Analysis scope, overview of main, test, generated, deployment, build, and other code.
Source Code Analysis Scope
Files includes and excluded from analyses
- 46 extensions are included in analyses: cs, ts, txt, md, h, cpp, cmd, c, hpp, json, csl, gitignore, ps1, sh, resx, csproj, editorconfig, lua, plist, bat, tsx, props, proto, vsixmanifest, targets, xml, mm, filters, xaml, nuspec, js, cc, psm1, vcxproj, DotSettings, ipynb, npmrc, yaml, in, g4, gitattributes, Props, svg, gp, m, vscodeignore
- 9 criteria are used to exclude files from analysis:
- exclude files with path like ".*/[.][a-zA-Z0-9_]+.*" (Hidden files and folders) (52 files).
- exclude files with path like ".*[.]resx" (The resx resource files) (17 files).
- exclude files with path like ".*\.d\.ts" (Typescript definition files) (11 files).
- exclude files with path like ".*/bin/.*" (Binaries for distribution) (2 files).
- exclude files with path like ".*/(3rd|[Tt]hird)[-_]?[Pp]arty/.*" (Dependencies) (88 files).
- exclude files with path like ".*/git[-]history[.]txt" (Git history) (1 file).
- exclude files with path like ".*/git[-][a-zA-Z0-9_]+[.]txt" (Git data exports for sokrates analyses) (0 files).
- exclude files with path like ".*/sokrates_conventions[.]json" (Sokrates scoping conventions) (1 file).
- exclude files with path like ".*[.]txt" (Text files) (834 files).
- The source code folder contains 9,711 files:
- 7,673 files are included in analyses.
- 2,038 files are excluded from analyses:
Overview of Analyzed Files
Basic stats on analyzed files
Intro
For analysis purposes we separate files in scope into several categories: main, test, generated, deployment and build, and other.
- The main category contains all manually created source code files that are being used in the production.
- Files in the main category are used as input for other analyses: logical decomposition, concerns, duplication, file size, unit size, and conditional complexity.
- Test source code files are used only for testing of the product. These files are normally not deployed to production.
- Build and deployment source code files are used to configure or support build and deployment process.
- Generated source code files are automatically generated files that have not been manually changed after generation.
- While a source code folder may contain a number of files, we are primarily interested in the source code files that are being written and maintained by developers.
- Files containing binaries, documentation, or third-party libraries, for instance, are excluded from analysis. The exception are third-party libraries that have been changed by developers.
Main Code
All manually created or maintained source code that defines logic of the product that is run in a production environment.
- The following criteria are used to filter files:
- files with paths like ".*".
- 4421 files match defined criteria (614,935 lines of code, 100.0% vs. main code):
- 4,008 *.cs files (533,280 lines of code)
- 38 *.ts files (35,003 lines of code)
- 87 *.cpp files (29,431 lines of code)
- 59 *.h files (4,490 lines of code)
- 58 *.hpp files (3,396 lines of code)
- 69 *.cmd files (2,798 lines of code)
- 30 *.csl files (1,862 lines of code)
- 21 *.ps1 files (1,509 lines of code)
- 6 *.c files (746 lines of code)
- 4 *.mm files (719 lines of code)
- 5 *.proto files (586 lines of code)
- 3 *.filters files (245 lines of code)
- 8 *.lua files (221 lines of code)
- 6 *.props files (142 lines of code)
- 5 *.vsixmanifest files (120 lines of code)
- 1 *.g4 files (112 lines of code)
- 1 *.m files (90 lines of code)
- 1 *.psm1 files (79 lines of code)
- 4 *.xaml files (48 lines of code)
- 5 *.targets files (46 lines of code)
- 1 *.gp files (11 lines of code)
- 1 *.in files (1 lines of code)
- " *.cs" is biggest, containing 86.72% of code.
- " *.in" is smallest, containing 0% of code.
Test Code
Used only for testing of the product. Normally not deployed in a production environment.
- The following criteria are used to filter files:
- files with paths like ".*/[Ss]pecs/.*".
