[MPlayer-users] CRASH: Segfault when switching dvd chapters through gmplayer menu
Alexander Shaduri
ashaduri at gmail.com
Sun Apr 12 12:24:29 CEST 2009
Hello,
I'm using mplayer r29170, and I have a segfault on any dvd I try to play
using dvd:// in gmplayer. It happens when switching chapters through
the right-click menu. It does _not_ happen when using ! and @.
I'm attaching the outputs of mplayer and gdb.
Thanks,
Alexander
gmplayer output:
-------------------------------------------------------------------------
$ /0S/0tmp/DL-CVS/mplayer/mplayer_r29170_compiled/gmplayer -dvd-device . -vo xv dvd://
MPlayer SVN-r29170-4.2.1 (C) 2000-2009 MPlayer Team
mplayer: could not connect to socket
mplayer: No such file or directory
Failed to open LIRC support. You will not be able to use your remote control.
Playing dvd://.
libdvdread: Using libdvdcss version 1.2.10 for DVD access
libdvdread: Couldn't find device name.
There are 2 titles on this DVD.
There are 1 angles in this DVD title.
audio stream: 0 format: ac3 (stereo) language: en aid: 128.
audio stream: 1 format: mpeg1 (stereo) language: en aid: 1.
number of audio channels on disk: 2.
number of subtitles on disk: 0
MPEG-PS file format detected.
VIDEO: MPEG2 720x576 (aspect 3) 25.000 fps 6817.2 kbps (852.1 kbyte/s)
==========================================================================
Opening video decoder: [mpegpes] MPEG 1/2 Video passthrough
VDec: vo config request - 720 x 576 (preferred colorspace: Mpeg PES)
Could not find matching colorspace - retrying with -vf scale...
Opening video filter: [scale]
The selected video_out device is incompatible with this codec.
Try appending the scale filter to your filter list,
e.g. -vf spp,scale instead of -vf spp.
VDecoder init failed :(
Opening video decoder: [ffmpeg] FFmpeg's libavcodec codec family
Unsupported PixelFormat -1
Selected video codec: [ffmpeg2] vfm: ffmpeg (FFmpeg MPEG-2)
==========================================================================
==========================================================================
Opening audio decoder: [liba52] AC3 decoding with liba52
Using SSE optimized IMDCT transform
Using MMX optimized resampler
AUDIO: 48000 Hz, 2 ch, s16le, 448.0 kbit/29.17% (ratio: 56000->192000)
Selected audio codec: [a52] afm: liba52 (AC3-liba52)
==========================================================================
AO: [oss] 48000Hz 2ch s16le (2 bytes per sample)
Starting playback...
VDec: vo config request - 720 x 576 (preferred colorspace: Planar YV12)
VDec: using Planar YV12 as output csp (no 0)
Movie-Aspect is 1.78:1 - prescaling to correct movie aspect.
