#![allow(unused_braces, unused_variables, dead_code)] #![allow( clippy::collapsible_else_if, clippy::unused_unit, clippy::let_unit_value, clippy::match_single_binding, clippy::never_loop, clippy::needless_if, clippy::diverging_sub_expression, clippy::single_match )] #![warn(clippy::manual_let_else)] //@no-rustfix enum Variant { A(usize, usize), B(usize), C, } fn g() -> Option<()> { None } fn main() {} fn fire() { let v = if let Some(v_some) = g() { v_some } else { return }; //~^ ERROR: this could be rewritten as `let...else` let v = if let Some(v_some) = g() { //~^ ERROR: this could be rewritten as `let...else` v_some } else { return; }; let v = if let Some(v) = g() { //~^ ERROR: this could be rewritten as `let...else` // Blocks around the identity should have no impact { { v } } } else { // Some computation should still make it fire g(); return; }; // continue and break diverge loop { let v = if let Some(v_some) = g() { v_some } else { continue }; //~^ ERROR: this could be rewritten as `let...else` let v = if let Some(v_some) = g() { v_some } else { break }; //~^ ERROR: this could be rewritten as `let...else` } // panic also diverges let v = if let Some(v_some) = g() { v_some } else { panic!() }; //~^ ERROR: this could be rewritten as `let...else` // abort also diverges let v = if let Some(v_some) = g() { //~^ ERROR: this could be rewritten as `let...else` v_some } else { std::process::abort() }; // If whose two branches diverge also diverges let v = if let Some(v_some) = g() { //~^ ERROR: this could be rewritten as `let...else` v_some } else { if true { return } else { panic!() } }; // Diverging after an if still makes the block diverge: let v = if let Some(v_some) = g() { //~^ ERROR: this could be rewritten as `let...else` v_some } else { if true {} panic!(); }; // The final expression will need to be turned into a statement. let v = if let Some(v_some) = g() { //~^ ERROR: this could be rewritten as `let...else` v_some } else { panic!(); () }; // Even if the result is buried multiple expressions deep. let v = if let Some(v_some) = g() { //~^ ERROR: this could be rewritten as `let...else` v_some } else { panic!(); if true { match 0 { 0 => (), _ => (), } } else { panic!() } }; // Or if a break gives the value. let v = if let Some(v_some) = g() { //~^ ERROR: this could be rewritten as `let...else` v_some } else { loop { panic!(); break (); } }; // Even if the break is in a weird position. let v = if let Some(v_some) = g() { //~^ ERROR: this could be rewritten as `let...else` v_some } else { 'a: loop { panic!(); loop { match 0 { 0 if (return break 'a ()) => {}, _ => {}, } } } }; // A match diverges if all branches diverge: let v = if let Some(v_some) = g() { //~^ ERROR: this could be rewritten as `let...else` v_some } else { match 0 { 0 if true => panic!(), _ => panic!(), }; }; // An if's expression can cause divergence: let v = if let Some(v_some) = g() { //~^ ERROR: this could be rewritten as `let...else` v_some } else { if panic!() {}; }; // An expression of a match can cause divergence: let v = if let Some(v_some) = g() { //~^ ERROR: this could be rewritten as `let...else` v_some } else { match panic!() { _ => {}, }; }; // Top level else if let v = if let Some(v_some) = g() { //~^ ERROR: this could be rewritten as `let...else` v_some } else if true { return; } else { panic!("diverge"); }; // All match arms diverge let v = if let Some(v_some) = g() { //~^ ERROR: this could be rewritten as `let...else` v_some } else { match (g(), g()) { (Some(_), None) => return, (None, Some(_)) => { if true { return; } else { panic!(); } }, _ => return, } }; // Tuples supported for the declared variables let (v, w) = if let Some(v_some) = g().map(|v| (v, 42)) { //~^ ERROR: this could be rewritten as `let...else` v_some } else { return; }; // Tuples supported with multiple bindings let (w, S { v }) = if let (Some(v_some), w_some) = (g().map(|_| S { v: 0 }), 0) { //~^ ERROR: this could be rewritten as `let...else` (w_some, v_some) } else { return; }; // entirely inside macro lints macro_rules! create_binding_if_some { ($n:ident, $e:expr) => { let $n = if let Some(v) = $e { v } else { return }; }; } create_binding_if_some!