بنقرة واحدة
skill-cslib-vet
Vet completed CSLib tasks against library standards. Invoke for /vet command.
التثبيت باستخدام Codex أو Claude انسخ هذا Prompt والصقه في Codex أو Claude أو مساعد آخر ليراجع صفحة Skill ويثبّتها لك.
القائمة
Vet completed CSLib tasks against library standards. Invoke for /vet command.
التثبيت باستخدام Codex أو Claude انسخ هذا Prompt والصقه في Codex أو Claude أو مساعد آخر ليراجع صفحة Skill ويثبّتها لك.
استنادا إلى تصنيف SOC المهني
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-cslib-vet |
| description | Vet completed CSLib tasks against library standards. Invoke for /vet command. |
| allowed-tools | Agent, AskUserQuestion, Bash, Edit, Read, Write |
Thin wrapper that validates CSLib task inputs, identifies changed Lean files via git history,
prepares delegation context, and delegates vetting to cslib-vet-agent subagent. The agent
reads changed files, runs the CI pipeline, checks against all four standards documents, and
creates fix tasks interactively.
This skill activates when:
/vet command is invoked with task numbersValidate that task numbers exist in state.json:
cd /home/benjamin/Projects/cslib
for task_num in $TASK_NUMBERS; do
task_entry=$(jq --argjson num "$task_num" \
'.active_projects[] | select(.project_number == $num)' \
specs/state.json 2>/dev/null)
if [ -z "$task_entry" ]; then
echo "Error: Task $task_num not found in specs/state.json"
# Return failed status
fi
task_name=$(echo "$task_entry" | jq -r '.project_name')
task_type=$(echo "$task_entry" | jq -r '.task_type')
task_status=$(echo "$task_entry" | jq -r '.status')
echo "Task $task_num: $task_name (type=$task_type, status=$task_status)"
done
Generate a session ID if not passed from the command:
session_id="${session_id:-sess_$(date +%s)_$(od -An -N3 -tx1 /dev/urandom | tr -d ' ')}"
Note: The vet skill does NOT change task status. Vetting is orthogonal to the task
lifecycle (not_started -> researching -> researched -> planned -> implementing
-> pr_ready -> completed). Vet operates on tasks in ANY status.
For each task number, identify Lean files changed by that task using git history:
cd /home/benjamin/Projects/cslib
CHANGED_FILES_MAP="{}"
for task_num in $TASK_NUMBERS; do
echo "Finding files changed by task $task_num..."
# Primary: git history via commit messages matching "task N:"
lean_files=$(git log --all --format="%H" --grep="task ${task_num}:" \
| xargs -I{} git show --name-only --format="" {} \
| grep "^Cslib/" \
| sort -u 2>/dev/null)
# Fallback: uncommitted changes if no commits found
if [ -z "$lean_files" ]; then
echo " No commits found for task $task_num — checking uncommitted changes..."
lean_files=$(git diff --name-only HEAD -- Cslib/ 2>/dev/null)
if [ -z "$lean_files" ]; then
lean_files=$(git diff --cached --name-only -- Cslib/ 2>/dev/null)
fi
if [ -z "$lean_files" ]; then
lean_files=$(git status --porcelain -- Cslib/ 2>/dev/null | awk '{print $2}' | grep "^Cslib/")
fi
fi
if [ -z "$lean_files" ]; then
echo " Warning: No Lean files found for task $task_num (no commits matching 'task ${task_num}:' and no uncommitted changes)."
else
file_count=$(echo "$lean_files" | grep -c "." 2>/dev/null || echo 0)
echo " Found $file_count Lean file(s) for task $task_num"
echo "$lean_files" | while read -r f; do
echo " - $f"
done
fi
# Store as newline-separated list per task
CHANGED_FILES_MAP="${CHANGED_FILES_MAP}|${task_num}:${lean_files}"
done
Build the delegation context for cslib-vet-agent:
{
"session_id": "{session_id}",
"delegation_depth": 1,
"delegation_path": ["orchestrator", "vet", "skill-cslib-vet"],
"timeout": 3600,
"task_context": {
"task_numbers": [{task_numbers_array}],
"task_names": [{task_names_array}],
"task_types": [{task_types_array}]
},
"changed_files": {
"{task_num_1}": ["{file_1}", "{file_2}"],
"{task_num_2}": ["{file_3}"]
},
"focus_prompt": "{optional focus from user}",
"cslib_dir": "/home/benjamin/Projects/cslib",
"standards_paths": {
"contributing": "CONTRIBUTING.md",
"notation": "NOTATION.md",
"organisation": "ORGANISATION.md",
"code_of_conduct": "CODE_OF_CONDUCT.md"
},
"metadata_file_path": "specs/270_create_vet_command_skill_agent/.return-meta.json"
}
Note on metadata_file_path: Use the actual task directory for the vetted tasks. For the
vet operation itself, the metadata path should be specs/{NNN}_{SLUG}/.return-meta.json where
NNN/SLUG refer to the vet invocation context (if any). Since /vet is a standalone command
(not tied to a specific task number), the agent writes metadata to the cslib-vet-agent's own
working directory. The skill should set this to a temp path under .claude/tmp/ or use the
first task's directory:
# Use the first task's directory as the metadata home for this vet run
first_task_num=$(echo "$TASK_NUMBERS" | awk '{print $1}')
task_name=$(jq -r --argjson num "$first_task_num" \
'.active_projects[] | select(.project_number == $num) | .project_name' \
/home/benjamin/Projects/cslib/specs/state.json)
task_num_padded=$(printf '%03d' "$first_task_num")
task_dir="/home/benjamin/Projects/cslib/specs/${task_num_padded}_${task_name}"
mkdir -p "$task_dir"
metadata_file_path="specs/${task_num_padded}_${task_name}/.vet-meta.json"
Use Agent tool with subagent_type: "cslib-vet-agent" and pass the delegation context
as a JSON string in the prompt. The agent will:
CRITICAL: If you performed the work above WITHOUT using the Agent tool (i.e., you read
files, analyzed violations, or created tasks directly instead of spawning a subagent), you
MUST write a .return-meta.json file now before proceeding to postflight. Use the appropriate
status value.
