This refactor makes the code easier to understand. Also corrects a bug that
caused the window to move to the left when the new size was bigger than the
visible frame.
It is now possible to show images and videos with alpha information correctly.
This was disalbed before, because there was a bug that made black parts of
videos also transparent.
The previous attempt was missing some code paths, so there were still
shaders generated that triggered the shader compilation error. Fix it
instead by special handling USE_CONV in the shader.
By the way, the shader compiler did not accept:
#if defined(USE_CONV) && (USE_CONV == ...)
In my opinion this should be perfectly fine, but it gives the same
error as before. So test USE_CONV separately with #ifndef.
The OSX shader compiler was giving this error:
ERROR: 0:235: '' : syntax error incorrect preprocessor directive
on this line:
[235] #if USE_CONV == CONV_PLANAR
USE_CONV was undefined in some cases. The expected behavior is that the
shader preprocessor interprets this as branch not taken (AFAIK exactly
as in C), which is probably what the standard would dictate. This is
possible an OSX bug. But admittedly, I'm not sure whether this is really
standard behavior (in C or GLSL), and doing this is extremely weird at
best, so make sure that USE_CONV is always defined.
Should fix behavior on OSX.
Allows playing video with alpha information on X11, as long as the video
contains alpha and the window manager does compositing. See vo.rst.
Whether a window can be transparent is decided by the choice of the X
Visual used for window creation. Unfortunately, there's no direct way to
request such a Visual through the GLX or the X API, and use of the
XRender extension is required to find out whether a Visual implies a
framebuffer with alpha used by XRender (see for example [1]). Instead of
depending on the XRender wrapper library (which would require annoying
configure checks, even though XRender is virtually always supported),
use a simple heuristics to find out whether a Visual has alpha. Since
getting it wrong just means an optional feature will not work as
expected, we consider this ok.
[1] http://stackoverflow.com/questions/4052940/how-to-make-an-opengl-rendering-context-with-transparent-background/9215724#9215724
When displaying YUV with alpha plane (an extremely rare special case),
we didn't upload the alpha plane, because we don't do anything with it.
This actually created some annoying special cases, so upload the alpha
planes as well, even if they're unused.
This is a bit cleaner. Also don't repeat the chroma shift calculations
over and over, but store the image size instead, which is simpler and
will give us a chance to fix display of non-mod-2 image sizes.
gl_video.c contains all rendering code, gl_lcms.c the .icc loader and
creation of 3D LUT (and all LittleCMS specific code). vo_opengl.c is
reduced to interfacing between the various parts.
Do this instead of stuffing all x11/cocoa/win32/wayland specific code
into gl_common.c. The cocoa specific parts could probably go directly
into cocoa_common.m, possibly same with wayland.
Also redo how the list of backends is managed. Get rid of the GLTYPE_
constants. Instead of having a big switch() on GLTYPE_, each backend
entry has a function pointer to setup the MPGLContext callback (e.g.
mpgl_set_backend_x11()).
Makes the code a bit simpler to follow, at least in the "modern"
decoding path (update_video_nocorrect_pts() is used with old demuxers,
which don't return proper packets and need further parsing, so this code
looks less simple now).
Good news: MPV worked fine even without the fixes, but pointer size
mismatch warnings aren't the nicest things to leave lying around.
Fix macro that assumed HWND is uint32_t-sized.
Win64 is also a special butterfly and is an LLP64 platform on amd64
CPUs, while all the other amd64 platforms are LP64. Cygwin decided to go
with the other platforms, and thus sizeof(long) != sizeof(int), and in
cygwin's windows headers LONG is int-sized. Fix an mp_msg that assumed
LONG is long.
The vo_x11_clearwindow_part() function assumed that the video is always
centered. Replace it with a new vo_x11_clear_background() function
instead, which essentially does the same as the old function. It takes
the video rectangle instead of just the video size, and doesn't have to
make the assumption that the video rectangle is centered.
Also make vo_x11 use it (seems advantageous).
