public void does_change_min_under_lower_if_lower() { var count = new CountsAndTimes(); count.ProcessNewEntry(new CallChain("TEST", "TESTR", 3) { StartTime = 0, EndTime = 10 }); count.ProcessNewEntry(new CallChain("TEST", "TESTR", 3) { StartTime = 0, EndTime = 6 }); Assert.AreEqual(6, count.MinTimeUnder); }
public void does_not_change_max_under_if_not_higher() { var count = new CountsAndTimes(); count.ProcessNewEntry(new CallChain("TEST", "TESTR", 3) { StartTime = 0, EndTime = 10 }); count.ProcessNewEntry(new CallChain("TEST", "TESTR", 3) { StartTime = 0, EndTime = 6 }); Assert.AreEqual(10, count.MaxTimeUnder); }
public void can_calulate_total_time_under_properly_for_multiple_items() { var count = new CountsAndTimes(); count.ProcessNewEntry(new CallChain("TEST", "TESTR", 3) { StartTime = 0, EndTime = 10 }); count.ProcessNewEntry(new CallChain("TEST", "TESTR", 3) { StartTime = 0, EndTime = 10 }); count.ProcessNewEntry(new CallChain("TEST", "TESTR", 3) { StartTime = 0, EndTime = 10 }); Assert.AreEqual(30, count.TotalTimeUnder); }
public void can_calulate_avereage_time_under_properly_for_single_item() { var count = new CountsAndTimes(); count.ProcessNewEntry(new CallChain("TEST", "TESTR", 3) { StartTime = 0, EndTime = 10 }); Assert.AreEqual(10, count.AverageTimeUnder); }
public void can_calulate_total_time_properly_for_single_item_with_no_children() { var count = new CountsAndTimes(); count.ProcessNewEntry(new CallChain("TEST", "TESTR", 3) { StartTime = 0, EndTime = 10 }); Assert.AreEqual(10, count.TotalTime); Assert.AreEqual(10, count.MaxTime); Assert.AreEqual(10, count.MinTime); Assert.AreEqual(10, count.AverageTime); }
public void updates_count_when_removing_a_sample() { var count = new CountsAndTimes(); count.ProcessNewEntry(new CallChain("TEST", "TESTR", 3) { StartTime = 0, EndTime = 10 }); count.RemoveEntry(new CallChain("TEST", "TESTR", 3) { StartTime = 0, EndTime = 10 }); Assert.AreEqual(0, count.TimesCalled); }
public void updates_avg_when_removing_a_sample() { var count = new CountsAndTimes(); count.ProcessNewEntry(new CallChain("TEST", "TESTR", 3) { StartTime = 0, EndTime = 10 }); count.RemoveEntry(new CallChain("TEST", "TESTR", 3) { StartTime = 0, EndTime = 10 }); Assert.AreEqual(double.NaN, count.AverageTime); }
public void can_calulate_total_time_properly_for_single_item_with_single_child() { var count = new CountsAndTimes(); var chain = new CallChain("TEST", "TESTR", 1) { StartTime = 0, EndTime = 10 }; chain.Children.Add(new CallChain("TEST1", "TESTR", 3) { StartTime = 3, EndTime = 5 }); count.ProcessNewEntry(chain); Assert.AreEqual(8, count.TotalTime); Assert.AreEqual(8, count.MaxTime); Assert.AreEqual(8, count.MinTime); Assert.AreEqual(8, count.AverageTime); }
public void does_not_include_children_that_are_itself_when_counting_with_multiple_children() { var count = new CountsAndTimes(); var chain = new CallChain("TEST", "TESTR", 3) { StartTime = 0, EndTime = 10 }; chain.Children.Add(new CallChain("TEST", "TESTR", 3) { StartTime = 3, EndTime = 5 }); chain.Children.Add(new CallChain("TEST1", "TESTR", 3) { StartTime = 5, EndTime = 7 }); count.ProcessNewEntry(chain); Assert.AreEqual(8, count.TotalTime); Assert.AreEqual(8, count.MaxTime); Assert.AreEqual(8, count.MinTime); Assert.AreEqual(8, count.AverageTime); }