(w, g()); fn e() -> Variant { Variant::A(0, 0) } let v = if let Variant::A(a, 0) = e() { a } else { return }; //~^ ERROR: this could be rewritten as `let...else` // `mut v` is inserted into the pattern let mut v = if let Variant::B(b) = e() { b } else { return }; //~^ ERROR: this could be rewritten as `let...else` // Nesting works let nested = Ok(Some(e())); let v = if let Ok(Some(Variant::B(b))) | Err(Some(Variant::A(b, _))) = nested { //~^ ERROR: this could be rewritten as `let...else` b } else { return; }; // dot dot works let v = if let Variant::A(.., a) = e() { a } else { return }; //~^ ERROR: this could be rewritten as `let...else` // () is preserved: a bit of an edge case but make sure it stays around let w = if let (Some(v), ()) = (g(), ()) { v } else { return }; //~^ ERROR: this could be rewritten as `let...else` // Tuple structs work let w = if let Some(S { v: x }) = Some(S { v: 0 }) { //~^ ERROR: this could be rewritten as `let...else` x } else { return; }; // Field init shorthand is suggested let v = if let Some(S { v: x }) = Some(S { v: 0 }) { //~^ ERROR: this could be rewritten as `let...else` x } else { return; }; // Multi-field structs also work let (x, S { v }, w) = if let Some(U { v, w, x }) = None::>> { //~^ ERROR: this could be rewritten as `let...else` (x, v, w) } else { return; }; } fn not_fire() { let v = if let Some(v_some) = g() { // Nothing returned. Should not fire. } else { return; }; let w = 0; let v = if let Some(v_some) = g() { // Different variable than v_some. Should not fire. w } else { return; }; let v = if let Some(v_some) = g() { // Computation in then clause. Should not fire. g(); v_some } else { return; }; let v = if let Some(v_some) = g() { v_some } else { if false { return; } // This doesn't diverge. Should not fire. () }; let v = if let Some(v_some) = g() { v_some } else { // There is one match arm that doesn't diverge. Should not fire. match (g(), g()) { (Some(_), None) => return, (None, Some(_)) => return, (Some(_), Some(_)) => (), _ => return, } }; let v = if let Some(v_some) = g() { v_some } else { // loop with a break statement inside does not diverge. loop { break; } }; enum Uninhabited {} fn un() -> Uninhabited { panic!() } let v = if let Some(v_some) = None { v_some } else { // Don't lint if the type is uninhabited but not ! un() }; fn question_mark() -> Option<()> { let v = if let Some(v) = g() { v } else { // Question mark does not diverge g()? }; Some(v) } // Macro boundary inside let macro_rules! some_or_return { ($e:expr) => { if let Some(v) = $e { v } else { return } }; } let v = some_or_return!(g()); // Also macro boundary inside let, but inside a macro macro_rules! create_binding_if_some_nf { ($n:ident, $e:expr) => { let $n = some_or_return!($e); }; } create_binding_if_some_nf!(v, g()); // Already a let-else let Some(a) = (if let Some(b) = Some(Some(())) { b } else { return }) else { panic!() }; // If a type annotation is present, don't lint as // expressing the type might be too hard let v: () = if let Some(v_some) = g() { v_some } else { panic!() }; // Issue 9940 // Suggestion should not expand macros macro_rules! macro_call { () => { return () }; } let ff = Some(1); let _ = match ff { //~^ ERROR: this could be rewritten as `let...else` Some(value) => value, _ => macro_call!(), }; // Issue 10296 // The let/else block in the else part is not divergent despite the presence of return let _x = if let Some(x) = Some(1) { x } else { let Some(_z) = Some(3) else { return }; 1 }; // This would require creation of a suggestion of the form // let v @ (Some(_), _) = (...) else { return }; // Which is too advanced for our code, so we just bail. let v = if let (Some(v_some), w_some) = (g(), 0) { (w_some, v_some) } else { return; }; // A break that skips the divergent statement will cause the expression to be non-divergent. let _x = if let Some(x) = Some(0) { x } else { 'foo: loop { break 'foo 0; panic!(); } }; // Even in inner loops. let _x = if let Some(x) = Some(0) { x } else { 'foo: { loop { break 'foo 0; } panic!(); } }; // But a break that can't ever be reached still affects divergence checking. let _x = if let Some(x) = g() { x } else { 'foo: { 'bar: loop { loop { break 'bar (); } break 'foo (); } panic!(); }; }; } struct S { v: T, } struct U { v: T, w: T, x: T, }