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Auto merge of #34570 - jseyfried:no_rename, r=nrc

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Simplify the macro hygiene algorithm

This PR removes renaming from the hygiene algorithm and treats differently marked identifiers as unequal.

This change makes the scope of identifiers in `macro_rules!` items empty. That is, identifiers in `macro_rules!` definitions do not inherit any semantics from the `macro_rules!`'s scope.

Since `macro_rules!` macros are items, the scope of their identifiers "should" be the same as that of other items; in particular, the scope should contain only items. Since all items are unhygienic today, this would mean the scope should be empty.

However, the scope of an identifier in a `macro_rules!` statement today is the scope that the identifier would have if it replaced the `macro_rules!` (excluding anything unhygienic, i.e. locals only).

To continue to support this, this PR tracks the scope of each `macro_rules!` and uses it in `resolve` to ensure that an identifier expanded from a `macro_rules!` gets a chance to resolve to the locals in the `macro_rules!`'s scope.

This PR is a pure refactoring. After this PR,
 - `syntax::ext::expand` is much simpler.
 - We can expand macros in any order without causing problems for hygiene (needed for macro modularization).
 - We can deprecate or remove today's `macro_rules!` scope easily.
 - Expansion performance improves by 25%, post-expansion memory usage decreases by ~5%.
 - Expanding a block is no longer quadratic in the number of `let` statements (fixes #10607).

r? @nrc
This commit is contained in:
bors 2016-07-15 08:48:41 -07:00 committed by GitHub
commit 4db1874f4c
10 changed files with 251 additions and 806 deletions
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70
src/librustc_driver/driver.rs
View file

@ -50,7 +50,6 @@ use std::io::{self, Write};
use std::path::{Path, PathBuf};
use syntax::{ast, diagnostics, visit};
use syntax::attr::{self, AttrMetaMethods};
use syntax::fold::Folder;
use syntax::parse::{self, PResult, token};
use syntax::util::node_count::NodeCounter;
use syntax;
@ -695,6 +694,19 @@ pub fn phase_2_configure_and_expand<'a, F>(sess: &Session,
sess.diagnostic())
});
let resolver_arenas = Resolver::arenas();
let mut resolver = Resolver::new(sess, make_glob_map, &resolver_arenas);
let krate = time(sess.time_passes(), "assigning node ids", || resolver.assign_node_ids(krate));
if sess.opts.debugging_opts.input_stats {
println!("Post-expansion node count: {}", count_nodes(&krate));
}
if sess.opts.debugging_opts.ast_json {
println!("{}", json::as_json(&krate));
}
time(time_passes,
"checking for inline asm in case the target doesn't support it",
|| no_asm::check_crate(sess, &krate));
@ -710,15 +722,6 @@ pub fn phase_2_configure_and_expand<'a, F>(sess: &Session,
})
})?;
if sess.opts.debugging_opts.input_stats {
println!("Post-expansion node count: {}", count_nodes(&krate));
}
krate = assign_node_ids(sess, krate);
let resolver_arenas = Resolver::arenas();
let mut resolver = Resolver::new(sess, make_glob_map, &resolver_arenas);
// Collect defintions for def ids.
time(sess.time_passes(), "collecting defs", || resolver.definitions.collect(&krate));
@ -783,53 +786,6 @@ pub fn phase_2_configure_and_expand<'a, F>(sess: &Session,
})
}
pub fn assign_node_ids(sess: &Session, krate: ast::Crate) -> ast::Crate {
use syntax::ptr::P;
use syntax::util::move_map::MoveMap;
struct NodeIdAssigner<'a> {
sess: &'a Session,
}
impl<'a> Folder for NodeIdAssigner<'a> {
fn new_id(&mut self, old_id: ast::NodeId) -> ast::NodeId {
assert_eq!(old_id, ast::DUMMY_NODE_ID);
self.sess.next_node_id()
}
fn fold_block(&mut self, block: P<ast::Block>) -> P<ast::Block> {
block.map(|mut block| {
block.id = self.new_id(block.id);
let stmt = block.stmts.pop();
block.stmts = block.stmts.move_flat_map(|s| self.fold_stmt(s).into_iter());
if let Some(ast::Stmt { node: ast::StmtKind::Expr(expr), span, .. }) = stmt {
let expr = self.fold_expr(expr);
block.stmts.push(ast::Stmt {
id: expr.id,
node: ast::StmtKind::Expr(expr),
span: span,
});
} else if let Some(stmt) = stmt {
block.stmts.extend(self.fold_stmt(stmt));
}
block
})
}
}
let krate = time(sess.time_passes(),
"assigning node ids",
|| NodeIdAssigner { sess: sess }.fold_crate(krate));
if sess.opts.debugging_opts.ast_json {
println!("{}", json::as_json(&krate));
}
krate
}
/// Run the resolution, typechecking, region checking and other
/// miscellaneous analysis passes on the crate. Return various
/// structures carrying the results of the analysis.

92
src/librustc_resolve/assign_ids.rs Normal file
View file

@ -0,0 +1,92 @@
// Copyright 2016 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.
use Resolver;
use rustc::session::Session;
use syntax::ast;
use syntax::ext::mtwt;
use syntax::fold::{self, Folder};
use syntax::ptr::P;
use syntax::util::move_map::MoveMap;
use syntax::util::small_vector::SmallVector;
use std::collections::HashMap;
use std::mem;
impl<'a> Resolver<'a> {
pub fn assign_node_ids(&mut self, krate: ast::Crate) -> ast::Crate {
NodeIdAssigner {
sess: self.session,
macros_at_scope: &mut self.macros_at_scope,
}.fold_crate(krate)
}
}
struct NodeIdAssigner<'a> {
sess: &'a Session,
macros_at_scope: &'a mut HashMap<ast::NodeId, Vec<ast::Mrk>>,
}
impl<'a> Folder for NodeIdAssigner<'a> {
fn new_id(&mut self, old_id: ast::NodeId) -> ast::NodeId {
assert_eq!(old_id, ast::DUMMY_NODE_ID);
self.sess.next_node_id()
}
fn fold_block(&mut self, block: P<ast::Block>) -> P<ast::Block> {
block.map(|mut block| {
block.id = self.new_id(block.id);
let stmt = block.stmts.pop();
let mut macros = Vec::new();
block.stmts = block.stmts.move_flat_map(|stmt| {
if let ast::StmtKind::Item(ref item) = stmt.node {
if let ast::ItemKind::Mac(..) = item.node {
macros.push(mtwt::outer_mark(item.ident.ctxt));
return None;
}
}
let stmt = self.fold_stmt(stmt).pop().unwrap();
if !macros.is_empty() {
self.macros_at_scope.insert(stmt.id, mem::replace(&mut macros, Vec::new()));
}
Some(stmt)
});
stmt.and_then(|mut stmt| {
// Avoid wasting a node id on a trailing expression statement,
// which shares a HIR node with the expression itself.
if let ast::StmtKind::Expr(expr) = stmt.node {
let expr = self.fold_expr(expr);
stmt.id = expr.id;
stmt.node = ast::StmtKind::Expr(expr);
Some(stmt)
} else {
self.fold_stmt(stmt).pop()
}
}).map(|stmt| {
if !macros.is_empty() {
self.macros_at_scope.insert(stmt.id, mem::replace(&mut macros, Vec::new()));
}
block.stmts.push(stmt);
});
block
})
}
fn fold_item(&mut self, item: P<ast::Item>) -> SmallVector<P<ast::Item>> {
match item.node {
ast::ItemKind::Mac(..) => SmallVector::zero(),
_ => fold::noop_fold_item(item, self),
}
}
}

