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|
use crate::{file, full, gen};
use anyhow::Result;
use proc_macro2::{Ident, Span, TokenStream};
use quote::quote;
use syn::Index;
use syn_codegen::{Data, Definitions, Features, Node, Type};
const FOLD_SRC: &str = "../src/gen/fold.rs";
fn simple_visit(item: &str, name: &TokenStream) -> TokenStream {
let ident = gen::under_name(item);
let method = Ident::new(&format!("fold_{}", ident), Span::call_site());
quote! {
f.#method(#name)
}
}
fn visit(
ty: &Type,
features: &Features,
defs: &Definitions,
name: &TokenStream,
) -> Option<TokenStream> {
match ty {
Type::Box(t) => {
let res = visit(t, features, defs, "e!(*#name))?;
Some(quote! {
Box::new(#res)
})
}
Type::Vec(t) => {
let operand = quote!(it);
let val = visit(t, features, defs, &operand)?;
Some(quote! {
FoldHelper::lift(#name, |it| { #val })
})
}
Type::Punctuated(p) => {
let operand = quote!(it);
let val = visit(&p.element, features, defs, &operand)?;
Some(quote! {
FoldHelper::lift(#name, |it| { #val })
})
}
Type::Option(t) => {
let it = quote!(it);
let val = visit(t, features, defs, &it)?;
Some(quote! {
(#name).map(|it| { #val })
})
}
Type::Tuple(t) => {
let mut code = TokenStream::new();
for (i, elem) in t.iter().enumerate() {
let i = Index::from(i);
let it = quote!((#name).#i);
let val = visit(elem, features, defs, &it).unwrap_or(it);
code.extend(val);
code.extend(quote!(,));
}
Some(quote! {
(#code)
})
}
Type::Token(t) => {
let repr = &defs.tokens[t];
let is_keyword = repr.chars().next().unwrap().is_alphabetic();
let spans = if is_keyword {
quote!(span)
} else {
quote!(spans)
};
let ty = if repr == "await" {
quote!(crate::token::Await)
} else {
syn::parse_str(&format!("Token![{}]", repr)).unwrap()
};
Some(quote! {
#ty(tokens_helper(f, &#name.#spans))
})
}
Type::Group(t) => {
let ty = Ident::new(t, Span::call_site());
Some(quote! {
#ty(tokens_helper(f, &#name.span))
})
}
Type::Syn(t) => {
fn requires_full(features: &Features) -> bool {
features.any.contains("full") && features.any.len() == 1
}
let mut res = simple_visit(t, name);
let target = defs.types.iter().find(|ty| ty.ident == *t).unwrap();
if requires_full(&target.features) && !requires_full(features) {
res = quote!(full!(#res));
}
Some(res)
}
Type::Ext(t) if gen::TERMINAL_TYPES.contains(&&t[..]) => Some(simple_visit(t, name)),
Type::Ext(_) | Type::Std(_) => None,
}
}
fn node(traits: &mut TokenStream, impls: &mut TokenStream, s: &Node, defs: &Definitions) {
let under_name = gen::under_name(&s.ident);
let ty = Ident::new(&s.ident, Span::call_site());
let fold_fn = Ident::new(&format!("fold_{}", under_name), Span::call_site());
let mut fold_impl = TokenStream::new();
match &s.data {
Data::Enum(variants) => {
let mut fold_variants = TokenStream::new();
for (variant, fields) in variants {
let variant_ident = Ident::new(variant, Span::call_site());
if fields.is_empty() {
fold_variants.extend(quote! {
#ty::#variant_ident => {
#ty::#variant_ident
}
});
} else {
let mut bind_fold_fields = TokenStream::new();
let mut fold_fields = TokenStream::new();
for (idx, ty) in fields.iter().enumerate() {
let name = format!("_binding_{}", idx);
let binding = Ident::new(&name, Span::call_site());
bind_fold_fields.extend(quote! {
#binding,
});
let owned_binding = quote!(#binding);
fold_fields.extend(
visit(ty, &s.features, defs, &owned_binding).unwrap_or(owned_binding),
);
fold_fields.extend(quote!(,));
}
fold_variants.extend(quote! {
#ty::#variant_ident(#bind_fold_fields) => {
#ty::#variant_ident(
#fold_fields
)
}
});
}
}
let nonexhaustive = if s.exhaustive {
None
} else {
Some(quote!(_ => unreachable!()))
};
fold_impl.extend(quote! {
match node {
#fold_variants
#nonexhaustive
}
});
}
Data::Struct(fields) => {
let mut fold_fields = TokenStream::new();
for (field, ty) in fields {
let id = Ident::new(&field, Span::call_site());
let ref_toks = quote!(node.#id);
if let Type::Syn(ty) = ty {
if ty == "Reserved" {
fold_fields.extend(quote! {
#id: #ref_toks,
});
continue;
}
}
let fold = visit(&ty, &s.features, defs, &ref_toks).unwrap_or(ref_toks);
fold_fields.extend(quote! {
#id: #fold,
});
}
if !fields.is_empty() {
fold_impl.extend(quote! {
#ty {
#fold_fields
}
})
} else {
if ty == "Ident" {
fold_impl.extend(quote! {
let mut node = node;
let span = f.fold_span(node.span());
node.set_span(span);
});
}
fold_impl.extend(quote! {
node
});
}
}
Data::Private => {
if ty == "Ident" {
fold_impl.extend(quote! {
let mut node = node;
let span = f.fold_span(node.span());
node.set_span(span);
});
}
fold_impl.extend(quote! {
node
});
}
}
let fold_span_only =
s.data == Data::Private && !gen::TERMINAL_TYPES.contains(&s.ident.as_str());
if fold_span_only {
fold_impl = quote! {
let span = f.fold_span(node.span());
let mut node = node;
node.set_span(span);
node
};
}
traits.extend(quote! {
fn #fold_fn(&mut self, i: #ty) -> #ty {
#fold_fn(self, i)
}
});
impls.extend(quote! {
pub fn #fold_fn<F>(f: &mut F, node: #ty) -> #ty
where
F: Fold + ?Sized,
{
#fold_impl
}
});
}
pub fn generate(defs: &Definitions) -> Result<()> {
let (traits, impls) = gen::traverse(defs, node);
let full_macro = full::get_macro();
file::write(
FOLD_SRC,
quote! {
// Unreachable code is generated sometimes without the full feature.
#![allow(unreachable_code, unused_variables)]
use crate::*;
#[cfg(any(feature = "full", feature = "derive"))]
use crate::token::{Brace, Bracket, Paren, Group};
use proc_macro2::Span;
#[cfg(any(feature = "full", feature = "derive"))]
use crate::gen::helper::fold::*;
#full_macro
/// Syntax tree traversal to transform the nodes of an owned syntax tree.
///
/// See the [module documentation] for details.
///
/// [module documentation]: self
///
/// *This trait is available if Syn is built with the `"fold"` feature.*
pub trait Fold {
#traits
}
#impls
},
)?;
Ok(())
}
|
