- the gamepad button (or trigger) bound to attack (fire) now always
acts like the left mouse button in menus
- Display correct button name for "Back" button on Playstation-like
gamepads, even depending on whether it's PS3-like ("Select") or
PS4/5-like ("Share")
- Log some more information about detected gamepads
turns out SDL 2.0.12 added SDL_GameControllerGetType() which tells you
what kind of controller it is (xbox, playstation, nintendo, ..).
Using this to implement an auto-mode for joy_gamepadLayout, when it's
set to -1 (the new default).
This should still build with older versions of SDL2 (but won't have
that autodetection then).
The button names shown in the controls menu now depend on this CVar.
So if you set it to 1 (Nintendo), the "A" button (which, based on its
position, would be "B" on XBox/XInput gamepads) is actually shown as
"Pad A", and if it's set to 2 (Playstation), it's shown as "Pad Cross".
The "real" names, used in the config, remain the same and are based on
position: JOY_BTN_SOUTH, JOY_BTN_EAST, JOY_BTN_WEST, JOY_BTN_NORTH
- treat DPad as 4 regular buttons (was already the case mostly, but now
the code is simpler)
- rename in_invertLook to joy_invertLook and in_useJoystick to
in_useGamepad and remove unused CVars
- make controller Start button generate K_ESCAPE events, so it can
always be used to open/close the menu (similar to D3BFG)
- move mousecursor with sticks, A button (south) for left-click,
B button (east) for right-click (doesn't work in PDA yet)
- removed special handling of K_JOY_BTN_* in idWindow::HandleEvent()
by generating fake mouse button events for gamepad A/B
in idUserInterfaceLocal::HandleEvent()
- renamed gamepad/joystick actions and keys to have some meaning
for buttons (instead of just JOY1, JOY2 etc)
- compiles with SDL1.2 again (there gamepads aren't supported though)
- shorter names for gamepad keys/axis in the key bindings menu
The HD version of the "Birdman" Hellknight model crashed the game,
because on Linux it triggered the 600KB _alloca() assertion and on
Windows (that didn't have such an assertion up to this commit) it
overflowed the stack.
Thde default stacksize on Windows is 1MB, increasing that to 8MB fixes the
problem (in Doom3 1.3.1 it was 4MB).
I also implemented the _alloca() size check assertion for Windows, and
increased the allowed size to 2MB (so it can be safely called multiple
times per function)
Model: https://www.moddb.com/mods/birdman-doom3/downloads/birdman-doom3-v11
For some reason MSVCs integrated CMake doesn't set CMAKE_GENERATOR_PLATFORM
so my CPU arch detection magic in CMakeLists.txt didn't work in that case..
Now (when using MSVC) the CPU architecture (D3_ARCH) is set in
neo/sys/platform.h instead.
For some reason Wayland thought it would be clever to be the only
windowing system that (non-optionally) uses the alpha chan of the
window's default OpenGL framebuffer for window transparency.
This always caused glitches with dhewm3, as Doom3 uses that alpha-chan
for blending tricks (with GL_DST_ALPHA) - especially visible in the main
menu or when the flashlight is on.
So far the workaround has been r_waylandcompat which requests an OpenGL
context/visual without alpha chan (0 alpha bits), but that also causes
glitches.
There's an EGL extension that's supposed to fix this issue
(EGL_EXT_present_opaque), and newer SDL2 versions use it (when using
the wayland backend) - but unfortunately the Mesa implementation is
broken (seems to provide a visual without alpha channel even if one was
requested), see https://gitlab.freedesktop.org/mesa/mesa/-/issues/5886
and https://github.com/libsdl-org/SDL/pull/4306#issuecomment-1014770600
for the corresponding SDL2 discussion
To work around this issue, dhewm3 now disables the use of that EGL
extension and (optionally) makes sure the alpha channel is opaque at
the end of the frame.
This behavior is controlled with the r_fillWindowAlphaChan CVar:
If it's 1, this always is done (regardless if wayland is used or not),
if it's 0 it's not done (even on wayland),
if it's -1 (the default) it's only done if the SDL "video driver" is
wayland (this could be easily enhanced later in case other windowing
systems have the same issue)
r_waylandcompat has been removed (it never worked properly anyway),
so now the window always has an alpha chan
so if someone configured 16x AA on a system that doesn't support it
(like when using AMDs open source driver), 8x will be tried before
falling back to a 640x480 window with no AA at all.
(and then it'll try 4x and then 2x and then no AA at all, and only then
reducing color depth will start, and even later it'll fall back to
a small 640x480 window)
I was lazy and just renamed SDL_win32_main's stdout.txt - but I still
added the dhewm3log-old.txt backup function.
I also renamed Sys_GetHomeDir() to Win_GetHomeDir() as it's Win32-only
On Windows it's in Documents\My Games\dhewm3\dhewm3log.txt
and refactorings needed for that (I want to create the log right at the
beginning before much else has been initialized, so using things like
idStr or Sys_GetPath() isn't safe)
save_path being $XDG_DATA_HOME/dhewm3/ (usually ~/.local/share/dhewm3/)
on most POSIX systems, $HOME/Library/Application Support/dhewm3/ on Mac
If the log file already exists, it's renamed to dhewm3log-old.txt first,
so there's always the most recent and the last log available.