VO: [xv] 720x576 => 1024x576 Planar YV12
[mpeg2video @ 0x8845ca0]ac-tex damaged at 20 2
[mpeg2video @ 0x8845ca0]Warning MVs not available
[mpeg2video @ 0x8845ca0]concealing 1530 DC, 1530 AC, 1530 MV errors
A: 0.4 V: 0.0 A-V: 0.351 ct: 0.000 1/ 1 ??% ??% ??,?% 0 0
A: 0.4 V: 0.3 A-V: 0.151 ct: 0.004 2/ 2 ??% ??% ??,?% 0 0
A: 0.4 V: 0.3 A-V: 0.152 ct: 0.008 3/ 3 ??% ??% ??,?% 0 0
A: 0.4 V: 0.3 A-V: 0.124 ct: 0.012 4/ 4 ??% ??% ??,?% 0 0
A: 0.5 V: 0.4 A-V: 0.096 ct: 0.016 5/ 5 ??% ??% ??,?% 0 0
A: 0.5 V: 0.4 A-V: 0.077 ct: 0.020 6/ 6 ??% ??% ??,?% 0 0
A: 0.5 V: 0.4 A-V: 0.065 ct: 0.024 7/ 7 ??% ??% ??,?% 0 0
A: 0.5 V: 0.5 A-V: 0.057 ct: 0.028 8/ 8 ??% ??% ??,?% 0 0
A: 0.6 V: 0.5 A-V: 0.053 ct: 0.032 9/ 9 ??% ??% ??,?% 0 0
A: 0.6 V: 0.6 A-V: 0.056 ct: 0.036 10/ 10 ??% ??% ??,?% 0 0
A: 0.7 V: 0.6 A-V: 0.069 ct: 0.040 11/ 11 ??% ??% ??,?% 0 0
A: 0.7 V: 0.6 A-V: 0.061 ct: 0.044 12/ 12 ??% ??% ??,?% 0 0
A: 0.7 V: 0.7 A-V: 0.053 ct: 0.048 13/ 13 ??% ??% ??,?% 0 0
A: 0.8 V: 0.7 A-V: 0.041 ct: 0.052 14/ 14 20% 11% 0.8% 0 0
A: 0.8 V: 0.8 A-V: 0.033 ct: 0.055 15/ 15 19% 11% 0.8% 0 0
A: 0.8 V: 0.8 A-V: 0.029 ct: 0.058 16/ 16 18% 10% 0.7% 0 0
A: 0.9 V: 0.8 A-V: 0.023 ct: 0.060 17/ 17 18% 9% 0.7% 0 0
A: 0.9 V: 0.9 A-V: 0.048 ct: 0.064 18/ 18 17% 9% 0.7% 0 0
A: 1.0 V: 0.9 A-V: 0.040 ct: 0.068 19/ 19 16% 8% 0.7% 0 0
A: 1.0 V: 1.0 A-V: 0.038 ct: 0.072 20/ 20 16% 8% 0.7% 0 0
A: 1.0 V: 1.0 A-V: 0.021 ct: 0.074 21/ 21 15% 8% 0.7% 0 0
A: 1.1 V: 1.0 A-V: 0.019 ct: 0.075 22/ 22 15% 7% 0.7% 0 0
A: 1.1 V: 1.1 A-V: 0.009 ct: 0.076 23/ 23 15% 7% 0.6% 0 0
A: 1.1 V: 1.1 A-V: 0.009 ct: 0.077 24/ 24 14% 7% 0.6% 0 0
A: 1.2 V: 1.2 A-V: 0.004 ct: 0.077 25/ 25 14% 7% 0.6% 0 0
A: 1.2 V: 1.2 A-V: 0.031 ct: 0.081 26/ 26 14% 6% 0.6% 0 0
A: 1.3 V: 1.2 A-V: 0.024 ct: 0.083 27/ 27 13% 6% 0.6% 0 0
A: 1.3 V: 1.3 A-V: 0.014 ct: 0.084 28/ 28 13% 6% 0.6% 0 0
A: 1.3 V: 1.3 A-V: 0.008 ct: 0.085 29/ 29 13% 6% 0.6% 0 0
