#![allow( clippy::bool_to_int_with_if, clippy::char_lit_as_u8, clippy::deref_addrof, clippy::diverging_sub_expression, clippy::erasing_op, clippy::extra_unused_type_parameters, clippy::if_same_then_else, clippy::ifs_same_cond, clippy::ignored_unit_patterns, clippy::items_after_statements, clippy::let_and_return, clippy::let_underscore_untyped, clippy::match_bool, clippy::needless_else, clippy::never_loop, clippy::overly_complex_bool_expr, clippy::redundant_closure_call, clippy::redundant_pattern_matching, clippy::too_many_lines, clippy::unit_arg, clippy::unnecessary_cast, clippy::while_immutable_condition, clippy::zero_ptr, irrefutable_let_patterns )] use self::Enum::Generic; use anyhow::{anyhow, ensure, Chain, Error, Result}; use std::fmt::{self, Debug}; use std::iter; use std::marker::{PhantomData, PhantomData as P}; use std::mem; use std::ops::Add; use std::ptr; struct S; impl Add for S { type Output = bool; fn add(self, rhs: T) -> Self::Output { let _ = rhs; false } } trait Trait: Sized { const V: usize = 0; fn t(self, i: i32) -> i32 { i } } impl Trait for T {} enum Enum { #[allow(dead_code)] Thing(PhantomData), Generic, } impl PartialEq for Enum { fn eq(&self, rhs: &Self) -> bool { mem::discriminant(self) == mem::discriminant(rhs) } } impl Debug for Enum { fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { formatter.write_str("Generic") } } #[track_caller] fn assert_err(result: impl FnOnce() -> Result, expected: &'static str) { let actual = result().unwrap_err().to_string(); // In general different rustc versions will format the interpolated lhs and // rhs $:expr fragment with insignificant differences in whitespace or // punctuation, so we check the message in full against nightly and do just // a cursory test on older toolchains. if rustversion::cfg!(nightly) && !cfg!(miri) { assert_eq!(actual, expected); } else { assert_eq!(actual.contains(" vs "), expected.contains(" vs ")); } } #[test] fn test_recursion() { // Must not blow the default #[recursion_limit], which is 128. #[rustfmt::skip] let test = || Ok(ensure!( false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false | false )); test().unwrap_err(); } #[test] fn test_low_precedence_control_flow() { #[allow(unreachable_code)] let test = || { let val = loop { // Break has lower precedence than the comparison operators so the // expression here is `S + (break (1 == 1))`. It would be bad if the // ensure macro partitioned this input into `(S + break 1) == (1)` // because that means a different thing than what was written. ensure!(S + break 1 == 1); }; Ok(val) }; assert!(test().unwrap()); } #[test] fn test_low_precedence_binary_operator() { // Must not partition as `false == (true && false)`. let test = || Ok(ensure!(false == true && false)); assert_err(test, "Condition failed: `false == true && false`"); // But outside the root level, it is fine. let test = || Ok(ensure!(while false == true && false {} < ())); assert_err( test, "Condition failed: `while false == true && false {} < ()` (() vs ())", ); let a = 15; let b = 3; let test = || Ok(ensure!(a <= b || a - b <= 10)); assert_err(test, "Condition failed: `a <= b || a - b <= 10`"); } #[test] fn test_high_precedence_binary_operator() { let a = 15; let b = 3; let test = || Ok(ensure!(a - b <= 10)); assert_err(test, "Condition failed: `a - b <= 10` (12 vs 10)"); } #[test] fn test_closure() { // Must not partition as `(S + move) || (1 == 1)` by treating move as an // identifier, nor as `(S + move || 1) == (1)` by misinterpreting the // closure precedence. let test = || Ok(ensure!(S + move || 1 == 1)); assert_err(test, "Condition failed: `S + move || 1 == 1`"); let test = || Ok(ensure!