use std::collections::hash_map::HashMap; use std::path::{Path, PathBuf}; use std::str::FromStr; use mime::Mime; use quote::ToTokens; use syn::punctuated::Punctuated; use crate::config::{get_template_source, Config}; use crate::CompileError; use parser::{Node, Parsed, Syntax}; pub(crate) struct TemplateInput<'a> { pub(crate) ast: &'a syn::DeriveInput, pub(crate) config: &'a Config<'a>, pub(crate) syntax: &'a Syntax<'a>, pub(crate) source: Source, pub(crate) print: Print, pub(crate) escaper: &'a str, pub(crate) ext: Option, pub(crate) mime_type: String, pub(crate) path: PathBuf, } impl TemplateInput<'_> { /// Extract the template metadata from the `DeriveInput` structure. This /// mostly recovers the data for the `TemplateInput` fields from the /// `template()` attribute list fields. pub(crate) fn new<'n>( ast: &'n syn::DeriveInput, config: &'n Config<'_>, args: TemplateArgs, ) -> Result, CompileError> { let TemplateArgs { source, print, escaping, ext, syntax, .. } = args; // Validate the `source` and `ext` value together, since they are // related. In case `source` was used instead of `path`, the value // of `ext` is merged into a synthetic `path` value here. let source = source.expect("template path or source not found in attributes"); let path = match (&source, &ext) { (Source::Path(path), _) => config.find_template(path, None)?, (&Source::Source(_), Some(ext)) => PathBuf::from(format!("{}.{}", ast.ident, ext)), (&Source::Source(_), None) => { return Err("must include 'ext' attribute when using 'source' attribute".into()) } }; // Validate syntax let syntax = syntax.map_or_else( || Ok(config.syntaxes.get(config.default_syntax).unwrap()), |s| { config .syntaxes .get(&s) .ok_or_else(|| CompileError::from(format!("attribute syntax {s} not exist"))) }, )?; // Match extension against defined output formats let escaping = escaping.unwrap_or_else(|| { path.extension() .map(|s| s.to_str().unwrap()) .unwrap_or("") .to_string() }); let mut escaper = None; for (extensions, path) in &config.escapers { if extensions.contains(&escaping) { escaper = Some(path); break; } } let escaper = escaper.ok_or_else(|| { CompileError::from(format!("no escaper defined for extension '{escaping}'")) })?; let mime_type = extension_to_mime_type(ext_default_to_path(ext.as_deref(), &path).unwrap_or("txt")) .to_string(); Ok(TemplateInput { ast, config, syntax, source, print, escaper, ext, mime_type, path, }) } pub(crate) fn find_used_templates( &self, map: &mut HashMap, ) -> Result<(), CompileError> { let source = match &self.source { Source::Source(s) => s.clone(), Source::Path(_) => get_template_source(&self.path)?, }; let mut dependency_graph = Vec::new(); let mut check = vec![(self.path.clone(), source)]; while let Some((path, source)) = check.pop() { let parsed = Parsed::new(source, self.syntax)?; for n in parsed.nodes() { match n { Node::Extends(extends) => { let extends = self.config.find_template(extends.path, Some(&path))?; let dependency_path = (path.clone(), extends.clone()); if dependency_graph.contains(&dependency_path) { return Err(format!( "cyclic dependency in graph {:#?}", dependency_graph .iter() .map(|e| format!("{:#?} --> {:#?}", e.0, e.1)) .collect::>() ) .into()); } dependency_graph.push(dependency_path); let source = get_template_source(&extends)?; check.push((extends, source)); } Node::Import(import) => { let import = self.config.find_template(import.path, Some(&path))?; let source = get_template_source(&import)?; check.push((import, source)); } _ => {} } } map.insert(path, parsed); } Ok(()) } #[inline] pub(crate) fn extension(&self) -> Option<&str> { ext_default_to_path(self.ext.as_deref(), &self.path) } } #[derive(Default)] pub(crate) struct TemplateArgs { pub(crate) source: Option, pub(crate) print: Print, pub(crate) escaping: Option, pub(crate) ext: Option, pub(crate) syntax: Option, pub(crate) config_path: Option, pub(crate) whitespace: Option, } impl TemplateArgs { pub(crate) fn new(ast: &'_ syn::DeriveInput) -> Result { // Check that an attribute called `template()` exists once and that it is // the proper type (list). let mut template_args = None; for attr in &ast.attrs { if !attr.path().is_ident("template") { continue; } match attr.parse_args_with(Punctuated::::parse_terminated) { Ok(args) if template_args.is_none() => template_args = Some(args), Ok(_) => return Err("duplicated 'template' attribute".into()), Err(e) => return Err(format!("unable to parse template arguments: {e}").into()), }; } let template_args = template_args.ok_or_else(|| CompileError::from("no attribute 'template' found"))?; let mut args = Self::default(); // Loop over the meta attributes and find everything that we // understand. Return a CompileError if something is not right. // `source` contains an enum that can represent `path` or `source`. for item in template_args { let pair = match item { syn::Meta::NameValue(pair) => pair, _ => { return Err(format!( "unsupported attribute argument {:?}", item.to_token_stream() ) .into()) } }; let ident = match pair.path.get_ident() { Some(ident) => ident, None => unreachable!