ int32_t dimen,
/* in */ sidl_bool isRarray,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackFcomplexArray)(
self->d_object,
key,
value,
ordering,
dimen,
isRarray,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackDcomplexArray[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackDcomplexArray(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout array<dcomplex> */ struct sidl_dcomplex__array** value,
/* in */ int32_t ordering,
/* in */ int32_t dimen,
/* in */ sidl_bool isRarray,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackDcomplexArray)(
self->d_object,
key,
value,
ordering,
dimen,
isRarray,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackStringArray[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackStringArray(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout array<string> */ struct sidl_string__array** value,
/* in */ int32_t ordering,
/* in */ int32_t dimen,
/* in */ sidl_bool isRarray,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackStringArray)(
self->d_object,
key,
value,
ordering,
dimen,
isRarray,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackGenericArray[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackGenericArray(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout array<> */ struct sidl__array** value,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackGenericArray)(
self->d_object,
key,
value,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Method: unpackSerializableArray[]
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_unpackSerializableArray(
/* in */ sidl_rmi_Call self,
/* in */ const char* key,
/* inout array<sidl.io.Serializable> */ struct sidl_io_Serializable__array**
value,
/* in */ int32_t ordering,
/* in */ int32_t dimen,
/* in */ sidl_bool isRarray,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_unpackSerializableArray)(
self->d_object,
key,
value,
ordering,
dimen,
isRarray,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* <p>
* Add one to the intrinsic reference count in the underlying object.
* Object in <code>sidl</code> have an intrinsic reference count.
* Objects continue to exist as long as the reference count is
* positive. Clients should call this method whenever they
* create another ongoing reference to an object or interface.
* </p>
* <p>
* This does not have a return value because there is no language
* independent type that can refer to an interface or a
* class.
* </p>
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_addRef(
/* in */ sidl_rmi_Call self,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_addRef)(
self->d_object,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Decrease by one the intrinsic reference count in the underlying
* object, and delete the object if the reference is non-positive.
* Objects in <code>sidl</code> have an intrinsic reference count.
* Clients should call this method whenever they remove a
* reference to an object or interface.
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call_deleteRef(
/* in */ sidl_rmi_Call self,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f_deleteRef)(
self->d_object,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Return true if and only if <code>obj</code> refers to the same
* object as this object.
*/
SIDL_RMI_CALL_INLINE_DECL
sidl_bool
sidl_rmi_Call_isSame(
/* in */ sidl_rmi_Call self,
/* in */ sidl_BaseInterface iobj,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
sidl_bool _result;
_result = (*self->d_epv->f_isSame)(
self->d_object,
iobj,
_ex);
return _result;
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Return whether this object is an instance of the specified type.
* The string name must be the <code>sidl</code> type name. This
* routine will return <code>true</code> if and only if a cast to
* the string type name would succeed.
*/
SIDL_RMI_CALL_INLINE_DECL
sidl_bool
sidl_rmi_Call_isType(
/* in */ sidl_rmi_Call self,
/* in */ const char* name,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
sidl_bool _result;
_result = (*self->d_epv->f_isType)(
self->d_object,
name,
_ex);
return _result;
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Return the meta-data about the class implementing this interface.
*/
SIDL_RMI_CALL_INLINE_DECL
sidl_ClassInfo
sidl_rmi_Call_getClassInfo(
/* in */ sidl_rmi_Call self,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
sidl_ClassInfo _result;
_result = (*self->d_epv->f_getClassInfo)(
self->d_object,
_ex);
return _result;
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Cast method for interface and class type conversions.
*/
struct sidl_rmi_Call__object*
sidl_rmi_Call__cast(
void* obj,
sidl_BaseInterface* _ex);
/**
* String cast method for interface and class type conversions.
