1998-12-08 13:59:52 -05:00
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\section{\class{wxAutomationObject}}\label{wxautomationobject}
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The {\bf wxAutomationObject} class represents an OLE automation object containing a single data member,
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an IDispatch pointer. It contains a number of functions that make it easy to perform
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automation operations, and set and get properties. The class makes heavy use of the \helpref{wxVariant}{wxvariant} class.
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The usage of these classes is quite close to OLE automation usage in Visual Basic. The API is
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high-level, and the application can specify multiple properties in a single string. The following example
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gets the current Excel instance, and if it exists, makes the active cell bold.
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{\small
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\begin{verbatim}
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wxAutomationObject excelObject;
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if (excelObject.GetInstance("Excel.Application"))
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excelObject.PutProperty("ActiveCell.Font.Bold", TRUE);
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\end{verbatim}
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}
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Note that this class works under Windows only, and currently only for Visual C++.
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\wxheading{Derived from}
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\helpref{wxObject}{wxobject}
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1999-02-15 15:41:29 -05:00
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\wxheading{Include files}
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<wx/msw/ole/automtn.h>
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1998-12-08 13:59:52 -05:00
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\wxheading{See also}
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\helpref{wxVariant}{wxvariant}
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\latexignore{\rtfignore{\wxheading{Members}}}
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\membersection{wxAutomationObject::wxAutomationObject}\label{wxautomationobjectctor}
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\func{}{wxAutomationObject}{\param{WXIDISPATCH*}{ dispatchPtr = NULL}}
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Constructor, taking an optional IDispatch pointer which will be released when the
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object is deleted.
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\membersection{wxAutomationObject::\destruct{wxAutomationObject}}\label{wxautomationobjectdtor}
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\func{}{\destruct{wxAutomationObject}}{\void}
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Destructor. If the internal IDispatch pointer is non-null, it will be released.
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\membersection{wxAutomationObject::CallMethod}\label{wxautomationobjectcallmethod}
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\constfunc{wxVariant}{CallMethod}{\param{const wxString\&}{ method}, \param{int}{ noArgs},
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\param{wxVariant }{args[]}}
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\constfunc{wxVariant}{CallMethod}{\param{const wxString\&}{ method}, \param{...}{}}
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Calls an automation method for this object. The first form takes a method name, number of
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arguments, and an array of variants. The second form takes a method name and zero to six
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constant references to variants. Since the variant class has constructors for the basic
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data types, and C++ provides temporary objects automatically, both of the following lines
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are syntactically valid:
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{\small
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\begin{verbatim}
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wxVariant res = obj.CallMethod("Sum", wxVariant(1.2), wxVariant(3.4));
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wxVariant res = obj.CallMethod("Sum", 1.2, 3.4);
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\end{verbatim}
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}
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Note that {\it method} can contain dot-separated property names, to save the application
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needing to call GetProperty several times using several temporary objects. For example:
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{\small
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\begin{verbatim}
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object.CallMethod("ActiveCell.Font.ShowDialog", "My caption");
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\end{verbatim}
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}
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\membersection{wxAutomationObject::CreateInstance}\label{wxautomationobjectcreateinstance}
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\constfunc{bool}{CreateInstance}{\param{const wxString\&}{ classId}}
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Creates a new object based on the class id, returning TRUE if the object was successfully created,
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or FALSE if not.
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\membersection{wxAutomationObject::GetDispatchPtr}\label{wxautomationobjectgetdispatchptr}
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\constfunc{IDispatch*}{GetDispatchPtr}{\void}
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Gets the IDispatch pointer.
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\membersection{wxAutomationObject::GetInstance}\label{wxautomationobjectgetinstance}
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\constfunc{bool}{GetInstance}{\param{const wxString\&}{ classId}}
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Retrieves the current object associated with a class id, and attaches the IDispatch pointer
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to this object. Returns TRUE if a pointer was succesfully retrieved, FALSE otherwise.
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Note that this cannot cope with two instances of a given OLE object being active simultaneously,
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such as two copies of Excel running. Which object is referenced cannot currently be specified.
