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This commit is contained in:
Deadbeef 2023-07-23 09:56:56 +00:00
parent 626efab67f
commit 2a76c570d6
7 changed files with 127 additions and 73 deletions
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2
compiler/rustc_lint/messages.ftl
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@ -412,7 +412,7 @@ lint_non_upper_case_global = {$sort} `{$name}` should have an upper case name
.label = should have an UPPER_CASE name .label = should have an UPPER_CASE name
lint_noop_method_call = call to `.{$method}()` on a reference in this situation does nothing lint_noop_method_call = call to `.{$method}()` on a reference in this situation does nothing
.label = unnecessary method call .suggestion = remove this redundant call
.note = the type `{$orig_ty}` does not implement `{$trait_}`, so calling `{$method}` on `&{$orig_ty}` copies the reference, which does not do anything and can be removed .note = the type `{$orig_ty}` does not implement `{$trait_}`, so calling `{$method}` on `&{$orig_ty}` copies the reference, which does not do anything and can be removed
lint_only_cast_u8_to_char = only `u8` can be cast into `char` lint_only_cast_u8_to_char = only `u8` can be cast into `char`

2
compiler/rustc_lint/src/lints.rs
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@ -1233,7 +1233,7 @@ pub struct NoopMethodCallDiag<'a> {
pub method: Symbol, pub method: Symbol,
pub orig_ty: Ty<'a>, pub orig_ty: Ty<'a>,
pub trait_: Symbol, pub trait_: Symbol,
#[label] #[suggestion(code = "", applicability = "machine-applicable")]
pub label: Span, pub label: Span,
} }

51
tests/ui/lint/noop-method-call.fixed Normal file
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@ -0,0 +1,51 @@
// check-pass
// run-rustfix
#![allow(unused)]
use std::borrow::Borrow;
use std::ops::Deref;
struct PlainType<T>(T);
#[derive(Clone)]
struct CloneType<T>(T);
fn check(mut encoded: &[u8]) {
let _ = &mut encoded;
//~^ WARN call to `.clone()` on a reference in this situation does nothing
let _ = &encoded;
//~^ WARN call to `.clone()` on a reference in this situation does nothing
}
fn main() {
let non_clone_type_ref = &PlainType(1u32);
let non_clone_type_ref_clone: &PlainType<u32> = non_clone_type_ref;
//~^ WARN call to `.clone()` on a reference in this situation does nothing
let clone_type_ref = &CloneType(1u32);
let clone_type_ref_clone: CloneType<u32> = clone_type_ref.clone();
let non_deref_type = &PlainType(1u32);
let non_deref_type_deref: &PlainType<u32> = non_deref_type;
//~^ WARN call to `.deref()` on a reference in this situation does nothing
let non_borrow_type = &PlainType(1u32);
let non_borrow_type_borrow: &PlainType<u32> = non_borrow_type;
//~^ WARN call to `.borrow()` on a reference in this situation does nothing
// Borrowing a &&T does not warn since it has collapsed the double reference
let non_borrow_type = &&PlainType(1u32);
let non_borrow_type_borrow: &PlainType<u32> = non_borrow_type.borrow();
}
fn generic<T>(non_clone_type: &PlainType<T>) {
non_clone_type;
//~^ WARN call to `.clone()` on a reference in this situation does nothing
}
fn non_generic(non_clone_type: &PlainType<u32>) {
non_clone_type;
//~^ WARN call to `.clone()` on a reference in this situation does nothing
}

29
tests/ui/lint/noop-method-call.rs
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@ -1,4 +1,5 @@
// check-pass // check-pass
// run-rustfix
#![allow(unused)] #![allow(unused)]
@ -10,45 +11,41 @@ struct PlainType<T>(T);
#[derive(Clone)] #[derive(Clone)]
struct CloneType<T>(T); struct CloneType<T>(T);
fn check(mut encoded: &[u8]) {
let _ = &mut encoded.clone();
//~^ WARN call to `.clone()` on a reference in this situation does nothing
let _ = &encoded.clone();
//~^ WARN call to `.clone()` on a reference in this situation does nothing
}
fn main() { fn main() {
let non_clone_type_ref = &PlainType(1u32); let non_clone_type_ref = &PlainType(1u32);
let non_clone_type_ref_clone: &PlainType<u32> = non_clone_type_ref.clone(); let non_clone_type_ref_clone: &PlainType<u32> = non_clone_type_ref.clone();
