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//! This query borrow-checks the MIR to (further) ensure it is not broken.
#![feature(associated_type_bounds)]
#![feature(box_patterns)]
#![feature(let_chains)]
#![feature(min_specialization)]
#![feature(never_type)]
#![feature(lazy_cell)]
#![feature(rustc_attrs)]
#![feature(stmt_expr_attributes)]
#![feature(trusted_step)]
#![feature(try_blocks)]
#![recursion_limit = "256"]
#![allow(internal_features)]
#[macro_use]
extern crate rustc_middle;
#[macro_use]
extern crate tracing;
use rustc_data_structures::fx::{FxIndexMap, FxIndexSet};
use rustc_data_structures::graph::dominators::Dominators;
use rustc_errors::{Diagnostic, DiagnosticBuilder, DiagnosticMessage, SubdiagnosticMessage};
use rustc_fluent_macro::fluent_messages;
use rustc_hir as hir;
use rustc_hir::def_id::LocalDefId;
use rustc_index::bit_set::{BitSet, ChunkedBitSet};
use rustc_index::{IndexSlice, IndexVec};
use rustc_infer::infer::{
InferCtxt, NllRegionVariableOrigin, RegionVariableOrigin, TyCtxtInferExt,
};
use rustc_middle::mir::{
traversal, Body, ClearCrossCrate, Local, Location, MutBorrowKind, Mutability,
NonDivergingIntrinsic, Operand, Place, PlaceElem, PlaceRef, VarDebugInfoContents,
};
use rustc_middle::mir::{AggregateKind, BasicBlock, BorrowCheckResult, BorrowKind};
use rustc_middle::mir::{InlineAsmOperand, Terminator, TerminatorKind};
use rustc_middle::mir::{ProjectionElem, Promoted, Rvalue, Statement, StatementKind};
use rustc_middle::query::Providers;
use rustc_middle::traits::DefiningAnchor;
use rustc_middle::ty::{self, CapturedPlace, ParamEnv, RegionVid, TyCtxt};
use rustc_session::lint::builtin::UNUSED_MUT;
use rustc_span::{Span, Symbol};
use rustc_target::abi::FieldIdx;
use smallvec::SmallVec;
use std::cell::RefCell;
use std::collections::BTreeMap;
use std::ops::Deref;
use std::rc::Rc;
use rustc_mir_dataflow::impls::{
EverInitializedPlaces, MaybeInitializedPlaces, MaybeUninitializedPlaces,
};
use rustc_mir_dataflow::move_paths::{InitIndex, MoveOutIndex, MovePathIndex};
use rustc_mir_dataflow::move_paths::{InitLocation, LookupResult, MoveData, MoveError};
use rustc_mir_dataflow::Analysis;
use rustc_mir_dataflow::MoveDataParamEnv;
use crate::session_diagnostics::VarNeedNotMut;
use self::diagnostics::{AccessKind, RegionName};
use self::location::LocationTable;
use self::prefixes::PrefixSet;
use consumers::{BodyWithBorrowckFacts, ConsumerOptions};
use self::path_utils::*;
pub mod borrow_set;
mod borrowck_errors;
mod constraint_generation;
mod constraints;
mod dataflow;
mod def_use;
mod diagnostics;
mod facts;
mod invalidation;
mod location;
mod member_constraints;
mod nll;
mod path_utils;
mod place_ext;
mod places_conflict;
mod prefixes;
mod region_infer;
mod renumber;
mod session_diagnostics;
mod type_check;
mod universal_regions;
mod used_muts;
mod util;
/// A public API provided for the Rust compiler consumers.
pub mod consumers;
use borrow_set::{BorrowData, BorrowSet};
use dataflow::{BorrowIndex, BorrowckFlowState as Flows, BorrowckResults, Borrows};
use nll::PoloniusOutput;
use place_ext::PlaceExt;
use places_conflict::{places_conflict, PlaceConflictBias};
use region_infer::RegionInferenceContext;
use renumber::RegionCtxt;
fluent_messages! { "../messages.ftl" }
// FIXME(eddyb) perhaps move this somewhere more centrally.
#[derive(Debug)]
struct Upvar<'tcx> {
place: CapturedPlace<'tcx>,
/// If true, the capture is behind a reference.
by_ref: bool,
}
/// Associate some local constants with the `'tcx` lifetime
struct TyCtxtConsts<'tcx>(TyCtxt<'tcx>);
impl<'tcx> TyCtxtConsts<'tcx> {
const DEREF_PROJECTION: &'tcx [PlaceElem<'tcx>; 1] = &[ProjectionElem::Deref];
}
pub fn provide(providers: &mut Providers) {
*providers = Providers { mir_borrowck, ..*providers };
}
fn mir_borrowck(tcx: TyCtxt<'_>, def: LocalDefId) -> &BorrowCheckResult<'_> {
let (input_body, promoted) = tcx.mir_promoted(def);
debug!("run query mir_borrowck: {}", tcx.def_path_str(def));
if input_body.borrow().should_skip() {
debug!("Skipping borrowck because of injected body");
// Let's make up a borrowck result! Fun times!
let result = BorrowCheckResult {
concrete_opaque_types: FxIndexMap::default(),
closure_requirements: None,
used_mut_upvars: SmallVec::new(),
tainted_by_errors: None,
};
return tcx.arena.alloc(result);
}
let hir_owner = tcx.hir().local_def_id_to_hir_id(def).owner;
let infcx =
tcx.infer_ctxt().with_opaque_type_inference(DefiningAnchor::Bind(hir_owner.def_id)).build();
let input_body: &Body<'_> = &input_body.borrow();
let promoted: &IndexSlice<_, _> = &promoted.borrow();
let opt_closure_req = do_mir_borrowck(&infcx, input_body, promoted, None).0;
debug!("mir_borrowck done");
tcx.arena.alloc(opt_closure_req)
}
/// Perform the actual borrow checking.
///
/// Use `consumer_options: None` for the default behavior of returning
/// [`BorrowCheckResult`] only. Otherwise, return [`BodyWithBorrowckFacts`] according
/// to the given [`ConsumerOptions`].
#[instrument(skip(infcx, input_body, input_promoted), fields(id=?input_body.source.def_id()), level = "debug")]
fn do_mir_borrowck<'tcx>(
infcx: &InferCtxt<'tcx>,
input_body: &Body<'tcx>,
input_promoted: &IndexSlice<Promoted, Body<'tcx>>,
consumer_options: Option<ConsumerOptions>,
) -> (BorrowCheckResult<'tcx>, Option<Box<BodyWithBorrowckFacts<'tcx>>>) {
let def = input_body.source.def_id().expect_local();
debug!(?def);
let tcx = infcx.tcx;
let infcx = BorrowckInferCtxt::new(infcx);
let param_env = tcx.param_env(def);
let mut local_names = IndexVec::from_elem(None, &input_body.local_decls);
for var_debug_info in &input_body.var_debug_info {
if let VarDebugInfoContents::Place(place) = var_debug_info.value {
if let Some(local) = place.as_local() {
if let Some(prev_name) = local_names[local] && var_debug_info.name != prev_name {
span_bug!(
var_debug_info.source_info.span,
"local {:?} has many names (`{}` vs `{}`)",
local,
prev_name,
var_debug_info.name
);
}
local_names[local] = Some(var_debug_info.name);
}
}
}
let mut errors = error::BorrowckErrors::new(infcx.tcx);
// Gather the upvars of a closure, if any.
if let Some(e) = input_body.tainted_by_errors {
infcx.set_tainted_by_errors(e);
errors.set_tainted_by_errors(e);
}
let upvars: Vec<_> = tcx
.closure_captures(def)
.iter()
.map(|&captured_place| {
let capture = captured_place.info.capture_kind;
let by_ref = match capture {
ty::UpvarCapture::ByValue => false,
ty::UpvarCapture::ByRef(..) => true,
};
Upvar { place: captured_place.clone(), by_ref }
})
.collect();
// Replace all regions with fresh inference variables. This
// requires first making our own copy of the MIR. This copy will
// be modified (in place) to contain non-lexical lifetimes. It
// will have a lifetime tied to the inference context.
let mut body_owned = input_body.clone();
let mut promoted = input_promoted.to_owned();
let free_regions =
nll::replace_regions_in_mir(&infcx, param_env, &mut body_owned, &mut promoted);
let body = &body_owned; // no further changes
let location_table_owned = LocationTable::new(body);
let location_table = &location_table_owned;
let (move_data, move_errors): (MoveData<'tcx>, Vec<(Place<'tcx>, MoveError<'tcx>)>) =
match MoveData::gather_moves(&body, tcx, param_env) {
Ok(move_data) => (move_data, Vec::new()),
Err((move_data, move_errors)) => (move_data, move_errors),
};
let promoted_errors = promoted
.iter_enumerated()
.map(|(idx, body)| (idx, MoveData::gather_moves(&body, tcx, param_env)));
let mdpe = MoveDataParamEnv { move_data, param_env };
let mut flow_inits = MaybeInitializedPlaces::new(tcx, &body, &mdpe)
.into_engine(tcx, &body)
.pass_name("borrowck")
.iterate_to_fixpoint()
.into_results_cursor(&body);
let locals_are_invalidated_at_exit = tcx.hir().body_owner_kind(def).is_fn_or_closure();
let borrow_set =
Rc::new(BorrowSet::build(tcx, body, locals_are_invalidated_at_exit, &mdpe.move_data));
// Compute non-lexical lifetimes.
let nll::NllOutput {
regioncx,
opaque_type_values,
polonius_input,
polonius_output,
opt_closure_req,
nll_errors,
} = nll::compute_regions(
&infcx,
free_regions,
body,
&promoted,
location_table,
param_env,
&mut flow_inits,
&mdpe.move_data,
&borrow_set,
&upvars,
consumer_options,
);
// Dump MIR results into a file, if that is enabled. This let us
// write unit-tests, as well as helping with debugging.
