ffmpeg/tests/fate-run.sh
Andreas Rheinhardt 8d5db120c2 tests/fate-run: Ensure that THREADS=random is actually random
From the documentation of GNU awk [1]:
"In most awk implementations, including gawk, rand() starts generating
numbers from the same starting number, or seed, each time you run awk.45
Thus, a program generates the same results each time you run it. The
numbers are random within one awk run but predictable from run to run.
This is convenient for debugging, but if you want a program to do
different things each time it is used, you must change the seed to a
value that is different in each run. To do this, use srand()."

This commit does exactly this.

[1]: https://www.gnu.org/software/gawk/manual/html_node/Numeric-Functions.html#index-rand_0028_0029-function

Signed-off-by: Andreas Rheinhardt <andreas.rheinhardt@outlook.com>
2023-09-25 22:02:24 +02:00

666 lines
21 KiB
Bash
Executable File

#! /bin/sh
export LC_ALL=C
base=$(dirname $0)
. "${base}/md5.sh"
base64=tests/base64${HOSTEXECSUF}
test="${1#fate-}"
target_samples=$2
target_exec=$3
target_path=$4
command=$5
cmp=${6:-diff}
ref=${7:-"${base}/ref/fate/${test}"}
fuzz=${8:-1}
threads=${9:-1}
thread_type=${10:-frame+slice}
cpuflags=${11:-all}
cmp_shift=${12:-0}
cmp_target=${13:-0}
size_tolerance=${14:-0}
cmp_unit=${15:-2}
gen=${16:-no}
hwaccel=${17:-none}
report_type=${18:-standard}
keep=${19:-0}
outdir="tests/data/fate"
outfile="${outdir}/${test}"
errfile="${outdir}/${test}.err"
cmpfile="${outdir}/${test}.diff"
repfile="${outdir}/${test}.rep"
case $threads in
random*)
threads_max=${threads#random}
[ -z "$threads_max" ] && threads_max=16
threads=$(awk "BEGIN { srand(); print 1+int(rand() * $threads_max) }" < /dev/null)
;;
esac
target_path(){
test ${1} = ${1#/} && p=${target_path}/
echo ${p}${1}
}
# $1=value1, $2=value2, $3=threshold
# prints 0 if absolute difference between value1 and value2 is <= threshold
compare(){
awk "BEGIN { v = $1 - $2; printf ((v < 0 ? -v : v) > $3) }"
}
do_tiny_psnr(){
psnr=$(tests/tiny_psnr${HOSTEXECSUF} "$1" "$2" $cmp_unit $cmp_shift 0) || return 1
val=$(expr "$psnr" : ".*$3: *\([0-9.]*\)")
size1=$(expr "$psnr" : '.*bytes: *\([0-9]*\)')
size2=$(expr "$psnr" : '.*bytes:[ 0-9]*/ *\([0-9]*\)')
val_cmp=$(compare $val $cmp_target $fuzz)
size_cmp=$(compare $size1 $size2 $size_tolerance)
if [ "$val_cmp" != 0 ] || [ "$size_cmp" != 0 ]; then
echo "$psnr"
if [ "$val_cmp" != 0 ]; then
echo "$3: |$val - $cmp_target| >= $fuzz"
fi
if [ "$size_cmp" != 0 ]; then
echo "size: |$size1 - $size2| >= $size_tolerance"
fi
return 1
fi
}
oneoff(){
do_tiny_psnr "$1" "$2" MAXDIFF
}
stddev(){
do_tiny_psnr "$1" "$2" stddev
}
oneline(){
printf '%s\n' "$1" | diff -u -b - "$2"
}
run(){
test "${V:-0}" -gt 0 && echo "$target_exec" $target_path/"$@" >&3
$target_exec $target_path/"$@"
}
runecho(){
test "${V:-0}" -gt 0 && echo "$target_exec" $target_path/"$@" >&3
$target_exec $target_path/"$@" >&3
}
probefmt(){
run ffprobe${PROGSUF}${EXECSUF} -bitexact -show_entries format=format_name -print_format default=nw=1:nk=1 "$@"
