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android / toolchain / rustc / refs/heads/main / . / src / tools / rust-analyzer / crates / ide-diagnostics / src / handlers / mutability_errors.rs
blob: 91f1058d65bbcf32f945290942fc629beda8309b [file] [log] [blame]
use ide_db::source_change::SourceChange;
use syntax::{AstNode, SyntaxKind, SyntaxNode, SyntaxToken, T};
use text_edit::TextEdit;
use crate::{fix, Diagnostic, DiagnosticCode, DiagnosticsContext};
// Diagnostic: need-mut
//
// This diagnostic is triggered on mutating an immutable variable.
pub(crate) fn need_mut(ctx: &DiagnosticsContext<'_>, d: &hir::NeedMut) -> Diagnostic {
let fixes = (|| {
if d.local.is_ref(ctx.sema.db) {
// There is no simple way to add `mut` to `ref x` and `ref mut x`
return None;
}
let file_id = d.span.file_id.file_id()?;
let mut edit_builder = TextEdit::builder();
let use_range = d.span.value.text_range();
for source in d.local.sources(ctx.sema.db) {
let Some(ast) = source.name() else { continue };
// FIXME: macros
edit_builder.insert(ast.value.syntax().text_range().start(), "mut ".to_owned());
}
let edit = edit_builder.finish();
Some(vec![fix(
"add_mut",
"Change it to be mutable",
SourceChange::from_text_edit(file_id, edit),
use_range,
)])
})();
Diagnostic::new_with_syntax_node_ptr(
ctx,
// FIXME: `E0384` is not the only error that this diagnostic handles
DiagnosticCode::RustcHardError("E0384"),
format!(
"cannot mutate immutable variable `{}`",
d.local.name(ctx.sema.db).display(ctx.sema.db)
),
d.span,
)
.with_fixes(fixes)
}
// Diagnostic: unused-mut
//
// This diagnostic is triggered when a mutable variable isn't actually mutated.
pub(crate) fn unused_mut(ctx: &DiagnosticsContext<'_>, d: &hir::UnusedMut) -> Diagnostic {
let ast = d.local.primary_source(ctx.sema.db).syntax_ptr();
let fixes = (|| {
let file_id = ast.file_id.file_id()?;
let mut edit_builder = TextEdit::builder();
let use_range = ast.value.text_range();
for source in d.local.sources(ctx.sema.db) {
let ast = source.syntax();
let Some(mut_token) = token(ast, T![mut]) else { continue };
edit_builder.delete(mut_token.text_range());
if let Some(token) = mut_token.next_token() {
if token.kind() == SyntaxKind::WHITESPACE {
edit_builder.delete(token.text_range());
}
}
}
let edit = edit_builder.finish();
Some(vec![fix(
"remove_mut",
"Remove unnecessary `mut`",
SourceChange::from_text_edit(file_id, edit),
use_range,
)])
})();
let ast = d.local.primary_source(ctx.sema.db).syntax_ptr();
Diagnostic::new_with_syntax_node_ptr(
ctx,
DiagnosticCode::RustcLint("unused_mut"),
"variable does not need to be mutable",
ast,
)
.experimental() // Not supporting `#[allow(unused_mut)]` in proc macros leads to false positive.
