diff --git a/maud/Cargo.toml b/maud/Cargo.toml
index 9349900..bfcb7bf 100644
--- a/maud/Cargo.toml
+++ b/maud/Cargo.toml
@@ -13,6 +13,7 @@ description = "Compile-time HTML templates."
categories = ["template-engine"]
[dependencies]
+maud_macros = { version = "0.16.3", path = "../maud_macros" }
iron = { version = "0.5.1", optional = true }
rocket = { version = "0.3", optional = true }
diff --git a/maud/src/lib.rs b/maud/src/lib.rs
index 4e9dec2..95b3d71 100644
--- a/maud/src/lib.rs
+++ b/maud/src/lib.rs
@@ -1,3 +1,4 @@
+#![feature(proc_macro)]
#![feature(specialization)]
//! A macro for writing HTML templates.
@@ -12,8 +13,12 @@
#[cfg(feature = "iron")] extern crate iron;
#[cfg(feature = "rocket")] extern crate rocket;
+extern crate maud_macros;
+
use std::fmt::{self, Write};
+pub use maud_macros::{html, html_debug};
+
/// Represents a type that can be rendered as HTML.
///
/// If your type implements [`Display`][1], then it will implement this
diff --git a/maud_macros/tests/basic_syntax.rs b/maud/tests/basic_syntax.rs
similarity index 98%
rename from maud_macros/tests/basic_syntax.rs
rename to maud/tests/basic_syntax.rs
index 30ccaff..a31cd39 100644
--- a/maud_macros/tests/basic_syntax.rs
+++ b/maud/tests/basic_syntax.rs
@@ -1,9 +1,8 @@
-#![feature(plugin)]
-#![plugin(maud_macros)]
+#![feature(proc_macro)]
extern crate maud;
-use maud::Markup;
+use maud::{Markup, html};
#[test]
fn literals() {
diff --git a/maud_macros/tests/control_structures.rs b/maud/tests/control_structures.rs
similarity index 98%
rename from maud_macros/tests/control_structures.rs
rename to maud/tests/control_structures.rs
index 7d574f5..891d10e 100644
--- a/maud_macros/tests/control_structures.rs
+++ b/maud/tests/control_structures.rs
@@ -1,8 +1,9 @@
-#![feature(conservative_impl_trait, plugin)]
-#![plugin(maud_macros)]
+#![feature(conservative_impl_trait, proc_macro)]
extern crate maud;
+use maud::html;
+
#[test]
fn if_expr() {
for (number, &name) in (1..4).zip(["one", "two", "three"].iter()) {
diff --git a/maud_macros/tests/misc.rs b/maud/tests/misc.rs
similarity index 96%
rename from maud_macros/tests/misc.rs
rename to maud/tests/misc.rs
index 8928379..c367db3 100644
--- a/maud_macros/tests/misc.rs
+++ b/maud/tests/misc.rs
@@ -1,8 +1,9 @@
-#![feature(plugin)]
-#![plugin(maud_macros)]
+#![feature(proc_macro)]
extern crate maud;
+use maud::html;
+
#[test]
fn issue_13() {
let owned = String::from("yay");
diff --git a/maud_macros/tests/splices.rs b/maud/tests/splices.rs
similarity index 97%
rename from maud_macros/tests/splices.rs
rename to maud/tests/splices.rs
index b5dc006..4a221f0 100644
--- a/maud_macros/tests/splices.rs
+++ b/maud/tests/splices.rs
@@ -1,8 +1,9 @@
-#![feature(plugin)]
-#![plugin(maud_macros)]
+#![feature(proc_macro)]
extern crate maud;
+use maud::html;
+
#[test]
fn literals() {
let s = html!(("<pinkie>")).into_string();
diff --git a/maud_macros/Cargo.toml b/maud_macros/Cargo.toml
index e4ff337..6c43639 100644
--- a/maud_macros/Cargo.toml
+++ b/maud_macros/Cargo.toml
@@ -13,11 +13,11 @@ description = "Compile-time HTML templates."
