--- name: executing-plan description: Use to execute an implementation plan with automatic sequential/parallel orchestration - handles worktree verification, resume detection, phase dispatch, and quality verification --- # Executing Plans ## Overview This skill orchestrates the execution of implementation plans generated by the `decomposing-tasks` skill. It handles the complete lifecycle of plan execution including worktree verification, resume detection, phase-by-phase execution (sequential or parallel), quality verification, and final stack completion. ## When to Use Use this skill when: - Executing an implementation plan from `/spectacular:execute` - Resuming interrupted plan execution - Orchestrating multi-phase feature implementation **Announce:** "I'm using executing-plan to orchestrate implementation of the plan." ## Architecture The execute command uses an orchestrator-with-embedded-instructions architecture for cognitive load reduction: **Orchestrator Skills** (`executing-sequential-phase`, `executing-parallel-phase`) - Responsibilities: Setup, worktree management, dispatch coordination, code review orchestration - Size: ~464 lines (sequential), ~850 lines (parallel) - Dispatches: Task tool with embedded execution instructions (~150 lines per task) - Focus: Manages workflow lifecycle, embeds focused task instructions for subagents **Verification Skill** (`phase-task-verification`) - Responsibilities: Shared git operations (add, branch create, HEAD verify, detach) - Size: ~92 lines - Used by: Task subagents via Skill tool (both sequential and parallel) - Focus: Eliminates duplication of branch creation/verification logic **Cognitive Load Reduction:** - Original: 750-line monolithic skills (orchestration + task + verification mixed) - Current: Subagents receive ~150 lines of focused task execution instructions via Task tool - Benefit: 80% reduction in content subagents must parse (only see task instructions, not orchestration) - Verification: Shared 92-line skill eliminates duplication **Maintainability benefit:** Orchestrator features (resume support, enhanced error recovery, verification improvements) can be added without affecting task execution instructions. Subagents receive focused, consistent instructions while orchestrators handle workflow complexity. **Testing framework:** This plugin uses Test-Driven Development for workflow documentation. See `tests/README.md` and `CLAUDE.md` for the complete testing system. All changes to commands and skills must pass the test suite before committing. ## Available Skills **Skills are referenced on-demand when you encounter the relevant step. Do not pre-read all skills upfront.** **Phase Execution** (read when you encounter the phase type): - `executing-parallel-phase` - Mandatory workflow for parallel phases (Step 2) - `executing-sequential-phase` - Mandatory workflow for sequential phases (Step 2) **Support Skills** (read as needed when referenced): - `understanding-cross-phase-stacking` - Reference before starting any phase (explains base branch inheritance) - `validating-setup-commands` - Reference if CLAUDE.md setup validation needed (Step 1.5) - `using-git-spice` - Reference for git-spice command syntax (as needed) - `requesting-code-review` - Reference after each phase completes (Step 2) - `verification-before-completion` - Reference before claiming completion (Step 3) - `finishing-a-development-branch` - Reference after all phases complete (Step 4) - `troubleshooting-execute` - Reference if execution fails (error recovery) - `using-git-worktrees` - Reference if worktree issues occur (diagnostics) ## Multi-Repo Support ### Detecting Multi-Repo Mode At the start of execution, detect workspace mode: ```bash # Detect workspace mode REPO_COUNT=$(find . -maxdepth 2 -name ".git" -type d 2>/dev/null | wc -l | tr -d ' ') if [ "$REPO_COUNT" -gt 1 ]; then echo "Multi-repo workspace detected ($REPO_COUNT repos)" WORKSPACE_MODE="multi-repo" REPOS=$(find . -maxdepth 2 -name ".git" -type d | xargs -I{} dirname {} | sed 's|^\./||' | tr '\n' ' ') echo "Available repos: $REPOS" else echo "Single-repo mode" WORKSPACE_MODE="single-repo" fi ``` ### Multi-Repo Execution Differences | Aspect | Single-Repo | Multi-Repo | |--------|-------------|------------| | Worktree | `.worktrees/{runId}-main/` | Per-task: `{repo}/.worktrees/{runId}-task-X-Y/` | | Spec location | `specs/{runId}-{feature}/` | `./specs/{runId}-{feature}/` (workspace root) | | Setup commands | One CLAUDE.md | Per-repo CLAUDE.md | | Constitution | `@docs/constitutions/current/` | `@{repo}/docs/constitutions/current/` | | Git-spice