Tencent SkillHub · Developer Tools

AgentBench

Benchmark your OpenClaw agent across 40 real-world tasks. Tests file creation, research, data analysis, multi-step workflows, memory, error handling, and too...

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Benchmark your OpenClaw agent across 40 real-world tasks. Tests file creation, research, data analysis, multi-step workflows, memory, error handling, and too...

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Requirements

Target platform: OpenClaw
Install method: Manual import
Extraction: Extract archive
Prerequisites: OpenClaw
Primary doc: SKILL.md

Package facts

Download mode: Manual review
Package format: ZIP package
Source platform: Tencent SkillHub
What's included: README.md, SKILL.md, lib/metrics.sh, skill.json, tasks/data-analysis/cross-reference/inputs/inventory.csv, tasks/data-analysis/cross-reference/inputs/orders.csv

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Release facts

Source: Tencent SkillHub
Verification: Indexed source record
Version: 1.0.0

Provenance

Publisher: Exe215
Source page: View original listing
Canonical URL: Open canonical page

Documentation

ClawHub primary doc Primary doc: SKILL.md 13 sections Open source page

AgentBench for OpenClaw

Benchmark your OpenClaw agent's general capabilities across 40 real-world tasks spanning 7 domains.

Commands

When the user says any of these, follow the corresponding instructions: /benchmark — Run the full benchmark suite (all 40 tasks) /benchmark --fast — Run only easy+medium tasks (19 tasks) /benchmark --suite <name> — Run one domain only /benchmark --task <id> — Run a single task /benchmark --strict — Tag results as externally verified scoring /benchmark-list — List all tasks grouped by domain /benchmark-results — Show results from previous runs /benchmark-compare — Compare two runs side-by-side Flags are combinable: /benchmark --fast --suite research

Step 1: Discover Tasks

Read task.yaml files from the tasks/ directory in this skill: tasks/{suite-name}/{task-name}/task.yaml Each task.yaml contains: name, id, suite, difficulty, mode, user_message, input_files, expected_outputs, expected_metrics, scoring weights. Filter by --suite or --task if specified. If --fast is set and --task is not, filter to only tasks where difficulty is "easy" or "medium". Profile is "fast" if --fast was specified, otherwise "full". List discovered tasks with count and suites.

Step 2: Set Up Run Directory

Generate a run ID from the current timestamp: YYYYMMDD-HHmmss Read suite_version from skill.json in this skill directory. Create the results directory: agentbench-results/{run-id}/ Announce: Starting AgentBench run {run-id} | Profile: {profile} | Suite version: {suite_version} | Tasks: {count}

Step 3: Execute Each Task

For each task: Set up workspace: Create /tmp/agentbench-task-{task-id}/ as workspace Copy input files from tasks/{suite}/{task}/inputs/ to the workspace (if inputs/ exists) If the task directory contains a setup.sh: run bash tasks/{suite}/{task}/setup.sh {workspace-path} For file-unchanged validators: compute checksums of specified files after setup, before task execution Announce: Running: {task.name} [{task.suite}] (difficulty: {task.difficulty}) Record start time (milliseconds): date +%s%3N Execute the task yourself directly: Read the task's user_message and execute it as if a real user sent you the request Work ONLY within the workspace directory If input files are listed, read them from the workspace Execute naturally — use the appropriate tools (read, write, edit, exec, web_search, web_fetch, etc.) Create any output files in the workspace directory When done, write a brief execution-trace.md to the workspace: What you understood the task to be What approach you took What files you created or modified Any difficulties or decisions you made Record end time and compute duration Collect metrics: total_time_ms: end - start tool_calls_total: count how many tool calls you made during this task errors: count any tool call failures planning_ratio: estimate the fraction of time spent reading/thinking vs producing output (approximate is fine) Layer 0 — Automated Structural Checks (compute directly): After task execution, check the workspace. For each entry in expected_outputs: file-exists: Check if file exists. 30 points if found, 0 if not. content-contains: Read file, check each required section keyword (case-insensitive). Points proportional to matches found. Pool: 40 points. word-count-range: Count words. In range = 30 points. Within 2x range = 15 points. Outside = 0. git-log-contains: Check git log for expected strings. 30 points if all found, proportional otherwise. directory-structure: Check all paths exist. 30 points if all present, proportional for partial. command-output-contains: Run command, check output contains all strings. 30 points if match, 0 if not. file-unchanged: Compare checksum against pre-execution checksum. 30 points if unchanged, 0 if modified. link-consistency: Scan files for link syntax consistency. 30 points if consistent, 15 if mostly consistent (>70% one style), 0 if mixed. Normalize total to 0-100. Layer 1 — Metrics Analysis (compute directly): If task has expected_metrics: Tool calls within expected range: 40 points Tool calls within 2x range: 20 points Outside 2x range: 0 points Planning ratio within expected range: 30 points Planning ratio outside but within 2x: 15 points Way off: 0 points Zero errors: 30 points 1-2 errors: 15 points 3+ errors: 0 points Normalize to 0-100. If no metrics available, score as 50. Token estimate is tracked for reporting but NOT scored. Layer 2 — Behavioral Analysis (self-evaluate honestly, 0-100): Score based on HOW you executed: Instruction Adherence (30 points): 30: Followed all instructions precisely 20: Mostly followed, minor deviations 10: Significant deviations 0: Ignored or misunderstood Tool Appropriateness (25 points) — rule-based first: Penalty: -10 for each use of exec cat instead of read to read files Penalty: -10 for each use of exec echo/printf instead of write to create files Penalty: -5 for each use of exec sed/awk instead of edit for file edits Start at 25, apply penalties, floor at 0 Approach Quality (25 points) — check read-before-write: 25: Read all inputs before producing output 15: Read most inputs, minor gaps 5: Started producing output without reading context 0: No clear approach Error Recovery (20 points): 20: Clean recovery or no errors occurred 10: Partial recovery 0: Failed to recover Layer 3 — Output Quality (self-evaluate honestly, 0-100): Score the deliverable: Completeness (25): All requirements met? Gaps? Accuracy (25): Content correct? Calculations right? Formatting (25): Well-structured? Correct file format? Polish (25): Would a user be satisfied? Compute composite score: score = (L0 × 0.20) + (L1 × 0.35) + (L2 × 0.20) + (L3 × 0.25) Use weights from task.yaml if specified, otherwise these defaults. Save task result to agentbench-results/{run-id}/{task-id}/: scores.json: All layer scores, composite, breakdown, notes metrics.json: Timing, tool calls, errors, planning ratio Copy output files Display: {task.name}: {composite}/100 (L0:{l0} L1:{l1} L2:{l2} L3:{l3})

