[MPlayer-advusers] [CRASH] playing file over network on mac osx
Compn
tempn at twmi.rr.com
Sat Apr 21 21:05:18 CEST 2007
playing the files locally works fine (its reproducable on a few files)
also with -nosound, mplayer does not crash.
if you need a sample, please ask.
-compn
(gdb) run -v *204*
Starting program: /usr/local/bin/mplayer-debug -v *204*
Reading symbols for shared libraries .. done
MPlayer dev-SVN-r23050-3.3 (C) 2000-2007 MPlayer Team
AltiVec found
CPU: PowerPC
get_path('codecs.conf') -> '/Users/compn/.mplayer/codecs.conf'
Reading /Users/compn/.mplayer/codecs.conf: Can't open '/Users/compn/.mplayer/codecs.conf': No such file or directory
Reading /usr/local/etc/mplayer/codecs.conf: Can't open '/usr/local/etc/mplayer/codecs.conf': No such file or directory
Using built-in default codecs.conf.
Configuration: --codecsdir=/usr/local/lib/codecs --disable-x11 --disable-x11 --disable-gl --cc=gcc-3.3 --disable-live --enable-debug=3
CommandLine: '-v' 'Big Train - 204.avi'
init_freetype
get_path('font/font.desc') -> '/Users/compn/.mplayer/font/font.desc'
font: can't open file: /Users/compn/.mplayer/font/font.desc
font: can't open file: /usr/local/share/mplayer/font/font.desc
Using Unoptimized OnScreenDisplay
get_path('fonts') -> '/Users/compn/.mplayer/fonts'
Using Darwin accurate timing
get_path('input.conf') -> '/Users/compn/.mplayer/input.conf'
Parsing input config file /Users/compn/.mplayer/input.conf
Input config file /Users/compn/.mplayer/input.conf parsed: 62 binds
get_path('Big Train - 204.avi.conf') -> '/Users/compn/.mplayer/Big Train - 204.avi.conf'
Playing Big Train - 204.avi.
get_path('sub/') -> '/Users/compn/.mplayer/sub/'
[file] File size is 354482176 bytes
STREAM: [file] Big Train - 204.avi
STREAM: Description: File
STREAM: Author: Albeu
STREAM: Comment: based on the code from ??? (probably Arpi)
CACHE_PRE_INIT: 0 [0] 0 pre:1228800 eof:0
Cache fill: 14.40% (884736 bytes)
AVI file format detected.
list_end=0x2286
======= AVI Header =======
us/frame: 40000 (fps=25.000)
max bytes/sec: 0
padding: 0
MainAVIHeader.dwFlags: (272) HAS_INDEX IS_INTERLEAVED
frames total: 43075 initial: 0
streams: 2
Suggested BufferSize: 0
Size: 700 x 394
==========================
list_end=0x10F4
==> Found video stream: 0
[aviheader] Video stream found, -vid 0
====== STREAM Header =====
Type: sdiv FCC: divx (64697678)
Flags: 0
Priority: 0 Language: 0
InitialFrames: 0
Rate: 25/1 = 25.000
Start: 0 Len: 43075
Suggested BufferSize: 109194
Quality 10000
Sample size: 0
==========================
Found 'bih', 40 bytes of 40
======= VIDEO Format ======
biSize 40
biWidth 700
biHeight 394
biPlanes 1
biBitCount 24
biCompression 1145656920='DIVX'
biSizeImage 1654800
===========================
Regenerating keyframe table for MPEG-4 video.
list_end=0x217A
==> Found audio stream: 1
[aviheader] Audio stream found, -aid 1
====== STREAM Header =====
Type: sdua FCC: (0)
Flags: 0
Priority: 0 Language: 0
InitialFrames: 1
Rate: 24000/1 = 24000.000
Start: 0 Len: 41350656
Suggested BufferSize: 3744
Quality -1
Sample size: 1
==========================
Found 'wf', 18 bytes of 18
======= WAVE Format =======
Format Tag: 8192 (0x2000)
Channels: 2
Samplerate: 48000
avg byte/sec: 24000
Block align: 1
bits/sample: 0
cbSize: 0
==========================================================================
list_end=0x2286
AVI: dmlh found (size=248) (total_frames=43075)
list_end=0x22C6
hdr=Software size=44
Software : VirtualDubMod 1.5.10.2 (build 2540/release)
list_end=0x150BEEB6
Found movie at 0x280C - 0x150BEEB6
Reading INDEX block, 86146 chunks for 43075 frames (fpos=353103550).
