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use syntax_pos::{BytePos, Span, DUMMY_SP};
use ext::base;
use ext::tt::{macro_parser, quoted};
use parse::Directory;
use parse::token::{self, Token};
use print::pprust;
use util::RcSlice;
use std::{fmt, iter, mem};
use std::hash::{self, Hash};
use serde::{Serialize, Serializer, Deserialize, Deserializer};
#[derive(Clone, PartialEq, Eq, Serialize, Deserialize, Hash, Debug)]
pub struct Delimited {
pub delim: token::DelimToken,
pub tts: ThinTokenStream,
}
impl Delimited {
pub fn open_token(&self) -> token::Token {
token::OpenDelim(self.delim)
}
pub fn close_token(&self) -> token::Token {
token::CloseDelim(self.delim)
}
pub fn open_tt(&self, span: Span) -> TokenTree {
let open_span = if span == DUMMY_SP {
DUMMY_SP
} else {
Span { hi: span.lo + BytePos(self.delim.len() as u32), ..span }
};
TokenTree::Token(open_span, self.open_token())
}
pub fn close_tt(&self, span: Span) -> TokenTree {
let close_span = if span == DUMMY_SP {
DUMMY_SP
} else {
Span { lo: span.hi - BytePos(self.delim.len() as u32), ..span }
};
TokenTree::Token(close_span, self.close_token())
}
pub fn stream(&self) -> TokenStream {
self.tts.clone().into()
}
}
#[derive(Debug, Clone, PartialEq, Eq, Serialize, Deserialize, Hash)]
pub enum TokenTree {
Token(Span, token::Token),
Delimited(Span, Delimited),
}
impl TokenTree {
pub fn parse(cx: &base::ExtCtxt, mtch: &[quoted::TokenTree], tts: TokenStream)
-> macro_parser::NamedParseResult {
let directory = Directory {
path: cx.current_expansion.module.directory.clone(),
ownership: cx.current_expansion.directory_ownership,
};
macro_parser::parse(cx.parse_sess(), tts, mtch, Some(directory), true)
}
pub fn eq_unspanned(&self, other: &TokenTree) -> bool {
match (self, other) {
(&TokenTree::Token(_, ref tk), &TokenTree::Token(_, ref tk2)) => tk == tk2,
(&TokenTree::Delimited(_, ref dl), &TokenTree::Delimited(_, ref dl2)) => {
dl.delim == dl2.delim &&
dl.stream().trees().zip(dl2.stream().trees()).all(|(tt, tt2)| tt.eq_unspanned(&tt2))
}
(_, _) => false,
}
}
pub fn span(&self) -> Span {
match *self {
TokenTree::Token(sp, _) | TokenTree::Delimited(sp, _) => sp,
}
}
pub fn eq_token(&self, t: Token) -> bool {
match *self {
TokenTree::Token(_, ref tk) => *tk == t,
_ => false,
}
}
}
#[derive(Clone, Debug)]
pub struct TokenStream {
kind: TokenStreamKind,
}
#[derive(Clone, Debug)]
enum TokenStreamKind {
Empty,
Tree(TokenTree),
Stream(RcSlice<TokenStream>),
}
impl From<TokenTree> for TokenStream {
fn from(tt: TokenTree) -> TokenStream {
TokenStream { kind: TokenStreamKind::Tree(tt) }
}
}
impl From<Token> for TokenStream {
fn from(token: Token) -> TokenStream {
TokenTree::Token(DUMMY_SP, token).into()
}
}
impl<T: Into<TokenStream>> iter::FromIterator<T> for TokenStream {
fn from_iter<I: IntoIterator<Item = T>>(iter: I) -> Self {
TokenStream::concat(iter.into_iter().map(Into::into).collect::<Vec<_>>())
}
}
impl Eq for TokenStream {}
impl PartialEq<TokenStream> for TokenStream {
fn eq(&self, other: &TokenStream) -> bool {
self.trees().eq(other.trees())
}
}
impl TokenStream {
pub fn empty() -> TokenStream {
TokenStream { kind: TokenStreamKind::Empty }
}
pub fn is_empty(&self) -> bool {
match self.kind {
TokenStreamKind::Empty => true,
_ => false,
}
}
pub fn concat(mut streams: Vec<TokenStream>) -> TokenStream {
match streams.len() {
0 => TokenStream::empty(),
