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// pest. The Elegant Parser // Copyright (c) 2018 Dragoș Tiselice // // 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. All files in the project carrying such notice may not be copied, // modified, or distributed except according to those terms. use std::ops::Range; use std::rc::Rc; use error::{Error, ErrorVariant}; use iterators::{pairs, QueueableToken}; use position::{self, Position}; use span::Span; use stack::Stack; use RuleType; /// The current lookahead status of a [`ParserState`]. /// /// [`ParserState`]: struct.ParserState.html #[derive(Clone, Copy, Debug, Eq, PartialEq)] pub enum Lookahead { Positive, Negative, None, } /// The current atomicity of a [`ParserState`]. /// /// [`ParserState`]: struct.ParserState.html #[derive(Clone, Copy, Debug, Eq, PartialEq)] pub enum Atomicity { Atomic, CompoundAtomic, NonAtomic, } /// Type alias to simplify specifying the return value of chained closures. pub type ParseResult<S> = Result<S, S>; /// Match direction for the stack. Used in `PEEK[a..b]`/`stack_match_peek_slice`. #[derive(Clone, Copy, Debug, Eq, PartialEq)] pub enum MatchDir { BottomToTop, TopToBottom, } /// The complete state of a [`Parser`]. /// /// [`Parser`]: trait.Parser.html #[derive(Debug)] pub struct ParserState<'i, R: RuleType> { position: Position<'i>, queue: Vec<QueueableToken<R>>, lookahead: Lookahead, pos_attempts: Vec<R>, neg_attempts: Vec<R>, attempt_pos: usize, atomicity: Atomicity, stack: Stack<Span<'i>>, } /// Creates a `ParserState` from a `&str`, supplying it to a closure `f`. /// /// # Examples /// /// ``` /// # use pest; /// let input = ""; /// pest::state::<(), _>(input, |s| Ok(s)).unwrap(); /// ``` pub fn state<'i, R: RuleType, F>(input: &'i str, f: F) -> Result<pairs::Pairs<'i, R>, Error<R>> where F: FnOnce(Box<ParserState<'i, R>>) -> ParseResult<Box<ParserState<'i, R>>>, { let state = ParserState::new(input); match f(state) { Ok(state) => { let len = state.queue.len(); Ok(pairs::new(Rc::new(state.queue), input, 0, len)) } Err(mut state) => { state.pos_attempts.sort(); state.pos_attempts.dedup(); state.neg_attempts.sort(); state.neg_attempts.dedup(); Err(Error::new_from_pos( ErrorVariant::ParsingError { positives: state.pos_attempts.clone(), negatives: state.neg_attempts.clone(), }, // TODO(performance): Guarantee state.attempt_pos is a valid position position::Position::new(input, state.attempt_pos).unwrap(), )) } } } impl<'i, R: RuleType> ParserState<'i, R> { /// Allocates a fresh `ParserState` object to the heap and returns the owned `Box`. This `Box` /// will be passed from closure to closure based on the needs of the specified `Parser`. /// /// # Examples /// /// ``` /// # use pest; /// let input = ""; /// let state: Box<pest::ParserState<&str>> = pest::ParserState::new(input); /// ``` #[allow(clippy::new_ret_no_self)] pub fn new(input: &'i str) -> Box<Self> { Box::new(ParserState { position: Position::from_start(input), queue: vec![], lookahead: Lookahead::None, pos_attempts: vec![], neg_attempts: vec![], attempt_pos: 0, atomicity: Atomicity::NonAtomic, stack: Stack::new(), }) } /// Returns a reference to the current `Position` of the `ParserState`. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule { /// ab /// } /// /// let input = "ab"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let position = state.position(); /// assert_eq!(position.pos(), 0); /// ``` pub fn position(&self) -> &Position<'i> { &self.position } /// Returns the current atomicity of the `ParserState`. /// /// # Examples /// /// ``` /// # use pest; /// # use pest::Atomicity; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule { /// ab /// } /// /// let input = "ab"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let atomicity = state.atomicity(); /// assert_eq!(atomicity, Atomicity::NonAtomic); /// ``` pub fn atomicity(&self) -> Atomicity { self.atomicity } /// Wrapper needed to generate tokens. This will associate the `R` type rule to the closure /// meant to match the rule. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule { /// a /// } /// /// let input = "a"; /// let pairs: Vec<_> = pest::state(input, |state| { /// state.rule(Rule::a, |s| Ok(s)) /// }).unwrap().collect(); /// /// assert_eq!