A: 1.4 V: 1.4 A-V: 0.004 ct: 0.086 30/ 30 13% 6% 0.6% 0 0
A: 1.4 V: 1.4 A-V: -0.005 ct: 0.085 31/ 31 12% 6% 0.6% 0 0
A: 1.4 V: 1.4 A-V: -0.004 ct: 0.085 32/ 32 12% 5% 0.6% 0 0
A: 1.5 V: 1.5 A-V: 0.024 ct: 0.087 33/ 33 12% 5% 0.6% 0 0
A: 1.5 V: 1.5 A-V: 0.014 ct: 0.088 34/ 34 12% 5% 0.6% 0 0
A: 1.6 V: 1.6 A-V: 0.013 ct: 0.090 35/ 35 12% 5% 0.6% 0 0
A: 1.6 V: 1.6 A-V: 0.003 ct: 0.090 36/ 36 12% 5% 0.6% 0 0
A: 1.6 V: 1.6 A-V: 0.003 ct: 0.090 37/ 37 11% 5% 0.6% 0 0
A: 1.7 V: 1.7 A-V: -0.001 ct: 0.090 38/ 38 11% 5% 0.6% 0 0
A: 1.7 V: 1.7 A-V: -0.009 ct: 0.089 39/ 39 11% 5% 0.6% 0 0
A: 1.8 V: 1.8 A-V: -0.008 ct: 0.088 40/ 40 11% 5% 0.5% 0 0
A: 1.8 V: 1.8 A-V: 0.017 ct: 0.090 41/ 41 11% 5% 0.6% 0 0
A: 1.9 V: 1.8 A-V: 0.011 ct: 0.091 42/ 42 11% 5% 0.6% 0 0
A: 1.9 V: 1.9 A-V: 0.006 ct: 0.092 43/ 43 11% 4% 0.6% 0 0
A: 1.9 V: 1.9 A-V: -0.003 ct: 0.091 44/ 44 11% 4% 0.6% 0 0
A: 2.0 V: 2.0 A-V: -0.007 ct: 0.091 45/ 45 11% 4% 0.6% 0 0
A: 2.0 V: 2.0 A-V: -0.008 ct: 0.090 46/ 46 10% 4% 0.5% 0 0
A: 2.1 V: 2.0 A-V: 0.020 ct: 0.091 47/ 47 10% 4% 0.6% 0 0
A: 2.1 V: 2.1 A-V: 0.015 ct: 0.093 48/ 48 10% 4% 0.6% 0 0
A: 2.1 V: 2.1 A-V: 0.012 ct: 0.094 49/ 49 10% 4% 0.5% 0 0
A: 2.2 V: 2.2 A-V: 0.013 ct: 0.095 50/ 50 10% 4% 0.5% 0 0
A: 2.2 V: 2.2 A-V: -0.001 ct: 0.095 51/ 51 10% 4% 0.5% 0 0
A: 2.2 V: 2.2 A-V: -0.006 ct: 0.094 52/ 52 10% 4% 0.5% 0 0
A: 2.3 V: 2.3 A-V: -0.009 ct: 0.093 53/ 53 10% 4% 0.5% 0 0
A: 2.3 V: 2.3 A-V: -0.012 ct: 0.092 54/ 54 10% 4% 0.5% 0 0
A: 2.4 V: 2.4 A-V: 0.017 ct: 0.094 55/ 55 10% 4% 0.5% 0 0
A: 2.4 V: 2.4 A-V: 0.011 ct: 0.095 56/ 56 10% 4% 0.5% 0 0
A: 2.4 V: 2.4 A-V: 0.007 ct: 0.096 57/ 57 10% 4% 0.5% 0 0
A: 2.5 V: 2.5 A-V: -0.003 ct: 0.095 58/ 58 10% 4% 0.5% 0 0
A: 2.5 V: 2.5 A-V: -0.006 ct: 0.095 59/ 59 9% 4% 0.5% 0 0
A: 2.5 V: 2.6 A-V: -0.014 ct: 0.093 60/ 60 9% 4% 0.5% 0 0
A: 2.6 V: 2.6 A-V: -0.012 ct: 0.092 61/ 61 9% 4% 0.5% 0 0
