src/librustc_mir/dataflow/impls/mod.rs - third_party/rust - Git at Google

 //! Dataflow analyses are built upon some interpretation of the
 //! bitvectors attached to each basic block, represented via a
 //! zero-sized structure.

 use rustc::ty::TyCtxt;
 use rustc::mir::{self, Body, Location};
 use rustc_index::bit_set::BitSet;
 use rustc_index::vec::Idx;

 use super::MoveDataParamEnv;

 use crate::util::elaborate_drops::DropFlagState;

 use super::move_paths::{HasMoveData, MoveData, MovePathIndex, InitIndex, InitKind};
 use super::{BitDenotation, BottomValue, GenKillSet};

 use super::drop_flag_effects_for_function_entry;
 use super::drop_flag_effects_for_location;
 use super::on_lookup_result_bits;

 mod borrowed_locals;
 mod indirect_mutation;
 mod storage_liveness;

 pub use self::borrowed_locals::*;
 pub use self::indirect_mutation::IndirectlyMutableLocals;
 pub use self::storage_liveness::*;

 pub(super) mod borrows;

 /// `MaybeInitializedPlaces` tracks all places that might be
 /// initialized upon reaching a particular point in the control flow
 /// for a function.
 ///
 /// For example, in code like the following, we have corresponding
 /// dataflow information shown in the right-hand comments.
 ///
 /// ```rust
 /// struct S;
 /// fn foo(pred: bool) {                       // maybe-init:
 ///                                            // {}
 ///     let a = S; let b = S; let c; let d;    // {a, b}
 ///
 ///     if pred {
 ///         drop(a);                           // {   b}
 ///         b = S;                             // {   b}
 ///
 ///     } else {
 ///         drop(b);                           // {a}
 ///         d = S;                             // {a,       d}
 ///
 ///     }                                      // {a, b,    d}
 ///
 ///     c = S;                                 // {a, b, c, d}
 /// }
 /// ```
 ///
 /// To determine whether a place *must* be initialized at a
 /// particular control-flow point, one can take the set-difference
 /// between this data and the data from `MaybeUninitializedPlaces` at the
 /// corresponding control-flow point.
 ///
 /// Similarly, at a given `drop` statement, the set-intersection
 /// between this data and `MaybeUninitializedPlaces` yields the set of
 /// places that would require a dynamic drop-flag at that statement.
 pub struct MaybeInitializedPlaces<'a, 'tcx> {
     tcx: TyCtxt<'tcx>,
     body: &'a Body<'tcx>,
     mdpe: &'a MoveDataParamEnv<'tcx>,
 }

 impl<'a, 'tcx> MaybeInitializedPlaces<'a, 'tcx> {
     pub fn new(tcx: TyCtxt<'tcx>, body: &'a Body<'tcx>, mdpe: &'a MoveDataParamEnv<'tcx>) -> Self {
         MaybeInitializedPlaces { tcx, body, mdpe }
     }
 }

 impl<'a, 'tcx> HasMoveData<'tcx> for MaybeInitializedPlaces<'a, 'tcx> {
     fn move_data(&self) -> &MoveData<'tcx> { &self.mdpe.move_data }
 }

 /// `MaybeUninitializedPlaces` tracks all places that might be
 /// uninitialized upon reaching a particular point in the control flow
 /// for a function.
 ///
 /// For example, in code like the following, we have corresponding
 /// dataflow information shown in the right-hand comments.
 ///
 /// ```rust
 /// struct S;
 /// fn foo(pred: bool) {                       // maybe-uninit:
 ///                                            // {a, b, c, d}
 ///     let a = S; let b = S; let c; let d;    // {      c, d}
 ///
 ///     if pred {
 ///         drop(a);                           // {a,    c, d}
 ///         b = S;                             // {a,    c, d}
 ///
 ///     } else {
 ///         drop(b);                           // {   b, c, d}
 ///         d = S;                             // {   b, c   }
 ///
 ///     }                                      // {a, b, c, d}
 ///
 ///     c = S;                                 // {a, b,    d}
 /// }
 /// ```
 ///
 /// To determine whether a place *must* be uninitialized at a
 /// particular control-flow point, one can take the set-difference
 /// between this data and the data from `MaybeInitializedPlaces` at the
 /// corresponding control-flow point.
 ///
 /// Similarly, at a given `drop` statement, the set-intersection
 /// between this data and `MaybeInitializedPlaces` yields the set of
 /// places that would require a dynamic drop-flag at that statement.
 pub struct MaybeUninitializedPlaces<'a, 'tcx> {
     tcx: TyCtxt<'tcx>,
     body: &'a Body<'tcx>,
     mdpe: &'a MoveDataParamEnv<'tcx>,
 }

 impl<'a, 'tcx> MaybeUninitializedPlaces<'a, 'tcx> {
     pub fn new(tcx: TyCtxt<'tcx>, body: &'a Body<'tcx>, mdpe: &'a MoveDataParamEnv<'tcx>) -> Self {
         MaybeUninitializedPlaces { tcx, body, mdpe }
     }
 }

 impl<'a, 'tcx> HasMoveData<'tcx> for MaybeUninitializedPlaces<'a, 'tcx> {
     fn move_data(&self) -> &MoveData<'tcx> { &self.mdpe.move_data }
 }

