use std::convert::TryFrom; use smallvec::SmallVec; use crate::{ parse, parse::{section, Event, Section}, }; /// A type store without allocation all events that are typically preceding the first section. pub type FrontMatterEvents<'a> = SmallVec<[Event<'a>; 8]>; /// A zero-copy `git-config` file parser. /// /// This is parser exposes low-level syntactic events from a `git-config` file. /// Generally speaking, you'll want to use [`File`] as it wraps /// around the parser to provide a higher-level abstraction to a `git-config` /// file, including querying, modifying, and updating values. /// /// This parser guarantees that the events emitted are sufficient to /// reconstruct a `git-config` file identical to the source `git-config` /// when writing it. /// /// # Differences between a `.ini` parser /// /// While the `git-config` format closely resembles the [`.ini` file format], /// there are subtle differences that make them incompatible. For one, the file /// format is not well defined, and there exists no formal specification to /// adhere to. /// /// For concrete examples, some notable differences are: /// - `git-config` sections permit subsections via either a quoted string /// (`[some-section "subsection"]`) or via the deprecated dot notation /// (`[some-section.subsection]`). Successful parsing these section names is not /// well defined in typical `.ini` parsers. This parser will handle these cases /// perfectly. /// - Comment markers are not strictly defined either. This parser will always /// and only handle a semicolon or octothorpe (also known as a hash or number /// sign). /// - Global properties may be allowed in `.ini` parsers, but is strictly /// disallowed by this parser. /// - Only `\t`, `\n`, `\b` `\\` are valid escape characters. /// - Quoted and semi-quoted values will be parsed (but quotes will be included /// in event outputs). An example of a semi-quoted value is `5"hello world"`, /// which should be interpreted as `5hello world` after /// [normalization][crate::value::normalize()]. /// - Line continuations via a `\` character is supported (inside or outside of quotes) /// - Whitespace handling similarly follows the `git-config` specification as /// closely as possible, where excess whitespace after a non-quoted value are /// trimmed, and line continuations onto a new line with excess spaces are kept. /// - Only equal signs (optionally padded by spaces) are valid name/value /// delimiters. /// /// Note that things such as case-sensitivity or duplicate sections are /// _not_ handled. This parser is a low level _syntactic_ interpreter /// and higher level wrappers around this parser, which may /// or may not be zero-copy, should handle _semantic_ values. This also means /// that string-like values are not interpreted. For example, `hello"world"` /// would be read at a high level as `helloworld` but this parser will return /// the former instead, with the extra quotes. This is because it is not the /// responsibility of the parser to interpret these values, and doing so would /// necessarily require a copy, which this parser avoids. /// /// # Trait Implementations /// /// - This struct does _not_ implement [`FromStr`] due to lifetime /// constraints implied on the required `from_str` method. Instead, it provides /// [`From<&'_ str>`]. /// /// # Idioms /// /// If you do want to use this parser, there are some idioms that may help you /// with interpreting sequences of events. /// /// ## `Value` events do not immediately follow `Key` events /// /// Consider the following `git-config` example: /// /// ```text /// [core] /// autocrlf = input /// ``` /// /// Because this parser guarantees perfect reconstruction, there are many /// non-significant events that occur in addition to the ones you may expect: /// /// ``` /// # use gix_config::parse::{Event, Events, section}; /// # use std::borrow::Cow; /// # use std::convert::TryFrom; /// # let section_header = section::Header::new("core", None).unwrap(); /// # let section_data = "[core]\n autocrlf = input"; /// # assert_eq!