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sam.cpp
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sam.cpp
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/*
* sam.cpp
*
* Created on: Sep 23, 2009
* Author: Ben Langmead
*/
#include <vector>
#include <string>
#include <iostream>
#include "pat.h"
#include "hit.h"
#include "sam.h"
#include "search_globals.h"
using namespace std;
/**
* Write the SAM header lines.
*/
void SAMHitSink::appendHeaders(
OutFileBuf& os,
size_t numRefs,
const vector<string>& refnames,
bool color,
bool nosq,
const TIndexOffU* plen,
bool fullRef,
bool noQnameTrunc,
const char *cmdline,
const char *rgline)
{
BTString o;
o << "@HD\tVN:1.0\tSO:unsorted\n";
if(!nosq) {
for(size_t i = 0; i < numRefs; i++) {
// RNAME
o << "@SQ\tSN:";
if(i < refnames.size()) {
printUptoWs(o, refnames[i], !fullRef);
} else {
o << i;
}
o << "\tLN:" << (plen[i] + (color ? 1 : 0)) << '\n';
}
}
if(rgline != NULL) {
o << "@RG\t" << rgline << '\n';
}
o << "@PG\tID:Bowtie\tVN:" << BOWTIE_VERSION << "\tCL:\"" << cmdline << "\"\n";
os.writeString(o);
}
/**
* Report either an unaligned read or a read that exceeded the -m
* ceiling. We output placeholders for most of the fields in this
* case.
*/
void SAMHitSink::reportUnOrMax(
PatternSourcePerThread& p,
vector<Hit>* hs,
size_t threadId,
bool un)
{
if(un) {
HitSink::reportUnaligned(threadId, p);
if (noUnal) {
return;
}
} else {
HitSink::reportMaxed(*hs, threadId, p);
}
bool paired = !p.bufb().empty();
assert(paired || p.bufa().mate == 0);
assert(!paired || p.bufa().mate > 0);
assert(un || hs->size() > 0);
assert(!un || hs == NULL || hs->size() == 0);
size_t hssz = 0;
if(hs != NULL) hssz = hs->size();
maybeFlush(threadId);
BTString& o = ptBufs_[threadId];
for(int i = 0; i < (int)seqan::length(p.bufa().name) - (paired ? 2 : 0); i++) {
if(!noQnameTrunc_ && isspace((int)p.bufa().name[i])) break;
o << p.bufa().name[i];
}
o << '\t'
<< (SAM_FLAG_UNMAPPED | (paired ? (SAM_FLAG_PAIRED | SAM_FLAG_FIRST_IN_PAIR | SAM_FLAG_MATE_UNMAPPED) : 0)) << "\t*"
<< "\t0\t0\t*\t*\t0\t0\t";
for(size_t i = 0; i < seqan::length(p.bufa().patFw); i++) {
o << (char)p.bufa().patFw[i];
}
o << '\t';
for(size_t i = 0; i < seqan::length(p.bufa().qual); i++) {
o << (char)p.bufa().qual[i];
}
o << "\tXM:i:" << (paired ? (hssz+1)/2 : hssz);
// Add optional fields reporting the primer base and the downstream color,
// which, if they were present, were clipped when the read was read in
if(p.bufa().color && gReportColorPrimer) {
if(p.bufa().primer != '?') {
o << "\tZP:Z:" << p.bufa().primer;
assert(isprint(p.bufa().primer));
}
if(p.bufa().trimc != '?') {
o << "\tZp:Z:" << p.bufa().trimc;
assert(isprint(p.bufa().trimc));
}
}
o << '\n';
if(paired) {
// truncate final 2 chars
for(int i = 0; i < (int)seqan::length(p.bufb().name)-2; i++) {
if(!noQnameTrunc_ && isspace((int)p.bufb().name[i])) break;
o << p.bufb().name[i];
}
o << '\t'
<< (SAM_FLAG_UNMAPPED | (paired ? (SAM_FLAG_PAIRED | SAM_FLAG_SECOND_IN_PAIR | SAM_FLAG_MATE_UNMAPPED) : 0)) << "\t*"
<< "\t0\t0\t*\t*\t0\t0\t";
for(size_t i = 0; i < seqan::length(p.bufb().patFw); i++) {
o << (char)p.bufb().patFw[i];
}
o << '\t';
for(size_t i = 0; i < seqan::length(p.bufb().qual); i++) {
o << (char)p.bufb().qual[i];
}
o << "\tXM:i:" << (hssz+1)/2;
// Add optional fields reporting the primer base and the downstream color,
// which, if they were present, were clipped when the read was read in
if(p.bufb().color && gReportColorPrimer) {
if(p.bufb().primer != '?') {
o << "\tZP:Z:" << p.bufb().primer;
assert(isprint(p.bufb().primer));
}
if(p.bufb().trimc != '?') {
o << "\tZp:Z:" << p.bufb().trimc;
assert(isprint(p.bufb().trimc));
}
}
o << '\n';
}
ptCounts_[threadId]++;
}
/**
* Append a SAM alignment to the given output stream.
