Crate bcf_reader

bcf_reader

This is an attempt to create a small, lightweight, pure-Rust library to allow efficient, cross-platform access to genotype data in BCF files.

Currently, the rust_htslib crate works only on Linux and macOS (not Windows?). The noodles crate is a pure Rust library for many bioinformatic file formats and works across Windows, Linux, and macOS. However, the noodles API for reading genotype data from BCF files can be slow due to its memory allocation patterns. Additionally, both crates have a large number of dependencies, as they provide many features and support a wide range of file formats.

One way to address the memory allocation and dependency issues is to manually parse BCF records according to its specification (<https://samtools.github.io/hts-specs/VCFv4.2.pdf>) and use iterators whenever possible, especially for the per-sample fields, like GT and AD.

Note: This crate is in its early stages of development.

Usage

use bcf_reader::*;
let mut reader = smart_reader("testdata/test2.bcf");
let header = Header::from_string(&read_header(&mut reader));
// find key for a field in INFO or FORMAT or FILTER
let key = header.get_idx_from_dictionary_str("FORMAT", "GT").unwrap();
// access header dictionary
let d = &header.dict_strings()[&key];
assert_eq!(d["ID"], "GT");
assert_eq!(d["Dictionary"], "FORMAT");
/// get chromosome name
assert_eq!(header.get_chrname(0), "Pf3D7_01_v3");
let fmt_ad_key = header.get_idx_from_dictionary_str("FORMAT", "AD").expect("FORMAT/AD not found");
let info_af_key = header.get_idx_from_dictionary_str("INFO", "AF").expect("INFO/AF not found");

// this can be and should be reused to reduce allocation
let mut record = Record::default();
while let Ok(_) = record.read(&mut reader){
    let pos = record.pos();

    // use byte ranges and shared buffer to get allele string values
    let allele_byte_ranges = record.alleles();
    let share_buf = record.buf_shared();
    let ref_rng = &allele_byte_ranges[0];
    let ref_allele_str = std::str::from_utf8(&share_buf[ref_rng.start..ref_rng.end]).unwrap();
    let alt1_rng = &allele_byte_ranges[1];
    let alt1_allele_str = std::str::from_utf8(&share_buf[alt1_rng.start..alt1_rng.end]).unwrap();
    // ...

    // access FORMAT/GT via iterator
    for nv in record.fmt_gt(&header){
        let (has_no_ploidy, is_missing, is_phased, allele_idx) = nv.gt_val();
        // ...
    }

    // access FORMAT/AD via iterator
    for nv in record.fmt_field(fmt_ad_key){
        match nv.int_val(){
            None => {}
            Some(ad) => {
            // ...
            }
        }
        // ...
    }

    // access FILTERS via itertor
    record.filters().for_each(|nv| {
       let filter_key = nv.int_val().unwrap() as usize;
       let dict_string_map = &header.dict_strings()[&filter_key];
       let filter_name = &dict_string_map["ID"];
       // ...
    });

    // access INFO/AF via itertor
    record.info_field_numeric(info_af_key).for_each(|nv| {
        let af = nv.float_val().unwrap();
        // ...
   });
}

More examples to access each field/column are available in docs of Record and Header.

Structs

• Header
  Represents a header of a BCF file.
• NumericValueIter
  Iterator for accessing arrays of numeric values (integers or floats) directly from the buffer bytes without building Vec<> or Vec<Vec<>> for each site.
• ParMultiGzipReader
  This reader facilitates parallel decompression of BCF data compressed in the BGZF format—a specialized version of the multi-member gzip file format. It utilizes internal buffers to sequentially ingest compressed data from various gzip blocks, leveraging the rayon crate to achieve concurrent decompression. This design addresses the potential bottleneck in data processing speed that occurs when decompression is not executed in parallel, ensuring more efficient handling of compressed data streams. Example:
• QuotedSplitter
  An iterator used to split a str by a separator with separators within pairs of quotes ignored.
• Record
  Represents a record (a line or a site) in BCF file

Enums

• NumericValue
  Represents a numeric value in the context of the bcf-reader.

Functions

• bcf2_typ_width
  map bcf2 type to width in bytes
• iter_typed_integers
  Generate an iterator of numbers from a continuous bytes buffer
• read_header
  read the header lines to a String use Header::from_string(text) to convert the string into structured data
• read_single_typed_integer
• read_typed_descriptor_bytes
• read_typed_string
  Read a typed string from the reader to a Rust String
• smart_reader
  Open a file from a path as a MultiGzDecoder or a BufReader depending on whether the file has the magic number for gzip (Ox1f and 0x8b)