This was probably enabled to guarantee that panscan is always reset in
windowed mode. However, the window size should be exactly the video size
in windowed mode, unless in cases where the user forcibly changed the
window size (e.g. --geometry). In the former case, panscan will have no
influence at all, and in the latter case we want it to have influence.
If that's what the user asked for, there's no reason to introduce
special cases to ignore it on fullscreen.
The old behavior is perhaps accidentally due to the fact that aspect
calculations used to be disabled in windowed mode, rather than a
deliberate decision.
The code that is changed is responsible for scaling the video size to
display size, so that the resulting video rectangle is letter-boxed
inside the display window. This is before panscan calculations, which
can actually enlarge the video and make it larger than the display size
again. (src_dst_split_scaling() in vo.c takes cares of clipping the
video size to window size.)
I'm not sure why this rounding is done, as using panscan controls can
introduce odd sizes again. The rounding has been part of the code since
the initial commit. On the other hand, this rounding can slightly
influence the aspect ratio of the displayed image to the worse. It
forces the image to be scaled by an additional pixel, without actually
correcting the display size into the other direction.
Although video sizes are usually at least aligned on 2 (and often more),
odd sizes can still happen when playing e.g. anamorphic DVDs.
Remove the additional rounding.
(Note that we still round the _source_ image position and size when the
displayed image is larger than the screen, e.g. when panscan is used.
This is needed by some VOs so that the image source rectangle starts on
full chroma pixels. Maybe this rounding should be moved to the
respective VOs, which includes at least vo_direct3d.)
Remove lots of weird logic and dead code.
The only difference is that when specifying a monitor aspect ratio, it
will always upscale and never downscale.
The draw_osd change is a bit tricky: I guess originally, there was some
intention not to second-guess the generic aspect code, but the result is
the same and the code is more confusing.
The rescaling is rather silly. vo_get_src_dst_rects() doesn't return an
uncropped image, so the texture coordinates have to be recalculated,
which looks more complicated, but is actually what the other OpenGL VOs
also do.
Tested and fixed by Stefano Pigozzi.
Instead of manually calculating aspect ratio etc., use
vo_get_src_dst_rects(). This has the advantage that we can drop some
special cases in aspect.c later.
Simplify the code, and move resizing the X images from draw_image() to a
new resize() function.
Do some other simplifications. The gXErrorFlag check was actually dead
code, even in mplayer-svn. Special-casing on WinID is not needed
anymore (we created an embedded window, and its size is updated by
x11_common.c).
I introuced this regression in 8fc0b618d5. The backend would go into
incosistent state caused by calling `vo_cocoa_fullscreen` where it wasn't
needed.
Fixes#44
This only matters for those who want to use vf_pp. The old API is marked
as deprecated, and doesn't work on Libav. It was broken on FFmpeg, but
has recently started working again - the fields in question were not un-
deprecated though. Instead you're supposed to use a new API, which does
exactly the same thing (what...?).
Also don't pass the QP table with mp_image_copy_attributes() - it
probably does more harm than it's useful.
By the way, with -vf=dlopen=TOOLS/vf_dlopen/showqscale.so, it appears
the table as output by recent FFmpeg is offset by 1 macroblock in X
direction and 2 macroblocks in Y direction, which most likely will
interfere with normal vf_pp operation. However, this is not my problem.
The only real reason for this commit is that we can finally get rid of
all libav* related deprecation warnings. (Though they are constantly
deprecating APIs, so this will not last long.)
The old names have been deprecated a while ago, but were needed for
supporting older ffmpeg/libav versions. The deprecated identifiers
have been removed from recent Libav and FFmpeg git.
This change breaks compatibility with Libav 0.8.x and equivalent
FFmpeg releases.
avcodec_encode_video() was deprecated, and was finally removed from
Libav and FFmpeg git.
This change breaks compatibility with Libav 0.8.x. Thank the Libav
developers, not me.
Removes the local ret because it was only in an assert statement and also
removes the window size assignments, because they are already done in
config_wnidow_wayland.
