// const _GRAMMAR: &'static str = include_str!("grammar.pest");
#[derive(Parser)]
#[grammar = "grammar.pest"]
pub struct HandlebarsParser;
#[cfg(test)]
mod test {
use super::{HandlebarsParser, Rule};
use pest::Parser;
macro_rules! assert_rule {
($rule:expr, $in:expr) => {
assert_eq!(
HandlebarsParser::parse($rule, $in)
.unwrap()
.last()
.unwrap()
.as_span()
.end(),
$in.len()
);
};
}
macro_rules! assert_not_rule {
($rule:expr, $in:expr) => {
assert!(
HandlebarsParser::parse($rule, $in).is_err()
|| HandlebarsParser::parse($rule, $in)
.unwrap()
.last()
.unwrap()
.as_span()
.end()
!= $in.len()
);
};
}
macro_rules! assert_rule_match {
($rule:expr, $in:expr) => {
assert!(HandlebarsParser::parse($rule, $in).is_ok());
};
}
#[test]
fn test_raw_text() {
let s = vec![
"
helloworld
",
r"hello\{{world}}",
r"hello\{{#if world}}nice\{{/if}}",
r"hello \{{{{raw}}}}hello\{{{{/raw}}}}",
];
for i in s.iter() {
assert_rule!(Rule::raw_text, i);
}
let s_not_escape = vec![r"\\{{hello}}"];
for i in s_not_escape.iter() {
assert_not_rule!(Rule::raw_text, i);
}
}
#[test]
fn test_raw_block_text() {
let s = " {{hello}}
";
assert_rule!(Rule::raw_block_text, s);
}
#[test]
fn test_reference() {
let s = vec![
"a",
"abc",
"../a",
"a.b",
"@abc",
"a.[abc]",
"aBc.[abc]",
"abc.[0].[nice]",
"some-name",
"this.[0].ok",
"this.[$id]",
"[$id]",
"$id",
"this.[null]",
];
for i in s.iter() {
assert_rule!(Rule::reference, i);
}
}
#[test]
fn test_name() {
let s = vec!["if", "(abc)"];
for i in s.iter() {
assert_rule!(Rule::name, i);
}
}
#[test]
fn test_param() {
let s = vec!["hello", "\"json literal\"", "nullable", "truestory"];
for i in s.iter() {
assert_rule!(Rule::param, i);
}
}
#[test]
fn test_hash() {
let s = vec![
"hello=world",
"hello=\"world\"",
"hello=(world)",
"hello=(world 0)",
];
for i in s.iter() {
assert_rule!(Rule::hash, i);
}
}
#[test]
fn test_json_literal() {
let s = vec![
"\"json string\"",
"\"quot: \\\"\"",
"[]",
"[\"hello\"]",
"[1,2,3,4,true]",
"{\"hello\": \"world\"}",
"{}",
"{\"a\":1, \"b\":2 }",
"\"nullable\"",
];
for i in s.iter() {
assert_rule!(Rule::literal, i);
}
}
#[test]
fn test_comment() {
let s = vec!["{{!-- {{this.title}}
--}}"];
for i in s.iter() {
assert_rule!(Rule::hbs_comment, i);
}
let s2 = vec!["{{! hello }}", "{{! test me }}"];
for i in s2.iter() {
assert_rule!(Rule::hbs_comment_compact, i);
}
}
#[test]
fn test_subexpression() {
let s = vec!["(sub)", "(sub 0)", "(sub a=1)"];
for i in s.iter() {
assert_rule!(Rule::subexpression, i);
}
}
#[test]
fn test_expression() {
let s = vec![
"{{exp}}",
"{{(exp)}}",
"{{../exp}}",
"{{exp 1}}",
"{{exp \"literal\"}}",
"{{exp \"literal with space\"}}",
r#"{{exp "literal with escape \\\\"}}"#,
"{{exp ref}}",
"{{exp (sub)}}",
"{{exp (sub 123)}}",
"{{exp []}}",
"{{exp {}}}",
"{{exp key=1}}",
"{{exp key=ref}}",
"{{exp key=(sub)}}",
"{{exp key=(sub 0)}}",
"{{exp key=(sub 0 key=1)}}",
