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mutability.rs
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//! Finds if an expression is an immutable context or a mutable context, which is used in selecting
//! between `Deref` and `DerefMut` or `Index` and `IndexMut` or similar.
use chalk_ir::Mutability;
use hir_def::{
hir::{Array, BinaryOp, BindingAnnotation, Expr, ExprId, PatId, Statement, UnaryOp},
lang_item::LangItem,
};
use hir_expand::name;
use crate::{lower::lower_to_chalk_mutability, Adjust, Adjustment, AutoBorrow, OverloadedDeref};
use super::InferenceContext;
impl InferenceContext<'_> {
pub(crate) fn infer_mut_body(&mut self) {
self.infer_mut_expr(self.body.body_expr, Mutability::Not);
}
fn infer_mut_expr(&mut self, tgt_expr: ExprId, mut mutability: Mutability) {
if let Some(adjustments) = self.result.expr_adjustments.get_mut(&tgt_expr) {
for adj in adjustments.iter_mut().rev() {
match &mut adj.kind {
Adjust::NeverToAny | Adjust::Deref(None) | Adjust::Pointer(_) => (),
Adjust::Deref(Some(d)) => *d = OverloadedDeref(Some(mutability)),
Adjust::Borrow(b) => match b {
AutoBorrow::Ref(m) | AutoBorrow::RawPtr(m) => mutability = *m,
},
}
}
}
self.infer_mut_expr_without_adjust(tgt_expr, mutability);
}
fn infer_mut_expr_without_adjust(&mut self, tgt_expr: ExprId, mutability: Mutability) {
match &self.body[tgt_expr] {
Expr::Missing => (),
Expr::InlineAsm(e) => self.infer_mut_expr_without_adjust(e.e, Mutability::Not),
Expr::OffsetOf(_) => (),
&Expr::If { condition, then_branch, else_branch } => {
self.infer_mut_expr(condition, Mutability::Not);
self.infer_mut_expr(then_branch, Mutability::Not);
if let Some(else_branch) = else_branch {
self.infer_mut_expr(else_branch, Mutability::Not);
}
}
Expr::Const(id) => {
let loc = self.db.lookup_intern_anonymous_const(*id);
self.infer_mut_expr(loc.root, Mutability::Not);
}
Expr::Let { pat, expr } => self.infer_mut_expr(*expr, self.pat_bound_mutability(*pat)),
Expr::Block { id: _, statements, tail, label: _ }
| Expr::Async { id: _, statements, tail }
| Expr::Unsafe { id: _, statements, tail } => {
for st in statements.iter() {
match st {
Statement::Let { pat, type_ref: _, initializer, else_branch } => {
if let Some(i) = initializer {
self.infer_mut_expr(*i, self.pat_bound_mutability(*pat));
}
if let Some(e) = else_branch {
self.infer_mut_expr(*e, Mutability::Not);
}
}
Statement::Expr { expr, has_semi: _ } => {
self.infer_mut_expr(*expr, Mutability::Not);
}
Statement::Item => (),
}
}
if let Some(tail) = tail {
self.infer_mut_expr(*tail, Mutability::Not);
}
}
Expr::MethodCall { receiver: it, method_name: _, args, generic_args: _ }
| Expr::Call { callee: it, args, is_assignee_expr: _ } => {
self.infer_mut_not_expr_iter(args.iter().copied().chain(Some(*it)));
}
Expr::Match { expr, arms } => {
let m = self.pat_iter_bound_mutability(arms.iter().map(|it| it.pat));
self.infer_mut_expr(*expr, m);
for arm in arms.iter() {
self.infer_mut_expr(arm.expr, Mutability::Not);
if let Some(g) = arm.guard {
self.infer_mut_expr(g, Mutability::Not);
}
}
}
Expr::Yield { expr }
| Expr::Yeet { expr }
| Expr::Return { expr }
| Expr::Break { expr, label: _ } => {
if let &Some(expr) = expr {
self.infer_mut_expr(expr, Mutability::Not);
}
}
Expr::Become { expr } => {
self.infer_mut_expr(*expr, Mutability::Not);
}
Expr::RecordLit { path: _, fields, spread, ellipsis: _, is_assignee_expr: _ } => {
self.infer_mut_not_expr_iter(fields.iter().map(|it| it.expr).chain(*spread))
}
&Expr::Index { base, index, is_assignee_expr: _ } => {
if mutability == Mutability::Mut {
if let Some((f, _)) = self.result.method_resolutions.get_mut(&tgt_expr) {
if let Some(index_trait) = self
.db
.lang_item(self.table.trait_env.krate, LangItem::IndexMut)
.and_then(|l| l.as_trait())
{
if let Some(index_fn) =
self.db.trait_data(index_trait).method_by_name(&name![index_mut])
{
*f = index_fn;
let base_adjustments = self
.result
.expr_adjustments
.get_mut(&base)
.and_then(|it| it.last_mut());
if let Some(Adjustment {
kind: Adjust::Borrow(AutoBorrow::Ref(mutability)),
..
