tests/test.rs - platform/external/rust/crates/quote - Git at Google

 #![allow(
     clippy::disallowed_names,
     clippy::shadow_unrelated,
     clippy::unseparated_literal_suffix,
     clippy::used_underscore_binding
 )]

 use std::borrow::Cow;
 use std::collections::BTreeSet;

 use proc_macro2::{Ident, Span, TokenStream};
 use quote::{format_ident, quote, quote_spanned, TokenStreamExt};

 struct X;

 impl quote::ToTokens for X {
     fn to_tokens(&self, tokens: &mut TokenStream) {
         tokens.append(Ident::new("X", Span::call_site()));
     }
 }

 #[test]
 fn test_quote_impl() {
     let tokens = quote! {
         impl<'a, T: ToTokens> ToTokens for &'a T {
             fn to_tokens(&self, tokens: &mut TokenStream) {
                 (**self).to_tokens(tokens)
             }
         }
     };

     let expected = concat!(
         "impl < 'a , T : ToTokens > ToTokens for & 'a T { ",
         "fn to_tokens (& self , tokens : & mut TokenStream) { ",
         "(* * self) . to_tokens (tokens) ",
         "} ",
         "}"
     );

     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_quote_spanned_impl() {
     let span = Span::call_site();
     let tokens = quote_spanned! {span=>
         impl<'a, T: ToTokens> ToTokens for &'a T {
             fn to_tokens(&self, tokens: &mut TokenStream) {
                 (**self).to_tokens(tokens)
             }
         }
     };

     let expected = concat!(
         "impl < 'a , T : ToTokens > ToTokens for & 'a T { ",
         "fn to_tokens (& self , tokens : & mut TokenStream) { ",
         "(* * self) . to_tokens (tokens) ",
         "} ",
         "}"
     );

     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_substitution() {
     let x = X;
     let tokens = quote!(#x <#x> (#x) [#x] {#x});

     let expected = "X < X > (X) [X] { X }";

     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_iter() {
     let primes = &[X, X, X, X];

     assert_eq!("X X X X", quote!(#(#primes)*).to_string());

     assert_eq!("X , X , X , X ,", quote!(#(#primes,)*).to_string());

     assert_eq!("X , X , X , X", quote!(#(#primes),*).to_string());
 }

 #[test]
 fn test_array() {
     let array: [u8; 40] = [0; 40];
     let _ = quote!(#(#array #array)*);

     let ref_array: &[u8; 40] = &[0; 40];
     let _ = quote!(#(#ref_array #ref_array)*);

     let ref_slice: &[u8] = &[0; 40];
     let _ = quote!(#(#ref_slice #ref_slice)*);

     let array: [X; 2] = [X, X]; // !Copy
     let _ = quote!(#(#array #array)*);

     let ref_array: &[X; 2] = &[X, X];
     let _ = quote!(#(#ref_array #ref_array)*);

     let ref_slice: &[X] = &[X, X];
     let _ = quote!(#(#ref_slice #ref_slice)*);
 }

 #[test]
 fn test_advanced() {
     let generics = quote!( <'a, T> );

     let where_clause = quote!( where T: Serialize );

     let field_ty = quote!(String);

     let item_ty = quote!(Cow<'a, str>);

     let path = quote!(SomeTrait::serialize_with);

     let value = quote!(self.x);

     let tokens = quote! {
         struct SerializeWith #generics #where_clause {
             value: &'a #field_ty,
             phantom: ::std::marker::PhantomData<#item_ty>,
         }

         impl #generics ::serde::Serialize for SerializeWith #generics #where_clause {
             fn serialize<S>(&self, s: &mut S) -> Result<(), S::Error>
                 where S: ::serde::Serializer
             {
                 #path(self.value, s)
             }
         }

         SerializeWith {
             value: #value,
             phantom: ::std::marker::PhantomData::<#item_ty>,
         }
     };

     let expected = concat!(
         "struct SerializeWith < 'a , T > where T : Serialize { ",
         "value : & 'a String , ",
         "phantom : :: std :: marker :: PhantomData < Cow < 'a , str > > , ",
         "} ",
         "impl < 'a , T > :: serde :: Serialize for SerializeWith < 'a , T > where T : Serialize { ",
         "fn serialize < S > (& self , s : & mut S) -> Result < () , S :: Error > ",
         "where S : :: serde :: Serializer ",
         "{ ",
         "SomeTrait :: serialize_with (self . value , s) ",
         "} ",
         "} ",
         "SerializeWith { ",
         "value : self . x , ",
         "phantom : :: std :: marker :: PhantomData :: < Cow < 'a , str > > , ",
         "}"
     );