 /// `DefinitelyInitializedPlaces` tracks all places that are definitely
 /// initialized upon reaching a particular point in the control flow
 /// for a function.
 ///
 /// For example, in code like the following, we have corresponding
 /// dataflow information shown in the right-hand comments.
 ///
 /// ```rust
 /// struct S;
 /// fn foo(pred: bool) {                       // definite-init:
 ///                                            // {          }
 ///     let a = S; let b = S; let c; let d;    // {a, b      }
 ///
 ///     if pred {
 ///         drop(a);                           // {   b,     }
 ///         b = S;                             // {   b,     }
 ///
 ///     } else {
 ///         drop(b);                           // {a,        }
 ///         d = S;                             // {a,       d}
 ///
 ///     }                                      // {          }
 ///
 ///     c = S;                                 // {       c  }
 /// }
 /// ```
 ///
 /// To determine whether a place *may* be uninitialized at a
 /// particular control-flow point, one can take the set-complement
 /// of this data.
 ///
 /// Similarly, at a given `drop` statement, the set-difference between
 /// this data and `MaybeInitializedPlaces` yields the set of places
 /// that would require a dynamic drop-flag at that statement.
 pub struct DefinitelyInitializedPlaces<'a, 'tcx> {
     tcx: TyCtxt<'tcx>,
     body: &'a Body<'tcx>,
     mdpe: &'a MoveDataParamEnv<'tcx>,
 }

 impl<'a, 'tcx> DefinitelyInitializedPlaces<'a, 'tcx> {
     pub fn new(tcx: TyCtxt<'tcx>, body: &'a Body<'tcx>, mdpe: &'a MoveDataParamEnv<'tcx>) -> Self {
         DefinitelyInitializedPlaces { tcx, body, mdpe }
     }
 }

 impl<'a, 'tcx> HasMoveData<'tcx> for DefinitelyInitializedPlaces<'a, 'tcx> {
     fn move_data(&self) -> &MoveData<'tcx> { &self.mdpe.move_data }
 }

 /// `EverInitializedPlaces` tracks all places that might have ever been
 /// initialized upon reaching a particular point in the control flow
 /// for a function, without an intervening `Storage Dead`.
 ///
 /// This dataflow is used to determine if an immutable local variable may
 /// be assigned to.
 ///
 /// For example, in code like the following, we have corresponding
 /// dataflow information shown in the right-hand comments.
 ///
 /// ```rust
 /// struct S;
 /// fn foo(pred: bool) {                       // ever-init:
 ///                                            // {          }
 ///     let a = S; let b = S; let c; let d;    // {a, b      }
 ///
 ///     if pred {
 ///         drop(a);                           // {a, b,     }
 ///         b = S;                             // {a, b,     }
 ///
 ///     } else {
 ///         drop(b);                           // {a, b,      }
 ///         d = S;                             // {a, b,    d }
 ///
 ///     }                                      // {a, b,    d }
 ///
 ///     c = S;                                 // {a, b, c, d }
 /// }
 /// ```
 pub struct EverInitializedPlaces<'a, 'tcx> {
     tcx: TyCtxt<'tcx>,
     body: &'a Body<'tcx>,
     mdpe: &'a MoveDataParamEnv<'tcx>,
 }

 impl<'a, 'tcx> EverInitializedPlaces<'a, 'tcx> {
     pub fn new(tcx: TyCtxt<'tcx>, body: &'a Body<'tcx>, mdpe: &'a MoveDataParamEnv<'tcx>) -> Self {
         EverInitializedPlaces { tcx, body, mdpe }
     }
 }

 impl<'a, 'tcx> HasMoveData<'tcx> for EverInitializedPlaces<'a, 'tcx> {
     fn move_data(&self) -> &MoveData<'tcx> { &self.mdpe.move_data }
 }

 impl<'a, 'tcx> MaybeInitializedPlaces<'a, 'tcx> {
     fn update_bits(trans: &mut GenKillSet<MovePathIndex>,
                    path: MovePathIndex,
                    state: DropFlagState)
     {
         match state {
             DropFlagState::Absent => trans.kill(path),
             DropFlagState::Present => trans.gen(path),
         }
     }
 }