AVI index offset: 0x2808 (movi=0x280C idx0=0x4 idx1=0xEAC)
Auto-selected AVI audio ID = 1
Auto-selected AVI video ID = 0
AVI: Searching for audio stream (id:1)
AVI video size=311039583 (43075) audio size=41350656 (41350656)
VIDEO: [XVID] 700x394 24bpp 25.000 fps 1444.2 kbps (176.3 kbyte/s)
[V] filefmt:3 fourcc:0x44495658 size:700x394 fps:25.00 ftime:=0.0400
Clip info:
Software: VirtualDubMod 1.5.10.2 (build 2540/release)
get_path('sub/') -> '/Users/compn/.mplayer/sub/'
Opening video filter: [eq]
==========================================================================
Opening video decoder: [ffmpeg] FFmpeg's libavcodec codec family
INFO: libavcodec init OK!
Selected video codec: [ffodivx] vfm: ffmpeg (FFmpeg MPEG-4)
==========================================================================
==========================================================================
Opening audio decoder: [liba52] AC3 decoding with liba52
dec_audio: Allocating 3840 bytes for input buffer.
dec_audio: Allocating 6144 + 65536 = 71680 bytes for output buffer.
Using AltiVec optimized IMDCT transform
AC3: 2.0 (stereo) 48000 Hz 192.0 kbit/s
A52 flags before a52_frame: 0x2A
A52 flags after a52_frame: 0x2
Checking for AltiVec resampler : 0x00000002, 2
Using AltiVec optimized resampler
AUDIO: 48000 Hz, 2 ch, s16be, 192.0 kbit/12.50% (ratio: 24000->192000)
Selected audio codec: [a52] afm: liba52 (AC3-liba52)
==========================================================================
Building audio filter chain for 48000Hz/2ch/s16be -> 0Hz/0ch/??...
[libaf] Adding filter dummy
[dummy] Was reinitialized: 48000Hz/2ch/s16be
[dummy] Was reinitialized: 48000Hz/2ch/s16be
AO: [macosx] source: 48000.0Hz 16bit [lpcm] int BE S packed
Reading symbols for shared libraries . done
Reading symbols for shared libraries . done
AO: [macosx] using 47 chunks of 4096 bytes (buffer len 196608 bytes)
AO: [macosx] 48000Hz 2ch s16be (2 bytes per sample)
AO: Description: Darwin/Mac OS X native audio output
AO: Author: Timothy J. Wood & Dan Christiansen & Chris Roccati
Building audio filter chain for 48000Hz/2ch/s16be -> 48000Hz/2ch/s16be...
[dummy] Was reinitialized: 48000Hz/2ch/s16be
[dummy] Was reinitialized: 48000Hz/2ch/s16be
Starting playback...
XXX initial v_pts=0.000 a_pos=3744 (0.156)
[ffmpeg] aspect_ratio: 1.776650
VDec: vo config request - 700 x 394 (preferred colorspace: Planar YV12)
Trying filter chain: eq vo
VDec: using Planar YV12 as output csp (no 0)
Movie-Aspect is 1.78:1 - prescaling to correct movie aspect.
VO Config (700x394->700x394,flags=1,'MPlayer',0x32315659)
REQ: flags=0x435 req=0x0
VO: [quartz] 700x394 => 700x394 Planar YV12 [fs]
VO: Description: Mac OSX (Quartz)
VO: Author: Nicolas Plourde <nicolasplourde at hotmail.com>, Romain Dolbeau <romain at dolbeau.org>
Reading symbols for shared libraries + done
Reading symbols for shared libraries + done
Reading symbols for shared libraries + done
Reading symbols for shared libraries + done
Reading symbols for shared libraries + done
*** [eq] Allocating mp_image_t, 704x400x12bpp YUV planar, 422400 bytes
*** [eq] Allocating mp_image_t, 704x400x12bpp YUV planar, 422400 bytes
*** [vo] Exporting mp_image_t, 700x394x12bpp YUV planar, 413700 bytes
get_path('subfont.ttf') -> '/Users/compn/.mplayer/subfont.ttf'
Unicode font: 615 glyphs.