//~^ WARNING call to `.clone()` on a reference in this situation does nothing //~^ WARN call to `.clone()` on a reference in this situation does nothing
let clone_type_ref = &CloneType(1u32); let clone_type_ref = &CloneType(1u32);
let clone_type_ref_clone: CloneType<u32> = clone_type_ref.clone(); let clone_type_ref_clone: CloneType<u32> = clone_type_ref.clone();
let clone_type_ref = &&CloneType(1u32);
let clone_type_ref_clone: &CloneType<u32> = clone_type_ref.clone();
//~^ WARNING using `.clone()` on a double reference, which returns `&CloneType<u32>`
let non_deref_type = &PlainType(1u32); let non_deref_type = &PlainType(1u32);
let non_deref_type_deref: &PlainType<u32> = non_deref_type.deref(); let non_deref_type_deref: &PlainType<u32> = non_deref_type.deref();
//~^ WARNING call to `.deref()` on a reference in this situation does nothing //~^ WARN call to `.deref()` on a reference in this situation does nothing
let non_deref_type = &&PlainType(1u32);
let non_deref_type_deref: &PlainType<u32> = non_deref_type.deref();
//~^ WARNING using `.deref()` on a double reference, which returns `&PlainType<u32>`
let non_borrow_type = &PlainType(1u32); let non_borrow_type = &PlainType(1u32);
let non_borrow_type_borrow: &PlainType<u32> = non_borrow_type.borrow(); let non_borrow_type_borrow: &PlainType<u32> = non_borrow_type.borrow();
//~^ WARNING call to `.borrow()` on a reference in this situation does nothing //~^ WARN call to `.borrow()` on a reference in this situation does nothing
// Borrowing a &&T does not warn since it has collapsed the double reference // Borrowing a &&T does not warn since it has collapsed the double reference
let non_borrow_type = &&PlainType(1u32); let non_borrow_type = &&PlainType(1u32);
let non_borrow_type_borrow: &PlainType<u32> = non_borrow_type.borrow(); let non_borrow_type_borrow: &PlainType<u32> = non_borrow_type.borrow();
let xs = ["a", "b", "c"];
let _v: Vec<&str> = xs.iter().map(|x| x.clone()).collect(); // could use `*x` instead
//~^ WARNING using `.clone()` on a double reference, which returns `&str`
} }
fn generic<T>(non_clone_type: &PlainType<T>) { fn generic<T>(non_clone_type: &PlainType<T>) {
non_clone_type.clone(); non_clone_type.clone();
//~^ WARNING call to `.clone()` on a reference in this situation does nothing //~^ WARN call to `.clone()` on a reference in this situation does nothing
} }
fn non_generic(non_clone_type: &PlainType<u32>) { fn non_generic(non_clone_type: &PlainType<u32>) {
non_clone_type.clone(); non_clone_type.clone();
//~^ WARNING call to `.clone()` on a reference in this situation does nothing //~^ WARN call to `.clone()` on a reference in this situation does nothing
} }

56
tests/ui/lint/noop-method-call.stderr
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@ -1,63 +1,59 @@
warning: call to `.clone()` on a reference in this situation does nothing warning: call to `.clone()` on a reference in this situation does nothing
--> $DIR/noop-method-call.rs:15:71 --> $DIR/noop-method-call.rs:15:25
| |
LL | let non_clone_type_ref_clone: &PlainType<u32> = non_clone_type_ref.clone(); LL | let _ = &mut encoded.clone();
| ^^^^^^^^ unnecessary method call | ^^^^^^^^ help: remove this redundant call
| |
= note: the type `PlainType<u32>` does not implement `Clone`, so calling `clone` on `&PlainType<u32>` copies the reference, which does not do anything and can be removed = note: the type `[u8]` does not implement `Clone`, so calling `clone` on `&[u8]` copies the reference, which does not do anything and can be removed
= note: `#[warn(noop_method_call)]` on by default = note: `#[warn(noop_method_call)]` on by default
warning: using `.clone()` on a double reference, which returns `&CloneType<u32>` instead of cloning the inner type warning: call to `.clone()` on a reference in this situation does nothing
--> $DIR/noop-method-call.rs:22:63 --> $DIR/noop-method-call.rs:17:21
| |
LL | let clone_type_ref_clone: &CloneType<u32> = clone_type_ref.clone(); LL | let _ = &encoded.clone();
