Merge branch 'master' of ssh://git.sv.gnu.org/srv/git/parallel into stable

Conflicts: doc/release_new_version src/parallel testsuite/wanted-results/parallel-tutorial
2024-11-22 14:07:55 +00:00 · 2015-05-22 00:41:02 +02:00 · 2015-05-22 00:41:02 +02:00 · 1b0c5d4ca7
parent 39ff23c10d 03a69b38ce
commit 1b0c5d4ca7
29 changed files with 1193 additions and 198 deletions
--- a/2
+++ b/2
@ -1,3 +1,5 @@
 Rasmus Villemoes: Code snips for signal processing.
 Martin d'Anjou: Code snips for signal processing.
 rici@stackoverflow.com: Documentation on exporting arrays using --env.
 Malcolm Cook: The idea to use a general perl expression as replacement strings.
 Ævar Arnfjörð Bjarmason: Reading the whole code.
--- a/Makefile.am
+++ b/Makefile.am
@ -59,4 +59,4 @@ upload:
 	pushd; \
 	sudo cp /usr/local/bin/parallel /usr/local/bin/parallel-$(YYYYMMDD)
-EXTRA_DIST = CITATION
+EXTRA_DIST = CITATION CREDITS
--- a/Makefile.in
+++ b/Makefile.in
@ -263,7 +263,7 @@ top_build_prefix = @top_build_prefix@
 top_builddir = @top_builddir@
 top_srcdir = @top_srcdir@
 SUBDIRS = src
-EXTRA_DIST = CITATION
+EXTRA_DIST = CITATION CREDITS
 all: config.h
 	$(MAKE) $(AM_MAKEFLAGS) all-recursive
--- a/src/parallel.pod
+++ b/src/parallel.pod
@ -84,7 +84,21 @@ If it is a Bash function you need to B<export -f> the function
 first. To use aliases copy the full environment as described under
 B<--env> and use B<env_parallel> instead of B<parallel>.
 If it is a Ksh function you can encode the function in a variable:
  foo() {
    echo $*;
  }
  export fun=`typeset -f foo`; parallel 'eval "$fun";' foo ::: works
 To export all functions and make them available when running remote:
  export fun=`typeset -f`; parallel --env fun 'eval "$fun";' foo ::: works
 =cut
 # ssh ksh@lo 'foo() { echo $* ; }; export fun="`typeset -f`"; parallel -S ksh@lo --env fun "eval \"\$fun\";"foo ::: works'
 # ssh zsh@lo 'foo() { echo $* ; }; export fun="`typeset -f`"; parallel -S zsh@lo --env fun "eval \"\$fun\";"foo ::: works'
 # If it is a zsh function you will need to use this helper function
 # B<exportf> to export and to set $PARALLEL_SHELL to bash:
 # 
@ -422,9 +436,19 @@ Implies B<--semaphore>.
 =item B<--bibtex>
-Print the BibTeX entry for GNU B<parallel> and disable citation
+Print the BibTeX entry for GNU B<parallel> and silence citation
 notice.
 If it is impossible for you to run B<--bibtex> you can use
 B<--will-cite>.
 If you use B<--will-cite> in scripts to be run by others you are
 making it harder for others to see the citation notice.  The
 development of GNU B<parallel> is indirectly financed through
 citations, so if users do not know they should cite then that makes it
 harder to finance development. However, if you pay 10000 EUR, you
 should feel free to use B<--will-cite>.
 =item B<--block> I<size>
@ -451,6 +475,8 @@ will give data to the program on stdin (standard input). With B<--cat>
 GNU B<parallel> will create a temporary file with the name in {}, so
 you can do: B<parallel --pipe --cat wc {}>.
 Implies B<--pipe> unless B<--pipepart> is used.
 See also B<--fifo>.
@ -494,9 +520,9 @@ Compress temporary files. If the output is big and very compressible
 this will take up less disk space in $TMPDIR and possibly be faster
 due to less disk I/O.
-GNU B<parallel> will try B<lzop>, B<pigz>, B<gzip>, B<pbzip2>,
+GNU B<parallel> will try B<lz4>, B<pigz>, B<lzop>, B<plzip>,
-B<plzip>, B<bzip2>, B<lzma>, B<lzip>, B<xz> in that order, and use the
+B<pbzip2>, B<pxz>, B<gzip>, B<lzma>, B<xz>, B<bzip2>, B<lzip> in that
-first available.
+order, and use the first available.
 =item B<--compress-program> I<prg>
@ -644,6 +670,8 @@ with the name in {}, so you can do: B<parallel --pipe --fifo wc {}>.
 Beware: If data is not read from the fifo, the job will block forever.
 Implies B<--pipe> unless B<--pipepart> is used.
 See also B<--cat>.
@ -687,46 +715,84 @@ See also: B<--line-buffer> B<--ungroup>
 Print a summary of the options to GNU B<parallel> and exit.
-=item B<--halt-on-error> I<val>
+=item B<--halt-on-error> I<val> (alpha testing)
-=item B<--halt> I<val>
+=item B<--halt> I<val> (alpha testing)
-How should GNU B<parallel> terminate?
+When should GNU B<parallel> terminate? In some situations it makes no
 sense to run all jobs. GNU B<parallel> should simply give up as soon
 as a condition is met.
 I<val> defaults to B<never>, which runs all jobs no matter what.
 I<val> can also take on the form of I<when>,I<why>.
 I<when> can be 'now' which means kill all running jobs and halt
 immediately, or it can be 'soon' which means wait for all running jobs
 to complete, but start no new jobs.
 I<why> can be 'fail=X', 'fail=Y%', 'success=X', or 'success=Y%' where
 X is the number of jobs that has to fail or succeed before halting,
 and Y is the percentage of jobs that has to fail or succeed before
 halting.
 Example:
 =over 23
 =item Z<> --halt now,fail=1
 exit when the first job fails. Kill running jobs.
 =item Z<> --halt soon,fail=3
 exit when 3 jobs fail, but wait for running jobs to complete.
 =item Z<> --halt soon,fail=3%
 exit when 3% of the jobs have failed, but wait for running jobs to complete.
 =item Z<> --halt now,success=1
 exit when a job succeeds. Kill running jobs.
 =item Z<> --halt soon,success=3
 exit when 3 jobs succeeds, but wait for running jobs to complete.
 =item Z<> --halt now,success=3%
 exit when 3% of the jobs have succeeded. Kill running jobs.
 =back
 For backwards compability these also work:
 =over 7
 =item Z<>0
-Do not halt if a job fails. Exit status will be the number of jobs
+never
 failed. This is the default.
 =item Z<>1
-Do not start new jobs if a job fails, but complete the running jobs
+soon,fail=1
 including cleanup. The exit status will be the exit status from the
 last failing job.
 =item Z<>2
-Kill off all jobs immediately and exit without cleanup. The exit
+now,fail=1
 status will be the exit status from the failing job.
 =item Z<>-1
-Do not start new jobs if a job succeeds, but complete the running jobs
+soon,success=1
 including cleanup. The exit status will be the exit status from the
 last failing job if any.
 =item Z<>-2
-Kill off all jobs immediately and exit without cleanup. The exit
+now,success=1
 status will be 0.
 =item Z<>1-99%
-If I<val>% of the jobs fail and minimum 3: Do not start new jobs, but
+soon,fail=1-99%
 complete the running jobs including cleanup. The exit status will be
 the exit status from the last failing job.
 =back
@ -809,10 +875,11 @@ See also B<--resume> B<--resume-failed>.
 =item B<-P> I<N>
-Number of jobslots. Run up to N jobs in parallel.  0 means as many as
+Number of jobslots on each machine. Run up to N jobs in parallel.  0
-possible. Default is 100% which will run one job per CPU core.
+means as many as possible. Default is 100% which will run one job per
 CPU core on each machine.
-If B<--semaphore> is set default is 1 thus making a mutex.
+If B<--semaphore> is set, the default is 1 thus making a mutex.
 =item B<--jobs> I<+N>
@ -917,6 +984,8 @@ Implies B<-X> unless B<-m>, B<--xargs>, or B<--pipe> is set.
 =item B<--line-buffer>
 =item B<--lb>
 Buffer output on line basis. B<--group> will keep the output together
 for a whole job. B<--ungroup> allows output to mixup with half a line
 coming from one job and half a line coming from another
@ -1065,6 +1134,9 @@ defaults to '\n'. To have no record separator use B<--recend "">.
 B<--files> is often used with B<--pipe>.
 B<--pipe> maxes out at around 1 GB/s input, and 100 MB/s output. If
 performance is important use B<--pipepart>.
 See also: B<--recstart>, B<--recend>, B<--fifo>, B<--cat>, B<--pipepart>.
@ -1077,7 +1149,8 @@ B<--pipe>, but is much faster. It has a few limitations:
 =item Z<>*
-The file must be a physical (seekable) file and must be given using B<-a> or B<::::>.
+The file must be a physical (seekable) file (not a stream) and must be
 given using B<-a> or B<::::>.
 =item Z<>*
@ -1384,6 +1457,17 @@ commands.
 See also B<--joblog>, B<--resume>.
 =item B<--retry-failed> (alpha testing)
 Retry all failed jobs in joblog. By reading B<--joblog> GNU
 B<parallel> will figure out the failed jobs and run those again.
 B<--retry-failed> ignore the command and arguments: It only looks at
 the joblog.
 See also B<--joblog>, B<--resume>, B<--resume-failed>.
 =item B<--retries> I<n>
 If a job fails, retry it on another computer on which it has not
@ -1498,7 +1582,7 @@ to do anything.
 Work as a counting semaphore. B<--semaphore> will cause GNU
 B<parallel> to start I<command> in the background. When the number of
-simultaneous jobs is reached, GNU B<parallel> will wait for one of
+jobs given by B<--jobs> is reached, GNU B<parallel> will wait for one of
 these to complete before starting another command.
 B<--semaphore> implies B<--bg> unless B<--fg> is specified.
@ -1616,7 +1700,7 @@ Does not run the command but quotes it. Useful for making quoted
 composed commands for GNU B<parallel>.
-=item B<--shuf> (beta testing)
+=item B<--shuf> (alpha testing)
 Shuffle jobs. When having multiple input sources it is hard to
 randomize jobs. --shuf will generate all jobs, and shuffle them before
@ -1630,6 +1714,13 @@ Do not use the first line of input (used by GNU B<parallel> itself
 when called with B<--shebang>).
