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skill-reviser
Thin wrapper that delegates plan revision to reviser-agent subagent. Invoke for /revise command.
Codex または Claude でインストール この Prompt をコピーして Codex、Claude、または他のアシスタントに貼り付けると、Skill ページを確認してインストールできます。
メニュー
Thin wrapper that delegates plan revision to reviser-agent subagent. Invoke for /revise command.
Codex または Claude でインストール この Prompt をコピーして Codex、Claude、または他のアシスタントに貼り付けると、Skill ページを確認してインストールできます。
SOC 職業分類に基づく
Orchestrate multi-agent implementation with parallel phase execution. Spawns teammates for independent phases and coordinates dependent phases. Includes debugger teammate for error recovery.
Orchestrate multi-agent planning with parallel plan generation. Spawns 2-3 teammates for diverse planning approaches and synthesizes into final plan with trade-off analysis.
Orchestrate multi-agent research with wave-based parallel execution. Spawns 2-4 teammates for diverse investigation angles and synthesizes findings.
Full structural hard-mode orchestration state machine with per-phase dispatch (H1), adversarial verification (H4), convergence policing (H6), territory contracts (H7), and churn detection (H5). Invoke for /orchestrate --hard.
Autonomous state machine that drives a task through its full lifecycle (research -> plan -> implement -> complete) without user confirmation between phases. Invoke for /orchestrate command.
Execute hard-mode implementation with anti-analysis contracts, per-phase dispatch, and territory-aware execution. Invoke for --hard implementation tasks.
| name | skill-reviser |
| description | Thin wrapper that delegates plan revision to reviser-agent subagent. Invoke for /revise command. |
| allowed-tools | Agent, Bash, Edit, Read, Write, Glob, Grep |
Thin wrapper that delegates plan revision to reviser-agent subagent.
IMPORTANT: This skill implements the skill-internal postflight pattern. After the subagent returns, this skill handles all postflight operations (status update, artifact linking, git commit) before returning. This eliminates the "continue" prompt issue between skill return and orchestrator.
Reference (do not load eagerly):
.claude/context/formats/return-metadata-file.md - Metadata file schema.claude/context/patterns/postflight-control.md - Marker file protocol.claude/context/patterns/file-metadata-exchange.md - File I/O helpers.claude/context/patterns/jq-escaping-workarounds.md - jq escaping patterns (Issue #1132).claude/context/formats/plan-format.md - Plan file format specificationNote: This skill is a thin wrapper with internal postflight. Context is loaded by the delegated agent.
This skill activates when:
/revise command is invokedValidate required inputs:
task_number - Must be provided and exist in state.json# Lookup task
task_data=$(jq -r --argjson num "$task_number" \
'.active_projects[] | select(.project_number == $num)' \
specs/state.json)
# Validate exists
if [ -z "$task_data" ]; then
return error "Task $task_number not found"
fi
# Extract fields
task_type=$(echo "$task_data" | jq -r '.task_type // "general"')
status=$(echo "$task_data" | jq -r '.status')
project_name=$(echo "$task_data" | jq -r '.project_name')
description=$(echo "$task_data" | jq -r '.description // ""')
No status-based ABORT rules. The skill works regardless of task status. Routing is determined by plan file existence, not status.
No intermediate "revising" status is needed for revision. The task transitions directly to "planned" on success (via postflight). Skip preflight status update.
Rationale: Unlike /plan which sets "planning" as an intermediate status, /revise is lightweight enough that an intermediate status adds no value. The postflight script handles the final status update.
Create the marker file to prevent premature termination:
# Ensure task directory exists
padded_num=$(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-reviser",
"task_number": ${task_number},
"operation": "revise",
"reason": "Postflight pending: status update, artifact linking, git commit",
"created": "$(date -u +%Y-%m-%dT%H:%M:%SZ)",
"stop_hook_active": false
}
EOF
Read next_artifact_number from state.json. Revision uses the current counter directly (not current-1), since each revision is a new planning attempt that advances the sequence.