nll::dump_mir_results(&infcx, &body, ®ioncx, &opt_closure_req);
// We also have a `#[rustc_regions]` annotation that causes us to dump
// information.
nll::dump_annotation(
&infcx,
&body,
®ioncx,
&opt_closure_req,
&opaque_type_values,
&mut errors,
);
// The various `flow_*` structures can be large. We drop `flow_inits` here
// so it doesn't overlap with the others below. This reduces peak memory
// usage significantly on some benchmarks.
drop(flow_inits);
let regioncx = Rc::new(regioncx);
let flow_borrows = Borrows::new(tcx, body, ®ioncx, &borrow_set)
.into_engine(tcx, body)
.pass_name("borrowck")
.iterate_to_fixpoint();
let flow_uninits = MaybeUninitializedPlaces::new(tcx, body, &mdpe)
.into_engine(tcx, body)
.pass_name("borrowck")
.iterate_to_fixpoint();
let flow_ever_inits = EverInitializedPlaces::new(tcx, body, &mdpe)
.into_engine(tcx, body)
.pass_name("borrowck")
.iterate_to_fixpoint();
let movable_generator =
// The first argument is the generator type passed by value
if let Some(local) = body.local_decls.raw.get(1)
// Get the interior types and args which typeck computed
&& let ty::Generator(_, _, hir::Movability::Static) = local.ty.kind()
{
false
} else {
true
};
for (idx, move_data_results) in promoted_errors {
let promoted_body = &promoted[idx];
if let Err((move_data, move_errors)) = move_data_results {
let mut promoted_mbcx = MirBorrowckCtxt {
infcx: &infcx,
param_env,
body: promoted_body,
move_data: &move_data,
location_table, // no need to create a real one for the promoted, it is not used
movable_generator,
fn_self_span_reported: Default::default(),
locals_are_invalidated_at_exit,
access_place_error_reported: Default::default(),
reservation_error_reported: Default::default(),
uninitialized_error_reported: Default::default(),
regioncx: regioncx.clone(),
used_mut: Default::default(),
used_mut_upvars: SmallVec::new(),
borrow_set: Rc::clone(&borrow_set),
upvars: Vec::new(),
local_names: IndexVec::from_elem(None, &promoted_body.local_decls),
region_names: RefCell::default(),
next_region_name: RefCell::new(1),
polonius_output: None,
errors,
};
promoted_mbcx.report_move_errors(move_errors);
errors = promoted_mbcx.errors;
};
}
let mut mbcx = MirBorrowckCtxt {
infcx: &infcx,
param_env,
body,
move_data: &mdpe.move_data,
location_table,
movable_generator,
locals_are_invalidated_at_exit,
fn_self_span_reported: Default::default(),
access_place_error_reported: Default::default(),
reservation_error_reported: Default::default(),
uninitialized_error_reported: Default::default(),
regioncx: Rc::clone(®ioncx),
used_mut: Default::default(),
used_mut_upvars: SmallVec::new(),
borrow_set: Rc::clone(&borrow_set),
upvars,
local_names,
region_names: RefCell::default(),
next_region_name: RefCell::new(1),
polonius_output,
errors,
};
// Compute and report region errors, if any.
mbcx.report_region_errors(nll_errors);
let mut results = BorrowckResults {
ever_inits: flow_ever_inits,
uninits: flow_uninits,
borrows: flow_borrows,
};
mbcx.report_move_errors(move_errors);
rustc_mir_dataflow::visit_results(
body,
traversal::reverse_postorder(body).map(|(bb, _)| bb),
&mut results,
&mut mbcx,
);
// For each non-user used mutable variable, check if it's been assigned from
// a user-declared local. If so, then put that local into the used_mut set.
// Note that this set is expected to be small - only upvars from closures
// would have a chance of erroneously adding non-user-defined mutable vars
// to the set.
let temporary_used_locals: FxIndexSet<Local> = mbcx
.used_mut
.iter()
.filter(|&local| !mbcx.body.local_decls[*local].is_user_variable())
.cloned()
.collect();
// For the remaining unused locals that are marked as mutable, we avoid linting any that
// were never initialized. These locals may have been removed as unreachable code; or will be
// linted as unused variables.
let unused_mut_locals =
mbcx.body.mut_vars_iter().filter(|local| !mbcx.used_mut.contains(local)).collect();
mbcx.gather_used_muts(temporary_used_locals, unused_mut_locals);
debug!("mbcx.used_mut: {:?}", mbcx.used_mut);
let used_mut = std::mem::take(&mut mbcx.used_mut);
for local in mbcx.body.mut_vars_and_args_iter().filter(|local| !used_mut.contains(local)) {
let local_decl = &mbcx.body.local_decls[local];
let lint_root = match &mbcx.body.source_scopes[local_decl.source_info.scope].local_data {
ClearCrossCrate::Set(data) => data.lint_root,
_ => continue,
};
// Skip over locals that begin with an underscore or have no name
match mbcx.local_names[local] {
Some(name) => {
if name.as_str().starts_with('_') {
continue;
}
}
None => continue,
}
let span = local_decl.source_info.span;
if span.desugaring_kind().is_some() {
// If the `mut` arises as part of a desugaring, we should ignore it.
continue;
}
let mut_span = tcx.sess.source_map().span_until_non_whitespace(span);
tcx.emit_spanned_lint(UNUSED_MUT, lint_root, span, VarNeedNotMut { span: mut_span })
}
let tainted_by_errors = mbcx.emit_errors();
let result = BorrowCheckResult {
concrete_opaque_types: opaque_type_values,
closure_requirements: opt_closure_req,
used_mut_upvars: mbcx.used_mut_upvars,
tainted_by_errors,
};
let body_with_facts = if consumer_options.is_some() {
let output_facts = mbcx.polonius_output;
Some(Box::new(BodyWithBorrowckFacts {
body: body_owned,
promoted,
borrow_set,
region_inference_context: regioncx,
location_table: polonius_input.as_ref().map(|_| location_table_owned),
input_facts: polonius_input,
output_facts,
}))
} else {
None
};
debug!("do_mir_borrowck: result = {:#?}", result);
(result, body_with_facts)
}
pub struct BorrowckInferCtxt<'cx, 'tcx> {
pub(crate) infcx: &'cx InferCtxt<'tcx>,
pub(crate) reg_var_to_origin: RefCell<FxIndexMap<ty::RegionVid, RegionCtxt>>,
}
impl<'cx, 'tcx> BorrowckInferCtxt<'cx, 'tcx> {
pub(crate) fn new(infcx: &'cx InferCtxt<'tcx>) -> Self {
BorrowckInferCtxt { infcx, reg_var_to_origin: RefCell::new(Default::default()) }
}
pub(crate) fn next_region_var<F>(
&self,
origin: RegionVariableOrigin,
get_ctxt_fn: F,
) -> ty::Region<'tcx>
where
F: Fn() -> RegionCtxt,
{
let next_region = self.infcx.next_region_var(origin);
let vid = next_region.as_var();
if cfg!(debug_assertions) {
debug!("inserting vid {:?} with origin {:?} into var_to_origin", vid, origin);
let ctxt = get_ctxt_fn();
let mut var_to_origin = self.reg_var_to_origin.borrow_mut();
assert_eq!(var_to_origin.insert(vid, ctxt), None);
}
next_region
}
#[instrument(skip(self, get_ctxt_fn), level = "debug")]
pub(crate) fn next_nll_region_var<F>(
&self,
origin: NllRegionVariableOrigin,
get_ctxt_fn: F,
) -> ty::Region<'tcx>
where
F: Fn() -> RegionCtxt,
{
let next_region = self.infcx.next_nll_region_var(origin);
let vid = next_region.as_var();
if cfg!(debug_assertions) {
debug!("inserting vid {:?} with origin {:?} into var_to_origin", vid, origin);
let ctxt = get_ctxt_fn();
let mut var_to_origin = self.reg_var_to_origin.borrow_mut();
assert_eq!(var_to_origin.insert(vid, ctxt), None);
}
next_region
}
}
impl<'cx, 'tcx> Deref for BorrowckInferCtxt<'cx, 'tcx> {
type Target = InferCtxt<'tcx>;
fn deref(&self) -> &'cx Self::Target {
self.infcx
}
}
struct MirBorrowckCtxt<'cx, 'tcx> {
infcx: &'cx BorrowckInferCtxt<'cx, 'tcx>,
param_env: ParamEnv<'tcx>,
body: &'cx Body<'tcx>,
move_data: &'cx MoveData<'tcx>,
/// Map from MIR `Location` to `LocationIndex`; created
/// when MIR borrowck begins.
location_table: &'cx LocationTable,
movable_generator: bool,
/// This keeps track of whether local variables are free-ed when the function
/// exits even without a `StorageDead`, which appears to be the case for
/// constants.
///
/// I'm not sure this is the right approach - @eddyb could you try and
/// figure this out?
locals_are_invalidated_at_exit: bool,
/// This field keeps track of when borrow errors are reported in the access_place function
/// so that there is no duplicate reporting. This field cannot also be used for the conflicting
/// borrow errors that is handled by the `reservation_error_reported` field as the inclusion
/// of the `Span` type (while required to mute some errors) stops the muting of the reservation
/// errors.
access_place_error_reported: FxIndexSet<(Place<'tcx>, Span)>,
/// This field keeps track of when borrow conflict errors are reported
/// for reservations, so that we don't report seemingly duplicate
/// errors for corresponding activations.
