wxWidgets/interface/wx/app.h
Vadim Zeitlin ccca07af33 Fix crash when using wxNotebook with glib 2.73 or later
Make GTK notebook log suppression opt-in to avoid a fatal error when the
application calls g_log_set_writer_func() itself, as doing it more than
once immediately kills the application with glib 2.73 and there is no
way to check if it had been already done or not (you have to admire the
purity of the API design here).

This is unfortunate as 99% of the wxWidgets applications that do _not_
call g_log_set_writer_func() would now show the spurious diagnostics by
default again, but preferable to making the remaining 1% crash, and
there doesn't seem to be any other solution.

Call the new GTKAllowDiagnosticsControl() function in the notebook
sample to at least still avoid getting the spurious diagnostic messages
described in #22176 there.

See #22717.

(cherry picked from commit 8af645ed229ebb2542769775565ce85c158e4fb1 and
adapted to 3.2 stable ABI).
2022-08-30 12:35:46 +02:00

1502 lines
50 KiB
Objective-C

/////////////////////////////////////////////////////////////////////////////
// Name: app.h
// Purpose: interface of wxApp
// Author: wxWidgets team
// Licence: wxWindows licence
/////////////////////////////////////////////////////////////////////////////
/**
@class wxAppConsole
This class is essential for writing console-only or hybrid apps without
having to define @c wxUSE_GUI=0.
It is used to:
@li set and get application-wide properties (see wxAppConsole::CreateTraits
and wxAppConsole::SetXXX functions)
@li implement the windowing system message or event loop: events in fact are
supported even in console-mode applications (see wxAppConsole::HandleEvent
and wxAppConsole::ProcessPendingEvents);
@li initiate application processing via wxApp::OnInit;
@li allow default processing of events not handled by other
objects in the application (see wxAppConsole::FilterEvent)
@li implement Apple-specific event handlers (see wxAppConsole::MacXXX functions)
You should use the macro wxIMPLEMENT_APP(appClass) in your application
implementation file to tell wxWidgets how to create an instance of your
application class.
Use wxDECLARE_APP(appClass) in a header file if you want the ::wxGetApp() function
(which returns a reference to your application object) to be visible to other
files.
@library{wxbase}
@category{appmanagement}
@see @ref overview_app, wxApp, wxAppTraits, wxEventLoopBase
*/
class wxAppConsole : public wxEvtHandler,
public wxEventFilter
{
protected:
/**
Creates the wxAppTraits object when GetTraits() needs it for the first time.
@see wxAppTraits
*/
virtual wxAppTraits* CreateTraits();
public:
/**
Destructor.
*/
virtual ~wxAppConsole();
/**
@name Event-handling
Note that you should look at wxEvtLoopBase for more event-processing
documentation.
*/
///@{
/**
Called by wxWidgets on creation of the application. Override this if you wish
to provide your own (environment-dependent) main loop.
@return 0 under X, and the wParam of the WM_QUIT message under Windows.
*/
virtual int MainLoop();
/**
Call this to explicitly exit the main message (event) loop.
You should normally exit the main loop (and the application) by deleting
the top window.
This function simply calls wxEvtLoopBase::Exit() on the active loop.
*/
virtual void ExitMainLoop();
/**
Overridden wxEventFilter method.
This function is called before processing any event and allows the application
to preempt the processing of some events, see wxEventFilter
documentation for more information.
wxApp implementation of this method always return -1 indicating that
the event should be processed normally.
*/
virtual int FilterEvent(wxEvent& event);
/**
Returns the main event loop instance, i.e.\ the event loop which is started
by OnRun() and which dispatches all events sent from the native toolkit
to the application (except when new event loops are temporarily set-up).
The returned value maybe @NULL. Put initialization code which needs a
non-@NULL main event loop into OnEventLoopEnter().
*/
wxEventLoopBase* GetMainLoop() const;
/**
This function simply invokes the given method @a func of the specified
event handler @a handler with the @a event as parameter. It exists solely
to allow to catch the C++ exceptions which could be thrown by all event
handlers in the application in one place: if you want to do this, override
this function in your wxApp-derived class and add try/catch clause(s) to it.
*/
virtual void HandleEvent(wxEvtHandler* handler,
wxEventFunction func,
wxEvent& event) const;
/**
Returns @true if the application is using an event loop.
This function always returns @true for the GUI applications which
must use an event loop but by default only returns @true for the
console programs if an event loop is already running as it can't know
whether one will be created in the future.
Thus, it only makes sense to override it in console applications which
do use an event loop, to return @true instead of checking if there is a
currently active event loop.
*/
virtual bool UsesEventLoop() const;
///@}
/**
@name Pending events
Pending events are handled by wxAppConsole rather than wxEventLoopBase
to allow queuing of events even when there's no event loop
(e.g. in wxAppConsole::OnInit).
*/
///@{
/**
Process all pending events; it is necessary to call this function to
process events posted with wxEvtHandler::QueueEvent or wxEvtHandler::AddPendingEvent.
This happens during each event loop iteration (see wxEventLoopBase) in GUI mode but
it may be also called directly.