*** [eq] Allocating mp_image_t, 704x400x12bpp YUV planar, 422400 bytes
A: 2.1 V: 1.8 A-V: 0.301 ct: 0.006 46/ 46 82% 19% 6.0% 42 0 5%
Program received signal EXC_BAD_ACCESS, Could not access memory.
Reason: KERN_INVALID_ADDRESS at address: 0x04edfd60
put_h264_qpel8_mc03_c (dst=0x39db000 "\020\020\020\021\021\021\021\021\021\021\022\022\023\023\021\022", src=0x4edfd60 <Address 0x4edfd60 out of bounds>, stride=704) at dsputil.h:713
713 ST32(dst , LD32(src ));
(gdb) bt
#0 avg_h264_qpel8_mc01_c (dst=0x3934000 "¡¡¡¡ \237\236\236\236", src=0x4e15bb0 <Address 0x4e15bb0 out of bounds>, stride=704) at dsputil.h:713
#1 0x0022e7d0 in MPV_motion (s=0x2815800, dest_y=0x3934000 "¡¡¡¡ \237\236\236\236", dest_cb=0x3936c00 "\200\200\200\200\200\200\200\200", dest_cr=0x3939800 "\200\200\200\200\200\200\200\200", dir=0, ref_picture=0x2815a80, pix_op=0x281624c, qpix_op=0x28168b0) at mpegvideo.c:3596
#2 0x002258fc in MPV_decode_mb (s=0x2815800, block=0x28eee00) at mpegvideo.c:4016
#3 0x0021d0e8 in decode_slice (s=0x2815800) at h263dec.c:240
#4 0x0021e214 in ff_h263_decode_frame (avctx=0x2815400, data=0x3119fa0, data_size=0xbfffe510, buf=0x31525d0 "", buf_size=6) at h263dec.c:730
#5 0x0019a4ac in avcodec_decode_video (avctx=0x2815400, picture=0x3119fa0, got_picture_ptr=0xbfffe510, buf=0x31525d0 "", buf_size=6) at utils.c:902
#6 0x0004cc44 in decode (sh=0x31121d0, data=0x31525d0, len=6, flags=0) at vd_ffmpeg.c:784
#7 0x0004a8d4 in decode_video (sh_video=0x31121d0, start=0x31525d0 "", in_size=6, drop_frame=0, pts=5.3010521793496556e-315) at dec_video.c:370
#8 0x00007580 in png_decompress_chunk () at mplayer.c:2040
#9 0x0000a670 in png_handle_oFFs () at mplayer.c:3383
(gdb) disass $pc-32 $pc+32
Dump of assembler code from 0x1bf570 to 0x1bf5b0:
0x001bf570 <avg_h264_qpel8_mc01_c+32>: stw r28,-16(r1)
0x001bf574 <avg_h264_qpel8_mc01_c+36>: subf r4,r0,r4
0x001bf578 <avg_h264_qpel8_mc01_c+40>: li r0,13
0x001bf57c <avg_h264_qpel8_mc01_c+44>: stwu r1,-256(r1)
0x001bf580 <avg_h264_qpel8_mc01_c+48>: mtctr r0
0x001bf584 <avg_h264_qpel8_mc01_c+52>: addi r29,r1,80
0x001bf588 <avg_h264_qpel8_mc01_c+56>: addi r9,r1,64
0x001bf58c <avg_h264_qpel8_mc01_c+60>: nop
0x001bf590 <avg_h264_qpel8_mc01_c+64>: lwz r0,0(r4)
0x001bf594 <avg_h264_qpel8_mc01_c+68>: stw r0,0(r9)
0x001bf598 <avg_h264_qpel8_mc01_c+72>: lwz r2,4(r4)
0x001bf59c <avg_h264_qpel8_mc01_c+76>: add r4,r4,r31
0x001bf5a0 <avg_h264_qpel8_mc01_c+80>: stw r2,4(r9)
0x001bf5a4 <avg_h264_qpel8_mc01_c+84>: addi r9,r9,8
0x001bf5a8 <avg_h264_qpel8_mc01_c+88>: bdnz+ 0x1bf590 <avg_h264_qpel8_mc01_c+64>
0x001bf5ac <avg_h264_qpel8_mc01_c+92>: addi r28,r1,176
End of assembler dump.
