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rvalue_promotion.rs
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rvalue_promotion.rs
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// Copyright 2012-2014 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
// Verifies that the types and values of const and static items
// are safe. The rules enforced by this module are:
//
// - For each *mutable* static item, it checks that its **type**:
// - doesn't have a destructor
// - doesn't own a box
//
// - For each *immutable* static item, it checks that its **value**:
// - doesn't own a box
// - doesn't contain a struct literal or a call to an enum variant / struct constructor where
// - the type of the struct/enum has a dtor
//
// Rules Enforced Elsewhere:
// - It's not possible to take the address of a static item with unsafe interior. This is enforced
// by borrowck::gather_loans
use rustc::ty::cast::CastKind;
use rustc::hir::def::{Def, CtorKind};
use rustc::hir::def_id::DefId;
use rustc::hir::map::blocks::FnLikeNode;
use rustc::middle::expr_use_visitor as euv;
use rustc::middle::mem_categorization as mc;
use rustc::middle::mem_categorization::Categorization;
use rustc::ty::{self, Ty, TyCtxt};
use rustc::ty::query::Providers;
use rustc::ty::subst::Substs;
use rustc::util::nodemap::{ItemLocalSet, NodeSet};
use rustc::hir;
use rustc_data_structures::sync::Lrc;
use syntax::ast;
use syntax::attr;
use syntax_pos::{Span, DUMMY_SP};
use self::Promotability::*;
use std::ops::{BitAnd, BitOr};
pub fn provide(providers: &mut Providers) {
*providers = Providers {
rvalue_promotable_map,
const_is_rvalue_promotable_to_static,
..*providers
};
}
pub fn check_crate<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>) {
for &body_id in &tcx.hir.krate().body_ids {
let def_id = tcx.hir.body_owner_def_id(body_id);
tcx.const_is_rvalue_promotable_to_static(def_id);
}
tcx.sess.abort_if_errors();
}
fn const_is_rvalue_promotable_to_static<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>,
def_id: DefId)
-> bool
{
assert!(def_id.is_local());
let node_id = tcx.hir.as_local_node_id(def_id)
.expect("rvalue_promotable_map invoked with non-local def-id");
let body_id = tcx.hir.body_owned_by(node_id);
let body_hir_id = tcx.hir.node_to_hir_id(body_id.node_id);
tcx.rvalue_promotable_map(def_id).contains(&body_hir_id.local_id)
}
fn rvalue_promotable_map<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>,
def_id: DefId)
-> Lrc<ItemLocalSet>
{
let outer_def_id = tcx.closure_base_def_id(def_id);
if outer_def_id != def_id {
return tcx.rvalue_promotable_map(outer_def_id);
}
let mut visitor = CheckCrateVisitor {
tcx,
tables: &ty::TypeckTables::empty(None),
in_fn: false,
in_static: false,
mut_rvalue_borrows: NodeSet(),
param_env: ty::ParamEnv::empty(),
identity_substs: Substs::empty(),
result: ItemLocalSet(),
};
// `def_id` should be a `Body` owner
let node_id = tcx.hir.as_local_node_id(def_id)
.expect("rvalue_promotable_map invoked with non-local def-id");
let body_id = tcx.hir.body_owned_by(node_id);
let _ = visitor.check_nested_body(body_id);
Lrc::new(visitor.result)
}
struct CheckCrateVisitor<'a, 'tcx: 'a> {
tcx: TyCtxt<'a, 'tcx, 'tcx>,
in_fn: bool,
in_static: bool,
mut_rvalue_borrows: NodeSet,
param_env: ty::ParamEnv<'tcx>,
identity_substs: &'tcx Substs<'tcx>,
tables: &'a ty::TypeckTables<'tcx>,
result: ItemLocalSet,
}
#[must_use]
#[derive(Debug, PartialEq)]
enum Promotability {
Promotable,
NotPromotable
}
impl BitAnd for Promotability {
type Output = Self;
fn bitand(self, rhs: Self) -> Self {
match (self, rhs) {
(Promotable, NotPromotable) => NotPromotable,
(NotPromotable, Promotable) => NotPromotable,
(NotPromotable, NotPromotable) => NotPromotable,
(Promotable, Promotable) => Promotable,
}
}
}
impl BitOr for Promotability {
type Output = Self;
fn bitor(self, rhs: Self) -> Self {
match (self, rhs) {
(Promotable, NotPromotable) => Promotable,
(NotPromotable, Promotable) => Promotable,
(NotPromotable, NotPromotable) => NotPromotable,
(Promotable, Promotable) => Promotable,
}
}
}
impl<'a, 'gcx> CheckCrateVisitor<'a, 'gcx> {
// Returns true iff all the values of the type are promotable.