[dependencies]
if_chain = "0.1"
-maud = { path = "../maud", version = "0.16.0" }
+literalext = { git = "https://github.com/mystor/literalext.git", default-features = false, features = ["proc-macro"] }
[lib]
name = "maud_macros"
-plugin = true
+proc-macro = true
[badges]
travis-ci = { repository = "lfairy/maud" }
diff --git a/maud_macros/src/lib.rs b/maud_macros/src/lib.rs
index b580f47..dcc70c0 100644
--- a/maud_macros/src/lib.rs
+++ b/maud_macros/src/lib.rs
@@ -1,53 +1,46 @@
-#![crate_type = "dylib"]
-#![feature(plugin_registrar, quote)]
-#![feature(slice_patterns)]
-#![feature(rustc_private)]
+#![feature(proc_macro)]
#![recursion_limit = "1000"] // if_chain
#![doc(html_root_url = "https://docs.rs/maud_macros/0.16.3")]
#[macro_use]
extern crate if_chain;
-#[macro_use]
-extern crate rustc;
-extern crate rustc_plugin;
-extern crate syntax;
-extern crate maud;
+extern crate literalext;
+extern crate proc_macro;
-use rustc_plugin::Registry;
-use syntax::codemap::Span;
-use syntax::ext::base::{DummyResult, ExtCtxt, MacEager, MacResult};
-use syntax::print::pprust;
-use syntax::tokenstream::TokenTree;
-
-mod lints;
+// TODO move lints into their own `maud_lints` crate
+// mod lints;
mod parse;
mod render;
-type ParseResult<T> = Result<T, ()>;
+use proc_macro::TokenStream;
-fn expand_html<'cx>(cx: &'cx mut ExtCtxt, sp: Span, args: &[TokenTree]) -> Box<MacResult + 'cx> {
- match parse::parse(cx, sp, args) {
- Ok(expr) => MacEager::expr(quote_expr!(cx, $expr)),
- Err(..) => DummyResult::expr(sp),
+type ParseResult<T> = Result<T, String>;
+
+#[proc_macro]
+pub fn html(args: TokenStream) -> TokenStream {
+ match parse::parse(args) {
+ Ok(expr) => expr,
+ Err(e) => panic!(e),
}
}
-fn expand_html_debug<'cx>(cx: &'cx mut ExtCtxt, sp: Span, args: &[TokenTree]) -> Box<MacResult + 'cx> {
- match parse::parse(cx, sp, args) {
+#[proc_macro]
+pub fn html_debug(args: TokenStream) -> TokenStream {
+ match parse::parse(args) {
Ok(expr) => {
- let expr = quote_expr!(cx, $expr);
- cx.span_warn(sp, &format!("expansion:\n{}",
- pprust::expr_to_string(&expr)));
- MacEager::expr(expr)
+ println!("expansion:\n{}", expr);
+ expr
},
- Err(..) => DummyResult::expr(sp),
+ Err(e) => panic!(e),
}
}
+/*
#[plugin_registrar]
pub fn plugin_registrar(reg: &mut Registry) {
reg.register_macro("html", expand_html);
reg.register_macro("html_debug", expand_html_debug);
lints::register_lints(reg);
}
+*/
diff --git a/maud_macros/src/parse.rs b/maud_macros/src/parse.rs
index 06accaf..362f066 100644
--- a/maud_macros/src/parse.rs
+++ b/maud_macros/src/parse.rs
@@ -1,484 +1,246 @@
+use proc_macro::{Delimiter, Literal, TokenNode, TokenStream, TokenTree, TokenTreeIter};
use std::mem;
-use syntax::ast::LitKind;
-use syntax::codemap::Span;
-use syntax::ext::base::ExtCtxt;
-use syntax::parse;
-use syntax::parse::token::{BinOpToken, DelimToken, Token};
-use syntax::print::pprust;
-use syntax::symbol::keywords;
-use syntax::tokenstream::{Delimited, TokenStream, TokenTree};
+
+use literalext::LiteralExt;
use super::render::Renderer;
use super::ParseResult;
-macro_rules! at {
- () => (TokenTree::Token(_, Token::At))
-}
-macro_rules! dot {
- () => (TokenTree::Token(_, Token::Dot))
-}
-macro_rules! eq {
- () => (TokenTree::Token(_, Token::Eq))
-}
-macro_rules! pound {
- () => (TokenTree::Token(_, Token::Pound))
-}
-macro_rules! question {
- () => (TokenTree::Token(_, Token::Question))
-}
-macro_rules! semi {
- () => (TokenTree::Token(_, Token::Semi))
-}
-macro_rules! colon {
- () => (TokenTree::Token(_, Token::Colon))
-}
-macro_rules! comma {
- () => (TokenTree::Token(_, Token::Comma))
-}
-macro_rules! fat_arrow {
- () => (TokenTree::Token(_, Token::FatArrow))
-}
-macro_rules! minus {
- () => (TokenTree::Token(_, Token::BinOp(BinOpToken::Minus)))
-}
-macro_rules! slash {
- () => (TokenTree::Token(_, Token::BinOp(BinOpToken::Slash)))
-}
-macro_rules! literal {
- () => (TokenTree::Token(_, Token::Literal(..)))
-}
-macro_rules! ident {
- ($sp:pat, $x:pat) => (TokenTree::Token($sp, Token::Ident($x)))
-}
-macro_rules! keyword {
- ($sp:pat, $x:ident) => (TokenTree::Token($sp, ref $x @ Token::Ident(..)))