 =item B<--ssh> I<sshcommand> (alpha testing)
 GNU B<parallel> defaults to using B<ssh> for remote access. This can
 be overridden with B<--ssh>. It can also be set on a per server
 basis (see B<--sshlogin>).
 =item B<--sshdelay> I<secs>
 Delay starting next ssh by I<secs> seconds. GNU B<parallel> will pause
@ -3390,6 +3481,14 @@ $SHELL. If undefined use:
 =back
 =item $PARALLEL_SSH (alpha testing)
 GNU B<parallel> defaults to using B<ssh> for remote access. This can
 be overridden with $PARALLEL_SSH, which again can be overridden with
 B<--ssh>. It can also be set on a per server basis (see
 B<--sshlogin>).
 =item $PARALLEL_SEQ
 $PARALLEL_SEQ will be set to the sequence number of the job
@ -3481,21 +3580,25 @@ remote computers:
 =head1 EXIT STATUS
-If B<--halt-on-error> 0 or not specified:
+Exit status depends on B<--halt-on-error> if one of these are used:
 success=X, success=Y%, fail=Y%.
 =over 6
 =item Z<>0
-All jobs ran without error.
+All jobs ran without error. If success=X is used: X jobs ran without
 error. If success=Y% is used: Y% of the jobs ran without error.
-=item Z<>1-253
+=item Z<>1-100
-Some of the jobs failed. The exit status gives the number of failed jobs
+Some of the jobs failed. The exit status gives the number of failed
 jobs. If Y% is used the exit status is the percentage of jobs that
 failed.
-=item Z<>254
+=item Z<>101
-More than 253 jobs failed.
+More than 100 jobs failed.
 =item Z<>255
@ -3503,7 +3606,8 @@ Other error.
 =back
-If B<--halt-on-error> 1 or 2: Exit status of the failing job.
+If fail=1 is used, the exit status will be the exit status of the
 failing job.
 =head1 DIFFERENCES BETWEEN GNU Parallel AND ALTERNATIVES
@ -3532,7 +3636,7 @@ Manipulation of input
 M3. Arguments can be put anywhere in the execution line
 M4. Multiple arguments can be put anywhere in the execution line
 M5. Arguments can be replaced with context
- M6. Input can be treated as complete execution line
+ M6. Input can be treated as the complete command line
 Outputs
 O1. Grouping output so output from different jobs do not mix
--- a/src/parallel_design.pod
+++ b/src/parallel_design.pod
@ -141,19 +141,29 @@ command.
 {unlink;rmdir;} if($bash=~s/h//) {exit$bash;} exit$csh;' "$?h"
 "$status" {});
-{} is really just a tmpfile. The Perl script saves the exit value,
+{} is set to $PARALLEL_TMP which is a tmpfile. The Perl script saves
-unlinks the tmpfile, and returns the exit value - no matter if the
+the exit value, unlinks the tmpfile, and returns the exit value - no
-shell is B<bash> (using $?) or B<*csh> (using $status).
+matter if the shell is B<bash> (using $?) or B<*csh> (using $status).
 =item --fifo
-(mkfifo {};
+perl -e '($s,$c,$f) = @ARGV;
- (<<input>> {};) & _PID=$!; cat > {};  wait $_PID; perl -e '$bash=shift; $csh=shift; for(@ARGV)
+system "mkfifo", $f;
-{unlink;rmdir;} if($bash=~s/h//) {exit$bash;} exit$csh;' "$?h"
+$pid = fork || exec $s, "-c", $c;
-"$status" {});
+open($o,">",$f) || die $!;
 while(sysread(STDIN,$buf,32768)){
 syswrite $o, $buf;
 }
 close $o;
 waitpid $pid,0;
 unlink $f;
 exit $?/256;' $shell <<input>> $PARALLEL_TMP
-B<wait $_PID> makes sure the exit value is from that PID. This makes it 
+This is an elaborate way of: mkfifo {}; run <<input>> in the
-incompatible with B<*csh>. The Perl script is the same as from B<--cat>.
+background using $shell; copying STDIN to {}; waiting for background
 to complete; remove {} and exit with the exit code from <<input>>.
 It is made this way to be compatible with B<*csh>.
 =item --sshlogin I<sln>
@ -249,8 +259,6 @@ For B<tmux 1.8> 17000 can be lowered to 2100.
 The interesting areas are title 0..1000 with (title + whole command)
 in 996..1127 and 9331..9636.
 =back
 The ordering of the wrapping is important:
--- a/src/parallel_tutorial.html
+++ b/src/parallel_tutorial.html
@ -55,6 +55,7 @@
  <li><a href="#Control-the-execution">Control the execution</a>
    <ul>
      <li><a href="#Number-of-simultaneous-jobs">Number of simultaneous jobs</a></li>
      <li><a href="#Shuffle-job-order">Shuffle job order</a></li>
      <li><a href="#Interactivity">Interactivity</a></li>
      <li><a href="#A-terminal-for-every-job">A terminal for every job</a></li>
      <li><a href="#Timing">Timing</a></li>
@ -93,6 +94,7 @@
  <li><a href="#Semaphore">Semaphore</a>
    <ul>
      <li><a href="#Counting-semaphore">Counting semaphore</a></li>
      <li><a href="#Timeout">Timeout</a></li>
    </ul>
  </li>
  <li><a href="#Informational">Informational</a></li>
@ -1068,6 +1070,16 @@
 <pre><code>  parallel --use-cpus-instead-of-cores -N0 sleep 1 :::: num8</code></pre>
 <h2 id="Shuffle-job-order">Shuffle job order</h2>
 <p>If you have many jobs (e.g. by multiple combinations of input sources), it can be handy to shuffle the jobs, so you get different values run.</p>
 <pre><code>  parallel --shuf echo ::: 1 2 3 ::: a b c ::: A B C</code></pre>
 <p>Output:</p>
 <pre><code>  All combinations but different order for each run.</code></pre>
 <h2 id="Interactivity">Interactivity</h2>
 <p>GNU Parallel can ask the user if a command should be run using --interactive:</p>
@ -1098,7 +1110,7 @@
 <p>This will tell you to run something similar to:</p>
-<pre><code>  tmux -S /tmp/paroRLCx.tms attach</code></pre>
+<pre><code>  tmux -S /tmp/tmsrPrO0 attach</code></pre>
 <p>Using normal tmux keystrokes (CTRL-b n or CTRL-b p) you can cycle between windows of the running jobs. When a job is finished it will pause for 10 seconds before closing the window.</p>
@ -1233,9 +1245,9 @@
 <h2 id="Termination">Termination</h2>
-<p>For certain jobs there is no need to continue if one of the jobs fails and has an exit code != 0. GNU Parallel will stop spawning new jobs with --halt 1:</p>
+<p>For certain jobs there is no need to continue if one of the jobs fails and has an exit code != 0. GNU Parallel will stop spawning new jobs with --halt soon,fail=1:</p>
-<pre><code>  parallel -j2 --halt 1 echo {}\; exit {} ::: 0 0 1 2 3</code></pre>
+<pre><code>  parallel -j2 --halt soon,fail=1 echo {}\; exit {} ::: 0 0 1 2 3</code></pre>
 <p>Output:</p>
@ -1248,9 +1260,9 @@
  parallel: Starting no more jobs. Waiting for 1 jobs to finish. This job failed:
  echo 2; exit 2</code></pre>
-<p>With --halt 2 the running jobs will be killed immediately:</p>
+<p>With --halt now,fail=1 the running jobs will be killed immediately:</p>
-<pre><code>  parallel -j2 --halt 2 echo {}\; exit {} ::: 0 0 1 2 3</code></pre>
+<pre><code>  parallel -j2 --halt now,fail=1 echo {}\; exit {} ::: 0 0 1 2 3</code></pre>
 <p>Output:</p>
@ -1260,23 +1272,38 @@
  parallel: This job failed:
  echo 1; exit 1</code></pre>
-<p>If --halt is given a percentage this percentage of the jobs must fail (though minimum 3) before GNU Parallel stops spawning more jobs:</p>
+<p>If --halt is given a percentage this percentage of the jobs must fail before GNU Parallel stops spawning more jobs:</p>
-<pre><code>  parallel -j2 --halt 20% echo {}\; exit {} ::: 0 0 1 2 3 4 5 6 7</code></pre>
+<pre><code>  parallel -j2 --halt soon,fail=20% echo {}\; exit {} ::: 0 1 2 3 4 5 6 7 8 9</code></pre>
 <p>Output:</p>
 <pre><code>  0
  0
  1
  parallel: This job failed:
  echo 1; exit 1
  2
  parallel: This job failed:
  echo 2; exit 2
  parallel: Starting no more jobs. Waiting for 1 jobs to finish.
  3
  parallel: This job failed:
  echo 3; exit 3</code></pre>
 <p>If you are looking for success instead of failures, you can use success:</p>
 <pre><code>  parallel -j2 --halt soon,success=1 echo {}\; exit {} ::: 1 2 3 0 4 5 6</code></pre>
 <p>Output:</p>
 <pre><code>  1
  2
  3
-  4
+  0
-  parallel: Starting no more jobs. Waiting for 2 jobs to finish. This job failed:
+  parallel: This job succeeded:
-      echo 4; exit 4
+  echo 0; exit 0
-  5
+  parallel: Starting no more jobs. Waiting for 1 jobs to finish.