- files with paths like ".*_test[.].*".
- files with paths like ".*/[Tt]est/.*".
- files with paths like ".*/TestData/.*".
- files with paths like ".*/UnitTests?/.*".
- files with paths like ".*/Mocks/.*".
- files with paths like ".*/IntegrationTests?/.*".
- files with paths like ".*/[Tt]ests/.*".
- files with paths like ".*[.][Tt]est[.].*".
- files with paths like ".*[.]test[.].*".
- files with paths like ".*/TestUtilities/.*".
- files with any line of content like ".*/simpletest/.*".
- files with paths like ".*UnitTests/.*".
- 2968 files match defined criteria (202,720 lines of code, 33.0% vs. main code):
- 1,106 *.cs files (179,082 lines of code)
- 1,845 *.ts files (22,957 lines of code)
- 5 *.h files (354 lines of code)
- 4 *.cpp files (247 lines of code)
- 6 *.tsx files (31 lines of code)
- 1 *.filters files (30 lines of code)
- 1 *.ps1 files (19 lines of code)
- " *.cs" is biggest, containing 88.34% of code.
- " *.ps1" is smallest, containing 0.01% of code.
Generated Code
Automatically generated files, not manually changed after generation.
- The following criteria are used to filter files:
- files with paths like ".*/package[-]lock[.]json".
- files with paths like ".*[.]cs" AND any line of content like "[/][/][ ]*
- 9 files match defined criteria (2,683 lines of code, 0.4% vs. main code):
- 8 *.cs files (2,567 lines of code)
- 1 *.json files (116 lines of code)
- " *.cs" is biggest, containing 95.68% of code.
- " *.json" is smallest, containing 4.32% of code.
Build and Deployment Code
Source code used to configure or support build and deployment process.
- The following criteria are used to filter files:
- files with paths like ".*[.]git[a-z]+".
- files with paths like ".*/[.]gitattributes".
- files with paths like ".*/[.]gitignore".
- files with paths like ".*[.]bat".
- files with paths like ".*[.]sh".
- files with paths like ".*[.]csproj".
- files with paths like ".*[.]nuspec".
- files with paths like ".*/package[.]json".
- files with paths like ".*/package[-]lock[.]json".
- 32 files match defined criteria (2,093 lines of code, 0.3% vs. main code):
- 16 *.sh files (1,347 lines of code)
- 10 *.csproj files (366 lines of code)
- 3 *.bat files (316 lines of code)
- 3 *.nuspec files (64 lines of code)
- " *.sh" is biggest, containing 64.36% of code.
- " *.nuspec" is smallest, containing 3.06% of code.
Other Code
- The following criteria are used to filter files:
- files with paths like ".*[.]json".
- files with paths like ".*[.]editorconfig".
- files with paths like ".*/[.]gitignore".
- files with paths like ".*[.]md".
- files with paths like ".*/[Dd]ocumentation/.*".
- files with paths like ".*/README[.][a-z0-9]+".
- files with paths like ".*[.]txt".
- files with paths like ".*/[Ee]xamples/.*".
- files with paths like ".*[.]svg".
- files with paths like ".*/[Ss]amples/.*".
- files with paths like ".*/[Dd]emos?/.*".
- files with paths like ".*[.]npmrc".
- files with paths like ".*/LICENSE[.][a-z0-9]+".
- files with paths like ".*/[.]vscodeignore".
- files with paths like ".*[.]plist".
- files with paths like ".*[.](xml|xsd|robot|sql|pgsql|dashboard|profile|ipynb|raml|avsc|al)".
- 244 files match defined criteria (23,107 lines of code, 3.8% vs. main code):
- 135 *.md files (10,808 lines of code)
- 45 *.json files (9,142 lines of code)
- 26 *.cs files (1,478 lines of code)
- 8 *.sh files (524 lines of code)
- 4 *.csproj files (507 lines of code)
- 7 *.plist files (177 lines of code)
- 4 *.c files (169 lines of code)
- 1 *.ipynb files (163 lines of code)
- 1 *.svg files (39 lines of code)
- 4 *.xml files (38 lines of code)
- 3 *.bat files (24 lines of code)
- 1 *.vcxproj files (22 lines of code)
- 2 *.cc files (8 lines of code)
- 3 *.ps1 files (8 lines of code)
- " *.md" is biggest, containing 46.77% of code.