Note that this function does not only process the pending events for the wxApp object
itself (which derives from wxEvtHandler) but also the pending events for @e any
event handler of this application.
This function will immediately return and do nothing if SuspendProcessingOfPendingEvents()
was called.
*/
virtual void ProcessPendingEvents();
/**
Deletes the pending events of all wxEvtHandlers of this application.
See wxEvtHandler::DeletePendingEvents() for warnings about deleting the pending
events.
*/
void DeletePendingEvents();
/**
Returns @true if there are pending events on the internal pending event list.
Whenever wxEvtHandler::QueueEvent or wxEvtHandler::AddPendingEvent() are
called (not only for wxApp itself, but for any event handler of the application!),
the internal wxApp's list of handlers with pending events is updated and this
function will return true.
*/
bool HasPendingEvents() const;
/**
Temporary suspends processing of the pending events.
@see ResumeProcessingOfPendingEvents()
*/
void SuspendProcessingOfPendingEvents();
/**
Resume processing of the pending events previously stopped because of a
call to SuspendProcessingOfPendingEvents().
*/
void ResumeProcessingOfPendingEvents();
///@}
/**
Delayed objects destruction.
In applications using events it may be unsafe for an event handler to
delete the object which generated the event because more events may be
still pending for the same object. In this case the handler may call
ScheduleForDestruction() instead.
*/
///@{
/**
Schedule the object for destruction in the near future.
Notice that if the application is not using an event loop, i.e. if
UsesEventLoop() returns @false, this method will simply delete the
object immediately.
Examples of using this function inside wxWidgets itself include
deleting the top level windows when they are closed and sockets when
they are disconnected.
*/
void ScheduleForDestruction(wxObject *object);
/**
Check if the object had been scheduled for destruction with
ScheduleForDestruction().
This function may be useful as an optimization to avoid doing something
with an object which will be soon destroyed in any case.
*/
bool IsScheduledForDestruction(wxObject *object) const;
///@}
/**
Yields control to pending messages in the event loop.
This method is a convenient wrapper for wxEvtLoopBase::Yield(). If the
main loop is currently running, it calls this method on it. Otherwise
it creates a temporary event loop and uses it instead, which can be
useful to process pending messages during the program startup, before
the main loop is created.
Use extreme caution when calling this function as, just as
wxEvtLoopBase::Yield(), it can result in unexpected reentrances.
*/
bool Yield(bool onlyIfNeeded = false);
/**
Allows external code to modify global ::wxTheApp, but you should really
know what you're doing if you call it.
@param app
Replacement for the global application object.
@see GetInstance()
*/
static void SetInstance(wxAppConsole* app);
/**
Returns the one and only global application object.
Usually ::wxTheApp is used instead.
@see SetInstance(), wxApp::GetGUIInstance()
*/
static wxAppConsole* GetInstance();
/**
Returns @true if the main event loop is currently running, i.e.\ if the
application is inside OnRun().
This can be useful to test whether events can be dispatched. For example,
if this function returns @false, non-blocking sockets cannot be used because
the events from them would never be processed.
*/
static bool IsMainLoopRunning();
/**
@name Callbacks for application-wide "events"
*/
///@{
/**
This function is called when an assert failure occurs, i.e.\ the condition
specified in wxASSERT() macro evaluated to @false.
It is only called in debug mode (when @c \__WXDEBUG__ is defined) as
asserts are not left in the release code at all.
The base class version shows the default assert failure dialog box proposing to
the user to stop the program, continue or ignore all subsequent asserts.
@param file
the name of the source file where the assert occurred
@param line
the line number in this file where the assert occurred
@param func
the name of the function where the assert occurred, may be
empty if the compiler doesn't support C99 \__FUNCTION__
@param cond
the condition of the failed assert in text form
@param msg
the message specified as argument to wxASSERT_MSG or wxFAIL_MSG, will
be @NULL if just wxASSERT or wxFAIL was used
*/
virtual void OnAssertFailure(const wxChar *file,
int line,
const wxChar *func,
const wxChar *cond,
const wxChar *msg);
/**
Called when command line parsing fails (i.e.\ an incorrect command line option
was specified by the user). The default behaviour is to show the program usage
text and abort the program.
Return @true to continue normal execution or @false to return
@false from OnInit() thus terminating the program.
@see OnInitCmdLine()
*/
virtual bool OnCmdLineError(wxCmdLineParser& parser);
/**
Called when the help option (@c \--help) was specified on the command line.
The default behaviour is to show the program usage text and abort the program.
Return @true to continue normal execution or @false to return
@false from OnInit() thus terminating the program.
@see OnInitCmdLine()
*/
virtual bool OnCmdLineHelp(wxCmdLineParser& parser);
/**
Called after the command line had been successfully parsed. You may override
this method to test for the values of the various parameters which could be
set from the command line.
Don't forget to call the base class version unless you want to suppress
processing of the standard command line options.
Return @true to continue normal execution or @false to return @false from
OnInit() thus terminating the program.
@see OnInitCmdLine()
*/
virtual bool OnCmdLineParsed(wxCmdLineParser& parser);
/**
Called by wxEventLoopBase::SetActive(): you can override this function
and put here the code which needs an active event loop.
