use rustc::ty::{self, TyCtxt}; use rustc::mir::*; use rustc::mir::tcx::RvalueInitializationState; use rustc_data_structures::indexed_vec::{IndexVec}; use smallvec::{SmallVec, smallvec}; use std::collections::hash_map::Entry; use std::mem; use super::abs_domain::Lift; use super::{LocationMap, MoveData, MovePath, MovePathLookup, MovePathIndex, MoveOut, MoveOutIndex}; use super::{MoveError, InitIndex, Init, InitLocation, LookupResult, InitKind}; use super::IllegalMoveOriginKind::*; struct MoveDataBuilder<'a, 'gcx: 'tcx, 'tcx: 'a> { mir: &'a Mir<'tcx>, tcx: TyCtxt<'a, 'gcx, 'tcx>, data: MoveData<'tcx>, errors: Vec<(Place<'tcx>, MoveError<'tcx>)>, } impl<'a, 'gcx, 'tcx> MoveDataBuilder<'a, 'gcx, 'tcx> { fn new(mir: &'a Mir<'tcx>, tcx: TyCtxt<'a, 'gcx, 'tcx>) -> Self { let mut move_paths = IndexVec::new(); let mut path_map = IndexVec::new(); let mut init_path_map = IndexVec::new(); MoveDataBuilder { mir, tcx, errors: Vec::new(), data: MoveData { moves: IndexVec::new(), loc_map: LocationMap::new(mir), rev_lookup: MovePathLookup { locals: mir.local_decls.indices().map(PlaceBase::Local).map(|v| { Self::new_move_path( &mut move_paths, &mut path_map, &mut init_path_map, None, Place::Base(v), ) }).collect(), projections: Default::default(), }, move_paths, path_map, inits: IndexVec::new(), init_loc_map: LocationMap::new(mir), init_path_map, } } } fn new_move_path(move_paths: &mut IndexVec>, path_map: &mut IndexVec>, init_path_map: &mut IndexVec>, parent: Option, place: Place<'tcx>) -> MovePathIndex { let move_path = move_paths.push(MovePath { next_sibling: None, first_child: None, parent, place, }); if let Some(parent) = parent { let next_sibling = mem::replace(&mut move_paths[parent].first_child, Some(move_path)); move_paths[move_path].next_sibling = next_sibling; } let path_map_ent = path_map.push(smallvec![]); assert_eq!(path_map_ent, move_path); let init_path_map_ent = init_path_map.push(smallvec![]); assert_eq!(init_path_map_ent, move_path); move_path } } impl<'b, 'a, 'gcx, 'tcx> Gatherer<'b, 'a, 'gcx, 'tcx> { /// This creates a MovePath for a given place, returning an `MovePathError` /// if that place can't be moved from. /// /// NOTE: places behind references *do not* get a move path, which is /// problematic for borrowck. /// /// Maybe we should have separate "borrowck" and "moveck" modes. fn move_path_for(&mut self, place: &Place<'tcx>) -> Result> { debug!("lookup({:?})", place); match *place { Place::Base(PlaceBase::Local(local)) => Ok(self.builder.data.rev_lookup.locals[local]), Place::Base(PlaceBase::Static(..)) => { Err(MoveError::cannot_move_out_of(self.loc, Static)) } Place::Projection(ref proj) => { self.move_path_for_projection(place, proj) } } } fn create_move_path(&mut self, place: &Place<'tcx>) { // This is an non-moving access (such as an overwrite or // drop), so this not being a valid move path is OK. let _ = self.move_path_for(place); } fn move_path_for_projection(&mut self, place: &Place<'tcx>, proj: &PlaceProjection<'tcx>) -> Result> { let base = self.move_path_for(&proj.base)?; let mir = self.builder.mir; let tcx = self.builder.tcx; let place_ty = proj.base.ty(mir, tcx).ty; match place_ty.sty { ty::Ref(..) | ty::RawPtr(..) => return Err(MoveError::cannot_move_out_of( self.loc, BorrowedContent { target_place: place.clone() })), ty::Adt(adt, _) if adt.has_dtor(tcx) && !adt.is_box() => return Err(MoveError::cannot_move_out_of(self.loc, InteriorOfTypeWithDestructor { container_ty: place_ty })), // move out of union - always move the entire union ty::Adt(adt, _) if adt.is_union() => return Err(MoveError::UnionMove { path: base }), ty::Slice(_) => return Err(MoveError::cannot_move_out_of( self.loc, InteriorOfSliceOrArray { ty: place_ty, is_index: match proj.elem { ProjectionElem::Index(..) => true, _ => false }, })), ty::Array(..) => match proj.elem { ProjectionElem::Index(..) => return