pcp-testsuite 4.0.1-1 / var / lib / pcp / testsuite / 319

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#! /bin/sh
# PCP QA Test No. 319
# reworked AND and OR logic in the presence of unavailable results
#
# Copyright (c) 2007 Silicon Graphics, Inc.  All Rights Reserved.
#

seq=`basename $0`
echo "QA output created by $seq"

# get standard environment, filters and checks
. ./common.product
. ./common.filter
. ./common.check

status=0	# success is the default!
$sudo rm -rf $tmp.*
trap "rm -f $tmp.*; exit \$status" 0 1 2 3 15

# real QA test starts here
DEBUG='-Dappl1,appl2'
DEBUG=

# unknown metrics
# 1U - sample.noinst (PM_INDOM_NULL)
# nU - sample.darkness (InDom 29.1)

pmie $DEBUG -v -t 0.5sec -T 3sec <<'End-of-File' 2>$tmp.err \
| tee $seq.full \
| sed -e 's/.* [0-9][0-9][0-9][0-9]: \([a-z]\)/\1/' \
| sort \
| uniq
prime = sample.darkness;
e1 = some_inst (sample.noinst > 0)
    -> print "e1: Error! should be unknown always\n";
e2 = some_inst (sample.noinst > 0) && hinv.ncpu > 0
    -> print "e2: Error! should be false always\n"; 

true_1T_and_1T = hinv.ncpu > 0 && sample.load == 42
    -> print "true_1T_and_1T: OK should always be true\n";
false_1T_and_1F = hinv.ncpu > 0 && sample.load != 42
    -> print "false_1T_and_1F: Error! should always be false\n";
unknown_1T_and_1U = hinv.ncpu > 0 && sample.noinst == 42
    -> print "unknown_1T_and_1U: Error! should always be unknown\n";
true_1T_and_nT = some_inst (hinv.ncpu > 0 && sample.colour > 0)
    -> print "true_1T_and_nT: OK should always be true\n";
false_1T_and_nF = some_inst (hinv.ncpu > 0 && sample.colour < 0)
    -> print "false_1T_and_nF: Error! should always be false\n";
unknown_1T_and_nU = some_inst (hinv.ncpu > 0 && sample.darkness > 0)
    -> print "unknown_1T_and_nU:  Error! should always be unknown\n";

false_1F_and_1T = hinv.ncpu < 0 && sample.load == 42
    -> print "false_1F_and_1T: Error! should always be false\n";
false_1F_and_1F = hinv.ncpu < 0 && sample.load != 42
    -> print "false_1F_and_1F: Error! should always be false\n";
false_1F_and_1U = hinv.ncpu < 0 && sample.noinst == 42
    -> print "false_1F_and_1U: Error! should always be false\n";
false_1F_and_nT = some_inst (hinv.ncpu < 0 && sample.colour > 0)
    -> print "false_1F_and_nT: Error! should always be false\n";
false_1F_and_nF = some_inst (hinv.ncpu < 0 && sample.colour < 0)
    -> print "false_1F_and_nF: Error! should always be false\n";
false_1F_and_nU = some_inst (hinv.ncpu < 0 && sample.darkness > 0)
    -> print "false_1F_and_nU: Error! should always be false\n";

unknown_1U_and_1T = sample.noinst == 42 && hinv.ncpu > 0 
    -> print "unknown_1U_and_1T: Error! should always be unknown\n";
false_1U_and_1F = sample.noinst == 42 && hinv.ncpu < 0 
    -> print "false_1U_and_1F: Error! should always be false\n";
unknown_1U_and_1U = sample.noinst == 42 && sample.noinst == 43
    -> print "unknown_1U_and_1U: Error! should always be unknown\n";
unknown_1U_and_nT = some_inst (sample.noinst == 42 && sample.colour > 0)
    -> print "unknown_1U_and_nT: Error! should always be unknown\n";
false_1U_and_nF = some_inst (sample.noinst == 42 && sample.colour < 0)
    -> print "false_1U_and_nF: Error! should always be false\n";
unknown_1U_and_nU = some_inst (sample.noinst == 42 && sample.darkness > 0)
    -> print "unknown_1U_and_nU: Error! should always be unknown\n";