Note that this function is called whenever an event loop is activated;
you may want to use wxEventLoopBase::IsMain() to perform initialization
specific for the app's main event loop.
@see OnEventLoopExit()
*/
virtual void OnEventLoopEnter(wxEventLoopBase* loop);
/**
Called by wxEventLoopBase::OnExit() for each event loop which
is exited.
@see OnEventLoopEnter()
*/
virtual void OnEventLoopExit(wxEventLoopBase* loop);
/**
Override this member function for any processing which needs to be
done as the application is about to exit. OnExit is called after
destroying all application windows and controls, but before
wxWidgets cleanup. Note that it is not called at all if
OnInit() failed.
The return value of this function is currently ignored, return the same
value as returned by the base class method if you override it.
*/
virtual int OnExit();
/**
This function may be called if something fatal happens: an unhandled
exception under Win32 or a fatal signal under Unix, for example. However,
this will not happen by default: you have to explicitly call
wxHandleFatalExceptions() to enable this.
Generally speaking, this function should only show a message to the user and
return. You may attempt to save unsaved data but this is not guaranteed to
work and, in fact, probably won't.
@see wxHandleFatalExceptions()
*/
virtual void OnFatalException();
/**
This must be provided by the application, and will usually create the
application's main window, optionally calling SetTopWindow().
You may use OnExit() to clean up anything initialized here, provided
that the function returns @true.
Notice that if you want to use the command line processing provided by
wxWidgets you have to call the base class version in the derived class
OnInit().
Return @true to continue processing, @false to exit the application
immediately.
*/
virtual bool OnInit();
/**
Called from OnInit() and may be used to initialize the parser with the
command line options for this application. The base class versions adds
support for a few standard options only.
Note that this method should just configure @a parser to accept the
desired command line options by calling wxCmdLineParser::AddOption(),
wxCmdLineParser::AddSwitch() and similar methods, but should @e not
call wxCmdLineParser::Parse() as this will be done by wxWidgets itself
slightly later.
*/
virtual void OnInitCmdLine(wxCmdLineParser& parser);
/**
This virtual function is where the execution of a program written in wxWidgets
starts. The default implementation just enters the main loop and starts
handling the events until it terminates, either because ExitMainLoop() has
been explicitly called or because the last frame has been deleted and
GetExitOnFrameDelete() flag is @true (this is the default).
The return value of this function becomes the exit code of the program, so it
should return 0 in case of successful termination.
*/
virtual int OnRun();
///@}
/**
@name Exceptions support
Methods related to C++ exceptions handling.
@see overview_exceptions
*/
///@{
/**
This function is called if an unhandled exception occurs inside the main
application event loop. It can return @true to ignore the exception and to
continue running the loop or @false to exit the loop and terminate the
program.
The default behaviour of this function is the latter in all ports except under
Windows where a dialog is shown to the user which allows him to choose between
the different options. You may override this function in your class to do
something more appropriate.
If this method rethrows the exception and if the exception can't be
stored for later processing using StoreCurrentException(), the program
will terminate after calling OnUnhandledException().
You should consider overriding this method to perform whichever last
resort exception handling that would be done in a typical C++ program
in a @c try/catch block around the entire @c main() function. As this
method is called during exception handling, you may use the C++ @c
throw keyword to rethrow the current exception to catch it again and
analyze it. For example:
@code
class MyApp : public wxApp {
public:
virtual bool OnExceptionInMainLoop()
{
wxString error;
try {
throw; // Rethrow the current exception.
} catch (const MyException& e) {
error = e.GetMyErrorMessage();
} catch (const std::exception& e) {
error = e.what();
} catch ( ... ) {
error = "unknown error.";
}
wxLogError("Unexpected exception has occurred: %s, the program will terminate.", error);
// Exit the main loop and thus terminate the program.
return false;
}
};
@endcode
*/
virtual bool OnExceptionInMainLoop();
/**
This function is called when an unhandled C++ exception occurs in user
code called by wxWidgets.
Any unhandled exceptions thrown from (overridden versions of) OnInit()
and OnExit() methods as well as any exceptions thrown from inside the
main loop and re-thrown by OnUnhandledException() will result in a call
to this function.
By the time this function is called, the program is already about to
exit and the exception can't be handled nor ignored any more, override
OnUnhandledException() or use explicit @c try/catch blocks around
OnInit() body to be able to handle the exception earlier.
The default implementation dumps information about the exception using
wxMessageOutputBest.
*/
virtual void OnUnhandledException();
/**
Method to store exceptions not handled by OnExceptionInMainLoop().
@note The default implementation of this function when using C++98
compiler just returns false, as there is no generic way to store an
arbitrary exception in C++98 and each application must do it on its
own for the exceptions it uses in its overridden version. When
using C++11, the default implementation uses
std::current_exception() and returns true, so it's normally not
necessary to override this method when using C++11.
This function can be overridden to store the current exception, in view
of rethrowing it later when RethrowStoredException() is called. If the
exception was stored, return true. If the exception can't be stored,
i.e. if this function returns false, the program will abort after
calling OnUnhandledException().
