1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #ifndef BASE_MESSAGE_PUMP_GLIB_H_
6 #define BASE_MESSAGE_PUMP_GLIB_H_
8 #include "base/base_export.h"
9 #include "base/memory/scoped_ptr.h"
10 #include "base/message_pump.h"
11 #include "base/observer_list.h"
12 #include "base/time.h"
14 typedef struct _GMainContext GMainContext
;
15 typedef struct _GPollFD GPollFD
;
16 typedef struct _GSource GSource
;
20 // MessagePumpObserver is notified prior to an event being dispatched. As
21 // Observers are notified of every change, they have to be FAST! The platform
22 // specific implementation of the class is in message_pump_gtk/message_pump_x.
23 class MessagePumpObserver
;
25 // MessagePumpDispatcher is used during a nested invocation of Run to dispatch
26 // events. If Run is invoked with a non-NULL MessagePumpDispatcher, MessageLoop
27 // does not dispatch events (or invoke gtk_main_do_event), rather every event is
28 // passed to Dispatcher's Dispatch method for dispatch. It is up to the
29 // Dispatcher to dispatch, or not, the event. The platform specific
30 // implementation of the class is in message_pump_gtk/message_pump_x.
31 class MessagePumpDispatcher
;
33 // This class implements a base MessagePump needed for TYPE_UI MessageLoops on
34 // platforms using GLib.
35 class BASE_EXPORT MessagePumpGlib
: public MessagePump
{
39 // Like MessagePump::Run, but events are routed through dispatcher.
40 virtual void RunWithDispatcher(Delegate
* delegate
,
41 MessagePumpDispatcher
* dispatcher
);
43 // Internal methods used for processing the pump callbacks. They are
44 // public for simplicity but should not be used directly. HandlePrepare
45 // is called during the prepare step of glib, and returns a timeout that
46 // will be passed to the poll. HandleCheck is called after the poll
47 // has completed, and returns whether or not HandleDispatch should be called.
48 // HandleDispatch is called if HandleCheck returned true.
51 void HandleDispatch();
53 // Adds an Observer, which will start receiving notifications immediately.
54 void AddObserver(MessagePumpObserver
* observer
);
56 // Removes an Observer. It is safe to call this method while an Observer is
57 // receiving a notification callback.
58 void RemoveObserver(MessagePumpObserver
* observer
);
60 // Overridden from MessagePump:
61 virtual void Run(Delegate
* delegate
) OVERRIDE
;
62 virtual void Quit() OVERRIDE
;
63 virtual void ScheduleWork() OVERRIDE
;
64 virtual void ScheduleDelayedWork(const TimeTicks
& delayed_work_time
) OVERRIDE
;
67 virtual ~MessagePumpGlib();
69 // Returns the dispatcher for the current run state (|state_->dispatcher|).
70 MessagePumpDispatcher
* GetDispatcher();
72 ObserverList
<MessagePumpObserver
>& observers() { return observers_
; }
75 // We may make recursive calls to Run, so we save state that needs to be
76 // separate between them in this structure type.
81 // This is a GLib structure that we can add event sources to. We use the
82 // default GLib context, which is the one to which all GTK events are
84 GMainContext
* context_
;
86 // This is the time when we need to do delayed work.
87 TimeTicks delayed_work_time_
;
89 // The work source. It is shared by all calls to Run and destroyed when
90 // the message pump is destroyed.
91 GSource
* work_source_
;
93 // We use a wakeup pipe to make sure we'll get out of the glib polling phase
94 // when another thread has scheduled us to do some work. There is a glib
95 // mechanism g_main_context_wakeup, but this won't guarantee that our event's
96 // Dispatch() will be called.
97 int wakeup_pipe_read_
;
98 int wakeup_pipe_write_
;
99 // Use a scoped_ptr to avoid needing the definition of GPollFD in the header.
100 scoped_ptr
<GPollFD
> wakeup_gpollfd_
;
102 // List of observers.
103 ObserverList
<MessagePumpObserver
> observers_
;
105 DISALLOW_COPY_AND_ASSIGN(MessagePumpGlib
);
110 #endif // BASE_MESSAGE_PUMP_GLIB_H_