1 //! Code for type-checking cast expressions.
3 //! A cast `e as U` is valid if one of the following holds:
4 //! * `e` has type `T` and `T` coerces to `U`; *coercion-cast*
5 //! * `e` has type `*T`, `U` is `*U_0`, and either `U_0: Sized` or
6 //! pointer_kind(`T`) = pointer_kind(`U_0`); *ptr-ptr-cast*
7 //! * `e` has type `*T` and `U` is a numeric type, while `T: Sized`; *ptr-addr-cast*
8 //! * `e` is an integer and `U` is `*U_0`, while `U_0: Sized`; *addr-ptr-cast*
9 //! * `e` has type `T` and `T` and `U` are any numeric types; *numeric-cast*
10 //! * `e` is a C-like enum and `U` is an integer type; *enum-cast*
11 //! * `e` has type `bool` or `char` and `U` is an integer; *prim-int-cast*
12 //! * `e` has type `u8` and `U` is `char`; *u8-char-cast*
13 //! * `e` has type `&[T; n]` and `U` is `*const T`; *array-ptr-cast*
14 //! * `e` is a function pointer type and `U` has type `*T`,
15 //! while `T: Sized`; *fptr-ptr-cast*
16 //! * `e` is a function pointer type and `U` is an integer; *fptr-addr-cast*
18 //! where `&.T` and `*T` are references of either mutability,
19 //! and where pointer_kind(`T`) is the kind of the unsize info
20 //! in `T` - the vtable for a trait definition (e.g., `fmt::Display` or
21 //! `Iterator`, not `Iterator<Item=u8>`) or a length (or `()` if `T: Sized`).
23 //! Note that lengths are not adjusted when casting raw slices -
24 //! `T: *const [u16] as *const [u8]` creates a slice that only includes
25 //! half of the original memory.
27 //! Casting is not transitive, that is, even if `e as U1 as U2` is a valid
28 //! expression, `e as U2` is not necessarily so (in fact it will only be valid if
29 //! `U1` coerces to `U2`).
33 use crate::hir::def_id::DefId;
34 use crate::type_error_struct;
35 use hir::def_id::LOCAL_CRATE;
36 use rustc_errors::{struct_span_err, Applicability, DiagnosticBuilder, ErrorGuaranteed};
38 use rustc_middle::mir::Mutability;
39 use rustc_middle::ty::adjustment::AllowTwoPhase;
40 use rustc_middle::ty::cast::{CastKind, CastTy};
41 use rustc_middle::ty::error::TypeError;
42 use rustc_middle::ty::subst::SubstsRef;
43 use rustc_middle::ty::{self, Ty, TypeAndMut, TypeVisitable, VariantDef};
44 use rustc_session::lint;
45 use rustc_session::Session;
46 use rustc_span::symbol::sym;
48 use rustc_trait_selection::infer::InferCtxtExt;
49 use rustc_trait_selection::traits::error_reporting::report_object_safety_error;
51 /// Reifies a cast check to be checked once we have full type information for
52 /// a function context.
54 pub struct CastCheck<'tcx> {
55 expr: &'tcx hir::Expr<'tcx>,
63 /// The kind of pointer and associated metadata (thin, length or vtable) - we
64 /// only allow casts between fat pointers if their metadata have the same
66 #[derive(Copy, Clone, PartialEq, Eq)]
67 enum PointerKind<'tcx> {
68 /// No metadata attached, ie pointer to sized type or foreign type
71 VTable(Option<DefId>),
74 /// The unsize info of this projection
75 OfProjection(&'tcx ty::ProjectionTy<'tcx>),
76 /// The unsize info of this opaque ty
77 OfOpaque(DefId, SubstsRef<'tcx>),
78 /// The unsize info of this parameter
79 OfParam(&'tcx ty::ParamTy),
82 impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
83 /// Returns the kind of unsize information of t, or None
89 ) -> Result<Option<PointerKind<'tcx>>, ErrorGuaranteed> {
90 debug!("pointer_kind({:?}, {:?})", t, span);
92 let t = self.resolve_vars_if_possible(t);
94 if let Some(reported) = t.error_reported() {
98 if self.type_is_sized_modulo_regions(self.param_env, t, span) {
99 return Ok(Some(PointerKind::Thin));
103 ty::Slice(_) | ty::Str => Some(PointerKind::Length),
104 ty::Dynamic(ref tty, ..) => Some(PointerKind::VTable(tty.principal_def_id())),
105 ty::Adt(def, substs) if def.is_struct() => match def.non_enum_variant().fields.last() {
106 None => Some(PointerKind::Thin),
108 let field_ty = self.field_ty(span, f, substs);
109 self.pointer_kind(field_ty, span)?
