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34b373d309
This renames the variants in HIR UnOp from enum UnOp { UnDeref, UnNot, UnNeg, } to enum UnOp { Deref, Not, Neg, } Motivations: - This is more consistent with the rest of the code base where most enum variants don't have a prefix. - These variants are never used without the `UnOp` prefix so the extra `Un` prefix doesn't help with readability. E.g. we don't have any `UnDeref`s in the code, we only have `UnOp::UnDeref`. - MIR `UnOp` type variants don't have a prefix so this is more consistent with MIR types. - "un" prefix reads like "inverse" or "reverse", so as a beginner in rustc code base when I see "UnDeref" what comes to my mind is something like "&*" instead of just "*".
171 lines
3.3 KiB
Rust
171 lines
3.3 KiB
Rust
#![warn(clippy::suspicious_arithmetic_impl)]
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use std::ops::{
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Add, AddAssign, BitAnd, BitOr, BitOrAssign, BitXor, Div, DivAssign, Mul, MulAssign, Rem, Shl, Shr, Sub,
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};
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#[derive(Copy, Clone)]
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struct Foo(u32);
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impl Add for Foo {
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type Output = Foo;
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fn add(self, other: Self) -> Self {
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Foo(self.0 - other.0)
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}
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}
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impl AddAssign for Foo {
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fn add_assign(&mut self, other: Foo) {
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*self = *self - other;
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}
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}
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impl BitOrAssign for Foo {
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fn bitor_assign(&mut self, other: Foo) {
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let idx = other.0;
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self.0 |= 1 << idx; // OK: BinOpKind::Shl part of AssignOp as child node
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}
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}
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impl MulAssign for Foo {
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fn mul_assign(&mut self, other: Foo) {
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self.0 /= other.0;
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}
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}
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impl DivAssign for Foo {
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fn div_assign(&mut self, other: Foo) {
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self.0 /= other.0; // OK: BinOpKind::Div == DivAssign
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}
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}
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impl Mul for Foo {
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type Output = Foo;
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fn mul(self, other: Foo) -> Foo {
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Foo(self.0 * other.0 % 42) // OK: BinOpKind::Rem part of BiExpr as parent node
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}
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}
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impl Sub for Foo {
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type Output = Foo;
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fn sub(self, other: Self) -> Self {
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Foo(self.0 * other.0 - 42) // OK: BinOpKind::Mul part of BiExpr as child node
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}
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}
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impl Div for Foo {
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type Output = Foo;
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fn div(self, other: Self) -> Self {
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Foo(do_nothing(self.0 + other.0) / 42) // OK: BinOpKind::Add part of BiExpr as child node
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}
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}
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impl Rem for Foo {
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type Output = Foo;
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fn rem(self, other: Self) -> Self {
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Foo(self.0 / other.0)
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}
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}
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impl BitAnd for Foo {
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type Output = Foo;
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fn bitand(self, other: Self) -> Self {
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Foo(self.0 | other.0)
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}
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}
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impl BitOr for Foo {
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type Output = Foo;
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fn bitor(self, other: Self) -> Self {
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Foo(self.0 ^ other.0)
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}
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}
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impl BitXor for Foo {
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type Output = Foo;
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fn bitxor(self, other: Self) -> Self {
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Foo(self.0 & other.0)
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}
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}
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impl Shl for Foo {
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type Output = Foo;
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fn shl(self, other: Self) -> Self {
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Foo(self.0 >> other.0)
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}
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}
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impl Shr for Foo {
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type Output = Foo;
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fn shr(self, other: Self) -> Self {
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Foo(self.0 << other.0)
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}
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}
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struct Bar(i32);
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impl Add for Bar {
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type Output = Bar;
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fn add(self, other: Self) -> Self {
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Bar(self.0 & !other.0) // OK: Not part of BiExpr as child node
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}
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}
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impl Sub for Bar {
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type Output = Bar;
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fn sub(self, other: Self) -> Self {
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if self.0 <= other.0 {
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Bar(-(self.0 & other.0)) // OK: Neg part of BiExpr as parent node
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} else {
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Bar(0)
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}
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}
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}
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fn main() {}
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fn do_nothing(x: u32) -> u32 {
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x
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}
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struct MultipleBinops(u32);
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impl Add for MultipleBinops {
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type Output = MultipleBinops;
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// OK: multiple Binops in `add` impl
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fn add(self, other: Self) -> Self::Output {
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let mut result = self.0 + other.0;
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if result >= u32::max_value() {
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result -= u32::max_value();
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}
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MultipleBinops(result)
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}
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}
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impl Mul for MultipleBinops {
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type Output = MultipleBinops;
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// OK: multiple Binops in `mul` impl
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fn mul(self, other: Self) -> Self::Output {
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let mut result: u32 = 0;
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let size = std::cmp::max(self.0, other.0) as usize;
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let mut v = vec![0; size + 1];
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for i in 0..size + 1 {
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result *= i as u32;
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}
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MultipleBinops(result)
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}
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}
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