*/
void*
sidl_rmi_Call__cast2(
void* obj,
const char* type,
sidl_BaseInterface *_ex);
/**
* Select and execute a method by name
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call__exec(
/* in */ sidl_rmi_Call self,
/* in */ const char* methodName,
/* in */ sidl_rmi_Call inArgs,
/* in */ sidl_rmi_Return outArgs,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f__exec)(
self->d_object,
methodName,
inArgs,
outArgs,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Get the URL of the Implementation of this object (for RMI)
*/
SIDL_RMI_CALL_INLINE_DECL
char*
sidl_rmi_Call__getURL(
/* in */ sidl_rmi_Call self,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
char* _result;
_result = (*self->d_epv->f__getURL)(
self->d_object,
_ex);
return _result;
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* On a remote object, addrefs the remote instance.
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call__raddRef(
/* in */ sidl_rmi_Call self,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f__raddRef)(
self->d_object,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* TRUE if this object is remote, false if local
*/
SIDL_RMI_CALL_INLINE_DECL
sidl_bool
sidl_rmi_Call__isRemote(
/* in */ sidl_rmi_Call self,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
sidl_bool _result;
_result = (*self->d_epv->f__isRemote)(
self->d_object,
_ex);
return _result;
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* TRUE if this object is remote, false if local
*/
sidl_bool
sidl_rmi_Call__isLocal(
/* in */ sidl_rmi_Call self,
/* out */ sidl_BaseInterface *_ex);
/**
* Method to enable/disable method hooks invocation.
*/
SIDL_RMI_CALL_INLINE_DECL
void
sidl_rmi_Call__set_hooks(
/* in */ sidl_rmi_Call self,
/* in */ sidl_bool enable,
/* out */ sidl_BaseInterface *_ex)
#ifdef SIDL_RMI_CALL_INLINE_DECL
{
(*self->d_epv->f__set_hooks)(
self->d_object,
enable,
_ex);
}
#else
;
#endif /* SIDL_RMI_CALL_INLINE_DECL */
/**
* Create a contiguous array of the given dimension with specified
* index bounds in column-major order. This array
* owns and manages its data.
* This function initializes the contents of the array to
* NULL.
*/
struct sidl_rmi_Call__array*
sidl_rmi_Call__array_createCol(
int32_t dimen,
const int32_t lower[],
const int32_t upper[]);
/**
* Create a contiguous array of the given dimension with specified
* index bounds in row-major order. This array
* owns and manages its data.
* This function initializes the contents of the array to
* NULL.
*/
struct sidl_rmi_Call__array*
sidl_rmi_Call__array_createRow(
int32_t dimen,
const int32_t lower[],
const int32_t upper[]);
/**
* Create a contiguous one-dimensional array with a lower index
* of 0 and an upper index of len-1. This array
* owns and manages its data.
* This function initializes the contents of the array to
* NULL.
*/
struct sidl_rmi_Call__array*
sidl_rmi_Call__array_create1d(int32_t len);
/**
* Create a dense one-dimensional vector with a lower
* index of 0 and an upper index of len-1. The initial data for this
* new array is copied from data. This will increment the reference
* count of each non-NULL object/interface reference in data.
*
* This array owns and manages its data.
*/
struct sidl_rmi_Call__array*
sidl_rmi_Call__array_create1dInit(
int32_t len,
sidl_rmi_Call* data);
/**
* Create a contiguous two-dimensional array in column-major
* order with a lower index of (0,0) and an upper index of
* (m-1,n-1). This array owns and manages its data.
* This function initializes the contents of the array to
* NULL.
*/
struct sidl_rmi_Call__array*
sidl_rmi_Call__array_create2dCol(int32_t m, int32_t n);
/**
* Create a contiguous two-dimensional array in row-major
* order with a lower index of (0,0) and an upper index of
* (m-1,n-1). This array owns and manages its data.
* This function initializes the contents of the array to
* NULL.
