home
***
CD-ROM
|
disk
|
FTP
|
other
***
search
/
OS/2 Shareware BBS: 10 Tools
/
10-Tools.zip
/
tolkit45.zip
/
os2tk45
/
som
/
include
/
typedef.xh
< prev
next >
Wrap
Text File
|
1999-02-22
|
29KB
|
1,010 lines
/*
* This file was generated by the SOM Compiler.
* FileName: typedef.xh.
* Generated using:
* SOM Precompiler somipc: 2.29.1.17
* SOM Emitter emitxh: 2.47
*/
#ifndef SOM_TypeDef_xh
#define SOM_TypeDef_xh
class TypeDef;
/*
* This interface is used to access information associated with
* typedefs, unions, enums, & structs defined in an IDL file.
*
* See CORBA 1.1, 7.5.8, p.137
*/
#define TypeDef_MajorVersion 2
#define TypeDef_MinorVersion 3
/*
* Passthru lines: File: "C.xh", "before"
*/
#include <somtcnst.xh>
#include <somir.xh>
#include <containd.xh>
/* C++ SOM defs */
#include <somcls.xh>
#include <somcm.xh>
/* C++ parent defs */
#ifndef SOM_Contained_xh
#include <containd.xh>
#endif
#ifndef TypeDef_API
#define TypeDef_API
/*
* -- The Class API
*/
/*
* Start of bindings for IDL types
*/
class SOMClass;
class SOMObject;
class Container;
typedef
struct TypeDef_TypeDescription {
Identifier name;
RepositoryId id;
RepositoryId defined_in;
TypeCode type;
} TypeDef_TypeDescription;
/*
* The inherited describe method returns an instance of this
* (TypeDescription) structure in the "value" member of the
* Description structure defined in the Contained interface.
*/
#ifndef SOM_DONT_USE_SHORT_NAMES
#ifndef SOMTGD_TypeDescription
#ifdef TypeDescription
#undef TypeDescription
#define SOMTGD_TypeDescription 1
#else
#define TypeDescription TypeDef_TypeDescription
#endif /* TypeDescription */
#endif /* SOMTGD_TypeDescription */
#endif /* SOM_DONT_USE_SHORT_NAMES */
/*
* End of bindings for IDL types.
*/
/* A procedure to create the TypeDef Class */
SOMEXTERN SOMClass * SOMLINK TypeDefNewClass(
integer4 majorVersion,
integer4 minorVersion);
/* The API to the TypeDef class object, and the methods it introduces. */
SOMEXTERN struct TypeDefClassDataStructure {
SOMClass *classObject;
somMToken _get_type;
somMToken _set_type;
} SOMDLINK TypeDefClassData;
#define _TypeDef TypeDefClassData.classObject
/* The API to parentMtabs for TypeDef, and the instance data it introduces. */
SOMEXTERN struct TypeDefCClassDataStructure {
somMethodTabs parentMtab;
somDToken instanceDataToken;
} SOMDLINK TypeDefCClassData;
/*
* -- Typedefs for TypeDef Method Procedures
*/
SOMEXTERN {
typedef TypeCode SOMLINK somTP_TypeDef__get_type(TypeDef *somSelf, Environment *ev);
typedef somTP_TypeDef__get_type *somTD_TypeDef__get_type;
typedef void SOMLINK somTP_TypeDef__set_type(TypeDef *somSelf, Environment *ev,
TypeCode type);
typedef somTP_TypeDef__set_type *somTD_TypeDef__set_type;
/*
* -- Typedefs for Reintroduced Wrapper Methods
*/
typedef Identifier SOMLINK somTP_TypeDef__get_name(TypeDef *somSelf, Environment *ev);
typedef somTP_TypeDef__get_name *somTD_TypeDef__get_name;
typedef void SOMLINK somTP_TypeDef__set_name(TypeDef *somSelf, Environment *ev,
Identifier name);
typedef somTP_TypeDef__set_name *somTD_TypeDef__set_name;
typedef RepositoryId SOMLINK somTP_TypeDef__get_id(TypeDef *somSelf, Environment *ev);