101
src/librustc_resolve/lib.rs
View file

@ -83,6 +83,7 @@ mod diagnostics;
mod check_unused;
mod build_reduced_graph;
mod resolve_imports;
mod assign_ids;
enum SuggestionType {
Macro(String),
@ -461,7 +462,7 @@ struct BindingInfo {
}
// Map from the name in a pattern to its binding mode.
type BindingMap = HashMap<Name, BindingInfo>;
type BindingMap = HashMap<ast::Ident, BindingInfo>;
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
enum PatternSource {
@ -651,6 +652,9 @@ enum RibKind<'a> {
// We passed through a module.
ModuleRibKind(Module<'a>),
// We passed through a `macro_rules!` statement with the given expansion
MacroDefinition(ast::Mrk),
}
#[derive(Copy, Clone)]
@ -667,7 +671,7 @@ enum ModulePrefixResult<'a> {
/// One local scope.
#[derive(Debug)]
struct Rib<'a> {
bindings: HashMap<Name, Def>,
bindings: HashMap<ast::Ident, Def>,
kind: RibKind<'a>,
}
@ -927,6 +931,10 @@ pub struct Resolver<'a> {
pub definitions: Definitions,
// Maps the node id of a statement to the expansions of the `macro_rules!`s
// immediately above the statement (if appropriate).
macros_at_scope: HashMap<NodeId, Vec<ast::Mrk>>,
graph_root: Module<'a>,
prelude: Option<Module<'a>>,
@ -1113,6 +1121,7 @@ impl<'a> Resolver<'a> {
session: session,
definitions: Definitions::new(),
macros_at_scope: HashMap::new(),
// The outermost module has def ID 0; this is not reflected in the
// AST.
@ -1384,15 +1393,17 @@ impl<'a> Resolver<'a> {
/// Invariant: This must only be called during main resolution, not during
/// import resolution.
fn resolve_ident_in_lexical_scope(&mut self,
ident: ast::Ident,
mut ident: ast::Ident,
ns: Namespace,
record_used: bool)
-> Option<LexicalScopeBinding<'a>> {
let name = match ns { ValueNS => mtwt::resolve(ident), TypeNS => ident.name };
if ns == TypeNS {
ident = ast::Ident::with_empty_ctxt(ident.name);
}
// Walk backwards up the ribs in scope.
for i in (0 .. self.get_ribs(ns).len()).rev() {
if let Some(def) = self.get_ribs(ns)[i].bindings.get(&name).cloned() {
if let Some(def) = self.get_ribs(ns)[i].bindings.get(&ident).cloned() {
// The ident resolves to a type parameter or local variable.
return Some(LexicalScopeBinding::LocalDef(LocalDef {
ribs: Some((ns, i)),
@ -1419,6 +1430,16 @@ impl<'a> Resolver<'a> {
};
}
}
if let MacroDefinition(mac) = self.get_ribs(ns)[i].kind {
// If an invocation of this macro created `ident`, give up on `ident`
// and switch to `ident`'s source from the macro definition.
if let Some((source_ident, source_macro)) = mtwt::source(ident) {
if mac == source_macro {
ident = source_ident;
}
}
}
}
None
@ -1555,18 +1576,27 @@ impl<'a> Resolver<'a> {
/// Searches the current set of local scopes for labels.
/// Stops after meeting a closure.
fn search_label(&self, name: Name) -> Option<Def> {
fn search_label(&self, mut ident: ast::Ident) -> Option<Def> {
for rib in self.label_ribs.iter().rev() {
match rib.kind {
NormalRibKind => {
// Continue
}
MacroDefinition(mac) => {
// If an invocation of this macro created `ident`, give up on `ident`
// and switch to `ident`'s source from the macro definition.
if let Some((source_ident, source_macro)) = mtwt::source(ident) {
if mac == source_macro {
ident = source_ident;
}
}
}
_ => {
// Do not resolve labels across function boundary
return None;
}
}
let result = rib.bindings.get(&name).cloned();
let result = rib.bindings.get(&ident).cloned();
if result.is_some() {
return result;
}
@ -1715,7 +1745,7 @@ impl<'a> Resolver<'a> {
// plain insert (no renaming)
let def_id = self.definitions.local_def_id(type_parameter.id);
let def = Def::TyParam(space, index as u32, def_id, name);
function_type_rib.bindings.insert(name, def);
function_type_rib.bindings.insert(ast::Ident::with_empty_ctxt(name), def);
}
self.type_ribs.push(function_type_rib);
}
@ -1886,7 +1916,7 @@ impl<'a> Resolver<'a> {
let mut self_type_rib = Rib::new(NormalRibKind);
// plain insert (no renaming, types are not currently hygienic....)
self_type_rib.bindings.insert(keywords::SelfType.name(), self_def);
self_type_rib.bindings.insert(keywords::SelfType.ident(), self_def);
self.type_ribs.push(self_type_rib);
f(self);
self.type_ribs.pop();
@ -1997,7 +2027,7 @@ impl<'a> Resolver<'a> {
_ => false,
} {
let binding_info = BindingInfo { span: ident.span, binding_mode: binding_mode };
binding_map.insert(mtwt::resolve(ident.node), binding_info);
binding_map.insert(ident.node, binding_info);
}
}
true
@ -2019,15 +2049,14 @@ impl<'a> Resolver<'a> {
for (&key, &binding_0) in &map_0 {
match map_i.get(&key) {
None => {
resolve_error(self,
p.span,
ResolutionError::VariableNotBoundInPattern(key, 1, i + 1));
let error = ResolutionError::VariableNotBoundInPattern(key.name, 1, i + 1);
resolve_error(self, p.span, error);
}
Some(binding_i) => {
if binding_0.binding_mode != binding_i.binding_mode {
resolve_error(self,
binding_i.span,
ResolutionError::VariableBoundWithDifferentMode(key,
ResolutionError::VariableBoundWithDifferentMode(key.name,
i + 1));
}
}
@ -2038,7 +2067,7 @@ impl<'a> Resolver<'a> {
if !map_0.contains_key(&key) {
resolve_error(self,
binding.span,
ResolutionError::VariableNotBoundInPattern(key, i + 1, 1));
ResolutionError::VariableNotBoundInPattern(key.name, i + 1, 1));
}
}
}
@ -2068,6 +2097,7 @@ impl<'a> Resolver<'a> {
let orig_module = self.current_module;
let anonymous_module = self.module_map.get(&block.id).cloned(); // clones a reference
let mut num_macro_definition_ribs = 0;
if let Some(anonymous_module) = anonymous_module {
debug!("(resolving block) found anonymous module, moving down");
self.value_ribs.push(Rib::new(ModuleRibKind(anonymous_module)));
@ -2078,10 +2108,24 @@ impl<'a> Resolver<'a> {
}
// Descend into the block.
visit::walk_block(self, block);
for stmt in &block.stmts {
if let Some(marks) = self.macros_at_scope.remove(&stmt.id) {
num_macro_definition_ribs += marks.len() as u32;
for mark in marks {
self.value_ribs.push(Rib::new(MacroDefinition(mark)));
self.label_ribs.push(Rib::new(MacroDefinition(mark)));
}
}
self.visit_stmt(stmt);
}
// Move back up.
self.current_module = orig_module;
for _ in 0 .. num_macro_definition_ribs {
self.value_ribs.pop();
self.label_ribs.pop();
}
self.value_ribs.pop();
if let Some(_) = anonymous_module {
self.type_ribs.pop();
@ -2172,16 +2216,15 @@ impl<'a> Resolver<'a> {
pat_id: NodeId,
outer_pat_id: NodeId,
pat_src: PatternSource,
bindings: &mut HashMap<Name, NodeId>)
bindings: &mut HashMap<ast::Ident, NodeId>)
-> PathResolution {
// Add the binding to the local ribs, if it
// doesn't already exist in the bindings map. (We
// must not add it if it's in the bindings map
// because that breaks the assumptions later
// passes make about or-patterns.)
let renamed = mtwt::resolve(ident.node);
let mut def = Def::Local(self.definitions.local_def_id(pat_id), pat_id);
match bindings.get(&renamed).cloned() {
match bindings.get(&ident.node).cloned() {
Some(id) if id == outer_pat_id => {
// `Variant(a, a)`, error
resolve_error(
@ -2203,7 +2246,7 @@ impl<'a> Resolver<'a> {
Some(..) if pat_src == PatternSource::Match => {
// `Variant1(a) | Variant2(a)`, ok
// Reuse definition from the first `a`.
def = self.value_ribs.last_mut().unwrap().bindings[&renamed];
def = self.value_ribs.last_mut().unwrap().bindings[&ident.node];
}
Some(..) => {
span_bug!(ident.span, "two bindings with the same name from \
@ -2212,8 +2255,8 @@ impl<'a> Resolver<'a> {
None => {
// A completely fresh binding, add to the lists if it's valid.
if ident.node.name != keywords::Invalid.name() {
bindings.insert(renamed, outer_pat_id);
self.value_ribs.last_mut().unwrap().bindings.insert(renamed, def);
bindings.insert(ident.node, outer_pat_id);
self.value_ribs.last_mut().unwrap().bindings.insert(ident.node, def);
}
}
}
@ -2274,7 +2317,7 @@ impl<'a> Resolver<'a> {
pat_src: PatternSource,
// Maps idents to the node ID for the
// outermost pattern that binds them.
bindings: &mut HashMap<Name, NodeId>) {
bindings: &mut HashMap<ast::Ident, NodeId>) {
// Visit all direct subpatterns of this pattern.
let outer_pat_id = pat.id;
pat.walk(&mut |pat| {
@ -2497,7 +2540,7 @@ impl<'a> Resolver<'a> {
Def::Local(_, node_id) => {
for rib in ribs {
match rib.kind {
NormalRibKind | ModuleRibKind(..) => {
NormalRibKind | ModuleRibKind(..) | MacroDefinition(..) => {
// Nothing to do. Continue.
}
ClosureRibKind(function_id) => {
@ -2546,7 +2589,7 @@ impl<'a> Resolver<'a> {
for rib in ribs {
match rib.kind {
NormalRibKind | MethodRibKind(_) | ClosureRibKind(..) |
ModuleRibKind(..) => {
ModuleRibKind(..) | MacroDefinition(..) => {
// Nothing to do. Continue.
}
ItemRibKind => {
@ -2747,7 +2790,7 @@ impl<'a> Resolver<'a> {
let names = self.value_ribs
.iter()
.rev()
.flat_map(|rib| rib.bindings.keys());
.flat_map(|rib| rib.bindings.keys().map(|ident| &ident.name));
if let Some(found) = find_best_match_for_name(names, name, None) {
if name != found {
@ -2758,7 +2801,7 @@ impl<'a> Resolver<'a> {
fn resolve_labeled_block(&mut self, label: Option<ast::Ident>, id: NodeId, block: &Block) {
if let Some(label) = label {
let (label, def) = (mtwt::resolve(label), Def::Label(id));
let def = Def::Label(id);
self.with_label_rib(|this| {
this.label_ribs.last_mut().unwrap().bindings.insert(label, def);
this.visit_block(block);
@ -2965,7 +3008,7 @@ impl<'a> Resolver<'a> {
{
let rib = this.label_ribs.last_mut().unwrap();
rib.bindings.insert(mtwt::resolve(label.node), def);
rib.bindings.insert(label.node, def);
}
visit::walk_expr(this, expr);
@ -2973,7 +3016,7 @@ impl<'a> Resolver<'a> {
}
ExprKind::Break(Some(label)) | ExprKind::Continue(Some(label)) => {
match self.search_label(mtwt::resolve(label.node)) {
match self.search_label(label.node) {
None => {
self.record_def(expr.id, err_path_resolution());
resolve_error(self,