fn type_promotability(&mut self, ty: Ty<'gcx>) -> Promotability {
debug!("type_promotability({})", ty);
if ty.is_freeze(self.tcx, self.param_env, DUMMY_SP) &&
!ty.needs_drop(self.tcx, self.param_env) {
Promotable
} else {
NotPromotable
}
}
fn handle_const_fn_call(&mut self, def_id: DefId,
ret_ty: Ty<'gcx>, span: Span) -> Promotability {
if let NotPromotable = self.type_promotability(ret_ty) {
return NotPromotable;
}
let node_check = if let Some(fn_id) = self.tcx.hir.as_local_node_id(def_id) {
FnLikeNode::from_node(self.tcx.hir.get(fn_id)).map_or(false, |fn_like| {
fn_like.constness() == hir::Constness::Const
})
} else {
self.tcx.is_const_fn(def_id)
};
if !node_check {
return NotPromotable
}
if let Some(&attr::Stability {
rustc_const_unstable: Some(attr::RustcConstUnstable {
feature: ref feature_name
}),
.. }) = self.tcx.lookup_stability(def_id) {
let stable_check =
// feature-gate is enabled,
self.tcx.features()
.declared_lib_features
.iter()
.any(|&(ref sym, _)| sym == feature_name) ||
// this comes from a crate with the feature-gate enabled,
!def_id.is_local() ||
// this comes from a macro that has #[allow_internal_unstable]
span.allows_unstable();
if !stable_check {
return NotPromotable
}
};
Promotable
}
/// While the `ExprUseVisitor` walks, we will identify which
/// expressions are borrowed, and insert their ids into this
/// table. Actually, we insert the "borrow-id", which is normally
/// the id of the expession being borrowed: but in the case of
/// `ref mut` borrows, the `id` of the pattern is
/// inserted. Therefore later we remove that entry from the table
/// and transfer it over to the value being matched. This will
/// then prevent said value from being promoted.
fn remove_mut_rvalue_borrow(&mut self, pat: &hir::Pat) -> bool {
let mut any_removed = false;
pat.walk(|p| {
any_removed |= self.mut_rvalue_borrows.remove(&p.id);
true
});
any_removed
}
}
impl<'a, 'tcx> CheckCrateVisitor<'a, 'tcx> {
fn check_nested_body(&mut self, body_id: hir::BodyId) -> Promotability {
let item_id = self.tcx.hir.body_owner(body_id);
let item_def_id = self.tcx.hir.local_def_id(item_id);
let outer_in_fn = self.in_fn;
let outer_tables = self.tables;
let outer_param_env = self.param_env;
let outer_identity_substs = self.identity_substs;
self.in_fn = false;
self.in_static = false;
match self.tcx.hir.body_owner_kind(item_id) {
hir::BodyOwnerKind::Fn => self.in_fn = true,
hir::BodyOwnerKind::Static(_) => self.in_static = true,
_ => {}
};
self.tables = self.tcx.typeck_tables_of(item_def_id);
self.param_env = self.tcx.param_env(item_def_id);
self.identity_substs = Substs::identity_for_item(self.tcx, item_def_id);
let body = self.tcx.hir.body(body_id);
let tcx = self.tcx;
let param_env = self.param_env;
let region_scope_tree = self.tcx.region_scope_tree(item_def_id);
euv::ExprUseVisitor::new(self, tcx, param_env, ®ion_scope_tree, self.tables, None)
.consume_body(body);
let body_promotable = self.check_expr(&body.value);
self.in_fn = outer_in_fn;
self.tables = outer_tables;
self.param_env = outer_param_env;
self.identity_substs = outer_identity_substs;
body_promotable
}
fn check_stmt(&mut self, stmt: &'tcx hir::Stmt) -> Promotability {
match stmt.node {
hir::StmtKind::Decl(ref decl, _node_id) => {
match &decl.node {
hir::DeclKind::Local(local) => {
if self.remove_mut_rvalue_borrow(&local.pat) {
