src/expr.rs - platform/external/rust/crates/rustversion - Git at Google

 use crate::bound::{self, Bound};
 use crate::date::{self, Date};
 use crate::error::{Error, Result};
 use crate::iter::{self, Iter};
 use crate::release::{self, Release};
 use crate::token;
 use crate::version::{Channel, Version};
 use proc_macro::{Ident, Span, TokenTree};

 pub enum Expr {
     Stable,
     Beta,
     Nightly,
     Date(Date),
     Since(Bound),
     Before(Bound),
     Release(Release),
     Not(Box<Expr>),
     Any(Vec<Expr>),
     All(Vec<Expr>),
 }

 impl Expr {
     pub fn eval(&self, rustc: Version) -> bool {
         use self::Expr::*;

         match self {
             Stable => rustc.channel == Channel::Stable,
             Beta => rustc.channel == Channel::Beta,
             Nightly => match rustc.channel {
                 Channel::Nightly(_) | Channel::Dev => true,
                 Channel::Stable | Channel::Beta => false,
             },
             Date(date) => match rustc.channel {
                 Channel::Nightly(rustc) => rustc == *date,
                 Channel::Stable | Channel::Beta | Channel::Dev => false,
             },
             Since(bound) => rustc >= *bound,
             Before(bound) => rustc < *bound,
             Release(release) => {
                 rustc.channel == Channel::Stable
                     && rustc.minor == release.minor
                     && release.patch.map_or(true, |patch| rustc.patch == patch)
             }
             Not(expr) => !expr.eval(rustc),
             Any(exprs) => exprs.iter().any(|e| e.eval(rustc)),
             All(exprs) => exprs.iter().all(|e| e.eval(rustc)),
         }
     }
 }

 pub fn parse(iter: Iter) -> Result<Expr> {
     match &iter.next() {
         Some(TokenTree::Ident(i)) if i.to_string() == "stable" => parse_stable(iter),
         Some(TokenTree::Ident(i)) if i.to_string() == "beta" => Ok(Expr::Beta),
         Some(TokenTree::Ident(i)) if i.to_string() == "nightly" => parse_nightly(iter),
         Some(TokenTree::Ident(i)) if i.to_string() == "since" => parse_since(i, iter),
         Some(TokenTree::Ident(i)) if i.to_string() == "before" => parse_before(i, iter),
         Some(TokenTree::Ident(i)) if i.to_string() == "not" => parse_not(i, iter),
         Some(TokenTree::Ident(i)) if i.to_string() == "any" => parse_any(i, iter),
         Some(TokenTree::Ident(i)) if i.to_string() == "all" => parse_all(i, iter),
         unexpected => {
             let span = unexpected
                 .as_ref()
                 .map_or_else(Span::call_site, TokenTree::span);
             Err(Error::new(span, "expected one of `stable`, `beta`, `nightly`, `since`, `before`, `not`, `any`, `all`"))
         }
     }
 }

 fn parse_nightly(iter: Iter) -> Result<Expr> {
     let paren = match token::parse_optional_paren(iter) {
         Some(group) => group,
         None => return Ok(Expr::Nightly),
     };

     let ref mut inner = iter::new(paren.stream());
     let date = date::parse(paren, inner)?;
     token::parse_optional_punct(inner, ',');
     token::parse_end(inner)?;

     Ok(Expr::Date(date))
 }

 fn parse_stable(iter: Iter) -> Result<Expr> {
     let paren = match token::parse_optional_paren(iter) {
         Some(group) => group,
         None => return Ok(Expr::Stable),
     };

     let ref mut inner = iter::new(paren.stream());
     let release = release::parse(paren, inner)?;
     token::parse_optional_punct(inner, ',');
     token::parse_end(inner)?;

     Ok(Expr::Release(release))
 }

 fn parse_since(introducer: &Ident, iter: Iter) -> Result<Expr> {
     let paren = token::parse_paren(introducer, iter)?;

     let ref mut inner = iter::new(paren.stream());
     let bound = bound::parse(paren, inner)?;
     token::parse_optional_punct(inner, ',');
     token::parse_end(inner)?;

