use TextUnit; use std::str::Chars; /// A simple view into the characters of a string. pub(crate) struct Ptr<'s> { text: &'s str, len: TextUnit, } impl<'s> Ptr<'s> { /// Creates a new `Ptr` from a string. pub fn new(text: &'s str) -> Ptr<'s> { Ptr { text, len: 0.into(), } } /// Gets the length of the remaining string. pub fn into_len(self) -> TextUnit { self.len } /// Gets the current character, if one exists. pub fn current(&self) -> Option { self.chars().next() } /// Gets the nth character from the current. /// For example, 0 will return the current token, 1 will return the next, etc. pub fn nth(&self, n: u32) -> Option { let mut chars = self.chars().peekable(); chars.by_ref().skip(n as usize).next() } /// Checks whether the current character is `c`. pub fn at(&self, c: char) -> bool { self.current() == Some(c) } /// Checks whether the next characters match `s`. pub fn at_str(&self, s: &str) -> bool { let chars = self.chars(); chars.as_str().starts_with(s) } /// Checks whether the current character satisfies the predicate `p`. pub fn at_p bool>(&self, p: P) -> bool { self.current().map(p) == Some(true) } /// Checks whether the nth character satisfies the predicate `p`. pub fn nth_is_p bool>(&self, n: u32, p: P) -> bool { self.nth(n).map(p) == Some(true) } /// Moves to the next character. pub fn bump(&mut self) -> Option { let ch = self.chars().next()?; self.len += TextUnit::of_char(ch); Some(ch) } /// Moves to the next character as long as `pred` is satisfied. pub fn bump_while bool>(&mut self, pred: F) { loop { match self.current() { Some(c) if pred(c) => { self.bump(); } _ => return, } } } /// Returns the text up to the current point. pub fn current_token_text(&self) -> &str { let len: u32 = self.len.into(); &self.text[..len as usize] } /// Returns an iterator over the remaining characters. fn chars(&self) -> Chars { let len: u32 = self.len.into(); self.text[len as usize..].chars() } } #[cfg(test)] mod tests { use super::*; #[test] fn test_current() { let ptr = Ptr::new("test"); assert_eq!(ptr.current(), Some('t')); } #[test] fn test_nth() { let ptr = Ptr::new("test"); assert_eq!(ptr.nth(0), Some('t')); assert_eq!(ptr.nth(1), Some('e')); assert_eq!(ptr.nth(2), Some('s')); assert_eq!(ptr.nth(3), Some('t')); assert_eq!(ptr.nth(4), None); } #[test] fn test_at() { let ptr = Ptr::new("test"); assert!(ptr.at('t')); assert!(!ptr.at('a')); } #[test] fn test_at_str() { let ptr = Ptr::new("test"); assert!(ptr.at_str("t")); assert!(ptr.at_str("te")); assert!(ptr.at_str("test")); assert!(!ptr.at_str("tests")); assert!(!ptr.at_str("rust")); } #[test] fn test_at_p() { let ptr = Ptr::new("test"); assert!(ptr.at_p(|c| c == 't')); assert!(!ptr.at_p(|c| c == 'e')); } #[test] fn test_nth_is_p() { let ptr = Ptr::new("test"); assert!(ptr.nth_is_p(0,|c| c == 't')); assert!(!ptr.nth_is_p(1,|c| c == 't')); assert!(ptr.nth_is_p(3,|c| c == 't')); assert!(!ptr.nth_is_p(150,|c| c == 't')); } #[test] fn test_bump() { let mut ptr = Ptr::new("test"); assert_eq!(ptr.current(), Some('t')); ptr.bump(); assert_eq!(ptr.current(), Some('e')); ptr.bump(); assert_eq!(ptr.current(), Some('s')); ptr.bump(); assert_eq!(ptr.current(), Some('t')); ptr.bump(); assert_eq!(ptr.current(), None); ptr.bump(); assert_eq!(ptr.current(), None); } #[test] fn test_bump_while() { let mut ptr = Ptr::new("test"); assert_eq!(ptr.current(), Some('t')); ptr.bump_while(|c| c != 's'); assert_eq!(ptr.current(), Some('s')); } }