.with_fixes(fixes)
}
pub(super) fn token(parent: &SyntaxNode, kind: SyntaxKind) -> Option<SyntaxToken> {
parent.children_with_tokens().filter_map(|it| it.into_token()).find(|it| it.kind() == kind)
}
#[cfg(test)]
mod tests {
use crate::tests::{check_diagnostics, check_diagnostics_with_disabled, check_fix};
#[test]
fn unused_mut_simple() {
check_diagnostics(
r#"
fn f(_: i32) {}
fn main() {
let mut x = 2;
//^^^^^ 💡 warn: variable does not need to be mutable
f(x);
}
"#,
);
}
#[test]
fn no_false_positive_simple() {
check_diagnostics(
r#"
fn f(_: i32) {}
fn main() {
let x = 2;
f(x);
}
"#,
);
check_diagnostics(
r#"
fn f(_: i32) {}
fn main() {
let mut x = 2;
x = 5;
f(x);
}
"#,
);
}
#[test]
fn multiple_errors_for_single_variable() {
check_diagnostics(
r#"
fn f(_: i32) {}
fn main() {
let x = 2;
x = 10;
//^^^^^^ 💡 error: cannot mutate immutable variable `x`
x = 5;
//^^^^^ 💡 error: cannot mutate immutable variable `x`
&mut x;
//^^^^^^ 💡 error: cannot mutate immutable variable `x`
f(x);
}
"#,
);
}
#[test]
fn unused_mut_fix() {
check_fix(
r#"
fn f(_: i32) {}
fn main() {
let mu$0t x = 2;
f(x);
}
"#,
r#"
fn f(_: i32) {}
fn main() {
let x = 2;
f(x);
}
"#,
);
check_fix(
r#"
fn f(_: i32) {}
fn main() {
let ((mu$0t x, _) | (_, mut x)) = (2, 3);
f(x);
}
"#,
r#"
fn f(_: i32) {}
fn main() {
let ((x, _) | (_, x)) = (2, 3);
f(x);
}
"#,
);
}
#[test]
fn need_mut_fix() {
check_fix(
r#"
fn f(_: i32) {}
fn main() {
let x = 2;
x$0 = 5;
f(x);
}
"#,
r#"
fn f(_: i32) {}
fn main() {
let mut x = 2;
x = 5;
f(x);
}
"#,
);
check_fix(
r#"
fn f(_: i32) {}
fn main() {
let ((x, _) | (_, x)) = (2, 3);
x =$0 4;
f(x);
}
"#,
r#"
fn f(_: i32) {}
fn main() {
let ((mut x, _) | (_, mut x)) = (2, 3);
x = 4;
f(x);
}
"#,
);
check_fix(
r#"
struct Foo(i32);
impl Foo {
fn foo(self) {
self = Fo$0o(5);
}
}
"#,
r#"
struct Foo(i32);
impl Foo {
fn foo(mut self) {
self = Foo(5);
}
}
"#,
);
}
#[test]
fn need_mut_fix_not_applicable_on_ref() {
check_diagnostics(
r#"
fn main() {
let ref x = 2;
x = &5;
//^^^^^^ error: cannot mutate immutable variable `x`
}
"#,
);
check_diagnostics(
r#"
fn main() {
let ref mut x = 2;
x = &mut 5;
//^^^^^^^^^^ error: cannot mutate immutable variable `x`
}
"#,
);
}
#[test]
fn field_mutate() {
check_diagnostics(
r#"
fn f(_: i32) {}
fn main() {
let mut x = (2, 7);
//^^^^^ 💡 warn: variable does not need to be mutable
f(x.1);
}
"#,
);
check_diagnostics(
r#"
fn f(_: i32) {}
fn main() {
let mut x = (2, 7);
x.0 = 5;
f(x.1);
}
"#,
);
check_diagnostics(
r#"
fn f(_: i32) {}
fn main() {
let x = (2, 7);
x.0 = 5;
//^^^^^^^ 💡 error: cannot mutate immutable variable `x`
f(x.1);
}
"#,
);
}
#[test]
fn mutable_reference() {
check_diagnostics(
r#"
fn main() {
let mut x = &mut 2;
//^^^^^ 💡 warn: variable does not need to be mutable
*x = 5;
}
"#,
);
check_diagnostics(
r#"
fn main() {
let x = 2;
&mut x;
//^^^^^^ 💡 error: cannot mutate immutable variable `x`
}
"#,
);
check_diagnostics(
r#"
fn main() {
