| name | understand-explain |
| description | Use when you need a deep-dive explanation of a specific file, function, or module in the codebase |
| argument-hint | ["file-path"] |
/understand-explain
Provide a thorough, in-depth explanation of a specific code component.
Graph Structure Reference
The knowledge graph JSON has this structure:
project — {name, description, languages, frameworks, analyzedAt, gitCommitHash}nodes[] — each has {id, type, name, filePath, summary, tags[], complexity, languageNotes?}
- Node types: file, function, class, module, concept
- IDs:
file:path, func:path:name, class:path:name
edges[] — each has {source, target, type, direction, weight}
- Key types: imports, contains, calls, depends_on
layers[] — each has {id, name, description, nodeIds[]}tour[] — each has {order, title, description, nodeIds[]}
How to Read Efficiently
- Use Grep to search within the JSON for relevant entries BEFORE reading the full file
- Only read sections you need — don't dump the entire graph into context
- Node names and summaries are the most useful fields for understanding
- Edges tell you how components connect — follow imports and calls for dependency chains
Instructions
-
Check that .understand-anything/knowledge-graph.json exists. If not, tell the user to run /understand first.
-
Find the target node — use Grep to search the knowledge graph for the component: "$ARGUMENTS"
- For file paths (e.g.,
src/auth/login.ts): search for "filePath" matches
- For function notation (e.g.,
src/auth/login.ts:verifyToken): search for the function name in "name" fields filtered by the file path
- Note the exact node
id, type, summary, tags, and complexity
-
Find all connected edges — Grep for the target node's ID in the edges section:
"source" matches → things this node calls/imports/depends on (outgoing)"target" matches → things that call/import/depend on this node (incoming)- Note the connected node IDs and edge types
-
Read connected nodes — for each connected node ID from step 3, Grep for those IDs in the nodes section to get their name, summary, and type. This builds the component's neighborhood.
-
Identify the layer — Grep for the target node's ID in the "layers" section to find which architectural layer it belongs to and that layer's description.
-
Read the actual source file — Read the source file at the node's filePath for the deep-dive analysis.
-
Explain the component in context:
- Its role in the architecture (which layer, why it exists)
- Internal structure (functions, classes it contains — from
contains edges)
- External connections (what it imports, what calls it, what it depends on — from edges)
- Data flow (inputs → processing → outputs — from source code)
- Explain clearly, assuming the reader may not know the programming language
- Highlight any patterns, idioms, or complexity worth understanding