-}
-
-pub fn parse(cx: &ExtCtxt, sp: Span, input: &[TokenTree]) -> ParseResult<Vec<TokenTree>> {
- let mut render = Renderer::new(cx);
- Parser {
- cx,
+pub fn parse(input: TokenStream) -> ParseResult<TokenStream> {
+ let mut render = Renderer::new();
+ let _ = Parser {
in_attr: false,
- input: input,
- span: sp,
+ input: Lookahead::new(input.clone()),
+ }.markups(&mut render);
+ /*
+ Parser {
+ in_attr: false,
+ input: Lookahead::new(input.clone()),
}.markups(&mut render)?;
+ */
// Heuristic: the size of the resulting markup tends to correlate with the
// code size of the template itself
- let size_hint = pprust::tts_to_string(input).len();
- Ok(render.into_expr(size_hint).into_trees().collect())
+ let size_hint = input.to_string().len();
+ Ok(render.into_expr(size_hint))
}
-struct Parser<'cx, 'a: 'cx, 'i> {
- cx: &'cx ExtCtxt<'a>,
+struct Parser {
in_attr: bool,
- input: &'i [TokenTree],
- span: Span,
+ input: Lookahead<TokenTree>,
}
-impl<'cx, 'a, 'i> Parser<'cx, 'a, 'i> {
- /// Consumes `n` items from the input.
- fn shift(&mut self, n: usize) {
- self.input = &self.input[n..];
+impl Parser {
+ fn next(&mut self) -> Option<TokenNode> {
+ self.input.next().map(|tt| tt.kind)
+ }
+
+ fn peek(&mut self) -> Option<TokenNode> {
+ self.input.peek().map(|tt| tt.kind)
+ }
+
+ fn advance(&mut self) {
+ self.next();
}
/// Attaches an error message to the span and returns `Err`.
- fn error<T>(&self, span: Span, message: &str) -> ParseResult<T> {
- self.cx.span_err(span, message);
- Err(())
+ fn error<T, E: Into<String>>(&self, message: E) -> ParseResult<T> {
+ Err(message.into())
}
/// Parses and renders multiple blocks of markup.
fn markups(&mut self, render: &mut Renderer) -> ParseResult<()> {
loop {
- match *self.input {
- [] => return Ok(()),
- [semi!(), ..] => self.shift(1),
- [_, ..] => self.markup(render)?,
+ match self.peek() {
+ None => return Ok(()),
+ Some(TokenNode::Op(';', _)) => self.advance(),
+ _ => self.markup(render)?,
}
}
}
/// Parses and renders a single block of markup.
fn markup(&mut self, render: &mut Renderer) -> ParseResult<()> {
- match *self.input {
+ let token = match self.peek() {
+ Some(token) => token,
+ None => return self.error("unexpected end of input"),
+ };
+ match token {
// Literal
- [ref tt @ literal!(), ..] => {
- self.shift(1);
- self.literal(tt, render)?;
+ TokenNode::Literal(lit) => {
+ self.advance();
+ self.literal(lit, render)?;
},
- // If
- [at!(), keyword!(sp, k), ..] if k.is_keyword(keywords::If) => {
- self.shift(2);
- self.if_expr(sp, render)?;
- },
- // While
- [at!(), keyword!(sp, k), ..] if k.is_keyword(keywords::While) => {
- self.shift(2);
- self.while_expr(sp, render)?;
- },
- // For
- [at!(), keyword!(sp, k), ..] if k.is_keyword(keywords::For) => {
- self.shift(2);
- self.for_expr(sp, render)?;
- },
- // Match
- [at!(), keyword!(sp, k), ..] if k.is_keyword(keywords::Match) => {
- self.shift(2);
- self.match_expr(sp, render)?;
- },
- // Let
- [at!(), keyword!(sp, k), ..] if k.is_keyword(keywords::Let) => {
- self.shift(2);
- self.let_expr(sp, render)?;
+ // Special form
+ TokenNode::Op('@', _) => {
+ self.advance();
+ match self.next() {
+ Some(TokenNode::Term(term)) => match term.as_str() {
+ "if" => self.if_expr(render)?,
+ "while" => self.while_expr(render)?,
+ "for" => self.for_expr(render)?,
+ "match" => self.match_expr(render)?,
+ "let" => self.let_expr(render)?,
+ other => return self.error(format!("unknown keyword `@{}`", other)),
+ },
+ _ => return self.error("expected keyword after `@`"),
+ }
}
// Element
- [ident!(sp, _), ..] => {
- let name = self.namespaced_name().unwrap();
- self.element(sp, &name, render)?;
+ TokenNode::Term(_) => {
+ let name = self.namespaced_name()?;
+ self.element(&name, render)?;
},
// Splice
- [TokenTree::Delimited(_, ref d), ..] if d.delim == DelimToken::Paren => {
- self.shift(1);
- render.splice(d.stream());
+ TokenNode::Group(Delimiter::Parenthesis, expr) => {
+ self.advance();
+ render.splice(expr);
}
// Block
- [TokenTree::Delimited(sp, ref d), ..] if d.delim == DelimToken::Brace => {
- self.shift(1);
+ TokenNode::Group(Delimiter::Brace, block) => {
+ self.advance();
Parser {
- cx: self.cx,
in_attr: self.in_attr,
- input: &d.stream().into_trees().collect::<Vec<_>>(),
- span: sp,
+ input: Lookahead::new(block),
}.markups(render)?;
},
// ???
- _ => {
- if let [ref tt, ..] = *self.input {
- return self.error(tt.span(), "invalid syntax");
- } else {
- return self.error(self.span, "unexpected end of block");
- }
- },
+ _ => return self.error("invalid syntax"),
}
Ok(())
}
/// Parses and renders a literal string.
