#![allow(clippy::uninlined_format_args)] #![cfg_attr(not(feature = "std"), no_std)] cfg_if::cfg_if! { if #[cfg(not(feature = "std"))] { extern crate alloc; use alloc::string::{String, ToString}; use alloc::format; use alloc::borrow::ToOwned; } } use core::fmt::{self, Display}; use thiserror::Error; fn assert(expected: &str, value: T) { assert_eq!(expected, value.to_string()); } #[test] fn test_braced() { #[derive(Error, Debug)] #[error("braced error: {msg}")] struct Error { msg: String, } let msg = "T".to_owned(); assert("braced error: T", Error { msg }); } #[test] fn test_braced_unused() { #[derive(Error, Debug)] #[error("braced error")] struct Error { extra: usize, } assert("braced error", Error { extra: 0 }); } #[test] fn test_tuple() { #[derive(Error, Debug)] #[error("tuple error: {0}")] struct Error(usize); assert("tuple error: 0", Error(0)); } #[test] fn test_unit() { #[derive(Error, Debug)] #[error("unit error")] struct Error; assert("unit error", Error); } #[test] fn test_enum() { #[derive(Error, Debug)] enum Error { #[error("braced error: {id}")] Braced { id: usize }, #[error("tuple error: {0}")] Tuple(usize), #[error("unit error")] Unit, } assert("braced error: 0", Error::Braced { id: 0 }); assert("tuple error: 0", Error::Tuple(0)); assert("unit error", Error::Unit); } #[test] fn test_constants() { #[derive(Error, Debug)] #[error("{MSG}: {id:?} (code {CODE:?})")] struct Error { id: &'static str, } const MSG: &str = "failed to do"; const CODE: usize = 9; assert("failed to do: \"\" (code 9)", Error { id: "" }); } #[test] fn test_inherit() { #[derive(Error, Debug)] #[error("{0}")] enum Error { Some(&'static str), #[error("other error")] Other(&'static str), } assert("some error", Error::Some("some error")); assert("other error", Error::Other("...")); } #[test] fn test_brace_escape() { #[derive(Error, Debug)] #[error("fn main() {{}}")] struct Error; assert("fn main() {}", Error); } #[test] fn test_expr() { #[derive(Error, Debug)] #[error("1 + 1 = {}", 1 + 1)] struct Error; assert("1 + 1 = 2", Error); } #[test] fn test_nested() { #[derive(Error, Debug)] #[error("!bool = {}", not(.0))] struct Error(bool); #[allow(clippy::trivially_copy_pass_by_ref)] fn not(bool: &bool) -> bool { !*bool } assert("!bool = false", Error(true)); } #[test] fn test_match() { #[derive(Error, Debug)] #[error("{}: {0}", match .1 { Some(n) => format!("error occurred with {}", n), None => "there was an empty error".to_owned(), })] struct Error(String, Option); assert( "error occurred with 1: ...", Error("...".to_owned(), Some(1)), ); assert( "there was an empty error: ...", Error("...".to_owned(), None), ); } #[test] fn test_nested_display() { // Same behavior as the one in `test_match`, but without String allocations. #[derive(Error, Debug)] #[error("{}", { struct Msg<'a>(&'a String, &'a Option); impl<'a> Display for Msg<'a> { fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { match self.1 { Some(n) => write!(formatter, "error occurred with {}", n), None => write!(formatter, "there was an empty error"), }?; write!(formatter, ": {}", self.0) } } Msg(.0, .1) })] struct Error(String, Option); assert( "error occurred with 1: ...", Error("...".to_owned(), Some(1)), ); assert( "there was an empty error: ...", Error("...".to_owned(), None), ); } #[test] fn test_void() { #[allow(clippy::empty_enum)] #[derive(Error, Debug)] #[error("...")] pub enum Error {} let _: Error; } #[test] fn test_mixed() { #[derive(Error, Debug)] #[error("a={a} :: b={} :: c={c} :: d={d}", 1, c = 2, d = 3)] struct Error { a: usize, d: usize, } assert("a=0 :: b=1 :: c=2 :: d=3", Error { a: 0, d: 0 }); } #[test] fn test_ints() { #[derive(Error, Debug)] enum Error { #[error("error {0}")] Tuple(usize, usize), #[error("error {0}", '?')] Struct { v: usize }, } assert("error 9", Error::Tuple(9, 0)); assert("error ?", Error::Struct { v: 0 }); } #[test] fn test_trailing_comma() { #[derive(Error, Debug)] #[error( "error {0}", )] #[rustfmt::skip] struct Error(char); assert("error ?", Error('?')); } #[test] fn test_field() { #[derive(Debug)] struct Inner { data: usize, } #[derive(Error, Debug)] #[error("{}", .0.data)] struct Error(Inner); assert("0", Error(Inner { data: 0 })); } #[test] fn test_macro_rules() { // Regression test for https://github.com/dtolnay/thiserror/issues/86 macro_rules! decl_error { ($variant:ident($value:ident)) => { #[derive(Debug, Error)] pub enum Error0 { #[error("{0:?}")] $variant($value), } #[derive(Debug, Error)] #[error("{0:?}")] pub enum Error1 { $variant($value), } }; } decl_error!(Repro(u8)); assert("0", Error0::Repro(0)); assert("0", Error1::Repro(0)); } #[test] fn test_raw() { #[derive(Error, Debug)] #[error("braced raw error: {r#fn}")] struct Error { r#fn: &'static str, } assert("braced raw error: T", Error { r#fn: "T" }); } #[test] fn test_raw_enum() { #[derive(Error, Debug)] enum Error { #[error("braced raw error: {r#fn}")] Braced { r#fn: &'static str }, } assert("braced raw error: T", Error::Braced { r#fn: "T" }); } #[test] fn test_raw_conflict() { #[derive(Error, Debug)] enum Error { #[error("braced raw error: {r#func}, {func}", func = "U")] Braced { r#func: &'static str }, } assert("braced raw error: T, U", Error::Braced { r#func: "T" }); } #[test] fn test_keyword() { #[derive(Error, Debug)] #[error("error: {type}", type = 1)] struct Error; assert("error: 1", Error); }