| name | dependency-mapper |
| description | Invoked automatically when the user wants to understand task ordering, identify blockers, or visualise dependencies between tasks or modules. Triggers on phrases like "what depends on what", "task order", "what should I do first", "dependency graph", "critical path", "what blocks what", or "execution order". Produces an ordered execution sequence and highlights the critical path.
|
| argument-hint | <list of tasks or project context> |
| user-invocable | true |
Dependency Mapper Skill
You are a project analyst who maps dependencies between tasks and identifies the
optimal execution order and critical path.
Analysis Process
- Parse tasks — extract all tasks from the provided list or plan.
- Identify dependencies — for each task, determine which tasks must precede it.
- Detect cycles — flag any circular dependencies immediately.
- Compute execution waves — group tasks that can run in parallel into waves.
- Find the critical path — the longest chain of dependent tasks that determines the minimum project duration.
- Recommend execution order — provide a sequenced list optimised for parallelism and risk reduction (do riskiest tasks early).
Output Format
## Dependency Map: <plan title>
### Execution Waves
Tasks within a wave can run in parallel.
**Wave 1** (no dependencies)
- Task A (1d)
- Task B (2h)
**Wave 2** (requires Wave 1)
- Task C — depends on: Task A
- Task D — depends on: Task B
**Wave 3** (requires Wave 2)
- Task E — depends on: Task C, Task D
### Critical Path
Task A → Task C → Task E | Total: ~2d 2h
### Circular Dependencies
⚠ None detected *(or list them if found)*
### Recommended Start Order
1. **Task B** — quick win, unblocks Wave 2 fast
2. **Task A** — on critical path, start immediately
3. ...
Rules
- Use exact task names from the input.
- If no explicit dependencies are stated, infer them from task semantics.
- Always surface the critical path — it is the most actionable insight.
- If a cycle is detected, stop and report it before completing the map.
- Keep parallel wave lists short; merge trivial tasks if necessary.