awslabs / aws-embedded-metrics-dotnet
Conditional Complexity

The distribution of complexity of units (measured with McCabe index).

Intro
  • Conditional complexity (also called cyclomatic complexity) is a term used to measure the complexity of software. The term refers to the number of possible paths through a program function. A higher value ofter means higher maintenance and testing costs (infosecinstitute.com).
  • Conditional complexity is calculated by counting all conditions in the program that can affect the execution path (e.g. if statement, loops, switches, and/or operators, try and catch blocks...).
  • Conditional complexity is measured at the unit level (methods, functions...).
  • Units are classified in four categories based on the measured McCabe index: 1-5 (simple units), 6-10 (medium complex units), 11-25 (complex units), 26+ (very complex units).
Learn more...
Conditional Complexity Overall
  • There are 123 units with 1,032 lines of code in units (55.0% of code).
    • 0 very complex units (0 lines of code)
    • 0 complex units (0 lines of code)
    • 0 medium complex units (0 lines of code)
    • 4 simple units (105 lines of code)
    • 119 very simple units (927 lines of code)
0% | 0% | 0% | 10% | 89%
Legend:
51+
26-50
11-25
6-10
1-5
Alternative Visuals
Conditional Complexity per Extension
51+
26-50
11-25
6-10
1-5
cs0% | 0% | 0% | 10% | 89%
Conditional Complexity per Logical Component
primary logical decomposition
51+
26-50
11-25
6-10
1-5
src/Amazon.CloudWatch.EMF/Sink0% | 0% | 0% | 28% | 71%
src/Amazon.CloudWatch.EMF/Model0% | 0% | 0% | 8% | 91%
src/Amazon.CloudWatch.EMF/Environment0% | 0% | 0% | 5% | 94%
src/Amazon.CloudWatch.EMF/Logger0% | 0% | 0% | 0% | 100%
src/Amazon.CloudWatch.EMF.Web0% | 0% | 0% | 0% | 100%
src/Amazon.CloudWatch.EMF/Config0% | 0% | 0% | 0% | 100%
src/Amazon.CloudWatch.EMF/Serializer0% | 0% | 0% | 0% | 100%
src/Amazon.CloudWatch.EMF/Exception0% | 0% | 0% | 0% | 100%
src/Amazon.CloudWatch.EMF/Utils0% | 0% | 0% | 0% | 100%
Most Complex Units
Top 20 most complex units
Unit# linesMcCabe index# params
public void Accept()
in src/Amazon.CloudWatch.EMF/Sink/AgentSink.cs
 34 7 1
public MetricsContext()
in src/Amazon.CloudWatch.EMF/Model/MetricsContext.cs
 21 7 4
private Task RunSenderThread()
in src/Amazon.CloudWatch.EMF/Sink/AgentSink.cs
 32 6 1
private IEnvironment GetEnvironmentFromConfig()
in src/Amazon.CloudWatch.EMF/Environment/EnvironmentProvider.cs
 18 6 0
public static void UseEmfMiddleware()
in src/Amazon.CloudWatch.EMF.Web/ApplicationBuilderExtensions.cs
 27 5 1
public Endpoint()
in src/Amazon.CloudWatch.EMF/Sink/Endpoint.cs
 34 5 2
private IEnvironment GetEnvironmentByProbe()
in src/Amazon.CloudWatch.EMF/Environment/EnvironmentProvider.cs
 11 5 0
private string ReadResource()
in src/Amazon.CloudWatch.EMF/Environment/ResourceFetcher.cs
 29 4 2
public IEnvironment ResolveEnvironment()
in src/Amazon.CloudWatch.EMF/Environment/EnvironmentProvider.cs
 21 4 0
public List Serialize()
in src/Amazon.CloudWatch.EMF/Model/MetricsContext.cs
 25 4 0
private static Environments GetEnvironmentOverride()
in src/Amazon.CloudWatch.EMF/Config/EnvironmentConfigurationProvider.cs
 16 3 0
public MetricsLogger()
in src/Amazon.CloudWatch.EMF/Logger/MetricsLogger.cs
 9 3 3
private static Protocol GetProtocol()
in src/Amazon.CloudWatch.EMF/Sink/Endpoint.cs
 11 3 1
public void Accept()
in src/Amazon.CloudWatch.EMF/Sink/ConsoleSink.cs
 15 3 1
public async Task SendMessageAsync()
in src/Amazon.CloudWatch.EMF/Sink/TCPClient.cs
 12 3 1
public override bool Probe()
in src/Amazon.CloudWatch.EMF/Environment/EC2Environment.cs
 23 3 0
private string GetSampledTrace()
in src/Amazon.CloudWatch.EMF/Environment/LambdaEnvironment.cs
 9 3 0
public override bool Probe()
in src/Amazon.CloudWatch.EMF/Environment/ECSEnvironment.cs
 21 3 0
private string GetHostName()
in src/Amazon.CloudWatch.EMF/Environment/ECSEnvironment.cs
 16 3 0
private void CheckAndSetFluentHost()
in src/Amazon.CloudWatch.EMF/Environment/ECSEnvironment.cs
 8 3 0