];
for i in s.iter() {
assert_rule!(Rule::expression, i);
}
}
#[test]
fn test_identifier_with_dash() {
let s = vec!["{{exp-foo}}"];
for i in s.iter() {
assert_rule!(Rule::expression, i);
}
}
#[test]
fn test_html_expression() {
let s = vec!["{{{html}}}", "{{{(html)}}}", "{{{(html)}}}", "{{&html}}"];
for i in s.iter() {
assert_rule!(Rule::html_expression, i);
}
}
#[test]
fn test_helper_start() {
let s = vec![
"{{#if hello}}",
"{{#if (hello)}}",
"{{#if hello=world}}",
"{{#if hello hello=world}}",
"{{#if []}}",
"{{#if {}}}",
"{{#if}}",
"{{~#if hello~}}",
"{{#each people as |person|}}",
"{{#each-obj obj as |val key|}}",
"{{#each assets}}",
];
for i in s.iter() {
assert_rule!(Rule::helper_block_start, i);
}
}
#[test]
fn test_helper_end() {
let s = vec!["{{/if}}", "{{~/if}}", "{{~/if ~}}", "{{/if ~}}"];
for i in s.iter() {
assert_rule!(Rule::helper_block_end, i);
}
}
#[test]
fn test_helper_block() {
let s = vec![
"{{#if hello}}hello{{/if}}",
"{{#if true}}hello{{/if}}",
"{{#if nice ok=1}}hello{{/if}}",
"{{#if}}hello{{else}}world{{/if}}",
"{{#if}}hello{{^}}world{{/if}}",
"{{#if}}{{#if}}hello{{/if}}{{/if}}",
"{{#if}}hello{{~else}}world{{/if}}",
"{{#if}}hello{{else~}}world{{/if}}",
"{{#if}}hello{{~^~}}world{{/if}}",
"{{#if}}{{/if}}",
];
for i in s.iter() {
assert_rule!(Rule::helper_block, i);
}
}
#[test]
fn test_raw_block() {
let s = vec![
"{{{{if hello}}}}good {{hello}}{{{{/if}}}}",
"{{{{if hello}}}}{{#if nice}}{{/if}}{{{{/if}}}}",
];
for i in s.iter() {
assert_rule!(Rule::raw_block, i);
}
}
#[test]
fn test_block_param() {
let s = vec!["as |person|", "as |val key|"];
for i in s.iter() {
assert_rule!(Rule::block_param, i);
}
}
#[test]
fn test_path() {
let s = vec![
"a",
"a.b.c.d",
"a.[0].[1].[2]",
"a.[abc]",
"a/v/c.d.s",
"a.[0]/b/c/d",
"a.[bb c]/b/c/d",
"a.[0].[#hello]",
"../a/b.[0].[1]",
"this.[0]/[1]/this/a",
"./this_name",
"./goo/[/bar]",
"a.[你好]",
"a.[10].[#comment]",
"a.[]", // empty key
"./[/foo]",
"[foo]",
"@root/a/b",
"nullable",
];
for i in s.iter() {
assert_rule_match!(Rule::path, i);
}
}
#[test]
fn test_decorator_expression() {
let s = vec!["{{* ssh}}", "{{~* ssh}}"];
for i in s.iter() {
assert_rule!(Rule::decorator_expression, i);
}
}
#[test]
fn test_decorator_block() {
let s = vec![
"{{#* inline}}something{{/inline}}",
"{{~#* inline}}hello{{/inline}}",
"{{#* inline \"partialname\"}}something{{/inline}}",
];
for i in s.iter() {
assert_rule!(Rule::decorator_block, i);
}
}
#[test]
fn test_partial_expression() {
let s = vec![
"{{> hello}}",
"{{> (hello)}}",
"{{~> hello a}}",
"{{> hello a=1}}",
"{{> (hello) a=1}}",
"{{> hello.world}}",
"{{> [a83?f4+.3]}}",
"{{> 'anif?.bar'}}",
];
for i in s.iter() {
assert_rule!(Rule::partial_expression, i);
}
}
#[test]
fn test_partial_block() {
let s = vec!["{{#> hello}}nice{{/hello}}"];
for i in s.iter() {
assert_rule!(Rule::partial_block, i);
}
}
}