112 ty::Tuple(fields) => match fields.last() {
113 None => Some(PointerKind::Thin),
114 Some(&f) => self.pointer_kind(f, span)?,
117 // Pointers to foreign types are thin, despite being unsized
118 ty::Foreign(..) => Some(PointerKind::Thin),
119 // We should really try to normalize here.
120 ty::Projection(ref pi) => Some(PointerKind::OfProjection(pi)),
121 ty::Opaque(def_id, substs) => Some(PointerKind::OfOpaque(def_id, substs)),
122 ty::Param(ref p) => Some(PointerKind::OfParam(p)),
123 // Insufficient type information.
124 ty::Placeholder(..) | ty::Bound(..) | ty::Infer(_) => None,
132 | ty::GeneratorWitness(..)
145 .delay_span_bug(span, &format!("`{:?}` should be sized but is not?", t));
146 return Err(reported);
152 #[derive(Copy, Clone)]
159 /// Cast of thin to fat raw ptr (e.g., `*const () as *const [u8]`).
169 /// Cast of int to (possibly) fat raw pointer.
171 /// Argument is the specific name of the metadata in plain words, such as "a vtable"
172 /// or "a length". If this argument is None, then the metadata is unknown, for example,
173 /// when we're typechecking a type parameter with a ?Sized bound.
174 IntToFatCast(Option<&'static str>),
175 ForeignNonExhaustiveAdt,
178 impl From<ErrorGuaranteed> for CastError {
179 fn from(_: ErrorGuaranteed) -> Self {
180 CastError::ErrorGuaranteed
184 fn make_invalid_casting_error<'a, 'tcx>(
189 fcx: &FnCtxt<'a, 'tcx>,
190 ) -> DiagnosticBuilder<'a, ErrorGuaranteed> {
196 "casting `{}` as `{}` is invalid",
197 fcx.ty_to_string(expr_ty),
198 fcx.ty_to_string(cast_ty)
202 impl<'a, 'tcx> CastCheck<'tcx> {
204 fcx: &FnCtxt<'a, 'tcx>,
205 expr: &'tcx hir::Expr<'tcx>,
210 ) -> Result<CastCheck<'tcx>, ErrorGuaranteed> {
211 let expr_span = expr.span.find_ancestor_inside(span).unwrap_or(expr.span);
212 let check = CastCheck { expr, expr_ty, expr_span, cast_ty, cast_span, span };
214 // For better error messages, check for some obviously unsized
215 // cases now. We do a more thorough check at the end, once
216 // inference is more completely known.
