#include "sam.h"
#include "faidx.h"
#include "bam_maqcns.h"
-#include "bam_mcns.h"
#include "bam2bcf.h"
#include "khash.h"
#include "glf.h"
* mpileup *
***********/
-#define MPLP_VCF 0x1
-#define MPLP_VAR 0x2
-#define MPLP_AFALL 0x8
#define MPLP_GLF 0x10
#define MPLP_NO_COMP 0x20
-#define MPLP_AFS_BLOCK 0x10000
-
typedef struct {
- int max_mq, min_mq, prior_type, flag, min_baseQ;
+ int max_mq, min_mq, flag, min_baseQ;
double theta;
char *reg, *fn_pos;
faidx_t *fai;
const bam_pileup1_t **plp;
bam_mplp_t iter;
bam_header_t *h = 0;
- uint64_t N = 0;
char *ref;
khash_t(64) *hash = 0;
- mc_aux_t *ma = 0;
-
bcf_callaux_t *bca = 0;
bcf_callret1_t *bcr = 0;
bcf_call_t bc;
free(s.s);
bcf_hdr_sync(bh);
bcf_hdr_write(bp, bh);
- } else if (conf->flag & MPLP_VCF) {
- kstring_t s;
- s.l = s.m = 0; s.s = 0;
- puts("##fileformat=VCFv4.0");
- puts("##INFO=<ID=DP,Number=1,Type=Integer,Description=\"Total read depth\">");
- puts("##INFO=<ID=AF,Number=1,Type=Float,Description=\"Non-reference allele frequency \\argmax_f P(D|f)\">");
- puts("##INFO=<ID=AFE,Number=1,Type=Float,Description=\"Expected non-reference allele frequency\">");
- puts("##FILTER=<ID=Q13,Description=\"All min{baseQ,mapQ} below 13\">");
- puts("##FILTER=<ID=FPE,Description=\"Floating point error\">");
- kputs("#CHROM\tPOS\tID\tREF\tALT\tQUAL\tFILTER\tINFO\tFORMAT", &s);
- for (i = 0; i < n; ++i) {
- const char *p;
- kputc('\t', &s);
- if ((p = strstr(fn[i], ".bam")) != 0)
- kputsn(fn[i], p - fn[i], &s);
- else kputs(fn[i], &s);
- }
- puts(s.s);
- free(s.s);
}
// mpileup
if (conf->flag & MPLP_GLF) {
bca = bcf_call_init(-1., conf->min_baseQ);
bcr = calloc(n, sizeof(bcf_callret1_t));
- } else if (conf->flag & MPLP_VCF) {
- ma = mc_init(n);
- mc_init_prior(ma, conf->prior_type, conf->theta);
}
ref_tid = -1; ref = 0;
iter = bam_mplp_init(n, mplp_func, (void**)data);
bcf_write(bp, bh, b);
//fprintf(stderr, "%d,%d,%d\n", b->tid, b->pos, b->l_str);
bcf_destroy(b);
- } else if (conf->flag & MPLP_VCF) {
- mc_rst_t r;
- int j, _ref0, depth, rms_q, _ref0b, is_var = 0, qref = 0, level = 2, tot;
- uint64_t sqr_sum;
- _ref0 = _ref0b = (ref && pos < ref_len)? ref[pos] : 'N';
- _ref0 = bam_nt16_nt4_table[bam_nt16_table[_ref0]];
- tot = mc_cal(_ref0, n_plp, plp, ma, &r, level);
- if (tot) { // has good bases
- double q;
- is_var = (r.p_ref < .5);
- q = is_var? r.p_ref : 1. - r.p_ref;
- if (q < 1e-308) q = 1e-308;
- qref = (int)(-3.434 * log(q) + .499);
- if (qref > 99) qref = 99;
- }
- if ((conf->flag & MPLP_VAR) && !is_var) continue;
- ++N; // number of processed lines
- printf("%s\t%d\t.\t%c\t", h->target_name[tid], pos + 1, _ref0b);
- if (is_var) {
- putchar("ACGTN"[r.alt]);
- if (r.alt2 >= 0 && r.alt2 < 4) printf(",%c", "ACGT"[r.alt2]);
- } else putchar('.');
- printf("\t%d\t", qref);
- if (!tot) printf("Q13\t");
- else if (r.f_exp < 0.) printf("FPE\t");
- else printf(".\t");
- for (i = depth = 0, sqr_sum = 0; i < n; ++i) {
- depth += n_plp[i];
- for (j = 0; j < n_plp[i]; ++j) {
- int q = plp[i][j].b->core.qual;
- if (q > conf->max_mq) q = conf->max_mq;
- sqr_sum += q * q;
- }
- }
- rms_q = (int)(sqrt((double)sqr_sum / depth) + .499);
- printf("DP=%d;MQ=%d", depth, rms_q);
- if (tot) {
- printf(";AF=%.3lf", 1. - r.f_em);
- if (level >= 2) printf(";AFE=%.3lf", 1-r.f_exp);
