private Series LoadCpuSeries(WorkloadAnalysis analysis, OxyColor color, double baseOffset)
{
if (analysis == null)
{
return(null);
}
LineSeries cpuSeries = new LineSeries()
{
StrokeThickness = 2,
MarkerSize = 3,
MarkerStroke = OxyColor.Parse("#FF0000"), //Red
MarkerType = MarkerType.None,
CanTrackerInterpolatePoints = false,
Title = analysis.Name,
Color = color,
Smooth = false
};
if (baseOffset == 0)
{
cpuSeries.TrackerFormatString = "Offset: {2:0}\n{0}: {4:0}";
}
var Table = from t in analysis.Points
where ApplicationList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.ApplicationName) &&
HostList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.HostName) &&
DatabaseList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.DatabaseName) &&
LoginList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.LoginName)
group t by new
{
offset = t.OffsetMinutes
}
into grp
orderby grp.Key.offset
select new
{
offset_minutes = grp.Key.offset,
cpu = grp.Sum(t => t.SumCpuUs)
};
foreach (var p in Table)
{
double xValue = 0;
if (baseOffset > 0)
{
xValue = DateTimeAxis.ToDouble(DateTimeAxis.ToDateTime(baseOffset).AddMinutes(p.offset_minutes));
}
else
{
xValue = p.offset_minutes;
}
cpuSeries.Points.Add(new DataPoint(xValue, p.cpu));
}
return(cpuSeries);
}
public async Task <IActionResult> Get()
{
ApplicationList applications = await this.fabricClient.QueryManager.GetApplicationListAsync();
return(this.Ok(
applications
.Where(x => x.ApplicationTypeName == Names.IngestionApplicationTypeName)
.Select(
x =>
new ApplicationViewModel(
x.ApplicationName.ToString(),
x.ApplicationStatus.ToString(),
x.ApplicationTypeVersion,
x.ApplicationParameters))));
}
private Series LoadBatchesSeries(WorkloadAnalysis analysis, OxyColor color)
{
if (analysis == null)
{
return(null);
}
LineSeries batchesSeries = new LineSeries()
{
StrokeThickness = 2,
MarkerSize = 3,
MarkerStroke = OxyColor.Parse("#FF0000"), //Red
MarkerType = MarkerType.None,
CanTrackerInterpolatePoints = false,
TrackerFormatString = "Offset: {2:0}\n{0}: {4:0}",
Title = analysis.Name,
Color = color,
Smooth = false
};
var Table = from t in analysis.Points
where ApplicationList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.ApplicationName) &&
HostList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.HostName) &&
DatabaseList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.DatabaseName) &&
LoginList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.LoginName)
group t by new
{
offset = t.OffsetMinutes
}
into grp
orderby grp.Key.offset
select new
{
offset_minutes = grp.Key.offset,
execution_count = grp.Sum(t => t.ExecutionCount / ((t.DurationMinutes == 0 ? 1 : t.DurationMinutes) * 60))
};
foreach (var p in Table)
{
batchesSeries.Points.Add(new DataPoint(p.offset_minutes, p.execution_count));
}
return(batchesSeries);
}
private void InitializeQueries()
{
// Initialize the queries
logger.Info("Entering baseline evaluation");
bool zoomIsSet = PlotModels[0].DefaultXAxis != null;
double xstart = 0;
double xend = 0;
if (zoomIsSet)
{
xstart = PlotModels[0].DefaultXAxis.ActualMinimum;
xend = PlotModels[0].DefaultXAxis.ActualMaximum;
if (xstart < 0)
{
xstart = 0;
}
}
var baseline = from t in _baselineWorkloadAnalysis.Points
where ApplicationList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.ApplicationName) &&
HostList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.HostName) &&
DatabaseList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.DatabaseName) &&
LoginList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.LoginName) &&
(!zoomIsSet || t.OffsetMinutes >= xstart) &&
(!zoomIsSet || t.OffsetMinutes <= xend)
group t by new
{
query = t.NormalizedQuery
}
into grp
select new
{
query = grp.Key.query,
sum_duration_us = grp.Sum(t => t.SumDurationUs),
avg_duration_us = grp.Average(t => t.AvgDurationUs),
sum_cpu_us = grp.Sum(t => t.SumCpuUs),
avg_cpu_us = grp.Average(t => t.AvgCpuUs),