-  parallel: Starting no more jobs. Waiting for 1 jobs to finish. This job failed:
+  4</code></pre>
      echo 5; exit 5</code></pre>
 <p>GNU Parallel can retry the command with --retries. This is useful if a command fails for unknown reasons now and then.</p>
@ -1382,6 +1409,12 @@
 <p>Output: Same as above.</p>
 <p>Or newline:</p>
 <pre><code>  # This gives a \n between $SERVER1 and $SERVER2
  SERVERS=&quot;`echo $SERVER1; echo $SERVER2`&quot;
  parallel -S &quot;$SERVERS&quot; echo ::: running on more hosts</code></pre>
 <p>The can also be read from a file (replace user@ with the user on $SERVER2):</p>
 <pre><code>  echo $SERVER1 &gt; nodefile
@ -1401,6 +1434,24 @@
 <pre><code>  force 4 cpus on server</code></pre>
 <p>Servers can be put into groups by prepending &#39;@groupname&#39; to the server and the group can then be selected by appending &#39;@groupname&#39; to the argument if using &#39;--hostgrp&#39;.</p>
 <pre><code>  parallel --hostgrp -S @grp1/$SERVER1 -S @grp2/SERVER2 echo {} ::: run_on_grp1@grp1 run_on_grp2@grp2</code></pre>
 <p>Output:</p>
 <pre><code>  run_on_grp1
  run_on_grp2</code></pre>
 <p>A host can be in multiple groups by separating groups with &#39;+&#39;, and you can force GNU <b>parallel</b> to limit the groups on which the command can be run with &#39;-S @groupname&#39;:</p>
 <pre><code>  parallel -S @grp1 -S @grp1+grp2/$SERVER1 -S @grp2/SERVER2 echo {} ::: run_on_grp1 also_grp1</code></pre>
 <p>Output:</p>
 <pre><code>  run_on_grp1
  also_grp1</code></pre>
 <h2 id="Transferring-files">Transferring files</h2>
 <p>GNU Parallel can transfer the files to be processed to the remote host. It does that using rsync.</p>
@ -1969,7 +2020,19 @@
 <p>GNU Parallel can work as a counting semaphore. This is slower and less efficient than its normal mode.</p>
-<p>An alias for &#39;parallel --semaphore&#39; is &#39;sem&#39;. The default is to allow only one program to run at a time (technically called a mutex). The program is started in the background. Use --wait for all &#39;sem&#39;s to finish:</p>
+<p>A counting semaphore is like a row of toilets. People needing a toilet can use any toilet, but if there are more people than toilets, they will have to wait for one of the toilets to be available.</p>
 <p>An alias for &#39;parallel --semaphore&#39; is &#39;sem&#39;.</p>
 <p>&#39;sem&#39; will follow a person to the toilets, wait until a toilet is available, leave the person in the toilet and exit.</p>
 <p>&#39;sem --fg&#39; will follow a person to the toilets, wait until a toilet is available, stay with the person in the toilet and exit when the person exits.</p>
 <p>&#39;sem --wait&#39; will wait for all persons to leave the toilets.</p>
 <p>&#39;sem&#39; does not have a queue discipline, so the next person is chosen randomly.</p>
 <p>-j sets the number of toilets. The default is to have only one toilet (technically this is called a mutex). The program is started in the background and &#39;sem&#39; exits immediately. Use --wait to wait for all &#39;sem&#39;s to finish:</p>
 <pre><code>  sem &#39;sleep 1; echo The first finished&#39; &amp;&amp;
    echo The first is now running in the background &amp;&amp;
@ -1984,7 +2047,7 @@
  The second is now running in the background
  The second finished</code></pre>
-<p>The command can be run in the foreground with --fg:</p>
+<p>The command can be run in the foreground with --fg, which will only exit when the command completes:</p>
 <pre><code>  sem --fg &#39;sleep 1; echo The first finished&#39; &amp;&amp;
    echo The first finished running in the foreground &amp;&amp;
@ -2027,6 +2090,25 @@
  The third finished
  The fourth finished</code></pre>
 <h2 id="Timeout">Timeout</h2>
 <p>With --semaphoretimeout you can force running the command anyway after a period (postive number) or give up (negative number):</p>
 <pre><code>  sem --id foo -u &#39;echo Slow started; sleep 5; echo Slow ended&#39; &amp;&amp;
  sem --id foo --semaphoretimeout 1 &#39;echo Force this running after 1 sec&#39; &amp;&amp;
  sem --id foo --semaphoretimeout -2 &#39;echo Give up after 1 sec&#39;
  sem --id foo --wait</code></pre>
 <p>Output:</p>
 <pre><code>  Slow started
  parallel: Warning: Semaphore timed out. Stealing the semaphore.
  Force this running after 1 sec
  Slow ended
  parallel: Warning: Semaphore timed out. Exiting.</code></pre>
 <p>Note how the &#39;Give up&#39; was not run.</p>
 <h1 id="Informational">Informational</h1>
 <p>GNU Parallel has some options to give short information about the configuration.</p>
--- a/src/parallel_tutorial.pod
+++ b/src/parallel_tutorial.pod
@ -996,6 +996,18 @@ GNU Parallel can base it on the number of CPUs:
  parallel --use-cpus-instead-of-cores -N0 sleep 1 :::: num8
 =head2 Shuffle job order
 If you have many jobs (e.g. by multiple combinations of input
 sources), it can be handy to shuffle the jobs, so you get different
 values run.
  parallel --shuf echo ::: 1 2 3 ::: a b c ::: A B C
 Output:
  All combinations but different order for each run.
 =head2 Interactivity
 GNU Parallel can ask the user if a command should be run using --interactive:
@ -1027,7 +1039,7 @@ Using tmux GNU Parallel can start a terminal for every job run:
 This will tell you to run something similar to:
-  tmux -S /tmp/paroRLCx.tms attach
+  tmux -S /tmp/tmsrPrO0 attach
 Using normal tmux keystrokes (CTRL-b n or CTRL-b p) you can cycle
 between windows of the running jobs. When a job is finished it will
@ -1178,9 +1190,9 @@ Note how seq 1 2 3 have been repeated because they had exit value != 0.
 For certain jobs there is no need to continue if one of the jobs fails
 and has an exit code != 0. GNU Parallel will stop spawning new jobs
-with --halt 1:
+with --halt soon,fail=1:
-  parallel -j2 --halt 1 echo {}\; exit {} ::: 0 0 1 2 3
+  parallel -j2 --halt soon,fail=1 echo {}\; exit {} ::: 0 0 1 2 3
 Output:
@ -1193,9 +1205,9 @@ Output:
  parallel: Starting no more jobs. Waiting for 1 jobs to finish. This job failed:
  echo 2; exit 2
-With --halt 2 the running jobs will be killed immediately:
+With --halt now,fail=1 the running jobs will be killed immediately:
-  parallel -j2 --halt 2 echo {}\; exit {} ::: 0 0 1 2 3
+  parallel -j2 --halt now,fail=1 echo {}\; exit {} ::: 0 0 1 2 3
 Output:
@ -1206,23 +1218,38 @@ Output:
  echo 1; exit 1
 If --halt is given a percentage this percentage of the jobs must fail
-(though minimum 3) before GNU Parallel stops spawning more jobs:
+before GNU Parallel stops spawning more jobs:
-  parallel -j2 --halt 20% echo {}\; exit {} ::: 0 0 1 2 3 4 5 6 7
+  parallel -j2 --halt soon,fail=20% echo {}\; exit {} ::: 0 1 2 3 4 5 6 7 8 9
 Output:
  0
  1
  parallel: This job failed:
  echo 1; exit 1
  2
  parallel: This job failed:
  echo 2; exit 2
  parallel: Starting no more jobs. Waiting for 1 jobs to finish.
  3
  parallel: This job failed:
  echo 3; exit 3
-  0
+If you are looking for success instead of failures, you can use success:
-  0
+
  parallel -j2 --halt soon,success=1 echo {}\; exit {} ::: 1 2 3 0 4 5 6
 Output:
  1
  2
  3
  0
  parallel: This job succeeded:
  echo 0; exit 0
  parallel: Starting no more jobs. Waiting for 1 jobs to finish.
  4
  parallel: Starting no more jobs. Waiting for 2 jobs to finish. This job failed:
      echo 4; exit 4
  5
  parallel: Starting no more jobs. Waiting for 1 jobs to finish. This job failed:
      echo 5; exit 5
 GNU Parallel can retry the command with --retries. This is useful if a
 command fails for unknown reasons now and then.
@ -1332,6 +1359,12 @@ Or they can be separated by ,:
 Output: Same as above.
 Or newline:
  # This gives a \n between $SERVER1 and $SERVER2
  SERVERS="`echo $SERVER1; echo $SERVER2`"
  parallel -S "$SERVERS" echo ::: running on more hosts
 The can also be read from a file (replace user@ with the user on $SERVER2):
  echo $SERVER1 > nodefile
@ -1352,6 +1385,28 @@ Output:
  force 4 cpus on server
 Servers can be put into groups by prepending '@groupname' to the
 server and the group can then be selected by appending '@groupname' to
 the argument if using '--hostgrp'.
  parallel --hostgrp -S @grp1/$SERVER1 -S @grp2/SERVER2 echo {} ::: run_on_grp1@grp1 run_on_grp2@grp2
 Output:
  run_on_grp1
  run_on_grp2
 A host can be in multiple groups by separating groups with '+', and
 you can force GNU B<parallel> to limit the groups on which the command
 can be run with '-S @groupname':
  parallel -S @grp1 -S @grp1+grp2/$SERVER1 -S @grp2/SERVER2 echo {} ::: run_on_grp1 also_grp1
 Output:
  run_on_grp1
  also_grp1
 =head2 Transferring files
 GNU Parallel can transfer the files to be processed to the remote
@ -1965,10 +2020,28 @@ This technique can be used for:
 GNU Parallel can work as a counting semaphore. This is slower and less
 efficient than its normal mode.
-An alias for 'parallel --semaphore' is 'sem'. The default is to allow
+A counting semaphore is like a row of toilets. People needing a toilet
-only one program to run at a time (technically called a mutex). The
+can use any toilet, but if there are more people than toilets, they
-program is started in the background. Use --wait for all 'sem's to
+will have to wait for one of the toilets to be available.
-finish:
+
 An alias for 'parallel --semaphore' is 'sem'.
 'sem' will follow a person to the toilets, wait until a toilet is
 available, leave the person in the toilet and exit.
 'sem --fg' will follow a person to the toilets, wait until a toilet is
 available, stay with the person in the toilet and exit when the person
 exits.
 'sem --wait' will wait for all persons to leave the toilets.
 'sem' does not have a queue discipline, so the next person is chosen
 randomly.
 -j sets the number of toilets. The default is to have only one toilet
 (technically this is called a mutex). The program is started in the
 background and 'sem' exits immediately. Use --wait to wait for all
 'sem's to finish:
  sem 'sleep 1; echo The first finished' &&
    echo The first is now running in the background &&
@ -1983,7 +2056,8 @@ Output:
  The second is now running in the background
  The second finished
-The command can be run in the foreground with --fg:
+The command can be run in the foreground with --fg, which will only
 exit when the command completes:
  sem --fg 'sleep 1; echo The first finished' &&
    echo The first finished running in the foreground &&
@ -2033,6 +2107,25 @@ Output:
  The third finished
  The fourth finished
 =head2 Timeout
 With --semaphoretimeout you can force running the command anyway after
 a period (postive number) or give up (negative number):
  sem --id foo -u 'echo Slow started; sleep 5; echo Slow ended' &&
  sem --id foo --semaphoretimeout 1 'echo Force this running after 1 sec' &&
  sem --id foo --semaphoretimeout -2 'echo Give up after 1 sec'
  sem --id foo --wait
 Output:
  Slow started
  parallel: Warning: Semaphore timed out. Stealing the semaphore.
