compiler/rustc_const_eval/src/const_eval/mod.rs - toolchain/rustc - Git at Google

 // Not in interpret to make sure we do not use private implementation details

 use crate::errors::MaxNumNodesInConstErr;
 use crate::interpret::{
     intern_const_alloc_recursive, ConstValue, InternKind, InterpCx, InterpResult, MemPlaceMeta,
     Scalar,
 };
 use rustc_hir::Mutability;
 use rustc_middle::mir;
 use rustc_middle::mir::interpret::{EvalToValTreeResult, GlobalId};
 use rustc_middle::ty::{self, TyCtxt};
 use rustc_span::{source_map::DUMMY_SP, symbol::Symbol};

 mod error;
 mod eval_queries;
 mod fn_queries;
 mod machine;
 mod valtrees;

 pub use error::*;
 pub use eval_queries::*;
 pub use fn_queries::*;
 pub use machine::*;
 pub(crate) use valtrees::{const_to_valtree_inner, valtree_to_const_value};

 pub(crate) fn const_caller_location(
     tcx: TyCtxt<'_>,
     (file, line, col): (Symbol, u32, u32),
 ) -> ConstValue<'_> {
     trace!("const_caller_location: {}:{}:{}", file, line, col);
     let mut ecx = mk_eval_cx(tcx, DUMMY_SP, ty::ParamEnv::reveal_all(), false);

     let loc_place = ecx.alloc_caller_location(file, line, col);
     if intern_const_alloc_recursive(&mut ecx, InternKind::Constant, &loc_place).is_err() {
         bug!("intern_const_alloc_recursive should not error in this case")
     }
     ConstValue::Scalar(Scalar::from_maybe_pointer(loc_place.ptr, &tcx))
 }

 // We forbid type-level constants that contain more than `VALTREE_MAX_NODES` nodes.
 const VALTREE_MAX_NODES: usize = 100000;

 pub(crate) enum ValTreeCreationError {
     NodesOverflow,
     NonSupportedType,
     Other,
 }
 pub(crate) type ValTreeCreationResult<'tcx> = Result<ty::ValTree<'tcx>, ValTreeCreationError>;

 /// Evaluates a constant and turns it into a type-level constant value.
 pub(crate) fn eval_to_valtree<'tcx>(
     tcx: TyCtxt<'tcx>,
     param_env: ty::ParamEnv<'tcx>,
     cid: GlobalId<'tcx>,
 ) -> EvalToValTreeResult<'tcx> {
     let const_alloc = tcx.eval_to_allocation_raw(param_env.and(cid))?;

     // FIXME Need to provide a span to `eval_to_valtree`
     let ecx = mk_eval_cx(
         tcx, DUMMY_SP, param_env,
         // It is absolutely crucial for soundness that
         // we do not read from static items or other mutable memory.
         false,
     );
     let place = ecx.raw_const_to_mplace(const_alloc).unwrap();
     debug!(?place);

     let mut num_nodes = 0;
     let valtree_result = const_to_valtree_inner(&ecx, &place, &mut num_nodes);

     match valtree_result {
         Ok(valtree) => Ok(Some(valtree)),
         Err(err) => {
             let did = cid.instance.def_id();
             let global_const_id = cid.display(tcx);
             match err {
                 ValTreeCreationError::NodesOverflow => {
                     let msg = format!(
                         "maximum number of nodes exceeded in constant {}",
                         &global_const_id
                     );
                     let mut diag = match tcx.hir().span_if_local(did) {
                         Some(span) => {
                             tcx.sess.create_err(MaxNumNodesInConstErr { span, global_const_id })
                         }
                         None => tcx.sess.struct_err(&msg),
                     };
                     diag.emit();

                     Ok(None)
                 }
                 ValTreeCreationError::NonSupportedType | ValTreeCreationError::Other => Ok(None),
             }
         }
     }
 }

 #[instrument(skip(tcx), level = "debug")]
 pub(crate) fn try_destructure_mir_constant<'tcx>(
     tcx: TyCtxt<'tcx>,
     param_env: ty::ParamEnv<'tcx>,
     val: mir::ConstantKind<'tcx>,
 ) -> InterpResult<'tcx, mir::DestructuredConstant<'tcx>> {
     trace!("destructure_mir_constant: {:?}", val);
     let ecx = mk_eval_cx(tcx, DUMMY_SP, param_env, false);
     let op = ecx.eval_mir_constant(&val, None, None)?;

