Ziele Untersuchung
mit Columbo Integrität von
Datenbanken Interaktion und
Portierbarkeit Ergonomie der
Schnittstellen

Angebot Produkte Projekt Beratung

Mittel Analytik Modellierung Sprachen Algebra Logik Hardware Denken Kreativität

Zusammenhänge Gesellschaft Wirtschaft Branche Firma


products/Sources/formale Sprachen/C/Firefox/third_party/rust/quote/src/ (Browser von der Mozilla Stiftung Version 136.0.1^©) Datei vom 10.2.2025 mit Größe 43 kB

Quelle lib.rs Sprache: unbekannt

//! [![github]](https://github.com/dtolnay/quote) [![crates-io]](https://crates.io/crates/quote) [![docs-rs]](https://docs.rs/quote)
//!
//! [github]: https://img.shields.io/badge/github-8da0cb?style=for-the-badge&labelColor=555555&logo=github
//! [crates-io]: https://img.shields.io/badge/crates.io-fc8d62?style=for-the-badge&labelColor=555555&logo=rust
//! [docs-rs]: https://img.shields.io/badge/docs.rs-66c2a5?style=for-the-badge&labelColor=555555&logo=docs.rs
//!
//! 
//!
//! This crate provides the [`quote!`] macro for turning Rust syntax tree data
//! structures into tokens of source code.
//!
//! [`quote!`]: macro.quote.html
//!
//! Procedural macros in Rust receive a stream of tokens as input, execute
//! arbitrary Rust code to determine how to manipulate those tokens, and produce
//! a stream of tokens to hand back to the compiler to compile into the caller's
//! crate. Quasi-quoting is a solution to one piece of that — producing
//! tokens to return to the compiler.
//!
//! The idea of quasi-quoting is that we write *code* that we treat as *data*.
//! Within the `quote!` macro, we can write what looks like code to our text
//! editor or IDE. We get all the benefits of the editor's brace matching,
//! syntax highlighting, indentation, and maybe autocompletion. But rather than
//! compiling that as code into the current crate, we can treat it as data, pass
//! it around, mutate it, and eventually hand it back to the compiler as tokens
//! to compile into the macro caller's crate.
//!
//! This crate is motivated by the procedural macro use case, but is a
//! general-purpose Rust quasi-quoting library and is not specific to procedural
//! macros.
//!
//! ```toml
//! [dependencies]
//! quote = "1.0"
//! ```
//!
//! 
//!
//! # Example
//!
//! The following quasi-quoted block of code is something you might find in [a]
//! procedural macro having to do with data structure serialization. The `#var`
//! syntax performs interpolation of runtime variables into the quoted tokens.
//! Check out the documentation of the [`quote!`] macro for more detail about
//! the syntax. See also the [`quote_spanned!`] macro which is important for
//! implementing hygienic procedural macros.
//!
//! [a]: https://serde.rs/
//! [`quote_spanned!`]: macro.quote_spanned.html
//!
//! ```
//! # use quote::quote;
//! #
//! # let generics = "";
//! # let where_clause = "";
//! # let field_ty = "";
//! # let item_ty = "";
//! # let path = "";
//! # let value = "";
//! #
//! let tokens = quote! {
//! struct SerializeWith #generics #where_clause {
//! value: &'a #field_ty,
//! phantom: core::marker::PhantomData<#item_ty>,
//! }
//!
//! impl #generics serde::Serialize for SerializeWith #generics #where_clause {
//! fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
//! where
//! S: serde::Serializer,
//! {
//! #path(self.value, serializer)
//! }
//! }
//!
//! SerializeWith {
//! value: #value,
//! phantom: core::marker::PhantomData::<#item_ty>,
//! }
//! };
//! ```
//!
//! 
//!
//! # Non-macro code generators
//!
//! When using `quote` in a build.rs or main.rs and writing the output out to a
//! file, consider having the code generator pass the tokens through
//! [prettyplease] before writing. This way if an error occurs in the generated
//! code it is convenient for a human to read and debug.
//!
//! [prettyplease]: https://github.com/dtolnay/prettyplease

// Quote types in rustdoc of other crates get linked to here.
#![doc(html_root_url = "https://docs.rs/quote/1.0.35")]
#![allow(
 clippy::doc_markdown,
 clippy::missing_errors_doc,
 clippy::missing_panics_doc,
 clippy::module_name_repetitions,
 // false positive https://github.com/rust-lang/rust-clippy/issues/6983
 clippy::wrong_self_convention,
)]

extern crate alloc;

#[cfg(feature = "proc-macro")]
extern crate proc_macro;

mod ext;
mod format;
mod ident_fragment;
mod to_tokens;

// Not public API.
#[doc(hidden)]
#[path = "runtime.rs"]
pub mod __private;

pub use crate::ext::TokenStreamExt;
pub use crate::ident_fragment::IdentFragment;
pub use crate::to_tokens::ToTokens;

// Not public API.
#[doc(hidden)]
pub mod spanned;

