rust/src/librustc/middle/free_region.rs

// Copyright 2012-2014 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.

//! This file defines

use middle::implicator::Implication;
use middle::ty::{self, FreeRegion};
use util::common::can_reach;
use util::nodemap::FnvHashMap;
use util::ppaux::Repr;

#[derive(Clone)]
pub struct FreeRegionMap {
    /// `free_region_map` maps from a free region `a` to a list of
    /// free regions `bs` such that `a <= b for all b in bs`
    map: FnvHashMap<FreeRegion, Vec<FreeRegion>>,
}

impl FreeRegionMap {
    pub fn new() -> FreeRegionMap {
        FreeRegionMap { map: FnvHashMap() }
    }

    pub fn relate_free_regions_from_implications<'tcx>(&mut self,
                                                       implications: &[Implication<'tcx>])
    {
        for implication in implications {
            debug!("implication: {}", implication.repr());
            match *implication {
                Implication::RegionSubRegion(_, ty::ReFree(free_a), ty::ReFree(free_b)) => {
                    self.relate_free_regions(free_a, free_b);
                }
                Implication::RegionSubRegion(..) |
                Implication::RegionSubClosure(..) |
                Implication::RegionSubGeneric(..) |
                Implication::Predicate(..) => {
                }
            }
        }
    }

    pub fn relate_free_regions_from_predicates<'tcx>(&mut self,
                                                     tcx: &ty::ctxt<'tcx>,
                                                     predicates: &[ty::Predicate<'tcx>]) {
        debug!("relate_free_regions_from_predicates(predicates={})", predicates.repr());
        for predicate in predicates {
            match *predicate {
                ty::Predicate::Projection(..) |
                ty::Predicate::Trait(..) |
                ty::Predicate::Equate(..) |
                ty::Predicate::TypeOutlives(..) => {
                    // No region bounds here
                }
                ty::Predicate::RegionOutlives(ty::Binder(ty::OutlivesPredicate(r_a, r_b))) => {
                    match (r_a, r_b) {
                        (ty::ReFree(fr_a), ty::ReFree(fr_b)) => {
                            // Record that `'a:'b`. Or, put another way, `'b <= 'a`.
                            self.relate_free_regions(fr_b, fr_a);
                        }
                        _ => {
                            // All named regions are instantiated with free regions.
                            tcx.sess.bug(
                                &format!("record_region_bounds: non free region: {} / {}",
                                         r_a.repr(),
                                         r_b.repr()));
                        }
                    }
                }
            }
        }
    }

    pub fn relate_free_regions(&mut self, sub: FreeRegion, sup: FreeRegion) {
        let mut sups = self.map.entry(sub).or_insert(Vec::new());
        if !sups.contains(&sup) {
            sups.push(sup);
        }
    }

    /// Determines whether two free regions have a subregion relationship
    /// by walking the graph encoded in `map`.  Note that
    /// it is possible that `sub != sup` and `sub <= sup` and `sup <= sub`
    /// (that is, the user can give two different names to the same lifetime).
    pub fn sub_free_region(&self, sub: FreeRegion, sup: FreeRegion) -> bool {
        can_reach(&self.map, sub, sup)
    }

    /// Determines whether one region is a subregion of another.  This is intended to run *after
    /// inference* and sadly the logic is somewhat duplicated with the code in infer.rs.
    pub fn is_subregion_of(&self,
                           tcx: &ty::ctxt,
                           sub_region: ty::Region,
                           super_region: ty::Region)
                           -> bool {
        debug!("is_subregion_of(sub_region={:?}, super_region={:?})",
               sub_region, super_region);

        sub_region == super_region || {
            match (sub_region, super_region) {
                (ty::ReEmpty, _) |
                (_, ty::ReStatic) =>
                    true,

                (ty::ReScope(sub_scope), ty::ReScope(super_scope)) =>
                    tcx.region_maps.is_subscope_of(sub_scope, super_scope),

