Check if we're in the requested mode after the fullscreen window was
created. If not: Try to switch again in the requested mode by calling
SDL_SetWindowDisplayMode(). If that's successfull set the new window
size with SDL_SetWindowSize(). That shouldn't be necessary, at least to
SDLs crappy doku, but without the subsequent SDL_GetWindowDisplayMode()
call fails with 'Invalid Window'. Use that call to check if we're now
in the requested mode. If yes, process. If not abort and trigger the
fallback magic. It'll set `r_mode 4` and `vid_fullscreen 0`.
Caveat: In the worst case this will switch the display mode 3 times.
To create the window, to work around the bug and to set a refresh rate.
No problem for flat panels, but my unforgotten Trinitron CRT would
have cried in pain.
* Normaly SDL chooses a sane refresh rate for fullscreen windows. Users
may want to override that, so provide a new cvar `vid_rate`. If it's
set to a value greater than 0, we're trying to get a mode close to the
requested resolution and refresh rate and switch to that.
* A bug in SDL may leave us in the wrong mode, detect that condition and
abort. See https://bugzilla.libsdl.org/show_bug.cgi?id=4700 for details.
This is part of issue #302.
Print a list of all available modes as soon as SDLs video backend
initializes and the real display mode after the window was created
or altered.
This hopefully helps debbuging problem with display mode selection, see
issue #302 for an example.
-Add back use of last_position_x and last_position_y
-last_position_x and last_position_y will be set to undefined when the window is shutdown IF the current display used is not the desired display
-last_display will be set to desired display at window shutdown if not the same
-vid_displayindex clamped using ClampDisplayIndexCvar() at startup and window shutdown
-We only need to init the display indices once in GLimp_Init
-We only need to clear the display indices once in GLimp_Shutdown
-Remove extra 'displayindex' variable
-SDL_GetNumVideoDisplays() will always remain the same after the call to SDL_Init(SDL_INIT_VIDEO), so it makes sense to set in GLimp_Init where we do this.
There's an "enable alt joy keys" command now. If a key is bound to that
command, all joystick buttons (incl. hat and triggers) are turned from
K_JOYx into K_JOYx_ALT, which allows two keybindings on the same key,
one with the altselector pressed and one without.
If there's no keybinding for K_JOYx_ALT, it will use the binding for
just K_JOYx as a fallback (if it exists).
This is especially handy to create direct bindings for all the weapons
on the (limited amount of) Joystick buttons.
Seems like AMDs Windows driver doesn't like it when we call
glBufferData() *a lot* (other drivers, incl. Intels, don't seem to
care as much).
Even on an i7-4771 with a Radeon RX 580 I couldn't get stable 60fps
on Windows without this workaround (the open source Linux driver is ok).
This workaround can be enabled/disabled with the gl3_usebigvbo cvar;
by default it's -1 which means "enable if AMD driver is detected".
Enabling it when using a nvidia GPU with their proprietary drivers
reduces the performance to 1/3 of the fps we get without it, so it
indeed needs to be conditional...
use GL3_BufferAndDraw3D() instead of glBufferData() and glDrawArrays()
in each place it's needed.
This by itself doesn't make anything faster, but it will make trying out
different ways to upload data easier.
The developers tested their maps without the fix and decided that it
looked good. Add a new cvar gl_fixsurfsky defaulting to 0 that enables
the fix if someone really want it.
The software renderer already did this, but not the GL renderers. Maybe
the logic was lost somewhere on the long way... Without this change a
fullbright lightmap is generated for SURF_SKY surfaces and without the
SURF_DRAWSKY flags the surfaces aren't skipped in RecursiveLightPoint()
and GL3_LM_CreateSurfaceLightmap(). This isn't a problem under real
skyboxes, but in cases were SURF_SKY is abused fpr interior lightning.
rmine2.bsp in rogue is a good place to see the problem
Reported by @m-x-d, fixes#393.
I guess it makes sense to apply gamma to the color, we do the same
for the standard round particles.
Also, this way the fragment shader for square particles references the
uniCommon UBO (gamma is part of it) - apparently the Intel HD4000
(from Ivy Bridge) GPU driver for Windows has a bug that uniform blocks
that exist in the shader source but aren't actually used can't be found
(with glGetUniformBlockIndex(prog, name)), which we treat as an error
in gl3_shaders.c initShader3D().
fixes#391
Apparently the lightsource for exploding rockets/grenades is very close
to the surface, so the dot-Product between surface-normal and the
vector between the light and the pixel returns 0, basically disabling
the dynamic light for that surface.
As a workaround, move the lightposition (only for that dot product)
a bit above the surface, 32*surfaceNormal looks good.
fixes#386