217 match cast_ty.kind() {
218 ty::Dynamic(..) | ty::Slice(..) => {
219 let reported = check.report_cast_to_unsized_type(fcx);
226 fn report_cast_error(&self, fcx: &FnCtxt<'a, 'tcx>, e: CastError) {
228 CastError::ErrorGuaranteed => {
229 // an error has already been reported
231 CastError::NeedDeref => {
232 let error_span = self.span;
233 let mut err = make_invalid_casting_error(
240 let cast_ty = fcx.ty_to_string(self.cast_ty);
243 format!("cannot cast `{}` as `{}`", fcx.ty_to_string(self.expr_ty), cast_ty),
245 if let Ok(snippet) = fcx.sess().source_map().span_to_snippet(self.expr_span) {
248 "dereference the expression",
249 format!("*{}", snippet),
250 Applicability::MaybeIncorrect,
253 err.span_help(self.expr_span, "dereference the expression with `*`");
257 CastError::NeedViaThinPtr | CastError::NeedViaPtr => {
258 let mut err = make_invalid_casting_error(
265 if self.cast_ty.is_integral() {
267 "cast through {} first",
269 CastError::NeedViaPtr => "a raw pointer",
270 CastError::NeedViaThinPtr => "a thin pointer",
277 CastError::NeedViaInt => {
278 make_invalid_casting_error(
286 "cast through {} first",
288 CastError::NeedViaInt => "an integer",
294 CastError::IllegalCast => {
295 make_invalid_casting_error(
304 CastError::DifferingKinds => {
305 make_invalid_casting_error(
312 .note("vtable kinds may not match")
315 CastError::CastToBool => {
317 struct_span_err!(fcx.tcx.sess, self.span, E0054, "cannot cast as `bool`");
319 if self.expr_ty.is_numeric() {
320 match fcx.tcx.sess.source_map().span_to_snippet(self.expr_span) {
324 "compare with zero instead",
325 format!("{snippet} != 0"),
326 Applicability::MachineApplicable,
330 err.span_help(self.span, "compare with zero instead");
334 err.span_label(self.span, "unsupported cast");
339 CastError::CastToChar => {
340 let mut err = type_error_struct!(
345 "only `u8` can be cast as `char`, not `{}`",
348 err.span_label(self.span, "invalid cast");
349 if self.expr_ty.is_numeric() {
350 if self.expr_ty == fcx.tcx.types.u32 {
351 match fcx.tcx.sess.source_map().span_to_snippet(self.expr.span) {
352 Ok(snippet) => err.span_suggestion(
354 "try `char::from_u32` instead",
355 format!("char::from_u32({snippet})"),
356 Applicability::MachineApplicable,
359 Err(_) => err.span_help(self.span, "try `char::from_u32` instead"),
361 } else if self.expr_ty == fcx.tcx.types.i8 {
362 err.span_help(self.span, "try casting from `u8` instead");
364 err.span_help(self.span, "try `char::from_u32` instead (via a `u32`)");
369 CastError::NonScalar => {
370 let mut err = type_error_struct!(
375 "non-primitive cast: `{}` as `{}`",
377 fcx.ty_to_string(self.cast_ty)
380 let mut sugg_mutref = false;
381 if let ty::Ref(reg, cast_ty, mutbl) = *self.cast_ty.kind() {
382 if let ty::RawPtr(TypeAndMut { ty: expr_ty, .. }) = *self.expr_ty.kind()
387 fcx.tcx.lifetimes.re_erased,
388 TypeAndMut { ty: expr_ty, mutbl },
396 sugg = Some((format!("&{}*", mutbl.prefix_str()), cast_ty == expr_ty));
397 } else if let ty::Ref(expr_reg, expr_ty, expr_mutbl) = *self.expr_ty.kind()
398 && expr_mutbl == Mutability::Not
399 && mutbl == Mutability::Mut
405 TypeAndMut { ty: expr_ty, mutbl: Mutability::Mut },
421 fcx.tcx.mk_ref(reg, TypeAndMut { ty: self.expr_ty, mutbl }),
428 sugg = Some((format!("&{}", mutbl.prefix_str()), false));
430 } else if let ty::RawPtr(TypeAndMut { mutbl, .. }) = *self.cast_ty.kind()
435 fcx.tcx.lifetimes.re_erased,
436 TypeAndMut { ty: self.expr_ty, mutbl },
444 sugg = Some((format!("&{}", mutbl.prefix_str()), false));
447 err.span_label(self.span, "invalid cast");
448 err.span_note(self.expr_span, "this reference is immutable");
449 err.span_note(self.cast_span, "trying to cast to a mutable reference type");
450 } else if let Some((sugg, remove_cast)) = sugg {
451 err.span_label(self.span, "invalid cast");
457 .span_to_snippet(self.expr_span)
458 .map_or(false, |snip| snip.starts_with('('));
460 // Very crude check to see whether the expression must be wrapped
461 // in parentheses for the suggestion to work (issue #89497).
