swc_common/syntax_pos/hygiene.rs
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// Copyright 2012-2014 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
//! Machinery for hygienic macros, inspired by the `MTWT[1]` paper.
//!
//! `[1]` Matthew Flatt, Ryan Culpepper, David Darais, and Robert Bruce Findler.
//! 2012. *Macros that work together: Compile-time bindings, partial expansion,
//! and definition contexts*. J. Funct. Program. 22, 2 (March 2012), 181-216.
//! DOI=10.1017/S0956796812000093 <https://doi.org/10.1017/S0956796812000093>
#[allow(unused)]
use std::{
collections::{HashMap, HashSet},
fmt,
};
use serde::{Deserialize, Serialize};
use super::GLOBALS;
use crate::{collections::AHashMap, EqIgnoreSpan};
/// A SyntaxContext represents a chain of macro expansions (represented by
/// marks).
#[derive(Clone, Copy, PartialEq, Eq, Default, PartialOrd, Ord, Hash, Serialize, Deserialize)]
#[serde(transparent)]
#[cfg_attr(
any(feature = "rkyv-impl"),
derive(rkyv::Archive, rkyv::Serialize, rkyv::Deserialize)
)]
#[cfg_attr(feature = "rkyv-impl", derive(bytecheck::CheckBytes))]
#[cfg_attr(feature = "rkyv-impl", repr(C))]
pub struct SyntaxContext(#[cfg_attr(feature = "__rkyv", rkyv(omit_bounds))] u32);
#[cfg(feature = "arbitrary")]
#[cfg_attr(docsrs, doc(cfg(feature = "arbitrary")))]
impl<'a> arbitrary::Arbitrary<'a> for SyntaxContext {
fn arbitrary(_: &mut arbitrary::Unstructured<'_>) -> arbitrary::Result<Self> {
Ok(SyntaxContext::empty())
}
}
better_scoped_tls::scoped_tls!(static EQ_IGNORE_SPAN_IGNORE_CTXT: ());
impl EqIgnoreSpan for SyntaxContext {
fn eq_ignore_span(&self, other: &Self) -> bool {
self == other || EQ_IGNORE_SPAN_IGNORE_CTXT.is_set()
}
}
impl SyntaxContext {
/// In `op`, [EqIgnoreSpan] of [Ident] will ignore the syntax context.
pub fn within_ignored_ctxt<F, Ret>(op: F) -> Ret
where
F: FnOnce() -> Ret,
{
EQ_IGNORE_SPAN_IGNORE_CTXT.set(&(), op)
}
}
#[allow(unused)]
#[derive(Copy, Clone, Debug)]
struct SyntaxContextData {
outer_mark: Mark,
prev_ctxt: SyntaxContext,
opaque: SyntaxContext,
}
/// A mark is a unique id associated with a macro expansion.
#[derive(Copy, Clone, PartialEq, Eq, Hash, Debug)]
pub struct Mark(u32);
#[allow(unused)]
#[derive(Clone, Debug)]
pub(crate) struct MarkData {
pub(crate) parent: Mark,
}
#[cfg_attr(
any(feature = "rkyv-impl"),
derive(rkyv::Archive, rkyv::Serialize, rkyv::Deserialize)
)]
#[cfg_attr(feature = "rkyv-impl", derive(bytecheck::CheckBytes))]
#[cfg_attr(feature = "rkyv-impl", repr(C))]
pub struct MutableMarkContext(pub u32, pub u32, pub u32);
// List of proxy calls injected by the host in the plugin's runtime context.
// When related calls being executed inside of the plugin, it'll call these
// proxies instead which'll call actual host fn.
extern "C" {
// Instead of trying to copy-serialize `Mark`, this fn directly consume
// inner raw value as well as fn and let each context constructs struct
// on their side.
fn __mark_fresh_proxy(mark: u32) -> u32;
fn __mark_parent_proxy(self_mark: u32) -> u32;
fn __syntax_context_apply_mark_proxy(self_syntax_context: u32, mark: u32) -> u32;
fn __syntax_context_outer_proxy(self_mark: u32) -> u32;
// These are proxy fn uses serializable context to pass forward mutated param
// with return value back to the guest.
fn __mark_is_descendant_of_proxy(self_mark: u32, ancestor: u32, allocated_ptr: i32);
fn __mark_least_ancestor(a: u32, b: u32, allocated_ptr: i32);
fn __syntax_context_remove_mark_proxy(self_mark: u32, allocated_ptr: i32);
}
impl Mark {
/// Shortcut for `Mark::fresh(Mark::root())`
#[track_caller]
#[allow(clippy::new_without_default)]
pub fn new() -> Self {
Mark::fresh(Mark::root())
}
#[track_caller]
pub fn fresh(parent: Mark) -> Self {
// Note: msvc tries to link against proxied fn for normal build,
// have to limit build target to wasm only to avoid it.
