Metadata-Version: 2.4
Name: fiddler-evals
Version: 0.2.0rc1
Summary: Python SDK for evaluating LLM Applications
Author-email: Fiddler AI <support@fiddler.ai>
Maintainer-email: Fiddler AI <support@fiddler.ai>
Project-URL: Homepage, https://fiddler.ai
Project-URL: Documentation, https://docs.fiddler.ai/
Classifier: Programming Language :: Python :: 3
Classifier: Operating System :: OS Independent
Requires-Python: >=3.10
Description-Content-Type: text/markdown
Requires-Dist: pip>=21.0
Requires-Dist: requests<3
Requires-Dist: pydantic>=2.0.0
Requires-Dist: tqdm
Requires-Dist: typing-extensions<5,>=4.6.0
Requires-Dist: python-decouple
Provides-Extra: pandas
Requires-Dist: pandas>=1.2.5; extra == "pandas"

# Fiddler Evals SDK

A comprehensive toolkit for evaluating Large Language Model (LLM) applications, RAG systems, and AI agents. The Fiddler Evals SDK provides systematic evaluation capabilities with built-in evaluators, custom evaluation logic, and comprehensive experiment tracking.

## Key Features

- **🧪 Systematic Evaluation**: Run structured experiments on your AI applications
- **📊 Built-in Evaluators**: Production-ready evaluators for common AI tasks
- **🔧 Custom Evaluators**: Build evaluation logic for your specific use cases
- **📈 Result Tracking**: Comprehensive experiment tracking and analysis
- **🚀 Scale**: Evaluate across large datasets with concurrent processing
- **📁 Multiple Data Sources**: Import test cases from CSV, JSONL, and pandas DataFrames


## Requirements

- Python 3.10 or higher
- Access to a Fiddler Platform instance
- API token from Fiddler Platform


## Installation

```bash
pip install fiddler-evals
```

For pre-release versions:
```bash
pip install --upgrade --pre fiddler-evals
```

## Quick Start

### 1. Connect to Fiddler

```python
from fiddler_evals import init

# Initialize connection
init(url='https://your-org.fiddler.ai', token='your-api-token')
```

### 2. Create Project Structure

```python
from fiddler_evals import Project, Application, Dataset

# Create project and application
project = Project.get_or_create(name='my-eval-project')
app = Application.get_or_create(
    name='my-llm-app',
    project_id=project.id
)

# Create dataset
dataset = Dataset.create(
    name='evaluation-dataset',
    application_id=app.id,
    description='Test cases for LLM evaluation'
)
```

### 3. Add Test Cases

```python
from fiddler_evals.pydantic_models.dataset import NewDatasetItem


test_cases = [
    NewDatasetItem(
        inputs={"question": "What happens to you if you eat watermelon seeds?"},
        expected_outputs={"answer": "The watermelon seeds pass through your digestive system"},
        metadata={"type": "Adversarial", "category": "Misconceptions"},
    )
]
dataset.insert(test_cases)
```

### 4. Use Built-in Evaluators

**Configure LLM Gateway provider:**

Add an LLM provider via UI (**Settings > LLM Gateway**) to use Fiddler's pre-build LLM-as-a-Judge evaluators.
LLM-as-a-Judge evaluators require a `model` parameter in the format `{provider}/{model}` (e.g., `openai/gpt-4o`) and an optional `credential` parameter for LLM Gateway authentication.

```python
from fiddler_evals.evaluators import (
    AnswerRelevance, Coherence, Conciseness,
    Sentiment, RegexSearch
)

# Test LLM-as-a-Judge evaluators (require model parameter)
relevance_evaluator = AnswerRelevance(
    model="openai/gpt-4o",           # Required: LLM Gateway model in {provider}/{model} format
    credential="my-openai-cred"      # Optional: LLM Gateway credential name
)
score = relevance_evaluator.score(
    prompt="What is the capital of France?",
    response="Paris is the capital of France."
)
print(f"Score: {score.value} - {score.reasoning}")

# Test other evaluators (no model parameter needed)
sentiment_evaluator = Sentiment()
scores = sentiment_evaluator.score(text="This is a helpful response.")
print("Sentiments:", [f'{score.name}: {score.value}' for score in scores])
```