}
probeaudiostream(){
run ffprobe${PROGSUF}${EXECSUF} -bitexact -show_entries stream=codec_name,codec_time_base,sample_fmt,channels,channel_layout:side_data "$@"
}
probetags(){
run ffprobe${PROGSUF}${EXECSUF} -bitexact -show_entries format_tags "$@"
}
runlocal(){
test "${V:-0}" -gt 0 && echo ${base}/"$@" ${base} >&3
${base}/"$@" ${base}
}
probeframes(){
run ffprobe${PROGSUF}${EXECSUF} -bitexact -show_frames "$@"
}
probechapters(){
run ffprobe${PROGSUF}${EXECSUF} -bitexact -show_chapters "$@"
}
probegaplessinfo(){
filename="$1"
shift
run ffprobe${PROGSUF}${EXECSUF} -bitexact -select_streams a -show_entries format=start_time,duration:stream=index,start_pts,duration_ts "$filename" "$@"
pktfile1="${outdir}/${test}.pkts"
framefile1="${outdir}/${test}.frames"
cleanfiles="$cleanfiles $pktfile1 $framefile1"
run ffprobe${PROGSUF}${EXECSUF} -bitexact -select_streams a -of compact -count_packets -show_entries packet=pts,dts,duration,flags:stream=nb_read_packets "$filename" "$@" > "$pktfile1"
head -n 8 "$pktfile1"
tail -n 9 "$pktfile1"
run ffprobe${PROGSUF}${EXECSUF} -bitexact -select_streams a -of compact -count_frames -show_entries frame=pts,pkt_dts,best_effort_timestamp,pkt_duration,nb_samples:stream=nb_read_frames "$filename" "$@" > "$framefile1"
head -n 8 "$framefile1"
tail -n 9 "$framefile1"
}
ffmpeg(){
dec_opts="-hwaccel $hwaccel -threads $threads -thread_type $thread_type"
ffmpeg_args="-nostdin -nostats -noauto_conversion_filters -cpuflags $cpuflags"
for arg in $@; do
[ x${arg} = x-i ] && ffmpeg_args="${ffmpeg_args} ${dec_opts}"
ffmpeg_args="${ffmpeg_args} ${arg}"
done
run ffmpeg${PROGSUF}${EXECSUF} ${ffmpeg_args}
}
ffprobe_demux(){
filename=$1
shift
print_filename=$(basename "$filename")
run ffprobe${PROGSUF}${EXECSUF} -print_filename "${print_filename}" \
-of compact -bitexact -show_format -show_streams -show_packets \
-show_data_hash CRC32 "$filename" "$@"
}
framecrc(){
ffmpeg "$@" -bitexact -f framecrc -
}
ffmetadata(){
ffmpeg "$@" -bitexact -f ffmetadata -
}
framemd5(){
ffmpeg "$@" -bitexact -f framemd5 -
}
crc(){
ffmpeg "$@" -f crc -
}
md5pipe(){
ffmpeg "$@" md5:
}
md5(){
encfile="${outdir}/${test}.out"
cleanfiles="$cleanfiles $encfile"
ffmpeg -y "$@" $(target_path $encfile) || return
do_md5sum $encfile | awk '{print $1}'
}
pcm(){
ffmpeg -auto_conversion_filters "$@" -vn -f s16le -
}
fmtstdout(){
fmt=$1
shift 1
ffmpeg -bitexact "$@" -bitexact -f $fmt -
}
enc_dec_pcm(){
out_fmt=$1
dec_fmt=$2
pcm_fmt=$3
src_file=$(target_path $4)
shift 4
encfile="${outdir}/${test}.${out_fmt}"
cleanfiles=$encfile
encfile=$(target_path ${encfile})
ffmpeg -auto_conversion_filters -i $src_file "$@" -f $out_fmt -y ${encfile} || return
ffmpeg -auto_conversion_filters -bitexact -i ${encfile} -c:a pcm_${pcm_fmt} -fflags +bitexact -f ${dec_fmt} -
}
FLAGS="-flags +bitexact -sws_flags +accurate_rnd+bitexact -fflags +bitexact"
DEC_OPTS="-threads $threads -thread_type $thread_type -idct simple $FLAGS"
ENC_OPTS="-threads 1 -idct simple -dct fastint"
