Message Maps (ATL)
The new home for Visual Studio documentation is Visual Studio 2017 Documentation on docs.microsoft.com.
The latest version of this topic can be found at Message Maps (ATL).
A message map associates a handler function with a particular message, command, or notification. By using ATL's message map macros, you can specify a message map for a window. The window procedures in CWindowImpl
, CDialogImpl
, and CContainedWindowT
direct a window's messages to its message map.
The message handler functions accept an additional argument of type BOOL&
. This argument indicates whether a message has been processed, and it is set to TRUE
by default. A handler function can then set the argument to FALSE
to indicate that it has not handled a message. In this case, ATL will continue to look for a handler function further in the message map. By setting this argument to FALSE
, you can first perform some action in response to a message and then allow the default processing or another handler function to finish handling the message.
Chained Message Maps
ATL also allows you to chain message maps, which directs the message handling to a message map defined in another class. For example, you can implement common message handling in a separate class to provide uniform behavior for all windows chaining to that class. You can chain to a base class or to a data member of your class.
ATL also supports dynamic chaining, which allows you to chain to another object's message map at run time. To implement dynamic chaining, you must derive your class from CDynamicChain. Then declare the CHAIN_MSG_MAP_DYNAMIC macro in your message map. CHAIN_MSG_MAP_DYNAMIC
requires a unique number that identifies the object and the message map to which you are chaining. You must define this unique value through a call to CDynamicChain::SetChainEntry
.
You can chain to any class that declares a message map, provided the class derives from CMessageMap. CMessageMap
allows an object to expose its message maps to other objects. Note that CWindowImpl
already derives from CMessageMap
.
Alternate Message Maps
Finally, ATL supports alternate message maps, declared with the ALT_MSG_MAP macro. Each alternate message map is identified by a unique number, which you pass to ALT_MSG_MAP
. Using alternate message maps, you can handle the messages of multiple windows in one map. Note that by default, CWindowImpl
does not use alternate message maps. To add this support, override the WindowProc
method in your CWindowImpl
-derived class and call ProcessWindowMessage
with the message map identifier.