use super::*; #[test] fn test_lookup_line() { let source = "abcdefghijklm\nabcdefghij\n...".to_owned(); let mut sf = SourceFile::new( FileName::Anon(Hash64::ZERO), source, SourceFileHashAlgorithm::Sha256, Some(SourceFileHashAlgorithm::Sha256), ) .unwrap(); sf.start_pos = BytePos(3); assert_eq!(sf.lines(), &[RelativeBytePos(0), RelativeBytePos(14), RelativeBytePos(25)]); assert_eq!(sf.lookup_line(RelativeBytePos(0)), Some(0)); assert_eq!(sf.lookup_line(RelativeBytePos(1)), Some(0)); assert_eq!(sf.lookup_line(RelativeBytePos(13)), Some(0)); assert_eq!(sf.lookup_line(RelativeBytePos(14)), Some(1)); assert_eq!(sf.lookup_line(RelativeBytePos(15)), Some(1)); assert_eq!(sf.lookup_line(RelativeBytePos(25)), Some(2)); assert_eq!(sf.lookup_line(RelativeBytePos(26)), Some(2)); } #[test] fn test_normalize_newlines() { fn check(before: &str, after: &str, expected_positions: &[u32]) { let mut actual = before.to_string(); let mut actual_positions = vec![]; normalize_newlines(&mut actual, &mut actual_positions); let actual_positions: Vec<_> = actual_positions.into_iter().map(|nc| nc.pos.0).collect(); assert_eq!(actual.as_str(), after); assert_eq!(actual_positions, expected_positions); } check("", "", &[]); check("\n", "\n", &[]); check("\r", "\r", &[]); check("\r\r", "\r\r", &[]); check("\r\n", "\n", &[1]); check("hello world", "hello world", &[]); check("hello\nworld", "hello\nworld", &[]); check("hello\r\nworld", "hello\nworld", &[6]); check("\r\nhello\r\nworld\r\n", "\nhello\nworld\n", &[1, 7, 13]); check("\r\r\n", "\r\n", &[2]); check("hello\rworld", "hello\rworld", &[]); } #[test] fn test_trim() { let span = |lo: usize, hi: usize| { Span::new(BytePos::from_usize(lo), BytePos::from_usize(hi), SyntaxContext::root(), None) }; // Various positions, named for their relation to `start` and `end`. let well_before = 1; let before = 3; let start = 5; let mid = 7; let end = 9; let after = 11; let well_after = 13; // The resulting span's context should be that of `self`, not `other`. let other = span(start, end).with_ctxt(SyntaxContext::from_u32(999)); // Test cases for `trim_end`. assert_eq!(span(well_before, before).trim_end(other), Some(span(well_before, before))); assert_eq!(span(well_before, start).trim_end(other), Some(span(well_before, start))); assert_eq!(span(well_before, mid).trim_end(other), Some(span(well_before, start))); assert_eq!(span(well_before, end).trim_end(other), Some(span(well_before, start))); assert_eq!(span(well_before, after).trim_end(other), Some(span(well_before, start))); assert_eq!(span(start, mid).trim_end(other), None); assert_eq!(span(start, end).trim_end(other), None); assert_eq!(span(start, after).trim_end(other), None); assert_eq!(span(mid, end).trim_end(other), None); assert_eq!(span(mid, after).trim_end(other), None); assert_eq!(span(end, after).trim_end(other), None); assert_eq!(span(after, well_after).trim_end(other), None); // Test cases for `trim_start`. assert_eq!(span(after, well_after).trim_start(other), Some(span(after, well_after))); assert_eq!(span(end, well_after).trim_start(other), Some(span(end, well_after))); assert_eq!(span(mid, well_after).trim_start(other), Some(span(end, well_after))); assert_eq!(span(start, well_after).trim_start(other), Some(span(end, well_after))); assert_eq!(span(before, well_after).trim_start(other), Some(span(end, well_after))); assert_eq!(span(mid, end).trim_start(other), None); assert_eq!(span(start, end).trim_start(other), None); assert_eq!(span(before, end).trim_start(other), None); assert_eq!(span(start, mid).trim_start(other), None); assert_eq!(span(before, mid).trim_start(other), None); assert_eq!(span(before, start).trim_start(other), None); assert_eq!(span(well_before, before).trim_start(other), None); }