37
src/libsyntax/ast.rs
View file

@ -26,7 +26,6 @@ use tokenstream::{TokenTree};
use std::fmt;
use std::rc::Rc;
use std::hash::{Hash, Hasher};
use serialize::{Encodable, Decodable, Encoder, Decoder};
/// A name is a part of an identifier, representing a string or gensym. It's
@ -46,7 +45,7 @@ pub struct SyntaxContext(pub u32);
/// An identifier contains a Name (index into the interner
/// table) and a SyntaxContext to track renaming and
/// macro expansion per Flatt et al., "Macros That Work Together"
#[derive(Clone, Copy, Eq)]
#[derive(Clone, Copy, PartialEq, Eq, Hash)]
pub struct Ident {
pub name: Name,
pub ctxt: SyntaxContext
@ -93,40 +92,6 @@ impl Ident {
}
}
impl PartialEq for Ident {
fn eq(&self, other: &Ident) -> bool {
if self.ctxt != other.ctxt {
// There's no one true way to compare Idents. They can be compared
// non-hygienically `id1.name == id2.name`, hygienically
// `mtwt::resolve(id1) == mtwt::resolve(id2)`, or even member-wise
// `(id1.name, id1.ctxt) == (id2.name, id2.ctxt)` depending on the situation.
// Ideally, PartialEq should not be implemented for Ident at all, but that
// would be too impractical, because many larger structures (Token, in particular)
// including Idents as their parts derive PartialEq and use it for non-hygienic
// comparisons. That's why PartialEq is implemented and defaults to non-hygienic
// comparison. Hash is implemented too and is consistent with PartialEq, i.e. only
// the name of Ident is hashed. Still try to avoid comparing idents in your code
// (especially as keys in hash maps), use one of the three methods listed above
// explicitly.
//
// If you see this panic, then some idents from different contexts were compared
// non-hygienically. It's likely a bug. Use one of the three comparison methods
// listed above explicitly.
panic!("idents with different contexts are compared with operator `==`: \
{:?}, {:?}.", self, other);
}
self.name == other.name
}
}
impl Hash for Ident {
fn hash<H: Hasher>(&self, state: &mut H) {
self.name.hash(state)
}
}
impl fmt::Debug for Ident {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "{}#{}", self.name, self.ctxt.0)

4
src/libsyntax/ext/base.rs
View file

@ -26,7 +26,6 @@ use parse::token::{InternedString, intern, str_to_ident};
use ptr::P;
use util::small_vector::SmallVector;
use util::lev_distance::find_best_match_for_name;
use ext::mtwt;
use fold::Folder;
use std::collections::{HashMap, HashSet};
@ -483,15 +482,12 @@ pub type NamedSyntaxExtension = (Name, SyntaxExtension);
pub struct BlockInfo {
/// Should macros escape from this scope?
pub macros_escape: bool,
/// What are the pending renames?
pub pending_renames: mtwt::RenameList,
}
impl BlockInfo {
pub fn new() -> BlockInfo {
BlockInfo {
macros_escape: false,
pending_renames: Vec::new(),
}
}
}

