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ggen.c
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ggen.c
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#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <ctype.h>
#include "kthread.h"
#include "kalloc.h"
#include "sys.h"
#include "bseq.h"
#include "ggen.h"
#include "mgpriv.h"
#include "gfa-priv.h"
typedef struct {
int n_seq;
mg_bseq1_t *seq;
mg_gchains_t **gcs;
} maprst_t;
typedef struct {
const mg_mapopt_t *opt;
const mg_idx_t *gi;
mg_tbuf_t **buf;
maprst_t *r;
} step_t;
static void worker_for(void *_data, long i, int tid) // kt_for() callback
{
step_t *s = (step_t*)_data;
if (mg_dbg_flag & MG_DBG_QNAME)
fprintf(stderr, "QR\t%s\t%d\t%d\n", s->r->seq[i].name, tid, s->r->seq[i].l_seq);
if ((s->opt->flag & MG_M_SKIP_GCHECK) == 0 && mg_verbose >= 2) {
if (gfa_sseq_get(s->gi->g, s->r->seq[i].name) >= 0)
fprintf(stderr, "[W::%s] stable sequence \"%s\" already present in the graph. This will lead to inconsistent rGFA.\n",
__func__, s->r->seq[i].name);
}
s->r->gcs[i] = mg_map(s->gi, s->r->seq[i].l_seq, s->r->seq[i].seq, s->buf[tid], s->opt, s->r->seq[i].name);
}
static maprst_t *ggen_map(const mg_idx_t *gi, const mg_mapopt_t *opt, const char *fn, int n_threads)
{
mg_bseq_file_t *fp;
maprst_t *r;
step_t s;
int i;
fp = mg_bseq_open(fn);
if (fp == 0) return 0;
KCALLOC(0, r, 1);
r->seq = mg_bseq_read(fp, 1ULL<<62, 0, 0, 0, &r->n_seq);
mg_bseq_close(fp);
if (mg_verbose >= 3)
fprintf(stderr, "[M::%s::%.3f*%.2f] loaded file \"%s\"\n", __func__,
realtime() - mg_realtime0, cputime() / (realtime() - mg_realtime0), fn);
for (i = 0; i < r->n_seq; ++i) {
r->seq[i].rid = i;
mg_toupper(r->seq[i].l_seq, r->seq[i].seq);
}
KCALLOC(0, r->gcs, r->n_seq);
s.gi = gi, s.opt = opt, s.r = r;
KCALLOC(0, s.buf, n_threads);
for (i = 0; i < n_threads; ++i) s.buf[i] = mg_tbuf_init();
kt_for(n_threads, worker_for, &s, r->n_seq);
if (mg_verbose >= 3)
fprintf(stderr, "[M::%s::%.3f*%.2f] mapped %d sequence(s) to the graph\n", __func__,
realtime() - mg_realtime0, cputime() / (realtime() - mg_realtime0), r->n_seq);
for (i = 0; i < n_threads; ++i) mg_tbuf_destroy(s.buf[i]);
free(s.buf);
return r;
}
static void mg_free_maprst(maprst_t *r)
{
int i;
for (i = 0; i < r->n_seq; ++i) {
mg_gchain_free(r->gcs[i]);
free(r->seq[i].seq); free(r->seq[i].name);
}
free(r->gcs); free(r->seq);
free(r);
}
int mg_ggen_aug(gfa_t *g, int32_t n_fn, const char **fn, const mg_idxopt_t *ipt, const mg_mapopt_t *opt0, const mg_ggopt_t *go, int n_threads)
{
int i;
mg_mapopt_t opt = *opt0;
if (g == 0) return -1;
for (i = 0; i < n_fn; ++i) {
mg_idx_t *gi;
maprst_t *r;
if ((gi = mg_index(g, ipt, n_threads, &opt)) == 0) return -1;
r = ggen_map(gi, &opt, fn[i], n_threads);
