use std::mem;
use syntax::ast::{Expr, ExprParen, Lit, Stmt, TokenTree, TtDelimited, TtToken};
use syntax::ext::quote::rt::ToTokens;
use syntax::codemap::Span;
use syntax::ext::base::ExtCtxt;
use syntax::parse;
use syntax::parse::parser::Parser as RustParser;
use syntax::parse::token::{self, DelimToken};
use syntax::ptr::P;
use super::render::{Escape, Renderer};
macro_rules! dollar {
() => (TtToken(_, token::Dollar))
}
macro_rules! dot {
() => (TtToken(_, token::Dot))
}
macro_rules! eq {
() => (TtToken(_, token::Eq))
}
macro_rules! not {
() => (TtToken(_, token::Not))
}
macro_rules! question {
() => (TtToken(_, token::Question))
}
macro_rules! semi {
() => (TtToken(_, token::Semi))
}
macro_rules! minus {
() => (TtToken(_, token::BinOp(token::Minus)))
}
macro_rules! slash {
() => (TtToken(_, token::BinOp(token::Slash)))
}
macro_rules! literal {
() => (TtToken(_, token::Literal(..)))
}
macro_rules! ident {
($x:pat) => (ident!(_, $x));
($sp:pat, $x:pat) => (TtToken($sp, token::Ident($x, token::IdentStyle::Plain)))
}
pub fn parse(cx: &ExtCtxt, input: &[TokenTree], sp: Span) -> P<Expr> {
let mut parser = Parser {
in_attr: false,
input: input,
span: sp,
render: Renderer::new(cx),
};
parser.markups();
parser.into_render().into_expr()
}
struct Parser<'cx, 'i> {
in_attr: bool,
input: &'i [TokenTree],
span: Span,
render: Renderer<'cx>,
}
impl<'cx, 'i> Parser<'cx, 'i> {
fn into_render(self) -> Renderer<'cx> {
let Parser { render, .. } = self;
render
}
fn shift(&mut self, n: usize) {
self.input = &self.input[n..];
}
fn with_rust_parser<F, T>(&self, tts: Vec<TokenTree>, callback: F) -> T where
F: FnOnce(&mut RustParser<'cx>) -> T
{
let mut parser = parse::tts_to_parser(self.render.cx.parse_sess, tts,
self.render.cx.cfg.clone());
let result = callback(&mut parser);
if parser.token != token::Eof {
let token = parser.this_token_to_string();
self.render.cx.span_err(parser.span,
&format!("unexpected token: `{}`", token));
}
result
}
fn markups(&mut self) {
loop {
match self.input {
[] => return,
[semi!(), ..] => self.shift(1),
[_, ..] => if !self.markup() { return },
}
}
}
fn markup(&mut self) -> bool {
match self.input {
[minus!(), ref tt @ literal!(), ..] => {
self.shift(2);
self.literal(tt, true);
},
[ref tt @ literal!(), ..] => {
self.shift(1);
self.literal(tt, false);
},
[dollar!(), ident!(sp, name), ..] if name.as_str() == "if" => {
self.shift(2);
self.if_expr(sp);
},
[dollar!(), ident!(sp, name), ..] if name.as_str() == "for" => {
self.shift(2);
self.for_expr(sp);
},
[ref tt @ dollar!(), dollar!(), ..] => {
self.shift(2);
let expr = self.splice(tt.get_span());
self.render.splice(expr, Escape::PassThru);
},
[ref tt @ dollar!(), ..] => {
self.shift(1);
let expr = self.splice(tt.get_span());
self.render.splice(expr, Escape::Escape);
},
[ident!(sp, name), ..] => {
self.shift(1);
self.element(sp, name.as_str());
},
[TtDelimited(_, ref d), ..] if d.delim == token::DelimToken::Brace => {
self.shift(1);
{
let mut i = &*d.tts;
mem::swap(&mut self.input, &mut i);
self.markups();
mem::swap(&mut self.input, &mut i);
}
},
_ => {
if let [ref tt, ..] = self.input {
self.render.cx.span_err(tt.get_span(), "invalid syntax");
} else {
self.render.cx.span_err(self.span, "unexpected end of block");
}
return false;
},
}
true
}
fn literal(&mut self, tt: &TokenTree, minus: bool) {
let lit = self.with_rust_parser(vec![tt.clone()], RustParser::parse_lit);
let lit = match lit {
Ok(lit) => lit,
Err(err) => panic!(err),
};
match lit_to_string(self.render.cx, lit, minus) {
Some(s) => self.render.string(&s, Escape::Escape),
None => {},
}
}
fn if_expr(&mut self, sp: Span) {
let mut if_cond = vec![];
let if_body;
loop { match self.input {
[TtDelimited(sp, ref d), ..] if d.delim == DelimToken::Brace => {
self.shift(1);
if_body = self.block(sp, &d.tts);
break;
},
[ref tt, ..] => {
self.shift(1);
if_cond.push(tt.clone());
},
[] => self.render.cx.span_fatal(sp, "expected body for this $if"),
}}
let else_body = match self.input {