(S + || 1 == 1)); assert_err(test, "Condition failed: `S + || 1 == 1`"); // Must not partition as `S + ((move | ()) | 1) == 1` by treating those // pipes as bitwise-or. let test = || Ok(ensure!(S + move |()| 1 == 1)); assert_err(test, "Condition failed: `S + move |()| 1 == 1`"); let test = || Ok(ensure!(S + |()| 1 == 1)); assert_err(test, "Condition failed: `S + |()| 1 == 1`"); } #[test] fn test_unary() { let mut x = &1; let test = || Ok(ensure!(*x == 2)); assert_err(test, "Condition failed: `*x == 2` (1 vs 2)"); let test = || Ok(ensure!(!x == 1)); assert_err(test, "Condition failed: `!x == 1` (-2 vs 1)"); let test = || Ok(ensure!(-x == 1)); assert_err(test, "Condition failed: `-x == 1` (-1 vs 1)"); let test = || Ok(ensure!(&x == &&2)); assert_err(test, "Condition failed: `&x == &&2` (1 vs 2)"); let test = || Ok(ensure!(&mut x == *&&mut &2)); assert_err(test, "Condition failed: `&mut x == *&&mut &2` (1 vs 2)"); } #[rustversion::since(1.82)] #[test] fn test_raw_addr() { let mut x = 1; let test = || Ok(ensure!(S + &raw const x != S + &raw mut x)); assert_err( test, "Condition failed: `S + &raw const x != S + &raw mut x` (false vs false)", ); } #[test] fn test_if() { #[rustfmt::skip] let test = || Ok(ensure!(if false {}.t(1) == 2)); assert_err(test, "Condition failed: `if false {}.t(1) == 2` (1 vs 2)"); #[rustfmt::skip] let test = || Ok(ensure!(if false {} else {}.t(1) == 2)); assert_err( test, "Condition failed: `if false {} else {}.t(1) == 2` (1 vs 2)", ); #[rustfmt::skip] let test = || Ok(ensure!(if false {} else if false {}.t(1) == 2)); assert_err( test, "Condition failed: `if false {} else if false {}.t(1) == 2` (1 vs 2)", ); #[rustfmt::skip] let test = || Ok(ensure!(if let 1 = 2 {}.t(1) == 2)); assert_err( test, "Condition failed: `if let 1 = 2 {}.t(1) == 2` (1 vs 2)", ); #[rustfmt::skip] let test = || Ok(ensure!(if let 1 | 2 = 2 {}.t(1) == 2)); assert_err( test, "Condition failed: `if let 1 | 2 = 2 {}.t(1) == 2` (1 vs 2)", ); #[rustfmt::skip] let test = || Ok(ensure!(if let | 1 | 2 = 2 {}.t(1) == 2)); assert_err( test, "Condition failed: `if let | 1 | 2 = 2 {}.t(1) == 2` (1 vs 2)", ); } #[test] fn test_loop() { #[rustfmt::skip] let test = || Ok(ensure!(1 + loop { break 1 } == 1)); assert_err( test, "Condition failed: `1 + loop { break 1 } == 1` (2 vs 1)", ); #[rustfmt::skip] let test = || Ok(ensure!(1 + 'a: loop { break 'a 1 } == 1)); assert_err( test, "Condition failed: `1 + 'a: loop { break 'a 1 } == 1` (2 vs 1)", ); #[rustfmt::skip] let test = || Ok(ensure!(while false {}.t(1) == 2)); assert_err( test, "Condition failed: `while false {}.t(1) == 2` (1 vs 2)", ); #[rustfmt::skip] let test = || Ok(ensure!(while let None = Some(1) {}.t(1) == 2)); assert_err( test, "Condition failed: `while let None = Some(1) {}.t(1) == 2` (1 vs 2)", ); #[rustfmt::skip] let test = || Ok(ensure!(for _x in iter::once(0) {}.t(1) == 2)); assert_err( test, "Condition failed: `for _x in iter::once(0) {}.t(1) == 2` (1 vs 2)", ); #[rustfmt::skip] let test = || Ok(ensure!(for | _x in iter::once(0) {}.t(1) == 2)); assert_err( test, "Condition failed: `for | _x in iter::once(0) {}.t(1) == 2` (1 vs 2)", ); #[rustfmt::skip] let test = || Ok(ensure!(for true | false in iter::empty() {}.t(1) == 2)); assert_err( test, "Condition failed: `for true | false in iter::empty() {}.t(1) == 2` (1 vs 2)", ); } #[test] fn test_match() { #[rustfmt::skip] let test = || Ok(ensure!(match 1 == 1 { true => 1, false => 0 } == 2)); assert_err( test, "Condition failed: `match 1 == 1 { true => 1, false => 0 } == 2` (1 vs 2)", ); } #[test] fn test_atom() { let test = || Ok(ensure!