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extern crate proc_macro;
use proc_macro::{TokenStream, TokenTree};
use proc_macro2::Span;
use quote::quote;
use syn::visit_mut::VisitMut;
struct Scrub {
is_xforming: bool,
is_try: bool,
unit: Box<syn::Expr>,
num_yield: u32,
}
#[derive(Debug)]
struct AsyncStreamEnumHack {
macro_ident: syn::Ident,
stmts: Vec<syn::Stmt>,
}
impl AsyncStreamEnumHack {
fn parse(input: TokenStream) -> Self {
macro_rules! n {
($i:ident) => { $i.next().unwrap() };
}
let mut input = input.into_iter();
n!(input);
n!(input);
let mut braces = match n!(input) {
TokenTree::Group(group) => group.stream().into_iter(),
_ => unreachable!(),
};
n!(braces);
n!(braces);
n!(braces);
n!(braces);
n!(braces);
n!(braces);
n!(braces);
let inner = n!(braces);
let syn::Block { stmts, .. } = syn::parse(inner.clone().into()).unwrap();
let macro_ident = syn::Ident::new(
&format!("stream_{}", count_bangs(inner.into())),
Span::call_site());
AsyncStreamEnumHack { stmts, macro_ident }
}
}
impl VisitMut for Scrub {
fn visit_expr_mut(&mut self, i: &mut syn::Expr) {
if !self.is_xforming {
syn::visit_mut::visit_expr_mut(self, i);
return;
}
match i {
syn::Expr::Yield(yield_expr) => {
self.num_yield += 1;
let value_expr = if let Some(ref e) = yield_expr.expr {
e
} else {
&self.unit
};
*i = if self.is_try {
syn::parse_quote! { __yield_tx.send(Ok(#value_expr)).await }
} else {
syn::parse_quote! { __yield_tx.send(#value_expr).await }
};
}
syn::Expr::Try(try_expr) => {
let e = &try_expr.expr;
*i = syn::parse_quote! {
match #e {
Ok(v) => v,
Err(e) => {
__yield_tx.send(Err(e)).await;
return;
}
}
};
}
syn::Expr::Closure(_) |
syn::Expr::Async(_) => {
let prev = self.is_xforming;
self.is_xforming = false;
syn::visit_mut::visit_expr_mut(self, i);
self.is_xforming = prev;
}
_ => syn::visit_mut::visit_expr_mut(self, i),
}
}
fn visit_item_mut(&mut self, i: &mut syn::Item) {
let prev = self.is_xforming;
self.is_xforming = false;
syn::visit_mut::visit_item_mut(self, i);
self.is_xforming = prev;
}
}
#[proc_macro_derive(AsyncStreamHack)]
pub fn async_stream_impl(input: TokenStream) -> TokenStream {
let AsyncStreamEnumHack { macro_ident, mut stmts } =
AsyncStreamEnumHack::parse(input);
let mut scrub = Scrub {
is_xforming: true,
is_try: false,
unit: syn::parse_quote!(()),
num_yield: 0,
};
for mut stmt in &mut stmts[..] {
scrub.visit_stmt_mut(&mut stmt);
}
if scrub.num_yield == 0 {
quote!(macro_rules! #macro_ident {
() => {{
if false {
__yield_tx.send(()).await;
}
#(#stmts)*
}};
}).into()
} else {
quote!(macro_rules! #macro_ident {
() => {{
#(#stmts)*
}};
}).into()
}
}
#[proc_macro_derive(AsyncTryStreamHack)]
pub fn async_try_stream_impl(input: TokenStream) -> TokenStream {
let AsyncStreamEnumHack { macro_ident, mut stmts } =
AsyncStreamEnumHack::parse(input);
let mut scrub = Scrub {
is_xforming: true,
is_try: true,
unit: syn::parse_quote!(()),
num_yield: 0,
};
for mut stmt in &mut stmts[..] {
scrub.visit_stmt_mut(&mut stmt);
}
if scrub.num_yield == 0 {
quote!(macro_rules! #macro_ident {
() => {{
if false {
__yield_tx.send(()).await;
}
#(#stmts)*
}};
}).into()
} else {
quote!(macro_rules! #macro_ident {
() => {{
#(#stmts)*
}};
}).into()
}
}
fn count_bangs(input: TokenStream) -> usize {
let mut count = 0;
for token in input {
match token {
TokenTree::Punct(punct) => {
if punct.as_char() == '!' {
count += 1;
}
}
TokenTree::Group(group) => {
count += count_bangs(group.stream());
}
_ => {}
}
}
count
}