zola/components/rendering/src/shortcode.rs
2020-02-02 17:48:43 -08:00

435 lines
16 KiB
Rust

use lazy_static::lazy_static;
use pest::iterators::Pair;
use pest::Parser;
use pest_derive::Parser;
use regex::Regex;
use tera::{to_value, Context, Map, Value};
use crate::context::RenderContext;
use errors::{bail, Error, Result};
// This include forces recompiling this source file if the grammar file changes.
// Uncomment it when doing changes to the .pest file
const _GRAMMAR: &str = include_str!("content.pest");
#[derive(Parser)]
#[grammar = "content.pest"]
pub struct ContentParser;
lazy_static! {
static ref MULTIPLE_NEWLINE_RE: Regex = Regex::new(r"\n\s*\n").unwrap();
static ref OUTER_NEWLINE_RE: Regex = Regex::new(r"^\s*\n|\n\s*$").unwrap();
}
fn replace_string_markers(input: &str) -> String {
match input.chars().next().unwrap() {
'"' => input.replace('"', ""),
'\'' => input.replace('\'', ""),
'`' => input.replace('`', ""),
_ => unreachable!("How did you even get there"),
}
}
fn parse_literal(pair: Pair<Rule>) -> Value {
let mut val = None;
for p in pair.into_inner() {
match p.as_rule() {
Rule::boolean => match p.as_str() {
"true" => val = Some(Value::Bool(true)),
"false" => val = Some(Value::Bool(false)),
_ => unreachable!(),
},
Rule::string => val = Some(Value::String(replace_string_markers(p.as_str()))),
Rule::float => {
val = Some(to_value(p.as_str().parse::<f64>().unwrap()).unwrap());
}
Rule::int => {
val = Some(to_value(p.as_str().parse::<i64>().unwrap()).unwrap());
}
_ => unreachable!("Unknown literal: {:?}", p),
};
}
val.unwrap()
}
/// Returns (shortcode_name, kwargs)
fn parse_shortcode_call(pair: Pair<Rule>) -> (String, Map<String, Value>) {
let mut name = None;
let mut args = Map::new();
for p in pair.into_inner() {
match p.as_rule() {
Rule::ident => {
name = Some(p.as_span().as_str().to_string());
}
Rule::kwarg => {
let mut arg_name = None;
let mut arg_val = None;
for p2 in p.into_inner() {
match p2.as_rule() {
Rule::ident => {
arg_name = Some(p2.as_span().as_str().to_string());
}
Rule::literal => {
arg_val = Some(parse_literal(p2));
}
Rule::array => {
let mut vals = vec![];
for p3 in p2.into_inner() {
match p3.as_rule() {
Rule::literal => vals.push(parse_literal(p3)),
_ => unreachable!(
"Got something other than literal in an array: {:?}",
p3
),
}
}
arg_val = Some(Value::Array(vals));
}
_ => unreachable!("Got something unexpected in a kwarg: {:?}", p2),
}
}
args.insert(arg_name.unwrap(), arg_val.unwrap());
}
_ => unreachable!("Got something unexpected in a shortcode: {:?}", p),
}
}
(name.unwrap(), args)
}
fn render_shortcode(
name: &str,
args: &Map<String, Value>,
context: &RenderContext,
body: Option<&str>,
) -> Result<String> {
let mut tera_context = Context::new();
for (key, value) in args.iter() {
tera_context.insert(key, value);
}
if let Some(ref b) = body {
// Trimming right to avoid most shortcodes with bodies ending up with a HTML new line
tera_context.insert("body", b.trim_end());
}
tera_context.extend(context.tera_context.clone());
let template_name = format!("shortcodes/{}.html", name);
let res = utils::templates::render_template(&template_name, &context.tera, tera_context, &None)
.map_err(|e| Error::chain(format!("Failed to render {} shortcode", name), e))?;
// Small hack to avoid having multiple blank lines because of Tera tags for example
// A blank like will cause the markdown parser to think we're out of HTML and start looking
// at indentation, making the output a code block.
