| name | skill-team-implement |
| description | Orchestrate multi-agent implementation with parallel phase execution. Spawns teammates for independent phases and coordinates dependent phases. Includes debugger teammate for error recovery. |
| allowed-tools | Agent, Bash, Edit, Read, Write, Glob |
Team Implement Skill
Multi-agent implementation with wave-based phase parallelization. Analyzes phase dependencies to identify parallelization opportunities, spawns teammates for independent phases, and coordinates sequential execution of dependent phases.
IMPORTANT: This skill requires CLAUDE_CODE_EXPERIMENTAL_AGENT_TEAMS=1 environment variable. If team creation fails, gracefully degrades to single-agent implementation via skill-implementer.
Context References
Reference (load as needed during coordination):
- Path:
.claude/context/patterns/team-orchestration.md - Wave coordination patterns
- Path:
.claude/context/formats/team-metadata-extension.md - Team result schema
- Path:
.claude/context/formats/return-metadata-file.md - Base metadata schema
- Path:
.claude/context/reference/team-wave-helpers.md - Reusable wave patterns
Trigger Conditions
This skill activates when:
/implement N --team is invoked
- Task exists and has implementation plan
- Team mode is requested via --team flag
Input Parameters
| Parameter | Type | Required | Description |
|---|
task_number | integer | Yes | Task to implement |
plan_path | string | Yes | Path to implementation plan |
resume_phase | integer | No | Phase to resume from |
team_size | integer | No | Max concurrent teammates (2-4, default 2) |
session_id | string | Yes | Session ID for tracking |
model_flag | string | No | Model override (haiku, sonnet, opus). If set, use instead of default |
effort_flag | string | No | Effort level (fast, hard). Passed as prompt context |
Model Selection: Determine teammate model early:
teammate_model="${model_flag:-sonnet}"
model_preference_line="Model preference: Use Claude ${teammate_model^} for this task."
Execution Flow
Stage 1: Input Validation
Validate required inputs:
task_number - Must exist in state.json
plan_path - Must exist and contain phases
team_size - Clamp to range [2, 4], default 2
task_data=$(jq -r --argjson num "$task_number" \
'.active_projects[] | select(.project_number == $num)' \
specs/state.json)
if [ -z "$task_data" ]; then
return error "Task $task_number not found"
fi
task_type=$(echo "$task_data" | jq -r '.task_type // "general"')
status=$(echo "$task_data" | jq -r '.status')
project_name=$(echo "$task_data" | jq -r '.project_name')
if [ ! -f "$plan_path" ]; then
return error "Plan not found: $plan_path"
fi
team_size=${team_size:-2}
[ "$team_size" -lt 2 ] && team_size=2
[ "$team_size" -gt 4 ] && team_size=4
Stage 2: Preflight Status Update
Update task status to "implementing" BEFORE spawning teammates.
Update state.json:
jq --arg ts "$(date -u +%Y-%m-%dT%H:%M:%SZ)" \
--arg status "implementing" \
--arg sid "$session_id" \
'(.active_projects[] | select(.project_number == '$task_number')) |= . + {
status: $status,
last_updated: $ts,
session_id: $sid
}' specs/state.json > specs/tmp/state.json && mv specs/tmp/state.json specs/state.json
Update TODO.md: Change status marker to [IMPLEMENTING].
Stage 3: Create Postflight Marker
Create marker file to prevent premature termination:
padded_num=$(printf "%03d" "$task_number")
mkdir -p "specs/${padded_num}_${project_name}"
cat > "specs/${padded_num}_${project_name}/.postflight-pending" << EOF
{
"session_id": "${session_id}",
"skill": "skill-team-implement",
"task_number": ${task_number},
"operation": "team-implement",
"team_size": ${team_size},
"reason": "Team implementation in progress: phase coordination, status update, git commit pending"
}
EOF
Stage 4: Check Team Mode Availability
Verify Agent Teams feature is available:
if [ "$CLAUDE_CODE_EXPERIMENTAL_AGENT_TEAMS" != "1" ]; then
echo "Warning: Team mode unavailable, falling back to single agent"
fi
Stage 4a: Fallback to Single Agent
If team mode is unavailable:
- Log warning about degradation
- Invoke
skill-implementer via Skill tool
- Pass original parameters
- Add
degraded_to_single: true to metadata
- Continue with postflight
Stage 4b: Calculate Artifact Number
Read next_artifact_number from state.json and use (current-1) since summary stays in the same round as research/plan:
next_num=$(jq -r --argjson num "$task_number" \
'.active_projects[] | select(.project_number == $num) | .next_artifact_number // 1' \
specs/state.json)
if [ "$next_num" -le 1 ]; then
artifact_number=1
else
artifact_number=$((next_num - 1))
fi
if [ "$next_num" = "null" ] || [ -z "$next_num" ]; then
padded_num=$(printf "%03d" "$task_number")
count=$(ls "specs/${padded_num}_${project_name}/summaries/"*[0-9][0-9]*.md 2>/dev/null | wc -l)
artifact_number=$((count + 1))
fi
run_padded=$(printf "%02d" "$artifact_number")
Note: Team implement does NOT increment next_artifact_number. Only research advances the sequence.
