path: root/kaldi_decode/utils/run.pl



#!/usr/bin/env perl
use warnings; #sed replacement for -w perl parameter

# In general, doing 
#  run.pl some.log a b c is like running the command a b c in
# the bash shell, and putting the standard error and output into some.log.
# To run parallel jobs (backgrounded on the host machine), you can do (e.g.)
#  run.pl JOB=1:4 some.JOB.log a b c JOB is like running the command a b c JOB
# and putting it in some.JOB.log, for each one. [Note: JOB can be any identifier].
# If any of the jobs fails, this script will fail.

# A typical example is:
#  run.pl some.log my-prog "--opt=foo bar" foo \|  other-prog baz
# and run.pl will run something like:
# ( my-prog '--opt=foo bar' foo |  other-prog baz ) >& some.log
# 
# Basically it takes the command-line arguments, quotes them
# as necessary to preserve spaces, and evaluates them with bash.
# In addition it puts the command line at the top of the log, and
# the start and end times of the command at the beginning and end.
# The reason why this is useful is so that we can create a different
# version of this program that uses a queueing system instead.

# use Data::Dumper;

@ARGV < 2 && die "usage: run.pl log-file command-line arguments...";


$max_jobs_run = -1;
$jobstart = 1;
$jobend = 1;
$ignored_opts = ""; # These will be ignored.

# First parse an option like JOB=1:4, and any
# options that would normally be given to
# queue.pl, which we will just discard.

if (@ARGV > 0) {
  while (@ARGV >= 2 && $ARGV[0] =~ m:^-:) { # parse any options
    # that would normally go to qsub, but which will be ignored here.
    $switch = shift @ARGV;
    if ($switch eq "-V") {
      $ignored_opts .= "-V ";
    } elsif ($switch eq "--max-jobs-run" || $switch eq "-tc") {
      # we do support the option --max-jobs-run n, and its GridEngine form -tc n.
      $max_jobs_run = shift @ARGV;
      if (! ($max_jobs_run > 0)) {
        die "run.pl: invalid option --max-jobs-run $max_jobs_run";
      }
    } else {
      $option = shift @ARGV;
      if ($switch eq "-sync" && $option =~ m/^[yY]/) {
        $ignored_opts .= "-sync "; # Note: in the
        # corresponding code in queue.pl it says instead, just "$sync = 1;".
      }
      $ignored_opts .= "$switch $option ";
      if ($switch eq "-pe") { # e.g. -pe smp 5
        $option2 = shift @ARGV;
        $ignored_opts .= "$option2 ";
      }
    }
  }
  if ($ARGV[0] =~ m/^([\w_][\w\d_]*)+=(\d+):(\d+)$/) { # e.g. JOB=1:10
    $jobname = $1;
    $jobstart = $2;
    $jobend = $3;
    shift;
    if ($jobstart > $jobend) {
      die "run.pl: invalid job range $ARGV[0]";
    }
    if ($jobstart <= 0) {
      die "run.pl: invalid job range $ARGV[0], start must be strictly positive (this is required for GridEngine compatibility).";
    }
  } elsif ($ARGV[0] =~ m/^([\w_][\w\d_]*)+=(\d+)$/) { # e.g. JOB=1.
    $jobname = $1;
    $jobstart = $2;
    $jobend = $2;
    shift;
  } elsif ($ARGV[0] =~ m/.+\=.*\:.*$/) {
    print STDERR "run.pl: Warning: suspicious first argument to run.pl: $ARGV[0]\n";
  }
}

# Users found this message confusing so we are removing it.
# if ($ignored_opts ne "") {
#  print STDERR "run.pl: Warning: ignoring options \"$ignored_opts\"\n";
# }