/// The whole point.
///
/// Performs variable interpolation against the input and produces it as
/// [`proc_macro2::TokenStream`].
///
/// Note: for returning tokens to the compiler in a procedural macro, use
/// `.into()` on the result to convert to [`proc_macro::TokenStream`].
///
/// [`TokenStream`]: https://docs.rs/proc-macro2/1.0/proc_macro2/struct.TokenStream.html
///
/// 
///
/// # Interpolation
///
/// Variable interpolation is done with `#var` (similar to `$var` in
/// `macro_rules!` macros). This grabs the `var` variable that is currently in
/// scope and inserts it in that location in the output tokens. Any type
/// implementing the [`ToTokens`] trait can be interpolated. This includes most
/// Rust primitive types as well as most of the syntax tree types from the [Syn]
/// crate.
///
/// [`ToTokens`]: trait.ToTokens.html
/// [Syn]: https://github.com/dtolnay/syn
///
/// Repetition is done using `#(...)*` or `#(...),*` again similar to
/// `macro_rules!`. This iterates through the elements of any variable
/// interpolated within the repetition and inserts a copy of the repetition body
/// for each one. The variables in an interpolation may be a `Vec`, slice,
/// `BTreeSet`, or any `Iterator`.
///
/// - `#(#var)*` — no separators
/// - `#(#var),*` — the character before the asterisk is used as a separator
/// - `#( struct #var; )*` — the repetition can contain other tokens
/// - `#( #k => println!("{}", #v), )*` — even multiple interpolations
///
/// 
///
/// # Hygiene
///
/// Any interpolated tokens preserve the `Span` information provided by their
/// `ToTokens` implementation. Tokens that originate within the `quote!`
/// invocation are spanned with [`Span::call_site()`].
///
/// [`Span::call_site()`]: https://docs.rs/proc-macro2/1.0/proc_macro2/struct.Span.html#method.call_site
///
/// A different span can be provided through the [`quote_spanned!`] macro.
///
/// [`quote_spanned!`]: macro.quote_spanned.html
///
/// 
///
/// # Return type
///
/// The macro evaluates to an expression of type `proc_macro2::TokenStream`.
/// Meanwhile Rust procedural macros are expected to return the type
/// `proc_macro::TokenStream`.
///
/// The difference between the two types is that `proc_macro` types are entirely
/// specific to procedural macros and cannot ever exist in code outside of a
/// procedural macro, while `proc_macro2` types may exist anywhere including
/// tests and non-macro code like main.rs and build.rs. This is why even the
/// procedural macro ecosystem is largely built around `proc_macro2`, because
/// that ensures the libraries are unit testable and accessible in non-macro
/// contexts.
///
/// There is a [`From`]-conversion in both directions so returning the output of
/// `quote!` from a procedural macro usually looks like `tokens.into()` or
/// `proc_macro::TokenStream::from(tokens)`.
///
/// [`From`]: https://doc.rust-lang.org/std/convert/trait.From.html
///
/// 
///
/// # Examples
///
/// ### Procedural macro
///
/// The structure of a basic procedural macro is as follows. Refer to the [Syn]
/// crate for further useful guidance on using `quote!` as part of a procedural
/// macro.
///
/// [Syn]: https://github.com/dtolnay/syn
///
/// ```
/// # #[cfg(any())]
/// extern crate proc_macro;
/// # extern crate proc_macro2;
///
/// # #[cfg(any())]
/// use proc_macro::TokenStream;
/// # use proc_macro2::TokenStream;
/// use quote::quote;
///
/// # const IGNORE_TOKENS: &'static str = stringify! {
/// #[proc_macro_derive(HeapSize)]
/// # };
/// pub fn derive_heap_size(input: TokenStream) -> TokenStream {
/// // Parse the input and figure out what implementation to generate...
/// # const IGNORE_TOKENS: &'static str = stringify! {
/// let name = /* ... */;
/// let expr = /* ... */;
/// # };
/// #
/// # let name = 0;
/// # let expr = 0;
///
/// let expanded = quote! {
/// // The generated impl.
/// impl heapsize::HeapSize for #name {
/// fn heap_size_of_children(&self) -> usize {
/// #expr
/// }
/// }
/// };
///
/// // Hand the output tokens back to the compiler.
/// TokenStream::from(expanded)
/// }
/// ```
///
/// 
///
/// ### Combining quoted fragments
///
/// Usually you don't end up constructing an entire final `TokenStream` in one
/// piece. Different parts may come from different helper functions. The tokens
/// produced by `quote!` themselves implement `ToTokens` and so can be
/// interpolated into later `quote!` invocations to build up a final result.
///
/// ```
/// # use quote::quote;
/// #
/// let type_definition = quote! {...};
/// let methods = quote! {...};
///
/// let tokens = quote! {
/// #type_definition
/// #methods
/// };
/// ```
///
/// 
///
/// ### Constructing identifiers
///
/// Suppose we have an identifier `ident` which came from somewhere in a macro
/// input and we need to modify it in some way for the macro output. Let's
/// consider prepending the identifier with an underscore.
///
/// Simply interpolating the identifier next to an underscore will not have the
/// behavior of concatenating them. The underscore and the identifier will
/// continue to be two separate tokens as if you had written `_ x`.
///
/// ```
/// # use proc_macro2::{self as syn, Span};
/// # use quote::quote;
/// #
/// # let ident = syn::Ident::new("i", Span::call_site());
/// #
/// // incorrect
/// quote! {
/// let mut _#ident = 0;
/// }
/// # ;
/// ```
///
/// The solution is to build a new identifier token with the correct value. As
/// this is such a common case, the [`format_ident!`] macro provides a
/// convenient utility for doing so correctly.
///
/// ```
/// # use proc_macro2::{Ident, Span};
/// # use quote::{format_ident, quote};
/// #
/// # let ident = Ident::new("i", Span::call_site());
/// #
/// let varname = format_ident!("_{}", ident);
/// quote! {
/// let mut #varname = 0;
/// }
/// # ;
/// ```
///
/// Alternatively, the APIs provided by Syn and proc-macro2 can be used to
/// directly build the identifier. This is roughly equivalent to the above, but
/// will not handle `ident` being a raw identifier.
///
/// ```
/// # use proc_macro2::{self as syn, Span};
/// # use quote::quote;
/// #
/// # let ident = syn::Ident::new("i", Span::call_site());
/// #
/// let concatenated = format!("_{}", ident);
/// let varname = syn::Ident::new(&concatenated, ident.span());
/// quote! {
/// let mut #varname = 0;
/// }
/// # ;
/// ```
///
/// 
///
/// ### Making method calls
///
/// Let's say our macro requires some type specified in the macro input to have
/// a constructor called `new`. We have the type in a variable called
/// `field_type` of type `syn::Type` and want to invoke the constructor.
///
/// ```
/// # use quote::quote;
/// #
/// # let field_type = quote!(...);
/// #
/// // incorrect
/// quote! {
/// let value = #field_type::new();
/// }
/// # ;
/// ```
///
/// This works only sometimes. If `field_type` is `String`, the expanded code
/// contains `String::new()` which is fine. But if `field_type` is something
/// like `Vec<i32>` then the expanded code is `Vec<i32>::new()` which is invalid
/// syntax. Ordinarily in handwritten Rust we would write `Vec::<i32>::new()`
/// but for macros often the following is more convenient.
///
/// ```
/// # use quote::quote;
/// #
/// # let field_type = quote!(...);
/// #
/// quote! {
/// let value = <#field_type>::new();
/// }
/// # ;
/// ```
///
/// This expands to `<Vec<i32>>::new()` which behaves correctly.
///
/// A similar pattern is appropriate for trait methods.
///
/// ```
/// # use quote::quote;
/// #
/// # let field_type = quote!(...);
/// #
/// quote! {
/// let value = <#field_type as core::default::Default>::default();
/// }
/// # ;
/// ```
///
/// 
///
/// ### Interpolating text inside of doc comments
///
/// Neither doc comments nor string literals get interpolation behavior in
/// quote:
///
/// ```compile_fail
/// quote! {
/// /// try to interpolate: #ident
/// ///
/// /// ...
/// }
/// ```
///
/// ```compile_fail
/// quote! {
/// #[doc = "try to interpolate: #ident"]
/// }
/// ```
///
/// Instead the best way to build doc comments that involve variables is by
/// formatting the doc string literal outside of quote.
///
/// ```rust
/// # use proc_macro2::{Ident, Span};
/// # use quote::quote;
/// #
/// # const IGNORE: &str = stringify! {
/// let msg = format!(...);
/// # };
/// #
/// # let ident = Ident::new("var", Span::call_site());
/// # let msg = format!("try to interpolate: {}", ident);
/// quote! {
/// #[doc = #msg]
/// ///
/// /// ...
/// }
/// # ;
/// ```
///
/// 
///
/// ### Indexing into a tuple struct
///
/// When interpolating indices of a tuple or tuple struct, we need them not to
/// appears suffixed as integer literals by interpolating them as [`syn::Index`]
/// instead.
///
/// [`syn::Index`]: https://docs.rs/syn/2.0/syn/struct.Index.html
///
/// ```compile_fail
/// let i = 0usize..self.fields.len();
///
/// // expands to 0 + self.0usize.heap_size() + self.1usize.heap_size() + ...
/// // which is not valid syntax
/// quote! {
/// 0 #( + self.#i.heap_size() )*
/// }
/// ```
///
/// ```
/// # use proc_macro2::{Ident, TokenStream};
/// # use quote::quote;
/// #
/// # mod syn {
/// # use proc_macro2::{Literal, TokenStream};
/// # use quote::{ToTokens, TokenStreamExt};
/// #
/// # pub struct Index(usize);
/// #
/// # impl From<usize> for Index {
/// # fn from(i: usize) -> Self {
/// # Index(i)
/// # }
/// # }
/// #
/// # impl ToTokens for Index {
/// # fn to_tokens(&self, tokens: &mut TokenStream) {
/// # tokens.append(Literal::usize_unsuffixed(self.0));
/// # }
/// # }
/// # }
/// #
/// # struct Struct {
/// # fields: Vec<Ident>,
/// # }
/// #
/// # impl Struct {
/// # fn example(&self) -> TokenStream {
/// let i = (0..self.fields.len()).map(syn::Index::from);
///
/// // expands to 0 + self.0.heap_size() + self.1.heap_size() + ...
/// quote! {
/// 0 #( + self.#i.heap_size() )*
/// }
/// # }
/// # }
/// ```
#[cfg(doc)]
#[macro_export]
macro_rules! quote {
 ($($tt:tt)*) => {
 ...
 };
}