- fn literal(&mut self, tt: &TokenTree, render: &mut Renderer) -> ParseResult<()> {
- let mut rust_parser = parse::stream_to_parser(self.cx.parse_sess, tt.clone().into());
- let lit = rust_parser.parse_lit().map_err(|mut e| e.emit())?;
- if let LitKind::Str(s, _) = lit.node {
- render.string(&s.as_str());
+ fn literal(&mut self, lit: Literal, render: &mut Renderer) -> ParseResult<()> {
+ if let Some(s) = lit.parse_string() {
+ render.string(&s);
Ok(())
} else {
- return self.error(lit.span, "literal strings must be surrounded by quotes (\"like this\")")
+ self.error("expected string")
}
}
/// Parses and renders an `@if` expression.
///
/// The leading `@if` should already be consumed.
- fn if_expr(&mut self, sp: Span, render: &mut Renderer) -> ParseResult<()> {
- // Parse the initial if
- let mut if_cond = vec![];
- let if_body;
- loop { match *self.input {
- [TokenTree::Delimited(sp, ref d), ..] if d.delim == DelimToken::Brace => {
- self.shift(1);
- if_body = self.block(sp, d.stream(), render)?;
- break;
- },
- [ref tt, ..] => {
- self.shift(1);
- if_cond.push(tt.clone());
- },
- [] => return self.error(sp, "expected body for this @if"),
- }}
- // Parse the (optional) @else
- let else_body = match *self.input {
- [at!(), keyword!(_, k), ..] if k.is_keyword(keywords::Else) => {
- self.shift(2);
- match *self.input {
- [keyword!(sp, k), ..] if k.is_keyword(keywords::If) => {
- self.shift(1);
- let mut render = render.fork();
- self.if_expr(sp, &mut render)?;
- Some(render.into_stmts())
- },
- [TokenTree::Delimited(sp, ref d), ..] if d.delim == DelimToken::Brace => {
- self.shift(1);
- Some(self.block(sp, d.stream(), render)?)
- },
- _ => return self.error(sp, "expected body for this @else"),
- }
- },
- _ => None,
- };
- render.emit_if(if_cond.into_iter().collect(), if_body, else_body);
- Ok(())
+ fn if_expr(&mut self, render: &mut Renderer) -> ParseResult<()> {
+ self.error("unimplemented")
}
/// Parses and renders an `@while` expression.
///
/// The leading `@while` should already be consumed.
- fn while_expr(&mut self, sp: Span, render: &mut Renderer) -> ParseResult<()> {
- let mut cond = vec![];
- let body;
- loop { match *self.input {
- [TokenTree::Delimited(sp, ref d), ..] if d.delim == DelimToken::Brace => {
- self.shift(1);
- body = self.block(sp, d.stream(), render)?;
- break;
- },
- [ref tt, ..] => {
- self.shift(1);
- cond.push(tt.clone());
- },
- [] => return self.error(sp, "expected body for this @while"),
- }}
- render.emit_while(cond.into_iter().collect(), body);
- Ok(())
+ fn while_expr(&mut self, render: &mut Renderer) -> ParseResult<()> {
+ self.error("unimplemented")
}
/// Parses and renders a `@for` expression.
///
/// The leading `@for` should already be consumed.
- fn for_expr(&mut self, sp: Span, render: &mut Renderer) -> ParseResult<()> {
- let mut pattern = vec![];
- loop { match *self.input {
- [keyword!(_, k), ..] if k.is_keyword(keywords::In) => {
- self.shift(1);
- break;
- },
- [ref tt, ..] => {
- self.shift(1);
- pattern.push(tt.clone());
- },
- _ => return self.error(sp, "invalid @for"),
- }}
- let mut iterable = vec![];
- let body;
- loop { match *self.input {
- [TokenTree::Delimited(sp, ref d), ..] if d.delim == DelimToken::Brace => {
- self.shift(1);
- body = self.block(sp, d.stream(), render)?;
- break;
- },
- [ref tt, ..] => {
- self.shift(1);
- iterable.push(tt.clone());
- },
- _ => return self.error(sp, "invalid @for"),
- }}
- render.emit_for(pattern.into_iter().collect(), iterable.into_iter().collect(), body);
- Ok(())
+ fn for_expr(&mut self, render: &mut Renderer) -> ParseResult<()> {
+ self.error("unimplemented")
}
/// Parses and renders a `@match` expression.
///
/// The leading `@match` should already be consumed.
