Gets rid of more menu-related code from CodeWindow and puts it back in
CFrame where it belongs.
This turns the previous menu update function within CodeWindow into one
that simply updates the debugger font for its managed controls. It also
improves how the font is actually updated. Previously, fonts would change,
however this wouldn't actually reflect onto the respective controls until
a refresh or update event occurred. Since codeview, callstack, symbols,
callers, and calls windows are all managed by a wxAuiManager instance,
calling Update() on it after the font has been set will reflect font
changes immediately.
On Linux, the FindFocus method from wx simply doesn't work, it would on some environment report that dolphin has the focus while it doesn't have it. This is why an alternative method has to be used which is to set a focus flag whenever the render frame gets activated.
Currently, `g_controller_interface` is initialized and shut down by each
of `GCKeyboard`, `GCPad`, `Wiimote`, and `HotkeyManager`.
This 1) is weird conceptually, because it necessitates passing a pointer
to the native window to each of those classes, which don't need it, and
2) can cause issues when controller backends are initialized or shutdown
multiple times in succession.
Previously Dolphin would only exit if the main window is closed,
and Confirm on Stop is enabled.
This makes Dolphin's behaviour more consistent by always exiting
if the main window is closed or on shutdown signal.
Keeps related menu items together based on top level menu. This will be
more convenient in the future when debugger menu bar item handling is
moved to CFrame, as it won't be a huge amount of code in one function.
This also makes it easier to locate menu bar code whenever it needs to be
changed.
Setting a single icon at a single resolution doesn't scale well,
Windows requires a 16x16 icon for the window and a 32x32/48x48 for
the taskbar. Providing all icons produces less pixellated results at
HiDPI.
Changes:
- MemoryWindow was cleaned up and gives more feedback on searches.
Some bugs were fixed as well:
- A complex bug that allowed tearing off tabs and opening multiple
copies of a debug panel which lead to segfaults
- Another segfault related to right-click menus on code/memory views
when those tools were floating in their own window.
Some OSD messages were displayed in RenderBase.cpp using global variables and some code duplicated
in OnScreeDisplay.cpp.
Now all messages are displayed using functions in the OSD namepace.
* OSDChoice and OSDTime global variables are gone
* All OSD logic is kept at the same place
* All messages are properly aligned
* Clean characters for all OSD messages
Original commit:
commit f0ec61c057
Author: Aestek <thib.gilles@gmail.com>
Date: Sun Aug 7 16:08:41 2016 +0200
This adds the ability to passthrough a whole Bluetooth adapter and skip
the majority of the Bluetooth emulation code. We use libusb to send HCI
commands, receive HCI events and transfer ACL data directly to the
first adapter that is found or to a specific adapter (if configured to)
This is possible because the Wii's Bluetooth module is actually just
a pretty standard Bluetooth adapter…
…except for two vendor-specific commands, for which replies are faked,
and also for the sync button. This adds a hotkey that works in the
exact same way as the sync button would on a Wii: it triggers an HCI
event, which emulated software interpret as a command to perform
a BT inquiry.
This commit also changes the UI code to expose passthrough mode
and WII_IPC_HLE to be a bit more thread safe (for the device map).
This changes Refresh() to use the existing scanning thread to scan for
devices, instead of running the scan on the UI thread and blocking it.
Also makes the UI thread not block when Continuous Scanning is disabled
and removes duplicated code.
Should fix issue 8992.
Under the hood:
* The scanning thread is now always active, even when continuous
scanning is disabled.
* The initialize code which waits for Wiimotes to be connected also
uses the scanning thread instead of scanning on yet another thread.
* The scanning thread now always checks for disconnected devices, to
avoid Dolphin thinking a Wiimote is still connected when it isn't. So
we now check if we need new Wiimotes or a Balance Board at scan time.
This makes it clear that sending a signal a second time will force stop
Dolphin (which is useful in case the GUI is deadlocked or otherwise
unable to react to the signal).
This makes DolphinWX shut down cleanly, just like it would with
File->Exit when it receives a SIGINT, SIGTERM (Unix) or some signals
on Windows.
The default signal handler will be restored after a first shutdown
signal so a second signal will exit Dolphin forcefully.
When Movie was calling ChangeDisc, it was moving execution to
the host thread just to then make the host thread the CPU thread.
We can simply run the code directly on the CPU thread instead.
Cleanup code style.
Move ActionReplay code->INI saving into ActionReplay namespace.
Threadsafety Cleanup: ActionReplay is accessed from the Host, Emu
and CPU Threads so the internal storage needs to be protected by a
lock to prevent vectors/strings being deleted/moved while in use by
the CPU Thread.
UI Consistency: Make ARCodes behave like Gecko Codes - only apply
changes when Apply is pressed. Save changes to INI from CheatsWindow.
ISOProperties/CheatsWindow now synchronize with each other.
Closing Dolphin's main frame and clicking "no" does not clear
m_bClosing which means that pressing the "stop" button triggers
OnClosed which suddenly and unexpectedly closes the main frame.
When there are no games to display in the game list, DolphinWX shows a
message instead. Clicking the message will perform an action. If the game
list truly is empty, the message and action are for opening a browse
dialog, but if the user has hidden some games, they are instead for
unhiding all games. However, the condition for checking which message to
display lacked some parts that are in the condition for checking which
action to use, so the two could be different in rare cases. This PR fixes
that by breaking out the two conditions to a new unified function.