//! Provide a more ergonomic interface to the base Fluent library //! //! The Fluent class makes it easier to load translation bundles with language fallbacks and to go //! through the most common steps of translating a message. //! use fluent::{FluentArgs, FluentBundle, FluentError, FluentResource}; use fluent_syntax::parser::ParserError; use std::collections::hash_map::Entry; use std::collections::HashMap; use std::error; use std::fmt; use std::fs::File; use std::io; use std::io::Read; use std::path::Path; use std::string::FromUtf8Error; use std::sync::{Arc, RwLock}; use unic_langid::LanguageIdentifier; #[derive(Debug)] pub enum Error { /// All files must be UTF-8 encoded. FileEncodingError(FromUtf8Error), /// Fluent encountered an underlying error FluentError(Vec), /// Fluent encountered an underlying error while parsing the translation strings FluentParserError(Vec), /// There was an underlying IO error IOError(io::Error), /// No message could be found matching the specified message ID NoMatchingMessage(String), } impl error::Error for Error { fn source(&self) -> Option<&(dyn error::Error + 'static)> { match self { Error::FileEncodingError(error) => Some(error), Error::NoMatchingMessage(_) => None, Error::FluentParserError(_) => None, Error::FluentError(_) => None, Error::IOError(error) => Some(error), } } } impl fmt::Display for Error { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match self { Error::FileEncodingError(error) => { write!(f, "Translation file has an encoding problem: {}", error) } Error::FluentError(errs) => write!(f, "Fluent Error: {:?}", errs), Error::FluentParserError(errs) => write!(f, "Fluent Parser Error: {:?}", errs), Error::IOError(error) => write!(f, "IO Error: {}", error), Error::NoMatchingMessage(id) => write!(f, "No matching message for {}", id), } } } impl From<(FluentResource, Vec)> for Error { fn from(inp: (FluentResource, Vec)) -> Self { let (_, error) = inp; Error::FluentParserError(error) } } impl From> for Error { fn from(error: Vec) -> Self { Error::FluentParserError(error) } } impl From> for Error { fn from(error: Vec) -> Self { Error::FluentError(error) } } impl From for Error { fn from(error: io::Error) -> Self { Error::IOError(error) } } impl From for Error { fn from(error: FromUtf8Error) -> Self { Error::FileEncodingError(error) } } #[derive(Clone, Default)] pub struct FluentErgo { languages: Vec, bundles: Arc>>>, } impl fmt::Debug for FluentErgo { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "FluentErgo") //write!( //f, //"FluentErgo {{ language: {:?}, units: {} }}", //self.language, "whatever, for the moment" //) } } /// An Ergonomic class wrapping the Fluent library impl FluentErgo { /// Construct the class with a list of languages. The list must be sorted in the order that /// language packs will be tested. The first language listed will be the first language /// searched for any translation message. /// /// Typically, I call this as /// /// ``` /// let eo_id = "eo".parse::().unwrap(); /// let en_id = "en-US".parse::().unwrap(); /// /// let mut fluent = fluent_ergonomics::FluentErgo::new(&[eo_id, en_id]); /// ``` /// /// This specifies that I want to first look up messages in the Esperanto list, then fall back /// to the English specfications if no Esperanto specification is present. /// /// Note that no language resources are loaded during construction. You must call /// `add_from_text` or `add_from_file` to load language packs. pub fn new(languages: &[LanguageIdentifier]) -> FluentErgo { FluentErgo { languages: Vec::from(languages), bundles: Arc::new(RwLock::new(HashMap::new())), } } /// Add a list of translation strings from a string, which can be a constant hard-coded in the /// application, loaded from a file, loaded from the internet, or wherever you like. `lang` /// specifies which language the translation strings being provided. /// /// You should not specify a language that you did not include in the constructor. You can, but /// the translation function will only check those languages specified when this object was /// constructed. /// /// # Errors /// /// * `FluentError` /// * `FluentParserError` /// pub fn add_from_text(&mut self, lang: LanguageIdentifier, text: String) -> Result<(), Error> { let res = FluentResource::try_new(text)?; let mut bundles = self.bundles.write().unwrap(); let entry = bundles.entry(lang.clone()); match entry { Entry::Occupied(mut e) => { let bundle = e.get_mut(); bundle.add_resource(res).map_err(|err| Error::from(err)) } Entry::Vacant(e) => { let mut bundle = FluentBundle::new(vec![lang]); bundle.add_resource(res).map_err(|err| Error::from(err))?; e.insert(bundle); Ok(()) } }?; Ok(()) } /// Like `add_from_text`, but this will load the translation strings from a file. /// /// Note that this will load the entire file into memory before passing it to Fluent. While I /// think it is unlikely, it is possible that a translation file may be so big as to run the /// computer out of memory. /// /// # Errors /// /// * `FluentError` /// * `FluentParserError` /// * `FileEncodingError` -- all files must be encoded in UTF-8. Most files saved from text /// editors already do proper UTF-8 encoding, so this should rarely be a problem. /// pub fn add_from_file(&mut self, lang: LanguageIdentifier, path: &Path) -> Result<(), Error> { let mut v = Vec::new(); let mut f = File::open(path)?; f.read_to_end(&mut v)?; String::from_utf8(v) .map_err(Error::FileEncodingError) .and_then(|s| self.add_from_text(lang, s)) } /// Run a translation. /// /// `msgid` is the translation identifier as specified in the translation strings. `args` is a /// set of Fluent arguments to be interpolated into the strings. /// /// This function will search language bundles in the order that they were specified in the /// constructor. NoMatchingMessage will be returned only if the message identifier cannot be /// found in any bundle. /// /// ```ignore /// length-without-label = {$value} /// swimming = Swimming /// units = Units /// ``` /// /// With this set of translation strings, `length-without-label`, `swimming`, and `units` are /// all valid translation identifiers. See the documentation for `FluentBundle.get_message` for /// more information. /// /// A typical call with arguments would look like this: /// /// ``` /// use fluent::{FluentArgs, FluentValue}; /// /// let eo_id = "eo".parse::().unwrap(); /// let en_id = "en-US".parse::().unwrap(); /// /// let mut fluent = fluent_ergonomics::FluentErgo::new(&[eo_id, en_id]); /// let mut args = FluentArgs::new(); /// args.insert("value", FluentValue::from("15")); /// let r = fluent.tr("length-without-label", Some(&args)); /// ``` /// /// # Errors /// /// * NoMatchingMessage -- this will be returned if the message identifier cannot be found in /// any language bundle. /// pub fn tr(&self, msgid: &str, args: Option<&FluentArgs>) -> Result { let bundles = self.bundles.read().unwrap(); let result: Option = self .languages .iter() .map(|lang| { let bundle = bundles.get(lang)?; self.tr_(bundle, msgid, args) }) .filter(|v| v.is_some()) .map(|v| v.unwrap()) .next(); match result { Some(r) => Ok(r), _ => Err(Error::NoMatchingMessage(String::from(msgid))), } } fn tr_( &self, bundle: &FluentBundle, msgid: &str, args: Option<&FluentArgs>, ) -> Option { let mut errors = vec![]; let pattern = bundle.get_message(msgid).and_then(|msg| msg.value()); let res = match pattern { None => None, Some(p) => { let res = bundle.format_pattern(&p, args, &mut errors); if errors.len() > 0 { println!("Errors in formatting: {:?}", errors) } Some(String::from(res)) } }; match res { Some(mut tr_string) => { tr_string.retain(|v| v != '\u{2068}' && v != '\u{2069}'); Some(tr_string) } None => None, } } } #[cfg(test)] mod tests { use super::FluentErgo; use fluent::{FluentArgs, FluentValue}; use unic_langid::LanguageIdentifier; const EN_TRANSLATIONS: &'static str = " preferences = Preferences history = History time_display = {$time} during the day nested_display = nesting a time display: {time_display} "; const EO_TRANSLATIONS: &'static str = " history = Historio "; #[test] fn translations() { let en_id = "en-US".parse::().unwrap(); let mut fluent = FluentErgo::new(&vec![en_id.clone()]); fluent .add_from_text(en_id, String::from(EN_TRANSLATIONS)) .expect("text should load"); assert_eq!( fluent.tr("preferences", None).unwrap(), String::from("Preferences") ); } #[test] fn translation_fallback() { let eo_id = "eo".parse::().unwrap(); let en_id = "en".parse::().unwrap(); let mut fluent = FluentErgo::new(&vec![eo_id.clone(), en_id.clone()]); fluent .add_from_text(en_id, String::from(EN_TRANSLATIONS)) .expect("text should load"); fluent .add_from_text(eo_id, String::from(EO_TRANSLATIONS)) .expect("text should load"); assert_eq!( fluent.tr("preferences", None).unwrap(), String::from("Preferences") ); assert_eq!( fluent.tr("history", None).unwrap(), String::from("Historio") ); } #[test] fn placeholder_insertion_should_strip_placeholder_markers() { let en_id = "en".parse::().unwrap(); let mut fluent = FluentErgo::new(&vec![en_id.clone()]); fluent .add_from_text(en_id, String::from(EN_TRANSLATIONS)) .expect("text should load"); let mut args = FluentArgs::new(); args.insert("time", FluentValue::from(String::from("13:00"))); assert_eq!( fluent.tr("time_display", Some(&args)).unwrap(), String::from("13:00 during the day") ); } #[test] fn placeholder_insertion_should_strip_nested_placeholder_markers() { let en_id = "en".parse::().unwrap(); let mut fluent = FluentErgo::new(&vec![en_id.clone()]); fluent .add_from_text(en_id, String::from(EN_TRANSLATIONS)) .expect("text should load"); let mut args = FluentArgs::new(); args.insert("time", FluentValue::from(String::from("13:00"))); assert_eq!( fluent.tr("nested_display", Some(&args)).unwrap(), String::from("nesting a time display: 13:00 during the day") ); } #[test] fn test_send() { fn assert_send() {} assert_send::(); } #[test] fn test_sync() { fn assert_sync() {} assert_sync::(); } }