1 //! See docs in build/expr/mod.rs
3 use crate::build::expr::category::Category;
4 use crate::build::ForGuard::{OutsideGuard, RefWithinGuard};
5 use crate::build::{BlockAnd, BlockAndExtension, Builder};
7 use rustc_middle::middle::region;
8 use rustc_middle::mir::AssertKind::BoundsCheck;
9 use rustc_middle::mir::*;
10 use rustc_middle::ty::{self, CanonicalUserTypeAnnotation, Ty, TyCtxt, Variance};
13 use rustc_index::vec::Idx;
15 /// `PlaceBuilder` is used to create places during MIR construction. It allows you to "build up" a
16 /// place by pushing more and more projections onto the end, and then convert the final set into a
17 /// place using the `into_place` method.
19 /// This is used internally when building a place for an expression like `a.b.c`. The fields `b`
20 /// and `c` can be progressively pushed onto the place builder that is created when converting `a`.
22 struct PlaceBuilder<'tcx> {
24 projection: Vec<PlaceElem<'tcx>>,
27 impl<'tcx> PlaceBuilder<'tcx> {
28 fn into_place(self, tcx: TyCtxt<'tcx>) -> Place<'tcx> {
29 Place { local: self.local, projection: tcx.intern_place_elems(&self.projection) }
32 fn field(self, f: Field, ty: Ty<'tcx>) -> Self {
33 self.project(PlaceElem::Field(f, ty))
36 fn deref(self) -> Self {
37 self.project(PlaceElem::Deref)
40 fn index(self, index: Local) -> Self {
41 self.project(PlaceElem::Index(index))
44 fn project(mut self, elem: PlaceElem<'tcx>) -> Self {
45 self.projection.push(elem);
50 impl<'tcx> From<Local> for PlaceBuilder<'tcx> {
51 fn from(local: Local) -> Self {
52 Self { local, projection: Vec::new() }
56 impl<'a, 'tcx> Builder<'a, 'tcx> {
57 /// Compile `expr`, yielding a place that we can move from etc.
59 /// WARNING: Any user code might:
60 /// * Invalidate any slice bounds checks performed.
61 /// * Change the address that this `Place` refers to.
62 /// * Modify the memory that this place refers to.
63 /// * Invalidate the memory that this place refers to, this will be caught
64 /// by borrow checking.
66 /// Extra care is needed if any user code is allowed to run between calling
67 /// this method and using it, as is the case for `match` and index
69 crate fn as_place<M>(&mut self, mut block: BasicBlock, expr: M) -> BlockAnd<Place<'tcx>>
71 M: Mirror<'tcx, Output = Expr<'tcx>>,
73 let place_builder = unpack!(block = self.as_place_builder(block, expr));
74 block.and(place_builder.into_place(self.hir.tcx()))
77 /// This is used when constructing a compound `Place`, so that we can avoid creating
78 /// intermediate `Place` values until we know the full set of projections.
79 fn as_place_builder<M>(&mut self, block: BasicBlock, expr: M) -> BlockAnd<PlaceBuilder<'tcx>>
81 M: Mirror<'tcx, Output = Expr<'tcx>>,
83 let expr = self.hir.mirror(expr);
84 self.expr_as_place(block, expr, Mutability::Mut, None)
87 /// Compile `expr`, yielding a place that we can move from etc.
88 /// Mutability note: The caller of this method promises only to read from the resulting
89 /// place. The place itself may or may not be mutable:
90 /// * If this expr is a place expr like a.b, then we will return that place.
91 /// * Otherwise, a temporary is created: in that event, it will be an immutable temporary.
92 crate fn as_read_only_place<M>(
94 mut block: BasicBlock,
96 ) -> BlockAnd<Place<'tcx>>
98 M: Mirror<'tcx, Output = Expr<'tcx>>,
100 let place_builder = unpack!(block = self.as_read_only_place_builder(block, expr));
101 block.and(place_builder.into_place(self.hir.tcx()))
104 /// This is used when constructing a compound `Place`, so that we can avoid creating
105 /// intermediate `Place` values until we know the full set of projections.
106 /// Mutability note: The caller of this method promises only to read from the resulting
107 /// place. The place itself may or may not be mutable:
108 /// * If this expr is a place expr like a.b, then we will return that place.
109 /// * Otherwise, a temporary is created: in that event, it will be an immutable temporary.
