z' and z'' can be calculated

[samtools.git] / bcftools / call1.c

#include <unistd.h>
#include <stdlib.h>
#include <math.h>
#include <zlib.h>
#include <errno.h>
#include "bcf.h"
#include "prob1.h"
#include "kstring.h"

#include "khash.h"
KHASH_SET_INIT_INT64(set64)

#include "kseq.h"
KSTREAM_INIT(gzFile, gzread, 16384)

#define VC_NO_PL   1
#define VC_NO_GENO 2
#define VC_BCFOUT  4
#define VC_CALL    8
#define VC_VARONLY 16
#define VC_VCFIN   32
#define VC_UNCOMP  64
#define VC_HWE     128

typedef struct {
        int flag, prior_type, n1;
        char *fn_list, *prior_file;
        double theta, pref;
} viewconf_t;

khash_t(set64) *bcf_load_pos(const char *fn, bcf_hdr_t *_h)
{
        void *str2id;
        gzFile fp;
        kstream_t *ks;
        int ret, dret, lineno = 1;
        kstring_t *str;
        khash_t(set64) *hash = 0;

        hash = kh_init(set64);
        str2id = bcf_build_refhash(_h);
        str = calloc(1, sizeof(kstring_t));
        fp = strcmp(fn, "-")? gzopen(fn, "r") : gzdopen(fileno(stdin), "r");
        ks = ks_init(fp);
        while (ks_getuntil(ks, 0, str, &dret) >= 0) {
                int tid = bcf_str2id(str2id, str->s);
                if (tid >= 0 && dret != '\n') {
                        if (ks_getuntil(ks, 0, str, &dret) >= 0) {
                                uint64_t x = (uint64_t)tid<<32 | (atoi(str->s) - 1);
                                kh_put(set64, hash, x, &ret);
                        } else break;
                } else fprintf(stderr, "[%s] %s is not a reference name (line %d).\n", __func__, str->s, lineno);
                if (dret != '\n') while ((dret = ks_getc(ks)) > 0 && dret != '\n');
                if (dret < 0) break;
                ++lineno;
        }
        bcf_str2id_destroy(str2id);
        ks_destroy(ks);
        gzclose(fp);
        free(str->s); free(str);
        return hash;
}

static double test_hwe(const double g[3])
{
        extern double kf_gammaq(double p, double x);
        double fexp, chi2, f[3], n;
        int i;
        n = g[0] + g[1] + g[2];
        fexp = (2. * g[2] + g[1]) / (2. * n);
        if (fexp > 1. - 1e-10) fexp = 1. - 1e-10;
        if (fexp < 1e-10) fexp = 1e-10;
        f[0] = n * (1. - fexp) * (1. - fexp);
        f[1] = n * 2. * fexp * (1. - fexp);
        f[2] = n * fexp * fexp;
        for (i = 0, chi2 = 0.; i < 3; ++i)
                chi2 += (g[i] - f[i]) * (g[i] - f[i]) / f[i];
        return kf_gammaq(.5, chi2 / 2.);
}

typedef struct {
        double p[4];
        int mq, depth, is_tested, d[4];
} anno16_t;

static double ttest(int n1, int n2, int a[4])
{
        extern double kf_betai(double a, double b, double x);
        double t, v, u1, u2;
        if (n1 == 0 || n2 == 0 || n1 + n2 < 3) return 1.0;
        u1 = (double)a[0] / n1; u2 = (double)a[2] / n2;
        if (u1 <= u2) return 1.;
        t = (u1 - u2) / sqrt(((a[1] - n1 * u1 * u1) + (a[3] - n2 * u2 * u2)) / (n1 + n2 - 2) * (1./n1 + 1./n2));
        v = n1 + n2 - 2;
//      printf("%d,%d,%d,%d,%lf,%lf,%lf\n", a[0], a[1], a[2], a[3], t, u1, u2);
        return t < 0.? 1. : .5 * kf_betai(.5*v, .5, v/(v+t*t));
}

static int test16_core(int anno[16], anno16_t *a)
{
        extern double kt_fisher_exact(int n11, int n12, int n21, int n22, double *_left, double *_right, double *two);
        double left, right;
        int i;
        a->p[0] = a->p[1] = a->p[2] = a->p[3] = 1.;
        memcpy(a->d, anno, 4 * sizeof(int));
        a->depth = anno[0] + anno[1] + anno[2] + anno[3];
        a->is_tested = (anno[0] + anno[1] > 0 && anno[2] + anno[3] > 0);
        if (a->depth == 0) return -1;
        a->mq = (int)(sqrt((anno[9] + anno[11]) / a->depth) + .499);
        kt_fisher_exact(anno[0], anno[1], anno[2], anno[3], &left, &right, &a->p[0]);
        for (i = 1; i < 4; ++i)
                a->p[i] = ttest(anno[0] + anno[1], anno[2] + anno[3], anno+4*i);
        return 0;
}

