use nom::{self, IResult};
use std::str;
#[derive(Debug)]
pub enum Expr<'a> {
NumLit(&'a str),
StrLit(&'a str),
Var(&'a str),
Attr(Box<Expr<'a>>, &'a str),
Filter(&'a str, Vec<Expr<'a>>),
BinOp(&'a str, Box<Expr<'a>>, Box<Expr<'a>>),
Group(Box<Expr<'a>>),
Call(Box<Expr<'a>>, &'a str, Vec<Expr<'a>>),
}
#[derive(Debug)]
pub enum Target<'a> {
Name(&'a str),
}
#[derive(Clone, Copy, Debug)]
pub struct WS(pub bool, pub bool);
#[derive(Debug)]
pub enum Node<'a> {
Lit(&'a str, &'a str, &'a str),
Comment(),
Expr(WS, Expr<'a>),
Cond(Vec<(WS, Option<Expr<'a>>, Vec<Node<'a>>)>, WS),
Loop(WS, Target<'a>, Expr<'a>, Vec<Node<'a>>, WS),
Extends(Expr<'a>),
BlockDef(WS, &'a str, Vec<Node<'a>>, WS),
Block(WS, &'a str, WS),
}
pub type Cond<'a> = (WS, Option<Expr<'a>>, Vec<Node<'a>>);
fn split_ws_parts(s: &[u8]) -> Node {
if s.is_empty() {
let rs = str::from_utf8(s).unwrap();
return Node::Lit(rs, rs, rs);
}
let is_ws = |c: &u8| {
*c != b' ' && *c != b'\t' && *c != b'\r' && *c != b'\n'
};
let start = s.iter().position(&is_ws);
let res = if start.is_none() {
(s, &s[0..0], &s[0..0])
} else {
let start = start.unwrap();
let end = s.iter().rposition(&is_ws);
if end.is_none() {
(&s[..start], &s[start..], &s[0..0])
} else {
let end = end.unwrap();
(&s[..start], &s[start..end + 1], &s[end + 1..])
}
};
Node::Lit(str::from_utf8(res.0).unwrap(),
str::from_utf8(res.1).unwrap(),
str::from_utf8(res.2).unwrap())
}
fn take_content(i: &[u8]) -> IResult<&[u8], Node> {
if i.len() < 1 || i[0] == b'{' {
return IResult::Error(error_position!(nom::ErrorKind::TakeUntil, i));
}
for (j, c) in i.iter().enumerate() {
if *c == b'{' {
if i.len() < j + 2 {
return IResult::Done(&i[..0], split_ws_parts(&i[..]));
} else if i[j + 1] == b'{' || i[j + 1] == b'%' || i[j + 1] == b'#' {
return IResult::Done(&i[j..], split_ws_parts(&i[..j]));
}
}
}
IResult::Done(&i[..0], split_ws_parts(&i[..]))
}
fn identifier(input: &[u8]) -> IResult<&[u8], &str> {
if !nom::is_alphabetic(input[0]) && input[0] != b'_' {
return IResult::Error(nom::ErrorKind::Custom(0));
}
for (i, ch) in input.iter().enumerate() {
if i == 0 || nom::is_alphanumeric(*ch) || *ch == b'_' {
continue;
}
return IResult::Done(&input[i..],
str::from_utf8(&input[..i]).unwrap());
}
IResult::Done(&input[1..], str::from_utf8(&input[..1]).unwrap())
}
named!(expr_num_lit<Expr>, map!(nom::digit,
|s| Expr::NumLit(str::from_utf8(s).unwrap())
));
named!(expr_str_lit<Expr>, map!(
delimited!(char!('"'), is_not!("\""), char!('"')),
|s| Expr::StrLit(str::from_utf8(s).unwrap())
));
named!(expr_var<Expr>, map!(identifier,
|s| Expr::Var(s))
);
named!(target_single<Target>, map!(identifier,
|s| Target::Name(s)
));
named!(arguments<Option<Vec<Expr>>>, opt!(
do_parse!(
tag_s!("(") >>
arg0: ws!(opt!(expr_any)) >>
args: many0!(do_parse!(
tag_s!(",") >>
argn: ws!(expr_any) >>
(argn)
)) >>
tag_s!(")") >>
({
let mut res = Vec::new();
if arg0.is_some() {
res.push(arg0.unwrap());
}
res.extend(args);
res
})
)
));
named!(expr_group<Expr>, map!(
delimited!(char!('('), expr_any, char!(')')),
|s| Expr::Group(Box::new(s))
));
named!(expr_single<Expr>, alt!(
expr_num_lit |
expr_str_lit |
expr_var |
expr_group
));
named!(attr<(&str, Option<Vec<Expr>>)>, do_parse!(
tag_s!(".") >>
attr: identifier >>
args: arguments >>
(attr, args)
));
named!(expr_attr<Expr>, do_parse!(
obj: expr_single >>
attrs: many0!(attr) >>
({
let mut res = obj;
for (aname, args) in attrs {
res = if args.is_some() {
Expr::Call(Box::new(res), aname, args.unwrap())
} else {
Expr::Attr(Box::new(res), aname)
};
}
res
})
));
named!(filter<(&str, Option<Vec<Expr>>)>, do_parse!(
tag_s!("|") >>
fname: identifier >>
args: arguments >>
(fname, args)
));
named!(expr_filtered<Expr>, do_parse!(
obj: expr_attr >>
filters: many0!(filter) >>
({
let mut res = obj;
for (fname, args) in filters {
res = Expr::Filter(fname, {
let mut args = match args {
Some(inner) => inner,
None => Vec::new(),
};
