old-cross-binutils/gdb/testsuite/dg-extract-results.sh

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#! /bin/sh
# For a specified tool and optional list of test variants, extract
# test results from one or more test summary (.sum) files and combine
# the results into a new test summary file, sent to the standard output.
# The resulting file can be used with test result comparison scripts for
# results from tests that were run in parallel. See usage() below.
# Copyright (C) 2008-2014 Free Software Foundation, Inc.
# Contributed by Janis Johnson <janis187@us.ibm.com>
#
# This file is part of GCC.
#
# GCC is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3, or (at your option)
# any later version.
#
# GCC is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
PROGNAME=dg-extract-results.sh
Merge dg-extract-results.{sh,py} from GCC upstream It has been a while since we don't sync this file with GCC upstream, and in the meantime some interesting things have happened. The most interesting is the inclusion of a new dg-extract-results.py which is apparently faster than its shell equivalent. This merge will probably fix the bug described in <https://sourceware.org/ml/gdb-patches/2014-12/msg00421.html> Though I am still proposing the patch for upstream GCC. Once it gets accepted, I will merge it too. OK to apply? gdb/testsuite/ChangeLog: 2014-12-15 Sergio Durigan Junior <sergiodj@redhat.com> Merge dg-extract-results.{sh,py} from GCC upstream (r210243, r210637, r210913, r211666, r215400, r215817). 2014-05-08 Richard Sandiford <rdsandiford@googlemail.com> * dg-extract-results.py: New file. * dg-extract-results.sh: Use it if the environment seems suitable. 2014-05-20 Richard Sandiford <rdsandiford@googlemail.com> * dg-extract-results.py (parse_run): Handle warnings that are printed before a test harness is run. 2014-05-25 Richard Sandiford <rdsandiford@googlemail.com> * dg-extract-results.py (Named): Remove __cmp__ method. (output_variation): Use a key to sort variation.harnesses. 2014-06-14 Richard Sandiford <rdsandiford@googlemail.com> * dg-extract-results.py: For Python 3, force sys.stdout to handle surrogate escape sequences. (safe_open): New function. (output_segment, main): Use it. 2014-09-19 Segher Boessenkool <segher@kernel.crashing.org> * dg-extract-results.py (Prog.result_re): Include options in test name. 2014-10-02 Segher Boessenkool <segher@kernel.crashing.org> * dg-extract-results.py (output_variation): Always sort if do_sum.
2014-12-16 00:34:24 +00:00
# Try to use the python version if possible, since it tends to be faster.
PYTHON_VER=`echo "$0" | sed 's/sh$/py/'`
if test "$PYTHON_VER" != "$0" &&
test -f "$PYTHON_VER" &&
python -c 'import sys; sys.exit (0 if sys.version_info >= (2, 6) else 1)' \
> /dev/null 2> /dev/null; then
exec python $PYTHON_VER "$@"
fi
usage() {
cat <<EOF >&2
Usage: $PROGNAME [-t tool] [-l variant-list] [-L] sum-file ...
tool The tool (e.g. g++, libffi) for which to create a
new test summary file. If not specified then all
specified sum files must be for the same tool.
variant-list One or more test variant names. If the list is
not specified then one is constructed from all
variants in the files for <tool>.
sum-file A test summary file with the format of those
created by runtest from DejaGnu.
If -L is used, merge *.log files instead of *.sum. In this
mode the exact order of lines may not be preserved, just different
Running *.exp chunks should be in correct order.
EOF
}
# Write a message to the standard error.
msg() {
echo "$@" >&2
}
# Parse the command-line options.
VARIANTS=""
TOOL=""
MODE="sum"
while getopts "l:t:L" ARG; do
case $ARG in
l) VARIANTS="${VARIANTS} ${OPTARG}";;
t) test -z "$TOOL" || (msg "${PROGNAME}: only one tool can be specified"; exit 1);
TOOL="${OPTARG}";;
L) MODE="log";;
\?) usage; exit 0;;
esac
done
shift `expr ${OPTIND} - 1`
if test $# -lt 1 ; then
usage
exit 1
fi
TMPDIR=${TMPDIR-/tmp}
SUM_FILES="$@"