 impl<'a, 'tcx> MaybeUninitializedPlaces<'a, 'tcx> {
     fn update_bits(trans: &mut GenKillSet<MovePathIndex>,
                    path: MovePathIndex,
                    state: DropFlagState)
     {
         match state {
             DropFlagState::Absent => trans.gen(path),
             DropFlagState::Present => trans.kill(path),
         }
     }
 }

 impl<'a, 'tcx> DefinitelyInitializedPlaces<'a, 'tcx> {
     fn update_bits(trans: &mut GenKillSet<MovePathIndex>,
                    path: MovePathIndex,
                    state: DropFlagState)
     {
         match state {
             DropFlagState::Absent => trans.kill(path),
             DropFlagState::Present => trans.gen(path),
         }
     }
 }

 impl<'a, 'tcx> BitDenotation<'tcx> for MaybeInitializedPlaces<'a, 'tcx> {
     type Idx = MovePathIndex;
     fn name() -> &'static str { "maybe_init" }
     fn bits_per_block(&self) -> usize {
         self.move_data().move_paths.len()
     }

     fn start_block_effect(&self, entry_set: &mut BitSet<MovePathIndex>) {
         drop_flag_effects_for_function_entry(
             self.tcx, self.body, self.mdpe,
             |path, s| {
                 assert!(s == DropFlagState::Present);
                 entry_set.insert(path);
             });
     }

     fn statement_effect(&self,
                         trans: &mut GenKillSet<Self::Idx>,
                         location: Location)
     {
         drop_flag_effects_for_location(
             self.tcx, self.body, self.mdpe,
             location,
             |path, s| Self::update_bits(trans, path, s)
         )
     }

     fn terminator_effect(&self,
                          trans: &mut GenKillSet<Self::Idx>,
                          location: Location)
     {
         drop_flag_effects_for_location(
             self.tcx, self.body, self.mdpe,
             location,
             |path, s| Self::update_bits(trans, path, s)
         )
     }

     fn propagate_call_return(
         &self,
         in_out: &mut BitSet<MovePathIndex>,
         _call_bb: mir::BasicBlock,
         _dest_bb: mir::BasicBlock,
         dest_place: &mir::Place<'tcx>,
     ) {
         // when a call returns successfully, that means we need to set
         // the bits for that dest_place to 1 (initialized).
         on_lookup_result_bits(self.tcx, self.body, self.move_data(),
                               self.move_data().rev_lookup.find(dest_place.as_ref()),
                               |mpi| { in_out.insert(mpi); });
     }
 }

 impl<'a, 'tcx> BitDenotation<'tcx> for MaybeUninitializedPlaces<'a, 'tcx> {
     type Idx = MovePathIndex;
     fn name() -> &'static str { "maybe_uninit" }
     fn bits_per_block(&self) -> usize {
         self.move_data().move_paths.len()
     }

     // sets on_entry bits for Arg places
     fn start_block_effect(&self, entry_set: &mut BitSet<MovePathIndex>) {
         // set all bits to 1 (uninit) before gathering counterevidence
         assert!(self.bits_per_block() == entry_set.domain_size());
         entry_set.insert_all();

         drop_flag_effects_for_function_entry(
             self.tcx, self.body, self.mdpe,
             |path, s| {
                 assert!(s == DropFlagState::Present);
                 entry_set.remove(path);
             });
     }

     fn statement_effect(&self,
                         trans: &mut GenKillSet<Self::Idx>,
                         location: Location)
     {
         drop_flag_effects_for_location(
             self.tcx, self.body, self.mdpe,
             location,
             |path, s| Self::update_bits(trans, path, s)
         )
     }

     fn terminator_effect(&self,
                          trans: &mut GenKillSet<Self::Idx>,
                          location: Location)
     {
         drop_flag_effects_for_location(
             self.tcx, self.body, self.mdpe,
             location,
             |path, s| Self::update_bits(trans, path, s)
         )
     }

     fn propagate_call_return(
         &self,
         in_out: &mut BitSet<MovePathIndex>,
         _call_bb: mir::BasicBlock,
         _dest_bb: mir::BasicBlock,
         dest_place: &mir::Place<'tcx>,
     ) {
         // when a call returns successfully, that means we need to set
         // the bits for that dest_place to 0 (initialized).
         on_lookup_result_bits(self.tcx, self.body, self.move_data(),
                               self.move_data().rev_lookup.find(dest_place.as_ref()),
                               |mpi| { in_out.remove(mpi); });
     }
 }

 impl<'a, 'tcx> BitDenotation<'tcx> for DefinitelyInitializedPlaces<'a, 'tcx> {
     type Idx = MovePathIndex;
     fn name() -> &'static str { "definite_init" }
     fn bits_per_block(&self) -> usize {
         self.move_data().move_paths.len()
     }