(Events::from_str(section_data).unwrap().into_vec(), vec![ /// Event::SectionHeader(section_header), /// Event::Newline(Cow::Borrowed("\n".into())), /// Event::Whitespace(Cow::Borrowed(" ".into())), /// Event::SectionKey(section::Key::try_from("autocrlf")?), /// Event::Whitespace(Cow::Borrowed(" ".into())), /// Event::KeyValueSeparator, /// Event::Whitespace(Cow::Borrowed(" ".into())), /// Event::Value(Cow::Borrowed("input".into())), /// # ]); /// # Ok::<_, Box>(()) /// ``` /// /// Note the two whitespace events between the key and value pair! Those two /// events actually refer to the whitespace between the name and value and the /// equal sign. So if the config instead had `autocrlf=input`, those whitespace /// events would no longer be present. /// /// ## `KeyValueSeparator` event is not guaranteed to emit /// /// Consider the following `git-config` example: /// /// ```text /// [core] /// autocrlf /// ``` /// /// This is a valid config with a `autocrlf` key having an implicit `true` /// value. This means that there is not a `=` separating the key and value, /// which means that the corresponding event won't appear either: /// /// ``` /// # use gix_config::parse::{Event, Events, section}; /// # use std::borrow::Cow; /// # use std::convert::TryFrom; /// # let section_header = section::Header::new("core", None).unwrap(); /// # let section_data = "[core]\n autocrlf"; /// # assert_eq!(Events::from_str(section_data).unwrap().into_vec(), vec![ /// Event::SectionHeader(section_header), /// Event::Newline(Cow::Borrowed("\n".into())), /// Event::Whitespace(Cow::Borrowed(" ".into())), /// Event::SectionKey(section::Key::try_from("autocrlf")?), /// Event::Value(Cow::Borrowed("".into())), /// # ]); /// # Ok::<_, Box>(()) /// ``` /// /// ## Quoted values are not unquoted /// /// Consider the following `git-config` example: /// /// ```text /// [core] /// autocrlf=true"" /// filemode=fa"lse" /// ``` /// /// Both these events, when fully processed, should normally be `true` and /// `false`. However, because this parser is zero-copy, we cannot process /// partially quoted values, such as the `false` example. As a result, to /// maintain consistency, the parser will just take all values as literals. The /// relevant event stream emitted is thus emitted as: /// /// ``` /// # use gix_config::parse::{Event, Events, section}; /// # use std::borrow::Cow; /// # use std::convert::TryFrom; /// # let section_header = section::Header::new("core", None).unwrap(); /// # let section_data = "[core]\nautocrlf=true\"\"\nfilemode=fa\"lse\""; /// # assert_eq!(Events::from_str(section_data).unwrap().into_vec(), vec![ /// Event::SectionHeader(section_header), /// Event::Newline(Cow::Borrowed("\n".into())), /// Event::SectionKey(section::Key::try_from("autocrlf")?), /// Event::KeyValueSeparator, /// Event::Value(Cow::Borrowed(r#"true"""#.into())), /// Event::Newline(Cow::Borrowed("\n".into())), /// Event::SectionKey(section::Key::try_from("filemode")?), /// Event::KeyValueSeparator, /// Event::Value(Cow::Borrowed(r#"fa"lse""#.into())), /// # ]); /// # Ok::<_, Box>(()) /// ``` /// /// ## Whitespace after line continuations are part of the value /// /// Consider the following `git-config` example: /// /// ```text /// [some-section] /// file=a\ /// c /// ``` /// /// Because how `git-config` treats continuations, the whitespace preceding `c` /// are in fact part of the value of `file`. The fully interpreted key/value /// pair is actually `file=a c`. As a result, the parser will provide this /// split value accordingly: /// /// ``` /// # use gix_config::parse::{Event, Events, section}; /// # use std::borrow::Cow; /// # use std::convert::TryFrom; /// # let section_header = section::Header::new("some-section", None).unwrap(); /// # let section_data = "[some-section]\nfile=a\\\n c"; /// # assert_eq!