     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_integer() {
     let ii8 = -1i8;
     let ii16 = -1i16;
     let ii32 = -1i32;
     let ii64 = -1i64;
     let ii128 = -1i128;
     let iisize = -1isize;
     let uu8 = 1u8;
     let uu16 = 1u16;
     let uu32 = 1u32;
     let uu64 = 1u64;
     let uu128 = 1u128;
     let uusize = 1usize;

     let tokens = quote! {
         1 1i32 1u256
         #ii8 #ii16 #ii32 #ii64 #ii128 #iisize
         #uu8 #uu16 #uu32 #uu64 #uu128 #uusize
     };
     let expected =
         "1 1i32 1u256 - 1i8 - 1i16 - 1i32 - 1i64 - 1i128 - 1isize 1u8 1u16 1u32 1u64 1u128 1usize";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_floating() {
     let e32 = 2.345f32;

     let e64 = 2.345f64;

     let tokens = quote! {
         #e32
         #e64
     };
     let expected = concat!("2.345f32 2.345f64");
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_char() {
     let zero = '\u{1}';
     let pound = '#';
     let quote = '"';
     let apost = '\'';
     let newline = '\n';
     let heart = '\u{2764}';

     let tokens = quote! {
         #zero #pound #quote #apost #newline #heart
     };
     let expected = "'\\u{1}' '#' '\"' '\\'' '\\n' '\u{2764}'";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_str() {
     let s = "\u{1} a 'b \" c";
     let tokens = quote!(#s);
     let expected = "\"\\u{1} a 'b \\\" c\"";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_string() {
     let s = "\u{1} a 'b \" c".to_string();
     let tokens = quote!(#s);
     let expected = "\"\\u{1} a 'b \\\" c\"";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_interpolated_literal() {
     macro_rules! m {
         ($literal:literal) => {
             quote!($literal)
         };
     }

     let tokens = m!(1);
     let expected = "1";
     assert_eq!(expected, tokens.to_string());

     let tokens = m!(-1);
     let expected = "- 1";
     assert_eq!(expected, tokens.to_string());

     let tokens = m!(true);
     let expected = "true";
     assert_eq!(expected, tokens.to_string());

     let tokens = m!(-true);
     let expected = "- true";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_ident() {
     let foo = Ident::new("Foo", Span::call_site());
     let bar = Ident::new(&format!("Bar{}", 7), Span::call_site());
     let tokens = quote!(struct #foo; enum #bar {});
     let expected = "struct Foo ; enum Bar7 { }";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_underscore() {
     let tokens = quote!(let _;);
     let expected = "let _ ;";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_duplicate() {
     let ch = 'x';

     let tokens = quote!(#ch #ch);

     let expected = "'x' 'x'";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_fancy_repetition() {
     let foo = vec!["a", "b"];
     let bar = vec![true, false];

     let tokens = quote! {
         #(#foo: #bar),*
     };

     let expected = r#""a" : true , "b" : false"#;
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_nested_fancy_repetition() {
     let nested = vec![vec!['a', 'b', 'c'], vec!['x', 'y', 'z']];

     let tokens = quote! {
         #(
             #(#nested)*
         ),*
     };

     let expected = "'a' 'b' 'c' , 'x' 'y' 'z'";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_duplicate_name_repetition() {
     let foo = &["a", "b"];

     let tokens = quote! {
         #(#foo: #foo),*
         #(#foo: #foo),*
     };

     let expected = r#""a" : "a" , "b" : "b" "a" : "a" , "b" : "b""#;
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_duplicate_name_repetition_no_copy() {
     let foo = vec!["a".to_owned(), "b".to_owned()];

     let tokens = quote! {
         #(#foo: #foo),*
     };

     let expected = r#""a" : "a" , "b" : "b""#;
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_btreeset_repetition() {
     let mut set = BTreeSet::new();
     set.insert("a".to_owned());
     set.insert("b".to_owned());

     let tokens = quote! {
         #(#set: #set),*
     };