sum_reads = grp.Sum(t => t.SumReads),
avg_reads = grp.Average(t => t.AvgReads),
execution_count = grp.Sum(t => t.ExecutionCount)
};
logger.Info("Baseline evaluation completed");
logger.Info("Entering benchmark evaluation");
var benchmark = from t in baseline where false select new { t.query, t.sum_duration_us, t.avg_duration_us, t.sum_cpu_us, t.avg_cpu_us, t.sum_reads, t.avg_reads, t.execution_count };
if (_benchmarkWorkloadAnalysis != null)
{
benchmark = from t in _benchmarkWorkloadAnalysis.Points
where ApplicationList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.ApplicationName) &&
HostList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.HostName) &&
DatabaseList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.DatabaseName) &&
LoginList.Where(f => f.IsChecked).Select(f => f.Name).Contains(t.LoginName) &&
(!zoomIsSet || t.OffsetMinutes >= xstart) &&
(!zoomIsSet || t.OffsetMinutes <= xend)
group t by new
{
query = t.NormalizedQuery
}
into grp
select new
{
query = grp.Key.query,
sum_duration_us = grp.Sum(t => t.SumDurationUs),
avg_duration_us = grp.Average(t => t.AvgDurationUs),
sum_cpu_us = grp.Sum(t => t.SumCpuUs),
avg_cpu_us = grp.Average(t => t.AvgCpuUs),
sum_reads = grp.Sum(t => t.SumReads),
avg_reads = grp.Average(t => t.AvgReads),
execution_count = grp.Sum(t => t.ExecutionCount)
};
}
logger.Info("Benchmark evaluation completed");
logger.Info("Merging sets");
var leftOuterJoin =
from b in baseline
join k in benchmark
on b.query.Hash equals k.query.Hash
into joinedData
from j in joinedData.DefaultIfEmpty()
select new
{
query_hash = b.query.Hash,
query_text = b.query.ExampleText,
query_normalized = b.query.NormalizedText,
b.sum_duration_us,
b.avg_duration_us,
b.sum_cpu_us,
b.avg_cpu_us,
b.sum_reads,
b.avg_reads,
b.execution_count,
sum_duration_us2 = j == null ? 0 : j.sum_duration_us,
diff_sum_duration_us = j == null ? 0 : j.sum_duration_us - b.sum_duration_us,
avg_duration_us2 = j == null ? 0 : j.avg_duration_us,
sum_cpu_us2 = j == null ? 0 : j.sum_cpu_us,
diff_sum_cpu_us = j == null ? 0 : j.sum_cpu_us - b.sum_cpu_us,
avg_cpu_us2 = j == null ? 0 : j.avg_cpu_us,
sum_reads2 = j == null ? 0 : j.sum_reads,
avg_reads2 = j == null ? 0 : j.avg_reads,
execution_count2 = j == null ? 0 : j.execution_count,
querydetails = new QueryDetails(b.query, _baselineWorkloadAnalysis, _benchmarkWorkloadAnalysis),
document = new ICSharpCode.AvalonEdit.Document.TextDocument()
{
Text = b.query.ExampleText
}
};
var rightOuterJoin =
from b in benchmark
join k in baseline
on b.query.Hash equals k.query.Hash
into joinedData
from j in joinedData.DefaultIfEmpty()
select new
{
query_hash = b.query.Hash,
query_text = b.query.ExampleText,
query_normalized = b.query.NormalizedText,
b.sum_duration_us,
b.avg_duration_us,
b.sum_cpu_us,
b.avg_cpu_us,
b.sum_reads,
b.avg_reads,
b.execution_count,
sum_duration_us2 = j == null ? 0 : j.sum_duration_us,
diff_sum_duration_us = j == null ? 0 : j.sum_duration_us - b.sum_duration_us,
avg_duration_us2 = j == null ? 0 : j.avg_duration_us,
sum_cpu_us2 = j == null ? 0 : j.sum_cpu_us,
diff_sum_cpu_us = j == null ? 0 : j.sum_cpu_us - b.sum_cpu_us,
avg_cpu_us2 = j == null ? 0 : j.avg_cpu_us,
sum_reads2 = j == null ? 0 : j.sum_reads,
avg_reads2 = j == null ? 0 : j.avg_reads,
execution_count2 = j == null ? 0 : j.execution_count,
querydetails = new QueryDetails(b.query, _baselineWorkloadAnalysis, _benchmarkWorkloadAnalysis),
document = new ICSharpCode.AvalonEdit.Document.TextDocument()
{
Text = b.query.ExampleText
}
};
var merged = leftOuterJoin.Union(rightOuterJoin);
Queries = merged;
logger.Info("Sets merged");
RaisePropertyChanged("Queries");
RaisePropertyChanged("CompareModeVisibility");
RaisePropertyChanged("CompareMode");
string sortCol = CompareMode ? "diff_sum_duration_us" : "sum_duration_us";
var msg = new SortColMessage(sortCol, System.ComponentModel.ListSortDirection.Descending);
Messenger.Default.Send <SortColMessage>(msg);
}