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proc_macro_harness.rs
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use rustc_ast::ptr::P;
use rustc_ast::visit::{self, Visitor};
use rustc_ast::{self as ast, NodeId};
use rustc_expand::base::{parse_macro_name_and_helper_attrs, ExtCtxt, ResolverExpand};
use rustc_expand::expand::{AstFragment, ExpansionConfig};
use rustc_session::Session;
use rustc_span::hygiene::AstPass;
use rustc_span::source_map::SourceMap;
use rustc_span::symbol::{kw, sym, Ident, Symbol};
use rustc_span::{Span, DUMMY_SP};
use smallvec::smallvec;
use std::mem;
use thin_vec::{thin_vec, ThinVec};
struct ProcMacroDerive {
id: NodeId,
trait_name: Symbol,
function_name: Ident,
span: Span,
attrs: Vec<Symbol>,
}
struct ProcMacroDef {
id: NodeId,
function_name: Ident,
span: Span,
}
enum ProcMacro {
Derive(ProcMacroDerive),
Attr(ProcMacroDef),
Bang(ProcMacroDef),
}
struct CollectProcMacros<'a> {
sess: &'a Session,
macros: Vec<ProcMacro>,
in_root: bool,
handler: &'a rustc_errors::Handler,
source_map: &'a SourceMap,
}
pub fn inject(
sess: &Session,
resolver: &mut dyn ResolverExpand,
mut krate: ast::Crate,
) -> ast::Crate {
let ecfg = ExpansionConfig::default("proc_macro".to_string());
let mut cx = ExtCtxt::new(sess, ecfg, resolver, None);
let mut collect = CollectProcMacros {
sess,
macros: Vec::new(),
in_root: true,
handler: sess.diagnostic(),
source_map: sess.source_map(),
};
visit::walk_crate(&mut collect, &krate);
let macros = collect.macros;
if sess.opts.test {
return krate;
}
let decls = mk_decls(&mut cx, ¯os);
krate.items.push(decls);
krate
}
impl<'a> CollectProcMacros<'a> {
fn check_not_pub_in_root(&self, vis: &ast::Visibility, sp: Span) {
if self.in_root && vis.kind.is_pub() {
self.handler.span_err(
sp,
"`proc-macro` crate types currently cannot export any items other \
than functions tagged with `#[proc_macro]`, `#[proc_macro_derive]`, \
or `#[proc_macro_attribute]`",
);
}
}
fn collect_custom_derive(&mut self, item: &'a ast::Item, attr: &'a ast::Attribute) {
let Some((trait_name, proc_attrs)) = parse_macro_name_and_helper_attrs(self.handler, attr, "derive") else {
return;
};
if self.in_root && item.vis.kind.is_pub() {
self.macros.push(ProcMacro::Derive(ProcMacroDerive {
id: item.id,
span: item.span,
trait_name,
function_name: item.ident,
attrs: proc_attrs,
}));
} else {
let msg = if !self.in_root {
"functions tagged with `#[proc_macro_derive]` must \
currently reside in the root of the crate"
} else {
"functions tagged with `#[proc_macro_derive]` must be `pub`"
};
self.handler.span_err(self.source_map.guess_head_span(item.span), msg);
}
}
fn collect_attr_proc_macro(&mut self, item: &'a ast::Item) {
if self.in_root && item.vis.kind.is_pub() {
self.macros.push(ProcMacro::Attr(ProcMacroDef {
id: item.id,
span: item.span,
function_name: item.ident,
}));
} else {
let msg = if !self.in_root {
"functions tagged with `#[proc_macro_attribute]` must \
currently reside in the root of the crate"
} else {
"functions tagged with `#[proc_macro_attribute]` must be `pub`"
};
self.handler.span_err(self.source_map.guess_head_span(item.span), msg);
}
}
fn collect_bang_proc_macro(&mut self, item: &'a ast::Item) {
if self.in_root && item.vis.kind.is_pub() {
self.macros.push(ProcMacro::Bang(ProcMacroDef {
id: item.id,
span: item.span,
function_name: item.ident,
}));
} else {
let msg = if !self.in_root {
"functions tagged with `#[proc_macro]` must \
currently reside in the root of the crate"
} else {
"functions tagged with `#[proc_macro]` must be `pub`"
};
self.handler.span_err(self.source_map.guess_head_span(item.span), msg);
}
}
}
impl<'a> Visitor<'a> for CollectProcMacros<'a> {
fn visit_item(&mut self, item: &'a ast::Item) {
if let ast::ItemKind::MacroDef(..) = item.kind {
if self.sess.contains_name(&item.attrs, sym::macro_export) {
let msg =
"cannot export macro_rules! macros from a `proc-macro` crate type currently";
self.handler.span_err(self.source_map.guess_head_span(item.span), msg);
}
}
let found_attr = item.attrs.iter().find(|attr| self.sess.is_proc_macro_attr(&attr));
let Some(attr) = found_attr else {
self.check_not_pub_in_root(&item.vis, self.source_map.guess_head_span(item.span));
let prev_in_root = mem::replace(&mut self.in_root, false);
visit::walk_item(self, item);
self.in_root = prev_in_root;
return;
};
if self.sess.opts.test {
return;
}
if attr.has_name(sym::proc_macro_derive) {
self.collect_custom_derive(item, attr);
} else if attr.has_name(sym::proc_macro_attribute) {
self.collect_attr_proc_macro(item);
} else if attr.has_name(sym::proc_macro) {
self.collect_bang_proc_macro(item);
};
let prev_in_root = mem::replace(&mut self.in_root, false);
visit::walk_item(self, item);
self.in_root = prev_in_root;
}
}
// Creates a new module which looks like:
//
// const _: () = {
// extern crate proc_macro;
//
// use proc_macro::bridge::client::ProcMacro;
//
// #[rustc_proc_macro_decls]
// #[used]
// #[allow(deprecated)]
// static DECLS: &[ProcMacro] = &[
// ProcMacro::custom_derive($name_trait1, &[], ::$name1);
// ProcMacro::custom_derive($name_trait2, &["attribute_name"], ::$name2);
// // ...