Stage 5: Analyze Phase Dependencies
Parse implementation plan to identify parallelization opportunities. Prefer explicit dependency data from the plan; fall back to heuristic inference for older plans.
Primary: Explicit dependencies (plans with **Depends on**: fields per phase):
dependency_graph = {}
has_explicit_deps = false
for phase in phases:
depends_on_field = parse_field(phase, "Depends on")
if depends_on_field is not None:
has_explicit_deps = true
if depends_on_field == "none":
deps = []
else:
deps = [int(x.strip()) for x in depends_on_field.split(",")]
dependency_graph[phase.number] = {
"status": phase.status,
"depends_on": deps
}
Fallback: Heuristic inference (plans without explicit dependency fields):
if not has_explicit_deps:
dependency_graph = {}
for phase in phases:
dependency_graph[phase.number] = {
"status": phase.status,
"depends_on": infer_from_file_overlap(phase, phases),
"files": phase.files_modified
}
Heuristic signals (fallback only):
- Implicit dependencies from file modifications (phases modifying same files are dependent)
- Cross-phase imports or references
CRITICAL: Plan-Text-Only Analysis -- Stage 5 analyzes dependencies using file paths and phase descriptions extracted from the plan text. The lead agent MUST NOT read, grep, or glob source files to infer dependencies. All signals come from parsing the plan document itself. Actual source file reading is the exclusive responsibility of phase implementer sub-agents.
Stage 6: Calculate Implementation Waves
Primary: Read wave table from plan (plans with **Dependency Analysis** table):
# Parse the Dependency Analysis table from the plan
# Format: | Wave | Phases | Blocked by |
waves = parse_dependency_analysis_table(plan)
if waves is not empty:
# Use pre-computed wave groupings directly
# Example parsed result:
# Wave 1: [1] (blocked by: --)
# Wave 2: [2, 3] (blocked by: 1)
# Wave 3: [4] (blocked by: 2, 3)
Fallback: Compute from dependency graph (plans without wave table):
if waves is empty:
# Topological grouping from dependency_graph (Stage 5 output)
Wave 1: Phases with no unfinished dependencies
Wave 2: Phases depending on Wave 1
Wave 3: Phases depending on Wave 2
...
Example:
Phase 1, 2, 3: No dependencies -> Wave 1 (parallel)
Phase 4: Depends on 1, 2 -> Wave 2
Phase 5: Depends on 3 -> Wave 2
Phase 6: Depends on 4, 5 -> Wave 3
Stage 7: Spawn Phase Implementers
For each wave, spawn teammates for parallelizable phases (up to team_size):
CRITICAL: Template Population from Plan Text Only -- All template variables ({phase_details}, {files_list}, {steps_from_plan}, {verification_criteria}) MUST be populated by extracting text from the plan file. The lead agent MUST NOT read source files, run grep/glob, or use MCP tools to populate these fields. The sub-agent will read source files after it is spawned.
Phase Implementer Prompt Template:
Implement phase {P} of task {task_number}: {phase_name}
{model_preference_line}
## Plan Context
{phase_details from plan}
## Files to Modify
{files_list}
## Steps
{steps_from_plan}
## Verification
{verification_criteria}
## Instructions
1. Read existing files before modifying
2. Execute steps in order
3. Verify completion with criteria
4. Update phase status in plan file to [COMPLETED]
5. Write results to: specs/{NNN}_{SLUG}/phases/{RR}_phase-{P}-results.md
## On Error
If build/test fails:
1. Write error details to results file
2. Mark phase [PARTIAL] instead of [COMPLETED]
3. Return with error context for debugger
Stage 8: Wave Execution Loop
Execute waves sequentially, phases within wave in parallel. Detect Y-shaped
dependency patterns: when a single-phase "trunk" wave precedes a multi-phase
"branching" wave, execute the trunk with a single agent before spawning
parallel teammates for the branching waves.
