vendor/markup5ever-0.7.5/util/buffer_queue.rs - toolchain/rustc - Git at Google

 // Copyright 2014-2017 The html5ever Project Developers. See the
 // COPYRIGHT file at the top-level directory of this distribution.
 //
 // 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.

 //! The `BufferQueue` struct and helper types.
 //!
 //! This type is designed for the efficient parsing of string data, especially where many
 //! significant characters are from the ascii range 0-63. This includes, for example, important
 //! characters in xml/html parsing.
 //!
 //! Good and predictable performance is achieved by avoiding allocation where possible (a.k.a. zero
 //! copy).
 //!
 //! [`BufferQueue`]: struct.BufferQueue.html


 use std::collections::VecDeque;

 use tendril::StrTendril;

 pub use self::SetResult::{FromSet, NotFromSet};
 use util::smallcharset::SmallCharSet;

 /// Result from [`pop_except_from`] containing either a character from a [`SmallCharSet`], or a
 /// string buffer of characters not from the set.
 ///
 /// [`pop_except_from`]: struct.BufferQueue.html#method.pop_except_from
 /// [`SmallCharSet`]: ../struct.SmallCharSet.html
 #[derive(PartialEq, Eq, Debug)]
 pub enum SetResult {
     /// A character from the `SmallCharSet`.
     FromSet(char),
     /// A string buffer containing no characters from the `SmallCharSet`.
     NotFromSet(StrTendril),
 }

 /// A queue of owned string buffers, which supports incrementally consuming characters.
 ///
 /// Internally it uses [`VecDeque`] and has the same complexity properties.
 ///
 /// [`VecDeque`]: https://doc.rust-lang.org/std/collections/struct.VecDeque.html
 pub struct BufferQueue {
     /// Buffers to process.
     buffers: VecDeque<StrTendril>,
 }

 impl BufferQueue {
     /// Create an empty BufferQueue.
     #[inline]
     pub fn new() -> BufferQueue {
         BufferQueue {
             buffers: VecDeque::with_capacity(16),
         }
     }

     /// Returns whether the queue is empty.
     #[inline]
     pub fn is_empty(&self) -> bool {
         self.buffers.is_empty()
     }

     /// Get the buffer at the beginning of the queue.
     #[inline]
     pub fn pop_front(&mut self) -> Option<StrTendril> {
         self.buffers.pop_front()
     }

     /// Add a buffer to the beginning of the queue.
     ///
     /// If the buffer is empty, it will be skipped.
     pub fn push_front(&mut self, buf: StrTendril) {
         if buf.len32() == 0 {
             return;
         }
         self.buffers.push_front(buf);
     }

     /// Add a buffer to the end of the queue.
     ///
     /// If the buffer is empty, it will be skipped.
     pub fn push_back(&mut self, buf: StrTendril) {
         if buf.len32() == 0 {
             return;
         }
         self.buffers.push_back(buf);
     }

     /// Look at the next available character without removing it, if the queue is not empty.
     pub fn peek(&self) -> Option<char> {
         debug_assert!(self.buffers.iter().skip_while(|el| el.len32() != 0).next().is_none(),
                       "invariant \"all buffers in the queue are non-empty\" failed");
         self.buffers.front().map(|b| b.chars().next().unwrap())
     }

     /// Get the next character if one is available, removing it from the queue.
     ///
     /// This function manages the buffers, removing them as they become empty.
     pub fn next(&mut self) -> Option<char> {
         let (result, now_empty) = match self.buffers.front_mut() {
             None => (None, false),
             Some(buf) => {
                 let c = buf.pop_front_char().expect("empty buffer in queue");
                 (Some(c), buf.is_empty())
             }
         };