| ^^^^^^^^ | ^^^^^^^^ help: remove this redundant call
| |
= note: `#[warn(suspicious_double_ref_op)]` on by default = note: the type `[u8]` does not implement `Clone`, so calling `clone` on `&[u8]` copies the reference, which does not do anything and can be removed
warning: call to `.clone()` on a reference in this situation does nothing
--> $DIR/noop-method-call.rs:23:71
|
LL | let non_clone_type_ref_clone: &PlainType<u32> = non_clone_type_ref.clone();
| ^^^^^^^^ help: remove this redundant call
|
= note: the type `PlainType<u32>` does not implement `Clone`, so calling `clone` on `&PlainType<u32>` copies the reference, which does not do anything and can be removed
warning: call to `.deref()` on a reference in this situation does nothing warning: call to `.deref()` on a reference in this situation does nothing
--> $DIR/noop-method-call.rs:26:63 --> $DIR/noop-method-call.rs:31:63
| |
LL | let non_deref_type_deref: &PlainType<u32> = non_deref_type.deref(); LL | let non_deref_type_deref: &PlainType<u32> = non_deref_type.deref();
| ^^^^^^^^ unnecessary method call | ^^^^^^^^ help: remove this redundant call
| |
= note: the type `PlainType<u32>` does not implement `Deref`, so calling `deref` on `&PlainType<u32>` copies the reference, which does not do anything and can be removed = note: the type `PlainType<u32>` does not implement `Deref`, so calling `deref` on `&PlainType<u32>` copies the reference, which does not do anything and can be removed
warning: using `.deref()` on a double reference, which returns `&PlainType<u32>` instead of dereferencing the inner type
--> $DIR/noop-method-call.rs:30:63
|
LL | let non_deref_type_deref: &PlainType<u32> = non_deref_type.deref();
| ^^^^^^^^
warning: call to `.borrow()` on a reference in this situation does nothing warning: call to `.borrow()` on a reference in this situation does nothing
--> $DIR/noop-method-call.rs:34:66 --> $DIR/noop-method-call.rs:35:66
| |
LL | let non_borrow_type_borrow: &PlainType<u32> = non_borrow_type.borrow(); LL | let non_borrow_type_borrow: &PlainType<u32> = non_borrow_type.borrow();
| ^^^^^^^^^ unnecessary method call | ^^^^^^^^^ help: remove this redundant call
| |
= note: the type `PlainType<u32>` does not implement `Borrow`, so calling `borrow` on `&PlainType<u32>` copies the reference, which does not do anything and can be removed = note: the type `PlainType<u32>` does not implement `Borrow`, so calling `borrow` on `&PlainType<u32>` copies the reference, which does not do anything and can be removed
warning: using `.clone()` on a double reference, which returns `&str` instead of cloning the inner type
--> $DIR/noop-method-call.rs:42:44
|
LL | let _v: Vec<&str> = xs.iter().map(|x| x.clone()).collect(); // could use `*x` instead
| ^^^^^^^^
warning: call to `.clone()` on a reference in this situation does nothing warning: call to `.clone()` on a reference in this situation does nothing
--> $DIR/noop-method-call.rs:47:19 --> $DIR/noop-method-call.rs:44:19
| |
LL | non_clone_type.clone(); LL | non_clone_type.clone();
| ^^^^^^^^ unnecessary method call | ^^^^^^^^ help: remove this redundant call
| |
= note: the type `PlainType<T>` does not implement `Clone`, so calling `clone` on `&PlainType<T>` copies the reference, which does not do anything and can be removed = note: the type `PlainType<T>` does not implement `Clone`, so calling `clone` on `&PlainType<T>` copies the reference, which does not do anything and can be removed
warning: call to `.clone()` on a reference in this situation does nothing warning: call to `.clone()` on a reference in this situation does nothing
--> $DIR/noop-method-call.rs:52:19 --> $DIR/noop-method-call.rs:49:19
| |
LL | non_clone_type.clone(); LL | non_clone_type.clone();
| ^^^^^^^^ unnecessary method call | ^^^^^^^^ help: remove this redundant call
| |
= note: the type `PlainType<u32>` does not implement `Clone`, so calling `clone` on `&PlainType<u32>` copies the reference, which does not do anything and can be removed = note: the type `PlainType<u32>` does not implement `Clone`, so calling `clone` on `&PlainType<u32>` copies the reference, which does not do anything and can be removed
