lakos 1.2.3
lakos: ^1.2.3 copied to clipboard

Visualize Dart library dependencies in Graphviz dot. Detect dependency cycles.

Example dependency graph

lakos is a command line tool and library that can:

  • Visualize Dart library dependencies in Graphviz dot.
  • Detect dependency cycles.
  • Identify orphans.
  • Compute the Cumulative Component Dependency (CCD) and related metrics.

Command Line Usage #

Usage: lakos [options] <root-directory>

-f, --format=<FORMAT>          Output format.
                               [dot (default), json]

-o, --output=<FILE>            Save output to a file instead of printing it.
                               (defaults to "STDOUT")

    --[no-]tree                Show directory structure as subgraphs.
                               (defaults to on)

-m, --[no-]metrics             Compute and show global metrics.
                               (defaults to off)

    --[no-]node-metrics        Show node metrics. Only works when --metrics is true.
                               (defaults to off)

-i, --ignore=<GLOB>            Exclude files and directories with a glob pattern.
                               (defaults to "!**")

-c, --node-color=<lavender>    Any X11 or hex color.
                               (defaults to "lavender")

-l, --layout=<TB>              Graph layout direction. AKA "rankdir" in Graphviz.

          [BT]                 bottom to top
          [LR]                 left to right
          [RL]                 right to left
          [TB] (default)       top to bottom

    --[no-]cycles-allowed      Runs normally but exits with a non-zero exit code
                               if a dependency cycle is detected.
                               Only works when --metrics is true.
                               Useful for CI builds.
                               (defaults to off)

Examples #

Print dot graph for the current directory (not very useful):

lakos .

Pass output directly to Graphviz dot in one line (a lot more useful):

lakos . | dot -Tpng -Gdpi=200 -o example.png

Save output to a dot file first and then generate an SVG using Graphviz dot:

lakos -o .
dot -Tsvg -o example.svg

Notes #

  • Exports are drawn with a dashed edge.
  • Orphan nodes are octagons (with --metrics).
  • Only import and export directives are supported; library and part are not.
  • Only libraries under the root-directory are shown; Dart core and external packages are not.

More Examples #

Lakos run on itself with metrics, ignoring tests.

lakos -o dot_images/ -m -i test/** .
Lakos run on itself with metrics, ignoring tests.

No tests, show node metrics.

lakos -o dot_images/ -m -i test/** --node-metrics /root/.pub-cache/hosted/
No tests, show node metrics.

No tests, no tree.

lakos --no-tree -o dot_images/ -i test/** /root/.pub-cache/hosted/
No tests, no tree.

No tests, left to right layout.

lakos -o dot_images/ -i test/** -l LR /root/.pub-cache/hosted/
No tests, left to right layout.

A graph with circular dependencies.

lakos -o dot_images/ -m -i test/** /root/.pub-cache/hosted/
A graph with circular dependencies.

Example JSON output:

lakos -f json -o dot_images/pub_cache.metrics_no_test.json -m -i test/** /root/.pub-cache/hosted/
Click to show the JSON output.
  "rootDir": "/root/.pub-cache/hosted/",
  "nodes": {
    "/example/list.dart": {
      "id": "/example/list.dart",
      "label": "list",
      "cd": 3,
      "inDegree": 0,
      "outDegree": 1,
      "instability": 1.0,
      "sloc": 14
    "/lib/pub_cache.dart": {
      "id": "/lib/pub_cache.dart",
      "label": "pub_cache",
      "cd": 2,
      "inDegree": 2,
      "outDegree": 1,
      "instability": 0.33,
      "sloc": 162
    "/lib/src/impl.dart": {
      "id": "/lib/src/impl.dart",
      "label": "impl",
      "cd": 2,
      "inDegree": 1,
      "outDegree": 1,
      "instability": 0.5,
      "sloc": 95
  "subgraphs": [
      "id": "",
      "label": "pub_cache-0.2.3",
      "nodes": [],
      "subgraphs": [
          "id": "/example",
          "label": "example",
          "nodes": ["/example/list.dart"],
          "subgraphs": []
          "id": "/lib",
          "label": "lib",
          "nodes": ["/lib/pub_cache.dart"],
          "subgraphs": [
              "id": "/lib/src",
              "label": "src",
              "nodes": ["/lib/src/impl.dart"],
              "subgraphs": []
  "edges": [
      "from": "/example/list.dart",
      "to": "/lib/pub_cache.dart",
      "directive": "import"
      "from": "/lib/pub_cache.dart",
      "to": "/lib/src/impl.dart",
      "directive": "import"
      "from": "/lib/src/impl.dart",
      "to": "/lib/pub_cache.dart",
      "directive": "import"
  "metrics": {
    "isAcyclic": false,
    "firstCycle": ["/lib/pub_cache.dart", "/lib/src/impl.dart", "/lib/pub_cache.dart"],
    "numNodes": 3,
    "numEdges": 3,
    "avgDegree": 1.0,
    "orphans": [],
    "ccd": 7,
    "acd": 2.33,
    "nccd": 1.4,
    "totalSloc": 271,
    "avgSloc": 90.33