A: 2.7 V: 2.6 A-V: 0.021 ct: 0.094 62/ 62 9% 4% 0.5% 0 0
A: 2.7 V: 2.7 A-V: 0.007 ct: 0.095 63/ 63 9% 4% 0.5% 0 0
A: 2.7 V: 2.7 A-V: 0.006 ct: 0.095 64/ 64 9% 4% 0.5% 0 0
A: 2.8 V: 2.8 A-V: 0.002 ct: 0.096 65/ 65 9% 4% 0.5% 0 0
A: 2.8 V: 2.8 A-V: 0.006 ct: 0.096 66/ 66 9% 4% 0.5% 0 0
A: 2.8 V: 2.8 A-V: -0.011 ct: 0.095 67/ 67 9% 4% 0.5% 0 0
A: 2.9 V: 2.9 A-V: -0.014 ct: 0.093 68/ 68 9% 4% 0.5% 0 0
A: 2.9 V: 2.9 A-V: -0.013 ct: 0.092 69/ 69 9% 4% 0.5% 0 0
A: 3.0 V: 3.0 A-V: 0.013 ct: 0.093 70/ 70 9% 4% 0.5% 0 0
A: 3.0 V: 3.0 A-V: 0.007 ct: 0.094 71/ 71 9% 4% 0.5% 0 0
A: 3.0 V: 3.0 A-V: 0.003 ct: 0.094 72/ 72 9% 4% 0.5% 0 0
A: 3.1 V: 3.1 A-V: -0.006 ct: 0.094 73/ 73 9% 4% 0.5% 0 0
A: 3.1 V: 3.1 A-V: -0.001 ct: 0.093 74/ 74 9% 4% 0.5% 0 0
A: 3.1 V: 3.2 A-V: -0.012 ct: 0.092 75/ 75 9% 4% 0.5% 0 0
A: 3.2 V: 3.2 A-V: 0.017 ct: 0.094 76/ 76 9% 4% 0.5% 0 0
A: 3.3 V: 3.2 A-V: 0.011 ct: 0.095 77/ 77 9% 4% 0.5% 0 0
A: 3.3 V: 3.3 A-V: 0.009 ct: 0.095 78/ 78 9% 4% 0.5% 0 0
A: 3.3 V: 3.3 A-V: 0.006 ct: 0.095 79/ 79 9% 4% 0.5% 0 0
A: 3.4 V: 3.4 A-V: -0.006 ct: 0.094 80/ 80 9% 4% 0.5% 0 0
A: 3.4 V: 3.4 A-V: -0.006 ct: 0.094 81/ 81 9% 4% 0.5% 0 0
A: 3.4 V: 3.4 A-V: -0.013 ct: 0.092 82/ 82 9% 4% 0.5% 0 0
A: 3.5 V: 3.5 A-V: -0.011 ct: 0.091 83/ 83 9% 4% 0.5% 0 0
A: 3.5 V: 3.5 A-V: 0.018 ct: 0.093 84/ 84 9% 4% 0.5% 0 0
A: 3.6 V: 3.6 A-V: 0.012 ct: 0.094 85/ 85 9% 3% 0.5% 0 0
A: 3.6 V: 3.6 A-V: 0.003 ct: 0.094 86/ 86 9% 3% 0.5% 0 0
A: 3.6 V: 3.6 A-V: -0.002 ct: 0.094 87/ 87 9% 3% 0.5% 0 0
A: 3.7 V: 3.7 A-V: -0.004 ct: 0.094 88/ 88 9% 3% 0.5% 0 0
A: 3.7 V: 3.7 A-V: -0.006 ct: 0.092 89/ 89 8% 3% 0.5% 0 0
A: 3.7 V: 3.8 A-V: -0.012 ct: 0.091 90/ 90 8% 3% 0.5% 0 0
A: 3.8 V: 3.8 A-V: 0.018 ct: 0.093 91/ 91 8% 3% 0.5% 0 0
A: 3.8 V: 3.8 A-V: 0.008 ct: 0.094 92/ 92 8% 3% 0.5% 0 0
A: 3.9 V: 3.9 A-V: 0.003 ct: 0.094 93/ 93 8% 3% 0.5% 0 0
A: 3.9 V: 3.9 A-V: -0.001 ct: 0.094 94/ 94 8% 3% 0.5% 0 0