stack | Single stack | Per-repo stacks | ### Passing Repo Context to Phase Skills When dispatching phase execution, include repo context: ```markdown **Multi-repo context for phase:** - WORKSPACE_MODE: multi-repo - WORKSPACE_ROOT: {absolute path} - Task repos: {list of repos with tasks in this phase} - Per-task repo: extracted from plan's `**Repo**: {repo}` field ``` ## The Process ### Input User will provide: `/spectacular:execute {plan-path}` Example: `/spectacular:execute @specs/a1b2c3-magic-link-auth/plan.md` Where `a1b2c3` is the runId and `magic-link-auth` is the feature slug. ### Step 0a: Extract Run ID from Plan **User provided plan path**: The user gave you a plan path like `.worktrees/3a00a7-main/specs/3a00a7-agent-standardization-refactor/plan.md` **Extract RUN_ID from the path:** The RUN_ID is the first segment of the spec directory name (before the first dash). For example: - Path: `.worktrees/3a00a7-main/specs/3a00a7-agent-standardization-refactor/plan.md` - Directory: `3a00a7-agent-standardization-refactor` - RUN_ID: `3a00a7` ```bash # Extract RUN_ID and FEATURE_SLUG from plan path (replace {the-plan-path-user-provided} with actual path) PLAN_PATH="{the-plan-path-user-provided}" DIR_NAME=$(echo "$PLAN_PATH" | sed 's|^.*specs/||; s|/plan.md$||') RUN_ID=$(echo "$DIR_NAME" | cut -d'-' -f1) FEATURE_SLUG=$(echo "$DIR_NAME" | cut -d'-' -f2-) echo "Extracted RUN_ID: $RUN_ID" echo "Extracted FEATURE_SLUG: $FEATURE_SLUG" # Verify RUN_ID and FEATURE_SLUG are not empty if [ -z "$RUN_ID" ]; then echo "Error: Could not extract RUN_ID from plan path: $PLAN_PATH" exit 1 fi if [ -z "$FEATURE_SLUG" ]; then echo "Error: Could not extract FEATURE_SLUG from plan path: $PLAN_PATH" exit 1 fi ``` **CRITICAL**: Execute this entire block as a single multi-line Bash tool call. The comment on the first line is REQUIRED - without it, command substitution `$(...)` causes parse errors. **Store RUN_ID and FEATURE_SLUG for use in:** - Branch naming: `{run-id}-task-X-Y-name` - Filtering: `git branch | grep "^ {run-id}-"` - Spec path: `specs/{run-id}-{feature-slug}/spec.md` - Cleanup: Identify which branches/specs belong to this run **Announce:** "Executing with RUN_ID: {run-id}, FEATURE_SLUG: {feature-slug}" ### Step 0b: Verify Worktree Exists **Multi-repo mode:** Skip worktree verification at orchestrator level. Each task will create its own worktree in its repo during phase execution. ```bash if [ "$WORKSPACE_MODE" = "multi-repo" ]; then echo "Multi-repo mode: Worktrees created per-task during execution" # Verify spec exists at workspace root if [ ! -f "specs/${RUN_ID}-${FEATURE_SLUG}/plan.md" ]; then echo "Error: Plan not found at specs/${RUN_ID}-${FEATURE_SLUG}/plan.md" exit 1 fi echo "Plan verified: specs/${RUN_ID}-${FEATURE_SLUG}/plan.md" fi ``` **Single-repo mode:** Continue with existing worktree verification. **After extracting RUN_ID, verify the worktree exists:** ```bash # Get absolute repo root (stay in main repo, don't cd into worktree) REPO_ROOT=$(git rev-parse --show-toplevel) # Verify worktree exists if [ ! -d "$REPO_ROOT/.worktrees/${RUN_ID}-main" ]; then echo "Error: Worktree not found at .worktrees/${RUN_ID}-main" echo "Run /spectacular:spec first to create the workspace." exit 1 fi # Verify it's a valid worktree git worktree list | grep "${RUN_ID}-main" ``` **IMPORTANT: Orchestrator stays in main repo. All worktree operations use `git -C .worktrees/{run-id}-main` or absolute paths.** **This ensures task worktrees are created at the same level as {run-id}-main, not nested inside it.** **Announce:** "Verified worktree exists: .worktrees/{run-id}-main/" ### Step 0c: Check for Existing Work **Check if implementation work already exists:** ```bash # Get repo root REPO_ROOT=$(git rev-parse --show-toplevel) # Check current branch in main worktree CURRENT_BRANCH=$(git -C "$REPO_ROOT/.worktrees/${RUN_ID}-main" branch --show-current 2>/dev/null || echo "") # Count existing task branches for this RUN_ID EXISTING_TASKS=$(git branch 2>/dev/null | grep -c "^ ${RUN_ID}-task-" || echo "0") # Report status if [ "$EXISTING_TASKS" -gt 0 ]; then echo "Found $EXISTING_TASKS existing task branch(es) for RUN_ID: $RUN_ID" echo " Current branch: $CURRENT_BRANCH" echo "" echo "Resuming from current state. The execution will:" echo "- Sequential phases: Continue from current branch" echo "- Parallel phases: Skip completed tasks, run remaining" echo "" else echo "No existing work found - starting fresh execution" echo "" fi ``` **CRITICAL**: Execute this entire block as a single multi-line Bash tool call. The comment on the first line is REQUIRED - without it, command substitution `$(...)