| //! Propagates constants for early reporting of statically known |
| //! assertion failures |
| |
| use std::cell::Cell; |
| |
| use rustc::hir::def::DefKind; |
| use rustc::mir::{ |
| AggregateKind, Constant, Location, Place, PlaceBase, Body, Operand, Rvalue, |
| Local, NullOp, UnOp, StatementKind, Statement, LocalKind, Static, StaticKind, |
| TerminatorKind, Terminator, ClearCrossCrate, SourceInfo, BinOp, ProjectionElem, |
| SourceScope, SourceScopeLocalData, LocalDecl, |
| }; |
| use rustc::mir::visit::{ |
| Visitor, PlaceContext, MutatingUseContext, MutVisitor, NonMutatingUseContext, |
| }; |
| use rustc::mir::interpret::{Scalar, GlobalId, InterpResult, PanicInfo}; |
| use rustc::ty::{self, Instance, ParamEnv, Ty, TyCtxt}; |
| use syntax_pos::{Span, DUMMY_SP}; |
| use rustc::ty::subst::InternalSubsts; |
| use rustc_data_structures::indexed_vec::IndexVec; |
| use rustc::ty::layout::{ |
| LayoutOf, TyLayout, LayoutError, HasTyCtxt, TargetDataLayout, HasDataLayout, |
| }; |
| |
| use crate::interpret::{ |
| self, InterpCx, ScalarMaybeUndef, Immediate, OpTy, |
| ImmTy, MemoryKind, StackPopCleanup, LocalValue, LocalState, |
| }; |
| use crate::const_eval::{ |
| CompileTimeInterpreter, error_to_const_error, mk_eval_cx, |
| }; |
| use crate::transform::{MirPass, MirSource}; |
| |
| pub struct ConstProp; |
| |
| impl<'tcx> MirPass<'tcx> for ConstProp { |
| fn run_pass(&self, tcx: TyCtxt<'tcx>, source: MirSource<'tcx>, body: &mut Body<'tcx>) { |
| // will be evaluated by miri and produce its errors there |
| if source.promoted.is_some() { |
| return; |
| } |
| |
| use rustc::hir::map::blocks::FnLikeNode; |
| let hir_id = tcx.hir().as_local_hir_id(source.def_id()) |
| .expect("Non-local call to local provider is_const_fn"); |
| |
| let is_fn_like = FnLikeNode::from_node(tcx.hir().get(hir_id)).is_some(); |
| let is_assoc_const = match tcx.def_kind(source.def_id()) { |
| Some(DefKind::AssocConst) => true, |
| _ => false, |
| }; |
| |
| // Only run const prop on functions, methods, closures and associated constants |
| if !is_fn_like && !is_assoc_const { |
| // skip anon_const/statics/consts because they'll be evaluated by miri anyway |
| trace!("ConstProp skipped for {:?}", source.def_id()); |
| return |
| } |
| |
| trace!("ConstProp starting for {:?}", source.def_id()); |
| |
| // Steal some data we need from `body`. |
| let source_scope_local_data = std::mem::replace( |
| &mut body.source_scope_local_data, |
| ClearCrossCrate::Clear |
| ); |
| |
| let dummy_body = |
| &Body::new( |
| body.basic_blocks().clone(), |
| Default::default(), |
| ClearCrossCrate::Clear, |
| None, |
| body.local_decls.clone(), |
| Default::default(), |
| body.arg_count, |
| Default::default(), |
| tcx.def_span(source.def_id()), |
| Default::default(), |
| ); |
| |
| // FIXME(oli-obk, eddyb) Optimize locals (or even local paths) to hold |
| // constants, instead of just checking for const-folding succeeding. |
| // That would require an uniform one-def no-mutation analysis |
| // and RPO (or recursing when needing the value of a local). |
| let mut optimization_finder = ConstPropagator::new( |
| body, |
| dummy_body, |
| source_scope_local_data, |
| tcx, |
| source |
| ); |
| optimization_finder.visit_body(body); |
| |
| // put back the data we stole from `mir` |
| let source_scope_local_data = optimization_finder.release_stolen_data(); |
| std::mem::replace( |
| &mut body.source_scope_local_data, |
| source_scope_local_data |
| ); |
| |
| trace!("ConstProp done for {:?}", source.def_id()); |