  Force this running after 1 sec
  Slow ended
  parallel: Warning: Semaphore timed out. Exiting.
 Note how the 'Give up' was not run.
 =head1 Informational
--- a/src/sem.pod
+++ b/src/sem.pod
@ -12,11 +12,14 @@ B<sem> [--fg] [--id <id>] [--semaphoretimeout <secs>] [-j <num>] [--wait] comman
 GNU B<sem> is an alias for GNU B<parallel --semaphore>.
-It works as a tool for executing shell commands in parallel. GNU
+GNU B<sem> acts as a counting semaphore. When GNU B<sem> is called
-B<sem> acts as a counting semaphore. When GNU B<sem> is called with
+with command it starts the command in the background. When I<num>
-command it will start the command in the background. When I<num>
+number of commands are running in the background, GNU B<sem> waits for
-number of commands are running in the background, GNU B<sem> will wait
+one of these to complete before starting the command.
-for one of these to complete before starting another command.
+
 GNU B<sem> does not read any arguments to build the command (no -a,
 :::, and ::::). It simply waits for a semaphore to become available
 and then runs the command given.
 Before looking at the options you may want to check out the examples
 after the list of options. That will give you an idea of what GNU
@ -28,23 +31,21 @@ B<sem> is capable of.
 =item I<command>
-Command to execute. The command may be followed by arguments for the command.
+Command to execute. The command may be followed by arguments for the
 command.
 =item B<--bg>
-Run command in background thus GNU B<parallel> will not wait for
+Run command in background thus GNU B<sem> will not wait for
 completion of the command before exiting. This is the default.
 In toilet analogy: GNU B<sem> waits for a toilet to be available,
 gives the toilet to a person, and exits immediately.
 See also: B<--fg>
 =item B<-j> I<N>
 Run up to N commands in parallel. Default is 1 thus acting like a
 mutex.
 =item B<--jobs> I<N>
 =item B<-j> I<N>
@ -56,6 +57,8 @@ mutex.
 Run up to N commands in parallel. Default is 1 thus acting like a
 mutex.
 In toilet analogy: B<-j> is the number of toilets.
 =item B<--jobs> I<+N>
@ -122,29 +125,70 @@ are often a good value.
 The semaphore is stored in ~/.parallel/semaphores/
 In toilet analogy the name corresponds to different types of toilets:
 e.g. male, female, customer, staff.
 =item B<--fg>
 Do not put command in background.
 In toilet analogy: GNU B<sem> waits for a toilet to be available,
 takes a person to the toilet, waits for the person to finish, and
 exits.
 =item B<--semaphoretimeout> I<secs> (alpha testing)
 =item B<--st> I<secs> (alpha testing)
-If I<secs> > 0: If the semaphore is not released within I<secs> seconds, take it anyway.
+If I<secs> > 0: If the semaphore is not released within I<secs>
 seconds, take it anyway.
-If I<secs> < 0: If the semaphore is not released within I<secs> seconds, exit.
+If I<secs> < 0: If the semaphore is not released within I<secs>
 seconds, exit.
 In toilet analogy: I<secs> > 0: If no toilet becomes available within
 I<secs> seconds, pee on the floor. I<secs> < 0: If no toilet becomes
 available within I<secs> seconds, exit without doing anything.
 =item B<--wait>
 =item B<-w>
 Wait for all commands to complete.
 In toilet analogy: Wait until all toilets are empty, then exit.
 =back
 =head1 UNDERSTANDING A SEMAPHORE
 Try the following example:
  sem -j 2 'sleep 1;echo 1 finished';   echo sem 1 exited
  sem -j 2 'sleep 2;echo 2 finished';   echo sem 2 exited
  sem -j 2 'sleep 3;echo 3 finished';   echo sem 3 exited
  sem -j 2 'sleep 4;echo 4 finished';   echo sem 4 exited
  sem --wait; echo sem --wait done
 In toilet analogy this uses 2 toilets (B<-j 2>). GNU B<sem> takes '1'
 to a toilet, and exits immediately. While '1' is sleeping, another GNU
 B<sem> takes '2' to a toilet, and exits immediately.
 While '1' and '2' are sleeping, another GNU B<sem> waits for a free
 toilet. When '1' finishes, a toilet becomes available, and this GNU
 B<sem> stops waiting, and takes '3' to a toilet, and exits
 immediately.
 While '2' and '3' are sleeping, another GNU B<sem> waits for a free
 toilet.  When '2' finishes, a toilet becomes available, and this GNU
 B<sem> stops waiting, and takes '4' to a toilet, and exits
 immediately.
 Finally another GNU B<sem> waits for all toilets to become free.
 =head1 EXAMPLE: Gzipping *.log
 Run one gzip process per CPU core. Block until a CPU core becomes
@ -161,12 +205,32 @@ available.
 pod2html creates two files: pod2htmd.tmp and pod2htmi.tmp which it
 does not clean up. It uses these two files for a short time. But if
 you run multiple pod2html in parallel (e.g. in a Makefile with make
-j) you need to protect pod2html from running twice at the same
+-j) there is a risk that two different instances of pod2html will
-time. B<sem> running as a mutex will do just that:
+write to the files at the same time:
-  sem --fg --id pod2html pod2html foo.pod > foo.html
+  # This may fail due to shared pod2htmd.tmp/pod2htmi.tmp files
-  sem --fg --id pod2html rm -f pod2htmd.tmp pod2htmi.tmp
+  foo.html:
          pod2html foo.pod --outfile foo.html
  bar.html:
          pod2html bar.pod --outfile bar.html
  $ make -j foo.html bar.html
 You need to protect pod2html from running twice at the same time.
 B<sem> running as a mutex will make sure only one runs:
  foo.html:
          sem --id pod2html pod2html foo.pod --outfile foo.html
  bar.html:
          sem --id pod2html pod2html bar.pod --outfile bar.html
  clean: foo.html bar.html
          sem --id pod2html --wait
          rm -f pod2htmd.tmp pod2htmi.tmp
  $ make -j foo.html bar.html clean
 =head1 BUGS
--- a/testsuite/Start.sh
+++ b/testsuite/Start.sh
@ -10,21 +10,22 @@ export TIMEOUT=$MAX_SEC_PER_TEST
 run_test() {
  script="$1"
  base=`basename "$script" .sh`
-  export TMPDIR=/tmp/$base
+  export TMPDIR=/tmp/"$base"
  mkdir -p "$TMPDIR"
  if [ "$TRIES" = "3" ] ; then
    # Try 3 times
-    bash $script > actual-results/$base
+    bash "$script" > actual-results/"$base"
-    diff -Naur wanted-results/$base actual-results/$base >/dev/null ||
+    diff -Naur wanted-results/"$base" actual-results/"$base" >/dev/null ||
-      bash $script > actual-results/$base
+      bash "$script" > actual-results/"$base"
-    diff -Naur wanted-results/$base actual-results/$base >/dev/null ||
+    diff -Naur wanted-results/"$base" actual-results/"$base" >/dev/null ||
-      bash $script > actual-results/$base
+      bash "$script" > actual-results/"$base"
-    diff -Naur wanted-results/$base actual-results/$base ||
+    diff -Naur wanted-results/"$base" actual-results/"$base" ||
-      (touch $script && echo touch $script)
+      (touch "$script" && echo touch "$script")
  else
    # Run only once
-    bash $script > actual-results/$base
+    bash "$script" > actual-results/"$base"
-    diff -Naur wanted-results/$base actual-results/$base ||
+    diff -Naur wanted-results/"$base" actual-results/"$base" ||
-      (touch $script && echo touch $script)
+      (touch "$script" && echo touch "$script")
  fi
  # Check if it was cleaned up
--- a/testsuite/tests-to-run/parallel-local-0.3s.sh
+++ b/testsuite/tests-to-run/parallel-local-0.3s.sh
@ -148,6 +148,16 @@ echo '**'
 parallel --halt 2 ::: 'sleep 1' burnP6 false; killall burnP6 && echo ERROR: burnP6 should be killed
 parallel --halt -2 ::: 'sleep 1' burnP5 true; killall burnP5 && echo ERROR: burnP5 should be killed
 parallel --halt error echo ::: should not print
 parallel --halt soon echo ::: should not print
 parallel --halt now echo ::: should not print
 echo '**'
 echo '### bug #44995: parallel echo {#} ::: 1 2 ::: 1 2'
 parallel -k echo {#} ::: 1 2 ::: 1 2
 EOF
 echo '### 1 .par file from --files expected'
 find /tmp{/*,}/*.{par,tms,tmx} 2>/dev/null -mmin -10 | wc -l
--- a/testsuite/tests-to-run/parallel-local-1s.sh
+++ b/testsuite/tests-to-run/parallel-local-1s.sh
@ -0,0 +1,10 @@
 #!/bin/bash
 # Simple jobs that never fails
 # Each should be taking 1-3s and be possible to run in parallel
 # I.e.: No race conditions, no logins
 cat <<'EOF' | sed -e 's/;$/; /;s/$SERVER1/'$SERVER1'/;s/$SERVER2/'$SERVER2'/' | stdout parallel -vj0 -k --joblog /tmp/jl-`basename $0` -L1
 echo '### Test --fifo under csh'
  csh -c "seq 3000000 | parallel -k --pipe --fifo 'sleep .{#};cat {}|wc -c ; false; echo \$status; false'"; echo exit $?
 EOF
--- a/testsuite/tests-to-run/parallel-local-3s.sh
+++ b/testsuite/tests-to-run/parallel-local-3s.sh
@ -14,6 +14,7 @@ echo '**'
 echo '### Test --halt-on-error 0'; 
  (echo "sleep 1;true"; echo "sleep 2;false";echo "sleep 3;true") | parallel -j10 --halt-on-error 0; 
  echo $?; 
  (echo "sleep 1;true"; echo "sleep 2;false";echo "sleep 3;true";echo "sleep 4; non_exist") | parallel -j10 --halt 0; 
  echo $?