     let expected = r#""a" : "a" , "b" : "b""#;
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_variable_name_conflict() {
     // The implementation of `#(...),*` uses the variable `_i` but it should be
     // fine, if a little confusing when debugging.
     let _i = vec!['a', 'b'];
     let tokens = quote! { #(#_i),* };
     let expected = "'a' , 'b'";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_nonrep_in_repetition() {
     let rep = vec!["a", "b"];
     let nonrep = "c";

     let tokens = quote! {
         #(#rep #rep : #nonrep #nonrep),*
     };

     let expected = r#""a" "a" : "c" "c" , "b" "b" : "c" "c""#;
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_empty_quote() {
     let tokens = quote!();
     assert_eq!("", tokens.to_string());
 }

 #[test]
 fn test_box_str() {
     let b = "str".to_owned().into_boxed_str();
     let tokens = quote! { #b };
     assert_eq!("\"str\"", tokens.to_string());
 }

 #[test]
 fn test_cow() {
     let owned: Cow<Ident> = Cow::Owned(Ident::new("owned", Span::call_site()));

     let ident = Ident::new("borrowed", Span::call_site());
     let borrowed = Cow::Borrowed(&ident);

     let tokens = quote! { #owned #borrowed };
     assert_eq!("owned borrowed", tokens.to_string());
 }

 #[test]
 fn test_closure() {
     fn field_i(i: usize) -> Ident {
         format_ident!("__field{}", i)
     }

     let fields = (0usize..3)
         .map(field_i as fn(_) -> _)
         .map(|var| quote! { #var });

     let tokens = quote! { #(#fields)* };
     assert_eq!("__field0 __field1 __field2", tokens.to_string());
 }

 #[test]
 fn test_append_tokens() {
     let mut a = quote!(a);
     let b = quote!(b);
     a.append_all(b);
     assert_eq!("a b", a.to_string());
 }

 #[test]
 fn test_format_ident() {
     let id0 = format_ident!("Aa");
     let id1 = format_ident!("Hello{x}", x = id0);
     let id2 = format_ident!("Hello{x}", x = 5usize);
     let id3 = format_ident!("Hello{}_{x}", id0, x = 10usize);
     let id4 = format_ident!("Aa", span = Span::call_site());
     let id5 = format_ident!("Hello{}", Cow::Borrowed("World"));

     assert_eq!(id0, "Aa");
     assert_eq!(id1, "HelloAa");
     assert_eq!(id2, "Hello5");
     assert_eq!(id3, "HelloAa_10");
     assert_eq!(id4, "Aa");
     assert_eq!(id5, "HelloWorld");
 }

 #[test]
 fn test_format_ident_strip_raw() {
     let id = format_ident!("r#struct");
     let my_id = format_ident!("MyId{}", id);
     let raw_my_id = format_ident!("r#MyId{}", id);

     assert_eq!(id, "r#struct");
     assert_eq!(my_id, "MyIdstruct");
     assert_eq!(raw_my_id, "r#MyIdstruct");
 }

 #[test]
 fn test_outer_line_comment() {
     let tokens = quote! {
         /// doc
     };
     let expected = "# [doc = r\" doc\"]";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_inner_line_comment() {
     let tokens = quote! {
         //! doc
     };
     let expected = "# ! [doc = r\" doc\"]";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_outer_block_comment() {
     let tokens = quote! {
         /** doc */
     };
     let expected = "# [doc = r\" doc \"]";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_inner_block_comment() {
     let tokens = quote! {
         /*! doc */
     };
     let expected = "# ! [doc = r\" doc \"]";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_outer_attr() {
     let tokens = quote! {
         #[inline]
     };
     let expected = "# [inline]";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_inner_attr() {
     let tokens = quote! {
         #![no_std]
     };
     let expected = "# ! [no_std]";
     assert_eq!(expected, tokens.to_string());
 }

 // https://github.com/dtolnay/quote/issues/130
 #[test]
 fn test_star_after_repetition() {
     let c = vec!['0', '1'];
     let tokens = quote! {
         #(
             f(#c);
         )*
         *out = None;
     };
     let expected = "f ('0') ; f ('1') ; * out = None ;";
     assert_eq!(expected, tokens.to_string());
 }