[dollar!(), ident!(else_), ..] if else_.as_str() == "else" => {
self.shift(2);
match self.input {
[ident!(sp, if_), ..] if if_.as_str() == "if" => {
self.shift(1);
let else_body = {
let mut r = self.render.fork();
mem::swap(&mut self.render, &mut r);
self.if_expr(sp);
mem::swap(&mut self.render, &mut r);
r.into_stmts()
};
Some(else_body)
},
[TtDelimited(sp, ref d), ..] if d.delim == DelimToken::Brace => {
self.shift(1);
Some(self.block(sp, &d.tts))
},
_ => self.render.cx.span_fatal(sp, "expected body for this $else"),
}
},
_ => None,
};
self.render.emit_if(if_cond, if_body, else_body);
}
fn for_expr(&mut self, sp: Span) {
let mut pattern = vec![];
loop { match self.input {
[ident!(in_), ..] if in_.as_str() == "in" => {
self.shift(1);
break;
},
[ref tt, ..] => {
self.shift(1);
pattern.push(tt.clone());
},
_ => self.render.cx.span_fatal(sp, "invalid $for"),
}}
let pattern = self.with_rust_parser(pattern, RustParser::parse_pat);
let mut iterable = vec![];
let body;
loop { match self.input {
[TtDelimited(sp, ref d), ..] if d.delim == DelimToken::Brace => {
self.shift(1);
body = self.block(sp, &d.tts);
break;
},
[ref tt, ..] => {
self.shift(1);
iterable.push(tt.clone());
},
_ => self.render.cx.span_fatal(sp, "invalid $for"),
}}
let iterable = self.with_rust_parser(iterable, RustParser::parse_expr);
self.render.emit_for(pattern, iterable, body);
}
fn splice(&mut self, sp: Span) -> P<Expr> {
let mut tts = vec![];
if let [ref tt, ..] = self.input {
self.shift(1);
tts.push(tt.clone());
}
loop { match self.input {
[ref dot @ dot!(), ref ident @ ident!(_), ..] => {
self.shift(2);
tts.push(dot.clone());
tts.push(ident.clone());
},
[TtDelimited(sp, ref d), ..] if d.delim != token::DelimToken::Brace => {
self.shift(1);
tts.push(TtDelimited(sp, d.clone()));
},
_ => break,
}}
if tts.is_empty() {
self.render.cx.span_fatal(sp, "expected expression for this splice");
} else {
self.with_rust_parser(tts, RustParser::parse_expr)
}
}
fn element(&mut self, sp: Span, name: &str) {
if self.in_attr {
self.render.cx.span_err(sp, "unexpected element, you silly bumpkin");
return;
}
self.render.element_open_start(name);
self.attrs();
self.render.element_open_end();
if let [slash!(), ..] = self.input {
self.shift(1);
} else {
self.markup();
self.render.element_close(name);
}
}
fn attrs(&mut self) {
loop { match self.input {
[ident!(name), eq!(), ..] => {
self.shift(2);
self.render.attribute_start(name.as_str());
{
let mut in_attr = true;
mem::swap(&mut self.in_attr, &mut in_attr);
self.markup();
mem::swap(&mut self.in_attr, &mut in_attr);
}
self.render.attribute_end();
},
[ident!(name), question!(), ..] => {
self.shift(2);
if let [ref tt @ eq!(), ..] = self.input {
self.shift(1);
let cond = self.splice(tt.get_span());
let cond = strip_outer_parens(cond).to_tokens(self.render.cx);
let body = {
let mut r = self.render.fork();
r.attribute_empty(name.as_str());
r.into_stmts()
};
self.render.emit_if(cond, body, None);
} else {
self.render.attribute_empty(name.as_str());
}
},
_ => return,
}}
}
fn block(&mut self, sp: Span, tts: &[TokenTree]) -> Vec<P<Stmt>> {
let mut parse = Parser {
in_attr: self.in_attr,
input: tts,
span: sp,
render: self.render.fork(),
};
parse.markups();
parse.into_render().into_stmts()
}
}
fn lit_to_string(cx: &ExtCtxt, lit: Lit, minus: bool) -> Option<String> {
use syntax::ast::Lit_::*;
let mut result = String::new();
if minus {
result.push('-');
}
match lit.node {
LitStr(s, _) => result.push_str(&s),
LitBinary(..) | LitByte(..) => {
cx.span_err(lit.span, "cannot splice binary data");
return None;
},
LitChar(c) => result.push(c),
LitInt(x, _) => result.push_str(&x.to_string()),
LitFloat(s, _) | LitFloatUnsuffixed(s) => result.push_str(&s),
LitBool(b) => result.push_str(if b { "true" } else { "false" }),
};
Some(result)
}
fn strip_outer_parens(expr: P<Expr>) -> P<Expr> {
expr.and_then(|expr| match expr {
Expr { node: ExprParen(inner), .. } => inner,
expr => P(expr),
})
}