use crate::rmeta::DecodeContext; use crate::rmeta::EncodeContext; use rustc_data_structures::owned_slice::OwnedSlice; use rustc_hir::def_path_hash_map::{Config as HashMapConfig, DefPathHashMap}; use rustc_middle::parameterized_over_tcx; use rustc_serialize::{Decodable, Decoder, Encodable, Encoder}; use rustc_span::def_id::{DefIndex, DefPathHash}; pub(crate) enum DefPathHashMapRef<'tcx> { OwnedFromMetadata(odht::HashTable), BorrowedFromTcx(&'tcx DefPathHashMap), } parameterized_over_tcx! { DefPathHashMapRef, } impl DefPathHashMapRef<'_> { #[inline] pub fn def_path_hash_to_def_index(&self, def_path_hash: &DefPathHash) -> DefIndex { match *self { DefPathHashMapRef::OwnedFromMetadata(ref map) => map.get(def_path_hash).unwrap(), DefPathHashMapRef::BorrowedFromTcx(_) => { panic!("DefPathHashMap::BorrowedFromTcx variant only exists for serialization") } } } } impl<'a, 'tcx> Encodable> for DefPathHashMapRef<'tcx> { fn encode(&self, e: &mut EncodeContext<'a, 'tcx>) { match *self { DefPathHashMapRef::BorrowedFromTcx(def_path_hash_map) => { let bytes = def_path_hash_map.raw_bytes(); e.emit_usize(bytes.len()); e.emit_raw_bytes(bytes); } DefPathHashMapRef::OwnedFromMetadata(_) => { panic!("DefPathHashMap::OwnedFromMetadata variant only exists for deserialization") } } } } impl<'a, 'tcx> Decodable> for DefPathHashMapRef<'static> { fn decode(d: &mut DecodeContext<'a, 'tcx>) -> DefPathHashMapRef<'static> { let len = d.read_usize(); let pos = d.position(); let o = d.blob().clone().0.slice(|blob| &blob[pos..pos + len]); // Although we already have the data we need via the `OwnedSlice`, we still need // to advance the `DecodeContext`'s position so it's in a valid state after // the method. We use `read_raw_bytes()` for that. let _ = d.read_raw_bytes(len); let inner = odht::HashTable::from_raw_bytes(o).unwrap_or_else(|e| { panic!("decode error: {e}"); }); DefPathHashMapRef::OwnedFromMetadata(inner) } }