//
// FIXME: ideally this would be a set of `BorrowIndex`, not `Place`s,
// but it is currently inconvenient to track down the `BorrowIndex`
// at the time we detect and report a reservation error.
reservation_error_reported: FxIndexSet<Place<'tcx>>,
/// This fields keeps track of the `Span`s that we have
/// used to report extra information for `FnSelfUse`, to avoid
/// unnecessarily verbose errors.
fn_self_span_reported: FxIndexSet<Span>,
/// This field keeps track of errors reported in the checking of uninitialized variables,
/// so that we don't report seemingly duplicate errors.
uninitialized_error_reported: FxIndexSet<PlaceRef<'tcx>>,
/// This field keeps track of all the local variables that are declared mut and are mutated.
/// Used for the warning issued by an unused mutable local variable.
used_mut: FxIndexSet<Local>,
/// If the function we're checking is a closure, then we'll need to report back the list of
/// mutable upvars that have been used. This field keeps track of them.
used_mut_upvars: SmallVec<[FieldIdx; 8]>,
/// Region inference context. This contains the results from region inference and lets us e.g.
/// find out which CFG points are contained in each borrow region.
regioncx: Rc<RegionInferenceContext<'tcx>>,
/// The set of borrows extracted from the MIR
borrow_set: Rc<BorrowSet<'tcx>>,
/// Information about upvars not necessarily preserved in types or MIR
upvars: Vec<Upvar<'tcx>>,
/// Names of local (user) variables (extracted from `var_debug_info`).
local_names: IndexVec<Local, Option<Symbol>>,
/// Record the region names generated for each region in the given
/// MIR def so that we can reuse them later in help/error messages.
region_names: RefCell<FxIndexMap<RegionVid, RegionName>>,
/// The counter for generating new region names.
next_region_name: RefCell<usize>,
/// Results of Polonius analysis.
polonius_output: Option<Rc<PoloniusOutput>>,
errors: error::BorrowckErrors<'tcx>,
}
// Check that:
// 1. assignments are always made to mutable locations (FIXME: does that still really go here?)
// 2. loans made in overlapping scopes do not conflict
// 3. assignments do not affect things loaned out as immutable
// 4. moves do not affect things loaned out in any way
impl<'cx, 'tcx, R> rustc_mir_dataflow::ResultsVisitor<'cx, 'tcx, R> for MirBorrowckCtxt<'cx, 'tcx> {
type FlowState = Flows<'cx, 'tcx>;
fn visit_statement_before_primary_effect(
&mut self,
_results: &mut R,
flow_state: &Flows<'cx, 'tcx>,
stmt: &'cx Statement<'tcx>,
location: Location,
) {
debug!("MirBorrowckCtxt::process_statement({:?}, {:?}): {:?}", location, stmt, flow_state);
let span = stmt.source_info.span;
self.check_activations(location, span, flow_state);
match &stmt.kind {
StatementKind::Assign(box (lhs, rhs)) => {
self.consume_rvalue(location, (rhs, span), flow_state);
self.mutate_place(location, (*lhs, span), Shallow(None), flow_state);
}
StatementKind::FakeRead(box (_, place)) => {
// Read for match doesn't access any memory and is used to
// assert that a place is safe and live. So we don't have to
// do any checks here.
//
// FIXME: Remove check that the place is initialized. This is
// needed for now because matches don't have never patterns yet.
// So this is the only place we prevent
// let x: !;
// match x {};
// from compiling.
self.check_if_path_or_subpath_is_moved(
location,
InitializationRequiringAction::Use,
(place.as_ref(), span),
flow_state,
);
}
StatementKind::Intrinsic(box kind) => match kind {
NonDivergingIntrinsic::Assume(op) => self.consume_operand(location, (op, span), flow_state),
NonDivergingIntrinsic::CopyNonOverlapping(..) => span_bug!(
span,
"Unexpected CopyNonOverlapping, should only appear after lower_intrinsics",
)
}
// Only relevant for mir typeck
StatementKind::AscribeUserType(..)
// Only relevant for liveness and unsafeck
| StatementKind::PlaceMention(..)
// Doesn't have any language semantics
| StatementKind::Coverage(..)
// These do not actually affect borrowck
| StatementKind::ConstEvalCounter
| StatementKind::StorageLive(..) => {}
StatementKind::StorageDead(local) => {
self.access_place(
location,
(Place::from(*local), span),
(Shallow(None), Write(WriteKind::StorageDeadOrDrop)),
LocalMutationIsAllowed::Yes,
flow_state,
);
}
StatementKind::Nop
| StatementKind::Retag { .. }
| StatementKind::Deinit(..)
| StatementKind::SetDiscriminant { .. } => {
bug!("Statement not allowed in this MIR phase")
}
}
}
fn visit_terminator_before_primary_effect(
&mut self,
_results: &mut R,
flow_state: &Flows<'cx, 'tcx>,
term: &'cx Terminator<'tcx>,
loc: Location,
) {
debug!("MirBorrowckCtxt::process_terminator({:?}, {:?}): {:?}", loc, term, flow_state);
let span = term.source_info.span;
self.check_activations(loc, span, flow_state);
match &term.kind {
TerminatorKind::SwitchInt { discr, targets: _ } => {
self.consume_operand(loc, (discr, span), flow_state);
}
TerminatorKind::Drop { place, target: _, unwind: _, replace } => {
debug!(
"visit_terminator_drop \
loc: {:?} term: {:?} place: {:?} span: {:?}",
loc, term, place, span
);
let write_kind =
if *replace { WriteKind::Replace } else { WriteKind::StorageDeadOrDrop };
self.access_place(
loc,
(*place, span),
(AccessDepth::Drop, Write(write_kind)),
LocalMutationIsAllowed::Yes,
flow_state,
);
}
TerminatorKind::Call {
func,
args,
destination,
target: _,
unwind: _,
call_source: _,
fn_span: _,
} => {
self.consume_operand(loc, (func, span), flow_state);
for arg in args {
self.consume_operand(loc, (arg, span), flow_state);
}
self.mutate_place(loc, (*destination, span), Deep, flow_state);
}
TerminatorKind::Assert { cond, expected: _, msg, target: _, unwind: _ } => {
self.consume_operand(loc, (cond, span), flow_state);
use rustc_middle::mir::AssertKind;
if let AssertKind::BoundsCheck { len, index } = &**msg {
self.consume_operand(loc, (len, span), flow_state);
self.consume_operand(loc, (index, span), flow_state);
}
}
TerminatorKind::Yield { value, resume: _, resume_arg, drop: _ } => {
self.consume_operand(loc, (value, span), flow_state);
self.mutate_place(loc, (*resume_arg, span), Deep, flow_state);
}
TerminatorKind::InlineAsm {
template: _,
operands,
options: _,
line_spans: _,
destination: _,
unwind: _,
} => {
for op in operands {
match op {
InlineAsmOperand::In { reg: _, value } => {
self.consume_operand(loc, (value, span), flow_state);
}
InlineAsmOperand::Out { reg: _, late: _, place, .. } => {
if let Some(place) = place {
self.mutate_place(loc, (*place, span), Shallow(None), flow_state);
}
}
InlineAsmOperand::InOut { reg: _, late: _, in_value, out_place } => {
self.consume_operand(loc, (in_value, span), flow_state);
if let &Some(out_place) = out_place {
self.mutate_place(
loc,
(out_place, span),
Shallow(None),
flow_state,
);
}
}
InlineAsmOperand::Const { value: _ }
| InlineAsmOperand::SymFn { value: _ }
| InlineAsmOperand::SymStatic { def_id: _ } => {}
}
}
}
TerminatorKind::Goto { target: _ }
| TerminatorKind::UnwindTerminate(_)
| TerminatorKind::Unreachable
| TerminatorKind::UnwindResume
| TerminatorKind::Return
| TerminatorKind::GeneratorDrop
| TerminatorKind::FalseEdge { real_target: _, imaginary_target: _ }
| TerminatorKind::FalseUnwind { real_target: _, unwind: _ } => {
// no data used, thus irrelevant to borrowck
}
}
}
fn visit_terminator_after_primary_effect(
&mut self,
_results: &mut R,
flow_state: &Flows<'cx, 'tcx>,
term: &'cx Terminator<'tcx>,
loc: Location,
) {
let span = term.source_info.span;
match term.kind {
TerminatorKind::Yield { value: _, resume: _, resume_arg: _, drop: _ } => {
if self.movable_generator {
// Look for any active borrows to locals
let borrow_set = self.borrow_set.clone();
for i in flow_state.borrows.iter() {
let borrow = &borrow_set[i];
self.check_for_local_borrow(borrow, span);
}
}
}
TerminatorKind::UnwindResume
| TerminatorKind::Return
| TerminatorKind::GeneratorDrop => {
// Returning from the function implicitly kills storage for all locals and statics.
// Often, the storage will already have been killed by an explicit
// StorageDead, but we don't always emit those (notably on unwind paths),
// so this "extra check" serves as a kind of backup.
let borrow_set = self.borrow_set.clone();
for i in flow_state.borrows.iter() {
let borrow = &borrow_set[i];
self.check_for_invalidation_at_exit(loc, borrow, span);
}
}
TerminatorKind::UnwindTerminate(_)
| TerminatorKind::Assert { .. }
| TerminatorKind::Call { .. }
| TerminatorKind::Drop { .. }
| TerminatorKind::FalseEdge { real_target: _, imaginary_target: _ }
| TerminatorKind::FalseUnwind { real_target: _, unwind: _ }
| TerminatorKind::Goto { .. }
| TerminatorKind::SwitchInt { .. }
| TerminatorKind::Unreachable
| TerminatorKind::InlineAsm { .. } => {}
}
}
}
use self::AccessDepth::{Deep, Shallow};
use self::ReadOrWrite::{Activation, Read, Reservation, Write};
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
enum ArtificialField {
ArrayLength,
ShallowBorrow,
}
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
enum AccessDepth {
/// From the RFC: "A *shallow* access means that the immediate
/// fields reached at P are accessed, but references or pointers
/// found within are not dereferenced. Right now, the only access
/// that is shallow is an assignment like `x = ...;`, which would
/// be a *shallow write* of `x`."