| } |
| } |
| |
| type Const<'tcx> = OpTy<'tcx>; |
| |
| /// Finds optimization opportunities on the MIR. |
| struct ConstPropagator<'mir, 'tcx> { |
| ecx: InterpCx<'mir, 'tcx, CompileTimeInterpreter<'mir, 'tcx>>, |
| tcx: TyCtxt<'tcx>, |
| source: MirSource<'tcx>, |
| can_const_prop: IndexVec<Local, bool>, |
| param_env: ParamEnv<'tcx>, |
| source_scope_local_data: ClearCrossCrate<IndexVec<SourceScope, SourceScopeLocalData>>, |
| local_decls: IndexVec<Local, LocalDecl<'tcx>>, |
| } |
| |
| impl<'mir, 'tcx> LayoutOf for ConstPropagator<'mir, 'tcx> { |
| type Ty = Ty<'tcx>; |
| type TyLayout = Result<TyLayout<'tcx>, LayoutError<'tcx>>; |
| |
| fn layout_of(&self, ty: Ty<'tcx>) -> Self::TyLayout { |
| self.tcx.layout_of(self.param_env.and(ty)) |
| } |
| } |
| |
| impl<'mir, 'tcx> HasDataLayout for ConstPropagator<'mir, 'tcx> { |
| #[inline] |
| fn data_layout(&self) -> &TargetDataLayout { |
| &self.tcx.data_layout |
| } |
| } |
| |
| impl<'mir, 'tcx> HasTyCtxt<'tcx> for ConstPropagator<'mir, 'tcx> { |
| #[inline] |
| fn tcx(&self) -> TyCtxt<'tcx> { |
| self.tcx |
| } |
| } |
| |
| impl<'mir, 'tcx> ConstPropagator<'mir, 'tcx> { |
| fn new( |
| body: &Body<'tcx>, |
| dummy_body: &'mir Body<'tcx>, |
| source_scope_local_data: ClearCrossCrate<IndexVec<SourceScope, SourceScopeLocalData>>, |
| tcx: TyCtxt<'tcx>, |
| source: MirSource<'tcx>, |
| ) -> ConstPropagator<'mir, 'tcx> { |
| let def_id = source.def_id(); |
| let param_env = tcx.param_env(def_id); |
| let span = tcx.def_span(def_id); |
| let mut ecx = mk_eval_cx(tcx, span, param_env); |
| let can_const_prop = CanConstProp::check(body); |
| |
| ecx.push_stack_frame( |
| Instance::new(def_id, &InternalSubsts::identity_for_item(tcx, def_id)), |
| span, |
| dummy_body, |
| None, |
| StackPopCleanup::None { |
| cleanup: false, |
| }, |
| ).expect("failed to push initial stack frame"); |
| |
| ConstPropagator { |
| ecx, |
| tcx, |
| source, |
| param_env, |
| can_const_prop, |
| source_scope_local_data, |
| //FIXME(wesleywiser) we can't steal this because `Visitor::super_visit_body()` needs it |
| local_decls: body.local_decls.clone(), |
| } |
| } |
| |
| fn release_stolen_data(self) -> ClearCrossCrate<IndexVec<SourceScope, SourceScopeLocalData>> { |
| self.source_scope_local_data |
| } |
| |
| fn get_const(&self, local: Local) -> Option<Const<'tcx>> { |
| let l = &self.ecx.frame().locals[local]; |
| |
| // If the local is `Unitialized` or `Dead` then we haven't propagated a value into it. |
| // |
| // `InterpCx::access_local()` mostly takes care of this for us however, for ZSTs, |
| // it will synthesize a value for us. In doing so, that will cause the |
| // `get_const(l).is_empty()` assert right before we call `set_const()` in `visit_statement` |
| // to fail. |
| if let LocalValue::Uninitialized | LocalValue::Dead = l.value { |
| return None; |
| } |
| |
| self.ecx.access_local(self.ecx.frame(), local, None).ok() |
| } |
| |
| fn set_const(&mut self, local: Local, c: Const<'tcx>) { |
| let frame = self.ecx.frame_mut(); |
| |
| if let Some(layout) = frame.locals[local].layout.get() { |
| debug_assert_eq!(c.layout, layout); |
| } |
| |
| frame.locals[local] = LocalState { |
| value: LocalValue::Live(*c), |
| layout: Cell::new(Some(c.layout)), |
| }; |
| } |
| |
| fn remove_const(&mut self, local: Local) { |
| self.ecx.frame_mut().locals[local] = LocalState { |
| value: LocalValue::Uninitialized, |
| layout: Cell::new(None), |
| }; |
| } |
| |
| fn use_ecx<F, T>( |