// ];
// }
fn mk_decls(cx: &mut ExtCtxt<'_>, macros: &[ProcMacro]) -> P<ast::Item> {
let expn_id = cx.resolver.expansion_for_ast_pass(
DUMMY_SP,
AstPass::ProcMacroHarness,
&[sym::rustc_attrs, sym::proc_macro_internals],
None,
);
let span = DUMMY_SP.with_def_site_ctxt(expn_id.to_expn_id());
let proc_macro = Ident::new(sym::proc_macro, span);
let krate = cx.item(span, proc_macro, ast::AttrVec::new(), ast::ItemKind::ExternCrate(None));
let bridge = Ident::new(sym::bridge, span);
let client = Ident::new(sym::client, span);
let proc_macro_ty = Ident::new(sym::ProcMacro, span);
let custom_derive = Ident::new(sym::custom_derive, span);
let attr = Ident::new(sym::attr, span);
let bang = Ident::new(sym::bang, span);
// We add NodeIds to 'resolver.proc_macros' in the order
// that we generate expressions. The position of each NodeId
// in the 'proc_macros' Vec corresponds to its position
// in the static array that will be generated
let decls = macros
.iter()
.map(|m| {
let harness_span = span;
let span = match m {
ProcMacro::Derive(m) => m.span,
ProcMacro::Attr(m) | ProcMacro::Bang(m) => m.span,
};
let local_path = |cx: &ExtCtxt<'_>, name| cx.expr_path(cx.path(span, vec![name]));
let proc_macro_ty_method_path = |cx: &ExtCtxt<'_>, method| {
cx.expr_path(cx.path(
span.with_ctxt(harness_span.ctxt()),
vec![proc_macro, bridge, client, proc_macro_ty, method],
))
};
match m {
ProcMacro::Derive(cd) => {
cx.resolver.declare_proc_macro(cd.id);
cx.expr_call(
span,
proc_macro_ty_method_path(cx, custom_derive),
thin_vec![
cx.expr_str(span, cd.trait_name),
cx.expr_array_ref(
span,
cd.attrs
.iter()
.map(|&s| cx.expr_str(span, s))
.collect::<ThinVec<_>>(),
),
local_path(cx, cd.function_name),
],
)
}
ProcMacro::Attr(ca) | ProcMacro::Bang(ca) => {
cx.resolver.declare_proc_macro(ca.id);
let ident = match m {
ProcMacro::Attr(_) => attr,
ProcMacro::Bang(_) => bang,
ProcMacro::Derive(_) => unreachable!(),
};
cx.expr_call(
span,
proc_macro_ty_method_path(cx, ident),
thin_vec![
cx.expr_str(span, ca.function_name.name),
local_path(cx, ca.function_name),
],
)
}
}
})
.collect();
let decls_static = cx
.item_static(
span,
Ident::new(sym::_DECLS, span),
cx.ty_ref(
span,
cx.ty(
span,
ast::TyKind::Slice(
cx.ty_path(cx.path(span, vec![proc_macro, bridge, client, proc_macro_ty])),
),
),
None,
ast::Mutability::Not,
),
ast::Mutability::Not,
cx.expr_array_ref(span, decls),
)
.map(|mut i| {
i.attrs.push(cx.attr_word(sym::rustc_proc_macro_decls, span));
i.attrs.push(cx.attr_word(sym::used, span));
i.attrs.push(cx.attr_nested_word(sym::allow, sym::deprecated, span));
i
});
let block = cx.expr_block(
cx.block(span, thin_vec![cx.stmt_item(span, krate), cx.stmt_item(span, decls_static)]),
);
let anon_constant = cx.item_const(
span,
Ident::new(kw::Underscore, span),
cx.ty(span, ast::TyKind::Tup(ThinVec::new())),
block,
);
// Integrate the new item into existing module structures.
let items = AstFragment::Items(smallvec![anon_constant]);
cx.monotonic_expander().fully_expand_fragment(items).make_items().pop().unwrap()
}