use crate::Literal; #[test] fn empty() { assert_err!(Literal, "", Empty, None); } #[test] fn invalid_literals() { assert_err_single!(Literal::parse("."), InvalidLiteral, None); assert_err_single!(Literal::parse("+"), InvalidLiteral, None); assert_err_single!(Literal::parse("-"), InvalidLiteral, None); assert_err_single!(Literal::parse("e"), InvalidLiteral, None); assert_err_single!(Literal::parse("e8"), InvalidLiteral, None); assert_err_single!(Literal::parse("f32"), InvalidLiteral, None); assert_err_single!(Literal::parse("foo"), InvalidLiteral, None); assert_err_single!(Literal::parse("inf"), InvalidLiteral, None); assert_err_single!(Literal::parse("nan"), InvalidLiteral, None); assert_err_single!(Literal::parse("NaN"), InvalidLiteral, None); assert_err_single!(Literal::parse("NAN"), InvalidLiteral, None); assert_err_single!(Literal::parse("_2.7"), InvalidLiteral, None); assert_err_single!(Literal::parse(".5"), InvalidLiteral, None); } #[test] fn misc() { assert_err_single!(Literal::parse("0x44.5"), UnexpectedChar, 4..6); assert_err_single!(Literal::parse("a"), InvalidLiteral, None); assert_err_single!(Literal::parse(";"), InvalidLiteral, None); assert_err_single!(Literal::parse("0;"), UnexpectedChar, 1); assert_err_single!(Literal::parse(" 0"), InvalidLiteral, None); assert_err_single!(Literal::parse("0 "), UnexpectedChar, 1); assert_err_single!(Literal::parse("_"), InvalidLiteral, None); assert_err_single!(Literal::parse("_3"), InvalidLiteral, None); assert_err_single!(Literal::parse("a_123"), InvalidLiteral, None); assert_err_single!(Literal::parse("B_123"), InvalidLiteral, None); } macro_rules! assert_no_panic { ($input:expr) => { let arr = $input; let input = std::str::from_utf8(&arr).expect("not unicode"); let res = std::panic::catch_unwind(move || { let _ = Literal::parse(input); let _ = crate::BoolLit::parse(input); let _ = crate::IntegerLit::parse(input); let _ = crate::FloatLit::parse(input); let _ = crate::CharLit::parse(input); let _ = crate::StringLit::parse(input); let _ = crate::ByteLit::parse(input); let _ = crate::ByteStringLit::parse(input); }); if let Err(e) = res { println!("\n!!! panic for: {:?}", input); std::panic::resume_unwind(e); } }; } #[test] #[ignore] fn never_panic_up_to_3() { for a in 0..128 { assert_no_panic!([a]); for b in 0..128 { assert_no_panic!([a, b]); for c in 0..128 { assert_no_panic!([a, b, c]); } } } } // This test takes super long in debug mode, but in release mode it's fine. #[test] #[ignore] fn never_panic_len_4() { for a in 0..128 { for b in 0..128 { for c in 0..128 { for d in 0..128 { assert_no_panic!([a, b, c, d]); } } } } } #[cfg(feature = "proc-macro2")] #[test] fn proc_macro() { use std::convert::TryFrom; use proc_macro2::{ self as pm2, TokenTree, Group, TokenStream, Delimiter, Spacing, Punct, Span, Ident, }; use crate::{ BoolLit, ByteLit, ByteStringLit, CharLit, FloatLit, IntegerLit, StringLit, err::TokenKind }; macro_rules! assert_invalid_token { ($input:expr, expected: $expected:path, actual: $actual:path $(,)?) => { let err = $input.unwrap_err(); if err.expected != $expected { panic!( "err.expected was expected to be {:?}, but is {:?}", $expected, err.expected, ); } if err.actual != $actual { panic!("err.actual was expected to be {:?}, but is {:?