                (ty::ReScope(sub_scope), ty::ReFree(ref fr)) =>
                    tcx.region_maps.is_subscope_of(sub_scope, fr.scope.to_code_extent()),

                (ty::ReFree(sub_fr), ty::ReFree(super_fr)) =>
                    self.sub_free_region(sub_fr, super_fr),

                _ =>
                    false,
            }
        }
    }
}
Rather than storing the relations between free-regions in a global table, introduce a `FreeRegionMap` data structure. regionck computes the `FreeRegionMap` for each fn and stores the result into the tcx so that borrowck can use it (this could perhaps be refactored to have borrowck recompute the map, but it's a bid tedious to recompute due to the interaction of closures and free fns). The main reason to do this is because of #22779 -- using a global table was incorrect because when validating impl method signatures, we want to use the free region relationships from the trait, not the impl. Fixes #22779. 2015-04-18 10:23:14 -05:00			`// Copyright 2012-2014 The Rust Project Developers. See the COPYRIGHT`
			`// file at the top-level directory of this distribution and at`
			`// http://rust-lang.org/COPYRIGHT.`
			`//`
			`// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or`
			`// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license`
			`// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your`
			`// option. This file may not be copied, modified, or distributed`
			`// except according to those terms.`

			`//! This file defines`

			`use middle::implicator::Implication;`
			`use middle::ty::{self, FreeRegion};`
			`use util::common::can_reach;`
			`use util::nodemap::FnvHashMap;`
			`use util::ppaux::Repr;`

			`#[derive(Clone)]`
			`pub struct FreeRegionMap {`
			/// `free_region_map` maps from a free region `a` to a list of
			/// free regions `bs` such that `a <= b for all b in bs`
			`map: FnvHashMap<FreeRegion, Vec<FreeRegion>>,`
			`}`

			`impl FreeRegionMap {`
			`pub fn new() -> FreeRegionMap {`
			`FreeRegionMap { map: FnvHashMap() }`
			`}`

			`pub fn relate_free_regions_from_implications<'tcx>(&mut self,`
			`implications: &[Implication<'tcx>])`
			`{`
			`for implication in implications {`
rustc: use the TLS type context in Repr and UserString. 2015-06-16 17:39:06 -05:00			`debug!("implication: {}", implication.repr());`
Rather than storing the relations between free-regions in a global table, introduce a `FreeRegionMap` data structure. regionck computes the `FreeRegionMap` for each fn and stores the result into the tcx so that borrowck can use it (this could perhaps be refactored to have borrowck recompute the map, but it's a bid tedious to recompute due to the interaction of closures and free fns). The main reason to do this is because of #22779 -- using a global table was incorrect because when validating impl method signatures, we want to use the free region relationships from the trait, not the impl. Fixes #22779. 2015-04-18 10:23:14 -05:00			`match *implication {`
			`Implication::RegionSubRegion(_, ty::ReFree(free_a), ty::ReFree(free_b)) => {`
			`self.relate_free_regions(free_a, free_b);`
			`}`
			`Implication::RegionSubRegion(..) \|`
			`Implication::RegionSubClosure(..) \|`
			`Implication::RegionSubGeneric(..) \|`
			`Implication::Predicate(..) => {`
			`}`
			`}`
			`}`
			`}`