1 => TokenStream::from(streams.pop().unwrap()),
_ => TokenStream::concat_rc_slice(RcSlice::new(streams)),
}
}
fn concat_rc_slice(streams: RcSlice<TokenStream>) -> TokenStream {
TokenStream { kind: TokenStreamKind::Stream(streams) }
}
pub fn trees(&self) -> Cursor {
self.clone().into_trees()
}
pub fn into_trees(self) -> Cursor {
Cursor::new(self)
}
pub fn eq_unspanned(&self, other: &TokenStream) -> bool {
for (t1, t2) in self.trees().zip(other.trees()) {
if !t1.eq_unspanned(&t2) {
return false;
}
}
true
}
}
pub struct Cursor(CursorKind);
enum CursorKind {
Empty,
Tree(TokenTree, bool ),
Stream(StreamCursor),
}
struct StreamCursor {
stream: RcSlice<TokenStream>,
index: usize,
stack: Vec<(RcSlice<TokenStream>, usize)>,
}
impl Iterator for Cursor {
type Item = TokenTree;
fn next(&mut self) -> Option<TokenTree> {
let cursor = match self.0 {
CursorKind::Stream(ref mut cursor) => cursor,
CursorKind::Tree(ref tree, ref mut consumed @ false) => {
*consumed = true;
return Some(tree.clone());
}
_ => return None,
};
loop {
if cursor.index < cursor.stream.len() {
match cursor.stream[cursor.index].kind.clone() {
TokenStreamKind::Tree(tree) => {
cursor.index += 1;
return Some(tree);
}
TokenStreamKind::Stream(stream) => {
cursor.stack.push((mem::replace(&mut cursor.stream, stream),
mem::replace(&mut cursor.index, 0) + 1));
}
TokenStreamKind::Empty => {
cursor.index += 1;
}
}
} else if let Some((stream, index)) = cursor.stack.pop() {
cursor.stream = stream;
cursor.index = index;
} else {
return None;
}
}
}
}
impl Cursor {
fn new(stream: TokenStream) -> Self {
Cursor(match stream.kind {
TokenStreamKind::Empty => CursorKind::Empty,
TokenStreamKind::Tree(tree) => CursorKind::Tree(tree, false),
TokenStreamKind::Stream(stream) => {
CursorKind::Stream(StreamCursor { stream: stream, index: 0, stack: Vec::new() })
}
})
}
pub fn original_stream(self) -> TokenStream {
match self.0 {
CursorKind::Empty => TokenStream::empty(),
CursorKind::Tree(tree, _) => tree.into(),
CursorKind::Stream(cursor) => TokenStream::concat_rc_slice({
cursor.stack.get(0).cloned().map(|(stream, _)| stream).unwrap_or(cursor.stream)
}),
}
}
pub fn look_ahead(&self, n: usize) -> Option<TokenTree> {
fn look_ahead(streams: &[TokenStream], mut n: usize) -> Result<TokenTree, usize> {
for stream in streams {
n = match stream.kind {
TokenStreamKind::Tree(ref tree) if n == 0 => return Ok(tree.clone()),
TokenStreamKind::Tree(..) => n - 1,
TokenStreamKind::Stream(ref stream) => match look_ahead(stream, n) {
Ok(tree) => return Ok(tree),
Err(n) => n,
},
_ => n,
};
}
Err(n)
}
match self.0 {
CursorKind::Empty | CursorKind::Tree(_, true) => Err(n),
CursorKind::Tree(ref tree, false) => look_ahead(&[tree.clone().into()], n),
CursorKind::Stream(ref cursor) => {
look_ahead(&cursor.stream[cursor.index ..], n).or_else(|mut n| {
for &(ref stream, index) in cursor.stack.iter().rev() {
n = match look_ahead(&stream[index..], n) {
Ok(tree) => return Ok(tree),
Err(n) => n,
}
}
Err(n)
})
}
}.ok()
}
}
#[derive(Debug, Clone)]
pub struct ThinTokenStream(Option<RcSlice<TokenStream>>);
impl From<TokenStream> for ThinTokenStream {
fn from(stream: TokenStream) -> ThinTokenStream {
ThinTokenStream(match stream.kind {
TokenStreamKind::Empty => None,
TokenStreamKind::Tree(tree) => Some(RcSlice::new(vec![tree.into()])),
TokenStreamKind::Stream(stream) => Some(stream),
})
}
}
impl From<ThinTokenStream> for TokenStream {
