use crate::infer::free_regions::FreeRegionMap; use crate::infer::GenericKind; use crate::traits::query::OutlivesBound; use rustc_data_structures::fx::FxIndexSet; use rustc_data_structures::transitive_relation::TransitiveRelationBuilder; use rustc_middle::ty::{self, Region}; use super::explicit_outlives_bounds; /// The `OutlivesEnvironment` collects information about what outlives /// what in a given type-checking setting. For example, if we have a /// where-clause like `where T: 'a` in scope, then the /// `OutlivesEnvironment` would record that (in its /// `region_bound_pairs` field). Similarly, it contains methods for /// processing and adding implied bounds into the outlives /// environment. /// /// Other code at present does not typically take a /// `&OutlivesEnvironment`, but rather takes some of its fields (e.g., /// `process_registered_region_obligations` wants the /// region-bound-pairs). There is no mistaking it: the current setup /// of tracking region information is quite scattered! The /// `OutlivesEnvironment`, for example, needs to sometimes be combined /// with the `middle::RegionRelations`, to yield a full picture of how /// (lexical) lifetimes interact. However, I'm reluctant to do more /// refactoring here, since the setup with NLL is quite different. /// For example, NLL has no need of `RegionRelations`, and is solely /// interested in the `OutlivesEnvironment`. -nmatsakis #[derive(Clone)] pub struct OutlivesEnvironment<'tcx> { pub param_env: ty::ParamEnv<'tcx>, free_region_map: FreeRegionMap<'tcx>, // Contains the implied region bounds in scope for our current body. // // Example: // // ``` // fn foo<'a, 'b, T>(x: &'a T, y: &'b ()) { // bar(x, y, |y: &'b T| { .. } // body B1) // } // body B0 // ``` // // Here, when checking the body B0, the list would be `[T: 'a]`, because we // infer that `T` must outlive `'a` from the implied bounds on the // fn declaration. // // For the body B1 however, the list would be `[T: 'a, T: 'b]`, because we // also can see that -- within the closure body! -- `T` must // outlive `'b`. This is not necessarily true outside the closure // body, since the closure may never be called. region_bound_pairs: RegionBoundPairs<'tcx>, } /// Builder of OutlivesEnvironment. #[derive(Debug)] struct OutlivesEnvironmentBuilder<'tcx> { param_env: ty::ParamEnv<'tcx>, region_relation: TransitiveRelationBuilder>, region_bound_pairs: RegionBoundPairs<'tcx>, } /// "Region-bound pairs" tracks outlives relations that are known to /// be true, either because of explicit where-clauses like `T: 'a` or /// because of implied bounds. pub type RegionBoundPairs<'tcx> = FxIndexSet, Region<'tcx>>>; impl<'tcx> OutlivesEnvironment<'tcx> { /// Create a builder using `ParamEnv` and add explicit outlives bounds into it. fn builder(param_env: ty::ParamEnv<'tcx>) -> OutlivesEnvironmentBuilder<'tcx> { let mut builder = OutlivesEnvironmentBuilder { param_env, region_relation: Default::default(), region_bound_pairs: Default::default(), }; builder.add_outlives_bounds(explicit_outlives_bounds(param_env)); builder } #[inline] /// Create a new `OutlivesEnvironment` without extra outlives bounds. pub fn new(param_env: ty::ParamEnv<'tcx>) -> Self { Self::builder(param_env).build() } /// Create a new `OutlivesEnvironment` with extra outlives bounds. pub fn with_bounds( param_env: ty::ParamEnv<'tcx>, extra_bounds: impl IntoIterator>, ) -> Self { let mut builder = Self::builder(param_env); builder.add_outlives_bounds(extra_bounds); builder.build() } /// Borrows current value of the `free_region_map`. pub fn free_region_map(&self) -> &FreeRegionMap<'tcx> { &self.free_region_map } /// Borrows current `region_bound_pairs`. pub fn region_bound_pairs(&self) -> &RegionBoundPairs<'tcx> { &self.region_bound_pairs } } impl<'tcx> OutlivesEnvironmentBuilder<'tcx> { #[inline] #[instrument(level = "debug")] fn build(self) -> OutlivesEnvironment<'tcx> { OutlivesEnvironment { param_env: self.param_env, free_region_map: FreeRegionMap { relation: self.region_relation.freeze() }, region_bound_pairs: self.region_bound_pairs, } } /// Processes outlives bounds that are known to hold, whether from implied or other sources. fn add_outlives_bounds(&mut self, outlives_bounds: I) where I: IntoIterator>, { // Record relationships such as `T:'x` that don't go into the // free-region-map but which we use here. for outlives_bound in outlives_bounds { debug!("add_outlives_bounds: outlives_bound={:?}", outlives_bound); match outlives_bound { OutlivesBound::RegionSubParam(r_a, param_b) => { self.region_bound_pairs .insert(ty::OutlivesPredicate(GenericKind::Param(param_b), r_a)); } OutlivesBound::RegionSubAlias(r_a, alias_b) => { self.region_bound_pairs .insert(ty::OutlivesPredicate(GenericKind::Alias(alias_b), r_a)); } OutlivesBound::RegionSubRegion(r_a, r_b) => match (*r_a, *r_b) { ( ty::ReStatic | ty::ReEarlyBound(_) | ty::ReFree(_), ty::ReStatic | ty::ReEarlyBound(_) | ty::ReFree(_), ) => self.region_relation.add(r_a, r_b), (ty::ReError(_), _) | (_, ty::ReError(_)) => {} // FIXME(#109628): We shouldn't have existential variables in implied bounds. // Panic here once the linked issue is resolved! (ty::ReVar(_), _) | (_, ty::ReVar(_)) => {} _ => bug!("add_outlives_bounds: unexpected regions: ({r_a:?}, {r_b:?})"), }, } } } }