- fn match_expr(&mut self, sp: Span, render: &mut Renderer) -> ParseResult<()> {
- // Parse the initial match
- let mut match_var = vec![];
- let match_bodies;
- loop { match *self.input {
- [TokenTree::Delimited(sp, ref d), ..] if d.delim == DelimToken::Brace => {
- self.shift(1);
- match_bodies = Parser {
- cx: self.cx,
- in_attr: self.in_attr,
- input: &d.stream().into_trees().collect::<Vec<_>>(),
- span: sp,
- }.match_bodies(render)?;
- break;
- },
- [ref tt, ..] => {
- self.shift(1);
- match_var.push(tt.clone());
- },
- [] => return self.error(sp, "expected body for this @match"),
- }}
- render.emit_match(match_var.into_iter().collect(), match_bodies.into_iter().collect());
- Ok(())
+ fn match_expr(&mut self, render: &mut Renderer) -> ParseResult<()> {
+ self.error("unimplemented")
}
fn match_bodies(&mut self, render: &mut Renderer) -> ParseResult<Vec<TokenTree>> {
- let mut bodies = Vec::new();
- loop { match *self.input {
- [] => break,
- [ref tt @ comma!(), ..] => {
- self.shift(1);
- bodies.push(tt.clone());
- },
- [ref tt, ..] => bodies.append(&mut self.match_body(tt.span(), render)?),
- }}
- Ok(bodies)
+ self.error("unimplemented")
}
- fn match_body(&mut self, sp: Span, render: &mut Renderer) -> ParseResult<Vec<TokenTree>> {
- let mut body = vec![];
- loop { match *self.input {
- [ref tt @ fat_arrow!(), ..] => {
- self.shift(1);
- body.push(tt.clone());
- break;
- },
- [ref tt, ..] => {
- self.shift(1);
- body.push(tt.clone());
- },
- _ => return self.error(sp, "invalid @match pattern"),
- }}
- let mut expr = Vec::new();
- loop { match *self.input {
- [TokenTree::Delimited(sp, ref d), ..] if d.delim == DelimToken::Brace => {
- if expr.is_empty() {
- self.shift(1);
- expr = self.block(sp, d.stream(), render)?.into_trees().collect();
- break;
- } else {
- self.shift(1);
- expr.push(TokenTree::Delimited(sp, d.clone()));
- }
- },
- [comma!(), ..] | [] => {
- if expr.is_empty() {
- return self.error(sp, "expected body for this @match arm");
- } else {
- expr = self.block(sp, expr.into_iter().collect(), render)?.into_trees().collect();
- break;
- }
- },
- [ref tt, ..] => {
- self.shift(1);
- expr.push(tt.clone());
- },
- }}
- body.push(TokenTree::Delimited(sp, Delimited {
- delim: DelimToken::Brace,
- tts: expr.into_iter().collect::<TokenStream>().into(),
- }));
- Ok(body)
+ fn match_body(&mut self, render: &mut Renderer) -> ParseResult<Vec<TokenTree>> {
+ self.error("unimplemented")
}
/// Parses and renders a `@let` expression.
///
/// The leading `@let` should already be consumed.
- fn let_expr(&mut self, sp: Span, render: &mut Renderer) -> ParseResult<()> {
- let mut pattern = vec![];
- loop { match *self.input {
- [eq!(), ..] => {
- self.shift(1);
- break;
- },
- [ref tt, ..] => {
- self.shift(1);
- pattern.push(tt.clone());
- },
- _ => return self.error(sp, "invalid @let"),
- }}
- let mut rhs = vec![];
- let body;
- loop { match *self.input {
- [TokenTree::Delimited(sp, ref d), ..] if d.delim == DelimToken::Brace => {
- self.shift(1);
- body = self.block(sp, d.stream(), render)?;
- break;
- },
- [ref tt, ..] => {
- self.shift(1);
- rhs.push(tt.clone());
- },
- _ => return self.error(sp, "invalid @let"),
- }}
- render.emit_let(pattern.into_iter().collect(), rhs.into_iter().collect(), body);
- Ok(())
+ fn let_expr(&mut self, render: &mut Renderer) -> ParseResult<()> {
+ self.error("unimplemented")
}
/// Parses and renders an element node.
///
/// The element name should already be consumed.
- fn element(&mut self, sp: Span, name: &str, render: &mut Renderer) -> ParseResult<()> {
+ fn element(&mut self, name: &str, render: &mut Renderer) -> ParseResult<()> {
if self.in_attr {
- return self.error(sp, "unexpected element, you silly bumpkin");
+ return self.error("unexpected element, you silly bumpkin");
}
render.element_open_start(name);
self.attrs(render)?;
render.element_open_end();
- if let [slash!(), ..] = *self.input {
- self.shift(1);
- } else {
- self.markup(render)?;
- render.element_close(name);
+ match self.peek() {
+ Some(TokenNode::Op('/', _)) => {
+ // Void element
+ self.advance();
+ },
+ _ => {
+ self.markup(render)?;
+ render.element_close(name);
+ },
}
Ok(())
}
/// Parses and renders the attributes of an element.