` causes parse errors. **Resume behavior:** - If `EXISTING_TASKS > 0`: Execution continues from current state in main worktree - If `EXISTING_TASKS = 0`: Execution starts from Phase 1, Task 1 - Main worktree current branch indicates progress (latest completed work) **Note:** Orchestrator proceeds immediately to Step 1. Phase execution logic in Step 2 handles resume by checking current branch and existing task branches. ### Step 1: Read and Parse Plan Read the plan file and extract: - Feature name - All phases (with strategy: sequential or parallel) - All tasks within each phase **For each task, extract and format:** - Task ID and name - Files to modify (explicit paths) - Acceptance criteria (bullet points) - Dependencies (which tasks must complete first) **Store extracted task info for subagent prompts** (saves ~1000 tokens per subagent): ``` Task 4.2: Name: Integrate prompts module into generator Files: - src/generator.ts - src/types.ts Acceptance Criteria: - Import PromptService from prompts module - Replace manual prompt construction with PromptService.getCommitPrompt() - Update tests to mock PromptService - All tests pass Dependencies: Task 4.1 (fallback logic removed) ``` **Multi-repo plan parsing:** For multi-repo plans, also extract the `repo` field from each task: ``` Task 4.2: Name: Integrate prompts module into generator Repo: backend # NEW - required in multi-repo mode Files: - src/generator.ts - src/types.ts Acceptance Criteria: - Import PromptService from prompts module - Replace manual prompt construction with PromptService.getCommitPrompt() - Update tests to mock PromptService - All tests pass Dependencies: Task 4.1 (fallback logic removed) ``` Pass repo information to phase execution skills. Verify plan structure: - Has phases with clear strategies - All tasks have files specified - All tasks have acceptance criteria - Dependencies make sense ### Step 1.5: Validate Setup Commands (REQUIRED) **Use the `validating-setup-commands` skill:** This skill validates that CLAUDE.md defines required setup commands BEFORE creating worktrees. It provides clear error messages with examples if missing. The skill will extract and return: - `INSTALL_CMD` - Required dependency installation command - `POSTINSTALL_CMD` - Optional post-install command (codegen, etc.) Store these commands for use in dependency installation steps throughout execution. ### Step 1.6: Detect Project Commands (Optional) **Optionally detect project-specific quality check commands for subagents to use.** **This is optional - most projects define commands in CLAUDE.md that subagents can discover.** If you want to provide hints, check for common patterns: - **TypeScript/JavaScript**: `package.json` scripts - **Python**: `pytest`, `ruff`, `black` - **Go**: `go test`, `golangci-lint` - **Rust**: `cargo test`, `cargo clippy` **If detected, mention in subagent prompts:** - `TEST_CMD` - Command to run tests - `LINT_CMD` - Command to run linting - `FORMAT_CMD` - Command to format code - `BUILD_CMD` - Command to build project **If not detected, subagents will check CLAUDE.md or skip quality checks with warning.** **IMPORTANT: Do NOT read constitution files here. Let subagents read them as needed to reduce orchestrator token usage.** ### Step 1.7: Configure Code Review Frequency **Determine when to run code reviews:** ```bash # Check if REVIEW_FREQUENCY env var is set REVIEW_FREQUENCY=${REVIEW_FREQUENCY:-} ``` **If not set, prompt user for preference:** If `REVIEW_FREQUENCY` is empty, use AskUserQuestion tool to prompt: ``` Question: "How frequently should code reviews run during execution?" Header: "Review Frequency" Options: 1. "After each phase" Description: "Run code review after every phase completes (safest - catches errors early, prevents compounding issues)" 2. "Optimize automatically" Description: "Let Claude decide when to review based on phase risk/complexity (RECOMMENDED - balances speed and quality)" 3. "Only at end" Description: "Skip per-phase reviews, run one review after all phases complete (faster, but errors may compound)" 4. "Skip reviews" Description: "No automated code reviews (fastest, but requires manual review before merging)" ``` **Store user choice:** - Option 1 -> `REVIEW_FREQUENCY="per-phase"` - Option 2 -> `REVIEW_FREQUENCY="optimize"` - Option 3 -> `REVIEW_FREQUENCY="end-only"` - Option 4 -> `REVIEW_FREQUENCY="skip"` **Announce decision:** ``` Code review frequency: {REVIEW_FREQUENCY} ``` **Note:** This setting applies to