A: 4.0 V: 4.0 A-V: -0.009 ct: 0.093 95/ 95 8% 3% 0.5% 0 0
A: 4.0 V: 4.0 A-V: -0.008 ct: 0.092 96/ 96 8% 3% 0.5% 0 0
A: 4.0 V: 4.0 A-V: -0.011 ct: 0.091 97/ 97 8% 3% 0.5% 0 0
A: 4.1 V: 4.1 A-V: -0.010 ct: 0.090 98/ 98 8% 3% 0.5% 0 0
A: 4.1 V: 4.1 A-V: 0.015 ct: 0.091 99/ 99 8% 3% 0.5% 0 0
A: 4.2 V: 4.2 A-V: 0.009 ct: 0.092 100/100 8% 3% 0.5% 0 0
A: 4.2 V: 4.2 A-V: 0.007 ct: 0.093 101/101 8% 3% 0.5% 0 0
A: 4.2 V: 4.2 A-V: -0.004 ct: 0.092 102/102 8% 3% 0.5% 0 0
A: 4.3 V: 4.3 A-V: -0.006 ct: 0.092 103/103 8% 3% 0.5% 0 0
A: 4.3 V: 4.3 A-V: -0.009 ct: 0.091 104/104 8% 3% 0.5% 0 0
A: 4.4 V: 4.4 A-V: 0.018 ct: 0.092 105/105 8% 3% 0.5% 0 0
A: 4.4 V: 4.4 A-V: 0.012 ct: 0.094 106/106 8% 3% 0.5% 0 0
A: 4.4 V: 4.4 A-V: 0.007 ct: 0.094 107/107 8% 3% 0.5% 0 0
A: 4.5 V: 4.5 A-V: 0.001 ct: 0.094 108/108 8% 3% 0.5% 0 0
A: 4.5 V: 4.5 A-V: -0.006 ct: 0.094 109/109 8% 3% 0.5% 0 0
A: 4.6 V: 4.6 A-V: -0.009 ct: 0.093 110/110 8% 3% 0.5% 0 0
A: 4.6 V: 4.6 A-V: -0.012 ct: 0.092 111/111 8% 3% 0.5% 0 0
A: 4.6 V: 4.6 A-V: -0.011 ct: 0.091 112/112 8% 3% 0.5% 0 0
A: 4.7 V: 4.7 A-V: 0.018 ct: 0.092 113/113 8% 3% 0.5% 0 0
A: 4.7 V: 4.7 A-V: 0.013 ct: 0.094 114/114 8% 3% 0.5% 0 0
Playing dvd://1.
libdvdread: Using libdvdcss version 1.2.10 for DVD access
libdvdread: Couldn't find device name.
There are 2 titles on this DVD.
There are 1 angles in this DVD title.
audio stream: 0 format: ac3 (stereo) language: en aid: 128.
audio stream: 1 format: mpeg1 (stereo) language: en aid: 1.
number of audio channels on disk: 2.
number of subtitles on disk: 0
MPEG-PS file format detected.
-------------------------------------------------------------------------
Here's GDB dump:
-------------------------------------------------------------------------
Core was generated by `/0S/0tmp/DL-CVS/mplayer/mplayer_r29170_compiled/gmplayer -dvd-device . -vo xv d'.
Program terminated with signal 11, Segmentation fault.