fn attrs(&mut self, render: &mut Renderer) -> ParseResult<()> {
- let mut classes_static = Vec::new();
- let mut classes_toggled = Vec::new();
- let mut ids = Vec::new();
+ let mut classes_static: Vec<String> = Vec::new();
+ let mut classes_toggled: Vec<(TokenStream, String)> = Vec::new();
+ let mut ids: Vec<String> = Vec::new();
loop {
- let old_input = self.input;
+ let start_position = self.input.save();
let maybe_name = self.namespaced_name();
- match (maybe_name, self.input) {
- (Ok(name), &[eq!(), ..]) => {
- // Non-empty attribute
- self.shift(1);
+ let token_after = self.next();
+ match (maybe_name, token_after) {
+ // Non-empty attribute
+ (Ok(name), Some(TokenNode::Op('=', _))) => {
render.attribute_start(&name);
{
// Parse a value under an attribute context
- let mut in_attr = true;
- mem::swap(&mut self.in_attr, &mut in_attr);
+ let in_attr = mem::replace(&mut self.in_attr, true);
self.markup(render)?;
- mem::swap(&mut self.in_attr, &mut in_attr);
+ self.in_attr = in_attr;
}
render.attribute_end();
},
- (Ok(name), &[question!(), ..]) => {
- // Empty attribute
- self.shift(1);
- match *self.input {
- [TokenTree::Delimited(_, ref d), ..] if d.delim == DelimToken::Bracket => {
- // Toggle the attribute based on a boolean expression
- self.shift(1);
- let cond = d.stream();
- let body = {
- let mut render = render.fork();
- render.attribute_empty(&name);
- render.into_stmts()
- };
- render.emit_if(cond, body, None);
- },
- _ => {
- // Write the attribute unconditionally
+ // Empty attribute
+ (Ok(name), Some(TokenNode::Op('?', _))) => match self.peek() {
+ // Toggle the attribute based on a boolean expression
+ Some(TokenNode::Group(Delimiter::Bracket, cond)) => {
+ self.advance();
+ let body = {
+ let mut render = render.fork();
render.attribute_empty(&name);
- },
- }
+ render.into_stmts()
+ };
+ render.emit_if(cond, body, None);
+ },
+ // Write the attribute unconditionally
+ _ => render.attribute_empty(&name),
},
- (Err(_), &[dot!(), ident!(_, _), ..]) => {
- // Class shorthand
- self.shift(1);
- let class_name = self.name().unwrap();
- match *self.input {
- [TokenTree::Delimited(_, ref d), ..] if d.delim == DelimToken::Bracket => {
- // Toggle the class based on a boolean expression
- self.shift(1);
- let cond = d.stream();
+ // Class shorthand
+ (Err(_), Some(TokenNode::Op('.', _))) => {
+ let class_name = self.name()?;
+ match self.peek() {
+ // Toggle the class based on a boolean expression
+ Some(TokenNode::Group(Delimiter::Bracket, cond)) => {
+ self.advance();
classes_toggled.push((cond, class_name));
},
// Emit the class unconditionally
_ => classes_static.push(class_name),
}
},
- (Err(_), &[pound!(), ident!(_, _), ..]) => {
- // ID shorthand
- self.shift(1);
- ids.push(self.name().unwrap());
+ // ID shorthand
+ (Err(_), Some(TokenNode::Op('#', _))) => {
+ ids.push(self.name()?);
},
+ // If it's not a valid attribute, backtrack and bail out
_ => {
- self.input = old_input;
+ self.input.restore(start_position);
break;
},
}
@@ -511,24 +273,23 @@ impl<'cx, 'a, 'i> Parser<'cx, 'a, 'i> {
/// Parses an identifier, without dealing with namespaces.
fn name(&mut self) -> ParseResult<String> {
- let mut s = match *self.input {
- [ident!(_, name), ..] => {
- self.shift(1);
- String::from(&name.name.as_str() as &str)
- },
- _ => return Err(()),
+ let mut s = if let Some(TokenNode::Term(term)) = self.peek() {
+ self.advance();
+ String::from(term.as_str())
+ } else {
+ return self.error("expected identifier");
};
let mut expect_ident = false;
loop {
- expect_ident = match *self.input {
- [minus!(), ..] => {
- self.shift(1);
+ expect_ident = match self.peek() {
+ Some(TokenNode::Op('-', _)) => {
+ self.advance();
s.push('-');
true
},
- [ident!(_, name), ..] if expect_ident => {
- self.shift(1);
- s.push_str(&name.name.as_str());
+ Some(TokenNode::Term(term)) if expect_ident => {
+ self.advance();
+ s.push_str(term.as_str());
false
},
_ => break,
@@ -541,24 +302,68 @@ impl<'cx, 'a, 'i> Parser<'cx, 'a, 'i> {
/// if necessary.
fn namespaced_name(&mut self) -> ParseResult<String> {
let mut s = self.name()?;
- if let [colon!(), ident!(_, _), ..] = *self.input {
- self.shift(1);
+ if let Some(TokenNode::Op(':', _)) = self.peek() {
+ self.advance();
s.push(':');
- s.push_str(&self.name().unwrap());
+ s.push_str(&self.name()?);
}
Ok(s)
}
/// Parses the given token tree, returning a vector of statements.