592
src/libsyntax/ext/expand.rs
View file

@ -8,23 +8,21 @@
// option. This file may not be copied, modified, or distributed
// except according to those terms.
use ast::{Block, Crate, PatKind};
use ast::{Local, Ident, Mac_, Name, SpannedIdent};
use ast::{Block, Crate, Ident, Mac_, Name, PatKind};
use ast::{MacStmtStyle, Mrk, Stmt, StmtKind, ItemKind};
use ast;
use attr::HasAttrs;
use ext::mtwt;
use attr;
use attr::AttrMetaMethods;
use codemap::{Spanned, ExpnInfo, NameAndSpan, MacroBang, MacroAttribute};
use codemap::{dummy_spanned, Spanned, ExpnInfo, NameAndSpan, MacroBang, MacroAttribute};
use syntax_pos::{self, Span, ExpnId};
use config::StripUnconfigured;
use ext::base::*;
use feature_gate::{self, Features};
use fold;
use fold::*;
use util::move_map::MoveMap;
use parse::token::{fresh_mark, fresh_name, intern, keywords};
use parse::token::{fresh_mark, intern, keywords};
use ptr::P;
use tokenstream::TokenTree;
use util::small_vector::SmallVector;
@ -96,89 +94,32 @@ impl MacroGenerable for Option<P<ast::Expr>> {
}
}
pub fn expand_expr(mut expr: ast::Expr, fld: &mut MacroExpander) -> P<ast::Expr> {
pub fn expand_expr(expr: ast::Expr, fld: &mut MacroExpander) -> P<ast::Expr> {
match expr.node {
// expr_mac should really be expr_ext or something; it's the
// entry-point for all syntax extensions.
ast::ExprKind::Mac(mac) => {
return expand_mac_invoc(mac, None, expr.attrs.into(), expr.span, fld);
}
_ => P(noop_fold_expr(expr, fld)),
}
}
ast::ExprKind::While(cond, body, opt_ident) => {
let cond = fld.fold_expr(cond);
let (body, opt_ident) = expand_loop_block(body, opt_ident, fld);
expr.node = ast::ExprKind::While(cond, body, opt_ident);
}
ast::ExprKind::WhileLet(pat, cond, body, opt_ident) => {
let pat = fld.fold_pat(pat);
let cond = fld.fold_expr(cond);
// Hygienic renaming of the body.
let ((body, opt_ident), mut rewritten_pats) =
rename_in_scope(vec![pat],
fld,
(body, opt_ident),
|rename_fld, fld, (body, opt_ident)| {
expand_loop_block(rename_fld.fold_block(body), opt_ident, fld)
});
assert!(rewritten_pats.len() == 1);
expr.node = ast::ExprKind::WhileLet(rewritten_pats.remove(0), cond, body, opt_ident);
}
ast::ExprKind::Loop(loop_block, opt_ident) => {
let (loop_block, opt_ident) = expand_loop_block(loop_block, opt_ident, fld);
expr.node = ast::ExprKind::Loop(loop_block, opt_ident);
}
ast::ExprKind::ForLoop(pat, head, body, opt_ident) => {
let pat = fld.fold_pat(pat);
// Hygienic renaming of the for loop body (for loop binds its pattern).
let ((body, opt_ident), mut rewritten_pats) =
rename_in_scope(vec![pat],
fld,
(body, opt_ident),
|rename_fld, fld, (body, opt_ident)| {
expand_loop_block(rename_fld.fold_block(body), opt_ident, fld)
});
assert!(rewritten_pats.len() == 1);
let head = fld.fold_expr(head);
expr.node = ast::ExprKind::ForLoop(rewritten_pats.remove(0), head, body, opt_ident);
}
ast::ExprKind::IfLet(pat, sub_expr, body, else_opt) => {
let pat = fld.fold_pat(pat);
// Hygienic renaming of the body.
let (body, mut rewritten_pats) =
rename_in_scope(vec![pat],
fld,
body,
|rename_fld, fld, body| {
fld.fold_block(rename_fld.fold_block(body))
});
assert!(rewritten_pats.len() == 1);
let else_opt = else_opt.map(|else_opt| fld.fold_expr(else_opt));
let sub_expr = fld.fold_expr(sub_expr);
expr.node = ast::ExprKind::IfLet(rewritten_pats.remove(0), sub_expr, body, else_opt);
}
ast::ExprKind::Closure(capture_clause, fn_decl, block, fn_decl_span) => {
let (rewritten_fn_decl, rewritten_block)
= expand_and_rename_fn_decl_and_block(fn_decl, block, fld);
expr.node = ast::ExprKind::Closure(capture_clause,
rewritten_fn_decl,
rewritten_block,
fn_decl_span);
}
_ => expr = noop_fold_expr(expr, fld),
};
P(expr)
struct MacroScopePlaceholder;
impl MacResult for MacroScopePlaceholder {
fn make_items(self: Box<Self>) -> Option<SmallVector<P<ast::Item>>> {
Some(SmallVector::one(P(ast::Item {
ident: keywords::Invalid.ident(),
attrs: Vec::new(),
id: ast::DUMMY_NODE_ID,
node: ast::ItemKind::Mac(dummy_spanned(ast::Mac_ {
path: ast::Path { span: syntax_pos::DUMMY_SP, global: false, segments: Vec::new() },
tts: Vec::new(),
})),
vis: ast::Visibility::Inherited,
span: syntax_pos::DUMMY_SP,
})))
}
}
/// Expand a macro invocation. Returns the result of expansion.
@ -219,6 +160,7 @@ fn expand_mac_invoc<T>(mac: ast::Mac, ident: Option<Ident>, attrs: Vec<ast::Attr
};
let ident = ident.unwrap_or(keywords::Invalid.ident());
let marked_tts = mark_tts(&tts, mark);
match *extension {
NormalTT(ref expandfun, exp_span, allow_internal_unstable) => {
if ident.name != keywords::Invalid.name() {
@ -237,7 +179,6 @@ fn expand_mac_invoc<T>(mac: ast::Mac, ident: Option<Ident>, attrs: Vec<ast::Attr
},
});
let marked_tts = mark_tts(&tts, mark);
Some(expandfun.expand(fld.cx, call_site, &marked_tts))
}
@ -257,7 +198,6 @@ fn expand_mac_invoc<T>(mac: ast::Mac, ident: Option<Ident>, attrs: Vec<ast::Attr
}
});
let marked_tts = mark_tts(&tts, mark);
Some(expander.expand(fld.cx, call_site, ident, marked_tts))
}
@ -286,15 +226,14 @@ fn expand_mac_invoc<T>(mac: ast::Mac, ident: Option<Ident>, attrs: Vec<ast::Attr
span: call_site,
imported_from: None,
use_locally: true,
body: tts,
body: marked_tts,
export: attr::contains_name(&attrs, "macro_export"),
allow_internal_unstable: attr::contains_name(&attrs, "allow_internal_unstable"),
attrs: attrs,
});
// macro_rules! has a side effect but expands to nothing.
fld.cx.bt_pop();
None
Some(Box::new(MacroScopePlaceholder))
}
MultiDecorator(..) | MultiModifier(..) => {
@ -327,41 +266,6 @@ fn expand_mac_invoc<T>(mac: ast::Mac, ident: Option<Ident>, attrs: Vec<ast::Attr
fully_expanded
}
/// Rename loop label and expand its loop body
///
/// The renaming procedure for loop is different in the sense that the loop
/// body is in a block enclosed by loop head so the renaming of loop label
/// must be propagated to the enclosed context.
fn expand_loop_block(loop_block: P<Block>,
opt_ident: Option<SpannedIdent>,
fld: &mut MacroExpander) -> (P<Block>, Option<SpannedIdent>) {
match opt_ident {
Some(label) => {
let new_label = fresh_name(label.node);
let rename = (label.node, new_label);
// The rename *must not* be added to the pending list of current
// syntax context otherwise an unrelated `break` or `continue` in
// the same context will pick that up in the deferred renaming pass
