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Autres articles (50)
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La file d’attente de SPIPmotion
28 novembre 2010, parUne file d’attente stockée dans la base de donnée
Lors de son installation, SPIPmotion crée une nouvelle table dans la base de donnée intitulée spip_spipmotion_attentes.
Cette nouvelle table est constituée des champs suivants : id_spipmotion_attente, l’identifiant numérique unique de la tâche à traiter ; id_document, l’identifiant numérique du document original à encoder ; id_objet l’identifiant unique de l’objet auquel le document encodé devra être attaché automatiquement ; objet, le type d’objet auquel (...) -
Other interesting software
13 avril 2011, parWe don’t claim to be the only ones doing what we do ... and especially not to assert claims to be the best either ... What we do, we just try to do it well and getting better ...
The following list represents softwares that tend to be more or less as MediaSPIP or that MediaSPIP tries more or less to do the same, whatever ...
We don’t know them, we didn’t try them, but you can take a peek.
Videopress
Website : http://videopress.com/
License : GNU/GPL v2
Source code : (...) -
Personnaliser en ajoutant son logo, sa bannière ou son image de fond
5 septembre 2013, parCertains thèmes prennent en compte trois éléments de personnalisation : l’ajout d’un logo ; l’ajout d’une bannière l’ajout d’une image de fond ;
Sur d’autres sites (5455)
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delphi firemonkey + FFmpeg Fill image/Tbitmap with data of AVFRAME->pixelformat->YUV420P
9 février 2020, par cobanI have managed to create a simple Video player using SDL2 + FFmpeg libraries with Delphi VCL. It’s about the same as ffplay.exe but not a Console app.
I’ve noticed that FFmpeg (I might be wrong) converts/scales (sws_scale) source pixelformat(any) -> to destination -> YUV420P faster than to any other format.What I want to achieve is some kind of a (video)surface, where over I can put other components, like for example a TProgressbar. SDL has a function sdl_createwindowfrom which can turn a tpanel into video(surface/window) where it is possible to put any component over it. But this function is only for windows.
Maybe I am looking in the wrong direction to achieve what I want, if so, any hint is welcome.
I was thinkin of drawing the data retrieved in pixelformat yuv420p to a TBitmap of a Timage, this way I won’t need SDL2 library, and I will be able to put any other component above, in this case, Timage. Or another component which might be faster.It seems like I need to convert the YUV420P into BGRA format, because TBitmap does not seem to support any YUV format, worse is FIREMONKEY tbitmap is always BGRA format, changing to other format is not possible.
In first case, I need a function to convert yuv420 to BGRA, can anyone help with this, is there a component/package/function for this which I could use ? Or maybe is it anyhow possible to use yuv420p format directly without converting ?
I tried to convert some SDL2 functions from SDL2 source (C/C++) to Delphi functions but it’s to complicate for me, specially with my knowledge of C/C++. In SDL2 there are methods/functions implemented for converting RGB <-> YUV. (Why did I ever start Delphi programming ? my mistake).BTW, I already tried TMediaplayer, it’s drawing video(picture) above everything, nothing else than the video is visible.
I’ve made an attempt, what I don’t understand is where to get/what is "y_stride, uv_stride and rgb_stride"