It is necessary to override this function if OnExceptionInMainLoop()
doesn't catch all exceptions, but you still want to handle them using
explicit @c try/catch statements. Typical use could be to allow code
like the following to work:
@code
void MyFrame::SomeFunction()
{
try {
MyDialog dlg(this);
dlg.ShowModal();
} catch ( const MyExpectedException& e ) {
// Deal with the exceptions thrown from the dialog.
}
}
@endcode
By default, throwing an exception from an event handler called from the
dialog modal event loop would terminate the application as the
exception can't be safely propagated to the code in the catch clause
because of the presence of the native system functions (through which
C++ exceptions can't, generally speaking, propagate) in the call stack
between them.
Overriding this method allows the exception to be stored when it is
detected and rethrown using RethrowStoredException() when the native
system function dispatching the dialog events terminates, with the
result that the code above works as expected.
An example of implementing this method:
@code
class MyApp : public wxApp {
public:
virtual bool StoreCurrentException()
{
try {
throw;
} catch ( const std::runtime_exception& e ) {
if ( !m_runtimeError.empty() ) {
// This is not supposed to happen, only one exception,
// at most, should be stored.
return false;
}
m_runtimeError = e.what();
// Don't terminate, let our code handle this exception later.
return true;
} catch ( ... ) {
// This could be extended to store information about any
// other exceptions too, but if we don't store them, we
// should return false to let the program die.
}
return false;
}
virtual void RethrowStoredException()
{
if ( !m_runtimeError.empty() ) {
std::runtime_exception e(m_runtimeError);
m_runtimeError.clear();
throw e;
}
}
private:
std::string m_runtimeError;
};
@endcode
@see OnExceptionInMainLoop(), RethrowStoredException()
@since 3.1.0
*/
virtual bool StoreCurrentException();
/**
Method to rethrow exceptions stored by StoreCurrentException().
@note Just as with StoreCurrentException(), it is usually not necessary
to override this method when using C++11.
If StoreCurrentException() is overridden, this function should be
overridden as well to rethrow the exceptions stored by it when the
control gets back to our code, i.e. when it's safe to do it.
See StoreCurrentException() for an example of implementing this method.
The default version does nothing when using C++98 and uses
std::rethrow_exception() in C++11.
@since 3.1.0
*/
virtual void RethrowStoredException();
///@}
/**
@name Application information
*/
///@{
/**
Returns the user-readable application name.
The difference between this string and the one returned by GetAppName()
is that this one is meant to be shown to the user and so should be used
for the window titles, page headers and so on while the other one
should be only used internally, e.g. for the file names or
configuration file keys.
If the application name for display had been previously set by
SetAppDisplayName(), it will be returned by this function. Otherwise,
if SetAppName() had been called its value will be returned; also as is.
Finally if none was called, this function returns the program name
capitalized using wxString::Capitalize().
@since 2.9.0
*/
wxString GetAppDisplayName() const;
/**
Returns the application name.
If SetAppName() had been called, returns the string passed to it.
Otherwise returns the program name, i.e. the value of @c argv[0] passed
to the @c main() function.
@see GetAppDisplayName()
*/
wxString GetAppName() const;
/**
Gets the class name of the application. The class name may be used in a
platform specific manner to refer to the application.
@see SetClassName()
*/
wxString GetClassName() const;
/**
Returns a pointer to the wxAppTraits object for the application.
If you want to customize the wxAppTraits object, you must override the
CreateTraits() function.
*/
wxAppTraits* GetTraits();
/**
Returns the user-readable vendor name. The difference between this string
and the one returned by GetVendorName() is that this one is meant to be shown
to the user and so should be used for the window titles, page headers and so on
while the other one should be only used internally, e.g. for the file names or
configuration file keys.
By default, returns the same string as GetVendorName().
@since 2.9.0
*/
const wxString& GetVendorDisplayName() const;
/**
Returns the application's vendor name.
*/
const wxString& GetVendorName() const;
/**
Set the application name to be used in the user-visible places such as
window titles.
See GetAppDisplayName() for more about the differences between the
display name and name.
Notice that if this function is called, the name is used as is, without
any capitalization as done by default by GetAppDisplayName().
*/
void SetAppDisplayName(const wxString& name);
/**
Sets the name of the application. This name should be used for file names,
configuration file entries and other internal strings. For the user-visible
strings, such as the window titles, the application display name set by
SetAppDisplayName() is used instead.
By default the application name is set to the name of its executable file.
@see GetAppName()
*/
void SetAppName(const wxString& name);
/**
Sets the class name of the application. This may be used in a platform specific
manner to refer to the application.
@see GetClassName()
*/
void SetClassName(const wxString& name);
/**
Set the vendor name to be used in the user-visible places.
See GetVendorDisplayName() for more about the differences between the
display name and name.
*/
void SetVendorDisplayName(const wxString& name);
/**
Sets the name of application's vendor. The name will be used
in registry access. A default name is set by wxWidgets.
@see GetVendorName()
*/
void SetVendorName(const wxString& name);
///@}
/**
Sets the C locale to the default locale for the current environment.
It is advised to call this to ensure that the underlying toolkit uses
the locale in which the numbers and monetary amounts are shown in the
format expected by user and so on.
