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pub use self::SyntaxExtension::*;
use ast;
use ast::Name;
use codemap;
use codemap::{CodeMap, Span, ExpnId, ExpnInfo, NO_EXPANSION};
use ext;
use ext::expand;
use ext::tt::macro_rules;
use feature_gate::GatedCfgAttr;
use parse;
use parse::parser;
use parse::token;
use parse::token::{InternedString, intern, str_to_ident};
use ptr::P;
use util::small_vector::SmallVector;
use util::lev_distance::{lev_distance, max_suggestion_distance};
use ext::mtwt;
use fold::Folder;
use std::collections::{HashMap, HashSet};
use std::rc::Rc;
use std::default::Default;
#[derive(Debug,Clone)]
pub enum Annotatable {
Item(P<ast::Item>),
TraitItem(P<ast::TraitItem>),
ImplItem(P<ast::ImplItem>),
}
impl Annotatable {
pub fn attrs(&self) -> &[ast::Attribute] {
match *self {
Annotatable::Item(ref i) => &i.attrs,
Annotatable::TraitItem(ref ti) => &ti.attrs,
Annotatable::ImplItem(ref ii) => &ii.attrs,
}
}
pub fn fold_attrs(self, attrs: Vec<ast::Attribute>) -> Annotatable {
match self {
Annotatable::Item(i) => Annotatable::Item(i.map(|i| ast::Item {
attrs: attrs,
..i
})),
Annotatable::TraitItem(i) => Annotatable::TraitItem(i.map(|ti| {
ast::TraitItem { attrs: attrs, ..ti }
})),
Annotatable::ImplItem(i) => Annotatable::ImplItem(i.map(|ii| {
ast::ImplItem { attrs: attrs, ..ii }
})),
}
}
pub fn expect_item(self) -> P<ast::Item> {
match self {
Annotatable::Item(i) => i,
_ => panic!("expected Item")
}
}
pub fn map_item_or<F, G>(self, mut f: F, mut or: G) -> Annotatable
where F: FnMut(P<ast::Item>) -> P<ast::Item>,
G: FnMut(Annotatable) -> Annotatable
{
match self {
Annotatable::Item(i) => Annotatable::Item(f(i)),
_ => or(self)
}
}
pub fn expect_trait_item(self) -> P<ast::TraitItem> {
match self {
Annotatable::TraitItem(i) => i,
_ => panic!("expected Item")
}
}
pub fn expect_impl_item(self) -> P<ast::ImplItem> {
match self {
Annotatable::ImplItem(i) => i,
_ => panic!("expected Item")
}
}
}
pub trait MultiItemDecorator {
fn expand(&self,
ecx: &mut ExtCtxt,
sp: Span,
meta_item: &ast::MetaItem,
item: &Annotatable,
push: &mut FnMut(Annotatable));
}
impl<F> MultiItemDecorator for F
where F : Fn(&mut ExtCtxt, Span, &ast::MetaItem, &Annotatable, &mut FnMut(Annotatable))
{
fn expand(&self,
ecx: &mut ExtCtxt,
sp: Span,
meta_item: &ast::MetaItem,
item: &Annotatable,
push: &mut FnMut(Annotatable)) {
(*self)(ecx, sp, meta_item, item, push)
}
}
pub trait MultiItemModifier {
fn expand(&self,
ecx: &mut ExtCtxt,
span: Span,
meta_item: &ast::MetaItem,
item: Annotatable)
-> Annotatable;
}
impl<F> MultiItemModifier for F
where F: Fn(&mut ExtCtxt,
Span,
&ast::MetaItem,
Annotatable) -> Annotatable
{
fn expand(&self,
ecx: &mut ExtCtxt,
span: Span,
meta_item: &ast::MetaItem,
item: Annotatable)
-> Annotatable {
(*self)(ecx, span, meta_item, item)
}
}
pub trait TTMacroExpander {
fn expand<'cx>(&self,
ecx: &'cx mut ExtCtxt,
span: Span,
token_tree: &[ast::TokenTree])
-> Box<MacResult+'cx>;
}
pub type MacroExpanderFn =
for<'cx> fn(&'cx mut ExtCtxt, Span, &[ast::TokenTree]) -> Box<MacResult+'cx>;
impl<F> TTMacroExpander for F
where F : for<'cx> Fn(&'cx mut ExtCtxt, Span, &[ast::TokenTree]) -> Box<MacResult+'cx>
{
fn expand<'cx>(&self,
ecx: &'cx mut ExtCtxt,
span: Span,
token_tree: &[ast::TokenTree])
-> Box<MacResult+'cx> {