*/
void SAMHitSink::append(BTString& o, const Hit& h, int mapq, int xms) {
// QNAME
if(h.mate > 0) {
// truncate final 2 chars
for(int i = 0; i < (int)seqan::length(h.patName)-2; i++) {
if(!noQnameTrunc_ && isspace((int)h.patName[i])) break;
o << h.patName[i];
}
} else {
for(int i = 0; i < (int)seqan::length(h.patName); i++) {
if(!noQnameTrunc_ && isspace((int)h.patName[i])) break;
o << h.patName[i];
}
}
o << '\t';
// FLAG
int flags = 0;
if(h.mate == 1) {
flags |= SAM_FLAG_PAIRED | SAM_FLAG_FIRST_IN_PAIR | SAM_FLAG_MAPPED_PAIRED;
} else if(h.mate == 2) {
flags |= SAM_FLAG_PAIRED | SAM_FLAG_SECOND_IN_PAIR | SAM_FLAG_MAPPED_PAIRED;
}
if(!h.fw) flags |= SAM_FLAG_QUERY_STRAND;
if(h.mate > 0 && !h.mfw) flags |= SAM_FLAG_MATE_STRAND;
o << flags << "\t";
// RNAME
if(_refnames != NULL && h.h.first < _refnames->size()) {
printUptoWs(o, (*_refnames)[h.h.first], !fullRef_);
} else {
o << h.h.first;
}
// POS
o << '\t' << (h.h.second + 1);
// MAPQ
o << '\t' << mapq;
// CIGAR
o << '\t' << h.length() << 'M';
// MRNM
if(h.mate > 0) {
o << "\t=";
} else {
o << "\t*";
}
// MPOS
if(h.mate > 0) {
o << '\t' << (h.mh.second + 1);
} else {
o << "\t0";
}
// ISIZE
o << '\t';
if(h.mate > 0) {
assert_eq(h.h.first, h.mh.first);
int64_t inslen = 0;
if(h.h.second > h.mh.second) {
inslen = (int64_t)h.h.second - (int64_t)h.mh.second + (int64_t)h.length();
inslen = -inslen;
} else {
inslen = (int64_t)h.mh.second - (int64_t)h.h.second + (int64_t)h.mlen;
}
o << inslen;
} else {
o << '0';
}
// SEQ
o << '\t';
for(size_t i = 0; i < seqan::length(h.patSeq); i++) {
o << (char)h.patSeq[i];
}
// QUAL
o << '\t';
for(size_t i = 0; i < seqan::length(h.quals); i++) {
o << (char)h.quals[i];
}
//
// Optional fields
//
// Always output stratum
o << "\tXA:i:" << (int)h.stratum;
// Always output cost
//ss << "\tXC:i:" << (int)h.cost;
// Look for SNP annotations falling within the alignment
// Output MD field
size_t len = length(h.patSeq);
int nm = 0;
int run = 0;
o << "\tMD:Z:";
const FixedBitset<1024> *mms = &h.mms;
ASSERT_ONLY(const String<Dna5>* pat = &h.patSeq);
const vector<char>* refcs = &h.refcs;
#if 0
if(h.color && false) {
// Disabled: print MD:Z string w/r/t to colors, not letters
mms = &h.cmms;
ASSERT_ONLY(pat = &h.colSeq);
assert_eq(length(h.colSeq), len+1);
len = length(h.colSeq);
refcs = &h.crefcs;
}
#endif
if(h.fw) {
for (int i = 0; i < (int)len; ++ i) {
if(mms->test(i)) {