Convert to GML #

Still can't get enough graph visualization goodness? Try this!

lakos -i test/** /root/.pub-cache/hosted/ | gv2gml -o dot_images/test.gml

gv2gml converts dot format into GML format, which you can open in yEd, Gephi, Cytoscape, etc.

GML file imported into yEd.

Global Metrics #

Use --metrics to compute and show these.

isAcyclic: True if the library dependencies form a directed acyclic graph (DAG). False if the graph contains dependency cycles. True is better.

firstCycle: The first dependency cycle found if the graph is not acyclic. Available in the JSON output.

numNodes: Number of Dart libraries (nodes) in the graph.

numEdges: Number of edges (dependencies) in the graph.

avgDegree: The average number of incoming/outgoing edges per node. The average degree of a directed graph is numEdges / numNodes. Try to keep this value under 2.0.

numOrphans: Number of Dart libraries that have no imports and are imported nowhere. (inDegree and outDegree are 0.)

ccd: The Cumulative Component Dependency (CCD) is the sum of all Component Dependencies. The CCD can be interpreted as the total "coupling" of the graph. Lower is better.

acd: The Average Component Dependency (ACD). ACD = CCD / numNodes. The ACD can be interpreted as the average number of nodes that will need to change when one node changes. Lower is better.

nccd: The Normalized Cumulative Component Dependency. This is the CCD divided by a CCD of a binary tree of the same size. It's the only metric here that can compare graphs of different sizes. If the NCCD is below 1.0, the graph is "horizontal". If the NCCD is above 1.0, the graph is "vertical". If the NCCD is above 2.0, the graph probably contains cycles. Lower is better.

totalSloc: Total Source Lines of Code for all nodes.

avgSloc: The average SLOC per node. The average SLOC should arguably be kept within some Goldilocks range: not too big and not too small.

Node Metrics #

Use --metrics --node-metrics to show these.

cd: The Component Dependency (CD) is the number of nodes a particular node depends on directly or transitively, including itself.

inDegree: The number of nodes that depend on this node. (Number of incoming edges.)

outDegree: The number of nodes this node depends on. (Number of outgoing edges.)

instability: A node metric by Robert C. Martin related to the Stable-Dependencies Principle: Depend in the direction of stability. Instability = outDegree / (inDegree + outDegree). This yields a value from 0 to 1, where 0 means 100% stable and 1 means 100% unstable. In general, node instability should decrease in the direction of dependency. In other words, lower level nodes should be more stable and more reusable than higher level nodes.

sloc: Source Lines of Code is the number of lines of code ignoring comments and blank lines. Note: my SLOC counter function doesn't deal correctly with comments inside multi-line strings or multi-line comments in the middle of code.

Exit Codes #

Use these in your CI pipeline, especially DependencyCycleDetected.

  1. Ok
  2. InvalidOption
  3. NoRootDirectorySpecified
  4. BuildModelFailed
  5. WriteToFileFailed
  6. DependencyCycleDetected

Library Usage #

In addition to the command line tool, lakos can also be used as a library.

Use buildModel to construct a Model object.

Use Model.getOutput to print the model in dot or JSON format.

Use Model.toDirectedGraph for further analysis with the directed_graph library.

See example/example.dart.

Inspiration #

lakos is named after John Lakos, author of Large-Scale C++ Software Design. This book presents:

  • A graph-theoretic argument for keeping module dependencies acyclic.
  • A set of "levelization techniques", such as Escalation and Demotion, to help avoid cyclic dependencies.
  • A set of coupling metrics, such as the CCD, ACD, and the NCCD.
  • An emphasis on physical design (files, folders) working in harmony with logical design (functions, classes).

Similar Tools #

  • Dart: pubviz (for packages)
  • C/C++: cinclude2dot
  • JavaScript/TypeScript: madge, dependency-cruiser
  • C#: NDepend
  • Java: Sonargraph, JArchitect
  • Python: pydeps
  • Haskell: graphmod
pub points


Visualize Dart library dependencies in Graphviz dot. Detect dependency cycles.

Repository (GitHub)
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API reference




args, directed_graph, glob, path, string_scanner


Packages that depend on lakos