#[cfg(not(doc))]
#[macro_export]
macro_rules! quote {
 () => {
 $crate::__private::TokenStream::new()
 };

 // Special case rule for a single tt, for performance.
 ($tt:tt) => {{
 let mut _s = $crate::__private::TokenStream::new();
 $crate::quote_token!{$tt _s}
 _s
 }};

 // Special case rules for two tts, for performance.
 (# $var:ident) => {{
 let mut _s = $crate::__private::TokenStream::new();
 $crate::ToTokens::to_tokens(&$var, &mut _s);
 _s
 }};
 ($tt1:tt $tt2:tt) => {{
 let mut _s = $crate::__private::TokenStream::new();
 $crate::quote_token!{$tt1 _s}
 $crate::quote_token!{$tt2 _s}
 _s
 }};

 // Rule for any other number of tokens.
 ($($tt:tt)*) => {{
 let mut _s = $crate::__private::TokenStream::new();
 $crate::quote_each_token!{_s $($tt)*}
 _s
 }};
}

/// Same as `quote!`, but applies a given span to all tokens originating within
/// the macro invocation.
///
/// 
///
/// # Syntax
///
/// A span expression of type [`Span`], followed by `=>`, followed by the tokens
/// to quote. The span expression should be brief — use a variable for
/// anything more than a few characters. There should be no space before the
/// `=>` token.
///
/// [`Span`]: https://docs.rs/proc-macro2/1.0/proc_macro2/struct.Span.html
///
/// ```
/// # use proc_macro2::Span;
/// # use quote::quote_spanned;
/// #
/// # const IGNORE_TOKENS: &'static str = stringify! {
/// let span = /* ... */;
/// # };
/// # let span = Span::call_site();
/// # let init = 0;
///
/// // On one line, use parentheses.
/// let tokens = quote_spanned!(span=> Box::into_raw(Box::new(#init)));
///
/// // On multiple lines, place the span at the top and use braces.
/// let tokens = quote_spanned! {span=>
/// Box::into_raw(Box::new(#init))
/// };
/// ```
///
/// The lack of space before the `=>` should look jarring to Rust programmers
/// and this is intentional. The formatting is designed to be visibly
/// off-balance and draw the eye a particular way, due to the span expression
/// being evaluated in the context of the procedural macro and the remaining
/// tokens being evaluated in the generated code.
///
/// 
///
/// # Hygiene
///
/// Any interpolated tokens preserve the `Span` information provided by their
/// `ToTokens` implementation. Tokens that originate within the `quote_spanned!`
/// invocation are spanned with the given span argument.
///
/// 
///
/// # Example
///
/// The following procedural macro code uses `quote_spanned!` to assert that a
/// particular Rust type implements the [`Sync`] trait so that references can be
/// safely shared between threads.
///
/// [`Sync`]: https://doc.rust-lang.org/std/marker/trait.Sync.html
///
/// ```
/// # use quote::{quote_spanned, TokenStreamExt, ToTokens};
/// # use proc_macro2::{Span, TokenStream};
/// #
/// # struct Type;
/// #
/// # impl Type {
/// # fn span(&self) -> Span {
/// # Span::call_site()
/// # }
/// # }
/// #
/// # impl ToTokens for Type {
/// # fn to_tokens(&self, _tokens: &mut TokenStream) {}
/// # }
/// #
/// # let ty = Type;
/// # let call_site = Span::call_site();
/// #
/// let ty_span = ty.span();
/// let assert_sync = quote_spanned! {ty_span=>
/// struct _AssertSync where #ty: Sync;
/// };
/// ```
///
/// If the assertion fails, the user will see an error like the following. The
/// input span of their type is highlighted in the error.
///
/// ```text
/// error[E0277]: the trait bound `*const (): std::marker::Sync` is not satisfied
/// --> src/main.rs:10:21
/// |
/// 10 | static ref PTR: *const () = &();
/// | ^^^^^^^^^ `*const ()` cannot be shared between threads safely
/// ```
///
/// In this example it is important for the where-clause to be spanned with the
/// line/column information of the user's input type so that error messages are
/// placed appropriately by the compiler.
#[cfg(doc)]
#[macro_export]
macro_rules! quote_spanned {
 ($span:expr=> $($tt:tt)*) => {
 ...
 };
}