@ -22,7 +23,8 @@ echo '**'
 echo '### Test --halt-on-error 1'; 
  (echo "sleep 1;true"; echo "sleep 2;false";echo "sleep 3;true") | parallel -j10 --halt-on-error 1; 
  echo $?; 
-  (echo "sleep 1;true"; echo "sleep 2;false";echo "sleep 3;true";echo "sleep 4; non_exist") | parallel -j10 --halt 1; 
+
  (echo "sleep 1;true"; echo "sleep 2; non_exist";echo "sleep 3;true";echo "sleep 4; false") | parallel -j10 --halt 1; 
  echo $?
 echo '**'
@ -30,6 +32,7 @@ echo '**'
 echo '### Test --halt-on-error 2'; 
  (echo "sleep 1;true"; echo "sleep 2;false";echo "sleep 3;true") | parallel -j10 --halt-on-error 2; 
  echo $?; 
  (echo "sleep 1;true"; echo "sleep 2;false";echo "sleep 3;true";echo "sleep 4; non_exist") | parallel -j10 --halt 2; 
  echo $?
@ -38,6 +41,7 @@ echo '**'
 echo '### Test --halt -1'; 
  (echo "sleep 1;false"; echo "sleep 2;true";echo "sleep 3;false") | parallel -j10 --halt-on-error -1; 
  echo $?; 
  (echo "sleep 1;false"; echo "sleep 2;true";echo "sleep 3;false";echo "sleep 4; non_exist") | parallel -j10 --halt -1; 
  echo $?
@ -46,29 +50,43 @@ echo '**'
 echo '### Test --halt -2'; 
  (echo "sleep 1;false"; echo "sleep 2;true";echo "sleep 3;false") | parallel -j10 --halt-on-error -2; 
  echo $?; 
  (echo "sleep 1;false"; echo "sleep 2;true";echo "sleep 3;false";echo "sleep 4; non_exist") | parallel -j10 --halt -2; 
  echo $?
 echo '**'
-echo '### Test last dying print --halt-on-error 1'; 
+echo '### Test first dying print --halt-on-error 1'; 
-  (seq 0 8;echo 0; echo 9) | parallel -j10 -kq --halt 1 perl -e 'sleep $ARGV[0];print STDERR @ARGV,"\n"; exit shift'; 
+  (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 $?
 echo '### Test last dying print --halt-on-error 2'; 
-  (seq 0 8;echo 0; echo 9) | parallel -j10 -kq --halt 2 perl -e 'sleep $ARGV[0];print STDERR @ARGV,"\n"; exit shift'; 
+  (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 $?
 echo '### Test last dying print --halt-on-error -1'; 
-  (seq 0 8;echo 0; echo 9) | parallel -j10 -kq --halt -1 perl -e 'sleep $ARGV[0];print STDERR @ARGV,"\n"; exit not shift'; 
+  (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 $?
 echo '### Test last dying print --halt-on-error -2'; 
-  (seq 0 8;echo 0; echo 9) | parallel -j10 -kq --halt -2 perl -e 'sleep $ARGV[0];print STDERR @ARGV,"\n"; exit not shift'; 
+  (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 $?
 echo '**'
 testhalt() { 
  echo '### testhalt --halt '$1; 
  (yes 0 | head -n 10; seq 10) | stdout parallel -kj4 --halt $1 'sleep {= $_*=0.3 =}; exit {}'; echo $?; 
  (seq 10; yes 0 | head -n 10) | stdout parallel -kj4 --halt $1 'sleep {= $_*=0.3 =}; exit {}'; echo $?; 
 }; 
 export -f testhalt; 
  parallel -kj0 testhalt ::: now,fail=0 now,fail=1 now,fail=2 now,fail=30%  now,fail=70% 
    soon,fail=0 soon,fail=1 soon,fail=2 soon,fail=30% soon,fail=70% 
    now,success=0 now,success=1 now,success=2 now,success=30% now,success=70% 
    soon,success=0 soon,success=1 soon,success=2 soon,success=30% now,success=70%
 echo '**'
 echo '### Test slow arguments generation - https://savannah.gnu.org/bugs/?32834'; 
  seq 1 3 | parallel -j1 "sleep 2; echo {}" | parallel -kj2 echo
@ -78,7 +96,7 @@ echo '### Are children killed if GNU Parallel receives TERM twice? There should
  parallel -q bash -c 'sleep 120 & pid=$!; wait $pid' ::: 1 & 
    T=$!; 
-    sleep 1; 
+    sleep 2; 
    pstree $$; 
    kill -TERM $T; 
    sleep 1; 
@ -93,7 +111,7 @@ echo '### Are children killed if GNU Parallel receives INT twice? There should b
  parallel -q bash -c 'sleep 120 & pid=$!; wait $pid' ::: 1 & 
    T=$!; 
-    sleep 1; 
+    sleep 2; 
    pstree $$; 
    kill -INT $T; 
    sleep 1; 
--- a/testsuite/tests-to-run/parallel-local-ssh1.sh
+++ b/testsuite/tests-to-run/parallel-local-ssh1.sh
@ -61,6 +61,16 @@ echo '### bug #40001: --joblog and --nonall seem not to work together:'
 echo '### bug #40132: FreeBSD: --workdir . gives warning if . == $HOME'
  cd && parallel --workdir . -S lo pwd ::: ""
 echo '### use function as $PARALLEL_SSH'
  foossh() { echo "FOOSSH" >&2; ssh "$@"; }; 
  export -f foossh; 
  PARALLEL_SSH=foossh parallel -S 1/lo echo ::: 'Run through FOOSSH?'
 echo '### use --ssh'
  barssh() { echo "BARSSH" >&2; ssh "$@"; }; 
  export -f barssh; 
  parallel --ssh barssh -S 1/lo echo ::: 'Run through BARSSH?'
 echo '### test filename :'
  echo content-of-: > :; 
  echo : | parallel -j1 --trc {}.{.} -S parallel@lo '(echo remote-{}.{.};cat {}) > {}.{.}'; 
--- a/testsuite/tests-to-run/parallel-local-ssh2.sh
+++ b/testsuite/tests-to-run/parallel-local-ssh2.sh
@ -3,7 +3,7 @@
 # /tmp/parallel-local-ssh2 will by default be owned by me and should be writable by *@localhost
 chmod 777 "$TMPDIR" 2>/dev/null
-cat <<'EOF' | sed -e s/\$SERVER1/$SERVER1/\;s/\$SERVER2/$SERVER2/ | stdout parallel -vj5 -k --joblog /tmp/jl-`basename $0` -L1
+cat <<'EOF' | sed -e s/\$SERVER1/$SERVER1/\;s/\$SERVER2/$SERVER2/ | stdout parallel -vj5 --retries 3 -k --joblog /tmp/jl-`basename $0` -L1
 echo "### bug #43518: GNU Parallel doesn't obey servers' jobs capacity when an ssh login file is reloaded"
  # Pre-20141106 Would reset the number of jobs run on all sshlogin if --slf changed
  # Thus must take at least 25 sec to run
--- a/testsuite/tests-to-run/parallel-local22.sh
+++ b/testsuite/tests-to-run/parallel-local22.sh
@ -72,7 +72,7 @@ echo '### bug #42892: parallel -a nonexiting --pipepart'
 echo '### bug #42913: Dont use $SHELL but the shell currently running'
  echo '## Unknown shell => $SHELL (bash)'
  parallel -j1 "cp \`which {}\` /tmp/SHELL; /tmp/SHELL -c 'parallel -Dinit echo ::: 1' | grep which;" 
-  ::: ash bash csh dash fdsh fish fizsh ksh ksh93 mksh pdksh posh rbash rush rzsh sash sh static-sh tcsh yash zsh; 
+  ::: ash bash csh dash fish fizsh ksh ksh93 mksh pdksh posh rbash rush rzsh sash sh static-sh tcsh yash zsh; 
  rm -f /tmp/SHELL /tmp/par*.par
  echo '## Known shells -c'
--- a/testsuite/tests-to-run/parallel-local4.sh
+++ b/testsuite/tests-to-run/parallel-local4.sh
@ -2,7 +2,7 @@
 cat <<'EOF' | sed -e 's/;$/; /;s/$SERVER1/'$SERVER1'/;s/$SERVER2/'$SERVER2'/' | stdout parallel -vj0 -k --joblog /tmp/jl-`basename $0` -L1
 echo '### bug #36595: silent loss of input with --pipe and --sshlogin'
-  seq 10000 | xargs | parallel --pipe -S 10/localhost cat | wc
+  seq 10000 | xargs | parallel --pipe -S 10/localhost cat 2>/dev/null | wc
 echo 'bug #36707: --controlmaster eats jobs'
  seq 2 | parallel -k --controlmaster --sshlogin localhost echo OK{}
--- a/testsuite/tests-to-run/parallel-local7.sh
+++ b/testsuite/tests-to-run/parallel-local7.sh
@ -7,7 +7,7 @@ par_tmux_filter() {
 export -f par_tmux_filter
 par_tmux() {
-    (stdout parallel --timeout 3 --tmux --delay .3 echo '{}{=$_="\\"x$_=}'; echo $?) | par_tmux_filter
+    (stdout parallel --timeout 3 --tmux --delay .4 echo '{}{=$_="\\"x$_=}'; echo $?) | par_tmux_filter
 }
 export -f par_tmux
 cat <<'EOF' | sed -e 's/;$/; /;s/$SERVER1/'$SERVER1'/;s/$SERVER2/'$SERVER2'/' | stdout parallel -vj0 --timeout 60 --retries 2 -k --joblog /tmp/jl-`basename $0` -L1
--- a/testsuite/tests-to-run/parallel-tutorial.sh
+++ b/testsuite/tests-to-run/parallel-tutorial.sh
@ -33,6 +33,10 @@ perl -ne '$/="\n\n"; /^Output/../^[^O]\S/ and next; /^  / and print;' ../../src/
            s/... ... .. ..:..:.. \D+ ..../DATE OUTPUT/;
            # Timestamp from --joblog
            s/\d{10}.\d{3}\s+..\d+/TIMESTAMP\t9.999/g;
            # Version
            s/201\d{5}/VERSION/g;
            # [123] [abc] [ABC]
            s/^[123] [abc] [ABC]$/123 abc ABC/g;
            # Remote script
            s/(PARALLEL_PID\D+)\d+/${1}000000/g;
            # /usr/bin/time -f %e
--- a/testsuite/wanted-results/parallel-freebsd
+++ b/testsuite/wanted-results/parallel-freebsd
@ -58,7 +58,7 @@ bash -c 'echo bug \#43358: shellshock breaks exporting functions using --env _;
 bug #43358: shellshock breaks exporting functions using --env _
 Non-shellshock-hardened to non-shellshock-hardened
 Function non-shellshock-hardened
-parallel: Warning: Shell functions may not be supported in bash
+parallel: Warning: Shell functions may not be supported in bash.