[New process 7409]
#0 control (sh=0x8f33078, cmd=8, arg=0x0) at libmpcodecs/vd_ffmpeg.c:121
121 AVCodecContext *avctx = ctx->avctx;
#0 control (sh=0x8f33078, cmd=8, arg=0x0) at libmpcodecs/vd_ffmpeg.c:121
#1 0x0818a568 in resync_video_stream (sh_video=0x8f33078)
at libmpcodecs/dec_video.c:136
#2 0x081c712c in demuxer_seek_chapter (demuxer=0x8ffb708, chapter=1, mode=1,
seek_pts=0xbfbf97fc, num_chapters=0x0, chapter_name=0x0)
at libmpdemux/demuxer.c:1354
#3 0x080d6b16 in main (argc=6, argv=0xbfbf98b4) at mplayer.c:3262
Dump of assembler code from 0x82871b6 to 0x82871f6:
0x082871b6: add %al,(%eax)
0x082871b8: add %cl,0x27bc(%ebp)
0x082871be: add %al,(%eax)
0x082871c0 <control+0>: push %ebp
0x082871c1 <control+1>: mov %esp,%ebp
0x082871c3 <control+3>: push %ebx
0x082871c4 <control+4>: sub $0x4,%esp
0x082871c7 <control+7>: mov 0x8(%ebp),%eax
0x082871ca <control+10>: mov 0xc(%ebp),%edx
0x082871cd <control+13>: mov 0x14c(%eax),%ecx
0x082871d3 <control+19>: cmp $0x8,%edx
0x082871d6 <control+22>: mov (%ecx),%ebx
0x082871d8 <control+24>: je 0x8287230 <control+112>
0x082871da <control+26>: cmp $0x9,%edx
0x082871dd <control+29>: je 0x8287220 <control+96>
0x082871df <control+31>: cmp $0x3,%edx
0x082871e2 <control+34>: mov $0xffffffff,%eax
0x082871e7 <control+39>: je 0x82871f0 <control+48>
0x082871e9 <control+41>: add $0x4,%esp
0x082871ec <control+44>: pop %ebx
0x082871ed <control+45>: leave
0x082871ee <control+46>: ret
0x082871ef <control+47>: nop
0x082871f0 <control+48>: mov 0x10(%ebp),%edx
0x082871f3 <control+51>: mov (%edx),%eax
0x082871f5 <control+53>: cmp %eax,0x18(%ecx)
End of assembler dump.
eax 0x8f33078 150155384
ecx 0x0 0
edx 0x8 8
ebx 0x8ffb708 150976264
esp 0xbfbf7560 0xbfbf7560
ebp 0xbfbf7568 0xbfbf7568
esi 0x8f33078 150155384
edi 0x1 1
eip 0x82871d6 0x82871d6 <control+22>
eflags 0x10246 [ PF ZF IF RF ]
cs 0x73 115
ss 0x7b 123
ds 0x7b 123
es 0x7b 123
fs 0x0 0
gs 0x33 51
st0 -nan(0x7f807f7f7c797574) (raw 0xffff7f807f7f7c797574)
st1 -nan(0x7f0080007f007f) (raw 0xffff007f0080007f007f)
st2 -nan(0x7e7e808181807f7e) (raw 0xffff7e7e808181807f7e)
st3 -1 (raw 0xbfff8000000000000000)
st4 0.99609375 (raw 0x3ffeff00000000000000)
st5 1 (raw 0x3fff8000000000000000)
st6 273.63999999999998635757947340607643 (raw 0x400788d1eb851eb85000)
st7 273.63999999999998635757947340607643 (raw 0x400788d1eb851eb85000)