let x_own = 2;
let ref mut x_ref = x_own;
//^^^^^^^^^^^^^ 💡 error: cannot mutate immutable variable `x_own`
_ = x_ref;
}
"#,
);
check_diagnostics(
r#"
struct Foo;
impl Foo {
fn method(&mut self, _x: i32) {}
}
fn main() {
let x = Foo;
x.method(2);
//^ 💡 error: cannot mutate immutable variable `x`
}
"#,
);
}
#[test]
fn regression_14310() {
check_diagnostics(
r#"
//- minicore: copy, builtin_impls
fn clone(mut i: &!) -> ! {
//^^^^^ 💡 warn: variable does not need to be mutable
*i
}
"#,
);
}
#[test]
fn match_closure_capture() {
check_diagnostics(
r#"
//- minicore: option
fn main() {
let mut v = &mut Some(2);
//^^^^^ 💡 warn: variable does not need to be mutable
let _ = || match v {
Some(k) => {
*k = 5;
}
None => {}
};
let v = &mut Some(2);
let _ = || match v {
//^ 💡 error: cannot mutate immutable variable `v`
ref mut k => {
*k = &mut Some(5);
}
};
}
"#,
);
}
#[test]
fn match_bindings() {
check_diagnostics(
r#"
fn main() {
match (2, 3) {
(x, mut y) => {
//^^^^^ 💡 warn: variable does not need to be mutable
x = 7;
//^^^^^ 💡 error: cannot mutate immutable variable `x`
_ = y;
}
}
}
"#,
);
}
#[test]
fn mutation_in_dead_code() {
// This one is interesting. Dead code is not represented at all in the MIR, so
// there would be no mutability error for locals in dead code. Rustc tries to
// not emit `unused_mut` in this case, but since it works without `mut`, and
// special casing it is not trivial, we emit it.
// Update: now MIR based `unused-variable` is taking over `unused-mut` for the same reason.
check_diagnostics(
r#"
fn main() {
return;
let mut x = 2;
//^^^^^ warn: unused variable
&mut x;
}
"#,
);
check_diagnostics(
r#"
fn main() {
loop {}
let mut x = 2;
//^^^^^ warn: unused variable
&mut x;
}
"#,
);
check_diagnostics_with_disabled(
r#"
enum X {}
fn g() -> X {
loop {}
}
fn f() -> ! {
loop {}
}
fn main(b: bool) {
if b {
f();
} else {
g();
}
let mut x = 2;
//^^^^^ warn: unused variable
&mut x;
}
"#,
&["remove-unnecessary-else"],
);
check_diagnostics_with_disabled(
r#"
fn main(b: bool) {
if b {
loop {}
} else {
return;
}
let mut x = 2;
//^^^^^ warn: unused variable
&mut x;
}
"#,
&["remove-unnecessary-else"],
);
}
#[test]
fn initialization_is_not_mutation() {
check_diagnostics(
r#"
fn f(_: i32) {}
fn main() {
let mut x;
//^^^^^ 💡 warn: variable does not need to be mutable
x = 5;
f(x);
}
"#,
);
check_diagnostics(
r#"
fn f(_: i32) {}
fn main(b: bool) {
let mut x;
//^^^^^ 💡 warn: variable does not need to be mutable
if b {
x = 1;
} else {
x = 3;
}
f(x);
}
"#,
);
check_diagnostics(
r#"
fn f(_: i32) {}
fn main(b: bool) {
let x;
if b {
x = 1;
}
x = 3;
//^^^^^ 💡 error: cannot mutate immutable variable `x`
f(x);
}
"#,
);
check_diagnostics(
r#"
fn f(_: i32) {}
fn main() {
let x;
loop {
x = 1;
//^^^^^ 💡 error: cannot mutate immutable variable `x`
f(x);
}
}
"#,
);
check_diagnostics(
r#"
fn check(_: i32) -> bool {
false
}
fn main() {
loop {
let x = 1;