#[cfg(not(doc))]
#[macro_export]
macro_rules! quote_spanned {
 ($span:expr=>) => {{
 let _: $crate::__private::Span = $crate::__private::get_span($span).__into_span();
 $crate::__private::TokenStream::new()
 }};

 // Special case rule for a single tt, for performance.
 ($span:expr=> $tt:tt) => {{
 let mut _s = $crate::__private::TokenStream::new();
 let _span: $crate::__private::Span = $crate::__private::get_span($span).__into_span();
 $crate::quote_token_spanned!{$tt _s _span}
 _s
 }};

 // Special case rules for two tts, for performance.
 ($span:expr=> # $var:ident) => {{
 let mut _s = $crate::__private::TokenStream::new();
 let _: $crate::__private::Span = $crate::__private::get_span($span).__into_span();
 $crate::ToTokens::to_tokens(&$var, &mut _s);
 _s
 }};
 ($span:expr=> $tt1:tt $tt2:tt) => {{
 let mut _s = $crate::__private::TokenStream::new();
 let _span: $crate::__private::Span = $crate::__private::get_span($span).__into_span();
 $crate::quote_token_spanned!{$tt1 _s _span}
 $crate::quote_token_spanned!{$tt2 _s _span}
 _s
 }};

 // Rule for any other number of tokens.
 ($span:expr=> $($tt:tt)*) => {{
 let mut _s = $crate::__private::TokenStream::new();
 let _span: $crate::__private::Span = $crate::__private::get_span($span).__into_span();
 $crate::quote_each_token_spanned!{_s _span $($tt)*}
 _s
 }};
}

// Extract the names of all #metavariables and pass them to the $call macro.
//
// in: pounded_var_names!(then!(...) a #b c #( #d )* #e)
// out: then!(... b);
// then!(... d);
// then!(... e);
#[macro_export]
#[doc(hidden)]
macro_rules! pounded_var_names {
 ($call:ident! $extra:tt $($tts:tt)*) => {
 $crate::pounded_var_names_with_context!{$call! $extra
 (@ $($tts)*)
 ($($tts)* @)
 }
 };
}

#[macro_export]
#[doc(hidden)]
macro_rules! pounded_var_names_with_context {
 ($call:ident! $extra:tt ($($b1:tt)*) ($($curr:tt)*)) => {
 $(
 $crate::pounded_var_with_context!{$call! $extra $b1 $curr}
 )*
 };
}

#[macro_export]
#[doc(hidden)]
macro_rules! pounded_var_with_context {
 ($call:ident! $extra:tt $b1:tt ( $($inner:tt)* )) => {
 $crate::pounded_var_names!{$call! $extra $($inner)*}
 };

 ($call:ident! $extra:tt $b1:tt [ $($inner:tt)* ]) => {
 $crate::pounded_var_names!{$call! $extra $($inner)*}
 };

 ($call:ident! $extra:tt $b1:tt { $($inner:tt)* }) => {
 $crate::pounded_var_names!{$call! $extra $($inner)*}
 };

 ($call:ident!($($extra:tt)*) # $var:ident) => {
 $crate::$call!($($extra)* $var);
 };

 ($call:ident! $extra:tt $b1:tt $curr:tt) => {};
}

#[macro_export]
#[doc(hidden)]
macro_rules! quote_bind_into_iter {
 ($has_iter:ident $var:ident) => {
 // `mut` may be unused if $var occurs multiple times in the list.
 #[allow(unused_mut)]
 let (mut $var, i) = $var.quote_into_iter();
 let $has_iter = $has_iter | i;
 };
}

#[macro_export]
#[doc(hidden)]
macro_rules! quote_bind_next_or_break {
 ($var:ident) => {
 let $var = match $var.next() {
 Some(_x) => $crate::__private::RepInterp(_x),
 None => break,
 };
 };
}

