eval-harness

Formal evaluation framework for Claude Code sessions implementing eval-driven development (EDD) principles

8 stars

Best use case

eval-harness is best used when you need a repeatable AI agent workflow instead of a one-off prompt.

Formal evaluation framework for Claude Code sessions implementing eval-driven development (EDD) principles

Teams using eval-harness should expect a more consistent output, faster repeated execution, less prompt rewriting.

When to use this skill

  • You want a reusable workflow that can be run more than once with consistent structure.

When not to use this skill

  • You only need a quick one-off answer and do not need a reusable workflow.
  • You cannot install or maintain the underlying files, dependencies, or repository context.

Installation

Claude Code / Cursor / Codex

$curl -o ~/.claude/skills/eval-harness/SKILL.md --create-dirs "https://raw.githubusercontent.com/marvinrichter/clarc/main/.agents/skills/eval-harness/SKILL.md"

Manual Installation

  1. Download SKILL.md from GitHub
  2. Place it in .claude/skills/eval-harness/SKILL.md inside your project
  3. Restart your AI agent — it will auto-discover the skill

How eval-harness Compares

Feature / Agenteval-harnessStandard Approach
Platform SupportNot specifiedLimited / Varies
Context Awareness High Baseline
Installation ComplexityUnknownN/A

Frequently Asked Questions

What does this skill do?

Formal evaluation framework for Claude Code sessions implementing eval-driven development (EDD) principles

Where can I find the source code?

You can find the source code on GitHub using the link provided at the top of the page.

SKILL.md Source

# Eval Harness Skill

A formal evaluation framework for Claude Code sessions, implementing eval-driven development (EDD) principles.

## When to Activate

- Setting up eval-driven development (EDD) for AI-assisted workflows
- Defining pass/fail criteria for Claude Code task completion
- Measuring agent reliability with pass@k metrics
- Creating regression test suites for prompt or agent changes
- Benchmarking agent performance across model versions

## Philosophy

Eval-Driven Development treats evals as the "unit tests of AI development":
- Define expected behavior BEFORE implementation
- Run evals continuously during development
- Track regressions with each change
- Use pass@k metrics for reliability measurement

## Eval Types

### Capability Evals
Test if Claude can do something it couldn't before:
```markdown
[CAPABILITY EVAL: feature-name]
Task: Description of what Claude should accomplish
Success Criteria:
  - [ ] Criterion 1
  - [ ] Criterion 2
  - [ ] Criterion 3
Expected Output: Description of expected result
```

### Regression Evals
Ensure changes don't break existing functionality:
```markdown
[REGRESSION EVAL: feature-name]
Baseline: SHA or checkpoint name
Tests:
  - existing-test-1: PASS/FAIL
  - existing-test-2: PASS/FAIL
  - existing-test-3: PASS/FAIL
Result: X/Y passed (previously Y/Y)
```

## Grader Types

### 1. Code-Based Grader
Deterministic checks using code:
```bash
# Check if file contains expected pattern
grep -q "export function handleAuth" src/auth.ts && echo "PASS" || echo "FAIL"

# Check if tests pass
npm test -- --testPathPattern="auth" && echo "PASS" || echo "FAIL"

# Check if build succeeds
npm run build && echo "PASS" || echo "FAIL"
```

### 2. Model-Based Grader
Use Claude to evaluate open-ended outputs:
```markdown
[MODEL GRADER PROMPT]
Evaluate the following code change:
1. Does it solve the stated problem?
2. Is it well-structured?
3. Are edge cases handled?
4. Is error handling appropriate?

Score: 1-5 (1=poor, 5=excellent)
Reasoning: [explanation]
```

### 3. Human Grader
Flag for manual review:
```markdown
[HUMAN REVIEW REQUIRED]
Change: Description of what changed
Reason: Why human review is needed
Risk Level: LOW/MEDIUM/HIGH
```

## Metrics

### pass@k
"At least one success in k attempts"
- pass@1: First attempt success rate
- pass@3: Success within 3 attempts
- Typical target: pass@3 > 90%

### pass^k
"All k trials succeed"
- Higher bar for reliability
- pass^3: 3 consecutive successes
- Use for critical paths

## Eval Workflow

### 1. Define (Before Coding)
```markdown
## EVAL DEFINITION: feature-xyz

### Capability Evals
1. Can create new user account
2. Can validate email format
3. Can hash password securely

### Regression Evals
1. Existing login still works
2. Session management unchanged
3. Logout flow intact

### Success Metrics
- pass@3 > 90% for capability evals
- pass^3 = 100% for regression evals
```

### 2. Implement
Write code to pass the defined evals.

### 3. Evaluate
```bash
# Run capability evals
[Run each capability eval, record PASS/FAIL]

# Run regression evals
npm test -- --testPathPattern="existing"

# Generate report
```

### 4. Report
```markdown
EVAL REPORT: feature-xyz
========================

Capability Evals:
  create-user:     PASS (pass@1)
  validate-email:  PASS (pass@2)
  hash-password:   PASS (pass@1)
  Overall:         3/3 passed

Regression Evals:
  login-flow:      PASS
  session-mgmt:    PASS
  logout-flow:     PASS
  Overall:         3/3 passed

Metrics:
  pass@1: 67% (2/3)
  pass@3: 100% (3/3)

Status: READY FOR REVIEW
```

## Integration Patterns

### Pre-Implementation
```
/eval define feature-name
```
Creates eval definition file at `.claude/evals/feature-name.md`

### During Implementation
```
/eval check feature-name
```
Runs current evals and reports status

### Post-Implementation
```
/eval report feature-name
```
Generates full eval report

## Eval Storage

Store evals in project:
```
.claude/
  evals/
    feature-xyz.md      # Eval definition
    feature-xyz.log     # Eval run history
    baseline.json       # Regression baselines
```

## Best Practices

1. **Define evals BEFORE coding** - Forces clear thinking about success criteria
2. **Run evals frequently** - Catch regressions early
3. **Track pass@k over time** - Monitor reliability trends
4. **Use code graders when possible** - Deterministic > probabilistic
5. **Human review for security** - Never fully automate security checks
6. **Keep evals fast** - Slow evals don't get run
7. **Version evals with code** - Evals are first-class artifacts

## Example: Adding Authentication

```markdown
## EVAL: add-authentication

### Phase 1: Define (10 min)
Capability Evals:
- [ ] User can register with email/password
- [ ] User can login with valid credentials
- [ ] Invalid credentials rejected with proper error
- [ ] Sessions persist across page reloads
- [ ] Logout clears session

Regression Evals:
- [ ] Public routes still accessible
- [ ] API responses unchanged
- [ ] Database schema compatible

### Phase 2: Implement (varies)
[Write code]

### Phase 3: Evaluate
Run: /eval check add-authentication

### Phase 4: Report
EVAL REPORT: add-authentication
==============================
Capability: 5/5 passed (pass@3: 100%)
Regression: 3/3 passed (pass^3: 100%)
Status: SHIP IT
```

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