462 // Can/should be extended in the future.
464 !has_parens && matches!(self.expr.kind, hir::ExprKind::Cast(..));
466 let mut suggestion = vec![(self.expr_span.shrink_to_lo(), sugg)];
468 suggestion[0].1 += "(";
469 suggestion.push((self.expr_span.shrink_to_hi(), ")".to_string()));
473 self.expr_span.shrink_to_hi().to(self.cast_span),
478 err.multipart_suggestion_verbose(
479 "consider borrowing the value",
481 Applicability::MachineApplicable,
485 ty::FnDef(..) | ty::FnPtr(..) | ty::Closure(..)
487 let mut label = true;
488 // Check `impl From<self.expr_ty> for self.cast_ty {}` for accurate suggestion:
489 if let Ok(snippet) = fcx.tcx.sess.source_map().span_to_snippet(self.expr_span)
490 && let Some(from_trait) = fcx.tcx.get_diagnostic_item(sym::From)
492 let ty = fcx.resolve_vars_if_possible(self.cast_ty);
493 // Erase regions to avoid panic in `prove_value` when calling
494 // `type_implements_trait`.
495 let ty = fcx.tcx.erase_regions(ty);
496 let expr_ty = fcx.resolve_vars_if_possible(self.expr_ty);
497 let expr_ty = fcx.tcx.erase_regions(expr_ty);
498 let ty_params = fcx.tcx.mk_substs_trait(expr_ty, &[]);
501 .type_implements_trait(from_trait, ty, ty_params, fcx.param_env)
502 .must_apply_modulo_regions()
507 "consider using the `From` trait instead",
508 format!("{}::from({})", self.cast_ty, snippet),
509 Applicability::MaybeIncorrect,
513 let msg = "an `as` expression can only be used to convert between primitive \
514 types or to coerce to a specific trait object";
516 err.span_label(self.span, msg);
521 err.span_label(self.span, "invalid cast");
525 CastError::SizedUnsizedCast => {
526 use crate::structured_errors::{SizedUnsizedCast, StructuredDiagnostic};
531 expr_ty: self.expr_ty,
532 cast_ty: fcx.ty_to_string(self.cast_ty),
537 CastError::IntToFatCast(known_metadata) => {
538 let mut err = struct_span_err!(
542 "cannot cast `{}` to a pointer that {} wide",
543 fcx.ty_to_string(self.expr_ty),
544 if known_metadata.is_some() { "is" } else { "may be" }
550 "creating a `{}` requires both an address and {}",
552 known_metadata.unwrap_or("type-specific metadata"),
556 if fcx.tcx.sess.is_nightly_build() {
559 "consider casting this expression to `*const ()`, \
560 then using `core::ptr::from_raw_parts`",
566 CastError::UnknownCastPtrKind | CastError::UnknownExprPtrKind => {
567 let unknown_cast_to = match e {
568 CastError::UnknownCastPtrKind => true,
569 CastError::UnknownExprPtrKind => false,
572 let mut err = struct_span_err!(
574 if unknown_cast_to { self.cast_span } else { self.span },
576 "cannot cast {} a pointer of an unknown kind",
577 if unknown_cast_to { "to" } else { "from" }
580 err.span_label(self.cast_span, "needs more type information");
582 "the type information given here is insufficient to check whether \
583 the pointer cast is valid",
588 "the type information given here is insufficient to check whether \
589 the pointer cast is valid",
594 CastError::ForeignNonExhaustiveAdt => {
595 make_invalid_casting_error(
602 .note("cannot cast an enum with a non-exhaustive variant when it's defined in another crate")
608 fn report_cast_to_unsized_type(&self, fcx: &FnCtxt<'a, 'tcx>) -> ErrorGuaranteed {
609 if let Some(reported) =
610 self.cast_ty.error_reported().or_else(|| self.expr_ty.error_reported())