typedef somTP_TypeDef__get_id *somTD_TypeDef__get_id;
typedef void SOMLINK somTP_TypeDef__set_id(TypeDef *somSelf, Environment *ev,
RepositoryId id);
typedef somTP_TypeDef__set_id *somTD_TypeDef__set_id;
typedef RepositoryId SOMLINK somTP_TypeDef__get_defined_in(TypeDef *somSelf, Environment *ev);
typedef somTP_TypeDef__get_defined_in *somTD_TypeDef__get_defined_in;
typedef void SOMLINK somTP_TypeDef__set_defined_in(TypeDef *somSelf, Environment *ev,
RepositoryId defined_in);
typedef somTP_TypeDef__set_defined_in *somTD_TypeDef__set_defined_in;
typedef _IDL_SEQUENCE_somModifier SOMLINK somTP_TypeDef__get_somModifiers(TypeDef *somSelf, Environment *ev);
typedef somTP_TypeDef__get_somModifiers *somTD_TypeDef__get_somModifiers;
typedef void SOMLINK somTP_TypeDef__set_somModifiers(TypeDef *somSelf, Environment *ev,
_IDL_SEQUENCE_somModifier* somModifiers);
typedef somTP_TypeDef__set_somModifiers *somTD_TypeDef__set_somModifiers;
typedef _IDL_SEQUENCE_Container SOMLINK somTP_TypeDef_within(TypeDef *somSelf, Environment *ev);
typedef somTP_TypeDef_within *somTD_TypeDef_within;
typedef Contained_Description SOMLINK somTP_TypeDef_describe(TypeDef *somSelf, Environment *ev);
typedef somTP_TypeDef_describe *somTD_TypeDef_describe;
typedef void SOMLINK somTP_TypeDef_somFree(TypeDef *somSelf);
typedef somTP_TypeDef_somFree *somTD_TypeDef_somFree;
typedef void SOMLINK somTP_TypeDef_somDefaultInit(TypeDef *somSelf,
som3InitCtrl* ctrl);
typedef somTP_TypeDef_somDefaultInit *somTD_TypeDef_somDefaultInit;
typedef void SOMLINK somTP_TypeDef_somDestruct(TypeDef *somSelf,
octet doFree,
som3DestructCtrl* ctrl);
typedef somTP_TypeDef_somDestruct *somTD_TypeDef_somDestruct;
typedef void SOMLINK somTP_TypeDef_somDumpSelf(TypeDef *somSelf,
long level);
typedef somTP_TypeDef_somDumpSelf *somTD_TypeDef_somDumpSelf;
typedef void SOMLINK somTP_TypeDef_somDumpSelfInt(TypeDef *somSelf,
long level);
typedef somTP_TypeDef_somDumpSelfInt *somTD_TypeDef_somDumpSelfInt;
typedef void SOMLINK somTP_TypeDef_somDefaultCopyInit(TypeDef *somSelf,
som3InitCtrl* ctrl,
SOMObject* fromObj);
typedef somTP_TypeDef_somDefaultCopyInit *somTD_TypeDef_somDefaultCopyInit;
typedef TypeDef* SOMLINK somTP_TypeDef_somDefaultAssign(TypeDef *somSelf,
som3AssignCtrl* ctrl,
SOMObject* fromObj);
typedef somTP_TypeDef_somDefaultAssign *somTD_TypeDef_somDefaultAssign;
typedef void SOMLINK somTP_TypeDef_somDefaultConstCopyInit(TypeDef *somSelf,
som3InitCtrl* ctrl,
SOMObject* fromObj);
typedef somTP_TypeDef_somDefaultConstCopyInit *somTD_TypeDef_somDefaultConstCopyInit;
typedef void SOMLINK somTP_TypeDef_somDefaultVCopyInit(TypeDef *somSelf,
som3InitCtrl* ctrl,
SOMObject* fromObj);
typedef somTP_TypeDef_somDefaultVCopyInit *somTD_TypeDef_somDefaultVCopyInit;
typedef void SOMLINK somTP_TypeDef_somDefaultConstVCopyInit(TypeDef *somSelf,
som3InitCtrl* ctrl,
SOMObject* fromObj);
typedef somTP_TypeDef_somDefaultConstVCopyInit *somTD_TypeDef_somDefaultConstVCopyInit;
typedef TypeDef* SOMLINK somTP_TypeDef_somDefaultConstAssign(TypeDef *somSelf,
som3AssignCtrl* ctrl,
SOMObject* fromObj);
typedef somTP_TypeDef_somDefaultConstAssign *somTD_TypeDef_somDefaultConstAssign;
