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cd-hit-para.pl
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cd-hit-para.pl
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#!/usr/bin/env perl
# =============================================================================
# CD-HIT
# http://cd-hit.org/
# http://bioinformatics.burnham.org/cd-hi
#
# program written by
# Weizhong Li
# UCSD, San Diego Supercomputer Center
# La Jolla, CA, 92093
# Email [email protected]
# =============================================================================
use strict;
no strict "refs";
my $script_name = $0;
my $script_dir = $0;
$script_dir =~ s/[^\/]+$//;
$script_dir = "./" unless ($script_dir);
chop($script_dir);
my $arg;
my $in;
my $out;
my $arg_pass = "";
my $para = "";
my $host_no = 0;
my @hosts = ();
my $cd_hit_div_exe = "$script_dir/cd-hit-div";
my $cd_hit_exe = "$script_dir/cd-hit";
my $cd_hit_est_exe = "$script_dir/cd-hit-est";
my $cd_hit_2d_exe = "$script_dir/cd-hit-2d";
my $cd_hit_est_2d_exe = "$script_dir/cd-hit-est-2d";
my $clstr_merge_exe = "$script_dir/clstr_merge.pl";
my $seg_no = 64;
my $restart_in = "";
my $queue = 0;
my $local_cpu = 0;
my $queue_type = "PBS";
my $prog = "cd-hit";
my %stable_files = ();
while ($arg=shift) {
if ($arg eq "-h" ) { print_usage();}
elsif ($arg eq "-i" ) { $in = shift; }
elsif ($arg eq "-o" ) { $out = shift; }
elsif ($arg eq "--B") { $para = shift; }
elsif ($arg eq "--L") { $local_cpu = shift; }
elsif ($arg eq "--P") { $prog = shift; }
elsif ($arg eq "--S") { $seg_no = shift; }
elsif ($arg eq "--Q") { $queue = shift; }
elsif ($arg eq "--T") { $queue_type = shift; }
elsif ($arg eq "--R") { $restart_in = shift; }
else {$arg_pass .= " $arg "; }
}
($in and $out) || print_usage();
if ($prog eq "cd-hit-est") {
$cd_hit_exe = $cd_hit_est_exe;
$cd_hit_2d_exe = $cd_hit_est_2d_exe;
}
my $pwd = `pwd`; chop($pwd);
my $work_dir = "$out.cd-hit-para-tmp";
my $restart_file = "$out.restart";
my $indiv = "$work_dir/$in.div";
my @commands = ();
my @command_status = ();
my $command_no = 0;
my $cmd;
my ($i, $j, $k, $i1, $j1, $k1);
# readin a list of hosts
if ($para) {
open(PARA, "$para") || die "can not open $para";
while(my $ll= <PARA>){
chop($ll); $ll =~ s/\s//g;
next unless ($ll);
push(@hosts, $ll); $host_no++;
}
close(PARA);
}
if ($queue) {
for ($i=0; $i<$queue; $i++) {
push(@hosts, "queue_host.$i");
}
$host_no = $queue;
}
if ($local_cpu) {
for ($i=0; $i<$local_cpu; $i++) {
push(@hosts, "localhost.$i");
}
$host_no = $local_cpu;
}
die "no host" unless $host_no;
if (-e $restart_in) {
read_restart();
}
else {
$cmd = `mkdir $work_dir`;
assign_commands();
write_restart();
}
#dbdiv run on master node?