// The obvious way to write this macro is as a tt muncher. This implementation
// does something more complex for two reasons.
//
// - With a tt muncher it's easy to hit Rust's built-in recursion_limit, which
// this implementation avoids because it isn't tail recursive.
//
// - Compile times for a tt muncher are quadratic relative to the length of
// the input. This implementation is linear, so it will be faster
// (potentially much faster) for big inputs. However, the constant factors
// of this implementation are higher than that of a tt muncher, so it is
// somewhat slower than a tt muncher if there are many invocations with
// short inputs.
//
// An invocation like this:
//
// quote_each_token!(_s a b c d e f g h i j);
//
// expands to this:
//
// quote_tokens_with_context!(_s
// (@ @ @ @ @ @ a b c d e f g h i j)
// (@ @ @ @ @ a b c d e f g h i j @)
// (@ @ @ @ a b c d e f g h i j @ @)
// (@ @ @ (a) (b) (c) (d) (e) (f) (g) (h) (i) (j) @ @ @)
// (@ @ a b c d e f g h i j @ @ @ @)
// (@ a b c d e f g h i j @ @ @ @ @)
// (a b c d e f g h i j @ @ @ @ @ @)
// );
//
// which gets transposed and expanded to this:
//
// quote_token_with_context!(_s @ @ @ @ @ @ a);
// quote_token_with_context!(_s @ @ @ @ @ a b);
// quote_token_with_context!(_s @ @ @ @ a b c);
// quote_token_with_context!(_s @ @ @ (a) b c d);
// quote_token_with_context!(_s @ @ a (b) c d e);
// quote_token_with_context!(_s @ a b (c) d e f);
// quote_token_with_context!(_s a b c (d) e f g);
// quote_token_with_context!(_s b c d (e) f g h);
// quote_token_with_context!(_s c d e (f) g h i);
// quote_token_with_context!(_s d e f (g) h i j);
// quote_token_with_context!(_s e f g (h) i j @);
// quote_token_with_context!(_s f g h (i) j @ @);
// quote_token_with_context!(_s g h i (j) @ @ @);
// quote_token_with_context!(_s h i j @ @ @ @);
// quote_token_with_context!(_s i j @ @ @ @ @);
// quote_token_with_context!(_s j @ @ @ @ @ @);
//
// Without having used muncher-style recursion, we get one invocation of
// quote_token_with_context for each original tt, with three tts of context on
// either side. This is enough for the longest possible interpolation form (a
// repetition with separator, as in `# (#var) , *`) to be fully represented with
// the first or last tt in the middle.
//
// The middle tt (surrounded by parentheses) is the tt being processed.
//
// - When it is a `#`, quote_token_with_context can do an interpolation. The
// interpolation kind will depend on the three subsequent tts.
//
// - When it is within a later part of an interpolation, it can be ignored
// because the interpolation has already been done.
//
// - When it is not part of an interpolation it can be pushed as a single
// token into the output.
//
// - When the middle token is an unparenthesized `@`, that call is one of the
// first 3 or last 3 calls of quote_token_with_context and does not
// correspond to one of the original input tokens, so turns into nothing.
#[macro_export]
#[doc(hidden)]
macro_rules! quote_each_token {
 ($tokens:ident $($tts:tt)*) => {
 $crate::quote_tokens_with_context!{$tokens
 (@ @ @ @ @ @ $($tts)*)
 (@ @ @ @ @ $($tts)* @)
 (@ @ @ @ $($tts)* @ @)
 (@ @ @ $(($tts))* @ @ @)
 (@ @ $($tts)* @ @ @ @)
 (@ $($tts)* @ @ @ @ @)
 ($($tts)* @ @ @ @ @ @)
 }
 };
}

// See the explanation on quote_each_token.
#[macro_export]
#[doc(hidden)]
macro_rules! quote_each_token_spanned {
 ($tokens:ident $span:ident $($tts:tt)*) => {
 $crate::quote_tokens_with_context_spanned!{$tokens $span
 (@ @ @ @ @ @ $($tts)*)
 (@ @ @ @ @ $($tts)* @)
 (@ @ @ @ $($tts)* @ @)
 (@ @ @ $(($tts))* @ @ @)
 (@ @ $($tts)* @ @ @ @)
 (@ $($tts)* @ @ @ @ @)
 ($($tts)* @ @ @ @ @ @)
 }
 };
}

// See the explanation on quote_each_token.
#[macro_export]
#[doc(hidden)]
macro_rules! quote_tokens_with_context {
 ($tokens:ident
 ($($b3:tt)*) ($($b2:tt)*) ($($b1:tt)*)
 ($($curr:tt)*)
 ($($a1:tt)*) ($($a2:tt)*) ($($a3:tt)*)
 ) => {
 $(
 $crate::quote_token_with_context!{$tokens $b3 $b2 $b1 $curr $a1 $a2 $a3}
 )*
 };
}

// See the explanation on quote_each_token.
#[macro_export]
#[doc(hidden)]
macro_rules! quote_tokens_with_context_spanned {
 ($tokens:ident $span:ident
 ($($b3:tt)*) ($($b2:tt)*) ($($b1:tt)*)
 ($($curr:tt)*)
 ($($a1:tt)*) ($($a2:tt)*) ($($a3:tt)*)
 ) => {
 $(
 $crate::quote_token_with_context_spanned!{$tokens $span $b3 $b2 $b1 $curr $a1 $a2 $a3}
 )*
 };
}

// See the explanation on quote_each_token.
#[macro_export]
#[doc(hidden)]
macro_rules! quote_token_with_context {
 // Unparenthesized `@` indicates this call does not correspond to one of the
 // original input tokens. Ignore it.
 ($tokens:ident $b3:tt $b2:tt $b1:tt @ $a1:tt $a2:tt $a3:tt) => {};

 // A repetition with no separator.
 ($tokens:ident $b3:tt $b2:tt $b1:tt (#) ( $($inner:tt)* ) * $a3:tt) => {{
 use $crate::__private::ext::*;
 let has_iter = $crate::__private::ThereIsNoIteratorInRepetition;
 $crate::pounded_var_names!{quote_bind_into_iter!(has_iter) () $($inner)*}
 let _: $crate::__private::HasIterator = has_iter;
 // This is `while true` instead of `loop` because if there are no
 // iterators used inside of this repetition then the body would not
 // contain any `break`, so the compiler would emit unreachable code
 // warnings on anything below the loop. We use has_iter to detect and
 // fail to compile when there are no iterators, so here we just work
 // around the unneeded extra warning.
 while true {
 $crate::pounded_var_names!{quote_bind_next_or_break!() () $($inner)*}
 $crate::quote_each_token!{$tokens $($inner)*}
 }
 }};
 // ... and one step later.
 ($tokens:ident $b3:tt $b2:tt # (( $($inner:tt)* )) * $a2:tt $a3:tt) => {};
 // ... and one step later.
 ($tokens:ident $b3:tt # ( $($inner:tt)* ) (*) $a1:tt $a2:tt $a3:tt) => {};

