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|
//! Eager expansion related utils
//!
//! Here is a dump of a discussion from Vadim Petrochenkov about Eager Expansion and
//! Its name resolution :
//!
//! > Eagerly expanded macros (and also macros eagerly expanded by eagerly expanded macros,
//! > which actually happens in practice too!) are resolved at the location of the "root" macro
//! > that performs the eager expansion on its arguments.
//! > If some name cannot be resolved at the eager expansion time it's considered unresolved,
//! > even if becomes available later (e.g. from a glob import or other macro).
//!
//! > Eagerly expanded macros don't add anything to the module structure of the crate and
//! > don't build any speculative module structures, i.e. they are expanded in a "flat"
//! > way even if tokens in them look like modules.
//!
//! > In other words, it kinda works for simple cases for which it was originally intended,
//! > and we need to live with it because it's available on stable and widely relied upon.
//!
//!
//! See the full discussion : https://rust-lang.zulipchat.com/#narrow/stream/131828-t-compiler/topic/Eager.20expansion.20of.20built-in.20macros
use crate::{
ast::{self, AstNode},
db::AstDatabase,
EagerCallLoc, EagerMacroId, InFile, MacroCallId, MacroCallKind, MacroDefId, MacroDefKind,
};
use base_db::CrateId;
use mbe::ExpandResult;
use parser::FragmentKind;
use std::sync::Arc;
use syntax::{algo::SyntaxRewriter, SyntaxNode};
pub struct ErrorEmitted {
_private: (),
}
pub trait ErrorSink {
fn emit(&mut self, err: mbe::ExpandError);
fn option<T>(
&mut self,
opt: Option<T>,
error: impl FnOnce() -> mbe::ExpandError,
) -> Result<T, ErrorEmitted> {
match opt {
Some(it) => Ok(it),
None => {
self.emit(error());
Err(ErrorEmitted { _private: () })
}
}
}
fn option_with<T>(
&mut self,
opt: impl FnOnce() -> Option<T>,
error: impl FnOnce() -> mbe::ExpandError,
) -> Result<T, ErrorEmitted> {
self.option(opt(), error)
}
fn result<T>(&mut self, res: Result<T, mbe::ExpandError>) -> Result<T, ErrorEmitted> {
match res {
Ok(it) => Ok(it),
Err(e) => {
self.emit(e);
Err(ErrorEmitted { _private: () })
}
}
}
fn expand_result_option<T>(&mut self, res: ExpandResult<Option<T>>) -> Result<T, ErrorEmitted> {
match (res.value, res.err) {
(None, Some(err)) => {
self.emit(err);
Err(ErrorEmitted { _private: () })
}
(Some(value), opt_err) => {
if let Some(err) = opt_err {
self.emit(err);
}
Ok(value)
}
(None, None) => unreachable!("`ExpandResult` without value or error"),
}
}
}
impl ErrorSink for &'_ mut dyn FnMut(mbe::ExpandError) {
fn emit(&mut self, err: mbe::ExpandError) {
self(err);
}
}
fn err(msg: impl Into<String>) -> mbe::ExpandError {
mbe::ExpandError::Other(msg.into())
}
pub fn expand_eager_macro(
db: &dyn AstDatabase,
krate: CrateId,
macro_call: InFile<ast::MacroCall>,
def: MacroDefId,
resolver: &dyn Fn(ast::Path) -> Option<MacroDefId>,
mut diagnostic_sink: &mut dyn FnMut(mbe::ExpandError),
) -> Result<EagerMacroId, ErrorEmitted> {
let parsed_args = diagnostic_sink.option_with(
|| Some(mbe::ast_to_token_tree(¯o_call.value.token_tree()?)?.0),
|| err("malformed macro invocation"),
)?;
let ast_map = db.ast_id_map(macro_call.file_id);
let call_id = InFile::new(macro_call.file_id, ast_map.ast_id(¯o_call.value));
// Note:
// When `lazy_expand` is called, its *parent* file must be already exists.