         if now_empty {
             self.buffers.pop_front();
         }

         result
     }

     /// Pops and returns either a single character from the given set, or
     /// a buffer of characters none of which are in the set.
     ///
     /// # Examples
     ///
     /// ```
     /// # #[macro_use] extern crate markup5ever;
     /// # #[macro_use] extern crate tendril;
     /// # fn main() {
     /// use markup5ever::buffer_queue::{BufferQueue, SetResult};
     ///
     /// let mut queue = BufferQueue::new();
     /// queue.push_back(format_tendril!(r#"<some_tag attr="text">SomeText</some_tag>"#));
     /// let set = small_char_set!(b'<' b'>' b' ' b'=' b'"' b'/');
     /// let tag = format_tendril!("some_tag");
     /// let attr = format_tendril!("attr");
     /// let attr_val = format_tendril!("text");
     /// assert_eq!(queue.pop_except_from(set), Some(SetResult::FromSet('<')));
     /// assert_eq!(queue.pop_except_from(set), Some(SetResult::NotFromSet(tag)));
     /// assert_eq!(queue.pop_except_from(set), Some(SetResult::FromSet(' ')));
     /// assert_eq!(queue.pop_except_from(set), Some(SetResult::NotFromSet(attr)));
     /// assert_eq!(queue.pop_except_from(set), Some(SetResult::FromSet('=')));
     /// assert_eq!(queue.pop_except_from(set), Some(SetResult::FromSet('"')));
     /// assert_eq!(queue.pop_except_from(set), Some(SetResult::NotFromSet(attr_val)));
     /// // ...
     /// # }
     /// ```
     pub fn pop_except_from(&mut self, set: SmallCharSet) -> Option<SetResult> {
         let (result, now_empty) = match self.buffers.front_mut() {
             None => (None, false),
             Some(buf) => {
                 let n = set.nonmember_prefix_len(&buf);
                 if n > 0 {
                     let out;
                     unsafe {
                         out = buf.unsafe_subtendril(0, n);
                         buf.unsafe_pop_front(n);
                     }
                     (Some(NotFromSet(out)), buf.is_empty())
                 } else {
                     let c = buf.pop_front_char().expect("empty buffer in queue");
                     (Some(FromSet(c)), buf.is_empty())
                 }
             }
         };

         // Unborrow self for this part.
         if now_empty {
             self.buffers.pop_front();
         }

         result
     }

     /// Consume bytes matching the pattern, using a custom comparison function `eq`.
     ///
     /// Returns `Some(true)` if there is a match, `Some(false)` if there is no match, or `None` if
     /// it wasn't possible to know (more data is needed).
     ///
     /// The custom comparison function is used elsewhere to compare ascii-case-insensitively.
     ///
     /// # Examples
     ///
     /// ```
     /// # extern crate markup5ever;
     /// # #[macro_use] extern crate tendril;
     /// # fn main() {
     /// use markup5ever::buffer_queue::{BufferQueue};
     ///
     /// let mut queue = BufferQueue::new();
     /// queue.push_back(format_tendril!("testtext"));
     /// let test_str = "test";
     /// assert_eq!(queue.eat("test", |&a, &b| a == b), Some(true));
     /// assert_eq!(queue.eat("text", |&a, &b| a == b), Some(true));
     /// assert!(queue.is_empty());
     /// # }
     /// ```
     pub fn eat<F: Fn(&u8, &u8) -> bool>(&mut self, pat: &str, eq: F) -> Option<bool> {
         let mut buffers_exhausted = 0;
         let mut consumed_from_last = 0;
         if self.buffers.front().is_none() {
             return None;
         }

         for pattern_byte in pat.bytes() {
             if buffers_exhausted >= self.buffers.len() {
                 return None;
             }
             let ref buf = self.buffers[buffers_exhausted];

             if !eq(&buf.as_bytes()[consumed_from_last], &pattern_byte) {
                 return Some(false)
             }

             consumed_from_last += 1;
             if consumed_from_last >= buf.len() {
                 buffers_exhausted += 1;
                 consumed_from_last = 0;
             }
         }

         // We have a match. Commit changes to the BufferQueue.
         for _ in 0 .. buffers_exhausted {
             self.buffers.pop_front();
         }

         match self.buffers.front_mut() {
             None => assert_eq!(consumed_from_last, 0),
             Some(ref mut buf) => buf.pop_front(consumed_from_last as u32),
         }

         Some(true)
     }
 }
	// Copyright 2014-2017 The html5ever Project Developers. See the
	// COPYRIGHT file at the top-level directory of this distribution.
	//
	// 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.

