src/lib.rs - platform/external/rust/crates/async-stream-impl - Git at Google

 extern crate proc_macro;
 use proc_macro::TokenStream;
 use proc_macro2::{Group, TokenStream as TokenStream2, TokenTree};
 use quote::quote;
 use syn::parse::{Parse, ParseStream, Parser, Result};
 use syn::visit_mut::VisitMut;

 struct Scrub<'a> {
     /// Whether the stream is a try stream.
     is_try: bool,
     /// The unit expression, `()`.
     unit: Box<syn::Expr>,
     has_yielded: bool,
     crate_path: &'a TokenStream2,
 }

 fn parse_input(input: TokenStream) -> syn::Result<(TokenStream2, Vec<syn::Stmt>)> {
     let mut input = TokenStream2::from(input).into_iter();
     let crate_path = match input.next().unwrap() {
         TokenTree::Group(group) => group.stream(),
         _ => panic!(),
     };
     let stmts = syn::Block::parse_within.parse2(replace_for_await(input))?;
     Ok((crate_path, stmts))
 }

 impl<'a> Scrub<'a> {
     fn new(is_try: bool, crate_path: &'a TokenStream2) -> Self {
         Self {
             is_try,
             unit: syn::parse_quote!(()),
             has_yielded: false,
             crate_path,
         }
     }
 }

 struct Partial<T>(T, TokenStream2);

 impl<T: Parse> Parse for Partial<T> {
     fn parse(input: ParseStream) -> Result<Self> {
         Ok(Partial(input.parse()?, input.parse()?))
     }
 }

 fn visit_token_stream_impl(
     visitor: &mut Scrub<'_>,
     tokens: TokenStream2,
     modified: &mut bool,
     out: &mut TokenStream2,
 ) {
     use quote::ToTokens;
     use quote::TokenStreamExt;

     let mut tokens = tokens.into_iter().peekable();
     while let Some(tt) = tokens.next() {
         match tt {
             TokenTree::Ident(i) if i == "yield" => {
                 let stream = std::iter::once(TokenTree::Ident(i)).chain(tokens).collect();
                 match syn::parse2(stream) {
                     Ok(Partial(yield_expr, rest)) => {
                         let mut expr = syn::Expr::Yield(yield_expr);
                         visitor.visit_expr_mut(&mut expr);
                         expr.to_tokens(out);
                         *modified = true;
                         tokens = rest.into_iter().peekable();
                     }
                     Err(e) => {
                         out.append_all(&mut e.to_compile_error().into_iter());
                         *modified = true;
                         return;
                     }
                 }
             }
             TokenTree::Ident(i) if i == "stream" || i == "try_stream" => {
                 out.append(TokenTree::Ident(i));
                 match tokens.peek() {
                     Some(TokenTree::Punct(p)) if p.as_char() == '!' => {
                         out.extend(tokens.next()); // !
                         if let Some(TokenTree::Group(_)) = tokens.peek() {
                             out.extend(tokens.next()); // { .. } or [ .. ] or ( .. )
                         }
                     }
                     _ => {}
                 }
             }
             TokenTree::Group(group) => {
                 let mut content = group.stream();
                 *modified |= visitor.visit_token_stream(&mut content);
                 let mut new = Group::new(group.delimiter(), content);
                 new.set_span(group.span());
                 out.append(new);
             }
             other => out.append(other),
         }
     }
 }

 impl Scrub<'_> {
     fn visit_token_stream(&mut self, tokens: &mut TokenStream2) -> bool {
         let (mut out, mut modified) = (TokenStream2::new(), false);
         visit_token_stream_impl(self, tokens.clone(), &mut modified, &mut out);

         if modified {
             *tokens = out;
         }

         modified
     }
 }

 impl VisitMut for Scrub<'_> {
     fn visit_expr_mut(&mut self, i: &mut syn::Expr) {
         match i {
             syn::Expr::Yield(yield_expr) => {
                 self.has_yielded = true;

                 let value_expr = yield_expr.expr.as_ref().unwrap_or(&self.unit);

                 // let ident = &self.yielder;

                 *i = if self.is_try {
                     syn::parse_quote! { __yield_tx.send(::core::result::Result::Ok(#value_expr)).await }
                 } else {
                     syn::parse_quote! { __yield_tx.send(#value_expr).await }
                 };
             }
             syn::Expr::Try(try_expr) => {
                 syn::visit_mut::visit_expr_try_mut(self, try_expr);
                 // let ident = &self.yielder;
                 let e = &try_expr.expr;