| &mut self, |
| source_info: SourceInfo, |
| f: F |
| ) -> Option<T> |
| where |
| F: FnOnce(&mut Self) -> InterpResult<'tcx, T>, |
| { |
| self.ecx.tcx.span = source_info.span; |
| let lint_root = match self.source_scope_local_data { |
| ClearCrossCrate::Set(ref ivs) => { |
| //FIXME(#51314): remove this check |
| if source_info.scope.index() >= ivs.len() { |
| return None; |
| } |
| ivs[source_info.scope].lint_root |
| }, |
| ClearCrossCrate::Clear => return None, |
| }; |
| let r = match f(self) { |
| Ok(val) => Some(val), |
| Err(error) => { |
| use rustc::mir::interpret::InterpError::*; |
| match error.kind { |
| Exit(_) => bug!("the CTFE program cannot exit"), |
| Unsupported(_) |
| | UndefinedBehavior(_) |
| | InvalidProgram(_) |
| | ResourceExhaustion(_) => { |
| // Ignore these errors. |
| } |
| Panic(_) => { |
| let diagnostic = error_to_const_error(&self.ecx, error); |
| diagnostic.report_as_lint( |
| self.ecx.tcx, |
| "this expression will panic at runtime", |
| lint_root, |
| None, |
| ); |
| } |
| } |
| None |
| }, |
| }; |
| self.ecx.tcx.span = DUMMY_SP; |
| r |
| } |
| |
| fn eval_constant( |
| &mut self, |
| c: &Constant<'tcx>, |
| ) -> Option<Const<'tcx>> { |
| self.ecx.tcx.span = c.span; |
| match self.ecx.eval_const_to_op(c.literal, None) { |
| Ok(op) => { |
| Some(op) |
| }, |
| Err(error) => { |
| let err = error_to_const_error(&self.ecx, error); |
| err.report_as_error(self.ecx.tcx, "erroneous constant used"); |
| None |
| }, |
| } |
| } |
| |
| fn eval_place(&mut self, place: &Place<'tcx>, source_info: SourceInfo) -> Option<Const<'tcx>> { |
| trace!("eval_place(place={:?})", place); |
| let mut eval = match place.base { |
| PlaceBase::Local(loc) => self.get_const(loc).clone()?, |
| PlaceBase::Static(box Static {kind: StaticKind::Promoted(promoted, _), ..}) => { |
| let generics = self.tcx.generics_of(self.source.def_id()); |
| if generics.requires_monomorphization(self.tcx) { |
| // FIXME: can't handle code with generics |
| return None; |
| } |
| let substs = InternalSubsts::identity_for_item(self.tcx, self.source.def_id()); |
| let instance = Instance::new(self.source.def_id(), substs); |
| let cid = GlobalId { |
| instance, |
| promoted: Some(promoted), |
| }; |
| let res = self.use_ecx(source_info, |this| { |
| this.ecx.const_eval_raw(cid) |
| })?; |
| trace!("evaluated promoted {:?} to {:?}", promoted, res); |
| res.into() |
| } |
| _ => return None, |
| }; |
| |
| for (i, elem) in place.projection.iter().enumerate() { |
| let proj_base = &place.projection[..i]; |
| |
| match elem { |
| ProjectionElem::Field(field, _) => { |
| trace!("field proj on {:?}", proj_base); |
| eval = self.use_ecx(source_info, |this| { |
| this.ecx.operand_field(eval, field.index() as u64) |
| })?; |
| }, |
| ProjectionElem::Deref => { |
| trace!("processing deref"); |
| eval = self.use_ecx(source_info, |this| { |
| this.ecx.deref_operand(eval) |
| })?.into(); |
| } |
| // We could get more projections by using e.g., `operand_projection`, |
| // but we do not even have the stack frame set up properly so |
| // an `Index` projection would throw us off-track. |
| _ => return None, |
| } |
| } |
| |
| Some(eval) |
| } |
| |
| fn eval_operand(&mut self, op: &Operand<'tcx>, source_info: SourceInfo) -> Option<Const<'tcx>> { |
| match *op { |
| Operand::Constant(ref c) => self.eval_constant(c), |
| | Operand::Move(ref place) |
| | Operand::Copy(ref place) => self.eval_place(place, source_info), |
| } |
| } |
| |
| fn const_prop( |
| &mut self, |
