Virtualize showing/hiding the pages in wxBookCtrlBase.

[wxWidgets.git] / docs / doxygen / overviews / debugging.h

diff --git a/docs/doxygen/overviews/debugging.h b/docs/doxygen/overviews/debugging.h
index 3274dc9cba7a0a2e12e20c18ef0bd24d54e476d6..d339b198a71260745f7b3d95c87e46ca75e7487d 100644 (file)
--- a/docs/doxygen/overviews/debugging.h
+++ b/docs/doxygen/overviews/debugging.h
@@ -1,119 +1,112 @@
 /////////////////////////////////////////////////////////////////////////////
 /////////////////////////////////////////////////////////////////////////////

-// Name:        debugging
+// Name:        debugging.h

 // Purpose:     topic overview
 // Purpose:     topic overview

-// Author:      wxWidgets team
+// Author:      Vadim Zeitlin
+// Copyright:   (c) 2009 Vadim Zeitlin <vadim@wxwidgets.org>

 // RCS-ID:      $Id$
 // RCS-ID:      $Id$

-// Licence:     wxWindows license
+// Licence:     wxWindows licence

 /////////////////////////////////////////////////////////////////////////////
 
 /////////////////////////////////////////////////////////////////////////////
 

-/*!
-
- @page debugging_overview Debugging overview
-
- Classes, functions and macros: #wxDebugContext, #wxObject, #wxLog,
- @ref logfunctions_overview, @ref debugmacros_overview
- Various classes, functions and macros are provided in wxWidgets to help you debug
- your application. Most of these are only available if you compile both wxWidgets,
- your application and @e all libraries that use wxWidgets with the __WXDEBUG__ symbol
- defined. You can also test the __WXDEBUG__ symbol in your own applications to execute
- code that should be active only in debug mode.
- @b wxDebugContext
- #wxDebugContext is a class that never gets instantiated, but ties together
- various static functions and variables. It allows you to dump all objects to that stream, write statistics about object allocation, and
- check memory for errors.
- It is good practice to define a wxObject::Dump member function for each class you derive
- from a wxWidgets class, so that wxDebugContext::Dump can call it and
- give valuable information about the state of the application.
- If you have difficulty tracking down a memory leak, recompile
- in debugging mode and call wxDebugContext::Dump and wxDebugContext::PrintStatistics at
- appropriate places. They will tell you what objects have not yet been
- deleted, and what kinds of object they are. In fact, in debug mode wxWidgets will automatically
- detect memory leaks when your application is about to exit, and if there are any leaks,
- will give you information about the problem. (How much information depends on the operating system
- and compiler -- some systems don't allow all memory logging to be enabled). See the
- memcheck sample for example of usage.
- For wxDebugContext to do its work, the @e new and @e delete
- operators for wxObject have been redefined to store extra information
- about dynamically allocated objects (but not statically declared
- objects). This slows down a debugging version of an application, but can
- find difficult-to-detect memory leaks (objects are not
- deallocated), overwrites (writing past the end of your object) and
- underwrites (writing to memory in front of the object).
- If debugging mode is on and the symbols wxUSE_GLOBAL_MEMORY_OPERATORS and
- wxUSE_DEBUG_NEW_ALWAYS are set to 1 in setup.h, 'new' is defined to be:
-
-
- @code
- #define new new(__FILE__,__LINE__)
- @endcode
-
- All occurrences of 'new' in wxWidgets and your own application will use
- the overridden form of the operator with two extra arguments. This means that the debugging
- output (and error messages reporting memory problems) will tell you what
- file and on what line you allocated the object. Unfortunately not all
- compilers allow this definition to work properly, but most do.
- @b Debug macros
- You should also use @ref debugmacros_overview as part of a 'defensive programming' strategy,
- scattering wxASSERTs liberally to test for problems in your code as early as possible. Forward thinking
- will save a surprising amount of time in the long run.
- #wxASSERT is used to pop up an error message box when a condition
- is not @true. You can also use #wxASSERT_MSG to supply your
- own helpful error message. For example:
-
-
- @code
- void MyClass::MyFunction(wxObject* object)
-   {
-       wxASSERT_MSG( (object != @NULL), "object should not be @NULL in MyFunction!" );
-
-       ...
-   };
- @endcode
-
-
- The message box allows you to continue execution or abort the program. If you are running
- the application inside a debugger, you will be able to see exactly where the problem was.
- @b Logging functions
- You can use the #wxLogDebug and #wxLogTrace functions to output debugging information in debug mode;
- it will do nothing for non-debugging code.
- @ref debugcontext_overview
-
-
- @section wxdebugcontextoverview wxDebugContext overview
-
- @ref debugging_overview
- Class: #wxDebugContext
- wxDebugContext is a class for performing various debugging and memory tracing
- operations.
- This class has only static data and function members, and there should be
- no instances. Probably the most useful members are SetFile (for directing output
- to a file, instead of the default standard error or debugger output);
- Dump (for dumping the dynamically allocated objects) and PrintStatistics
- (for dumping information about allocation of objects). You can also call
- Check to check memory blocks for integrity.
- Here's an example of use. The SetCheckpoint ensures that only the
- allocations done after the checkpoint will be dumped.
-
- @code
- wxDebugContext::SetCheckpoint();
-
-   wxDebugContext::SetFile("c:\\temp\\debug.log");
-
-   wxString *thing = new wxString;
-
-   char *ordinaryNonObject = new char[1000];
-
-   wxDebugContext::Dump();
-   wxDebugContext::PrintStatistics();
- @endcode
-
- You can use wxDebugContext if __WXDEBUG__ is defined, or you can use it
- at any other time (if wxUSE_DEBUG_CONTEXT is set to 1 in setup.h). It is not disabled
- in non-debug mode because you may not wish to recompile wxWidgets and your entire application
- just to make use of the error logging facility.
- Note: wxDebugContext::SetFile has a problem at present, so use the default stream instead.
- Eventually the logging will be done through the wxLog facilities instead.
-
- */
+/**

