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BAMoutput.cpp
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BAMoutput.cpp
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#include "BAMoutput.h"
#include <sys/stat.h>
#include "GlobalVariables.h"
#include <pthread.h>
#include "serviceFuns.cpp"
#include "ThreadControl.h"
#include "streamFuns.h"
BAMoutput::BAMoutput (int iChunk, string tmpDir, Parameters &Pin) : P(Pin){//allocate bam array
nBins=P.outBAMcoordNbins;
binSize=P.chunkOutBAMsizeBytes/nBins;
bamArraySize=binSize*nBins;
bamArray = new char [bamArraySize];
bamDir=tmpDir+to_string((uint) iChunk);//local directory for this thread (iChunk)
mkdir(bamDir.c_str(),P.runDirPerm);
binStart=new char* [nBins];
binBytes=new uint64 [nBins];
binStream=new ofstream* [nBins];
binTotalN=new uint [nBins];
binTotalBytes=new uint [nBins];
for (uint ii=0;ii<nBins;ii++) {
binStart[ii]=bamArray+bamArraySize/nBins*ii;
binBytes[ii]=0;
binStream[ii]=&ofstrOpen((bamDir +"/"+to_string(ii)).c_str(), ERROR_OUT, P); //open temporary files
binTotalN[ii]=0;
binTotalBytes[ii]=0;
};
binSize1=binStart[nBins-1]-binStart[0];
nBins=1;//start with one bin to estimate genomic bin sizes
};
BAMoutput::BAMoutput (BGZF *bgzfBAMin, Parameters &Pin) : P(Pin){//allocate BAM array with one bin, streamed directly into bgzf file
bamArraySize=P.chunkOutBAMsizeBytes;
bamArray = new char [bamArraySize];
binBytes1=0;
bgzfBAM=bgzfBAMin;
//not used
binSize=0;
binStream=NULL;
binStart=NULL;
binBytes=NULL;
binTotalBytes=NULL;
binTotalN=NULL;
nBins=0;
};
void BAMoutput::unsortedOneAlign (char *bamIn, uint bamSize, uint bamSize2) {//record one alignment to the buffer, write buffer if needed
if (bamSize==0) return; //no output, could happen if one of the mates is not mapped
if (binBytes1+bamSize2 > bamArraySize) {//write out this buffer
if (g_threadChunks.threadBool) pthread_mutex_lock(&g_threadChunks.mutexOutSAM);
bgzf_write(bgzfBAM,bamArray,binBytes1);
if (g_threadChunks.threadBool) pthread_mutex_unlock(&g_threadChunks.mutexOutSAM);
binBytes1=0;//rewind the buffer
};
memcpy(bamArray+binBytes1, bamIn, bamSize);
binBytes1 += bamSize;
};
void BAMoutput::unsortedFlush () {//flush all alignments
if (g_threadChunks.threadBool) pthread_mutex_lock(&g_threadChunks.mutexOutSAM);
bgzf_write(bgzfBAM,bamArray,binBytes1);
if (g_threadChunks.threadBool) pthread_mutex_unlock(&g_threadChunks.mutexOutSAM);
binBytes1=0;//rewind the buffer
};
void BAMoutput::coordOneAlign (char *bamIn, uint bamSize, uint iRead) {
uint32 *bamIn32;
uint alignG;
uint32 iBin=0;
if (bamSize==0) {
return; //no output, could happen if one of the mates is not mapped
} else {
//determine which bin this alignment belongs to
bamIn32=(uint32*) bamIn;
alignG=( ((uint) bamIn32[1]) << 32 ) | ( (uint)bamIn32[2] );
if (bamIn32[1] == ((uint32) -1) ) {//unmapped
iBin=P.outBAMcoordNbins-1;
} else if (nBins>1) {//bin starts have already been determined
iBin=binarySearch1a <uint64> (alignG, P.outBAMsortingBinStart, (int32) (nBins-1));
};
};
//write buffer is filled
if (binBytes[iBin]+bamSize+sizeof(uint) > ( (iBin>0 || nBins>1) ? binSize : binSize1) ) {//write out this buffer