([false, false].len() > 3)); assert_err( test, "Condition failed: `[false, false].len() > 3` (2 vs 3)", ); #[rustfmt::skip] let test = || Ok(ensure!({ let x = 1; x } >= 3)); assert_err(test, "Condition failed: `{ let x = 1; x } >= 3` (1 vs 3)"); let test = || Ok(ensure!(S + async { 1 } == true)); assert_err( test, "Condition failed: `S + async { 1 } == true` (false vs true)", ); let test = || Ok(ensure!(S + async move { 1 } == true)); assert_err( test, "Condition failed: `S + async move { 1 } == true` (false vs true)", ); let x = &1; let test = || Ok(ensure!(S + unsafe { ptr::read(x) } == true)); assert_err( test, "Condition failed: `S + unsafe { ptr::read(x) } == true` (false vs true)", ); } #[test] fn test_path() { let test = || Ok(ensure!(crate::S.t(1) == 2)); assert_err(test, "Condition failed: `crate::S.t(1) == 2` (1 vs 2)"); let test = || Ok(ensure!(::anyhow::Error::root_cause.t(1) == 2)); assert_err( test, "Condition failed: `::anyhow::Error::root_cause.t(1) == 2` (1 vs 2)", ); let test = || Ok(ensure!(Error::msg::<&str>.t(1) == 2)); assert_err( test, "Condition failed: `Error::msg::<&str>.t(1) == 2` (1 vs 2)", ); #[rustfmt::skip] let test = || Ok(ensure!(Error::msg::<&str,>.t(1) == 2)); assert_err( test, "Condition failed: `Error::msg::<&str,>.t(1) == 2` (1 vs 2)", ); let test = || Ok(ensure!(Error::msg::<::Owned>.t(1) == 2)); assert_err( test, "Condition failed: `Error::msg::<::Owned>.t(1) == 2` (1 vs 2)", ); let test = || Ok(ensure!(Chain::<'static>::new.t(1) == 2)); assert_err( test, "Condition failed: `Chain::<'static>::new.t(1) == 2` (1 vs 2)", ); #[rustfmt::skip] let test = || Ok(ensure!(Chain::<'static,>::new.t(1) == 2)); assert_err( test, "Condition failed: `Chain::<'static,>::new.t(1) == 2` (1 vs 2)", ); fn f() {} let test = || Ok(ensure!(f::<1>() != ())); assert_err(test, "Condition failed: `f::<1>() != ()` (() vs ())"); let test = || Ok(ensure!(f::<-1>() != ())); assert_err(test, "Condition failed: `f::<-1>() != ()` (() vs ())"); fn g() {} let test = || Ok(ensure!(g::() != ())); assert_err(test, "Condition failed: `g::() != ()` (() vs ())"); let test = || Ok(ensure!(g::() != ())); assert_err(test, "Condition failed: `g::() != ()` (() vs ())"); #[derive(PartialOrd, PartialEq, Debug)] enum E<'a, T> { #[allow(dead_code)] T(&'a T), U, } #[rustfmt::skip] let test = || Ok(ensure!(E::U::<>>E::U::)); assert_err(test, "Condition failed: `E::U::<> > E::U::` (U vs U)"); #[rustfmt::skip] let test = || Ok(ensure!(E::U::>E::U)); assert_err(test, "Condition failed: `E::U:: > E::U` (U vs U)"); #[rustfmt::skip] let test = || Ok(ensure!(E::U::>E::U)); assert_err(test, "Condition failed: `E::U:: > E::U` (U vs U)"); let test = || Ok(ensure!(Generic:: != Generic)); assert_err( test, "Condition failed: `Generic:: != Generic` (Generic vs Generic)", ); let test = || Ok(ensure!(Generic:: != Generic)); assert_err( test, "Condition failed: `Generic:: != Generic` (Generic vs Generic)", ); #[rustfmt::skip] let test = || { Ok(ensure!( Generic:: != Generic )) }; assert_err( test, "Condition failed: `Generic:: != Generic` (Generic vs Generic)", ); } #[test] fn test_macro() { let test = || Ok(ensure!(anyhow!("...").to_string().len() <= 1)); assert_err( test, "Condition failed: `anyhow!(\"...\").to_string().len() <= 1` (3 vs 1)", ); let test = || Ok(ensure!(vec![1].len() < 1)); assert_err(test, "Condition failed: `vec![1].len() < 1` (1 vs 1)"); let test = || Ok(ensure!(stringify! {} != "")); assert_err( test, "Condition failed: `stringify! {} != \"\"` (\"\" vs \"\")", ); } #[test] fn test_trailer() { let test = || Ok(ensure!((|| 1)() == 2)); assert_err(test, "Condition failed: `(|| 1)() == 2` (1 vs 2)"); let test = || Ok(ensure!