110 fn as_read_only_place_builder<M>(
114 ) -> BlockAnd<PlaceBuilder<'tcx>>
116 M: Mirror<'tcx, Output = Expr<'tcx>>,
118 let expr = self.hir.mirror(expr);
119 self.expr_as_place(block, expr, Mutability::Not, None)
124 mut block: BasicBlock,
126 mutability: Mutability,
127 fake_borrow_temps: Option<&mut Vec<Local>>,
128 ) -> BlockAnd<PlaceBuilder<'tcx>> {
129 debug!("expr_as_place(block={:?}, expr={:?}, mutability={:?})", block, expr, mutability);
132 let expr_span = expr.span;
133 let source_info = this.source_info(expr_span);
135 ExprKind::Scope { region_scope, lint_level, value } => {
136 this.in_scope((region_scope, source_info), lint_level, |this| {
137 let value = this.hir.mirror(value);
138 this.expr_as_place(block, value, mutability, fake_borrow_temps)
141 ExprKind::Field { lhs, name } => {
142 let lhs = this.hir.mirror(lhs);
144 unpack!(block = this.expr_as_place(block, lhs, mutability, fake_borrow_temps,));
145 block.and(place_builder.field(name, expr.ty))
147 ExprKind::Deref { arg } => {
148 let arg = this.hir.mirror(arg);
150 unpack!(block = this.expr_as_place(block, arg, mutability, fake_borrow_temps,));
151 block.and(place_builder.deref())
153 ExprKind::Index { lhs, index } => this.lower_index_expression(
163 ExprKind::SelfRef => block.and(PlaceBuilder::from(Local::new(1))),
164 ExprKind::VarRef { id } => {
165 let place_builder = if this.is_bound_var_in_guard(id) {
166 let index = this.var_local_id(id, RefWithinGuard);
167 PlaceBuilder::from(index).deref()
169 let index = this.var_local_id(id, OutsideGuard);
170 PlaceBuilder::from(index)
172 block.and(place_builder)
175 ExprKind::PlaceTypeAscription { source, user_ty } => {
176 let source = this.hir.mirror(source);
177 let place_builder = unpack!(
178 block = this.expr_as_place(block, source, mutability, fake_borrow_temps,)
180 if let Some(user_ty) = user_ty {
181 let annotation_index =
182 this.canonical_user_type_annotations.push(CanonicalUserTypeAnnotation {
183 span: source_info.span,
185 inferred_ty: expr.ty,
188 let place = place_builder.clone().into_place(this.hir.tcx());
193 kind: StatementKind::AscribeUserType(
196 UserTypeProjection { base: annotation_index, projs: vec![] },
203 block.and(place_builder)
205 ExprKind::ValueTypeAscription { source, user_ty } => {
206 let source = this.hir.mirror(source);
208 unpack!(block = this.as_temp(block, source.temp_lifetime, source, mutability));
209 if let Some(user_ty) = user_ty {
210 let annotation_index =
211 this.canonical_user_type_annotations.push(CanonicalUserTypeAnnotation {
212 span: source_info.span,
214 inferred_ty: expr.ty,
220 kind: StatementKind::AscribeUserType(
223 UserTypeProjection { base: annotation_index, projs: vec![] },
230 block.and(PlaceBuilder::from(temp))
233 ExprKind::Array { .. }
234 | ExprKind::Tuple { .. }
235 | ExprKind::Adt { .. }
236 | ExprKind::Closure { .. }
237 | ExprKind::Unary { .. }
238 | ExprKind::Binary { .. }
239 | ExprKind::LogicalOp { .. }
240 | ExprKind::Box { .. }
241 | ExprKind::Cast { .. }
242 | ExprKind::Use { .. }
243 | ExprKind::NeverToAny { .. }
244 | ExprKind::Pointer { .. }
245 | ExprKind::Repeat { .. }
246 | ExprKind::Borrow { .. }
247 | ExprKind::AddressOf { .. }
248 | ExprKind::Match { .. }
249 | ExprKind::Loop { .. }
250 | ExprKind::Block { .. }
251 | ExprKind::Assign { .. }
252 | ExprKind::AssignOp { .. }
253 | ExprKind::Break { .. }
254 | ExprKind::Continue { .. }
255 | ExprKind::Return { .. }
256 | ExprKind::Literal { .. }
257 | ExprKind::ConstBlock { .. }
258 | ExprKind::StaticRef { .. }
259 | ExprKind::InlineAsm { .. }
260 | ExprKind::LlvmInlineAsm { .. }
261 | ExprKind::Yield { .. }
262 | ExprKind::ThreadLocalRef(_)
263 | ExprKind::Call { .. } => {
264 // these are not places, so we need to make a temporary.
265 debug_assert!(match Category::of(&expr.kind) {
266 Some(Category::Place) => false,
270 unpack!(block = this.as_temp(block, expr.temp_lifetime, expr, mutability));
271 block.and(PlaceBuilder::from(temp))
276 /// Lower an index expression
278 /// This has two complications;
280 /// * We need to do a bounds check.
