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get_read_length_per_gene.php
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get_read_length_per_gene.php
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#!/usr/bin/php
<?php
/*******************************************************************************
*
* GetReadLengthPerGene takes Gene IDs and determines the read length
* distribution for its transcripts per sample, from both transcriptome and
* genome alignment SAM files. It requires the mm10_gene_list.txt file to see
* which transcripts belongs to which gene, the mm10_transcript_positions.txt
* file to check the strand and the positions of the transcripts, and the SAM
* files.
* The script creates one file per transcript, the read lengths in the first
* column, and the number of reads with this length per sample in the next
* columns.
* It also creates a summary file, with all read lengths summed up.
*
* Created : 2015-01-13
* Modified : 2015-09-12
* Version : 0.2
*
* Copyright : 2015-2016 Leiden University Medical Center; http://www.LUMC.nl/
* Programmer : Ing. Ivo F.A.C. Fokkema <I.F.A.C.Fokkema@LUMC.nl>
*
* Changelog : 0.2 2016-09-12
* Added link to inc-lib-json.php to be compatible with PHP
* versions < 5.2.0.
* 0.1 2015-01-15
* First version.
*
*
* This work is licensed under the Creative Commons
* Attribution-NonCommercial-ShareAlike 4.0 International License. To view a
* copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/4.0/
* or send a letter to:
* Creative Commons, PO Box 1866, Mountain View, CA 94042, USA.
*
*************/
$_SETT =
array(
'version' => '0.2',
'output_file_format' => '{{GENE}}_{{TRANSCRIPT}}_read_length_distribution.txt',
'terminal_width' => 100,
);
echo 'GetReadLengthPerTranscript v.' . $_SETT['version'] . "\n";
// 'PLEASE DO NOT USE THIS SCRIPT ON A NETWORK DRIVE; IT CAN BE INCREDIBLY SLOW THERE.' . "\n\n";
$aFiles = $_SERVER['argv'];
$sScriptName = array_shift($aFiles);
$sCWD = dirname($sScriptName);
if (!function_exists('json_encode') && is_readable($sCWD . '/inc-lib-json.php')) {
require $sCWD . '/inc-lib-json.php'; // For PHP <= 5.2.0.
}
if (count($aFiles) < 4) {
die('Usage: ' . $sScriptName . ' FILE_WITH_GENES_TO_ANALYSE GENE_LIST_FILE TRANSCRIPT_POSITION_FILE SAM_FILE1 [SAM_FILE2 [SAM_FILE3 [...]]]' . "\n\n");
}
// Check if all files can be read.
foreach ($aFiles as $sFile) {
if (!is_readable($sFile)) {
die('Unable to read ' . $sFile . '.' . "\n");
}
}
// First, load file with gene symbols to analyse.
$sGeneFile = array_shift($aFiles);
$aGeneFile = file($sGeneFile, FILE_IGNORE_NEW_LINES);
$aGenesToAnalyze = array(); // '<gene>' => array('<transcript>', '<transcript>', ...);
print('Parsing genes to analyze... ');
foreach ($aGeneFile as $sLine) {
if (!trim($sLine) || $sLine{0} == '#') {
// Comment, header.
continue; // Skip this line, continue to next.
}
// We don't check the file much.
$aGenesToAnalyze[$sLine] = array();
}
unset($aGeneFile);
print('done, loaded ' . count($aGenesToAnalyze) . ' genes in memory.' . "\n");
// Load transcript/gene info file.
$sGeneFile = array_shift($aFiles); // Shifts next argument off the array (the gene info file's name), we don't need it anymore after this.
$aGeneFile = file($sGeneFile, FILE_IGNORE_NEW_LINES);
$aTranscriptsToAnalyze = array(); // transcript => array(chr, strand, transcript_start, transcript_end)
print('Parsing gene/transcript information file... ');
foreach ($aGeneFile as $sLine) {
if (!trim($sLine) || $sLine{0} == '#') {
// Comment, header.
continue; // Skip this line, continue to next.
}
list($sTranscript, $sStrand, $sGene) = explode("\t", $sLine);
if (isset($aGenesToAnalyze[$sGene])) {
$aGenesToAnalyze[$sGene][] = $sTranscript;
$aTranscriptsToAnalyze[$sTranscript] = array();
}
}
unset($aGeneFile);
// If the wrong file has been passed, we have no valid transcripts. Then it will
// make no sense at all to continue.
if (!count($aTranscriptsToAnalyze)) {
die("\n" .
'Didn\'t find any valid transcripts. Make sure you passed the correct gene list and gene information file as the first two arguments.' . "\n\n");
}
print('done, loaded ' . count($aTranscriptsToAnalyze) . ' transcripts in memory.' . "\n");
// Prepare transcript locations file, read into memory.
