IDirect3DRMObject

Applications use the methods of the IDirect3DRMObject interface to work with the object superclass of Microsoft® Direct3D® Retained Mode objects.

Direct3DRMObject is the common superclass of all objects in the system. A Direct3DRMObject object has characteristics common to all objects.

Each Direct3DRMObject object is instantiated as a COM object. In addition to the methods of the IUnknown interface, each object has a standard set of methods that are generic to all.

To create an object, the application must first have instantiated a Direct3D Retained Mode object by calling the Direct3DRMCreate function. The application then calls the method of the object's interface that creates an object, and it specifies parameters specific to the object. For example, to create a Direct3DRMAnimation object, the application would call the IDirect3DRM3::CreateAnimation method. The creation method then creates a new object, initializes some of the object's attributes from data passed in the parameters (leaving all others with their default values), and returns the object. Applications can then specify the interface for this object to modify and use the object.

Any object can store 32 bits of application-specific data. This data is not interpreted or altered by Retained Mode. The application can read this data by using the IDirect3DRMObject::GetAppData method, and it can write to it by using the IDirect3DRMObject::SetAppData method. Finding this data is simpler if the application keeps a structure for each Direct3DRMFrame object. For example, if calling the IDirect3DRMFrame3::GetParent method retrieves a Direct3DRMFrame object, the application can easily retrieve the data by using a pointer to its private structure, possibly avoiding a time-consuming search.

You might also want to assign a name to an object to help you organize an application or as part of your application's user interface. You can use the IDirect3DRMObject::SetName and IDirect3DRMObject::GetName methods to set and retrieve object names.

Another example of possible uses for application-specific data is when an application needs to group the faces within a mesh into subsets (for example, for front and back faces). You could use the application data in the face to note in which of these groups a face should be included.

An application can specify a function to call when an object is destroyed, such as when the application needs to deallocate memory associated with the object. To do this, use the IDirect3DRMObject::AddDestroyCallback method. To remove a function previously registered with this method, use the IDirect3DRMObject::DeleteDestroyCallback method.

The callback function is called only when the object is destroyed—that is, when the object's reference count has reached 0 and the system is about to deallocate the memory for the object. If an application kept additional data about an object (so that its dynamics could be implemented, for example), the application could use this callback function as a way to notify itself that it can dispose of the data.

For information about grouping objects, see IDirect3DRMObjectArray.

The methods of the IDirect3DRMObject interface can be organized into the following groups:
Application-specific GetAppData
data SetAppData
Cloning Clone
Naming GetClassName
GetName
SetName
Notifications AddDestroyCallback
DeleteDestroyCallback

The IDirect3DRMObject interface, like all Component Object Model (COM) interfaces, inherits the IUnknown interface methods. The IUnknown interface supports the following three methods:
AddRef
QueryInterface
Release

The Direct3DRMObject object is obtained through the appropriate call to the QueryInterface method from any Retained Mode object. All Retained Mode objects inherit the IDirect3DRMObject interface methods.

IDirect3DRMObject::AddDestroyCallback

IDirect3DRMObject

Registers a function that will be called when an object is destroyed.

Syntax

HRESULT AddDestroyCallback(
  D3DRMOBJECTCALLBACK lpCallback,
  LPVOID lpArg
  );

Parameters

lpCallback
User-defined callback function that will be used when the object is destroyed.
lpArg
Address of application-defined data passed to the callback function. Because this function is used after the object has been destroyed, you should not use this function with the object as an argument.

Return Value

Returns D3DRM_OK if successful, or an error otherwise. For a list of possible errors, see Direct3D Retained Mode Return Values.

IDirect3DRMObject::Clone

IDirect3DRMObject

Creates a copy of an object.

Syntax

HRESULT Clone(
  LPUNKNOWN pUnkOuter,
  REFIID riid,
  LPVOID *ppvObj
  );

Parameters

pUnkOuter
Pointer to the outer IUnknown interface that allows COM aggregation features.
riid
Identifier of the object being copied.
ppvObj
Address that will contain the copy of the object when the method returns.

Return Value

Returns D3DRM_OK if successful, or an error otherwise. For a list of possible errors, see Direct3D Retained Mode Return Values.

IDirect3DRMObject::DeleteDestroyCallback

IDirect3DRMObject

Removes a function previously registered with the IDirect3DRMObject::AddDestroyCallback method.

Syntax

HRESULT DeleteDestroyCallback(
  D3DRMOBJECTCALLBACK d3drmObjProc,
  LPVOID lpArg
  );

Parameters

d3drmObjProc
User-defined D3DRMOBJECTCALLBACK callback function that will be used when the object is destroyed.
lpArg
Address of application-defined data passed to the callback function.

Return Value

Returns D3DRM_OK if successful, or an error otherwise. For a list of possible errors, see Direct3D Retained Mode Return Values.

IDirect3DRMObject::GetAppData

IDirect3DRMObject

Retrieves the 32 bits of application-specific data in the object. The default value of the data is 0.

Syntax

DWORD GetAppData( );

Return Value

Returns the data value defined by the application.

See Also

IDirect3DRMObject::SetAppData

IDirect3DRMObject::GetClassName

IDirect3DRMObject

Retrieves the name of the object's class.

Syntax

HRESULT GetClassName(
  LPDWORD lpdwSize,
  LPSTR lpName
  );

Parameters

lpdwSize
Address of a variable containing the size, in bytes, of the buffer pointed to by the lpName parameter.
lpName
Address of a variable that will contain a null-terminated string identifying the class name when the method returns. If this parameter is NULL, the lpdwSize parameter will contain the required size for the string when the method returns.

Return Value

Returns D3DRM_OK if successful, or an error otherwise. For a list of possible errors, see Direct3D Retained Mode Return Values.

IDirect3DRMObject::GetName

IDirect3DRMObject

Retrieves the object's name.

Syntax

HRESULT GetName(
  LPDWORD lpdwSize,
  LPSTR lpName
  );

Parameters

lpdwSize
Address of a variable containing the size, in bytes, of the buffer pointed to by the lpName parameter.
lpName
Address of a variable that will contain a null-terminated string identifying the object's name when the method returns. If this parameter is NULL, the lpdwSize parameter will contain the required size for the string when the method returns.

Return Value

Returns D3DRM_OK if successful, or an error otherwise. For a list of possible errors, see Direct3D Retained Mode Return Values.

See Also

IDirect3DRMObject::SetName

IDirect3DRMObject::SetAppData

IDirect3DRMObject

Sets the 32 bits of application-specific data in the object.

Syntax

HRESULT SetAppData(
  DWORD ulData
  );

Parameters

ulData
User-defined data to be stored with the object.

Return Value

Returns D3DRM_OK if successful, or an error otherwise. For a list of possible errors, see Direct3D Retained Mode Return Values.

See Also

IDirect3DRMObject::GetAppData

IDirect3DRMObject::SetName

IDirect3DRMObject

Sets the object's name.

Syntax

HRESULT SetName(
  const char *lpName
  );

Parameters

lpName
User-defined data to name the object.

Return Value

Returns D3DRM_OK if successful, or an error otherwise. For a list of possible errors, see Direct3D Retained Mode Return Values.

See Also

IDirect3DRMObject::GetName


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