*/
struct sidl_rmi_Call__array*
sidl_rmi_Call__array_create2dRow(int32_t m, int32_t n);
/**
* Create an array that uses data (memory) from another
* source. The initial contents are determined by the
* data being borrowed.
* Any time an element in the borrowed array is replaced
* via a set call, deleteRef will be called on the
* value being replaced if it is not NULL.
*/
struct sidl_rmi_Call__array*
sidl_rmi_Call__array_borrow(
sidl_rmi_Call* firstElement,
int32_t dimen,
const int32_t lower[],
const int32_t upper[],
const int32_t stride[]);
/**
* If array is borrowed, allocate a new self-sufficient
* array and copy the borrowed array into the new array;
* otherwise, increment the reference count and return
* the array passed in. Use this whenever you want to
* make a copy of a method argument because arrays
* passed into methods aren't guaranteed to exist after
* the method call.
*/
struct sidl_rmi_Call__array*
sidl_rmi_Call__array_smartCopy(
struct sidl_rmi_Call__array *array);
/**
* Increment the array's internal reference count by one.
*/
void
sidl_rmi_Call__array_addRef(
struct sidl_rmi_Call__array* array);
/**
* Decrement the array's internal reference count by one.
* If the reference count goes to zero, destroy the array.
* If the array isn't borrowed, this releases all the
* object references held by the array.
*/
void
sidl_rmi_Call__array_deleteRef(
struct sidl_rmi_Call__array* array);
/**
* Retrieve element i1 of a(n) 1-dimensional array.
*/
sidl_rmi_Call
sidl_rmi_Call__array_get1(
const struct sidl_rmi_Call__array* array,
const int32_t i1);
/**
* Retrieve element (i1,i2) of a(n) 2-dimensional array.
*/
sidl_rmi_Call
sidl_rmi_Call__array_get2(
const struct sidl_rmi_Call__array* array,
const int32_t i1,
const int32_t i2);
/**
* Retrieve element (i1,i2,i3) of a(n) 3-dimensional array.
*/
sidl_rmi_Call
sidl_rmi_Call__array_get3(
const struct sidl_rmi_Call__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3);
/**
* Retrieve element (i1,i2,i3,i4) of a(n) 4-dimensional array.
*/
sidl_rmi_Call
sidl_rmi_Call__array_get4(
const struct sidl_rmi_Call__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4);
/**
* Retrieve element (i1,i2,i3,i4,i5) of a(n) 5-dimensional array.
*/
sidl_rmi_Call
sidl_rmi_Call__array_get5(
const struct sidl_rmi_Call__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4,
const int32_t i5);
/**
* Retrieve element (i1,i2,i3,i4,i5,i6) of a(n) 6-dimensional array.
*/
sidl_rmi_Call
sidl_rmi_Call__array_get6(
const struct sidl_rmi_Call__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4,
const int32_t i5,
const int32_t i6);
/**
* Retrieve element (i1,i2,i3,i4,i5,i6,i7) of a(n) 7-dimensional array.
*/
sidl_rmi_Call
sidl_rmi_Call__array_get7(
const struct sidl_rmi_Call__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4,
const int32_t i5,
const int32_t i6,
const int32_t i7);
/**
* Retrieve element indices of an n-dimensional array.
* indices is assumed to have the right number of elements
* for the dimension of array.
*/
sidl_rmi_Call
sidl_rmi_Call__array_get(
const struct sidl_rmi_Call__array* array,
const int32_t indices[]);
/**
* Set element i1 of a(n) 1-dimensional array to value.
*/
void
sidl_rmi_Call__array_set1(
struct sidl_rmi_Call__array* array,
const int32_t i1,
sidl_rmi_Call const value);
/**
* Set element (i1,i2) of a(n) 2-dimensional array to value.
*/
void
sidl_rmi_Call__array_set2(
struct sidl_rmi_Call__array* array,
const int32_t i1,
const int32_t i2,
sidl_rmi_Call const value);
/**
* Set element (i1,i2,i3) of a(n) 3-dimensional array to value.