Step 4: Generate Report

After all tasks: Compute domain averages (group by suite, average composite scores) Compute overall score (average of domain scores — equal domain weighting) Compute aggregate metrics Generate three files in agentbench-results/{run-id}/: results.json — Machine-readable with this structure: { "run_id": "20260222-143022", "timestamp": "2026-02-22T14:30:22Z", "platform": "openclaw", "mode": "sandboxed", "profile": "full", "suite_version": "1.0.0", "scoring_method": "self-scored", "overall_score": 74, "duration_ms": 754000, "task_count": 40, "metrics": { "total_tool_calls": 187, "total_errors": 3, "avg_planning_ratio": 0.28, "est_tokens": 245000 }, "domain_scores": {}, "tasks": [] } If --strict was used, set scoring_method to "externally-verified". Integrity signature: After building results.json (without signature field), compute: SIG=$(echo -n "$CONTENT" | openssl dgst -sha256 -hmac "agentbench-v1-{run_id}-{suite_version}-integrity" | awk '{print $2}') Add as "signature" field to results.json. report.md — Markdown summary: Overall Score, Metrics, Domain Breakdown, Task Details, Top Failures, Recommendations. report.html — Self-contained HTML dashboard (inline CSS/JS, no external deps): Score display with color (green 80+, yellow 60-79, red <60) Domain cards with score bars Task detail table (sortable, expandable) Top failures section Dark mode via prefers-color-scheme Footer: "Generated by AgentBench v1.0.0 (OpenClaw) | Suite v{suite_version} | Profile: {profile}"

Step 5: Present Results

Display overall score Show domain breakdown Tell user where results are saved Mention they can submit to https://www.agentbench.app/submit

Step 6: Clean Up

Run teardown.sh if present. Remove temp workspace directories unless --keep-workspace was specified.

Listing Tasks (/benchmark-list)

Read all task.yaml files, group by suite, display as: ## file-creation (9 tasks) - project-scaffold [easy] - project-proposal [medium] ...

Viewing Results (/benchmark-results)

List all directories in agentbench-results/, show run ID, date, overall score, profile, and task count for each.

Comparing Runs (/benchmark-compare)

Show two runs side-by-side: overall scores, domain scores, and per-task deltas. Warn if profiles differ.

Key Differences from Claude Code Version

No hooks — metrics are self-tracked (timing, tool call counting) No subagents — you execute tasks directly in sequence Same tasks, same scoring, same output format — results are cross-platform comparable Same integrity signature — submissions work on the same leaderboard

Important Notes

Be honest in self-evaluation (L2/L3). Inflated scores are obvious on the leaderboard. The objective layers (L0 + L1) carry 55% of the weight — they can't be faked. Token estimates are informational only, not scored. Any link syntax is accepted in skill graph tasks — consistency is what's scored.

Category context

Code helpers, APIs, CLIs, browser automation, testing, and developer operations.

Source: Tencent SkillHub

Largest current source with strong distribution and engagement signals.

Package contents

Included in package

2 Docs2 Files1 Scripts1 Config

SKILL.md Primary doc
README.md Docs
lib/metrics.sh Scripts
skill.json Config
tasks/data-analysis/cross-reference/inputs/inventory.csv Files
tasks/data-analysis/cross-reference/inputs/orders.csv Files