			`pub fn relate_free_regions_from_predicates<'tcx>(&mut self,`
			`tcx: &ty::ctxt<'tcx>,`
			`predicates: &[ty::Predicate<'tcx>]) {`
rustc: use the TLS type context in Repr and UserString. 2015-06-16 17:39:06 -05:00			`debug!("relate_free_regions_from_predicates(predicates={})", predicates.repr());`
Rather than storing the relations between free-regions in a global table, introduce a `FreeRegionMap` data structure. regionck computes the `FreeRegionMap` for each fn and stores the result into the tcx so that borrowck can use it (this could perhaps be refactored to have borrowck recompute the map, but it's a bid tedious to recompute due to the interaction of closures and free fns). The main reason to do this is because of #22779 -- using a global table was incorrect because when validating impl method signatures, we want to use the free region relationships from the trait, not the impl. Fixes #22779. 2015-04-18 10:23:14 -05:00			`for predicate in predicates {`
			`match *predicate {`
			`ty::Predicate::Projection(..) \|`
			`ty::Predicate::Trait(..) \|`
			`ty::Predicate::Equate(..) \|`
			`ty::Predicate::TypeOutlives(..) => {`
			`// No region bounds here`
			`}`
			`ty::Predicate::RegionOutlives(ty::Binder(ty::OutlivesPredicate(r_a, r_b))) => {`
			`match (r_a, r_b) {`
			`(ty::ReFree(fr_a), ty::ReFree(fr_b)) => {`
			// Record that `'a:'b`. Or, put another way, `'b <= 'a`.
			`self.relate_free_regions(fr_b, fr_a);`
			`}`
			`_ => {`
			`// All named regions are instantiated with free regions.`
			`tcx.sess.bug(`
			`&format!("record_region_bounds: non free region: {} / {}",`
rustc: use the TLS type context in Repr and UserString. 2015-06-16 17:39:06 -05:00			`r_a.repr(),`
			`r_b.repr()));`
Rather than storing the relations between free-regions in a global table, introduce a `FreeRegionMap` data structure. regionck computes the `FreeRegionMap` for each fn and stores the result into the tcx so that borrowck can use it (this could perhaps be refactored to have borrowck recompute the map, but it's a bid tedious to recompute due to the interaction of closures and free fns). The main reason to do this is because of #22779 -- using a global table was incorrect because when validating impl method signatures, we want to use the free region relationships from the trait, not the impl. Fixes #22779. 2015-04-18 10:23:14 -05:00			`}`
			`}`
			`}`
			`}`
			`}`
			`}`

			`pub fn relate_free_regions(&mut self, sub: FreeRegion, sup: FreeRegion) {`
			`let mut sups = self.map.entry(sub).or_insert(Vec::new());`
			`if !sups.contains(&sup) {`
			`sups.push(sup);`
			`}`
			`}`

			`/// Determines whether two free regions have a subregion relationship`
			/// by walking the graph encoded in `map`. Note that
			/// it is possible that `sub != sup` and `sub <= sup` and `sup <= sub`
			`/// (that is, the user can give two different names to the same lifetime).`
			`pub fn sub_free_region(&self, sub: FreeRegion, sup: FreeRegion) -> bool {`
			`can_reach(&self.map, sub, sup)`
			`}`

			`/// Determines whether one region is a subregion of another. This is intended to run *after`
			`/// inference* and sadly the logic is somewhat duplicated with the code in infer.rs.`
			`pub fn is_subregion_of(&self,`
			`tcx: &ty::ctxt,`
			`sub_region: ty::Region,`
			`super_region: ty::Region)`
			`-> bool {`
			`debug!("is_subregion_of(sub_region={:?}, super_region={:?})",`
			`sub_region, super_region);`

			`sub_region == super_region \|\| {`
			`match (sub_region, super_region) {`
			`(ty::ReEmpty, _) \|`
			`(_, ty::ReStatic) =>`
			`true,`

			`(ty::ReScope(sub_scope), ty::ReScope(super_scope)) =>`
			`tcx.region_maps.is_subscope_of(sub_scope, super_scope),`

			`(ty::ReScope(sub_scope), ty::ReFree(ref fr)) =>`
			`tcx.region_maps.is_subscope_of(sub_scope, fr.scope.to_code_extent()),`

			`(ty::ReFree(sub_fr), ty::ReFree(super_fr)) =>`
			`self.sub_free_region(sub_fr, super_fr),`

			`_ =>`
			`false,`
			`}`
			`}`
			`}`
			`}`