 // A repetition with separator.
 ($tokens:ident $b3:tt $b2:tt $b1:tt (#) ( $($inner:tt)* ) $sep:tt *) => {{
 use $crate::__private::ext::*;
 let mut _i = 0usize;
 let has_iter = $crate::__private::ThereIsNoIteratorInRepetition;
 $crate::pounded_var_names!{quote_bind_into_iter!(has_iter) () $($inner)*}
 let _: $crate::__private::HasIterator = has_iter;
 while true {
 $crate::pounded_var_names!{quote_bind_next_or_break!() () $($inner)*}
 if _i > 0 {
 $crate::quote_token!{$sep $tokens}
 }
 _i += 1;
 $crate::quote_each_token!{$tokens $($inner)*}
 }
 }};
 // ... and one step later.
 ($tokens:ident $b3:tt $b2:tt # (( $($inner:tt)* )) $sep:tt * $a3:tt) => {};
 // ... and one step later.
 ($tokens:ident $b3:tt # ( $($inner:tt)* ) ($sep:tt) * $a2:tt $a3:tt) => {};
 // (A special case for `#(var)**`, where the first `*` is treated as the
 // repetition symbol and the second `*` is treated as an ordinary token.)
 ($tokens:ident # ( $($inner:tt)* ) * (*) $a1:tt $a2:tt $a3:tt) => {
 // https://github.com/dtolnay/quote/issues/130
 $crate::quote_token!{* $tokens}
 };
 // ... and one step later.
 ($tokens:ident # ( $($inner:tt)* ) $sep:tt (*) $a1:tt $a2:tt $a3:tt) => {};

 // A non-repetition interpolation.
 ($tokens:ident $b3:tt $b2:tt $b1:tt (#) $var:ident $a2:tt $a3:tt) => {
 $crate::ToTokens::to_tokens(&$var, &mut $tokens);
 };
 // ... and one step later.
 ($tokens:ident $b3:tt $b2:tt # ($var:ident) $a1:tt $a2:tt $a3:tt) => {};

 // An ordinary token, not part of any interpolation.
 ($tokens:ident $b3:tt $b2:tt $b1:tt ($curr:tt) $a1:tt $a2:tt $a3:tt) => {
 $crate::quote_token!{$curr $tokens}
 };
}

// See the explanation on quote_each_token, and on the individual rules of
// quote_token_with_context.
#[macro_export]
#[doc(hidden)]
macro_rules! quote_token_with_context_spanned {
 ($tokens:ident $span:ident $b3:tt $b2:tt $b1:tt @ $a1:tt $a2:tt $a3:tt) => {};

 ($tokens:ident $span:ident $b3:tt $b2:tt $b1:tt (#) ( $($inner:tt)* ) * $a3:tt) => {{
 use $crate::__private::ext::*;
 let has_iter = $crate::__private::ThereIsNoIteratorInRepetition;
 $crate::pounded_var_names!{quote_bind_into_iter!(has_iter) () $($inner)*}
 let _: $crate::__private::HasIterator = has_iter;
 while true {
 $crate::pounded_var_names!{quote_bind_next_or_break!() () $($inner)*}
 $crate::quote_each_token_spanned!{$tokens $span $($inner)*}
 }
 }};
 ($tokens:ident $span:ident $b3:tt $b2:tt # (( $($inner:tt)* )) * $a2:tt $a3:tt) => {};
 ($tokens:ident $span:ident $b3:tt # ( $($inner:tt)* ) (*) $a1:tt $a2:tt $a3:tt) => {};

 ($tokens:ident $span:ident $b3:tt $b2:tt $b1:tt (#) ( $($inner:tt)* ) $sep:tt *) => {{
 use $crate::__private::ext::*;
 let mut _i = 0usize;
 let has_iter = $crate::__private::ThereIsNoIteratorInRepetition;
 $crate::pounded_var_names!{quote_bind_into_iter!(has_iter) () $($inner)*}
 let _: $crate::__private::HasIterator = has_iter;
 while true {
 $crate::pounded_var_names!{quote_bind_next_or_break!() () $($inner)*}
 if _i > 0 {
 $crate::quote_token_spanned!{$sep $tokens $span}
 }
 _i += 1;
 $crate::quote_each_token_spanned!{$tokens $span $($inner)*}
 }
 }};
 ($tokens:ident $span:ident $b3:tt $b2:tt # (( $($inner:tt)* )) $sep:tt * $a3:tt) => {};
 ($tokens:ident $span:ident $b3:tt # ( $($inner:tt)* ) ($sep:tt) * $a2:tt $a3:tt) => {};
 ($tokens:ident $span:ident # ( $($inner:tt)* ) * (*) $a1:tt $a2:tt $a3:tt) => {
 // https://github.com/dtolnay/quote/issues/130
 $crate::quote_token_spanned!{* $tokens $span}
 };
 ($tokens:ident $span:ident # ( $($inner:tt)* ) $sep:tt (*) $a1:tt $a2:tt $a3:tt) => {};

 ($tokens:ident $span:ident $b3:tt $b2:tt $b1:tt (#) $var:ident $a2:tt $a3:tt) => {
 $crate::ToTokens::to_tokens(&$var, &mut $tokens);
 };
 ($tokens:ident $span:ident $b3:tt $b2:tt # ($var:ident) $a1:tt $a2:tt $a3:tt) => {};

 ($tokens:ident $span:ident $b3:tt $b2:tt $b1:tt ($curr:tt) $a1:tt $a2:tt $a3:tt) => {
 $crate::quote_token_spanned!{$curr $tokens $span}
 };
}

// These rules are ordered by approximate token frequency, at least for the
// first 10 or so, to improve compile times. Having `ident` first is by far the
// most important because it's typically 2-3x more common than the next most
// common token.
//
// Separately, we put the token being matched in the very front so that failing
// rules may fail to match as quickly as possible.
#[macro_export]
#[doc(hidden)]
macro_rules! quote_token {
 ($ident:ident $tokens:ident) => {
 $crate::__private::push_ident(&mut $tokens, stringify!($ident));
 };

 (:: $tokens:ident) => {
 $crate::__private::push_colon2(&mut $tokens);
 };

 (( $($inner:tt)* ) $tokens:ident) => {
 $crate::__private::push_group(
 &mut $tokens,
 $crate::__private::Delimiter::Parenthesis,
 $crate::quote!($($inner)*),
 );
 };

 ([ $($inner:tt)* ] $tokens:ident) => {
 $crate::__private::push_group(
 &mut $tokens,
 $crate::__private::Delimiter::Bracket,
 $crate::quote!($($inner)*),
 );
 };