     // sets on_entry bits for Arg places
     fn start_block_effect(&self, entry_set: &mut BitSet<MovePathIndex>) {
         entry_set.clear();

         drop_flag_effects_for_function_entry(
             self.tcx, self.body, self.mdpe,
             |path, s| {
                 assert!(s == DropFlagState::Present);
                 entry_set.insert(path);
             });
     }

     fn statement_effect(&self,
                         trans: &mut GenKillSet<Self::Idx>,
                         location: Location)
     {
         drop_flag_effects_for_location(
             self.tcx, self.body, self.mdpe,
             location,
             |path, s| Self::update_bits(trans, path, s)
         )
     }

     fn terminator_effect(&self,
                          trans: &mut GenKillSet<Self::Idx>,
                          location: Location)
     {
         drop_flag_effects_for_location(
             self.tcx, self.body, self.mdpe,
             location,
             |path, s| Self::update_bits(trans, path, s)
         )
     }

     fn propagate_call_return(
         &self,
         in_out: &mut BitSet<MovePathIndex>,
         _call_bb: mir::BasicBlock,
         _dest_bb: mir::BasicBlock,
         dest_place: &mir::Place<'tcx>,
     ) {
         // when a call returns successfully, that means we need to set
         // the bits for that dest_place to 1 (initialized).
         on_lookup_result_bits(self.tcx, self.body, self.move_data(),
                               self.move_data().rev_lookup.find(dest_place.as_ref()),
                               |mpi| { in_out.insert(mpi); });
     }
 }

 impl<'a, 'tcx> BitDenotation<'tcx> for EverInitializedPlaces<'a, 'tcx> {
     type Idx = InitIndex;
     fn name() -> &'static str { "ever_init" }
     fn bits_per_block(&self) -> usize {
         self.move_data().inits.len()
     }

     fn start_block_effect(&self, entry_set: &mut BitSet<InitIndex>) {
         for arg_init in 0..self.body.arg_count {
             entry_set.insert(InitIndex::new(arg_init));
         }
     }

     fn statement_effect(&self,
                         trans: &mut GenKillSet<Self::Idx>,
                         location: Location) {
         let (_, body, move_data) = (self.tcx, self.body, self.move_data());
         let stmt = &body[location.block].statements[location.statement_index];
         let init_path_map = &move_data.init_path_map;
         let init_loc_map = &move_data.init_loc_map;
         let rev_lookup = &move_data.rev_lookup;

         debug!("statement {:?} at loc {:?} initializes move_indexes {:?}",
                stmt, location, &init_loc_map[location]);
         trans.gen_all(&init_loc_map[location]);

         match stmt.kind {
             mir::StatementKind::StorageDead(local) => {
                 // End inits for StorageDead, so that an immutable variable can
                 // be reinitialized on the next iteration of the loop.
                 let move_path_index = rev_lookup.find_local(local);
                 debug!("stmt {:?} at loc {:?} clears the ever initialized status of {:?}",
                         stmt, location, &init_path_map[move_path_index]);
                 trans.kill_all(&init_path_map[move_path_index]);
             }
             _ => {}
         }
     }

     fn terminator_effect(&self,
                          trans: &mut GenKillSet<Self::Idx>,
                          location: Location)
     {
         let (body, move_data) = (self.body, self.move_data());
         let term = body[location.block].terminator();
         let init_loc_map = &move_data.init_loc_map;
         debug!("terminator {:?} at loc {:?} initializes move_indexes {:?}",
                term, location, &init_loc_map[location]);
         trans.gen_all(
             init_loc_map[location].iter().filter(|init_index| {
                 move_data.inits[**init_index].kind != InitKind::NonPanicPathOnly
             })
         );
     }

     fn propagate_call_return(
         &self,
         in_out: &mut BitSet<InitIndex>,
         call_bb: mir::BasicBlock,
         _dest_bb: mir::BasicBlock,
         _dest_place: &mir::Place<'tcx>,
     ) {
         let move_data = self.move_data();
         let bits_per_block = self.bits_per_block();
         let init_loc_map = &move_data.init_loc_map;

         let call_loc = Location {
             block: call_bb,
             statement_index: self.body[call_bb].statements.len(),
         };
         for init_index in &init_loc_map[call_loc] {
             assert!(init_index.index() < bits_per_block);
             in_out.insert(*init_index);
         }
     }
 }

 impl<'a, 'tcx> BottomValue for MaybeInitializedPlaces<'a, 'tcx> {
     /// bottom = uninitialized
     const BOTTOM_VALUE: bool = false;
 }

 impl<'a, 'tcx> BottomValue for MaybeUninitializedPlaces<'a, 'tcx> {
     /// bottom = initialized (start_block_effect counters this at outset)
     const BOTTOM_VALUE: bool = false;
 }

 impl<'a, 'tcx> BottomValue for DefinitelyInitializedPlaces<'a, 'tcx> {
     /// bottom = initialized (start_block_effect counters this at outset)
     const BOTTOM_VALUE: bool = true;
 }

 impl<'a, 'tcx> BottomValue for EverInitializedPlaces<'a, 'tcx> {
     /// bottom = no initialized variables by default
     const BOTTOM_VALUE: bool = false;
 }
	//! Dataflow analyses are built upon some interpretation of the
	//! bitvectors attached to each basic block, represented via a
	//! zero-sized structure.