# Y-shaped detection: classify each wave as trunk or branching
# A trunk wave has 1 phase and is followed by a wave with 2+ phases
for i, wave in enumerate(waves):
next_wave = waves[i+1] if i+1 < len(waves) else None
wave.is_trunk = (len(wave.phases) == 1 and
next_wave is not None and
len(next_wave.phases) > 1)
for wave in waves:
if wave.is_trunk:
# Trunk wave: execute single phase directly (no team spawning)
phase = wave.phases[0]
execute_phase_directly(phase) # single agent, no teammate overhead
mark_phase_complete(phase)
else:
# Branching or standard wave: spawn parallel teammates
active_teammates = []
for phase in wave.phases[:team_size]:
teammate = spawn_phase_implementer(phase)
active_teammates.append(teammate)
# Wait for wave completion
while not all_complete(active_teammates):
for teammate in active_teammates:
if teammate.complete():
result = teammate.result
if result.error:
# Spawn debugger for this phase
spawn_debugger(phase, result.error)
else:
mark_phase_complete(phase)
# Spawn additional teammates if slots available
remaining_phases = wave.phases[len(active_teammates):]
for phase in remaining_phases[:team_size - len(active)]:
spawn_phase_implementer(phase)
# Commit wave progress
git_commit_wave(wave)
Stage 9: Handle Phase Errors (Debugger Teammate)
When a phase implementer encounters an error:
Debugger Teammate Prompt:
Analyze and fix the error in task {task_number} phase {P}:
{model_preference_line}
## Error Details
{error_output}
## Phase Context
{phase_details}
## Files Involved
{files_list}
## Instructions
1. Analyze the error cause
2. Generate hypothesis
3. Attempt fix
4. Verify fix with build/test
5. If fixed: Mark phase [COMPLETED]
6. If not fixable: Document issue and mark [BLOCKED]
Output diagnosis to: specs/{NNN}_{SLUG}/debug/{RR}_phase-{P}-debug.md
Stage 10: Per-Wave Commits
After each wave completes, commit progress:
padded_num=$(printf "%03d" "$task_number")
git add \
"specs/${padded_num}_${project_name}/" \
"specs/TODO.md" \
"$plan_path"
git commit -m "task ${task_number}: complete wave ${wave_num} (phases ${phase_list})
Session: ${session_id}
Stage 11: Create Implementation Summary
After all waves complete, write summary:
# Implementation Summary: Task #{N}
**Completed**: {ISO_DATE}
**Mode**: Team Implementation ({team_size} max concurrent teammates)
**Duration**: {time}
## Wave Execution
### Wave 1
- Phase 1: {status} ({teammate})
- Phase 2: {status} ({teammate})
- Phase 3: {status} ({teammate})
### Wave 2
- Phase 4: {status} ({teammate})
- Phase 5: {status} ({teammate})
### Wave 3
- Phase 6: {status} ({teammate})
## Changes Made
{Summary of changes from all phases}
## Files Modified
- `path/to/file` - {change description}
## Verification
- Build: {Pass/Fail}
- Tests: {Pass/Fail/N/A}
## Team Metrics
| Metric | Value |
|--------|-------|
| Total phases | {N} |
| Waves executed | {N} |
| Max parallelism | {N} |
| Debugger invocations | {N} |
| Total teammates spawned | {N} |
## Notes
{Any issues, blockers, or follow-up items}
Output to: specs/{NNN}_{SLUG}/summaries/{RR}_implementation-summary.md
Stage 12: Update Status (Postflight)
Update task status to "completed":
Update state.json:
jq --arg ts "$(date -u +%Y-%m-%dT%H:%M:%SZ)" \
--arg status "completed" \
'(.active_projects[] | select(.project_number == '$task_number')) |= . + {
status: $status,
last_updated: $ts,
completed: $ts
}' specs/state.json > specs/tmp/state.json && mv specs/tmp/state.json specs/state.json
Update TODO.md: Change status marker to [COMPLETED].
Link artifact:
padded_num=$(printf "%03d" "$task_number")
jq --arg path "specs/${padded_num}_${project_name}/summaries/${run_padded}_implementation-summary.md" \
--arg type "summary" \
--arg summary "Team implementation with ${team_size} max concurrent teammates" \
'(.active_projects[] | select(.project_number == '$task_number')).artifacts += [{"path": $path, "type": $type, "summary": $summary}]' \
specs/state.json > specs/tmp/state.json && mv specs/tmp/state.json specs/state.json
Update TODO.md: Regenerate from state.json (state.json artifact update was done in the previous step):
bash .claude/scripts/generate-todo.sh || echo "WARNING: generate-todo.sh failed (non-fatal)" >&2
If the script exits non-zero, log a warning but continue (regeneration errors are non-blocking).
