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author | lsong10 |
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date | Fri, 26 Mar 2021 16:52:45 +0000 |
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/* The MIT License Copyright (c) 2010 Broad Institute Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /* Contact: Heng Li <lh3@live.co.uk> */ #ifndef BCF_H #define BCF_H #define BCF_VERSION "0.1.19-44428cd" #include <stdint.h> #include <zlib.h> #ifndef BCF_LITE #include "bgzf.h" typedef BGZF *bcfFile; #else typedef gzFile bcfFile; #define bgzf_open(fn, mode) gzopen(fn, mode) #define bgzf_fdopen(fd, mode) gzdopen(fd, mode) #define bgzf_close(fp) gzclose(fp) #define bgzf_read(fp, buf, len) gzread(fp, buf, len) #define bgzf_write(fp, buf, len) #define bgzf_flush(fp) #endif /* A member in the structs below is said to "primary" if its content cannot be inferred from other members in any of structs below; a member is said to be "derived" if its content can be derived from other members. For example, bcf1_t::str is primary as this comes from the input data, while bcf1_t::info is derived as it can always be correctly set if we know bcf1_t::str. Derived members are for quick access to the content and must be synchronized with the primary data. */ typedef struct { uint32_t fmt; // format of the block, set by bcf_str2int(). int len; // length of data for each individual void *data; // concatenated data // derived info: fmt, len (<-bcf1_t::fmt) } bcf_ginfo_t; typedef struct { int32_t tid, pos; // refID and 0-based position int32_t l_str, m_str; // length and the allocated size of ->str float qual; // SNP quality char *str; // concatenated string of variable length strings in VCF (from col.2 to col.7) char *ref, *alt, *flt, *info, *fmt; // they all point to ->str; no memory allocation int n_gi, m_gi; // number and the allocated size of geno fields bcf_ginfo_t *gi; // array of geno fields int n_alleles, n_smpl; // number of alleles and samples // derived info: ref, alt, flt, info, fmt (<-str), n_gi (<-fmt), n_alleles (<-alt), n_smpl (<-bcf_hdr_t::n_smpl) uint8_t *ploidy; // ploidy of all samples; if NULL, ploidy of 2 is assumed. } bcf1_t; typedef struct { int32_t n_ref, n_smpl; // number of reference sequences and samples int32_t l_nm; // length of concatenated sequence names; 0 padded int32_t l_smpl; // length of concatenated sample names; 0 padded int32_t l_txt; // length of header text (lines started with ##) char *name, *sname, *txt; // concatenated sequence names, sample names and header text char **ns, **sns; // array of sequence and sample names; point to name and sname, respectively // derived info: n_ref (<-name), n_smpl (<-sname), ns (<-name), sns (<-sname) } bcf_hdr_t; typedef struct { int is_vcf; // if the file in operation is a VCF void *v; // auxillary data structure for VCF bcfFile fp; // file handler for BCF } bcf_t; struct __bcf_idx_t; typedef struct __bcf_idx_t bcf_idx_t; #ifdef __cplusplus extern "C" { #endif // open a BCF file; for BCF file only bcf_t *bcf_open(const char *fn, const char *mode); // close file int bcf_close(bcf_t *b); // read one record from BCF; return -1 on end-of-file, and <-1 for errors int bcf_read(bcf_t *bp, const bcf_hdr_t *h, bcf1_t *b); // call this function if b->str is changed int bcf_sync(bcf1_t *b); // write a BCF record int bcf_write(bcf_t *bp, const bcf_hdr_t *h, const bcf1_t *b); // read the BCF header; BCF only bcf_hdr_t *bcf_hdr_read(bcf_t *b); // write the BCF header int bcf_hdr_write(bcf_t *b, const bcf_hdr_t *h); // set bcf_hdr_t::ns and bcf_hdr_t::sns int bcf_hdr_sync(bcf_hdr_t *b); // destroy the header void bcf_hdr_destroy(bcf_hdr_t *h); // destroy a record int bcf_destroy(bcf1_t *b); // BCF->VCF conversion char *bcf_fmt(const bcf_hdr_t *h, bcf1_t *b); // append more info int bcf_append_info(bcf1_t *b, const char *info, int l); // remove tag int remove_tag(char *string, const char *tag, char delim); // remove info tag, string is the kstring holder of bcf1_t.str void rm_info(kstring_t *string, const char *key); // copy int bcf_cpy(bcf1_t *r, const bcf1_t *b); // open a VCF or BCF file if "b" is set in "mode" bcf_t *vcf_open(const char *fn, const char *mode); // close a VCF/BCF file int vcf_close(bcf_t *bp); // read the VCF/BCF header bcf_hdr_t *vcf_hdr_read(bcf_t *bp); // read the sequence dictionary from a separate file; required for VCF->BCF conversion int vcf_dictread(bcf_t *bp, bcf_hdr_t *h, const char *fn); // read a VCF/BCF record; return -1 on end-of-file and <-1 for errors int vcf_read(bcf_t *bp, bcf_hdr_t *h, bcf1_t *b); // write the VCF header int vcf_hdr_write(bcf_t *bp, const bcf_hdr_t *h); // write a VCF record int vcf_write(bcf_t *bp, bcf_hdr_t *h, bcf1_t *b); // keep the first n alleles and discard the rest int bcf_shrink_alt(bcf1_t *b, int n); // keep the masked alleles and discard the rest void bcf_fit_alt(bcf1_t *b, int mask); // convert GL to PL int bcf_gl2pl(bcf1_t *b); // if the site is an indel int bcf_is_indel(const bcf1_t *b); bcf_hdr_t *bcf_hdr_subsam(const bcf_hdr_t *h0, int n, char *const* samples, int *list); int bcf_subsam(int n_smpl, int *list, bcf1_t *b); // move GT to the first FORMAT field int bcf_fix_gt(bcf1_t *b); // update PL generated by old samtools int bcf_fix_pl(bcf1_t *b); // convert PL to GLF-like 10-likelihood GL int bcf_gl10(const bcf1_t *b, uint8_t *gl); // convert up to 4 INDEL alleles to GLF-like 10-likelihood GL int bcf_gl10_indel(const bcf1_t *b, uint8_t *gl); // string hash table void *bcf_build_refhash(bcf_hdr_t *h); void bcf_str2id_destroy(void *_hash); void bcf_str2id_thorough_destroy(void *_hash); int bcf_str2id_add(void *_hash, const char *str); int bcf_str2id(void *_hash, const char *str); void *bcf_str2id_init(); // indexing related functions int bcf_idx_build(const char *fn); uint64_t bcf_idx_query(const bcf_idx_t *idx, int tid, int beg); int bcf_parse_region(void *str2id, const char *str, int *tid, int *begin, int *end); bcf_idx_t *bcf_idx_load(const char *fn); void bcf_idx_destroy(bcf_idx_t *idx); #ifdef __cplusplus } #endif static inline uint32_t bcf_str2int(const char *str, int l) { int i; uint32_t x = 0; for (i = 0; i < l && i < 4; ++i) { if (str[i] == 0) return x; x = x<<8 | str[i]; } return x; } #endif