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// Copyright 2014-2015 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.

macro_rules! define_set {
    ($name:ident, $builder_mod:ident, $text_ty:ty, $as_bytes:expr,
     $(#[$doc_regexset_example:meta])* ) => {
        pub mod $name {
            use std::fmt;
            use std::iter;
            use std::slice;
            use std::vec;

            use error::Error;
            use exec::Exec;
            use re_builder::$builder_mod::RegexSetBuilder;
            use re_trait::RegularExpression;

/// Match multiple (possibly overlapping) regular expressions in a single scan.
///
/// A regex set corresponds to the union of two or more regular expressions.
/// That is, a regex set will match text where at least one of its
/// constituent regular expressions matches. A regex set as its formulated here
/// provides a touch more power: it will also report *which* regular
/// expressions in the set match. Indeed, this is the key difference between
/// regex sets and a single `Regex` with many alternates, since only one
/// alternate can match at a time.
///
/// For example, consider regular expressions to match email addresses and
/// domains: `[a-z]+@[a-z]+\.(com|org|net)` and `[a-z]+\.(com|org|net)`. If a
/// regex set is constructed from those regexes, then searching the text
/// `foo@example.com` will report both regexes as matching. Of course, one
/// could accomplish this by compiling each regex on its own and doing two
/// searches over the text. The key advantage of using a regex set is that it
/// will report the matching regexes using a *single pass through the text*.
/// If one has hundreds or thousands of regexes to match repeatedly (like a URL
/// router for a complex web application or a user agent matcher), then a regex
/// set can realize huge performance gains.
///
/// # Example
///
/// This shows how the above two regexes (for matching email addresses and
/// domains) might work:
///
$(#[$doc_regexset_example])*
///
/// Note that it would be possible to adapt the above example to using `Regex`
/// with an expression like:
///
/// ```ignore
/// (?P<email>[a-z]+@(?P<email_domain>[a-z]+[.](com|org|net)))|(?P<domain>[a-z]+[.](com|org|net))
/// ```
///
/// After a match, one could then inspect the capture groups to figure out
/// which alternates matched. The problem is that it is hard to make this
/// approach scale when there are many regexes since the overlap between each
/// alternate isn't always obvious to reason about.
///
/// # Limitations
///
/// Regex sets are limited to answering the following two questions:
///
/// 1. Does any regex in the set match?
/// 2. If so, which regexes in the set match?
///
/// As with the main `Regex` type, it is cheaper to ask (1) instead of (2)
/// since the matching engines can stop after the first match is found.
///
/// Other features like finding the location of successive matches or their
/// sub-captures aren't supported. If you need this functionality, the
/// recommended approach is to compile each regex in the set independently and
/// selectively match them based on which regexes in the set matched.
///
/// # Performance
///
/// A `RegexSet` has the same performance characteristics as `Regex`. Namely,
/// search takes `O(mn)` time, where `m` is proportional to the size of the
/// regex set and `n` is proportional to the length of the search text.
#[derive(Clone)]
pub struct RegexSet(Exec);

impl RegexSet {
    /// Create a new regex set with the given regular expressions.
    ///
    /// This takes an iterator of `S`, where `S` is something that can produce
    /// a `&str`. If any of the strings in the iterator are not valid regular
    /// expressions, then an error is returned.
    ///
    /// # Example
    ///
    /// Create a new regex set from an iterator of strings:
    ///
    /// ```rust
    /// # use regex::RegexSet;
    /// let set = RegexSet::new(&[r"\w+", r"\d+"]).unwrap();
    /// assert!(set.is_match("foo"));
    /// ```
    pub fn new<I, S>(exprs: I) -> Result<RegexSet, Error>
            where S: AsRef<str>, I: IntoIterator<Item=S> {
        RegexSetBuilder::new(exprs).build()
    }

    /// Returns true if and only if one of the regexes in this set matches
    /// the text given.
    ///
    /// This method should be preferred if you only need to test whether any
    /// of the regexes in the set should match, but don't care about *which*
    /// regexes matched. This is because the underlying matching engine will
    /// quit immediately after seeing the first match instead of continuing to
    /// find all matches.
    ///
    /// Note that as with searches using `Regex`, the expression is unanchored
    /// by default. That is, if the regex does not start with `^` or `\A`, or
    /// end with `$` or `\z`, then it is permitted to match anywhere in the
    /// text.
    ///
    /// # Example
    ///
    /// Tests whether a set matches some text:
    ///
    /// ```rust
    /// # use regex::RegexSet;
    /// let set = RegexSet::new(&[r"\w+", r"\d+"]).unwrap();
    /// assert!(set.is_match("foo"));
    /// assert!(!set.is_match("☃"));
    /// ```
    pub fn is_match(&self, text: $text_ty) -> bool {
        self.is_match_at(text, 0)
    }