static int test16(bcf1_t *b, anno16_t *a)
{
        char *p;
        int i, anno[16];
        a->p[0] = a->p[1] = a->p[2] = a->p[3] = 1.;
        a->d[0] = a->d[1] = a->d[2] = a->d[3] = 0.;
        a->mq = a->depth = a->is_tested = 0;
        if ((p = strstr(b->info, "I16=")) == 0) return -1;
        p += 4;
        for (i = 0; i < 16; ++i) {
                anno[i] = strtol(p, &p, 10);
                if (anno[i] == 0 && (errno == EINVAL || errno == ERANGE)) return -2;
                ++p;
        }
        return test16_core(anno, a);
}

static void rm_info(int n_smpl, bcf1_t *b, const char *key)
{
        char *p, *q;
        if ((p = strstr(b->info, key)) == 0) return;
        for (q = p; *q && *q != ';'; ++q);
        if (p > b->info && *(p-1) == ';') --p;
        memmove(p, q, b->l_str - (q - b->str));
        b->l_str -= q - p;
        bcf_sync(n_smpl, b);
}

static int update_bcf1(int n_smpl, bcf1_t *b, const bcf_p1aux_t *pa, const bcf_p1rst_t *pr, double pref)
{
        kstring_t s;
        int is_var = (pr->p_ref < pref);
        double p_hwe, r = is_var? pr->p_ref : 1. - pr->p_ref;
        anno16_t a;

        p_hwe = pr->g[0] >= 0.? test_hwe(pr->g) : 1.0; // only do HWE g[] is calculated
        test16(b, &a);
        rm_info(n_smpl, b, "I16=");

        memset(&s, 0, sizeof(kstring_t));
        kputc('\0', &s); kputs(b->ref, &s); kputc('\0', &s);
        if (is_var) {
                kputs(b->alt, &s);
        }
        kputc('\0', &s); kputc('\0', &s);
        kputs(b->info, &s);
        if (b->info[0]) kputc(';', &s);
        ksprintf(&s, "AF1=%.3lf;AFE=%.3lf", 1.-pr->f_em, 1.-pr->f_exp);
        ksprintf(&s, ";DP4=%d,%d,%d,%d;MQ=%d", a.d[0], a.d[1], a.d[2], a.d[3], a.mq);
        if (a.is_tested) ksprintf(&s, ";PV4=%.2lg,%.2lg,%.2lg,%.2lg", a.p[0], a.p[1], a.p[2], a.p[3]);
        if (pr->g[0] >= 0. && p_hwe <= .2)
                ksprintf(&s, ";GC=%.2lf,%.2lf,%.2lf;HWE=%.3lf", pr->g[2], pr->g[1], pr->g[0], p_hwe);
        kputc('\0', &s);
        kputs(b->fmt, &s); kputc('\0', &s);
        free(b->str);
        b->m_str = s.m; b->l_str = s.l; b->str = s.s;
        b->qual = r < 1e-100? 99 : -3.434 * log(r);
        if (b->qual > 99) b->qual = 99;
        bcf_sync(n_smpl, b);
        return is_var;
}

int bcfview(int argc, char *argv[])
{
        bcf_t *bp, *bout = 0;
        bcf1_t *b;
        int c;
        uint64_t n_processed = 0;
        viewconf_t vc;
        bcf_p1aux_t *p1 = 0;
        bcf_hdr_t *h;
        int tid, begin, end;
        char moder[4], modew[4];
        khash_t(set64) *hash = 0;

