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bamreader.cpp
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bamreader.cpp
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/*
* bamreader.cpp for MSIsensor
* Copyright (c) 2013 Beifang Niu && Kai Ye WUGSC All Rights Reserved.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
// System header files
#include <iomanip>
#include <iostream>
#include <fstream>
#include <cmath>
#include <assert.h>
// Samtools header files
#include "bam.h"
#include "sam.h"
#include "kstring.h"
#include "kseq.h"
#include "khash.h"
#include "ksort.h"
// Bam header files
#include "bamreader.h"
#include "distribution.h"
// Static function declaration
static int fetch_func_SR (const bam1_t * b1, void *data);
unsigned int g_InWinPlus = 0;
unsigned int g_InWinMinus = 0;
unsigned int g_NumReadScanned = 0;
unsigned int g_NumReadInWindow = 0;
unsigned int g_CloseMappedPlus = 0;
unsigned int g_CloseMappedMinus = 0;
//init hash/maps for read pairing on the fly
KSORT_INIT_GENERIC (uint32_t) KHASH_MAP_INIT_STR (read_name, bam1_t *)
struct fetch_func_data_SR {
fetch_func_data_SR () {
LeftReads = NULL;
read_to_map_qual = NULL;
header = NULL;
b1_flags = NULL;
b2_flags = NULL;
Tag = "";
InsertSize = 0;
}
std::vector < SPLIT_READ > *LeftReads;
khash_t (read_name) * read_to_map_qual;
bam_header_t *header;
flags_hit *b1_flags;
flags_hit *b2_flags;
std::string Tag;
int InsertSize;
};
void parse_flags_and_tags (const bam1_t * b, flags_hit * flags) {
const bam1_core_t *c = &b->core;
char xt_code = '\0';
int mf_code = 0, nm_code = 0, best_hits = 0;
flags->unique = 0;
flags->mapped = !(c->flag & BAM_FUNMAP);
uint8_t *s = bam_aux_get (b, "XT");
if (s != 0) {
xt_code = bam_aux2A (s);
if (xt_code == 'U') {
flags->unique = 1;
} else {
flags->unique = 0;
}
} else { flags->unique = 1; }
s = NULL;
s = bam_aux_get (b, "X0");
if (s != 0) {
best_hits = bam_aux2i (s);
}
s = NULL;
s = bam_aux_get (b, "X1");
if (s != 0) {
int sub_hits = bam_aux2i (s);
if (best_hits + sub_hits == 1) {
flags->suboptimal = 0;
} else { flags->suboptimal = 1; }
} else { flags->suboptimal = 0; }
if (xt_code == 'M' || mf_code == 130) {
//short term fix to unset unique if the maq read was s-w mapped.
//bwa can't set U and M at once.
flags->sw = 1;
} else { flags->sw = 0; }
s = NULL;
s = bam_aux_get (b, "NM");
if (s != 0) {
nm_code = bam_aux2i (s);
flags->edits = nm_code;
} else {
nm_code = 0;
flags->edits = nm_code;
}
return;
}
/*
static int fetch_func_ALL (const bam1_t * b1, void *data) {
fetch_func_data_SR *data_for_bam = (fetch_func_data_SR *) data;
khash_t (read_name) * read_to_map_qual = (khash_t (read_name) *) data_for_bam->read_to_map_qual;
flags_hit *b1_flags = data_for_bam->b1_flags;
flags_hit *b2_flags = data_for_bam->b2_flags;
//SPLIT_READ Temp_One_Read;
const bam1_core_t *b1_core;
bam1_t *b2;
bam1_core_t *b2_core;
b1_core = &b1->core;
std::string read_name = bam1_qname (b1);
khint_t key = kh_get (read_name, read_to_map_qual, bam1_qname (b1));
if (key == kh_end (read_to_map_qual)) {
int ret = 0;
key = kh_put (read_name, read_to_map_qual, strdup (bam1_qname (b1)), &ret);
kh_value (read_to_map_qual, key) = bam_dup1 (b1);
return 0;
} else {
b2 = bam_dup1 (kh_value (read_to_map_qual, key));
bam_destroy1 (kh_value (read_to_map_qual, key));
b2_core = &b2->core;
//this seems stupid, but in order to manage the read names, necessary
free ((char *) kh_key (read_to_map_qual, key));
kh_del (read_name, read_to_map_qual, key);
std::string c_sequence;
}
parse_flags_and_tags (b1, b1_flags);
parse_flags_and_tags (b2, b2_flags);
build_record(b1, b2, data, b1_flags);
build_record(b2, b1, data, b2_flags);
bam_destroy1 (b2);
return 0;
}
*/
// new version fetch function for single end_reads
static int fetch_func_ALL (const bam1_t * b1, void *data) {
fetch_func_data_SR *data_for_bam = (fetch_func_data_SR *) data;
khash_t (read_name) * read_to_map_qual = (khash_t (read_name) *) data_for_bam->read_to_map_qual;
flags_hit *b1_flags = data_for_bam->b1_flags;
//SPLIT_READ Temp_One_Read;
const bam1_core_t *b1_core;
b1_core = &b1->core;
parse_flags_and_tags (b1, b1_flags);
build_record( b1, data, b1_flags );
return 0;
}
/** 'ReadInRead' reads in reads from Pindel input file. */
bool ReadInBamReads( const char *bam_path,
