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#! /bin/sh
# PCP QA Test No. 482
# exercise pmlogsummary "-B" option (display value distribution in bins)
#
# Copyright (c) 1995-2002 Silicon Graphics, Inc. All Rights Reserved.
#
seq=`basename $0`
echo "QA output created by $seq"
# get standard filters
. ./common.product
. ./common.filter
status=1 # failure is the default!
trap "rm -f $tmp.*; exit \$status" 0 1 2 3 15
# usage: _xtract metric
_xtract()
{
pmdumplog -D1 src/binning $1 >$tmp.out 2>$tmp.err
cat $tmp.err $tmp.out \
| $PCP_AWK_PROG '
$1 == "pmResult" { state=1; time=$7; stamp=$6; next }
state == 1 && /\('"$1"'\)/ { state=2; next }
state == 2 { state=0; print time,stamp,$2; next }
NF==0 { state=0; next }' \
| LC_COLLATE=POSIX _POSIX2_VERSION=0 sort -u +1n -2
}
# usage: _filterbins nbins < pmlogsummary output (with args=-ymMB nbins)
_filterbins()
{
$PCP_AWK_PROG -v nbins=$1 '{
printf "(%d)\n", $5
for (i=0; i < nbins; i++)
printf " Bin%d = %d\n", i, $(7+(i*2))
}'
}
# usage: _dobinning nbins min max < values
_dobinning()
{
size=`echo "scale=10; ( $3 - $2 ) / $1" | bc`
#echo BINSIZE=$size NBINS=$1
$PCP_AWK_PROG -v nbins=$1 -v size=$size -v min=$2 '
{ for (i=0; i < nbins; i++) {
if ($1 >= (size*i) + min && $1 <= (size*(i+1))+min) {
#printf "%f is in bin %d\n", $1, i
bins[i]++
total++
}
#else
#printf "%f out of %f-%f\n", $1, (size*i)+min, (size*(i+1))+min
}
#printf "value is %f\n", $1
}
END { printf "(%d)\n", total
for (i=0; i < nbins; i++)
printf " Bin%d = %d\n", i, bins[i]
}'
}
_noncounter_values()
{
$PCP_AWK_PROG '{
printf "%f\n", $3
if (count == 0 || $3 > max) max = $3
if (count == 0 || $3 < min) min = $3
count++
next
}
END { printf "COUNT=%d MAX=%f MIN=%f\n", count, max, min }'
}
_counter_values()
{
$PCP_AWK_PROG '{
if (count > 0) {
value = (($3 - prevval)/($2 - prevtime))/1000.0
printf "%f\n", value
if (count == 1 || value > max) max = value
if (count == 1 || value < min) min = value
}
count++
prevval = $3
prevtime = $2
next
}
END { printf "COUNT=%d MAX=%f MIN=%f\n", count-1, max, min }'
}
# real QA test starts here
echo
echo "=== testing instanteous metric value distribution ==="
nbins=3
_xtract sample.scale_step.time_up_nanosecs | _noncounter_values > $tmp.noncount
eval `fgrep COUNT $tmp.noncount`
#echo count=$COUNT maximum=$MAX minimum=$MIN
$PCP_ECHO_PROG $PCP_ECHO_N "QA calculates: ""$PCP_ECHO_C"
fgrep -v COUNT $tmp.noncount | _dobinning $nbins $MIN $MAX
$PCP_ECHO_PROG $PCP_ECHO_N "pmlogsummary calculates: ""$PCP_ECHO_C"
pmlogsummary -ymMB $nbins src/binning sample.scale_step.time_up_nanosecs \
| _filterbins $nbins
echo
echo "=== testing counter metric value distribution ==="
nbins=4
_xtract sample.milliseconds | _counter_values > $tmp.count
eval `fgrep COUNT $tmp.count`
#echo count=$COUNT maximum=$MAX minimum=$MIN
$PCP_ECHO_PROG $PCP_ECHO_N "QA calculates: ""$PCP_ECHO_C"
fgrep -v COUNT $tmp.count | _dobinning $nbins $MIN $MAX
$PCP_ECHO_PROG $PCP_ECHO_N "pmlogsummary calculates: ""$PCP_ECHO_C"
pmlogsummary -ymMB $nbins src/binning | fgrep sample.milliseconds \
| _filterbins $nbins
# misc checks
echo
echo "=== testing boundary conditions ==="
pmlogsummary -B 1 src/binning >/dev/null 2>&1
[ $? -ne 0 ] && echo " urk - error test #1 failed!"
pmlogsummary -B 0 src/binning >/dev/null 2>&1
[ $? -ne 0 ] && echo " urk - error test #2 failed!"
pmlogsummary -B -7 src/binning >/dev/null 2>&1
[ $? -eq 0 ] && echo " urk - error test #3 failed!"
echo done.
echo
# success, all done
status=0
exit
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