typedef TypeDef* SOMLINK somTP_TypeDef_somDefaultVAssign(TypeDef *somSelf,
som3AssignCtrl* ctrl,
SOMObject* fromObj);
typedef somTP_TypeDef_somDefaultVAssign *somTD_TypeDef_somDefaultVAssign;
typedef TypeDef* SOMLINK somTP_TypeDef_somDefaultConstVAssign(TypeDef *somSelf,
som3AssignCtrl* ctrl,
SOMObject* fromObj);
typedef somTP_TypeDef_somDefaultConstVAssign *somTD_TypeDef_somDefaultConstVAssign;
typedef void SOMLINK somTP_TypeDef_somInit(TypeDef *somSelf);
typedef somTP_TypeDef_somInit *somTD_TypeDef_somInit;
typedef void SOMLINK somTP_TypeDef_somUninit(TypeDef *somSelf);
typedef somTP_TypeDef_somUninit *somTD_TypeDef_somUninit;
typedef SOMClass* SOMLINK somTP_TypeDef_somGetClass(TypeDef *somSelf);
typedef somTP_TypeDef_somGetClass *somTD_TypeDef_somGetClass;
typedef string SOMLINK somTP_TypeDef_somGetClassName(TypeDef *somSelf);
typedef somTP_TypeDef_somGetClassName *somTD_TypeDef_somGetClassName;
typedef long SOMLINK somTP_TypeDef_somGetSize(TypeDef *somSelf);
typedef somTP_TypeDef_somGetSize *somTD_TypeDef_somGetSize;
typedef boolean SOMLINK somTP_TypeDef_somIsA(TypeDef *somSelf,
SOMClass* aClassObj);
typedef somTP_TypeDef_somIsA *somTD_TypeDef_somIsA;
typedef boolean SOMLINK somTP_TypeDef_somIsInstanceOf(TypeDef *somSelf,
SOMClass* aClassObj);
typedef somTP_TypeDef_somIsInstanceOf *somTD_TypeDef_somIsInstanceOf;
typedef boolean SOMLINK somTP_TypeDef_somRespondsTo(TypeDef *somSelf,
somId mId);
typedef somTP_TypeDef_somRespondsTo *somTD_TypeDef_somRespondsTo;
typedef boolean SOMLINK somTP_TypeDef_somDispatch(TypeDef *somSelf,
somToken* retValue,
somId methodId,
va_list ap);
typedef somTP_TypeDef_somDispatch *somTD_TypeDef_somDispatch;
typedef boolean SOMLINK somTP_TypeDef_somClassDispatch(TypeDef *somSelf,
SOMClass* clsObj,
somToken* retValue,
somId methodId,
va_list ap);
typedef somTP_TypeDef_somClassDispatch *somTD_TypeDef_somClassDispatch;
typedef boolean SOMLINK somTP_TypeDef_somCastObj(TypeDef *somSelf,
SOMClass* cls);
typedef somTP_TypeDef_somCastObj *somTD_TypeDef_somCastObj;
typedef boolean SOMLINK somTP_TypeDef_somResetObj(TypeDef *somSelf);
typedef somTP_TypeDef_somResetObj *somTD_TypeDef_somResetObj;
typedef void SOMLINK somTP_TypeDef_somDispatchV(TypeDef *somSelf,
somId methodId,
somId descriptor,
va_list ap);
typedef somTP_TypeDef_somDispatchV *somTD_TypeDef_somDispatchV;
typedef long SOMLINK somTP_TypeDef_somDispatchL(TypeDef *somSelf,
somId methodId,
somId descriptor,
va_list ap);
typedef somTP_TypeDef_somDispatchL *somTD_TypeDef_somDispatchL;
typedef void* SOMLINK somTP_TypeDef_somDispatchA(TypeDef *somSelf,
somId methodId,
somId descriptor,
va_list ap);
typedef somTP_TypeDef_somDispatchA *somTD_TypeDef_somDispatchA;
typedef double SOMLINK somTP_TypeDef_somDispatchD(TypeDef *somSelf,
somId methodId,
somId descriptor,
va_list ap);
typedef somTP_TypeDef_somDispatchD *somTD_TypeDef_somDispatchD;
typedef SOMObject* SOMLINK somTP_TypeDef_somPrintSelf(TypeDef *somSelf);
typedef somTP_TypeDef_somPrintSelf *somTD_TypeDef_somPrintSelf;
}
#endif /* TypeDef_API */
/*
* -- This emitter treats Method Tokens as Thunks by default.
