diff options
| author | Will Hawkins <[email protected]> | 2023-02-10 18:47:42 -0500 |
|---|---|---|
| committer | Will Hawkins <[email protected]> | 2023-02-10 18:47:42 -0500 |
| commit | a2aeaef3cd55c3c6e5977b77d1ed146bb2b20e23 (patch) | |
| tree | 89720ec9788b1df50a3599b5cf4fc82c19898e73 /ms/ms_test.go | |
| parent | 14d738b379c5a64f70c77795f06b3716eb6c4c57 (diff) | |
[Cleanup] Long-lines cleanup
Diffstat (limited to 'ms/ms_test.go')
| -rw-r--r-- | ms/ms_test.go | 61 |
1 files changed, 49 insertions, 12 deletions
diff --git a/ms/ms_test.go b/ms/ms_test.go index 87f3c8a..533cc7e 100644 --- a/ms/ms_test.go +++ b/ms/ms_test.go @@ -29,14 +29,19 @@ func Test_InfiniteSequentialIncreasesAlwaysLessThan(test *testing.T) { series.AddElement(float64(previous)) } if islt, maxSeqIncrease := series.AllSequentialIncreasesLessThan(6.0); !islt { - test.Fatalf("(infinite) Sequential increases are not always less than 6.0 (%f).", maxSeqIncrease) + test.Fatalf( + "(infinite) Sequential increases are not always less than 6.0 (%f).", + maxSeqIncrease, + ) } } func Test_CappedTooFewInstantsSequentialIncreasesLessThanAlwaysFalse(test *testing.T) { series := NewCappedMathematicalSeries[float64](500) series.AddElement(0.0) if islt, _ := series.AllSequentialIncreasesLessThan(6.0); islt { - test.Fatalf("(infinite) 0 elements in a series should always yield false when asking if sequential increases are less than a value.") + test.Fatalf( + "(infinite) 0 elements in a series should always yield false when asking if sequential increases are less than a value.", + ) } } @@ -66,7 +71,10 @@ func Test_Infinite90_percentile(test *testing.T) { series.AddElement(1) if series.Percentile(90) != 10 { - test.Fatalf("(infinite) Series 90th percentile of 0 ... 10 failed: Expected 10 got %v.", series.Percentile(90)) + test.Fatalf( + "(infinite) Series 90th percentile of 0 ... 10 failed: Expected 10 got %v.", + series.Percentile(90), + ) } } @@ -84,7 +92,10 @@ func Test_Infinite90_percentile_reversed(test *testing.T) { series.AddElement(10) if series.Percentile(90) != 10 { - test.Fatalf("(infinite) Series 90th percentile of 0 ... 10 failed: Expected 10 got %v.", series.Percentile(90)) + test.Fatalf( + "(infinite) Series 90th percentile of 0 ... 10 failed: Expected 10 got %v.", + series.Percentile(90), + ) } } @@ -102,7 +113,10 @@ func Test_Infinite50_percentile_jumbled(test *testing.T) { series.AddElement(12) if series.Percentile(50) != 15 { - test.Fatalf("(infinite) Series 50 percentile of a jumble of numbers failed: Expected 15 got %v.", series.Percentile(50)) + test.Fatalf( + "(infinite) Series 50 percentile of a jumble of numbers failed: Expected 15 got %v.", + series.Percentile(50), + ) } } @@ -132,7 +146,11 @@ func Test_InfiniteDoubleSidedTrimmedMean_jumbled(test *testing.T) { trimmed := series.DoubleSidedTrim(10) if trimmed.Len() != 16 { - test.Fatalf("Capped series is not of the proper size. Expected %v and got %v", 16, trimmed.Len()) + test.Fatalf( + "Capped series is not of the proper size. Expected %v and got %v", + 16, + trimmed.Len(), + ) } prev := int64(0) @@ -172,7 +190,10 @@ func Test_CappedSequentialIncreasesAlwaysLessThanWithWraparound(test *testing.T) } if islt, maxSeqIncrease := series.AllSequentialIncreasesLessThan(11.0); !islt { - test.Fatalf("Sequential increases are not always less than 11.0 in wraparound situation (%f v 11.0).", maxSeqIncrease) + test.Fatalf( + "Sequential increases are not always less than 11.0 in wraparound situation (%f v 11.0).", + maxSeqIncrease, + ) } } @@ -192,7 +213,10 @@ func Test_CappedSequentialIncreasesAlwaysLessThanWithWraparoundInverse(test *tes } if islt, maxSeqIncrease := series.AllSequentialIncreasesLessThan(11.0); islt { - test.Fatalf("Sequential increases are (unexpectedly) always less than 11.0 in wraparound situation: %f v 11.0.", maxSeqIncrease) + test.Fatalf( + "Sequential increases are (unexpectedly) always less than 11.0 in wraparound situation: %f v 11.0.", + maxSeqIncrease, + ) } } @@ -271,7 +295,10 @@ func Test_Capped90_percentile(test *testing.T) { series.AddElement(1) if series.Percentile(90) != 10 { - test.Fatalf("Series 90th percentile of 0 ... 10 failed: Expected 10 got %v.", series.Percentile(90)) + test.Fatalf( + "Series 90th percentile of 0 ... 10 failed: Expected 10 got %v.", + series.Percentile(90), + ) } } @@ -289,7 +316,10 @@ func Test_Capped90_percentile_reversed(test *testing.T) { series.AddElement(10) if series.Percentile(90) != 10 { - test.Fatalf("Series 90th percentile of 0 ... 10 failed: Expected 10 got %v.", series.Percentile(90)) + test.Fatalf( + "Series 90th percentile of 0 ... 10 failed: Expected 10 got %v.", + series.Percentile(90), + ) } } @@ -307,7 +337,10 @@ func Test_Capped50_percentile_jumbled(test *testing.T) { series.AddElement(12) if series.Percentile(50) != 15 { - test.Fatalf("Series 50 percentile of a jumble of numbers failed: Expected 15 got %v.", series.Percentile(50)) + test.Fatalf( + "Series 50 percentile of a jumble of numbers failed: Expected 15 got %v.", + series.Percentile(50), + ) } } @@ -328,7 +361,11 @@ func Test_CappedDoubleSidedTrimmedMean_jumbled(test *testing.T) { trimmed := series.DoubleSidedTrim(10) if trimmed.Len() != 8 { - test.Fatalf("Capped series is not of the proper size. Expected %v and got %v", 8, trimmed.Len()) + test.Fatalf( + "Capped series is not of the proper size. Expected %v and got %v", + 8, + trimmed.Len(), + ) } prev := int64(0) |