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 done by a subagent or inline. Do NOT skip these stages for any reason.
Read the metadata and findings files from the paths set in Stage 3:
if [ -f "$task_dir/.vet-meta.json" ]; then
return_status=$(jq -r '.status' "$task_dir/.vet-meta.json" 2>/dev/null)
violations_found=$(jq -r '.violations_found // 0' "$task_dir/.vet-meta.json" 2>/dev/null)
files_analyzed=$(jq -r '.files_analyzed // 0' "$task_dir/.vet-meta.json" 2>/dev/null)
ci_passed=$(jq -r '.ci_passed // false' "$task_dir/.vet-meta.json" 2>/dev/null)
summary=$(jq -r '.summary // "Vet completed"' "$task_dir/.vet-meta.json" 2>/dev/null)
echo "Vet status: $return_status"
echo "Violations found: $violations_found"
else
echo "Warning: Metadata file not found at $task_dir/.vet-meta.json"
return_status="partial"
fi
Read the findings file written by the agent:
findings_file="$task_dir/.vet-findings.json"
if [ -f "$findings_file" ]; then
echo "Findings file found at $findings_file"
# Read using the Read tool for structured access
else
echo "Warning: Findings file not found — agent may have been interrupted"
# Skip interactive stages, go to Stage 9
fi
If no violations were found (violations_found == 0), display:
Vet complete: No violations found. CI pipeline PASSED.
Skip to Stage 9.
Use AskUserQuestion to present the categorized violations and let the user select which categories should become fix tasks.
First, display a summary of findings:
Vet Results for Task(s) {task_numbers}
=======================================
Files analyzed: {count}
CI pipeline: {PASSED/FAILED}
Violations Found: {total} total
Critical: {N}
High: {N}
Medium: {N}
Low: {N}
Then use AskUserQuestion with multiSelect: true. Build options dynamically from the
categories array in .vet-findings.json. Only include categories that have at least one
violation:
{
"question": "Which violation categories should become fix tasks?",
"header": "Fix",
"multiSelect": true,
"options": [
{
"label": "{category_name} ({severity}) -- {N} issue(s)",
"description": "{brief description of violations in this category}"
}
]
}
Always include a final option:
{
"label": "No fix tasks needed",
"description": "Accept current state without creating fix tasks"
}
If the user selects "No fix tasks needed" or selects nothing:
If the user selects one or more categories, IMMEDIATELY CONTINUE to Stage 7.
Read the suggested_fix_tasks from .vet-findings.json. Filter to only those whose violations
belong to user-selected categories. Present the proposed fix tasks:
Proposed Fix Tasks
==================
{N} fix task(s) will be created:
| # | Title | Type | Severity | Violations |
|---|-------|------|----------|------------|
| 1 | {task_1_title} | cslib | {severity} | {N} |
Use AskUserQuestion (single-select) for final confirmation:
{
"question": "Create these {N} fix task(s) in state.json?",
"header": "Confirm",
"multiSelect": false,
"options": [
{
"label": "Yes, create tasks",
"description": "Create {N} cslib fix task(s) and add to TODO.md"
},
{
"label": "Revise -- go back to selection",
"description": "Return to Stage 6 to modify which categories to fix"
},
{
"label": "Cancel -- no tasks",
"description": "Exit without creating any fix tasks"
}
]
}
For each confirmed fix task from the filtered suggested_fix_tasks, create an entry in
state.json:
cd /home/benjamin/Projects/cslib
now=$(date -u +%Y-%m-%dT%H:%M:%SZ)
# For each fix task:
next_num=$(jq '.next_project_number' specs/state.json)
jq \
--argjson next_num "$next_num" \
--arg slug "$slug" \
--arg title "$title" \
--arg desc "$description" \
--arg tt "cslib" \
--arg now "$now" \
'.next_project_number = ($next_num + 1) |
.active_projects = [{
project_number: $next_num,
project_name: $slug,
status: "not_started",
task_type: $tt,
title: $title,
description: $desc,
created: $now,
last_updated: $now,
next_artifact_number: 1,
artifacts: []
}] + .active_projects' \
specs/state.json > specs/state.json.tmp && mv specs/state.json.tmp specs/state.json
echo "Created fix task #$next_num: $title"
# After all tasks created:
bash .claude/scripts/generate-todo.sh
echo "TODO.md regenerated."
If any fix tasks were created, commit the state changes:
cd /home/benjamin/Projects/cslib
if git status --porcelain specs/state.json specs/TODO.md | grep -q .; then
git add specs/state.json specs/TODO.md
git commit -m "vet task(s) $TASK_NUMBERS: create fix tasks
Session: $session_id"
echo "Fix tasks committed."
else
echo "No state changes to commit (no fix tasks created)."
fi
Return a brief text summary (3-6 bullets):
After the agent returns, this skill MUST NOT:
The postflight phase is LIMITED TO:
Brief text summary (NOT JSON).