// and be renamed incorrectly.
let mut rename_list = vec!(rename);
let mut rename_fld = IdentRenamer{renames: &mut rename_list};
let renamed_ident = rename_fld.fold_ident(label.node);
// The rename *must* be added to the enclosed syntax context for
// `break` or `continue` to pick up because by definition they are
// in a block enclosed by loop head.
fld.cx.syntax_env.push_frame();
fld.cx.syntax_env.info().pending_renames.push(rename);
let expanded_block = expand_block_elts(loop_block, fld);
fld.cx.syntax_env.pop_frame();
(expanded_block, Some(Spanned { node: renamed_ident, span: label.span }))
}
None => (fld.fold_block(loop_block), opt_ident)
}
}
// eval $e with a new exts frame.
// must be a macro so that $e isn't evaluated too early.
macro_rules! with_exts_frame {
@ -381,20 +285,6 @@ pub fn expand_item(it: P<ast::Item>, fld: &mut MacroExpander)
.into_iter().map(|i| i.expect_item()).collect()
}
/// Expand item_kind
fn expand_item_kind(item: ast::ItemKind, fld: &mut MacroExpander) -> ast::ItemKind {
match item {
ast::ItemKind::Fn(decl, unsafety, constness, abi, generics, body) => {
let (rewritten_fn_decl, rewritten_body)
= expand_and_rename_fn_decl_and_block(decl, body, fld);
let expanded_generics = fold::noop_fold_generics(generics,fld);
ast::ItemKind::Fn(rewritten_fn_decl, unsafety, constness, abi,
expanded_generics, rewritten_body)
}
_ => noop_fold_item_kind(item, fld)
}
}
// does this attribute list contain "macro_use" ?
fn contains_macro_use(fld: &mut MacroExpander, attrs: &[ast::Attribute]) -> bool {
for attr in attrs {
@ -425,16 +315,9 @@ fn contains_macro_use(fld: &mut MacroExpander, attrs: &[ast::Attribute]) -> bool
/// Expand a stmt
fn expand_stmt(stmt: Stmt, fld: &mut MacroExpander) -> SmallVector<Stmt> {
// perform all pending renames
let stmt = {
let pending_renames = &mut fld.cx.syntax_env.info().pending_renames;
let mut rename_fld = IdentRenamer{renames:pending_renames};
rename_fld.fold_stmt(stmt).expect_one("rename_fold didn't return one value")
};
let (mac, style, attrs) = match stmt.node {
StmtKind::Mac(mac) => mac.unwrap(),
_ => return expand_non_macro_stmt(stmt, fld)
_ => return noop_fold_stmt(stmt, fld)
};
let mut fully_expanded: SmallVector<ast::Stmt> =
@ -451,167 +334,6 @@ fn expand_stmt(stmt: Stmt, fld: &mut MacroExpander) -> SmallVector<Stmt> {
fully_expanded
}
// expand a non-macro stmt. this is essentially the fallthrough for
// expand_stmt, above.
fn expand_non_macro_stmt(stmt: Stmt, fld: &mut MacroExpander)
-> SmallVector<Stmt> {
// is it a let?
match stmt.node {
StmtKind::Local(local) => {
// take it apart:
let rewritten_local = local.map(|Local {id, pat, ty, init, span, attrs}| {
// expand the ty since TyKind::FixedLengthVec contains an Expr
// and thus may have a macro use
let expanded_ty = ty.map(|t| fld.fold_ty(t));
// expand the pat (it might contain macro uses):
let expanded_pat = fld.fold_pat(pat);
// find the PatIdents in the pattern:
// oh dear heaven... this is going to include the enum
// names, as well... but that should be okay, as long as
// the new names are gensyms for the old ones.
// generate fresh names, push them to a new pending list
let idents = pattern_bindings(&expanded_pat);
let mut new_pending_renames =
idents.iter().map(|ident| (*ident, fresh_name(*ident))).collect();
// rewrite the pattern using the new names (the old
// ones have already been applied):
let rewritten_pat = {
// nested binding to allow borrow to expire:
let mut rename_fld = IdentRenamer{renames: &mut new_pending_renames};
rename_fld.fold_pat(expanded_pat)
};
// add them to the existing pending renames:
fld.cx.syntax_env.info().pending_renames
.extend(new_pending_renames);
Local {
id: id,
ty: expanded_ty,
pat: rewritten_pat,
// also, don't forget to expand the init:
init: init.map(|e| fld.fold_expr(e)),
span: span,
attrs: fold::fold_thin_attrs(attrs, fld),
}
});
SmallVector::one(Stmt {
id: stmt.id,
node: StmtKind::Local(rewritten_local),
span: stmt.span,
})
}
_ => noop_fold_stmt(stmt, fld),
}
}
// expand the arm of a 'match', renaming for macro hygiene
fn expand_arm(arm: ast::Arm, fld: &mut MacroExpander) -> ast::Arm {
// expand pats... they might contain macro uses:
let expanded_pats = arm.pats.move_map(|pat| fld.fold_pat(pat));
if expanded_pats.is_empty() {
panic!("encountered match arm with 0 patterns");
}
// apply renaming and then expansion to the guard and the body:
let ((rewritten_guard, rewritten_body), rewritten_pats) =
rename_in_scope(expanded_pats,
fld,
(arm.guard, arm.body),
|rename_fld, fld, (ag, ab)|{
let rewritten_guard = ag.map(|g| fld.fold_expr(rename_fld.fold_expr(g)));
let rewritten_body = fld.fold_expr(rename_fld.fold_expr(ab));
(rewritten_guard, rewritten_body)
});
ast::Arm {
attrs: fold::fold_attrs(arm.attrs, fld),
pats: rewritten_pats,
guard: rewritten_guard,
body: rewritten_body,
}
}
fn rename_in_scope<X, F>(pats: Vec<P<ast::Pat>>,
fld: &mut MacroExpander,
x: X,
f: F)
-> (X, Vec<P<ast::Pat>>)
where F: Fn(&mut IdentRenamer, &mut MacroExpander, X) -> X
{
// all of the pats must have the same set of bindings, so use the
// first one to extract them and generate new names:
let idents = pattern_bindings(&pats[0]);
let new_renames = idents.into_iter().map(|id| (id, fresh_name(id))).collect();
// apply the renaming, but only to the PatIdents:
let mut rename_pats_fld = PatIdentRenamer{renames:&new_renames};
let rewritten_pats = pats.move_map(|pat| rename_pats_fld.fold_pat(pat));
let mut rename_fld = IdentRenamer{ renames:&new_renames };
(f(&mut rename_fld, fld, x), rewritten_pats)
}
/// A visitor that extracts the PatKind::Ident (binding) paths
/// from a given thingy and puts them in a mutable
/// array
#[derive(Clone)]
struct PatIdentFinder {
ident_accumulator: Vec<ast::Ident>
}
impl Visitor for PatIdentFinder {
fn visit_pat(&mut self, pattern: &ast::Pat) {
match *pattern {
ast::Pat { id: _, node: PatKind::Ident(_, ref path1, ref inner), span: _ } => {
self.ident_accumulator.push(path1.node);
// visit optional subpattern of PatKind::Ident:
if let Some(ref subpat) = *inner {
self.visit_pat(subpat)
}
}
// use the default traversal for non-PatIdents
_ => visit::walk_pat(self, pattern)
}
}
}
/// find the PatKind::Ident paths in a pattern