615 let tstr = fcx.ty_to_string(self.cast_ty);
616 let mut err = type_error_struct!(
621 "cast to unsized type: `{}` as `{}`",
622 fcx.resolve_vars_if_possible(self.expr_ty),
625 match self.expr_ty.kind() {
626 ty::Ref(_, _, mt) => {
627 let mtstr = mt.prefix_str();
628 if self.cast_ty.is_trait() {
629 match fcx.tcx.sess.source_map().span_to_snippet(self.cast_span) {
633 "try casting to a reference instead",
634 format!("&{}{}", mtstr, s),
635 Applicability::MachineApplicable,
639 let msg = &format!("did you mean `&{}{}`?", mtstr, tstr);
640 err.span_help(self.cast_span, msg);
645 &format!("consider using an implicit coercion to `&{mtstr}{tstr}` instead");
646 err.span_help(self.span, msg);
649 ty::Adt(def, ..) if def.is_box() => {
650 match fcx.tcx.sess.source_map().span_to_snippet(self.cast_span) {
654 "you can cast to a `Box` instead",
656 Applicability::MachineApplicable,
662 &format!("you might have meant `Box<{tstr}>`"),
668 err.span_help(self.expr_span, "consider using a box or reference as appropriate");
674 fn trivial_cast_lint(&self, fcx: &FnCtxt<'a, 'tcx>) {
675 let t_cast = self.cast_ty;
676 let t_expr = self.expr_ty;
678 if fcx.tcx.features().type_ascription { "type ascription or " } else { "" };
679 let (adjective, lint) = if t_cast.is_numeric() && t_expr.is_numeric() {
680 ("numeric ", lint::builtin::TRIVIAL_NUMERIC_CASTS)
682 ("", lint::builtin::TRIVIAL_CASTS)
684 fcx.tcx.struct_span_lint_hir(lint, self.expr.hir_id, self.span, |err| {
686 "trivial {}cast: `{}` as `{}`",
688 fcx.ty_to_string(t_expr),
689 fcx.ty_to_string(t_cast)
692 "cast can be replaced by coercion; this might \
693 require {type_asc_or}a temporary variable"
699 #[instrument(skip(fcx), level = "debug")]
700 pub fn check(mut self, fcx: &FnCtxt<'a, 'tcx>) {
701 self.expr_ty = fcx.structurally_resolved_type(self.expr_span, self.expr_ty);
702 self.cast_ty = fcx.structurally_resolved_type(self.cast_span, self.cast_ty);
704 debug!("check_cast({}, {:?} as {:?})", self.expr.hir_id, self.expr_ty, self.cast_ty);
706 if !fcx.type_is_sized_modulo_regions(fcx.param_env, self.cast_ty, self.span)
707 && !self.cast_ty.has_infer_types()
709 self.report_cast_to_unsized_type(fcx);
710 } else if self.expr_ty.references_error() || self.cast_ty.references_error() {
711 // No sense in giving duplicate error messages
713 match self.try_coercion_cast(fcx) {
715 self.trivial_cast_lint(fcx);
716 debug!(" -> CoercionCast");
717 fcx.typeck_results.borrow_mut().set_coercion_cast(self.expr.hir_id.local_id);
719 Err(ty::error::TypeError::ObjectUnsafeCoercion(did)) => {
720 self.report_object_unsafe_cast(&fcx, did);
723 match self.do_check(fcx) {
725 debug!(" -> {:?}", k);
727 Err(e) => self.report_cast_error(fcx, e),
734 fn report_object_unsafe_cast(&self, fcx: &FnCtxt<'a, 'tcx>, did: DefId) {
735 let violations = fcx.tcx.object_safety_violations(did);
736 let mut err = report_object_safety_error(fcx.tcx, self.cast_span, did, violations);
737 err.note(&format!("required by cast to type '{}'", fcx.ty_to_string(self.cast_ty)));
741 /// Checks a cast, and report an error if one exists. In some cases, this
742 /// can return Ok and create type errors in the fcx rather than returning
743 /// directly. coercion-cast is handled in check instead of here.