}", $actual, err.actual); } }; } let pm_u16_lit = pm2::Literal::u16_suffixed(2700); let pm_i16_lit = pm2::Literal::i16_unsuffixed(3912); let pm_f32_lit = pm2::Literal::f32_unsuffixed(3.14); let pm_f64_lit = pm2::Literal::f64_suffixed(99.3); let pm_string_lit = pm2::Literal::string("hello 🦊"); let pm_bytestr_lit = pm2::Literal::byte_string(b"hello \nfoxxo"); let pm_char_lit = pm2::Literal::character('🦀'); let u16_lit = Literal::parse("2700u16".to_string()).unwrap(); let i16_lit = Literal::parse("3912".to_string()).unwrap(); let f32_lit = Literal::parse("3.14".to_string()).unwrap(); let f64_lit = Literal::parse("99.3f64".to_string()).unwrap(); let string_lit = Literal::parse(r#""hello 🦊""#.to_string()).unwrap(); let bytestr_lit = Literal::parse(r#"b"hello \nfoxxo""#.to_string()).unwrap(); let char_lit = Literal::parse("'🦀'".to_string()).unwrap(); assert_eq!(Literal::from(&pm_u16_lit), u16_lit); assert_eq!(Literal::from(&pm_i16_lit), i16_lit); assert_eq!(Literal::from(&pm_f32_lit), f32_lit); assert_eq!(Literal::from(&pm_f64_lit), f64_lit); assert_eq!(Literal::from(&pm_string_lit), string_lit); assert_eq!(Literal::from(&pm_bytestr_lit), bytestr_lit); assert_eq!(Literal::from(&pm_char_lit), char_lit); let group = TokenTree::from(Group::new(Delimiter::Brace, TokenStream::new())); let punct = TokenTree::from(Punct::new(':', Spacing::Alone)); let ident = TokenTree::from(Ident::new("peter", Span::call_site())); assert_eq!( Literal::try_from(TokenTree::Literal(pm2::Literal::string("hello 🦊"))).unwrap(), Literal::String(StringLit::parse(r#""hello 🦊""#.to_string()).unwrap()), ); assert_invalid_token!( Literal::try_from(punct.clone()), expected: TokenKind::Literal, actual: TokenKind::Punct, ); assert_invalid_token!( Literal::try_from(group.clone()), expected: TokenKind::Literal, actual: TokenKind::Group, ); assert_invalid_token!( Literal::try_from(ident.clone()), expected: TokenKind::Literal, actual: TokenKind::Ident, ); assert_eq!(Literal::from(IntegerLit::try_from(pm_u16_lit.clone()).unwrap()), u16_lit); assert_eq!(Literal::from(IntegerLit::try_from(pm_i16_lit.clone()).unwrap()), i16_lit); assert_eq!(Literal::from(FloatLit::try_from(pm_f32_lit.clone()).unwrap()), f32_lit); assert_eq!(Literal::from(FloatLit::try_from(pm_f64_lit.clone()).unwrap()), f64_lit); assert_eq!(Literal::from(StringLit::try_from(pm_string_lit.clone()).unwrap()), string_lit); assert_eq!( Literal::from(ByteStringLit::try_from(pm_bytestr_lit.clone()).unwrap()), bytestr_lit, ); assert_eq!(Literal::from(CharLit::try_from(pm_char_lit.clone()).unwrap()), char_lit); assert_invalid_token!( StringLit::try_from(pm_u16_lit.clone()), expected: TokenKind::StringLit, actual: TokenKind::IntegerLit, ); assert_invalid_token!( StringLit::try_from(pm_f32_lit.clone()), expected: TokenKind::StringLit, actual: TokenKind::FloatLit, ); assert_invalid_token!( ByteLit::try_from(pm_bytestr_lit.clone()), expected: TokenKind::ByteLit, actual: TokenKind::ByteStringLit, ); assert_invalid_token!( ByteLit::try_from(pm_i16_lit.clone()), expected: TokenKind::ByteLit, actual: TokenKind::IntegerLit, ); assert_invalid_token!( IntegerLit::try_from(pm_string_lit.clone()), expected: TokenKind::IntegerLit, actual: TokenKind::StringLit, ); assert_invalid_token!( IntegerLit::try_from(pm_char_lit.clone()), expected: TokenKind::IntegerLit, actual: TokenKind::CharLit, ); assert_eq!( Literal::from(IntegerLit::try_from(TokenTree::from(pm_u16_lit.clone())).unwrap()), u16_lit, ); assert_eq!( Literal::from(IntegerLit::try_from(TokenTree::from(pm_i16_lit.clone())).unwrap()), i16_lit, ); assert_eq!( Literal::from(FloatLit::try_from(TokenTree::from(pm_f32_lit.clone())).unwrap()), f32_lit, ); assert_eq!( Literal::from(FloatLit::try_from(TokenTree::from(pm_f64_lit.clone())).unwrap()), f64_lit, ); assert_eq!