* -- Use the sc modifier "nothunks" to change this default
*/
#undef somresolve_
#define somresolve_(obj,mToken) ((somMethodProc*)((void)obj, mToken))
/*
* -- The C++ Wrapper Class for TypeDef
*/
class TypeDef : public Contained
{
/*
* This interface is used to access information associated with
* typedefs, unions, enums, & structs defined in an IDL file.
*
* See CORBA 1.1, 7.5.8, p.137
*/
public:
// TypeDef::new creates the class object if necessary, and then uses somNewNoInit
// to allocate memory and create the object. Initialization is in ctors.
void *operator new(size_t)
{
if (!_TypeDef) TypeDefNewClass(TypeDef_MajorVersion,TypeDef_MinorVersion);
return (void*)
SOM_Resolve(_TypeDef,SOMClass,somNewNoInit)
((SOMClass *)((void*)_TypeDef));
}
// TypeDef::delete uses somDestruct.
void operator delete(void * obj)
{
if (obj && *(void**)obj) {
SOM_Resolve(obj,SOMObject,somFree)
((SOMObject*)obj);
}
}
TypeDef& operator=(TypeDef& fromObj)
{
this->somDefaultAssign(0,(SOMObject*)((void*)&fromObj));
return *this;
}
TypeDef()
{
if (*(void**)this !=
((somParentMtabStructPtr)
(TypeDefCClassData.parentMtab))->mtab)
return;
((SOMObject*)((void*)this))->somDefaultInit(0);
}
TypeDef(TypeDef* fromObj)
{
if (*(void**)this !=
((somParentMtabStructPtr)
(TypeDefCClassData.parentMtab))->mtab)
return;
((SOMObject*)((void*)this))->somDefaultCopyInit(0,((SOMObject*)((void*)fromObj)));
}
#ifdef __IBMCPP__
#pragma info(nocnv,nopar)
#endif
TypeDef(const TypeDef* fromObj)
{
if (*(void**)this !=
((somParentMtabStructPtr)
(TypeDefCClassData.parentMtab))->mtab)
return;
((SOMObject*)((void*)this))->somDefaultConstCopyInit(0,((SOMObject*)((void*)fromObj)));
}
#ifdef __IBMCPP__
#pragma info(restore)
#endif
/* method: _get_type */
TypeCode _get_type(Environment *ev)
{
/*
* The TypeCode of the receiving object. The memory used to hold
* the TypeCode is contained in the receiving object, which retains
* ownership. Hence, do not free the returned TypeCode. If you want
* to obtain a separate copy, use the TypeCode_copy operation.
*/
return SOM_ResolveD(this,TypeDef,TypeDef,_get_type)
(this, ev);
}
/* method: _set_type */
void _set_type(Environment *ev,
TypeCode type)
{
/*
* The TypeCode of the receiving object. The memory used to hold
* the TypeCode is contained in the receiving object, which retains
* ownership. Hence, do not free the returned TypeCode. If you want
* to obtain a separate copy, use the TypeCode_copy operation.
*/
SOM_ResolveD(this,TypeDef,TypeDef,_set_type)
(this, ev,type);
}
/*
* Reintroduce inherited methods
*/
/* method: _get_name */
Identifier _get_name(Environment *ev)
{
/*
* The value of the "name" field of the receiving object
*
* This is a simple name that indentifies the receiving object
* within its containment hierarchy. Outside of the containment
* hierarchy this name is not necessarily unique, and may require
* qualification by ModuleDef name, InterfaceDef name, etc.