	use rustc::ty::TyCtxt;
	use rustc::mir::{self, Body, Location};
	use rustc_index::bit_set::BitSet;
	use rustc_index::vec::Idx;

	use super::MoveDataParamEnv;

	use crate::util::elaborate_drops::DropFlagState;

	use super::move_paths::{HasMoveData, MoveData, MovePathIndex, InitIndex, InitKind};
	use super::{BitDenotation, BottomValue, GenKillSet};

	use super::drop_flag_effects_for_function_entry;
	use super::drop_flag_effects_for_location;
	use super::on_lookup_result_bits;

	mod borrowed_locals;
	mod indirect_mutation;
	mod storage_liveness;

	pub use self::borrowed_locals::*;
	pub use self::indirect_mutation::IndirectlyMutableLocals;
	pub use self::storage_liveness::*;

	pub(super) mod borrows;

	/// `MaybeInitializedPlaces` tracks all places that might be
	/// initialized upon reaching a particular point in the control flow
	/// for a function.
	///
	/// For example, in code like the following, we have corresponding
	/// dataflow information shown in the right-hand comments.
	///
	/// ```rust
	/// struct S;
	/// fn foo(pred: bool) { // maybe-init:
	/// // {}
	/// let a = S; let b = S; let c; let d; // {a, b}
	///
	/// if pred {
	/// drop(a); // { b}
	/// b = S; // { b}
	///
	/// } else {
	/// drop(b); // {a}
	/// d = S; // {a, d}
	///
	/// } // {a, b, d}
	///
	/// c = S; // {a, b, c, d}
	/// }
	/// ```
	///
	/// To determine whether a place must be initialized at a
	/// particular control-flow point, one can take the set-difference
	/// between this data and the data from `MaybeUninitializedPlaces` at the
	/// corresponding control-flow point.
	///
	/// Similarly, at a given `drop` statement, the set-intersection
	/// between this data and `MaybeUninitializedPlaces` yields the set of
	/// places that would require a dynamic drop-flag at that statement.
	pub struct MaybeInitializedPlaces<'a, 'tcx> {
	tcx: TyCtxt<'tcx>,
	body: &'a Body<'tcx>,
	mdpe: &'a MoveDataParamEnv<'tcx>,
	}

	impl<'a, 'tcx> MaybeInitializedPlaces<'a, 'tcx> {
	pub fn new(tcx: TyCtxt<'tcx>, body: &'a Body<'tcx>, mdpe: &'a MoveDataParamEnv<'tcx>) -> Self {
	MaybeInitializedPlaces { tcx, body, mdpe }
	}
	}

	impl<'a, 'tcx> HasMoveData<'tcx> for MaybeInitializedPlaces<'a, 'tcx> {
	fn move_data(&self) -> &MoveData<'tcx> { &self.mdpe.move_data }
	}

	/// `MaybeUninitializedPlaces` tracks all places that might be
	/// uninitialized upon reaching a particular point in the control flow
	/// for a function.
	///
	/// For example, in code like the following, we have corresponding
	/// dataflow information shown in the right-hand comments.
	///
	/// ```rust
	/// struct S;
	/// fn foo(pred: bool) { // maybe-uninit:
	/// // {a, b, c, d}
	/// let a = S; let b = S; let c; let d; // { c, d}
	///
	/// if pred {
	/// drop(a); // {a, c, d}
	/// b = S; // {a, c, d}
	///
	/// } else {
	/// drop(b); // { b, c, d}
	/// d = S; // { b, c }
	///
	/// } // {a, b, c, d}
	///
	/// c = S; // {a, b, d}
	/// }
	/// ```
	///
	/// To determine whether a place must be uninitialized at a
	/// particular control-flow point, one can take the set-difference
	/// between this data and the data from `MaybeInitializedPlaces` at the
	/// corresponding control-flow point.
	///
	/// Similarly, at a given `drop` statement, the set-intersection
	/// between this data and `MaybeInitializedPlaces` yields the set of
	/// places that would require a dynamic drop-flag at that statement.
	pub struct MaybeUninitializedPlaces<'a, 'tcx> {
	tcx: TyCtxt<'tcx>,
	body: &'a Body<'tcx>,
	mdpe: &'a MoveDataParamEnv<'tcx>,
	}

	impl<'a, 'tcx> MaybeUninitializedPlaces<'a, 'tcx> {
	pub fn new(tcx: TyCtxt<'tcx>, body: &'a Body<'tcx>, mdpe: &'a MoveDataParamEnv<'tcx>) -> Self {
	MaybeUninitializedPlaces { tcx, body, mdpe }
	}
	}

	impl<'a, 'tcx> HasMoveData<'tcx> for MaybeUninitializedPlaces<'a, 'tcx> {
	fn move_data(&self) -> &MoveData<'tcx> { &self.mdpe.move_data }
	}