enc_dec(){
enc_fmt_in=$1
srcfile=$2
enc_fmt_out=$3
enc_opt_out=$4
dec_fmt_out=$5
dec_opt_out=$6
dec_opt_in=$7
ffprobe_opts=$8
twopass=$9
encfile="${outdir}/${test}.${enc_fmt_out}"
decfile="${outdir}/${test}.out.${dec_fmt_out}"
cleanfiles="$cleanfiles $decfile"
test "$keep" -ge 1 || cleanfiles="$cleanfiles $encfile"
tsrcfile=$(target_path $srcfile)
tencfile=$(target_path $encfile)
tdecfile=$(target_path $decfile)
if [ -n "$twopass" ]; then
logfile_prefix="${outdir}/${test}.pass1"
cleanfiles="$cleanfiles ${logfile_prefix}-0.log"
tlogfile_prefix=$(target_path $logfile_prefix)
ffmpeg -auto_conversion_filters -f $enc_fmt_in $DEC_OPTS -i $tsrcfile \
$ENC_OPTS $enc_opt_out $FLAGS -pass 1 -passlogfile $tlogfile_prefix \
-f $enc_fmt_out -y $tencfile || return
enc_opt_out="$enc_opt_out -pass 2 -passlogfile $tlogfile_prefix"
fi
ffmpeg -auto_conversion_filters -f $enc_fmt_in $DEC_OPTS -i $tsrcfile $ENC_OPTS $enc_opt_out $FLAGS \
-f $enc_fmt_out -y $tencfile || return
do_md5sum $encfile
echo $(wc -c $encfile)
ffmpeg -auto_conversion_filters $dec_opt_in $DEC_OPTS -i $tencfile $ENC_OPTS $dec_opt_out $FLAGS \
-f $dec_fmt_out -y $tdecfile || return
do_md5sum $decfile
tests/tiny_psnr${HOSTEXECSUF} $srcfile $decfile $cmp_unit $cmp_shift
test -z $ffprobe_opts || \
run ffprobe${PROGSUF}${EXECSUF} -bitexact $ffprobe_opts $tencfile || return
}
transcode(){
src_fmt=$1
srcfile=$2
enc_fmt=$3
enc_opt=$4
final_encode=$5
ffprobe_opts=$6
additional_input=$7
final_decode=$8
enc_opt_in=$9
test -z "$additional_input" || additional_input="$DEC_OPTS $additional_input"
encfile="${outdir}/${test}.${enc_fmt}"
test $keep -ge 1 || cleanfiles="$cleanfiles $encfile"
tsrcfile=$(target_path $srcfile)
tencfile=$(target_path $encfile)
ffmpeg -f $src_fmt $DEC_OPTS $enc_opt_in -i $tsrcfile $additional_input \
$ENC_OPTS $enc_opt $FLAGS -f $enc_fmt -y $tencfile || return
do_md5sum $encfile
echo $(wc -c $encfile)
ffmpeg $DEC_OPTS $final_decode -i $tencfile $ENC_OPTS $FLAGS $final_encode \
-f framecrc - || return
test -z $ffprobe_opts || \
run ffprobe${PROGSUF}${EXECSUF} -bitexact $ffprobe_opts $tencfile || return
}
stream_remux(){
src_fmt=$1
srcfile=$2
src_opts=$3
enc_fmt=$4
stream_maps=$5
final_decode=$6
ffprobe_opts=$7
encfile="${outdir}/${test}.${enc_fmt}"
test $keep -ge 1 || cleanfiles="$cleanfiles $encfile"
tsrcfile=$(target_path $srcfile)
tencfile=$(target_path $encfile)
ffmpeg -f $src_fmt $src_opts -i $tsrcfile $stream_maps -codec copy $FLAGS \
-f $enc_fmt -y $tencfile || return
ffmpeg $DEC_OPTS -i $tencfile $ENC_OPTS $FLAGS $final_decode \
-f framecrc - || return
test -z $ffprobe_opts || \
run ffprobe${PROGSUF}${EXECSUF} -bitexact $ffprobe_opts $tencfile || return
}
# this function is for testing external encoders,
# where the precise output is not controlled by us
# we can still test e.g. that the output can be decoded correctly
enc_external(){
srcfile=$1
enc_fmt=$2
enc_opt=$3
probe_opt=$4
srcfile=$(target_path $srcfile)
encfile=$(target_path "${outdir}/${test}.${enc_fmt}")
