#include #include #include #include "bam.h" #include "errmod.h" #include "faidx.h" #define ERR_DEP 0.83f typedef struct { int e[2][3], p[2][2]; } score_param_t; /* Note that although the two matrics have 10 parameters in total, only 4 * (probably 3) are free. Changing the scoring matrices in a sort of symmetric * way will not change the result. */ static score_param_t g_param = { {{0,0,0},{-4,1,6}}, {{0,-14000}, {0,0}} }; typedef struct { int min_baseQ, tid, max_bases; uint16_t *bases; bamFile fp; bam_header_t *h; char *ref; faidx_t *fai; errmod_t *em; } ct_t; static uint16_t gencns(ct_t *g, int n, const bam_pileup1_t *plp) { int i, j, ret, tmp, k, sum[4], qual; float q[16]; if (n > g->max_bases) { // enlarge g->bases g->max_bases = n; kroundup32(g->max_bases); g->bases = realloc(g->bases, g->max_bases * 2); } for (i = k = 0; i < n; ++i) { const bam_pileup1_t *p = plp + i; uint8_t *seq; int q, baseQ, b; if (p->is_refskip || p->is_del) continue; baseQ = bam1_qual(p->b)[p->qpos]; if (baseQ < g->min_baseQ) continue; seq = bam1_seq(p->b); b = bam_nt16_nt4_table[bam1_seqi(seq, p->qpos)]; if (b > 3) continue; q = baseQ < p->b->core.qual? baseQ : p->b->core.qual; if (q < 4) q = 4; if (q > 63) q = 63; g->bases[k++] = q<<5 | bam1_strand(p->b)<<4 | b; } if (k == 0) return 0; errmod_cal(g->em, k, 4, g->bases, q); for (i = 0; i < 4; ++i) sum[i] = (int)(q[i<<2|i] + .499) << 2 | i; for (i = 1; i < 4; ++i) // insertion sort for (j = i; j > 0 && sum[j] < sum[j-1]; --j) tmp = sum[j], sum[j] = sum[j-1], sum[j-1] = tmp; qual = (sum[1]>>2) - (sum[0]>>2); k = k < 256? k : 255; ret = (qual < 63? qual : 63) << 2 | (sum[0]&3); return ret<<8|k; } static void process_cns(bam_header_t *h, int tid, int l, uint16_t *cns) { int i, f[2][2], *prev, *curr, *swap_tmp, s; uint8_t *b; // backtrack array b = calloc(l, 1); f[0][0] = f[0][1] = 0; prev = f[0]; curr = f[1]; // fill the backtrack matrix for (i = 0; i < l; ++i) { int c = (cns[i] == 0)? 0 : (cns[i]>>8 == 0)? 1 : 2; int tmp0, tmp1; // compute f[0] tmp0 = prev[0] + g_param.e[0][c] + g_param.p[0][0]; // (s[i+1],s[i])=(0,0) tmp1 = prev[1] + g_param.e[0][c] + g_param.p[1][0]; // (0,1) if (tmp0 > tmp1) curr[0] = tmp0, b[i] = 0; else curr[0] = tmp1, b[i] = 1; // compute f[1] tmp0 = prev[0] + g_param.e[1][c] + g_param.p[0][1]; // (s[i+1],s[i])=(1,0) tmp1 = prev[1] + g_param.e[1][c] + g_param.p[1][1]; // (1,1) if (tmp0 > tmp1) curr[1] = tmp0, b[i] |= 0<<1; else curr[1] = tmp1, b[i] |= 1<<1; // swap swap_tmp = prev; prev = curr; curr = swap_tmp; } // backtrack s = prev[0] > prev[1]? 0 : 1; for (i = l - 1; i > 0; --i) { b[i] |= s<<2; s = b[i]>>s&1; } // print for (i = 0, s = -1; i <= l; ++i) { if (i == l || ((b[i]>>2&3) == 0 && s >= 0)) { if (s >= 0) { int j; printf("%s:%d-%d\t0\t%s\t%d\t60\t%dM\t*\t0\t0\t", h->target_name[tid], s+1, i, h->target_name[tid], s+1, i-s); for (j = s; j < i; ++j) { int c = cns[j]>>8; if (c == 0) putchar('N'); else putchar("ACGT"[c&3]); } putchar('\t'); for (j = s; j < i; ++j) putchar(33 + (cns[j]>>8>>2)); putchar('\n'); } //if (s >= 0) printf("%s\t%d\t%d\t%d\n", h->target_name[tid], s, i, i - s); s = -1; } else if ((b[i]>>2&3) && s < 0) s = i; } free(b); } static int read_aln(void *data, bam1_t *b) { extern int bam_prob_realn_core(bam1_t *b, const char *ref, int flag); ct_t *g = (ct_t*)data; int ret, len; ret = bam_read1(g->fp, b); if (ret >= 0 && g->fai && b->core.tid >= 0 && (b->core.flag&4) == 0) { if (b->core.tid != g->tid) { // then load the sequence free(g->ref); g->ref = fai_fetch(g->fai, g->h->target_name[b->core.tid], &len); g->tid = b->core.tid; } bam_prob_realn_core(b, g->ref, 1<<1|1); } return ret; } int main_cut_target(int argc, char *argv[]) { int c, tid, pos, n, lasttid = -1, lastpos = -1, l, max_l; const bam_pileup1_t *p; bam_plp_t plp; uint16_t *cns; ct_t g; memset(&g, 0, sizeof(ct_t)); g.min_baseQ = 13; g.tid = -1; while ((c = getopt(argc, argv, "f:Q:i:o:0:1:2:")) >= 0) { switch (c) { case 'Q': g.min_baseQ = atoi(optarg); break; // quality cutoff case 'i': g_param.p[0][1] = -atoi(optarg); break; // 0->1 transition (in) PENALTY case '0': g_param.e[1][0] = atoi(optarg); break; // emission SCORE case '1': g_param.e[1][1] = atoi(optarg); break; case '2': g_param.e[1][2] = atoi(optarg); break; case 'f': g.fai = fai_load(optarg); if (g.fai == 0) fprintf(stderr, "[%s] fail to load the fasta index.\n", __func__); break; } } if (argc == optind) { fprintf(stderr, "Usage: samtools targetcut [-Q minQ] [-i inPen] [-0 em0] [-1 em1] [-2 em2] [-f ref] \n"); return 1; } l = max_l = 0; cns = 0; g.fp = strcmp(argv[optind], "-")? bam_open(argv[optind], "r") : bam_dopen(fileno(stdin), "r"); g.h = bam_header_read(g.fp); g.em = errmod_init(1 - ERR_DEP); plp = bam_plp_init(read_aln, &g); while ((p = bam_plp_auto(plp, &tid, &pos, &n)) != 0) { if (tid < 0) break; if (tid != lasttid) { // change of chromosome if (cns) process_cns(g.h, lasttid, l, cns); if (max_l < g.h->target_len[tid]) { max_l = g.h->target_len[tid]; kroundup32(max_l); cns = realloc(cns, max_l * 2); } l = g.h->target_len[tid]; memset(cns, 0, max_l * 2); lasttid = tid; } cns[pos] = gencns(&g, n, p); lastpos = pos; } process_cns(g.h, lasttid, l, cns); free(cns); bam_header_destroy(g.h); bam_plp_destroy(plp); bam_close(g.fp); if (g.fai) { fai_destroy(g.fai); free(g.ref); } errmod_destroy(g.em); free(g.bases); return 0; }