(gdb) info all-registers
r0 0xd 13
r1 0xbfffe040 3221217344
r2 0x28168c0 42035392
r3 0x3934000 59981824
r4 0x4e15bb0 81877936
r5 0x2c0 704
r6 0x1 1
r7 0x0 0
r8 0x130 304
r9 0xbfffe080 3221217408
r10 0x2c0 704
r11 0x0 0
r12 0x1bf550 1832272
r13 0x3934000 59981824
r14 0x0 0
r15 0x26 38
r16 0x2815a80 42031744
r17 0x0 0
r18 0x0 0
r19 0x3939800 60004352
r20 0x1 1
r21 0x3934000 59981824
r22 0x1600 5632
r23 0x28168b0 42035376
r24 0x20 32
r25 0x0 0
r26 0x2c0 704
r27 0x0 0
r28 0x4 4
r29 0xbfffe090 3221217424
r30 0x3934000 59981824
r31 0x2c0 704
f0 394 (raw 0x4078a00000000000)
f1 2147483648 (raw 0x41e0000000000000)
f2 0 (raw 0x0000000000000000)
f3 0 (raw 0x0000000000000000)
f4 9559048 (raw 0x41623b8100000000)
f5 0.28812313511360932 (raw 0x3fd2709c04a22c18)
f6 -nan(0x800000004657b) (raw 0xfff800000004657b)
f7 0 (raw 0x0000000000000000)
f8 700 (raw 0x4085e00000000000)
f9 0.023271426558494568 (raw 0x3f97d47700000000)
f10 0.70710676908493042 (raw 0x3fe6a09e60000000)
f11 4503601774854144 (raw 0x4330000080000000)
f12 1.7766497461928934 (raw 0x3ffc6d2848c585d9)
f13 700 (raw 0x4085e00000000000)
f14 -238423838475.15292 (raw 0xc24bc19587859393)
f15 -238423838475.15292 (raw 0xc24bc19587859393)
f16 -238423838475.15292 (raw 0xc24bc19587859393)
f17 -238423838475.15292 (raw 0xc24bc19587859393)
f18 -238423838475.15292 (raw 0xc24bc19587859393)
f19 -238423838475.15292 (raw 0xc24bc19587859393)
f20 -238423838475.15292 (raw 0xc24bc19587859393)
f21 -238423838475.15292 (raw 0xc24bc19587859393)
f22 -238423838475.15292 (raw 0xc24bc19587859393)
f23 -238423838475.15292 (raw 0xc24bc19587859393)
f24 -238423838475.15292 (raw 0xc24bc19587859393)
f25 -238423838475.15292 (raw 0xc24bc19587859393)
f26 -238423838475.15292 (raw 0xc24bc19587859393)
f27 -238423838475.15292 (raw 0xc24bc19587859393)
f28 -238423838475.15292 (raw 0xc24bc19587859393)
f29 -238423838475.15292 (raw 0xc24bc19587859393)
f30 -238423838475.15292 (raw 0xc24bc19587859393)
f31 1.2400000095367432 (raw 0x3ff3d70a40000000)
v0 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v1 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v2 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v3 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v4 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v5 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v6 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v7 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v8 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v9 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v10 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v11 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v12 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v13 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v14 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v15 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v16 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v17 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v18 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v19 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v20 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v21 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v22 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v23 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v24 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v25 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v26 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v27 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v28 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v29 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v30 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
v31 {
uint128 = 0x7fffdead7fffdead7fffdead7fffdead,
v4_float = {nan(0x7fdead), nan(0x7fdead), nan(0x7fdead), nan(0x7fdead)},
v4_int32 = {2147475117, 2147475117, 2147475117, 2147475117},
v8_int16 = {32767, -8531, 32767, -8531, 32767, -8531, 32767, -8531},
v16_int8 = "\177ÿÞ\177ÿÞ\177ÿÞ\177ÿÞ"
} (raw 0x7fffdead7fffdead7fffdead7fffdead)
pc 0x1bf590 1832336
ps 0x200f930 33618224
cr 0x44002428 1140859944
lr 0x22e7d0 2287568
ctr 0xd 13
xer 0x4 4
mq 0x0 0
fpscr 0xa3024000 2734833664
vscr 0x10001 65537
vrsave 0x0 0
(gdb)
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