ffmpeg -i $srcfile $enc_opt -f $enc_fmt -y $encfile || return
run ffprobe${PROGSUF}${EXECSUF} -bitexact $probe_opt $encfile || return
}
# FIXME: There is a certain duplication between the avconv-related helper
# functions above and below that should be refactored.
ffmpeg2="$target_exec ${target_path}/ffmpeg${PROGSUF}${EXECSUF}"
raw_src="${target_path}/tests/vsynth1/%02d.pgm"
pcm_src="${target_path}/tests/data/asynth1.sw"
[ "${V-0}" -gt 0 ] && echov=echov || echov=:
echov(){
echo "$@" >&3
}
AVCONV_OPTS="-nostdin -nostats -noauto_conversion_filters -y -cpuflags $cpuflags -filter_threads $threads"
COMMON_OPTS="-flags +bitexact -idct simple -sws_flags +accurate_rnd+bitexact -fflags +bitexact"
DEC_OPTS="$COMMON_OPTS -threads $threads"
ENC_OPTS="$COMMON_OPTS -threads 1 -dct fastint"
run_avconv(){
$echov $ffmpeg2 $AVCONV_OPTS $*
$ffmpeg2 $AVCONV_OPTS $*
}
do_avconv(){
f="$1"
shift
set -- $* ${target_path}/$f
run_avconv $*
do_md5sum $f
echo $(wc -c $f)
}
do_avconv_crc(){
f="$1"
shift
printf "%s " "$f"
run_avconv $* -f crc -
}
lavf_audio(){
t="${test#lavf-}"
outdir="tests/data/lavf"
file=${outdir}/lavf.$t
test "$keep" -ge 1 || cleanfiles="$cleanfiles $file"
do_avconv $file -auto_conversion_filters $DEC_OPTS $1 -ar 44100 -f s16le -i $pcm_src "$ENC_OPTS -metadata title=lavftest" -t 1 -qscale 10 $2
test "$4" = "disable_crc" ||
do_avconv_crc $file -auto_conversion_filters $DEC_OPTS $3 -i $target_path/$file
}
lavf_container(){
t="${test#lavf-}"
outdir="tests/data/lavf"
file=${outdir}/lavf.$t
test "$keep" -ge 1 || cleanfiles="$cleanfiles $file"
do_avconv $file -auto_conversion_filters $DEC_OPTS -f image2 -c:v pgmyuv -i $raw_src $DEC_OPTS -ar 44100 -f s16le $1 -i $pcm_src "$ENC_OPTS -metadata title=lavftest" -b:a 64k -t 1 -qscale:v 10 $2
test "$3" = "disable_crc" ||
do_avconv_crc $file -auto_conversion_filters $DEC_OPTS -i $target_path/$file $3
}
lavf_container_attach() { lavf_container "" "$1 -attach ${raw_src%/*}/00.pgm -metadata:s:t mimetype=image/x-portable-greymap"; }
lavf_container_timecode_nodrop() { lavf_container "" "$1 -timecode 02:56:14:13"; }
lavf_container_timecode_drop() { lavf_container "" "$1 -timecode 02:56:14.13 -r 30000/1001"; }
lavf_container_timecode()
{
lavf_container_timecode_nodrop "$@"
lavf_container_timecode_drop "$@"
lavf_container "" "$1"
}
lavf_container_fate()
{
t="${test#lavf-fate-}"
outdir="tests/data/lavf-fate"
file=${outdir}/lavf.$t
cleanfiles="$cleanfiles $file"
input="${target_samples}/$1"
do_avconv $file -auto_conversion_filters $DEC_OPTS $2 -i "$input" "$ENC_OPTS -metadata title=lavftest" -vcodec copy -acodec copy
do_avconv_crc $file -auto_conversion_filters $DEC_OPTS -i $target_path/$file $3
}
lavf_image(){
no_file_checksums="$3"
nb_frames=13
t="${test#lavf-}"