fn pattern_bindings(pat: &ast::Pat) -> Vec<ast::Ident> {
let mut name_finder = PatIdentFinder{ident_accumulator:Vec::new()};
name_finder.visit_pat(pat);
name_finder.ident_accumulator
}
/// find the PatKind::Ident paths in a
fn fn_decl_arg_bindings(fn_decl: &ast::FnDecl) -> Vec<ast::Ident> {
let mut pat_idents = PatIdentFinder{ident_accumulator:Vec::new()};
for arg in &fn_decl.inputs {
pat_idents.visit_pat(&arg.pat);
}
pat_idents.ident_accumulator
}
// expand a block. pushes a new exts_frame, then calls expand_block_elts
pub fn expand_block(blk: P<Block>, fld: &mut MacroExpander) -> P<Block> {
// see note below about treatment of exts table
with_exts_frame!(fld.cx.syntax_env,false,
expand_block_elts(blk, fld))
}
// expand the elements of a block.
pub fn expand_block_elts(b: P<Block>, fld: &mut MacroExpander) -> P<Block> {
b.map(|Block {id, stmts, rules, span}| {
let new_stmts = stmts.into_iter().flat_map(|x| {
// perform pending renames and expand macros in the statement
fld.fold_stmt(x).into_iter()
}).collect();
Block {
id: fld.new_id(id),
stmts: new_stmts,
rules: rules,
span: span
}
})
}
fn expand_pat(p: P<ast::Pat>, fld: &mut MacroExpander) -> P<ast::Pat> {
match p.node {
PatKind::Mac(_) => {}
@ -625,62 +347,16 @@ fn expand_pat(p: P<ast::Pat>, fld: &mut MacroExpander) -> P<ast::Pat> {
})
}
/// A tree-folder that applies every rename in its (mutable) list
/// to every identifier, including both bindings and varrefs
/// (and lots of things that will turn out to be neither)
pub struct IdentRenamer<'a> {
renames: &'a mtwt::RenameList,
}
impl<'a> Folder for IdentRenamer<'a> {
fn fold_ident(&mut self, id: Ident) -> Ident {
mtwt::apply_renames(self.renames, id)
}
fn fold_mac(&mut self, mac: ast::Mac) -> ast::Mac {
fold::noop_fold_mac(mac, self)
}
}
/// A tree-folder that applies every rename in its list to
/// the idents that are in PatKind::Ident patterns. This is more narrowly
/// focused than IdentRenamer, and is needed for FnDecl,
/// where we want to rename the args but not the fn name or the generics etc.
pub struct PatIdentRenamer<'a> {
renames: &'a mtwt::RenameList,
}
impl<'a> Folder for PatIdentRenamer<'a> {
fn fold_pat(&mut self, pat: P<ast::Pat>) -> P<ast::Pat> {
match pat.node {
PatKind::Ident(..) => {},
_ => return noop_fold_pat(pat, self)
}
pat.map(|ast::Pat {id, node, span}| match node {
PatKind::Ident(binding_mode, Spanned{span: sp, node: ident}, sub) => {
let new_ident = mtwt::apply_renames(self.renames, ident);
let new_node =
PatKind::Ident(binding_mode,
Spanned{span: sp, node: new_ident},
sub.map(|p| self.fold_pat(p)));
ast::Pat {
id: id,
node: new_node,
span: span,
}
},
_ => unreachable!()
})
}
fn fold_mac(&mut self, mac: ast::Mac) -> ast::Mac {
fold::noop_fold_mac(mac, self)
}
}
fn expand_multi_modified(a: Annotatable, fld: &mut MacroExpander) -> SmallVector<Annotatable> {
match a {
Annotatable::Item(it) => match it.node {
ast::ItemKind::Mac(..) => {
if match it.node {
ItemKind::Mac(ref mac) => mac.node.path.segments.is_empty(),
_ => unreachable!(),
} {
return SmallVector::one(Annotatable::Item(it));
}
it.and_then(|it| match it.node {
ItemKind::Mac(mac) =>
expand_mac_invoc(mac, Some(it.ident), it.attrs, it.span, fld),
@ -774,21 +450,6 @@ fn expand_annotatable(mut item: Annotatable, fld: &mut MacroExpander) -> SmallVe
fn expand_impl_item(ii: ast::ImplItem, fld: &mut MacroExpander)
-> SmallVector<ast::ImplItem> {
match ii.node {
ast::ImplItemKind::Method(..) => SmallVector::one(ast::ImplItem {
id: ii.id,
ident: ii.ident,
attrs: ii.attrs,
vis: ii.vis,
defaultness: ii.defaultness,
node: match ii.node {
ast::ImplItemKind::Method(sig, body) => {
let (sig, body) = expand_and_rename_method(sig, body, fld);
ast::ImplItemKind::Method(sig, body)
}
_ => unreachable!()
},
span: ii.span,
}),
ast::ImplItemKind::Macro(mac) => {
expand_mac_invoc(mac, None, ii.attrs, ii.span, fld)
}
@ -799,21 +460,6 @@ fn expand_impl_item(ii: ast::ImplItem, fld: &mut MacroExpander)
fn expand_trait_item(ti: ast::TraitItem, fld: &mut MacroExpander)
-> SmallVector<ast::TraitItem> {
match ti.node {
ast::TraitItemKind::Method(_, Some(_)) => {
SmallVector::one(ast::TraitItem {
id: ti.id,
ident: ti.ident,
attrs: ti.attrs,
node: match ti.node {
ast::TraitItemKind::Method(sig, Some(body)) => {
let (sig, body) = expand_and_rename_method(sig, body, fld);
ast::TraitItemKind::Method(sig, Some(body))
}
_ => unreachable!()
},
span: ti.span,
})
}
ast::TraitItemKind::Macro(mac) => {
expand_mac_invoc(mac, None, ti.attrs, ti.span, fld)
}
@ -821,39 +467,6 @@ fn expand_trait_item(ti: ast::TraitItem, fld: &mut MacroExpander)
}
}
/// Given a fn_decl and a block and a MacroExpander, expand the fn_decl, then use the
/// PatIdents in its arguments to perform renaming in the FnDecl and
/// the block, returning both the new FnDecl and the new Block.
fn expand_and_rename_fn_decl_and_block(fn_decl: P<ast::FnDecl>, block: P<ast::Block>,
fld: &mut MacroExpander)
-> (P<ast::FnDecl>, P<ast::Block>) {
let expanded_decl = fld.fold_fn_decl(fn_decl);
let idents = fn_decl_arg_bindings(&expanded_decl);
let renames =
idents.iter().map(|id| (*id,fresh_name(*id))).collect();
// first, a renamer for the PatIdents, for the fn_decl:
let mut rename_pat_fld = PatIdentRenamer{renames: &renames};
let rewritten_fn_decl = rename_pat_fld.fold_fn_decl(expanded_decl);
// now, a renamer for *all* idents, for the body:
let mut rename_fld = IdentRenamer{renames: &renames};
let rewritten_body = fld.fold_block(rename_fld.fold_block(block));
(rewritten_fn_decl,rewritten_body)
}
fn expand_and_rename_method(sig: ast::MethodSig, body: P<ast::Block>,
fld: &mut MacroExpander)
-> (ast::MethodSig, P<ast::Block>) {
let (rewritten_fn_decl, rewritten_body)
= expand_and_rename_fn_decl_and_block(sig.decl, body, fld);
(ast::MethodSig {
generics: fld.fold_generics(sig.generics),
abi: sig.abi,
unsafety: sig.unsafety,
constness: sig.constness,
decl: rewritten_fn_decl
}, rewritten_body)
}
pub fn expand_type(t: P<ast::Ty>, fld: &mut MacroExpander) -> P<ast::Ty> {
let t = match t.node.clone() {
ast::TyKind::Mac(mac) => {
@ -976,25 +589,17 @@ impl<'a, 'b> Folder for MacroExpander<'a, 'b> {
result
}
fn fold_item_kind(&mut self, item: ast::ItemKind) -> ast::ItemKind {
expand_item_kind(item, self)
}
fn fold_stmt(&mut self, stmt: ast::Stmt) -> SmallVector<ast::Stmt> {