# Read next_artifact_number from state.json
next_num=$(jq -r --argjson num "$task_number" \
'.active_projects[] | select(.project_number == $num) | .next_artifact_number // 1' \
specs/state.json)
# Fallback for legacy tasks: count existing plan artifacts
if [ "$next_num" = "null" ] || [ -z "$next_num" ]; then
padded_num=$(printf "%03d" "$task_number")
count=$(ls "specs/${padded_num}_${project_name}/plans/"*[0-9][0-9]*.md 2>/dev/null | wc -l)
next_num=$((count + 1))
fi
# Revision uses the current counter directly (each revision is a new planning attempt)
artifact_number=$next_num
# Reconciliation: scan all task subdirs for max artifact number on disk
# Handles legacy tasks where next_artifact_number may be behind actual files
padded_num=$(printf "%03d" "$task_number")
max_on_disk=$(find "specs/${padded_num}_${project_name}" -name "[0-9][0-9]_*.md" 2>/dev/null \
| sed 's|.*/\([0-9][0-9]\)_.*|\1|' | sort -n | tail -1)
max_on_disk=${max_on_disk:-0}
# Strip leading zeros to avoid octal interpretation
max_on_disk=$((10#$max_on_disk))
if [ "$artifact_number" -le "$max_on_disk" ]; then
artifact_number=$((max_on_disk + 1))
fi
artifact_padded=$(printf "%02d" "$artifact_number")
# Collision check: ensure no existing file uses this prefix in plans/
while ls "specs/${padded_num}_${project_name}/plans/${artifact_padded}_"*.md 2>/dev/null | grep -q .; do
artifact_number=$((artifact_number + 1))
artifact_padded=$(printf "%02d" "$artifact_number")
done
Note: Revision increments next_artifact_number in postflight (Stage 8a), so each revision gets a unique, monotonically increasing number.
Discover existing plan and new research reports:
4a. Find existing plan:
padded_num=$(printf "%03d" "$task_number")
plan_dir="specs/${padded_num}_${project_name}/plans"
existing_plan=$(ls -1t "$plan_dir"/*.md 2>/dev/null | head -1)
4b. Find new research reports:
Use BOTH reports_integrated from state.json and file modification time comparison:
reports_dir="specs/${padded_num}_${project_name}/reports"
new_reports=()
if [ -n "$existing_plan" ]; then
plan_mtime=$(stat -c %Y "$existing_plan")
# Check reports_integrated from state.json (primary)
integrated=$(jq -r --argjson num "$task_number" \
'.active_projects[] | select(.project_number == $num) | .plan_metadata.reports_integrated // [] | .[]' \
specs/state.json 2>/dev/null)
for report in "$reports_dir"/*.md; do
if [ -f "$report" ]; then
report_basename=$(basename "$report")
# Check if already integrated
if echo "$integrated" | grep -qF "$report_basename"; then
continue
fi
# Fallback: check modification time
report_mtime=$(stat -c %Y "$report")
if [ "$report_mtime" -gt "$plan_mtime" ]; then
new_reports+=("$report")
fi
fi
done
else
# No plan exists -- all reports are "new"
for report in "$reports_dir"/*.md; do
if [ -f "$report" ]; then
new_reports+=("$report")
fi
done
fi
Read the plan format file and prepare it for injection into the subagent prompt. This ensures the subagent always has the full format specification in its context.
format_content=$(cat .claude/context/formats/plan-format.md)
The format content will be included as a delimited section in the Stage 5 prompt.
CRITICAL: You MUST use the Agent tool to spawn the subagent.