744 pub fn do_check(&self, fcx: &FnCtxt<'a, 'tcx>) -> Result<CastKind, CastError> {
745 use rustc_middle::ty::cast::CastTy::*;
746 use rustc_middle::ty::cast::IntTy::*;
748 let (t_from, t_cast) = match (CastTy::from_ty(self.expr_ty), CastTy::from_ty(self.cast_ty))
750 (Some(t_from), Some(t_cast)) => (t_from, t_cast),
751 // Function item types may need to be reified before casts.
752 (None, Some(t_cast)) => {
753 match *self.expr_ty.kind() {
755 // Attempt a coercion to a fn pointer type.
756 let f = fcx.normalize_associated_types_in(
758 self.expr_ty.fn_sig(fcx.tcx),
760 let res = fcx.try_coerce(
763 fcx.tcx.mk_fn_ptr(f),
767 if let Err(TypeError::IntrinsicCast) = res {
768 return Err(CastError::IllegalCast);
771 return Err(CastError::NonScalar);
775 // Special case some errors for references, and check for
776 // array-ptr-casts. `Ref` is not a CastTy because the cast
777 // is split into a coercion to a pointer type, followed by
779 ty::Ref(_, inner_ty, mutbl) => {
780 return match t_cast {
781 Int(_) | Float => match *inner_ty.kind() {
785 | ty::Infer(ty::InferTy::IntVar(_) | ty::InferTy::FloatVar(_)) => {
786 Err(CastError::NeedDeref)
788 _ => Err(CastError::NeedViaPtr),
792 self.check_ref_cast(fcx, TypeAndMut { mutbl, ty: inner_ty }, mt)
794 _ => Err(CastError::NonScalar),
797 _ => return Err(CastError::NonScalar),
800 _ => return Err(CastError::NonScalar),
803 if let ty::Adt(adt_def, _) = *self.expr_ty.kind() {
804 if adt_def.did().krate != LOCAL_CRATE {
805 if adt_def.variants().iter().any(VariantDef::is_field_list_non_exhaustive) {
806 return Err(CastError::ForeignNonExhaustiveAdt);
811 match (t_from, t_cast) {
812 // These types have invariants! can't cast into them.
813 (_, Int(CEnum) | FnPtr) => Err(CastError::NonScalar),
816 (_, Int(Bool)) => Err(CastError::CastToBool),
819 (Int(U(ty::UintTy::U8)), Int(Char)) => Ok(CastKind::U8CharCast), // u8-char-cast
820 (_, Int(Char)) => Err(CastError::CastToChar),
823 (Int(Bool) | Int(CEnum) | Int(Char), Float) => Err(CastError::NeedViaInt),
825 (Int(Bool) | Int(CEnum) | Int(Char) | Float, Ptr(_)) | (Ptr(_) | FnPtr, Float) => {
826 Err(CastError::IllegalCast)
830 (Ptr(m_e), Ptr(m_c)) => self.check_ptr_ptr_cast(fcx, m_e, m_c), // ptr-ptr-cast
833 (Ptr(m_expr), Int(t_c)) => {
834 self.lossy_provenance_ptr2int_lint(fcx, t_c);
835 self.check_ptr_addr_cast(fcx, m_expr)
838 // FIXME(#95489): there should eventually be a lint for these casts
839 Ok(CastKind::FnPtrAddrCast)
842 (Int(_), Ptr(mt)) => {
843 self.fuzzy_provenance_int2ptr_lint(fcx);
844 self.check_addr_ptr_cast(fcx, mt)
847 (FnPtr, Ptr(mt)) => self.check_fptr_ptr_cast(fcx, mt),
850 (Int(CEnum), Int(_)) => {
851 self.cenum_impl_drop_lint(fcx);
852 Ok(CastKind::EnumCast)
854 (Int(Char) | Int(Bool), Int(_)) => Ok(CastKind::PrimIntCast),
856 (Int(_) | Float, Int(_) | Float) => Ok(CastKind::NumericCast),
860 fn check_ptr_ptr_cast(
862 fcx: &FnCtxt<'a, 'tcx>,
863 m_expr: ty::TypeAndMut<'tcx>,
864 m_cast: ty::TypeAndMut<'tcx>,
865 ) -> Result<CastKind, CastError> {
866 debug!("check_ptr_ptr_cast m_expr={:?} m_cast={:?}", m_expr, m_cast);
867 // ptr-ptr cast. vtables must match.