if check(x) {
break;
}
let y = (1, 2);
if check(y.1) {
return;
}
let z = (1, 2);
match z {
(k @ 5, ref mut t) if { continue; } => {
//^^^^^^^^^ 💡 error: cannot mutate immutable variable `z`
*t = 5;
_ = k;
}
_ => {
let y = (1, 2);
if check(y.1) {
return;
}
}
}
}
}
"#,
);
check_diagnostics(
r#"
fn f(_: i32) {}
fn main() {
loop {
let mut x = 1;
//^^^^^ 💡 warn: variable does not need to be mutable
f(x);
if let mut y = 2 {
//^^^^^ 💡 warn: variable does not need to be mutable
f(y);
}
match 3 {
mut z => f(z),
//^^^^^ 💡 warn: variable does not need to be mutable
}
}
}
"#,
);
}
#[test]
fn initialization_is_not_mutation_in_loop() {
check_diagnostics(
r#"
fn main() {
let a;
loop {
let c @ (
mut b,
//^^^^^ 💡 warn: variable does not need to be mutable
mut d
//^^^^^ 💡 warn: variable does not need to be mutable
);
a = 1;
//^^^^^ 💡 error: cannot mutate immutable variable `a`
b = 1;
c = (2, 3);
d = 3;
_ = (c, b, d);
}
}
"#,
);
}
#[test]
fn function_arguments_are_initialized() {
check_diagnostics(
r#"
fn f(mut x: i32) {
//^^^^^ 💡 warn: variable does not need to be mutable
f(x + 2);
}
"#,
);
check_diagnostics(
r#"
fn f(x: i32) {
x = 5;
//^^^^^ 💡 error: cannot mutate immutable variable `x`
}
"#,
);
check_diagnostics(
r#"
fn f((x, y): (i32, i32)) {
let t = [0; 2];
x = 5;
//^^^^^ 💡 error: cannot mutate immutable variable `x`
_ = x;
_ = y;
_ = t;
}
"#,
);
}
#[test]
fn no_diagnostics_in_case_of_multiple_bounds() {
check_diagnostics(
r#"
fn f() {
let (b, a, b) = (2, 3, 5);
a = 8;
//^^^^^ 💡 error: cannot mutate immutable variable `a`
}
"#,
);
}
#[test]
fn for_loop() {
check_diagnostics(
r#"
//- minicore: iterators, copy
fn f(x: [(i32, u8); 10]) {
for (a, mut b) in x {
//^^^^^ 💡 warn: variable does not need to be mutable
a = 2;
//^^^^^ 💡 error: cannot mutate immutable variable `a`
_ = b;
}
}
"#,
);
}
#[test]
fn while_let() {
check_diagnostics(
r#"
//- minicore: iterators, copy
fn f(x: [(i32, u8); 10]) {
let mut it = x.into_iter();
while let Some((a, mut b)) = it.next() {
//^^^^^ 💡 warn: variable does not need to be mutable
while let Some((c, mut d)) = it.next() {
//^^^^^ 💡 warn: variable does not need to be mutable
a = 2;
//^^^^^ 💡 error: cannot mutate immutable variable `a`
c = 2;
//^^^^^ 💡 error: cannot mutate immutable variable `c`
_ = (b, d);
}
}
}
"#,
);
}
#[test]
fn index() {
check_diagnostics(
r#"
//- minicore: coerce_unsized, index, slice
fn f() {
let x = [1, 2, 3];
x[2] = 5;
//^^^^^^^^ 💡 error: cannot mutate immutable variable `x`
let x = &mut x;
//^^^^^^ 💡 error: cannot mutate immutable variable `x`
let mut x = x;
//^^^^^ 💡 warn: variable does not need to be mutable
x[2] = 5;
}
"#,
);
}
#[test]
fn overloaded_index() {
check_diagnostics(
r#"
//- minicore: index, copy
use core::ops::{Index, IndexMut};
struct Foo;
impl Index<usize> for Foo {
type Output = (i32, u8);
fn index(&self, _index: usize) -> &(i32, u8) {
&(5, 2)
}
}
impl IndexMut<usize> for Foo {