if let Some(init) = &local.init {
self.mut_rvalue_borrows.insert(init.id);
}
}
match local.init {
Some(ref expr) => { let _ = self.check_expr(&expr); },
None => {},
}
NotPromotable
}
// Item statements are allowed
hir::DeclKind::Item(_) => Promotable
}
}
hir::StmtKind::Expr(ref box_expr, _node_id) |
hir::StmtKind::Semi(ref box_expr, _node_id) => {
let _ = self.check_expr(box_expr);
NotPromotable
}
}
}
fn check_expr(&mut self, ex: &'tcx hir::Expr) -> Promotability {
let node_ty = self.tables.node_id_to_type(ex.hir_id);
let mut outer = check_expr_kind(self, ex, node_ty);
outer = outer & check_adjustments(self, ex);
// Handle borrows on (or inside the autorefs of) this expression.
if self.mut_rvalue_borrows.remove(&ex.id) {
outer = NotPromotable
}
if outer == Promotable {
self.result.insert(ex.hir_id.local_id);
}
outer
}
fn check_block(&mut self, block: &'tcx hir::Block) -> Promotability {
let mut iter_result = Promotable;
for index in block.stmts.iter() {
iter_result = iter_result & self.check_stmt(index);
}
match block.expr {
Some(ref box_expr) => iter_result & self.check_expr(&*box_expr),
None => iter_result,
}
}
}
/// This function is used to enforce the constraints on
/// const/static items. It walks through the *value*
/// of the item walking down the expression and evaluating
/// every nested expression. If the expression is not part
/// of a const/static item, it is qualified for promotion
/// instead of producing errors.
fn check_expr_kind<'a, 'tcx>(
v: &mut CheckCrateVisitor<'a, 'tcx>,
e: &'tcx hir::Expr, node_ty: Ty<'tcx>) -> Promotability {
let ty_result = match node_ty.sty {
ty::TyAdt(def, _) if def.has_dtor(v.tcx) => {
NotPromotable
}
_ => Promotable
};
let node_result = match e.node {
hir::ExprKind::Box(ref expr) => {
let _ = v.check_expr(&expr);
NotPromotable
}
hir::ExprKind::Unary(op, ref expr) => {
let expr_promotability = v.check_expr(expr);
if v.tables.is_method_call(e) {
return NotPromotable;
}
if op == hir::UnDeref {
return NotPromotable;
}
expr_promotability
}
hir::ExprKind::Binary(op, ref lhs, ref rhs) => {
let lefty = v.check_expr(lhs);
let righty = v.check_expr(rhs);
if v.tables.is_method_call(e) {
return NotPromotable;
}
match v.tables.node_id_to_type(lhs.hir_id).sty {
ty::TyRawPtr(_) => {
assert!(op.node == hir::BinOpKind::Eq || op.node == hir::BinOpKind::Ne ||
op.node == hir::BinOpKind::Le || op.node == hir::BinOpKind::Lt ||
op.node == hir::BinOpKind::Ge || op.node == hir::BinOpKind::Gt);
NotPromotable
}
_ => lefty & righty
}
}
hir::ExprKind::Cast(ref from, _) => {
let expr_promotability = v.check_expr(from);
debug!("Checking const cast(id={})", from.id);
match v.tables.cast_kinds().get(from.hir_id) {
None => {
v.tcx.sess.delay_span_bug(e.span, "no kind for cast");
NotPromotable
},
Some(&CastKind::PtrAddrCast) | Some(&CastKind::FnPtrAddrCast) => {
NotPromotable
}
_ => expr_promotability
}
}
hir::ExprKind::Path(ref qpath) => {
let def = v.tables.qpath_def(qpath, e.hir_id);
match def {
Def::VariantCtor(..) | Def::StructCtor(..) |
Def::Fn(..) | Def::Method(..) => Promotable,
// References to a static that are themselves within a static
// are inherently promotable with the exception
// of "#[thread_local]" statics, which may not
// outlive the current function
Def::Static(did, _) => {
if v.in_static {
for attr in &v.tcx.get_attrs(did)[..] {
if attr.check_name("thread_local") {
