use rustc_hir as hir;
use rustc_hir::ItemLocalMap;
use rustc_macros::{HashStable, TyDecodable, TyEncodable};
use tracing::debug;
use crate::middle::region::{Scope, ScopeData, ScopeTree};
/// `RvalueScopes` is a mapping from sub-expressions to _extended_ lifetime as determined by
/// rules laid out in `rustc_hir_analysis::check::rvalue_scopes`.
#[derive(TyEncodable, TyDecodable, Clone, Debug, Default, Eq, PartialEq, HashStable)]
pub struct RvalueScopes {
map: ItemLocalMap<Option<Scope>>,
}
impl RvalueScopes {
pub fn new() -> Self {
Self { map: <_>::default() }
}
/// Returns the scope when the temp created by `expr_id` will be cleaned up.
pub fn temporary_scope(
&self,
region_scope_tree: &ScopeTree,
expr_id: hir::ItemLocalId,
) -> Option<Scope> {
// Check for a designated rvalue scope.
if let Some(&s) = self.map.get(&expr_id) {
debug!("temporary_scope({expr_id:?}) = {s:?} [custom]");
return s;
}
// Otherwise, locate the innermost terminating scope
// if there's one. Static items, for instance, won't
// have an enclosing scope, hence no scope will be
// returned.
let mut id = Scope { id: expr_id, data: ScopeData::Node };
while let Some(&(p, _)) = region_scope_tree.parent_map.get(&id) {
match p.data {
ScopeData::Destruction => {
debug!("temporary_scope({expr_id:?}) = {id:?} [enclosing]");
return Some(id);
}
ScopeData::IfThenRescope => {
debug!("temporary_scope({expr_id:?}) = {p:?} [enclosing]");
return Some(p);
}
ScopeData::Node
| ScopeData::CallSite
| ScopeData::Arguments
| ScopeData::IfThen
| ScopeData::Remainder(_) => id = p,
}
}
debug!("temporary_scope({expr_id:?}) = None");
None
}
/// Make an association between a sub-expression and an extended lifetime
pub fn record_rvalue_scope(&mut self, var: hir::ItemLocalId, lifetime: Option<Scope>) {
debug!("record_rvalue_scope(var={var:?}, lifetime={lifetime:?})");
if let Some(lifetime) = lifetime {
assert!(var != lifetime.item_local_id());
}
self.map.insert(var, lifetime);
}
}