$sTranscriptPositionsFile = array_shift($aFiles);
$aTranscriptPositionsFile = file($sTranscriptPositionsFile, FILE_IGNORE_NEW_LINES);
$nTranscripts = 0;
print('Parsing transcript locations file... ');
foreach ($aTranscriptPositionsFile as $nLine => $sLine) {
$nLine ++;
if (!trim($sLine) || $sLine{0} == '#') {
continue;
}
if (preg_match('/^([NX][MR]_\d+\.\d+)\t(\d{1,2}|[XY])\t([+-])\t([\[\]0-9,]+)$/', $sLine, $aRegs)) {
// Valid transcript position found.
list(,$sTranscriptWithVersion, $sChr, $sStrand, $sExonPositions) = $aRegs;
$sTranscript = substr($sTranscriptWithVersion, 0, strpos($sTranscriptWithVersion . '.', '.'));
if (isset($aTranscriptsToAnalyze[$sTranscript])) {
if (!($aExonPositions = json_decode($sExonPositions))) {
die("\n" .
'Can\'t parse line ' . $nLine . ' in file ' . $sTranscriptPositionsFile . '.' . "\n\n");
}
$nStart = min($aExonPositions[0]);
$nEnd = max($aExonPositions[count($aExonPositions)-1]);
$aTranscriptsToAnalyze[$sTranscript] = array('chr' . $sChr, $sStrand, $nStart, $nEnd);
$nTranscripts ++;
}
}
}
unset($aTranscriptPositionsFile);
// If the wrong file has been passed, we have no valid transcripts. Then it will
// make no sense at all to continue.
if (!$nTranscripts) {
die("\n" .
'Didn\'t find any valid transcript positions. Make sure you passed the correct transcript location file as the third argument.' . "\n\n");
}
print('done, loaded ' . $nTranscripts . ' transcript positions in memory.' . "\n");
// If this number does not match the number of total transcripts, should we die. We're going to get errors, otherwise...
if (count($aTranscriptsToAnalyze) != $nTranscripts) {
die('Not all transcripts we should analyze, have annotation. Please update the transcripts annotation file: ' . $sTranscriptPositionsFile . "\n\n");
}
print("\n");
$aData = array('' => array()); // 'NR_000001' => array('<length>' => array('<sample>' => '<coverage>'); (transcript '' is for a big summary)
$aSamples = array(); // To easily see which samples we have.
foreach ($aFiles as $sFile) {
$nLine = 0;
// SAM files are BIG. Very, very, very, BIG. Really. HUGE, actually. GBs. We need to read this line by line, to prevent a memory error.
$fIn = @fopen($sFile, 'r');
if (!$fIn) {
die('Unable to open ' . $sFile . '.' . "\n\n");
}
$nFileSize = filesize($sFile);
$nBytesRead = 0;
// Try and see the sample name, and the type of file. This could be done more generally, but for now we just want to be fast.
$sBasename = basename($sFile);
if (preg_match('/^merged_(..).fastq.trunc(.+)_M25.sam$/', $sBasename, $aRegs)) {
$sSample = $aRegs[1];
if (strpos($aRegs[2], 'genome') !== false) {
$sType = 'genome';
} else {
$sType = 'transcriptome';
}
} else {
$sSample = $sBasename;
if (strpos($sBasename, 'genome') !== false) {
$sType = 'genome';
} else {
$sType = 'transcriptome';
}
}
print('Parsing ' . $sSample . ' ' . $sType . ' (' . $sFile . ')' . "\n");
$sSample = $sSample{0}; // Keep 'A' for 'A1' to 'A3'.
$aSamples[] = $sSample;
while ($sLine = fgets($fIn)) {
$nLine ++;
$nBytesRead += strlen($sLine);
$sLine = rtrim($sLine);
if ($sLine{0} == '@') {
// The genomic alignment files come with a long list of headers, all starting with a @.
continue;
}
if ($sType == 'transcriptome') {
list(,, $sReference,,,,,,, $sRead) = explode("\t", $sLine);
$lRead = strlen($sRead);
list(,,, $sTranscriptWithVersion) = explode('|', $sReference);
$sTranscript = substr($sTranscriptWithVersion, 0, strpos($sTranscriptWithVersion . '.', '.'));
$aTranscriptsMatching = array($sTranscript); // Because we need a loop for the genomic SAM file.
} else {
list(, $nBitFlag, $sChr, $nStartPosition,,,,,, $sRead) = explode("\t", $sLine);
$sStrand = ($nBitFlag & 16? '-' : '+');
$lRead = strlen($sRead);
$nEndPosition = $nStartPosition + $lRead;
// Now check if any of the transcripts we're looking for, overlaps with this location.