debug!("Reference to Static(id={:?}) is unpromotable \
due to a #[thread_local] attribute", did);
return NotPromotable;
}
}
Promotable
} else {
debug!("Reference to Static(id={:?}) is unpromotable as it is not \
referenced from a static", did);
NotPromotable
}
}
Def::Const(did) |
Def::AssociatedConst(did) => {
let promotable = if v.tcx.trait_of_item(did).is_some() {
// Don't peek inside trait associated constants.
NotPromotable
} else if v.tcx.at(e.span).const_is_rvalue_promotable_to_static(did) {
Promotable
} else {
NotPromotable
};
// Just in case the type is more specific than the definition,
// e.g. impl associated const with type parameters, check it.
// Also, trait associated consts are relaxed by this.
promotable | v.type_promotability(node_ty)
}
_ => NotPromotable
}
}
hir::ExprKind::Call(ref callee, ref hirvec) => {
let mut call_result = v.check_expr(callee);
for index in hirvec.iter() {
call_result = call_result & v.check_expr(index);
}
let mut callee = &**callee;
loop {
callee = match callee.node {
hir::ExprKind::Block(ref block, _) => match block.expr {
Some(ref tail) => &tail,
None => break
},
_ => break
};
}
// The callee is an arbitrary expression, it doesn't necessarily have a definition.
let def = if let hir::ExprKind::Path(ref qpath) = callee.node {
v.tables.qpath_def(qpath, callee.hir_id)
} else {
Def::Err
};
let def_result = match def {
Def::StructCtor(_, CtorKind::Fn) |
Def::VariantCtor(_, CtorKind::Fn) => Promotable,
Def::Fn(did) => {
v.handle_const_fn_call(did, node_ty, e.span)
}
Def::Method(did) => {
match v.tcx.associated_item(did).container {
ty::ImplContainer(_) => {
v.handle_const_fn_call(did, node_ty, e.span)
}
ty::TraitContainer(_) => NotPromotable,
}
}
_ => NotPromotable,
};
def_result & call_result
}
hir::ExprKind::MethodCall(ref _pathsegment, ref _span, ref hirvec) => {
let mut method_call_result = Promotable;
for index in hirvec.iter() {
method_call_result = method_call_result & v.check_expr(index);
}
if let Some(def) = v.tables.type_dependent_defs().get(e.hir_id) {
let def_id = def.def_id();
match v.tcx.associated_item(def_id).container {
ty::ImplContainer(_) => {
method_call_result = method_call_result
& v.handle_const_fn_call(def_id, node_ty, e.span);
}
ty::TraitContainer(_) => return NotPromotable,
};
} else {
v.tcx.sess.delay_span_bug(e.span, "no type-dependent def for method call");
}
method_call_result
}
hir::ExprKind::Struct(ref _qpath, ref hirvec, ref option_expr) => {
let mut struct_result = Promotable;
for index in hirvec.iter() {
struct_result = struct_result & v.check_expr(&index.expr);
}
match *option_expr {
Some(ref expr) => { struct_result = struct_result & v.check_expr(&expr); },
None => {},
}
if let ty::TyAdt(adt, ..) = v.tables.expr_ty(e).sty {
// unsafe_cell_type doesn't necessarily exist with no_core
if Some(adt.did) == v.tcx.lang_items().unsafe_cell_type() {
return NotPromotable;
}
}
struct_result
}
hir::ExprKind::Lit(_) => Promotable,
hir::ExprKind::AddrOf(_, ref expr) |
hir::ExprKind::Repeat(ref expr, _) => {
v.check_expr(&expr)
}
hir::ExprKind::Closure(_capture_clause, ref _box_fn_decl,
body_id, _span, _option_generator_movability) => {
let nested_body_promotable = v.check_nested_body(body_id);
// Paths in constant contexts cannot refer to local variables,
// as there are none, and thus closures can't have upvars there.