*/
return SOM_ResolveD(this,TypeDef,Contained,_get_name)
(this, ev);
}
/* method: _set_name */
void _set_name(Environment *ev,
Identifier name)
{
/*
* The value of the "name" field of the receiving object
*
* This is a simple name that indentifies the receiving object
* within its containment hierarchy. Outside of the containment
* hierarchy this name is not necessarily unique, and may require
* qualification by ModuleDef name, InterfaceDef name, etc.
*/
SOM_ResolveD(this,TypeDef,Contained,_set_name)
(this, ev,name);
}
/* method: _get_id */
RepositoryId _get_id(Environment *ev)
{
/*
* The value of the "id" field of the receiving object
*
* The "id" is a string that uniquely identifies any object in
* the interface repository. No qualification is needed for
* an "id". Notice that "RepositoryId"s have no relationship
* to the SOM type "somId".
*/
return SOM_ResolveD(this,TypeDef,Contained,_get_id)
(this, ev);
}
/* method: _set_id */
void _set_id(Environment *ev,
RepositoryId id)
{
/*
* The value of the "id" field of the receiving object
*
* The "id" is a string that uniquely identifies any object in
* the interface repository. No qualification is needed for
* an "id". Notice that "RepositoryId"s have no relationship
* to the SOM type "somId".
*/
SOM_ResolveD(this,TypeDef,Contained,_set_id)
(this, ev,id);
}
/* method: _get_defined_in */
RepositoryId _get_defined_in(Environment *ev)
{
/*
* The value of the "defined_in" field of the receiving object
*
* This "id" uniquely identifies the container where the
* receiving object is defined. Objects that have global scope
* and do not appear within any other objects are by default
* placed in the "Repository" object.
*/
return SOM_ResolveD(this,TypeDef,Contained,_get_defined_in)
(this, ev);
}
/* method: _set_defined_in */
void _set_defined_in(Environment *ev,
RepositoryId defined_in)
{
/*
* The value of the "defined_in" field of the receiving object
*
* This "id" uniquely identifies the container where the
* receiving object is defined. Objects that have global scope
* and do not appear within any other objects are by default
* placed in the "Repository" object.
*/
SOM_ResolveD(this,TypeDef,Contained,_set_defined_in)
(this, ev,defined_in);
}
/* method: _get_somModifiers */
_IDL_SEQUENCE_somModifier _get_somModifiers(Environment *ev)
{
/*
* [SOM-unique extension]
*
* The somModifiers attribute is a sequence containing all of
* the "modifiers" attached to the corresponding IDL object in
* the SOM-unique implementation section of the IDL file where
* the receiving object was originally defined.
*/
return SOM_ResolveD(this,TypeDef,Contained,_get_somModifiers)
(this, ev);
}
/* method: _set_somModifiers */
void _set_somModifiers(Environment *ev,
_IDL_SEQUENCE_somModifier* somModifiers)
{
/*
* [SOM-unique extension]
*
* The somModifiers attribute is a sequence containing all of
* the "modifiers" attached to the corresponding IDL object in
* the SOM-unique implementation section of the IDL file where
* the receiving object was originally defined.
*/
SOM_ResolveD(this,TypeDef,Contained,_set_somModifiers)
(this, ev,somModifiers);
}
/* method: within */
_IDL_SEQUENCE_Container within(Environment *ev)
{
/*
* Returns a list of objects that contain the receiving object.
* If the object is an interface or module, it can only be contained
* by the object that defines it. Other objects can be contained by
* objects that define or inherit them.
*
* When you have finished using the sequence returned by this method
* it is your responsibility to release the storage allocated for it.
* To free the sequence, use a call similar to the following:
*
* if (seqname._length)
* long i;
* for(i=0; i<seqname._length; i++)
* _somFree(seqname._buffer[i]);
* SOMFree (seqname._buffer);
*/
return SOM_ResolveD(this,TypeDef,Contained,within)
(this, ev);
}
/* method: describe */
Contained_Description describe(Environment *ev)
{
/*
* Returns a structure containing all of the attributes defined in
* the interface of the receiving object.
