#!/bin/bash # Simple jobs that never fails # Each should be taking 10-30s and be possible to run in parallel # I.e.: No race conditions, no logins par__pipepart_spawn() { echo '### bug #46214: Using --pipepart doesnt spawn multiple jobs in version 20150922' seq 1000000 > /tmp/num1000000; stdout nice parallel --pipepart --progress -a /tmp/num1000000 --block 10k -j0 true | grep 1:local | perl -pe 's/\d\d\d/999/g' } par__pipe_tee() { echo 'bug #45479: --pipe/--pipepart --tee' echo '--pipe --tee' random1G() { < /dev/zero openssl enc -aes-128-ctr -K 1234 -iv 1234 2>/dev/null | head -c 1G; } random1G | parallel --pipe --tee cat ::: {1..3} | LANG=C wc -c } par__pipepart_tee() { echo 'bug #45479: --pipe/--pipepart --tee' echo '--pipepart --tee' random1G() { < /dev/zero openssl enc -aes-128-ctr -K 1234 -iv 1234 2>/dev/null | head -c 1G; } tmp=$(mktemp) random1G >$tmp parallel --pipepart --tee -a $tmp cat ::: {1..3} | LANG=C wc -c rm $tmp } par__memleak() { echo "### Test memory consumption stays (almost) the same for 30 and 300 jobs" echo "should give 1 == true" mem30=$( nice stdout time -f %M parallel -j2 true :::: <(perl -e '$a="x"x60000;for(1..30){print $a,"\n"}') ); mem300=$( nice stdout time -f %M parallel -j2 true :::: <(perl -e '$a="x"x60000;for(1..300){print $a,"\n"}') ); echo "Memory use should not depend very much on the total number of jobs run\n"; echo "Test if memory consumption(300 jobs) < memory consumption(30 jobs) * 110% "; echo $(($mem300*100 < $mem30 * 110)) } par_slow_total_jobs() { echo 'bug #51006: Slow total_jobs() eats job' (echo a; sleep 10; echo b; sleep 10; seq 2) | parallel -k echo '{=total_jobs()=}' } par_interactive() { echo '### Test -p --interactive' cat >/tmp/parallel-script-for-expect <<_EOF #!/bin/bash seq 1 3 | parallel -k -p "sleep 0.1; echo opt-p" seq 1 3 | parallel -k --interactive "sleep 0.1; echo opt--interactive" _EOF chmod 755 /tmp/parallel-script-for-expect ( expect -b - <<_EOF spawn /tmp/parallel-script-for-expect expect "echo opt-p 1" send "y\n" expect "echo opt-p 2" send "n\n" expect "echo opt-p 3" send "y\n" expect "opt-p 1" expect "opt-p 3" expect "echo opt--interactive 1" send "y\n" expect "echo opt--interactive 2" send "n\n" expect "opt--interactive 1" expect "echo opt--interactive 3" send "y\n" expect "opt--interactive 3" send "\n" _EOF echo ) | perl -ne 's/\r//g;/\S/ and print' | # Race will cause the order to change sort } par_k() { echo '### Test -k' ulimit -n 50 (echo "sleep 3; echo begin"; seq 1 30 | parallel -kq echo "sleep 1; echo {}"; echo "echo end") | stdout nice parallel -k -j0 } par_halt_on_error() { mytest() { HALT=$1 BOOL1=$2 BOOL2=$3 (echo "sleep 1;$BOOL1"; echo "sleep 2;$BOOL2"; echo "sleep 3;$BOOL1") | parallel -j10 --halt-on-error $HALT echo $? (echo "sleep 1;$BOOL1"; echo "sleep 2;$BOOL2"; echo "sleep 3;$BOOL1"; echo "sleep 4;non_exist"; ) | parallel -j10 --halt-on-error $HALT echo $? } export -f mytest parallel -j0 -k --tag mytest ::: -2 -1 0 1 2 ::: true false ::: true false } par_first_print_halt_on_error_1() { echo '### Test first dying print --halt-on-error 1'; (echo 0; echo 3; seq 0 7;echo 0; echo 8) | parallel -j10 -kq --halt 1 perl -e 'sleep $ARGV[0];print STDERR @ARGV,"\n"; exit shift'; echo exit code $? } par_first_print_halt_on_error_2() { echo '### Test last dying print --halt-on-error 2'; (echo 0; echo 3; seq 0 7;echo 0; echo 8) | parallel -j10 -kq --halt 2 perl -e 'sleep $ARGV[0];print STDERR @ARGV,"\n"; exit shift'; echo exit code $? } par_first_print_halt_on_error_minus_1() { echo '### Test last dying print --halt-on-error -1'; (echo 0; echo 3; seq 0 7;echo 0; echo 8) | parallel -j10 -kq --halt -1 perl -e 'sleep $ARGV[0];print STDERR @ARGV,"\n"; exit not shift'; echo exit code $? } par_first_print_halt_on_error_minus_2() { echo '### Test last dying print --halt-on-error -2'; (echo 0; echo 3; seq 0 7;echo 0; echo 8) | parallel -j10 -kq --halt -2 perl -e 'sleep $ARGV[0];print STDERR @ARGV,"\n"; exit not shift'; echo exit code $? } par_k_linebuffer() { echo '### bug #47750: -k --line-buffer should give current job up to now' parallel --line-buffer --tag -k 'seq {} | pv -qL 10' ::: {10..20} parallel --line-buffer -k 'echo stdout top;sleep 1;echo stderr in the middle >&2; sleep 1;echo stdout' ::: end 2>&1 } par_maxlinelen_m_I() { echo "### Test max line length -m -I" seq 1 60000 | parallel -I :: -km -j1 echo a::b::c | sort >/tmp/114-a$$; md5sum /tmp/114-b$$; md5sum &1'