noodles_csi/binning_index/index/builder.rs
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//! Binning index builder.
use super::{reference_sequence, Header, Index, ReferenceSequence};
/// A binning index builder.
pub struct Builder<I> {
min_shift: u8,
depth: u8,
header: Option<Header>,
reference_sequences: Vec<ReferenceSequence<I>>,
unplaced_unmapped_record_count: Option<u64>,
}
impl<I> Builder<I>
where
I: reference_sequence::Index,
{
/// Sets a min shift.
///
/// # Examples
///
/// ```
/// use noodles_csi::{self as csi, BinningIndex};
/// let index = csi::Index::builder().set_min_shift(13).build();
/// assert_eq!(index.min_shift(), 13);
/// ```
pub fn set_min_shift(mut self, min_shift: u8) -> Self {
self.min_shift = min_shift;
self
}
/// Sets a max depth.
///
/// # Examples
///
/// ```
/// use noodles_csi::{self as csi, BinningIndex};
/// let index = csi::Index::builder().set_depth(8).build();
/// assert_eq!(index.depth(), 8);
/// ```
pub fn set_depth(mut self, depth: u8) -> Self {
self.depth = depth;
self
}
/// Sets a tabix header.
///
/// # Examples
///
/// ```
/// use noodles_csi::{self as csi, binning_index::index::Header, BinningIndex};
/// let header = Header::default();
/// let index = csi::Index::builder().set_header(header.clone()).build();
/// assert_eq!(index.header(), Some(&header));
/// ```
pub fn set_header(mut self, header: Header) -> Self {
self.header = Some(header);
self
}
/// Sets reference sequences.
///
/// # Examples
///
/// ```
/// use noodles_csi::{self as csi, binning_index::index::ReferenceSequence};
///
/// let reference_sequences = vec![ReferenceSequence::new(Default::default(), Default::default(), None)];
/// let index = csi::Index::builder()
/// .set_reference_sequences(reference_sequences.clone())
/// .build();
///
/// assert_eq!(index.reference_sequences(), &reference_sequences);
/// ```
pub fn set_reference_sequences(
mut self,
reference_sequences: Vec<ReferenceSequence<I>>,
) -> Self {
self.reference_sequences = reference_sequences;
self
}
/// Sets an unplaced, unmapped record count.
///
/// # Examples
///
/// ```
/// use noodles_csi::{self as csi, BinningIndex};
/// let index = csi::Index::builder().set_unplaced_unmapped_record_count(21).build();
/// assert_eq!(index.unplaced_unmapped_record_count(), Some(21));
/// ```
pub fn set_unplaced_unmapped_record_count(
mut self,
unplaced_unmapped_record_count: u64,
) -> Self {
self.unplaced_unmapped_record_count = Some(unplaced_unmapped_record_count);
self
}
/// Builds a binning index.
///
/// # Examples
///
/// ```
/// use noodles_csi as csi;
/// let index = csi::Index::builder().build();
/// ```
pub fn build(self) -> Index<I> {
Index {
min_shift: self.min_shift,
depth: self.depth,
header: self.header,
reference_sequences: self.reference_sequences,
unplaced_unmapped_record_count: self.unplaced_unmapped_record_count,
}
}
}
impl<I> Default for Builder<I> {
fn default() -> Self {
Self {
min_shift: 14,
depth: 5,
header: None,
reference_sequences: Vec::new(),
unplaced_unmapped_record_count: None,
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::binning_index::index::reference_sequence::index::BinnedIndex;
#[test]
fn test_default() {
let builder = Builder::<BinnedIndex>::default();
assert_eq!(builder.min_shift, 14);
assert_eq!(builder.depth, 5);
assert!(builder.header.is_none());
assert!(builder.reference_sequences.is_empty());
assert!(builder.unplaced_unmapped_record_count.is_none());
}
}