There were lots of places in the code that called Sys_GrabInput(),
some of them each frame.
Most of this is unified in events.cpp now, in handleMouseGrab() which
is called once per frame by Sys_GenerateEvents() - this makes reasoning
about when the mouse is grabbed and when not a lot easier.
Sys_GrabInput(false) still is called in a few places, before operations
that tend to take long (like loading a map or vid_restart), but
(hopefully) not regularly anymore.
The other big change is that the game now uses SDLs absolute mouse mode
for fullscreen menus (except the PDA which is an ugly hack), so the
ingame cursor is at the same position as the system cursor, which
especially helps when debugging with `in_nograb 1` and should also help
if someone wants to integrate an additional GUI toolkit like Dear ImGui.
- Fix build with SDL <=2.0.3
SDL_GetGlobalMouseState was introduced in 2.0.4
(which doesn't support OSX 10.5 or older)
- Don't include execinfo.h on Mac OS X 10.4
This file isn't included in the 10.4 SDK
- Use custom typedef for PFNGLSTENCILOPSEPARATEPROC on OSX 10.4/10.5
because the system OpenGL headers for those versions don't have it
as long as it's chars Doom3 supports, i.e. it can be converted
to ISO-8859-1
also renamed kbdNames to _in_kbdNames to reduce likelyhood of clashes
(as it can't be static)
If in_ignoreConsoleKey is set, the console can only be opened with
Shift+Esc, not `/^/whatever, so you can easily type whatever character
is on your "console key" into the game, or even bind that key.
Otherwise, with SDL2, that key (KEY_SCANCODE_GRAVE) always generates the
newly added K_CONSOLE.
in_kbd has a new (SDL2-only) "auto" mode which tries to detect the
keyboard layout based on SDL_GetKeyFromScancode( SDL_SCANCODE_GRAVE ).
Wherever Sys_GetConsoleKey() is called, I now take the current state of
Shift into account, so we don't discard more chars than necessary, esp.
when they keyboard-layout (in_kbd) is *not* correctly set.
(TBH the only reason besides SDL1.2 to keep in_kbd around is to ignore
the char generated by the "console key" in the console..)
It's set to 0 by default (which is the original behavior), if set to 1,
SDL2 will grab the keyboard, so Alt-Tab or the Windows Key etc will not
be handled by the operating system but by dhewm3 (=> you can bind the
Windows key like any normal key and it won't open the start menu)
If a key is pressed whichs SDL_Keycode isn't known to Doom3 (has no
corresponding K_* constant), its SDL_Scancode is mapped to the
corresponding newly added K_SC_* scancode constant.
I think I have K_SC_* constants for all keys that differ between
keyboard layouts (which is mostly printable characters; F1-F12, Ctrl,
Shift, ... should be the same on all layouts, which means that e.g.
SDL_SCANCODE_F1 always belongs to SDLK_F1 which the old code already
maps to Doom3's K_F1).
What's extra nice (IMO) is that when Doom3 requests a *localized* name
of the key (like for showing in the bindings menu), we actually use the
name of the SDL_Keycode that *currently* belongs to the scancode, and
esp. the "Western High-ASCII characters" (ISO-8859-1) supported by Doom3
like Ä or Ñ are displayed correctly.
(I already implemented a very similar hack in Yamagi Quake II and
reused the list of scancodes)
This should fix most of the problems reported in #323
Added Sys_FreeClipboardData(char*) so I don't have to copy the string
from SDL_GetClipboardText() into a Mem_Alloc() buffer, but can just
do the right thing per platform, which in case of POSIX/SDL2 is
SDL_free().
SDL1.2 doesn't have clipboard support, otherwise I'd have removed all
platform-specific implementations and used SDL_Get/SetClipboardText()
everywhere (IIRC AROS only supports SDL1.2?)
idStr is used in both the main thread and the async sound thread, so
it should better be thread-safe.. idDynamicBlockAlloc is not.
Use realloc() and free() instead.
For some reason this caused a lot more crashes (due to inconsistencies
in the allocator's heap) with newer Linux distros (like XUbuntu 20.04)
and when using GCC9, while they rarely reproduced with GCC7 or on
XUbuntu 18.04
fixes#391
If those functions (e.g. called by common->Printf(), common->Error())
weren't called from the mainthread and win_outputEditString was set to 1,
a deadlock could occur.
Specifically, the async thread (handling sound) was calling
common->Warning() -> Sys_Printf() -> Conbuf_AppendText() which called
SendMessageA() which blocks until the main thread handles the message.
The main thread however was in idSampleDecoderLocal::Decode() trying to
enter CRITICAL_SECTION_ONE, which was held by the async thread
(it's used to synchronize sound handling between main and async thread).
So now if Sys_Printf() (or Sys_Error() which should have the same problem)
is not called by the main thread, the text is buffered and
Conbuf_AppendText() is called for the buffered lines in the next frame
in Win_Frame().