expand_stmt(stmt, self)
}
fn fold_block(&mut self, block: P<Block>) -> P<Block> {
let was_in_block = ::std::mem::replace(&mut self.cx.in_block, true);
let result = expand_block(block, self);
let result = with_exts_frame!(self.cx.syntax_env, false, noop_fold_block(block, self));
self.cx.in_block = was_in_block;
result
}
fn fold_arm(&mut self, arm: ast::Arm) -> ast::Arm {
expand_arm(arm, self)
}
fn fold_trait_item(&mut self, i: ast::TraitItem) -> SmallVector<ast::TraitItem> {
expand_annotatable(Annotatable::TraitItem(P(i)), self)
.into_iter().map(|i| i.expect_trait_item()).collect()
@ -1145,18 +750,11 @@ fn mark_tts(tts: &[TokenTree], m: Mrk) -> Vec<TokenTree> {
#[cfg(test)]
mod tests {
use super::{pattern_bindings, expand_crate};
use super::{PatIdentFinder, IdentRenamer, PatIdentRenamer, ExpansionConfig};
use super::{expand_crate, ExpansionConfig};
use ast;
use ast::Name;
use syntax_pos;
use ext::base::{ExtCtxt, DummyMacroLoader};
use ext::mtwt;
use fold::Folder;
use parse;
use parse::token;
use util::parser_testing::{string_to_parser};
use util::parser_testing::{string_to_pat, string_to_crate, strs_to_idents};
use visit;
use visit::Visitor;
@ -1177,32 +775,6 @@ mod tests {
}
}
// find the variable references in a crate
fn crate_varrefs(the_crate : &ast::Crate) -> Vec<ast::Path> {
let mut path_finder = PathExprFinderContext{path_accumulator:Vec::new()};
visit::walk_crate(&mut path_finder, the_crate);
path_finder.path_accumulator
}
/// A Visitor that extracts the identifiers from a thingy.
// as a side note, I'm starting to want to abstract over these....
struct IdentFinder {
ident_accumulator: Vec<ast::Ident>
}
impl Visitor for IdentFinder {
fn visit_ident(&mut self, _: syntax_pos::Span, id: ast::Ident){
self.ident_accumulator.push(id);
}
}
/// Find the idents in a crate
fn crate_idents(the_crate: &ast::Crate) -> Vec<ast::Ident> {
let mut ident_finder = IdentFinder{ident_accumulator: Vec::new()};
visit::walk_crate(&mut ident_finder, the_crate);
ident_finder.ident_accumulator
}
// these following tests are quite fragile, in that they don't test what
// *kind* of failure occurs.
@ -1264,13 +836,6 @@ mod tests {
expand_crate(ecx, vec![], crate_ast).0
}
// find the pat_ident paths in a crate
fn crate_bindings(the_crate : &ast::Crate) -> Vec<ast::Ident> {
let mut name_finder = PatIdentFinder{ident_accumulator:Vec::new()};
visit::walk_crate(&mut name_finder, the_crate);
name_finder.ident_accumulator
}
#[test] fn macro_tokens_should_match(){
expand_crate_str(
"macro_rules! m((a)=>(13)) ;fn main(){m!(a);}".to_string());
@ -1287,93 +852,4 @@ mod tests {
// create a really evil test case where a $x appears inside a binding of $x
// but *shouldn't* bind because it was inserted by a different macro....
// can't write this test case until we have macro-generating macros.
#[test]
fn fmt_in_macro_used_inside_module_macro() {
let crate_str = "macro_rules! fmt_wrap(($b:expr)=>($b.to_string()));
macro_rules! foo_module (() => (mod generated { fn a() { let xx = 147; fmt_wrap!(xx);}}));
foo_module!();
".to_string();
let cr = expand_crate_str(crate_str);
// find the xx binding
let bindings = crate_bindings(&cr);
let cxbinds: Vec<&ast::Ident> =
bindings.iter().filter(|b| b.name.as_str() == "xx").collect();
let cxbinds: &[&ast::Ident] = &cxbinds[..];
let cxbind = match (cxbinds.len(), cxbinds.get(0)) {
(1, Some(b)) => *b,
_ => panic!("expected just one binding for ext_cx")
};
let resolved_binding = mtwt::resolve(*cxbind);
let varrefs = crate_varrefs(&cr);
// the xx binding should bind all of the xx varrefs:
for (idx,v) in varrefs.iter().filter(|p| {
p.segments.len() == 1
&& p.segments[0].identifier.name.as_str() == "xx"
}).enumerate() {
if mtwt::resolve(v.segments[0].identifier) != resolved_binding {
println!("uh oh, xx binding didn't match xx varref:");
println!("this is xx varref \\# {}", idx);
println!("binding: {}", cxbind);
println!("resolves to: {}", resolved_binding);
println!("varref: {}", v.segments[0].identifier);
println!("resolves to: {}",
mtwt::resolve(v.segments[0].identifier));
mtwt::with_sctable(|x| mtwt::display_sctable(x));
}
assert_eq!(mtwt::resolve(v.segments[0].identifier),
resolved_binding);
};
}
#[test]
fn pat_idents(){
let pat = string_to_pat(
"(a,Foo{x:c @ (b,9),y:Bar(4,d)})".to_string());
let idents = pattern_bindings(&pat);
assert_eq!(idents, strs_to_idents(vec!("a","c","b","d")));
}
// test the list of identifier patterns gathered by the visitor. Note that
// 'None' is listed as an identifier pattern because we don't yet know that
// it's the name of a 0-ary variant, and that 'i' appears twice in succession.
#[test]
fn crate_bindings_test(){
let the_crate = string_to_crate("fn main (a: i32) -> i32 {|b| {
match 34 {None => 3, Some(i) | i => j, Foo{k:z,l:y} => \"banana\"}} }".to_string());
let idents = crate_bindings(&the_crate);
assert_eq!(idents, strs_to_idents(vec!("a","b","None","i","i","z","y")));
}
// test the IdentRenamer directly
#[test]
fn ident_renamer_test () {
let the_crate = string_to_crate("fn f(x: i32){let x = x; x}".to_string());
let f_ident = token::str_to_ident("f");
let x_ident = token::str_to_ident("x");
let int_ident = token::str_to_ident("i32");
let renames = vec!((x_ident,Name(16)));
let mut renamer = IdentRenamer{renames: &renames};
let renamed_crate = renamer.fold_crate(the_crate);
let idents = crate_idents(&renamed_crate);
let resolved : Vec<ast::Name> = idents.iter().map(|id| mtwt::resolve(*id)).collect();
assert_eq!(resolved, [f_ident.name,Name(16),int_ident.name,Name(16),Name(16),Name(16)]);
}
// test the PatIdentRenamer; only PatIdents get renamed
#[test]
fn pat_ident_renamer_test () {
let the_crate = string_to_crate("fn f(x: i32){let x = x; x}".to_string());
let f_ident = token::str_to_ident("f");
let x_ident = token::str_to_ident("x");
let int_ident = token::str_to_ident("i32");
let renames = vec!((x_ident,Name(16)));
let mut renamer = PatIdentRenamer{renames: &renames};
let renamed_crate = renamer.fold_crate(the_crate);
let idents = crate_idents(&renamed_crate);
let resolved : Vec<ast::Name> = idents.iter().map(|id| mtwt::resolve(*id)).collect();
let x_name = x_ident.name;
assert_eq!(resolved, [f_ident.name,Name(16),int_ident.name,Name(16),x_name,x_name]);
}
}

