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sam_utils.h
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sam_utils.h
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#ifndef SAM_UTILS_H_
#define SAM_UTILS_H_
#include<cstdio>
#include<cstring>
#include<cstdlib>
#include<cassert>
#include<vector>
#include<string>
#include<fstream>
#include<stdint.h>
#include "htslib/sam.h"
#include "my_assert.h"
#include "Transcript.h"
#include "Transcripts.h"
/******************************************************/
// These functions are adopted/modified from samtools source codes because the original codes are not visible from sam.h/bam.h
inline int bam_aux_type2size(char x) {
if (x == 'C' || x == 'c' || x == 'A') return 1;
else if (x == 'S' || x == 's') return 2;
else if (x == 'I' || x == 'i' || x == 'f') return 4;
else if (x == 'd') return 8;
else return 0;
}
inline void expand_data_size(bam1_t *b) {
if (b->m_data < b->l_data) {
b->m_data = b->l_data;
kroundup32(b->m_data);
b->data = (uint8_t*)realloc(b->data, b->m_data);
}
}
/******************************************************/
// These functions are specially designed for RSEM
const char* whitespaces = " \t\n\r\f\v";
inline bool bam_is_paired(const bam1_t* b) { return (b->core.flag & BAM_FPAIRED); }
inline bool bam_is_proper(const bam1_t* b) { return (b->core.flag & BAM_FPROPER_PAIR); }
inline bool bam_is_mapped(const bam1_t* b) { return !(b->core.flag & BAM_FUNMAP); }
inline bool bam_is_unmapped(const bam1_t* b) { return (b->core.flag & BAM_FUNMAP); }
inline bool bam_is_read1(const bam1_t* b) { return (b->core.flag & BAM_FREAD1); }
inline bool bam_is_read2(const bam1_t* b) { return (b->core.flag & BAM_FREAD2); }
inline std::string bam_get_canonical_name(const bam1_t* b) {
// Retain only the first whitespace-delimited word as the read name
// This prevents issues of mismatching names when aligners do not
// strip off extra words in read name strings
const char* raw_query_name = bam_get_qname(b);
const char* whitespace_pos = std::strpbrk(raw_query_name, whitespaces);
return (whitespace_pos == NULL ? std::string(raw_query_name) : std::string(raw_query_name, whitespace_pos - raw_query_name));
}
// Current RSEM only accept matches
inline bool bam_check_cigar(bam1_t *b) {
uint32_t *cigar = bam_get_cigar(b);
char op = bam_cigar_op(*cigar);
int32_t oplen = bam_cigar_oplen(*cigar);
return (b->core.n_cigar == 1) && (op == BAM_CMATCH || op == BAM_CEQUAL || op == BAM_CDIFF) && (b->core.l_qseq == oplen);
}
uint8_t bam_prb_to_mapq(double val) {
double err = 1.0 - val;
if (err <= 1e-10) return 100;
return (uint8_t)(-10 * log10(err) + .5); // round it
}
inline std::string bam_get_read_seq(const bam1_t* b) {
uint8_t *p = bam_get_seq(b);
std::string readseq = "";
char base = 0;
if (bam_is_rev(b)) {
for (int i = b->core.l_qseq - 1; i >= 0; i--) {
switch(bam_seqi(p, i)) {
//case 0 : base = '='; break;
case 1 : base = 'T'; break;
case 2 : base = 'G'; break;
case 4 : base = 'C'; break;
case 8 : base = 'A'; break;
case 15 : base = 'N'; break;
default : assert(false);
}
readseq.append(1, base);
}
}
else {
for (int i = 0; i < b->core.l_qseq; ++i) {
switch(bam_seqi(p, i)) {
//case 0 : base = '='; break;
case 1 : base = 'A'; break;
case 2 : base = 'C'; break;
case 4 : base = 'G'; break;
case 8 : base = 'T'; break;
case 15 : base = 'N'; break;
default : assert(false);
}
readseq.append(1, base);
}
}
return readseq;
}
inline std::string bam_get_qscore(const bam1_t* b) {
uint8_t *p = bam_get_qual(b);
std::string qscore = "";
if (bam_is_rev(b)) {
p = p + b->core.l_qseq - 1;
for (int i = 0; i < b->core.l_qseq; ++i) {
qscore.append(1, (char)(*p + 33));
--p;
}
}
else {
for (int i = 0; i < b->core.l_qseq; ++i) {
qscore.append(1, (char)(*p + 33));
++p;
}
}
return qscore;
}
//convert transcript coordinate to chromosome coordinate and generate CIGAR string
void tr2chr(const Transcript& transcript, int sp, int ep, int& pos, int& n_cigar, std::vector<uint32_t>& data) {
int length = transcript.getLength();
char strand = transcript.getStrand();
const std::vector<Interval>& structure = transcript.getStructure();
int s, i;
int oldlen, curlen;
uint32_t operation;
n_cigar = 0;
s = structure.size();
if (strand == '-') {
int tmp = sp;
sp = length - ep + 1;
ep = length - tmp + 1;
}
if (ep < 1 || sp > length) { // a read which align to polyA tails totally!
pos = (sp > length ? structure[s - 1].end : structure[0].start - 1); // 0 based
n_cigar = 1;
operation = (ep - sp + 1) << BAM_CIGAR_SHIFT | BAM_CINS; //BAM_CSOFT_CLIP;
data.push_back(operation);
return;
}
if (sp < 1) {
n_cigar++;
operation = (1 - sp) << BAM_CIGAR_SHIFT | BAM_CINS; //BAM_CSOFT_CLIP;
data.push_back(operation);
sp = 1;
}
oldlen = curlen = 0;
for (i = 0; i < s; i++) {
oldlen = curlen;
curlen += structure[i].end - structure[i].start + 1;
if (curlen >= sp) break;
}
assert(i < s);
pos = structure[i].start + (sp - oldlen - 1) - 1; // 0 based
while (curlen < ep && i < s) {
n_cigar++;
operation = (curlen - sp + 1) << BAM_CIGAR_SHIFT | BAM_CMATCH;
data.push_back(operation);
++i;
if (i >= s) continue;
n_cigar++;
operation = (structure[i].start - structure[i - 1].end - 1) << BAM_CIGAR_SHIFT | BAM_CREF_SKIP;
data.push_back(operation);
oldlen = curlen;
sp = oldlen + 1;
curlen += structure[i].end - structure[i].start + 1;
}
if (i >= s) {
n_cigar++;
operation = (ep - length) << BAM_CIGAR_SHIFT | BAM_CINS; //BAM_CSOFT_CLIP;
data.push_back(operation);
}
else {
n_cigar++;
operation = (ep - sp + 1) << BAM_CIGAR_SHIFT | BAM_CMATCH;
data.push_back(operation);
}
}
#endif /* SAM_RSEM_AUX_H_ */