args.insert(0, res);
args
});
}
res
})
));
macro_rules! expr_prec_layer {
( $name:ident, $inner:ident, $( $op:expr ),* ) => {
named!($name<Expr>, alt!(
do_parse!(
left: $inner >>
op: ws!(alt!($( tag_s!($op) )|*)) >>
right: $inner >>
(Expr::BinOp(str::from_utf8(op).unwrap(),
Box::new(left), Box::new(right)))
) | $inner
));
}
}
expr_prec_layer!(expr_muldivmod, expr_filtered, "*", "/", "%");
expr_prec_layer!(expr_addsub, expr_muldivmod, "+", "-");
expr_prec_layer!(expr_shifts, expr_addsub, ">>", "<<");
expr_prec_layer!(expr_band, expr_shifts, "&");
expr_prec_layer!(expr_bxor, expr_band, "^");
expr_prec_layer!(expr_bor, expr_bxor, "|");
expr_prec_layer!(expr_compare, expr_bor,
"==", "!=", ">=", ">", "<=", "<"
);
expr_prec_layer!(expr_and, expr_compare, "&&");
expr_prec_layer!(expr_any, expr_and, "||");
named!(expr_node<Node>, do_parse!(
tag_s!("{{") >>
pws: opt!(tag_s!("-")) >>
expr: ws!(expr_any) >>
nws: opt!(tag_s!("-")) >>
tag_s!("}}") >>
(Node::Expr(WS(pws.is_some(), nws.is_some()), expr))
));
named!(cond_if<Expr>, do_parse!(
ws!(tag_s!("if")) >>
cond: ws!(expr_any) >>
(cond)
));
named!(cond_block<Cond>, do_parse!(
tag_s!("{%") >>
pws: opt!(tag_s!("-")) >>
ws!(tag_s!("else")) >>
cond: opt!(cond_if) >>
nws: opt!(tag_s!("-")) >>
tag_s!("%}") >>
block: parse_template >>
(WS(pws.is_some(), nws.is_some()), cond, block)
));
named!(block_if<Node>, do_parse!(
tag_s!("{%") >>
pws1: opt!(tag_s!("-")) >>
cond: ws!(cond_if) >>
nws1: opt!(tag_s!("-")) >>
tag_s!("%}") >>
block: parse_template >>
elifs: many0!(cond_block) >>
tag_s!("{%") >>
pws2: opt!(tag_s!("-")) >>
ws!(tag_s!("endif")) >>
nws2: opt!(tag_s!("-")) >>
tag_s!("%}") >>
({
let mut res = Vec::new();
res.push((WS(pws1.is_some(), nws1.is_some()), Some(cond), block));
res.extend(elifs);
Node::Cond(res, WS(pws2.is_some(), nws2.is_some()))
})
));
named!(block_for<Node>, do_parse!(
tag_s!("{%") >>
pws1: opt!(tag_s!("-")) >>
ws!(tag_s!("for")) >>
var: ws!(target_single) >>
ws!(tag_s!("in")) >>
iter: ws!(expr_any) >>
nws1: opt!(tag_s!("-")) >>
tag_s!("%}") >>
block: parse_template >>
tag_s!("{%") >>
pws2: opt!(tag_s!("-")) >>
ws!(tag_s!("endfor")) >>
nws2: opt!(tag_s!("-")) >>
tag_s!("%}") >>
(Node::Loop(WS(pws1.is_some(), nws1.is_some()),
var, iter, block,
WS(pws2.is_some(), pws2.is_some())))
));
named!(block_extends<Node>, do_parse!(
tag_s!("{%") >>
ws!(tag_s!("extends")) >>
name: ws!(expr_str_lit) >>
tag_s!("%}") >>
(Node::Extends(name))
));
named!(block_block<Node>, do_parse!(
tag_s!("{%") >>
pws1: opt!(tag_s!("-")) >>
ws!(tag_s!("block")) >>
name: ws!(identifier) >>
nws1: opt!(tag_s!("-")) >>
tag_s!("%}") >>
contents: parse_template >>
tag_s!("{%") >>
pws2: opt!(tag_s!("-")) >>
ws!(tag_s!("endblock")) >>
nws2: opt!(tag_s!("-")) >>
tag_s!("%}") >>
(Node::BlockDef(WS(pws1.is_some(), nws1.is_some()),
name, contents,
WS(pws2.is_some(), pws2.is_some())))
));
named!(block_comment<Node>, do_parse!(
tag_s!("{#") >>
take_until_s!("#}") >>
tag_s!("#}") >>
(Node::Comment())
));
named!(parse_template<Vec<Node<'a>>>, many0!(alt!(
take_content |
block_comment |
expr_node |
block_if |
block_for |
block_extends |
block_block
)));
pub fn parse(src: &str) -> Vec<Node> {
match parse_template(src.as_bytes()) {
IResult::Done(_, res) => res,
IResult::Error(err) => panic!("problems parsing template source: {}", err),
IResult::Incomplete(_) => panic!("parsing incomplete"),
}
}
#[cfg(test)]
mod tests {
fn check_ws_split(s: &str, res: &(&str, &str, &str)) {
let node = super::split_ws_parts(s.as_bytes());
match node {
super::Node::Lit(lws, s, rws) => {
assert_eq!(lws, res.0);
assert_eq!(s, res.1);
assert_eq!(rws, res.2);
},
_ => { panic!("fail"); },
}
}
#[test]
fn test_ws_splitter() {
check_ws_split("", &("", "", ""));
check_ws_split("a", &("", "a", ""));
check_ws_split("\ta", &("\t", "a", ""));
check_ws_split("b\n", &("", "b", "\n"));
check_ws_split(" \t\r\n", &(" \t\r\n", "", ""));
}
}