FIRST_SUM=$1
TMP=
trap 'EXIT_STATUS=$?; rm -rf $TMP && exit $EXIT_STATUS' 0
# Create a (secure) tmp directory for tmp files.
{
TMP=`(umask 077 && mktemp -d -q "${TMPDIR}/dg-combine-results-$$-XXXXXX") 2>/dev/null` &&
test -n "$TMP" && test -d "$TMP"
} ||
{
TMP=${TMPDIR}/dg-combine-results-$$-$RANDOM
(umask 077 && mkdir $TMP)
} ||
{
msg "${PROGNAME}: cannot create a temporary directory"
{ (exit 1); exit 1; }
}
# Find a good awk.
if test -z "$AWK" ; then
for AWK in gawk nawk awk
do
if type $AWK 2>&1 | grep 'not found' > /dev/null 2>&1 ; then
:
else
break
fi
done
fi
# Verify that the specified summary files exist.
ERROR=0
for FILE in $SUM_FILES
do
if ! test -f $FILE ; then
msg "${PROGNAME}: file $FILE does not exist."
ERROR=1
fi
done
test $ERROR -eq 0 || exit 1
if [ -z "$TOOL" ]; then
# If no tool was specified, all specified summary files must be for
# the same tool.
CNT=`grep '=== .* tests ===' $SUM_FILES | $AWK '{ print $3 }' | sort -u | wc -l`
if [ $CNT -eq 1 ]; then
TOOL=`grep '=== .* tests ===' $FIRST_SUM | $AWK '{ print $2 }'`
else
msg "${PROGNAME}: sum files are for multiple tools, specify a tool"
msg ""
usage
exit 1
fi
else
# Ignore the specified summary files that are not for this tool. This
# should keep the relevant files in the same order.
SUM_FILES=`grep -l "=== $TOOL" $SUM_FILES`
if test -z "$SUM_FILES" ; then
msg "${PROGNAME}: none of the specified files are results for $TOOL"
exit 1
fi
fi
if [ "$TOOL" = acats ]; then
# Acats *.sum or *.log files aren't dejagnu generated, and they have
# somewhat different format.
ACATS_AWK=${TMP}/acats.awk
cat <<EOF > $ACATS_AWK
BEGIN {
print_prologue=1; curfile=""; insummary=0
passcnt=0; failcnt=0; unsupcnt=0; failures=""
}
/^[ \t]*=== acats configuration ===/ {
insummary=0
if (print_prologue) print
next
}
/^[ \t]*=== acats tests ===/ {
if (print_prologue) print
print_prologue=0
next
}
/^Running chapter / {
if (curfile) close (curfile)
curfile="${TMP}/chapter-"\$3
print >> curfile
next
}
/^[ \t]*=== acats Summary ===/ {
if (curfile) close (curfile)
curfile=""
insummary=1
next
}
/^# of expected passes/ { if (insummary == 1) passcnt += \$5; next; }
/^# of unexpected failures/ { if (insummary == 1) failcnt += \$5; next; }
/^# of unsupported tests/ { if (insummary == 1) unsupcnt += \$5; next; }
/^\*\*\* FAILURES: / {
if (insummary == 1) {
if (failures) sub(/^\*\*\* FAILURES:/,"")
failures=failures""\$0
}
}
{
if (print_prologue) { print; next }
if (curfile) print >> curfile
}
END {
system ("cat ${TMP}/chapter-*")
print " === acats Summary ==="
print "# of expected passes " passcnt
print "# of unexpected failures " failcnt
if (unsupcnt) print "# of unsupported tests " unsupcnt
if (failures) print failures
}
EOF
rm -f ${TMP}/chapter-*
$AWK -f $ACATS_AWK $SUM_FILES
exit 0
fi
# If no variants were specified, find all variants in the remaining
# summary files. Otherwise, ignore specified variants that aren't in
# any of those summary files.
if test -z "$VARIANTS" ; then
VAR_AWK=${TMP}/variants.awk
cat <<EOF > $VAR_AWK
/^Schedule of variations:/ { in_vars=1; next }
/^$/ { in_vars=0 }
/^Running target/ { exit }
{ if (in_vars==1) print \$1; else next }
EOF
touch ${TMP}/varlist
for FILE in $SUM_FILES; do
$AWK -f $VAR_AWK $FILE >> ${TMP}/varlist
done
VARIANTS="`sort -u ${TMP}/varlist`"
else
VARS="$VARIANTS"
VARIANTS=""
for VAR in $VARS
do
grep "Running target $VAR" $SUM_FILES > /dev/null && VARIANTS="$VARIANTS $VAR"