Err(MoveError::cannot_move_out_of( self.loc, InteriorOfSliceOrArray { ty: place_ty, is_index: true })), _ => { // FIXME: still badly broken } }, _ => {} }; match self.builder.data.rev_lookup.projections.entry((base, proj.elem.lift())) { Entry::Occupied(ent) => Ok(*ent.get()), Entry::Vacant(ent) => { let path = MoveDataBuilder::new_move_path( &mut self.builder.data.move_paths, &mut self.builder.data.path_map, &mut self.builder.data.init_path_map, Some(base), place.clone() ); ent.insert(path); Ok(path) } } } } impl<'a, 'gcx, 'tcx> MoveDataBuilder<'a, 'gcx, 'tcx> { fn finalize( self ) -> Result, (MoveData<'tcx>, Vec<(Place<'tcx>, MoveError<'tcx>)>)> { debug!("{}", { debug!("moves for {:?}:", self.mir.span); for (j, mo) in self.data.moves.iter_enumerated() { debug!(" {:?} = {:?}", j, mo); } debug!("move paths for {:?}:", self.mir.span); for (j, path) in self.data.move_paths.iter_enumerated() { debug!(" {:?} = {:?}", j, path); } "done dumping moves" }); if !self.errors.is_empty() { Err((self.data, self.errors)) } else { Ok(self.data) } } } pub(super) fn gather_moves<'a, 'gcx, 'tcx>( mir: &Mir<'tcx>, tcx: TyCtxt<'a, 'gcx, 'tcx> ) -> Result, (MoveData<'tcx>, Vec<(Place<'tcx>, MoveError<'tcx>)>)> { let mut builder = MoveDataBuilder::new(mir, tcx); builder.gather_args(); for (bb, block) in mir.basic_blocks().iter_enumerated() { for (i, stmt) in block.statements.iter().enumerate() { let source = Location { block: bb, statement_index: i }; builder.gather_statement(source, stmt); } let terminator_loc = Location { block: bb, statement_index: block.statements.len() }; builder.gather_terminator(terminator_loc, block.terminator()); } builder.finalize() } impl<'a, 'gcx, 'tcx> MoveDataBuilder<'a, 'gcx, 'tcx> { fn gather_args(&mut self) { for arg in self.mir.args_iter() { let path = self.data.rev_lookup.locals[arg]; let init = self.data.inits.push(Init { path, kind: InitKind::Deep, location: InitLocation::Argument(arg), }); debug!("gather_args: adding init {:?} of {:?} for argument {:?}", init, path, arg); self.data.init_path_map[path].push(init); } } fn gather_statement(&mut self, loc: Location, stmt: &Statement<'tcx>) { debug!("gather_statement({:?}, {:?})", loc, stmt); (Gatherer { builder: self, loc }).gather_statement(stmt); } fn gather_terminator(&mut self, loc: Location, term: &Terminator<'tcx>) { debug!("gather_terminator({:?}, {:?})", loc, term); (Gatherer { builder: self, loc }).gather_terminator(term); } } struct Gatherer<'b, 'a: 'b, 'gcx: 'tcx, 'tcx: 'a> { builder: &'b mut MoveDataBuilder<'a, 'gcx, 'tcx>, loc: Location, } impl<'b, 'a, 'gcx, 'tcx> Gatherer<'b, 'a, 'gcx, 'tcx> { fn gather_statement(&mut self, stmt: &Statement<'tcx>) { match stmt.kind { StatementKind::Assign(ref place, ref rval) => { self.create_move_path(place); if let RvalueInitializationState::Shallow = rval.initialization_state() { // Box starts out uninitialized - need to create a separate // move-path for the interior so it will be separate from // the exterior. self.create_move_path(&place.clone().deref()); self.gather_init(place, InitKind::Shallow); } else { self.gather_init(place, InitKind::Deep); } self.gather_rvalue(rval); } StatementKind::FakeRead(_, ref place) => { self.create_move_path(place); } StatementKind::InlineAsm(ref asm) => { for (output, kind) in asm.outputs.iter().zip(&asm.asm.outputs) { if !kind.is_indirect { self.gather_init(output, InitKind::Deep); } } for (_, input) in asm.inputs.iter() { self.gather_operand(input); } } StatementKind::StorageLive(_) => {} StatementKind::StorageDead(local) => { self.gather_move(&Place::Base(PlaceBase::Local(local))); } StatementKind::SetDiscriminant{ .. } => { span_bug!