120
src/libsyntax/ext/mtwt.rs
View file

@ -17,7 +17,7 @@
pub use self::SyntaxContext_::*;
use ast::{Ident, Mrk, Name, SyntaxContext};
use ast::{Ident, Mrk, SyntaxContext};
use std::cell::RefCell;
use std::collections::HashMap;
@ -25,29 +25,19 @@ use std::collections::HashMap;
/// The SCTable contains a table of SyntaxContext_'s. It
/// represents a flattened tree structure, to avoid having
/// managed pointers everywhere (that caused an ICE).
/// the `marks` and `renames` fields are side-tables
/// that ensure that adding the same mark to the same context
/// gives you back the same context as before. This should cut
/// down on memory use *a lot*; applying a mark to a tree containing
/// 50 identifiers would otherwise generate 50 new contexts.
/// The `marks` ensures that adding the same mark to the
/// same context gives you back the same context as before.
pub struct SCTable {
table: RefCell<Vec<SyntaxContext_>>,
marks: RefCell<HashMap<(SyntaxContext,Mrk),SyntaxContext>>,
renames: RefCell<HashMap<Name,SyntaxContext>>,
}
#[derive(PartialEq, RustcEncodable, RustcDecodable, Hash, Debug, Copy, Clone)]
pub enum SyntaxContext_ {
EmptyCtxt,
Mark (Mrk,SyntaxContext),
Rename (Name),
/// actually, IllegalCtxt may not be necessary.
IllegalCtxt
}
/// A list of ident->name renamings
pub type RenameList = Vec<(Ident, Name)>;
/// Extend a syntax context with a given mark
pub fn apply_mark(m: Mrk, ctxt: SyntaxContext) -> SyntaxContext {
with_sctable(|table| apply_mark_internal(m, ctxt, table))
@ -65,32 +55,6 @@ fn apply_mark_internal(m: Mrk, ctxt: SyntaxContext, table: &SCTable) -> SyntaxCo
}
}
/// Extend a syntax context with a given rename
pub fn apply_rename(from: Ident, to: Name, ident: Ident) -> Ident {
with_sctable(|table| apply_rename_internal(from, to, ident, table))
}
/// Extend a syntax context with a given rename and sctable (explicit memoization)
fn apply_rename_internal(from: Ident, to: Name, ident: Ident, table: &SCTable) -> Ident {
if (ident.name, ident.ctxt) != (from.name, from.ctxt) {
return ident;
}
let ctxt = *table.renames.borrow_mut().entry(to).or_insert_with(|| {
SyntaxContext(idx_push(&mut *table.table.borrow_mut(), Rename(to)))
});
Ident { ctxt: ctxt, ..ident }
}
/// Apply a list of renamings to a context
// if these rename lists get long, it would make sense
// to consider memoizing this fold. This may come up
// when we add hygiene to item names.
pub fn apply_renames(renames: &RenameList, ident: Ident) -> Ident {
renames.iter().fold(ident, |ident, &(from, to)| {
apply_rename(from, to, ident)
})
}
/// Fetch the SCTable from TLS, create one if it doesn't yet exist.
pub fn with_sctable<T, F>(op: F) -> T where
F: FnOnce(&SCTable) -> T,
@ -99,21 +63,11 @@ pub fn with_sctable<T, F>(op: F) -> T where
SCTABLE_KEY.with(move |slot| op(slot))
}
// Make a fresh syntax context table with EmptyCtxt in slot zero
// and IllegalCtxt in slot one.
// Make a fresh syntax context table with EmptyCtxt in slot zero.
fn new_sctable_internal() -> SCTable {
SCTable {
table: RefCell::new(vec!(EmptyCtxt, IllegalCtxt)),
table: RefCell::new(vec![EmptyCtxt]),
marks: RefCell::new(HashMap::new()),
renames: RefCell::new(HashMap::new()),
}
}
/// Print out an SCTable for debugging
pub fn display_sctable(table: &SCTable) {
error!("SC table:");
for (idx,val) in table.table.borrow().iter().enumerate() {
error!("{:4} : {:?}",idx,val);
}
}
@ -122,16 +76,14 @@ pub fn clear_tables() {
with_sctable(|table| {
*table.table.borrow_mut() = Vec::new();
*table.marks.borrow_mut() = HashMap::new();
*table.renames.borrow_mut() = HashMap::new();
});
}
/// Reset the tables to their initial state
pub fn reset_tables() {
with_sctable(|table| {
*table.table.borrow_mut() = vec!(EmptyCtxt, IllegalCtxt);
*table.table.borrow_mut() = vec![EmptyCtxt];
*table.marks.borrow_mut() = HashMap::new();
*table.renames.borrow_mut() = HashMap::new();
});
}
@ -141,25 +93,6 @@ fn idx_push<T>(vec: &mut Vec<T>, val: T) -> u32 {
(vec.len() - 1) as u32
}
/// Resolve a syntax object to a name, per MTWT.
pub fn resolve(id: Ident) -> Name {
with_sctable(|sctable| {
resolve_internal(id, sctable)
})
}
/// Resolve a syntax object to a name, per MTWT.
/// adding memoization to resolve 500+ seconds in resolve for librustc (!)
fn resolve_internal(id: Ident, table: &SCTable) -> Name {
match table.table.borrow()[id.ctxt.0 as usize] {
EmptyCtxt => id.name,
// ignore marks here:
Mark(_, subctxt) => resolve_internal(Ident::new(id.name, subctxt), table),
Rename(name) => name,
IllegalCtxt => panic!("expected resolvable context, got IllegalCtxt")
}
}
/// Return the outer mark for a context with a mark at the outside.
/// FAILS when outside is not a mark.
pub fn outer_mark(ctxt: SyntaxContext) -> Mrk {
@ -171,15 +104,24 @@ pub fn outer_mark(ctxt: SyntaxContext) -> Mrk {
})
}
/// If `ident` is macro expanded, return the source ident from the macro definition
/// and the mark of the expansion that created the macro definition.
pub fn source(ident: Ident) -> Option<(Ident /* source ident */, Mrk /* source macro */)> {
with_sctable(|sctable| {
let ctxts = sctable.table.borrow();
if let Mark(_expansion_mark, macro_ctxt) = ctxts[ident.ctxt.0 as usize] {
if let Mark(definition_mark, orig_ctxt) = ctxts[macro_ctxt.0 as usize] {
return Some((Ident::new(ident.name, orig_ctxt), definition_mark));
}
}
None
})
}
#[cfg(test)]
mod tests {
use ast::{EMPTY_CTXT, Ident, Mrk, Name, SyntaxContext};
use super::{resolve, apply_mark_internal, new_sctable_internal};
use super::{SCTable, Mark};
fn id(n: u32, s: SyntaxContext) -> Ident {
Ident::new(Name(n), s)
}
use ast::{EMPTY_CTXT, Mrk, SyntaxContext};
use super::{apply_mark_internal, new_sctable_internal, Mark, SCTable};
// extend a syntax context with a sequence of marks given
// in a vector. v[0] will be the outermost mark.
@ -192,27 +134,21 @@ mod tests {
#[test] fn unfold_marks_test() {
let mut t = new_sctable_internal();
assert_eq!(unfold_marks(vec!(3,7),EMPTY_CTXT,&mut t),SyntaxContext(3));
assert_eq!(unfold_marks(vec!(3,7),EMPTY_CTXT,&mut t),SyntaxContext(2));
{
let table = t.table.borrow();
assert!((*table)[2] == Mark(7,EMPTY_CTXT));
assert!((*table)[3] == Mark(3,SyntaxContext(2)));
assert!((*table)[1] == Mark(7,EMPTY_CTXT));
assert!((*table)[2] == Mark(3,SyntaxContext(1)));
}
}
#[test]
fn mtwt_resolve_test(){
let a = 40;
assert_eq!(resolve(id(a,EMPTY_CTXT)),Name(a));
}
#[test]
fn hashing_tests () {
let mut t = new_sctable_internal();
assert_eq!(apply_mark_internal(12,EMPTY_CTXT,&mut t),SyntaxContext(2));
assert_eq!(apply_mark_internal(13,EMPTY_CTXT,&mut t),SyntaxContext(3));
assert_eq!(apply_mark_internal(12,EMPTY_CTXT,&mut t),SyntaxContext(1));
assert_eq!(apply_mark_internal(13,EMPTY_CTXT,&mut t),SyntaxContext(2));
// using the same one again should result in the same index:
assert_eq!(apply_mark_internal(12,EMPTY_CTXT,&mut t),SyntaxContext(2));
assert_eq!(apply_mark_internal(12,EMPTY_CTXT,&mut t),SyntaxContext(1));
// I'm assuming that the rename table will behave the same....
}
}

30
src/libsyntax/parse/token.rs
View file

@ -15,7 +15,6 @@ pub use self::Lit::*;
pub use self::Token::*;
use ast::{self, BinOpKind};
use ext::mtwt;
use ptr::P;
use util::interner::Interner;
use tokenstream;
@ -313,17 +312,6 @@ impl Token {
_ => false,
}
}
/// Hygienic identifier equality comparison.
///
/// See `styntax::ext::mtwt`.
pub fn mtwt_eq(&self, other : &Token) -> bool {
match (self, other) {
(&Ident(id1), &Ident(id2)) | (&Lifetime(id1), &Lifetime(id2)) =>
mtwt::resolve(id1) == mtwt::resolve(id2),
_ => *self == *other
}
}
}
#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Hash)]
@ -650,21 +638,3 @@ pub fn fresh_name(src: ast::Ident) -> ast::Name {
pub fn fresh_mark() -> ast::Mrk {
gensym("mark").0
}
#[cfg(test)]
mod tests {
use super::*;
use ast;
use ext::mtwt;
fn mark_ident(id : ast::Ident, m : ast::Mrk) -> ast::Ident {
ast::Ident::new(id.name, mtwt::apply_mark(m, id.ctxt))
}
#[test] fn mtwt_token_eq_test() {
assert!(Gt.mtwt_eq(&Gt));
let a = str_to_ident("bac");
let a1 = mark_ident(a,92);
assert!(Ident(a).mtwt_eq(&Ident(a1)));
}
}

4
src/libsyntax/test.rs
View file

@ -185,6 +185,8 @@ impl<'a> fold::Folder for TestHarnessGenerator<'a> {
mod_folded
}
fn fold_mac(&mut self, mac: ast::Mac) -> ast::Mac { mac }
}
struct EntryPointCleaner {
@ -234,6 +236,8 @@ impl fold::Folder for EntryPointCleaner {
SmallVector::one(folded)
}
fn fold_mac(&mut self, mac: ast::Mac) -> ast::Mac { mac }
}
fn mk_reexport_mod(cx: &mut TestCtxt, tests: Vec<ast::Ident>,

7
src/test/run-pass/hygiene.rs
View file

@ -106,6 +106,13 @@ fn match_hygiene() {
m!(Ok(x), x);
}
fn label_hygiene() {
'a: loop {
macro_rules! m { () => { break 'a; } }
m!();
}
}
fn main() {
f();
g();