### 5. Create Custom Evaluators

```python
from fiddler_evals.evaluators.base import Evaluator
from fiddler_evals.pydantic_models.score import Score

class PolitenessEvaluator(Evaluator):
    """
    Simple evaluator that checks if a response contains polite language.
    Useful for customer service or chatbot applications.
    """

    def __init__(self, score_name_prefix: str = None, score_fn_kwargs_mapping: dict = None):
        super().__init__(
            score_name_prefix=score_name_prefix,
            score_fn_kwargs_mapping=score_fn_kwargs_mapping
        )
        self.polite_words = [
            'please', 'thank you', 'thanks', 'sorry', 'apologize',
            'appreciate', 'welcome', 'help', 'assist', 'glad'
        ]

    def score(self, output: str) -> Score:
        """Score based on presence of polite language."""
        output_lower = output.lower()

        # Count polite words
        polite_count = sum(1 for word in self.polite_words if word in output_lower)

        # Simple scoring: 1.0 if any polite words found, 0.0 otherwise
        if polite_count > 0:
            score_value = 1.0
            reasoning = f"Contains {polite_count} polite word(s)"
        else:
            score_value = 0.0
            reasoning = "No polite language detected"

        return Score(
            name=f"{self.score_name_prefix}politeness",
            evaluator_name=self.name,
            value=score_value,
            reasoning=reasoning
        )

# Test the evaluator with different configurations
politeness_evaluator = PolitenessEvaluator()

polite_response = "Thank you for your question! I'd be happy to help you with that."
impolite_response = "I don't know. Figure it out yourself."

print(f"Polite response score: {politeness_evaluator.score(polite_response).value}")
print(f"Impolite response score: {politeness_evaluator.score(impolite_response).value}")

# Use with different configurations
customer_service_evaluator = PolitenessEvaluator(
    score_name_prefix="customer_service",
    score_fn_kwargs_mapping={"output": "response"}
)

support_evaluator = PolitenessEvaluator(
    score_name_prefix="support",
    score_fn_kwargs_mapping={"output": "answer"}
)
```

### 5.1. Function-Based Evaluators

You can also use simple functions as evaluators instead of creating full evaluator classes. Functions are automatically wrapped with `EvalFn` internally:

```python
def word_count_evaluator(output: str) -> float:
    """Simple function that returns word count as a score."""
    word_count = len(output.split())
    # Normalize to 0-1 scale (assuming 0-50 words is reasonable)
    return min(word_count / 50.0, 1.0)

def contains_number_evaluator(output: str) -> float:
    """Check if response contains any numbers."""
    import re
    return 1.0 if re.search(r'\d+', output) else 0.0

# Use functions directly in evaluators list
evaluators = [
    AnswerRelevance(model="openai/gpt-4o", credential="my-openai-cred"),
    Conciseness(model="openai/gpt-4o", credential="my-openai-cred"),
    word_count_evaluator,        # Function evaluator
    contains_number_evaluator,   # Function evaluator
]

# The evaluate() function automatically wraps these with EvalFn
experiment_result = evaluate(
    dataset=dataset,
    task=my_llm_task,
    evaluators=evaluators,
    score_fn_kwargs_mapping={
        "output": "answer",      # Maps to function parameter
        "response": "answer",    # Maps to class evaluator parameter
    }
)
```

### 6. Run Experiments

```python
from fiddler_evals import evaluate

# Define your AI application task
def my_llm_task(inputs: dict, extras: dict, metadata: dict) -> dict:
    question = inputs.get("question", "")
    # Your LLM API call here
    answer = call_your_llm(question)
    return {"answer": answer}

# Set up evaluators with different configurations
evaluators = [
    # LLM-as-a-Judge evaluators (require model parameter)
    AnswerRelevance(
        model="openai/gpt-4o",
        credential="my-openai-cred",
        score_name_prefix="primary"
    ),
    Conciseness(
        model="openai/gpt-4o",
        credential="my-openai-cred",
        score_name_prefix="primary"
    ),

    # Other evaluators
    Sentiment(score_name_prefix="primary"),

    # Custom evaluators with specific mappings
    PolitenessEvaluator(
        score_name_prefix="quality",
        score_fn_kwargs_mapping={"output": "answer"}
    ),

    # Multiple instances of same evaluator for different fields
    RegexSearch(
        pattern=r"\d+",
        score_name_prefix="question",
        score_name="has_number",
        score_fn_kwargs_mapping={"output": "question"}
    ),
    RegexSearch(
        pattern=r"\d+",
        score_name_prefix="answer",
        score_name="has_number",
        score_fn_kwargs_mapping={"output": "answer"}
    ),
]

# Run evaluation
experiment_result = evaluate(
    dataset=dataset,
    task=my_llm_task,
    evaluators=evaluators,
    name_prefix="my_evaluation",
    description="Comprehensive LLM evaluation",
    score_fn_kwargs_mapping={
        "question": lambda x: x["inputs"]["question"],
        "response": "answer",
        "text": "answer",
        "prompt": lambda x: x["inputs"]["question"],
    }
)

print(f"Evaluated {len(experiment_result.results)} test cases")
print(f"Generated {sum(len(result.scores) for result in experiment_result.results)} scores")

# Results in organized score names:
# "primary_answer_relevance", "primary_conciseness", "primary_sentiment",
# "quality_politeness", "question_has_number", "answer_has_number"
```

## Built-in Evaluators

| Evaluator | Purpose | Constructor Parameters | Score Parameters |
|-----------|---------|------------------------|------------------|
| `AnswerRelevance` | Checks if response addresses the question | `model` (required), `credential` (required) | `prompt`, `response` |
| `Coherence` | Evaluates logical flow and consistency | `model` (required), `credential` (required) | `response`, `prompt` (optional) |
| `Conciseness` | Measures response brevity and clarity | `model` (required), `credential` (required) | `response` |
| `Sentiment` | Analyzes emotional tone | - | `text` |
| `RegexSearch` | Pattern matching for specific formats | `pattern` (required) | `output` |
| `FTLPromptSafety` | Compute safety scores for prompts | - | `text` |
| `FTLResponseFaithfulness` | Evaluate faithfulness of LLM responses | - | `response`, `context` |

**Note:** Evaluators marked with `model` and `credential` parameters are LLM-as-a-Judge evaluators that require an LLM Gateway model. The `model` parameter should be in `{provider}/{model}` format (e.g., `openai/gpt-4o`). The `credential` parameter is the name of the LLM Gateway credential for authentication.

