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pbwtHtslib.c
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pbwtHtslib.c
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/* File: pbwtHtslib.c
* Author: Richard Durbin ([email protected])
* Copyright (C) Genome Research Limited, 2013
*-------------------------------------------------------------------
* Description: all the pbwt stuff that uses htslib, e.g. reading/writing vcf or bcf files
* Exported functions:
* HISTORY:
* Last edited: Nov 23 16:24 2016 (rd)
* * Sep 22 23:03 2014 (rd): change for 64bit arrays
* Created: Thu Oct 17 12:20:04 2013 (rd)
*-------------------------------------------------------------------
*/
#include "utils.h"
#include "pbwt.h"
#include <htslib/synced_bcf_reader.h>
#include <htslib/faidx.h>
#include <ctype.h> /* for toupper() */
const char *pbwtHtslibVersionString(void)
{
return hts_version();
}
static void readVcfSamples (PBWT *p, bcf_hdr_t *hr)
{
int i, k ;
p->samples = arrayCreate (p->M, int) ;
for (i = 0 ; i < p->M/2 ; ++i)
{ int k = sampleAdd (hr->samples[i],0,0,0) ;
array(p->samples, 2*i, int) = k ; /* assume diploid - could be cleverer */
array(p->samples, 2*i+1, int) = k ;
}
}
static int variation (PBWT *p, const char *ref, const char *alt)
{
static char *buf = 0 ;
static int buflen = 0 ;
if (!buf) { buflen = 64 ; buf = myalloc (buflen, char) ; }
int var ;
if (strlen (ref) + strlen (alt) + 2 > buflen)
{ do buflen *= 2 ; while (strlen (ref) + strlen (alt) + 2 > buflen) ;
free (buf) ; buf = myalloc (buflen, char) ;
}
sprintf (buf, "%s\t%s", ref, alt) ;
dictAdd (variationDict, buf, &var) ;
return var ;
}
PBWT *pbwtReadVcfGT (char *filename) /* read GTs from vcf/bcf using htslib */
{
int i, j ;
bcf_srs_t *sr = bcf_sr_init() ;
if (!bcf_sr_add_reader (sr, filename)) die ("failed to open good vcf file\n") ;
bcf_hdr_t *hr = sr->readers[0].header ;
PBWT *p = pbwtCreate (bcf_hdr_nsamples(hr)*2, 0) ; /* assume diploid! */
readVcfSamples (p, hr) ;
p->sites = arrayCreate (10000, Site) ;
PbwtCursor *u = pbwtCursorCreate (p, TRUE, TRUE) ;
uchar *x = myalloc (p->M, uchar) ;
uchar *xMissing = myalloc (p->M+1, uchar) ;
xMissing[p->M] = Y_SENTINEL ; /* needed for efficient packing */
long nMissing = 0 ;
int nMissingSites = 0 ;
int mgt_arr = 0, *gt_arr = NULL ;
while (bcf_sr_next_line (sr))
{ bcf1_t *line = bcf_sr_get_line(sr,0) ;
const char* chrom = bcf_seqname(hr,line) ;
if (!p->chrom) p->chrom = strdup (chrom) ;
else if (strcmp (chrom, p->chrom)) break ;
int pos = line->pos + 1 ; // bcf coordinates are 0-based
char *ref, *REF;
ref = REF = strdup(line->d.allele[0]);
while ( (*ref = toupper(*ref)) ) ++ref ;
// get a copy of GTs
int ngt = bcf_get_genotypes(hr, line, >_arr, &mgt_arr) ;
if (ngt <= 0) continue ; // it seems that -1 is used if GT is not in the FORMAT
if (ngt != p->M && p->M != 2*ngt) die ("%d != %d GT values at %s:%d - not haploid or diploid?",
ngt, p->M, chrom, pos) ;
memset (xMissing, 0, p->M) ;
long wasMissing = nMissing ;
/* copy the genotypes into array x[] */
if (p->M == 2*ngt) // all GTs haploid: treat haploid genotypes as diploid homozygous A/A
{
for (i = 0 ; i < ngt ; i++)
{ if (gt_arr[i] == bcf_gt_missing)
{ x[2*i] = 0 ;
x[2*i+1] = 0; /* use ref for now */
xMissing[2*i] = 1 ;
xMissing[2*i+1] = 1;
nMissing+=2 ;