if v.tcx.with_freevars(e.id, |fv| !fv.is_empty()) {
NotPromotable
} else {
nested_body_promotable
}
}
hir::ExprKind::Field(ref expr, _ident) => {
let expr_promotability = v.check_expr(&expr);
if let Some(def) = v.tables.expr_ty(expr).ty_adt_def() {
if def.is_union() {
return NotPromotable;
}
}
expr_promotability
}
hir::ExprKind::Block(ref box_block, ref _option_label) => {
v.check_block(box_block)
}
hir::ExprKind::Index(ref lhs, ref rhs) => {
let lefty = v.check_expr(lhs);
let righty = v.check_expr(rhs);
if v.tables.is_method_call(e) {
return NotPromotable;
}
lefty & righty
}
hir::ExprKind::Array(ref hirvec) => {
let mut array_result = Promotable;
for index in hirvec.iter() {
array_result = array_result & v.check_expr(index);
}
array_result
}
hir::ExprKind::Type(ref expr, ref _ty) => {
v.check_expr(&expr)
}
hir::ExprKind::Tup(ref hirvec) => {
let mut tup_result = Promotable;
for index in hirvec.iter() {
tup_result = tup_result & v.check_expr(index);
}
tup_result
}
// Conditional control flow (possible to implement).
hir::ExprKind::Match(ref expr, ref hirvec_arm, ref _match_source) => {
// Compute the most demanding borrow from all the arms'
// patterns and set that on the discriminator.
let mut mut_borrow = false;
for pat in hirvec_arm.iter().flat_map(|arm| &arm.pats) {
mut_borrow = v.remove_mut_rvalue_borrow(pat);
}
if mut_borrow {
v.mut_rvalue_borrows.insert(expr.id);
}
let _ = v.check_expr(expr);
for index in hirvec_arm.iter() {
let _ = v.check_expr(&*index.body);
match index.guard {
Some(ref expr) => {
let _ = v.check_expr(&expr);
},
None => {},
};
}
NotPromotable
}
hir::ExprKind::If(ref lhs, ref rhs, ref option_expr) => {
let _ = v.check_expr(lhs);
let _ = v.check_expr(rhs);
match option_expr {
Some(ref expr) => { let _ = v.check_expr(&expr); },
None => {},
};
NotPromotable
}
// Loops (not very meaningful in constants).
hir::ExprKind::While(ref expr, ref box_block, ref _option_label) => {
let _ = v.check_expr(expr);
let _ = v.check_block(box_block);
NotPromotable
}
hir::ExprKind::Loop(ref box_block, ref _option_label, ref _loop_source) => {
let _ = v.check_block(box_block);
NotPromotable
}
// More control flow (also not very meaningful).
hir::ExprKind::Break(_, ref option_expr) | hir::ExprKind::Ret(ref option_expr) => {
match *option_expr {
Some(ref expr) => { let _ = v.check_expr(&expr); },
None => {},
}
NotPromotable
}
hir::ExprKind::Continue(_) => {
NotPromotable
}
// Generator expressions
hir::ExprKind::Yield(ref expr) => {
let _ = v.check_expr(&expr);
NotPromotable
}
// Expressions with side-effects.