Some variable declarations and/or assignments can be incorrect, need to debug the values, but first I need to know what to pass for the above variables.procedure STD_FUNCTION_NAME(width, height:Cardinal;Y, U, V:PByte; Y_stride, UV_stride:Cardinal;
RGB:PByte; RGB_stride:Cardinal;yuv_type:YCbCrType;
YUV_FORMAT,RGB_FORMAT:Word);
var param:PYUV2RGBParam;
y_pixel_stride,
uv_pixel_stride,
uv_x_sample_interval,
uv_y_sample_interval:Word;
x, ys:Cardinal;
y_ptr1,y_ptr2,u_ptr,v_ptr:PByte;
rgb_ptr1,rgb_ptr2:PByte;
u_tmp,v_tmp,r_tmp,
g_tmp,b_tmp:Cardinal;
y_tmp:Integer;
begin
param := @(YUV2RGB[integer( yuv_type)]);
if YUV_FORMAT = YUV_FORMAT_420
then begin
y_pixel_stride := 1;
uv_pixel_stride := 1;
uv_x_sample_interval:= 2;
uv_y_sample_interval:= 2;
end;
if YUV_FORMAT = YUV_FORMAT_422
then begin
y_pixel_stride := 2;
uv_pixel_stride := 4;
uv_x_sample_interval := 2;
uv_y_sample_interval := 1;
end;
if YUV_FORMAT = YUV_FORMAT_NV12
then begin
y_pixel_stride := 1;
uv_pixel_stride := 2;
uv_x_sample_interval := 2;
uv_y_sample_interval := 2;
end;
//for(y=0; y<(height-(uv_y_sample_interval-1)); y+=uv_y_sample_interval)
ys := 0;
while ys < height-(uv_y_sample_interval-1) do
begin
y_ptr1 := Y+ys*Y_stride;
y_ptr2 := Y+(ys+1)*Y_stride;
u_ptr := U+(ys div uv_y_sample_interval)*UV_stride;
v_ptr := V+(ys div uv_y_sample_interval)*UV_stride;
rgb_ptr1:=RGB+ys*RGB_stride;
if uv_y_sample_interval > 1
then rgb_ptr2:=RGB+(ys+1)*RGB_stride;
//for(x=0; x<(width-(uv_x_sample_interval-1)); x+=uv_x_sample_interval)
x := 0;
while x<(width-(uv_x_sample_interval-1)) do
begin
// Compute U and V contributions, common to the four pixels
u_tmp := (( u_ptr^)-128);
v_tmp := (( v_ptr^)-128);
r_tmp := (v_tmp*param.v_r_factor);
g_tmp := (u_tmp*param.u_g_factor + v_tmp*param.v_g_factor);
b_tmp := (u_tmp*param.u_b_factor);
// Compute the Y contribution for each pixel
y_tmp := ((y_ptr1[0]-param.y_shift)*param.y_factor);
PACK_PIXEL(RGB_FORMAT,y_tmp,r_tmp, g_tmp, b_tmp, rgb_ptr1);
y_tmp := ((y_ptr1[y_pixel_stride]-param.y_shift)*param.y_factor);
PACK_PIXEL(RGB_FORMAT,y_tmp,r_tmp, g_tmp, b_tmp, rgb_ptr1);
if uv_y_sample_interval > 1
then begin
y_tmp := ((y_ptr2[0]-param.y_shift)*param.y_factor);
PACK_PIXEL(RGB_FORMAT,y_tmp,r_tmp, g_tmp, b_tmp, rgb_ptr2);
y_tmp := ((y_ptr2[y_pixel_stride]-param.y_shift)*param.y_factor);
PACK_PIXEL(RGB_FORMAT,y_tmp,r_tmp, g_tmp, b_tmp, rgb_ptr2);
end;
y_ptr1 := y_ptr1 + 2*y_pixel_stride;
y_ptr2 := y_ptr2 + 2*y_pixel_stride;
u_ptr := u_ptr + 2*uv_pixel_stride div uv_x_sample_interval;
v_ptr := v_ptr + 2*uv_pixel_stride div uv_x_sample_interval;
x := x + uv_x_sample_interval
end;
//* Catch the last pixel, if needed */
if (uv_x_sample_interval = 2) and (x = (width-1))
then begin
// Compute U and V contributions, common to the four pixels
u_tmp := (( u_ptr^)-128);
v_tmp := (( v_ptr^)-128);
r_tmp := (v_tmp*param.v_r_factor);
g_tmp := (u_tmp*param.u_g_factor + v_tmp*param.v_g_factor);
b_tmp := (u_tmp*param.u_b_factor);
// Compute the Y contribution for each pixel
y_tmp := ((y_ptr1[0]-param.y_shift)*param.y_factor);
PACK_PIXEL(RGB_FORMAT,y_tmp,r_tmp, g_tmp, b_tmp, rgb_ptr1);
if uv_y_sample_interval > 1
then begin
y_tmp := ((y_ptr2[0]-param.y_shift)*param.y_factor);
PACK_PIXEL(RGB_FORMAT,y_tmp,r_tmp, g_tmp, b_tmp, rgb_ptr2);
//PACK_PIXEL(rgb_ptr2);
end;
end;
ys := ys +uv_y_sample_interval;
end;
//* Catch the last line, if needed */
if (uv_y_sample_interval = 2) and (ys = (height-1))
then begin
y_ptr1 :=Y+ys*Y_stride;
u_ptr :=U+(ys div uv_y_sample_interval)*UV_stride;
v_ptr :=V+(ys div uv_y_sample_interval)*UV_stride;
rgb_ptr1:=RGB+ys*RGB_stride;
//for(x=0; x<(width-(uv_x_sample_interval-1)); x+=uv_x_sample_interval)
x := 0;
while x < (width-(uv_x_sample_interval-1)) do
begin
// Compute U and V contributions, common to the four pixels
u_tmp := (( u_ptr^)-128);