if ( nBins>1 || iBin==(P.outBAMcoordNbins-1) ) {//normal writing, bins have already been determined
binStream[iBin]->write(binStart[iBin],binBytes[iBin]);
binBytes[iBin]=0;//rewind the buffer
} else {//the first chunk of reads was written in one bin, need to determine bin sizes, and re-distribute reads into bins
coordBins();
coordOneAlign (bamIn, bamSize, iRead);//record the current align into the new bins
return;
};
};
//record this alignment in its bin
memcpy(binStart[iBin]+binBytes[iBin], bamIn, bamSize);
binBytes[iBin] += bamSize;
memcpy(binStart[iBin]+binBytes[iBin], &iRead, sizeof(uint));
binBytes[iBin] += sizeof(uint);
binTotalBytes[iBin] += bamSize+sizeof(uint);
binTotalN[iBin] += 1;
return;
};
void BAMoutput::coordBins() {//define genomic starts for bins
nBins=P.outBAMcoordNbins;//this is the true number of bins
//mutex here
if (P.runThreadN>1) pthread_mutex_lock(&g_threadChunks.mutexBAMsortBins);
if (P.outBAMsortingBinStart[0]!=0) {//it's set to 0 only after the bin sizes are determined
//extract coordinates and sort
uint *startPos = new uint [binTotalN[0]+1];//array of aligns start positions
for (uint ib=0,ia=0;ia<binTotalN[0];ia++) {
uint32 *bamIn32=(uint32*) (binStart[0]+ib);
startPos[ia] =( ((uint) bamIn32[1]) << 32) | ( (uint)bamIn32[2] );
ib+=bamIn32[0]+sizeof(uint32)+sizeof(uint);//note that size of the BAM record does not include the size record itself
};
qsort((void*) startPos, binTotalN[0], sizeof(uint), funCompareUint1);
//determine genomic starts of the bins
P.inOut->logMain << "BAM sorting: "<<binTotalN[0]<< " mapped reads\n";
P.inOut->logMain << "BAM sorting bins genomic start loci:\n";
P.outBAMsortingBinStart[0]=0;
for (uint32 ib=1; ib<(nBins-1); ib++) {
P.outBAMsortingBinStart[ib]=startPos[binTotalN[0]/(nBins-1)*ib];
P.inOut->logMain << ib <<"\t"<< (P.outBAMsortingBinStart[ib]>>32) << "\t" << ((P.outBAMsortingBinStart[ib]<<32)>>32) <<endl;
//how to deal with equal boundaries???
};
delete [] startPos;
};
//mutex here
if (P.runThreadN>1) pthread_mutex_unlock(&g_threadChunks.mutexBAMsortBins);
//re-allocate binStart
uint binTotalNold=binTotalN[0];
char *binStartOld=new char [binSize1];
memcpy(binStartOld,binStart[0],binBytes[0]);
binBytes[0]=0;
binTotalN[0]=0;
binTotalBytes[0]=0;
//re-bin all aligns
for (uint ib=0,ia=0;ia<binTotalNold;ia++) {
uint32 *bamIn32=(uint32*) (binStartOld+ib);
uint ib1=ib+bamIn32[0]+sizeof(uint32);//note that size of the BAM record does not include the size record itself
coordOneAlign (binStartOld+ib, (uint) (bamIn32[0]+sizeof(uint32)), *((uint*) (binStartOld+ib1)) );
ib=ib1+sizeof(uint);//iRead at the end of the BAM record
};
delete [] binStartOld;
return;
};
void BAMoutput::coordFlush () {//flush all alignments
if (nBins==1) {
coordBins();
};
for (uint32 iBin=0; iBin<nBins; iBin++) {
binStream[iBin]->write(binStart[iBin],binBytes[iBin]);
binStream[iBin]->flush();
binBytes[iBin]=0;//rewind the buffer
};
};
void BAMoutput::coordUnmappedPrepareBySJout () {//flush all alignments
uint iBin=P.outBAMcoordNbins-1;
binStream[iBin]->write(binStart[iBin],binBytes[iBin]);
binStream[iBin]->flush();
binBytes[iBin]=0;//rewind the buffer
binStream[iBin]->close();
binStream[iBin]->open((bamDir +"/"+to_string(iBin)+".BySJout").c_str());
};