fctrl 0x37f 895
fstat 0x461 1121
ftag 0xffff 65535
fiseg 0x0 0
fioff 0x0 0
foseg 0x0 0
fooff 0x0 0
fop 0x0 0
xmm0 {v4_float = {0x0, 0x3, 0x0, 0x0}, v2_double = {0x112, 0x0},
v16_int8 = {0x0, 0x0, 0x0, 0x0, 0x0, 0x20, 0x71, 0x40, 0x0, 0x0, 0x0, 0x0,
0x0, 0x0, 0x0, 0x0}, v8_int16 = {0x0, 0x0, 0x2000, 0x4071, 0x0, 0x0, 0x0,
0x0}, v4_int32 = {0x0, 0x40712000, 0x0, 0x0}, v2_int64 = {
0x4071200000000000, 0x0}, uint128 = 0x00000000000000004071200000000000}
xmm1 {v4_float = {0x0, 0x2, 0x0, 0x0}, v2_double = {0x2, 0x0},
v16_int8 = {0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x40, 0x81, 0x81, 0x81, 0x81,
0x81, 0x81, 0x81, 0x81}, v8_int16 = {0x0, 0x0, 0x0, 0x4000, 0x8181,
0x8181, 0x8181, 0x8181}, v4_int32 = {0x0, 0x40000000, 0x81818181,
0x81818181}, v2_int64 = {0x4000000000000000, 0x8181818181818181},
uint128 = 0x81818181818181814000000000000000}
xmm2 {v4_float = {0x0, 0x2, 0x0, 0x0}, v2_double = {0x4, 0x0},
v16_int8 = {0x0, 0x0, 0x0, 0xa0, 0x47, 0xe1, 0x12, 0x40, 0x83, 0x83, 0x83,
0x82, 0x82, 0x82, 0x82, 0x81}, v8_int16 = {0x0, 0xa000, 0xe147, 0x4012,
0x8383, 0x8283, 0x8282, 0x8182}, v4_int32 = {0xa0000000, 0x4012e147,
0x82838383, 0x81828282}, v2_int64 = {0x4012e147a0000000,
0x8182828282838383}, uint128 = 0x81828282828383834012e147a0000000}
xmm3 {v4_float = {0x0, 0x0, 0x0, 0x0}, v2_double = {0x0, 0x0},
v16_int8 = {0x81, 0x81, 0x81, 0x81, 0x81, 0x81, 0x81, 0x81, 0x83, 0x84,
0x86, 0x85, 0x7f, 0x7d, 0x80, 0x81}, v8_int16 = {0x8181, 0x8181, 0x8181,
0x8181, 0x8483, 0x8586, 0x7d7f, 0x8180}, v4_int32 = {0x81818181,
0x81818181, 0x85868483, 0x81807d7f}, v2_int64 = {0x8181818181818181,
0x81807d7f85868483}, uint128 = 0x81807d7f858684838181818181818181}
xmm4 {v4_float = {0x0, 0x0, 0x0, 0x0}, v2_double = {0x0, 0x0},
v16_int8 = {0x7e, 0xb5, 0x90, 0xb8, 0x56, 0xe, 0x17, 0x3c, 0x23, 0x59, 0xc8,
0xbb, 0x7d, 0x7, 0xc8, 0x3b}, v8_int16 = {0xb57e, 0xb890, 0xe56, 0x3c17,
0x5923, 0xbbc8, 0x77d, 0x3bc8}, v4_int32 = {0xb890b57e, 0x3c170e56,
0xbbc85923, 0x3bc8077d}, v2_int64 = {0x3c170e56b890b57e,
0x3bc8077dbbc85923}, uint128 = 0x3bc8077dbbc859233c170e56b890b57e}
xmm5 {v4_float = {0x0, 0x0, 0x0, 0x0}, v2_double = {0x0, 0x0},
v16_int8 = {0x24, 0x7f, 0xc, 0xbc, 0xa5, 0x7b, 0x1e, 0xb9, 0x97, 0x24, 0xcc,
0xbb, 0xc1, 0x3c, 0xd3, 0xbb}, v8_int16 = {0x7f24, 0xbc0c, 0x7ba5, 0xb91e,
0x2497, 0xbbcc, 0x3cc1, 0xbbd3}, v4_int32 = {0xbc0c7f24, 0xb91e7ba5,