     Ok(Expr::Since(bound))
 }

 fn parse_before(introducer: &Ident, iter: Iter) -> Result<Expr> {
     let paren = token::parse_paren(introducer, iter)?;

     let ref mut inner = iter::new(paren.stream());
     let bound = bound::parse(paren, inner)?;
     token::parse_optional_punct(inner, ',');
     token::parse_end(inner)?;

     Ok(Expr::Before(bound))
 }

 fn parse_not(introducer: &Ident, iter: Iter) -> Result<Expr> {
     let paren = token::parse_paren(introducer, iter)?;

     let ref mut inner = iter::new(paren.stream());
     let expr = self::parse(inner)?;
     token::parse_optional_punct(inner, ',');
     token::parse_end(inner)?;

     Ok(Expr::Not(Box::new(expr)))
 }

 fn parse_any(introducer: &Ident, iter: Iter) -> Result<Expr> {
     let paren = token::parse_paren(introducer, iter)?;

     let ref mut inner = iter::new(paren.stream());
     let exprs = parse_comma_separated(inner)?;

     Ok(Expr::Any(exprs.into_iter().collect()))
 }

 fn parse_all(introducer: &Ident, iter: Iter) -> Result<Expr> {
     let paren = token::parse_paren(introducer, iter)?;

     let ref mut inner = iter::new(paren.stream());
     let exprs = parse_comma_separated(inner)?;

     Ok(Expr::All(exprs.into_iter().collect()))
 }

 fn parse_comma_separated(iter: Iter) -> Result<Vec<Expr>> {
     let mut exprs = Vec::new();

     while iter.peek().is_some() {
         let expr = self::parse(iter)?;
         exprs.push(expr);
         if iter.peek().is_none() {
             break;
         }
         token::parse_punct(iter, ',')?;
     }

     Ok(exprs)
 }
	use crate::bound::{self, Bound};
	use crate::date::{self, Date};
	use crate::error::{Error, Result};
	use crate::iter::{self, Iter};
	use crate::release::{self, Release};
	use crate::token;
	use crate::version::{Channel, Version};
	use proc_macro::{Ident, Span, TokenTree};

	pub enum Expr {
	Stable,
	Beta,
	Nightly,
	Date(Date),
	Since(Bound),
	Before(Bound),
	Release(Release),
	Not(Box<Expr>),
	Any(Vec<Expr>),
	All(Vec<Expr>),
	}

	impl Expr {
	pub fn eval(&self, rustc: Version) -> bool {
	use self::Expr::*;

	match self {
	Stable => rustc.channel == Channel::Stable,
	Beta => rustc.channel == Channel::Beta,
	Nightly => match rustc.channel {
	Channel::Nightly(_) \| Channel::Dev => true,
	Channel::Stable \| Channel::Beta => false,
	},
	Date(date) => match rustc.channel {
	Channel::Nightly(rustc) => rustc == *date,
	Channel::Stable \| Channel::Beta \| Channel::Dev => false,
	},
	Since(bound) => rustc >= *bound,
	Before(bound) => rustc < *bound,
	Release(release) => {
	rustc.channel == Channel::Stable
	&& rustc.minor == release.minor
	&& release.patch.map_or(true, \|patch\| rustc.patch == patch)
	}
	Not(expr) => !expr.eval(rustc),
	Any(exprs) => exprs.iter().any(\|e\| e.eval(rustc)),
	All(exprs) => exprs.iter().all(\|e\| e.eval(rustc)),
	}
	}
	}