Stage 13: Write Metadata File
Write team execution metadata:
{
"status": "implemented",
"summary": "Team implementation completed with parallel phase execution",
"artifacts": [
{
"type": "summary",
"path": "specs/{NNN}_{SLUG}/summaries/{RR}_implementation-summary.md",
"summary": "Implementation summary with wave execution details"
}
],
"team_execution": {
"enabled": true,
"wave_count": {N},
"teammates_spawned": {total_count},
"max_parallelism": {team_size},
"debugger_invocations": {N},
"token_usage_multiplier": 5.0,
"degraded_to_single": false
},
"completion_data": {
"completion_summary": "Brief description of what was implemented"
},
"metadata": {
"session_id": "{session_id}",
"agent_type": "skill-team-implement",
"phases_completed": {N},
"phases_total": {N}
}
}
Stage 14: Final Git Commit
Final commit with summary:
padded_num=$(printf "%03d" "$task_number")
git add \
"specs/${padded_num}_${project_name}/summaries/" \
"specs/${padded_num}_${project_name}/.return-meta.json" \
"specs/TODO.md" \
"specs/state.json" \
"$plan_path"
git commit -m "task ${task_number}: complete team implementation
Session: ${session_id}
Stage 15: Cleanup
Remove marker and temporary files:
padded_num=$(printf "%03d" "$task_number")
rm -f "specs/${padded_num}_${project_name}/.postflight-pending"
rm -f "specs/${padded_num}_${project_name}/.return-meta.json"
Stage 16: Return Summary
Return brief text summary:
Team implementation completed for task {N}:
- Executed {wave_count} waves with up to {team_size} parallel teammates
- Wave 1: Phases 1, 2, 3 (parallel)
- Wave 2: Phases 4, 5 (parallel, after Wave 1)
- Wave 3: Phase 6 (sequential)
- {debugger_count} debugger invocations for error recovery
- All {phase_count} phases completed
- Summary at specs/{NNN}_{SLUG}/summaries/{RR}_implementation-summary.md
- Status updated to [COMPLETED]
Error Handling
Team Creation Failure
- Fall back to skill-implementer
- Mark
degraded_to_single: true
- Continue with single-agent implementation
Phase Timeout
- Mark phase [PARTIAL]
- Continue with remaining phases if independent
- Log timeout in summary
Build/Test Failure
- Spawn debugger teammate
- If debugger succeeds: Continue
- If debugger fails: Mark [BLOCKED], continue with independent phases
All Phases Blocked
- Return partial status
- Document blocking issues
- User can resolve and re-run
Git Commit Failure
- Non-blocking: log and continue
- Return success with warning
Return Format
Brief text summary (NOT JSON):
Team implementation completed for task 412:
- Executed 3 waves with up to 2 parallel teammates
- Wave 1: Phases 1, 2 completed in parallel
- Wave 2: Phase 3, 4 completed in parallel
- Wave 3: Phase 5, 6 completed in parallel
- 1 debugger invocation for build error (resolved)
- All 6 phases completed
- Summary at specs/412_task_name/summaries/01_implementation-summary.md
- Status updated to [COMPLETED]
- Changes committed with session sess_...
Partial Return
Team implementation partially completed for task 412:
- Executed 2 of 3 waves
- Wave 1: Phases 1, 2 completed
- Wave 2: Phase 3 [BLOCKED] (build error unresolved)
- Remaining: Phases 4, 5, 6 blocked by Phase 3
- Debugger attempted fix, see debug report
- Status remains [IMPLEMENTING]
- Run /implement 412 to resume after fixing Phase 3
MUST NOT (Postflight Boundary)
After teammates complete phase execution -- whether with status implemented, partial, or failed -- this skill MUST proceed immediately to postflight operations. The skill MUST NOT:
- Edit source files - All implementation work is done by teammates
- Run build/test commands - Verification is done by teammates
- Use MCP tools - Domain tools are for teammate use only
- Analyze or grep source - Analysis is teammate work
- Write summary/reports - Artifact creation is done by teammates
PROHIBITION: If a teammate returned partial or failed status, the lead skill MUST NOT attempt to continue, complete, or "fill in" the teammate's work. Report the partial/failed status and let the user re-run /implement to resume.
The postflight phase is LIMITED TO:
- Reading teammate metadata files
- Updating state.json via jq
- Updating TODO.md status marker via Edit
- Linking artifacts in state.json
- Git commit
- Cleanup of temp/marker files
Reference: @.claude/context/standards/postflight-tool-restrictions.md
MUST NOT (Pre-Delegation Boundary)
Before spawning phase implementer teammates, this skill MUST NOT:
- Read source files - Source files are read by sub-agents, not the lead
- Grep or glob the codebase - Codebase exploration is sub-agent work
- Use MCP tools - Domain tools (LSP, build, etc.) are for sub-agent use only
- Analyze source code - Code analysis belongs to phase implementers
- Run build or test commands - Verification is done by sub-agents
The pre-delegation phase is LIMITED TO:
- Reading the plan file to extract phases, dependencies, and template variables
- Reading state.json and TODO.md for status updates
- Parsing phase dependency graphs from plan text
- Populating prompt templates with plan-extracted content
- Spawning sub-agents with delegation context