 #[test]
 fn test_quote_raw_id() {
     let id = quote!(r#raw_id);
     assert_eq!(id.to_string(), "r#raw_id");
 }
	#![allow(
	clippy::disallowed_names,
	clippy::shadow_unrelated,
	clippy::unseparated_literal_suffix,
	clippy::used_underscore_binding
	)]

	use std::borrow::Cow;
	use std::collections::BTreeSet;

	use proc_macro2::{Ident, Span, TokenStream};
	use quote::{format_ident, quote, quote_spanned, TokenStreamExt};

	struct X;

	impl quote::ToTokens for X {
	fn to_tokens(&self, tokens: &mut TokenStream) {
	tokens.append(Ident::new("X", Span::call_site()));
	}
	}

	#[test]
	fn test_quote_impl() {
	let tokens = quote! {
	impl<'a, T: ToTokens> ToTokens for &'a T {
	fn to_tokens(&self, tokens: &mut TokenStream) {
	(**self).to_tokens(tokens)
	}
	}
	};

	let expected = concat!(
	"impl < 'a , T : ToTokens > ToTokens for & 'a T { ",
	"fn to_tokens (& self , tokens : & mut TokenStream) { ",
	"(* * self) . to_tokens (tokens) ",
	"} ",
	"}"
	);

	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_quote_spanned_impl() {
	let span = Span::call_site();
	let tokens = quote_spanned! {span=>
	impl<'a, T: ToTokens> ToTokens for &'a T {
	fn to_tokens(&self, tokens: &mut TokenStream) {
	(**self).to_tokens(tokens)
	}
	}
	};

	let expected = concat!(
	"impl < 'a , T : ToTokens > ToTokens for & 'a T { ",
	"fn to_tokens (& self , tokens : & mut TokenStream) { ",
	"(* * self) . to_tokens (tokens) ",
	"} ",
	"}"
	);

	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_substitution() {
	let x = X;
	let tokens = quote!(#x <#x> (#x) [#x] {#x});

	let expected = "X < X > (X) [X] { X }";

	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_iter() {
	let primes = &[X, X, X, X];

	assert_eq!("X X X X", quote!(#(#primes)*).to_string());

	assert_eq!("X , X , X , X ,", quote!(#(#primes,)*).to_string());

	assert_eq!("X , X , X , X", quote!(#(#primes),*).to_string());
	}

	#[test]
	fn test_array() {
	let array: [u8; 40] = [0; 40];
	let _ = quote!(#(#array #array)*);

	let ref_array: &[u8; 40] = &[0; 40];
	let _ = quote!(#(#ref_array #ref_array)*);

	let ref_slice: &[u8] = &[0; 40];
	let _ = quote!(#(#ref_slice #ref_slice)*);

	let array: [X; 2] = [X, X]; // !Copy
	let _ = quote!(#(#array #array)*);

	let ref_array: &[X; 2] = &[X, X];
	let _ = quote!(#(#ref_array #ref_array)*);

	let ref_slice: &[X] = &[X, X];
	let _ = quote!(#(#ref_slice #ref_slice)*);
	}

	#[test]
	fn test_advanced() {
	let generics = quote!( <'a, T> );

	let where_clause = quote!( where T: Serialize );

	let field_ty = quote!(String);

	let item_ty = quote!(Cow<'a, str>);

	let path = quote!(SomeTrait::serialize_with);

	let value = quote!(self.x);

	let tokens = quote! {
	struct SerializeWith #generics #where_clause {
	value: &'a #field_ty,
	phantom: ::std::marker::PhantomData<#item_ty>,
	}

	impl #generics ::serde::Serialize for SerializeWith #generics #where_clause {
	fn serialize<S>(&self, s: &mut S) -> Result<(), S::Error>
	where S: ::serde::Serializer
	{
	#path(self.value, s)
	}
	}

	SerializeWith {
	value: #value,
	phantom: ::std::marker::PhantomData::<#item_ty>,
	}
	};

	let expected = concat!(
	"struct SerializeWith < 'a , T > where T : Serialize { ",
	"value : & 'a String , ",
	"phantom : :: std :: marker :: PhantomData < Cow < 'a , str > > , ",
	"} ",
	"impl < 'a , T > :: serde :: Serialize for SerializeWith < 'a , T > where T : Serialize { ",
	"fn serialize < S > (& self , s : & mut S) -> Result < () , S :: Error > ",
	"where S : :: serde :: Serializer ",
	"{ ",
	"SomeTrait :: serialize_with (self . value , s) ",
	"} ",
	"} ",
	"SerializeWith { ",
	"value : self . x , ",
	"phantom : :: std :: marker :: PhantomData :: < Cow < 'a , str > > , ",
	"}"
	);