     // We go to `usize` as we cannot allocate anything bigger anyway.
     let (field_count, variant, down) = match val.ty().kind() {
         ty::Array(_, len) => (len.eval_target_usize(tcx, param_env) as usize, None, op),
         ty::Adt(def, _) if def.variants().is_empty() => {
             throw_ub!(Unreachable)
         }
         ty::Adt(def, _) => {
             let variant = ecx.read_discriminant(&op)?.1;
             let down = ecx.operand_downcast(&op, variant)?;
             (def.variants()[variant].fields.len(), Some(variant), down)
         }
         ty::Tuple(substs) => (substs.len(), None, op),
         _ => bug!("cannot destructure mir constant {:?}", val),
     };

     let fields_iter = (0..field_count)
         .map(|i| {
             let field_op = ecx.operand_field(&down, i)?;
             let val = op_to_const(&ecx, &field_op);
             Ok(mir::ConstantKind::Val(val, field_op.layout.ty))
         })
         .collect::<InterpResult<'tcx, Vec<_>>>()?;
     let fields = tcx.arena.alloc_from_iter(fields_iter);

     Ok(mir::DestructuredConstant { variant, fields })
 }

 #[instrument(skip(tcx), level = "debug")]
 pub(crate) fn deref_mir_constant<'tcx>(
     tcx: TyCtxt<'tcx>,
     param_env: ty::ParamEnv<'tcx>,
     val: mir::ConstantKind<'tcx>,
 ) -> mir::ConstantKind<'tcx> {
     let ecx = mk_eval_cx(tcx, DUMMY_SP, param_env, false);
     let op = ecx.eval_mir_constant(&val, None, None).unwrap();
     let mplace = ecx.deref_operand(&op).unwrap();
     if let Some(alloc_id) = mplace.ptr.provenance {
         assert_eq!(
             tcx.global_alloc(alloc_id).unwrap_memory().0.0.mutability,
             Mutability::Not,
             "deref_mir_constant cannot be used with mutable allocations as \
             that could allow pattern matching to observe mutable statics",
         );
     }

     let ty = match mplace.meta {
         MemPlaceMeta::None => mplace.layout.ty,
         // In case of unsized types, figure out the real type behind.
         MemPlaceMeta::Meta(scalar) => match mplace.layout.ty.kind() {
             ty::Str => bug!("there's no sized equivalent of a `str`"),
             ty::Slice(elem_ty) => tcx.mk_array(*elem_ty, scalar.to_target_usize(&tcx).unwrap()),
             _ => bug!(
                 "type {} should not have metadata, but had {:?}",
                 mplace.layout.ty,
                 mplace.meta
             ),
         },
     };

     mir::ConstantKind::Val(op_to_const(&ecx, &mplace.into()), ty)
 }
	// Not in interpret to make sure we do not use private implementation details

	use crate::errors::MaxNumNodesInConstErr;
	use crate::interpret::{
	intern_const_alloc_recursive, ConstValue, InternKind, InterpCx, InterpResult, MemPlaceMeta,
	Scalar,
	};
	use rustc_hir::Mutability;
	use rustc_middle::mir;
	use rustc_middle::mir::interpret::{EvalToValTreeResult, GlobalId};
	use rustc_middle::ty::{self, TyCtxt};
	use rustc_span::{source_map::DUMMY_SP, symbol::Symbol};

	mod error;
	mod eval_queries;
	mod fn_queries;
	mod machine;
	mod valtrees;

	pub use error::*;
	pub use eval_queries::*;
	pub use fn_queries::*;
	pub use machine::*;
	pub(crate) use valtrees::{const_to_valtree_inner, valtree_to_const_value};

	pub(crate) fn const_caller_location(
	tcx: TyCtxt<'_>,
	(file, line, col): (Symbol, u32, u32),
	) -> ConstValue<'_> {
	trace!("const_caller_location: {}:{}:{}", file, line, col);
	let mut ecx = mk_eval_cx(tcx, DUMMY_SP, ty::ParamEnv::reveal_all(), false);

	let loc_place = ecx.alloc_caller_location(file, line, col);
	if intern_const_alloc_recursive(&mut ecx, InternKind::Constant, &loc_place).is_err() {
	bug!("intern_const_alloc_recursive should not error in this case")
	}
	ConstValue::Scalar(Scalar::from_maybe_pointer(loc_place.ptr, &tcx))
	}

	// We forbid type-level constants that contain more than `VALTREE_MAX_NODES` nodes.
	const VALTREE_MAX_NODES: usize = 100000;

	pub(crate) enum ValTreeCreationError {
	NodesOverflow,
	NonSupportedType,
	Other,
	}
	pub(crate) type ValTreeCreationResult<'tcx> = Result<ty::ValTree<'tcx>, ValTreeCreationError>;

	/// Evaluates a constant and turns it into a type-level constant value.
	pub(crate) fn eval_to_valtree<'tcx>(
	tcx: TyCtxt<'tcx>,
	param_env: ty::ParamEnv<'tcx>,
	cid: GlobalId<'tcx>,
	) -> EvalToValTreeResult<'tcx> {
	let const_alloc = tcx.eval_to_allocation_raw(param_env.and(cid))?;