outdir="tests/data/images/$t"
mkdir -p "$outdir"
file=${outdir}/%02d.$t
if [ "$keep" -lt 1 ]; then
for i in `seq $nb_frames`; do
filename=`printf "$file" $i`
cleanfiles="$cleanfiles $filename"
done
fi
run_avconv $DEC_OPTS -f image2 -c:v pgmyuv -i $raw_src $1 "$ENC_OPTS -metadata title=lavftest" -vf scale -frames $nb_frames -y -qscale 10 $target_path/$file
if [ -z "$no_file_checksums" ]; then
do_md5sum ${outdir}/02.$t
echo $(wc -c ${outdir}/02.$t)
fi
do_avconv_crc $file -auto_conversion_filters $DEC_OPTS $2 -i $target_path/$file $2
}
lavf_image2pipe(){
t="${test#lavf-}"
t="${t%pipe}"
outdir="tests/data/lavf"
file=${outdir}/${t}pipe.$t
do_avconv $file -auto_conversion_filters $DEC_OPTS -f image2 -c:v pgmyuv -i $raw_src -f image2pipe "$ENC_OPTS -metadata title=lavftest" -t 1 -qscale 10
do_avconv_crc $file -auto_conversion_filters $DEC_OPTS -f image2pipe -i $target_path/$file
}
lavf_video(){
t="${test#lavf-}"
outdir="tests/data/lavf"
file=${outdir}/lavf.$t
test "$keep" -ge 1 || cleanfiles="$cleanfiles $file"
do_avconv $file -auto_conversion_filters $DEC_OPTS -f image2 -c:v pgmyuv -i $raw_src "$ENC_OPTS -metadata title=lavftest" -t 1 -qscale 10 $1 $2
do_avconv_crc $file -auto_conversion_filters $DEC_OPTS -i $target_path/$file $1
}
refcmp_metadata(){
refcmp=$1
pixfmt=$2
fuzz=${3:-0.001}
ffmpeg -auto_conversion_filters $FLAGS $ENC_OPTS \
-lavfi "testsrc2=size=300x200:rate=1:duration=5,format=${pixfmt},split[ref][tmp];[tmp]avgblur=4[enc];[enc][ref]${refcmp},metadata=print:file=-" \
-f null /dev/null | awk -v ref=${ref} -v fuzz=${fuzz} -f ${base}/refcmp-metadata.awk -
}
cmp_metadata(){
refcmp=$1
pixfmt=$2
fuzz=${3:-0.001}
ffmpeg $FLAGS $ENC_OPTS \
-lavfi "testsrc2=size=300x200:rate=1:duration=5,format=${pixfmt},${refcmp},metadata=print:file=-" \
-f null /dev/null | awk -v ref=${ref} -v fuzz=${fuzz} -f ${base}/refcmp-metadata.awk -
}
refcmp_metadata_files(){
file1=$1
file2=$2
refcmp=$3
pixfmt=$4
fuzz=${5:-0.001}
ffmpeg -auto_conversion_filters $FLAGS -i $file1 $FLAGS -i $file2 $ENC_OPTS \
-lavfi "[0:v]format=${pixfmt}[v0];[1:v]format=${pixfmt}[v1];[v0][v1]${refcmp},metadata=print:file=-" \
-f null /dev/null | awk -v ref=${ref} -v fuzz=${fuzz} -f ${base}/refcmp-metadata.awk -
}
refcmp_metadata_transcode(){
srcfile=$1
enc_opt=$2
enc_fmt=$3
enc_ext=$4
shift 4
encfile="${outdir}/${test}.${enc_ext}"
cleanfiles="$cleanfiles $encfile"
tsrcfile=$(target_path $srcfile)
tencfile=$(target_path $encfile)
ffmpeg $DEC_OPTS -i $tsrcfile $ENC_OPTS $enc_opt $FLAGS -y -f $enc_fmt $tencfile || return
refcmp_metadata_files $tencfile $tsrcfile "$@"
}
pixfmt_conversion(){
conversion="${test#pixfmt-}"
outdir="tests/data/pixfmt"
raw_dst="$outdir/$conversion.out.yuv"
file=${outdir}/${conversion}.yuv
cleanfiles="$cleanfiles $raw_dst $file"