Prepare delegation context:
{
"session_id": "sess_{timestamp}_{random}",
"delegation_depth": 1,
"delegation_path": ["orchestrator", "revise", "skill-reviser"],
"timeout": 1800,
"task_context": {
"task_number": N,
"task_name": "{project_name}",
"description": "{description}",
"task_type": "{task_type}"
},
"artifact_number": "{artifact_padded from Stage 3a}",
"existing_plan_path": "{path to existing plan or null}",
"new_research_paths": ["{path to report1}", "{path to report2}"],
"revision_reason": "{optional user reason}",
"roadmap_path": "specs/ROADMAP.md",
"metadata_file_path": "specs/{NNN}_{SLUG}/.return-meta.json"
}
Required Tool Invocation:
Tool: Agent (NOT Skill, NOT Plan)
Parameters:
- subagent_type: "reviser-agent"
- prompt: [Include task_context, delegation_context, existing_plan_path, new_research_paths,
revision_reason, metadata_file_path,
AND the format specification from Stage 4b as shown below]
- description: "Execute plan revision for task {N}"
Format Injection: Include the format specification from Stage 4b in the prompt as a clearly-delimited section:
<artifact-format-specification>
## CRITICAL: Plan Format Requirements
You MUST follow this format specification exactly when writing the plan artifact.
Non-compliance will be caught by postflight validation.
{format_content from Stage 4b}
</artifact-format-specification>
Place this section AFTER the delegation context JSON and BEFORE any other instructions.
DO NOT use Skill(reviser-agent) - this will FAIL.
The subagent will:
specs/{NNN}_{SLUG}/.return-meta.jsonCRITICAL: If you performed the work above WITHOUT using the Agent tool (i.e., you read files,
wrote artifacts, or updated metadata directly instead of spawning a subagent), you MUST write a
.return-meta.json file now before proceeding to postflight. Use the schema from
return-metadata-file.md with the appropriate status value for this operation.
If you DID use the Agent tool, skip this stage -- the subagent already wrote the metadata.
The following stages MUST execute after work is complete, whether the work was done by a subagent or inline (Stage 5b). Do NOT skip these stages for any reason.
Read the metadata file:
metadata_file="specs/${padded_num}_${project_name}/.return-meta.json"
if [ -f "$metadata_file" ] && jq empty "$metadata_file" 2>/dev/null; then
status=$(jq -r '.status' "$metadata_file")
artifact_path=$(jq -r '.artifacts[0].path // ""' "$metadata_file")
artifact_type=$(jq -r '.artifacts[0].type // ""' "$metadata_file")
artifact_summary=$(jq -r '.artifacts[0].summary // ""' "$metadata_file")
new_description=$(jq -r '.metadata.new_description // ""' "$metadata_file")
else
echo "Error: Invalid or missing metadata file"
status="failed"
fi
If subagent status is "planned" and artifact_path is non-empty, validate the plan artifact against format requirements. This is non-blocking -- warnings are logged but do not prevent postflight from completing.
if [ "$status" = "planned" ] && [ -n "$artifact_path" ] && [ -f "$artifact_path" ]; then
echo "Validating plan artifact..."
if ! bash .claude/scripts/validate-artifact.sh "$artifact_path" plan --fix; then
echo "WARNING: Plan artifact has format issues (non-blocking). Review output above."
fi
fi
For Plan Revision (status == "planned"):
Update task status to "planned" using the centralized script:
bash .claude/scripts/update-task-status.sh postflight $task_number plan $session_id
If the script exits non-zero, log error but continue (status update is best-effort for revise).
For Description Update (status == "description_updated"):
Update state.json description and TODO.md directly:
jq --arg ts "$(date -u +%Y-%m-%dT%H:%M:%SZ)" --arg desc "$new_description" \
--argjson num "$task_number" \
'(.active_projects[] | select(.project_number == $num)) |= . + {
description: $desc,
last_updated: $ts
}' specs/state.json > specs/tmp/state.json && \
mv specs/tmp/state.json specs/state.json
Then call generate-todo.sh to regenerate TODO.md with the updated description:
bash .claude/scripts/generate-todo.sh
On partial/failed: Keep status unchanged (do not call the script).
Add the new plan artifact to state.json.