if ($max_jobs_run == -1) { # If --max-jobs-run option not set,
                           # then work out the number of processors if possible,
                           # and set it based on that.
  $max_jobs_run = 0;
  if (open(P, "</proc/cpuinfo")) {  # Linux
    while (<P>) { if (m/^processor/) { $max_jobs_run++; } }
    if ($max_jobs_run == 0) {
      print STDERR "run.pl: Warning: failed to detect any processors from /proc/cpuinfo\n";
      $max_jobs_run = 10;  # reasonable default.
    }
    close(P);
  } elsif (open(P, "sysctl -a |")) {  # BSD/Darwin
    while (<P>) {
      if (m/hw\.ncpu\s*[:=]\s*(\d+)/) { # hw.ncpu = 4, or hw.ncpu: 4
        $max_jobs_run = $1;
        last;
      }
    }
    close(P);
    if ($max_jobs_run == 0) {
      print STDERR "run.pl: Warning: failed to detect any processors from sysctl -a\n";
      $max_jobs_run = 10;  # reasonable default.
    }
  } else {
    # allow at most 32 jobs at once, on non-UNIX systems; change this code
    # if you need to change this default.
    $max_jobs_run = 32;
  }
  # The just-computed value of $max_jobs_run is just the number of processors
  # (or our best guess); and if it happens that the number of jobs we need to
  # run is just slightly above $max_jobs_run, it will make sense to increase
  # $max_jobs_run to equal the number of jobs, so we don't have a small number
  # of leftover jobs.
  $num_jobs = $jobend - $jobstart + 1;
  if ($num_jobs > $max_jobs_run && $num_jobs < 1.4 * $max_jobs_run) {
    $max_jobs_run = $num_jobs;
  }
}

$logfile = shift @ARGV;

if (defined $jobname && $logfile !~ m/$jobname/ &&
    $jobend > $jobstart) {
  print STDERR "run.pl: you are trying to run a parallel job but "
    . "you are putting the output into just one log file ($logfile)\n";
  exit(1);
}

$cmd = "";

foreach $x (@ARGV) { 
    if ($x =~ m/^\S+$/) { $cmd .=  $x . " "; }
    elsif ($x =~ m:\":) { $cmd .= "'$x' "; }
    else { $cmd .= "\"$x\" "; } 
}

#$Data::Dumper::Indent=0;
$ret = 0;
$numfail = 0;
%active_pids=();

use POSIX ":sys_wait_h";
for ($jobid = $jobstart; $jobid <= $jobend; $jobid++) {
  if (scalar(keys %active_pids) >= $max_jobs_run) {
    
    # Lets wait for a change in any child's status
    # Then we have to work out which child finished
    $r = waitpid(-1, 0);
    $code = $?;
    if ($r < 0 ) { die "run.pl: Error waiting for child process"; } # should never happen.
    if ( defined $active_pids{$r} ) {
        $jid=$active_pids{$r};
        $fail[$jid]=$code; 
        if ($code !=0) { $numfail++;}
        delete $active_pids{$r};
        # print STDERR "Finished: $r/$jid " .  Dumper(\%active_pids) . "\n";
    } else {
        die "run.pl: Cannot find the PID of the chold process that just finished.";
    }

    # In theory we could do a non-blocking waitpid over all jobs running just 
    # to find out if only one or more jobs finished during the previous waitpid()
    # However, we just omit this and will reap the next one in the next pass
    # through the for(;;) cycle
  }
  $childpid = fork();
  if (!defined $childpid) { die "run.pl: Error forking in run.pl (writing to $logfile)"; }
  if ($childpid == 0) { # We're in the child... this branch
    # executes the job and returns (possibly with an error status).
    if (defined $jobname) { 
      $cmd =~ s/$jobname/$jobid/g;
      $logfile =~ s/$jobname/$jobid/g;
    }
    system("mkdir -p `dirname $logfile` 2>/dev/null");
    open(F, ">$logfile") || die "run.pl: Error opening log file $logfile";
    print F "# " . $cmd . "\n";
    print F "# Started at " . `date`;
    $starttime = `date +'%s'`;
    print F "#\n";
    close(F);

    # Pipe into bash.. make sure we're not using any other shell.
    open(B, "|bash") || die "run.pl: Error opening shell command"; 
    print B "( " . $cmd . ") 2>>$logfile >> $logfile";
    close(B);                   # If there was an error, exit status is in $?
    $ret = $?;

    $lowbits = $ret & 127;
    $highbits = $ret >> 8;
    if ($lowbits != 0) { $return_str = "code $highbits; signal $lowbits" }
    else { $return_str = "code $highbits"; }

    $endtime = `date +'%s'`;
    open(F, ">>$logfile") || die "run.pl: Error opening log file $logfile (again)";
    $enddate = `date`;
    chop $enddate;
    print F "# Accounting: time=" . ($endtime - $starttime) . " threads=1\n";
    print F "# Ended ($return_str) at " . $enddate . ", elapsed time " . ($endtime-$starttime) . " seconds\n";
    close(F);
    exit($ret == 0 ? 0 : 1);
  } else {
    $pid[$jobid] = $childpid;
    $active_pids{$childpid} = $jobid;
    # print STDERR "Queued: " .  Dumper(\%active_pids) . "\n";
  }
}