(*self)(ecx, span, token_tree)
}
}
pub trait IdentMacroExpander {
fn expand<'cx>(&self,
cx: &'cx mut ExtCtxt,
sp: Span,
ident: ast::Ident,
token_tree: Vec<ast::TokenTree> )
-> Box<MacResult+'cx>;
}
pub type IdentMacroExpanderFn =
for<'cx> fn(&'cx mut ExtCtxt, Span, ast::Ident, Vec<ast::TokenTree>) -> Box<MacResult+'cx>;
impl<F> IdentMacroExpander for F
where F : for<'cx> Fn(&'cx mut ExtCtxt, Span, ast::Ident,
Vec<ast::TokenTree>) -> Box<MacResult+'cx>
{
fn expand<'cx>(&self,
cx: &'cx mut ExtCtxt,
sp: Span,
ident: ast::Ident,
token_tree: Vec<ast::TokenTree> )
-> Box<MacResult+'cx>
{
(*self)(cx, sp, ident, token_tree)
}
}
macro_rules! make_stmts_default {
($me:expr) => {
$me.make_expr().map(|e| {
SmallVector::one(P(codemap::respan(
e.span, ast::StmtExpr(e, ast::DUMMY_NODE_ID))))
})
}
}
pub trait MacResult {
fn make_expr(self: Box<Self>) -> Option<P<ast::Expr>> {
None
}
fn make_items(self: Box<Self>) -> Option<SmallVector<P<ast::Item>>> {
None
}
fn make_impl_items(self: Box<Self>) -> Option<SmallVector<P<ast::ImplItem>>> {
None
}
fn make_pat(self: Box<Self>) -> Option<P<ast::Pat>> {
None
}
fn make_stmts(self: Box<Self>) -> Option<SmallVector<P<ast::Stmt>>> {
make_stmts_default!(self)
}
fn make_ty(self: Box<Self>) -> Option<P<ast::Ty>> {
None
}
}
macro_rules! make_MacEager {
( $( $fld:ident: $t:ty, )* ) => {
#[derive(Default)]
pub struct MacEager {
$(
pub $fld: Option<$t>,
)*
}
impl MacEager {
$(
pub fn $fld(v: $t) -> Box<MacResult> {
Box::new(MacEager {
$fld: Some(v),
..Default::default()
})
}
)*
}
}
}
make_MacEager! {
expr: P<ast::Expr>,
pat: P<ast::Pat>,
items: SmallVector<P<ast::Item>>,
impl_items: SmallVector<P<ast::ImplItem>>,
stmts: SmallVector<P<ast::Stmt>>,
ty: P<ast::Ty>,
}
impl MacResult for MacEager {
fn make_expr(self: Box<Self>) -> Option<P<ast::Expr>> {
self.expr
}
fn make_items(self: Box<Self>) -> Option<SmallVector<P<ast::Item>>> {
self.items
}
fn make_impl_items(self: Box<Self>) -> Option<SmallVector<P<ast::ImplItem>>> {
self.impl_items
}
fn make_stmts(self: Box<Self>) -> Option<SmallVector<P<ast::Stmt>>> {
match self.stmts.as_ref().map_or(0, |s| s.len()) {
0 => make_stmts_default!(self),
_ => self.stmts,
}
}
fn make_pat(self: Box<Self>) -> Option<P<ast::Pat>> {
if let Some(p) = self.pat {
return Some(p);
}
if let Some(e) = self.expr {
if let ast::ExprLit(_) = e.node {
return Some(P(ast::Pat {
id: ast::DUMMY_NODE_ID,
span: e.span,
node: ast::PatLit(e),
}));
}
}
None
}
fn make_ty(self: Box<Self>) -> Option<P<ast::Ty>> {
self.ty
}
}
#[derive(Copy, Clone)]
pub struct DummyResult {
expr_only: bool,
span: Span
}
impl DummyResult {
pub fn any(sp: Span) -> Box<MacResult+'static> {
Box::new(DummyResult { expr_only: false, span: sp })
}
pub fn expr(sp: Span) -> Box<MacResult+'static> {
Box::new(DummyResult { expr_only: true, span: sp })
}
pub fn raw_expr(sp: Span) -> P<ast::Expr> {
P(ast::Expr {
id: ast::DUMMY_NODE_ID,
node: ast::ExprLit(P(codemap::respan(sp, ast::LitBool(false)))),
span: sp,
attrs: None,
})
}
pub fn raw_pat(sp: Span) -> ast::Pat {
ast::Pat {
id: ast::DUMMY_NODE_ID,
node: ast::PatWild,
span: sp,
}
}
pub fn raw_ty(sp: Span) -> P<ast::Ty> {
P(ast::Ty {
id: ast::DUMMY_NODE_ID,
node: ast::TyInfer,
span: sp
})
}
}
impl MacResult for DummyResult {
fn make_expr(self: Box<DummyResult>) -> Option<P<ast::Expr>> {