- if (conf->flag & MPLP_AFALL)
- printf(";AF0=%.3lf;AFN=%.3lf", 1-r.f_naive, 1-r.f_nielsen);
- }
- printf("\tGT:GQ:DP");
- if (tot) {
- for (i = 0; i < n; ++i) {
- int x = mc_call_gt(ma, r.f_exp, i);
- printf("\t%c/%c:%d:%d", "10"[((x&3)==2)], "10"[((x&3)>0)], x>>2, n_plp[i]);
- }
- } else for (i = 0; i < n; ++i) printf("\t./.:0:0");
- putchar('\n');
- if (N % MPLP_AFS_BLOCK == 0) mc_dump_afs(ma);
} else {
printf("%s\t%d\t%c", h->target_name[tid], pos + 1, (ref && pos < ref_len)? ref[pos] : 'N');
for (i = 0; i < n; ++i) {
}
}
bcf_close(bp);
- if (conf->flag&MPLP_VCF) mc_dump_afs(ma);
if (hash) { // free the hash table
khint_t k;
for (k = kh_begin(hash); k < kh_end(hash); ++k)
kh_destroy(64, hash);
}
bcf_hdr_destroy(bh); bcf_call_destroy(bca); free(bc.PL); free(bcr);
- mc_destroy(ma);
bam_mplp_destroy(iter);
bam_header_destroy(h);
for (i = 0; i < n; ++i) {
mplp_conf_t mplp;
memset(&mplp, 0, sizeof(mplp_conf_t));
mplp.max_mq = 60;
- mplp.prior_type = MC_PTYPE_FULL;
mplp.theta = 1e-3;
mplp.min_baseQ = 13;
- while ((c = getopt(argc, argv, "gvVcFSP:f:r:l:VM:q:t:Q:u")) >= 0) {
+ while ((c = getopt(argc, argv, "gf:r:l:M:q:t:Q:u")) >= 0) {
switch (c) {
case 't': mplp.theta = atof(optarg); break;
- case 'P':
- if (strcmp(optarg, "full") == 0) mplp.prior_type = MC_PTYPE_FULL;
- else if (strcmp(optarg, "cond2") == 0) mplp.prior_type = MC_PTYPE_COND2;
- else if (strcmp(optarg, "flat") == 0) mplp.prior_type = MC_PTYPE_FLAT;
- else {
- fprintf(stderr, "[%s] unrecognized prior type.\n", __func__);
- return 1;
- }
- break;
case 'f':
mplp.fai = fai_load(optarg);
if (mplp.fai == 0) return 1;
case 'r': mplp.reg = strdup(optarg); break;
case 'l': mplp.fn_pos = strdup(optarg); break;
case 'g': mplp.flag |= MPLP_GLF; break;
- case 'V':
- case 'c': mplp.flag |= MPLP_VCF; break;
- case 'F': mplp.flag |= MPLP_AFALL; break;
- case 'v': mplp.flag |= MPLP_VAR; break;
case 'u': mplp.flag |= MPLP_NO_COMP; break;
case 'M': mplp.max_mq = atoi(optarg); break;
case 'q': mplp.min_mq = atoi(optarg); break;
case 'Q': mplp.min_baseQ = atoi(optarg); break;
}
}
- if (mplp.flag&MPLP_GLF) mplp.flag &= ~MPLP_VCF;
if (argc == 1) {
fprintf(stderr, "\n");
fprintf(stderr, "Usage: samtools mpileup [options] in1.bam [in2.bam [...]]\n\n");
fprintf(stderr, " -r STR region in which pileup is generated [null]\n");
fprintf(stderr, " -l FILE list of positions (format: chr pos) [null]\n");
fprintf(stderr, " -M INT cap mapping quality at INT [%d]\n", mplp.max_mq);
+ fprintf(stderr, " -Q INT min base quality [%d]\n", mplp.min_baseQ);
fprintf(stderr, " -q INT filter out alignment with MQ smaller than INT [%d]\n", mplp.min_mq);
fprintf(stderr, " -t FLOAT scaled mutation rate [%lg]\n", mplp.theta);
- fprintf(stderr, " -P STR prior: full, flat, cond2 [full]\n");
- fprintf(stderr, " -Q INT min base quality [%d]\n", mplp.min_baseQ);
- fprintf(stderr, " -c generate VCF output (consensus calling)\n");
fprintf(stderr, " -g generate GLF output\n");
- fprintf(stderr, " -v show variant sites only\n");
fprintf(stderr, "\n");
- fprintf(stderr, "Notes: Assuming error independency and diploid individuals.\n\n");
+ fprintf(stderr, "Notes: Assuming diploid individuals.\n\n");
return 1;
}
mpileup(&mplp, argc - optind, argv + optind);