v_tmp := (( v_ptr^)-128);
r_tmp := (v_tmp*param.v_r_factor);
g_tmp := (u_tmp*param.u_g_factor + v_tmp*param.v_g_factor);
b_tmp := (u_tmp*param.u_b_factor);
// Compute the Y contribution for each pixel
y_tmp := ((y_ptr1[0]-param.y_shift)*param.y_factor);
//PACK_PIXEL(rgb_ptr1);
PACK_PIXEL(RGB_FORMAT,y_tmp,r_tmp, g_tmp, b_tmp, rgb_ptr1);
y_tmp := ((y_ptr1[y_pixel_stride]-param.y_shift)*param.y_factor);
//PACK_PIXEL(rgb_ptr1);
PACK_PIXEL(RGB_FORMAT,y_tmp,r_tmp, g_tmp, b_tmp, rgb_ptr1);
y_ptr1 := y_ptr1 + 2*y_pixel_stride;
u_ptr := u_ptr + 2*uv_pixel_stride div uv_x_sample_interval;
v_ptr := v_ptr + 2*uv_pixel_stride div uv_x_sample_interval;
x := x + uv_x_sample_interval
end;
//* Catch the last pixel, if needed */
if (uv_x_sample_interval = 2) and (x = (width-1))
then begin
// Compute U and V contributions, common to the four pixels
u_tmp := (( u_ptr^)-128);
v_tmp := (( v_ptr^)-128);
r_tmp := (v_tmp*param.v_r_factor);
g_tmp := (u_tmp*param.u_g_factor + v_tmp*param.v_g_factor);
b_tmp := (u_tmp*param.u_b_factor);
// Compute the Y contribution for each pixel
y_tmp := ((y_ptr1[0]-param.y_shift)*param.y_factor);
//PACK_PIXEL(rgb_ptr1);
PACK_PIXEL(RGB_FORMAT,y_tmp,r_tmp, g_tmp, b_tmp, rgb_ptr1);
end;
end;end ;
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configure : Include quotes around pkg_version
16 décembre 2024, par Joe Schifflerconfigure : Include quotes around pkg_version
In some MSYS environments it can happen that the 3 argument syntax
for pkg-config library specifications fails because somehow the
expansion of pkg_version ends up with a redirection we guess.To avoid failures like in the referenced build[2], we quote it
so the whole module including operators will be expanded into
a single shell word and the single argument syntax for specifying
the library for pkg-config will be used.The single argument syntax seems to be supported by the original
pkg-config from the beginning more than 20 years[3].In the pkgconf implementation single argument syntax was supported
pretty much from the beginning as well. The multiple argument syntax
we used until this change, was not supported until a change[4] more
than 10 years ago.References
1. Build passing with quotes :
https://github.com/JoeSchiff/pyav-ffmpeg/actions/runs/12358403929
2. Build failing without quotes :
https://github.com/JoeSchiff/pyav-ffmpeg/actions/runs/12360472377
3. Earliest commit of the current pkg-config Git repo already mentions the single argument syntax :
https://gitlab.freedesktop.org/pkg-config/pkg-config/-/commit/2ac96cbcc708d8945329fd1b2001386e1c895c64#124c0becfe68b1ef671f49ed2b9d24779ace126f_0_162
4. pkgconf gets support for 3 argument syntax (pkgconf —exists liba = 1.2.3) :
https://github.com/pkgconf/pkgconf/commit/793de6a06ca52fbfe906a269b5f2b2ba41739517Commit-message-by : Alexander Strasser <eclipse7@gmx.net>
Signed-off-by : Joe Schiffler <joeschiffler3@gmail.com>
Signed-off-by : Alexander Strasser <eclipse7@gmx.net> -
avformat/hlsenc : support mkdir_p for use_localtime_mkdir
28 septembre 2016, par Steven Liuavformat/hlsenc : support mkdir_p for use_localtime_mkdir
when use use_localtime_mkdir to create multi level dir,
ffmpeg give error message :
ffmpeg -re -i /Movies/objectC/facebook.mp4 -c copy -use_localtime 1
-use_localtime_mkdir 1 -hls_segment_filename ’%Y%m%d/file-%Y%m%d/%s.ts’
out.m3u8
error message :
Could not create directory 20160926/file-20160926 with use_localtime_mkdir
add mkdir_p for support the multi level dirReviewed-by : Michael Niedermayer <michael@niedermayer.cc>
Tested-by : Zuo Genyu <1515161258@qq.com> (Windows)
Signed-off-by : Steven Liu <lingjiujianke@gmail.com>
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