if ($command_status[0] eq "wait") {
$cmd = `$commands[0]`;
$command_status[0] = "done";
write_restart();
for ($i=0; $i<$seg_no; $i++) {
my $idb = "$indiv-$i";
$stable_files{$idb} = 1;
}
}
#main runing loop
my $sleep_time = 1;
while(1) {
#refresh job status by checking output files
#check whether all jobs are done or not
my $finish_flag = 1;
my $status_change = 0;
for ($i=1; $i<$command_no; $i++) {
next if ($command_status[$i] eq "done");
$finish_flag = 0;
my $tcmd = $commands[$i];
my $output = "";
if ($tcmd =~ / -o\s+(\S+)/) {
$output = $1;
if ((-s $output) or (-s "$output.clstr")) {
$command_status[$i] = "done";
$status_change = 1;
}
}
}
if ($status_change) {
write_restart();
}
else {
sleep($sleep_time); print ".";
}
last if $finish_flag;
my $job_sent = 0;
for ($i=1; $i<$command_no; $i++) {
next if ($command_status[$i] eq "done");
next if ($command_status[$i] eq "run");
my $tcmd = $commands[$i];
my $in1 = "";
my $in2 = "";
my $out_done = "";
if ($tcmd =~ / -i\s+(\S+)/ ) {$in1 = $1;}
if ($tcmd =~ / -i2\s+(\S+)/) {$in2 = $1;}
if ($tcmd =~ / -o\s+(\S+)/ ) {$out_done = "$1.done";}
my $input_flag = 0;
if (($in1 =~ /\S/) and ($in2 =~ /\S/)) {
$input_flag = 1 if ((-s $in1) and (-s $in2));
}
elsif ($in1 =~ /\S/) {
$input_flag = 1 if (-s $in1);
}
else {
die "Error at $tcmd\n";
}
next unless $input_flag;
#now input files are ready, wait
wait_stable_file($in1);
wait_stable_file($in2) if ($in2 =~ /\S/);
my $thost_idx = wait_for_available_host();
my $thost = $hosts[$thost_idx];
my $tsh = "$work_dir/$out.$$.$thost_idx.sh";
my $tlock = "$work_dir/$out.$$.$thost_idx.lock";
my $trm = "";
$trm = "rm -f $in2" if ($in2 =~ /\S/);
open(TSH, "> $tsh") || die;
$cmd = `date > $tlock`;
print TSH <<EOD;
date > $tlock
$tcmd
$trm
rm -f $tlock
date > $out_done
EOD
close(TSH);
if ($local_cpu) {
$cmd = `sh $tsh >/dev/null 2>&1 &`;
$command_status[$i] = "run";
print "run at $thost $tcmd\n";
}
elsif ($queue and ($queue_type eq "PBS")) {
my $t = "para-$thost_idx";
open(QUEUE,"| qsub -N $t -o $t.log -e $t.err");
print QUEUE "cd $pwd; sh $tsh";
close(QUEUE);
$command_status[$i] = "run";
}
elsif ($queue and ($queue_type eq "SGE")) {
my $t = "para-$thost_idx";
open(QUEUE,"| qsub -N $t");
print QUEUE <<EOD;
#!/bin/sh
#$ -S /bin/bash
#$ -v PATH
cd $pwd
sh $tsh
EOD
close(QUEUE);
$command_status[$i] = "run";
}
else {
$cmd = `ssh -xqf $thost 'cd $pwd; sh $tsh >/dev/null 2>&1 &'`;
$command_status[$i] = "run";
print "run at $thost $tcmd\n";
}
$sleep_time = 1;
$job_sent = 1;
last;
}
if ((not $job_sent) and ($sleep_time < 60)) {
$sleep_time +=5;
}
} ############ main run loop
######## merge all .clstr file
my $out_clstr = "$out.clstr";
if (not -s $out_clstr) {
my @reps = ();
for ($i=0; $i<$seg_no; $i++) {
my $master_clstr = "$indiv-$i-o.clstr";
die "No file $master_clstr\n" unless (-s $master_clstr);
my $this_rep = "$indiv-$i-o";
die "No rep $this_rep\n" unless (-e $this_rep);
push(@reps, $this_rep);
my @slave_clstr = ();
for ($j=$i+1; $j<$seg_no; $j++) {
my $tclstr = "$indiv-$j.vs.$i.clstr";
if (-s $tclstr) {push(@slave_clstr,$tclstr); }
else {die "No file $tclstr\n";}
}
if (@slave_clstr) {
my $tclstrs = join(" ", @slave_clstr);
print "$clstr_merge_exe $master_clstr $tclstrs >> $out_clstr\n";
$cmd = `$clstr_merge_exe $master_clstr $tclstrs >> $out_clstr`;
}
else { #this is the last piece
print "cat $master_clstr >> $out_clstr";
$cmd = `cat $master_clstr >> $out_clstr`;
}
}
my $out_clstr_ren = "$out.clstr.$$";
open(TMP, $out_clstr) || die;
open(OTMP, "> $out_clstr_ren") || die;
my $no = 0;
my $cno;
my $ll;
while($ll=<TMP>){
if ($ll =~ /^>Cluster (\d+)/) {
print OTMP ">Cluster $no\n"; $no++;
$cno = 0;
}
else {
$ll =~ s/^\d+/$cno/;
print OTMP $ll;
$cno++;
}
}
close(TMP);
close(OTMP);
sleep(10);
$cmd = `mv $out_clstr_ren $out_clstr`;
my $reps = join(" ", @reps);
$cmd = `cat $reps > $out`;
}
if (1) {
$cmd = `grep CPU $work_dir/*log`;
