#! /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_demux(){ src_fmt=$1 srcfile=$2 src_opts=$3 enc_opts=$4 ffprobe_opts=$5 tsrcfile=$(target_path $srcfile) ffmpeg $DEC_OPTS -f $src_fmt $src_opts -i $tsrcfile $ENC_OPTS $FLAGS $enc_opts \ -f framecrc - || return test -z "$ffprobe_opts" || \ run ffprobe${PROGSUF}${EXECSUF} -bitexact $ffprobe_opts $tsrcfile || 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 $* || return 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 || return 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 || return 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 || return 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 || return 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 || return 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 || return 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 || return 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 || return 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) || return do_md5sum $decfile1 # test decoded (and cut) data ffmpeg -auto_conversion_filters $extra_args -i "$sample" -bitexact -f wav md5: || return # 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) || return do_md5sum $decfile2 ffmpeg -auto_conversion_filters $extra_args -ss 0 -seek_timestamp 1 -i "$sample" \ -bitexact -f wav md5: || return # 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) || return 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 "$file1")" || return probegaplessinfo "$(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 $decfile) || return tests/audiomatch${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 $gen != "no" && test "${ref#tests/data/}" == "$ref" ; 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