	// FIXME Need to provide a span to `eval_to_valtree`
	let ecx = mk_eval_cx(
	tcx, DUMMY_SP, param_env,
	// It is absolutely crucial for soundness that
	// we do not read from static items or other mutable memory.
	false,
	);
	let place = ecx.raw_const_to_mplace(const_alloc).unwrap();
	debug!(?place);

	let mut num_nodes = 0;
	let valtree_result = const_to_valtree_inner(&ecx, &place, &mut num_nodes);

	match valtree_result {
	Ok(valtree) => Ok(Some(valtree)),
	Err(err) => {
	let did = cid.instance.def_id();
	let global_const_id = cid.display(tcx);
	match err {
	ValTreeCreationError::NodesOverflow => {
	let msg = format!(
	"maximum number of nodes exceeded in constant {}",
	&global_const_id
	);
	let mut diag = match tcx.hir().span_if_local(did) {
	Some(span) => {
	tcx.sess.create_err(MaxNumNodesInConstErr { span, global_const_id })
	}
	None => tcx.sess.struct_err(&msg),
	};
	diag.emit();

	Ok(None)
	}
	ValTreeCreationError::NonSupportedType \| ValTreeCreationError::Other => Ok(None),
	}
	}
	}
	}

	#[instrument(skip(tcx), level = "debug")]
	pub(crate) fn try_destructure_mir_constant<'tcx>(
	tcx: TyCtxt<'tcx>,
	param_env: ty::ParamEnv<'tcx>,
	val: mir::ConstantKind<'tcx>,
	) -> InterpResult<'tcx, mir::DestructuredConstant<'tcx>> {
	trace!("destructure_mir_constant: {:?}", val);
	let ecx = mk_eval_cx(tcx, DUMMY_SP, param_env, false);
	let op = ecx.eval_mir_constant(&val, None, None)?;

	// We go to `usize` as we cannot allocate anything bigger anyway.
	let (field_count, variant, down) = match val.ty().kind() {
	ty::Array(_, len) => (len.eval_target_usize(tcx, param_env) as usize, None, op),
	ty::Adt(def, _) if def.variants().is_empty() => {
	throw_ub!(Unreachable)
	}
	ty::Adt(def, _) => {
	let variant = ecx.read_discriminant(&op)?.1;
	let down = ecx.operand_downcast(&op, variant)?;
	(def.variants()[variant].fields.len(), Some(variant), down)
	}
	ty::Tuple(substs) => (substs.len(), None, op),
	_ => bug!("cannot destructure mir constant {:?}", val),
	};

	let fields_iter = (0..field_count)
	.map(\|i\| {
	let field_op = ecx.operand_field(&down, i)?;
	let val = op_to_const(&ecx, &field_op);
	Ok(mir::ConstantKind::Val(val, field_op.layout.ty))
	})
	.collect::<InterpResult<'tcx, Vec<_>>>()?;
	let fields = tcx.arena.alloc_from_iter(fields_iter);

	Ok(mir::DestructuredConstant { variant, fields })
	}

	#[instrument(skip(tcx), level = "debug")]
	pub(crate) fn deref_mir_constant<'tcx>(
	tcx: TyCtxt<'tcx>,
	param_env: ty::ParamEnv<'tcx>,
	val: mir::ConstantKind<'tcx>,
	) -> mir::ConstantKind<'tcx> {
	let ecx = mk_eval_cx(tcx, DUMMY_SP, param_env, false);
	let op = ecx.eval_mir_constant(&val, None, None).unwrap();
	let mplace = ecx.deref_operand(&op).unwrap();
	if let Some(alloc_id) = mplace.ptr.provenance {
	assert_eq!(
	tcx.global_alloc(alloc_id).unwrap_memory().0.0.mutability,
	Mutability::Not,
	"deref_mir_constant cannot be used with mutable allocations as \
	that could allow pattern matching to observe mutable statics",
	);
	}

	let ty = match mplace.meta {
	MemPlaceMeta::None => mplace.layout.ty,
	// In case of unsized types, figure out the real type behind.
	MemPlaceMeta::Meta(scalar) => match mplace.layout.ty.kind() {
	ty::Str => bug!("there's no sized equivalent of a `str`"),
	ty::Slice(elem_ty) => tcx.mk_array(*elem_ty, scalar.to_target_usize(&tcx).unwrap()),
	_ => bug!(
	"type {} should not have metadata, but had {:?}",
	mplace.layout.ty,
	mplace.meta
	),
	},
	};

	mir::ConstantKind::Val(op_to_const(&ecx, &mplace.into()), ty)
	}