(pairs.len(), 1); /// ``` #[inline] pub fn rule<F>(mut self: Box<Self>, rule: R, f: F) -> ParseResult<Box<Self>> where F: FnOnce(Box<Self>) -> ParseResult<Box<Self>>, { let actual_pos = self.position.pos(); let index = self.queue.len(); let (pos_attempts_index, neg_attempts_index) = if actual_pos == self.attempt_pos { (self.pos_attempts.len(), self.neg_attempts.len()) } else { // Attempts have not been cleared yet since the attempt_pos is older. (0, 0) }; if self.lookahead == Lookahead::None && self.atomicity != Atomicity::Atomic { // Pair's position will only be known after running the closure. self.queue.push(QueueableToken::Start { end_token_index: 0, input_pos: actual_pos, }); } let attempts = self.attempts_at(actual_pos); let result = f(self); match result { Ok(mut new_state) => { if new_state.lookahead == Lookahead::Negative { new_state.track( rule, actual_pos, pos_attempts_index, neg_attempts_index, attempts, ); } if new_state.lookahead == Lookahead::None && new_state.atomicity != Atomicity::Atomic { // Storing the pair's index in the first token that was added before the closure was // run. let new_index = new_state.queue.len(); match new_state.queue[index] { QueueableToken::Start { ref mut end_token_index, .. } => *end_token_index = new_index, _ => unreachable!(), }; let new_pos = new_state.position.pos(); new_state.queue.push(QueueableToken::End { start_token_index: index, rule, input_pos: new_pos, }); } Ok(new_state) } Err(mut new_state) => { if new_state.lookahead != Lookahead::Negative { new_state.track( rule, actual_pos, pos_attempts_index, neg_attempts_index, attempts, ); } if new_state.lookahead == Lookahead::None && new_state.atomicity != Atomicity::Atomic { new_state.queue.truncate(index); } Err(new_state) } } } fn attempts_at(&self, pos: usize) -> usize { if self.attempt_pos == pos { self.pos_attempts.len() + self.neg_attempts.len() } else { 0 } } fn track( &mut self, rule: R, pos: usize, pos_attempts_index: usize, neg_attempts_index: usize, prev_attempts: usize, ) { if self.atomicity == Atomicity::Atomic { return; } // If nested rules made no progress, there is no use to report them; it's only useful to // track the current rule, the exception being when only one attempt has been made during // the children rules. let curr_attempts = self.attempts_at(pos); if curr_attempts > prev_attempts && curr_attempts - prev_attempts == 1 { return; } if pos == self.attempt_pos { self.pos_attempts.truncate(pos_attempts_index); self.neg_attempts.truncate(neg_attempts_index); } if pos > self.attempt_pos { self.pos_attempts.clear(); self.neg_attempts.clear(); self.attempt_pos = pos; } let attempts = if self.lookahead != Lookahead::Negative { &mut self.pos_attempts } else { &mut self.neg_attempts }; if pos == self.attempt_pos { attempts.push(rule); } } /// Starts a sequence of transformations provided by `f` from the `Box<ParserState>`. Returns /// the same `Result` returned by `f` in the case of an `Ok`, or `Err` with the current /// `Box<ParserState>` otherwise. /// /// This method is useful to parse sequences that only match together which usually come in the /// form of chained `Result`s with /// [`Result::and_then`](https://doc.rust-lang.org/std/result/enum.Result.html#method.and_then). /// /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule { /// a /// } /// /// let input = "a"; /// let pairs: Vec<_> = pest::state(input, |state| { /// state.sequence(|s| { /// s.rule(Rule::a, |s| Ok(s)).and_then(|s| { /// s.match_string("b") /// }) /// }).or_else(|s| { /// Ok(s) /// }) /// }).unwrap().collect(); /// /// assert_eq!(pairs.len(), 0); /// ``` #[inline] pub fn sequence<F>(self: Box<Self>, f: F) -> ParseResult<Box<Self>> where F: FnOnce(Box<Self>) -> ParseResult<Box<Self>>, { let token_index = self.queue.len(); let initial_pos = self.position.clone(); let result = f(self); match result { Ok(new_state) => Ok(new_state), Err(mut new_state) => { // Restore the initial position and truncate the token queue. new_state.position = initial_pos; new_state.queue.truncate(token_index); Err(new_state) } } } /// Repeatedly applies the transformation provided by `f` from the `Box<ParserState>`. Returns /// `Ok` with the updated `Box<ParserState>` returned by `f` wrapped up in an `Err`. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule { /// ab /// } /// /// let input = "aab"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state.repeat(|s| { /// s.match_string("a") /// }); /// assert!(result.is_ok()); /// assert_eq!