all phases in this execution. Phase skills check `REVIEW_FREQUENCY` to determine whether to run code review step. ### Step 2: Execute Phases **If resuming:** Start from the incomplete phase/task identified in Step 0. For each phase in the plan, execute based on strategy: **Multi-repo phase execution:** When dispatching phase skills, include: - `WORKSPACE_MODE`: "multi-repo" or "single-repo" - `WORKSPACE_ROOT`: Absolute path to workspace - For each task: `TASK_REPO` field from plan Example dispatch context: ``` WORKSPACE_MODE: multi-repo WORKSPACE_ROOT: /home/user/workspace Phase 2 tasks: - Task 2.1: repo=backend - Task 2.2: repo=frontend - Task 2.3: repo=frontend ``` Phase skills use this to: - Create worktrees in the correct repo - Read CLAUDE.md from the task's repo - Read constitution from the task's repo **Code Review Gates:** Phase execution skills check `REVIEW_FREQUENCY` (set in Step 1.7) to determine when to run code reviews: - `per-phase`: Review after each phase before proceeding - `optimize`: LLM decides whether to review based on phase risk/complexity - `end-only`: Skip per-phase reviews, review once after all phases - `skip`: No automated reviews (manual review required) #### Cross-Phase Stacking **Use the `understanding-cross-phase-stacking` skill:** This skill explains how sequential and parallel phases automatically chain together through base branch inheritance. Key concepts: - Main worktree tracks progress (current branch = latest completed work) - Parallel phases inherit from current branch (not original base) - Natural chaining creates linear stack across all phases Read this skill before starting any new phase to understand how phases build on each other. #### Sequential Phase Strategy **Use the `executing-sequential-phase` skill:** This skill provides the complete workflow for executing sequential phases. Key concepts: - Execute tasks one-by-one in existing `{runid}-main` worktree - Trust natural git-spice stacking (no manual `gs upstack onto`) - Tasks build on each other cumulatively - Stay on task branches for automatic stacking The skill includes detailed subagent prompts, quality check sequences, and code review integration. **CRITICAL**: When dispatching subagents, substitute `{run-id}` and `{feature-slug}` with the values extracted in Step 0a. Subagents need these to read the spec at `specs/{run-id}-{feature-slug}/spec.md`. #### Parallel Phase Strategy **Use the `executing-parallel-phase` skill:** This skill provides the complete mandatory workflow for executing parallel phases. Key requirements: - Create isolated worktrees for EACH task (even N=1) - Install dependencies per worktree - Spawn parallel subagents in single message - Verify completion before stacking - Stack branches linearly, then cleanup worktrees - Code review after stacking The skill includes the 8-step mandatory sequence, verification checks, N=1 edge case handling, and stacking algorithm. **CRITICAL**: When dispatching subagents, substitute `{run-id}` and `{feature-slug}` with the values extracted in Step 0a. Subagents need these to read the spec at `specs/{run-id}-{feature-slug}/spec.md`. ### Step 3: Verify Completion After all phases execute successfully: **Use the `verification-before-completion` skill:** This skill enforces verification BEFORE claiming work is done. **Required verifications (if commands detected):** ```bash # Run full test suite if [ -n "$TEST_CMD" ]; then $TEST_CMD || { echo "Tests failed"; exit 1; } fi # Run linting if [ -n "$LINT_CMD" ]; then $LINT_CMD || { echo "Linting failed"; exit 1; } fi # Run production build if [ -n "$BUILD_CMD" ]; then $BUILD_CMD || { echo "Build failed"; exit 1; } fi # Verify all detected checks passed echo "All quality checks passed - ready to complete" ``` **If no commands detected:** ``` Warning: No test/lint/build commands found in project. Add to CLAUDE.md or constitution/testing.md for automated quality gates. Proceeding without verification - manual review recommended. ``` **Critical:** Evidence before assertions. Never claim "tests pass" without running them. ### Step 4: Finish Stack After verification passes: Use the `finishing-a-development-branch` skill to: 1. Review all changes 2. Choose next action: - Submit stack as PRs: `gs stack submit` (per using-git-spice skill) - Continue with dependent feature: `gs branch create` - Mark complete and sync: `gs repo sync` ### Step 5: Final Report **Multi-repo final report:** ```markdown Feature Implementation Complete **RUN_ID**: {run-id} **Feature**: {feature-name} **Workspace Mode**: multi-repo **Workspace