Some(DummyResult::raw_expr(self.span))
}
fn make_pat(self: Box<DummyResult>) -> Option<P<ast::Pat>> {
Some(P(DummyResult::raw_pat(self.span)))
}
fn make_items(self: Box<DummyResult>) -> Option<SmallVector<P<ast::Item>>> {
if self.expr_only {
None
} else {
Some(SmallVector::zero())
}
}
fn make_impl_items(self: Box<DummyResult>) -> Option<SmallVector<P<ast::ImplItem>>> {
if self.expr_only {
None
} else {
Some(SmallVector::zero())
}
}
fn make_stmts(self: Box<DummyResult>) -> Option<SmallVector<P<ast::Stmt>>> {
Some(SmallVector::one(P(
codemap::respan(self.span,
ast::StmtExpr(DummyResult::raw_expr(self.span),
ast::DUMMY_NODE_ID)))))
}
}
pub enum SyntaxExtension {
MultiDecorator(Box<MultiItemDecorator + 'static>),
MultiModifier(Box<MultiItemModifier + 'static>),
NormalTT(Box<TTMacroExpander + 'static>, Option<Span>, bool),
IdentTT(Box<IdentMacroExpander + 'static>, Option<Span>, bool),
MacroRulesTT,
}
pub type NamedSyntaxExtension = (Name, SyntaxExtension);
pub struct BlockInfo {
pub macros_escape: bool,
pub pending_renames: mtwt::RenameList,
}
impl BlockInfo {
pub fn new() -> BlockInfo {
BlockInfo {
macros_escape: false,
pending_renames: Vec::new(),
}
}
}
fn initial_syntax_expander_table<'feat>(_ecfg: &expand::ExpansionConfig<'feat>)
-> SyntaxEnv {
fn builtin_normal_expander(f: MacroExpanderFn) -> SyntaxExtension {
NormalTT(Box::new(f), None, false)
}
let mut syntax_expanders = SyntaxEnv::new();
ext::deriving::register_all(&mut syntax_expanders);
syntax_expanders.insert(intern("include"),
builtin_normal_expander(
ext::source_util::expand_include));
syntax_expanders.insert(intern("include_str"),
builtin_normal_expander(
ext::source_util::expand_include_str));
syntax_expanders.insert(intern("include_bytes"),
builtin_normal_expander(
ext::source_util::expand_include_bytes));
syntax_expanders
}
pub struct ExtCtxt<'a> {
pub parse_sess: &'a parse::ParseSess,
pub cfg: ast::CrateConfig,
pub backtrace: ExpnId,
pub ecfg: expand::ExpansionConfig<'a>,
pub crate_root: Option<&'static str>,
pub feature_gated_cfgs: &'a mut Vec<GatedCfgAttr>,
pub mod_path: Vec<ast::Ident> ,
pub exported_macros: Vec<ast::MacroDef>,
pub syntax_env: SyntaxEnv,
pub recursion_count: usize,
}
impl<'a> ExtCtxt<'a> {
pub fn new(parse_sess: &'a parse::ParseSess, cfg: ast::CrateConfig,
ecfg: expand::ExpansionConfig<'a>,
feature_gated_cfgs: &'a mut Vec<GatedCfgAttr>) -> ExtCtxt<'a> {
let env = initial_syntax_expander_table(&ecfg);
ExtCtxt {
parse_sess: parse_sess,
cfg: cfg,
backtrace: NO_EXPANSION,
mod_path: Vec::new(),
ecfg: ecfg,
crate_root: None,
feature_gated_cfgs: feature_gated_cfgs,
exported_macros: Vec::new(),
syntax_env: env,
recursion_count: 0,
}
}
pub fn expander<'b>(&'b mut self) -> expand::MacroExpander<'b, 'a> {
expand::MacroExpander::new(self)
}
pub fn new_parser_from_tts(&self, tts: &[ast::TokenTree])
-> parser::Parser<'a> {
parse::tts_to_parser(self.parse_sess, tts.to_vec(), self.cfg())
}
pub fn codemap(&self) -> &'a CodeMap { self.parse_sess.codemap() }
pub fn parse_sess(&self) -> &'a parse::ParseSess { self.parse_sess }
pub fn cfg(&self) -> ast::CrateConfig { self.cfg.clone() }
pub fn call_site(&self) -> Span {
self.codemap().with_expn_info(self.backtrace, |ei| match ei {
Some(expn_info) => expn_info.call_site,