// Here we store an eager macro id for the argument expanded subtree here
// for that purpose.
let arg_id = db.intern_eager_expansion({
EagerCallLoc {
def,
fragment: FragmentKind::Expr,
subtree: Arc::new(parsed_args.clone()),
krate,
call: call_id,
}
});
let arg_file_id: MacroCallId = arg_id.into();
let parsed_args =
diagnostic_sink.result(mbe::token_tree_to_syntax_node(&parsed_args, FragmentKind::Expr))?.0;
let result = eager_macro_recur(
db,
InFile::new(arg_file_id.as_file(), parsed_args.syntax_node()),
krate,
resolver,
diagnostic_sink,
)?;
let subtree =
diagnostic_sink.option(to_subtree(&result), || err("failed to parse macro result"))?;
if let MacroDefKind::BuiltInEager(eager, _) = def.kind {
let res = eager.expand(db, arg_id, &subtree);
let (subtree, fragment) = diagnostic_sink.expand_result_option(res)?;
let eager =
EagerCallLoc { def, fragment, subtree: Arc::new(subtree), krate, call: call_id };
Ok(db.intern_eager_expansion(eager))
} else {
panic!("called `expand_eager_macro` on non-eager macro def {:?}", def);
}
}
fn to_subtree(node: &SyntaxNode) -> Option<tt::Subtree> {
let mut subtree = mbe::syntax_node_to_token_tree(node)?.0;
subtree.delimiter = None;
Some(subtree)
}
fn lazy_expand(
db: &dyn AstDatabase,
def: &MacroDefId,
macro_call: InFile<ast::MacroCall>,
krate: CrateId,
) -> ExpandResult<Option<InFile<SyntaxNode>>> {
let ast_id = db.ast_id_map(macro_call.file_id).ast_id(¯o_call.value);
let id: MacroCallId =
def.as_lazy_macro(db, krate, MacroCallKind::FnLike(macro_call.with_value(ast_id))).into();
let err = db.macro_expand_error(id);
let value = db.parse_or_expand(id.as_file()).map(|node| InFile::new(id.as_file(), node));
ExpandResult { value, err }
}
fn eager_macro_recur(
db: &dyn AstDatabase,
curr: InFile<SyntaxNode>,
krate: CrateId,
macro_resolver: &dyn Fn(ast::Path) -> Option<MacroDefId>,
mut diagnostic_sink: &mut dyn FnMut(mbe::ExpandError),
) -> Result<SyntaxNode, ErrorEmitted> {
let original = curr.value.clone();
let children = curr.value.descendants().filter_map(ast::MacroCall::cast);
let mut rewriter = SyntaxRewriter::default();
// Collect replacement
for child in children {
let def = diagnostic_sink
.option_with(|| macro_resolver(child.path()?), || err("failed to resolve macro"))?;
let insert = match def.kind {
MacroDefKind::BuiltInEager(..) => {
let id: MacroCallId = expand_eager_macro(
db,
krate,
curr.with_value(child.clone()),
def,
macro_resolver,
diagnostic_sink,
)?
.into();
db.parse_or_expand(id.as_file())
.expect("successful macro expansion should be parseable")
}
MacroDefKind::Declarative(_)
| MacroDefKind::BuiltIn(..)
| MacroDefKind::BuiltInDerive(..)
| MacroDefKind::ProcMacro(_) => {
let res = lazy_expand(db, &def, curr.with_value(child.clone()), krate);
let val = diagnostic_sink.expand_result_option(res)?;
// replace macro inside
eager_macro_recur(db, val, krate, macro_resolver, diagnostic_sink)?
}
};
// check if the whole original sytnax is replaced
// Note that SyntaxRewriter cannot replace the root node itself
if child.syntax() == &original {
return Ok(insert);
}
rewriter.replace(child.syntax(), &insert);
}
let res = rewriter.rewrite(&original);
Ok(res)
}
|