 ({ $($inner:tt)* } $tokens:ident) => {
 $crate::__private::push_group(
 &mut $tokens,
 $crate::__private::Delimiter::Brace,
 $crate::quote!($($inner)*),
 );
 };

 (# $tokens:ident) => {
 $crate::__private::push_pound(&mut $tokens);
 };

 (, $tokens:ident) => {
 $crate::__private::push_comma(&mut $tokens);
 };

 (. $tokens:ident) => {
 $crate::__private::push_dot(&mut $tokens);
 };

 (; $tokens:ident) => {
 $crate::__private::push_semi(&mut $tokens);
 };

 (: $tokens:ident) => {
 $crate::__private::push_colon(&mut $tokens);
 };

 (+ $tokens:ident) => {
 $crate::__private::push_add(&mut $tokens);
 };

 (+= $tokens:ident) => {
 $crate::__private::push_add_eq(&mut $tokens);
 };

 (& $tokens:ident) => {
 $crate::__private::push_and(&mut $tokens);
 };

 (&& $tokens:ident) => {
 $crate::__private::push_and_and(&mut $tokens);
 };

 (&= $tokens:ident) => {
 $crate::__private::push_and_eq(&mut $tokens);
 };

 (@ $tokens:ident) => {
 $crate::__private::push_at(&mut $tokens);
 };

 (! $tokens:ident) => {
 $crate::__private::push_bang(&mut $tokens);
 };

 (^ $tokens:ident) => {
 $crate::__private::push_caret(&mut $tokens);
 };

 (^= $tokens:ident) => {
 $crate::__private::push_caret_eq(&mut $tokens);
 };

 (/ $tokens:ident) => {
 $crate::__private::push_div(&mut $tokens);
 };

 (/= $tokens:ident) => {
 $crate::__private::push_div_eq(&mut $tokens);
 };

 (.. $tokens:ident) => {
 $crate::__private::push_dot2(&mut $tokens);
 };

 (... $tokens:ident) => {
 $crate::__private::push_dot3(&mut $tokens);
 };

 (..= $tokens:ident) => {
 $crate::__private::push_dot_dot_eq(&mut $tokens);
 };

 (= $tokens:ident) => {
 $crate::__private::push_eq(&mut $tokens);
 };

 (== $tokens:ident) => {
 $crate::__private::push_eq_eq(&mut $tokens);
 };

 (>= $tokens:ident) => {
 $crate::__private::push_ge(&mut $tokens);
 };

 (> $tokens:ident) => {
 $crate::__private::push_gt(&mut $tokens);
 };

 (<= $tokens:ident) => {
 $crate::__private::push_le(&mut $tokens);
 };

 (< $tokens:ident) => {
 $crate::__private::push_lt(&mut $tokens);
 };

 (*= $tokens:ident) => {
 $crate::__private::push_mul_eq(&mut $tokens);
 };

 (!= $tokens:ident) => {
 $crate::__private::push_ne(&mut $tokens);
 };

 (| $tokens:ident) => {
 $crate::__private::push_or(&mut $tokens);
 };

 (|= $tokens:ident) => {
 $crate::__private::push_or_eq(&mut $tokens);
 };

 (|| $tokens:ident) => {
 $crate::__private::push_or_or(&mut $tokens);
 };

 (? $tokens:ident) => {
 $crate::__private::push_question(&mut $tokens);
 };

 (-> $tokens:ident) => {
 $crate::__private::push_rarrow(&mut $tokens);
 };

 (<- $tokens:ident) => {
 $crate::__private::push_larrow(&mut $tokens);
 };

 (% $tokens:ident) => {
 $crate::__private::push_rem(&mut $tokens);
 };

 (%= $tokens:ident) => {
 $crate::__private::push_rem_eq(&mut $tokens);
 };

 (=> $tokens:ident) => {
 $crate::__private::push_fat_arrow(&mut $tokens);
 };

 (<< $tokens:ident) => {
 $crate::__private::push_shl(&mut $tokens);
 };

 (<<= $tokens:ident) => {
 $crate::__private::push_shl_eq(&mut $tokens);
 };

 (>> $tokens:ident) => {
 $crate::__private::push_shr(&mut $tokens);
 };

 (>>= $tokens:ident) => {
 $crate::__private::push_shr_eq(&mut $tokens);
 };

 (* $tokens:ident) => {
 $crate::__private::push_star(&mut $tokens);
 };

 (- $tokens:ident) => {
 $crate::__private::push_sub(&mut $tokens);
 };

 (-= $tokens:ident) => {
 $crate::__private::push_sub_eq(&mut $tokens);
 };

 ($lifetime:lifetime $tokens:ident) => {
 $crate::__private::push_lifetime(&mut $tokens, stringify!($lifetime));
 };

 (_ $tokens:ident) => {
 $crate::__private::push_underscore(&mut $tokens);
 };

 ($other:tt $tokens:ident) => {
 $crate::__private::parse(&mut $tokens, stringify!($other));
 };
}

// See the comment above `quote_token!` about the rule ordering.
#[macro_export]
#[doc(hidden)]
macro_rules! quote_token_spanned {
 ($ident:ident $tokens:ident $span:ident) => {
 $crate::__private::push_ident_spanned(&mut $tokens, $span, stringify!($ident));
 };

 (:: $tokens:ident $span:ident) => {
 $crate::__private::push_colon2_spanned(&mut $tokens, $span);
 };

 (( $($inner:tt)* ) $tokens:ident $span:ident) => {
 $crate::__private::push_group_spanned(
 &mut $tokens,
 $span,
 $crate::__private::Delimiter::Parenthesis,
 $crate::quote_spanned!($span=> $($inner)*),
 );
 };

 ([ $($inner:tt)* ] $tokens:ident $span:ident) => {
 $crate::__private::push_group_spanned(
 &mut $tokens,
 $span,
 $crate::__private::Delimiter::Bracket,
 $crate::quote_spanned!($span=> $($inner)*),
 );
 };

 ({ $($inner:tt)* } $tokens:ident $span:ident) => {
 $crate::__private::push_group_spanned(
 &mut $tokens,
 $span,
 $crate::__private::Delimiter::Brace,
 $crate::quote_spanned!($span=> $($inner)*),
 );
 };

