use bloomchain::Bloom; use bloomchain::group::{BloomGroup, GroupPosition}; use util::rlp::*; use basic_types::LogBloom; /// Helper structure representing bloom of the trace. #[derive(Clone)] pub struct BlockTracesBloom(LogBloom); impl From for BlockTracesBloom { fn from(bloom: LogBloom) -> BlockTracesBloom { BlockTracesBloom(bloom) } } impl From for BlockTracesBloom { fn from(bloom: Bloom) -> BlockTracesBloom { let bytes: [u8; 256] = bloom.into(); BlockTracesBloom(LogBloom::from(bytes)) } } impl Into for BlockTracesBloom { fn into(self) -> Bloom { let log = self.0; Bloom::from(log.0) } } /// Represents group of X consecutive blooms. #[derive(Clone)] pub struct BlockTracesBloomGroup { blooms: Vec, } impl From for BlockTracesBloomGroup { fn from(group: BloomGroup) -> Self { let blooms = group.blooms .into_iter() .map(From::from) .collect(); BlockTracesBloomGroup { blooms: blooms } } } impl Into for BlockTracesBloomGroup { fn into(self) -> BloomGroup { let blooms = self.blooms .into_iter() .map(Into::into) .collect(); BloomGroup { blooms: blooms } } } impl Decodable for BlockTracesBloom { fn decode(decoder: &D) -> Result where D: Decoder { Decodable::decode(decoder).map(BlockTracesBloom) } } impl Encodable for BlockTracesBloom { fn rlp_append(&self, s: &mut RlpStream) { Encodable::rlp_append(&self.0, s) } } impl Decodable for BlockTracesBloomGroup { fn decode(decoder: &D) -> Result where D: Decoder { let blooms = try!(Decodable::decode(decoder)); let group = BlockTracesBloomGroup { blooms: blooms }; Ok(group) } } impl Encodable for BlockTracesBloomGroup { fn rlp_append(&self, s: &mut RlpStream) { Encodable::rlp_append(&self.blooms, s) } } /// Represents BloomGroup position in database. #[derive(PartialEq, Eq, Hash, Clone, Debug)] pub struct TraceGroupPosition { /// Bloom level. pub level: u8, /// Group index. pub index: u32, } impl From for TraceGroupPosition { fn from(p: GroupPosition) -> Self { TraceGroupPosition { level: p.level as u8, index: p.index as u32, } } }