# Now we have submitted all the jobs, lets wait until all the jobs finish
foreach $child (keys %active_pids) {
    $jobid=$active_pids{$child};
    $r = waitpid($pid[$jobid], 0);
    $code = $?;
    if ($r == -1) { die "run.pl: Error waiting for child process"; } # should never happen.
    if ($r != 0) { $fail[$jobid]=$code; $numfail++ if $code!=0; } # Completed successfully
}

# Some sanity checks:
# The $fail array should not contain undefined codes
# The number of non-zeros in that array  should be equal to $numfail
# We cannot do foreach() here, as the JOB ids do not necessarily start by zero
$failed_jids=0;
for ($jobid = $jobstart; $jobid <= $jobend; $jobid++) {
  $job_return = $fail[$jobid];
  if (not defined $job_return ) {
    # print Dumper(\@fail);
    
    die "run.pl: Sanity check failed: we have indication that some jobs are running " . 
      "even after we waited for all jobs to finish" ; 
  }
  if ($job_return != 0 ){ $failed_jids++;}
}
if ($failed_jids != $numfail) {
  die "run.pl: Sanity check failed: cannot find out how many jobs failed ($failed_jids x $numfail)."
}
if ($numfail > 0) { $ret = 1; }

if ($ret != 0) {
  $njobs = $jobend - $jobstart + 1;
  if ($njobs == 1) { 
    if (defined $jobname) {
      $logfile =~ s/$jobname/$jobstart/; # only one numbered job, so replace name with
                                         # that job.
    }
    print STDERR "run.pl: job failed, log is in $logfile\n";
    if ($logfile =~ m/JOB/) {
      print STDERR "run.pl: probably you forgot to put JOB=1:\$nj in your script.";
    }
  }
  else {
    $logfile =~ s/$jobname/*/g;
    print STDERR "run.pl: $numfail / $njobs failed, log is in $logfile\n";
  }
}


exit ($ret);
#!/usr/bin/env perl
use warnings; #sed replacement for -w perl parameter

# In general, doing 
#  run.pl some.log a b c is like running the command a b c in
# the bash shell, and putting the standard error and output into some.log.
# To run parallel jobs (backgrounded on the host machine), you can do (e.g.)
#  run.pl JOB=1:4 some.JOB.log a b c JOB is like running the command a b c JOB
# and putting it in some.JOB.log, for each one. [Note: JOB can be any identifier].
# If any of the jobs fails, this script will fail.

# A typical example is:
#  run.pl some.log my-prog "--opt=foo bar" foo \|  other-prog baz
# and run.pl will run something like:
# ( my-prog '--opt=foo bar' foo |  other-prog baz ) >& some.log
# 
# Basically it takes the command-line arguments, quotes them
# as necessary to preserve spaces, and evaluates them with bash.
# In addition it puts the command line at the top of the log, and
# the start and end times of the command at the beginning and end.
# The reason why this is useful is so that we can create a different
# version of this program that uses a queueing system instead.

# use Data::Dumper;

@ARGV < 2 && die "usage: run.pl log-file command-line arguments...";


$max_jobs_run = -1;
$jobstart = 1;
$jobend = 1;
$ignored_opts = ""; # These will be ignored.

# First parse an option like JOB=1:4, and any
# options that would normally be given to
# queue.pl, which we will just discard.