#[cfg(all(feature = "__plugin_mode", target_arch = "wasm32"))]
return Mark(unsafe { __mark_fresh_proxy(parent.as_u32()) });
// https://github.com/swc-project/swc/pull/3492#discussion_r802224857
// We loosen conditions here for the cases like running plugin's test without
// targeting wasm32-*.
#[cfg(not(all(feature = "__plugin_mode", target_arch = "wasm32")))]
return with_marks(|marks| {
marks.push(MarkData { parent });
Mark(marks.len() as u32 - 1)
});
}
/// The mark of the theoretical expansion that generates freshly parsed,
/// unexpanded AST.
#[inline]
pub const fn root() -> Self {
Mark(0)
}
#[inline]
pub fn as_u32(self) -> u32 {
self.0
}
#[inline]
pub fn from_u32(raw: u32) -> Mark {
Mark(raw)
}
#[inline]
pub fn parent(self) -> Mark {
#[cfg(all(feature = "__plugin_mode", target_arch = "wasm32"))]
return Mark(unsafe { __mark_parent_proxy(self.0) });
#[cfg(not(all(feature = "__plugin_mode", target_arch = "wasm32")))]
return with_marks(|marks| marks[self.0 as usize].parent);
}
#[allow(unused_assignments)]
#[cfg(all(feature = "__plugin_mode", target_arch = "wasm32"))]
pub fn is_descendant_of(mut self, ancestor: Mark) -> bool {
// This code path executed inside of the guest memory context.
// In here, preallocate memory for the context.
use crate::plugin::serialized::VersionedSerializable;
let serialized = crate::plugin::serialized::PluginSerializedBytes::try_serialize(
&VersionedSerializable::new(MutableMarkContext(0, 0, 0)),
)
.expect("Should be serializable");
let (ptr, len) = serialized.as_ptr();
// Calling host proxy fn. Inside of host proxy, host will
// write the result into allocated context in the guest memory space.
unsafe {
__mark_is_descendant_of_proxy(self.0, ancestor.0, ptr as _);
}
// Deserialize result, assign / return values as needed.
let context: MutableMarkContext =
crate::plugin::serialized::PluginSerializedBytes::from_raw_ptr(
ptr,
len.try_into().expect("Should able to convert ptr length"),
)
.deserialize()
.expect("Should able to deserialize")
.into_inner();
self = Mark::from_u32(context.0);
return context.2 != 0;
}
#[cfg(not(all(feature = "__plugin_mode", target_arch = "wasm32")))]
pub fn is_descendant_of(mut self, ancestor: Mark) -> bool {
with_marks(|marks| {
while self != ancestor {
if self == Mark::root() {
return false;
}
self = marks[self.0 as usize].parent;
}
true
})
}
#[allow(unused_mut, unused_assignments)]
#[cfg(all(feature = "__plugin_mode", target_arch = "wasm32"))]
pub fn least_ancestor(mut a: Mark, mut b: Mark) -> Mark {
use crate::plugin::serialized::VersionedSerializable;
let serialized = crate::plugin::serialized::PluginSerializedBytes::try_serialize(
&VersionedSerializable::new(MutableMarkContext(0, 0, 0)),
)
.expect("Should be serializable");
let (ptr, len) = serialized.as_ptr();
unsafe {
__mark_least_ancestor(a.0, b.0, ptr as _);
}
let context: MutableMarkContext =
crate::plugin::serialized::PluginSerializedBytes::from_raw_ptr(
ptr,
len.try_into().expect("Should able to convert ptr length"),
)
.deserialize()
.expect("Should able to deserialize")
.into_inner();
a = Mark::from_u32(context.0);
b = Mark::from_u32(context.1);
return Mark(context.2);
}
/// Computes a mark such that both input marks are descendants of (or equal
/// to) the returned mark. That is, the following holds:
///
/// ```rust,ignore
/// let la = least_ancestor(a, b);
/// assert!(a.is_descendant_of(la))
/// assert!(b.is_descendant_of(la))
/// ```
#[allow(unused_mut)]
#[cfg(not(all(feature = "__plugin_mode", target_arch = "wasm32")))]
pub fn least_ancestor(mut a: Mark, mut b: Mark) -> Mark {
with_marks(|marks| {
// Compute the path from a to the root
let mut a_path = HashSet::<Mark>::default();
while a != Mark::root() {
a_path.insert(a);
a = marks[a.0 as usize].parent;
}
// While the path from b to the root hasn't intersected, move up the tree
while !a_path.contains(&b) {
b = marks[b.0 as usize].parent;
}
b
})
}
}
#[allow(unused)]
#[derive(Debug)]
pub(crate) struct HygieneData {
syntax_contexts: Vec<SyntaxContextData>,
markings: AHashMap<(SyntaxContext, Mark), SyntaxContext>,
}
impl Default for HygieneData {
fn default() -> Self {
Self::new()
}
}
impl HygieneData {
pub(crate) fn new() -> Self {
HygieneData {
syntax_contexts: vec![SyntaxContextData {
outer_mark: Mark::root(),
prev_ctxt: SyntaxContext(0),
opaque: SyntaxContext(0),
}],
markings: HashMap::default(),
}
}
fn with<T, F: FnOnce(&mut HygieneData) -> T>(f: F) -> T {
GLOBALS.with(|globals| {
#[cfg(feature = "parking_lot")]
return f(&mut globals.hygiene_data.lock());
#[cfg(not(feature = "parking_lot"))]
return f(&mut globals.hygiene_data.lock().unwrap());
})
}
}
#[track_caller]
#[allow(unused)]
pub(crate) fn with_marks<T, F: FnOnce(&mut Vec<MarkData>) -> T>(f: F) -> T {
GLOBALS.with(|globals| {
#[cfg(feature = "parking_lot")]
return f(&mut globals.marks.lock());
#[cfg(not(feature = "parking_lot"))]
return f(&mut globals.marks.lock().unwrap());
})
}
// pub fn clear_markings() {
// HygieneData::with(|data| data.markings = HashMap::default());
// }
impl SyntaxContext {
pub const fn empty() -> Self {
SyntaxContext(0)
}
/// Returns `true` if `self` is marked with `mark`.