(Events::from_str(section_data).unwrap().into_vec(), vec![ /// Event::SectionHeader(section_header), /// Event::Newline(Cow::Borrowed("\n".into())), /// Event::SectionKey(section::Key::try_from("file")?), /// Event::KeyValueSeparator, /// Event::ValueNotDone(Cow::Borrowed("a".into())), /// Event::Newline(Cow::Borrowed("\n".into())), /// Event::ValueDone(Cow::Borrowed(" c".into())), /// # ]); /// # Ok::<_, Box>(()) /// ``` /// /// [`File`]: crate::File /// [`.ini` file format]: https://en.wikipedia.org/wiki/INI_file /// [`git`'s documentation]: https://git-scm.com/docs/git-config#_configuration_file /// [`FromStr`]: std::str::FromStr /// [`From<&'_ str>`]: std::convert::From #[derive(Clone, Eq, PartialEq, Ord, PartialOrd, Hash, Debug, Default)] pub struct Events<'a> { /// Events seen before the first section. pub frontmatter: FrontMatterEvents<'a>, /// All parsed sections. pub sections: Vec>, } impl Events<'static> { /// Parses the provided bytes, returning an [`Events`] that contains allocated /// and owned events. This is similar to [`Events::from_bytes()`], but performance /// is degraded as it requires allocation for every event. /// /// Use `filter` to only include those events for which it returns true. pub fn from_bytes_owned<'a>( input: &'a [u8], filter: Option) -> bool>, ) -> Result, parse::Error> { from_bytes(input, &|e| e.to_owned(), filter) } } impl<'a> Events<'a> { /// Attempt to zero-copy parse the provided bytes. On success, returns a /// [`Events`] that provides methods to accessing leading comments and sections /// of a `git-config` file and can be converted into an iterator of [`Event`] /// for higher level processing. /// /// Use `filter` to only include those events for which it returns true. pub fn from_bytes(input: &'a [u8], filter: Option) -> bool>) -> Result, parse::Error> { from_bytes(input, &std::convert::identity, filter) } /// Attempt to zero-copy parse the provided `input` string. /// /// Prefer the [`from_bytes()`][Self::from_bytes()] method if UTF8 encoding /// isn't guaranteed. #[allow(clippy::should_implement_trait)] pub fn from_str(input: &'a str) -> Result, parse::Error> { Self::from_bytes(input.as_bytes(), None) } /// Consumes the parser to produce an iterator of all contained events. #[must_use = "iterators are lazy and do nothing unless consumed"] #[allow(clippy::should_implement_trait)] pub fn into_iter(self) -> impl Iterator> + std::iter::FusedIterator { self.frontmatter.into_iter().chain( self.sections .into_iter() .flat_map(|section| std::iter::once(parse::Event::SectionHeader(section.header)).chain(section.events)), ) } /// Place all contained events into a single `Vec`. pub fn into_vec(self) -> Vec> { self.into_iter().collect() } } impl<'a> TryFrom<&'a str> for Events<'a> { type Error = parse::Error; fn try_from(value: &'a str) -> Result { Self::from_str(value) } } impl<'a> TryFrom<&'a [u8]> for Events<'a> { type Error = parse::Error; fn try_from(value: &'a [u8]) -> Result { Events::from_bytes(value, None) } } fn from_bytes<'a, 'b>( input: &'a [u8], convert: &dyn Fn(Event<'a>) -> Event<'b>, filter: Option) -> bool>, ) -> Result, parse::Error> { let mut header = None; let mut events = section::Events::default(); let mut frontmatter = FrontMatterEvents::default(); let mut sections = Vec::new(); parse::from_bytes(input, &mut |e: Event<'_>| match e { Event::SectionHeader(next_header) => { match header.take() { None => { frontmatter = std::mem::take(&mut events).into_iter().collect(); } Some(prev_header) => { sections.push(parse::Section { header: prev_header, events: std::mem::take(&mut events), }); } }; header = match convert(Event::SectionHeader(next_header)) { Event::SectionHeader(h) => h, _ => unreachable!("BUG: convert must not change the event type, just the lifetime"), } .into(); } event => { if filter.map_or(true, |f| f(&event)) { events.push(convert(event)) } } })?; match header { None => { frontmatter = events.into_iter().collect(); } Some(prev_header) => { sections.push(parse::Section { header: prev_header, events: std::mem::take(&mut events), }); } } Ok(Events { frontmatter, sections }) }