}
else {
x[2*i] = bcf_gt_allele(gt_arr[i]) ; // convert from BCF binary to 0 or 1
x[2*i+1] = x[2*i] ; // convert from BCF binary to 0 or 1
}
}
}
else
{
for (i = 0 ; i < p->M ; i++)
{ if (gt_arr[i] == bcf_int32_vector_end)
die ("unexpected end of genotype vector in VCF") ;
if (gt_arr[i] == bcf_gt_missing)
{ x[i] = 0 ; /* use ref for now */
xMissing[i] = 1 ;
++nMissing ;
}
else
x[i] = bcf_gt_allele(gt_arr[i]) ; // convert from BCF binary to 0 or 1
}
}
BOOL no_alt = line->n_allele == 1;
int n_allele = no_alt ? 2 : line->n_allele;
/* split into biallelic sites filling in as REF ALT alleles */
/* not in the REF/ALT site */
for (i = 1 ; i < n_allele ; i++)
{
char *alt, *ALT;
alt = ALT = no_alt ? "." : strdup(line->d.allele[i]) ;
if (!no_alt) while ( (*alt = toupper(*alt)) ) ++alt ;
/* and pack them into the PBWT */
for (j = 0 ; j < p->M ; ++j) u->y[j] = x[u->a[j]] == i ? 1 : 0;
pbwtCursorWriteForwards (u) ;
/* store missing information, if there was any */
if (nMissing > wasMissing)
{ if (!wasMissing)
{ p->zMissing = arrayCreate (10000, uchar) ;
array(p->zMissing, 0, uchar) = 0 ; /* needed so missing[] has offset > 0 */
p->missingOffset = arrayCreate (1024, long) ;
}
array(p->missingOffset, p->N, long) = arrayMax(p->zMissing) ;
pack3arrayAdd (xMissing, p->M, p->zMissing) ; /* NB original order, not pbwt sort */
nMissingSites++ ;
}
else if (nMissing)
array(p->missingOffset, p->N, long) = 0 ;
// add the site
Site *s = arrayp(p->sites, p->N++, Site) ;
s->x = pos ;
s->varD = variation (p, REF, ALT) ;
}
if (nCheckPoint && !(p->N % nCheckPoint)) pbwtCheckPoint (u, p) ;
}
pbwtCursorToAFend (u, p) ;
if (gt_arr) free (gt_arr) ;
bcf_sr_destroy (sr) ;
free (x) ; pbwtCursorDestroy (u) ;
free (xMissing) ;
fprintf (logFile, "read genotypes from %s with %ld sample names and %ld sites on chromosome %s: M, N are %d, %d\n",
filename, arrayMax(p->samples)/2, arrayMax(p->sites), p->chrom, p->M, p->N) ;
if (p->missingOffset) fprintf (logFile, "%ld missing values at %d sites\n",
nMissing, nMissingSites) ;
return p ;
}
PBWT *pbwtReadVcfPL (char *filename) /* read PLs from vcf/bcf using htslib */
{
PBWT *p ;
int i, j, k = 0 ;
bcf_srs_t *sr = bcf_sr_init() ;
if (!bcf_sr_add_reader (sr, filename)) die ("failed to open good vcf file\n") ;
bcf_hdr_t *hr = sr->readers[0].header ;
p = pbwtCreate (bcf_hdr_nsamples(hr)*2, 0) ; /* assume diploid! */
readVcfSamples (p, hr) ;
int mpl_arr = 0, *pl_arr = NULL;
while (bcf_sr_next_line (sr))
{ ++k ;
bcf1_t *line = bcf_sr_get_line(sr,0) ;
const char* chrom = bcf_seqname(hr,line) ;
int pos = line->pos + 1 ; // bcf coordinates are 0-based
if (line->n_allele != 2) continue ; // not a biallelic site
const char *ref = line->d.allele[0] ;
const char *alt = line->d.allele[1] ;
if (k <= 10) printf ("%s:%d %s %s", chrom, pos, ref, alt) ;
// get a copy of the PL vectors
int npl = bcf_get_format_int32(hr, line, "PL", &pl_arr, &mpl_arr) ;
if (npl)
{ npl /= bcf_hdr_nsamples(hr) ; // number of values per samples
if (npl != 3) die ("%s:%d not a diploid site", chrom, pos) ; // not diploid
for (i = 0 ; i < bcf_hdr_nsamples(hr) ; i++) // iterate over samples
{
for (j = 0 ; j < npl ; j++) // iterate over PL values (genotypes)
{
// check for shorter vectors (haploid genotypes amongst diploid genotypes)
if (pl_arr[i*npl+j] == bcf_int32_vector_end) break ;
