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Rust编写的JavaScript引擎,该项目是一个试验性质的项目。
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boa/boa/src/syntax/ast/position.rs

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//! This module implements the `Pos` structure, which represents a position in the source code.
use std::{cmp::Ordering, fmt, num::NonZeroU32};
#[cfg(feature = "serde")]
use serde::{Deserialize, Serialize};
/// A position in the JavaScript source code.
///
/// Stores both the column number and the line number.
///
/// Note that spans are of the form [begining, end) i.e. that the begining position is inclusive and the end position is exclusive.
/// See test check_positions from syntax/lexer/tests.rs for an example.
///
/// ## Similar Implementations
/// [V8: Location](https://cs.chromium.org/chromium/src/v8/src/parsing/scanner.h?type=cs&q=isValid+Location&g=0&l=216)
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)]
pub struct Position {
/// Line number.
line_number: NonZeroU32,
/// Column number.
column_number: NonZeroU32,
}
impl Position {
/// Creates a new `Position`.
#[inline]
#[track_caller]
pub fn new(line_number: u32, column_number: u32) -> Self {
Self {
line_number: NonZeroU32::new(line_number).expect("line number cannot be 0"),
column_number: NonZeroU32::new(column_number).expect("column number cannot be 0"),
}
}
/// Gets the line number of the position.
#[inline]
pub fn line_number(self) -> u32 {
self.line_number.get()
}
/// Gets the column number of the position.
#[inline]
pub fn column_number(self) -> u32 {
self.column_number.get()
}
}
impl fmt::Display for Position {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(f, "{}:{}", self.line_number, self.column_number)
}
}
/// A span in the JavaScript source code.
///
/// Stores a start position and an end position.
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub struct Span {
start: Position,
end: Position,
}
impl Span {
/// Creates a new `Span`.
#[inline]
#[track_caller]
pub fn new(start: Position, end: Position) -> Self {
assert!(start <= end, "a span cannot start after its end");
Self { start, end }
}
/// Gets the starting position of the span.
#[inline]
pub fn start(self) -> Position {
self.start
}
/// Gets the final position of the span.
#[inline]
pub fn end(self) -> Position {
self.end
}
/// Checks if this span inclusively contains another span or position.
#[inline]
pub fn contains<S>(self, other: S) -> bool
where
S: Into<Self>,
{
let other = other.into();
self.start <= other.start && self.end >= other.end
}
}
impl From<Position> for Span {
fn from(pos: Position) -> Self {
Self {
start: pos,
end: pos,
}
}
}
impl PartialOrd for Span {
fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
if self == other {
Some(Ordering::Equal)
} else if self.end < other.start {
Some(Ordering::Less)
} else if self.start > other.end {
Some(Ordering::Greater)
} else {
None
}
}
}
impl fmt::Display for Span {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(f, "[{}..{}]", self.start, self.end)
}
}
#[cfg(test)]
mod tests {
use super::{Position, Span};
/// Checks that we cannot create a position with 0 as the column.
#[test]
#[should_panic]
fn invalid_position_column() {
Position::new(10, 0);
}
/// Checks that we cannot create a position with 0 as the line.
#[test]
#[should_panic]
fn invalid_position_line() {
Position::new(0, 10);
}
/// Checks that the `PartialEq` implementation of `Position` is consistent.
#[test]
fn position_equality() {
assert_eq!(Position::new(10, 50), Position::new(10, 50));
assert_ne!(Position::new(10, 50), Position::new(10, 51));
assert_ne!(Position::new(10, 50), Position::new(11, 50));
assert_ne!(Position::new(10, 50), Position::new(11, 51));
}
/// Checks that the `PartialOrd` implementation of `Position` is consistent.
#[test]
fn position_order() {
assert!(Position::new(10, 50) < Position::new(10, 51));
assert!(Position::new(9, 50) < Position::new(10, 50));
assert!(Position::new(10, 50) < Position::new(11, 51));
assert!(Position::new(10, 50) < Position::new(11, 49));
assert!(Position::new(10, 51) > Position::new(10, 50));
assert!(Position::new(10, 50) > Position::new(9, 50));
assert!(Position::new(11, 51) > Position::new(10, 50));
assert!(Position::new(11, 49) > Position::new(10, 50));
}
/// Checks that the position getters actually retreive correct values.
#[test]
fn position_getters() {
let pos = Position::new(10, 50);
assert_eq!(pos.line_number(), 10);
assert_eq!(pos.column_number(), 50);
}
/// Checks that the string representation of a position is correct.
#[test]
fn position_to_string() {
let pos = Position::new(10, 50);
assert_eq!("10:50", pos.to_string());
assert_eq!("10:50", format!("{}", pos));
}
/// Checks that we cannot create an invalid span.
#[test]
#[should_panic]
fn invalid_span() {
let a = Position::new(10, 30);
let b = Position::new(10, 50);
Span::new(b, a);
}
/// Checks that we can create valid spans.
#[test]
fn span_creation() {
let a = Position::new(10, 30);
let b = Position::new(10, 50);
let _ = Span::new(a, b);
let _ = Span::new(a, a);
let _ = Span::from(a);
}
/// Checks that the `PartialEq` implementation of `Span` is consistent.
#[test]
fn span_equality() {
let a = Position::new(10, 50);
let b = Position::new(10, 52);
let c = Position::new(11, 20);
let span_ab = Span::new(a, b);
let span_ab_2 = Span::new(a, b);
let span_ac = Span::new(a, c);
let span_bc = Span::new(b, c);
assert_eq!(span_ab, span_ab_2);
assert_ne!(span_ab, span_ac);
assert_ne!(span_ab, span_bc);
assert_ne!(span_bc, span_ac);
let span_a = Span::from(a);
let span_aa = Span::new(a, a);
assert_eq!(span_a, span_aa);
}
/// Checks that the getters retrieve the correct value.
#[test]
fn span_getters() {
let a = Position::new(10, 50);
let b = Position::new(10, 52);
let span = Span::new(a, b);
assert_eq!(span.start(), a);
assert_eq!(span.end(), b);
}
/// Checks that the `Span::contains()` method works properly.
#[test]
fn span_contains() {
let a = Position::new(10, 50);
let b = Position::new(10, 52);
let c = Position::new(11, 20);
let d = Position::new(12, 5);
let span_ac = Span::new(a, c);
assert!(span_ac.contains(b));
let span_ab = Span::new(a, b);
let span_cd = Span::new(c, d);
assert!(!span_ab.contains(span_cd));
assert!(span_ab.contains(b));
let span_ad = Span::new(a, d);
let span_bc = Span::new(b, c);
assert!(span_ad.contains(span_bc));
assert!(!span_bc.contains(span_ad));
let span_ac = Span::new(a, c);
let span_bd = Span::new(b, d);
assert!(!span_ac.contains(span_bd));
assert!(!span_bd.contains(span_ac));
}
/// Checks that the string representation of a span is correct.
#[test]
fn span_to_string() {
let a = Position::new(10, 50);
let b = Position::new(11, 20);
let span = Span::new(a, b);
assert_eq!("[10:50..11:20]", span.to_string());
assert_eq!("[10:50..11:20]", format!("{}", span));
}
/// Checks that the ordering of spans is correct.
#[test]
fn span_ordering() {
let a = Position::new(10, 50);
let b = Position::new(10, 52);
let c = Position::new(11, 20);
let d = Position::new(12, 5);
let span_ab = Span::new(a, b);
let span_cd = Span::new(c, d);
assert!(span_ab < span_cd);
assert!(span_cd > span_ab);
}
}