| rvalue: &Rvalue<'tcx>, |
| place_layout: TyLayout<'tcx>, |
| source_info: SourceInfo, |
| ) -> Option<Const<'tcx>> { |
| let span = source_info.span; |
| match *rvalue { |
| Rvalue::Use(ref op) => { |
| self.eval_operand(op, source_info) |
| }, |
| Rvalue::Ref(_, _, ref place) => { |
| let src = self.eval_place(place, source_info)?; |
| let mplace = src.try_as_mplace().ok()?; |
| Some(ImmTy::from_scalar(mplace.ptr.into(), place_layout).into()) |
| }, |
| Rvalue::Repeat(..) | |
| Rvalue::Aggregate(..) | |
| Rvalue::NullaryOp(NullOp::Box, _) | |
| Rvalue::Discriminant(..) => None, |
| |
| Rvalue::Cast(kind, ref operand, _) => { |
| let op = self.eval_operand(operand, source_info)?; |
| self.use_ecx(source_info, |this| { |
| let dest = this.ecx.allocate(place_layout, MemoryKind::Stack); |
| this.ecx.cast(op, kind, dest.into())?; |
| Ok(dest.into()) |
| }) |
| }, |
| Rvalue::Len(ref place) => { |
| let place = self.eval_place(&place, source_info)?; |
| let mplace = place.try_as_mplace().ok()?; |
| |
| if let ty::Slice(_) = mplace.layout.ty.sty { |
| let len = mplace.meta.unwrap().to_usize(&self.ecx).unwrap(); |
| |
| Some(ImmTy::from_uint( |
| len, |
| self.tcx.layout_of(self.param_env.and(self.tcx.types.usize)).ok()?, |
| ).into()) |
| } else { |
| trace!("not slice: {:?}", mplace.layout.ty.sty); |
| None |
| } |
| }, |
| Rvalue::NullaryOp(NullOp::SizeOf, ty) => { |
| type_size_of(self.tcx, self.param_env, ty).and_then(|n| Some( |
| ImmTy::from_uint( |
| n, |
| self.tcx.layout_of(self.param_env.and(self.tcx.types.usize)).ok()?, |
| ).into() |
| )) |
| } |
| Rvalue::UnaryOp(op, ref arg) => { |
| let def_id = if self.tcx.is_closure(self.source.def_id()) { |
| self.tcx.closure_base_def_id(self.source.def_id()) |
| } else { |
| self.source.def_id() |
| }; |
| let generics = self.tcx.generics_of(def_id); |
| if generics.requires_monomorphization(self.tcx) { |
| // FIXME: can't handle code with generics |
| return None; |
| } |
| |
| let arg = self.eval_operand(arg, source_info)?; |
| let oflo_check = self.tcx.sess.overflow_checks(); |
| let val = self.use_ecx(source_info, |this| { |
| let prim = this.ecx.read_immediate(arg)?; |
| match op { |
| UnOp::Neg => { |
| // We check overflow in debug mode already |
| // so should only check in release mode. |
| if !oflo_check |
| && prim.layout.ty.is_signed() |
| && prim.to_bits()? == (1 << (prim.layout.size.bits() - 1)) { |
| throw_panic!(OverflowNeg) |
| } |
| } |
| UnOp::Not => { |
| // Cannot overflow |
| } |
| } |
| // Now run the actual operation. |
| this.ecx.unary_op(op, prim) |
| })?; |
| Some(val.into()) |
| } |
| Rvalue::CheckedBinaryOp(op, ref left, ref right) | |
| Rvalue::BinaryOp(op, ref left, ref right) => { |
| trace!("rvalue binop {:?} for {:?} and {:?}", op, left, right); |
| let right = self.eval_operand(right, source_info)?; |
| let def_id = if self.tcx.is_closure(self.source.def_id()) { |
| self.tcx.closure_base_def_id(self.source.def_id()) |
| } else { |
| self.source.def_id() |
| }; |
| let generics = self.tcx.generics_of(def_id); |
| if generics.requires_monomorphization(self.tcx) { |
| // FIXME: can't handle code with generics |
| return None; |
| } |
| |
| let r = self.use_ecx(source_info, |this| { |
| this.ecx.read_immediate(right) |
| })?; |
| if op == BinOp::Shr || op == BinOp::Shl { |
| let left_ty = left.ty(&self.local_decls, self.tcx); |
| let left_bits = self |
| .tcx |
| .layout_of(self.param_env.and(left_ty)) |
| .unwrap() |
| .size |
| .bits(); |