// One genomic location, may match multiple transcripts.
$aTranscriptsMatching = array();
foreach ($aTranscriptsToAnalyze as $sTranscript => $aTranscript) {
list($sChrTranscript, $sStrandTranscript, $nTranscriptStart, $nTranscriptEnd) = $aTranscript;
if ($sChr == $sChrTranscript && $sStrand == $sStrandTranscript && (($nStartPosition >= $nTranscriptStart && $nStartPosition <= $nTranscriptEnd) || ($nEndPosition >= $nTranscriptStart && $nEndPosition <= $nTranscriptEnd))) {
$aTranscriptsMatching[] = $sTranscript;
}
}
}
if (!$sRead) {
die('Can\'t parse line ' . $nLine . ' in file ' . $sFile . '.' . "\n\n");
}
foreach ($aTranscriptsMatching as $sTranscript) {
if (!isset($aTranscriptsToAnalyze[$sTranscript])) {
// We only count transcripts that we are interested in!
continue;
}
if (!isset($aData[$sTranscript])) {
$aData[$sTranscript] = array();
}
if (!isset($aData[$sTranscript][$lRead])) {
$aData[$sTranscript][$lRead] = array();
}
if (!isset($aData[$sTranscript][$lRead][$sSample])) {
$aData[$sTranscript][$lRead][$sSample] = 0;
}
$aData[$sTranscript][$lRead][$sSample] ++;
}
if (!($nLine % 50000)) {
$nPercentageRead = round($nBytesRead/$nFileSize, 2);
$nAvailableWidth = $_SETT['terminal_width'] - 8 - strlen($nLine);
$lDone = round($nPercentageRead*$nAvailableWidth);
print(str_repeat(chr(8), $_SETT['terminal_width']) .
'[' . str_repeat('=', $lDone) . str_repeat(' ', $nAvailableWidth - $lDone) . '] ' . $nLine . ' ' . str_pad(round($nPercentageRead*100), 3, ' ', STR_PAD_LEFT) . '%');
}
}
$nAvailableWidth = $_SETT['terminal_width'] - 8 - strlen($nLine);
print(str_repeat(chr(8), $_SETT['terminal_width']) .
'[' . str_repeat('=', $nAvailableWidth) . '] ' . $nLine . ' 100%');
fclose($fIn);
print("\n" .
'Done reading ' . $nLine . ' lines.' . "\n");
}
print("\n" .
'All files done, writing output...' . "\n");
$aSamples = array_unique($aSamples); // Needed when we group replicates.
// Loop through genes, loop through transcripts, write output.
foreach ($aGenesToAnalyze as $sGene => $aTranscripts) {
print($sGene . '...');
if (!$aTranscripts) {
print(' (no transcripts found)' . "\n");
continue;
}
foreach ($aTranscripts as $sTranscript) {
print(' ' . $sTranscript);
if (!isset($aData[$sTranscript])) {
print(' (no reads found)');
} else {
ksort($aData[$sTranscript]); // Sort on read length.
$sFile = str_replace(array('{{GENE}}', '{{TRANSCRIPT}}'), array($sGene, $sTranscript), $_SETT['output_file_format']);
$fOut = @fopen($sFile, 'w');
fputs($fOut, 'read_length' . "\t" . implode("\t", $aSamples) . "\r\n");
foreach ($aData[$sTranscript] as $lRead => $aCoverage) {
// Prepare total summary, first.
if (!isset($aData[''][$lRead])) {
$aData[''][$lRead] = 0;
}
// Then the outfile.
fputs($fOut, $lRead);
foreach ($aSamples as $sSample) {
// Total summary first.
$aData[''][$lRead] += (!isset($aCoverage[$sSample])? 0 : $aCoverage[$sSample]);
// Then the output.
fputs($fOut, "\t" . (!isset($aCoverage[$sSample])? 0 : $aCoverage[$sSample]));
}
fputs($fOut, "\r\n");
}
fclose($fOut);
print(' (total coverage: ' . array_sum(array_map("array_sum", $aData[$sTranscript])) . ')');
}
}
print("\n");
}
// Total summary.
print('Total summary...');
ksort($aData['']); // Sort on read length.
$sFile = str_replace(array('{{GENE}}', '{{TRANSCRIPT}}'), array('ALL', 'ALL'), $_SETT['output_file_format']);
$fOut = @fopen($sFile, 'w');
fputs($fOut, 'read_length' . "\t" . 'coverage' . "\r\n");
foreach ($aData[''] as $lRead => $nCoverage) {
// Then the outfile.
fputs($fOut, $lRead . "\t" . $nCoverage . "\r\n");
}
fclose($fOut);
print(' (' . array_sum($aData['']) . ' total coverage)' . "\n");
die('All files done.' . "\n");
?>