869 let expr_kind = fcx.pointer_kind(m_expr.ty, self.span)?;
870 let cast_kind = fcx.pointer_kind(m_cast.ty, self.span)?;
872 let Some(cast_kind) = cast_kind else {
873 // We can't cast if target pointer kind is unknown
874 return Err(CastError::UnknownCastPtrKind);
877 // Cast to thin pointer is OK
878 if cast_kind == PointerKind::Thin {
879 return Ok(CastKind::PtrPtrCast);
882 let Some(expr_kind) = expr_kind else {
883 // We can't cast to fat pointer if source pointer kind is unknown
884 return Err(CastError::UnknownExprPtrKind);
887 // thin -> fat? report invalid cast (don't complain about vtable kinds)
888 if expr_kind == PointerKind::Thin {
889 return Err(CastError::SizedUnsizedCast);
892 // vtable kinds must match
893 if cast_kind == expr_kind {
894 Ok(CastKind::PtrPtrCast)
896 Err(CastError::DifferingKinds)
900 fn check_fptr_ptr_cast(
902 fcx: &FnCtxt<'a, 'tcx>,
903 m_cast: ty::TypeAndMut<'tcx>,
904 ) -> Result<CastKind, CastError> {
905 // fptr-ptr cast. must be to thin ptr
907 match fcx.pointer_kind(m_cast.ty, self.span)? {
908 None => Err(CastError::UnknownCastPtrKind),
909 Some(PointerKind::Thin) => Ok(CastKind::FnPtrPtrCast),
910 _ => Err(CastError::IllegalCast),
914 fn check_ptr_addr_cast(
916 fcx: &FnCtxt<'a, 'tcx>,
917 m_expr: ty::TypeAndMut<'tcx>,
918 ) -> Result<CastKind, CastError> {
919 // ptr-addr cast. must be from thin ptr
921 match fcx.pointer_kind(m_expr.ty, self.span)? {
922 None => Err(CastError::UnknownExprPtrKind),
923 Some(PointerKind::Thin) => Ok(CastKind::PtrAddrCast),
924 _ => Err(CastError::NeedViaThinPtr),
930 fcx: &FnCtxt<'a, 'tcx>,
931 m_expr: ty::TypeAndMut<'tcx>,
932 m_cast: ty::TypeAndMut<'tcx>,
933 ) -> Result<CastKind, CastError> {
934 // array-ptr-cast: allow mut-to-mut, mut-to-const, const-to-const
935 if m_expr.mutbl == hir::Mutability::Mut || m_cast.mutbl == hir::Mutability::Not {
936 if let ty::Array(ety, _) = m_expr.ty.kind() {
937 // Due to the limitations of LLVM global constants,
938 // region pointers end up pointing at copies of
939 // vector elements instead of the original values.
940 // To allow raw pointers to work correctly, we
941 // need to special-case obtaining a raw pointer
942 // from a region pointer to a vector.
944 // Coerce to a raw pointer so that we generate AddressOf in MIR.
945 let array_ptr_type = fcx.tcx.mk_ptr(m_expr);
946 fcx.try_coerce(self.expr, self.expr_ty, array_ptr_type, AllowTwoPhase::No, None)
947 .unwrap_or_else(|_| {
949 "could not cast from reference to array to pointer to array ({:?} to {:?})",
955 // this will report a type mismatch if needed
956 fcx.demand_eqtype(self.span, *ety, m_cast.ty);
957 return Ok(CastKind::ArrayPtrCast);
961 Err(CastError::IllegalCast)
964 fn check_addr_ptr_cast(
966 fcx: &FnCtxt<'a, 'tcx>,
967 m_cast: TypeAndMut<'tcx>,
968 ) -> Result<CastKind, CastError> {
969 // ptr-addr cast. pointer must be thin.