my @lls = split(/\n/, $cmd);
my $cpu = 0;
my $ll;
foreach $ll (@lls) {
if ($ll =~ /CPU\s+time\s+(\d+)/) {
$cpu += $1;
}
}
print "Total CPU time: $cpu\n";
}
sub wait_for_available_host {
my ($i, $j, $k);
my $sleep = 30;
while(1) {
for ($i=0; $i<$host_no; $i++) {
my $thost = $hosts[$i];
my $tlock = "$work_dir/$out.$$.$i.lock";
next if (-e $tlock);
return $i;
}
sleep($sleep);
$sleep +=30;
if ($sleep >= 300) { $sleep = 30; }
}
}
########## END wait_for_available_host
sub wait_stable_file {
my ($i, $j, $k);
my $f = shift;
return if ($stable_files{$f});
return unless (-e $f);
if (-e "$f.done") { $stable_files{$f} = 1; return; }
my $size0 = -s $f;
while(1) {
sleep(10);
my $size1 = -s $f;
if ($size0 == $size1) { $stable_files{$f} = 1; last; }
else {$size0 = $size1; }
}
}
########## END wait_stable_file
sub write_restart {
my ($i, $j, $k);
open(RES, "> $restart_file") || die;
for ($i=0; $i<$command_no; $i++) {
print RES "$commands[$i]\n$command_status[$i]\n";
}
close(RES);
}
########## END write_restart
sub assign_commands {
my ($i, $j, $k);
my $cmd;
my ($idb, $idbo, $jdb, $idbout, $idblog);
$command_no = 0;
$cmd = "$cd_hit_div_exe -i $in -o $indiv -div $seg_no";
push(@commands, $cmd);
push(@command_status, "wait");
$command_no++;
for ($i=0; $i<$seg_no; $i++) {
$idb = "$indiv-$i";
$idblog = "$indiv-$i.log";
#compare to previous segs
for ($j=0; $j<$i; $j++) {
$jdb = "$indiv-$j-o";
$idbo = "$indiv-$i.vs.$j";
$cmd = "$cd_hit_2d_exe -i $jdb -i2 $idb -o $idbo $arg_pass >> $idblog";
push(@commands, $cmd);
push(@command_status, "wait");
$command_no++;
$idb = $idbo;
}
#self comparing
$cmd = "$cd_hit_exe -i $idb -o $indiv-$i-o $arg_pass >> $idblog";
push(@commands, $cmd);
push(@command_status, "wait");
$command_no++;
}
}
sub read_restart {
$command_no = 0;
open(RRRR, "$restart_in") || die;
my $ll;
while ($ll = <RRRR>) {
chop($ll);
push(@commands, $ll);
$ll = <RRRR>;
chop($ll);
push(@command_status, $ll);
$command_no++;
}
close(RRRR);
}
########## END read_restart
sub print_usage {
print <<EOD;
Usage: $script_name options
This script divide a big clustering job into pieces and submit
jobs to remote computers over a network to make it parallel.
After all the jobs finished, the script merge the clustering
results as if you just run a single cd-hit or cd-hit-est.
You can also use it to divide big jobs on a single computer if
your computer does not have enough RAM (with -L option).
Requirements:
1 When run this script over a network, the directory where you
run the scripts and the input files must be available on
all the remote hosts with identical path.
2 If you choose "ssh" to submit jobs, you have to have
passwordless ssh to any remote host, see ssh manual to
know how to set up passwordless ssh.
3 I suggest to use queuing system instead of ssh,
I currently support PBS and SGE
4 cd-hit cd-hit-2d cd-hit-est cd-hit-est-2d
cd-hit-div cd-hit-div.pl must be in same directory where
this script is in.
Options
-i input filename in fasta format, required
-o output filename, required
--P program, "cd-hit" or "cd-hit-est", default "cd-hit"
--B filename of list of hosts,
requred unless -Q or -L option is supplied
--L number of cpus on local computer, default $local_cpu
when you are not running it over a cluster, you can use
this option to divide a big clustering jobs into small
pieces, I suggest you just use "--L 1" unless you have
enough RAM for each cpu
--S Number of segments to split input DB into, default $seg_no
--Q number of jobs to submit to queue queuing system, default $queue
by default, the program use ssh mode to submit remote jobs
--T type of queuing system, "PBS", "SGE" are supported, default $queue_type
--R restart file, used after a crash of run
-h print this help
More cd-hit/cd-hit-est options can be speicified in command line
Questions, bugs, contact Weizhong Li at liwz\@sdsc.edu
EOD
exit;
}
#### END print_usage