None => self.bug("missing top span")
})
}
pub fn backtrace(&self) -> ExpnId { self.backtrace }
pub fn original_span(&self) -> Span {
let mut expn_id = self.backtrace;
let mut call_site = None;
loop {
match self.codemap().with_expn_info(expn_id, |ei| ei.map(|ei| ei.call_site)) {
None => break,
Some(cs) => {
call_site = Some(cs);
expn_id = cs.expn_id;
}
}
}
call_site.expect("missing expansion backtrace")
}
pub fn expansion_cause(&self) -> Span {
let mut expn_id = self.backtrace;
let mut last_macro = None;
loop {
if self.codemap().with_expn_info(expn_id, |info| {
info.map_or(None, |i| {
if i.callee.name().as_str() == "include" {
return None;
}
expn_id = i.call_site.expn_id;
last_macro = Some(i.call_site);
return Some(());
})
}).is_none() {
break
}
}
last_macro.expect("missing expansion backtrace")
}
pub fn mod_push(&mut self, i: ast::Ident) { self.mod_path.push(i); }
pub fn mod_pop(&mut self) { self.mod_path.pop().unwrap(); }
pub fn mod_path(&self) -> Vec<ast::Ident> {
let mut v = Vec::new();
v.push(token::str_to_ident(&self.ecfg.crate_name));
v.extend(self.mod_path.iter().cloned());
return v;
}
pub fn bt_push(&mut self, ei: ExpnInfo) {
self.recursion_count += 1;
if self.recursion_count > self.ecfg.recursion_limit {
self.span_fatal(ei.call_site,
&format!("recursion limit reached while expanding the macro `{}`",
ei.callee.name()));
}
let mut call_site = ei.call_site;
call_site.expn_id = self.backtrace;
self.backtrace = self.codemap().record_expansion(ExpnInfo {
call_site: call_site,
callee: ei.callee
});
}
pub fn bt_pop(&mut self) {
match self.backtrace {
NO_EXPANSION => self.bug("tried to pop without a push"),
expn_id => {
self.recursion_count -= 1;
self.backtrace = self.codemap().with_expn_info(expn_id, |expn_info| {
expn_info.map_or(NO_EXPANSION, |ei| ei.call_site.expn_id)
});
}
}
}
pub fn insert_macro(&mut self, def: ast::MacroDef) {
if def.export {
self.exported_macros.push(def.clone());
}
if def.use_locally {
let ext = macro_rules::compile(self, &def);
self.syntax_env.insert(def.ident.name, ext);
}
}
pub fn span_fatal(&self, sp: Span, msg: &str) -> ! {
panic!(self.parse_sess.span_diagnostic.span_fatal(sp, msg));
}
pub fn span_err(&self, sp: Span, msg: &str) {
self.parse_sess.span_diagnostic.span_err(sp, msg);
}
pub fn span_warn(&self, sp: Span, msg: &str) {
self.parse_sess.span_diagnostic.span_warn(sp, msg);
}
pub fn span_unimpl(&self, sp: Span, msg: &str) -> ! {
self.parse_sess.span_diagnostic.span_unimpl(sp, msg);
}
pub fn span_bug(&self, sp: Span, msg: &str) -> ! {
self.parse_sess.span_diagnostic.span_bug(sp, msg);
}
pub fn span_note(&self, sp: Span, msg: &str) {
self.parse_sess.span_diagnostic.span_note(sp, msg);
}
pub fn span_help(&self, sp: Span, msg: &str) {
self.parse_sess.span_diagnostic.span_help(sp, msg);
}
pub fn fileline_help(&self, sp: Span, msg: &str) {
self.parse_sess.span_diagnostic.fileline_help(sp, msg);
}
pub fn bug(&self, msg: &str) -> ! {
self.parse_sess.span_diagnostic.handler().bug(msg);
}
pub fn trace_macros(&self) -> bool {
self.ecfg.trace_mac
}
pub fn set_trace_macros(&mut self, x: bool) {
self.ecfg.trace_mac = x
}
pub fn ident_of(&self, st: &str) -> ast::Ident {
str_to_ident(st)
}
pub fn std_path(&self, components: &[&str]) -> Vec<ast::Ident> {
let mut v = Vec::new();