*/
void
sidl_rmi_Call__array_set3(
struct sidl_rmi_Call__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
sidl_rmi_Call const value);
/**
* Set element (i1,i2,i3,i4) of a(n) 4-dimensional array to value.
*/
void
sidl_rmi_Call__array_set4(
struct sidl_rmi_Call__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4,
sidl_rmi_Call const value);
/**
* Set element (i1,i2,i3,i4,i5) of a(n) 5-dimensional array to value.
*/
void
sidl_rmi_Call__array_set5(
struct sidl_rmi_Call__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4,
const int32_t i5,
sidl_rmi_Call const value);
/**
* Set element (i1,i2,i3,i4,i5,i6) of a(n) 6-dimensional array to value.
*/
void
sidl_rmi_Call__array_set6(
struct sidl_rmi_Call__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4,
const int32_t i5,
const int32_t i6,
sidl_rmi_Call const value);
/**
* Set element (i1,i2,i3,i4,i5,i6,i7) of a(n) 7-dimensional array to value.
*/
void
sidl_rmi_Call__array_set7(
struct sidl_rmi_Call__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4,
const int32_t i5,
const int32_t i6,
const int32_t i7,
sidl_rmi_Call const value);
/**
* Set element indices of an n-dimensional array to value.indices is assumed to have the right number of elements
* for the dimension of array.
*/
void
sidl_rmi_Call__array_set(
struct sidl_rmi_Call__array* array,
const int32_t indices[],
sidl_rmi_Call const value);
/**
* Return the dimension of array. If the array pointer is
* NULL, zero is returned.
*/
int32_t
sidl_rmi_Call__array_dimen(
const struct sidl_rmi_Call__array* array);
/**
* Return the lower bound of dimension ind.
* If ind is not a valid dimension, 0 is returned.
* The valid range for ind is from 0 to dimen-1.
*/
int32_t
sidl_rmi_Call__array_lower(
const struct sidl_rmi_Call__array* array,
const int32_t ind);
/**
* Return the upper bound of dimension ind.
* If ind is not a valid dimension, -1 is returned.
* The valid range for ind is from 0 to dimen-1.
*/
int32_t
sidl_rmi_Call__array_upper(
const struct sidl_rmi_Call__array* array,
const int32_t ind);
/**
* Return the length of dimension ind.
* If ind is not a valid dimension, -1 is returned.
* The valid range for ind is from 0 to dimen-1.
*/
int32_t
sidl_rmi_Call__array_length(
const struct sidl_rmi_Call__array* array,
const int32_t ind);
/**
* Return the stride of dimension ind.
* If ind is not a valid dimension, 0 is returned.
* The valid range for ind is from 0 to dimen-1.
*/
int32_t
sidl_rmi_Call__array_stride(
const struct sidl_rmi_Call__array* array,
const int32_t ind);
/**
* Return a true value iff the array is a contiguous
* column-major ordered array. A NULL array argument
* causes 0 to be returned.
*/
int
sidl_rmi_Call__array_isColumnOrder(
const struct sidl_rmi_Call__array* array);
/**
* Return a true value iff the array is a contiguous
* row-major ordered array. A NULL array argument
* causes 0 to be returned.
*/
int
sidl_rmi_Call__array_isRowOrder(
const struct sidl_rmi_Call__array* array);
/**
* Create a sub-array of another array. This resulting
* array shares data with the original array. The new
* array can be of the same dimension or potentially
* less assuming the original array has dimension
* greater than 1. If you are removing dimension,
* indicate the dimensions to remove by setting
* numElem[i] to zero for any dimension i wthat should
* go away in the new array. The meaning of each
* argument is covered below.
*
* src the array to be created will be a subset
* of this array. If this argument is NULL,
* NULL will be returned. The array returned
* borrows data from src, so modifying src or
* the returned array will modify both
* arrays.