(b"hmm"[1] == b'c')); assert_err(test, "Condition failed: `b\"hmm\"[1] == b'c'` (109 vs 99)"); let test = || Ok(ensure!(PhantomData:: {} != PhantomData)); assert_err( test, "Condition failed: `PhantomData:: {} != PhantomData` (PhantomData vs PhantomData)", ); let result = Ok::<_, Error>(1); let test = || Ok(ensure!(result? == 2)); assert_err(test, "Condition failed: `result? == 2` (1 vs 2)"); let test = || Ok(ensure!((2, 3).1 == 2)); assert_err(test, "Condition failed: `(2, 3).1 == 2` (3 vs 2)"); #[rustfmt::skip] let test = || Ok(ensure!((2, (3, 4)). 1.1 == 2)); assert_err(test, "Condition failed: `(2, (3, 4)).1.1 == 2` (4 vs 2)"); let err = anyhow!(""); let test = || Ok(ensure!(err.is::<&str>() == false)); assert_err( test, "Condition failed: `err.is::<&str>() == false` (true vs false)", ); let test = || Ok(ensure!(err.is::<::Owned>() == true)); assert_err( test, "Condition failed: `err.is::<::Owned>() == true` (false vs true)", ); } #[test] fn test_whitespace() { #[derive(Debug)] pub struct Point { #[allow(dead_code)] pub x: i32, #[allow(dead_code)] pub y: i32, } let point = Point { x: 0, y: 0 }; let test = || Ok(ensure!("" == format!("{:#?}", point))); assert_err( test, "Condition failed: `\"\" == format!(\"{:#?}\", point)`", ); } #[test] fn test_too_long() { let test = || Ok(ensure!("" == "x".repeat(10))); assert_err( test, "Condition failed: `\"\" == \"x\".repeat(10)` (\"\" vs \"xxxxxxxxxx\")", ); let test = || Ok(ensure!("" == "x".repeat(80))); assert_err(test, "Condition failed: `\"\" == \"x\".repeat(80)`"); } #[test] fn test_as() { let test = || Ok(ensure!('\0' as u8 > 1)); assert_err(test, "Condition failed: `'\\0' as u8 > 1` (0 vs 1)"); let test = || Ok(ensure!('\0' as ::std::primitive::u8 > 1)); assert_err( test, "Condition failed: `'\\0' as ::std::primitive::u8 > 1` (0 vs 1)", ); let test = || Ok(ensure!(&[0] as &[i32] == [1])); assert_err( test, "Condition failed: `&[0] as &[i32] == [1]` ([0] vs [1])", ); let test = || Ok(ensure!(0 as *const () as *mut _ == 1 as *mut ())); assert_err( test, "Condition failed: `0 as *const () as *mut _ == 1 as *mut ()` (0x0 vs 0x1)", ); let s = ""; let test = || Ok(ensure!(s as &str != s)); assert_err(test, "Condition failed: `s as &str != s` (\"\" vs \"\")"); let test = || Ok(ensure!(&s as &&str != &s)); assert_err(test, "Condition failed: `&s as &&str != &s` (\"\" vs \"\")"); let test = || Ok(ensure!(s as &'static str != s)); assert_err( test, "Condition failed: `s as &'static str != s` (\"\" vs \"\")", ); let test = || Ok(ensure!(&s as &&'static str != &s)); assert_err( test, "Condition failed: `&s as &&'static str != &s` (\"\" vs \"\")", ); let m: &mut str = Default::default(); let test = || Ok(ensure!(m as &mut str != s)); assert_err( test, "Condition failed: `m as &mut str != s` (\"\" vs \"\")", ); let test = || Ok(ensure!(&m as &&mut str != &s)); assert_err( test, "Condition failed: `&m as &&mut str != &s` (\"\" vs \"\")", ); let test = || Ok(ensure!(&m as &&'static mut str != &s)); assert_err( test, "Condition failed: `&m as &&'static mut str != &s` (\"\" vs \"\")", ); let f = || {}; let test = || Ok(ensure!(f as fn() as usize * 0 != 0)); assert_err( test, "Condition failed: `f as fn() as usize * 0 != 0` (0 vs 0)", ); let test = || Ok(ensure!(f as fn() -> () as usize * 0 != 0)); assert_err( test, "Condition failed: `f as fn() -> () as usize * 0 != 0` (0 vs 0)", ); let test = || Ok(ensure!(f as for<'a> fn() as usize * 0 != 0)); assert_err( test, "Condition failed: `f as for<'a> fn() as usize * 0 != 0` (0 vs 0)", ); let test = || Ok(ensure!(f as unsafe fn() as usize * 0 != 0)); assert_err( test, "Condition failed: `f as unsafe fn() as usize * 0 != 0` (0 vs 0)", ); #[rustfmt::skip] let test = || Ok(ensure!