Calling this function is roughly equivalent to calling
@code
setlocale(LC_ALL, "");
@endcode
but performs additional toolkit-specific tasks under some platforms and
so should be used instead of @c setlocale() itself. Alternatively, you
can use wxLocale to change the locale with more control.
Notice that this does @em not change the global C++ locale, you need to
do it explicitly if you want, e.g.
@code
std::locale::global(std::locale(""));
@endcode
but be warned that locale support in C++ standard library can be poor
or worse under some platforms.
@since 2.9.5
*/
void SetCLocale();
/**
Number of command line arguments (after environment-specific processing).
*/
int argc;
/**
Command line arguments (after environment-specific processing).
Under Windows and Linux/Unix, you should parse the command line
arguments and check for files to be opened when starting your
application. Under macOS, you need to override MacOpenFiles()
since command line arguments are used differently there.
You may use the wxCmdLineParser to parse command line arguments.
*/
wxChar** argv;
};
/**
@class wxApp
The wxApp class represents the application itself when @c wxUSE_GUI=1.
In addition to the features provided by wxAppConsole it keeps track of
the <em>top window</em> (see SetTopWindow()) and adds support for
video modes (see SetDisplayMode()).
In general, application-wide settings for GUI-only apps are accessible
from wxApp (or from wxSystemSettings or wxSystemOptions classes).
@beginEventEmissionTable
@event{EVT_QUERY_END_SESSION(func)}
Process a query end session event, supplying the member function.
See wxCloseEvent.
@event{EVT_END_SESSION(func)}
Process an end session event, supplying the member function.
See wxCloseEvent.
@event{EVT_ACTIVATE_APP(func)}
Process a @c wxEVT_ACTIVATE_APP event. See wxActivateEvent.
@event{EVT_HIBERNATE(func)}
Process a hibernate event. See wxActivateEvent.
@event{EVT_DIALUP_CONNECTED(func)}
A connection with the network was established. See wxDialUpEvent.
@event{EVT_DIALUP_DISCONNECTED(func)}
The connection with the network was lost. See wxDialUpEvent.
@event{EVT_IDLE(func)}
Process a @c wxEVT_IDLE event. See wxIdleEvent.
@endEventTable
@library{wxbase}
@category{appmanagement}
@see @ref overview_app, wxAppTraits, wxEventLoopBase, wxSystemSettings
*/
class wxApp : public wxAppConsole
{
public:
/**
Constructor. Called implicitly with a definition of a wxApp object.
*/
wxApp();
/**
Destructor. Will be called implicitly on program exit if the wxApp
object is created on the stack.
*/
virtual ~wxApp();
/**
Get display mode that is used use. This is only used in framebuffer
wxWidgets ports such as wxDFB.
*/
virtual wxVideoMode GetDisplayMode() const;
/**
Returns the current GUI wxApp object if any or @NULL otherwise.
This function should only be used in the rare cases when the same code
needs to work in both console and GUI applications, but needs to use
GUI-specific functionality if it is available, and so just calling
wxAppConsole::GetInstance() is insufficient while using ::wxTheApp is
incorrect, as the application object is not always a GUI wxApp.
For example:
@code
WXWidget handle = 0;
if ( wxApp* const app = wxApp::GetGUIInstance() ) {
if ( wxWindow* const w = app->GetTopWindow() ) {
handle = w->GetHandle();
}
}
//else: no window to use
some_native_function_taking_a_window_handle(handle);
@endcode
Note that in this particular example, you could use GetMainTopWindow()
which already does the same thing instead of doing it yourself.
@since 3.1.6
*/
static wxAppConsole* GetGUIInstance();
/**
Returns @true if the application will exit when the top-level frame is deleted.
@see SetExitOnFrameDelete()
*/
bool GetExitOnFrameDelete() const;
/**
Return the layout direction for the current locale or @c wxLayout_Default
if it's unknown.
*/
virtual wxLayoutDirection GetLayoutDirection() const;
/**
Returns @true if the application will use the best visual on systems that support
different visuals, @false otherwise.
@see SetUseBestVisual()
*/
bool GetUseBestVisual() const;
/**
Returns a pointer to the top application window if any.
This function is safe to call even before creating, or after
destroying, the application object, as it simply returns @NULL if it
doesn't exist. Otherwise it's equivalent to calling
@c wxTheApp->GetTopWindow().
@since 3.1.5
*/
static wxWindow* GetMainTopWindow();
/**
Returns a pointer to the top window.
@remarks
If the top window hasn't been set using SetTopWindow(), this function
will find the first top-level window (frame or dialog or instance of
wxTopLevelWindow) from the internal top level window list and return that.
@see SetTopWindow()
*/
virtual wxWindow* GetTopWindow() const;
/**
Returns @true if the application is active, i.e.\ if one of its windows is
currently in the foreground.
If this function returns @false and you need to attract users attention to
the application, you may use wxTopLevelWindow::RequestUserAttention to do it.
*/
virtual bool IsActive() const;
/**
This function is similar to wxYield(), except that it disables the user
input to all program windows before calling wxAppConsole::Yield and re-enables it
again afterwards. If @a win is not @NULL, this window will remain enabled,
allowing the implementation of some limited user interaction.
