use brk_error::Result;
use brk_traversable::Traversable;
use brk_types::{Height, Sats, Version};
use derive_more::{Deref, DerefMut};
use vecdb::{Database, EagerVec, Exit, PcoVec, Rw, StorageMode};
use crate::{
indexes,
internal::{
AmountPerBlockCumulativeRolling, CachedWindowStarts, RollingDistributionAmountPerBlock,
WindowStarts,
},
prices,
};
#[derive(Deref, DerefMut, Traversable)]
pub struct AmountPerBlockFull<M: StorageMode = Rw> {
#[deref]
#[deref_mut]
#[traversable(flatten)]
pub inner: AmountPerBlockCumulativeRolling<M>,
#[traversable(flatten)]
pub distribution: RollingDistributionAmountPerBlock<M>,
}
const VERSION: Version = Version::TWO;
impl AmountPerBlockFull {
pub(crate) fn forced_import(
db: &Database,
name: &str,
version: Version,
indexes: &indexes::Vecs,
cached_starts: &CachedWindowStarts,
) -> Result<Self> {
let v = version + VERSION;
let inner =
AmountPerBlockCumulativeRolling::forced_import(db, name, v, indexes, cached_starts)?;
let distribution = RollingDistributionAmountPerBlock::forced_import(db, name, v, indexes)?;
Ok(Self {
inner,
distribution,
})
}
pub(crate) fn compute(
&mut self,
max_from: Height,
windows: &WindowStarts<'_>,
prices: &prices::Vecs,
exit: &Exit,
compute_sats: impl FnOnce(&mut EagerVec<PcoVec<Height, Sats>>) -> Result<()>,
) -> Result<()> {
compute_sats(&mut self.inner.block.sats)?;
self.inner.compute_rest(max_from, prices, exit)?;
self.distribution.compute(
max_from,
windows,
&self.inner.block.sats,
&self.inner.block.cents,
exit,
)?;
Ok(())
}
}