// skip missing values
if (pl_arr[i*npl+j] == bcf_int32_missing) continue ;
// do something with j-th PL value
if (k <= 10 && i < 10) printf ("%c%d", j?'.':' ', pl_arr[i*npl+j]) ;
}
}
}
if (k <= 10) printf("\n");
}
if (pl_arr) free (pl_arr) ;
bcf_sr_destroy (sr) ;
return p ;
}
static void pbwtSetContigs(bcf_hdr_t *hdr, faidx_t *fai)
{
int i, n = faidx_nseq(fai) ;
for (i=0; i<n; i++)
{
const char *seq = faidx_iseq(fai,i) ;
int len = faidx_seq_len(fai, seq) ;
bcf_hdr_printf(hdr, "##contig=<ID=%s,length=%d>", seq, len) ;
}
}
void pbwtWriteVcf (PBWT *p, char *filename, char *referenceFasta, char *mode)
{
htsFile *fp = NULL ;
bcf_hdr_t *bcfHeader = NULL ;
fp = hts_open(filename,mode) ;
if (!fp) die ("could not open file for writing: %s", filename) ;
if (!p) die ("pbwtWriteVcf called without a valid pbwt") ;
if (!p->sites) die ("pbwtWriteVcf called without sites") ;
if (!p->samples) fprintf (logFile, "Warning: pbwtWriteVcf called without samples... using fake sample names PBWT0, PBWT1 etc...\n") ;
BOOL isDosage = p->dosageOffset ? TRUE : FALSE ;
// write header
bcfHeader = bcf_hdr_init("w") ;
if (referenceFasta)
{
faidx_t *faidx = fai_load(referenceFasta);
if ( !faidx ) die ("Could not load the reference %s. Has the fasta been indexed with 'samtools faidx'?\n", referenceFasta);
pbwtSetContigs(bcfHeader, faidx);
fai_destroy(faidx);
}
else if (p->chrom)
{
bcf_hdr_printf(bcfHeader, "##contig=<ID=%s,length=%d>", p->chrom, 0x7fffffff); // MAX_CSI_COOR
}
kstring_t str = {0,0,0} ;
ksprintf(&str, "##pbwtVersion=%d.%d%s%s+htslib-%s", pbwtMajorVersion, pbwtMinorVersion,
strcmp(pbwtCommitHash(),"")==0 ? "" : "-", pbwtCommitHash(), pbwtHtslibVersionString()) ;
bcf_hdr_append(bcfHeader, str.s) ;
str.l = 0;
ksprintf(&str, "##pbwtCommand=pbwt %s", commandLine) ;
bcf_hdr_append(bcfHeader, str.s) ;
free(str.s) ;
bcf_hdr_append(bcfHeader, "##INFO=<ID=AC,Number=A,Type=Integer,Description=\"Allele count in genotypes\">") ;
bcf_hdr_append(bcfHeader, "##INFO=<ID=AN,Number=1,Type=Integer,Description=\"Total number of alleles in called genotypes\">") ;
bcf_hdr_append(bcfHeader, "##FORMAT=<ID=GT,Number=1,Type=String,Description=\"Genotype\">") ;
if (isDosage)
{
bcf_hdr_append(bcfHeader, "##INFO=<ID=RefPanelAF,Number=A,Type=Float,Description=\"Allele frequency in imputation reference panel\">") ;
bcf_hdr_append(bcfHeader, "##INFO=<ID=DR2,Number=A,Type=Float,Description=\"Estimated haploid dosage r^2 from imputation\">") ;
bcf_hdr_append(bcfHeader, "##FORMAT=<ID=ADS,Number=R,Type=Float,Description=\"Allele dosage\">") ;
bcf_hdr_append(bcfHeader, "##FORMAT=<ID=DS,Number=1,Type=Float,Description=\"Genotype dosage\">") ;
bcf_hdr_append(bcfHeader, "##FORMAT=<ID=GP,Number=G,Type=Float,Description=\"Genotype posterior probabilities\">") ;
}
int i, j ;
for (i = 0 ; i < p->M/2 ; ++i)
{
if (p->samples)
bcf_hdr_add_sample(bcfHeader, sampleName(sample (p, 2*i))) ;
else
{
kstring_t sname = {0,0,0} ;
ksprintf(&sname, "PBWT%d", i) ;
bcf_hdr_add_sample(bcfHeader, sname.s) ;
free(sname.s) ;
}
}
bcf_hdr_add_sample(bcfHeader, 0) ; /* required to update internal structures */
bcf_hdr_write(fp, bcfHeader) ;
bcf1_t *bcfRecord = bcf_init1() ;
uchar *hap = myalloc (p->M, uchar) ;
int32_t *gts = myalloc (p->M, int32_t) ;
