Struct noodles_bam::io::reader::Reader
source · pub struct Reader<R> { /* private fields */ }
Expand description
A BAM reader.
The BAM format is an encoded and compressed version of a SAM format.
The reader reads records sequentially but can use virtual positions to seek to offsets from the start of a seekable stream.
§Examples
use noodles_bam as bam;
let mut reader = File::open("sample.bam").map(bam::io::Reader::new)?;
let header = reader.read_header()?;
for result in reader.records() {
let record = result?;
// ...
}
Implementations§
source§impl<R> Reader<R>
impl<R> Reader<R>
sourcepub fn get_ref(&self) -> &R
pub fn get_ref(&self) -> &R
Returns a reference to the underlying reader.
§Examples
use noodles_bam as bam;
let reader = bam::io::Reader::from(io::empty());
let _inner = reader.get_ref();
sourcepub fn get_mut(&mut self) -> &mut R
pub fn get_mut(&mut self) -> &mut R
Returns a mutable reference to the underlying reader.
§Examples
use noodles_bam as bam;
let mut reader = bam::io::Reader::from(io::empty());
let _inner = reader.get_mut();
sourcepub fn into_inner(self) -> R
pub fn into_inner(self) -> R
Returns the underlying reader.
§Examples
use noodles_bam as bam;
let reader = bam::io::Reader::from(io::empty());
let _inner = reader.into_inner();
source§impl<R> Reader<R>where
R: Read,
impl<R> Reader<R>where
R: Read,
sourcepub fn read_header(&mut self) -> Result<Header>
pub fn read_header(&mut self) -> Result<Header>
Reads the SAM header.
This verifies the BAM magic number, reads and parses the raw SAM header, and reads the binary reference sequences. If the SAM header has a reference sequence dictionary, it must match the binary reference sequences; otherwise, the binary reference sequences are added to the SAM header.
The position of the stream is expected to be at the start.
§Examples
use noodles_bam as bam;
let mut reader = File::open("sample.bam").map(bam::io::Reader::new)?;
let header = reader.read_header()?;
sourcepub fn read_record_buf(
&mut self,
header: &Header,
record: &mut RecordBuf
) -> Result<usize>
pub fn read_record_buf( &mut self, header: &Header, record: &mut RecordBuf ) -> Result<usize>
Reads a record into an alignment record buffer.
The record block size (bs
) is read from the underlying stream and bs
bytes are read
into an internal buffer. This buffer is then used to decode fields into the given record.
The stream is expected to be directly after the reference sequences or at the start of another record.
It is more ergonomic to read records using an iterator (see Self::records
and
Self::query
), but using this method directly allows the reuse of a single RecordBuf
buffer.
If successful, the record block size is returned. If a block size of 0 is returned, the stream reached EOF.
§Examples
use noodles_bam as bam;
use noodles_sam::alignment::RecordBuf;
let mut reader = File::open("sample.bam").map(bam::io::Reader::new)?;
let header = reader.read_header()?;
let mut record = RecordBuf::default();
reader.read_record_buf(&header, &mut record)?;
sourcepub fn read_record(&mut self, record: &mut Record) -> Result<usize>
pub fn read_record(&mut self, record: &mut Record) -> Result<usize>
Reads a record.
The record block size (bs
) is read from the underlying stream and bs
bytes are read
into the record’s buffer. No fields are decoded, meaning the record is not necessarily
valid. However, the structure of the buffer is guaranteed to be record-like.
The stream is expected to be directly after the reference sequences or at the start of another record.
If successful, the record block size is returned. If a block size of 0 is returned, the stream reached EOF.
§Examples
use noodles_bam as bam;
let mut reader = File::open("sample.bam").map(bam::io::Reader::new)?;
reader.read_header()?;
let mut record = bam::Record::default();
reader.read_record(&mut record)?;
sourcepub fn record_bufs<'a>(&'a mut self, header: &'a Header) -> RecordBufs<'_, R> ⓘ
pub fn record_bufs<'a>(&'a mut self, header: &'a Header) -> RecordBufs<'_, R> ⓘ
Returns an iterator over alignment record buffers starting from the current stream position.
The stream is expected to be directly after the reference sequences or at the start of another record.
§Examples
use noodles_bam as bam;
let mut reader = File::open("sample.bam").map(bam::io::Reader::new)?;
let header = reader.read_header()?;
for result in reader.record_bufs(&header) {
let record = result?;
println!("{:?}", record);
}
sourcepub fn records(&mut self) -> Records<'_, R> ⓘ
pub fn records(&mut self) -> Records<'_, R> ⓘ
Returns an iterator over records.
The stream is expected to be directly after the reference sequences or at the start of another record.
§Examples
use noodles_bam as bam;
let mut reader = File::open("sample.bam").map(bam::io::Reader::new)?;
reader.read_header()?;
for result in reader.records() {
let record = result?;
// ...
}
source§impl<R> Reader<R>
impl<R> Reader<R>
sourcepub fn query<I>(
&mut self,
header: &Header,
index: &I,
region: &Region
) -> Result<Query<'_, R>>where
I: BinningIndex,
pub fn query<I>(
&mut self,
header: &Header,
index: &I,
region: &Region
) -> Result<Query<'_, R>>where
I: BinningIndex,
Returns an iterator over records that intersect the given region.
To query for unmapped records, use Self::query_unmapped
.
§Examples
use noodles_bam::{self as bam, bai};
let mut reader = File::open("sample.bam").map(bam::io::Reader::new)?;
let header = reader.read_header()?;
let index = bai::read("sample.bam.bai")?;
let region = "sq0:8-13".parse()?;
let query = reader.query(&header, &index, ®ion)?;
for result in query {
let record = result?;
// ...
}
sourcepub fn query_unmapped<'r, I>(
&'r mut self,
index: &I
) -> Result<impl Iterator<Item = Result<Record>> + 'r>where
I: BinningIndex,
pub fn query_unmapped<'r, I>(
&'r mut self,
index: &I
) -> Result<impl Iterator<Item = Result<Record>> + 'r>where
I: BinningIndex,
Returns an iterator of unmapped records after querying for the unmapped region.
§Examples
use noodles_bam::{self as bam, bai};
let mut reader = File::open("sample.bam").map(bam::io::Reader::new)?;
reader.read_header()?;
let index = bai::read("sample.bam.bai")?;
let query = reader.query_unmapped(&index)?;
for result in query {
let record = result?;
// ...
}