 (# $tokens:ident $span:ident) => {
 $crate::__private::push_pound_spanned(&mut $tokens, $span);
 };

 (, $tokens:ident $span:ident) => {
 $crate::__private::push_comma_spanned(&mut $tokens, $span);
 };

 (. $tokens:ident $span:ident) => {
 $crate::__private::push_dot_spanned(&mut $tokens, $span);
 };

 (; $tokens:ident $span:ident) => {
 $crate::__private::push_semi_spanned(&mut $tokens, $span);
 };

 (: $tokens:ident $span:ident) => {
 $crate::__private::push_colon_spanned(&mut $tokens, $span);
 };

 (+ $tokens:ident $span:ident) => {
 $crate::__private::push_add_spanned(&mut $tokens, $span);
 };

 (+= $tokens:ident $span:ident) => {
 $crate::__private::push_add_eq_spanned(&mut $tokens, $span);
 };

 (& $tokens:ident $span:ident) => {
 $crate::__private::push_and_spanned(&mut $tokens, $span);
 };

 (&& $tokens:ident $span:ident) => {
 $crate::__private::push_and_and_spanned(&mut $tokens, $span);
 };

 (&= $tokens:ident $span:ident) => {
 $crate::__private::push_and_eq_spanned(&mut $tokens, $span);
 };

 (@ $tokens:ident $span:ident) => {
 $crate::__private::push_at_spanned(&mut $tokens, $span);
 };

 (! $tokens:ident $span:ident) => {
 $crate::__private::push_bang_spanned(&mut $tokens, $span);
 };

 (^ $tokens:ident $span:ident) => {
 $crate::__private::push_caret_spanned(&mut $tokens, $span);
 };

 (^= $tokens:ident $span:ident) => {
 $crate::__private::push_caret_eq_spanned(&mut $tokens, $span);
 };

 (/ $tokens:ident $span:ident) => {
 $crate::__private::push_div_spanned(&mut $tokens, $span);
 };

 (/= $tokens:ident $span:ident) => {
 $crate::__private::push_div_eq_spanned(&mut $tokens, $span);
 };

 (.. $tokens:ident $span:ident) => {
 $crate::__private::push_dot2_spanned(&mut $tokens, $span);
 };

 (... $tokens:ident $span:ident) => {
 $crate::__private::push_dot3_spanned(&mut $tokens, $span);
 };

 (..= $tokens:ident $span:ident) => {
 $crate::__private::push_dot_dot_eq_spanned(&mut $tokens, $span);
 };

 (= $tokens:ident $span:ident) => {
 $crate::__private::push_eq_spanned(&mut $tokens, $span);
 };

 (== $tokens:ident $span:ident) => {
 $crate::__private::push_eq_eq_spanned(&mut $tokens, $span);
 };

 (>= $tokens:ident $span:ident) => {
 $crate::__private::push_ge_spanned(&mut $tokens, $span);
 };

 (> $tokens:ident $span:ident) => {
 $crate::__private::push_gt_spanned(&mut $tokens, $span);
 };

 (<= $tokens:ident $span:ident) => {
 $crate::__private::push_le_spanned(&mut $tokens, $span);
 };

 (< $tokens:ident $span:ident) => {
 $crate::__private::push_lt_spanned(&mut $tokens, $span);
 };

 (*= $tokens:ident $span:ident) => {
 $crate::__private::push_mul_eq_spanned(&mut $tokens, $span);
 };

 (!= $tokens:ident $span:ident) => {
 $crate::__private::push_ne_spanned(&mut $tokens, $span);
 };

 (| $tokens:ident $span:ident) => {
 $crate::__private::push_or_spanned(&mut $tokens, $span);
 };

 (|= $tokens:ident $span:ident) => {
 $crate::__private::push_or_eq_spanned(&mut $tokens, $span);
 };

 (|| $tokens:ident $span:ident) => {
 $crate::__private::push_or_or_spanned(&mut $tokens, $span);
 };

 (? $tokens:ident $span:ident) => {
 $crate::__private::push_question_spanned(&mut $tokens, $span);
 };

 (-> $tokens:ident $span:ident) => {
 $crate::__private::push_rarrow_spanned(&mut $tokens, $span);
 };

 (<- $tokens:ident $span:ident) => {
 $crate::__private::push_larrow_spanned(&mut $tokens, $span);
 };

 (% $tokens:ident $span:ident) => {
 $crate::__private::push_rem_spanned(&mut $tokens, $span);
 };

 (%= $tokens:ident $span:ident) => {
 $crate::__private::push_rem_eq_spanned(&mut $tokens, $span);
 };

 (=> $tokens:ident $span:ident) => {
 $crate::__private::push_fat_arrow_spanned(&mut $tokens, $span);
 };

 (<< $tokens:ident $span:ident) => {
 $crate::__private::push_shl_spanned(&mut $tokens, $span);
 };

 (<<= $tokens:ident $span:ident) => {
 $crate::__private::push_shl_eq_spanned(&mut $tokens, $span);
 };

 (>> $tokens:ident $span:ident) => {
 $crate::__private::push_shr_spanned(&mut $tokens, $span);
 };

 (>>= $tokens:ident $span:ident) => {
 $crate::__private::push_shr_eq_spanned(&mut $tokens, $span);
 };

 (* $tokens:ident $span:ident) => {
 $crate::__private::push_star_spanned(&mut $tokens, $span);
 };

 (- $tokens:ident $span:ident) => {
 $crate::__private::push_sub_spanned(&mut $tokens, $span);
 };

 (-= $tokens:ident $span:ident) => {
 $crate::__private::push_sub_eq_spanned(&mut $tokens, $span);
 };

 ($lifetime:lifetime $tokens:ident $span:ident) => {
 $crate::__private::push_lifetime_spanned(&mut $tokens, $span, stringify!($lifetime));
 };

 (_ $tokens:ident $span:ident) => {
 $crate::__private::push_underscore_spanned(&mut $tokens, $span);
 };

 ($other:tt $tokens:ident $span:ident) => {
 $crate::__private::parse_spanned(&mut $tokens, $span, stringify!($other));
 };
}