///
/// Panics if `mark` is not a valid mark.
pub fn has_mark(self, mark: Mark) -> bool {
debug_assert_ne!(
mark,
Mark::root(),
"Cannot check if a span contains a `ROOT` mark"
);
let mut ctxt = self;
loop {
if ctxt == SyntaxContext::empty() {
return false;
}
let m = ctxt.remove_mark();
if m == mark {
return true;
}
if m == Mark::root() {
return false;
}
}
}
#[inline]
pub fn as_u32(self) -> u32 {
self.0
}
#[inline]
pub fn from_u32(raw: u32) -> SyntaxContext {
SyntaxContext(raw)
}
/// Extend a syntax context with a given mark and default transparency for
/// that mark.
pub fn apply_mark(self, mark: Mark) -> SyntaxContext {
#[cfg(all(feature = "__plugin_mode", target_arch = "wasm32"))]
return unsafe { SyntaxContext(__syntax_context_apply_mark_proxy(self.0, mark.0)) };
#[cfg(not(all(feature = "__plugin_mode", target_arch = "wasm32")))]
{
assert_ne!(mark, Mark::root());
self.apply_mark_internal(mark)
}
}
#[allow(unused)]
fn apply_mark_internal(self, mark: Mark) -> SyntaxContext {
HygieneData::with(|data| {
let syntax_contexts = &mut data.syntax_contexts;
let mut opaque = syntax_contexts[self.0 as usize].opaque;
let prev_ctxt = opaque;
*data.markings.entry((prev_ctxt, mark)).or_insert_with(|| {
let new_opaque = SyntaxContext(syntax_contexts.len() as u32);
syntax_contexts.push(SyntaxContextData {
outer_mark: mark,
prev_ctxt,
opaque: new_opaque,
});
new_opaque
})
})
}
#[cfg(all(feature = "__plugin_mode", target_arch = "wasm32"))]
pub fn remove_mark(&mut self) -> Mark {
use crate::plugin::serialized::VersionedSerializable;
let context = VersionedSerializable::new(MutableMarkContext(0, 0, 0));
let serialized = crate::plugin::serialized::PluginSerializedBytes::try_serialize(&context)
.expect("Should be serializable");
let (ptr, len) = serialized.as_ptr();
unsafe {
__syntax_context_remove_mark_proxy(self.0, ptr as _);
}
let context: MutableMarkContext =
crate::plugin::serialized::PluginSerializedBytes::from_raw_ptr(
ptr,
len.try_into().expect("Should able to convert ptr length"),
)
.deserialize()
.expect("Should able to deserialize")
.into_inner();
*self = SyntaxContext(context.0);
return Mark::from_u32(context.2);
}
/// Pulls a single mark off of the syntax context. This effectively moves
/// the context up one macro definition level. That is, if we have a
/// nested macro definition as follows:
///
/// ```rust,ignore
/// macro_rules! f {
/// macro_rules! g {
/// ...
/// }
/// }
/// ```
///
/// and we have a SyntaxContext that is referring to something declared by
/// an invocation of g (call it g1), calling remove_mark will result in
/// the SyntaxContext for the invocation of f that created g1.
/// Returns the mark that was removed.