run_avconv $DEC_OPTS -r 1 -f image2 -c:v pgmyuv -i $raw_src \
$ENC_OPTS -f rawvideo -t 1 -s 352x288 -pix_fmt $conversion $target_path/$raw_dst
do_avconv $file $DEC_OPTS -f rawvideo -s 352x288 -pix_fmt $conversion -i $target_path/$raw_dst \
$ENC_OPTS -f rawvideo -s 352x288 -pix_fmt yuv444p
}
video_filter(){
filters=$1
shift
label=${test#filter-}
raw_src="${target_path}/tests/vsynth1/%02d.pgm"
printf '%-20s' $label
ffmpeg $DEC_OPTS -f image2 -vcodec pgmyuv -i $raw_src \
$FLAGS $ENC_OPTS -vf "$filters" -vcodec rawvideo -frames:v 5 $* -f nut md5:
}
pixfmts(){
filter=${test#filter-pixfmts-}
filter=${filter%_*}
filter_args=$1
prefilter_chain=$2
nframes=${3:-1}
showfiltfmts="$target_exec $target_path/libavfilter/tests/filtfmts${EXECSUF}"
scale_exclude_fmts=${outfile}_scale_exclude_fmts
scale_in_fmts=${outfile}_scale_in_fmts
scale_out_fmts=${outfile}_scale_out_fmts
in_fmts=${outfile}_in_fmts
# exclude pixel formats which are not supported as input
$showfiltfmts scale | awk -F '[ \r]' '/^INPUT/{ fmt=substr($3, 5); print fmt }' | sort >$scale_in_fmts
$showfiltfmts scale | awk -F '[ \r]' '/^OUTPUT/{ fmt=substr($3, 5); print fmt }' | sort >$scale_out_fmts
comm -12 $scale_in_fmts $scale_out_fmts >$scale_exclude_fmts
$showfiltfmts $filter | awk -F '[ \r]' '/^INPUT/{ fmt=substr($3, 5); print fmt }' | sort >$in_fmts
pix_fmts=$(comm -12 $scale_exclude_fmts $in_fmts)
outertest=$test
for pix_fmt in $pix_fmts; do
test=$pix_fmt
video_filter "${prefilter_chain}scale,format=$pix_fmt,$filter=$filter_args" -pix_fmt $pix_fmt -frames:v $nframes
done
rm $in_fmts $scale_in_fmts $scale_out_fmts $scale_exclude_fmts
test=$outertest
}
gapless(){
sample=$(target_path $1)
extra_args=$2
decfile1="${outdir}/${test}.out-1"
decfile2="${outdir}/${test}.out-2"
decfile3="${outdir}/${test}.out-3"
cleanfiles="$cleanfiles $decfile1 $decfile2 $decfile3"
# test packet data
ffmpeg -auto_conversion_filters $extra_args -i "$sample" -bitexact -c:a copy -f framecrc -y $(target_path $decfile1)
do_md5sum $decfile1
# test decoded (and cut) data
ffmpeg -auto_conversion_filters $extra_args -i "$sample" -bitexact -f wav md5:
# the same as above again, with seeking to the start
ffmpeg -auto_conversion_filters $extra_args -ss 0 -seek_timestamp 1 -i "$sample" -bitexact -c:a copy -f framecrc -y $(target_path $decfile2)
do_md5sum $decfile2
ffmpeg -auto_conversion_filters $extra_args -ss 0 -seek_timestamp 1 -i "$sample" -bitexact -f wav md5:
# test packet data, with seeking to a specific position
ffmpeg -auto_conversion_filters $extra_args -ss 5 -seek_timestamp 1 -i "$sample" -bitexact -c:a copy -f framecrc -y $(target_path $decfile3)
do_md5sum $decfile3
}
gaplessenc(){
sample=$(target_path $1)
format=$2
codec=$3
file1="${outdir}/${test}.out-1"
cleanfiles="$cleanfiles $file1"