Returns the result of the call to wxAppConsole::Yield.
@see wxSafeYield
*/
virtual bool SafeYield(wxWindow *win, bool onlyIfNeeded);
/**
Works like SafeYield() with @e onlyIfNeeded == @true except that
it allows the caller to specify a mask of events to be processed.
See wxAppConsole::YieldFor for more info.
*/
virtual bool SafeYieldFor(wxWindow *win, long eventsToProcess);
/**
Windows-only function for processing a message. This function is called
from the main message loop, checking for windows that may wish to process it.
The function returns @true if the message was processed, @false otherwise.
If you use wxWidgets with another class library with its own message loop,
you should make sure that this function is called to allow wxWidgets to
receive messages. For example, to allow co-existence with the Microsoft
Foundation Classes, override the PreTranslateMessage function:
@code
// Provide wxWidgets message loop compatibility
BOOL CTheApp::PreTranslateMessage(MSG *msg)
{
if (wxTheApp && wxTheApp->ProcessMessage((WXMSW *)msg))
return true;
else
return CWinApp::PreTranslateMessage(msg);
}
@endcode
@onlyfor{wxmsw}
*/
bool ProcessMessage(WXMSG* msg);
/**
Set display mode to use. This is only used in framebuffer wxWidgets
ports such as wxDFB.
*/
virtual bool SetDisplayMode(const wxVideoMode& info);
/**
Allows the programmer to specify whether the application will exit when the
top-level frame is deleted.
@param flag
If @true (the default), the application will exit when the top-level frame
is deleted. If @false, the application will continue to run.
@see GetExitOnFrameDelete(), @ref overview_app_shutdown
*/
void SetExitOnFrameDelete(bool flag);
/**
Allows runtime switching of the UI environment theme.
Currently implemented for wxGTK2-only.
Return @true if theme was successfully changed.
@param theme
The name of the new theme or an absolute path to a gtkrc-theme-file
*/
virtual bool SetNativeTheme(const wxString& theme);
/**
Sets the 'top' window. You can call this from within OnInit() to let wxWidgets
know which is the main window. You don't have to set the top window;
it is only a convenience so that (for example) certain dialogs without parents
can use a specific window as the top window.
If no top window is specified by the application, wxWidgets just uses the
first frame or dialog (or better, any wxTopLevelWindow) in its top-level
window list, when it needs to use the top window.
If you previously called SetTopWindow() and now you need to restore this
automatic behaviour you can call @code wxApp::SetTopWindow(NULL) @endcode.
@param window
The new top window.
@see GetTopWindow(), OnInit()
*/
void SetTopWindow(wxWindow* window);
/**
Allows the programmer to specify whether the application will use the best
visual on systems that support several visual on the same display. This is typically
the case under Solaris and IRIX, where the default visual is only 8-bit whereas
certain applications are supposed to run in TrueColour mode.
Note that this function has to be called in the constructor of the wxApp
instance and won't have any effect when called later on.
This function currently only has effect under GTK.
@param flag
If @true, the app will use the best visual.
@param forceTrueColour
If @true then the application will try to force using a TrueColour
visual and abort the app if none is found.
*/
void SetUseBestVisual(bool flag, bool forceTrueColour = false);
/**
@name GTK-specific functions
*/
///@{
/**
Disables the printing of various GTK messages.
This function can be called to suppress GTK diagnostic messages that
are output on the standard error stream by default.
The default value of the argument disables all messages, but you
can pass in a mask flag to specifically disable only particular
categories of messages.
Note that this function only works when using glib 2.50 (released in
September 2016) or later and does nothing with the older versions of
the library.
@param flags
The mask for the types of messages to suppress. Refer to the
glib documentation for the @c GLogLevelFlags enum, which defines
the various message types.
@onlyfor{wxgtk}
@since 3.1.6
*/
static void GTKSuppressDiagnostics(int flags = -1);
/**
Allows wxWidgets to selectively suppress some GTK messages.
This function can be called to allow wxWidgets to control GTK message
logging. You must @e not call it if your application calls the @c
g_log_set_writer_func() function itself, as this function can be only
called once.
It is recommended to call this function in your overridden version of
wxApp::OnInit() to allow wxWidgets to suppress some spurious GTK error
messages, e.g. the ones that happen whenever wxNotebook pages are
removed with the current GTK versions.
@onlyfor{wxgtk}
@since 3.2.1
*/
static void GTKAllowDiagnosticsControl();
///@}
/**
@name Mac-specific functions
*/
///@{
/**
Called in response of an "open-application" Apple event.
Override this to create a new document in your app.
@onlyfor{wxosx}
*/
virtual void MacNewFile();
/**
Called in response of an openFiles message.
You need to override this method in order to open one or more document
files after the user double clicked on it or if the files and/or
folders were dropped on either the application in the dock or the
application icon in Finder.
By default this method calls MacOpenFile for each file/folder.
@onlyfor{wxosx}
@since 2.9.3
*/
virtual void MacOpenFiles(const wxArrayString& fileNames);
/**
Called in response of an "open-document" Apple event.
@deprecated
This function is kept mostly for backwards compatibility. Please
override wxApp::MacOpenFiles method instead in any new code.
