use crate::errors::*; #[derive(Debug, Clone)] pub struct LineRange { pub lower: usize, pub upper: usize, } impl LineRange { pub fn from(range_raw: &str) -> Result { LineRange::parse_range(range_raw) } pub fn new() -> LineRange { LineRange { lower: usize::min_value(), upper: usize::max_value(), } } pub fn parse_range(range_raw: &str) -> Result { let mut new_range = LineRange::new(); if range_raw.bytes().nth(0).ok_or("Empty line range")? == b':' { new_range.upper = range_raw[1..].parse()?; return Ok(new_range); } else if range_raw.bytes().last().ok_or("Empty line range")? == b':' { new_range.lower = range_raw[..range_raw.len() - 1].parse()?; return Ok(new_range); } let line_numbers: Vec<&str> = range_raw.split(':').collect(); match line_numbers.len() { 1 => { new_range.lower = line_numbers[0].parse()?; new_range.upper = new_range.lower; Ok(new_range) } 2 => { new_range.lower = line_numbers[0].parse()?; new_range.upper = line_numbers[1].parse()?; Ok(new_range) } _ => Err( "Line range contained more than one ':' character. Expected format: 'N' or 'N:M'" .into(), ), } } pub fn is_inside(&self, line: usize) -> bool { line >= self.lower && line <= self.upper } } #[test] fn test_parse_full() { let range = LineRange::from("40:50").expect("Shouldn't fail on test!"); assert_eq!(40, range.lower); assert_eq!(50, range.upper); } #[test] fn test_parse_partial_min() { let range = LineRange::from(":50").expect("Shouldn't fail on test!"); assert_eq!(usize::min_value(), range.lower); assert_eq!(50, range.upper); } #[test] fn test_parse_partial_max() { let range = LineRange::from("40:").expect("Shouldn't fail on test!"); assert_eq!(40, range.lower); assert_eq!(usize::max_value(), range.upper); } #[test] fn test_parse_single() { let range = LineRange::from("40").expect("Shouldn't fail on test!"); assert_eq!(40, range.lower); assert_eq!(40, range.upper); } #[test] fn test_parse_fail() { let range = LineRange::from("40:50:80"); assert!(range.is_err()); let range = LineRange::from("40::80"); assert!(range.is_err()); let range = LineRange::from(":40:"); assert!(range.is_err()); } #[derive(Copy, Clone, Debug, PartialEq)] pub enum RangeCheckResult { // Within one of the given ranges InRange, // Before the first range or within two ranges OutsideRange, // Line number is outside of all ranges and larger than the last range. AfterLastRange, } #[derive(Debug, Clone, Default)] pub struct LineRanges { ranges: Vec, largest_upper_bound: usize, } impl LineRanges { pub fn from(ranges: Vec) -> LineRanges { let largest_upper_bound = ranges .iter() .map(|r| r.upper) .max() .unwrap_or(usize::max_value()); LineRanges { ranges, largest_upper_bound, } } pub fn check(&self, line: usize) -> RangeCheckResult { if self.ranges.is_empty() | self.ranges.iter().any(|r| r.is_inside(line)) { RangeCheckResult::InRange } else if line < self.largest_upper_bound { RangeCheckResult::OutsideRange } else { RangeCheckResult::AfterLastRange } } } #[cfg(test)] fn ranges(rs: &[&str]) -> LineRanges { LineRanges::from(rs.iter().map(|r| LineRange::from(r).unwrap()).collect()) } #[test] fn test_ranges_simple() { let ranges = ranges(&["3:8"]); assert_eq!(RangeCheckResult::OutsideRange, ranges.check(2)); assert_eq!(RangeCheckResult::InRange, ranges.check(5)); assert_eq!(RangeCheckResult::AfterLastRange, ranges.check(9)); } #[test] fn test_ranges_advanced() { let ranges = ranges(&["3:8", "11:20", "25:30"]); assert_eq!(RangeCheckResult::OutsideRange, ranges.check(2)); assert_eq!(RangeCheckResult::InRange, ranges.check(5)); assert_eq!(RangeCheckResult::OutsideRange, ranges.check(9)); assert_eq!(RangeCheckResult::InRange, ranges.check(11)); assert_eq!(RangeCheckResult::OutsideRange, ranges.check(22)); assert_eq!(RangeCheckResult::InRange, ranges.check(28)); assert_eq!(RangeCheckResult::AfterLastRange, ranges.check(31)); } #[test] fn test_ranges_open_low() { let ranges = ranges(&["3:8", ":5"]); assert_eq!(RangeCheckResult::InRange, ranges.check(1)); assert_eq!(RangeCheckResult::InRange, ranges.check(3)); assert_eq!(RangeCheckResult::InRange, ranges.check(7)); assert_eq!(RangeCheckResult::AfterLastRange, ranges.check(9)); } #[test] fn test_ranges_open_high() { let ranges = ranges(&["3:", "2:5"]); assert_eq!(RangeCheckResult::OutsideRange, ranges.check(1)); assert_eq!(RangeCheckResult::InRange, ranges.check(3)); assert_eq!(RangeCheckResult::InRange, ranges.check(5)); assert_eq!(RangeCheckResult::InRange, ranges.check(9)); } #[test] fn test_ranges_empty() { let ranges = ranges(&[]); assert_eq!(RangeCheckResult::InRange, ranges.check(1)); }