Root**: {path} ## Per-Repo Summary | Repo | Tasks | Branches | Status | |------|-------|----------|--------| | backend | 4 | 4 | Complete | | frontend | 3 | 3 | Complete | | shared-lib | 1 | 1 | Complete | ## Branch Stacks (per-repo) **backend:** - {runId}-task-1-1-database - {runId}-task-2-1-api **frontend:** - {runId}-task-2-2-hook - {runId}-task-2-3-ui ## Next Steps ### Submit PRs (per-repo) ```bash cd backend && gs stack submit cd ../frontend && gs stack submit ``` ``` **Single-repo final report:** ```markdown Feature Implementation Complete **RUN_ID**: {run-id} **Feature**: {feature-name} **Worktree**: .worktrees/{run-id}-main/ **Stack**: {count} task branches (all stacked on {run-id}-main) ## Execution Summary **Phases Completed**: {count} - Sequential: {count} phases - Parallel: {count} phases **Tasks Completed**: {count} **Commits**: {count} **Isolation**: All work completed in worktree. Main repo unchanged. ## Parallelization Results {For each parallel phase:} **Phase {id}**: {task-count} tasks in parallel - Estimated sequential time: {hours}h - Actual parallel time: {hours}h - Time saved: {hours}h **Total Time Saved**: {hours}h ({percent}%) ## Quality Checks Quality checks are project-specific (detected from CLAUDE.md, constitution, or common patterns): - Tests passing (if `TEST_CMD` detected) - Linting clean (if `LINT_CMD` detected) - Formatting applied (if `FORMAT_CMD` detected) - Build successful (if `BUILD_CMD` detected) If no commands detected, quality gates are skipped with warning to user. - {total-commits} commits across {branch-count} task branches ## Next Steps ### Review Changes (from main repo) ```bash # All these commands work from main repo root gs log short # View all branches and commits in stack gs log long # Detailed view with commit messages git branch | grep "^ {run-id}-" # List all branches for this run # To see changes in worktree: cd .worktrees/{run-id}-main git diff main..HEAD # See all changes in current stack cd ../.. # Return to main repo ``` ### Submit for Review (from main repo) ```bash # git-spice commands work from main repo gs stack submit # Submits entire stack as PRs (per using-git-spice skill) ``` ### Or Continue with Dependent Feature (from worktree) ```bash cd .worktrees/{run-id}-main # Navigate to worktree gs branch create # Creates new branch stacked on current cd ../.. # Return to main repo when done ``` ### Cleanup Worktree (after PRs merged) ```bash # From main repo root: git worktree remove .worktrees/{run-id}-main # Optional: Delete the {run-id}-main branch git branch -d {run-id}-main ``` **Important**: Main repo remains unchanged. All work is in the worktree and task branches. ``` ## Error Handling **Use the `troubleshooting-execute` skill:** This skill provides comprehensive diagnostic and recovery strategies for execute command failures: - Phase execution failures (sequential and parallel) - Parallel agent failures with 4 recovery options - Merge conflicts during stacking - Worktree not found errors - Parallel task worktree creation failures The skill includes diagnostic commands, recovery strategies, and prevention guidelines. Consult this skill when execution fails or produces unexpected results. ## Important Notes - **Orchestrator delegates, never executes** - The orchestrator NEVER runs git commands directly. All git operations are delegated to subagents (setup, implementation, cleanup) - **Subagents own their git operations** - Implementation subagents create branches and commit their own work using `gs branch create -m` - **Skill-driven execution** - Uses using-git-spice, using-git-worktrees, and other superpowers skills - **Automatic orchestration** - Reads plan strategies, executes accordingly - **Git-spice stacking** - Sequential tasks stack linearly; parallel tasks branch from same base (per using-git-spice skill) - **No feature branch** - The stack of task branches IS the feature; never create empty branch upfront - **Worktree isolation** - Parallel tasks run in separate worktrees (per using-git-worktrees skill) - **Critical: HEAD detachment** - Parallel task subagents MUST detach HEAD after creating branches to make them accessible in parent repo - **Context management** - Each task runs in isolated subagent to avoid token bloat - **Constitution adherence** - All agents follow project constitution (@docs/constitutions/current/) - **Quality gates** - Tests and linting after every task, code review after every phase - **Continuous commits** - Small, focused commits with [Task X.Y] markers throughout Now execute the plan from: {plan-path}