@onlyfor{wxosx}
*/
virtual void MacOpenFile(const wxString& fileName);
/**
Called in response of a "get-url" Apple event.
@onlyfor{wxosx}
*/
virtual void MacOpenURL(const wxString& url);
/**
Called in response of a "print-document" Apple event.
@onlyfor{wxosx}
*/
virtual void MacPrintFile(const wxString& fileName);
/**
Called in response of a "reopen-application" Apple event.
@onlyfor{wxosx}
*/
virtual void MacReopenApp();
/**
May be overridden to indicate that the application is not a foreground
GUI application under macOS.
This method is called during the application startup and returns @true
by default. In this case, wxWidgets ensures that the application is ran
as a foreground, GUI application so that the user can interact with it
normally, even if it is not bundled. If this is undesired, i.e. if the
application doesn't need to be brought to the foreground, this method
can be overridden to return @false.
Notice that overriding it doesn't make any difference for the bundled
applications which are always foreground unless @c LSBackgroundOnly key
is specified in the @c Info.plist file.
@onlyfor{wxosx}
@since 3.0.1
*/
virtual bool OSXIsGUIApplication();
/**
Enable the automatic tabbing features of macOS.
This feature is native to the operating system. When it is enabled, macOS
will automatically place windows inside tabs and show a tab bar in the
application. Entries are also added to the View menu to show/hide the tab bar.
@onlyfor{wxosx}
@remarks Requires macOS 10.12+, does nothing under earlier OS versions.
@since 3.1.4
*/
void OSXEnableAutomaticTabbing(bool enable);
///@}
};
// ============================================================================
// Global functions/macros
// ============================================================================
/** @addtogroup group_funcmacro_rtti */
///@{
/**
This is used in headers to create a forward declaration of the ::wxGetApp()
function implemented by wxIMPLEMENT_APP().
It creates the declaration <tt>className& wxGetApp()</tt>
(requires a final semicolon).
@header{wx/app.h}
Example:
@code
wxDECLARE_APP(MyApp);
@endcode
*/
#define wxDECLARE_APP( className )
/**
This macro defines the application entry point and tells wxWidgets which
application class should be used.
The two tasks performed by this macro can be done separately by using
wxIMPLEMENT_APP_NO_MAIN() and wxIMPLEMENT_WXWIN_MAIN() macros, but in a
typical GUI application it's simpler and more convenient to use this macro
to do both together.
The @a className passed to this macro must be a name of the class deriving
from wxApp.
Note that this macro requires a final semicolon.
@header{wx/app.h}
Example:
@code
wxIMPLEMENT_APP(MyApp);
@endcode
@see wxDECLARE_APP(), wxIMPLEMENT_APP_CONSOLE()
*/
#define wxIMPLEMENT_APP( className )
/**
This macro defines the application entry point for non-GUI applications and
tells wxWidgets which application class should be used.
This macro is provided for symmetry with wxIMPLEMENT_APP() for the console
(non-GUI) applications and is equivalent to using wxIMPLEMENT_APP_NO_MAIN()
and wxIMPLEMENT_WXWIN_MAIN_CONSOLE().
The @a className passed to this macro must be a name of the class deriving
from wxApp.
Note that this macro requires a final semicolon.
@header{wx/app.h}
Example:
@code
wxIMPLEMENT_APP_CONSOLE(MyApp);
@endcode
@see wxIMPLEMENT_APP()
*/
#define wxIMPLEMENT_APP_CONSOLE( className )
/**
This macro defines the application entry point appropriate for the current
platform.
Note that usually wxIMPLEMENT_APP() is used instead of this macro.
For most platforms, it defines @c main() function, but for GUI Windows
applications, it defines @c WinMain() instead.
In either case, the macro expansion includes the call to
wxDISABLE_DEBUG_SUPPORT() which disables debugging code in release builds.
If you don't use this macro, but define the entry point yourself, you
probably want to call wxDISABLE_DEBUG_SUPPORT() explicitly.
@header{wx/app.h}
*/
#define wxIMPLEMENT_WXWIN_MAIN
/**
This macro defines the application entry point for console applications.
This macro is provided mostly for symmetry with wxIMPLEMENT_WXWIN_MAIN()
but is less useful, as it is also simple enough to define @c main()
function directly.
Please note, however, that this macro, as well as wxIMPLEMENT_APP_CONSOLE()
which uses it, contains the call to wxDISABLE_DEBUG_SUPPORT() which
disables debugging code in release builds and that if you don't use this
macro, but define @c main() yourself, you probably want to call
wxDISABLE_DEBUG_SUPPORT() from it explicitly.
@header{wx/app.h}
*/
#define wxIMPLEMENT_WXWIN_MAIN_CONSOLE
///@}
/**
The global pointer to the singleton wxApp object.
This pointer can only be used in the GUI applications.
@see wxAppConsole::GetInstance(), wxApp::GetGUIInstance()
*/
wxApp *wxTheApp;
/** @addtogroup group_funcmacro_appinitterm */
///@{
/**
This function doesn't exist in wxWidgets but it is created by using the
wxIMPLEMENT_APP() macro.
Thus, before using it anywhere but in the same module where this macro is
used, you must make it available using wxDECLARE_APP().