	//! The `BufferQueue` struct and helper types.
	//!
	//! This type is designed for the efficient parsing of string data, especially where many
	//! significant characters are from the ascii range 0-63. This includes, for example, important
	//! characters in xml/html parsing.
	//!
	//! Good and predictable performance is achieved by avoiding allocation where possible (a.k.a. zero
	//! copy).
	//!
	//! [`BufferQueue`]: struct.BufferQueue.html


	use std::collections::VecDeque;

	use tendril::StrTendril;

	pub use self::SetResult::{FromSet, NotFromSet};
	use util::smallcharset::SmallCharSet;

	/// Result from [`pop_except_from`] containing either a character from a [`SmallCharSet`], or a
	/// string buffer of characters not from the set.
	///
	/// [`pop_except_from`]: struct.BufferQueue.html#method.pop_except_from
	/// [`SmallCharSet`]: ../struct.SmallCharSet.html
	#[derive(PartialEq, Eq, Debug)]
	pub enum SetResult {
	/// A character from the `SmallCharSet`.
	FromSet(char),
	/// A string buffer containing no characters from the `SmallCharSet`.
	NotFromSet(StrTendril),
	}

	/// A queue of owned string buffers, which supports incrementally consuming characters.
	///
	/// Internally it uses [`VecDeque`] and has the same complexity properties.
	///
	/// [`VecDeque`]: https://doc.rust-lang.org/std/collections/struct.VecDeque.html
	pub struct BufferQueue {
	/// Buffers to process.
	buffers: VecDeque<StrTendril>,
	}

	impl BufferQueue {
	/// Create an empty BufferQueue.
	#[inline]
	pub fn new() -> BufferQueue {
	BufferQueue {
	buffers: VecDeque::with_capacity(16),
	}
	}

	/// Returns whether the queue is empty.
	#[inline]
	pub fn is_empty(&self) -> bool {
	self.buffers.is_empty()
	}

	/// Get the buffer at the beginning of the queue.
	#[inline]
	pub fn pop_front(&mut self) -> Option<StrTendril> {
	self.buffers.pop_front()
	}

	/// Add a buffer to the beginning of the queue.
	///
	/// If the buffer is empty, it will be skipped.
	pub fn push_front(&mut self, buf: StrTendril) {
	if buf.len32() == 0 {
	return;
	}
	self.buffers.push_front(buf);
	}

	/// Add a buffer to the end of the queue.
	///
	/// If the buffer is empty, it will be skipped.
	pub fn push_back(&mut self, buf: StrTendril) {
	if buf.len32() == 0 {
	return;
	}
	self.buffers.push_back(buf);
	}

	/// Look at the next available character without removing it, if the queue is not empty.
	pub fn peek(&self) -> Option<char> {
	debug_assert!(self.buffers.iter().skip_while(\|el\| el.len32() != 0).next().is_none(),
	"invariant \"all buffers in the queue are non-empty\" failed");
	self.buffers.front().map(\|b\| b.chars().next().unwrap())
	}

	/// Get the next character if one is available, removing it from the queue.
	///
	/// This function manages the buffers, removing them as they become empty.
	pub fn next(&mut self) -> Option<char> {
	let (result, now_empty) = match self.buffers.front_mut() {
	None => (None, false),
	Some(buf) => {
	let c = buf.pop_front_char().expect("empty buffer in queue");
	(Some(c), buf.is_empty())
	}
	};