(result.unwrap().position().pos(), 2); /// /// state = pest::ParserState::new(input); /// result = state.repeat(|s| { /// s.match_string("b") /// }); /// assert!(result.is_ok()); /// assert_eq!(result.unwrap().position().pos(), 0); /// ``` #[inline] pub fn repeat<F>(self: Box<Self>, mut f: F) -> ParseResult<Box<Self>> where F: FnMut(Box<Self>) -> ParseResult<Box<Self>>, { let mut result = f(self); loop { match result { Ok(state) => result = f(state), Err(state) => return Ok(state), }; } } /// Optionally applies the transformation provided by `f` from the `Box<ParserState>`. Returns /// `Ok` with the updated `Box<ParserState>` returned by `f` regardless of the `Result`. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule { /// ab /// } /// /// let input = "ab"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let result = state.optional(|s| { /// s.match_string("ab") /// }); /// assert!(result.is_ok()); /// /// state = pest::ParserState::new(input); /// let result = state.optional(|s| { /// s.match_string("ac") /// }); /// assert!(result.is_ok()); /// ``` #[inline] pub fn optional<F>(self: Box<Self>, f: F) -> ParseResult<Box<Self>> where F: FnOnce(Box<Self>) -> ParseResult<Box<Self>>, { match f(self) { Ok(state) | Err(state) => Ok(state), } } /// Attempts to match a single character based on a filter function. Returns `Ok` with the /// updated `Box<ParserState>` if successful, or `Err` with the updated `Box<ParserState>` /// otherwise. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "ab"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let result = state.match_char_by(|c| c.is_ascii()); /// assert!(result.is_ok()); /// assert_eq!(result.unwrap().position().pos(), 1); /// /// let input = "❤"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let result = state.match_char_by(|c| c.is_ascii()); /// assert!(result.is_err()); /// assert_eq!(result.unwrap_err().position().pos(), 0); /// ``` #[inline] pub fn match_char_by<F>(mut self: Box<Self>, f: F) -> ParseResult<Box<Self>> where F: FnOnce(char) -> bool, { if self.position.match_char_by(f) { Ok(self) } else { Err(self) } } /// Attempts to match the given string. Returns `Ok` with the updated `Box<ParserState>` if /// successful, or `Err` with the updated `Box<ParserState>` otherwise. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "ab"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state.match_string("ab"); /// assert!(result.is_ok()); /// assert_eq!(result.unwrap().position().pos(), 2); /// /// state = pest::ParserState::new(input); /// result = state.match_string("ac"); /// assert!(result.is_err()); /// assert_eq!(result.unwrap_err().position().pos(), 0); /// ``` #[inline] pub fn match_string(mut self: Box<Self>, string: &str) -> ParseResult<Box<Self>> { if self.position.match_string(string) { Ok(self) } else { Err(self) } } /// Attempts to case-insensitively match the given string. Returns `Ok` with the updated /// `Box<ParserState>` if successful, or `Err` with the updated `Box<ParserState>` otherwise. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "ab"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state.match_insensitive("AB"); /// assert!(result.is_ok()); /// assert_eq!(result.unwrap().position().pos(), 2); /// /// state = pest::ParserState::new(input); /// result = state.match_insensitive("AC"); /// assert!(result.is_err()); /// assert_eq!(result.unwrap_err().position().pos(), 0); /// ``` #[inline] pub fn match_insensitive(mut self: Box<Self>, string: &str) -> ParseResult<Box<Self>> { if self.position.match_insensitive(string) { Ok(self) } else { Err(self) } } /// Attempts to match a single character from the given range. Returns `Ok` with the updated /// `Box<ParserState>` if successful, or `Err` with the updated `Box<ParserState>` otherwise. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "ab"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state.match_range('a'..'z'); /// assert!(result.is_ok()); /// assert_eq!(result.unwrap().position().pos(), 1); /// /// state = pest::ParserState::new(input); /// result = state.match_range('A'..'Z'); /// assert!(result.is_err()); /// assert_eq!(result.unwrap_err().position().pos(), 0); /// ``` #[inline] pub fn match_range(mut self: Box<Self>, range: Range<char>) -> ParseResult<Box<Self>> { if self.position.match_range(range) { Ok(self) } else { Err(self) } } /// Attempts to skip `n` characters forward. Returns `Ok` with the updated `Box<ParserState>` /// if successful, or `Err` with the updated `Box<ParserState>` otherwise. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "ab"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state.skip(1); /// assert!(result.is_ok()); /// assert_eq!(result.unwrap().position().pos(), 1); /// /// state = pest::ParserState::new(input); /// result = state.skip(3); /// assert!(result.is_err()); /// assert_eq!(result.unwrap_err().position().pos(), 0); /// ``` #[inline] pub fn skip(mut self: Box<Self>, n: usize) -> ParseResult<Box<Self>> { if self.position.skip(n) { Ok(self) } else { Err(self) } } /// Attempts to skip forward until one of the given strings is found. Returns `Ok` with the /// updated `Box<ParserState>` whether or not one of the strings is found. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "abcd"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state.skip_until(&["c", "d"]); /// assert!(result.is_ok()); /// assert_eq!(result.unwrap().position().pos(), 2); /// ``` #[inline] pub fn skip_until(mut self: Box<Self>, strings: &[&str]) -> ParseResult<Box<Self>> { self.position.skip_until(strings); Ok(self) } /// Attempts to match the start of the input. Returns `Ok` with the current `Box<ParserState>` /// if the parser has not yet advanced, or `Err` with the current `Box<ParserState>` otherwise. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "ab"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state.start_of_input(); /// assert!(result.is_ok()); /// /// state = pest::ParserState::new(input); /// state = state.match_string("ab").unwrap(); /// result = state.start_of_input(); /// assert!(result.is_err()); /// ``` #[inline] pub fn start_of_input(self: Box<Self>) -> ParseResult<Box<Self>> { if self.position.at_start() { Ok(self) } else { Err(self) } } /// Attempts to match the end of the input. Returns `Ok` with the current `Box<ParserState>` if /// there is no input remaining, or `Err` with the current `Box<ParserState>` otherwise. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "ab"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state.end_of_input(); /// assert!(result.is_err()); /// /// state = pest::ParserState::new(input); /// state = state.match_string("ab").unwrap(); /// result = state.end_of_input(); /// assert!(result.is_ok()); /// ``` #[inline] pub fn end_of_input(self: Box<Self>) -> ParseResult<Box<Self>> { if self.position.at_end() { Ok(self) } else { Err(self) } } /// Starts a lookahead transformation provided by `f` from the `Box<ParserState>`. It returns /// `Ok` with the current `Box<ParserState>` if `f` also returns an `Ok`, or `Err` with the current /// `Box<ParserState>` otherwise. If `is_positive` is `false`, it swaps the `Ok` and `Err` /// together, negating the `Result`. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule { /// a /// } /// /// let input = "a"; /// let pairs: Vec<_> = pest::state(input, |state| { /// state.lookahead(true, |state| { /// state.rule(Rule::a, |s| Ok(s)) /// }) /// }).unwrap().collect(); /// /// assert_eq!(pairs.len(), 0); /// ``` #[inline] pub fn lookahead<F>(mut self: Box<Self>, is_positive: bool, f: F) -> ParseResult<Box<Self>> where F: FnOnce(Box<Self>) -> ParseResult<Box<Self>>, { let initial_lookahead = self.lookahead; self.lookahead = if is_positive { match initial_lookahead { Lookahead::None | Lookahead::Positive => Lookahead::Positive, Lookahead::Negative => Lookahead::Negative, } } else { match initial_lookahead { Lookahead::None | Lookahead::Positive => Lookahead::Negative, Lookahead::Negative => Lookahead::Positive, } }; let initial_pos = self.position.clone(); let result = f(self.checkpoint()); let result_state = match result { Ok(mut new_state) => { new_state.position = initial_pos; new_state.lookahead = initial_lookahead; Ok(new_state.restore()) } Err(mut new_state) => { new_state.position = initial_pos; new_state.lookahead = initial_lookahead; Err(new_state.restore()) } }; if is_positive { result_state } else { match result_state { Ok(state) => Err(state), Err(state) => Ok(state), } } } /// Transformation which stops `Token`s from being generated according to `is_atomic`. /// /// # Examples /// /// ``` /// # use pest::{self, Atomicity}; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule { /// a /// } /// /// let input = "a"; /// let pairs: Vec<_> = pest::state(input, |state| { /// state.atomic(Atomicity::Atomic, |s| { /// s.rule(Rule::a, |s| Ok(s)) /// }) /// }).unwrap().collect(); /// /// assert_eq!