	/// `DefinitelyInitializedPlaces` tracks all places that are definitely
	/// initialized upon reaching a particular point in the control flow
	/// for a function.
	///
	/// For example, in code like the following, we have corresponding
	/// dataflow information shown in the right-hand comments.
	///
	/// ```rust
	/// struct S;
	/// fn foo(pred: bool) { // definite-init:
	/// // { }
	/// let a = S; let b = S; let c; let d; // {a, b }
	///
	/// if pred {
	/// drop(a); // { b, }
	/// b = S; // { b, }
	///
	/// } else {
	/// drop(b); // {a, }
	/// d = S; // {a, d}
	///
	/// } // { }
	///
	/// c = S; // { c }
	/// }
	/// ```
	///
	/// To determine whether a place may be uninitialized at a
	/// particular control-flow point, one can take the set-complement
	/// of this data.
	///
	/// Similarly, at a given `drop` statement, the set-difference between
	/// this data and `MaybeInitializedPlaces` yields the set of places
	/// that would require a dynamic drop-flag at that statement.
	pub struct DefinitelyInitializedPlaces<'a, 'tcx> {
	tcx: TyCtxt<'tcx>,
	body: &'a Body<'tcx>,
	mdpe: &'a MoveDataParamEnv<'tcx>,
	}

	impl<'a, 'tcx> DefinitelyInitializedPlaces<'a, 'tcx> {
	pub fn new(tcx: TyCtxt<'tcx>, body: &'a Body<'tcx>, mdpe: &'a MoveDataParamEnv<'tcx>) -> Self {
	DefinitelyInitializedPlaces { tcx, body, mdpe }
	}
	}

	impl<'a, 'tcx> HasMoveData<'tcx> for DefinitelyInitializedPlaces<'a, 'tcx> {
	fn move_data(&self) -> &MoveData<'tcx> { &self.mdpe.move_data }
	}

	/// `EverInitializedPlaces` tracks all places that might have ever been
	/// initialized upon reaching a particular point in the control flow
	/// for a function, without an intervening `Storage Dead`.
	///
	/// This dataflow is used to determine if an immutable local variable may
	/// be assigned to.
	///
	/// For example, in code like the following, we have corresponding
	/// dataflow information shown in the right-hand comments.
	///
	/// ```rust
	/// struct S;
	/// fn foo(pred: bool) { // ever-init:
	/// // { }
	/// let a = S; let b = S; let c; let d; // {a, b }
	///
	/// if pred {
	/// drop(a); // {a, b, }
	/// b = S; // {a, b, }
	///
	/// } else {
	/// drop(b); // {a, b, }
	/// d = S; // {a, b, d }
	///
	/// } // {a, b, d }
	///
	/// c = S; // {a, b, c, d }
	/// }
	/// ```
	pub struct EverInitializedPlaces<'a, 'tcx> {
	tcx: TyCtxt<'tcx>,
	body: &'a Body<'tcx>,
	mdpe: &'a MoveDataParamEnv<'tcx>,
	}

	impl<'a, 'tcx> EverInitializedPlaces<'a, 'tcx> {
	pub fn new(tcx: TyCtxt<'tcx>, body: &'a Body<'tcx>, mdpe: &'a MoveDataParamEnv<'tcx>) -> Self {
	EverInitializedPlaces { tcx, body, mdpe }
	}
	}

	impl<'a, 'tcx> HasMoveData<'tcx> for EverInitializedPlaces<'a, 'tcx> {
	fn move_data(&self) -> &MoveData<'tcx> { &self.mdpe.move_data }
	}

	impl<'a, 'tcx> MaybeInitializedPlaces<'a, 'tcx> {
	fn update_bits(trans: &mut GenKillSet<MovePathIndex>,
	path: MovePathIndex,
	state: DropFlagState)
	{
	match state {
	DropFlagState::Absent => trans.kill(path),
	DropFlagState::Present => trans.gen(path),
	}
	}
	}

	impl<'a, 'tcx> MaybeUninitializedPlaces<'a, 'tcx> {
	fn update_bits(trans: &mut GenKillSet<MovePathIndex>,
	path: MovePathIndex,
	state: DropFlagState)
	{
	match state {
	DropFlagState::Absent => trans.gen(path),
	DropFlagState::Present => trans.kill(path),
	}
	}
	}