Shallow(Option<ArtificialField>),
/// From the RFC: "A *deep* access means that all data reachable
/// through the given place may be invalidated or accesses by
/// this action."
Deep,
/// Access is Deep only when there is a Drop implementation that
/// can reach the data behind the reference.
Drop,
}
/// Kind of access to a value: read or write
/// (For informational purposes only)
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
enum ReadOrWrite {
/// From the RFC: "A *read* means that the existing data may be
/// read, but will not be changed."
Read(ReadKind),
/// From the RFC: "A *write* means that the data may be mutated to
/// new values or otherwise invalidated (for example, it could be
/// de-initialized, as in a move operation).
Write(WriteKind),
/// For two-phase borrows, we distinguish a reservation (which is treated
/// like a Read) from an activation (which is treated like a write), and
/// each of those is furthermore distinguished from Reads/Writes above.
Reservation(WriteKind),
Activation(WriteKind, BorrowIndex),
}
/// Kind of read access to a value
/// (For informational purposes only)
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
enum ReadKind {
Borrow(BorrowKind),
Copy,
}
/// Kind of write access to a value
/// (For informational purposes only)
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
enum WriteKind {
StorageDeadOrDrop,
Replace,
MutableBorrow(BorrowKind),
Mutate,
Move,
}
/// When checking permissions for a place access, this flag is used to indicate that an immutable
/// local place can be mutated.
//
// FIXME: @nikomatsakis suggested that this flag could be removed with the following modifications:
// - Split `is_mutable()` into `is_assignable()` (can be directly assigned) and
// `is_declared_mutable()`.
// - Take flow state into consideration in `is_assignable()` for local variables.
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
enum LocalMutationIsAllowed {
Yes,
/// We want use of immutable upvars to cause a "write to immutable upvar"
/// error, not an "reassignment" error.
ExceptUpvars,
No,
}
#[derive(Copy, Clone, Debug)]
enum InitializationRequiringAction {
Borrow,
MatchOn,
Use,
Assignment,
PartialAssignment,
}
#[derive(Debug)]
struct RootPlace<'tcx> {
place_local: Local,
place_projection: &'tcx [PlaceElem<'tcx>],
is_local_mutation_allowed: LocalMutationIsAllowed,
}
impl InitializationRequiringAction {
fn as_noun(self) -> &'static str {
match self {
InitializationRequiringAction::Borrow => "borrow",
InitializationRequiringAction::MatchOn => "use", // no good noun
InitializationRequiringAction::Use => "use",
InitializationRequiringAction::Assignment => "assign",
InitializationRequiringAction::PartialAssignment => "assign to part",
}
}
fn as_verb_in_past_tense(self) -> &'static str {
match self {
InitializationRequiringAction::Borrow => "borrowed",
InitializationRequiringAction::MatchOn => "matched on",
InitializationRequiringAction::Use => "used",
InitializationRequiringAction::Assignment => "assigned",
InitializationRequiringAction::PartialAssignment => "partially assigned",
}
}
fn as_general_verb_in_past_tense(self) -> &'static str {
match self {
InitializationRequiringAction::Borrow
| InitializationRequiringAction::MatchOn
| InitializationRequiringAction::Use => "used",
InitializationRequiringAction::Assignment => "assigned",
InitializationRequiringAction::PartialAssignment => "partially assigned",
}
}
}
impl<'cx, 'tcx> MirBorrowckCtxt<'cx, 'tcx> {
fn body(&self) -> &'cx Body<'tcx> {
self.body
}
/// Checks an access to the given place to see if it is allowed. Examines the set of borrows
/// that are in scope, as well as which paths have been initialized, to ensure that (a) the
/// place is initialized and (b) it is not borrowed in some way that would prevent this
/// access.
///
/// Returns `true` if an error is reported.
fn access_place(
&mut self,
location: Location,
place_span: (Place<'tcx>, Span),
kind: (AccessDepth, ReadOrWrite),
is_local_mutation_allowed: LocalMutationIsAllowed,
flow_state: &Flows<'cx, 'tcx>,
) {
let (sd, rw) = kind;
if let Activation(_, borrow_index) = rw {
if self.reservation_error_reported.contains(&place_span.0) {
debug!(
"skipping access_place for activation of invalid reservation \
place: {:?} borrow_index: {:?}",
place_span.0, borrow_index
);
return;
}
}
// Check is_empty() first because it's the common case, and doing that
// way we avoid the clone() call.
if !self.access_place_error_reported.is_empty()
&& self.access_place_error_reported.contains(&(place_span.0, place_span.1))
{
debug!(
"access_place: suppressing error place_span=`{:?}` kind=`{:?}`",
place_span, kind
);
return;
}
let mutability_error = self.check_access_permissions(
place_span,
rw,
is_local_mutation_allowed,
flow_state,
location,
);
let conflict_error =
self.check_access_for_conflict(location, place_span, sd, rw, flow_state);
if conflict_error || mutability_error {
debug!("access_place: logging error place_span=`{:?}` kind=`{:?}`", place_span, kind);
self.access_place_error_reported.insert((place_span.0, place_span.1));
}
}
#[instrument(level = "debug", skip(self, flow_state))]
fn check_access_for_conflict(
&mut self,
location: Location,
place_span: (Place<'tcx>, Span),
sd: AccessDepth,
rw: ReadOrWrite,
flow_state: &Flows<'cx, 'tcx>,
) -> bool {
let mut error_reported = false;
let tcx = self.infcx.tcx;
let body = self.body;
let borrow_set = self.borrow_set.clone();
// Use polonius output if it has been enabled.
let mut polonius_output;
let borrows_in_scope = if let Some(polonius) = &self.polonius_output {
let location = self.location_table.start_index(location);
polonius_output = BitSet::new_empty(borrow_set.len());
for &idx in polonius.errors_at(location) {
polonius_output.insert(idx);
}
&polonius_output
} else {
&flow_state.borrows
};
each_borrow_involving_path(
self,
tcx,
body,
location,
(sd, place_span.0),
&borrow_set,
|borrow_index| borrows_in_scope.contains(borrow_index),
|this, borrow_index, borrow| match (rw, borrow.kind) {
// Obviously an activation is compatible with its own
// reservation (or even prior activating uses of same
// borrow); so don't check if they interfere.
//
// NOTE: *reservations* do conflict with themselves;
// thus aren't injecting unsoundness w/ this check.)
(Activation(_, activating), _) if activating == borrow_index => {
debug!(
"check_access_for_conflict place_span: {:?} sd: {:?} rw: {:?} \
skipping {:?} b/c activation of same borrow_index",
place_span,
sd,
rw,
(borrow_index, borrow),
);
Control::Continue
}
(Read(_), BorrowKind::Shared | BorrowKind::Shallow)
| (Read(ReadKind::Borrow(BorrowKind::Shallow)), BorrowKind::Mut { .. }) => {
Control::Continue
}
(Reservation(_), BorrowKind::Shallow | BorrowKind::Shared) => {
// This used to be a future compatibility warning (to be
// disallowed on NLL). See rust-lang/rust#56254
Control::Continue
}
(Write(WriteKind::Move), BorrowKind::Shallow) => {
// Handled by initialization checks.
Control::Continue
}
(Read(kind), BorrowKind::Mut { .. }) => {
// Reading from mere reservations of mutable-borrows is OK.
if !is_active(this.dominators(), borrow, location) {
assert!(allow_two_phase_borrow(borrow.kind));
return Control::Continue;
}
error_reported = true;
match kind {
ReadKind::Copy => {
let err = this
.report_use_while_mutably_borrowed(location, place_span, borrow);
this.buffer_error(err);
}
ReadKind::Borrow(bk) => {
let err =
this.report_conflicting_borrow(location, place_span, bk, borrow);
this.buffer_error(err);
}
}
Control::Break
}
(Reservation(kind) | Activation(kind, _) | Write(kind), _) => {
match rw {
Reservation(..) => {
debug!(
"recording invalid reservation of \
place: {:?}",
place_span.0
);
this.reservation_error_reported.insert(place_span.0);
}
Activation(_, activating) => {
debug!(
"observing check_place for activation of \
borrow_index: {:?}",
activating
);
}
Read(..) | Write(..) => {}
}
error_reported = true;
match kind {
WriteKind::MutableBorrow(bk) => {
let err =
this.report_conflicting_borrow(location, place_span, bk, borrow);
this.buffer_error(err);
}
WriteKind::StorageDeadOrDrop => this
.report_borrowed_value_does_not_live_long_enough(
location,
borrow,
place_span,
Some(WriteKind::StorageDeadOrDrop),
),
WriteKind::Mutate => {
this.report_illegal_mutation_of_borrowed(location, place_span, borrow)
}
WriteKind::Move => {
this.report_move_out_while_borrowed(location, place_span, borrow)
}
WriteKind::Replace => {
this.report_illegal_mutation_of_borrowed(location, place_span, borrow)
}
}
Control::Break
}
},
);
error_reported
}
fn mutate_place(
&mut self,
location: Location,
place_span: (Place<'tcx>, Span),
kind: AccessDepth,
flow_state: &Flows<'cx, 'tcx>,
) {
// Write of P[i] or *P requires P init'd.