	if now_empty {
	self.buffers.pop_front();
	}

	result
	}

	/// Pops and returns either a single character from the given set, or
	/// a buffer of characters none of which are in the set.
	///
	/// # Examples
	///
	/// ```
	/// # #[macro_use] extern crate markup5ever;
	/// # #[macro_use] extern crate tendril;
	/// # fn main() {
	/// use markup5ever::buffer_queue::{BufferQueue, SetResult};
	///
	/// let mut queue = BufferQueue::new();
	/// queue.push_back(format_tendril!(r#"<some_tag attr="text">SomeText</some_tag>"#));
	/// let set = small_char_set!(b'<' b'>' b' ' b'=' b'"' b'/');
	/// let tag = format_tendril!("some_tag");
	/// let attr = format_tendril!("attr");
	/// let attr_val = format_tendril!("text");
	/// assert_eq!(queue.pop_except_from(set), Some(SetResult::FromSet('<')));
	/// assert_eq!(queue.pop_except_from(set), Some(SetResult::NotFromSet(tag)));
	/// assert_eq!(queue.pop_except_from(set), Some(SetResult::FromSet(' ')));
	/// assert_eq!(queue.pop_except_from(set), Some(SetResult::NotFromSet(attr)));
	/// assert_eq!(queue.pop_except_from(set), Some(SetResult::FromSet('=')));
	/// assert_eq!(queue.pop_except_from(set), Some(SetResult::FromSet('"')));
	/// assert_eq!(queue.pop_except_from(set), Some(SetResult::NotFromSet(attr_val)));
	/// // ...
	/// # }
	/// ```
	pub fn pop_except_from(&mut self, set: SmallCharSet) -> Option<SetResult> {
	let (result, now_empty) = match self.buffers.front_mut() {
	None => (None, false),
	Some(buf) => {
	let n = set.nonmember_prefix_len(&buf);
	if n > 0 {
	let out;
	unsafe {
	out = buf.unsafe_subtendril(0, n);
	buf.unsafe_pop_front(n);
	}
	(Some(NotFromSet(out)), buf.is_empty())
	} else {
	let c = buf.pop_front_char().expect("empty buffer in queue");
	(Some(FromSet(c)), buf.is_empty())
	}
	}
	};

	// Unborrow self for this part.
	if now_empty {
	self.buffers.pop_front();
	}

	result
	}

	/// Consume bytes matching the pattern, using a custom comparison function `eq`.
	///
	/// Returns `Some(true)` if there is a match, `Some(false)` if there is no match, or `None` if
	/// it wasn't possible to know (more data is needed).
	///
	/// The custom comparison function is used elsewhere to compare ascii-case-insensitively.
	///
	/// # Examples
	///
	/// ```
	/// # extern crate markup5ever;
	/// # #[macro_use] extern crate tendril;
	/// # fn main() {
	/// use markup5ever::buffer_queue::{BufferQueue};
	///
	/// let mut queue = BufferQueue::new();
	/// queue.push_back(format_tendril!("testtext"));
	/// let test_str = "test";
	/// assert_eq!(queue.eat("test", \|&a, &b\| a == b), Some(true));
	/// assert_eq!(queue.eat("text", \|&a, &b\| a == b), Some(true));
	/// assert!(queue.is_empty());
	/// # }
	/// ```
	pub fn eat<F: Fn(&u8, &u8) -> bool>(&mut self, pat: &str, eq: F) -> Option<bool> {
	let mut buffers_exhausted = 0;
	let mut consumed_from_last = 0;
	if self.buffers.front().is_none() {
	return None;
	}

	for pattern_byte in pat.bytes() {
	if buffers_exhausted >= self.buffers.len() {
	return None;
	}
	let ref buf = self.buffers[buffers_exhausted];

	if !eq(&buf.as_bytes()[consumed_from_last], &pattern_byte) {
	return Some(false)
	}

	consumed_from_last += 1;
	if consumed_from_last >= buf.len() {
	buffers_exhausted += 1;
	consumed_from_last = 0;
	}
	}

	// We have a match. Commit changes to the BufferQueue.
	for _ in 0 .. buffers_exhausted {
	self.buffers.pop_front();
	}

	match self.buffers.front_mut() {
	None => assert_eq!(consumed_from_last, 0),
	Some(ref mut buf) => buf.pop_front(consumed_from_last as u32),
	}

	Some(true)
	}
	}