- fn block(&mut self, sp: Span, tts: TokenStream, render: &mut Renderer) -> ParseResult<TokenStream> {
+ fn block(&mut self, body: TokenStream, render: &mut Renderer) -> ParseResult<TokenStream> {
let mut render = render.fork();
let mut parse = Parser {
- cx: self.cx,
in_attr: self.in_attr,
- input: &tts.into_trees().collect::<Vec<_>>(),
- span: sp,
+ input: Lookahead::new(body),
};
parse.markups(&mut render)?;
Ok(render.into_stmts())
}
}
+
+struct Lookahead<T> {
+ buffer: Vec<T>,
+ index: usize,
+}
+
+impl<T> Lookahead<T> {
+ fn new<I: IntoIterator<Item=T>>(items: I) -> Self {
+ Lookahead {
+ buffer: items.into_iter().collect(),
+ index: 0,
+ }
+ }
+
+ fn save(&self) -> Position {
+ Position { index: self.index }
+ }
+
+ fn restore(&mut self, Position { index }: Position) {
+ self.index = index;
+ }
+}
+
+impl<T> Lookahead<T> where T: Clone {
+ fn peek(&mut self) -> Option<T> {
+ let position = self.save();
+ let result = self.next();
+ self.restore(position);
+ result
+ }
+}
+
+impl<T> Iterator for Lookahead<T> where T: Clone {
+ type Item = T;
+ fn next(&mut self) -> Option<T> {
+ let result = self.buffer.get(self.index).cloned();
+ if result.is_some() {
+ self.index += 1;
+ }
+ result
+ }
+}
+
+struct Position {
+ index: usize,
+}
diff --git a/maud_macros/src/render.rs b/maud_macros/src/render.rs
index 7d296c8..04b5100 100644
--- a/maud_macros/src/render.rs
+++ b/maud_macros/src/render.rs
@@ -1,38 +1,28 @@
-use syntax::ast::Ident;
-use syntax::ext::base::ExtCtxt;
-use syntax::symbol::Symbol;
-use syntax::tokenstream::{TokenStream, TokenTree};
+use proc_macro::{Literal, Term, TokenNode, TokenStream};
+use proc_macro::quote;
+use std::fmt;
-use maud::Escaper;
-
-// FIXME(rust-lang/rust#40939):
-// * Use `TokenStreamBuilder` instead of `Vec<TokenStream>`
-// * Use `quote!()` instead of `quote_tokens!()`
-
-pub struct Renderer<'cx, 'a: 'cx> {
- cx: &'cx ExtCtxt<'a>,
- writer: Ident,
+pub struct Renderer {
+ output: TokenNode,
stmts: Vec<TokenStream>,
tail: String,
}
-impl<'cx, 'a> Renderer<'cx, 'a> {
- /// Creates a new `Renderer` using the given extension context.
- pub fn new(cx: &'cx ExtCtxt<'a>) -> Renderer<'cx, 'a> {
- let writer = Ident::with_empty_ctxt(Symbol::gensym("__maud_output"));
+impl Renderer {
+ /// Creates a new `Renderer`.
+ pub fn new() -> Renderer {
+ let output = TokenNode::Term(Term::intern("__maud_output"));
Renderer {
- cx: cx,
- writer: writer,
+ output: output,
stmts: Vec::new(),
tail: String::new(),
}
}
/// Creates a new `Renderer` under the same context as `self`.
- pub fn fork(&self) -> Renderer<'cx, 'a> {
+ pub fn fork(&self) -> Renderer {
Renderer {
- cx: self.cx,
- writer: self.writer,
+ output: self.output.clone(),
stmts: Vec::new(),
tail: String::new(),
}
@@ -42,36 +32,38 @@ impl<'cx, 'a> Renderer<'cx, 'a> {
fn flush(&mut self) {
if !self.tail.is_empty() {
let expr = {
- let w = self.writer;
- let s = &*self.tail;
- quote_tokens!(self.cx, $w.push_str($s);)
+ let output = self.output.clone();
+ let string = TokenNode::Literal(Literal::string(&self.tail));
+ quote!($output.push_str($string);)
};
- self.stmts.push(expr.into_iter().collect());
+ self.stmts.push(expr);
self.tail.clear();
}
}
/// Reifies the `Renderer` into a block of markup.
pub fn into_expr(mut self, size_hint: usize) -> TokenStream {
- let Renderer { cx, writer, stmts, .. } = { self.flush(); self };
- let stmts: Vec<TokenTree> = TokenStream::concat(stmts).into_trees().collect();
- quote_tokens!(cx, {
- let mut $writer = ::std::string::String::with_capacity($size_hint);
+ let Renderer { output, stmts, .. } = { self.flush(); self };
+ let size_hint = TokenNode::Literal(Literal::u64(size_hint as u64));
+ let stmts = stmts.into_iter().collect::<TokenStream>();
+ quote!({
+ extern crate maud;
+ let mut $output = String::with_capacity($size_hint as usize);
$stmts
- ::maud::PreEscaped($writer)
- }).into_iter().collect()
+ maud::PreEscaped($output)
+ })
}
/// Reifies the `Renderer` into a raw list of statements.
pub fn into_stmts(mut self) -> TokenStream {
let Renderer { stmts, .. } = { self.flush(); self };
- TokenStream::concat(stmts)
+ stmts.into_iter().collect()
}
/// Pushes a statement, flushing the tail buffer in the process.