const std::string & FragName,
unsigned start,
unsigned end,
std::vector < SPLIT_READ > & AllReads,
std::string Tag) {
bamFile fp;
fp = bam_open (bam_path, "r");
assert (fp);
bam_index_t *idx;
idx = bam_index_load (bam_path); // load BAM index
assert (idx);
bam_header_t *header = bam_header_read (fp);
bam_init_header_hash (header);
assert (header);
int tid;
tid = bam_get_tid (header, FragName.c_str ());
fetch_func_data_SR data;
data.header = header;
data.LeftReads = &AllReads;
data.read_to_map_qual = NULL;
data.read_to_map_qual = kh_init (read_name);
flags_hit b1_flags, b2_flags;
data.b1_flags = &b1_flags;
data.b2_flags = &b2_flags;
data.Tag = Tag;
// std:: cout << " before bam_fetch " << std::endl;
// give warning and abort if using dif refs
if (tid == -1) {
std::cout << "Program aborted: " << std::endl;
std::cout << "Same reference genome file should be used in both 'msisensor scan' and 'msisensor msi' steps!!!"<<std::endl;
exit(1);
}
bam_fetch (fp, idx, tid, start, end, &data, fetch_func_ALL);
// std:: cout << " after bam_fetch " << std::endl;
khint_t key;
if (kh_size (data.read_to_map_qual) > 0) {
for (key = kh_begin (data.read_to_map_qual); key != kh_end (data.read_to_map_qual); ++key) {
if (kh_exist (data.read_to_map_qual, key)) {
bam_destroy1 (kh_value (data.read_to_map_qual, key));
free ((char *) kh_key (data.read_to_map_qual, key));
}
}
}
kh_clear (read_name, data.read_to_map_qual);
kh_destroy (read_name, data.read_to_map_qual);
bam_header_destroy (header);
bam_index_destroy (idx);
bam_close (fp);
return true;
}
// new version build_record for single end reads
void build_record( const bam1_t * current_read,
void *data,
const flags_hit *flag_current_read ) {
SPLIT_READ Temp_One_Read;
fetch_func_data_SR *data_for_bam = (fetch_func_data_SR *) data;
bam_header_t *header = (bam_header_t *) data_for_bam->header;
std::string Tag = (std::string) data_for_bam->Tag;
const bam1_core_t *current_core;
current_core = ¤t_read->core;
// Determine sample name for read.
// std::string c_sequence;
uint8_t *s = bam1_seq (current_read);
for (int i = 0; i <current_core->l_qseq; ++i) {
Temp_One_Read.ReadSeq.append (1, bam_nt16_rev_table[bam1_seqi (s, i)]);
}
//std::cout<<Temp_One_Read.ReadSeq<<"\n";
if ( !flag_current_read->mapped ) {
Temp_One_Read.Mapped = false;
} else {
Temp_One_Read.MatchedRelPos = current_core->pos;
Temp_One_Read.Mapped = true;
}
//std::cout<< Temp_One_Read.MatchedRelPos <<"\n";
//
// load one read
data_for_bam->LeftReads->push_back(Temp_One_Read);
return;
}
/*
void build_record( const bam1_t * current_read,
const bam1_t * mate_read,
void *data,
const flags_hit *flag_current_read ) {
SPLIT_READ Temp_One_Read;
fetch_func_data_SR *data_for_bam = (fetch_func_data_SR *) data;
bam_header_t *header = (bam_header_t *) data_for_bam->header;
std::string Tag = (std::string) data_for_bam->Tag;
const bam1_core_t *current_core;
const bam1_core_t *mate_core;
current_core = ¤t_read->core;
mate_core = &mate_read->core;
// Determine sample name for read.
// std::string c_sequence;
uint8_t *s = bam1_seq (current_read);
for (int i = 0; i <current_core->l_qseq; ++i) {
Temp_One_Read.ReadSeq.append (1, bam_nt16_rev_table[bam1_seqi (s, i)]);
}
//std::cout<<Temp_One_Read.ReadSeq<<"\n";
if ( !flag_current_read->mapped ) {
Temp_One_Read.Mapped = false;
} else {
Temp_One_Read.MatchedRelPos = current_core->pos;
Temp_One_Read.Mapped = true;
}
//std::cout<< Temp_One_Read.MatchedRelPos <<"\n";
//
// load one read
data_for_bam->LeftReads->push_back(Temp_One_Read);
return;
}
*/
int32_t bam_cigar2len (const bam1_core_t * c, const uint32_t * cigar) {
uint32_t k;
int32_t l = 0;
for (k = 0; k < c->n_cigar; ++k) {
int op = cigar[k] & BAM_CIGAR_MASK;
if (op == BAM_CMATCH || op == BAM_CINS || op == BAM_CSOFT_CLIP) {
l += cigar[k] >> BAM_CIGAR_SHIFT;
}
if (op == BAM_CDEL) {
l -= cigar[k] >> BAM_CIGAR_SHIFT;
}
}
return l;
}
int32_t bam_cigar2mismatch( const bam1_core_t *readCore, const uint32_t *cigar) {
uint32_t cigarIndex;
int32_t numberOfMismatches = 0;
for (cigarIndex = 0; cigarIndex < readCore->n_cigar; ++cigarIndex) {
int elementType = cigar[cigarIndex] & BAM_CIGAR_MASK;
if (elementType != BAM_CMATCH) {
numberOfMismatches += cigar[cigarIndex] >> BAM_CIGAR_SHIFT;
}
}
return numberOfMismatches;
}