                 *i = syn::parse_quote! {
                     match #e {
                         ::core::result::Result::Ok(v) => v,
                         ::core::result::Result::Err(e) => {
                             __yield_tx.send(::core::result::Result::Err(e.into())).await;
                             return;
                         }
                     }
                 };
             }
             syn::Expr::Closure(_) | syn::Expr::Async(_) => {
                 // Don't transform inner closures or async blocks.
             }
             syn::Expr::ForLoop(expr) => {
                 syn::visit_mut::visit_expr_for_loop_mut(self, expr);
                 // TODO: Should we allow other attributes?
                 if expr.attrs.len() != 1 || !expr.attrs[0].path.is_ident("await") {
                     return;
                 }
                 let syn::ExprForLoop {
                     attrs,
                     label,
                     pat,
                     expr,
                     body,
                     ..
                 } = expr;

                 let attr = attrs.pop().unwrap();
                 if let Err(e) = syn::parse2::<syn::parse::Nothing>(attr.tokens) {
                     *i = syn::parse2(e.to_compile_error()).unwrap();
                     return;
                 }

                 let crate_path = self.crate_path;
                 *i = syn::parse_quote! {{
                     let mut __pinned = #expr;
                     let mut __pinned = unsafe {
                         ::core::pin::Pin::new_unchecked(&mut __pinned)
                     };
                     #label
                     loop {
                         let #pat = match #crate_path::reexport::next(&mut __pinned).await {
                             ::core::option::Option::Some(e) => e,
                             ::core::option::Option::None => break,
                         };
                         #body
                     }
                 }}
             }
             _ => syn::visit_mut::visit_expr_mut(self, i),
         }
     }

     fn visit_macro_mut(&mut self, mac: &mut syn::Macro) {
         let mac_ident = mac.path.segments.last().map(|p| &p.ident);
         if mac_ident.map_or(false, |i| i == "stream" || i == "try_stream") {
             return;
         }

         self.visit_token_stream(&mut mac.tokens);
     }

     fn visit_item_mut(&mut self, i: &mut syn::Item) {
         // Recurse into macros but otherwise don't transform inner items.
         if let syn::Item::Macro(i) = i {
             self.visit_macro_mut(&mut i.mac);
         }
     }
 }

 /// The first token tree in the stream must be a group containing the path to the `async-stream`
 /// crate.
 #[proc_macro]
 #[doc(hidden)]
 pub fn stream_inner(input: TokenStream) -> TokenStream {
     let (crate_path, mut stmts) = match parse_input(input) {
         Ok(x) => x,
         Err(e) => return e.to_compile_error().into(),
     };

     let mut scrub = Scrub::new(false, &crate_path);

     for mut stmt in &mut stmts {
         scrub.visit_stmt_mut(&mut stmt);
     }

     let dummy_yield = if scrub.has_yielded {
         None
     } else {
         Some(quote!(if false {
             __yield_tx.send(()).await;
         }))
     };

     quote!({
         let (mut __yield_tx, __yield_rx) = #crate_path::yielder::pair();
         #crate_path::AsyncStream::new(__yield_rx, async move {
             #dummy_yield
             #(#stmts)*
         })
     })
     .into()
 }

 /// The first token tree in the stream must be a group containing the path to the `async-stream`
 /// crate.
 #[proc_macro]
 #[doc(hidden)]
 pub fn try_stream_inner(input: TokenStream) -> TokenStream {
     let (crate_path, mut stmts) = match parse_input(input) {
         Ok(x) => x,
         Err(e) => return e.to_compile_error().into(),
     };

     let mut scrub = Scrub::new(true, &crate_path);

     for mut stmt in &mut stmts {
         scrub.visit_stmt_mut(&mut stmt);
     }

     let dummy_yield = if scrub.has_yielded {
         None
     } else {
         Some(quote!(if false {
             __yield_tx.send(()).await;
         }))
     };

     quote!({
         let (mut __yield_tx, __yield_rx) = #crate_path::yielder::pair();
         #crate_path::AsyncStream::new(__yield_rx, async move {
             #dummy_yield
             #(#stmts)*
         })
     })
     .into()
 }

 /// Replace `for await` with `#[await] for`, which will be later transformed into a `next` loop.
 fn replace_for_await(input: impl IntoIterator<Item = TokenTree>) -> TokenStream2 {
     let mut input = input.into_iter().peekable();
     let mut tokens = Vec::new();

     while let Some(token) = input.next() {
         match token {
             TokenTree::Ident(ident) => {
                 match input.peek() {
                     Some(TokenTree::Ident(next)) if ident == "for" && next == "await" => {
                         tokens.extend(quote!(#[#next]));
                         let _ = input.next();
                     }
                     _ => {}
                 }
                 tokens.push(ident.into());
             }
             TokenTree::Group(group) => {
                 let stream = replace_for_await(group.stream());
                 tokens.push(Group::new(group.delimiter(), stream).into());
             }
             _ => tokens.push(token),
         }
     }