}) = base_adjustments
{
*mutability = Mutability::Mut;
}
}
}
}
}
self.infer_mut_expr(base, mutability);
self.infer_mut_expr(index, Mutability::Not);
}
Expr::UnaryOp { expr, op: UnaryOp::Deref } => {
if let Some((f, _)) = self.result.method_resolutions.get_mut(&tgt_expr) {
if mutability == Mutability::Mut {
if let Some(deref_trait) = self
.db
.lang_item(self.table.trait_env.krate, LangItem::DerefMut)
.and_then(|l| l.as_trait())
{
if let Some(deref_fn) =
self.db.trait_data(deref_trait).method_by_name(&name![deref_mut])
{
*f = deref_fn;
}
}
}
}
self.infer_mut_expr(*expr, mutability);
}
Expr::Field { expr, name: _ } => {
self.infer_mut_expr(*expr, mutability);
}
Expr::UnaryOp { expr, op: _ }
| Expr::Range { lhs: Some(expr), rhs: None, range_type: _ }
| Expr::Range { rhs: Some(expr), lhs: None, range_type: _ }
| Expr::Await { expr }
| Expr::Box { expr }
| Expr::Loop { body: expr, label: _ }
| Expr::Cast { expr, type_ref: _ } => {
self.infer_mut_expr(*expr, Mutability::Not);
}
Expr::Ref { expr, rawness: _, mutability } => {
let mutability = lower_to_chalk_mutability(*mutability);
self.infer_mut_expr(*expr, mutability);
}
Expr::BinaryOp { lhs, rhs, op: Some(BinaryOp::Assignment { .. }) } => {
self.infer_mut_expr(*lhs, Mutability::Mut);
self.infer_mut_expr(*rhs, Mutability::Not);
}
Expr::Array(Array::Repeat { initializer: lhs, repeat: rhs })
| Expr::BinaryOp { lhs, rhs, op: _ }
| Expr::Range { lhs: Some(lhs), rhs: Some(rhs), range_type: _ } => {
self.infer_mut_expr(*lhs, Mutability::Not);
self.infer_mut_expr(*rhs, Mutability::Not);
}
Expr::Closure { body, .. } => {
self.infer_mut_expr(*body, Mutability::Not);
}
Expr::Tuple { exprs, is_assignee_expr: _ }
| Expr::Array(Array::ElementList { elements: exprs, is_assignee_expr: _ }) => {
self.infer_mut_not_expr_iter(exprs.iter().copied());
}
// These don't need any action, as they don't have sub expressions
Expr::Range { lhs: None, rhs: None, range_type: _ }
| Expr::Literal(_)
| Expr::Path(_)
| Expr::Continue { .. }
| Expr::Underscore => (),
}
}
fn infer_mut_not_expr_iter(&mut self, exprs: impl Iterator<Item = ExprId>) {
for expr in exprs {
self.infer_mut_expr(expr, Mutability::Not);
}
}
fn pat_iter_bound_mutability(&self, mut pat: impl Iterator<Item = PatId>) -> Mutability {
if pat.any(|p| self.pat_bound_mutability(p) == Mutability::Mut) {
Mutability::Mut
} else {
Mutability::Not
}
}
/// Checks if the pat contains a `ref mut` binding. Such paths makes the context of bounded expressions
/// mutable. For example in `let (ref mut x0, ref x1) = *it;` we need to use `DerefMut` for `*it` but in
/// `let (ref x0, ref x1) = *it;` we should use `Deref`.
fn pat_bound_mutability(&self, pat: PatId) -> Mutability {
let mut r = Mutability::Not;
self.body.walk_bindings_in_pat(pat, |b| {
if self.body.bindings[b].mode == BindingAnnotation::RefMut {
r = Mutability::Mut;
}
});
r
}
}