if (opt0->flag & MG_M_CIGAR)
mg_ggsimple_cigar(0, go, g, r->n_seq, r->seq, r->gcs);
else
mg_ggsimple(0, go, g, r->n_seq, r->seq, r->gcs);
mg_free_maprst(r);
mg_idx_destroy(gi);
}
return 0;
}
int mg_ggen_cov(gfa_t *g, int32_t n_fn, const char **fn, const mg_idxopt_t *ipt, const mg_mapopt_t *opt0, const mg_ggopt_t *go, int n_threads)
{
int32_t i;
mg_mapopt_t opt = *opt0;
mg_idx_t *gi;
double *cov_seg, *cov_link;
int64_t j;
if ((gi = mg_index(g, ipt, n_threads, &opt)) == 0) return -1;
KCALLOC(0, cov_seg, g->n_seg);
KCALLOC(0, cov_link, g->n_arc);
for (i = 0; i < n_fn; ++i) {
maprst_t *r;
r = ggen_map(gi, &opt, fn[i], n_threads);
mg_cov_asm(g, r->n_seq, r->gcs, go->min_mapq, go->min_map_len, cov_seg, cov_link);
mg_free_maprst(r);
}
mg_idx_destroy(gi);
for (j = 0; j < g->n_seg; ++j) cov_seg[j] /= n_fn;
for (j = 0; j < g->n_arc; ++j) cov_link[j] /= n_fn;
gfa_aux_update_cv(g, "cf", cov_seg, cov_link);
free(cov_seg); free(cov_link);
return 0;
}
int mg_ggen_call(gfa_t *g, const char *fn, const mg_idxopt_t *ipt, const mg_mapopt_t *opt0, const mg_ggopt_t *go, int n_threads)
{
mg_mapopt_t opt = *opt0;
mg_idx_t *gi;
maprst_t *r;
if ((gi = mg_index(g, ipt, n_threads, &opt)) == 0) return -1;
r = ggen_map(gi, &opt, fn, n_threads);
mg_call_asm(g, r->n_seq, r->seq, r->gcs, go->min_mapq, go->min_map_len);
mg_free_maprst(r);
mg_idx_destroy(gi);
return 0;
}
int mg_ggen(gfa_t *g, int32_t n_fn, const char **fn, const mg_idxopt_t *ipt, const mg_mapopt_t *opt, const mg_ggopt_t *go, int n_threads)
{
if (go->flag & MG_G_CALL) return mg_ggen_call(g, fn[0], ipt, opt, go, n_threads);
else if (go->flag & MG_G_CAL_COV) return mg_ggen_cov(g, n_fn, fn, ipt, opt, go, n_threads);
else return mg_ggen_aug(g, n_fn, fn, ipt, opt, go, n_threads);
}
int32_t mg_path2seq(void *km, const gfa_t *g, const mg_gchains_t *gcs, int32_t ls, int32_t le, int32_t voff[2], char **seq_, int32_t *cap_) // NB: [ls,le] is a CLOSED interval
{
extern unsigned char gfa_comp_table[256];
int32_t i, k, l = 0, cap = *cap_;
char *seq = *seq_;
assert(0 <= ls && ls <= le && le < gcs->n_lc);
for (k = ls; k <= le; ++k) {
uint32_t v = gcs->lc[k].v, len = g->seg[v>>1].len;
int32_t st = 0, en = len, tmp;
if (k == ls) st = voff[0];
if (k == le) en = voff[1];
assert(0 <= st && st <= en && en <= len);
if (en - st + l + 1 > cap) {
cap = en - st + l + 1;
kroundup32(cap);
KREALLOC(km, seq, cap);
}
if (v&1) {
uint8_t *ss = (uint8_t*)g->seg[v>>1].seq;
tmp = st, st = len - en, en = len - tmp;
for (i = en - 1; i >= st; --i)
seq[l++] = gfa_comp_table[ss[i]];
} else {
memcpy(&seq[l], &g->seg[v>>1].seq[st], en - st);
l += en - st;
}
}
if (l == 0 && cap == 0) {
cap = 8;
KREALLOC(km, seq, cap);
}
seq[l] = 0;
*seq_ = seq, *cap_ = cap;
return l;
}