| let right_size = right.layout.size; |
| let r_bits = r.to_scalar().and_then(|r| r.to_bits(right_size)); |
| if r_bits.ok().map_or(false, |b| b >= left_bits as u128) { |
| let source_scope_local_data = match self.source_scope_local_data { |
| ClearCrossCrate::Set(ref data) => data, |
| ClearCrossCrate::Clear => return None, |
| }; |
| let dir = if op == BinOp::Shr { |
| "right" |
| } else { |
| "left" |
| }; |
| let hir_id = source_scope_local_data[source_info.scope].lint_root; |
| self.tcx.lint_hir( |
| ::rustc::lint::builtin::EXCEEDING_BITSHIFTS, |
| hir_id, |
| span, |
| &format!("attempt to shift {} with overflow", dir)); |
| return None; |
| } |
| } |
| let left = self.eval_operand(left, source_info)?; |
| let l = self.use_ecx(source_info, |this| { |
| this.ecx.read_immediate(left) |
| })?; |
| trace!("const evaluating {:?} for {:?} and {:?}", op, left, right); |
| let (val, overflow, _ty) = self.use_ecx(source_info, |this| { |
| this.ecx.overflowing_binary_op(op, l, r) |
| })?; |
| let val = if let Rvalue::CheckedBinaryOp(..) = *rvalue { |
| Immediate::ScalarPair( |
| val.into(), |
| Scalar::from_bool(overflow).into(), |
| ) |
| } else { |
| // We check overflow in debug mode already |
| // so should only check in release mode. |
| if !self.tcx.sess.overflow_checks() && overflow { |
| let err = err_panic!(Overflow(op)).into(); |
| let _: Option<()> = self.use_ecx(source_info, |_| Err(err)); |
| return None; |
| } |
| Immediate::Scalar(val.into()) |
| }; |
| let res = ImmTy { |
| imm: val, |
| layout: place_layout, |
| }; |
| Some(res.into()) |
| }, |
| } |
| } |
| |
| fn operand_from_scalar(&self, scalar: Scalar, ty: Ty<'tcx>, span: Span) -> Operand<'tcx> { |
| Operand::Constant(Box::new( |
| Constant { |
| span, |
| user_ty: None, |
| literal: self.tcx.mk_const(*ty::Const::from_scalar( |
| self.tcx, |
| scalar, |
| ty, |
| )) |
| } |
| )) |
| } |
| |
| fn replace_with_const( |
| &mut self, |
| rval: &mut Rvalue<'tcx>, |
| value: Const<'tcx>, |
| source_info: SourceInfo, |
| ) { |
| trace!("attepting to replace {:?} with {:?}", rval, value); |
| if let Err(e) = self.ecx.validate_operand( |
| value, |
| vec![], |
| // FIXME: is ref tracking too expensive? |
| Some(&mut interpret::RefTracking::empty()), |
| ) { |
| trace!("validation error, attempt failed: {:?}", e); |
| return; |
| } |
| |
| // FIXME> figure out what tho do when try_read_immediate fails |
| let imm = self.use_ecx(source_info, |this| { |
| this.ecx.try_read_immediate(value) |
| }); |
| |
| if let Some(Ok(imm)) = imm { |
| match *imm { |
| interpret::Immediate::Scalar(ScalarMaybeUndef::Scalar(scalar)) => { |
| *rval = Rvalue::Use( |
| self.operand_from_scalar(scalar, value.layout.ty, source_info.span)); |
| }, |
| Immediate::ScalarPair( |
| ScalarMaybeUndef::Scalar(one), |
| ScalarMaybeUndef::Scalar(two) |
| ) => { |
| let ty = &value.layout.ty.sty; |
| if let ty::Tuple(substs) = ty { |
| *rval = Rvalue::Aggregate( |
| Box::new(AggregateKind::Tuple), |
| vec![ |
| self.operand_from_scalar( |
| one, substs[0].expect_ty(), source_info.span |
| ), |
| self.operand_from_scalar( |
| two, substs[1].expect_ty(), source_info.span |
| ), |
| ], |
| ); |
| } |
| }, |
| _ => { } |
| } |
| } |
| } |
| |
| fn should_const_prop(&self) -> bool { |
| self.tcx.sess.opts.debugging_opts.mir_opt_level >= 2 |
| } |
| } |
| |
| fn type_size_of<'tcx>( |
| tcx: TyCtxt<'tcx>, |
| param_env: ty::ParamEnv<'tcx>, |
| ty: Ty<'tcx>, |
| ) -> Option<u64> { |
| tcx.layout_of(param_env.and(ty)).ok().map(|layout| layout.size.bytes()) |
