use crate::{CompileError, Config, Syntax};
use std::path::{Path, PathBuf};
use std::str::FromStr;
use mime::Mime;
use quote::ToTokens;
pub struct TemplateInput<'a> {
pub ast: &'a syn::DeriveInput,
pub config: &'a Config<'a>,
pub syntax: &'a Syntax<'a>,
pub source: Source,
pub print: Print,
pub escaper: &'a str,
pub ext: Option<String>,
pub parent: Option<&'a syn::Type>,
pub 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; it also finds the of the `_parent`
/// field, if any.
pub fn new<'n>(
ast: &'n syn::DeriveInput,
config: &'n Config<'_>,
) -> Result<TemplateInput<'n>, CompileError> {
// Check that an attribute called `template()` exists and that it is
// the proper type (list).
let meta = ast
.attrs
.iter()
.find_map(|attr| {
attr.path.is_ident("template").then(|| {
attr.parse_meta()
.map_err(|e| format!("unable to parse attribute: {}", e).into())
})
})
.unwrap_or(Err(CompileError::Static("no attribute 'template' found")))?;
let meta_list = match meta {
syn::Meta::List(inner) => inner,
_ => return Err("attribute 'template' has incorrect type".into()),
};
// Loop over the meta attributes and find everything that we
// understand. Raise panics if something is not right.
// `source` contains an enum that can represent `path` or `source`.
let mut source = None;
let mut print = Print::None;
let mut escaping = None;
let mut ext = None;
let mut syntax = None;
for item in meta_list.nested {
let pair = match item {
syn::NestedMeta::Meta(syn::Meta::NameValue(ref pair)) => pair,
_ => {
return Err(format!(
"unsupported attribute argument {:?}",
item.to_token_stream()
)
.into())
}
};
if pair.path.is_ident("path") {
if let syn::Lit::Str(ref s) = pair.lit {
if source.is_some() {
return Err("must specify 'source' or 'path', not both".into());
}
source = Some(Source::Path(s.value()));
} else {
return Err("template path must be string literal".into());
}
} else if pair.path.is_ident("source") {
if let syn::Lit::Str(ref s) = pair.lit {
if source.is_some() {
return Err("must specify 'source' or 'path', not both".into());
}
source = Some(Source::Source(s.value()));
} else {
return Err("template source must be string literal".into());
}
} else if pair.path.is_ident("print") {
if let syn::Lit::Str(ref s) = pair.lit {
print = s.value().parse()?;
} else {
return Err("print value must be string literal".into());
}
} else if pair.path.is_ident("escape") {
if let syn::Lit::Str(ref s) = pair.lit {
escaping = Some(s.value());
} else {
return Err("escape value must be string literal".into());
}
} else if pair.path.is_ident("ext") {
if let syn::Lit::Str(ref s) = pair.lit {
ext = Some(s.value());
} else {
return Err("ext value must be string literal".into());
}
} else if pair.path.is_ident("syntax") {
if let syn::Lit::Str(ref s) = pair.lit {
syntax = Some(s.value())
} else {
return Err("syntax value must be string literal".into());
}
} else {
return Err(format!(
"unsupported attribute key '{}' found",
pair.path.to_token_stream()
)
.into());
}
}
// 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(ref 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())
}
};
// Check to see if a `_parent` field was defined on the context
// struct, and store the type for it for use in the code generator.
let parent = match ast.data {
syn::Data::Struct(syn::DataStruct {
fields: syn::Fields::Named(ref fields),
..
}) => fields
.named
.iter()
.find(|f| f.ident.as_ref().filter(|name| *name == "_parent").is_some())
.map(|f| &f.ty),
_ => None,
};
if parent.is_some() {
eprint!(
" --> in struct {}\n = use of deprecated field '_parent'\n",
ast.ident
);
}
// 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::String(format!("attribute syntax {} not exist", s))
})
},
)?;
// 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::String(format!("no escaper defined for extension '{}'", escaping,))
})?;
Ok(TemplateInput {
ast,
config,
syntax,
source,
print,
escaper,
ext,
parent,
path,
})
}
pub fn extension(&self) -> Option<&str> {
self.ext.as_deref().or_else(|| extension(&self.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 enum Source {
Path(String),
Source(String),
}
#[derive(PartialEq)]
pub enum Print {
All,
Ast,
Code,
None,
}
impl FromStr for Print {
type Err = CompileError;
fn from_str(s: &str) -> Result<Print, Self::Err> {
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()),
})
}
}
#[doc(hidden)]
pub 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"));
}
}