- " *.ps1" is smallest, containing 0.03% of code.
Analyzers
Info about analyzers used for source code examinations.
- *.cs files are analyzed with CSharpAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- Unit size analysis
- Conditional complexity analysis
- Advanced heuristic dependency analysis (based on namespace heuristics)
- *.ts files are analyzed with TypeScriptAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- Unit size analysis
- Conditional complexity analysis
- No dependency analysis
- *.cpp files are analyzed with CppAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- Unit size analysis
- Conditional complexity analysis
- Advanced heuristic dependency analysis
- *.h files are analyzed with CppAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- Unit size analysis
- Conditional complexity analysis
- Advanced heuristic dependency analysis
- *.hpp files are analyzed with CppAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- Unit size analysis
- Conditional complexity analysis
- Advanced heuristic dependency analysis
- *.cmd files are analyzed with DefaultLanguageAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Basic code cleaning (empty lines removed for LOC calculations and duplication calculations)
- No unit size analysis
- No conditional complexity analysis
- No dependency analysis
- *.csl files are analyzed with XmlAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- No unit size analysis
- No conditional complexity analysis
- No dependency analysis
- *.ps1 files are analyzed with DefaultLanguageAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Basic code cleaning (empty lines removed for LOC calculations and duplication calculations)
- No unit size analysis
- No conditional complexity analysis
- No dependency analysis
- *.c files are analyzed with CStyleAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- Unit size analysis
- Conditional complexity analysis
- No dependency analysis
- *.mm files are analyzed with CppAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- Unit size analysis
- Conditional complexity analysis
- Advanced heuristic dependency analysis
- *.proto files are analyzed with DefaultLanguageAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Basic code cleaning (empty lines removed for LOC calculations and duplication calculations)
- No unit size analysis
- No conditional complexity analysis
- No dependency analysis
- *.filters files are analyzed with XmlAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- No unit size analysis
- No conditional complexity analysis
- No dependency analysis
- *.lua files are analyzed with LuaAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- Unit size analysis
- Conditional complexity analysis
- No dependency analysis
- *.props files are analyzed with XmlAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- No unit size analysis
- No conditional complexity analysis
- No dependency analysis
- *.vsixmanifest files are analyzed with XmlAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- No unit size analysis
- No conditional complexity analysis
- No dependency analysis
- *.g4 files are analyzed with DefaultLanguageAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Basic code cleaning (empty lines removed for LOC calculations and duplication calculations)
- No unit size analysis
- No conditional complexity analysis
- No dependency analysis
- *.m files are analyzed with CppAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- Unit size analysis
- Conditional complexity analysis
- Advanced heuristic dependency analysis
- *.psm1 files are analyzed with DefaultLanguageAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Basic code cleaning (empty lines removed for LOC calculations and duplication calculations)
- No unit size analysis
- No conditional complexity analysis
- No dependency analysis
- *.xaml files are analyzed with XmlAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- No unit size analysis
- No conditional complexity analysis
- No dependency analysis
- *.targets files are analyzed with XmlAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- No unit size analysis
- No conditional complexity analysis
- No dependency analysis
- *.gp files are analyzed with DefaultLanguageAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Basic code cleaning (empty lines removed for LOC calculations and duplication calculations)
- No unit size analysis
- No conditional complexity analysis
- No dependency analysis
- *.in files are analyzed with RustAnalyzer:
- All basic standard analyses supported (source code overview, duplication, file size, concerns, findings, metrics, controls)
- Advanced code cleaning (empty lines and comments removed for LOC calculations, additional cleaning for duplication calculations)
- Unit size analysis
- Conditional complexity analysis
- No dependency analysis
2022-01-30 22:21