if (@ARGV > 0) {
  while (@ARGV >= 2 && $ARGV[0] =~ m:^-:) { # parse any options
    # that would normally go to qsub, but which will be ignored here.
    $switch = shift @ARGV;
    if ($switch eq "-V") {
      $ignored_opts .= "-V ";
    } elsif ($switch eq "--max-jobs-run" || $switch eq "-tc") {
      # we do support the option --max-jobs-run n, and its GridEngine form -tc n.
      $max_jobs_run = shift @ARGV;
      if (! ($max_jobs_run > 0)) {
        die "run.pl: invalid option --max-jobs-run $max_jobs_run";
      }
    } else {
      $option = shift @ARGV;
      if ($switch eq "-sync" && $option =~ m/^[yY]/) {
        $ignored_opts .= "-sync "; # Note: in the
        # corresponding code in queue.pl it says instead, just "$sync = 1;".
      }
      $ignored_opts .= "$switch $option ";
      if ($switch eq "-pe") { # e.g. -pe smp 5
        $option2 = shift @ARGV;
        $ignored_opts .= "$option2 ";
      }
    }
  }
  if ($ARGV[0] =~ m/^([\w_][\w\d_]*)+=(\d+):(\d+)$/) { # e.g. JOB=1:10
    $jobname = $1;
    $jobstart = $2;
    $jobend = $3;
    shift;
    if ($jobstart > $jobend) {
      die "run.pl: invalid job range $ARGV[0]";
    }
    if ($jobstart <= 0) {
      die "run.pl: invalid job range $ARGV[0], start must be strictly positive (this is required for GridEngine compatibility).";
    }
  } elsif ($ARGV[0] =~ m/^([\w_][\w\d_]*)+=(\d+)$/) { # e.g. JOB=1.
    $jobname = $1;
    $jobstart = $2;
    $jobend = $2;
    shift;
  } elsif ($ARGV[0] =~ m/.+\=.*\:.*$/) {
    print STDERR "run.pl: Warning: suspicious first argument to run.pl: $ARGV[0]\n";
  }
}

# Users found this message confusing so we are removing it.
# if ($ignored_opts ne "") {
#  print STDERR "run.pl: Warning: ignoring options \"$ignored_opts\"\n";
# }

if ($max_jobs_run == -1) { # If --max-jobs-run option not set,
                           # then work out the number of processors if possible,
                           # and set it based on that.
  $max_jobs_run = 0;
  if (open(P, "</proc/cpuinfo")) {  # Linux
    while (<P>) { if (m/^processor/) { $max_jobs_run++; } }
    if ($max_jobs_run == 0) {
      print STDERR "run.pl: Warning: failed to detect any processors from /proc/cpuinfo\n";
      $max_jobs_run = 10;  # reasonable default.
    }
    close(P);
  } elsif (open(P, "sysctl -a |")) {  # BSD/Darwin
    while (<P>) {
      if (m/hw\.ncpu\s*[:=]\s*(\d+)/) { # hw.ncpu = 4, or hw.ncpu: 4
        $max_jobs_run = $1;
        last;
      }
    }
    close(P);
    if ($max_jobs_run == 0) {
      print STDERR "run.pl: Warning: failed to detect any processors from sysctl -a\n";
      $max_jobs_run = 10;  # reasonable default.
    }
  } else {
    # allow at most 32 jobs at once, on non-UNIX systems; change this code
    # if you need to change this default.
    $max_jobs_run = 32;
  }
  # The just-computed value of $max_jobs_run is just the number of processors
  # (or our best guess); and if it happens that the number of jobs we need to
  # run is just slightly above $max_jobs_run, it will make sense to increase
  # $max_jobs_run to equal the number of jobs, so we don't have a small number
  # of leftover jobs.
  $num_jobs = $jobend - $jobstart + 1;
  if ($num_jobs > $max_jobs_run && $num_jobs < 1.4 * $max_jobs_run) {
    $max_jobs_run = $num_jobs;
  }
}

$logfile = shift @ARGV;

if (defined $jobname && $logfile !~ m/$jobname/ &&
    $jobend > $jobstart) {
  print STDERR "run.pl: you are trying to run a parallel job but "
    . "you are putting the output into just one log file ($logfile)\n";
  exit(1);
}

$cmd = "";

foreach $x (@ARGV) { 
    if ($x =~ m/^\S+$/) { $cmd .=  $x . " "; }
    elsif ($x =~ m:\":) { $cmd .= "'$x' "; }
    else { $cmd .= "\"$x\" "; } 
}

#$Data::Dumper::Indent=0;
$ret = 0;
$numfail = 0;
%active_pids=();

use POSIX ":sys_wait_h";
for ($jobid = $jobstart; $jobid <= $jobend; $jobid++) {
  if (scalar(keys %active_pids) >= $max_jobs_run) {
    