self.check_if_assigned_path_is_moved(location, place_span, flow_state);
self.access_place(
location,
place_span,
(kind, Write(WriteKind::Mutate)),
LocalMutationIsAllowed::No,
flow_state,
);
}
fn consume_rvalue(
&mut self,
location: Location,
(rvalue, span): (&'cx Rvalue<'tcx>, Span),
flow_state: &Flows<'cx, 'tcx>,
) {
match rvalue {
&Rvalue::Ref(_ /*rgn*/, bk, place) => {
let access_kind = match bk {
BorrowKind::Shallow => {
(Shallow(Some(ArtificialField::ShallowBorrow)), Read(ReadKind::Borrow(bk)))
}
BorrowKind::Shared => (Deep, Read(ReadKind::Borrow(bk))),
BorrowKind::Mut { .. } => {
let wk = WriteKind::MutableBorrow(bk);
if allow_two_phase_borrow(bk) {
(Deep, Reservation(wk))
} else {
(Deep, Write(wk))
}
}
};
self.access_place(
location,
(place, span),
access_kind,
LocalMutationIsAllowed::No,
flow_state,
);
let action = if bk == BorrowKind::Shallow {
InitializationRequiringAction::MatchOn
} else {
InitializationRequiringAction::Borrow
};
self.check_if_path_or_subpath_is_moved(
location,
action,
(place.as_ref(), span),
flow_state,
);
}
&Rvalue::AddressOf(mutability, place) => {
let access_kind = match mutability {
Mutability::Mut => (
Deep,
Write(WriteKind::MutableBorrow(BorrowKind::Mut {
kind: MutBorrowKind::Default,
})),
),
Mutability::Not => (Deep, Read(ReadKind::Borrow(BorrowKind::Shared))),
};
self.access_place(
location,
(place, span),
access_kind,
LocalMutationIsAllowed::No,
flow_state,
);
self.check_if_path_or_subpath_is_moved(
location,
InitializationRequiringAction::Borrow,
(place.as_ref(), span),
flow_state,
);
}
Rvalue::ThreadLocalRef(_) => {}
Rvalue::Use(operand)
| Rvalue::Repeat(operand, _)
| Rvalue::UnaryOp(_ /*un_op*/, operand)
| Rvalue::Cast(_ /*cast_kind*/, operand, _ /*ty*/)
| Rvalue::ShallowInitBox(operand, _ /*ty*/) => {
self.consume_operand(location, (operand, span), flow_state)
}
&Rvalue::CopyForDeref(place) => {
self.access_place(
location,
(place, span),
(Deep, Read(ReadKind::Copy)),
LocalMutationIsAllowed::No,
flow_state,
);
// Finally, check if path was already moved.
self.check_if_path_or_subpath_is_moved(
location,
InitializationRequiringAction::Use,
(place.as_ref(), span),
flow_state,
);
}
&(Rvalue::Len(place) | Rvalue::Discriminant(place)) => {
let af = match *rvalue {
Rvalue::Len(..) => Some(ArtificialField::ArrayLength),
Rvalue::Discriminant(..) => None,
_ => unreachable!(),
};
self.access_place(
location,
(place, span),
(Shallow(af), Read(ReadKind::Copy)),
LocalMutationIsAllowed::No,
flow_state,
);
self.check_if_path_or_subpath_is_moved(
location,
InitializationRequiringAction::Use,
(place.as_ref(), span),
flow_state,
);
}
Rvalue::BinaryOp(_bin_op, box (operand1, operand2))
| Rvalue::CheckedBinaryOp(_bin_op, box (operand1, operand2)) => {
self.consume_operand(location, (operand1, span), flow_state);
self.consume_operand(location, (operand2, span), flow_state);
}
Rvalue::NullaryOp(_op, _ty) => {
// nullary ops take no dynamic input; no borrowck effect.
}
Rvalue::Aggregate(aggregate_kind, operands) => {
// We need to report back the list of mutable upvars that were
// moved into the closure and subsequently used by the closure,
// in order to populate our used_mut set.
match **aggregate_kind {
AggregateKind::Closure(def_id, _) | AggregateKind::Generator(def_id, _, _) => {
let def_id = def_id.expect_local();
let BorrowCheckResult { used_mut_upvars, .. } =
self.infcx.tcx.mir_borrowck(def_id);
debug!("{:?} used_mut_upvars={:?}", def_id, used_mut_upvars);
for field in used_mut_upvars {
self.propagate_closure_used_mut_upvar(&operands[*field]);
}
}
AggregateKind::Adt(..)
| AggregateKind::Array(..)
| AggregateKind::Tuple { .. } => (),
}
for operand in operands {
self.consume_operand(location, (operand, span), flow_state);
}
}
}
}
fn propagate_closure_used_mut_upvar(&mut self, operand: &Operand<'tcx>) {
let propagate_closure_used_mut_place = |this: &mut Self, place: Place<'tcx>| {
// We have three possibilities here:
// a. We are modifying something through a mut-ref
// b. We are modifying something that is local to our parent
// c. Current body is a nested closure, and we are modifying path starting from
// a Place captured by our parent closure.
// Handle (c), the path being modified is exactly the path captured by our parent
if let Some(field) = this.is_upvar_field_projection(place.as_ref()) {
this.used_mut_upvars.push(field);
return;
}
for (place_ref, proj) in place.iter_projections().rev() {
// Handle (a)
if proj == ProjectionElem::Deref {
match place_ref.ty(this.body(), this.infcx.tcx).ty.kind() {
// We aren't modifying a variable directly
ty::Ref(_, _, hir::Mutability::Mut) => return,
_ => {}
}
}
// Handle (c)
if let Some(field) = this.is_upvar_field_projection(place_ref) {
this.used_mut_upvars.push(field);
return;
}
}
// Handle(b)
this.used_mut.insert(place.local);
};
// This relies on the current way that by-value
// captures of a closure are copied/moved directly
// when generating MIR.
match *operand {
Operand::Move(place) | Operand::Copy(place) => {
match place.as_local() {
Some(local) if !self.body.local_decls[local].is_user_variable() => {
if self.body.local_decls[local].ty.is_mutable_ptr() {
// The variable will be marked as mutable by the borrow.
return;
}
// This is an edge case where we have a `move` closure
// inside a non-move closure, and the inner closure
// contains a mutation:
//
// let mut i = 0;
// || { move || { i += 1; }; };
//
// In this case our usual strategy of assuming that the
// variable will be captured by mutable reference is
// wrong, since `i` can be copied into the inner
// closure from a shared reference.
//
// As such we have to search for the local that this
// capture comes from and mark it as being used as mut.
let temp_mpi = self.move_data.rev_lookup.find_local(local);
let init = if let [init_index] = *self.move_data.init_path_map[temp_mpi] {
&self.move_data.inits[init_index]
} else {
bug!("temporary should be initialized exactly once")
};
let InitLocation::Statement(loc) = init.location else {
bug!("temporary initialized in arguments")
};
let body = self.body;
let bbd = &body[loc.block];
let stmt = &bbd.statements[loc.statement_index];
debug!("temporary assigned in: stmt={:?}", stmt);
if let StatementKind::Assign(box (_, Rvalue::Ref(_, _, source))) = stmt.kind
{
propagate_closure_used_mut_place(self, source);
} else {
bug!(
"closures should only capture user variables \
or references to user variables"
);
}
}
_ => propagate_closure_used_mut_place(self, place),
}
}
Operand::Constant(..) => {}
}
}
fn consume_operand(
&mut self,
location: Location,
(operand, span): (&'cx Operand<'tcx>, Span),
flow_state: &Flows<'cx, 'tcx>,
) {
match *operand {
Operand::Copy(place) => {
// copy of place: check if this is "copy of frozen path"
// (FIXME: see check_loans.rs)
self.access_place(
location,
(place, span),
(Deep, Read(ReadKind::Copy)),
LocalMutationIsAllowed::No,
flow_state,
);
// Finally, check if path was already moved.
self.check_if_path_or_subpath_is_moved(
location,
InitializationRequiringAction::Use,
(place.as_ref(), span),
flow_state,
);
}
Operand::Move(place) => {
// move of place: check if this is move of already borrowed path
self.access_place(
location,
(place, span),
(Deep, Write(WriteKind::Move)),
LocalMutationIsAllowed::Yes,
flow_state,
);
// Finally, check if path was already moved.
self.check_if_path_or_subpath_is_moved(
location,
InitializationRequiringAction::Use,
(place.as_ref(), span),
flow_state,
);
}
Operand::Constant(_) => {}
}
}
/// Checks whether a borrow of this place is invalidated when the function
/// exits
#[instrument(level = "debug", skip(self))]
fn check_for_invalidation_at_exit(
&mut self,
location: Location,
borrow: &BorrowData<'tcx>,
span: Span,
) {
let place = borrow.borrowed_place;
let mut root_place = PlaceRef { local: place.local, projection: &[] };
// FIXME(nll-rfc#40): do more precise destructor tracking here. For now
// we just know that all locals are dropped at function exit (otherwise
// we'll have a memory leak) and assume that all statics have a destructor.
//
// FIXME: allow thread-locals to borrow other thread locals?
let (might_be_alive, will_be_dropped) =
if self.body.local_decls[root_place.local].is_ref_to_thread_local() {
// Thread-locals might be dropped after the function exits
// We have to dereference the outer reference because
// borrows don't conflict behind shared references.
root_place.projection = TyCtxtConsts::DEREF_PROJECTION;
(true, true)
} else {
(false, self.locals_are_invalidated_at_exit)
};
if !will_be_dropped {
debug!("place_is_invalidated_at_exit({:?}) - won't be dropped", place);
return;
}
let sd = if might_be_alive { Deep } else { Shallow(None) };
if places_conflict::borrow_conflicts_with_place(
self.infcx.tcx,
&self.body,
place,
borrow.kind,
root_place,
sd,
places_conflict::PlaceConflictBias::Overlap,
) {
debug!("check_for_invalidation_at_exit({:?}): INVALID", place);
// FIXME: should be talking about the region lifetime instead
// of just a span here.
let span = self.infcx.tcx.sess.source_map().end_point(span);
self.report_borrowed_value_does_not_live_long_enough(
location,
borrow,
(place, span),
None,
)
}
}
/// Reports an error if this is a borrow of local data.
