use shared::path; use std::path::{Path, PathBuf}; use syn; pub struct TemplateInput<'a> { pub ast: &'a syn::DeriveInput, pub meta: TemplateMeta, pub path: PathBuf, } impl<'a> TemplateInput<'a> { pub fn new(ast: &'a syn::DeriveInput) -> TemplateInput<'a> { let meta = TemplateMeta::new(ast); let path = match meta.source { Source::Source(_) => match meta.ext { Some(ref v) => PathBuf::from(format!("{}.{}", ast.ident, v)), None => PathBuf::new(), }, Source::Path(ref s) => path::find_template_from_path(s, None), }; TemplateInput { ast, meta, path } } } // Holds metadata for the template, based on the `template()` attribute. pub struct TemplateMeta { pub source: Source, pub print: Print, pub escaping: EscapeMode, pub ext: Option, } impl TemplateMeta { fn new(ast: &syn::DeriveInput) -> TemplateMeta { let attr = ast.attrs .iter() .find(|a| a.interpret_meta().unwrap().name() == "template"); if attr.is_none() { panic!(format!("'template' attribute not found on struct '{}'", ast.ident)); } let attr = attr.unwrap(); let mut source = None; let mut print = Print::None; let mut escaping = None; let mut ext = None; if let syn::Meta::List(ref inner) = attr.interpret_meta().unwrap() { for nm_item in inner.nested.iter() { if let syn::NestedMeta::Meta(ref item) = *nm_item { if let syn::Meta::NameValue(ref pair) = *item { match pair.ident.to_string().as_ref() { "path" => if let syn::Lit::Str(ref s) = pair.lit { if source.is_some() { panic!("must specify 'source' or 'path', not both"); } source = Some(Source::Path(s.value())); } else { panic!("template path must be string literal"); }, "source" => if let syn::Lit::Str(ref s) = pair.lit { if source.is_some() { panic!("must specify 'source' or 'path', not both"); } source = Some(Source::Source(s.value())); } else { panic!("template source must be string literal"); }, "print" => if let syn::Lit::Str(ref s) = pair.lit { print = s.value().into(); } else { panic!("print value must be string literal"); }, "escape" => if let syn::Lit::Str(ref s) = pair.lit { escaping = Some(s.value().into()); } else { panic!("escape value must be string literal"); }, "ext" => if let syn::Lit::Str(ref s) = pair.lit { ext = Some(s.value()); } else { panic!("ext value must be string literal"); }, attr => panic!("unsupported annotation key '{}' found", attr), } } } } } let source = source.expect("template path or source not found in attributes"); match (&source, ext.is_some()) { (&Source::Path(_), true) => { panic!("'ext' attribute cannot be used with 'path' attribute") }, (&Source::Source(_), false) => { panic!("must include 'ext' attribute when using 'source' attribute") }, _ => {}, } let escaping = match escaping { Some(m) => m, None => { let ext = match source { Source::Path(ref p) => Path::new(p).extension().map(|s| s.to_str().unwrap()).unwrap_or(""), Source::Source(_) => ext.as_ref().unwrap(), // Already panicked if None }; if HTML_EXTENSIONS.contains(&ext) { EscapeMode::Html } else { EscapeMode::None } }, }; TemplateMeta { source, print, escaping, ext } } } pub enum Source { Path(String), Source(String), } #[derive(PartialEq)] pub enum EscapeMode { Html, None, } impl From for EscapeMode { fn from(s: String) -> EscapeMode { use self::EscapeMode::*; match s.as_ref() { "html" => Html, "none" => None, v => panic!("invalid value for escape option: {}", v), } } } #[derive(PartialEq)] pub enum Print { All, Ast, Code, None, } impl From for Print { fn from(s: String) -> Print { use self::Print::*; match s.as_ref() { "all" => All, "ast" => Ast, "code" => Code, "none" => None, v => panic!("invalid value for print option: {}", v), } } } const HTML_EXTENSIONS: [&str; 3] = ["html", "htm", "xml"];