IMPORTANT: Use two-step jq pattern to avoid Issue #1132 escaping bug. See jq-escaping-workarounds.md.
if [ -n "$artifact_path" ]; then
# Step 1: Filter out existing plan artifacts (use "| not" pattern to avoid != escaping - Issue #1132)
jq --argjson num "$task_number" \
'(.active_projects[] | select(.project_number == $num)).artifacts =
[(.active_projects[] | select(.project_number == $num)).artifacts // [] | .[] | select(.type == "plan" | not)]' \
specs/state.json > specs/tmp/state.json && mv specs/tmp/state.json specs/state.json
# Step 2: Add new plan artifact
jq --argjson num "$task_number" \
--arg path "$artifact_path" \
'(.active_projects[] | select(.project_number == $num)).artifacts += [{"path": $path, "type": "plan"}]' \
specs/state.json > specs/tmp/state.json && mv specs/tmp/state.json specs/state.json
fi
Update TODO.md: Regenerate from state.json (state.json artifact update was done in the previous step):
bash .claude/scripts/generate-todo.sh || echo "WARNING: generate-todo.sh failed (non-fatal)" >&2
If the script exits non-zero, log a warning but continue (regeneration errors are non-blocking).
After linking the artifact, increment next_artifact_number so subsequent revisions get unique numbers:
if [ -n "$artifact_path" ]; then
jq --argjson num "$task_number" \
'(.active_projects[] | select(.project_number == $num)).next_artifact_number =
(((.active_projects[] | select(.project_number == $num)).next_artifact_number // 1) + 1)' \
specs/state.json > specs/tmp/state.json && mv specs/tmp/state.json specs/state.json
fi
Note: This is the key Bug 1 fix. Unlike plan (which reads current-1 and does NOT increment), revision reads the current counter, uses it, and increments it. This ensures each revision gets a unique, monotonically increasing artifact number.
Fire TTS and WezTerm tab coloring after artifact linking is complete:
lifecycle_script=".claude/scripts/lifecycle-notify.sh"
if [ -f "$lifecycle_script" ]; then
bash "$lifecycle_script" "$STATE_STATUS" &
fi
Non-blocking: called in background after artifacts are linked. Speaks "Tab N STATUS" (e.g., "Tab 3 planned") to announce the lifecycle transition.
For Plan Revision:
git add -A
git commit -m "$(cat <<'EOF'
task {N}: revise plan (v{NEW_VERSION})
Session: {session_id}
EOF
)"
For Description Update:
git add -A
git commit -m "$(cat <<'EOF'
task {N}: revise description
Session: {session_id}
EOF
)"
Commit failure is non-blocking (log and continue).
Remove marker and metadata files:
rm -f "specs/${padded_num}_${project_name}/.postflight-pending"
rm -f "specs/${padded_num}_${project_name}/.postflight-loop-guard"
rm -f "specs/${padded_num}_${project_name}/.return-meta.json"
Return a brief text summary (NOT JSON). Example:
Plan Revision:
Plan revised for task {N}:
- Preserved {X} completed phases, revised {Y} phases
- Integrated {Z} new research reports
- Created revised plan at specs/{NNN}_{SLUG}/plans/MM_{short-slug}.md
- Status updated to [PLANNED]
- Changes committed with session {session_id}
Description Update:
Description updated for task {N}:
- Previous: {old_description}
- New: {new_description}
- Status: [{current_status}] (unchanged)
- Changes committed with session {session_id}
Return immediately with error message if task not found.
If subagent didn't write metadata file:
Non-blocking: Log failure but continue with success response.
If jq commands fail with INVALID_CHARACTER or syntax error (Issue #1132):
Return partial status if subagent times out (default 1800s). Keep status unchanged for resume.
After the agent returns, this skill MUST NOT:
The postflight phase is LIMITED TO:
update-task-status.sh (handles state.json + TODO.md atomically)Reference: @.claude/context/standards/postflight-tool-restrictions.md
This skill returns a brief text summary (NOT JSON). The JSON metadata is written to the file and processed internally.