fn index_mut(&mut self, _index: usize) -> &mut (i32, u8) {
&mut (5, 2)
}
}
fn f() {
let mut x = Foo;
//^^^^^ 💡 warn: variable does not need to be mutable
let y = &x[2];
_ = (x, y);
let x = Foo;
let y = &mut x[2];
//^💡 error: cannot mutate immutable variable `x`
_ = (x, y);
let mut x = &mut Foo;
//^^^^^ 💡 warn: variable does not need to be mutable
let y: &mut (i32, u8) = &mut x[2];
_ = (x, y);
let x = Foo;
let ref mut y = x[7];
//^ 💡 error: cannot mutate immutable variable `x`
_ = (x, y);
let (ref mut y, _) = x[3];
//^ 💡 error: cannot mutate immutable variable `x`
_ = y;
match x[10] {
//^ 💡 error: cannot mutate immutable variable `x`
(ref y, 5) => _ = y,
(_, ref mut y) => _ = y,
}
let mut x = Foo;
let mut i = 5;
//^^^^^ 💡 warn: variable does not need to be mutable
let y = &mut x[i];
_ = y;
}
"#,
);
}
#[test]
fn overloaded_deref() {
check_diagnostics(
r#"
//- minicore: deref_mut, copy
use core::ops::{Deref, DerefMut};
struct Foo;
impl Deref for Foo {
type Target = (i32, u8);
fn deref(&self) -> &(i32, u8) {
&(5, 2)
}
}
impl DerefMut for Foo {
fn deref_mut(&mut self) -> &mut (i32, u8) {
&mut (5, 2)
}
}
fn f() {
let mut x = Foo;
//^^^^^ 💡 warn: variable does not need to be mutable
let y = &*x;
_ = (x, y);
let x = Foo;
let y = &mut *x;
//^^ 💡 error: cannot mutate immutable variable `x`
_ = (x, y);
let x = Foo;
//^ warn: unused variable
let x = Foo;
let y: &mut (i32, u8) = &mut x;
//^^^^^^ 💡 error: cannot mutate immutable variable `x`
_ = (x, y);
let ref mut y = *x;
//^^ 💡 error: cannot mutate immutable variable `x`
_ = y;
let (ref mut y, _) = *x;
//^^ 💡 error: cannot mutate immutable variable `x`
_ = y;
match *x {
//^^ 💡 error: cannot mutate immutable variable `x`
(ref y, 5) => _ = y,
(_, ref mut y) => _ = y,
}
}
"#,
);
}
#[test]
fn or_pattern() {
check_diagnostics(
r#"
//- minicore: option
fn f(_: i32) {}
fn main() {
let ((Some(mut x), None) | (_, Some(mut x))) = (None, Some(7)) else { return };
//^^^^^ 💡 warn: variable does not need to be mutable
f(x);
}
"#,
);
check_diagnostics(
r#"
struct Foo(i32);
const X: Foo = Foo(5);
const Y: Foo = Foo(12);
const fn f(mut a: Foo) -> bool {
//^^^^^ 💡 warn: variable does not need to be mutable
match a {
X | Y => true,
_ => false,
}
}
"#,
);
}
#[test]
fn or_pattern_no_terminator() {
check_diagnostics(
r#"
enum Foo {
A, B, C, D
}
use Foo::*;
fn f(inp: (Foo, Foo, Foo, Foo)) {
let ((A, B, _, x) | (B, C | D, x, _)) = inp else {
return;
};
x = B;
//^^^^^ 💡 error: cannot mutate immutable variable `x`
}
"#,
);
}
#[test]
// FIXME: We should have tests for `is_ty_uninhabited_from`
fn regression_14421() {
check_diagnostics(
r#"
pub enum Tree {
Node(TreeNode),
Leaf(TreeLeaf),
}
struct Box<T>(&T);
pub struct TreeNode {
pub depth: usize,
pub children: [Box<Tree>; 8]
}
pub struct TreeLeaf {
pub depth: usize,
pub data: u8
}
pub fn test() {
let mut tree = Tree::Leaf(
//^^^^^^^^ 💡 warn: variable does not need to be mutable
TreeLeaf {