 bash -c 'echo bug \#43358: shellshock breaks exporting functions using --env _;   echo Non-shellshock-hardened to shellshock-hardened;   funky() { echo Function $1; };   export -f funky;   parallel --env funky -S parallel@192.168.1.72 funky ::: shellshock-hardened'
 bug #43358: shellshock breaks exporting functions using --env _
 Non-shellshock-hardened to shellshock-hardened
--- a/testsuite/wanted-results/parallel-local-0.3s
+++ b/testsuite/wanted-results/parallel-local-0.3s
@ -317,5 +317,20 @@ parallel --halt -2 ::: 'sleep 1' burnP5 true; killall burnP5 && echo ERROR: burn
 parallel: This job succeeded:
 true
 burnP5: no process found
 parallel --halt error echo ::: should not print
 parallel: Error: --halt must have 'never', 'soon', or 'now'.
 parallel --halt soon echo ::: should not print
 parallel: Error: --halt soon must be followed by ,success or ,fail.
 parallel --halt now echo ::: should not print
 parallel: Error: --halt now must be followed by ,success or ,fail.
 echo '**'
 **
 echo '### bug #44995: parallel echo {#} ::: 1 2 ::: 1 2'
 ### bug #44995: parallel echo {#} ::: 1 2 ::: 1 2
 parallel -k echo {#} ::: 1 2 ::: 1 2
 1
 2
 3
 4
 ### 1 .par file from --files expected
 1
--- a/testsuite/wanted-results/parallel-local-100s
+++ b/testsuite/wanted-results/parallel-local-100s
@ -9,7 +9,8 @@ echo "### Test Force outside the file handle limit, 2009-02-17 Gave fork error"
 ### Test Force outside the file handle limit, 2009-02-17 Gave fork error
  (echo echo Start; seq 1 20000 | perl -pe 's/^/true /'; echo echo end) | stdout parallel -uj 0 | egrep -v 'processes took|adjusting'
 parallel: Warning: Only enough file handles to run 252 jobs in parallel.
-Running 'parallel -j0 -N252 --pipe parallel -j0' or raising ulimit -n or /etc/security/limits.conf may help.
+parallel: Warning: Running 'parallel -j0 -N 252 --pipe parallel -j0' or 
 parallel: Warning: raising ulimit -n or /etc/security/limits.conf may help.
 Start
 end
 echo '**'
--- a/testsuite/wanted-results/parallel-local-1s
+++ b/testsuite/wanted-results/parallel-local-1s
@ -0,0 +1,48 @@
 echo '### Test --fifo under csh'
 ### Test --fifo under csh
  csh -c "seq 3000000 | parallel -k --pipe --fifo 'sleep .{#};cat {}|wc -c ; false; echo \$status; false'"; echo exit $?
 1048571
 1
 1048579
 1
 1048572
 1
 1048579
 1
 1048579
 1
 1048572
 1
 1048580
 1
 1048576
 1
 1048576
 1
 1048576
 1
 1048576
 1
 1048576
 1
 1048576
 1
 1048576
 1
 1048576
 1
 1048576
 1
 1048576
 1
 1048576
 1
 1048576
 1
 1048576
 1
 1048576
 1
 868800
 1
 exit 22
--- a/testsuite/wanted-results/parallel-local-3s
+++ b/testsuite/wanted-results/parallel-local-3s
@ -13,17 +13,19 @@ echo '### Test --halt-on-error 0';   (echo "sleep 1;true"; echo "sleep 2;false";
 /bin/bash: non_exist: command not found
 echo '**'
 **
-echo '### Test --halt-on-error 1';   (echo "sleep 1;true"; echo "sleep 2;false";echo "sleep 3;true") | parallel -j10 --halt-on-error 1;   echo $?;   (echo "sleep 1;true"; echo "sleep 2;false";echo "sleep 3;true";echo "sleep 4; non_exist") | parallel -j10 --halt 1;   echo $?
+echo '### Test --halt-on-error 1';   (echo "sleep 1;true"; echo "sleep 2;false";echo "sleep 3;true") | parallel -j10 --halt-on-error 1;   echo $?;   (echo "sleep 1;true"; echo "sleep 2; non_exist";echo "sleep 3;true";echo "sleep 4; false") | parallel -j10 --halt 1;   echo $?
 ### Test --halt-on-error 1
 1
 127
-parallel: Starting no more jobs. Waiting for 2 jobs to finish. This job failed:
+parallel: This job failed:
 sleep 2;false
 parallel: Starting no more jobs. Waiting for 3 jobs to finish. This job failed:
 sleep 2;false
 parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 /bin/bash: non_exist: command not found
-parallel: Starting no more jobs. Waiting for 1 jobs to finish. This job failed:
+parallel: This job failed:
-sleep 4; non_exist
+sleep 2; non_exist
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 parallel: This job failed:
 sleep 4; false
 echo '**'
 **
 echo '### Test --halt-on-error 2';   (echo "sleep 1;true"; echo "sleep 2;false";echo "sleep 3;true") | parallel -j10 --halt-on-error 2;   echo $?;   (echo "sleep 1;true"; echo "sleep 2;false";echo "sleep 3;true";echo "sleep 4; non_exist") | parallel -j10 --halt 2;   echo $?
@ -40,10 +42,12 @@ echo '### Test --halt -1';   (echo "sleep 1;false"; echo "sleep 2;true";echo "sl
 ### Test --halt -1
 0
 0
-parallel: Starting no more jobs. Waiting for 2 jobs to finish. This job succeeded:
+parallel: This job succeeded:
 sleep 2;true
-parallel: Starting no more jobs. Waiting for 3 jobs to finish. This job succeeded:
+parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 parallel: This job succeeded:
 sleep 2;true
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 /bin/bash: non_exist: command not found
 echo '**'
 **
@ -57,86 +61,597 @@ parallel: This job succeeded:
 sleep 2;true
 echo '**'
 **
-echo '### Test last dying print --halt-on-error 1';   (seq 0 8;echo 0; echo 9) | parallel -j10 -kq --halt 1 perl -e 'sleep $ARGV[0];print STDERR @ARGV,"\n"; exit shift';   echo exit code $?
+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 $?
-### Test last dying print --halt-on-error 1
+### Test first dying print --halt-on-error 1
-exit code 9
+exit code 1
 0
 parallel: This job failed:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ shift 1
 parallel: Starting no more jobs. Waiting for 8 jobs to finish.
 parallel: This job failed:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ shift 2
 parallel: Starting no more jobs. Waiting for 7 jobs to finish.
 3
 0
 1
 parallel: Starting no more jobs. Waiting for 9 jobs to finish. This job failed:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ shift 1
 2
-parallel: Starting no more jobs. Waiting for 8 jobs to finish. This job failed:
+parallel: This job failed:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ shift 2
 3
 parallel: Starting no more jobs. Waiting for 7 jobs to finish. This job failed:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ shift 3
 parallel: Starting no more jobs. Waiting for 6 jobs to finish.
 3
 parallel: This job failed:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ shift 3
 parallel: Starting no more jobs. Waiting for 5 jobs to finish.
 4
-parallel: Starting no more jobs. Waiting for 6 jobs to finish. This job failed:
+parallel: This job failed:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ shift 4
 parallel: Starting no more jobs. Waiting for 4 jobs to finish.
 5
-parallel: Starting no more jobs. Waiting for 5 jobs to finish. This job failed:
+parallel: This job failed:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ shift 5
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 6
-parallel: Starting no more jobs. Waiting for 4 jobs to finish. This job failed:
+parallel: This job failed:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ shift 6
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 7
 parallel: Starting no more jobs. Waiting for 3 jobs to finish. This job failed:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ shift 7
 8
 0
-parallel: Starting no more jobs. Waiting for 2 jobs to finish. This job failed:
+parallel: This job failed:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ shift 7
 parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 8
 parallel: This job failed:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ shift 8
-9
+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 $?
 parallel: Starting no more jobs. Waiting for 1 jobs to finish. This job failed:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ shift 9
 echo '### Test last dying print --halt-on-error 2';   (seq 0 8;echo 0; echo 9) | parallel -j10 -kq --halt 2 perl -e 'sleep $ARGV[0];print STDERR @ARGV,"\n"; exit shift';   echo exit code $?
 ### Test last dying print --halt-on-error 2
 exit code 1
 0
 1
 parallel: This job failed:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ shift 1
-echo '### Test last dying print --halt-on-error -1';   (seq 0 8;echo 0; echo 9) | parallel -j10 -kq --halt -1 perl -e 'sleep $ARGV[0];print STDERR @ARGV,"\n"; exit not shift';   echo exit code $?
+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 $?
 ### Test last dying print --halt-on-error -1
 exit code 0
 0
-1
+parallel: This job succeeded:
 parallel: Starting no more jobs. Waiting for 9 jobs to finish. This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 1
-2
+parallel: Starting no more jobs. Waiting for 8 jobs to finish.
-parallel: Starting no more jobs. Waiting for 8 jobs to finish. This job succeeded:
+parallel: This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 2
 parallel: Starting no more jobs. Waiting for 7 jobs to finish.
 3
 parallel: Starting no more jobs. Waiting for 7 jobs to finish. This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 3
 4
 parallel: Starting no more jobs. Waiting for 6 jobs to finish. This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 4
 5
 parallel: Starting no more jobs. Waiting for 5 jobs to finish. This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 5
 6
 parallel: Starting no more jobs. Waiting for 4 jobs to finish. This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 6
 7
 parallel: Starting no more jobs. Waiting for 3 jobs to finish. This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 7
 8
 0
-parallel: Starting no more jobs. Waiting for 2 jobs to finish. This job succeeded:
+1
 2
 parallel: This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 3
 parallel: Starting no more jobs. Waiting for 6 jobs to finish.