fn from(stream: ThinTokenStream) -> TokenStream {
stream.0.map(TokenStream::concat_rc_slice).unwrap_or_else(TokenStream::empty)
}
}
impl Eq for ThinTokenStream {}
impl PartialEq<ThinTokenStream> for ThinTokenStream {
fn eq(&self, other: &ThinTokenStream) -> bool {
TokenStream::from(self.clone()) == TokenStream::from(other.clone())
}
}
impl fmt::Display for TokenStream {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str(&pprust::tokens_to_string(self.clone()))
}
}
impl Serialize for TokenStream {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where S: Serializer
{
self.trees().collect::<Vec<_>>().serialize(serializer)
}
}
impl<'de> Deserialize<'de> for TokenStream {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where D: Deserializer<'de>
{
Vec::<TokenTree>::deserialize(deserializer).map(|vec| vec.into_iter().collect())
}
}
impl Hash for TokenStream {
fn hash<H: hash::Hasher>(&self, state: &mut H) {
for tree in self.trees() {
tree.hash(state);
}
}
}
impl Serialize for ThinTokenStream {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where S: Serializer
{
TokenStream::from(self.clone()).serialize(serializer)
}
}
impl<'de> Deserialize<'de> for ThinTokenStream {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where D: Deserializer<'de>
{
TokenStream::deserialize(deserializer).map(Into::into)
}
}
impl Hash for ThinTokenStream {
fn hash<H: hash::Hasher>(&self, state: &mut H) {
TokenStream::from(self.clone()).hash(state);
}
}
#[cfg(test)]
mod tests {
use super::*;
use syntax::ast::Ident;
use syntax_pos::{Span, BytePos, NO_EXPANSION};
use parse::token::Token;
use util::parser_testing::string_to_stream;
fn string_to_ts(string: &str) -> TokenStream {
string_to_stream(string.to_owned())
}
fn sp(a: u32, b: u32) -> Span {
Span {
lo: BytePos(a),
hi: BytePos(b),
ctxt: NO_EXPANSION,
}
}
#[test]
fn test_concat() {
let test_res = string_to_ts("foo::bar::baz");
let test_fst = string_to_ts("foo::bar");
let test_snd = string_to_ts("::baz");
let eq_res = TokenStream::concat(vec![test_fst, test_snd]);
assert_eq!(test_res.trees().count(), 5);
assert_eq!(eq_res.trees().count(), 5);
assert_eq!(test_res.eq_unspanned(&eq_res), true);
}
#[test]
fn test_to_from_bijection() {
let test_start = string_to_ts("foo::bar(baz)");
let test_end = test_start.trees().collect();
assert_eq!(test_start, test_end)
}
#[test]
fn test_eq_0() {
let test_res = string_to_ts("foo");
let test_eqs = string_to_ts("foo");
assert_eq!(test_res, test_eqs)
}
#[test]
fn test_eq_1() {
let test_res = string_to_ts("::bar::baz");
let test_eqs = string_to_ts("::bar::baz");
assert_eq!(test_res, test_eqs)
}
#[test]
fn test_eq_3() {
let test_res = string_to_ts("");
let test_eqs = string_to_ts("");
assert_eq!(test_res, test_eqs)
}
#[test]
fn test_diseq_0() {
let test_res = string_to_ts("::bar::baz");
let test_eqs = string_to_ts("bar::baz");
assert_eq!(test_res == test_eqs, false)
}
#[test]
fn test_diseq_1() {
let test_res = string_to_ts("(bar,baz)");
let test_eqs = string_to_ts("bar,baz");
assert_eq!(test_res == test_eqs, false)
}
#[test]
fn test_is_empty() {
let test0: TokenStream = Vec::<TokenTree>::new().into_iter().collect();
let test1: TokenStream =
TokenTree::Token(sp(0, 1), Token::Ident(Ident::from_str("a"))).into();
let test2 = string_to_ts("foo(bar::baz)");
assert_eq!(test0.is_empty(), true);
assert_eq!(test1.is_empty(), false);
assert_eq!(test2.is_empty(), false);
}
}