    # Lets wait for a change in any child's status
    # Then we have to work out which child finished
    $r = waitpid(-1, 0);
    $code = $?;
    if ($r < 0 ) { die "run.pl: Error waiting for child process"; } # should never happen.
    if ( defined $active_pids{$r} ) {
        $jid=$active_pids{$r};
        $fail[$jid]=$code; 
        if ($code !=0) { $numfail++;}
        delete $active_pids{$r};
        # print STDERR "Finished: $r/$jid " .  Dumper(\%active_pids) . "\n";
    } else {
        die "run.pl: Cannot find the PID of the chold process that just finished.";
    }

    # In theory we could do a non-blocking waitpid over all jobs running just 
    # to find out if only one or more jobs finished during the previous waitpid()
    # However, we just omit this and will reap the next one in the next pass
    # through the for(;;) cycle
  }
  $childpid = fork();
  if (!defined $childpid) { die "run.pl: Error forking in run.pl (writing to $logfile)"; }
  if ($childpid == 0) { # We're in the child... this branch
    # executes the job and returns (possibly with an error status).
    if (defined $jobname) { 
      $cmd =~ s/$jobname/$jobid/g;
      $logfile =~ s/$jobname/$jobid/g;
    }
    system("mkdir -p `dirname $logfile` 2>/dev/null");
    open(F, ">$logfile") || die "run.pl: Error opening log file $logfile";
    print F "# " . $cmd . "\n";
    print F "# Started at " . `date`;
    $starttime = `date +'%s'`;
    print F "#\n";
    close(F);

    # Pipe into bash.. make sure we're not using any other shell.
    open(B, "|bash") || die "run.pl: Error opening shell command"; 
    print B "( " . $cmd . ") 2>>$logfile >> $logfile";
    close(B);                   # If there was an error, exit status is in $?
    $ret = $?;

    $lowbits = $ret & 127;
    $highbits = $ret >> 8;
    if ($lowbits != 0) { $return_str = "code $highbits; signal $lowbits" }
    else { $return_str = "code $highbits"; }

    $endtime = `date +'%s'`;
    open(F, ">>$logfile") || die "run.pl: Error opening log file $logfile (again)";
    $enddate = `date`;
    chop $enddate;
    print F "# Accounting: time=" . ($endtime - $starttime) . " threads=1\n";
    print F "# Ended ($return_str) at " . $enddate . ", elapsed time " . ($endtime-$starttime) . " seconds\n";
    close(F);
    exit($ret == 0 ? 0 : 1);
  } else {
    $pid[$jobid] = $childpid;
    $active_pids{$childpid} = $jobid;
    # print STDERR "Queued: " .  Dumper(\%active_pids) . "\n";
  }
}

# Now we have submitted all the jobs, lets wait until all the jobs finish
foreach $child (keys %active_pids) {
    $jobid=$active_pids{$child};
    $r = waitpid($pid[$jobid], 0);
    $code = $?;
    if ($r == -1) { die "run.pl: Error waiting for child process"; } # should never happen.
    if ($r != 0) { $fail[$jobid]=$code; $numfail++ if $code!=0; } # Completed successfully
}

# Some sanity checks:
# The $fail array should not contain undefined codes
# The number of non-zeros in that array  should be equal to $numfail
# We cannot do foreach() here, as the JOB ids do not necessarily start by zero
$failed_jids=0;
for ($jobid = $jobstart; $jobid <= $jobend; $jobid++) {
  $job_return = $fail[$jobid];
  if (not defined $job_return ) {
    # print Dumper(\@fail);
    
    die "run.pl: Sanity check failed: we have indication that some jobs are running " . 
      "even after we waited for all jobs to finish" ; 
  }
  if ($job_return != 0 ){ $failed_jids++;}
}
if ($failed_jids != $numfail) {
  die "run.pl: Sanity check failed: cannot find out how many jobs failed ($failed_jids x $numfail)."
}
if ($numfail > 0) { $ret = 1; }

if ($ret != 0) {
  $njobs = $jobend - $jobstart + 1;
  if ($njobs == 1) { 
    if (defined $jobname) {
      $logfile =~ s/$jobname/$jobstart/; # only one numbered job, so replace name with
                                         # that job.
    }
    print STDERR "run.pl: job failed, log is in $logfile\n";
    if ($logfile =~ m/JOB/) {
      print STDERR "run.pl: probably you forgot to put JOB=1:\$nj in your script.";
    }
  }
  else {
    $logfile =~ s/$jobname/*/g;
    print STDERR "run.pl: $numfail / $njobs failed, log is in $logfile\n";
  }
}


exit ($ret);