nm++;
// There's a mismatch at this position
assert_gt((int)refcs->size(), i);
char refChar = toupper((*refcs)[i]);
ASSERT_ONLY(char qryChar = (h.fw ? (*pat)[i] : (*pat)[len-i-1]));
assert_neq(refChar, qryChar);
o << run << refChar;
run = 0;
} else {
run++;
}
}
} else {
for (int i = (int)len-1; i >= 0; -- i) {
if(mms->test(i)) {
nm++;
// There's a mismatch at this position
assert_gt((int)refcs->size(), i);
char refChar = toupper((*refcs)[i]);
ASSERT_ONLY(char qryChar = (h.fw ? (*pat)[i] : (*pat)[len-i-1]));
assert_neq(refChar, qryChar);
o << run << refChar;
run = 0;
} else {
run++;
}
}
}
o << run;
// Add optional edit distance field
o << "\tNM:i:" << nm;
if(h.color) {
o << "\tCM:i:" << h.cmms.count();
}
// Add optional fields reporting the primer base and the downstream color,
// which, if they were present, were clipped when the read was read in
if(h.color && gReportColorPrimer) {
if(h.primer != '?') {
o << "\tZP:Z:" << h.primer;
assert(isprint(h.primer));
}
if(h.trimc != '?') {
o << "\tZp:Z:" << h.trimc;
assert(isprint(h.trimc));
}
}
if(xms > 0) {
o << "\tXM:i:" << xms;
}
o << '\n';
}
/**
* Report maxed-out read; if sampleMax_ is set, then report 1 alignment
* at random.
*/
void SAMHitSink::reportMaxed(
vector<Hit>& hs,
size_t threadId,
PatternSourcePerThread& p)
{
if(sampleMax_) {
HitSink::reportMaxed(hs, threadId, p);
RandomSource rand;
rand.init(p.bufa().seed);
assert_gt(hs.size(), 0);
bool paired = hs.front().mate > 0;
size_t num = 1;
if(paired) {
num = 0;
int bestStratum = 999;
for(size_t i = 0; i < hs.size()-1; i += 2) {
int strat = min(hs[i].stratum, hs[i+1].stratum);
if(strat < bestStratum) {
bestStratum = strat;
num = 1;
} else if(strat == bestStratum) {
num++;
}
}
assert_leq(num, hs.size());
uint32_t r = rand.nextU32() % num;
num = 0;
for(size_t i = 0; i < hs.size()-1; i += 2) {
int strat = min(hs[i].stratum, hs[i+1].stratum);
if(strat == bestStratum) {
if(num == r) {
reportHits(NULL, &hs, i, i+2, threadId, 0, (int)(hs.size()/2)+1, false, p.rdid());
break;
}
num++;
}
}
assert_eq(num, r);
} else {
for(size_t i = 1; i < hs.size(); i++) {
assert_geq(hs[i].stratum, hs[i-1].stratum);
if(hs[i].stratum == hs[i-1].stratum) num++;
else break;
}
assert_leq(num, hs.size());
uint32_t r = rand.nextU32() % num;
reportHits(&hs[r], NULL, 0, 1, threadId, 0, (int)hs.size()+1, false, p.rdid());
}
} else {
reportUnOrMax(p, &hs, threadId, false);
}
}