     tokens.into_iter().collect()
 }
	extern crate proc_macro;
	use proc_macro::TokenStream;
	use proc_macro2::{Group, TokenStream as TokenStream2, TokenTree};
	use quote::quote;
	use syn::parse::{Parse, ParseStream, Parser, Result};
	use syn::visit_mut::VisitMut;

	struct Scrub<'a> {
	/// Whether the stream is a try stream.
	is_try: bool,
	/// The unit expression, `()`.
	unit: Box<syn::Expr>,
	has_yielded: bool,
	crate_path: &'a TokenStream2,
	}

	fn parse_input(input: TokenStream) -> syn::Result<(TokenStream2, Vec<syn::Stmt>)> {
	let mut input = TokenStream2::from(input).into_iter();
	let crate_path = match input.next().unwrap() {
	TokenTree::Group(group) => group.stream(),
	_ => panic!(),
	};
	let stmts = syn::Block::parse_within.parse2(replace_for_await(input))?;
	Ok((crate_path, stmts))
	}

	impl<'a> Scrub<'a> {
	fn new(is_try: bool, crate_path: &'a TokenStream2) -> Self {
	Self {
	is_try,
	unit: syn::parse_quote!(()),
	has_yielded: false,
	crate_path,
	}
	}
	}

	struct Partial<T>(T, TokenStream2);

	impl<T: Parse> Parse for Partial<T> {
	fn parse(input: ParseStream) -> Result<Self> {
	Ok(Partial(input.parse()?, input.parse()?))
	}
	}

	fn visit_token_stream_impl(
	visitor: &mut Scrub<'_>,
	tokens: TokenStream2,
	modified: &mut bool,
	out: &mut TokenStream2,
	) {
	use quote::ToTokens;
	use quote::TokenStreamExt;

	let mut tokens = tokens.into_iter().peekable();
	while let Some(tt) = tokens.next() {
	match tt {
	TokenTree::Ident(i) if i == "yield" => {
	let stream = std::iter::once(TokenTree::Ident(i)).chain(tokens).collect();
	match syn::parse2(stream) {
	Ok(Partial(yield_expr, rest)) => {
	let mut expr = syn::Expr::Yield(yield_expr);
	visitor.visit_expr_mut(&mut expr);
	expr.to_tokens(out);
	*modified = true;
	tokens = rest.into_iter().peekable();
	}
	Err(e) => {
	out.append_all(&mut e.to_compile_error().into_iter());
	*modified = true;
	return;
	}
	}
	}
	TokenTree::Ident(i) if i == "stream" \|\| i == "try_stream" => {
	out.append(TokenTree::Ident(i));
	match tokens.peek() {
	Some(TokenTree::Punct(p)) if p.as_char() == '!' => {
	out.extend(tokens.next()); // !
	if let Some(TokenTree::Group(_)) = tokens.peek() {
	out.extend(tokens.next()); // { .. } or [ .. ] or ( .. )
	}
	}
	_ => {}
	}
	}
	TokenTree::Group(group) => {
	let mut content = group.stream();
	*modified \|= visitor.visit_token_stream(&mut content);
	let mut new = Group::new(group.delimiter(), content);
	new.set_span(group.span());
	out.append(new);
	}
	other => out.append(other),
	}
	}
	}

	impl Scrub<'_> {
	fn visit_token_stream(&mut self, tokens: &mut TokenStream2) -> bool {
	let (mut out, mut modified) = (TokenStream2::new(), false);
	visit_token_stream_impl(self, tokens.clone(), &mut modified, &mut out);

	if modified {
	*tokens = out;
	}

	modified
	}
	}

	impl VisitMut for Scrub<'_> {
	fn visit_expr_mut(&mut self, i: &mut syn::Expr) {
	match i {
	syn::Expr::Yield(yield_expr) => {
	self.has_yielded = true;

	let value_expr = yield_expr.expr.as_ref().unwrap_or(&self.unit);

	// let ident = &self.yielder;

	*i = if self.is_try {
	syn::parse_quote! { __yield_tx.send(::core::result::Result::Ok(#value_expr)).await }
	} else {
	syn::parse_quote! { __yield_tx.send(#value_expr).await }
	};
	}
	syn::Expr::Try(try_expr) => {
	syn::visit_mut::visit_expr_try_mut(self, try_expr);
	// let ident = &self.yielder;
	let e = &try_expr.expr;