/// This is called for all Yield expressions on movable generators
fn check_for_local_borrow(&mut self, borrow: &BorrowData<'tcx>, yield_span: Span) {
debug!("check_for_local_borrow({:?})", borrow);
if borrow_of_local_data(borrow.borrowed_place) {
let err = self.cannot_borrow_across_generator_yield(
self.retrieve_borrow_spans(borrow).var_or_use(),
yield_span,
);
self.buffer_error(err);
}
}
fn check_activations(&mut self, location: Location, span: Span, flow_state: &Flows<'cx, 'tcx>) {
// Two-phase borrow support: For each activation that is newly
// generated at this statement, check if it interferes with
// another borrow.
let borrow_set = self.borrow_set.clone();
for &borrow_index in borrow_set.activations_at_location(location) {
let borrow = &borrow_set[borrow_index];
// only mutable borrows should be 2-phase
assert!(match borrow.kind {
BorrowKind::Shared | BorrowKind::Shallow => false,
BorrowKind::Mut { .. } => true,
});
self.access_place(
location,
(borrow.borrowed_place, span),
(Deep, Activation(WriteKind::MutableBorrow(borrow.kind), borrow_index)),
LocalMutationIsAllowed::No,
flow_state,
);
// We do not need to call `check_if_path_or_subpath_is_moved`
// again, as we already called it when we made the
// initial reservation.
}
}
fn check_if_full_path_is_moved(
&mut self,
location: Location,
desired_action: InitializationRequiringAction,
place_span: (PlaceRef<'tcx>, Span),
flow_state: &Flows<'cx, 'tcx>,
) {
let maybe_uninits = &flow_state.uninits;
// Bad scenarios:
//
// 1. Move of `a.b.c`, use of `a.b.c`
// 2. Move of `a.b.c`, use of `a.b.c.d` (without first reinitializing `a.b.c.d`)
// 3. Uninitialized `(a.b.c: &_)`, use of `*a.b.c`; note that with
// partial initialization support, one might have `a.x`
// initialized but not `a.b`.
//
// OK scenarios:
//
// 4. Move of `a.b.c`, use of `a.b.d`
// 5. Uninitialized `a.x`, initialized `a.b`, use of `a.b`
// 6. Copied `(a.b: &_)`, use of `*(a.b).c`; note that `a.b`
// must have been initialized for the use to be sound.
// 7. Move of `a.b.c` then reinit of `a.b.c.d`, use of `a.b.c.d`
// The dataflow tracks shallow prefixes distinctly (that is,
// field-accesses on P distinctly from P itself), in order to
// track substructure initialization separately from the whole
// structure.
//
// E.g., when looking at (*a.b.c).d, if the closest prefix for
// which we have a MovePath is `a.b`, then that means that the
// initialization state of `a.b` is all we need to inspect to
// know if `a.b.c` is valid (and from that we infer that the
// dereference and `.d` access is also valid, since we assume
// `a.b.c` is assigned a reference to an initialized and
// well-formed record structure.)
// Therefore, if we seek out the *closest* prefix for which we
// have a MovePath, that should capture the initialization
// state for the place scenario.
//
// This code covers scenarios 1, 2, and 3.
debug!("check_if_full_path_is_moved place: {:?}", place_span.0);
let (prefix, mpi) = self.move_path_closest_to(place_span.0);
if maybe_uninits.contains(mpi) {
self.report_use_of_moved_or_uninitialized(
location,
desired_action,
(prefix, place_span.0, place_span.1),
mpi,
);
} // Only query longest prefix with a MovePath, not further
// ancestors; dataflow recurs on children when parents
// move (to support partial (re)inits).
//
// (I.e., querying parents breaks scenario 7; but may want
// to do such a query based on partial-init feature-gate.)
}
/// Subslices correspond to multiple move paths, so we iterate through the
/// elements of the base array. For each element we check
///
/// * Does this element overlap with our slice.
/// * Is any part of it uninitialized.
fn check_if_subslice_element_is_moved(
&mut self,
location: Location,
desired_action: InitializationRequiringAction,
place_span: (PlaceRef<'tcx>, Span),
maybe_uninits: &ChunkedBitSet<MovePathIndex>,
from: u64,
to: u64,
) {
if let Some(mpi) = self.move_path_for_place(place_span.0) {
let move_paths = &self.move_data.move_paths;
let root_path = &move_paths[mpi];
for (child_mpi, child_move_path) in root_path.children(move_paths) {
let last_proj = child_move_path.place.projection.last().unwrap();
if let ProjectionElem::ConstantIndex { offset, from_end, .. } = last_proj {
debug_assert!(!from_end, "Array constant indexing shouldn't be `from_end`.");
if (from..to).contains(offset) {
let uninit_child =
self.move_data.find_in_move_path_or_its_descendants(child_mpi, |mpi| {
maybe_uninits.contains(mpi)
});
if let Some(uninit_child) = uninit_child {
self.report_use_of_moved_or_uninitialized(
location,
desired_action,
(place_span.0, place_span.0, place_span.1),
uninit_child,
);
return; // don't bother finding other problems.
}
}
}
}
}
}
fn check_if_path_or_subpath_is_moved(
&mut self,
location: Location,
desired_action: InitializationRequiringAction,
place_span: (PlaceRef<'tcx>, Span),
flow_state: &Flows<'cx, 'tcx>,
) {
let maybe_uninits = &flow_state.uninits;
// Bad scenarios:
//
// 1. Move of `a.b.c`, use of `a` or `a.b`
// partial initialization support, one might have `a.x`
// initialized but not `a.b`.
// 2. All bad scenarios from `check_if_full_path_is_moved`
//
// OK scenarios:
//
// 3. Move of `a.b.c`, use of `a.b.d`
// 4. Uninitialized `a.x`, initialized `a.b`, use of `a.b`
// 5. Copied `(a.b: &_)`, use of `*(a.b).c`; note that `a.b`
// must have been initialized for the use to be sound.
// 6. Move of `a.b.c` then reinit of `a.b.c.d`, use of `a.b.c.d`
self.check_if_full_path_is_moved(location, desired_action, place_span, flow_state);
if let Some((place_base, ProjectionElem::Subslice { from, to, from_end: false })) =
place_span.0.last_projection()
{
let place_ty = place_base.ty(self.body(), self.infcx.tcx);
if let ty::Array(..) = place_ty.ty.kind() {
self.check_if_subslice_element_is_moved(
location,
desired_action,
(place_base, place_span.1),
maybe_uninits,
from,
to,
);
return;
}
}
// A move of any shallow suffix of `place` also interferes
// with an attempt to use `place`. This is scenario 3 above.
//
// (Distinct from handling of scenarios 1+2+4 above because
// `place` does not interfere with suffixes of its prefixes,
// e.g., `a.b.c` does not interfere with `a.b.d`)
//
// This code covers scenario 1.
debug!("check_if_path_or_subpath_is_moved place: {:?}", place_span.0);
if let Some(mpi) = self.move_path_for_place(place_span.0) {
let uninit_mpi = self
.move_data
.find_in_move_path_or_its_descendants(mpi, |mpi| maybe_uninits.contains(mpi));
if let Some(uninit_mpi) = uninit_mpi {
self.report_use_of_moved_or_uninitialized(
location,
desired_action,
(place_span.0, place_span.0, place_span.1),
uninit_mpi,
);
return; // don't bother finding other problems.
}
}
}
/// Currently MoveData does not store entries for all places in
/// the input MIR. For example it will currently filter out
/// places that are Copy; thus we do not track places of shared
/// reference type. This routine will walk up a place along its
/// prefixes, searching for a foundational place that *is*
/// tracked in the MoveData.
///
/// An Err result includes a tag indicated why the search failed.
/// Currently this can only occur if the place is built off of a
/// static variable, as we do not track those in the MoveData.
fn move_path_closest_to(&mut self, place: PlaceRef<'tcx>) -> (PlaceRef<'tcx>, MovePathIndex) {
match self.move_data.rev_lookup.find(place) {
LookupResult::Parent(Some(mpi)) | LookupResult::Exact(mpi) => {
(self.move_data.move_paths[mpi].place.as_ref(), mpi)
}
LookupResult::Parent(None) => panic!("should have move path for every Local"),
}
}
fn move_path_for_place(&mut self, place: PlaceRef<'tcx>) -> Option<MovePathIndex> {
// If returns None, then there is no move path corresponding
// to a direct owner of `place` (which means there is nothing
// that borrowck tracks for its analysis).
match self.move_data.rev_lookup.find(place) {
LookupResult::Parent(_) => None,
LookupResult::Exact(mpi) => Some(mpi),
}
}
fn check_if_assigned_path_is_moved(
&mut self,
location: Location,
(place, span): (Place<'tcx>, Span),
flow_state: &Flows<'cx, 'tcx>,
) {
debug!("check_if_assigned_path_is_moved place: {:?}", place);
// None case => assigning to `x` does not require `x` be initialized.
for (place_base, elem) in place.iter_projections().rev() {
match elem {
ProjectionElem::Index(_/*operand*/) |
ProjectionElem::Subtype(_) |
ProjectionElem::OpaqueCast(_) |
ProjectionElem::ConstantIndex { .. } |
// assigning to P[i] requires P to be valid.
ProjectionElem::Downcast(_/*adt_def*/, _/*variant_idx*/) =>
// assigning to (P->variant) is okay if assigning to `P` is okay
//
// FIXME: is this true even if P is an adt with a dtor?