	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_integer() {
	let ii8 = -1i8;
	let ii16 = -1i16;
	let ii32 = -1i32;
	let ii64 = -1i64;
	let ii128 = -1i128;
	let iisize = -1isize;
	let uu8 = 1u8;
	let uu16 = 1u16;
	let uu32 = 1u32;
	let uu64 = 1u64;
	let uu128 = 1u128;
	let uusize = 1usize;

	let tokens = quote! {
	1 1i32 1u256
	#ii8 #ii16 #ii32 #ii64 #ii128 #iisize
	#uu8 #uu16 #uu32 #uu64 #uu128 #uusize
	};
	let expected =
	"1 1i32 1u256 - 1i8 - 1i16 - 1i32 - 1i64 - 1i128 - 1isize 1u8 1u16 1u32 1u64 1u128 1usize";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_floating() {
	let e32 = 2.345f32;

	let e64 = 2.345f64;

	let tokens = quote! {
	#e32
	#e64
	};
	let expected = concat!("2.345f32 2.345f64");
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_char() {
	let zero = '\u{1}';
	let pound = '#';
	let quote = '"';
	let apost = '\'';
	let newline = '\n';
	let heart = '\u{2764}';

	let tokens = quote! {
	#zero #pound #quote #apost #newline #heart
	};
	let expected = "'\\u{1}' '#' '\"' '\\'' '\\n' '\u{2764}'";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_str() {
	let s = "\u{1} a 'b \" c";
	let tokens = quote!(#s);
	let expected = "\"\\u{1} a 'b \\\" c\"";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_string() {
	let s = "\u{1} a 'b \" c".to_string();
	let tokens = quote!(#s);
	let expected = "\"\\u{1} a 'b \\\" c\"";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_interpolated_literal() {
	macro_rules! m {
	($literal:literal) => {
	quote!($literal)
	};
	}

	let tokens = m!(1);
	let expected = "1";
	assert_eq!(expected, tokens.to_string());

	let tokens = m!(-1);
	let expected = "- 1";
	assert_eq!(expected, tokens.to_string());

	let tokens = m!(true);
	let expected = "true";
	assert_eq!(expected, tokens.to_string());

	let tokens = m!(-true);
	let expected = "- true";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_ident() {
	let foo = Ident::new("Foo", Span::call_site());
	let bar = Ident::new(&format!("Bar{}", 7), Span::call_site());
	let tokens = quote!(struct #foo; enum #bar {});
	let expected = "struct Foo ; enum Bar7 { }";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_underscore() {
	let tokens = quote!(let _;);
	let expected = "let _ ;";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_duplicate() {
	let ch = 'x';

	let tokens = quote!(#ch #ch);

	let expected = "'x' 'x'";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_fancy_repetition() {
	let foo = vec!["a", "b"];
	let bar = vec![true, false];

	let tokens = quote! {
	#(#foo: #bar),*
	};

	let expected = r#""a" : true , "b" : false"#;
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_nested_fancy_repetition() {
	let nested = vec![vec!['a', 'b', 'c'], vec!['x', 'y', 'z']];

	let tokens = quote! {
	#(
	#(#nested)*
	),*
	};

	let expected = "'a' 'b' 'c' , 'x' 'y' 'z'";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_duplicate_name_repetition() {
	let foo = &["a", "b"];

	let tokens = quote! {
	#(#foo: #foo),*
	#(#foo: #foo),*
	};

	let expected = r#""a" : "a" , "b" : "b" "a" : "a" , "b" : "b""#;
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_duplicate_name_repetition_no_copy() {
	let foo = vec!["a".to_owned(), "b".to_owned()];

	let tokens = quote! {
	#(#foo: #foo),*
	};

	let expected = r#""a" : "a" , "b" : "b""#;
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_btreeset_repetition() {
	let mut set = BTreeSet::new();
	set.insert("a".to_owned());
	set.insert("b".to_owned());

	let tokens = quote! {
	#(#set: #set),*
	};