        tid = begin = end = -1;
        memset(&vc, 0, sizeof(viewconf_t));
        vc.prior_type = vc.n1 = -1; vc.theta = 1e-3; vc.pref = 0.9;
        while ((c = getopt(argc, argv, "1:l:cHGvLbSuP:t:p:")) >= 0) {
                switch (c) {
                case '1': vc.n1 = atoi(optarg); break;
                case 'l': vc.fn_list = strdup(optarg); break;
                case 'G': vc.flag |= VC_NO_GENO; break;
                case 'L': vc.flag |= VC_NO_PL; break;
                case 'b': vc.flag |= VC_BCFOUT; break;
                case 'S': vc.flag |= VC_VCFIN; break;
                case 'c': vc.flag |= VC_CALL; break;
                case 'v': vc.flag |= VC_VARONLY; break;
                case 'u': vc.flag |= VC_UNCOMP | VC_BCFOUT; break;
                case 'H': vc.flag |= VC_HWE; break;
                case 't': vc.theta = atof(optarg); break;
                case 'p': vc.pref = atof(optarg); break;
                case 'P':
                        if (strcmp(optarg, "full") == 0) vc.prior_type = MC_PTYPE_FULL;
                        else if (strcmp(optarg, "cond2") == 0) vc.prior_type = MC_PTYPE_COND2;
                        else if (strcmp(optarg, "flat") == 0) vc.prior_type = MC_PTYPE_FLAT;
                        else vc.prior_file = strdup(optarg);
                        break;
                }
        }
        if (argc == optind) {
                fprintf(stderr, "\n");
                fprintf(stderr, "Usage:   bcftools view [options] <in.bcf> [reg]\n\n");
                fprintf(stderr, "Options: -c        SNP calling\n");
                fprintf(stderr, "         -b        output BCF instead of VCF\n");
                fprintf(stderr, "         -u        uncompressed BCF output\n");
                fprintf(stderr, "         -S        input is VCF\n");
                fprintf(stderr, "         -G        suppress all individual genotype information\n");
                fprintf(stderr, "         -L        discard the PL genotype field\n");
                fprintf(stderr, "         -H        perform Hardy-Weinberg test (slower)\n");
                fprintf(stderr, "         -v        output potential variant sites only\n");
                fprintf(stderr, "         -l FILE   list of sites to output [all sites]\n");
                fprintf(stderr, "         -t FLOAT  scaled mutation rate [%.4lg]\n", vc.theta);
                fprintf(stderr, "         -p FLOAT  variant if P(ref|D)<FLOAT [%.3lg]\n", vc.pref);
                fprintf(stderr, "         -P STR    type of prior: full, cond2, flat [full]\n");
                fprintf(stderr, "\n");
                return 1;
        }

        b = calloc(1, sizeof(bcf1_t));
        strcpy(moder, "r");
        if (!(vc.flag & VC_VCFIN)) strcat(moder, "b");
        strcpy(modew, "w");
        if (vc.flag & VC_BCFOUT) strcat(modew, "b");
        if (vc.flag & VC_UNCOMP) strcat(modew, "u");
        bp = vcf_open(argv[optind], moder);
        h = vcf_hdr_read(bp);
        bout = vcf_open("-", modew);
        vcf_hdr_write(bout, h);
        if (vc.flag & VC_CALL) {
                p1 = bcf_p1_init(h->n_smpl);
                if (vc.prior_file) {
                        if (bcf_p1_read_prior(p1, vc.prior_file) < 0) {
                                fprintf(stderr, "[%s] fail to read the prior AFS.\n", __func__);
                                return 1;
                        }
                } else bcf_p1_init_prior(p1, vc.prior_type, vc.theta);
                if (vc.n1 > 0) bcf_p1_set_n1(p1, vc.n1);
        }
        if (vc.fn_list) hash = bcf_load_pos(vc.fn_list, h);
        if (optind + 1 < argc && !(vc.flag&VC_VCFIN)) {
                void *str2id = bcf_build_refhash(h);
                if (bcf_parse_region(str2id, argv[optind+1], &tid, &begin, &end) >= 0) {
                        bcf_idx_t *idx;
                        idx = bcf_idx_load(argv[optind]);
                        if (idx) {
                                uint64_t off;
                                off = bcf_idx_query(idx, tid, begin, end);
                                bgzf_seek(bp->fp, off, SEEK_SET);
                                bcf_idx_destroy(idx);
                        }
                }
        }
        while (vcf_read(bp, h, b) > 0) {
                if (hash) {
                        uint64_t x = (uint64_t)b->tid<<32 | b->pos;
                        khint_t k = kh_get(set64, hash, x);
                        if (k == kh_end(hash)) continue;
                }
                if (tid >= 0) {
                        int l = strlen(b->ref);
                        l = b->pos + (l > 0? l : 1);
                        if (b->tid != tid || b->pos >= end) break;
                        if (!(l > begin && end > b->pos)) continue;
                }
                if (vc.flag & VC_CALL) {
                        bcf_p1rst_t pr;
                        bcf_p1_cal(b, p1, &pr); // pr.g[3] is not calculated here
                        if (vc.flag&VC_HWE) bcf_p1_cal_g3(p1, pr.g);
                        if ((n_processed + 1) % 50000 == 0) bcf_p1_dump_afs(p1);
                        if (pr.p_ref >= vc.pref && (vc.flag & VC_VARONLY)) continue;
                        update_bcf1(h->n_smpl, b, p1, &pr, vc.pref);
                }
                if (vc.flag & VC_NO_GENO) {
                        b->n_gi = 0;
                        b->fmt[0] = '\0';
                }
                vcf_write(bout, h, b);
                ++n_processed;
        }
        if (vc.prior_file) free(vc.prior_file);
        if (vc.flag & VC_CALL) bcf_p1_dump_afs(p1);
        bcf_hdr_destroy(h);
        bcf_destroy(b);
        vcf_close(bp); vcf_close(bout);
        if (hash) kh_destroy(set64, hash);
        if (vc.fn_list) free(vc.fn_list);
        if (p1) bcf_p1_destroy(p1);
        return 0;
}