let res = MULTIPLE_NEWLINE_RE.replace_all(&res, "\n");
let res = OUTER_NEWLINE_RE.replace_all(&res, "");
Ok(res.to_string())
}
pub fn render_shortcodes(content: &str, context: &RenderContext) -> Result<String> {
let mut res = String::with_capacity(content.len());
let mut pairs = match ContentParser::parse(Rule::page, content) {
Ok(p) => p,
Err(e) => {
let fancy_e = e.renamed_rules(|rule| match *rule {
Rule::int => "an integer".to_string(),
Rule::float => "a float".to_string(),
Rule::string => "a string".to_string(),
Rule::literal => "a literal (int, float, string, bool)".to_string(),
Rule::array => "an array".to_string(),
Rule::kwarg => "a keyword argument".to_string(),
Rule::ident => "an identifier".to_string(),
Rule::inline_shortcode => "an inline shortcode".to_string(),
Rule::ignored_inline_shortcode => "an ignored inline shortcode".to_string(),
Rule::sc_body_start => "the start of a shortcode".to_string(),
Rule::ignored_sc_body_start => "the start of an ignored shortcode".to_string(),
Rule::text => "some text".to_string(),
Rule::EOI => "end of input".to_string(),
Rule::double_quoted_string => "double quoted string".to_string(),
Rule::single_quoted_string => "single quoted string".to_string(),
Rule::backquoted_quoted_string => "backquoted quoted string".to_string(),
Rule::boolean => "a boolean (true, false)".to_string(),
Rule::all_chars => "a alphanumerical character".to_string(),
Rule::kwargs => "a list of keyword arguments".to_string(),
Rule::sc_def => "a shortcode definition".to_string(),
Rule::shortcode_with_body => "a shortcode with body".to_string(),
Rule::ignored_shortcode_with_body => "an ignored shortcode with body".to_string(),
Rule::sc_body_end => "{% end %}".to_string(),
Rule::ignored_sc_body_end => "{%/* end */%}".to_string(),
Rule::text_in_body_sc => "text in a shortcode body".to_string(),
Rule::text_in_ignored_body_sc => "text in an ignored shortcode body".to_string(),
Rule::content => "some content".to_string(),
Rule::page => "a page".to_string(),
Rule::WHITESPACE => "whitespace".to_string(),
});
bail!("{}", fancy_e);
}
};
// We have at least a `page` pair
for p in pairs.next().unwrap().into_inner() {
match p.as_rule() {
Rule::text => res.push_str(p.as_span().as_str()),
Rule::inline_shortcode => {
let (name, args) = parse_shortcode_call(p);
res.push_str(&render_shortcode(&name, &args, context, None)?);
}
Rule::shortcode_with_body => {
let mut inner = p.into_inner();
// 3 items in inner: call, body, end
// we don't care about the closing tag
let (name, args) = parse_shortcode_call(inner.next().unwrap());
let body = inner.next().unwrap().as_span().as_str();
res.push_str(&render_shortcode(&name, &args, context, Some(body))?);
}
Rule::ignored_inline_shortcode => {
res.push_str(
&p.as_span().as_str().replacen("{{/*", "{{", 1).replacen("*/}}", "}}", 1),
);
}
Rule::ignored_shortcode_with_body => {
for p2 in p.into_inner() {
match p2.as_rule() {
Rule::ignored_sc_body_start | Rule::ignored_sc_body_end => {
res.push_str(
&p2.as_span()
.as_str()
.replacen("{%/*", "{%", 1)
.replacen("*/%}", "%}", 1),
);
}
Rule::text_in_ignored_body_sc => res.push_str(p2.as_span().as_str()),
_ => unreachable!("Got something weird in an ignored shortcode: {:?}", p2),
}
}
}
Rule::EOI => (),
_ => unreachable!("unexpected page rule: {:?}", p.as_rule()),
}
}
Ok(res)
}
#[cfg(test)]
mod tests {
use std::collections::HashMap;
use super::*;
use config::Config;
use front_matter::InsertAnchor;
use tera::Tera;
macro_rules! assert_lex_rule {
($rule: expr, $input: expr) => {
let res = ContentParser::parse($rule, $input);
println!("{:?}", $input);
println!("{:#?}", res);
if res.is_err() {
println!("{}", res.unwrap_err());
panic!();
}
assert!(res.is_ok());
assert_eq!(res.unwrap().last().unwrap().as_span().end(), $input.len());
};
}
fn render_shortcodes(code: &str, tera: &Tera) -> String {
let config = Config::default();
let permalinks = HashMap::new();
let context = RenderContext::new(&tera, &config, "", &permalinks, InsertAnchor::None);
super::render_shortcodes(code, &context).unwrap()
}
#[test]
fn lex_text() {
let inputs = vec!["Hello world", "HEllo \n world", "Hello 1 2 true false 'hey'"];
for i in inputs {
assert_lex_rule!(Rule::text, i);
}
}
#[test]
fn lex_inline_shortcode() {
let inputs = vec![
"{{ youtube() }}",
"{{ youtube(id=1, autoplay=true, url='hey') }}",
"{{ youtube(id=1, \nautoplay=true, url='hey') }}",
];
for i in inputs {