("not possible in syn::Meta::NameValue(…)"), }; let value = match pair.value { syn::Expr::Lit(lit) => lit, syn::Expr::Group(group) => match *group.expr { syn::Expr::Lit(lit) => lit, _ => { return Err(format!("unsupported argument value type for {ident:?}").into()) } }, _ => return Err(format!("unsupported argument value type for {ident:?}").into()), }; if ident == "path" { if let syn::Lit::Str(s) = value.lit { if args.source.is_some() { return Err("must specify 'source' or 'path', not both".into()); } args.source = Some(Source::Path(s.value())); } else { return Err("template path must be string literal".into()); } } else if ident == "source" { if let syn::Lit::Str(s) = value.lit { if args.source.is_some() { return Err("must specify 'source' or 'path', not both".into()); } args.source = Some(Source::Source(s.value())); } else { return Err("template source must be string literal".into()); } } else if ident == "print" { if let syn::Lit::Str(s) = value.lit { args.print = s.value().parse()?; } else { return Err("print value must be string literal".into()); } } else if ident == "escape" { if let syn::Lit::Str(s) = value.lit { args.escaping = Some(s.value()); } else { return Err("escape value must be string literal".into()); } } else if ident == "ext" { if let syn::Lit::Str(s) = value.lit { args.ext = Some(s.value()); } else { return Err("ext value must be string literal".into()); } } else if ident == "syntax" { if let syn::Lit::Str(s) = value.lit { args.syntax = Some(s.value()) } else { return Err("syntax value must be string literal".into()); } } else if ident == "config" { if let syn::Lit::Str(s) = value.lit { args.config_path = Some(s.value()) } else { return Err("config value must be string literal".into()); } } else if ident == "whitespace" { if let syn::Lit::Str(s) = value.lit { args.whitespace = Some(s.value()) } else { return Err("whitespace value must be string literal".into()); } } else { return Err(format!("unsupported attribute key {ident:?} found").into()); } } Ok(args) } } #[inline] fn ext_default_to_path<'a>(ext: Option<&'a str>, path: &'a Path) -> Option<&'a str> { ext.or_else(|| extension(path)) } fn extension(path: &Path) -> Option<&str> { let ext = path.extension().map(|s| s.to_str().unwrap())?; const JINJA_EXTENSIONS: [&str; 3] = ["j2", "jinja", "jinja2"]; if JINJA_EXTENSIONS.contains(&ext) { Path::new(path.file_stem().unwrap()) .extension() .map(|s| s.to_str().unwrap()) .or(Some(ext)) } else { Some(ext) } } pub(crate) enum Source { Path(String), Source(String), } #[derive(PartialEq)] pub(crate) enum Print { All, Ast, Code, None, } impl FromStr for Print { type Err = CompileError; fn from_str(s: &str) -> Result { use self::Print::*; Ok(match s { "all" => All, "ast" => Ast, "code" => Code, "none" => None, v => return Err(format!("invalid value for print option: {v}",).into()), }) } } impl Default for Print { fn default() -> Self { Self::None } } pub(crate) fn extension_to_mime_type(ext: &str) -> Mime { let basic_type = mime_guess::from_ext(ext).first_or_octet_stream(); for (simple, utf_8) in &TEXT_TYPES { if &basic_type == simple { return utf_8.clone(); } } basic_type } const TEXT_TYPES: [(Mime, Mime); 6] = [ (mime::TEXT_PLAIN, mime::TEXT_PLAIN_UTF_8), (mime::TEXT_HTML, mime::TEXT_HTML_UTF_8), (mime::TEXT_CSS, mime::TEXT_CSS_UTF_8), (mime::TEXT_CSV, mime::TEXT_CSV_UTF_8), ( mime::TEXT_TAB_SEPARATED_VALUES, mime::TEXT_TAB_SEPARATED_VALUES_UTF_8, ), ( mime::APPLICATION_JAVASCRIPT, mime::APPLICATION_JAVASCRIPT_UTF_8, ), ]; #[cfg(test)] mod tests { use super::*; #[test] fn test_ext() { assert_eq!(extension(Path::new("foo-bar.txt")), Some("txt")); assert_eq!(extension(Path::new("foo-bar.html")), Some("html")); assert_eq!(extension(Path::new("foo-bar.unknown")), Some("unknown")); assert_eq!(extension(Path::new("foo/bar/baz.txt")), Some("txt")); assert_eq!(extension(Path::new("foo/bar/baz.html")), Some("html")); assert_eq!(extension(Path::new("foo/bar/baz.unknown")), Some("unknown")); } #[test] fn test_double_ext() { assert_eq!(extension(Path::new("foo-bar.html.txt")), Some("txt")); assert_eq!(extension(Path::new("foo-bar.txt.html")), Some("html")); assert_eq!(extension(Path::new("foo-bar.txt.unknown")), Some("unknown")); assert_eq!(extension(Path::new("foo/bar/baz.html.txt")), Some("txt")); assert_eq!(extension(Path::new("foo/bar/baz.txt.html")), Some("html")); assert_eq!( extension(Path::new("foo/bar/baz.txt.unknown")), Some("unknown") ); } #[test] fn test_skip_jinja_ext() { assert_eq!(extension(Path::new("foo-bar.html.j2")), Some("html")); assert_eq!(extension(Path::new("foo-bar.html.jinja")), Some("html")); assert_eq!(extension(Path::new("foo-bar.html.jinja2")), Some("html")); assert_eq!(extension(Path::new("foo/bar/baz.txt.j2")), Some("txt")); assert_eq!(extension(Path::new("foo/bar/baz.txt.jinja")), Some("txt")); assert_eq!(extension(Path::new("foo/bar/baz.txt.jinja2")), Some("txt")); } #[test] fn test_only_jinja_ext() { assert_eq!(extension(Path::new("foo-bar.j2")), Some("j2")); assert_eq!(extension(Path::new("foo-bar.jinja")), Some("jinja")); assert_eq!(extension(Path::new("foo-bar.jinja2")), Some("jinja2")); } }