true_nT_and_1T = some_inst (sample.colour > 0 && hinv.ncpu > 0)
    -> print "true_nT_and_1T: OK should always be true\n";
false_nT_and_1F = some_inst (sample.colour > 0 && hinv.ncpu < 0)
    -> print "false_nT_and_1F: Error! should always be false\n";
unknown_nT_and_1U = some_inst (sample.colour > 0 && sample.noinst == 42)
    -> print "true_nT_and_nU: Error! should always be unknown\n";
true_nT_and_nT = some_inst (sample.colour > 0 && sample.colour >= 1)
    -> print "true_nT_and_nT: OK should always be true\n";
false_nT_and_nF = some_inst (sample.colour > 0 && sample.colour < 0)
    -> print "false_nT_and_nF: Error! should always be false\n";
unknown_nT_and_nU = some_inst (sample.colour > 0 && sample.darkness > 0)
    -> print "true_nT_and_nU: Error! should always be unknown\n";

false_nF_and_1T= some_inst (sample.colour < 0 && hinv.ncpu > 0)
    -> print "false_nF_and_1T: Error! should always be false\n";
false_nF_and_1F= some_inst (sample.colour < 0 && hinv.ncpu < 0)
    -> print "false_nF_and_1F: Error! should always be false\n";
false_nF_and_1U= some_inst (sample.colour < 0 && sample.noinst == 42)
    -> print "false_nF_and_1U: Error! should always be false\n";
false_nF_and_nT = some_inst (sample.colour < 0 && sample.colour > 0)
    -> print "false_nF_and_nT: Error! should always be false\n";
false_nF_and_nF = some_inst (sample.colour < 0 && sample.colour < -1)
    -> print "false_nF_and_nF: Error! should always be false\n";
false_nF_and_nU = some_inst (sample.colour < 0 && sample.darkness > 0)
    -> print "false_nF_and_nU: Error! should always be false\n";

unknown_nU_and_1T = some_inst (sample.darkness > 0 && hinv.ncpu > 0)
    -> print "unknown_nU_and_1T: Error! should always be unknown\n";
unknown_nU_and_1F = some_inst (sample.darkness > 0 && hinv.ncpu < 0)
    -> print "unknown_nU_and_1F: Error! should always be unknown\n";
unknown_nU_and_1U = some_inst (sample.darkness > 0 && sample.noinst == 42)
    -> print "unknown_nU_and_1U: Error! should always be unknown\n";
unknown_nU_and_nT = some_inst (sample.darkness > 0 && sample.colour > 0)
    -> print "unknown_nU_and_nT: Error! should always be unknown\n";
// only odd one here, the nF provides the instance domain enumeration
// and since all instances are false there, the conjunct is universally
// false
false_nU_and_nF = some_inst (sample.darkness > 0 && sample.colour < 0)
    -> print "false_nU_and_nF: Error! should always be false\n";
unknown_nU_and_nU = some_inst (sample.darkness > 0 && sample.darkness > 100)
    -> print "unknown_nU_and_nU: Error! should always be unknown\n";

true_1T_or_1T = hinv.ncpu > 0 || hinv.ncpu > -1
    -> print "true_1T_or_1T: OK should always be true\n";
true_1T_or_1F = hinv.ncpu > 0 || hinv.ncpu < 0
    -> print "true_1T_or_1F: OK should always be true\n";
true_1T_or_1U = hinv.ncpu > 0 || sample.noinst == 42
    -> print "true_1T_or_1U: OK should always be true\n";
true_1T_or_nT = some_inst (hinv.ncpu > 0 || sample.colour > 0)
    -> print "true_1T_or_nT: OK should always be true\n";
true_1T_or_nF = some_inst (hinv.ncpu > 0 || sample.colour < 0)
    -> print "true_1T_or_nF: OK should always be true\n";
true_1T_or_nU = some_inst (hinv.ncpu > 0 || sample.darkness > 0)
    -> print "true_1T_or_nU: OK should always be true\n";

true_1F_or_1T = hinv.ncpu < 0 || hinv.ncpu > 0
    -> print "true_1F_or_1T: OK should always be true\n";
false_1F_or_1F = hinv.ncpu < 0 || hinv.ncpu < -1
    -> print "false_1F_or_1F: Error! should always be false\n";
unknown_1F_or_1U = hinv.ncpu < 0 || sample.noinst == 42
    -> print "unknown_1F_or_1U: Error! should always be unknown\n";
true_1F_or_nT = some_inst (hinv.ncpu < 0 || sample.colour > 0)
    -> print "true_1F_or_nT: OK should always be true\n";
false_1F_or_nF = some_inst (hinv.ncpu < 0 || sample.colour < 0)
    -> print "false_1F_or_nF: Error! should always be false\n";
unknown_1F_or_nU = some_inst (hinv.ncpu < 0 || sample.darkness > 0)
    -> print "unknown_1F_or_nU: Error! should always be unknown\n";