(stmt.source_info.span, "SetDiscriminant should not exist during borrowck"); } StatementKind::Retag { .. } | StatementKind::AscribeUserType(..) | StatementKind::Nop => {} } } fn gather_rvalue(&mut self, rvalue: &Rvalue<'tcx>) { match *rvalue { Rvalue::Use(ref operand) | Rvalue::Repeat(ref operand, _) | Rvalue::Cast(_, ref operand, _) | Rvalue::UnaryOp(_, ref operand) => { self.gather_operand(operand) } Rvalue::BinaryOp(ref _binop, ref lhs, ref rhs) | Rvalue::CheckedBinaryOp(ref _binop, ref lhs, ref rhs) => { self.gather_operand(lhs); self.gather_operand(rhs); } Rvalue::Aggregate(ref _kind, ref operands) => { for operand in operands { self.gather_operand(operand); } } Rvalue::Ref(..) | Rvalue::Discriminant(..) | Rvalue::Len(..) | Rvalue::NullaryOp(NullOp::SizeOf, _) | Rvalue::NullaryOp(NullOp::Box, _) => { // This returns an rvalue with uninitialized contents. We can't // move out of it here because it is an rvalue - assignments always // completely initialize their place. // // However, this does not matter - MIR building is careful to // only emit a shallow free for the partially-initialized // temporary. // // In any case, if we want to fix this, we have to register a // special move and change the `statement_effect` functions. } } } fn gather_terminator(&mut self, term: &Terminator<'tcx>) { match term.kind { TerminatorKind::Goto { target: _ } | TerminatorKind::Resume | TerminatorKind::Abort | TerminatorKind::GeneratorDrop | TerminatorKind::FalseEdges { .. } | TerminatorKind::FalseUnwind { .. } | TerminatorKind::Unreachable => { } TerminatorKind::Return => { self.gather_move(&Place::RETURN_PLACE); } TerminatorKind::Assert { ref cond, .. } => { self.gather_operand(cond); } TerminatorKind::SwitchInt { ref discr, .. } => { self.gather_operand(discr); } TerminatorKind::Yield { ref value, .. } => { self.gather_operand(value); } TerminatorKind::Drop { ref location, target: _, unwind: _ } => { self.gather_move(location); } TerminatorKind::DropAndReplace { ref location, ref value, .. } => { self.create_move_path(location); self.gather_operand(value); self.gather_init(location, InitKind::Deep); } TerminatorKind::Call { ref func, ref args, ref destination, cleanup: _, from_hir_call: _, } => { self.gather_operand(func); for arg in args { self.gather_operand(arg); } if let Some((ref destination, _bb)) = *destination { self.create_move_path(destination); self.gather_init(destination, InitKind::NonPanicPathOnly); } } } } fn gather_operand(&mut self, operand: &Operand<'tcx>) { match *operand { Operand::Constant(..) | Operand::Copy(..) => {} // not-a-move Operand::Move(ref place) => { // a move self.gather_move(place); } } } fn gather_move(&mut self, place: &Place<'tcx>) { debug!("gather_move({:?}, {:?})", self.loc, place); let path = match self.move_path_for(place) { Ok(path) | Err(MoveError::UnionMove { path }) => path, Err(error @ MoveError::IllegalMove { .. }) => { self.builder.errors.push((place.clone(), error)); return; } }; let move_out = self.builder.data.moves.push(MoveOut { path: path, source: self.loc }); debug!("gather_move({:?}, {:?}): adding move {:?} of {:?}", self.loc, place, move_out, path); self.builder.data.path_map[path].push(move_out); self.builder.data.loc_map[self.loc].push(move_out); } fn gather_init(&mut self, place: &Place<'tcx>, kind: InitKind) { debug!("gather_init({:?}, {:?})", self.loc, place); let place = match place { // Check if we are assigning into a field of a union, if so, lookup the place // of the union so it is marked as initialized again. Place::Projection(box Projection { base, elem: ProjectionElem::Field(_, _), }) if match base.ty(self.builder.mir, self.builder.tcx).ty.sty { ty::Adt(def, _) if def.is_union() => true, _ => false, } => base, // Otherwise, lookup the place. _ => place, }; if let LookupResult::Exact(path) = self.builder.data.rev_lookup.find(place) { let init = self.builder.data.inits.push(Init { location: InitLocation::Statement(self.loc), path, kind, }); debug!("gather_init({:?}, {:?}): adding init {:?} of {:?}", self.loc, place, init, path); self.builder.data.init_path_map[path].push(init); self.builder.data.init_loc_map[self.loc].push(init); } } }