281 /// * We need to ensure that the bounds check can't be invalidated using an
282 /// expression like `x[1][{x = y; 2}]`. We use fake borrows here to ensure
283 /// that this is the case.
284 fn lower_index_expression(
286 mut block: BasicBlock,
288 index: ExprRef<'tcx>,
289 mutability: Mutability,
290 fake_borrow_temps: Option<&mut Vec<Local>>,
291 temp_lifetime: Option<region::Scope>,
293 source_info: SourceInfo,
294 ) -> BlockAnd<PlaceBuilder<'tcx>> {
295 let lhs = self.hir.mirror(base);
297 let base_fake_borrow_temps = &mut Vec::new();
298 let is_outermost_index = fake_borrow_temps.is_none();
299 let fake_borrow_temps = fake_borrow_temps.unwrap_or(base_fake_borrow_temps);
302 unpack!(block = self.expr_as_place(block, lhs, mutability, Some(fake_borrow_temps),));
304 // Making this a *fresh* temporary means we do not have to worry about
305 // the index changing later: Nothing will ever change this temporary.
306 // The "retagging" transformation (for Stacked Borrows) relies on this.
307 let idx = unpack!(block = self.as_temp(block, temp_lifetime, index, Mutability::Not,));
309 block = self.bounds_check(
311 base_place.clone().into_place(self.hir.tcx()),
317 if is_outermost_index {
318 self.read_fake_borrows(block, fake_borrow_temps, source_info)
320 self.add_fake_borrows_of_base(
329 block.and(base_place.index(idx))
338 source_info: SourceInfo,
340 let usize_ty = self.hir.usize_ty();
341 let bool_ty = self.hir.bool_ty();
343 let len = self.temp(usize_ty, expr_span);
344 let lt = self.temp(bool_ty, expr_span);
347 self.cfg.push_assign(block, source_info, len, Rvalue::Len(slice));
349 self.cfg.push_assign(
353 Rvalue::BinaryOp(BinOp::Lt, Operand::Copy(Place::from(index)), Operand::Copy(len)),
355 let msg = BoundsCheck { len: Operand::Move(len), index: Operand::Copy(Place::from(index)) };
356 // assert!(lt, "...")
357 self.assert(block, Operand::Move(lt), true, msg, expr_span)
360 fn add_fake_borrows_of_base(
362 base_place: &PlaceBuilder<'tcx>,
364 fake_borrow_temps: &mut Vec<Local>,
366 source_info: SourceInfo,
368 let tcx = self.hir.tcx();
370 Place::ty_from(base_place.local, &base_place.projection, &self.local_decls, tcx);
371 if let ty::Slice(_) = place_ty.ty.kind() {
372 // We need to create fake borrows to ensure that the bounds
373 // check that we just did stays valid. Since we can't assign to
374 // unsized values, we only need to ensure that none of the
375 // pointers in the base place are modified.
376 for (idx, elem) in base_place.projection.iter().enumerate().rev() {
378 ProjectionElem::Deref => {
379 let fake_borrow_deref_ty = Place::ty_from(
381 &base_place.projection[..idx],
387 tcx.mk_imm_ref(tcx.lifetimes.re_erased, fake_borrow_deref_ty);
388 let fake_borrow_temp =
389 self.local_decls.push(LocalDecl::new(fake_borrow_ty, expr_span));
390 let projection = tcx.intern_place_elems(&base_place.projection[..idx]);
391 self.cfg.push_assign(
394 fake_borrow_temp.into(),
396 tcx.lifetimes.re_erased,
398 Place { local: base_place.local, projection },
401 fake_borrow_temps.push(fake_borrow_temp);
403 ProjectionElem::Index(_) => {
404 let index_ty = Place::ty_from(
406 &base_place.projection[..idx],
410 match index_ty.ty.kind() {
411 // The previous index expression has already
412 // done any index expressions needed here.
413 ty::Slice(_) => break,
415 _ => bug!("unexpected index base"),
418 ProjectionElem::Field(..)
419 | ProjectionElem::Downcast(..)
420 | ProjectionElem::ConstantIndex { .. }
421 | ProjectionElem::Subslice { .. } => (),
427 fn read_fake_borrows(
430 fake_borrow_temps: &mut Vec<Local>,
431 source_info: SourceInfo,
433 // All indexes have been evaluated now, read all of the
434 // fake borrows so that they are live across those index
436 for temp in fake_borrow_temps {
437 self.cfg.push_fake_read(bb, source_info, FakeReadCause::ForIndex, Place::from(*temp));