(f as extern "Rust" fn() as usize * 0 != 0)); assert_err( test, "Condition failed: `f as extern \"Rust\" fn() as usize * 0 != 0` (0 vs 0)", ); extern "C" fn extern_fn() {} #[rustfmt::skip] let test = || Ok(ensure!(extern_fn as extern fn() as usize * 0 != 0)); assert_err( test, "Condition failed: `extern_fn as extern fn() as usize * 0 != 0` (0 vs 0)", ); let f = || -> ! { panic!() }; let test = || Ok(ensure!(f as fn() -> ! as usize * 0 != 0)); assert_err( test, "Condition failed: `f as fn() -> ! as usize * 0 != 0` (0 vs 0)", ); trait EqDebug: PartialEq + Debug { type Assoc; } impl EqDebug for S where S: PartialEq + Debug, { type Assoc = bool; } let test = || Ok(ensure!(&0 as &dyn EqDebug != &0)); assert_err( test, "Condition failed: `&0 as &dyn EqDebug != &0` (0 vs 0)", ); let test = || { Ok(ensure!( PhantomData as PhantomData<::Owned> != PhantomData )) }; assert_err( test, "Condition failed: `PhantomData as PhantomData<::Owned> != PhantomData` (PhantomData vs PhantomData)", ); macro_rules! int { (...) => { u8 }; } let test = || Ok(ensure!(0 as int!(...) != 0)); assert_err(test, "Condition failed: `0 as int!(...) != 0` (0 vs 0)"); let test = || Ok(ensure!(0 as int![...] != 0)); assert_err(test, "Condition failed: `0 as int![...] != 0` (0 vs 0)"); let test = || Ok(ensure!(0 as int! {...} != 0)); assert_err(test, "Condition failed: `0 as int! { ... } != 0` (0 vs 0)"); } #[test] fn test_pat() { let test = || Ok(ensure!(if let ref mut _x @ 0 = 0 { 0 } else { 1 } == 1)); assert_err( test, "Condition failed: `if let ref mut _x @ 0 = 0 { 0 } else { 1 } == 1` (0 vs 1)", ); let test = || Ok(ensure!(if let -1..=1 = 0 { 0 } else { 1 } == 1)); assert_err( test, "Condition failed: `if let -1..=1 = 0 { 0 } else { 1 } == 1` (0 vs 1)", ); let test = || Ok(ensure!(if let &0 = &0 { 0 } else { 1 } == 1)); assert_err( test, "Condition failed: `if let &0 = &0 { 0 } else { 1 } == 1` (0 vs 1)", ); let test = || Ok(ensure!(if let &&0 = &&0 { 0 } else { 1 } == 1)); assert_err( test, "Condition failed: `if let &&0 = &&0 { 0 } else { 1 } == 1` (0 vs 1)", ); let test = || Ok(ensure!(if let &mut 0 = &mut 0 { 0 } else { 1 } == 1)); assert_err( test, "Condition failed: `if let &mut 0 = &mut 0 { 0 } else { 1 } == 1` (0 vs 1)", ); let test = || Ok(ensure!(if let &&mut 0 = &&mut 0 { 0 } else { 1 } == 1)); assert_err( test, "Condition failed: `if let &&mut 0 = &&mut 0 { 0 } else { 1 } == 1` (0 vs 1)", ); let test = || Ok(ensure!(if let (0, 1) = (0, 1) { 0 } else { 1 } == 1)); assert_err( test, "Condition failed: `if let (0, 1) = (0, 1) { 0 } else { 1 } == 1` (0 vs 1)", ); let test = || Ok(ensure!(if let [0] = b"\0" { 0 } else { 1 } == 1)); assert_err( test, "Condition failed: `if let [0] = b\"\\0\" { 0 } else { 1 } == 1` (0 vs 1)", ); let p = PhantomData::; let test = || Ok(ensure!(if let P:: {} = p { 0 } else { 1 } == 1)); assert_err( test, "Condition failed: `if let P:: {} = p { 0 } else { 1 } == 1` (0 vs 1)", ); let test = || Ok(ensure!(if let ::std::marker::PhantomData = p {} != ())); assert_err( test, "Condition failed: `if let ::std::marker::PhantomData = p {} != ()` (() vs ())", ); let test = || Ok(ensure!(if let ::V = 0 { 0 } else { 1 } == 1)); assert_err( test, "Condition failed: `if let ::V = 0 { 0 } else { 1 } == 1` (0 vs 1)", ); let test = || Ok(ensure!(for _ in iter::once(()) {} != ())); assert_err( test, "Condition failed: `for _ in iter::once(()) {} != ()` (() vs ())", ); let test = || Ok(ensure!(if let stringify!(x) = "x" { 0 } else { 1 } == 1)); assert_err( test, "Condition failed: `if let stringify!(x) = \"x\" { 0 } else { 1 } == 1` (0 vs 1)", ); }