The advantage of using this function compared to directly using the global
::wxTheApp pointer is that the latter is of type wxApp* and so wouldn't
allow you to access the functions specific to your application class but
not present in wxApp while wxGetApp() returns the object of the right type.
@header{wx/app.h}
*/
wxAppDerivedClass& wxGetApp();
/**
If @a doIt is @true, the fatal exceptions (also known as general protection
faults under Windows or segmentation violations in the Unix world) will be
caught and passed to wxApp::OnFatalException.
By default, i.e. before this function is called, they will be handled in
the normal way which usually just means that the application will be
terminated. Calling wxHandleFatalExceptions() with @a doIt equal to @false
will restore this default behaviour.
Notice that this function is only available if @c wxUSE_ON_FATAL_EXCEPTION
is 1 and under Windows platform this requires a compiler with support for
SEH (structured exception handling) which currently means only Microsoft
Visual C++.
@header{wx/app.h}
*/
bool wxHandleFatalExceptions(bool doIt = true);
/**
This function is used in wxBase only and only if you don't create
wxApp object at all. In this case you must call it from your
@c main() function before calling any other wxWidgets functions.
If the function returns @false the initialization could not be performed,
in this case the library cannot be used and wxUninitialize() shouldn't be
called either.
This function may be called several times but wxUninitialize() must be
called for each successful call to this function.
@header{wx/app.h}
*/
bool wxInitialize();
/**
This function is for use in console (wxBase) programs only. It must be called
once for each previous successful call to wxInitialize().
@header{wx/app.h}
*/
void wxUninitialize();
/**
This function wakes up the (internal and platform dependent) idle system,
i.e. it will force the system to send an idle event even if the system
currently @e is idle and thus would not send any idle event until after
some other event would get sent. This is also useful for sending events
between two threads and is used by the corresponding functions
wxPostEvent() and wxEvtHandler::AddPendingEvent().
@header{wx/app.h}
*/
void wxWakeUpIdle();
/**
Calls wxAppConsole::Yield if there is an existing application object.
Does nothing if there is no application (which typically only happens early
during the program startup or late during its shutdown).
@see wxEvtLoopBase::Yield()
@header{wx/app.h}
*/
bool wxYield();
/**
Calls wxApp::SafeYield.
@header{wx/app.h}
*/
bool wxSafeYield(wxWindow* win = NULL, bool onlyIfNeeded = false);
/**
This function initializes wxWidgets in a platform-dependent way. Use this if you
are not using the default wxWidgets entry code (e.g. main or WinMain).
For example, you can initialize wxWidgets from a Microsoft Foundation Classes
(MFC) application using this function.
@note This overload of wxEntry is available under all platforms.
@see wxEntryStart()
@header{wx/app.h}
*/
int wxEntry(int& argc, wxChar** argv);
/**
See wxEntry(int&,wxChar**) for more info about this function.
Notice that the type of @a pCmdLine is @c char *, even in Unicode build.
@remarks To clean up wxWidgets, call wxApp::OnExit followed by the static
function wxApp::CleanUp. For example, if exiting from an MFC application
that also uses wxWidgets:
@code
int CTheApp::ExitInstance()
{
// OnExit isn't called by CleanUp so must be called explicitly.
wxTheApp->OnExit();
wxApp::CleanUp();
return CWinApp::ExitInstance();
}
@endcode
@header{wx/app.h}
*/
int wxEntry(HINSTANCE hInstance,
HINSTANCE hPrevInstance = NULL,
char* pCmdLine = NULL,
int nCmdShow = SW_SHOWNORMAL);
///@}
/** @addtogroup group_funcmacro_procctrl */
///@{
/**
Exits application after calling wxApp::OnExit.
Should only be used in an emergency: normally the top-level frame
should be deleted (after deleting all other frames) to terminate the
application. See wxCloseEvent and wxApp.
@header{wx/app.h}
*/
void wxExit();
///@}
/** @addtogroup group_funcmacro_debug */
///@{
/**
@def wxDISABLE_DEBUG_SUPPORT()
Use this macro to disable all debugging code in release build when not
using wxIMPLEMENT_APP().
Currently this macro disables assert checking and debug and trace level
logging messages in release build (i.e. when @c NDEBUG is defined). It is
used by wxIMPLEMENT_APP() macro so you only need to use it explicitly if you
don't use this macro but initialize wxWidgets directly (e.g. calls
wxEntry() or wxEntryStart() itself).
If you do not want to disable debugging code even in release build of your
application, you can use wxSetDefaultAssertHandler() and
wxLog::SetLogLevel() with @c wxLOG_Max parameter to enable assertions and
debug logging respectively.
@see wxDISABLE_ASSERTS_IN_RELEASE_BUILD(),
wxDISABLE_DEBUG_LOGGING_IN_RELEASE_BUILD(),
@ref overview_debugging
@since 2.9.1
@header{wx/app.h}
*/
#define wxDISABLE_DEBUG_SUPPORT() \
wxDISABLE_ASSERTS_IN_RELEASE_BUILD(); \
wxDISABLE_DEBUG_LOGGING_IN_RELEASE_BUILD()
///@}