| } |
| |
| struct CanConstProp { |
| can_const_prop: IndexVec<Local, bool>, |
| // false at the beginning, once set, there are not allowed to be any more assignments |
| found_assignment: IndexVec<Local, bool>, |
| } |
| |
| impl CanConstProp { |
| /// returns true if `local` can be propagated |
| fn check(body: &Body<'_>) -> IndexVec<Local, bool> { |
| let mut cpv = CanConstProp { |
| can_const_prop: IndexVec::from_elem(true, &body.local_decls), |
| found_assignment: IndexVec::from_elem(false, &body.local_decls), |
| }; |
| for (local, val) in cpv.can_const_prop.iter_enumerated_mut() { |
| // cannot use args at all |
| // cannot use locals because if x < y { y - x } else { x - y } would |
| // lint for x != y |
| // FIXME(oli-obk): lint variables until they are used in a condition |
| // FIXME(oli-obk): lint if return value is constant |
| *val = body.local_kind(local) == LocalKind::Temp; |
| |
| if !*val { |
| trace!("local {:?} can't be propagated because it's not a temporary", local); |
| } |
| } |
| cpv.visit_body(body); |
| cpv.can_const_prop |
| } |
| } |
| |
| impl<'tcx> Visitor<'tcx> for CanConstProp { |
| fn visit_local( |
| &mut self, |
| &local: &Local, |
| context: PlaceContext, |
| _: Location, |
| ) { |
| use rustc::mir::visit::PlaceContext::*; |
| match context { |
| // Constants must have at most one write |
| // FIXME(oli-obk): we could be more powerful here, if the multiple writes |
| // only occur in independent execution paths |
| MutatingUse(MutatingUseContext::Store) => if self.found_assignment[local] { |
| trace!("local {:?} can't be propagated because of multiple assignments", local); |
| self.can_const_prop[local] = false; |
| } else { |
| self.found_assignment[local] = true |
| }, |
| // Reading constants is allowed an arbitrary number of times |
| NonMutatingUse(NonMutatingUseContext::Copy) | |
| NonMutatingUse(NonMutatingUseContext::Move) | |
| NonMutatingUse(NonMutatingUseContext::Inspect) | |
| NonMutatingUse(NonMutatingUseContext::Projection) | |
| MutatingUse(MutatingUseContext::Projection) | |
| NonUse(_) => {}, |
| _ => { |
| trace!("local {:?} can't be propagaged because it's used: {:?}", local, context); |
| self.can_const_prop[local] = false; |
| }, |
| } |
| } |
| } |
| |
| impl<'mir, 'tcx> MutVisitor<'tcx> for ConstPropagator<'mir, 'tcx> { |
| fn visit_constant( |
| &mut self, |
| constant: &mut Constant<'tcx>, |
| location: Location, |
| ) { |
| trace!("visit_constant: {:?}", constant); |
| self.super_constant(constant, location); |
| self.eval_constant(constant); |
| } |
| |
| fn visit_statement( |
| &mut self, |
| statement: &mut Statement<'tcx>, |
| location: Location, |
| ) { |
| trace!("visit_statement: {:?}", statement); |
| if let StatementKind::Assign(box(ref place, ref mut rval)) = statement.kind { |
| let place_ty: Ty<'tcx> = place |
| .ty(&self.local_decls, self.tcx) |
| .ty; |
| if let Ok(place_layout) = self.tcx.layout_of(self.param_env.and(place_ty)) { |
| if let Some(value) = self.const_prop(rval, place_layout, statement.source_info) { |
| if let Place { |
| base: PlaceBase::Local(local), |
| projection: box [], |
| } = *place { |
| trace!("checking whether {:?} can be stored to {:?}", value, local); |
| if self.can_const_prop[local] { |
| trace!("storing {:?} to {:?}", value, local); |
| assert!(self.get_const(local).is_none()); |
| self.set_const(local, value); |
| |
| if self.should_const_prop() { |
| self.replace_with_const( |
| rval, |
| value, |