	*i = syn::parse_quote! {
	match #e {
	::core::result::Result::Ok(v) => v,
	::core::result::Result::Err(e) => {
	__yield_tx.send(::core::result::Result::Err(e.into())).await;
	return;
	}
	}
	};
	}
	syn::Expr::Closure(_) \| syn::Expr::Async(_) => {
	// Don't transform inner closures or async blocks.
	}
	syn::Expr::ForLoop(expr) => {
	syn::visit_mut::visit_expr_for_loop_mut(self, expr);
	// TODO: Should we allow other attributes?
	if expr.attrs.len() != 1 \|\| !expr.attrs[0].path.is_ident("await") {
	return;
	}
	let syn::ExprForLoop {
	attrs,
	label,
	pat,
	expr,
	body,
	..
	} = expr;

	let attr = attrs.pop().unwrap();
	if let Err(e) = syn::parse2::<syn::parse::Nothing>(attr.tokens) {
	*i = syn::parse2(e.to_compile_error()).unwrap();
	return;
	}

	let crate_path = self.crate_path;
	*i = syn::parse_quote! {{
	let mut __pinned = #expr;
	let mut __pinned = unsafe {
	::core::pin::Pin::new_unchecked(&mut __pinned)
	};
	#label
	loop {
	let #pat = match #crate_path::reexport::next(&mut __pinned).await {
	::core::option::Option::Some(e) => e,
	::core::option::Option::None => break,
	};
	#body
	}
	}}
	}
	_ => syn::visit_mut::visit_expr_mut(self, i),
	}
	}

	fn visit_macro_mut(&mut self, mac: &mut syn::Macro) {
	let mac_ident = mac.path.segments.last().map(\|p\| &p.ident);
	if mac_ident.map_or(false, \|i\| i == "stream" \|\| i == "try_stream") {
	return;
	}

	self.visit_token_stream(&mut mac.tokens);
	}

	fn visit_item_mut(&mut self, i: &mut syn::Item) {
	// Recurse into macros but otherwise don't transform inner items.
	if let syn::Item::Macro(i) = i {
	self.visit_macro_mut(&mut i.mac);
	}
	}
	}

	/// The first token tree in the stream must be a group containing the path to the `async-stream`
	/// crate.
	#[proc_macro]
	#[doc(hidden)]
	pub fn stream_inner(input: TokenStream) -> TokenStream {
	let (crate_path, mut stmts) = match parse_input(input) {
	Ok(x) => x,
	Err(e) => return e.to_compile_error().into(),
	};

	let mut scrub = Scrub::new(false, &crate_path);

	for mut stmt in &mut stmts {
	scrub.visit_stmt_mut(&mut stmt);
	}

	let dummy_yield = if scrub.has_yielded {
	None
	} else {
	Some(quote!(if false {
	__yield_tx.send(()).await;
	}))
	};

	quote!({
	let (mut __yield_tx, __yield_rx) = #crate_path::yielder::pair();
	#crate_path::AsyncStream::new(__yield_rx, async move {
	#dummy_yield
	#(#stmts)*
	})
	})
	.into()
	}

	/// The first token tree in the stream must be a group containing the path to the `async-stream`
	/// crate.
	#[proc_macro]
	#[doc(hidden)]
	pub fn try_stream_inner(input: TokenStream) -> TokenStream {
	let (crate_path, mut stmts) = match parse_input(input) {
	Ok(x) => x,
	Err(e) => return e.to_compile_error().into(),
	};

	let mut scrub = Scrub::new(true, &crate_path);

	for mut stmt in &mut stmts {
	scrub.visit_stmt_mut(&mut stmt);
	}

	let dummy_yield = if scrub.has_yielded {
	None
	} else {
	Some(quote!(if false {
	__yield_tx.send(()).await;
	}))
	};

	quote!({
	let (mut __yield_tx, __yield_rx) = #crate_path::yielder::pair();
	#crate_path::AsyncStream::new(__yield_rx, async move {
	#dummy_yield
	#(#stmts)*
	})
	})
	.into()
	}

	/// Replace `for await` with `#[await] for`, which will be later transformed into a `next` loop.
	fn replace_for_await(input: impl IntoIterator<Item = TokenTree>) -> TokenStream2 {
	let mut input = input.into_iter().peekable();
	let mut tokens = Vec::new();

	while let Some(token) = input.next() {
	match token {
	TokenTree::Ident(ident) => {
	match input.peek() {
	Some(TokenTree::Ident(next)) if ident == "for" && next == "await" => {
	tokens.extend(quote!(#[#next]));
	let _ = input.next();
	}
	_ => {}
	}
	tokens.push(ident.into());
	}
	TokenTree::Group(group) => {
	let stream = replace_for_await(group.stream());
	tokens.push(Group::new(group.delimiter(), stream).into());
	}
	_ => tokens.push(token),
	}
	}

	tokens.into_iter().collect()
	}