depth: 0,
data: 0
}
);
_ = tree;
}
"#,
);
}
#[test]
fn fn_traits() {
check_diagnostics(
r#"
//- minicore: fn
fn fn_ref(mut x: impl Fn(u8) -> u8) -> u8 {
//^^^^^ 💡 warn: variable does not need to be mutable
x(2)
}
fn fn_mut(x: impl FnMut(u8) -> u8) -> u8 {
x(2)
//^ 💡 error: cannot mutate immutable variable `x`
}
fn fn_borrow_mut(mut x: &mut impl FnMut(u8) -> u8) -> u8 {
//^^^^^ 💡 warn: variable does not need to be mutable
x(2)
}
fn fn_once(mut x: impl FnOnce(u8) -> u8) -> u8 {
//^^^^^ 💡 warn: variable does not need to be mutable
x(2)
}
"#,
);
}
#[test]
fn closure() {
// FIXME: Diagnostic spans are inconsistent inside and outside closure
check_diagnostics(
r#"
//- minicore: copy, fn
struct X;
impl X {
fn mutate(&mut self) {}
}
fn f() {
let x = 5;
let closure1 = || { x = 2; };
//^ 💡 error: cannot mutate immutable variable `x`
let _ = closure1();
//^^^^^^^^ 💡 error: cannot mutate immutable variable `closure1`
let closure2 = || { x = x; };
//^ 💡 error: cannot mutate immutable variable `x`
let closure3 = || {
let x = 2;
x = 5;
//^^^^^ 💡 error: cannot mutate immutable variable `x`
x
};
let x = X;
let closure4 = || { x.mutate(); };
//^ 💡 error: cannot mutate immutable variable `x`
_ = (closure2, closure3, closure4);
}
"#,
);
check_diagnostics(
r#"
//- minicore: copy, fn
fn f() {
let mut x = 5;
//^^^^^ 💡 warn: variable does not need to be mutable
let mut y = 2;
y = 7;
let closure = || {
let mut z = 8;
z = 3;
let mut k = z;
//^^^^^ 💡 warn: variable does not need to be mutable
_ = k;
};
_ = (x, closure);
}
"#,
);
check_diagnostics(
r#"
//- minicore: copy, fn
fn f() {
let closure = || {
|| {
|| {
let x = 2;
|| { || { x = 5; } }
//^ 💡 error: cannot mutate immutable variable `x`
}
}
};
_ = closure;
}
"#,
);
check_diagnostics(
r#"
//- minicore: copy, fn
fn f() {
struct X;
let mut x = X;
//^^^^^ 💡 warn: variable does not need to be mutable
let c1 = || x;
let mut x = X;
let c2 = || { x = X; x };
let mut x = X;
let c3 = move || { x = X; };
_ = (c1, c2, c3);
}
"#,
);
check_diagnostics(
r#"
//- minicore: copy, fn, deref_mut
struct X(i32, i64);
fn f() {
let mut x = &mut 5;
//^^^^^ 💡 warn: variable does not need to be mutable
let closure1 = || { *x = 2; };
let _ = closure1();
//^^^^^^^^ 💡 error: cannot mutate immutable variable `closure1`
let mut x = &mut 5;
//^^^^^ 💡 warn: variable does not need to be mutable
let closure1 = || { *x = 2; &x; };
let _ = closure1();
//^^^^^^^^ 💡 error: cannot mutate immutable variable `closure1`
let mut x = &mut 5;
let closure1 = || { *x = 2; &x; x = &mut 3; };
let _ = closure1();
//^^^^^^^^ 💡 error: cannot mutate immutable variable `closure1`
let mut x = &mut 5;
//^^^^^ 💡 warn: variable does not need to be mutable
let closure1 = move || { *x = 2; };
let _ = closure1();
//^^^^^^^^ 💡 error: cannot mutate immutable variable `closure1`
let mut x = &mut X(1, 2);
//^^^^^ 💡 warn: variable does not need to be mutable