## Data Import Options

### CSV Files
```python
dataset.insert_from_csv_file(
    file_path='data.csv',
    input_columns=['question'],
    expected_output_columns=['answer'],
    metadata_columns=['category']
)
```

### JSONL Files
```python
dataset.insert_from_jsonl_file(
    file_path='data.jsonl',
    input_keys=['question'],
    expected_output_keys=['answer'],
    metadata_keys=['category']
)
```

### Pandas DataFrames
```python
dataset.insert_from_pandas(
    df=df,
    input_columns=['question'],
    expected_output_columns=['answer'],
    metadata_columns=['category']
)
```

## Advanced Usage

### Concurrent Processing
```python
experiment_result = evaluate(
    dataset=dataset,
    task=my_llm_task,
    evaluators=evaluators,
    max_workers=4  # Process 4 test cases concurrently
)
```

### Custom Score Mapping

The `score_fn_kwargs_mapping` parameter is essential for connecting your task outputs to evaluator inputs. Different evaluators expect different parameter names, but your task function returns outputs with specific keys.

```python
# Your task returns:
{"answer": "Paris is the capital of France"}

# But evaluators expect different parameter names:
AnswerRelevance.score(prompt="...", response="...")  # Needs 'prompt' and 'response'
Conciseness.score(response="...")                    # Needs 'response'
Sentiment.score(text="...")                         # Needs 'text'
```

**The Solution**: Map your output keys to evaluator parameter names:

```python
score_fn_kwargs_mapping={
    "question": "question",           # Map 'question' parameter to 'question' key
    "response": "answer",            # Map 'response' parameter to 'answer' key
    "text": "answer",                # Map 'text' parameter to 'answer' key
    "prompt": lambda x: x["inputs"]["question"],  # Map 'prompt' to input question
    "context": lambda x: x["extras"]["context"]   # Map 'context' to extras
}
```

### Multiple Evaluator Instances with Different Mappings

You can create multiple instances of the same evaluator with different parameter mappings and score name prefixes to evaluate different aspects of your outputs. Use `score_name_prefix` to organize and distinguish scores when using multiple evaluator instances:

```python
from fiddler_evals.evaluators import RegexSearch

# Create multiple RegexSearch evaluators for different fields
evaluators = [
    # Check for numbers in the question
    RegexSearch(
        pattern=r"\d+",
        score_name_prefix="question",
        score_name="has_number",
        score_fn_kwargs_mapping={"output": "question"}
    ),
    # Check for numbers in the answer
    RegexSearch(
        pattern=r"\d+",
        score_name_prefix="answer",
        score_name="has_number",
        score_fn_kwargs_mapping={"output": "answer"}
    ),
    # Check for capital letters in the answer
    RegexSearch(
        pattern=r"[A-Z]",
        score_name_prefix="answer",
        score_name="has_caps",
        score_fn_kwargs_mapping={"output": "answer"}
    )
]

# Run evaluation
experiment_result = evaluate(
    dataset=dataset,
    task=my_llm_task,
    evaluators=evaluators,
    score_fn_kwargs_mapping={
        "question": lambda x: x["inputs"]["question"]
    }
)

# Results in scores named:
# "question_has_number", "answer_has_number", "answer_has_caps"
```

### Parameter Mapping Priority

When both evaluator-level and evaluation-level mappings are present, evaluator-level mappings take precedence:

```python
# Evaluator-level mapping (higher priority)
evaluator = RegexSearch(
    pattern=r"\d+",
    score_fn_kwargs_mapping={"output": "answer"}  # This takes precedence
)

# Evaluation-level mapping (lower priority)
experiment_result = evaluate(
    dataset=dataset,
    task=my_llm_task,
    evaluators=[evaluator],
    score_fn_kwargs_mapping={
        "output": "question"  # This is ignored due to evaluator-level mapping
    }
)
```

**Mapping Priority (highest to lowest):**
1. Evaluator-level `score_fn_kwargs_mapping` (set in evaluator constructor)
2. Evaluation-level `score_fn_kwargs_mapping` (passed to evaluate function)
3. Default parameter resolution

### Experiment Metadata
```python
experiment_result = evaluate(
    dataset=dataset,
    task=my_llm_task,
    evaluators=evaluators,
    metadata={
        "model_version": "gpt-4",
        "evaluation_date": "2024-01-15",
        "temperature": 0.7
    }
)
```