	impl<'a, 'tcx> DefinitelyInitializedPlaces<'a, 'tcx> {
	fn update_bits(trans: &mut GenKillSet<MovePathIndex>,
	path: MovePathIndex,
	state: DropFlagState)
	{
	match state {
	DropFlagState::Absent => trans.kill(path),
	DropFlagState::Present => trans.gen(path),
	}
	}
	}

	impl<'a, 'tcx> BitDenotation<'tcx> for MaybeInitializedPlaces<'a, 'tcx> {
	type Idx = MovePathIndex;
	fn name() -> &'static str { "maybe_init" }
	fn bits_per_block(&self) -> usize {
	self.move_data().move_paths.len()
	}

	fn start_block_effect(&self, entry_set: &mut BitSet<MovePathIndex>) {
	drop_flag_effects_for_function_entry(
	self.tcx, self.body, self.mdpe,
	\|path, s\| {
	assert!(s == DropFlagState::Present);
	entry_set.insert(path);
	});
	}

	fn statement_effect(&self,
	trans: &mut GenKillSet<Self::Idx>,
	location: Location)
	{
	drop_flag_effects_for_location(
	self.tcx, self.body, self.mdpe,
	location,
	\|path, s\| Self::update_bits(trans, path, s)
	)
	}

	fn terminator_effect(&self,
	trans: &mut GenKillSet<Self::Idx>,
	location: Location)
	{
	drop_flag_effects_for_location(
	self.tcx, self.body, self.mdpe,
	location,
	\|path, s\| Self::update_bits(trans, path, s)
	)
	}

	fn propagate_call_return(
	&self,
	in_out: &mut BitSet<MovePathIndex>,
	_call_bb: mir::BasicBlock,
	_dest_bb: mir::BasicBlock,
	dest_place: &mir::Place<'tcx>,
	) {
	// when a call returns successfully, that means we need to set
	// the bits for that dest_place to 1 (initialized).
	on_lookup_result_bits(self.tcx, self.body, self.move_data(),
	self.move_data().rev_lookup.find(dest_place.as_ref()),
	\|mpi\| { in_out.insert(mpi); });
	}
	}

	impl<'a, 'tcx> BitDenotation<'tcx> for MaybeUninitializedPlaces<'a, 'tcx> {
	type Idx = MovePathIndex;
	fn name() -> &'static str { "maybe_uninit" }
	fn bits_per_block(&self) -> usize {
	self.move_data().move_paths.len()
	}

	// sets on_entry bits for Arg places
	fn start_block_effect(&self, entry_set: &mut BitSet<MovePathIndex>) {
	// set all bits to 1 (uninit) before gathering counterevidence
	assert!(self.bits_per_block() == entry_set.domain_size());
	entry_set.insert_all();

	drop_flag_effects_for_function_entry(
	self.tcx, self.body, self.mdpe,
	\|path, s\| {
	assert!(s == DropFlagState::Present);
	entry_set.remove(path);
	});
	}

	fn statement_effect(&self,
	trans: &mut GenKillSet<Self::Idx>,
	location: Location)
	{
	drop_flag_effects_for_location(
	self.tcx, self.body, self.mdpe,
	location,
	\|path, s\| Self::update_bits(trans, path, s)
	)
	}

	fn terminator_effect(&self,
	trans: &mut GenKillSet<Self::Idx>,
	location: Location)
	{
	drop_flag_effects_for_location(
	self.tcx, self.body, self.mdpe,
	location,
	\|path, s\| Self::update_bits(trans, path, s)
	)
	}

	fn propagate_call_return(
	&self,
	in_out: &mut BitSet<MovePathIndex>,
	_call_bb: mir::BasicBlock,
	_dest_bb: mir::BasicBlock,
	dest_place: &mir::Place<'tcx>,
	) {
	// when a call returns successfully, that means we need to set
	// the bits for that dest_place to 0 (initialized).
	on_lookup_result_bits(self.tcx, self.body, self.move_data(),
	self.move_data().rev_lookup.find(dest_place.as_ref()),
	\|mpi\| { in_out.remove(mpi); });
	}
	}

	impl<'a, 'tcx> BitDenotation<'tcx> for DefinitelyInitializedPlaces<'a, 'tcx> {
	type Idx = MovePathIndex;
	fn name() -> &'static str { "definite_init" }
	fn bits_per_block(&self) -> usize {
	self.move_data().move_paths.len()
	}