assert_lex_rule!(Rule::inline_shortcode, i);
}
}
#[test]
fn lex_inline_ignored_shortcode() {
let inputs = vec![
"{{/* youtube() */}}",
"{{/* youtube(id=1, autoplay=true, url='hey') */}}",
"{{/* youtube(id=1, \nautoplay=true, \nurl='hey') */}}",
];
for i in inputs {
assert_lex_rule!(Rule::ignored_inline_shortcode, i);
}
}
#[test]
fn lex_shortcode_with_body() {
let inputs = vec![
r#"{% youtube() %}
Some text
{% end %}"#,
r#"{% youtube(id=1,
autoplay=true, url='hey') %}
Some text
{% end %}"#,
];
for i in inputs {
assert_lex_rule!(Rule::shortcode_with_body, i);
}
}
#[test]
fn lex_ignored_shortcode_with_body() {
let inputs = vec![
r#"{%/* youtube() */%}
Some text
{%/* end */%}"#,
r#"{%/* youtube(id=1,
autoplay=true, url='hey') */%}
Some text
{%/* end */%}"#,
];
for i in inputs {
assert_lex_rule!(Rule::ignored_shortcode_with_body, i);
}
}
#[test]
fn lex_page() {
let inputs = vec![
"Some text and a shortcode `{{/* youtube() */}}`",
"{{ youtube(id=1, autoplay=true, url='hey') }}",
"{{ youtube(id=1, \nautoplay=true, url='hey') }} that's it",
r#"
This is a test
{% hello() %}
Body {{ var }}
{% end %}
"#,
];
for i in inputs {
assert_lex_rule!(Rule::page, i);
}
}
#[test]
fn does_nothing_with_no_shortcodes() {
let res = render_shortcodes("Hello World", &Tera::default());
assert_eq!(res, "Hello World");
}
#[test]
fn can_unignore_inline_shortcode() {
let res = render_shortcodes("Hello World {{/* youtube() */}}", &Tera::default());
assert_eq!(res, "Hello World {{ youtube() }}");
}
#[test]
fn can_unignore_shortcode_with_body() {
let res = render_shortcodes(
r#"
Hello World
{%/* youtube() */%}Some body {{ hello() }}{%/* end */%}"#,
&Tera::default(),
);
assert_eq!(res, "\nHello World\n{% youtube() %}Some body {{ hello() }}{% end %}");
}
// https://github.com/Keats/gutenberg/issues/383
#[test]
fn unignore_shortcode_with_body_does_not_swallow_initial_whitespace() {
let res = render_shortcodes(
r#"
Hello World
{%/* youtube() */%}
Some body {{ hello() }}{%/* end */%}"#,
&Tera::default(),
);
assert_eq!(res, "\nHello World\n{% youtube() %}\nSome body {{ hello() }}{% end %}");
}
#[test]
fn can_parse_shortcode_arguments() {
let inputs = vec![
("{{ youtube() }}", "youtube", Map::new()),
("{{ youtube(id=1, autoplay=true, hello='salut', float=1.2) }}", "youtube", {
let mut m = Map::new();
m.insert("id".to_string(), to_value(1).unwrap());
m.insert("autoplay".to_string(), to_value(true).unwrap());
m.insert("hello".to_string(), to_value("salut").unwrap());
m.insert("float".to_string(), to_value(1.2).unwrap());
m
}),
("{{ gallery(photos=['something', 'else'], fullscreen=true) }}", "gallery", {
let mut m = Map::new();
m.insert("photos".to_string(), to_value(["something", "else"]).unwrap());
m.insert("fullscreen".to_string(), to_value(true).unwrap());
m
}),
];
for (i, n, a) in inputs {
let mut res = ContentParser::parse(Rule::inline_shortcode, i).unwrap();
let (name, args) = parse_shortcode_call(res.next().unwrap());
assert_eq!(name, n);
assert_eq!(args, a);
}
}
#[test]
fn can_render_inline_shortcodes() {
let mut tera = Tera::default();
tera.add_raw_template("shortcodes/youtube.html", "Hello {{id}}").unwrap();
let res = render_shortcodes("Inline {{ youtube(id=1) }}.", &tera);
assert_eq!(res, "Inline Hello 1.");
}
#[test]
fn can_render_shortcodes_with_body() {
let mut tera = Tera::default();
tera.add_raw_template("shortcodes/youtube.html", "{{body}}").unwrap();
let res = render_shortcodes("Body\n {% youtube() %}Hey!{% end %}", &tera);
assert_eq!(res, "Body\n Hey!");
}
// https://github.com/Keats/gutenberg/issues/462
#[test]
fn shortcodes_with_body_do_not_eat_newlines() {
let mut tera = Tera::default();
tera.add_raw_template("shortcodes/youtube.html", "{{body | safe}}").unwrap();
let res = render_shortcodes("Body\n {% youtube() %}\nHello \n World{% end %}", &tera);
assert_eq!(res, "Body\n Hello \n World");
}
#[test]
fn outer_newlines_removed_from_shortcodes_with_body() {
let mut tera = Tera::default();
tera.add_raw_template("shortcodes/youtube.html", " \n {{body}} \n ").unwrap();
let res = render_shortcodes("\n{% youtube() %} \n content \n {% end %}\n", &tera);
assert_eq!(res, "\n content \n");
}
#[test]
fn outer_newlines_removed_from_inline_shortcodes() {
let mut tera = Tera::default();
tera.add_raw_template("shortcodes/youtube.html", " \n Hello, Zola. \n ").unwrap();
let res = render_shortcodes("\n{{ youtube() }}\n", &tera);
assert_eq!(res, "\n Hello, Zola. \n");
}
}