    /// Returns the same as is_match, but starts the search at the given
    /// offset.
    ///
    /// The significance of the starting point is that it takes the surrounding
    /// context into consideration. For example, the `\A` anchor can only
    /// match when `start == 0`.
    #[doc(hidden)]
    pub fn is_match_at(&self, text: $text_ty, start: usize) -> bool {
        self.0.searcher().is_match_at($as_bytes(text), start)
    }

    /// Returns the set of regular expressions that match in the given text.
    ///
    /// The set returned contains the index of each regular expression that
    /// matches in the given text. The index is in correspondence with the
    /// order of regular expressions given to `RegexSet`'s constructor.
    ///
    /// The set can also be used to iterate over the matched indices.
    ///
    /// Note that as with searches using `Regex`, the expression is unanchored
    /// by default. That is, if the regex does not start with `^` or `\A`, or
    /// end with `$` or `\z`, then it is permitted to match anywhere in the
    /// text.
    ///
    /// # Example
    ///
    /// Tests which regular expressions match the given text:
    ///
    /// ```rust
    /// # use regex::RegexSet;
    /// let set = RegexSet::new(&[
    ///     r"\w+",
    ///     r"\d+",
    ///     r"\pL+",
    ///     r"foo",
    ///     r"bar",
    ///     r"barfoo",
    ///     r"foobar",
    /// ]).unwrap();
    /// let matches: Vec<_> = set.matches("foobar").into_iter().collect();
    /// assert_eq!(matches, vec![0, 2, 3, 4, 6]);
    ///
    /// // You can also test whether a particular regex matched:
    /// let matches = set.matches("foobar");
    /// assert!(!matches.matched(5));
    /// assert!(matches.matched(6));
    /// ```
    pub fn matches(&self, text: $text_ty) -> SetMatches {
        let mut matches = vec![false; self.0.regex_strings().len()];
        let any = self.read_matches_at(&mut matches, text, 0);
        SetMatches {
            matched_any: any,
            matches: matches,
        }
    }

    /// Returns the same as matches, but starts the search at the given
    /// offset and stores the matches into the slice given.
    ///
    /// The significance of the starting point is that it takes the surrounding
    /// context into consideration. For example, the `\A` anchor can only
    /// match when `start == 0`.
    ///
    /// `matches` must have a length that is at least the number of regexes
    /// in this set.
    ///
    /// This method returns true if and only if at least one member of
    /// `matches` is true after executing the set against `text`.
    #[doc(hidden)]
    pub fn read_matches_at(
        &self,
        matches: &mut [bool],
        text: $text_ty,
        start: usize,
    ) -> bool {
        self.0.searcher().many_matches_at(matches, $as_bytes(text), start)
    }

    /// Returns the total number of regular expressions in this set.
    pub fn len(&self) -> usize {
        self.0.regex_strings().len()
    }
}

/// A set of matches returned by a regex set.
#[derive(Clone, Debug)]
pub struct SetMatches {
    matched_any: bool,
    matches: Vec<bool>,
}

impl SetMatches {
    /// Whether this set contains any matches.
    pub fn matched_any(&self) -> bool {
        self.matched_any
    }

    /// Whether the regex at the given index matched.
    ///
    /// The index for a regex is determined by its insertion order upon the
    /// initial construction of a `RegexSet`, starting at `0`.
    ///
    /// # Panics
    ///
    /// If `regex_index` is greater than or equal to `self.len()`.
    pub fn matched(&self, regex_index: usize) -> bool {
        self.matches[regex_index]
    }

    /// The total number of regexes in the set that created these matches.
    pub fn len(&self) -> usize {
        self.matches.len()
    }

    /// Returns an iterator over indexes in the regex that matched.
    ///
    /// This will always produces matches in ascending order of index, where
    /// the index corresponds to the index of the regex that matched with
    /// respect to its position when initially building the set.
    pub fn iter(&self) -> SetMatchesIter {
        SetMatchesIter((&*self.matches).into_iter().enumerate())
    }
}

impl IntoIterator for SetMatches {
    type IntoIter = SetMatchesIntoIter;
    type Item = usize;

    fn into_iter(self) -> Self::IntoIter {
        SetMatchesIntoIter(self.matches.into_iter().enumerate())
    }
}

impl<'a> IntoIterator for &'a SetMatches {
    type IntoIter = SetMatchesIter<'a>;
    type Item = usize;