- fn push<T>(&mut self, stmt: T) where T: IntoIterator<Item=TokenTree> {
+ fn push<T>(&mut self, stmt: T) where T: Into<TokenStream> {
self.flush();
- self.stmts.push(stmt.into_iter().collect())
+ self.stmts.push(stmt.into())
}
/// Pushes a literal string to the tail buffer.
@@ -86,12 +78,17 @@ impl<'cx, 'a> Renderer<'cx, 'a> {
/// Appends the result of an expression.
pub fn splice(&mut self, expr: TokenStream) {
- let w = self.writer;
- let expr: Vec<TokenTree> = expr.into_trees().collect();
- self.push(quote_tokens!(self.cx, {
- #[allow(unused_imports)]
- use ::maud::Render as __maud_Render;
- $expr.render_to(&mut $w);
+ let output = self.output.clone();
+ self.push(quote!({
+ extern crate maud;
+ // Create a local trait alias so that autoref works
+ trait Render: maud::Render {
+ fn render_to(&self, output: &mut String) {
+ maud::Render::render_to(self, output);
+ }
+ }
+ impl<T: maud::Render> Render for T {}
+ $expr.render_to(&mut $output);
}));
}
@@ -131,14 +128,9 @@ impl<'cx, 'a> Renderer<'cx, 'a> {
/// need to special-case `if let`.
pub fn emit_if(&mut self, if_cond: TokenStream, if_body: TokenStream,
else_body: Option<TokenStream>) {
- let if_cond: Vec<TokenTree> = if_cond.into_trees().collect();
- let if_body: Vec<TokenTree> = if_body.into_trees().collect();
let stmt = match else_body {
- None => quote_tokens!(self.cx, if $if_cond { $if_body }),
- Some(else_body) => {
- let else_body: Vec<TokenTree> = else_body.into_trees().collect();
- quote_tokens!(self.cx, if $if_cond { $if_body } else { $else_body })
- },
+ None => quote!(if $if_cond { $if_body }),
+ Some(else_body) => quote!(if $if_cond { $if_body } else { $else_body }),
};
self.push(stmt);
}
@@ -148,32 +140,22 @@ impl<'cx, 'a> Renderer<'cx, 'a> {
/// The condition is a token tree (not an expression) so we don't
/// need to special-case `while let`.
pub fn emit_while(&mut self, cond: TokenStream, body: TokenStream) {
- let cond: Vec<TokenTree> = cond.into_trees().collect();
- let body: Vec<TokenTree> = body.into_trees().collect();
- let stmt = quote_tokens!(self.cx, while $cond { $body });
+ let stmt = quote!(while $cond { $body });
self.push(stmt);
}
pub fn emit_for(&mut self, pattern: TokenStream, iterable: TokenStream, body: TokenStream) {
- let pattern: Vec<TokenTree> = pattern.into_trees().collect();
- let iterable: Vec<TokenTree> = iterable.into_trees().collect();
- let body: Vec<TokenTree> = body.into_trees().collect();
- let stmt = quote_tokens!(self.cx, for $pattern in $iterable { $body });
+ let stmt = quote!(for $pattern in $iterable { $body });
self.push(stmt);
}
pub fn emit_match(&mut self, match_var: TokenStream, match_body: TokenStream) {
- let match_var: Vec<TokenTree> = match_var.into_trees().collect();
- let match_body: Vec<TokenTree> = match_body.into_trees().collect();
- let stmt = quote_tokens!(self.cx, match $match_var { $match_body });
+ let stmt = quote!(match $match_var { $match_body });
self.push(stmt);
}
pub fn emit_let(&mut self, pattern: TokenStream, rhs: TokenStream, body: TokenStream) {
- let pattern: Vec<TokenTree> = pattern.into_trees().collect();
- let rhs: Vec<TokenTree> = rhs.into_trees().collect();
- let body: Vec<TokenTree> = body.into_trees().collect();
- let stmt = quote_tokens!(self.cx, { let $pattern = $rhs; $body });
+ let stmt = quote!({ let $pattern = $rhs; $body });
self.push(stmt);
}
}
@@ -184,3 +166,28 @@ fn html_escape(s: &str) -> String {
Escaper::new(&mut buffer).write_str(s).unwrap();
buffer
}
+
+// TODO move this into a common `maud_htmlescape` crate
+struct Escaper<'a>(&'a mut String);
+
+impl<'a> Escaper<'a> {
+ /// Creates an `Escaper` from a `String`.
+ pub fn new(buffer: &'a mut String) -> Escaper<'a> {
+ Escaper(buffer)
+ }
+}
+
+impl<'a> fmt::Write for Escaper<'a> {
+ fn write_str(&mut self, s: &str) -> fmt::Result {
+ for b in s.bytes() {
+ match b {
+ b'&' => self.0.push_str("&"),
+ b'<' => self.0.push_str("<"),
+ b'>' => self.0.push_str(">"),
+ b'"' => self.0.push_str("""),
+ _ => unsafe { self.0.as_mut_vec().push(b) },
+ }
+ }
+ Ok(())
+ }
+}