| statement.source_info, |
| ); |
| } |
| } |
| } |
| } |
| } |
| } |
| self.super_statement(statement, location); |
| } |
| |
| fn visit_terminator( |
| &mut self, |
| terminator: &mut Terminator<'tcx>, |
| location: Location, |
| ) { |
| self.super_terminator(terminator, location); |
| let source_info = terminator.source_info; |
| match &mut terminator.kind { |
| TerminatorKind::Assert { expected, ref msg, ref mut cond, .. } => { |
| if let Some(value) = self.eval_operand(&cond, source_info) { |
| trace!("assertion on {:?} should be {:?}", value, expected); |
| let expected = ScalarMaybeUndef::from(Scalar::from_bool(*expected)); |
| let value_const = self.ecx.read_scalar(value).unwrap(); |
| if expected != value_const { |
| // poison all places this operand references so that further code |
| // doesn't use the invalid value |
| match cond { |
| Operand::Move(ref place) | Operand::Copy(ref place) => { |
| if let PlaceBase::Local(local) = place.base { |
| self.remove_const(local); |
| } |
| }, |
| Operand::Constant(_) => {} |
| } |
| let span = terminator.source_info.span; |
| let hir_id = self |
| .tcx |
| .hir() |
| .as_local_hir_id(self.source.def_id()) |
| .expect("some part of a failing const eval must be local"); |
| let msg = match msg { |
| PanicInfo::Overflow(_) | |
| PanicInfo::OverflowNeg | |
| PanicInfo::DivisionByZero | |
| PanicInfo::RemainderByZero => |
| msg.description().to_owned(), |
| PanicInfo::BoundsCheck { ref len, ref index } => { |
| let len = self |
| .eval_operand(len, source_info) |
| .expect("len must be const"); |
| let len = match self.ecx.read_scalar(len) { |
| Ok(ScalarMaybeUndef::Scalar(Scalar::Raw { |
| data, .. |
| })) => data, |
| other => bug!("const len not primitive: {:?}", other), |
| }; |
| let index = self |
| .eval_operand(index, source_info) |
| .expect("index must be const"); |
| let index = match self.ecx.read_scalar(index) { |
| Ok(ScalarMaybeUndef::Scalar(Scalar::Raw { |
| data, .. |
| })) => data, |
| other => bug!("const index not primitive: {:?}", other), |
| }; |
| format!( |
| "index out of bounds: \ |
| the len is {} but the index is {}", |
| len, |
| index, |
| ) |
| }, |
| // Need proper const propagator for these |
| _ => return, |
| }; |
| self.tcx.lint_hir( |
| ::rustc::lint::builtin::CONST_ERR, |
| hir_id, |
| span, |
| &msg, |
| ); |
| } else { |
| if self.should_const_prop() { |
| if let ScalarMaybeUndef::Scalar(scalar) = value_const { |
| *cond = self.operand_from_scalar( |
| scalar, |
| self.tcx.types.bool, |
| source_info.span, |
| ); |
| } |
| } |
| } |
| } |
| }, |
| TerminatorKind::SwitchInt { ref mut discr, switch_ty, .. } => { |
| if self.should_const_prop() { |
| if let Some(value) = self.eval_operand(&discr, source_info) { |
| if let ScalarMaybeUndef::Scalar(scalar) = |
| self.ecx.read_scalar(value).unwrap() { |
| *discr = self.operand_from_scalar(scalar, switch_ty, source_info.span); |
| } |
| } |
| } |
| }, |
| //none of these have Operands to const-propagate |
| TerminatorKind::Goto { .. } | |
| TerminatorKind::Resume | |
| TerminatorKind::Abort | |
| TerminatorKind::Return | |
| TerminatorKind::Unreachable | |
| TerminatorKind::Drop { .. } | |
| TerminatorKind::DropAndReplace { .. } | |
| TerminatorKind::Yield { .. } | |
| TerminatorKind::GeneratorDrop | |
| TerminatorKind::FalseEdges { .. } | |
| TerminatorKind::FalseUnwind { .. } => { } |
| //FIXME(wesleywiser) Call does have Operands that could be const-propagated |
| TerminatorKind::Call { .. } => { } |
| } |
| } |
| } |