970 match fcx.pointer_kind(m_cast.ty, self.span)? {
971 None => Err(CastError::UnknownCastPtrKind),
972 Some(PointerKind::Thin) => Ok(CastKind::AddrPtrCast),
973 Some(PointerKind::VTable(_)) => Err(CastError::IntToFatCast(Some("a vtable"))),
974 Some(PointerKind::Length) => Err(CastError::IntToFatCast(Some("a length"))),
976 PointerKind::OfProjection(_)
977 | PointerKind::OfOpaque(_, _)
978 | PointerKind::OfParam(_),
979 ) => Err(CastError::IntToFatCast(None)),
983 fn try_coercion_cast(&self, fcx: &FnCtxt<'a, 'tcx>) -> Result<(), ty::error::TypeError<'tcx>> {
984 match fcx.try_coerce(self.expr, self.expr_ty, self.cast_ty, AllowTwoPhase::No, None) {
986 Err(err) => Err(err),
990 fn cenum_impl_drop_lint(&self, fcx: &FnCtxt<'a, 'tcx>) {
991 if let ty::Adt(d, _) = self.expr_ty.kind()
992 && d.has_dtor(fcx.tcx)
994 fcx.tcx.struct_span_lint_hir(
995 lint::builtin::CENUM_IMPL_DROP_CAST,
1000 "cannot cast enum `{}` into integer `{}` because it implements `Drop`",
1001 self.expr_ty, self.cast_ty
1009 fn lossy_provenance_ptr2int_lint(&self, fcx: &FnCtxt<'a, 'tcx>, t_c: ty::cast::IntTy) {
1010 fcx.tcx.struct_span_lint_hir(
1011 lint::builtin::LOSSY_PROVENANCE_CASTS,
1015 let mut err = err.build(&format!(
1016 "under strict provenance it is considered bad style to cast pointer `{}` to integer `{}`",
1017 self.expr_ty, self.cast_ty
1020 let msg = "use `.addr()` to obtain the address of a pointer";
1022 let expr_prec = self.expr.precedence().order();
1023 let needs_parens = expr_prec < rustc_ast::util::parser::PREC_POSTFIX;
1025 let scalar_cast = match t_c {
1026 ty::cast::IntTy::U(ty::UintTy::Usize) => String::new(),
1027 _ => format!(" as {}", self.cast_ty),
1030 let cast_span = self.expr_span.shrink_to_hi().to(self.cast_span);
1033 let suggestions = vec![
1034 (self.expr_span.shrink_to_lo(), String::from("(")),
1035 (cast_span, format!(").addr(){scalar_cast}")),
1038 err.multipart_suggestion(msg, suggestions, Applicability::MaybeIncorrect);
1040 err.span_suggestion(
1043 format!(".addr(){scalar_cast}"),
1044 Applicability::MaybeIncorrect,
1049 "if you can't comply with strict provenance and need to expose the pointer \
1050 provenance you can use `.expose_addr()` instead"
1058 fn fuzzy_provenance_int2ptr_lint(&self, fcx: &FnCtxt<'a, 'tcx>) {
1059 fcx.tcx.struct_span_lint_hir(
1060 lint::builtin::FUZZY_PROVENANCE_CASTS,
1064 let mut err = err.build(&format!(
1065 "strict provenance disallows casting integer `{}` to pointer `{}`",
1066 self.expr_ty, self.cast_ty
1068 let msg = "use `.with_addr()` to adjust a valid pointer in the same allocation, to this address";
1069 let suggestions = vec![
1070 (self.expr_span.shrink_to_lo(), String::from("(...).with_addr(")),
1071 (self.expr_span.shrink_to_hi().to(self.cast_span), String::from(")")),
1074 err.multipart_suggestion(msg, suggestions, Applicability::MaybeIncorrect);
1076 "if you can't comply with strict provenance and don't have a pointer with \
1077 the correct provenance you can use `std::ptr::from_exposed_addr()` instead"