Files
ss-tools/.opencode/command/speckit.plan.md
busya a9a5eff518 fix(lint): apply QA-found gaps in agent instruction files
- python-coder.md: ruff check src/ tests/ → ruff check .
- speckit.test.md: add frontend npm run lint
- speckit.plan.md: ruff check . + frontend lint
- speckit.tasks.md: ruff check . + frontend lint
- fullstack-coder.md: move npm run lint to frontend block
2026-05-14 11:19:22 +03:00

137 lines
6.5 KiB
Markdown

---
description: Execute the implementation planning workflow for ss-tools (Python backend + Svelte frontend) and generate research, design, contracts, and quickstart artifacts.
handoffs:
- label: Create Tasks
agent: speckit.tasks
prompt: Break the plan into executable tasks for Python/Svelte implementation
send: true
- label: Create Checklist
agent: speckit.checklist
prompt: Create a requirements-quality checklist for the active feature
---
## User Input
```text
$ARGUMENTS
```
You **MUST** consider the user input before proceeding (if not empty).
## Outline
1. **Setup**: Run `.specify/scripts/bash/setup-plan.sh --json` from repo root and parse `FEATURE_SPEC`, `IMPL_PLAN`, `SPECS_DIR`, and `BRANCH`.
- `IMPL_PLAN` is the authoritative path for `plan.md` inside `specs/<feature>/`.
- Derive `FEATURE_DIR` from `IMPL_PLAN` and write every planning artifact there.
- Never treat `.kilo/plans/*` as workflow output for `/speckit.plan`.
2. **Load canonical planning context**:
- `README.md`
- `requirements.txt` (backend dependencies)
- `frontend/package.json` (frontend dependencies)
- `.specify/memory/constitution.md`
- `.opencode/skills/semantics-core/SKILL.md`
- `.opencode/skills/semantics-contracts/SKILL.md`
- `.opencode/skills/semantics-python/SKILL.md`
- `.opencode/skills/semantics-svelte/SKILL.md`
- `.opencode/skills/semantics-testing/SKILL.md`
- `.specify/templates/plan-template.md`
- relevant `docs/adr/*.md`
3. **Execute the planning workflow** using the template structure:
- Fill `Technical Context` for the current repository reality: Python 3.9+/FastAPI backend, SvelteKit 5/Tailwind frontend, PostgreSQL, Docker, semantic contracts, belief runtime.
- Fill `Constitution Check` using the local constitution.
- ERROR if a blocking constitutional or semantic conflict is discovered and cannot be justified.
- Phase 0: generate `research.md` in `FEATURE_DIR`, resolving all material unknowns.
- Phase 1: generate `data-model.md`, `contracts/modules.md`, optional machine-readable contract artifacts, and `quickstart.md` in `FEATURE_DIR`.
- Materialize blocking ADR references and planning decisions inside the plan and downstream contracts.
- Run `.specify/scripts/bash/update-agent-context.sh kilocode` after planning artifacts are written.
4. **Stop and report** after planning artifacts are complete. Report branch, `plan.md` path, generated artifacts, and blocking ADR/decision-memory outcomes.
## Phase 0: Research
Research must resolve only implementation-shaping unknowns that matter for this repository, such as:
- module placement under `backend/src/` or `frontend/src/`
- API endpoint design (REST routes, WebSocket channels)
- database schema changes (SQLAlchemy models, migrations)
- Svelte component hierarchy and store topology
- async task orchestration patterns
- test strategy (pytest + vitest) and required fixture coverage
- belief runtime instrumentation for C4/C5 flows
- semantic validation boundaries and static verification workflow
Write `research.md` with concise sections:
- Decision
- Rationale
- Alternatives Considered
- Impact On Contracts / Tasks
Use `[NEED_CONTEXT: target]` instead of inventing relation targets, DTO names, or module boundaries that cannot be grounded in repo context.
## Phase 1: Design, ADR Continuity, and Contracts
### UX / Interaction Validation
Validate the proposed design against `ux_reference.md` as an **interaction reference** for operators, API callers, CLI/operator flows, result envelopes, warnings, recovery guidance, and (when applicable) browser-based UI flows.
If the planned architecture degrades the promised interaction model, deterministic recovery path, or context-budget behavior, stop and warn the user.
### Data Model Output
Generate `data-model.md` for ss-tools domain entities such as:
- Pydantic request/response schemas
- SQLAlchemy models and relationships
- WebSocket message formats
- Task state transitions
- Git operation entities
- Plugin configuration schemas
- Frontend TypeScript types (when feature is fullstack)
### Global ADR Continuity
Before task decomposition, planning must identify any repo-shaping decisions this feature depends on or extends:
- Python module layout and decomposition
- FastAPI route organization
- SvelteKit routing and component hierarchy
- belief-state runtime behavior (JSON structured logging / console markers)
- semantic comment-anchor rules
- payload/schema stability decisions
For each durable choice, ensure the plan references the relevant ADR and explicitly records accepted and rejected paths.
### Contract Design Output
Generate `contracts/modules.md` as the primary design contract for implementation. Contracts must:
- use short semantic IDs
- classify each planned module/component with `@COMPLEXITY` 1-5
- use canonical relation syntax `@RELATION PREDICATE -> TARGET_ID`
- preserve accepted-path and rejected-path memory via `@RATIONALE` and `@REJECTED` where needed
- describe Python modules, FastAPI routes, Svelte components, stores, and services instead of inventing MCP/backend layers
Complexity guidance for this repository:
- **Complexity 1**: anchors only (DTOs, simple Pydantic schemas)
- **Complexity 2**: `@PURPOSE` (pure functions, utility helpers)
- **Complexity 3**: `@PURPOSE`, `@RELATION` (service modules, route handlers)
- **Complexity 4**: `@PURPOSE`, `@RELATION`, `@PRE`, `@POST`, `@SIDE_EFFECT`; orchestration paths should account for belief runtime markers before mutation or return
- **Complexity 5**: level 4 plus `@DATA_CONTRACT`, `@INVARIANT`, and explicit decision-memory continuity
If a planned contract depends on unknown schema, relation target, or ADR identity, emit `[NEED_CONTEXT: target]` instead of fabricating placeholders.
### Quickstart Output
Generate `quickstart.md` using real repository verification paths:
- Backend: `cd backend && source .venv/bin/activate && python -m pytest -v`
- Frontend: `cd frontend && npm run test`
- Lint: `cd backend && python -m ruff check .`
- Frontend lint: `cd frontend && npm run lint`
- Docker: `docker compose up --build`
## Key Rules
- Use absolute paths in workflow execution.
- Planning must reflect the current repository structure (`backend/src/**/*.py`, `frontend/src/**/*.svelte`, `backend/tests/`, `docs/adr/*`).
- Do not reference `.ai/*` or `.kilocode/*` paths (use `.opencode/` for skills).
- Do not write any feature planning artifact outside `specs/<feature>/...`.
- Do not hand off to `speckit.tasks` until blocking ADR continuity and rejected-path guardrails are explicit.