	pub fn parse(iter: Iter) -> Result<Expr> {
	match &iter.next() {
	Some(TokenTree::Ident(i)) if i.to_string() == "stable" => parse_stable(iter),
	Some(TokenTree::Ident(i)) if i.to_string() == "beta" => Ok(Expr::Beta),
	Some(TokenTree::Ident(i)) if i.to_string() == "nightly" => parse_nightly(iter),
	Some(TokenTree::Ident(i)) if i.to_string() == "since" => parse_since(i, iter),
	Some(TokenTree::Ident(i)) if i.to_string() == "before" => parse_before(i, iter),
	Some(TokenTree::Ident(i)) if i.to_string() == "not" => parse_not(i, iter),
	Some(TokenTree::Ident(i)) if i.to_string() == "any" => parse_any(i, iter),
	Some(TokenTree::Ident(i)) if i.to_string() == "all" => parse_all(i, iter),
	unexpected => {
	let span = unexpected
	.as_ref()
	.map_or_else(Span::call_site, TokenTree::span);
	Err(Error::new(span, "expected one of `stable`, `beta`, `nightly`, `since`, `before`, `not`, `any`, `all`"))
	}
	}
	}

	fn parse_nightly(iter: Iter) -> Result<Expr> {
	let paren = match token::parse_optional_paren(iter) {
	Some(group) => group,
	None => return Ok(Expr::Nightly),
	};

	let ref mut inner = iter::new(paren.stream());
	let date = date::parse(paren, inner)?;
	token::parse_optional_punct(inner, ',');
	token::parse_end(inner)?;

	Ok(Expr::Date(date))
	}

	fn parse_stable(iter: Iter) -> Result<Expr> {
	let paren = match token::parse_optional_paren(iter) {
	Some(group) => group,
	None => return Ok(Expr::Stable),
	};

	let ref mut inner = iter::new(paren.stream());
	let release = release::parse(paren, inner)?;
	token::parse_optional_punct(inner, ',');
	token::parse_end(inner)?;

	Ok(Expr::Release(release))
	}

	fn parse_since(introducer: &Ident, iter: Iter) -> Result<Expr> {
	let paren = token::parse_paren(introducer, iter)?;

	let ref mut inner = iter::new(paren.stream());
	let bound = bound::parse(paren, inner)?;
	token::parse_optional_punct(inner, ',');
	token::parse_end(inner)?;

	Ok(Expr::Since(bound))
	}

	fn parse_before(introducer: &Ident, iter: Iter) -> Result<Expr> {
	let paren = token::parse_paren(introducer, iter)?;

	let ref mut inner = iter::new(paren.stream());
	let bound = bound::parse(paren, inner)?;
	token::parse_optional_punct(inner, ',');
	token::parse_end(inner)?;

	Ok(Expr::Before(bound))
	}

	fn parse_not(introducer: &Ident, iter: Iter) -> Result<Expr> {
	let paren = token::parse_paren(introducer, iter)?;

	let ref mut inner = iter::new(paren.stream());
	let expr = self::parse(inner)?;
	token::parse_optional_punct(inner, ',');
	token::parse_end(inner)?;

	Ok(Expr::Not(Box::new(expr)))
	}

	fn parse_any(introducer: &Ident, iter: Iter) -> Result<Expr> {
	let paren = token::parse_paren(introducer, iter)?;

	let ref mut inner = iter::new(paren.stream());
	let exprs = parse_comma_separated(inner)?;

	Ok(Expr::Any(exprs.into_iter().collect()))
	}

	fn parse_all(introducer: &Ident, iter: Iter) -> Result<Expr> {
	let paren = token::parse_paren(introducer, iter)?;

	let ref mut inner = iter::new(paren.stream());
	let exprs = parse_comma_separated(inner)?;

	Ok(Expr::All(exprs.into_iter().collect()))
	}

	fn parse_comma_separated(iter: Iter) -> Result<Vec<Expr>> {
	let mut exprs = Vec::new();

	while iter.peek().is_some() {
	let expr = self::parse(iter)?;
	exprs.push(expr);
	if iter.peek().is_none() {
	break;
	}
	token::parse_punct(iter, ',')?;
	}

	Ok(exprs)
	}