( Literal::from(StringLit::try_from(TokenTree::from(pm_string_lit.clone())).unwrap()), string_lit, ); assert_eq!( Literal::from(ByteStringLit::try_from(TokenTree::from(pm_bytestr_lit.clone())).unwrap()), bytestr_lit, ); assert_eq!( Literal::from(CharLit::try_from(TokenTree::from(pm_char_lit.clone())).unwrap()), char_lit, ); assert_invalid_token!( StringLit::try_from(TokenTree::from(pm_u16_lit.clone())), expected: TokenKind::StringLit, actual: TokenKind::IntegerLit, ); assert_invalid_token!( StringLit::try_from(TokenTree::from(pm_f32_lit.clone())), expected: TokenKind::StringLit, actual: TokenKind::FloatLit, ); assert_invalid_token!( BoolLit::try_from(TokenTree::from(pm_bytestr_lit.clone())), expected: TokenKind::BoolLit, actual: TokenKind::ByteStringLit, ); assert_invalid_token!( BoolLit::try_from(TokenTree::from(pm_i16_lit.clone())), expected: TokenKind::BoolLit, actual: TokenKind::IntegerLit, ); assert_invalid_token!( IntegerLit::try_from(TokenTree::from(pm_string_lit.clone())), expected: TokenKind::IntegerLit, actual: TokenKind::StringLit, ); assert_invalid_token!( IntegerLit::try_from(TokenTree::from(pm_char_lit.clone())), expected: TokenKind::IntegerLit, actual: TokenKind::CharLit, ); assert_invalid_token!( StringLit::try_from(TokenTree::from(group)), expected: TokenKind::StringLit, actual: TokenKind::Group, ); assert_invalid_token!( BoolLit::try_from(TokenTree::from(punct)), expected: TokenKind::BoolLit, actual: TokenKind::Punct, ); assert_invalid_token!( FloatLit::try_from(TokenTree::from(ident)), expected: TokenKind::FloatLit, actual: TokenKind::Ident, ); } #[cfg(feature = "proc-macro2")] #[test] fn bool_try_from_tt() { use std::convert::TryFrom; use proc_macro2::{Ident, Span, TokenTree}; use crate::BoolLit; let ident = |s: &str| Ident::new(s, Span::call_site()); assert_eq!(BoolLit::try_from(TokenTree::Ident(ident("true"))).unwrap(), BoolLit::True); assert_eq!(BoolLit::try_from(TokenTree::Ident(ident("false"))).unwrap(), BoolLit::False); assert!(BoolLit::try_from(TokenTree::Ident(ident("falsex"))).is_err()); assert!(BoolLit::try_from(TokenTree::Ident(ident("_false"))).is_err()); assert!(BoolLit::try_from(TokenTree::Ident(ident("False"))).is_err()); assert!(BoolLit::try_from(TokenTree::Ident(ident("True"))).is_err()); assert!(BoolLit::try_from(TokenTree::Ident(ident("ltrue"))).is_err()); assert_eq!( Literal::try_from(TokenTree::Ident(ident("true"))).unwrap(), Literal::Bool(BoolLit::True), ); assert_eq!( Literal::try_from(TokenTree::Ident(ident("false"))).unwrap(), Literal::Bool(BoolLit::False), ); assert!(Literal::try_from(TokenTree::Ident(ident("falsex"))).is_err()); assert!(Literal::try_from(TokenTree::Ident(ident("_false"))).is_err()); assert!(Literal::try_from(TokenTree::Ident(ident("False"))).is_err()); assert!(Literal::try_from(TokenTree::Ident(ident("True"))).is_err()); assert!(Literal::try_from(TokenTree::Ident(ident("ltrue"))).is_err()); } #[cfg(feature = "proc-macro2")] #[test] fn invalid_token_display() { use crate::{InvalidToken, err::TokenKind}; let span = crate::err::Span::Two(proc_macro2::Span::call_site()); assert_eq!( InvalidToken { actual: TokenKind::StringLit, expected: TokenKind::FloatLit, span, }.to_string(), r#"expected a float literal (e.g. `3.14`), but found a string literal (e.g. "Ferris")"#, ); assert_eq!( InvalidToken { actual: TokenKind::Punct, expected: TokenKind::Literal, span, }.to_string(), r#"expected a literal, but found a punctuation character"#, ); }