*
* Warning: this method returns pointers to things withing objects
* (for example, name). Don't use the somFree method to release
* any of these objects while this information is still needed..
*
* When you have finished using the information in the returned
* Description structure, it is your responsibility to release
* the associated storage using a call similar to the following:
*
* if (desc.value._value)
* SOMFree (desc.value._value);
*/
return SOM_ResolveD(this,TypeDef,Contained,describe)
(this, ev);
}
/* method: somFree */
void somFree()
{
SOM_ResolveD(this,TypeDef,SOMObject,somFree)
(this);
}
/* initializer method: somDefaultInit */
void somDefaultInit(som3InitCtrl* ctrl)
{
SOM_ResolveD(this,TypeDef,SOMObject,somDefaultInit)
(this,ctrl);
}
/* method: somDestruct */
void somDestruct(octet doFree,
som3DestructCtrl* ctrl)
{
SOM_ResolveD(this,TypeDef,SOMObject,somDestruct)
(this,doFree,ctrl);
}
/* method: somDumpSelf */
void somDumpSelf(long level)
{
SOM_ResolveD(this,TypeDef,SOMObject,somDumpSelf)
(this,level);
}
/* method: somDumpSelfInt */
void somDumpSelfInt(long level)
{
SOM_ResolveD(this,TypeDef,SOMObject,somDumpSelfInt)
(this,level);
}
/* initializer method: somDefaultCopyInit */
void somDefaultCopyInit(som3InitCtrl* ctrl,
SOMObject* fromObj)
{
/*
* A default copy constructor. Use this to make copies of objects for
* calling methods with "by-value" argument semantics.
*/
SOM_ResolveD(this,TypeDef,SOMObject,somDefaultCopyInit)
(this,ctrl,fromObj);
}
/* method: somDefaultAssign */
TypeDef* somDefaultAssign(som3AssignCtrl* ctrl,
SOMObject* fromObj)
{
/*
* A default assignment operator. Use this to "assign" the state of one
* object to another.
*/
return SOM_ResolveD(this,TypeDef,SOMObject,somDefaultAssign)
(this,ctrl,fromObj);
}
/* initializer method: somDefaultConstCopyInit */
void somDefaultConstCopyInit(som3InitCtrl* ctrl,
SOMObject* fromObj)
{
/*
* A default copy constructor that uses a const fromObj.
*/
SOM_ResolveD(this,TypeDef,SOMObject,somDefaultConstCopyInit)
(this,ctrl,fromObj);
}
/* initializer method: somDefaultVCopyInit */
void somDefaultVCopyInit(som3InitCtrl* ctrl,
SOMObject* fromObj)
{
/*
* A default copy constructor that uses a volatile fromObj.
*/
SOM_ResolveD(this,TypeDef,SOMObject,somDefaultVCopyInit)
(this,ctrl,fromObj);
}
/* initializer method: somDefaultConstVCopyInit */
void somDefaultConstVCopyInit(som3InitCtrl* ctrl,
SOMObject* fromObj)
{
/*
* A default copy constructor that uses a const volatile fromObj.
*/
SOM_ResolveD(this,TypeDef,SOMObject,somDefaultConstVCopyInit)
(this,ctrl,fromObj);
}
/* method: somDefaultConstAssign */
TypeDef* somDefaultConstAssign(som3AssignCtrl* ctrl,
SOMObject* fromObj)
{
/*
* A default assignment operator that uses a const fromObj.
*/
return SOM_ResolveD(this,TypeDef,SOMObject,somDefaultConstAssign)
(this,ctrl,fromObj);
}
/* method: somDefaultVAssign */
TypeDef* somDefaultVAssign(som3AssignCtrl* ctrl,
SOMObject* fromObj)
{
/*
* A default assignment operator that uses a volatile fromObj.
*/
return SOM_ResolveD(this,TypeDef,SOMObject,somDefaultVAssign)
(this,ctrl,fromObj);
}
/* method: somDefaultConstVAssign */
TypeDef* somDefaultConstVAssign(som3AssignCtrl* ctrl,
SOMObject* fromObj)
{
/*
* A default assignment operator that uses a const volatile fromObj.