#[cfg(not(all(feature = "__plugin_mode", target_arch = "wasm32")))]
pub fn remove_mark(&mut self) -> Mark {
HygieneData::with(|data| {
let outer_mark = data.syntax_contexts[self.0 as usize].outer_mark;
*self = data.syntax_contexts[self.0 as usize].prev_ctxt;
outer_mark
})
}
/// Adjust this context for resolution in a scope created by the given
/// expansion. For example, consider the following three resolutions of
/// `f`:
///
/// ```rust,ignore
/// mod foo {
/// pub fn f() {}
/// } // `f`'s `SyntaxContext` is empty.
/// m!(f);
/// macro m($f:ident) {
/// mod bar {
/// pub fn f() {} // `f`'s `SyntaxContext` has a single `Mark` from `m`.
/// pub fn $f() {} // `$f`'s `SyntaxContext` is empty.
/// }
/// foo::f(); // `f`'s `SyntaxContext` has a single `Mark` from `m`
/// //^ Since `mod foo` is outside this expansion, `adjust` removes the mark from `f`,
/// //| and it resolves to `::foo::f`.
/// bar::f(); // `f`'s `SyntaxContext` has a single `Mark` from `m`
/// //^ Since `mod bar` not outside this expansion, `adjust` does not change `f`,
/// //| and it resolves to `::bar::f`.
/// bar::$f(); // `f`'s `SyntaxContext` is empty.
/// //^ Since `mod bar` is not outside this expansion, `adjust` does not change `$f`,
/// //| and it resolves to `::bar::$f`.
/// }
/// ```
/// This returns the expansion whose definition scope we use to privacy
/// check the resolution, or `None` if we privacy check as usual (i.e.
/// not w.r.t. a macro definition scope).
pub fn adjust(&mut self, expansion: Mark) -> Option<Mark> {
let mut scope = None;
while !expansion.is_descendant_of(self.outer()) {
scope = Some(self.remove_mark());
}
scope
}
/// Adjust this context for resolution in a scope created by the given
/// expansion via a glob import with the given `SyntaxContext`.
/// For example:
///
/// ```rust,ignore
/// m!(f);
/// macro m($i:ident) {
/// mod foo {
/// pub fn f() {} // `f`'s `SyntaxContext` has a single `Mark` from `m`.
/// pub fn $i() {} // `$i`'s `SyntaxContext` is empty.
/// }
/// n(f);
/// macro n($j:ident) {
/// use foo::*;
/// f(); // `f`'s `SyntaxContext` has a mark from `m` and a mark from `n`
/// //^ `glob_adjust` removes the mark from `n`, so this resolves to `foo::f`.
/// $i(); // `$i`'s `SyntaxContext` has a mark from `n`
/// //^ `glob_adjust` removes the mark from `n`, so this resolves to `foo::$i`.
/// $j(); // `$j`'s `SyntaxContext` has a mark from `m`
/// //^ This cannot be glob-adjusted, so this is a resolution error.
/// }
/// }
/// ```
/// This returns `None` if the context cannot be glob-adjusted.
/// Otherwise, it returns the scope to use when privacy checking (see
/// `adjust` for details).
pub fn glob_adjust(
&mut self,
expansion: Mark,
mut glob_ctxt: SyntaxContext,
) -> Option<Option<Mark>> {
let mut scope = None;
while !expansion.is_descendant_of(glob_ctxt.outer()) {
scope = Some(glob_ctxt.remove_mark());
if self.remove_mark() != scope.unwrap() {
return None;
}
}
if self.adjust(expansion).is_some() {
return None;
}
Some(scope)
}
/// Undo `glob_adjust` if possible:
///
/// ```rust,ignore
/// if let Some(privacy_checking_scope) = self.reverse_glob_adjust(expansion, glob_ctxt) {
/// assert!(self.glob_adjust(expansion, glob_ctxt) == Some(privacy_checking_scope));
/// }
/// ```
pub fn reverse_glob_adjust(
&mut self,
expansion: Mark,
mut glob_ctxt: SyntaxContext,
) -> Option<Option<Mark>> {
if self.adjust(expansion).is_some() {
return None;
}
let mut marks = Vec::new();
while !expansion.is_descendant_of(glob_ctxt.outer()) {
marks.push(glob_ctxt.remove_mark());
}
let scope = marks.last().cloned();
while let Some(mark) = marks.pop() {
*self = self.apply_mark(mark);
}
Some(scope)
}
#[inline]
pub fn outer(self) -> Mark {
#[cfg(all(feature = "__plugin_mode", target_arch = "wasm32"))]
return unsafe { Mark(__syntax_context_outer_proxy(self.0)) };
#[cfg(not(all(feature = "__plugin_mode", target_arch = "wasm32")))]
HygieneData::with(|data| data.syntax_contexts[self.0 as usize].outer_mark)
}
}
impl fmt::Debug for SyntaxContext {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(f, "#{}", self.0)
}
}
impl Default for Mark {
#[track_caller]
fn default() -> Self {
Mark::new()
}
}