# test data after reencoding
ffmpeg -i "$sample" -bitexact -map 0:a -c:a $codec -af aresample -f $format -y "$(target_path "$file1")"
probegaplessinfo "$(target_path "$file1")"
}
audio_match(){
sample=$(target_path $1)
trefile=$2
extra_args=$3
decfile="${outdir}/${test}.wav"
cleanfiles="$cleanfiles $decfile"
ffmpeg -auto_conversion_filters -i "$sample" -bitexact $extra_args -y $(target_path $decfile)
tests/audiomatch${HOSTEXECSUF} $decfile $trefile
}
concat(){
template=$1
sample=$2
mode=$3
extra_args=$4
concatfile="${outdir}/${test}.ffconcat"
packetfile="${outdir}/${test}.ffprobe"
cleanfiles="$concatfile $packetfile"
awk "{gsub(/%SRCFILE%/, \"$sample\"); print}" $template > $concatfile
if [ "$mode" = "md5" ]; then
run ffprobe${PROGSUF}${EXECSUF} -bitexact -show_streams -show_packets -safe 0 $extra_args $(target_path $concatfile) | tr -d '\r' > $packetfile
do_md5sum $packetfile
else
run ffprobe${PROGSUF}${EXECSUF} -bitexact -show_streams -show_packets -of compact=p=0:nk=1 -safe 0 $extra_args $(target_path $concatfile)
fi
}
venc_data(){
file=$1
stream=$2
frames=$3
run tools/venc_data_dump${EXECSUF} ${file} ${stream} ${frames} ${threads} ${thread_type}
}
null(){
:
}
# Disable globbing: command arguments may contain globbing characters and
# must be kept verbatim
set -f
exec 3>&2
eval $command >"$outfile" 2>$errfile
err=$?
if [ $err -gt 128 ]; then
sig=$(kill -l $err 2>/dev/null)
test "${sig}" = "${sig%[!A-Za-z]*}" || unset sig
fi
if test -e "$ref" || test $cmp = "oneline" || test $cmp = "null" || test $cmp = "grep" ; then
case $cmp in
diff) diff -u -b "$ref" "$outfile" >$cmpfile ;;
rawdiff)diff -u "$ref" "$outfile" >$cmpfile ;;
oneoff) oneoff "$ref" "$outfile" >$cmpfile ;;
stddev) stddev "$ref" "$outfile" >$cmpfile ;;
oneline)oneline "$ref" "$outfile" >$cmpfile ;;
grep) grep "$ref" "$errfile" >$cmpfile ;;
null) cat "$outfile" >$cmpfile ;;
esac
cmperr=$?
test $err = 0 && err=$cmperr
if [ "$report_type" = "ignore" ]; then
test $err = 0 || echo "IGNORE\t${test}" && err=0 && unset sig
else
test $err = 0 || cat $cmpfile
fi
else
echo "reference file '$ref' not found"
err=1
fi
if [ $err -eq 0 ] && test $report_type = "standard" ; then
unset cmpo erro
else
echo "threads=$threads" >> "$errfile"
cmpo="$($base64 <$cmpfile)"
erro="$($base64 <$errfile)"
fi
echo "${test}:${sig:-$err}:$cmpo:$erro" >$repfile
if test $err != 0 && test $gen != "no" ; then
echo "GEN $ref"
cp -f "$outfile" "$ref"
err=$?
fi
if test $err = 0; then
if test $keep -lt 2; then
rm -f $outfile $errfile $cmpfile $cleanfiles
fi
elif test $gen = "no"; then
echo "Test $test failed. Look at $errfile for details."
test "${V:-0}" -gt 0 && cat $errfile
else
echo "Updating reference failed, possibly no output file was generated."
fi
exit $err