true_1U_or_1T = sample.noinst == 42 || hinv.ncpu > 0 
    -> print "true_1U_or_1T: OK should always be true\n";
unknown_1U_or_1F = sample.noinst == 42 || hinv.ncpu < 0 
    -> print "unknown_1U_or_1F: Error! should always be unknown\n";
unknown_1U_or_1U = sample.noinst == 42 || sample.noinst == 43
    -> print "unknown_1U_or_1U: Error! should always be unknown\n";
true_1U_or_nT = some_inst (sample.noinst == 42 || sample.colour > 0)
    -> print "true_1U_or_nT: OK should always be true\n";
unknown_1U_or_nF = some_inst (sample.noinst == 42 || sample.colour < 0)
    -> print "unknown_1U_or_nF: Error! should always be unknown\n";
unknown_1U_or_nU = some_inst (sample.noinst == 42 || sample.darkness > 0)
    -> print "unknown_1U_or_nU: Error! should always be unknown\n";

true_nT_or_1T = some_inst (sample.colour > 0 || hinv.ncpu > 0)
    -> print "true_nT_or_1T: OK should always be true\n";
true_nT_or_1F = some_inst (sample.colour > 0 || hinv.ncpu < 0)
    -> print "true_nT_or_1F: OK should always be true\n";
true_nT_or_1U = some_inst (sample.colour > 0 || sample.noinst == 42)
    -> print "true_nT_or_1U: OK should always be true\n";
true_nT_or_nT = some_inst (sample.colour > 0 || sample.colour >= 1)
    -> print "true_nT_or_nT: OK should always be true\n";
true_nT_or_nF = some_inst (sample.colour > 0 || sample.colour < 0)
    -> print "true_nT_or_nF: OK should always be true\n";
true_nT_or_nU = some_inst (sample.colour > 0 || sample.darkness > 0)
    -> print "true_nT_or_nU: OK should always be true\n";

true_nF_or_1T= some_inst (sample.colour < 0 || hinv.ncpu > 0)
    -> print "true_nF_or_1T: OK should always be true\n";
false_nF_or_1F= some_inst (sample.colour < 0 || hinv.ncpu < 0)
    -> print "false_nF_or_1F: Error! should always be false\n";
unknown_nF_or_1U= some_inst (sample.colour < 0 || sample.noinst == 42)
    -> print "unknown_nF_or_1U: Error! should always be unknown\n";
true_nF_or_nT = some_inst (sample.colour < 0 || sample.colour > 0)
    -> print "true_nF_or_nT: OK should always be true\n";
false_nF_or_nF = some_inst (sample.colour < 0 || sample.colour < -1)
    -> print "false_nF_or_nF: Error! should always be false\n";
unknown_nF_or_nU = some_inst (sample.colour < 0 || sample.darkness > 0)
    -> print "unknown_nF_or_nU: Error! should always be unknown\n";

// this one is going to be unknown, because there are an unknown number
// of instances in the first predicate, so some_inst is universally unknown
unknown_nU_or_1T = some_inst (sample.darkness > 0 || hinv.ncpu > 0)
    -> print "unknown_nU_or_1T: Error! should always be unknown\n";
unknown_nU_or_1F = some_inst (sample.darkness > 0 || hinv.ncpu < 0)
    -> print "unknown_nU_or_1F: Error! should always be unknown\n";
unknown_nU_or_1U = some_inst (sample.darkness > 0 || sample.noinst == 42)
    -> print "unknown_nU_or_1U: Error! should always be unknown\n";
true_nU_or_nT = some_inst (sample.darkness > 0 || sample.colour > 0)
    -> print "true_nU_or_nT: OK should always be true\n";
unknown_nU_or_nF = some_inst (sample.darkness > 0 || sample.colour < 0)
    -> print "unknown_nU_or_nF: Error! should always be unknown\n";
unknown_nU_or_nU = some_inst (sample.darkness > 0 || sample.darkness > 100)
    -> print "unknown_nU_or_nU: Error! should always be unknown\n";

End-of-File

echo >>$seq.full
echo "=== stderr ==" >>$seq.full
cat $tmp.err >>$seq.full

exit

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