Assembly: Microsoft.VisualBasic (in microsoft.visualbasic.dll)
'Declaration Public Shared Function GetObject ( _ <OptionalAttribute> Optional PathName As String = Nothing, _ <OptionalAttribute> Optional Class As String = Nothing _ ) As Object 'Usage Dim PathName As String Dim Class As String Dim returnValue As Object returnValue = Interaction.GetObject(PathName, Class)
public static Object GetObject ( /** @attribute OptionalAttribute() */ String PathName, /** @attribute OptionalAttribute() */ String Class )
Optional. String. The full path and name of the file containing the object to retrieve. If PathName is omitted, Class is required.
Required if PathName is not supplied. String. A string representing the class of the object. The Class argument has the following syntax and parts:
Required. String. The name of the application providing the object.
Required. String. The type or class of object to create.
Return ValueReturns a reference to an object provided by a COM component.
For more detailed information, see the Visual Basic topic GetObject Function (Visual Basic).
Use the GetObject function to load an instance of a COM component from a file. The following example illustrates this.
Dim CADObject As Object CADObject = GetObject("C:\CAD\schema.cad")
When this code runs, the application associated with the specified PathName is started and the object in the specified file is activated.
If PathName is a zero-length string (""), GetObject returns a new object instance of the specified class type. If the PathName argument is omitted, GetObject returns a currently active object of the class type specified in Class. If no object of the specified type exists, an error occurs.
Accessing a Subobject
Some applications allow you to activate a subobject associated with a file. To do this, add an exclamation point (!) to the end of the file name and follow it with a string that identifies the part of the file you want to activate. For information on how to create this string, see the documentation for the application that created the object.
For example, in a drawing application you might have multiple layers to a drawing stored in a file. You could use the following code to activate a layer within a drawing called schema.cad.
layerObject = GetObject("C:\CAD\schema.cad!Layer3")
Specifying a Class
If you do not specify the object's Class, Automation determines the application to start and the object to activate, based on the file name you provide. Some files, however, can support more than one class of object. For example, a drawing might support three different types of objects: an Application object, a Drawing object, and a Toolbar object, all of which are part of the same file. To specify which object in a file you want to activate, use the optional Class argument. The following example illustrates this.
Dim drawObj As Object drawObj = GetObject("C:\Drawings\sample.drw", "Figment.Drawing")
In the preceding example, Figment is the name of a drawing application and Drawing is one of the object types it supports.
Using the Object
Once an object is activated, you refer to it in code using the object variable you declared. In the preceding example, you access properties and methods of the new object using the object variable drawObj. The following example illustrates this.
drawObj.Line(9, 90) drawObj.InsertText(9, 100, "Hello, world.") drawObj.SaveAs("C:\Drawings\sample.drw")
Use the GetObject function when there is a current instance of the object or if you want to create the object with a file loaded. If there is no current instance, and you do not want the object started with a file loaded, use the CreateObject Function (Visual Basic).
If an object has registered itself as an ActiveX single-instance object, only one instance of the object is created, no matter how many times CreateObject is called. With a single-instance object, GetObject always returns the same instance when called with the zero-length string ("") syntax, and it causes an error if the PathName argument is omitted. You cannot use GetObject to obtain a reference to a class created with Visual Basic.
The following example uses the GetObject function to obtain a reference to a specific Microsoft Excel worksheet (excelObj). It uses the worksheet's Application property to make Excel visible, to close it, and to perform other actions. Using two API calls, the detectExcel procedure looks for Excel, and if it is running, enters it in the Running Object table. The first call to GetObject causes an error if Excel is not already running, which in this example causes the excelWasNotRunning flag to be set to True. The second call to GetObject specifies a file to open. If Excel is not already running, the second call starts it and returns a reference to the worksheet represented by the specified file, test.xls. The file must exist in the specified location; otherwise, Visual Basic throws a FileNotFoundException. Next, the example code makes both Excel and the window containing the specified worksheet visible.
This example requires Option Strict Off because it uses late binding, where objects are assigned to variables of type Object. You can specify Option Strict On and declare objects of specific object types if you add a reference to the Excel type library from the COM tab of the Add Reference dialog box of the Project menu in Visual Studio.
' Declare necessary API routines. Declare Function findWindow Lib "user32.dll" Alias _ "FindWindowA" (ByVal lpClassName As String, _ ByVal lpWindowName As Long) As Long Declare Function sendMessage Lib "user32.dll" Alias _ "SendMessageA" (ByVal hWnd As Long, ByVal wMsg As Long, _ ByVal wParam As Long, ByVal lParam As Long) As Long
Sub getExcel() Dim excelObj As Object Dim excelWasNotRunning As Boolean ' Test to see if a copy of Excel is already running. On Error Resume Next ' GetObject called without the first argument returns a ' reference to an instance of the application. If the ' application is not already running, an error occurs. excelObj = GetObject(, "Excel.Application") If Err().Number <> 0 Then excelWasNotRunning = True Err().Clear() ' If Excel is running, enter it into the Running Object table. detectExcel() ' Set the object variable to refer to the file you want to use. excelObj = GetObject("c:\vb\test.xls") ' Show Excel through its Application property. Then show the ' window containing the file, using the Windows collection of ' the excelObj object reference. excelObj.Application.Visible = True excelObj.Parent.Windows(1).Visible = True ' Insert code to manipulate the test.xls file here. End Sub
Sub detectExcel() ' Procedure detects a running Excel and registers it. Const WM_USER As Long = 1024 Dim hWnd As Long ' If Excel is running, this API call returns its handle. hWnd = findWindow("XLMAIN", 0) If hWnd = 0 Then ' 0 means Excel is not running. Exit Sub Else ' Excel is running, so use the sendMessage API function ' to enter it in the Running Object table. sendMessage(hWnd, WM_USER + 18, 0, 0) End If End Sub
When you call the getExcel function, a check is made to see if Excel is already running. If it is not, then an instance is created.
For simplicity, the preceding example assumes that any window called XLMAIN belongs to an instance of Microsoft Excel. If another object, possibly launched by illicit tampering, created a window with that name, it would receive all the messages you intended for Excel. In an application to be used for production, you should include some more rigorous testing to verify that XLMAIN really belongs to Excel.
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The .NET Framework does not support all versions of every platform. For a list of the supported versions, see System Requirements.