    fn into_iter(self) -> Self::IntoIter {
        self.iter()
    }
}

/// An owned iterator over the set of matches from a regex set.
///
/// This will always produces matches in ascending order of index, where the
/// index corresponds to the index of the regex that matched with respect to
/// its position when initially building the set.
pub struct SetMatchesIntoIter(iter::Enumerate<vec::IntoIter<bool>>);

impl Iterator for SetMatchesIntoIter {
    type Item = usize;

    fn next(&mut self) -> Option<usize> {
        loop {
            match self.0.next() {
                None => return None,
                Some((_, false)) => {}
                Some((i, true)) => return Some(i),
            }
        }
    }

    fn size_hint(&self) -> (usize, Option<usize>) {
        self.0.size_hint() 
    }
}

impl DoubleEndedIterator for SetMatchesIntoIter {
    fn next_back(&mut self) -> Option<usize> {
        loop {
            match self.0.next_back() {
                None => return None,
                Some((_, false)) => {}
                Some((i, true)) => return Some(i),
            }
        }
    }
}

/// A borrowed iterator over the set of matches from a regex set.
///
/// The lifetime `'a` refers to the lifetime of a `SetMatches` value.
///
/// This will always produces matches in ascending order of index, where the
/// index corresponds to the index of the regex that matched with respect to
/// its position when initially building the set.
#[derive(Clone)]
pub struct SetMatchesIter<'a>(iter::Enumerate<slice::Iter<'a, bool>>);

impl<'a> Iterator for SetMatchesIter<'a> {
    type Item = usize;

    fn next(&mut self) -> Option<usize> {
        loop {
            match self.0.next() {
                None => return None,
                Some((_, &false)) => {}
                Some((i, &true)) => return Some(i),
            }
        }
    }

    fn size_hint(&self) -> (usize, Option<usize>) {
        self.0.size_hint() 
    }
}

impl<'a> DoubleEndedIterator for SetMatchesIter<'a> {
    fn next_back(&mut self) -> Option<usize> {
        loop {
            match self.0.next_back() {
                None => return None,
                Some((_, &false)) => {}
                Some((i, &true)) => return Some(i),
            }
        }
    }
}

#[doc(hidden)]
impl From<Exec> for RegexSet {
    fn from(exec: Exec) -> Self {
        RegexSet(exec)
    }
}

impl fmt::Debug for RegexSet {
    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
        write!(f, "RegexSet({:?})", self.0.regex_strings())
    }
}

#[allow(dead_code)] fn as_bytes_str(text: &str) -> &[u8] { text.as_bytes() }
#[allow(dead_code)] fn as_bytes_bytes(text: &[u8]) -> &[u8] { text }
        }
    }
}

define_set! {
    unicode,
    set_unicode,
    &str,
    as_bytes_str,
/// ```rust
/// # use regex::RegexSet;
/// let set = RegexSet::new(&[
///     r"[a-z]+@[a-z]+\.(com|org|net)",
///     r"[a-z]+\.(com|org|net)",
/// ]).unwrap();
///
/// // Ask whether any regexes in the set match.
/// assert!(set.is_match("foo@example.com"));
///
/// // Identify which regexes in the set match.
/// let matches: Vec<_> = set.matches("foo@example.com").into_iter().collect();
/// assert_eq!(vec![0, 1], matches);
///
/// // Try again, but with text that only matches one of the regexes.
/// let matches: Vec<_> = set.matches("example.com").into_iter().collect();
/// assert_eq!(vec![1], matches);
///
/// // Try again, but with text that doesn't match any regex in the set.
/// let matches: Vec<_> = set.matches("example").into_iter().collect();
/// assert!(matches.is_empty());
/// ```
}

define_set! {
    bytes,
    set_bytes,
    &[u8],
    as_bytes_bytes,
/// ```rust
/// # use regex::bytes::RegexSet;
/// let set = RegexSet::new(&[
///     r"[a-z]+@[a-z]+\.(com|org|net)",
///     r"[a-z]+\.(com|org|net)",
/// ]).unwrap();
///
/// // Ask whether any regexes in the set match.
/// assert!(set.is_match(b"foo@example.com"));
///
/// // Identify which regexes in the set match.
/// let matches: Vec<_> = set.matches(b"foo@example.com").into_iter().collect();
/// assert_eq!(vec![0, 1], matches);
///
/// // Try again, but with text that only matches one of the regexes.
/// let matches: Vec<_> = set.matches(b"example.com").into_iter().collect();
/// assert_eq!(vec![1], matches);
///
/// // Try again, but with text that doesn't match any regex in the set.
/// let matches: Vec<_> = set.matches(b"example").into_iter().collect();
/// assert!(matches.is_empty());
/// ```
}