{ }
// assigning to (*P) requires P to be initialized
ProjectionElem::Deref => {
self.check_if_full_path_is_moved(
location, InitializationRequiringAction::Use,
(place_base, span), flow_state);
// (base initialized; no need to
// recur further)
break;
}
ProjectionElem::Subslice { .. } => {
panic!("we don't allow assignments to subslices, location: {location:?}");
}
ProjectionElem::Field(..) => {
// if type of `P` has a dtor, then
// assigning to `P.f` requires `P` itself
// be already initialized
let tcx = self.infcx.tcx;
let base_ty = place_base.ty(self.body(), tcx).ty;
match base_ty.kind() {
ty::Adt(def, _) if def.has_dtor(tcx) => {
self.check_if_path_or_subpath_is_moved(
location, InitializationRequiringAction::Assignment,
(place_base, span), flow_state);
// (base initialized; no need to
// recur further)
break;
}
// Once `let s; s.x = V; read(s.x);`,
// is allowed, remove this match arm.
ty::Adt(..) | ty::Tuple(..) => {
check_parent_of_field(self, location, place_base, span, flow_state);
}
_ => {}
}
}
}
}
fn check_parent_of_field<'cx, 'tcx>(
this: &mut MirBorrowckCtxt<'cx, 'tcx>,
location: Location,
base: PlaceRef<'tcx>,
span: Span,
flow_state: &Flows<'cx, 'tcx>,
) {
// rust-lang/rust#21232: Until Rust allows reads from the
// initialized parts of partially initialized structs, we
// will, starting with the 2018 edition, reject attempts
// to write to structs that are not fully initialized.
//
// In other words, *until* we allow this:
//
// 1. `let mut s; s.x = Val; read(s.x);`
//
// we will for now disallow this:
//
// 2. `let mut s; s.x = Val;`
//
// and also this:
//
// 3. `let mut s = ...; drop(s); s.x=Val;`
//
// This does not use check_if_path_or_subpath_is_moved,
// because we want to *allow* reinitializations of fields:
// e.g., want to allow
//
// `let mut s = ...; drop(s.x); s.x=Val;`
//
// This does not use check_if_full_path_is_moved on
// `base`, because that would report an error about the
// `base` as a whole, but in this scenario we *really*
// want to report an error about the actual thing that was
// moved, which may be some prefix of `base`.
// Shallow so that we'll stop at any dereference; we'll
// report errors about issues with such bases elsewhere.
let maybe_uninits = &flow_state.uninits;
// Find the shortest uninitialized prefix you can reach
// without going over a Deref.
let mut shortest_uninit_seen = None;
for prefix in this.prefixes(base, PrefixSet::Shallow) {
let Some(mpi) = this.move_path_for_place(prefix) else { continue };
if maybe_uninits.contains(mpi) {
debug!(
"check_parent_of_field updating shortest_uninit_seen from {:?} to {:?}",
shortest_uninit_seen,
Some((prefix, mpi))
);
shortest_uninit_seen = Some((prefix, mpi));
} else {
debug!("check_parent_of_field {:?} is definitely initialized", (prefix, mpi));
}
}
if let Some((prefix, mpi)) = shortest_uninit_seen {
// Check for a reassignment into an uninitialized field of a union (for example,
// after a move out). In this case, do not report an error here. There is an
// exception, if this is the first assignment into the union (that is, there is
// no move out from an earlier location) then this is an attempt at initialization
// of the union - we should error in that case.
let tcx = this.infcx.tcx;
if base.ty(this.body(), tcx).ty.is_union() {
if this.move_data.path_map[mpi].iter().any(|moi| {
this.move_data.moves[*moi].source.is_predecessor_of(location, this.body)
}) {
return;
}
}
this.report_use_of_moved_or_uninitialized(
location,
InitializationRequiringAction::PartialAssignment,
(prefix, base, span),
mpi,
);
// rust-lang/rust#21232, #54499, #54986: during period where we reject
// partial initialization, do not complain about unnecessary `mut` on
// an attempt to do a partial initialization.
this.used_mut.insert(base.local);
}
}
}
/// Checks the permissions for the given place and read or write kind
///
/// Returns `true` if an error is reported.
fn check_access_permissions(
&mut self,
(place, span): (Place<'tcx>, Span),
kind: ReadOrWrite,
is_local_mutation_allowed: LocalMutationIsAllowed,
flow_state: &Flows<'cx, 'tcx>,
location: Location,
) -> bool {
debug!(
"check_access_permissions({:?}, {:?}, is_local_mutation_allowed: {:?})",
place, kind, is_local_mutation_allowed
);
let error_access;
let the_place_err;
match kind {
Reservation(WriteKind::MutableBorrow(BorrowKind::Mut { kind: mut_borrow_kind }))
| Write(WriteKind::MutableBorrow(BorrowKind::Mut { kind: mut_borrow_kind })) => {
let is_local_mutation_allowed = match mut_borrow_kind {
// `ClosureCapture` is used for mutable variable with an immutable binding.
// This is only behaviour difference between `ClosureCapture` and mutable borrows.
MutBorrowKind::ClosureCapture => LocalMutationIsAllowed::Yes,
MutBorrowKind::Default | MutBorrowKind::TwoPhaseBorrow => {
is_local_mutation_allowed
}
};
match self.is_mutable(place.as_ref(), is_local_mutation_allowed) {
Ok(root_place) => {
self.add_used_mut(root_place, flow_state);
return false;
}
Err(place_err) => {
error_access = AccessKind::MutableBorrow;
the_place_err = place_err;
}
}
}
Reservation(WriteKind::Mutate) | Write(WriteKind::Mutate) => {
match self.is_mutable(place.as_ref(), is_local_mutation_allowed) {
Ok(root_place) => {
self.add_used_mut(root_place, flow_state);
return false;
}
Err(place_err) => {
error_access = AccessKind::Mutate;
the_place_err = place_err;
}
}
}
Reservation(
WriteKind::Move
| WriteKind::Replace
| WriteKind::StorageDeadOrDrop
| WriteKind::MutableBorrow(BorrowKind::Shared)
| WriteKind::MutableBorrow(BorrowKind::Shallow),
)
| Write(
WriteKind::Move
| WriteKind::Replace
| WriteKind::StorageDeadOrDrop
| WriteKind::MutableBorrow(BorrowKind::Shared)
| WriteKind::MutableBorrow(BorrowKind::Shallow),
) => {
if self.is_mutable(place.as_ref(), is_local_mutation_allowed).is_err()
&& !self.has_buffered_errors()
{
// rust-lang/rust#46908: In pure NLL mode this code path should be
// unreachable, but we use `delay_span_bug` because we can hit this when
// dereferencing a non-Copy raw pointer *and* have `-Ztreat-err-as-bug`
// enabled. We don't want to ICE for that case, as other errors will have
// been emitted (#52262).
self.infcx.tcx.sess.delay_span_bug(
span,
format!(
"Accessing `{place:?}` with the kind `{kind:?}` shouldn't be possible",
),
);
}
return false;
}
Activation(..) => {
// permission checks are done at Reservation point.
return false;
}
Read(
ReadKind::Borrow(BorrowKind::Mut { .. } | BorrowKind::Shared | BorrowKind::Shallow)
| ReadKind::Copy,
) => {
// Access authorized
return false;
}
}
// rust-lang/rust#21232, #54986: during period where we reject
// partial initialization, do not complain about mutability
// errors except for actual mutation (as opposed to an attempt
// to do a partial initialization).
let previously_initialized = self.is_local_ever_initialized(place.local, flow_state);
// at this point, we have set up the error reporting state.
if let Some(init_index) = previously_initialized {
if let (AccessKind::Mutate, Some(_)) = (error_access, place.as_local()) {
// If this is a mutate access to an immutable local variable with no projections
// report the error as an illegal reassignment
let init = &self.move_data.inits[init_index];
let assigned_span = init.span(&self.body);
self.report_illegal_reassignment(location, (place, span), assigned_span, place);
} else {
self.report_mutability_error(place, span, the_place_err, error_access, location)
}
true
} else {
false
}
}
fn is_local_ever_initialized(
&self,
local: Local,
flow_state: &Flows<'cx, 'tcx>,
) -> Option<InitIndex> {
let mpi = self.move_data.rev_lookup.find_local(local);
let ii = &self.move_data.init_path_map[mpi];
ii.into_iter().find(|&&index| flow_state.ever_inits.contains(index)).copied()
}
/// Adds the place into the used mutable variables set
fn add_used_mut(&mut self, root_place: RootPlace<'tcx>, flow_state: &Flows<'cx, 'tcx>) {
match root_place {
RootPlace { place_local: local, place_projection: [], is_local_mutation_allowed } => {
// If the local may have been initialized, and it is now currently being
// mutated, then it is justified to be annotated with the `mut`
// keyword, since the mutation may be a possible reassignment.
if is_local_mutation_allowed != LocalMutationIsAllowed::Yes
&& self.is_local_ever_initialized(local, flow_state).is_some()
{
self.used_mut.insert(local);
}
}
RootPlace {
place_local: _,
place_projection: _,
is_local_mutation_allowed: LocalMutationIsAllowed::Yes,
} => {}
RootPlace {
place_local,
place_projection: place_projection @ [.., _],
is_local_mutation_allowed: _,
} => {
if let Some(field) = self.is_upvar_field_projection(PlaceRef {
local: place_local,
projection: place_projection,
}) {
self.used_mut_upvars.push(field);
}
}
}
}
/// Whether this value can be written or borrowed mutably.
