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Fix range contains (#14011)
# Description This PR changes the range contains logic to take the step into account. ```nushell # before 2 in 1..3.. # true # now 2 in 1..3.. # false ``` --- I encountered another issue while adding tests. Due to floating point precision, `2.1 in 1..1.1..3` will return `false`. The floating point error is even bigger than `f64::EPSILON` (`0.09999999999999876` vs `2.220446049250313e-16`). This issue disappears with bigger numbers. I tried a different algorithm (checking if the estimated number of steps is close enough to any integer) but the results are still pretty bad: ```rust let n_steps = (value - self.start) / self.step; // 14.999999999999988 (n_steps - n_steps.round()).abs() < f64::EPSILON // returns false ``` Maybe it can be shipped like this, the REPL already has floating point errors (`1.1 - 1` returns `0.10000000000000009`). Or maybe there's a way to fix this that I didn't think of. I'm open to ideas! But in any case performing this kind of checks on a range of floats seems more niche than doing it on a range of ints. # User-Facing Changes Code that depended on this behavior to check if a number is between `start` and `end` will potentially return a different value. # Tests + Formatting # After Submitting
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@ -95,20 +95,27 @@ mod int_range {
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pub fn contains(&self, value: i64) -> bool {
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if self.step < 0 {
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value <= self.start
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&& match self.end {
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Bound::Included(end) => value >= end,
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Bound::Excluded(end) => value > end,
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Bound::Unbounded => true,
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// Decreasing range
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if value > self.start {
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return false;
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}
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match self.end {
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Bound::Included(end) if value < end => return false,
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Bound::Excluded(end) if value <= end => return false,
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_ => {}
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};
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} else {
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self.start <= value
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&& match self.end {
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Bound::Included(end) => value <= end,
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Bound::Excluded(end) => value < end,
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Bound::Unbounded => true,
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// Increasing range
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if value < self.start {
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return false;
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}
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match self.end {
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Bound::Included(end) if value > end => return false,
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Bound::Excluded(end) if value >= end => return false,
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_ => {}
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};
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}
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(value - self.start) % self.step == 0
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}
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pub fn into_range_iter(self, signals: Signals) -> Iter {
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@ -330,20 +337,27 @@ mod float_range {
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pub fn contains(&self, value: f64) -> bool {
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if self.step < 0.0 {
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value <= self.start
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&& match self.end {
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Bound::Included(end) => value >= end,
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Bound::Excluded(end) => value > end,
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Bound::Unbounded => true,
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// Decreasing range
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if value > self.start {
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return false;
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}
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match self.end {
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Bound::Included(end) if value <= end => return false,
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Bound::Excluded(end) if value < end => return false,
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_ => {}
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};
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} else {
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self.start <= value
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&& match self.end {
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Bound::Included(end) => value <= end,
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Bound::Excluded(end) => value < end,
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Bound::Unbounded => true,
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// Increasing range
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if value < self.start {
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return false;
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}
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match self.end {
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Bound::Included(end) if value >= end => return false,
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Bound::Excluded(end) if value > end => return false,
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_ => {}
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};
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}
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((value - self.start) % self.step).abs() < f64::EPSILON
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}
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pub fn into_range_iter(self, signals: Signals) -> Iter {
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@ -7,7 +7,7 @@ fn int_in_inc_range() -> TestResult {
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#[test]
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fn int_in_dec_range() -> TestResult {
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run_test(r#"1 in 9.42..-4"#, "true")
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run_test(r#"1 in 9..-4.42"#, "true")
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}
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#[test]
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@ -15,6 +15,16 @@ fn int_in_exclusive_range() -> TestResult {
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run_test(r#"3 in 0..<3"#, "false")
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}
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#[test]
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fn float_in_inc_range() -> TestResult {
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run_test(r#"1.58 in -4.42..9"#, "true")
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}
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#[test]
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fn float_in_dec_range() -> TestResult {
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run_test(r#"1.42 in 9.42..-4.42"#, "true")
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}
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#[test]
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fn non_number_in_range() -> TestResult {
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fail_test(r#"'a' in 1..3"#, "subset comparison is not supported")
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@ -34,3 +44,33 @@ fn range_and_reduction() -> TestResult {
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fn zip_ranges() -> TestResult {
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run_test(r#"1..3 | zip 4..6 | get 2.1"#, "6")
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}
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#[test]
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fn int_in_stepped_range() -> TestResult {
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run_test(r#"7 in 1..3..15"#, "true")
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}
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#[test]
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fn int_in_unbounded_stepped_range() -> TestResult {
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run_test(r#"1000001 in 1..3.."#, "true")
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}
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#[test]
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fn int_not_in_unbounded_stepped_range() -> TestResult {
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run_test(r#"2 in 1..3.."#, "false")
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}
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#[test]
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fn float_in_stepped_range() -> TestResult {
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run_test(r#"5.5 in 1..1.5..10"#, "true")
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}
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#[test]
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fn float_in_unbounded_stepped_range() -> TestResult {
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run_test(r#"100.5 in 1..1.5.."#, "true")
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}
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#[test]
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fn float_not_in_unbounded_stepped_range() -> TestResult {
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run_test(r#"2.1 in 1.2..3.."#, "false")
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}
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