 
 

+@page overview_debugging Debugging
+
+Classes, functions and macros: wxLog, @ref group_funcmacro_log, @ref group_funcmacro_debug
+
+Various classes, functions and macros are provided in wxWidgets to help you debug
+your application: @ref overview_debugging_dbgmacros allow you to insert various
+checks in your application which can be compiled out or disabled in release
+builds but are extremely useful while developing and @ref
+overview_debugging_logging which are not limited to debugging but are also
+useful for inserting traces into your application code. Both assertions and
+debug logging are also used by wxWidgets itself so you may encounter them even
+if you don't use either of these features yourself.
+
+
+@section overview_debugging_config Configuring debugging support
+
+Starting with wxWidgets 2.9.1 debugging features are always available by
+default (and not only in a special "debug" build of the library) and you need
+to predefine wxDEBUG_LEVEL symbol as 0 when building both the library and your
+application to remove them completely from the generated object code. However
+the debugging features are disabled by default when the application itself is
+built with @c NDEBUG defined (i.e. in "release" or "production" mode) so there
+is no need to do this, unless the resources of the system your application will
+be running on are unusually constrained (notice that when asserts are disabled
+their condition is not even evaluated so the only run-time cost is a single
+condition check and the extra space taken by the asserts in the code).
+
+This automatic deactivation of debugging code is done by IMPLEMENT_APP() macro
+so if you don't use you may need to explicitly call wxDISABLE_DEBUG_SUPPORT()
+yourself.
+
+Also notice that it is possible to build your own application with a different
+value of wxDEBUG_LEVEL than the one which was used for wxWidgets itself. E.g.
+you may be using an official binary version of the library which will have
+been compiled with default @code wxDEBUG_LEVEL == 1 @endcode but still predefine
+wxDEBUG_LEVEL as 0 for your own code.
+
+On the other hand, if you do want to keep the asserts even in production
+builds, you will probably want to override the handling of assertion failures
+as the default behaviour which pops up a message box notifying the user about
+the problem is usually inappropriate. Use wxSetAssertHandler() to set up your
+own custom function which should be called instead of the standard assertion
+failure handler. Such function could log an appropriate message in the
+application log file or maybe notify the user about the problem in some more
+user-friendly way.
+
+
+@section overview_debugging_dbgmacros Assertion macros
+
+wxASSERT(), wxFAIL(), wxCHECK() as well as their other variants (see @ref
+group_funcmacro_debug) are similar to the standard assert() macro but are more
+flexible and powerful. The first of them is equivalent to assert() itself, i.e.
+it simply checks a condition and does nothing if it is true. The second one is
+equivalent to checking an always false condition and is supposed to be used for
+code paths which are supposed to be inaccessible (e.g. @c default branch of a
+@c switch statement which should never be executed). Finally, the wxCHECK()
+family of macros verifies the condition just as wxASSERT() does and performs
+some action such returning from the function if it fails -- thus, it is useful
+for checking the functions preconditions.
+
+All of the above functions exist in @c _MSG variants which allow you to provide
+a custom message which will be shown (or, more generally, passed to the assert
+handler) if the assertion fails, in addition to the usual file and line number
+information and the condition itself.
+
+Example of using an assertion macro:
+@code
+void GetTheAnswer(int *p)
+{
+    wxCHECK_RET( p, "pointer can't be NULL in GetTheAnswer()" );
+
+    *p = 42;
+};
+@endcode
+
+If the condition is false, i.e. @c p is @NULL, the assertion handler is called
+and, in any case (even when wxDEBUG_LEVEL is 0), the function returns without
+dereferencing the NULL pointer on the next line thus avoiding a crash.
+
+The default assertion handler behaviour depends on whether the application
+using wxWidgets was compiled in release build (with @c NDEBUG defined) or debug
+one (without) but may be changed in either case as explained above. If it
+wasn't changed, then nothing will happen in the release build and a message box
+showing the information about the assert as well as allowing to stop the
+program, ignore future asserts or break into the debugger is shown. On the
+platforms where wxStackWalker is supported the message box will also show the
+stack trace at the moment when the assert failed often allowing you to diagnose
+the problem without using the debugger at all. You can see an example of such
+message box in the @ref page_samples_except.
+
+
+
+@section overview_debugging_logging Logging functions
+
+You can use the wxLogDebug and wxLogTrace functions to output debugging information in
+debug mode; it will do nothing for non-debugging code.
+
+
+
+*/