hir::ExprKind::AssignOp(_, ref lhs, ref rhs) | hir::ExprKind::Assign(ref lhs, ref rhs) => {
let _ = v.check_expr(lhs);
let _ = v.check_expr(rhs);
NotPromotable
}
hir::ExprKind::InlineAsm(ref _inline_asm, ref hirvec_lhs, ref hirvec_rhs) => {
for index in hirvec_lhs.iter() {
let _ = v.check_expr(index);
}
for index in hirvec_rhs.iter() {
let _ = v.check_expr(index);
}
NotPromotable
}
};
ty_result & node_result
}
/// Check the adjustments of an expression
fn check_adjustments<'a, 'tcx>(
v: &mut CheckCrateVisitor<'a, 'tcx>,
e: &hir::Expr) -> Promotability {
use rustc::ty::adjustment::*;
let mut adjustments = v.tables.expr_adjustments(e).iter().peekable();
while let Some(adjustment) = adjustments.next() {
match adjustment.kind {
Adjust::NeverToAny |
Adjust::ReifyFnPointer |
Adjust::UnsafeFnPointer |
Adjust::ClosureFnPointer |
Adjust::MutToConstPointer |
Adjust::Borrow(_) |
Adjust::Unsize => {}
Adjust::Deref(_) => {
if let Some(next_adjustment) = adjustments.peek() {
if let Adjust::Borrow(_) = next_adjustment.kind {
continue;
}
}
return NotPromotable;
}
}
}
Promotable
}
impl<'a, 'gcx, 'tcx> euv::Delegate<'tcx> for CheckCrateVisitor<'a, 'gcx> {
fn consume(&mut self,
_consume_id: ast::NodeId,
_consume_span: Span,
_cmt: &mc::cmt_,
_mode: euv::ConsumeMode) {}
fn borrow(&mut self,
borrow_id: ast::NodeId,
_borrow_span: Span,
cmt: &mc::cmt_<'tcx>,
_loan_region: ty::Region<'tcx>,
bk: ty::BorrowKind,
loan_cause: euv::LoanCause) {
debug!(
"borrow(borrow_id={:?}, cmt={:?}, bk={:?}, loan_cause={:?})",
borrow_id,
cmt,
bk,
loan_cause,
);
// Kind of hacky, but we allow Unsafe coercions in constants.
// These occur when we convert a &T or *T to a *U, as well as
// when making a thin pointer (e.g., `*T`) into a fat pointer
// (e.g., `*Trait`).
match loan_cause {
euv::LoanCause::AutoUnsafe => {
return;
}
_ => {}
}
let mut cur = cmt;
loop {
match cur.cat {
Categorization::Rvalue(..) => {
if loan_cause == euv::MatchDiscriminant {
// Ignore the dummy immutable borrow created by EUV.
break;
}
if bk.to_mutbl_lossy() == hir::MutMutable {
self.mut_rvalue_borrows.insert(borrow_id);
}
break;
}
Categorization::StaticItem => {
break;
}
Categorization::Deref(ref cmt, _) |
Categorization::Downcast(ref cmt, _) |
Categorization::Interior(ref cmt, _) => {
cur = cmt;
}
Categorization::Upvar(..) |
Categorization::Local(..) => break,
}
}
}
fn decl_without_init(&mut self, _id: ast::NodeId, _span: Span) {}
fn mutate(&mut self,
_assignment_id: ast::NodeId,
_assignment_span: Span,
_assignee_cmt: &mc::cmt_,
_mode: euv::MutateMode) {
}
fn matched_pat(&mut self, _: &hir::Pat, _: &mc::cmt_, _: euv::MatchMode) {}
fn consume_pat(&mut self, _consume_pat: &hir::Pat, _cmt: &mc::cmt_, _mode: euv::ConsumeMode) {}
}