From soe
You MUST use this before any creative work - creating features, building components, adding functionality, or modifying behavior. Explores user intent, requirements and design before implementation.
How this skill is triggered — by the user, by Claude, or both
Slash command
/soe:brainstormingThe summary Claude sees in its skill listing — used to decide when to auto-load this skill
> Gate type: **judgment** (front-load/escalate per `soe:soe-modes` — see `soe:gate-classification`).
Gate type: judgment (front-load/escalate per
soe:soe-modes— seesoe:gate-classification).
Help turn ideas into fully formed designs and specs through natural collaborative dialogue.
Start by understanding the current project context, then ask questions one at a time to refine the idea. Once you understand what you're building, present the design and get user approval.
Do NOT invoke any implementation skill, write any code, scaffold any project, or take any implementation action until you have presented a design and the user has approved it. This applies to EVERY project regardless of perceived simplicity.Every project goes through this process. A todo list, a single-function utility, a config change — all of them. "Simple" projects are where unexamined assumptions cause the most wasted work. The design can be short (a few sentences for truly simple projects), but you MUST present it and get approval.
You MUST create a task for each of these items and complete them in order:
docs/superpowers/specs/YYYY-MM-DD-<topic>-design.md and commitdigraph brainstorming {
"Explore project context" [shape=box];
"Ask clarifying questions" [shape=box];
"Propose 2-3 approaches" [shape=box];
"Present design sections" [shape=box];
"User approves design?" [shape=diamond];
"Write design doc" [shape=box];
"Spec self-review\n(fix inline)" [shape=box];
"User reviews spec?" [shape=diamond];
"Present 4-option menu" [shape=box];
"Which option?" [shape=diamond];
"Ask workspace preference\n(worktree vs branch)" [shape=box];
"Invoke writing-plans skill" [shape=doublecircle];
"Explore project context" -> "Ask clarifying questions";
"Ask clarifying questions" -> "Propose 2-3 approaches";
"Propose 2-3 approaches" -> "Present design sections";
"Present design sections" -> "User approves design?";
"User approves design?" -> "Present design sections" [label="no, revise"];
"User approves design?" -> "Write design doc" [label="yes"];
"Write design doc" -> "Spec self-review\n(fix inline)";
"Spec self-review\n(fix inline)" -> "User reviews spec?";
"User reviews spec?" -> "Write design doc" [label="changes requested"];
"User reviews spec?" -> "Present 4-option menu" [label="approved"];
"Present 4-option menu" -> "Which option?";
"Which option?" -> "Ask clarifying questions" [label="2: revise"];
"Which option?" -> "Present 4-option menu" [label="3: save & exit (stop)"];
"Which option?" -> "Explore project context" [label="4: discard & restart"];
"Which option?" -> "Ask workspace preference\n(worktree vs branch)" [label="1: ready"];
"Ask workspace preference\n(worktree vs branch)" -> "Invoke writing-plans skill";
}
The terminal state is invoking writing-plans. Do NOT invoke frontend-design, mcp-builder, or any other implementation skill. The ONLY skill you invoke after brainstorming is writing-plans.
Understanding the idea:
Exploring approaches:
Presenting the design:
soe:using-figma to read the actual
design context (components, layout, spacing/tokens, variants, flows) and ground
the UI section in it instead of guessing. It skips silently when Figma is
unavailable, unauthenticated, or no URL was given — in which case describe the
UI from intent as usual.Design for isolation and clarity:
Working in existing codebases:
Documentation:
docs/superpowers/specs/YYYY-MM-DD-<topic>-design.md
docs/plans/YYYY-MM-DD-<topic>-design.md)./writing-clearly-and-concisely.md helper, to polish the design doc proseSpec Self-Review: After writing the spec document, look at it with fresh eyes:
Fix any issues inline. No need to re-review — just fix and move on.
User Review Gate: After the spec review loop passes, ask the user to review the written spec before proceeding:
"Spec written and committed to
<path>. Please review it and let me know if you want to make any changes before we start writing out the implementation plan."
Wait for the user's response. If they request changes, make them and re-run the spec review loop. Only proceed once the user approves.
Next steps — present exactly these 4 options:
Once the user approves the written spec, present this menu (do NOT proceed to implementation on your own):
Design complete. What would you like to do?
1. Ready — proceed to implementation
2. Revise — continue brainstorming (new idea or change)
3. Save & exit — keep design doc, come back later
4. Discard & start fresh — drop design, new brainstorm
Which option?
If option 1 (Ready):
Bind the design doc to a track, then hand off to /go. When brainstorming
is running as the spec-derivation step of an soe entry command (/go,
/go-all), the design doc must be BOUND to the track so the loop reads it (not
merely present on disk — an unbound doc is never silently adopted). Write the
design_doc path into .soe/tracks/{id}/state.json under the writer lock via
lib/state.js (process.env.CLAUDE_PLUGIN_ROOT for the import), merging into
the existing state so tasks/loop_state are preserved:
node -e '
const ROOT = process.env.CLAUDE_PLUGIN_ROOT;
import(`${ROOT}/lib/state.js`).then(async (S) => {
const [dir, docPath] = process.argv.slice(1);
await S.withWriterLock(dir, () => {
const st = S.readState(dir) || {};
S.writeState(dir, { ...st, design_doc: docPath, spec_mode: "human" });
});
console.log("bound", docPath);
});
' ".soe/tracks/<id>" "<design-doc-path>"
Then hand off to /go: /go sees the bound design_doc, skips re-brainstorm,
and dispatches soe:soe-orchestrator to run PLAN → EVALUATE_PLAN → EXECUTE → EVALUATE_EXEC → COMPLETE. Workspace setup (worktree vs branch) and planning
are owned by the loop — the orchestrator's PLAN phase runs soe:writing-plans
via soe:loop-planner.
Standalone brainstorm (no soe track / not invoked by an entry command): ask workspace preference:
How would you like to set up the workspace?
1. Create an isolated worktree (recommended for larger features)
2. Work directly on a new branch
If option 2 (Revise):
If option 3 (Save & exit):
<path>. You can resume implementation later by resuming with the soe:writing-plans skill and this design doc."If option 4 (Discard & start fresh):
A browser-based companion for showing mockups, diagrams, and visual options during brainstorming. Available as a tool — not a mode. Accepting the companion means it's available for questions that benefit from visual treatment; it does NOT mean every question goes through the browser.
Offering the companion (just-in-time): Do NOT offer it upfront. Wait until a question would genuinely be clearer shown than told — a real mockup / layout / diagram question, not merely a UI topic. The first time that happens, offer it then, as its own message:
"This next part might be easier if I show you — I can put together mockups, diagrams, and comparisons in a browser tab as we go. It's still new and can be token-intensive. Want me to? I'll open it for you."
This offer MUST be its own message. Only the offer — no clarifying question, summary, or other content. Wait for the user's response. If they accept, start the server with --open so their browser opens to the first screen automatically. If they decline, continue text-only and don't offer again unless they raise it.
Per-question decision: Even after the user accepts, decide FOR EACH QUESTION whether to use the browser or the terminal. The test: would the user understand this better by seeing it than reading it?
A question about a UI topic is not automatically a visual question. "What does personality mean in this context?" is a conceptual question — use the terminal. "Which wizard layout works better?" is a visual question — use the browser.
If they agree to the companion, read the detailed guide before proceeding:
skills/brainstorming/visual-companion.md
npx claudepluginhub faisalalqarni/soe --plugin soeCreates structured, bite-sized implementation plans from specs or requirements before writing code. Useful for breaking down multi-step tasks into testable steps with file structure and task boundaries.