if let Some(s) = self.crate_root {
v.push(self.ident_of(s));
}
v.extend(components.iter().map(|s| self.ident_of(s)));
return v
}
pub fn name_of(&self, st: &str) -> ast::Name {
token::intern(st)
}
pub fn suggest_macro_name(&mut self, name: &str, span: Span) {
let mut min: Option<(Name, usize)> = None;
let max_dist = max_suggestion_distance(name);
for macro_name in self.syntax_env.names.iter() {
let dist = lev_distance(name, ¯o_name.as_str());
if dist <= max_dist && (min.is_none() || min.unwrap().1 > dist) {
min = Some((*macro_name, dist));
}
}
if let Some((suggestion, _)) = min {
self.fileline_help(span, &format!("did you mean `{}!`?", suggestion));
}
}
}
pub fn expr_to_string(cx: &mut ExtCtxt, expr: P<ast::Expr>, err_msg: &str)
-> Option<(InternedString, ast::StrStyle)> {
let expr = cx.expander().fold_expr(expr);
match expr.node {
ast::ExprLit(ref l) => match l.node {
ast::LitStr(ref s, style) => return Some(((*s).clone(), style)),
_ => cx.span_err(l.span, err_msg)
},
_ => cx.span_err(expr.span, err_msg)
}
None
}
pub fn check_zero_tts(cx: &ExtCtxt,
sp: Span,
tts: &[ast::TokenTree],
name: &str) {
if !tts.is_empty() {
cx.span_err(sp, &format!("{} takes no arguments", name));
}
}
pub fn get_single_str_from_tts(cx: &mut ExtCtxt,
sp: Span,
tts: &[ast::TokenTree],
name: &str)
-> Option<String> {
let mut p = cx.new_parser_from_tts(tts);
if p.token == token::Eof {
cx.span_err(sp, &format!("{} takes 1 argument", name));
return None
}
let ret = cx.expander().fold_expr(panictry!(p.parse_expr()));
if p.token != token::Eof {
cx.span_err(sp, &format!("{} takes 1 argument", name));
}
expr_to_string(cx, ret, "argument must be a string literal").map(|(s, _)| {
s.to_string()
})
}
pub fn get_exprs_from_tts(cx: &mut ExtCtxt,
sp: Span,
tts: &[ast::TokenTree]) -> Option<Vec<P<ast::Expr>>> {
let mut p = cx.new_parser_from_tts(tts);
let mut es = Vec::new();
while p.token != token::Eof {
es.push(cx.expander().fold_expr(panictry!(p.parse_expr())));
if panictry!(p.eat(&token::Comma)){
continue;
}
if p.token != token::Eof {
cx.span_err(sp, "expected token: `,`");
return None;
}
}
Some(es)
}
pub struct SyntaxEnv {
chain: Vec<MapChainFrame>,
pub names: HashSet<Name>,
}
struct MapChainFrame {
info: BlockInfo,
map: HashMap<Name, Rc<SyntaxExtension>>,
}
impl SyntaxEnv {
fn new() -> SyntaxEnv {
let mut map = SyntaxEnv { chain: Vec::new() , names: HashSet::new()};
map.push_frame();
map
}
pub fn push_frame(&mut self) {
self.chain.push(MapChainFrame {
info: BlockInfo::new(),
map: HashMap::new(),
});
}
pub fn pop_frame(&mut self) {
assert!(self.chain.len() > 1, "too many pops on MapChain!");
self.chain.pop();
}
fn find_escape_frame(&mut self) -> &mut MapChainFrame {
for (i, frame) in self.chain.iter_mut().enumerate().rev() {
if !frame.info.macros_escape || i == 0 {
return frame
}
}
unreachable!()
}
pub fn find(&self, k: Name) -> Option<Rc<SyntaxExtension>> {
for frame in self.chain.iter().rev() {
match frame.map.get(&k) {
Some(v) => return Some(v.clone()),
None => {}
}
}
None
}
pub fn insert(&mut self, k: Name, v: SyntaxExtension) {
if let NormalTT(..) = v {
self.names.insert(k);
}
self.find_escape_frame().map.insert(k, Rc::new(v));
}
pub fn info(&mut self) -> &mut BlockInfo {
let last_chain_index = self.chain.len() - 1;
&mut self.chain[last_chain_index].info
}
}