*/
return SOM_ResolveD(this,TypeDef,SOMObject,somDefaultConstVAssign)
(this,ctrl,fromObj);
}
/* method: somInit */
void somInit()
{
/*
* Obsolete but still supported. Override somDefaultInit instead of somInit.
*/
SOM_ResolveD(this,TypeDef,SOMObject,somInit)
(this);
}
/* method: somUninit */
void somUninit()
{
/*
* Obsolete but still supported. Override somDestruct instead of somUninit.
*/
SOM_ResolveD(this,TypeDef,SOMObject,somUninit)
(this);
}
/* method: somGetClass */
SOMClass* somGetClass()
{
/*
* Return the receiver's class.
*/
return SOM_ResolveD(this,TypeDef,SOMObject,somGetClass)
(this);
}
/* method: somGetClassName */
string somGetClassName()
{
/*
* Return the name of the receiver's class.
*/
return SOM_ResolveD(this,TypeDef,SOMObject,somGetClassName)
(this);
}
/* method: somGetSize */
long somGetSize()
{
/*
* Return the size of the receiver.
*/
return SOM_ResolveD(this,TypeDef,SOMObject,somGetSize)
(this);
}
/* method: somIsA */
boolean somIsA(SOMClass* aClassObj)
{
/*
* Returns 1 (true) if the receiver responds to methods
* introduced by <aClassObj>, and 0 (false) otherwise.
*/
return SOM_ResolveD(this,TypeDef,SOMObject,somIsA)
(this,aClassObj);
}
/* method: somIsInstanceOf */
boolean somIsInstanceOf(SOMClass* aClassObj)
{
/*
* Returns 1 (true) if the receiver is an instance of
* <aClassObj> and 0 (false) otherwise.
*/
return SOM_ResolveD(this,TypeDef,SOMObject,somIsInstanceOf)
(this,aClassObj);
}
/* method: somRespondsTo */
boolean somRespondsTo(somId mId)
{
/*
* Returns 1 (true) if the indicated method can be invoked
* on the receiver and 0 (false) otherwise.
*/
return SOM_ResolveD(this,TypeDef,SOMObject,somRespondsTo)
(this,mId);
}
/* va_list method: somDispatch */
/*
* This method provides a generic, class-specific dispatch mechanism.
* It accepts as input <retValue> a pointer to the memory area to be
* loaded with the result of dispatching the method indicated by
* <methodId> using the arguments in <ap>. <ap> contains the object
* on which the method is to be invoked as the first argument.
*/
/* the va_list invocation form */
boolean TypeDef_somDispatch(somToken* retValue,
somId methodId,
va_list ap)
{return SOM_ResolveD(this,TypeDef,SOMObject,somDispatch)
(this,retValue,methodId,ap);
}
/* the varargs invocation form */
boolean somDispatch(somToken* retValue,
somId methodId,
...)
{
/*
* This method provides a generic, class-specific dispatch mechanism.
* It accepts as input <retValue> a pointer to the memory area to be
* loaded with the result of dispatching the method indicated by
* <methodId> using the arguments in <ap>. <ap> contains the object
* on which the method is to be invoked as the first argument.
*/
va_list ap;
va_start(ap, methodId);
boolean __somResult =
SOM_ResolveD(this,TypeDef,SOMObject,somDispatch)
(this,retValue,methodId,ap);
va_end(ap);
return __somResult;
}
/* va_list method: somClassDispatch */
/*
* Like somDispatch, but method resolution for static methods is done
* according to the clsObj instance method table.
*/
/* the va_list invocation form */
boolean TypeDef_somClassDispatch(SOMClass* clsObj,
somToken* retValue,
somId methodId,
va_list ap)
{return SOM_ResolveD(this,TypeDef,SOMObject,somClassDispatch)
(this,clsObj,retValue,methodId,ap);
}
/* the varargs invocation form */
boolean somClassDispatch(SOMClass* clsObj,
somToken* retValue,
somId methodId,
...)
{
/*
* Like somDispatch, but method resolution for static methods is done
* according to the clsObj instance method table.