	// sets on_entry bits for Arg places
	fn start_block_effect(&self, entry_set: &mut BitSet<MovePathIndex>) {
	entry_set.clear();

	drop_flag_effects_for_function_entry(
	self.tcx, self.body, self.mdpe,
	\|path, s\| {
	assert!(s == DropFlagState::Present);
	entry_set.insert(path);
	});
	}

	fn statement_effect(&self,
	trans: &mut GenKillSet<Self::Idx>,
	location: Location)
	{
	drop_flag_effects_for_location(
	self.tcx, self.body, self.mdpe,
	location,
	\|path, s\| Self::update_bits(trans, path, s)
	)
	}

	fn terminator_effect(&self,
	trans: &mut GenKillSet<Self::Idx>,
	location: Location)
	{
	drop_flag_effects_for_location(
	self.tcx, self.body, self.mdpe,
	location,
	\|path, s\| Self::update_bits(trans, path, s)
	)
	}

	fn propagate_call_return(
	&self,
	in_out: &mut BitSet<MovePathIndex>,
	_call_bb: mir::BasicBlock,
	_dest_bb: mir::BasicBlock,
	dest_place: &mir::Place<'tcx>,
	) {
	// when a call returns successfully, that means we need to set
	// the bits for that dest_place to 1 (initialized).
	on_lookup_result_bits(self.tcx, self.body, self.move_data(),
	self.move_data().rev_lookup.find(dest_place.as_ref()),
	\|mpi\| { in_out.insert(mpi); });
	}
	}

	impl<'a, 'tcx> BitDenotation<'tcx> for EverInitializedPlaces<'a, 'tcx> {
	type Idx = InitIndex;
	fn name() -> &'static str { "ever_init" }
	fn bits_per_block(&self) -> usize {
	self.move_data().inits.len()
	}

	fn start_block_effect(&self, entry_set: &mut BitSet<InitIndex>) {
	for arg_init in 0..self.body.arg_count {
	entry_set.insert(InitIndex::new(arg_init));
	}
	}

	fn statement_effect(&self,
	trans: &mut GenKillSet<Self::Idx>,
	location: Location) {
	let (_, body, move_data) = (self.tcx, self.body, self.move_data());
	let stmt = &body[location.block].statements[location.statement_index];
	let init_path_map = &move_data.init_path_map;
	let init_loc_map = &move_data.init_loc_map;
	let rev_lookup = &move_data.rev_lookup;

	debug!("statement {:?} at loc {:?} initializes move_indexes {:?}",
	stmt, location, &init_loc_map[location]);
	trans.gen_all(&init_loc_map[location]);

	match stmt.kind {
	mir::StatementKind::StorageDead(local) => {
	// End inits for StorageDead, so that an immutable variable can
	// be reinitialized on the next iteration of the loop.
	let move_path_index = rev_lookup.find_local(local);
	debug!("stmt {:?} at loc {:?} clears the ever initialized status of {:?}",
	stmt, location, &init_path_map[move_path_index]);
	trans.kill_all(&init_path_map[move_path_index]);
	}
	_ => {}
	}
	}

	fn terminator_effect(&self,
	trans: &mut GenKillSet<Self::Idx>,
	location: Location)
	{
	let (body, move_data) = (self.body, self.move_data());
	let term = body[location.block].terminator();
	let init_loc_map = &move_data.init_loc_map;
	debug!("terminator {:?} at loc {:?} initializes move_indexes {:?}",
	term, location, &init_loc_map[location]);
	trans.gen_all(
	init_loc_map[location].iter().filter(\|init_index\| {
	move_data.inits[**init_index].kind != InitKind::NonPanicPathOnly
	})
	);
	}

	fn propagate_call_return(
	&self,
	in_out: &mut BitSet<InitIndex>,
	call_bb: mir::BasicBlock,
	_dest_bb: mir::BasicBlock,
	_dest_place: &mir::Place<'tcx>,
	) {
	let move_data = self.move_data();
	let bits_per_block = self.bits_per_block();
	let init_loc_map = &move_data.init_loc_map;

	let call_loc = Location {
	block: call_bb,
	statement_index: self.body[call_bb].statements.len(),
	};
	for init_index in &init_loc_map[call_loc] {
	assert!(init_index.index() < bits_per_block);
	in_out.insert(*init_index);
	}
	}
	}

	impl<'a, 'tcx> BottomValue for MaybeInitializedPlaces<'a, 'tcx> {
	/// bottom = uninitialized
	const BOTTOM_VALUE: bool = false;
	}

	impl<'a, 'tcx> BottomValue for MaybeUninitializedPlaces<'a, 'tcx> {
	/// bottom = initialized (start_block_effect counters this at outset)
	const BOTTOM_VALUE: bool = false;
	}

	impl<'a, 'tcx> BottomValue for DefinitelyInitializedPlaces<'a, 'tcx> {
	/// bottom = initialized (start_block_effect counters this at outset)
	const BOTTOM_VALUE: bool = true;
	}

	impl<'a, 'tcx> BottomValue for EverInitializedPlaces<'a, 'tcx> {
	/// bottom = no initialized variables by default
	const BOTTOM_VALUE: bool = false;
	}