let closure1 = || { x.0 = 2; };
let _ = closure1();
//^^^^^^^^ 💡 error: cannot mutate immutable variable `closure1`
}
"#,
);
}
#[test]
fn slice_pattern() {
check_diagnostics(
r#"
//- minicore: coerce_unsized, deref_mut, slice, copy
fn x(t: &[u8]) {
match t {
&[a, mut b] | &[a, _, mut b] => {
//^^^^^ 💡 warn: variable does not need to be mutable
a = 2;
//^^^^^ 💡 error: cannot mutate immutable variable `a`
_ = b;
}
_ => {}
}
}
"#,
);
}
#[test]
fn boxes() {
check_diagnostics(
r#"
//- minicore: coerce_unsized, deref_mut, slice
use core::ops::{Deref, DerefMut};
use core::{marker::Unsize, ops::CoerceUnsized};
#[lang = "owned_box"]
pub struct Box<T: ?Sized> {
inner: *mut T,
}
impl<T> Box<T> {
fn new(t: T) -> Self {
#[rustc_box]
Box::new(t)
}
}
impl<T: ?Sized> Deref for Box<T> {
type Target = T;
fn deref(&self) -> &T {
&**self
}
}
impl<T: ?Sized> DerefMut for Box<T> {
fn deref_mut(&mut self) -> &mut T {
&mut **self
}
}
fn f() {
let x = Box::new(5);
x = Box::new(7);
//^^^^^^^^^^^^^^^ 💡 error: cannot mutate immutable variable `x`
let x = Box::new(5);
*x = 7;
//^^^^^^ 💡 error: cannot mutate immutable variable `x`
let mut y = Box::new(5);
//^^^^^ 💡 warn: variable does not need to be mutable
*x = *y;
//^^^^^^^ 💡 error: cannot mutate immutable variable `x`
let x = Box::new(5);
let closure = || *x = 2;
//^ 💡 error: cannot mutate immutable variable `x`
_ = closure;
}
"#,
);
}
#[test]
fn regression_15143() {
check_diagnostics(
r#"
trait Tr {
type Ty;
}
struct A;
impl Tr for A {
type Ty = (u32, i64);
}
struct B<T: Tr> {
f: <T as Tr>::Ty,
}
fn main(b: B<A>) {
let f = b.f.0;
f = 5;
//^^^^^ 💡 error: cannot mutate immutable variable `f`
}
"#,
);
}
#[test]
fn allow_unused_mut_for_identifiers_starting_with_underline() {
check_diagnostics(
r#"
fn f(_: i32) {}
fn main() {
let mut _x = 2;
f(_x);
}
"#,
);
}
#[test]
fn respect_lint_attributes_for_unused_mut() {
check_diagnostics(
r#"
fn f(_: i32) {}
fn main() {
#[allow(unused_mut)]
let mut x = 2;
f(x);
}
fn main2() {
#[deny(unused_mut)]
let mut x = 2;
//^^^^^ 💡 error: variable does not need to be mutable
f(x);
}
"#,
);
check_diagnostics(
r#"
macro_rules! mac {
($($x:expr),*$(,)*) => ({
#[allow(unused_mut)]
let mut vec = 2;
vec
});
}
fn main2() {
let mut x = mac![];
//^^^^^ 💡 warn: variable does not need to be mutable
_ = x;
}
"#,
);
}
#[test]
fn regression_15099() {
check_diagnostics(
r#"
//- minicore: iterator, range
fn f() {
loop {}
for _ in 0..2 {}
}
"#,
);
}
#[test]
fn regression_15623() {
check_diagnostics(
r#"
//- minicore: fn
struct Foo;
impl Foo {
fn needs_mut(&mut self) {}
}
fn foo(mut foo: Foo) {
let mut call_me = || {
let 0 = 1 else { return };
foo.needs_mut();
};
call_me();
}
"#,
);
}
#[test]
fn regression_15670() {
check_diagnostics(
r#"
//- minicore: fn
pub struct A {}
pub unsafe fn foo(a: *mut A) {
let mut b = || -> *mut A { &mut *a };
//^^^^^ 💡 warn: variable does not need to be mutable
let _ = b();
}
"#,
);
}
}