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\membersection{wxAutomationObject::GetObject}\label{wxautomationobjectgetobject}
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\constfunc{bool}{GetObject}{\param{wxAutomationObject\&}{obj} \param{const wxString\&}{ property},
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\param{int}{ noArgs = 0}, \param{wxVariant }{args[] = NULL}}
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Retrieves a property from this object, assumed to be a dispatch pointer, and initialises {\it obj} with it.
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To avoid having to deal with IDispatch pointers directly, use this function in preference
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to \helpref{wxAutomationObject::GetProperty}{wxautomationobjectgetproperty} when retrieving objects
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from other objects.
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Note that an IDispatch pointer is stored as a void* pointer in wxVariant objects.
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\wxheading{See also}
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\helpref{wxAutomationObject::GetProperty}{wxautomationobjectgetproperty}
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\membersection{wxAutomationObject::GetProperty}\label{wxautomationobjectgetproperty}
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\constfunc{wxVariant}{GetProperty}{\param{const wxString\&}{ property}, \param{int}{ noArgs},
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\param{wxVariant }{args[]}}
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\constfunc{wxVariant}{GetProperty}{\param{const wxString\&}{ property}, \param{...}{}}
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Gets a property value from this object. The first form takes a property name, number of
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arguments, and an array of variants. The second form takes a property name and zero to six
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constant references to variants. Since the variant class has constructors for the basic
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data types, and C++ provides temporary objects automatically, both of the following lines
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are syntactically valid:
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{\small
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\begin{verbatim}
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wxVariant res = obj.GetProperty("Range", wxVariant("A1"));
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wxVariant res = obj.GetProperty("Range", "A1");
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\end{verbatim}
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}
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Note that {\it property} can contain dot-separated property names, to save the application
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needing to call GetProperty several times using several temporary objects.
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\membersection{wxAutomationObject::Invoke}\label{wxautomationobjectinvoke}
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\constfunc{bool}{Invoke}{\param{const wxString\&}{ member}, \param{int}{ action},
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\param{wxVariant\& }{retValue}, \param{int}{ noArgs}, \param{wxVariant}{ args[]},
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\param{const wxVariant*}{ ptrArgs[] = 0}}
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This function is a low-level implementation that allows access to the IDispatch Invoke function.
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It is not meant to be called directly by the application, but is used by other convenience functions.
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\wxheading{Parameters}
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\docparam{member}{The member function or property name.}
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\docparam{action}{Bitlist: may contain DISPATCH\_PROPERTYPUT, DISPATCH\_PROPERTYPUTREF,
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DISPATCH\_METHOD.}
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\docparam{retValue}{Return value (ignored if there is no return value)}.
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\docparam{noArgs}{Number of arguments in {\it args} or {\it ptrArgs}.}
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\docparam{args}{If non-null, contains an array of variants.}
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\docparam{ptrArgs}{If non-null, contains an array of constant pointers to variants.}
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\wxheading{Return value}
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TRUE if the operation was successful, FALSE otherwise.
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\wxheading{Remarks}
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Two types of argument array are provided, so that when possible pointers are used for efficiency.
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\membersection{wxAutomationObject::PutProperty}\label{wxautomationobjectputproperty}
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\constfunc{bool}{PutProperty}{\param{const wxString\&}{ property}, \param{int}{ noArgs},
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\param{wxVariant }{args[]}}
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\func{bool}{PutProperty}{\param{const wxString\&}{ property}, \param{...}{}}
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Puts a property value into this object. The first form takes a property name, number of
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arguments, and an array of variants. The second form takes a property name and zero to six
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constant references to variants. Since the variant class has constructors for the basic
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data types, and C++ provides temporary objects automatically, both of the following lines
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are syntactically valid:
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{\small
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\begin{verbatim}
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obj.PutProperty("Value", wxVariant(23));
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obj.PutProperty("Value", 23);
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\end{verbatim}
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}
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Note that {\it property} can contain dot-separated property names, to save the application
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needing to call GetProperty several times using several temporary objects.
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\membersection{wxAutomationObject::SetDispatchPtr}\label{wxautomationobjectsetdispatchptr}
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\func{void}{SetDispatchPtr}{\param{WXIDISPATCH*}{ dispatchPtr}}
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Sets the IDispatch pointer. This function does not check if there is already an IDispatch pointer.
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You may need to cast from IDispatch* to WXIDISPATCH* when calling this function.
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