 3
 parallel: This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 3
 parallel: Starting no more jobs. Waiting for 5 jobs to finish.
 4
 parallel: This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 4
 parallel: Starting no more jobs. Waiting for 4 jobs to finish.
 5
 parallel: This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 5
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 6
 parallel: This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 6
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 7
 0
 parallel: This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 7
 parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 8
 parallel: This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 8
-9
+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 $?
 parallel: Starting no more jobs. Waiting for 1 jobs to finish. This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 9
 echo '### Test last dying print --halt-on-error -2';   (seq 0 8;echo 0; echo 9) | parallel -j10 -kq --halt -2 perl -e 'sleep $ARGV[0];print STDERR @ARGV,"\n"; exit not shift';   echo exit code $?
 ### Test last dying print --halt-on-error -2
 exit code 0
 0
 1
 parallel: This job succeeded:
 perl -e sleep\ \$ARGV\[0\]\;print\ STDERR\ @ARGV,\"\\n\"\;\ exit\ not\ shift 1
 echo '**'
 **
 testhalt() {   echo '### testhalt --halt '$1;   (yes 0 | head -n 10; seq 10) | stdout parallel -kj4 --halt $1 'sleep {= $_*=0.3 =}; exit {}'; echo $?;   (seq 10; yes 0 | head -n 10) | stdout parallel -kj4 --halt $1 'sleep {= $_*=0.3 =}; exit {}'; echo $?; }; export -f testhalt;   parallel -kj0 testhalt ::: now,fail=0 now,fail=1 now,fail=2 now,fail=30%  now,fail=70%     soon,fail=0 soon,fail=1 soon,fail=2 soon,fail=30% soon,fail=70%     now,success=0 now,success=1 now,success=2 now,success=30% now,success=70%     soon,success=0 soon,success=1 soon,success=2 soon,success=30% now,success=70%
 ### testhalt --halt now,fail=0
 parallel: This job failed:
 sleep 0.3; exit 1
 0
 parallel: This job failed:
 sleep 0.3; exit 1
 0
 ### testhalt --halt now,fail=1
 parallel: This job failed:
 sleep 0.3; exit 1
 1
 parallel: This job failed:
 sleep 0.3; exit 1
 1
 ### testhalt --halt now,fail=2
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: This job failed:
 sleep 0.6; exit 2
 2
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: This job failed:
 sleep 0.6; exit 2
 2
 ### testhalt --halt now,fail=30%
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: This job failed:
 sleep 0.6; exit 2
 parallel: This job failed:
 sleep 0.9; exit 3
 parallel: This job failed:
 sleep 1.2; exit 4
 parallel: This job failed:
 sleep 1.5; exit 5
 parallel: This job failed:
 sleep 1.8; exit 6
 30
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: This job failed:
 sleep 0.6; exit 2
 parallel: This job failed:
 sleep 0.9; exit 3
 parallel: This job failed:
 sleep 1.2; exit 4
 parallel: This job failed:
 sleep 1.5; exit 5
 parallel: This job failed:
 sleep 1.8; exit 6
 30
 ### testhalt --halt now,fail=70%
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: This job failed:
 sleep 0.6; exit 2
 parallel: This job failed:
 sleep 0.9; exit 3
 parallel: This job failed:
 sleep 1.2; exit 4
 parallel: This job failed:
 sleep 1.5; exit 5
 parallel: This job failed:
 sleep 1.8; exit 6
 parallel: This job failed:
 sleep 2.1; exit 7
 parallel: This job failed:
 sleep 2.4; exit 8
 parallel: This job failed:
 sleep 2.7; exit 9
 parallel: This job failed:
 sleep 3; exit 10
 50
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: This job failed:
 sleep 0.6; exit 2
 parallel: This job failed:
 sleep 0.9; exit 3
 parallel: This job failed:
 sleep 1.2; exit 4
 parallel: This job failed:
 sleep 1.5; exit 5
 parallel: This job failed:
 sleep 1.8; exit 6
 parallel: This job failed:
 sleep 2.1; exit 7
 parallel: This job failed:
 sleep 2.4; exit 8
 parallel: This job failed:
 sleep 2.7; exit 9
 parallel: This job failed:
 sleep 3; exit 10
 50
 ### testhalt --halt soon,fail=0
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 parallel: This job failed:
 sleep 0.6; exit 2
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 parallel: This job failed:
 sleep 0.9; exit 3
 parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 parallel: This job failed:
 sleep 1.2; exit 4
 0
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 parallel: This job failed:
 sleep 0.6; exit 2
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 parallel: This job failed:
 sleep 0.9; exit 3
 parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 parallel: This job failed:
 sleep 1.2; exit 4
 0
 ### testhalt --halt soon,fail=1
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 parallel: This job failed:
 sleep 0.6; exit 2
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 parallel: This job failed:
 sleep 0.9; exit 3
 parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 parallel: This job failed:
 sleep 1.2; exit 4
 1
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 parallel: This job failed:
 sleep 0.6; exit 2
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 parallel: This job failed:
 sleep 0.9; exit 3
 parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 parallel: This job failed:
 sleep 1.2; exit 4
 1
 ### testhalt --halt soon,fail=2
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: This job failed:
 sleep 0.6; exit 2
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 parallel: This job failed:
 sleep 0.9; exit 3
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 parallel: This job failed:
 sleep 1.2; exit 4
 parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 parallel: This job failed:
 sleep 1.5; exit 5
 2
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: This job failed:
 sleep 0.6; exit 2
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 parallel: This job failed:
 sleep 0.9; exit 3
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 parallel: This job failed:
 sleep 1.2; exit 4
 parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 parallel: This job failed:
 sleep 1.5; exit 5
 2
 ### testhalt --halt soon,fail=30%
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: This job failed:
 sleep 0.6; exit 2
 parallel: This job failed:
 sleep 0.9; exit 3
 parallel: This job failed:
 sleep 1.2; exit 4
 parallel: This job failed:
 sleep 1.5; exit 5
 parallel: This job failed:
 sleep 1.8; exit 6
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 parallel: This job failed:
 sleep 2.1; exit 7
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 parallel: This job failed:
 sleep 2.4; exit 8
 parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 parallel: This job failed:
 sleep 2.7; exit 9
 30
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: This job failed:
 sleep 0.6; exit 2
 parallel: This job failed:
 sleep 0.9; exit 3
 parallel: This job failed:
 sleep 1.2; exit 4
 parallel: This job failed:
 sleep 1.5; exit 5
 parallel: This job failed:
 sleep 1.8; exit 6
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 parallel: This job failed:
 sleep 2.1; exit 7
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 parallel: This job failed:
 sleep 2.4; exit 8
 parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 parallel: This job failed:
 sleep 2.7; exit 9
 30
 ### testhalt --halt soon,fail=70%
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: This job failed:
 sleep 0.6; exit 2
 parallel: This job failed:
 sleep 0.9; exit 3
 parallel: This job failed:
 sleep 1.2; exit 4
 parallel: This job failed:
 sleep 1.5; exit 5
 parallel: This job failed:
 sleep 1.8; exit 6
 parallel: This job failed:
 sleep 2.1; exit 7
 parallel: This job failed:
 sleep 2.4; exit 8
 parallel: This job failed:
 sleep 2.7; exit 9
 parallel: This job failed:
 sleep 3; exit 10
 50
 parallel: This job failed:
 sleep 0.3; exit 1
 parallel: This job failed:
 sleep 0.6; exit 2
 parallel: This job failed:
 sleep 0.9; exit 3
 parallel: This job failed:
 sleep 1.2; exit 4
 parallel: This job failed:
 sleep 1.5; exit 5
 parallel: This job failed:
 sleep 1.8; exit 6
 parallel: This job failed:
 sleep 2.1; exit 7
 parallel: This job failed:
 sleep 2.4; exit 8
 parallel: This job failed:
 sleep 2.7; exit 9
 parallel: This job failed:
 sleep 3; exit 10
 50
 ### testhalt --halt now,success=0
 parallel: This job succeeded:
 sleep 0; exit 0
 0
 parallel: This job succeeded:
 sleep 0; exit 0
 0
 ### testhalt --halt now,success=1
 parallel: This job succeeded:
 sleep 0; exit 0
 0
 parallel: This job succeeded:
 sleep 0; exit 0
 0
 ### testhalt --halt now,success=2
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 0
 ### testhalt --halt now,success=30%
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 0
 ### testhalt --halt now,success=70%
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 50
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 50
 ### testhalt --halt soon,success=0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 parallel: This job succeeded:
 sleep 0; exit 0
 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 0
 ### testhalt --halt soon,success=1
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 parallel: This job succeeded:
 sleep 0; exit 0
 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 0
 ### testhalt --halt soon,success=2
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 parallel: This job succeeded:
 sleep 0; exit 0
 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 0
 ### testhalt --halt soon,success=30%
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 2 jobs to finish.
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 1 jobs to finish.
 parallel: This job succeeded:
 sleep 0; exit 0
 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: Starting no more jobs. Waiting for 3 jobs to finish.