warning: 8 warnings emitted warning: 7 warnings emitted

27
tests/ui/lint/suspicious-double-ref-op.rs
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@ -1,6 +1,14 @@
#![feature(lazy_cell)] #![feature(lazy_cell)]
#![deny(suspicious_double_ref_op, noop_method_call)] #![deny(suspicious_double_ref_op, noop_method_call)]
use std::borrow::Borrow;
use std::ops::Deref;
struct PlainType<T>(T);
#[derive(Clone)]
struct CloneType<T>(T);
pub fn clone_on_double_ref() { pub fn clone_on_double_ref() {
let x = vec![1]; let x = vec![1];
let y = &&x; let y = &&x;
@ -20,11 +28,16 @@ fn rust_clippy_issue_9272() {
println!("{str}") println!("{str}")
} }
fn check(mut encoded: &[u8]) { fn main() {
let _ = &mut encoded.clone(); let clone_type_ref = &&CloneType(1u32);
//~^ ERROR call to `.clone()` on a reference in this situation does nothing let clone_type_ref_clone: &CloneType<u32> = clone_type_ref.clone();
let _ = &encoded.clone(); //~^ ERROR using `.clone()` on a double reference, which returns `&CloneType<u32>`
//~^ ERROR call to `.clone()` on a reference in this situation does nothing
}
fn main() {} let non_deref_type = &&PlainType(1u32);
let non_deref_type_deref: &PlainType<u32> = non_deref_type.deref();
//~^ ERROR using `.deref()` on a double reference, which returns `&PlainType<u32>`
let xs = ["a", "b", "c"];
let _v: Vec<&str> = xs.iter().map(|x| x.clone()).collect(); // could use `*x` instead
//~^ ERROR using `.clone()` on a double reference, which returns `&str`
}

33
tests/ui/lint/suspicious-double-ref-op.stderr
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@ -1,5 +1,5 @@
error: using `.clone()` on a double reference, which returns `&Vec<i32>` instead of cloning the inner type error: using `.clone()` on a double reference, which returns `&Vec<i32>` instead of cloning the inner type
--> $DIR/suspicious-double-ref-op.rs:7:23 --> $DIR/suspicious-double-ref-op.rs:15:23
| |
LL | let z: &Vec<_> = y.clone(); LL | let z: &Vec<_> = y.clone();
| ^^^^^^^^ | ^^^^^^^^
@ -10,26 +10,23 @@ note: the lint level is defined here
LL | #![deny(suspicious_double_ref_op, noop_method_call)] LL | #![deny(suspicious_double_ref_op, noop_method_call)]
| ^^^^^^^^^^^^^^^^^^^^^^^^ | ^^^^^^^^^^^^^^^^^^^^^^^^
error: call to `.clone()` on a reference in this situation does nothing error: using `.clone()` on a double reference, which returns `&CloneType<u32>` instead of cloning the inner type
--> $DIR/suspicious-double-ref-op.rs:24:25 --> $DIR/suspicious-double-ref-op.rs:33:63
| |
LL | let _ = &mut encoded.clone(); LL | let clone_type_ref_clone: &CloneType<u32> = clone_type_ref.clone();
| ^^^^^^^^ unnecessary method call | ^^^^^^^^
|
= note: the type `[u8]` does not implement `Clone`, so calling `clone` on `&[u8]` copies the reference, which does not do anything and can be removed
note: the lint level is defined here
--> $DIR/suspicious-double-ref-op.rs:2:35
|
LL | #![deny(suspicious_double_ref_op, noop_method_call)]
| ^^^^^^^^^^^^^^^^
error: call to `.clone()` on a reference in this situation does nothing error: using `.deref()` on a double reference, which returns `&PlainType<u32>` instead of dereferencing the inner type
--> $DIR/suspicious-double-ref-op.rs:26:21 --> $DIR/suspicious-double-ref-op.rs:37:63
| |
LL | let _ = &encoded.clone(); LL | let non_deref_type_deref: &PlainType<u32> = non_deref_type.deref();
| ^^^^^^^^ unnecessary method call | ^^^^^^^^
error: using `.clone()` on a double reference, which returns `&str` instead of cloning the inner type
--> $DIR/suspicious-double-ref-op.rs:41:44
| |
= note: the type `[u8]` does not implement `Clone`, so calling `clone` on `&[u8]` copies the reference, which does not do anything and can be removed LL | let _v: Vec<&str> = xs.iter().map(|x| x.clone()).collect(); // could use `*x` instead
| ^^^^^^^^
error: aborting due to 3 previous errors error: aborting due to 4 previous errors