done
fi
# Find out if we have more than one variant, or any at all.
VARIANT_COUNT=0
for VAR in $VARIANTS
do
VARIANT_COUNT=`expr $VARIANT_COUNT + 1`
done
if test $VARIANT_COUNT -eq 0 ; then
msg "${PROGNAME}: no file for $TOOL has results for the specified variants"
exit 1
fi
cat $SUM_FILES \
| $AWK '/^Running/ { if ($2 != "target" && $3 == "...") print "EXPFILE: "$2 } ' \
| sort -u > ${TMP}/expfiles
# Write the begining of the combined summary file.
head -n 2 $FIRST_SUM
echo
echo " === $TOOL tests ==="
echo
echo "Schedule of variations:"
for VAR in $VARIANTS
do
echo " $VAR"
done
echo
# For each test variant for the tool, copy test reports from each of the
# summary files. Set up two awk scripts from within the loop to
# initialize VAR and TOOL with the script, rather than assuming that the
# available version of awk can pass variables from the command line.
for VAR in $VARIANTS
do
GUTS_AWK=${TMP}/guts.awk
cat << EOF > $GUTS_AWK
BEGIN {
variant="$VAR"
firstvar=1
expfileno=1
cnt=0
print_using=0
need_close=0
}
/^EXPFILE: / {
expfiles[expfileno] = \$2
expfilesr[\$2] = expfileno
expfileno = expfileno + 1
}
/^Running target / {
curvar = \$3
if (variant == curvar && firstvar == 1) { print; print_using=1; firstvar = 0 }
next
}
/^Using / {
if (variant == curvar && print_using) { print; next }
}
/^Running .*\\.exp \\.\\.\\./ {
print_using=0
if (variant == curvar) {
if (need_close) close(curfile)
curfile="${TMP}/list"expfilesr[\$2]
expfileseen[\$2]=expfileseen[\$2] + 1
need_close=0
testname="00"
next
}
}
/^\t\t=== .* ===$/ { curvar = ""; next }
/^(PASS|XPASS|FAIL|XFAIL|UNRESOLVED|WARNING|ERROR|UNSUPPORTED|UNTESTED|KFAIL):/ {
testname=\$2
# Ugly hack for gfortran.dg/dg.exp
if ("$TOOL" == "gfortran" && testname ~ /^gfortran.dg\/g77\//)
testname="h"testname
}
/^$/ { if ("$MODE" == "sum") next }
{ if (variant == curvar && curfile) {
if ("$MODE" == "sum") {
printf "%s %08d|", testname, cnt >> curfile
cnt = cnt + 1
}
filewritten[curfile]=1
need_close=1
print >> curfile
} else
next
}
END {
n=1
while (n < expfileno) {
if (expfileseen[expfiles[n]]) {
print "Running "expfiles[n]" ..."
if (filewritten["${TMP}/list"n]) {
if (expfileseen[expfiles[n]] == 1)
cmd="cat"
else
cmd="LC_ALL=C sort"
if ("$MODE" == "sum")
system (cmd" ${TMP}/list"n" | sed -n 's/^[^ ]* [^ |]*|//p'")
else
system ("cat ${TMP}/list"n)
}
}
n = n + 1
}
}
EOF
SUMS_AWK=${TMP}/sums.awk
rm -f $SUMS_AWK
cat << EOF > $SUMS_AWK
BEGIN {
variant="$VAR"
tool="$TOOL"
passcnt=0; failcnt=0; untstcnt=0; xpasscnt=0; xfailcnt=0; kpasscnt=0; kfailcnt=0; unsupcnt=0; unrescnt=0;
curvar=""; insummary=0
}
/^Running target / { curvar = \$3; next }
/^# of / { if (variant == curvar) insummary = 1 }
/^# of expected passes/ { if (insummary == 1) passcnt += \$5; next; }
/^# of unexpected successes/ { if (insummary == 1) xpasscnt += \$5; next; }
/^# of unexpected failures/ { if (insummary == 1) failcnt += \$5; next; }
/^# of expected failures/ { if (insummary == 1) xfailcnt += \$5; next; }
/^# of unknown successes/ { if (insummary == 1) kpasscnt += \$5; next; }
/^# of known failures/ { if (insummary == 1) kfailcnt += \$5; next; }