(pairs.len(), 0); /// ``` #[inline] pub fn atomic<F>(mut self: Box<Self>, atomicity: Atomicity, f: F) -> ParseResult<Box<Self>> where F: FnOnce(Box<Self>) -> ParseResult<Box<Self>>, { let initial_atomicity = self.atomicity; let should_toggle = self.atomicity != atomicity; if should_toggle { self.atomicity = atomicity; } let result = f(self); match result { Ok(mut new_state) => { if should_toggle { new_state.atomicity = initial_atomicity; } Ok(new_state) } Err(mut new_state) => { if should_toggle { new_state.atomicity = initial_atomicity; } Err(new_state) } } } /// Evaluates the result of closure `f` and pushes the span of the input consumed from before /// `f` is called to after `f` is called to the stack. Returns `Ok(Box<ParserState>)` if `f` is /// called successfully, or `Err(Box<ParserState>)` otherwise. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "ab"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state.stack_push(|state| state.match_string("a")); /// assert!(result.is_ok()); /// assert_eq!(result.unwrap().position().pos(), 1); /// ``` #[inline] pub fn stack_push<F>(self: Box<Self>, f: F) -> ParseResult<Box<Self>> where F: FnOnce(Box<Self>) -> ParseResult<Box<Self>>, { let start = self.position.clone(); let result = f(self); match result { Ok(mut state) => { let end = state.position.clone(); state.stack.push(start.span(&end)); Ok(state) } Err(state) => Err(state), } } /// Peeks the top of the stack and attempts to match the string. Returns `Ok(Box<ParserState>)` /// if the string is matched successfully, or `Err(Box<ParserState>)` otherwise. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "aa"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state.stack_push(|state| state.match_string("a")).and_then( /// |state| state.stack_peek() /// ); /// assert!(result.is_ok()); /// assert_eq!(result.unwrap().position().pos(), 2); /// ``` #[inline] pub fn stack_peek(self: Box<Self>) -> ParseResult<Box<Self>> { let string = self .stack .peek() .expect("peek was called on empty stack") .as_str(); self.match_string(string) } /// Pops the top of the stack and attempts to match the string. Returns `Ok(Box<ParserState>)` /// if the string is matched successfully, or `Err(Box<ParserState>)` otherwise. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "aa"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state.stack_push(|state| state.match_string("a")).and_then( /// |state| state.stack_pop() /// ); /// assert!(result.is_ok()); /// assert_eq!(result.unwrap().position().pos(), 2); /// ``` #[inline] pub fn stack_pop(mut self: Box<Self>) -> ParseResult<Box<Self>> { let string = self .stack .pop() .expect("pop was called on empty stack") .as_str(); self.match_string(string) } /// Matches part of the state of the stack. /// /// # Examples /// /// ``` /// # use pest::{self, MatchDir}; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "abcd cd cb"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state /// .stack_push(|state| state.match_string("a")) /// .and_then(|state| state.stack_push(|state| state.match_string("b"))) /// .and_then(|state| state.stack_push(|state| state.match_string("c"))) /// .and_then(|state| state.stack_push(|state| state.match_string("d"))) /// .and_then(|state| state.match_string(" ")) /// .and_then(|state| state.stack_match_peek_slice(2, None, MatchDir::BottomToTop)) /// .and_then(|state| state.match_string(" ")) /// .and_then(|state| state.stack_match_peek_slice(1, Some(-1), MatchDir::TopToBottom)); /// assert!(result.is_ok()); /// assert_eq!(result.unwrap().position().pos(), 10); /// ``` #[inline] pub fn stack_match_peek_slice( mut self: Box<Self>, start: i32, end: Option<i32>, match_dir: MatchDir, ) -> ParseResult<Box<Self>> { let range = match constrain_idxs(start, end, self.stack.len()) { Some(r) => r, None => return Err(self), }; // return true if an empty sequence is requested if range.end <= range.start { return Ok(self); } let mut position = self.position.clone(); let result = { let mut iter_b2t = self.stack[range].iter(); let matcher = |span: &Span| position.match_string(span.as_str()); match match_dir { MatchDir::BottomToTop => iter_b2t.all(matcher), MatchDir::TopToBottom => iter_b2t.rev().all(matcher), } }; if result { self.position = position; Ok(self) } else { Err(self) } } /// Matches the full state of the stack. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "abba"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state /// .stack_push(|state| state.match_string("a")) /// .and_then(|state| { state.stack_push(|state| state.match_string("b")) }) /// .and_then(|state| state.stack_match_peek()); /// assert!(result.is_ok()); /// assert_eq!(result.unwrap().position().pos(), 4); /// ``` #[inline] pub fn stack_match_peek(self: Box<Self>) -> ParseResult<Box<Self>> { self.stack_match_peek_slice(0, None, MatchDir::TopToBottom) } /// Matches the full state of the stack. This method will clear the stack as it evaluates. /// /// # Examples /// /// ``` /// /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "aaaa"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state.stack_push(|state| state.match_string("a")).and_then(|state| { /// state.stack_push(|state| state.match_string("a")) /// }).and_then(|state| state.stack_match_peek()); /// assert!(result.is_ok()); /// assert_eq!(result.unwrap().position().pos(), 4); /// ``` #[inline] pub fn stack_match_pop(mut self: Box<Self>) -> ParseResult<Box<Self>> { let mut position = self.position.clone(); let mut result = true; while let Some(span) = self.stack.pop() { result = position.match_string(span.as_str()); if !result { break; } } if result { self.position = position; Ok(self) } else { Err(self) } } /// Drops the top of the stack. Returns `Ok(Box<ParserState>)` if there was a value to drop, or /// `Err(Box<ParserState>)` otherwise. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "aa"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state.stack_push(|state| state.match_string("a")).and_then( /// |state| state.stack_drop() /// ); /// assert!(result.is_ok()); /// assert_eq!(result.unwrap().position().pos(), 1); /// ``` #[inline] pub fn stack_drop(mut self: Box<Self>) -> ParseResult<Box<Self>> { match self.stack.pop() { Some(_) => Ok(self), None => Err(self), } } /// Restores the original state of the `ParserState` when `f` returns an `Err`. Currently, /// this method only restores the stack. /// /// # Examples /// /// ``` /// # use pest; /// # #[allow(non_camel_case_types)] /// # #[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)] /// enum Rule {} /// /// let input = "ab"; /// let mut state: Box<pest::ParserState<Rule>> = pest::ParserState::new(input); /// let mut result = state.restore_on_err(|state| state.stack_push(|state| /// state.match_string("a")).and_then(|state| state.match_string("a")) /// ); /// /// assert!(result.is_err()); /// /// // Since the the rule doesn't match, the "a" pushed to the stack will be removed. /// let catch_panic = std::panic::catch_unwind(|| result.unwrap_err().stack_pop()); /// assert!(catch_panic.is_err()); /// ``` #[inline] pub fn restore_on_err<F>(self: Box<Self>, f: F) -> ParseResult<Box<Self>> where F: FnOnce(Box<Self>) -> ParseResult<Box<Self>>, { match f(self.checkpoint()) { Ok(state) => Ok(state), Err(state) => Err(state.restore()), } } // Mark the current state as a checkpoint and return the `Box`. #[inline] pub(crate) fn checkpoint(mut self: Box<Self>) -> Box<Self> { self.stack.snapshot(); self } // Restore the current state to the most recent checkpoint. #[inline] pub(crate) fn restore(mut self: Box<Self>) -> Box<Self> { self.stack.restore(); self } } fn constrain_idxs(start: i32, end: Option<i32>, len: usize) -> Option<Range<usize>> { let start_norm = normalize_index(start, len)?; let end_norm = end.map_or(Some(len), |e| normalize_index(e, len))?; Some(start_norm..end_norm) } /// Normalizes the index using its sequence’s length. /// Returns `None` if the normalized index is OOB. fn normalize_index(i: i32, len: usize) -> Option<usize> { if i > len as i32 { None } else if i >= 0 { Some(i as usize) } else { let real_i = len as i32 + i; if real_i >= 0 { Some(real_i as usize) } else { None } } } #[cfg(test)] mod test { use super::*; #[test] fn normalize_index_pos() { assert_eq!(normalize_index(4, 6), Some(4)); assert_eq!(normalize_index(5, 5), Some(5)); assert_eq!(normalize_index(6, 3), None); } #[test] fn normalize_index_neg() { assert_eq!(normalize_index(-4, 6), Some(2)); assert_eq!(normalize_index(-5, 5), Some(0)); assert_eq!(normalize_index(-6, 3), None); } }