*
* dimen this argument must be greater than zero
* and less than or equal to the dimension of
* src. An illegal value will cause a NULL
* return value.
*
* numElem this specifies how many elements from src
* should be taken in each dimension. A zero
* entry indicates that the dimension should
* not appear in the new array. This
* argument should be an array with an entry
* for each dimension of src. Passing NULL
* here will cause NULL to be returned. If
* srcStart[i] + numElem[i]*srcStride[i] is
* greater than upper[i] for src or if
* srcStart[i] + numElem[i]*srcStride[i] is
* less than lower[i] for src, NULL will be
* returned.
*
* srcStart this array holds the coordinates of the
* first element of the new array. If this
* argument is NULL, the first element of src
* will be the first element of the new
* array. If non-NULL, this argument should
* be an array with an entry for each
* dimension of src. If srcStart[i] is less
* than lower[i] for the array src, NULL will
* be returned.
*
* srcStride this array lets you specify the stride
* between elements in each dimension of
* src. This stride is relative to the
* coordinate system of the src array. If
* this argument is NULL, the stride is taken
* to be one in each dimension. If non-NULL,
* this argument should be an array with an
* entry for each dimension of src.
*
* newLower this argument is like lower in a create
* method. It sets the coordinates for the
* first element in the new array. If this
* argument is NULL, the values indicated by
* srcStart will be used. If non-NULL, this
* should be an array with dimen elements.
*/
struct sidl_rmi_Call__array*
sidl_rmi_Call__array_slice(
struct sidl_rmi_Call__array* src,
int32_t dimen,
const int32_t numElem[],
const int32_t *srcStart,
const int32_t *srcStride,
const int32_t *newStart);
/**
* Copy the contents of one array (src) to a second array
* (dest). For the copy to take place, both arrays must
* exist and be of the same dimension. This method will
* not modify dest's size, index bounds, or stride; only
* the array element values of dest may be changed by
* this function. No part of src is ever changed by copy.
*
* On exit, dest[i][j][k]... = src[i][j][k]... for all
* indices i,j,k... that are in both arrays. If dest and
* src have no indices in common, nothing is copied. For
* example, if src is a 1-d array with elements 0-5 and
* dest is a 1-d array with elements 2-3, this function
* will make the following assignments:
* dest[2] = src[2],
* dest[3] = src[3].
* The function copied the elements that both arrays have
* in common. If dest had elements 4-10, this function
* will make the following assignments:
* dest[4] = src[4],
* dest[5] = src[5].
*/
void
sidl_rmi_Call__array_copy(
const struct sidl_rmi_Call__array* src,
struct sidl_rmi_Call__array* dest);
/**
* If necessary, convert a general matrix into a matrix
* with the required properties. This checks the
* dimension and ordering of the matrix. If both these
* match, it simply returns a new reference to the
* existing matrix. If the dimension of the incoming
* array doesn't match, it returns NULL. If the ordering
* of the incoming array doesn't match the specification,
* a new array is created with the desired ordering and
* the content of the incoming array is copied to the new
* array.
*
* The ordering parameter should be one of the constants
* defined in enum sidl_array_ordering
* (e.g. sidl_general_order, sidl_column_major_order, or
* sidl_row_major_order). If you specify
* sidl_general_order, this routine will only check the
* dimension because any matrix is sidl_general_order.
*
* The caller assumes ownership of the returned reference
* unless it's NULL.
*/
struct sidl_rmi_Call__array*
sidl_rmi_Call__array_ensure(
struct sidl_rmi_Call__array* src,
int32_t dimen,
int ordering);
#pragma weak sidl_rmi_Call__connectI
/**
* RMI connector function for the class. (no addref)
*/
struct sidl_rmi_Call__object*
sidl_rmi_Call__connectI(const char * url, sidl_bool ar, struct
sidl_BaseInterface__object **_ex);
#ifdef __cplusplus
}
#endif
#endif
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