PbwtCursor *u = pbwtCursorCreate (p, TRUE, TRUE) ;
double *d = 0 ;
double *gps = isDosage ? myalloc (3*p->M/2, double) : NULL;
double *ds = isDosage ? myalloc (p->M/2, double) : NULL;
double *ad = isDosage ? myalloc (p->M, double) : NULL;
float *fls = myalloc (3*p->M/2, float);
for (i = 0 ; i < p->N ; ++i)
{
Site *s = arrp(p->sites, i, Site) ;
bcf_float_set_missing(bcfRecord->qual) ;
bcfRecord->rid = bcf_hdr_name2id(bcfHeader, p->chrom) ;
bcfRecord->pos = s->x - 1 ;
char *als = strdup( dictName(variationDict, s->varD) ), *ss = als ;
while ( *ss ) { if ( *ss=='\t' ) *ss = ',' ; ss++ ; }
bcf_update_alleles_str(bcfHeader, bcfRecord, als) ;
free(als) ;
bcf_add_filter(bcfHeader, bcfRecord, bcf_hdr_id2int(bcfHeader, BCF_DT_ID, "PASS")) ;
if (isDosage) d = pbwtDosageRetrieve (p, u, d, i) ;
// map haplotypes and dosages to sample order
for (j = 0 ; j < p->M ; ++j)
{
hap[u->a[j]] = u->y[j] ;
if (isDosage) ad[u->a[j]] = d[j] ;
}
int ac[2] = {0,0};
float raf = s->refFreq;
float info = s->imputeInfo;
for (j = 0 ; j < p->M ; j+=2)
{
// todo: handle missing data
/* these are actually posterior probabilities per haplotype
to get dosages for a genotype, add the two values, e.g. dg[n] = d[2*n] + d[2*n+1]
to get genotype likelihoods
gl[n][0] = (1-d[2*n]) * (1-d[2*n+1])
gl[n][1] = d[2*n] + d[2*n+1] - 2*d[2*n]*d[2*n+1]
gl[n][2] = d[2*n] * d[2*n+1]
*/
if (isDosage)
{
ds[j/2] = ad[j] + ad[j+1] ;
gps[3*j/2] = (1-ad[j]) * (1-ad[j+1]) ;
gps[3*j/2+1] = ad[j] + ad[j+1] - 2*ad[j]*ad[j+1] ;
gps[3*j/2+2] = ad[j] * ad[j+1] ;
}
gts[j] = bcf_gt_unphased(hap[j]) ;
gts[j+1] = p->isUnphased ? bcf_gt_unphased(hap[j+1]) : bcf_gt_phased(hap[j+1]) ;
ac[hap[j]]++ ;
ac[hap[j+1]]++ ;
}
int an = ac[0] + ac[1] ;
if ( bcf_update_genotypes(bcfHeader, bcfRecord, gts, p->M) ) die("Could not update GT field\n");
if (p->isRefFreq)
if ( bcf_update_info_float(bcfHeader, bcfRecord, "RefPanelAF", &raf, 1) ) die("Could not update INFO/RefPanelAF field\n") ;
if (isDosage)
{
if ( bcf_update_info_float(bcfHeader, bcfRecord, "DR2", &info, 1) ) die("Could not update INFO/DS field\n") ;
int k ;
// dosages stored as double, but BCF required floats
// may be a better way to handle this, but it works
// for the moment
for (k = 0 ; k < p->M ; ++k)
fls[k] = (float)(ad[k]) ;
if ( bcf_update_format_float(bcfHeader, bcfRecord, "ADS", fls, p->M) ) die("Could not update FORMAT/ADS field\n") ;
for (k = 0 ; k < p->M/2 ; ++k)
fls[k] = (float)(ds[k]) ;
if ( bcf_update_format_float(bcfHeader, bcfRecord, "DS", fls, p->M/2) ) die("Could not update FORMAT/DS field\n") ;
for (k = 0 ; k < 3*p->M/2 ; ++k)
fls[k] = (float)(gps[k]) ;
if ( bcf_update_format_float(bcfHeader, bcfRecord, "GP", fls, 3*p->M/2) ) die("Could not update FORMAT/GP field\n") ;
}
// example of adding INFO fields
bcf_update_info_int32(bcfHeader, bcfRecord, "AC", &ac[1], 1) ;
bcf_update_info_int32(bcfHeader, bcfRecord, "AN", &an, 1) ;
//write and progress
bcf_write(fp, bcfHeader, bcfRecord) ;
bcf_clear(bcfRecord) ;
pbwtCursorForwardsRead(u) ;
}
// cleanup
free(hap) ;
free(gts) ;
if (isDosage) { free(fls) ; free(gps) ; free(ds) ; free(ad) ; }
/* pbwtCursorDestroy(u) ; */
bcf_hdr_destroy(bcfHeader) ;
bcf_destroy1(bcfRecord);
hts_close(fp) ;
fprintf (logFile, "written vcf file: %d records and %d samples\n", p->N, p->M/2) ;
}
/******* end of file ********/