0xbbcc2497, 0xbbd33cc1}, v2_int64 = {0xb91e7ba5bc0c7f24,
0xbbd33cc1bbcc2497}, uint128 = 0xbbd33cc1bbcc2497b91e7ba5bc0c7f24}
xmm6 {v4_float = {0x1, 0xffffffff, 0x0, 0x0}, v2_double = {0x0,
0x0}, v16_int8 = {0x0, 0x0, 0x80, 0x3f, 0x0, 0x0, 0x80, 0xbf, 0xf3, 0x4,
0x35, 0x3f, 0xf3, 0x4, 0x35, 0xbf}, v8_int16 = {0x0, 0x3f80, 0x0, 0xbf80,
0x4f3, 0x3f35, 0x4f3, 0xbf35}, v4_int32 = {0x3f800000, 0xbf800000,
0x3f3504f3, 0xbf3504f3}, v2_int64 = {0xbf8000003f800000,
0xbf3504f33f3504f3}, uint128 = 0xbf3504f33f3504f3bf8000003f800000}
xmm7 {v4_float = {0x0, 0x0, 0x0, 0x0}, v2_double = {0x0, 0x0},
v16_int8 = {0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0xf3, 0x4, 0x35, 0x3f,
0xf3, 0x4, 0x35, 0xbf}, v8_int16 = {0x0, 0x0, 0x0, 0x0, 0x4f3, 0x3f35,
0x4f3, 0xbf35}, v4_int32 = {0x0, 0x0, 0x3f3504f3, 0xbf3504f3}, v2_int64 = {
0x0, 0xbf3504f33f3504f3}, uint128 = 0xbf3504f33f3504f30000000000000000}
mxcsr 0x1fa0 [ PE IM DM ZM OM UM PM ]
mm0 {uint64 = 0x7f807f7f7c797574, v2_int32 = {0x7c797574,
0x7f807f7f}, v4_int16 = {0x7574, 0x7c79, 0x7f7f, 0x7f80}, v8_int8 = {0x74,
0x75, 0x79, 0x7c, 0x7f, 0x7f, 0x80, 0x7f}}
mm1 {uint64 = 0x7f0080007f007f, v2_int32 = {0x7f007f, 0x7f0080},
v4_int16 = {0x7f, 0x7f, 0x80, 0x7f}, v8_int8 = {0x7f, 0x0, 0x7f, 0x0, 0x80,
0x0, 0x7f, 0x0}}
mm2 {uint64 = 0x7e7e808181807f7e, v2_int32 = {0x81807f7e,
0x7e7e8081}, v4_int16 = {0x7f7e, 0x8180, 0x8081, 0x7e7e}, v8_int8 = {0x7e,
0x7f, 0x80, 0x81, 0x81, 0x80, 0x7e, 0x7e}}
mm3 {uint64 = 0x8000000000000000, v2_int32 = {0x0, 0x80000000},
v4_int16 = {0x0, 0x0, 0x0, 0x8000}, v8_int8 = {0x0, 0x0, 0x0, 0x0, 0x0, 0x0,
0x0, 0x80}}
mm4 {uint64 = 0xff00000000000000, v2_int32 = {0x0, 0xff000000},
v4_int16 = {0x0, 0x0, 0x0, 0xff00}, v8_int8 = {0x0, 0x0, 0x0, 0x0, 0x0, 0x0,
0x0, 0xff}}
mm5 {uint64 = 0x8000000000000000, v2_int32 = {0x0, 0x80000000},
v4_int16 = {0x0, 0x0, 0x0, 0x8000}, v8_int8 = {0x0, 0x0, 0x0, 0x0, 0x0, 0x0,
0x0, 0x80}}
mm6 {uint64 = 0x88d1eb851eb85000, v2_int32 = {0x1eb85000,
0x88d1eb85}, v4_int16 = {0x5000, 0x1eb8, 0xeb85, 0x88d1}, v8_int8 = {0x0,
0x50, 0xb8, 0x1e, 0x85, 0xeb, 0xd1, 0x88}}
mm7 {uint64 = 0x88d1eb851eb85000, v2_int32 = {0x1eb85000,
0x88d1eb85}, v4_int16 = {0x5000, 0x1eb8, 0xeb85, 0x88d1}, v8_int8 = {0x0,
0x50, 0xb8, 0x1e, 0x85, 0xeb, 0xd1, 0x88}}
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