/^# of untested testcases/ { if (insummary == 1) untstcnt += \$5; next; }
/^# of unresolved testcases/ { if (insummary == 1) unrescnt += \$5; next; }
/^# of unsupported tests/ { if (insummary == 1) unsupcnt += \$5; next; }
/^$/ { if (insummary == 1)
{ insummary = 0; curvar = "" }
next
}
{ next }
END {
printf ("\t\t=== %s Summary for %s ===\n\n", tool, variant)
if (passcnt != 0) printf ("# of expected passes\t\t%d\n", passcnt)
if (failcnt != 0) printf ("# of unexpected failures\t%d\n", failcnt)
if (xpasscnt != 0) printf ("# of unexpected successes\t%d\n", xpasscnt)
if (xfailcnt != 0) printf ("# of expected failures\t\t%d\n", xfailcnt)
if (kpasscnt != 0) printf ("# of unknown successes\t\t%d\n", kpasscnt)
if (kfailcnt != 0) printf ("# of known failures\t\t%d\n", kfailcnt)
if (untstcnt != 0) printf ("# of untested testcases\t\t%d\n", untstcnt)
if (unrescnt != 0) printf ("# of unresolved testcases\t%d\n", unrescnt)
if (unsupcnt != 0) printf ("# of unsupported tests\t\t%d\n", unsupcnt)
}
EOF
PVAR=`echo $VAR | sed 's,/,.,g'`
TMPFILE=${TMP}/var-$PVAR
rm -f $TMPFILE
rm -f ${TMP}/list*
cat ${TMP}/expfiles $SUM_FILES | $AWK -f $GUTS_AWK
cat $SUM_FILES | $AWK -f $SUMS_AWK > $TMPFILE
# If there are multiple variants, output the counts for this one;
# otherwise there will just be the final counts at the end.
test $VARIANT_COUNT -eq 1 || cat $TMPFILE
done
# Set up an awk script to get the combined summary counts for the tool.
TOTAL_AWK=${TMP}/total.awk
cat << EOF > $TOTAL_AWK
BEGIN {
tool="$TOOL"
passcnt=0; failcnt=0; untstcnt=0; xpasscnt=0; xfailcnt=0; kfailcnt=0; unsupcnt=0; unrescnt=0
}
/^# of expected passes/ { passcnt += \$5 }
/^# of unexpected failures/ { failcnt += \$5 }
/^# of unexpected successes/ { xpasscnt += \$5 }
/^# of expected failures/ { xfailcnt += \$5 }
/^# of unknown successes/ { kpasscnt += \$5 }
/^# of known failures/ { kfailcnt += \$5 }
/^# of untested testcases/ { untstcnt += \$5 }
/^# of unresolved testcases/ { unrescnt += \$5 }
/^# of unsupported tests/ { unsupcnt += \$5 }
END {
printf ("\n\t\t=== %s Summary ===\n\n", tool)
if (passcnt != 0) printf ("# of expected passes\t\t%d\n", passcnt)
if (failcnt != 0) printf ("# of unexpected failures\t%d\n", failcnt)
if (xpasscnt != 0) printf ("# of unexpected successes\t%d\n", xpasscnt)
if (xfailcnt != 0) printf ("# of expected failures\t\t%d\n", xfailcnt)
if (kpasscnt != 0) printf ("# of unknown successes\t\t%d\n", kpasscnt)
if (kfailcnt != 0) printf ("# of known failures\t\t%d\n", kfailcnt)
if (untstcnt != 0) printf ("# of untested testcases\t\t%d\n", untstcnt)
if (unrescnt != 0) printf ("# of unresolved testcases\t%d\n", unrescnt)
if (unsupcnt != 0) printf ("# of unsupported tests\t\t%d\n", unsupcnt)
}
EOF
# Find the total summaries for the tool and add to the end of the output.
cat ${TMP}/var-* | $AWK -f $TOTAL_AWK
# This is ugly, but if there's version output from the compiler under test
# at the end of the file, we want it. The other thing that might be there
# is the final summary counts.
tail -2 $FIRST_SUM | grep '^#' > /dev/null || tail -2 $FIRST_SUM
exit 0