*/
va_list ap;
va_start(ap, methodId);
boolean __somResult =
SOM_ResolveD(this,TypeDef,SOMObject,somClassDispatch)
(this,clsObj,retValue,methodId,ap);
va_end(ap);
return __somResult;
}
/* method: somCastObj */
boolean somCastObj(SOMClass* cls)
{
/*
* cast the receiving object to cls (which must be an ancestor of the
* objects true class. Returns true on success.
*/
return SOM_ResolveD(this,TypeDef,SOMObject,somCastObj)
(this,cls);
}
/* method: somResetObj */
boolean somResetObj()
{
/*
* reset an object to its true class. Returns true always.
*/
return SOM_ResolveD(this,TypeDef,SOMObject,somResetObj)
(this);
}
/* va_list method: somDispatchV */
/*
* Obsolete. Use somDispatch instead.
*/
/* the va_list invocation form */
void TypeDef_somDispatchV(somId methodId,
somId descriptor,
va_list ap)
{ SOM_ResolveD(this,TypeDef,SOMObject,somDispatchV)
(this,methodId,descriptor,ap);
}
/* the varargs invocation form */
void somDispatchV(somId methodId,
somId descriptor,
...)
{
/*
* Obsolete. Use somDispatch instead.
*/
va_list ap;
va_start(ap, descriptor);
SOM_ResolveD(this,TypeDef,SOMObject,somDispatchV)
(this,methodId,descriptor,ap);
va_end(ap);
}
/* va_list method: somDispatchL */
/*
* Obsolete. Use somDispatch instead.
*/
/* the va_list invocation form */
long TypeDef_somDispatchL(somId methodId,
somId descriptor,
va_list ap)
{return SOM_ResolveD(this,TypeDef,SOMObject,somDispatchL)
(this,methodId,descriptor,ap);
}
/* the varargs invocation form */
long somDispatchL(somId methodId,
somId descriptor,
...)
{
/*
* Obsolete. Use somDispatch instead.
*/
va_list ap;
va_start(ap, descriptor);
long __somResult =
SOM_ResolveD(this,TypeDef,SOMObject,somDispatchL)
(this,methodId,descriptor,ap);
va_end(ap);
return __somResult;
}
/* va_list method: somDispatchA */
/*
* Obsolete. Use somDispatch instead.
*/
/* the va_list invocation form */
void* TypeDef_somDispatchA(somId methodId,
somId descriptor,
va_list ap)
{return SOM_ResolveD(this,TypeDef,SOMObject,somDispatchA)
(this,methodId,descriptor,ap);
}
/* the varargs invocation form */
void* somDispatchA(somId methodId,
somId descriptor,
...)
{
/*
* Obsolete. Use somDispatch instead.
*/
va_list ap;
va_start(ap, descriptor);
void* __somResult =
SOM_ResolveD(this,TypeDef,SOMObject,somDispatchA)
(this,methodId,descriptor,ap);
va_end(ap);
return __somResult;
}
/* va_list method: somDispatchD */
/*
* Obsolete. Use somDispatch instead.
*/
/* the va_list invocation form */
double TypeDef_somDispatchD(somId methodId,
somId descriptor,
va_list ap)
{return SOM_ResolveD(this,TypeDef,SOMObject,somDispatchD)
(this,methodId,descriptor,ap);
}
/* the varargs invocation form */
double somDispatchD(somId methodId,
somId descriptor,
...)
{
/*
* Obsolete. Use somDispatch instead.
*/
va_list ap;
va_start(ap, descriptor);
double __somResult =
SOM_ResolveD(this,TypeDef,SOMObject,somDispatchD)
(this,methodId,descriptor,ap);
va_end(ap);
return __somResult;
}
/* method: somPrintSelf */
SOMObject* somPrintSelf()
{
/*
* Uses <SOMOutCharRoutine> to write a brief string with identifying
* information about this object. The default implementation just gives
* the object's class name and its address in memory.
* <self> is returned.
*/
return SOM_ResolveD(this,TypeDef,SOMObject,somPrintSelf)
(this);
}
}; /* TypeDef */
#endif /* SOM_TypeDef_xh */