Mercurial > repos > marpiech > norwich_tools_docking
view tools/rdock/bin/ht_protocol_finder.pl @ 3:b02d74d22d05 draft default tip
planemo upload
| author | marpiech |
|---|---|
| date | Mon, 29 Aug 2016 08:23:52 -0400 |
| parents | |
| children |
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#!/usr/bin/perl -w # Script that simulates the result of a high throughput protocol. if (@ARGV < 4) { print "Script that simulates the result of a high throughput protocol.\n"; print "1st) exhaustive docking of a small representative part of the\n"; print " whole library.\n"; print "2nd) Store the result of sdreport -t over that exhaustive dock.\n"; print " in file <sdreport_file> that will be the input of this\n"; print " script.\n"; print "3rd) ht_protocol_finder.pl <sdreport_file> <output_file> <thr1max>"; print " <thr1min> <ns1> <ns2>\n"; print " <ns1> and <ns2> are the number of steps in stage 1 and in\n"; print " stage 2. If not present, the default values are 5 and 15\n"; print " <thrmax> and <thrmin> setup the range of thresholds that will\n"; print " be simulated in stage 1. The threshold of stage 2 depends\n"; print " on the value of the threshold of stage 1.\n"; print " An input of -22 -24 will try protocols:\n"; print " 5 -22 15 -27\n"; print " 5 -22 15 -28\n"; print " 5 -22 15 -29\n"; print " 5 -23 15 -28\n"; print " 5 -23 15 -29\n"; print " 5 -23 15 -30\n"; print " 5 -24 15 -29\n"; print " 5 -24 15 -30\n"; print " 5 -24 15 -31\n"; print " Output of the program is a 7 column values. First column\n"; print " represents the time. This is a percentage of the time it\n"; print " would take to do the docking in exhaustive mode, i.e. \n"; print " docking each ligand 100 times. Anything\n"; print " above 12 is too long.\n"; print " Second column is the first percentage. Percentage of\n"; print " ligands that pass the first stage.\n"; print " Third column is the second percentage. Percentage of\n"; print " ligands that pass the second stage.\n"; print " The four last columns represent the protocol.\n"; print " All the protocols tried are written at the end.\n"; print " The ones for which time is less than 12%, perc1 is\n"; print " less than 30% and perc2 is less than 5% but bigger than 1%\n"; print " will have a series of *** after, to indicate they are good choices\n"; print " WARNING! This is a simulation based in a small set.\n"; print " The numbers are an indication, not factual values.\n"; exit (0); } open (IFILE, $ARGV[0]) || die "cannot open $ARGV[0] for reading: $!"; open (OFILE, ">$ARGV[1]") || die "cannot open $ARGV[1] for writing: $!"; <IFILE>; # read first line $line = <IFILE>; $line =~ /\S+\s+(\S+)\s+\S+\s+(\S+)/; $prevname = $1; $inter = $2; push @tmp, $inter; $i = 0; while ($line = <IFILE>) { $line =~ /\S+\s+(\S+)\s+\S+\s+(\S+)/; $name = $1; $inter = $2; if ($name ne $prevname) { $prevname = $name; push @inters, [ @tmp ]; $runsperligand[$i++] = @tmp; $#tmp = -1; } push @tmp, $inter; } push @inters, [ @tmp ]; $runsperligand[$i++] = @tmp; $totLigands = @inters; $ta = $ARGV[2]; $tb = $ARGV[3]; if (@ARGV > 4) { $n1 = $ARGV[4]; } else { $n1 = 5; } if (@ARGV > 5) { $n2 = $ARGV[5]; } else { $n2 = 15; } printf OFILE "Command line args:\n\t"; foreach $arg (@ARGV) { printf OFILE "%s\t", $arg; } printf OFILE "\n\n TIME PERC1 PERC2 N1 THR1 N2 THR2\n"; for ($t1 = $ta ; $t1 >= $tb ; $t1--) { $tc = $t1 - 5; for ($t2 = $tc ; $t2 >= ($tc - 2) ; $t2--) { ($cref, $dref) = getTables($t1, $t2); @ligBelowThr1 = @$cref; @ligBelowThr2 = @$dref; ($time,$p1,$p2) = simulation($n1,$t1,$n2,$t2); if (($time < 12.0) && ($p1 < 30.0) && ($p2 < 5.0) && ($p2 > 1.0)) { printf OFILE "%6.3f, %6.3f, %6.3f, %4i, %4i, %4i, %4i ***\n", $time, $p1, $p2, $n1,$t1,$n2,$t2; } else { printf OFILE "%6.3f, %6.3f, %6.3f, %4i, %4i, %4i, %4i\n", $time, $p1, $p2, $n1,$t1,$n2,$t2; } } } sub simulation { my(@params); my(@lt0, @lt1); my($thr1, $thr2,$ns1,$ns2,$tottime,$totnumHits,$total,$totnruns); @params = @_; $ns1 = $params[0]; $thr1 = $params[1]; $ns2 = $params[2]; $thr2 = $params[3]; $ntrials = 100; $tottime = 0; $totnumHitss1 = 0; $totnumHitss2 = 0; $total = $totLigands; $totnruns = 0; for ($i = 0 ; $i < $ntrials ; $i++) { $numHitss1 = 0; $numHitss2 = 0; $totnruns = 0; for ($j = 0 ; $j < $totLigands ; $j++) { ($passStage1, $nruns1) = stage($ns1, $ligBelowThr1[$j]); if ($passStage1) { $numHitss1++; ($passStage2, $nruns2) = stage($ns2, $ligBelowThr2[$j]); if ($passStage2) { $numHitss2++; } $totnruns += $nruns2; } $totnruns += $nruns1; } $time = $totnruns / $total; $tottime += $time; $totnumHitss1 += $numHitss1; $totnumHitss2 += $numHitss2; } $tottime /= $ntrials; $totnumHitss1 /= $ntrials; $totnumHitss2 /= $ntrials; $p1 = $totnumHitss1 * 100.0 / $totLigands; $p2 = $totnumHitss2 * 100.0 / $totLigands; return ($tottime, $p1, $p2); } sub getTables { my(@params); my($totLigands, @lt1, @lt2); my($row,$inter, $belowThr1, $belowThr2); my($thr0, $thr1); @params = @_; $thr1 = $params[0]; $thr2 = $params[1]; $totLigands = 0; $belowThr1 = 0; $belowThr2 = 0; $totLigands = 0; for $i (0 .. $#inters) { $row = $inters[$i]; for $j (0 .. $#{$row}) { $inter = $row->[$j]; if ($inter <= $thr1) { $belowThr1++; } if ($inter <= $thr2) { $belowThr2++; } } $lt1[$totLigands] = $belowThr1 / $runsperligand[$i]; $lt2[$totLigands] = $belowThr2 / $runsperligand[$i]; $totLigands++; $belowThr1 = 0; $belowThr2 = 0; } return (\@lt1, \@lt2); } sub stage { my($nruns, $p, $i, $r); $nruns = $_[0]; $p = $_[1]; if ($nruns == 0) { return (1, 0); } for ($i = 0 ; $i < $nruns ; $i++) { $r = rand; if ($r < $p) { return (1, $i); } } return (0, $nruns); }