	let expected = r#""a" : "a" , "b" : "b""#;
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_variable_name_conflict() {
	// The implementation of `#(...),*` uses the variable `_i` but it should be
	// fine, if a little confusing when debugging.
	let _i = vec!['a', 'b'];
	let tokens = quote! { #(#_i),* };
	let expected = "'a' , 'b'";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_nonrep_in_repetition() {
	let rep = vec!["a", "b"];
	let nonrep = "c";

	let tokens = quote! {
	#(#rep #rep : #nonrep #nonrep),*
	};

	let expected = r#""a" "a" : "c" "c" , "b" "b" : "c" "c""#;
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_empty_quote() {
	let tokens = quote!();
	assert_eq!("", tokens.to_string());
	}

	#[test]
	fn test_box_str() {
	let b = "str".to_owned().into_boxed_str();
	let tokens = quote! { #b };
	assert_eq!("\"str\"", tokens.to_string());
	}

	#[test]
	fn test_cow() {
	let owned: Cow<Ident> = Cow::Owned(Ident::new("owned", Span::call_site()));

	let ident = Ident::new("borrowed", Span::call_site());
	let borrowed = Cow::Borrowed(&ident);

	let tokens = quote! { #owned #borrowed };
	assert_eq!("owned borrowed", tokens.to_string());
	}

	#[test]
	fn test_closure() {
	fn field_i(i: usize) -> Ident {
	format_ident!("__field{}", i)
	}

	let fields = (0usize..3)
	.map(field_i as fn(_) -> _)
	.map(\|var\| quote! { #var });

	let tokens = quote! { #(#fields)* };
	assert_eq!("__field0 __field1 __field2", tokens.to_string());
	}

	#[test]
	fn test_append_tokens() {
	let mut a = quote!(a);
	let b = quote!(b);
	a.append_all(b);
	assert_eq!("a b", a.to_string());
	}

	#[test]
	fn test_format_ident() {
	let id0 = format_ident!("Aa");
	let id1 = format_ident!("Hello{x}", x = id0);
	let id2 = format_ident!("Hello{x}", x = 5usize);
	let id3 = format_ident!("Hello{}_{x}", id0, x = 10usize);
	let id4 = format_ident!("Aa", span = Span::call_site());
	let id5 = format_ident!("Hello{}", Cow::Borrowed("World"));

	assert_eq!(id0, "Aa");
	assert_eq!(id1, "HelloAa");
	assert_eq!(id2, "Hello5");
	assert_eq!(id3, "HelloAa_10");
	assert_eq!(id4, "Aa");
	assert_eq!(id5, "HelloWorld");
	}

	#[test]
	fn test_format_ident_strip_raw() {
	let id = format_ident!("r#struct");
	let my_id = format_ident!("MyId{}", id);
	let raw_my_id = format_ident!("r#MyId{}", id);

	assert_eq!(id, "r#struct");
	assert_eq!(my_id, "MyIdstruct");
	assert_eq!(raw_my_id, "r#MyIdstruct");
	}

	#[test]
	fn test_outer_line_comment() {
	let tokens = quote! {
	/// doc
	};
	let expected = "# [doc = r\" doc\"]";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_inner_line_comment() {
	let tokens = quote! {
	//! doc
	};
	let expected = "# ! [doc = r\" doc\"]";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_outer_block_comment() {
	let tokens = quote! {
	/** doc */
	};
	let expected = "# [doc = r\" doc \"]";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_inner_block_comment() {
	let tokens = quote! {
	/! doc /
	};
	let expected = "# ! [doc = r\" doc \"]";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_outer_attr() {
	let tokens = quote! {
	#[inline]
	};
	let expected = "# [inline]";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_inner_attr() {
	let tokens = quote! {
	#![no_std]
	};
	let expected = "# ! [no_std]";
	assert_eq!(expected, tokens.to_string());
	}

	// https://github.com/dtolnay/quote/issues/130
	#[test]
	fn test_star_after_repetition() {
	let c = vec!['0', '1'];
	let tokens = quote! {
	#(
	f(#c);
	)*
	*out = None;
	};
	let expected = "f ('0') ; f ('1') ; * out = None ;";
	assert_eq!(expected, tokens.to_string());
	}

	#[test]
	fn test_quote_raw_id() {
	let id = quote!(r#raw_id);
	assert_eq!(id.to_string(), "r#raw_id");
	}