/// Returns the root place if the place passed in is a projection.
fn is_mutable(
&self,
place: PlaceRef<'tcx>,
is_local_mutation_allowed: LocalMutationIsAllowed,
) -> Result<RootPlace<'tcx>, PlaceRef<'tcx>> {
debug!("is_mutable: place={:?}, is_local...={:?}", place, is_local_mutation_allowed);
match place.last_projection() {
None => {
let local = &self.body.local_decls[place.local];
match local.mutability {
Mutability::Not => match is_local_mutation_allowed {
LocalMutationIsAllowed::Yes => Ok(RootPlace {
place_local: place.local,
place_projection: place.projection,
is_local_mutation_allowed: LocalMutationIsAllowed::Yes,
}),
LocalMutationIsAllowed::ExceptUpvars => Ok(RootPlace {
place_local: place.local,
place_projection: place.projection,
is_local_mutation_allowed: LocalMutationIsAllowed::ExceptUpvars,
}),
LocalMutationIsAllowed::No => Err(place),
},
Mutability::Mut => Ok(RootPlace {
place_local: place.local,
place_projection: place.projection,
is_local_mutation_allowed,
}),
}
}
Some((place_base, elem)) => {
match elem {
ProjectionElem::Deref => {
let base_ty = place_base.ty(self.body(), self.infcx.tcx).ty;
// Check the kind of deref to decide
match base_ty.kind() {
ty::Ref(_, _, mutbl) => {
match mutbl {
// Shared borrowed data is never mutable
hir::Mutability::Not => Err(place),
// Mutably borrowed data is mutable, but only if we have a
// unique path to the `&mut`
hir::Mutability::Mut => {
let mode = match self.is_upvar_field_projection(place) {
Some(field) if self.upvars[field.index()].by_ref => {
is_local_mutation_allowed
}
_ => LocalMutationIsAllowed::Yes,
};
self.is_mutable(place_base, mode)
}
}
}
ty::RawPtr(tnm) => {
match tnm.mutbl {
// `*const` raw pointers are not mutable
hir::Mutability::Not => Err(place),
// `*mut` raw pointers are always mutable, regardless of
// context. The users have to check by themselves.
hir::Mutability::Mut => Ok(RootPlace {
place_local: place.local,
place_projection: place.projection,
is_local_mutation_allowed,
}),
}
}
// `Box<T>` owns its content, so mutable if its location is mutable
_ if base_ty.is_box() => {
self.is_mutable(place_base, is_local_mutation_allowed)
}
// Deref should only be for reference, pointers or boxes
_ => bug!("Deref of unexpected type: {:?}", base_ty),
}
}
// All other projections are owned by their base path, so mutable if
// base path is mutable
ProjectionElem::Field(..)
| ProjectionElem::Index(..)
| ProjectionElem::ConstantIndex { .. }
| ProjectionElem::Subslice { .. }
| ProjectionElem::Subtype(..)
| ProjectionElem::OpaqueCast { .. }
| ProjectionElem::Downcast(..) => {
let upvar_field_projection = self.is_upvar_field_projection(place);
if let Some(field) = upvar_field_projection {
let upvar = &self.upvars[field.index()];
debug!(
"is_mutable: upvar.mutability={:?} local_mutation_is_allowed={:?} \
place={:?}, place_base={:?}",
upvar, is_local_mutation_allowed, place, place_base
);
match (upvar.place.mutability, is_local_mutation_allowed) {
(
Mutability::Not,
LocalMutationIsAllowed::No
| LocalMutationIsAllowed::ExceptUpvars,
) => Err(place),
(Mutability::Not, LocalMutationIsAllowed::Yes)
| (Mutability::Mut, _) => {
// Subtle: this is an upvar
// reference, so it looks like
// `self.foo` -- we want to double
// check that the location `*self`
// is mutable (i.e., this is not a
// `Fn` closure). But if that
// check succeeds, we want to
// *blame* the mutability on
// `place` (that is,
// `self.foo`). This is used to
// propagate the info about
// whether mutability declarations
// are used outwards, so that we register
// the outer variable as mutable. Otherwise a
// test like this fails to record the `mut`
// as needed:
//
// ```
// fn foo<F: FnOnce()>(_f: F) { }
// fn main() {
// let var = Vec::new();
// foo(move || {
// var.push(1);
// });
// }
// ```
let _ =
self.is_mutable(place_base, is_local_mutation_allowed)?;
Ok(RootPlace {
place_local: place.local,
place_projection: place.projection,
is_local_mutation_allowed,
})
}
}
} else {
self.is_mutable(place_base, is_local_mutation_allowed)
}
}
}
}
}
}
/// If `place` is a field projection, and the field is being projected from a closure type,
/// then returns the index of the field being projected. Note that this closure will always
/// be `self` in the current MIR, because that is the only time we directly access the fields
/// of a closure type.
fn is_upvar_field_projection(&self, place_ref: PlaceRef<'tcx>) -> Option<FieldIdx> {
path_utils::is_upvar_field_projection(self.infcx.tcx, &self.upvars, place_ref, self.body())
}
fn dominators(&self) -> &Dominators<BasicBlock> {
// `BasicBlocks` computes dominators on-demand and caches them.
self.body.basic_blocks.dominators()
}
}
mod error {
use rustc_errors::ErrorGuaranteed;
use super::*;
pub struct BorrowckErrors<'tcx> {
tcx: TyCtxt<'tcx>,
/// This field keeps track of move errors that are to be reported for given move indices.
///
/// There are situations where many errors can be reported for a single move out (see #53807)
/// and we want only the best of those errors.
///
/// The `report_use_of_moved_or_uninitialized` function checks this map and replaces the
/// diagnostic (if there is one) if the `Place` of the error being reported is a prefix of the
/// `Place` of the previous most diagnostic. This happens instead of buffering the error. Once
/// all move errors have been reported, any diagnostics in this map are added to the buffer
/// to be emitted.
///
/// `BTreeMap` is used to preserve the order of insertions when iterating. This is necessary
/// when errors in the map are being re-added to the error buffer so that errors with the
/// same primary span come out in a consistent order.
buffered_move_errors:
BTreeMap<Vec<MoveOutIndex>, (PlaceRef<'tcx>, DiagnosticBuilder<'tcx, ErrorGuaranteed>)>,
buffered_mut_errors: FxIndexMap<Span, (DiagnosticBuilder<'tcx, ErrorGuaranteed>, usize)>,
/// Diagnostics to be reported buffer.
buffered: Vec<Diagnostic>,
/// Set to Some if we emit an error during borrowck
tainted_by_errors: Option<ErrorGuaranteed>,
}
impl<'tcx> BorrowckErrors<'tcx> {
pub fn new(tcx: TyCtxt<'tcx>) -> Self {
BorrowckErrors {
tcx,
buffered_move_errors: BTreeMap::new(),
buffered_mut_errors: Default::default(),
buffered: Default::default(),
tainted_by_errors: None,
}
}
pub fn buffer_error(&mut self, t: DiagnosticBuilder<'_, ErrorGuaranteed>) {
if let None = self.tainted_by_errors {
self.tainted_by_errors = Some(self.tcx.sess.delay_span_bug(
t.span.clone_ignoring_labels(),
"diagnostic buffered but not emitted",
))
}
t.buffer(&mut self.buffered);
}
pub fn buffer_non_error_diag(&mut self, t: DiagnosticBuilder<'_, ()>) {
t.buffer(&mut self.buffered);
}
pub fn set_tainted_by_errors(&mut self, e: ErrorGuaranteed) {
self.tainted_by_errors = Some(e);
}
}
impl<'cx, 'tcx> MirBorrowckCtxt<'cx, 'tcx> {
pub fn buffer_error(&mut self, t: DiagnosticBuilder<'_, ErrorGuaranteed>) {
self.errors.buffer_error(t);
}
pub fn buffer_non_error_diag(&mut self, t: DiagnosticBuilder<'_, ()>) {
self.errors.buffer_non_error_diag(t);
}
pub fn buffer_move_error(
&mut self,
move_out_indices: Vec<MoveOutIndex>,
place_and_err: (PlaceRef<'tcx>, DiagnosticBuilder<'tcx, ErrorGuaranteed>),
) -> bool {
if let Some((_, diag)) =
self.errors.buffered_move_errors.insert(move_out_indices, place_and_err)
{
// Cancel the old diagnostic so we don't ICE
diag.cancel();
false
} else {
true
}
}
pub fn get_buffered_mut_error(
&mut self,
span: Span,
) -> Option<(DiagnosticBuilder<'tcx, ErrorGuaranteed>, usize)> {
self.errors.buffered_mut_errors.remove(&span)
}
pub fn buffer_mut_error(
&mut self,
span: Span,
t: DiagnosticBuilder<'tcx, ErrorGuaranteed>,
count: usize,
) {
self.errors.buffered_mut_errors.insert(span, (t, count));
}
pub fn emit_errors(&mut self) -> Option<ErrorGuaranteed> {
// Buffer any move errors that we collected and de-duplicated.
for (_, (_, diag)) in std::mem::take(&mut self.errors.buffered_move_errors) {
// We have already set tainted for this error, so just buffer it.
diag.buffer(&mut self.errors.buffered);
}
for (_, (mut diag, count)) in std::mem::take(&mut self.errors.buffered_mut_errors) {
if count > 10 {
diag.note(format!("...and {} other attempted mutable borrows", count - 10));
}
diag.buffer(&mut self.errors.buffered);
}
if !self.errors.buffered.is_empty() {
self.errors.buffered.sort_by_key(|diag| diag.sort_span);
for mut diag in self.errors.buffered.drain(..) {
self.infcx.tcx.sess.diagnostic().emit_diagnostic(&mut diag);
}
}
self.errors.tainted_by_errors
}
pub fn has_buffered_errors(&self) -> bool {
self.errors.buffered.is_empty()
}
pub fn has_move_error(
&self,
move_out_indices: &[MoveOutIndex],
) -> Option<&(PlaceRef<'tcx>, DiagnosticBuilder<'cx, ErrorGuaranteed>)> {
self.errors.buffered_move_errors.get(move_out_indices)
}
}
}
/// The degree of overlap between 2 places for borrow-checking.
enum Overlap {
/// The places might partially overlap - in this case, we give
/// up and say that they might conflict. This occurs when
/// different fields of a union are borrowed. For example,
/// if `u` is a union, we have no way of telling how disjoint
/// `u.a.x` and `a.b.y` are.
Arbitrary,
/// The places have the same type, and are either completely disjoint
/// or equal - i.e., they can't "partially" overlap as can occur with
/// unions. This is the "base case" on which we recur for extensions
/// of the place.
EqualOrDisjoint,
/// The places are disjoint, so we know all extensions of them
/// will also be disjoint.
Disjoint,
}