 0
 ### testhalt --halt now,success=70%
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 50
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 parallel: This job succeeded:
 sleep 0; exit 0
 50
 echo '**'
 **
 echo '### Test slow arguments generation - https://savannah.gnu.org/bugs/?32834';   seq 1 3 | parallel -j1 "sleep 2; echo {}" | parallel -kj2 echo
 ### Test slow arguments generation - https://savannah.gnu.org/bugs/?32834
 1
@ -146,7 +661,7 @@ echo '**'
 **
 echo '### Are children killed if GNU Parallel receives TERM twice? There should be no sleep at the end'
 ### Are children killed if GNU Parallel receives TERM twice? There should be no sleep at the end
-  parallel -q bash -c 'sleep 120 & pid=$!; wait $pid' ::: 1 &     T=$!;     sleep 1;     pstree $$;     kill -TERM $T;     sleep 1;     pstree $$;     kill -TERM $T;     sleep 1;     pstree $$; echo '**'
+  parallel -q bash -c 'sleep 120 & pid=$!; wait $pid' ::: 1 &     T=$!;     sleep 2;     pstree $$;     kill -TERM $T;     sleep 1;     pstree $$;     kill -TERM $T;     sleep 1;     pstree $$; echo '**'
 bash-+-perl---bash---sleep
     `-pstree
 bash-+-perl---bash---sleep
@ -158,7 +673,7 @@ parallel: Waiting for these 1 jobs to finish. Send SIGTERM again to stop now.
 parallel: bash -c sleep\ 120\ \&\ pid=\$\!\;\ wait\ \$pid 1
 echo '### Are children killed if GNU Parallel receives INT twice? There should be no sleep at the end'
 ### Are children killed if GNU Parallel receives INT twice? There should be no sleep at the end
-  parallel -q bash -c 'sleep 120 & pid=$!; wait $pid' ::: 1 &     T=$!;     sleep 1;     pstree $$;     kill -INT $T;     sleep 1;     pstree $$; 
+  parallel -q bash -c 'sleep 120 & pid=$!; wait $pid' ::: 1 &     T=$!;     sleep 2;     pstree $$;     kill -INT $T;     sleep 1;     pstree $$; 
 bash-+-perl---bash---sleep
     `-pstree
 bash---pstree
--- a/testsuite/wanted-results/parallel-local-ssh1
+++ b/testsuite/wanted-results/parallel-local-ssh1
@ -1,7 +1,7 @@
 echo '### Stop if all hosts are filtered and there are no hosts left to run on'
 ### Stop if all hosts are filtered and there are no hosts left to run on
  stdout parallel --filter-hosts -S no-such.host echo ::: 1
-parallel: Warning: Removed no-such.host
+parallel: Warning: Removed no-such.host.
 parallel: Error: There are no hosts left to run on.
 echo '### Can csh propagate a variable containing \n';   export A=$(seq 3); parallel -S csh@localhost --env A bash -c \''echo "$A"'\' ::: dummy
 ### Can csh propagate a variable containing \n
@ -84,6 +84,16 @@ echo '### bug #40132: FreeBSD: --workdir . gives warning if . == $HOME'
 ### bug #40132: FreeBSD: --workdir . gives warning if . == $HOME
  cd && parallel --workdir . -S lo pwd ::: ""
 /home/tange
 echo '### use function as $PARALLEL_SSH'
 ### use function as $PARALLEL_SSH
  foossh() { echo "FOOSSH" >&2; ssh "$@"; };   export -f foossh;   PARALLEL_SSH=foossh parallel -S 1/lo echo ::: 'Run through FOOSSH?'
 Run through FOOSSH?
 FOOSSH
 echo '### use --ssh'
 ### use --ssh
  barssh() { echo "BARSSH" >&2; ssh "$@"; };   export -f barssh;   parallel --ssh barssh -S 1/lo echo ::: 'Run through BARSSH?'
 Run through BARSSH?
 BARSSH
 echo '### test filename :'
 ### test filename :
  echo content-of-: > :;   echo : | parallel -j1 --trc {}.{.} -S parallel@lo '(echo remote-{}.{.};cat {}) > {}.{.}';   cat :.:; rm : :.:
--- a/testsuite/wanted-results/parallel-local164
+++ b/testsuite/wanted-results/parallel-local164
@ -344,7 +344,8 @@ bug #38439: "open files" with --files --pipe blocks after a while
 19 of 20
 20 of 20
 parallel: Warning: Only enough file handles to run 1 jobs in parallel.
-Running 'parallel -j0 -N1 --pipe parallel -j0' or raising ulimit -n or /etc/security/limits.conf may help.
+parallel: Warning: Running 'parallel -j0 -N 1 --pipe parallel -j0' or 
 parallel: Warning: raising ulimit -n or /etc/security/limits.conf may help.
 echo 'bug #34241: --pipe should not spawn unneeded processes - part 2'
 bug #34241: --pipe should not spawn unneeded processes - part 2
  seq 500 | parallel --tmpdir . -j10 --pipe --block 1k --files wc >/dev/null;   ls *.par | wc -l; rm *.par;   seq 500 | parallel --tmpdir . -j10 --pipe --block 1k --files --dry-run wc >/dev/null;   echo No .par should exist;   stdout ls *.par
--- a/testsuite/wanted-results/parallel-local22
+++ b/testsuite/wanted-results/parallel-local22
@ -95,7 +95,7 @@ echo '### bug #42913: Dont use $SHELL but the shell currently running'
 ### bug #42913: Dont use $SHELL but the shell currently running
  echo '## Unknown shell => $SHELL (bash)'
 ## Unknown shell => $SHELL (bash)
-  parallel -j1 "cp \`which {}\` /tmp/SHELL; /tmp/SHELL -c 'parallel -Dinit echo ::: 1' | grep which;"   ::: ash bash csh dash fdsh fish fizsh ksh ksh93 mksh pdksh posh rbash rush rzsh sash sh static-sh tcsh yash zsh;   rm -f /tmp/SHELL /tmp/par*.par
+  parallel -j1 "cp \`which {}\` /tmp/SHELL; /tmp/SHELL -c 'parallel -Dinit echo ::: 1' | grep which;"   ::: ash bash csh dash fish fizsh ksh ksh93 mksh pdksh posh rbash rush rzsh sash sh static-sh tcsh yash zsh;   rm -f /tmp/SHELL /tmp/par*.par
 shell? /bin/bash -c cp `which ash` /tmp/SHELL; /tmp/SHELL -c 'parallel -Dinit echo ::: 1' | grep which;
 which bash => shell path /bin/bash
 shell? /bin/bash -c cp `which bash` /tmp/SHELL; /tmp/SHELL -c 'parallel -Dinit echo ::: 1' | grep which;
@ -131,7 +131,6 @@ shell? /bin/bash -c cp `which yash` /tmp/SHELL; /tmp/SHELL -c 'parallel -Dinit e
 which bash => shell path /bin/bash
 shell? /bin/bash -c cp `which zsh` /tmp/SHELL; /tmp/SHELL -c 'parallel -Dinit echo ::: 1' | grep which;
 which bash => shell path /bin/bash
 /tmp/SHELL: -c: bad option(s)
 Local configuration error occurred.
 Contact the systems administrator for further assistance.
 SHELL: applet not found
--- a/testsuite/wanted-results/parallel-local4
+++ b/testsuite/wanted-results/parallel-local4
@ -1,6 +1,6 @@
 echo '### bug #36595: silent loss of input with --pipe and --sshlogin'
 ### bug #36595: silent loss of input with --pipe and --sshlogin
-  seq 10000 | xargs | parallel --pipe -S 10/localhost cat | wc
+  seq 10000 | xargs | parallel --pipe -S 10/localhost cat 2>/dev/null | wc
      1   10000   48894
 echo 'bug #36707: --controlmaster eats jobs'
 bug #36707: --controlmaster eats jobs
@ -101,7 +101,7 @@ X	:	XXXXXXXXXX.XXX	     X.XXX	X	X	X	X	true X
 echo '### How do we deal with missing $HOME'
 ### How do we deal with missing $HOME
   unset HOME; stdout perl -w $(which parallel) -k echo ::: 1 2 3
-parallel: Warning: $HOME not set. Using /tmp
+parallel: Warning: $HOME not set. Using /tmp.
 1
 2
 3
--- a/testsuite/wanted-results/parallel-local5
+++ b/testsuite/wanted-results/parallel-local5
@ -1,7 +1,7 @@
 ### Test --pipe
 echo '### Test 200M records with too small block';   (    echo start;    seq 1 44 | parallel -uj1 cat /tmp/blocktest\;true;    echo end;    echo start;    seq 1 44 | parallel -uj1 cat /tmp/blocktest\;true;    echo end;    echo start;    seq 1 44 | parallel -uj1 cat /tmp/blocktest\;true;    echo end;   ) | stdout parallel -k --block 200m -j2 --pipe --recend 'end\n' wc -c |   egrep -v '^0$'
 ### Test 200M records with too small block
-parallel: Warning: A record was longer than 200000000. Increasing to --blocksize 260000001
+parallel: Warning: A record was longer than 200000000. Increasing to --blocksize 260000001.
 303111434
 303111434
 303111434
@ -148,10 +148,10 @@ echo -n 01a02a0a0a12a34a45a6a |   parallel -k -j1 --blocksize 100 --pipe --recen
 2>0a12a34a
 3>45a6a
 echo -n 01a02a0a0a12a34a45a6a |   stdout parallel -k -j1 --blocksize 1 --pipe --recend a  -N 3  'echo -n "$PARALLEL_SEQ>"; cat; echo; sleep 0.1'
-parallel: Warning: A record was longer than 1. Increasing to --blocksize 3
+parallel: Warning: A record was longer than 1. Increasing to --blocksize 3.
-parallel: Warning: A record was longer than 3. Increasing to --blocksize 5
+parallel: Warning: A record was longer than 3. Increasing to --blocksize 5.
 parallel: Warning: A record was longer than 5. Increasing to --blocksize 8.
 1>01a02a0a
 parallel: Warning: A record was longer than 5. Increasing to --blocksize 8
 2>0a12a34a
 3>45a6a
 echo '### Test 10M records with too big block';   (    echo start;    seq 1 1 | parallel -uj1 cat /tmp/blocktest\;true;    echo end;    echo start;    seq 1 1 | parallel -uj1 cat /tmp/blocktest\;true;    echo end;    echo start;    seq 1 1 | parallel -uj1 cat /tmp/blocktest\;true;    echo end;   ) | stdout parallel -k --block 10M -j2 --pipe --recstart 'start\n' wc -c |   egrep -v '^0$'
--- a/testsuite/wanted-results/parallel-local9
+++ b/testsuite/wanted-results/parallel-local9
@ -141,6 +141,7 @@ echo "# --recend '' --files --halt-on-error"
 350eda13a37912d755c9d733d149bdaf  -
 echo '### Test of -j filename - non-existent file';   nice stdout parallel -j no_such_file echo ::: 1
 ### Test of -j filename - non-existent file
 parallel: Error: Parsing of --jobs/-j/--max-procs/-P failed.
 Usage:
 parallel [options] [command [arguments]] < list_of_arguments
@ -178,7 +179,6 @@ please cite:
 This helps funding further development; and it won't cost you a cent.
 If you pay 10000 EUR you should feel free to use GNU Parallel without citing.
 parallel: Error: Parsing of --jobs/-j/--max-procs/-P failed.
 echo '### Test of -j filename';   echo 3 >/tmp/jobs_to_run1;   parallel -j /tmp/jobs_to_run1 -v sleep {} ::: 10 8 6 5 4;   # Should give 6 8 10 5 4
 ### Test of -j filename
 sleep 6